SEMICONDUCTORS SELECTION GUIDE Microcomputer 1 IC Memory 2 Semi-Custom IC 3 Particular Purpose 4 General Purpose Linear IC 5 Transistor/Diode/Thyristor 6 RF and Microwave Devices 7 Optical Device 8 Index 9 April 1999 The export of these products from Japan is regulated by the Japanese government. The export of some or all of these products may be prohibited without governmental license. To export or re-export some or all of these products from a country other than Japan may also be prohibited without a license from that country. Please call an NEC sales representative. Exporting VR Series or equipment that includes these products may require a governmental license from the U.S.A. for some countries because these products utilizes technologies limited by the export control regulations of the U.S.A. D2BGA, EEPROM, emlC-17K, FIP, FPBGA, IEBus, OCMOS FET, OPENCAD, SIMPLEHOST, VISTASL, V20HL, V30HL, V30MT, V30MX, V30MZ, V30MZC, V800 Series, V810 family, V830 family, V850 family, V821, V831, V832, V851, V852, V853, V854, V850E/MS1, V850/SA1, V850/SB1, V850/SB2, VR Series, VR4100 Series, VR4300 Series, VR4100, VR4101, VR4102, VR4111, VR4120, VR4121, VR4300, VR4305, VR4310, VR5000, VR5432, VR5464, VR10000, VR12000 are the trademarks of NEC Corporation. JAVA and all the trademarks and logotypes related to JAVA are either trademarks or registered trademarks of Sun Microsystems, Inc. in the United States and/or other countries. MS-DOS, Microsoft, Windows and WindowsNT are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. Rambus, RDRAM and the Rambus Logo are registered trademarks of Rambus Inc. DirectRambus, DirectRDRAM, RIMM, RModule and RSocket are trademarks of Rambus Inc. PC/AT and PC DOS are trademarks of IBM Corporation. Pentium is a trademark of Intel Corporation. SPARCstation is a trademark of SPARC International, Inc. TrueSpeech is a trademark of DSP Group, Inc. Z80 is a trademark of ZILOG. µ BGA is a trademark of Tessera, Inc. TRON is short for the Realtime Operating System Nucleus. ITRON is short for Industrial TRON. • The information in this document is based on documents issued in February, 1999 at the latest. The information is subject to change without notice. For actual design-in, refer to the latest publications of data sheet, etc., for the most up-to-date specifications of the device. • Not all devices/types available in every country. Please check with local NEC representative for availability and additional information. • No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in this document. • NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Corporation or others. • Descriptions of circuits, software, and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. The incorporation of these circuits, software, and information in the design of the customer's equipment shall be done under the full responsibility of the customer. NEC Corporation assumes no responsibility for any losses incurred by the customer or third parties arising from the use of these circuits, software, and information. • While NEC Corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. • NEC devices are classified into the following three quality grades: "Standard", "Special", and "Specific". The Specific quality grade applies only to devices developed based on a customer designated “quality assurance program“ for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application. Standard: Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) Specific: Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets or Data Books. If customers intend to use NEC devices for applications other than those specified for Standard quality grade, they should contact an NEC sales representative in advance. M8D 98.12 The µPD754144, 754244, 754264, 75F4264, 789196AY, 789197AY, 78F9197AY, 789216AY, 789217AY, 78F9217AY, 780973, 78F0974, 780949, 78F0949 are manufactured and sold in accordance with the license agreement with CP8 Transac pertinent to the patent of microcomputers with on-chip EEPROM. Note that this product can not be used for the IC card (SMART CARD). Caution: The I 2C bus interface circuit is incorporated in the µPD17709 subseries, 17719 subseries, 178018A subseries, 178048 subseries, 178078 subseries, 178098 subseries, 780018AY subseries, 780024AY subseries, 780034AY subseries, 780058Y subseries, 780078Y subseries, 78018FY subseries, 780308Y subseries, 78054Y subseries, 78058FY subseries, 78064Y subseries, 780701Y subseries, 78078Y subseries, 780833Y subseries, 784038Y subseries, 784216Y subseries, 784218Y subseries, 784225Y subseries, 784928Y subseries, 789197AY subseries, 789217AY subseries, µPD17001, 17P001, 17003A, 17005, 17P005, 17010, 17P010, 703008Y, 70F3008Y, 703015Y, 703017Y, 70F3017Y, 703033Y, 70F3033Y, 70F3035Y, 78070AY, µPC1851B, 1853, 1854A, 1857A, 1884, µPD61882, 6221, 6222 and 72254Y. Those who use the I2C bus interface can be granted the license below by giving prior notification before ordering the custom code. Purchase of NEC I 2C components conveys a license under the Philips I2C Patent Rights to use these components in an I 2C system, provided that the system conforms to the I2C Standard Specification as defined by Philips. [MEMO] Table of Contents 1. Microcomputer ....................................... 1 4. Particular Purpose IC 4-Bit Single-Chip Microcontroller .................... 2 DSP .................................................................. 240 • 75XL Series .............................................. 2 CCD Linear Image Sensor .............................. 243 • 17K Series ................................................ 13 Communication IC ........................................... 245 ............................ 239 • µPD6133, 6604, 63 Series ...................... 20 Mass Storage IC .............................................. 250 8-Bit Single-Chip Microcontroller .................... 22 Global Positioning System IC ......................... 251 • 178K Series .............................................. 22 Display IC ......................................................... 251 • 78K/0S Series ........................................... 26 Intelligent Power MOS LSI .............................. 254 • 78K/0 Series ............................................. 41 Power Switch for USB Application ................. 255 16-Bit Single-Chip Microcontroller .................. 80 Image IC .......................................................... 255 • 78K/IV Series ........................................... 80 MPEG IC .......................................................... 256 32-Bit Microprocessor ..................................... 97 Audio IC ........................................................... 257 • V810 Family , V830 Family ................. 98 TV IC ................................................................ 259 32-Bit Single-Chip Microcontroller .................. 99 Multisync Monitor IC ........................................ 262 99 Digital Image IC ............................................... 263 64-Bit Microprocessor ..................................... 105 On-Screen Character Display IC .................... 265 TM TM TM • V850 Family ........................................... • VR Series TM ............................................... 105 Video Camera IC ............................................. 265 Development Tools .......................................... 107 Remote Control IC ........................................... 266 Middleware ....................................................... 134 Clock IC ........................................................... 266 Rotary Encoder IC ........................................... 266 2. IC Memory .............................................. 137 A/D Converter IC ............................................. 267 D/A Converter IC ............................................. 267 Dynamic RAM .................................................. 138 Line Driver Receiver IC ................................... 267 Dynamic RAM Module ..................................... 142 Static RAM ....................................................... 146 5. General Purpose Linear IC ................... 269 Mask ROM ....................................................... 151 COMBO Memory ............................................. 152 Operational Amplifier ....................................... 270 Flash MEMORY ............................................... 152 Comparator ...................................................... 271 MCP (Flash Memory + SRAM) ....................... 153 Fixed Output Voltage, 3-Terminal Regulator ... 271 Other ................................................................ 153 Variable Output Voltage Regulator ................. 272 • Field/Line Buffer ....................................... 153 Regulator with System Reset ......................... 272 Regulator with ON/OFF Function ................... 272 3. Semi-Custom IC ..................................... 155 High Precision Reference Voltage ................. 273 Switching Regulator Control Circuit ............... 273 NEC’s ASICs ................................................... 156 Functional Block .............................................. 274 0.25 µm ASIC .................................................. 166 Gate Array ........................................................ 172 6. Transistor/Diode/Thyristor ..................... 275 • CMOS Gate Array .................................... 176 • BiCMOS Gate Array ................................. 195 Transistor ......................................................... 276 Cell-Based IC ................................................... 200 • Quick Reference by Package .................. 276 Embedded Array .............................................. 217 • Quick Reference Table by Analog Master .................................................. 220 Function/Application ................................. 286 Mixed Signal ASIC .......................................... 223 –i– Field Effect Transistor ..................................... 292 Infrared Transceivers ...................................... 378 • Small Signal FET ..................................... 292 Plastic Fiber Link ............................................. 378 • Power MOS FET ...................................... 295 Visible Lasers .................................................. 380 Transistor with Internal Resistor ..................... 309 Fiberoptic Devices ........................................... 380 Transistor for Array ......................................... 314 • Lasers (Digital) ......................................... 380 Transistor Array ............................................... 315 • Pump Laser .............................................. 381 Zener Diode ..................................................... 317 • Pulsed Lasers for OTDR .......................... 381 Noise Clipping Diode ....................................... 319 • Detectors ................................................... 382 Thyristor ........................................................... 321 9. Index 7. RF and Microwave Devices .................. 323 IC ...................................................................... 324 • AGC AMP. (µPC××××, µPG××××) ........... 324 • IQ Modulator/Demodulator (µPC××××) .... 324 • Up Converter (µPC××××) ......................... 324 • Prescaler (µPB××××, µPG××××) .............. 325 • Down Converter (µPC××××) ..................... 326 • PLL Synthesizer (µPB××××) .................... 327 • Switch (µPG××××) .................................... 327 • Wide Band AMP. (µPC××××, µPG××××) ... 328 • Driver AMP. (µPG××××) ........................... 330 • Power AMP. (µPG××××, MC-××××) ......... 330 • Transistor Array (µPA×××) ....................... 330 • Typical Characteristics ............................. 331 Discrete ............................................................ 335 • Dual Gate MES/MOS FET ....................... 335 • Low Noise BIP. TR. (2SC, NE) ............... 336 • Twin TR. (µPA×××) ................................... 338 • Low Noise GaAs/HJ FET (NE) ................ 339 • Power TR./FET (2SC, NE, NEL, NEM, NES, NEZ) ...................................... 341 • Cross-reference Table ............................. 344 Application ....................................................... 351 8. Optical Device ........................................ 359 Photocoupler .................................................... 360 • Tr. Output Type ........................................ 360 • IC Output Type ......................................... 369 • Safety Standards Approval List (Made in Japan, as of January 1999) ..... 370 • Safety Standards Approval List (Made in Taiwan, as of January 1999) ... 372 OCMOS FETTM (Opto-Coupled MOS FET Relay) ............................................................... 373 • Safety Standards Approval List (as of January 1999) ................................ 377 – ii – ....................................................... 383 Microcomputer 1 4-Bit Single-Chip Microcontroller ................................ 2 • 75XL Series ................................................................ 2 • 17K Series .................................................................. 13 • µPD6133, 6604, 63 Series ......................................... 20 8-Bit Single-Chip Microcontroller ................................ 22 • 178K Series ................................................................ 22 • 78K/0S Series ............................................................. 26 • 78K/0 Series ............................................................... 41 16-Bit Single-Chip Microcontroller .............................. 80 • 78K/IV Series ............................................................. 80 32-Bit Microprocessor ................................................... 97 • V810 FamilyTM, V830 FamilyTM .................................. 98 32-Bit Single-Chip Microcontroller .............................. 99 • V850 FamilyTM ............................................................. 99 64-Bit Microprocessor ................................................... 105 • VR SeriesTM .................................................................. 105 Development Tools ........................................................ 107 Middleware ...................................................................... 134 Selection Guide X10679EJHV0SG00 1 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ 75XL Series Products Product Evolution General-purpose products Products with internal PROM µPD754304 µPD75P4308 µPD754302 36-pin General-purpose µPD750108 µPD750106 µPD75P0116 µPD750104 µPD750008 µPD750006 µPD75P0016 µPD750004 42-pin General-purpose dual clock µPD750068 µPD750066 µPD75P0076 µPD750064 42-pin A/D dual clock For key-less entry µPD754264 µPD754244 µPD754144 ★ µ PD75F4264★ µPD754202 20-pin EEPROM Products with on-chip LCD µPD753017A µPD753016A µ PD75P3018A µPD753012A 80-pin 128 segment µPD753108 µPD753106 µPD75P3116 µPD753104 64-pin 96 segment µPD753208 µPD753206 µPD75P3216 µPD753204 48-pin 48 segment µPD753304 42-pin 96 segment µPD753036 µPD75P3036 80-pin 80 segment + A/D ★ : Under development 2 Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ General-Purpose 42-pin (1/2) Part number µPD750004 µPD750006 µPD750008 µPD75P0016 ROM (bytes) 4096 (Mask ROM) 6144 (Mask ROM) 8192 (Mask ROM) 16384 (One-time PROM) 512 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) • 122 µs (with 32.768 kHz subsystem clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 2.2 to 5.5 V) Minimum instruction execution time CMOS input 8 On-chip pull-up resistors are connectable by software: 7 CMOS I/O 18 Can drive LED On-chip pull-up resistors are connectable by software 8 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option I/O port 34 N-ch open-drain I/O Timer Serial interface Vectored interrupt Test input Clock output (PCL) Buzzer output (BUZ) Instruction set Power supply voltage Package Development tools Applications 4 channels • • • • Can drive LED 13 V withstand voltage No on-chip pull-up resistors 8-bit timer/event counter × 1 channel Basic interval timer/watchdog timer × 1 channel Watch timer × 1 channel 8-bit timer × 1 channel Any of three modes can be used: • 3-wire serial I/O mode: MSB/LSB switchable • 2-wire serial I/O mode • SBI mode External: 3, Internal: 4 External: 1, Internal: 1 • Φ, 524 kHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 750 kHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) • 2 kHz, 4 kHz, 32 kHz (with 4.19 MHz main system clock, or 32.768 kHz subsystem clock) • 2.93 kHz, 5.86 kHz, 46.9 kHz (with 6.0 MHz main system clock) • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison VDD = 2.2 to 5.5 V (VDD = 1.8 to 5.5 V with external clock) • 42-pin plastic shrink DIP (600 mil) • 44-pin plastic QFP (10 × 10 mm) Assembler, IE controller, device file, in-circuit emulator VCRs, CD players, cordless telephones, radios, cameras, home electric appliances, etc. Selection Guide X10679EJHV0SG00 3 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ General-Purpose 42-pin (2/2) Part number µPD750104 µPD750106 µPD750108 µPD75P0116 ROM (bytes) 4096 (Mask ROM) 6144 (Mask ROM) 8192 (Mask ROM) 16384 (One-time PROM) 512 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 2 µs, 4 µs, 8 µs, 32 µs (with RC 2.0 MHz main system clock) • 4 µs, 8 µs, 16 µs, 64 µs (with RC 1.0 MHz main system clock) • 122 µs (with 32.768 kHz subsystem clock) Instruction cycle Minimum instruction execution time 2 µs (VDD = 1.8 to 5.5 V) CMOS input 8 On-chip pull-up resistors are connectable by software: 7 CMOS I/O 18 Can drive LED On-chip pull-up resistors are connectable by software 8 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option I/O port 34 N-ch open-drain I/O Timer Serial interface Vectored interrupt Test input Clock output (PCL) 4 channels Can drive LED 13 V withstand voltage No on-chip pull-up resistors • 8-bit timer/event counter × 1 channel • Basic interval timer/watchdog timer × 1 channel • Watch timer × 1 channel • 8-bit timer × 1 channel Any of three modes can be used: • 3-wire serial I/O mode: MSB/LSB switchable • 2-wire serial I/O mode • SBI mode External: 3, Internal: 4 External: 1, Internal: 1 Φ, 125 kHz, 62.5 kHz, 15.6 kHz (with 1.0 MHz main system clock) Buzzer output (BUZ) • 2 kHz, 4 kHz, 32 kHz (with 32.768 kHz subsystem clock) • 0.49 kHz, 0.98 kHz, 7.81 kHz (with 1.0 MHz main system clock) Instruction set • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison Power supply voltage Package Development tools Applications 4 VDD = 1.8 to 5.5 V • 42-pin plastic shrink DIP (600 mil) • 44-pin plastic QFP (10 × 10 mm) Assembler, IE controller, device file, in-circuit emulator VCRs, CD players, cordless telephones, radios, cameras, home electric appliances, etc. Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ General-Purpose 42-pin (A/D) Part number µPD750064 µPD750066 µPD750068 µPD75P0076 ROM (bytes) 4096 (Mask ROM) 6144 (Mask ROM) 8192 (Mask ROM) 16384 (One-time PROM) 512 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) • 122 µs (with 32.768 kHz subsystem clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 1.8 to 5.5 V) Minimum instruction execution time I/O port CMOS input 12 On-chip pull-up resistors are connectable by software: 7 Also used for analog input pins: 4 CMOS I/O 12 Can drive LED On-chip pull-up resistors are connectable by software Also used for analog input pins: 4 8 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option N-ch open-drain I/O Timer 32 4 channels • 8-bit timer/event counter: 2 channels (Usable as 16-bit timer/event counter) • Basic interval timer/watchdog timer: 1 channel • Watch timer: 1 channel Serial interface Any of two modes can be used: • 3-wire serial I/O mode (MSB/LSB switchable) • 2-wire serial I/O mode A/D converter 8-bit resolution × 8 channels Vectored interrupt Test input Can drive LED 13 V withstand voltage No on-chip pull-up resistors External: 3, Internal: 4 External: 1, Internal: 1 Clock output (PCL) • Φ, 1.05 MHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 1.5 MHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) Buzzer output (BUZ) • 2 kHz, 4 kHz, 32 kHz (with 4.19 MHz main system clock, or 32.768 kHz subsystem clock) • 2.93 kHz, 5.86 kHz, 46.9 kHz (with 6.0 MHz main system clock) Instruction set • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/oprations/increment and decrement/comparison Power supply voltage Package Development tools Applications VDD = 1.8 to 5.5 V • 42-pin plastic shrink DIP (600 mil, 1.778-mm pitch) • 42-pin plastic shrink SOP (375 mil, 0.8-mm pitch) Assembler, IE controller, device file, in-circuit emulator Cordless telephones, AV equipment, home electric appliances, OA equipment, health equipment, meters, gas tables, etc. Selection Guide X10679EJHV0SG00 5 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ General-Purpose 36-pin Part number µPD754302 µPD754304 µPD75P4308 ROM (bytes) 2048 (Mask ROM) 4096 (Mask ROM) 8192 (One-time PROM) 256 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 1.8 to 5.5 V) Minimum instruction execution time CMOS input 8 On-chip pull-up resistors are connectable by software: 7 CMOS I/O 18 Can drive LED On-chip pull-up resistors are connectable by software 4 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option I/O port 30 N-ch open-drain I/O Timer Serial interface Vectored interrupt Test input 3 channels Can drive LED 13 V withstand voltage No on-chip pull-up resistors 8-bit timer/event counter × 2 channels (usable as 16-bit timer/event counter) Basic interval timer/watchdog timer × 1 channel Either of two modes can be used: • 3-wire serial I/O mode: MSB/LSB switchable • 2-wire serial I/O mode External: 3, Internal: 4 External: 1 Clock output (PCL) • Φ, 524 kHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 750 kHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) Instruction set • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison Power supply voltage Package Development tools Applications 6 VDD = 1.8 to 5.5 V • 36-pin plastic shrink SOP (300 mil, 0.8-mm pitch) Assembler, IE controller, device file, in-circuit emulator Cordless telephones, TVs, VCRs, audio equipment, home electric appliances, OA equipment, etc. Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ Keyless Entry Part number µPD754202 ROM (bytes) 2048 (Mask ROM) µPD754244 µPD754144 µPD75F4264★ µPD754264 4096 (Flash memory) 4096 (Mask ROM) 128 RAM (× 4 bits) — EEPROMTM (bytes) 16 32 (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register Instruction cycle • 0.95 µs, 1.91 µs, 3.81 µs, • 4 µs, 8 µs, 16 µs, 64 µs 15.3 µs (with 4.19 MHz (with 1 MHz system System clock) clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz System clock) • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz system clock) Minimum instruction execution time • 0.67 µs (VDD = 2.7 to 6.0 V) • 0.95 µs (VDD = 1.8 to 6.0 V) • 0.67 µs (VDD = 2.7 to 6.0 V) • 0.95 µs (VDD = 1.8 to 6.0 V) CMOS input I/O port 4 Pull-up resistors can be incorporated by mask option 9 Can drive LED On-chip pull-up resistors are connectable by software 13 CMOS I/O Systrem clock oscillator Timer Programmable threshold port A/D converter 2 µs (VDD = 1.8 to 6.0 V) Crystal/ceramic oscillator 4 channels RC oscillator (external resistors and capacitors) Crystal/ceramic oscillator • 8-bit timer counter: 3 channels (Usable as 16-bit timer counter or remote controller signal carrier generator) • Basic interval timer/watchdog timer: 1 channel 4-bit resolution × 2 — Key return reset function Vectored interrupt External: 1, internal: 5 Instruction set Power supply voltage Package Development tools Applications — 8-bit resolution × 2 — Others Test input No on-chip pull-up resistors External: 1 • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison VDD = 1.8 to 6.0 V • 20-pin plastic SOP (300 mil, 1.27-mm pitch) • 20-pin plastic shrink SOP (300 mil, 0.65-mm pitch) 20-pin plastic SOP (300 mil, 1.27-mm pitch) Assembler, IE controller, device file, in-circuit emulator Keyless entries, data carriers ★: Selection Guide X10679EJHV0SG00 Under development 7 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ LCD-Driver 80-pin Part number µPD753012A µPD753016A µPD753017A µPD75P3018A ROM (bytes) 12288 (Mask ROM) 16384 (Mask ROM) 24576 (Mask ROM) 32768 (One-time PROM) 1024 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) • 122 µs (with 32.768 kHz subsystem clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 1.8 to 5.5 V) Minimum instruction execution time I/O port CMOS input 8 On-chip pull-up resistors are connectable by software: 7 CMOS I/O 16 Can drive LED On-chip pull-up resistors are connectable by software 8 Also used for segment pins 8 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option CMOS I/O N-ch open-drain I/O LCD controller/driver 40 • Number of segments selectable: 24/28/32 segments (switchable to CMOS ports in multiples of 4: 8 maximum) • Selectable display mode: Static, 1/2 duty (1/2 bias), 1/3 duty (1/2 bias), 1/3 duty (1/3 bias), 1/4 duty (1/3 bias) Voltage divider resistors for LCD drive can be incorporated by mask option Timer Serial interface Can drive LED 13 V withstand voltage No on-chip pull-up resistors 5 channels No on-chip voltage divider resistors for LCD drive • 8-bit timer/event counter: 3 channels (usable as 16-bit timer/event counter or remote-controller signal carrier generator) • Basic interval timer/watchdog timer × 1 channel • Watch timer × 1 channel Any of three modes can be used: • 3-wire serial I/O mode: MSB/LSB switchable • 2-wire serial I/O mode • SBI mode Vectored interrupt External: 3, Internal: 5 Test input External: 1, Internal: 1 Clock output (PCL) • Φ, 524 kHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 750 kHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) Buzzer output (BUZ) • 2 kHz, 4 kHz, 32 kHz (with 4.19 MHz main system clock, or with 32.768 kHz subsystem clock) • 2.93 kHz, 5.86 kHz, 46.9 kHz (with 6.0 MHz main system clock) Instruction set • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison Power supply voltage Package Development tools Applications 8 VDD = 1.8 to 5.5 V • 80-pin plastic QFP (14 × 14 mm) • 80-pin plastic TQFP (fine pitch) (12 × 12 mm) Assembler, IE controller, device file, in-circuit emulator Camcorders, CD players, telephones, cameras, pagers, remote controllers, etc. Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ LCD-Driver 64-pin Part number µPD753104 µPD753106 µPD753108 µPD75P3116 ROM (bytes) 4096 (Mask ROM) 6144 (Mask ROM) 8192 (Mask ROM) 16384 (One-time PROM) 512 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) • 122 µs (with 32.768 kHz subsystem clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 1.8 to 5.5 V) Minimum instruction execution time I/O port CMOS input 8 On-chip pull-up resistors are connectable by software: 7 CMOS I/O 12 Can drive LED On-chip pull-up resistors are connectable by software 8 Also used for segment pins 4 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option CMOS I/O N-ch open-drain I/O LCD controller/driver 32 • Number of segments selectable: 16/20/24 segments (switchable to CMOS ports in multiples of 4: 8 maximum) • Selectable display mode: Static, 1/2 duty (1/2 bias), 1/3 duty (1/2 bias), 1/3 duty (1/3 bias), 1/4 duty (1/3 bias) Voltage divider resistors for LCD drive can be incorporated by mask option Timer Serial interface Can drive LED 13 V withstand voltage No on-chip pull-up resistors 5 channels No on-chip voltage divider resistors for LCD drive • 8-bit timer/event counter: 3 channels (usable as 16-bit timer/event counter or remote-controller signal carrier generator) • Basic interval timer/watchdog timer × 1 channel • Watch timer × 1 channel Any of three modes can be used: • 3-wire serial I/O mode: MSB/LSB switchable • 2-wire serial I/O mode • SBI mode Vectored interrupt External: 3, Internal: 5 Test input External: 1, Internal: 1 Clock output (PCL) • Φ, 524 kHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 750 kHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) Buzzer output (BUZ) • 2 kHz, 4 kHz, 32 kHz (with 4.19 MHz main system clock, or with 32.768 kHz subsystem clock) • 2.93 kHz, 5.86 kHz, 46.9 kHz (with 6.0 MHz main system clock) Instruction set • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison Power supply voltage Package Development tools Applications VDD = 1.8 to 5.5 V • 64-pin plastic QFP (14 × 14 mm) • 64-pin plastic TQFP (12 × 12 mm) Assembler, IE controller, device file, in-circuit emulator Telephones, cameras, sphygmomanometers, gas meters, electronic scales, remote controllers, etc. Selection Guide X10679EJHV0SG00 9 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ LCD-Driver 48-pin Part number µPD753204 µPD753206 µPD753208 µPD75P3216 ROM (bytes) 4096 (Mask ROM) 6144 (Mask ROM) 8192 (Mask ROM) 16384 (One-time PROM) 512 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 1.8 to 5.5 V) Minimum instruction execution time I/O port CMOS input 6 On-chip pull-up resistors are connectable by software: 5 CMOS I/O 12 Can drive LED On-chip pull-up resistors are connectable by software 8 Also used for segment pins On-chip pull-up resistors are connectable by software 4 Can drive LED, 13 V withstand voltage Pull-up resistors can be incorporated by mask option CMOS I/O N-ch open-drain I/O LCD controller/driver 30 • Number of segments selectable: 4/8/12 segments • Selectable display mode: Static, 1/2 duty (1/2 bias), 1/3 duty (1/2 bias), 1/3 duty (1/3 bias), 1/4 duty (1/3 bias) Voltage divider resistors for LCD drive can be incorporated by mask option Timer Serial interface Can drive LED 13 V withstand voltage No on-chip pull-up resistors 5 channels No on-chip voltage divider resistors for LCD drive • 8-bit timer/event counter × 1 channel • Basic interval timer/watchdog timer × 1 channel • Watch timer × 1 channel • 8-bit timer × 2 channels (usable as 16-bit timer or remote controller signal carrier generator) Any of three modes can be used: • 3-wire serial I/O mode: MSB/LSB switchable • 2-wire serial I/O mode • SBI mode Vectored interrupt External: 2, Internal: 5 Test input External: 1, Internal: 1 Clock output (PCL) • Φ, 524 kHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 750 kHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) Buzzer output (BUZ) • 2 kHz, 4 kHz, 32 kHz (with 4.19 MHz main system clock) • 2.93 kHz, 5.86 kHz, 46.9 kHz (with 6.0 MHz main system clock) Instruction set • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison Power supply voltage Package Development tools Applications 10 VDD = 1.8 to 5.5 V 48-pin plastic shrink SOP (375 mil, 0.65-mm pitch) Assembler, IE controller, device file, in-circuit emulator Remote controllers, cameras, sphygmomanometers, CD radio cassette players, gas meters, etc. Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ LCD-Driver 42-pin Part number µPD753304 ROM (bytes) 4096 (Mask ROM) RAM (× 4 bits) 256 (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register 1.1 µs, 2.2 µs, 4.4 µs, 17.8 µs (with 3.6 MHz main system clock, RC oscillator) Instruction cycle 85.1 µs (with 47 kHz subsystem clock, RC oscillator) • 0.67 µs (VDD = 4.5 to 5.5 V) • 0.8 µs (VDD = 2.5 to 5.5 V) Minimum instruction execution time I/O port CMOS I/O CMOS I/O LCD controller/driver 12 8 On-chip pull-up resistors are connectable by software: 4 4 Also used for segment pins • Number of segments selectable: 20/24 segments (switchable to CMOS I/O ports in multiples of 4 : 4) • Selectable display mode: Static, 1/2 duty (1/2 bias), 1/3 duty (1/2 bias), 1/3 duty (1/3 bias), 1/4 duty (1/3 bias) On-chip voltage divider resistors for LCD drive Timer Vectored interrupt Test input Clock output (PCL) Buzzer output (BUZ) Instruction set 3 channels • 8-bit timer: 1 channel • Basic interval timer/watchdog timer: 1 channel • Watch timer: 1 channel External: 1, Internal: 2 Internal: 1 Φ, 3.6 MHz, 450 kHz, 225 kHz (with 3.6 MHz main system clock) • 2.94 kHz, 5.88 kHz, 47 kHz (with 47 kHz subsystem clock) • 1.76 kHz, 3.52 kHz, 28.13 kHz (with 3.6 MHz main system clock) • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison Power supply voltage VDD = 2.5 to 5.5 V Operating ambient temperature TA = –10 to +60°C Package Development tools Applications • 42-pin pellet/wafer • 42-pin ceramic shrink DIP (600 mil) (ES only) Assembler, IE controller, device file, in-circuit emulator Small-size LCD displays, etc. Selection Guide X10679EJHV0SG00 11 Microcomputer 4-Bit Single-Chip Microcontroller 75XL Series ■ LCD-Driver 80-pin (A/D) Part number µPD753036 µPD75P3036 ROM (bytes) 16384 (Mask ROM) 16384 (One-time PROM) 768 RAM (× 4 bits) (4-bit × 8) × 4 banks or (8-bit × 4) × 4 banks General-purpose register • 0.95 µs, 1.91 µs, 3.81 µs, 15.3 µs (with 4.19 MHz main system clock) • 0.67 µs, 1.33 µs, 2.67 µs, 10.7 µs (with 6.0 MHz main system clock) • 122 µs (with 32.768 kHz subsystem clock) Instruction cycle • 0.67 µs (VDD = 2.7 to 5.5 V) • 0.95 µs (VDD = 1.8 to 5.5 V) Minimum instruction execution time I/O port CMOS input 8 On-chip pull-up resistors are connectable by software: 7 CMOS I/O 20 Can drive LED On-chip pull-up resistors are connectable by software 8 Also used for segment pins 8 Can drive LED 13 V withstand voltage Pull-up resistors can be incorporated by mask option Bit-port output N-ch open-drain I/O LCD controller/driver 44 • Number of segments selectable: 12/16/20 segments (switchable to bit-port output in multiples of 4: 8 maximum) • Selectable display mode: Static, 1/2 duty (1/2 bias), 1/3 duty (1/2 bias), 1/3 duty (1/3 bias), 1/4 duty (1/3 bias) Voltage divider resistors for LCD drive can be incorporated by mask option Timer Can drive LED, 13 V withstand voltage No on-chip pull-up resistors 5 channels No on-chip voltage divider resistors for LCD drive • 8-bit timer/event counter: 3 channels (Usable as 16-bit timer/event counter or remote controller signal carrier generator) • Basic interval timer/watchdog timer: 1 channel • Watch timer: 1 channel Serial interface Any of three modes can be used: • 3-wire serial I/O mode (MSB/LSB switchable) • 2-wire serial I/O mode • SBI mode A/D converter 8-bit resolution × 8 channels Vectored interrupt Test input External: 3, Internal: 5 External: 1, Internal: 1 Clock output (PCL) • Φ, 524 kHz, 262 kHz, 65.5 kHz (with 4.19 MHz main system clock) • Φ, 750 kHz, 375 kHz, 93.8 kHz (with 6.0 MHz main system clock) Buzzer output (BUZ) • 2 kHz, 4 kHz, 32 kHz (with 4.19 MHz main system clock, or 32.768 kHz subsystem clock) • 2.93 kHz, 5.86 kHz, 46.9 kHz (with 6.0 MHz main system clock) Instruction set Power supply voltage Package Development tools Applications 12 • Bit data set/reset/test/boolean operations • 4-/8-bit data transfer/operations/increment and decrement/comparison VDD = 1.8 to 5.5 V • 80-pin plastic QFP (14 × 14 mm) • 80-pin plastic TQFP (fine pitch) (12 × 12 mm) Assembler, IE controller, device file, in-circuit emulator Cordless telephones, AV equipment, home electric appliances, OA equipment, health equipment, meters, gas tables, etc. Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ 17K Series Product Evolution DTS Audio (On-chip LCD controller) µPD17017 µPD17P005 µPD17005 ROM: 16K bytes µPD17016 ROM: 8K bytes µPD17003A LCD: 30 × 2segment 80-pin µPD17P010 ROM: 16K bytes Enhanced Interrupt and Timer function ROM: 8K bytes LCD: 30 × 2segment 80-pin µPD17010 ROM: 16K bytes, LCD: 30 × 2segment 80-pin µPD17P012 ROM: 8K bytes µPD17012 LCD: 20 × 3segment 64-pin Audio (without LCD controller) µPD17P709 ROM: 32K bytes, RAM: 1776 × 4 bits µPD17709 µPD17708 ROM: 32K bytes, RAM: 1120 × 4 bits µPD17707 ROM: 24K bytes, RAM: 1120 × 4 bits µPD17705 ROM: 24K bytes, RAM: 672 × 4 bits µPD17704 ROM: 16K bytes, RAM: 672 × 4 bits 80-pin Enhanced Serial Interface µPD17P001 µPD17001 ROM: 8K bytes, 48-pin µPD17P719 µPD17719 µPD17718 µPD17717 ROM: 32K bytes, RAM: 1776 × 4 bits ROM: 32K bytes, RAM: 1120 × 4 bits ROM: 24K bytes, RAM: 1120 × 4 bits 80-pin Portable µPD17015 VDD = 1.8V µPD17P073 µPD17073 µPD17072 ROM: 3K bytes, LCD: 9 × 4segment 38-pin µ PD17071 ROM: 8K bytes µ PD17934A ROM: 6K bytes LCD: 15 × 4segment 56-pin VDD = 0.9V µ PD17933A ROM: 16K bytes ROM: 12K bytes LCD: 20 × 4segment 80-pin ★: Under development Remote control transmitter (2.2 V operation) LCD remote-controller 80QFP µPD17P207 µPD17207 ROM 8K bytes µPD17201A ROM 6K bytes, LCD 34 x 4 segment Learning remote-controller 52QFP µPD17P204 52QFP µPD17P203A µ PD17203A µPD17204 ROM 8K bytes, SRAM 4K knibles ROM 16K bytes, SRAM 2K knibles Pre-set remote-controller/ASC 28SDIP/SOP µPD17P228★ µPD17228 ROM 16K bytes µPD17227 ROM 12K bytes µPD17226 ROM 8K bytes µPD17225 28SOP/30SSOP µPD17P236★ µPD17236★ ROM 32K bytes µPD17235★ ROM 24K bytes ROM 4K bytes ★: Under development Selection Guide X10679EJHV0SG00 13 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ Audio (On-Chip LCD Controller) Part number µPD17003A µPD17005 µPD17010 µPD17016 µPD17017 µPD17012 High-end tuner, automotive radio Main application ROM size 3836 × 16 bits 7932 × 16 bits 7932 × 16 bits 3836 × 16 bits 7932 × 16 bits 4096 × 16 bits RAM size 320 × 4 bits 432 × 4 bits 432 × 4 bits 320 × 4 bits 432 × 4 bits 316 × 4 bits On-chip LCD driver Segment signal: 30 Common signal: 2 Display On-chip LCD driver Segment signal: 20 Common signal: 3 8 Input port 9 (+30) Output port 9 (+8) 16 I/O port D/A converter 4 A/D converter 6 14 2 2 6 2 — Modulo timer Power supply voltage 8 (+ 20) 1 +5 V ±10% Crystal 4.5 MHz PLL reference frequency 1, 1.25, 2.5, 3, 5, 6.25, 9, 10, 12.5, 25, 50, 100 kHz Applicable prescaler On-chip (150 MHz) On-chip (250 MHz) Package 80-pin plastic QFP 64-pin plastic QFP One-time PROM product Development tools 14 µPD17P005 µPD17P010 µPD17P005 Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator Selection Guide X10679EJHV0SG00 µPD17P012 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ Audio (without LCD Controller) (1/2) Subseries name Part number µPD17709 Subseries – µPD17001 µPD17704 Main application µPD17705 µPD17707 3836 × 16 bits RAM size 224 × 4 bits Input port 8 12 Output port 12 4 I/O port 12 46 D/A converter 4 3 A/D converter 6 6 Modulo timer – 4 (Used also PWM: 1) 8192 × 16 bits 1776 × 4 bits 4.5 MHz ∗ 1, 1.25, 2.5, 3, 5, 6.25, 9, 10, 12.5, 18, 20, 25, 50 kHz Applicable prescaler Development tools 16384 × 16 bits 1120 × 4 bits +5 V ±10% Crystal One-time PROM product 12288 × 16 bits 672 × 4 bits Power supply voltage Package µPD17709 High-end tuner, automotive radio ROM size PLL reference frequency µPD17708 On-chip (130 MHz) 48-pin plastic QFP 80-pin plastic QFP µPD17P001 µPD17P709 Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator ∗: 1, 1.25, 2.5, 3, 5, 6.25, 9, 10, 12.5, 25, 50, 100 kHz Selection Guide X10679EJHV0SG00 15 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ Audio (without LCD Controller) (2/2) µPD17719 Subseries Subseries name Part number µPD17717 Main application ROM size RAM size µPD17718 µPD17719 High-end tuner, automotive radio 12288 × 16 bits 16384 × 16 bits 1120 × 4 bits 1776 × 4 bits Input port 12 Output port 4 I/O port 46 D/A converter 3 A/D converter 6 Serial interface 2-wire/3-wire/SBI/I2C bus (selectable): 1 channel 3-wire/UART (selectable): 1 channel Modulo timer Power supply voltage Crystal PLL reference frequency 4 (Used also PWM: 1) +5 V ±10% 4.5 MHz 1, 1.25, 2.5, 3, 5, 6.25, 9, 10, 12.5, 18, 20, 25, 50 kHz Applicable prescaler On-chip (130 MHz) Package 80-pin plastic QFP One-time PROM product Development tools 16 µPD17P719 Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ Portable Part number µPD17015 µPD17071 µPD17072 µPD17073 µPD17933A µPD17934A 6144 × 16 bits 8192 × 16 bits Portable radio Main application 3072 × 16 bits ROM size 1528 × 16 bits RAM size 97 × 4 bits 174 × 4 bits 448 × 4 bits On-chip LCD driver Segment signal: 9 Common signal: 4 On-chip LCD driver Segment signal: 15 Common signal: 4 On-chip LCD driver Segment signal: 20 Common signal: 4 Input port 3 4 11 Output port 7 9 6 I/O port 2 8 Display A/D converter Power supply voltage 4096 × 16 bits 20 2 — 1.7 to 2.6 V (when PLL is stopped) 1.8 to 3.6 V (when PLL is operating) 1.8 to 3.6 V Crystal 0.9 to 1.8 V 75 kHz PLL reference frequency 1, 3, 5, 12.5 kHz 1, 3, 5, 6.25, 12.5, 25 kHz Applicable prescaler On-chip (220 MHz) On-chip (230 MHz) Package One-time PROM product Development tools 3 38-pin plastic shrink SOP — 56-pin plastic QFP 56-pin plastic QFP 64-pin plastic TQFP µPD17P073 80-pin plastic TQFP — Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator Selection Guide X10679EJHV0SG00 17 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ LCD Remote-Controller, Learning Remote-Controller Part number Main application ROM size µPD17201A 3072 × 16 bits LCD controller/driver 4096 × 16 bits 336 × 4 bits RAM size Static RAM µPD17207 Infrared remote controller with LCD display µPD17203A µPD17204 Infrared remote controller for learning 4096 × 16 bits 7936 × 16 bits 336 × 4 bits — — 4096 × 4 bits 2048 × 4 bits 136 segments maximum None Carrier generator for infrared remote-controller signal On-chip On-chip Infrared remote-controller signal receiver preamplifier None On-chip 19 28 I/O port External interrupt 1 1 A/D converter: 4 channels (8-bit resolution) — Timer 2 channels 4 channel Serial interface 1 channel 1 channel Watchdog timer On-chip (WDOUT output) On-chip (WDOUT output) Analog input Dual clock Instruction execution time On-chip On-chip 4 µs at 4 MHz 4 µs at 4 MHz Power supply voltage Package One-time PROM product Development tools 18 2.2 to 5.5 V 2.2 to 5.5 V 80-pin plastic QFP 52-pin plastic QFP µPD17P207 µPD17P207 µPD17P203A µPD17P204 Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller 17K Series ■ Pre-set Remote-Controller/ASC Part number µPD17225 µPD17226 RAM size µPD17228 Pre-set remote controller, toy, portable system Main application ROM size µPD17227 2048 × 16 bits 4096 × 16 bits 6144 × 16 bits 8192 × 16 bits 223 × 4 bits 111 × 4 bits Carrier generator for infrared remotecontroller signal On-chip CMOS input: 9 N-ch open-drain output: 8 CMOS I/O: 4 I/O port 1 External interrupt 2 channels Timer Watchdog timer On-chip (WDOUT output) Low voltage detection circuit On-chip (WDOUT output) P0C/P0D standby operation The output level existing immediately before setting standby mode is maintained. High speed mode: 2 µs (at 8 MHz) Normal mode: 4 µs (at 8 MHz) Instruction execution time 2.2 to 3.6 V (4 µs, 2.0 to 3.6 V) Power supply voltage Package 28-pin plastic SDIP, 28-pin plastic SOP, 30-pin plastic shrink SOP µPD17P228★ One-time PROM product Development tools Part number Main application ROM size RAM size Carrier generator for infrared remotecontroller signal I/O port Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator µPD17235★ µPD17236★ Pre-set remote controller, toy, portable system 12288 × 16 bits 16384 × 16 bits 223 × 4 bits On-chip CMOS input: 9 or 10 N-ch open-drain output: 8 or 9 CMOS I/O: 4 1 External interrupt Timer Watchdog timer 2 channels On-chip Low voltage detection circuit On-chip P0C/P0D standby operation The output level existing immediately before setting standby mode is maintained. Instruction execution time Power supply voltage Package One-time PROM product Development tools High speed mode: 2 µs (at 8 MHz) Normal mode: 4 µs (at 8 MHz) 2.2 to 3.6 V (4 µs, 2.0 to 3.6 V) 28-pin plastic SOP, 30-pin plastic shrink SOP µPD17P236★ Assembler, C-like compiler, device file, integrated debugger, in-circuit emulator ★: Selection Guide X10679EJHV0SG00 Under development 19 Microcomputer 4-Bit Single-Chip Microcontroller µPD6133, 6604, 63 Series ■ Remote Controller (µPD6133 Series) Part number µPD6133 µPD6134 Main application AV, household electric appliances 512 × 10 bits ROM size 1002 × 10 bits Mask ROM 32 (standard), 48 (when using key expansion pin), 96 (when expanded by diode) Operation clock frequency (fx) 300 kHz to 1 MHz (ceramic oscillator) 16 µs (at fx = 500 kHz) Instruction execution time Modulation carrier frequency fx, fx/2, fx/8, fx/12, fx/16, fx/24, no carrier (high level) Timer 9-bit programmable timer POC circuit Power supply voltage (VDD) One time PROM 32 × 4 bits RAM size Number of supported keys µPD61P34B Mask option On-chip 1.8 to 3.6 V, 2.2 to 3.6 V (when POC circuit is incorporated) 2.2 to 3.6 V Package 20-pin plastic SOP, 20-pin plastic shrink SOP Development tools Assembler ■ Remote Controller (µPD6604 Series) Part number µPD6604 µPD66P04B Main application AV, household electric appliances 1002 × 10 bits ROM size Mask ROM 32 × 4 bits RAM size Number of supported keys 32 (standard), 48 (when using key expansion pin), 96 (when expanded by diode) Operation clock frequency (fx) 300 kHz to 1 MHz (RC oscillator) 16 µs (at fx = 500 kHz) Instruction execution time Modulation carrier frequency fx, fx/2, fx/8, fx/12, fx/16, fx/24, no carrier (high level) Timer POC circuit Power supply voltage (VDD) Package Development tools 20 One time PROM 9-bit programmable timer Mask option On-chip 1.8 to 3.6 V, 2.2 to 3.6 V (when POC circuit is incorporated) 2.2 to 3.6 V 20-pin plastic SOP, 20-pin plastic shrink SOP Assembler Selection Guide X10679EJHV0SG00 Microcomputer 4-Bit Single-Chip Microcontroller µPD6133, 6604, 63 Series ■ Remote Controller (µPD63 Series) Part number µPD62 Main application ROM size µPD63A µPD64 µPD6P4B AV, household electric appliances 512 × 10 bits 768 × 10 bits 1002 × 10 bits Mask ROM 16 µs (at fx = 4 MHz) Modulation carrier frequency fx/8, fx/16, fx/64, fx/96, fx/128, fx/192, no carrier (high level) Timer 9-bit programmable timer POC circuit Development tools 56 (standard) 2.4 MHz to 8 MHz (ceramic oscillator) Instruction execution time Package Mask ROM 32 (standard), 48 (when using key expansion pin), 96 (when expanded by diode) Operation clock frequency (fx) Power supply voltage (VDD) 2026 × 10 bits One time PROM 32 × 4 bits RAM size Number of supported keys µPD65★ Mask option On-chip 1.8 to 3.6 V, 2.2 to 3.6 V (when POC circuit is incorporated) 20-pin plastic shrink SOP 20-pin plastic SOP 20-pin plastic SOP 20-pin plastic shrink SOP Mask option 2.2 to 3.6 V 20-pin plastic shrink SOP Assembler ★: Selection Guide X10679EJHV0SG00 Under development 21 Microcomputer 8-Bit Single-Chip Microcontroller 178K Series ■ 178K Series Product Evolution DTS Audio On-chip IEBus µPD178098 Subseries 100-pin TM On-chip UART µPD178018A Subseries µPD178078 Subseries 100-pin 80-pin Function shrink µPD178003 Subseries 80-pin ★ µPD178024 Subseries 80-pin TV (On-chip OSD) ★ µPD178048 Subseries 64-pin/80-pin ★: Under development ■ Differences among the Subseries Function Subseries name Audio µPD178098 ROM capacity 48K to 60K Timer 8-bit 16-bit WDT 2 ch 1 ch 1 ch 8-bit A/D 8-bit D/A 8 ch – µPD178078 µPD178024 TV 22 Serial interface 4 ch (UART: 1 ch, I2C: 1 ch) I/O VDD MIN. value Remark 80 4.5 V – 4.5 V – 4 ch (UART: 1 ch, IEBus: 1 ch) 24K to 32K – µPD178018A 32K to 60K 3 ch µPD178003 16K to 24K 2 ch µPD178048 48K to 60K 4 ch 2 ch (I2C: 1 ch) 6 ch 3 ch – – 1 ch 4 ch 2 ch (I C: 1 ch) – 1 ch – 3 ch (I2C: 2 ch) Selection Guide X10679EJHV0SG00 62 2 46 Microcomputer 8-Bit Single-Chip Microcontroller 178K Series ■ Audio (µPD178003, 178018A Subseries) Subseries name Part number µPD178003 Subseries µPD178018A Subseries µPD178002 µPD178003 16K bytes 24K bytes Main application ROM size RAM size µPD178004A µPD178006A 512 bytes 32K bytes 48K bytes 1K bytes 60K bytes 3K bytes 1 Output port 3 I/O port 58 D/A converter – 3 A/D converter 6 Modulo timer 2 3 (Used also PWM: 1) +5 V ±10% Power supply voltage Crystal 4.5 MHz 1, 3, 9, 10, 12.5, 25, 50 kHz 1, 3, 5, 9, 10, 25, 50 kHz Applicable prescaler On-chip (160 MHz) Package 80-pin plastic QFP µPD178P018A One-time PROM product Development tools µPD178018A High-end tuner, automotive radio Input port PLL reference frequency µPD178016A Assembler, C compioler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator ■ Audio (µPD178024 Subseries) Part number µPD178023★ Main application ROM size µPD178024★ High-end tuner, automotive radio 24K bytes 32K bytes RAM size 1K bytes Input port 6 Output port I/O port Serial interface 3 (N-ch open drain) 53 (N-ch open drain: 2) I2C bus: 1 channel 3-wire: 1 channel A/D converter 6 Modulo timer 8 bits × 2 ch Power supply voltage Crystal PLL reference frequency Applicable prescaler Package Development tools 4.5 to 5.5 V (When PLL or A/D converter is operating) 3.5 to 5.5 V (When only CPU is operating) 4.5 MHz 1, 3, 9, 10, 12.5, 25, 50 kHz On-chip (160 MHz) 80-pin plastic QFP (14 × 14 mm, 0.65 mm pitch) 80-pin plastic QFP (14 × 20 mm, 0.8 mm pitch) Assembler, C compiler, real-time OS, integrated debugger, device file, in-circuit emulator ★: Selection Guide X10679EJHV0SG00 Under development 23 Microcomputer 8-Bit Single-Chip Microcontroller 178K Series ■ Audio (µPD178098 Subseries) µPD178096 Part number Main application µPD178098 High-end tuner, automotive radio ROM size 48K bytes 60K bytes RAM size 2048 bytes 3072 bytes Input port 8 Output port 8 (N-ch open drain) I/O port 64 (N-ch open drain: 3) Serial interface IEBus (mode 1 only): 1 channel 3-wire/2-wire/SBI/I2C bus (selectable): 1 channel 3-wire: 1 channel 3-wire (with function for automatic transmission and reception): 1 channel D/A converter – A/D converter 8 Modulo timer 16 bits × 1, 8 bits × 2 +5 V ±10% Power supply voltage Crystal 6.3 MHz PLL reference frequency 1, 3, 9, 10, 12.5, 25, 50 kHz Applicable prescaler On-chip (160 MHz) Package 100-pin plastic QFP Flash memory product µPD178F098 Development tools Assembler, C compiler, real-time OS, integrated debugger, device file, in-circuit emulator ■ Audio (µPD178078 Subseries) Part number µPD178076 Main application High-end tuner, automotive radio ROM size 48K bytes RAM size 2K bytes Input port Output port I/O port µPD178078 60K bytes 3K bytes 8 8 (N-ch open drain) 64 (N-ch open drain: 3) Serial interface 3-wire/2-wire/SBI/I2C bus (selectable): 1 channel 3-wire: 1 channel 3-wire (with function for automatic transmission and reception): 1 channel UART: 1 channel A/D converter 8-bit resolution × 8 channels Power supply voltage Crystal PLL reference frequency +5 V ±10% 6.3 MHz, 4.5 MHz 1, 3, 9, 10, 12.5, 25, 50 kHz Applicable prescaler On-chip (160 MHz) Package 100-pin plastic QFP Flash memory product µPD178F098 Development tools Assembler, C compiler, real-time OS, integrated debugger, device file, in-circuit emulator 24 Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 178K Series ■ TV (µPD178048 Subseries) Part number µPD178046★ Main application ROM size RAM size Display Input port Output port I/O port Serial interface PWM A/D converter Power supply voltage Crystal Package µPD178048★ TV sets, CATV 48K bytes 60K bytes 1K bytes On-chip OSD Kind of character: 255 Display character: 12 lines × 24 columns Character type: 12 × 18 dot Character color: 8 4 5 (N-ch open drain) 37 (N-ch open drain: 4) I2C bus: 2 channels 3-wire: 1 channel 14-bit × 1 8-bit × 4 8-bit resolution × 4 channels +5 V ±10% 5.0 MHz 64-pin plastic shrink DIP, 80-pin plastic TQFP Flash memory product µPD178F048★ Development tools Assembler, C compiler, real-time OS, integrated debugger, device file, in-circuit emulator ★: Selection Guide X10679EJHV0SG00 Under development 25 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ 78K/0S Series Product Evolution Subseries names are shown inside frames. Small-scale general purpose µPD789046 44-pin Dual clock µPD789026 42-pin UART µPD789014 28-pin UART µPD789104A 28-pin/30-pin 8-bit A/D converter Multiplier µPD789114A 28-pin/30-pin 10-bit A/D converter Multiplier For PC µPD789800 µPD789124A 28-pin/30-pin 8-bit A/D converter Multiplier RC oscillator µPD789134A 28-pin/30-pin 10-bit A/D converter Multiplier RC oscillator µPD789167 42-pin USB 44-pin 8-bit A/D converter Multiplier Inverter controller µPD789842 µPD789177 44-pin 8-bit A/D converter 44-pin 10-bit A/D converter Multiplier LCD driver µPD789830 µPD789457 88-pin bare chip Dot LCD µPD789417A 80-pin 10-bit A/D converter µPD789407A 80-pin 8-bit A/D converter µPD789447 µPD789316 64-pin UART RC oscillator µPD789306 64-pin 8-bit A/D converter RC oscillator µPD789427 64-pin 8-bit A/D converter 64-pin UART Under development 26 Selection Guide X10679EJHV0SG00 64-pin 10-bit A/D converter RC oscillator µPD789437 64-pin 10-bit A/D converter Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Differences among the Subseries Function ROM capacity Subseries name Timer 8-bit 16-bit Watch WDT SmallµPD789046 scale general- µPD789026 purpose µPD789014 16K 2K to 4K 2 ch – µPD789177 Smallscale µPD789167 generalpurpose µPD789134A + A/D µPD789124A 16K to 24K 3 ch 1 ch 1 ch 1 ch VDD MIN. value Remark – – 1 ch (UART: 1 ch) 34 1.8 V – 1.8 V – – 1 ch 22 1 ch 1 ch – – 8 ch 8 ch – 1 ch (UART: 1 ch) 31 – 4 ch – µPD789114A – 4 ch µPD789104A 4 ch – 8 ch – 1 ch (UART: 1 ch) 30 4.0 V – 1 ch (UART: 1 ch) 43 1.8 V – 2 ch (UART: 1 ch) 25 1.8 V RC oscillation µPD789417A 2K to 8K 1 ch I/O 4 ch Inverter µPD789842 controller LCD driver 1 ch 4K to 16K Serial interface 8-bit 10-bit A/D A/D 8K to 16K 3 ch ∗ 1 ch 1 ch 12K to 24K 3 ch 1 ch 1 ch 1 ch µPD789407A µPD789457 16K to 24K 2 ch – 7 ch 7 ch – – 4 ch 4 ch – µPD789437 – 4 ch µPD789427 4 ch – µPD789447 µPD789316 8K to 16K 20 RC oscillation – – – RC oscillation µPD789306 For PC – µPD789830 24K 1 ch µPD789800 8K 2 ch 1 ch – 1 ch – – 2 ch (USB: 1 ch) 30 2.7 V 31 4.0 V – ∗: 10-bit timer 1 channel Selection Guide X10679EJHV0SG00 27 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Small-Scale General-Purpose (µPD789014 Subseries) µPD789011 Part number µPD789012 Number of basic instructions 48 0.4 µs (5.0 MHz) Minimum instruction execution time Selectable from 0.4 µs and 1.6 µs (5.0 MHz) Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 2K 4K 128 64K bytes Interrupt function External 3 Internal 7 CMOS I/O Timer 22 8-bit timer/event counter × 2 channels Watchdog timer × 1 channel Timer output Serial interface 2 3-wire/UART mode (selectable): 1 channel Standby function Operating power supply voltage range Package Development tools Applications 28 8K (PROM) 256 Address space I/O pin µPD78P9014 STOP/HALT VDD = 1.8 to 5.5 V • 28-pin plastic shrink DIP (400 mil) • 28-pin plastic SOP (375 mil) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Remote control, game machines, etc. Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Small-Scale General-Purpose (µ PD789026 Subseries) µPD789022 Part number µPD789024 µPD789025 Number of basic instructions 0.4 µs (5.0 MHz) Selectable from 0.4 µs and 1.6 µs (5.0 MHz) Instruction cycle ROM Size (bytes) RAM Size (bytes) Address space 4K 8K 12K 256 512 External 4 Internal 6 CMOS I/O Timer 34 16-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watchdog timer × 1 channel Timer output Serial interface Standby function Operating power supply voltage range Package Development tools Applications 16K (Flash memory) 16K 64K bytes Interrupt function I/O pin µPD78F9026A★ 48 Minimum instruction execution time Internal memory µPD789026 2 3-wire/UART mode (selectable): 1 channel STOP/HALT VDD = 1.8 to 5.5 V • 42-pin plastic shrink DIP (600 mil) • 44-pin plastic QFP (10 × 10 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Compact household appliances, car accessories, air-conditioners, games, etc. ★: Selection Guide X10679EJHV0SG00 Under development 29 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Small-Scale General-Purpose (µPD789046 Subseries) µPD789046 Part number µPD78F9046★ Number of basic instructions 48 0.4 µs Minimum instruction execution time Instruction cycle Internal memory When main system clock is selected Selectable from 0.4 µs and 1.6 µs (5.0 MHz) When subsystem clock is selected ROM Size (bytes) RAM Size (bytes) 122 µs (32.768 kHz) 16K 16K (Flash memory) 512 Address space 64K bytes Interrupt function External 4 Internal I/O pin 8 CMOS I/O Timer 34 16-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watch timer × 1 channel Watchdog timer × 1 channel Timer output Serial interface 2 3-wire/UART mode (selectable): 1 channel Standby function Operating power supply voltage range Package Development tools Applications STOP/HALT VDD = 1.8 to 5.5 V • 44-pin plastic QFP (10 × 10 mm, resin thickness 2.7 mm) • 44-pin plastic QFP (10 × 10 mm, resin thickness 1.4 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cordless phones, etc. ★: 30 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Small-Scale General-Purpose + A/D (µPD789104A, 789114A Subseries) µPD789104A Subseries Subseries name µPD789114A Subseries µPD789101A★ µPD789102A★ µPD789104A★ µPD789111A★ µPD789112A★ µPD789114A★ µPD78F9116A★ Part number Number of basic instructions 48 0.4 µs (5.0 MHz) Minimum instruction execution time Selectable from 0.4 µs and 1.6 µs (5.0 MHz) Instruction cycle System clock Internal memory Ceramic oscillator ROM Size (bytes) RAM Size (bytes) 2K 4K 8K 2K 16K (Flash memory) 64K bytes Interrupt function External 3 Internal 7 8 × 8 = 16 bits Multiplier CMOS input 4 CMOS I/O 12 N-ch open-drain I/O Timer 4 16-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watchdog timer × 1 channel Timer output Serial interface A/D converter Standby function Operating power supply voltage range Package Development tools Applications 8K 256 Address space I/O pin 4K 2 3-wire/UART mode (selectable): 1 channel 8-bit resolution × 4 channels 10-bit resolution × 4 channels STOP/HALT VDD = 1.8 to 5.5 V • 28-pin plastic shrink DIP (400 mil) • 30-pin plastic shrink SOP (300 mil) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cleaners, washing machines, refrigerators, etc. ★: Selection Guide X10679EJHV0SG00 Under development 31 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Small-Scale General-Purpose + A/D (µPD789124A, 789134A Subseries) µPD789124A Subseries Subseries name µPD789121A Part number ★ µPD789122A ★ µPD789134A Subseries ★ µPD789124A µPD789131A Number of basic instructions 0.5 µs (4.0 MHz) Selectable from 0.5 µs and 2.0 µs (4.0 MHz) Instruction cycle System clock RC oscillator ROM Size (bytes) RAM Size (bytes) 2K 4K 8K 2K 8K External 3 Internal 7 8 × 8 = 16 bits Multiplier CMOS input 4 CMOS I/O 12 N-ch open-drain I/O 4 Timer 16-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watchdog timer × 1 channel Timer output Serial interface A/D converter 2 3-wire serial I/O mode/UART mode (selectable): 1 channel 8-bit resolution × 4 channels 10-bit resolution × 4 channels Standby function Operating power supply voltage range Package Development tools STOP/HALT VDD = 1.8 to 5.5 V • 28-pin plastic shrink DIP (400 mil) • 30-pin plastic shrink SOP (300 mil) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Battery chargers, etc. ★: 32 16K (Flash memory) 64K bytes Interrupt function Applications 4K 256 Address space I/O pin µPD789132A★ µPD789134A★ µPD78F9136A★ 48 Minimum instruction execution time Internal memory ★ Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Small-Scale General-Purpose + A/D (µPD789167, 789177 Subseries) µPD789167 Subseries Subseries name µPD789166★ Part number µPD789177 Subseries µPD789167★ µPD789176★ Number of basic instructions 48 When main system clock is selected Selectable from 0.4 µs and 1.6 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) System clock Internal memory Ceramic oscillator ROM Size (bytes) RAM Size (bytes) 16K 24K 16K 64K bytes Interrupt function External 4 Internal 11 8 × 8 =16 bits Multiplier CMOS input 8 CMOS I/O 17 N-ch open-drain I/O 6 Timer 16-bit timer counter × 1 channel 8-bit timer counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output Serial interface A/D converter Standby function Operating power supply voltage range Package Development tools Applications 24K (Flash memory) 24K 512 Address space I/O pin µPD78F9177★ 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle µPD789177★ 4 3-wire/UART mode (selectable): 1 channel 8-bit resolution × 8 channels 10-bit resolution × 8 channels STOP/HALT VDD = 1.8 to 5.5 V 44-pin plastic QFP (10 × 10 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Power windows, keyless entries, battery management units, side air bags, etc. ★: Selection Guide X10679EJHV0SG00 Under development 33 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ LCD Driver ( µPD789306, 789316 Subseries) µPD789306 Subseries Subseries name µPD789304★ Part number µPD789316 Subseries µPD789306★ µPD789314★ Number of basic instructions 48 0.4 µs (5.0 MHz) 0.5 µs (4.0 MHz) Selectable from 0.4 µs and 1.6 µs (5.0 MHz) Selectable from 0.5 µs and 2.0 µs (4.0 MHz) Minimum instruction execution time Instruction cycle Resonator Internal memory When main system clock is selected When subsystem clock is selected Main 122 µs (32.768 kHz) Ceramic/crystal 1 to 5 MHz Sub RC oscillator 2 to 4 MHz Crystal 32.768 kHz ROM Size (bytes) RAM Size (bytes) 256 LCD data RAM Size (bytes) 20 8K 16K 8K Address space External 4 Internal 10 CMOS input 4 CMOS I/O 17 N-ch open-drain I/O 4 Timer 16-bit timer counter × 1 channel 8-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watch timer × 1 channel Watchdog timer × 1 channel Timer output Serial interface LCD controller/driver 3 3-wire/UART mode (selectable): 1 channel 3-wire: 1 channel Segment signal outputs: 20 maximum Common signal outputs: 4 maximum Bias: 1/3, on-chip booster Standby function Operating power supply voltage range Package Development tools Applications 16K 64K bytes Interrupt function I/O pin µPD789316★ STOP/HALT VDD = 1.8 to 5.5 V • 64-pin plastic QFP (14 × 14 mm) • 64-pin plastic TQFP (fine pitch) (12 × 12 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Remote controller, etc. ★: 34 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ LCD Driver (µPD789407A, 789417A Subseries) µPD789407A Subseries Subseries name µPD789405A Part number µPD789406A µPD789417A Subseries µPD789407A µPD789415A Number of basic instructions Internal memory 48 When main system clock is selected Selectable from 0.4 µs and 1.6 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) ROM Size (bytes) RAM Size (bytes) 512 LCD Size (bytes) data RAM 28 12K 16K 24K Address space 12K External 5 Internal 12 CMOS input 7 CMOS I/O 32 N-ch open-drain I/O 4 Timer 24K 32K (Flash memory) 16-bit timer counter × 1 channel 8-bit timer counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output Serial interface A/D converter LCD controller/driver Standby function Operating power supply voltage range Package Development tools Applications 16K 64K bytes Interrupt function I/O pin µPD789417A µPD78F9418A★ 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle µPD789416A 2 3-wire/UART mode (selectable): 1 channel 8-bit resolution × 7 channels 10-bit resolution × 7 channels Segment signal outputs: 28 maximum Common signal outputs: 4 maximum Bias: 1/2 or 1/3 (switchable) STOP/HALT VDD = 1.8 to 5.5 V • 80-pin plastic QFP (14 × 14 mm) • 80-pin plastic TQFP (fine pitch) (12 × 12 mm, resin thickness 1.05 mm) • 80-pin plastic TQFP (fine pitch) (12 × 12 mm, resin thickness 1.0 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator APS compact cameras, etc. ★: Selection Guide X10679EJHV0SG00 Under development 35 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ LCD Driver ( µPD789427, 789437 Subseries) µPD789427 Subseries Subseries name µPD789426★ Part number µPD789437 Subseries µPD789427★ µPD789436★ Number of basic instructions Resonator Internal memory 48 When main system clock is selected Selectable from 0.4 µs and 1.6 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Main Ceramic/crystal 1 to 5 MHz Sub Crystal 32.768 kHz ROM Size (bytes) RAM Size (bytes) 512 LCD data RAM Size (bytes) 20 16K 24K 16K Address space External 4 Internal 10 CMOS input 4 CMOS I/O 17 N-ch open-drain I/O Timer 4 16-bit timer counter × 1 channel 8-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watch timer × 1 channel Watchdog timer × 1 channel Timer output Serial interface A/D converter LCD controller/driver 3 3-wire/UART mode (selectable): 1 channel 3-wire: 1 channel 8-bit resolution × 4 channels 10-bit resolution × 4 channels Segment signal outputs: 20 maximum Common signal outputs: 4 maximum Bias: 1/3, on-chip booster Standby function Operating power supply voltage range Package Development tools Applications 24K (Flash memory) 24K 64K bytes Interrupt function I/O pin STOP/HALT VDD = 1.8 to 5.5 V • 64-pin plastic QFP (14 × 14 mm) • 64-pin plastic TQFP (fine pitch) (12 × 12 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Portable audio, etc. ★: 36 µPD78F9437★ 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle µPD789437★ Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ LCD Driver ( µPD789447, 789457 Subseries) µPD789447 Subseries Subseries name µPD789446★ Part number µPD789457 Subseries µPD789447★ µPD789456★ Number of basic instructions Resonator Internal memory 48 When main system clock is selected Selectable from 0.5 µs and 2.0 µs (4.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Main RC oscillator 2 to 4 MHz Sub Crystal 32.768 kHz ROM Size (bytes) RAM Size (bytes) 512 LCD data RAM Size (bytes) 20 16K 24K Address space 16K External 4 Internal 10 CMOS input 4 CMOS I/O 17 N-ch open-drain I/O Timer 4 16-bit timer counter × 1 channel 8-bit timer counter × 1 channel 8-bit timer/event counter × 1 channel Watch timer × 1 channel Watchdog timer × 1 channel Timer output Serial interface A/D converter LCD controller/driver Standby function Operating power supply voltage range Package Development tools Applications 24K (Flash memory) 24K 64K bytes Interrupt function I/O pin µPD78F9457★ 0.5 µs (4.0 MHz) Minimum instruction execution time Instruction cycle µPD789457★ 3 3-wire/UART mode (selectable): 1 channel 3-wire: 1 channel 8-bit resolution × 4 channels 10-bit resolution × 4 channels Segment signal outputs: 20 maximum Common signal outputs: 4 maximum Bias: 1/3, on-chip booster STOP/HALT VDD = 1.8 to 5.5 V • 64-pin plastic QFP (14 × 14 mm) • 64-pin plastic TQFP (fine pitch) (12 × 12 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Portable audio, etc. ★: Selection Guide X10679EJHV0SG00 Under development 37 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ LCD Driver (µPD789830 Subseries) µPD789830★ Part number µPD78F9831★ Number of basic instructions 48 0.4 µs Minimum instruction execution time Instruction cycle Internal memory When main system clock is selected Selectable from 0.4 µs and 1.6 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) ROM Size (bytes) 24K 48K (Flash memory) RAM Size (bytes) 1024 2048 LCD Size (bytes) data RAM 80 Address space 64K bytes Interrupt function I/O pin External 3 5 Internal CMOS I/O 11 30 38 16-bit timer counter × 1 channel 8-bit timer counter × 1 channel Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 2 Serial interface UART: 1 channel Segment signal outputs: 40 maximum Common signal outputs: 16 maximum LCD controller/driver Standby function STOP/HALT Operating power supply voltage range Delivery form Development tools Applications VDD = 2.7 to 5.5 V 100-pin plastic LQFP (14 × 14 mm) 88-pin bare chip Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Card readers, etc. ★: 38 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ For PC (µ PD789800 Subseries) µPD789800 Part number µPD78F9801 Number of basic instructions 48 0.33 µs (6.0 MHz) Minimum instruction execution time Selectable from 0.33 µs and 1.33 µs (6.0 MHz) Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) Address space External 2 Internal 10 CMOS I/O Timer Serial interface Regulator Standby function Operating power supply voltage range Operating ambient temperature Package Development tools Applications 16K (Flash memory) 256 64K bytes Interrupt function I/O pin 8K 31 (18 ports of the above CMOS I/O ports can be switched to N-ch open-drain I/O ports) 8-bit timer × 1 channel 8-bit timer/event counter × 1 channel Watchdog timer × 1 channel USB (Universal Serial Bus): 1 channel 3-wire: 1 channel Incorporated (VREG = 3.3 ±0.3 V) STOP/HALT VDD = 4.0 to 5.5 V TA = –40 to +85°C (When the USB is not operating) TA = 0 to 70°C (When the USB is operating) • 42-pin plastic shrink DIP (600 mil) • 44-pin plastic QFP (10 × 10 mm, resin thickness 2.7 mm) • 44-pin plastic QFP (10 × 10 mm, resin thickness 1.4 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator USB keyboards, etc. Selection Guide X10679EJHV0SG00 39 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0S Series ■ Inverter Controller ( µPD789842 Subseries) µPD789841★ Part number µPD789842★ Number of basic instructions 48 0.24 µs (8.38 MHz) Minimum instruction execution time Selectable from 0.24 µs and 0.96 µs (8.38 MHz) Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 8K 16K 64K bytes Interrupt function External 2 Internal 12 10 × 10 = 20 bits Multiplier CMOS input 8 CMOS I/O 22 Timer Timer output 10-bit timer for inverter control × 1 channel 8-bit timer counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 7 (Timer output: 1, inverter control output: 6) Serial interface UART: 1 channel A/D converter 8 -bit resolution × 8 channels Standby function Operating power supply voltage range Package Development tools Applications 16K (Flash memory) 256 Address space I/O pin µPD78F9842★ STOP/HALT VDD = 4.0 to 5.5 V • 44-pin plastic QFP (10 × 10 mm, resin thickness 2.7 mm) • 44-pin plastic QFP (10 × 10 mm, resin thickness 1.4 mm) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Motor control for inverter-type air conditioners, etc. ★: 40 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ 78K/0 Series Product Evolution (1/3) Subseries names are shown inside frames. Controller series µPD78075B 100-pin EMI noise reduced version of the µPD78078 I2C bus supported 2 I C bus supported µPD78058FY I2C bus supported µPD78078Y µPD78070AY µPD78058F µPD78078 80-pin EMI noise reduced version of the µPD78054 µPD78070A 100-pin Addition of two 8-bit timer Enhanced external expansion function I2C bus supported 100-pin ROM less Separate bus I2C bus supported µPD78054Y µPD780058Y µPD78054 µPD780058 80-pin D/A converter and real-time output port Enhanced 16-bit timer 80-pin Enhanced serial I/O Multiplex master I2C bus supported µPD780078Y µPD780078 µPD780065 64-pin ROM/RAM extension Enhanced serial I/O 10-bit A/D converter 80-pin Large size RAM : 5KB Multiplex master I2C bus supported I2C bus supported µPD78018FY µPD78083 42-pin/44-pin A/D converter, 8-bit timer UART µPD78018F µPD780018AY Multiplex master I2C bus supported Multiplex master I2C bus supported 100-pin µPD780024AY µPD780034AY µPD78014H 64-pin Low voltage 16-bit timer SIO with automatic TX/RX function Nothing UART 64-pin EMI noise reduced version of the µPD78018F µPD780024A µPD780034A 64-pin UART EMI/EMS noise reduced version 64-pin 10-bit A/D converter Under development Selection Guide X10679EJHV0SG00 41 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ 78K/0 Series Product Evolution (2/3) Subseries names are shown inside frames. FIPTM drive series µPD780208 100-pin Enhanced I/O, FIP controller/driver Display output total : 53 µPD780232 µPD78044F 80-pin Automatic TX/RX function 6-bit U/D counter FIP controller/driver Display output total : 34 µPD78044H 80-pin EMI noise reduced version of the µPD78044F LCD drive series I2C bus supported µPD780308Y µPD780308 I2C bus supported µPD78064Y µPD78064 100-pin UART 100-pin Enhanced serial interface function µPD78064B 100-pin EMI noise reduced version of the µPD78064 Inverter controller series µPD780988 64-pin 10-bit A/D converter 42 Selection Guide X10679EJHV0SG00 80-pin Enhanced FIP controller/driver Display output total : 53 (Universal Grid supported) 8-bit remote control timer Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ 78K/0 Series Product Evolution (3/3) Subseries names are shown inside frames. Call ID series µPD780841 80-pin Call ID decoder Simple DTMF Super low power consumption (meter controller) series µPD780955 µPD780958 80-pin Consumption current When operating : 3.4 µ A typical When HALT : 1.1 µ A typical 100-pin Consumption current When operating : 200 µ A typical (1.0 MHz) When operating : 4.5 µA typical 32.768 kHz) When HALT : 2 µA typical 32.768 kHz) Dashboard controller series µPD780973 80-pin Meter controller/driver Bus controller series µPD78098B 80-pin IEBus controller µPD780701Y 80-pin µ PD780701Y : DCAN controller µ PD780702Y : IEBus controller µ PD78F0701Y : DCAN/IEBus controller µPD780833Y Under development 80-pin J1850 (CLASS2) controller µPD780948 100-pin DCAN controller Selection Guide X10679EJHV0SG00 43 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Differences among the Subseries (1/2) Function Subseries name Controller µPD78075B µPD78078 ROM capacity 32K to 40K Timer 8-bit 16-bit Watch WDT 4 ch 1 ch 1 ch 1 ch 8-bit 10-bit 8-bit A/D A/D D/A 8 ch – 2 ch 3 ch (UART: 1 ch) – 3 ch (UART: 1 ch) µPD78070AY 48K to 60K µPD780058 24K to 60K – 2 ch 3 ch (I2C: 1 ch) 2 ch 3 ch (time-division UART: 1 ch) µPD780058Y 1.8 V 61 2.7 V √ 88 68 1.8 V 69 2.7 V 3 ch (time-division UART: 1 ch, I2C: 1 ch) 48K to 60K 3 ch (UART: 1 ch) µPD78058FY 3 ch (UART: 1 ch, I2C: 1 ch) 16K to 60K 3 ch (UART: 1 ch) µPD78054Y 2.0 V 3 ch (UART: 1 ch, I2C: 1 ch) µPD780065 40K to 48K µPD780078 48K to 60K – 2 ch – 8 ch µPD780078Y 4 ch (UART: 1 ch) 60 2.7 V 3 ch (UART: 2 ch) 52 1.8 V 4 ch (UART: 2 ch, I2C: 1 ch) 8K to 32K 1 ch µPD780024A 8 ch – µPD780034AY – 8 ch µPD780024AY 8 ch – 3 ch (UART: 1 ch, time-division 3-wire: 1 ch) 51 3 ch (UART: 1 ch, I2C: 1 ch) µPD78014H µPD78018F 88 3 ch (UART: 1 ch, I2C: 1 ch) µPD780018AY µPD780034A VDD External MIN. expansion value 3 ch (UART: 1 ch, I2C: 1 ch) µPD78070A µPD78054 I/O 48K to 60K µPD78078Y µPD78058F Serial interface 2 ch 53 1 ch (UART: 1 ch) 33 3 ch (UART: 2 ch) 47 8K to 60K µPD78018FY µPD78083 Inverter µPD780988 controller 8K to 16K 16K to 60K 3 ch – – ∗ – 1 ch – 8 ch ∗: 16-bit timer 2 channels 10-bit timer 1 channel 44 Selection Guide X10679EJHV0SG00 – – 4.0 V √ Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Differences among the Subseries (2/2) Function Subseries name FIP driver LCD driver ROM capacity Timer 8-bit 16-bit Watch WDT 8-bit 10-bit 8-bit A/D A/D D/A µPD780208 32K to 60K 2 ch 1 ch 1 ch µPD780232 16K to 24K 3 ch – – 4 ch µPD78044H 32K to 48K 2 ch 1 ch 1 ch 8 ch µPD78044F 16K to 40K µPD780308 48K to 60K 1 ch 8 ch – – 1 ch 32K µPD78064 2 ch 1 ch 1 ch 1 ch 8 ch – – 74 2.7 V 40 4.5 V 67 2.7 V 57 2.0 V – – 3 ch (time-division UART: 1 ch) 16K to 32K 2 ch (UART: 1 ch) µPD78064Y 2 ch (UART: 1 ch, I2C: 1 ch) 24K to 32K 2 ch On-chip µPD780948 bus µPD78098B controller µPD780701Y 60K 2 ch 60K 3 ch µPD780833Y 60K 3 ch 40K to 60K 4 ch 2 ch 40K 6 ch 1 ch 24K to 32K 3 ch 1 ch Dashboard µPD780973 controller VDD External MIN. expansion value 3 ch (time-division UART: 1 ch, I2C: 1 ch) µPD78064B µPD780958 Meter controller µPD780955 2 ch I/O 2 ch µPD780308Y For Call µPD780841 ID Serial interface 40K to 60K – 1 ch 1 ch 2 ch – 2 ch 1 ch 1 ch 8 ch – 1 ch – 2 ch (UART: 1 ch) 58 2.7 V – – 3 ch (UART: 1 ch) 79 4.0 V √ 69 2.7 V – 2 ch 2 ch 16 ch – 1 ch – – – – 1 ch 1 ch 1 ch 5 ch – Selection Guide X10679EJHV0SG00 – 4 ch (UART: 1 ch, I2C: 1 ch) 67 3.5 V 65 4.5 V 2 ch (UART: 1 ch) 69 2.7 V 2 ch (UART: 2 ch) 50 2.2 V 2 ch (UART: 1 ch) 56 4.5 V – – 45 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78018F Subseries) µPD78011F Part number µPD78012F µPD78013F µPD78014F Number of basic instructions Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 122 µs (32.768 kHz) 8K 16K 544 24K 32K 40K 1056 Address space I/O pin 48K 1568 External 4 Internal 10 CMOS input 2 CMOS I/O 47 60K (PROM) 2080 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel A/D converter 8-bit resolution × 8 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range 1.8 to 5.5 V • 64-pin plastic shrink DIP (750 mil) • 64-pin plastic QFP (14 × 14 mm, 0.8-mm pitch) • 64-pin plastic LQFP (12 × 12 mm, 0.65-mm pitch) Package Development tools 64-pin 64-pin 64-pin 64-pin 64-pin ∗ Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications 46 60K 64K bytes N-ch open-drain I/O ∗: • • • • • µPD78018F µPD78P018F Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (10.0 MHz) When subsystem clock is selected Interrupt function µPD78016F 0.4 µs (10.0 MHz) Minimum instruction execution time When main system clock is selected µPD78015F 63 VCRs, TVs, audio equipments, etc. plastic shrink DIP (750 mil) plastic QFP (14 × 14 mm, 0.8-mm pitch) plastic LQFP (12 × 12 mm, 0.65-mm pitch) ceramic shrink DIP with window (750 mil) ceramic WQFN (14 × 14 mm) Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78018FY Subseries) µPD78011FY Part number µPD78012FY µPD78013FY µPD78014FY Number of basic instructions Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 122 µs (32.768 kHz) 8K 16K 544 24K 32K 40K 1056 Address space I/O pin µPD78018FY µPD78P018FY Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (10.0 MHz) When subsystem clock is selected Interrupt function µPD78016FY 0.4 µs (10.0 MHz) Minimum instruction execution time When main system clock is selected µPD78015FY 63 48K 1568 60K 60K (PROM) 2080 64K bytes External 4 Internal 10 CMOS input 2 CMOS I/O 47 N-ch open-drain I/O 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 3 (PWM output: 1) 2 Serial interface 3-wire/2-wire/I C bus mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel A/D converter 8-bit resolution × 8 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range 1.8 to 5.5 V • 64-pin plastic shrink DIP (750 mil) • 64-pin plastic QFP (14 × 14 mm, 0.8-mm pitch) • 64-pin plastic LQFP (12 × 12 mm, 0.65-mm pitch) (except µPD78013FY, 78015FY, 78016FY) Package Development tools Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications ∗: • • • • • 64-pin 64-pin 64-pin 64-pin 64-pin ∗ VCRs, TVs, audio equipments, etc. plastic shrink DIP (750 mil) plastic QFP (14 × 14 mm, 0.8-mm pitch) plastic LQFP (12 × 12 mm, 0.65-mm pitch) ceramic shrink DIP with window (750 mil) ceramic WQFN (14 × 14 mm) Selection Guide X10679EJHV0SG00 47 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78014H Subseries) µPD78011H Part number µPD78012H Number of basic instructions µPD78013H µPD78014H 63 0.4 µs (10.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (10.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) 8K 16K 24K 544 Address space Interrupt function I/O pin 32K 1056 64K bytes External 4 Internal 10 CMOS input 2 CMOS I/O 47 N-ch open-drain I/O 4 Timer Timer output 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel A/D converter 8-bit resolution × 8 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range Package Development tools Applications 48 1.8 to 5.5 V • 64-pin plastic shrink DIP (750 mil) • 64-pin plastic QFP (14 × 14 mm, 0.8-mm pitch) • 64-pin plastic LQFP (12 × 12 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, VCRs, audio equipments, cameras, home appliances, etc. Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780024A, 780034A Subseries) µPD780021A µPD780031A Part number µPD780022A µPD780032A µPD780023A µPD780033A Number of basic instructions µPD780024A µPD780034A µPD78F0034A 63 0.24 µs (8.38 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.24 µs, 0.48 µs, 0.95 µs, 1.91 µs, and 3.81 µs (8.38 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) Address space Interrupt function I/O pin 8K 16K 24K 512 32K 32K (Flash memory) 1024 64K bytes External 5 Internal 15 CMOS input 8 CMOS I/O 39 N-ch open-drain I/O 4 Timer 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output 3 (PWM output: 2) Serial interface 3-wire: 2 channels UART: 1 channel A/D converter 8-bit resolution × 8 channels (µPD780021A, 780022A, 780023A, 780024A) 10-bit resolution × 8 channels (µPD780031A, 780032A, 780033A, 780034A, 78F0034A) Others Standby function Operating power supply voltage range Package Development tools Applications Clock output function Buzzer output function STOP/HALT 1.8 to 5.5 V • 64-pin plastic shirink DIP (750 mil) • 64-pin plastic QFP (14 × 14 mm, 0.8-mm pitch) • 64-pin plastic LQFP (12 × 12 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator VCRs, TVs, audio equipments, etc. Selection Guide X10679EJHV0SG00 49 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780024AY, 780034AY Subseries) µPD780021AY µPD780031AY Part number µPD780022AY µPD780032AY µPD780023AY µPD780033AY Number of basic instructions When main system clock is selected Internal memory ROM Size (bytes) RAM Size (bytes) 0.24 µs (8.38 MHz) Selectable from 0.24 µs, 0.48 µs, 0.95 µs, 1.91 µs, and 3.81 µs (8.38 MHz) 122 µs (32.768 kHz) When subsystem clock is selected 8K 16K 24K 512 I/O pin 32K 32K (Flash memory) 1024 Address space Interrupt function µPD78F0034AY 63 Minimum instruction execution time Instruction cycle µPD780024AY µPD780034AY 64K bytes External 5 Internal 15 CMOS input 8 CMOS I/O 39 N-ch open-drain I/O Timer Timer output 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 3 (PWM output: 2) Serial interface 3-wire: 1 channel UART: 1 channel I2C bus (supporting multiplex master): 1 channel A/D converter 8-bit resolution × 8 channels (µPD780021AY, 780022AY, 780023AY, 780024AY) 10-bit resolution × 8 channels (µPD780031AY, 780032AY, 780033AY, 780034AY, 78F0034AY) Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range Package Development tools Applications 50 1.8 to 5.5 V • 64-pin plastic shirink DIP (750 mil) • 64-pin plastic QFP (14 × 14 mm, 0.8-mm pitch) • 64-pin plastic LQFP (12 × 12 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator VCRs, TVs, audio equipments, etc. Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780078, 780078Y Subseries) µPD780078 Subseries Subseries name µPD780076 Part number ★ µPD780078 ★ µPD780078Y Subseries µPD78F0078 ★ Number of basic instructions µPD780076Y★ µPD780078Y★ µPD78F0078Y★ 63 0.24 µs (8.38 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.24 µs, 0.48 µs, 0.95 µs, 1.91 µs, and 3.81 µs (8.38 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) Address space Interrupt function I/O pin 60K 60K (Flash memory) 48K 64K bytes 5 Internal 15 CMOS input 8 CMOS I/O 40 N-ch open-drain I/O 4 Timer output Serial interface A/D converter Others Standby function Operating power supply voltage range Package Development tools 60K (Flash memory) 60K 2048 External Timer Applications 48K 16-bit timer/event counter × 2 channels 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 4 (PWM output: 2) 3-wire/UART mode (selectable): 1 channel UART: 1 channel 3-wire: 1 channel 3-wire/UART mode (selectable): 1 channel UART: 1 channel 3-wire: 1 channel I2C bus (supporting multiplex master): 1 channel 10-bit resolution × 8 channels Clock output function Buzzer output function STOP/HALT VDD = 1.8 to 5.5 V • 64-pin plastic QFP (14 × 14 mm, 0.8-mm pitch) • 64-pin plastic LQFP (12 × 12 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Telephones, AV equipment, automotive electronics, etc. ★: Selection Guide X10679EJHV0SG00 Under development 51 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780065 Subseries) µPD780065 Part number µPD78F0066★ Number of basic instructions 63 0.24 µs (8.38 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.24 µs, 0.48 µs, 0.96 µs, 1.92 µs, 3.84 µs and 7.68 µs (8.38 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) 40K 48K (Flash memory) 5K Address space Interrupt function I/O pin 64K bytes External 4 Internal 13 CMOS I/O Timer Timer output 53 16-bit timer/event counter × 1 channel 8-bit timer × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 3 (PWM output: 2) Serial interface 3-wire: 1 channel 2-wire: 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel UART: 1 channel A/D converter 8-bit resolution × 8 channels Others Clock output function Buzzer output function Standby function Operating power supply voltage range Package Development tools Applications STOP/HALT VDD = 2.7 to 5.5 V 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Control of audio systems compatible with CD text, etc. ★: 52 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78054 Subseries) µPD78052 Part number µPD78053 µPD78054 µPD78P054 Number of basic instructions µPD78056 µPD78058 µPD78P058 0.4 µs (5.0 MHz) Minimum instruction execution time Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) Instruction cycle When main system clock is selected Internal memory ROM Size (bytes) 16K RAM Size (bytes) 544 122 µs (32.768 kHz) When subsystem clock is selected 24K 32K 32K (PROM) 40K 48K 1056 Address space 60K 60K (PROM) 2080 64K bytes Interrupt function I/O pin µPD78055 63 External 7 Internal 15 CMOS input 2 CMOS I/O 63 N-ch open-drain I/O 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range Package Development tools Applications ∗1: • • • ∗2: • • 80-pin 80-pin 80-pin 80-pin 80-pin 2.0 to 6.0 V • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) ∗1 • 80-pin plastic QFP (14 × 14 mm) • 80-pin plastic TQFP (12 × 12 mm) ∗2 Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, pagers, printers, AV equipments, air conditioners, cameras, PPCs, fuzzy home appliances, vending machines, etc. plastic QFP (14 × 14 mm, 0.65-mm pitch) plastic TQFP (12 × 12 mm, 0.5-mm pitch) ceramic WQFN (14 × 14 mm) plastic QFP (14 × 14 mm) ceramic WQFN (14 × 14 mm) Selection Guide X10679EJHV0SG00 53 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78054Y Subseries) µPD78052Y Part number µPD78053Y µPD78054Y µPD78055Y Number of basic instructions µPD78058Y µPD78P058Y 0.4 µs (5.0 MHz) Minimum instruction execution time Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) Instruction cycle When main system clock is selected Internal memory ROM Size (bytes) 16K RAM Size (bytes) 544 122 µs (32.768 kHz) When subsystem clock is selected 24K 32K 40K 48K 60K 1056 Address space 60K (PROM) 2080 64K bytes Interrupt function I/O pin µPD78056Y 63 External 7 Internal 15 CMOS input 2 CMOS I/O 63 N-ch open-drain I/O 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 3 (PWM output: 1) 2 Serial interface 3-wire/I C bus/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range Package Development tools Applications ∗1: • • ∗2: • • 54 80-pin 80-pin 80-pin 80-pin 2.0 to 6.0 V • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) • 80-pin plastic QFP (14 × 14 mm) ∗1 ∗2 Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, pagers, printers, AV equipments, air conditioners, cameras, PPCs, fuzzy home appliances, vending machines, etc. plastic QFP (14 × 14 mm) plastic TQFP (12 × 12 mm) plastic QFP (14 × 14 mm) ceramic WQFN (14 × 14 mm) Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78058F Subseries) µPD78056F Part number µPD78058F Number of basic instructions µPD78P058F 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) 48K RAM Size (bytes) 1056 Address space Interrupt function I/O pin 60K 60K (PROM) 2080 64K bytes External 7 Internal 15 CMOS input 2 CMOS I/O 63 N-ch open-drain I/O 4 Timer Timer output 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range 2.7 to 6.0 V Package Development tools Applications • 80-pin plastic QFP • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic TQFP (14 × 14 mm, 0.65-mm pitch) (12 × 12 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, AV equipments, car stereo, cameras, PPCs, etc. Selection Guide X10679EJHV0SG00 55 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78058FY Subseries) µPD78056FY Part number µPD78058FY Number of basic instructions 0.4 µs (5.0 MHz) Minimum instruction execution time Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) Instruction cycle When main system clock is selected Internal memory ROM Size (bytes) 48K RAM Size (bytes) 1056 122 µs (32.768 kHz) When subsystem clock is selected 60K I/O pin 60K (PROM) 2080 Address space Interrupt function µPD78P058FY 63 64K bytes External 7 Internal 15 CMOS input 2 CMOS I/O 63 N-ch open-drain I/O Timer 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output 3 (PWM output: 1) 2 Serial interface 3-wire/I C bus/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range Package Development tools Applications 56 2.7 to 6.0 V • 80-pin plastic QFP • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic TQFP (14 × 14 mm, 0.65-mm pitch) (12 × 12 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, AV equipments, car stereo, cameras, PPCs, etc. Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780058 Subseries) µPD780053 Part number µPD780054 µPD780055 Number of basic instructions µPD780056 µPD780058 µPD78F0058★ 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) Address space Interrupt function I/O pin 24K 32K 40K 48K 60K 1056 60K (Flash memory) 2080 64K bytes External 7 Internal 15 CMOS input 2 CMOS I/O 62 N-ch open-drain I/O 4 Timer Timer output 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (with time-division transmission function) (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range 1.8 to 5.5 V Package Development tools Applications • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, pagers, printers, AV equipments, air conditioners, cameras, PPCs, fuzzy home appliances, vending machines, etc. ★: Selection Guide X10679EJHV0SG00 Under development 57 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780058Y Subseries) µPD780053Y★ µPD780054Y★ µPD780055Y★ µPD780056Y★ µPD780058Y★ µPD78F0058Y★ Part number Number of basic instructions 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) 24K 32K 40K I/O pin 60K 1056 60K (Flash memory) 2080 Address space Interrupt function 48K 64K bytes External 7 Internal 15 CMOS input 2 CMOS I/O 62 N-ch open-drain I/O Timer 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output 3 (PWM output: 1) 2 Serial interface 3-wire/I C bus/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (with time-division transmission function) (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range Package Development tools Applications 1.8 to 5.5 V • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, pagers, printers, AV equipments, air conditioners, cameras, PPCs, fuzzy home appliances, vending machines, etc. ★: 58 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD780018AY Subseries) µPD780016AY Part number µPD780018AY Number of basic instructions µPD78P0018AY 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) 48K Address space Interrupt function I/O pin 60K 60K (PROM) 2080 64K bytes External 7 Internal 13 CMOS input 9 CMOS I/O 79 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 4 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 5 (PWM output: 3) Serial interface 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire (with time-division transmission function): 1 channel I2C bus (supporting multiplex master): 1 channel A/D converter 8-bit resolution × 8 channels Clock output function Buzzer output function Others Standby function Main STOP/Sub STOP/HALT Operating power supply voltage range Package Development tools 2.7 to 5.5 V • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) ∗ Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications Mini-component stereo systems, car stereos, etc. ∗: • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin ceramic WQFN (14 × 20 mm) Selection Guide X10679EJHV0SG00 59 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78075B, 78078 Subseries) µPD78075B Subseries Subseries name µPD78074B Part number µPD78078 Subseries µPD78075B µPD78076 Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) 122 µs (32.768 kHz) When subsystem clock is selected 32K 40K 48K 1056 I/O pin 60K 60K (PROM) 2080 64K bytes Address space Interrupt function µPD78P078 0.4 µs (5.0 MHz) Minimum instruction execution time When main system clock is selected µPD78078 63 Number of basic instructions External 7 Internal 17 CMOS input 2 CMOS I/O 78 8 N-ch open-drain I/O 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 4 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer 5 (PWM output: 3) Timer output Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output function Buzzer output function Others STOP/HALT Standby function 1.8 to 5.5 V Operating power supply voltage range Package Development tools Applications • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, cordless phones, audio equipments, VCRs, printers, etc. ∗: • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) • 100-pin ceramic WQFN (14 × 20 mm) 60 ∗ Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78078Y Subseries) µPD78076Y Part number µPD78078Y Number of basic instructions µPD78P078Y 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) 48K Address space Interrupt function I/O pin 60K 60K (PROM) 2080 64K bytes External 7 Internal 17 CMOS input 2 CMOS I/O 78 N-ch open-drain I/O 8 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 4 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 5 (PWM output: 3) Serial interface 3-wire/2-wire/I2C bus mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range Package Development tools 1.8 to 5.5 V • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) ∗ Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications VCRs, TVs, audio equipments, etc. ∗: • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) • 100-pin ceramic WQFN (14 × 20 mm) Selection Guide X10679EJHV0SG00 61 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78070A, 78070AY) µPD78070A Part number µPD78070AY Number of basic instructions 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) — 1056 Address space Interrupt function I/O pin 64K bytes External 7 Internal 17 CMOS input 2 CMOS I/O 51 N-ch open-drain I/O 8 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 4 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output Serial interface 5 (PWM output: 3) ∗2 ∗1 A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range 2.7 to 5.5 V Package Development tools Applications • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator CD-ROMs, printers, PPCs, etc. ∗1: • 3-wire/SBI/2-wire mode (selectable): 1 channel • 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel • 3-wire/UART mode (selectable): 1 channel ∗2: • 3-wire/2-wire/I2C bus mode selectable: 1 channel • 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel • 3-wire/UART mode (selectable): 1 channel 62 Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Controller Series (µPD78083 Subseries) µPD78081 Part number µPD78082 Number of basic instructions 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Internal memory Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs and 12.8 µs (5.0 MHz) ROM Size (bytes) 8K 16K 24K (PROM) RAM Size (bytes) 256 384 512 Address space Interrupt function I/O pin µPD78P083 63 64K bytes External 3 Internal 10 CMOS input 1 CMOS I/O Timer Timer output 32 8-bit timer/event counter × 2 channels Watchdog timer × 1 channel 2 (PWM output: 2) Serial interface 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels Others Clock output function Buzzer output function Standby function STOP/HALT Operating power supply voltage range 1.8 to 5.5 V Package Development tools Applications • 42-pin plastic shrink DIP (600 mil) • 44-pin plastic QFP (10 × 10 mm, 0.8-mm pitch) • 42-pin plastic shrink DIP (600 mil) • 44-pin plastic QFP (10 × 10 mm, 0.8-mm pitch) • 42-pin ceramic shrink DIP with window (600 mil) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Automotive electronics, OA equipments, display equipments, air conditioners, keyless entry, etc. Selection Guide X10679EJHV0SG00 63 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ FIP Drive Series (µPD78044F Subseries) µPD78042F Part number µPD78043F µPD78044F Number of basic instructions Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) I/O pin Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (5.0 MHz) 122 µs (32.768 kHz) When subsystem clock is selected Interrupt function 16K 24K 32K 624 4 Internal 12 CMOS input 2 CMOS I/O 27 N-ch open-drain I/O 5 P-ch open-drain I/O 16 P-ch open-drain output 18 Timer output 3 (PWM output: 1) 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 64 bytes): 1 channel 8-bit resolution × 8 channels A/D converter Number of segments: 9 to 24 Number of digits: 2 to 16 FIP controller/driver Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range Development tools 2.7 to 5.5 V • 80-pin plastic QFP (14 × 20 mm, 0.8-mm pitch) ∗ Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications VCRs, audio equipments, microwave ovens, etc. ∗: • 80-pin plastic QFP (14 × 20 mm, 0.8-mm pitch) • 80-pin ceramic WQFN (14 × 20 mm) 64 60K (PROM) 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 6-bit up/down counter × 1 channel Timer Package 40K 1136 External Serial interface µPD78P048A 0.4 µs (5.0 MHz) Minimum instruction execution time When main system clock is selected µPD78045F 63 Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ FIP Drive Series (µPD78044H Subseries) µPD78044H Part number µPD78045H Number of basic instructions 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Internal memory ROM Size (bytes) RAM Size (bytes) I/O pin Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (5.0 MHz) 122 µs (32.768 kHz) When subsystem clock is selected Interrupt function 32K 40K 4 Internal 10 CMOS input 2 CMOS I/O 19 N-ch open-drain I/O 13 P-ch open-drain I/O 16 P-ch open-drain output 18 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output 3 (PWM output: 1) Serial interface 3-wire: 1 channel A/D converter FIP controller/driver Others Standby function Operating power supply voltage range Package Development tools Applications 48K 1136 External Timer µPD78046H 63 8-bit resolution × 8 channels Number of segments: 9 to 24 Number of digits: 2 to 16 Clock output function Buzzer output function STOP/HALT 2.7 to 5.5 V • 80-pin plastic QFP (14 × 20 mm, 0.8-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Mini-component stereo systems, microwave ovens, ECRs, etc. Selection Guide X10679EJHV0SG00 65 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ FIP Drive Series (µ PD780208 Subseries) µPD780204 Part number µPD780205 µPD780206 Number of basic instructions µPD780208 µPD78P0208 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, and 6.4 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) Interrupt function I/O pin 32K 40K 48K 1168 External 4 Internal 12 CMOS input 2 CMOS I/O 27 N-ch open-drain I/O 5 P-ch open-drain I/O 24 P-ch open-drain output 16 Timer output 3 (PWM output: 1) 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 64 bytes): 1 channel 8-bit resolution × 8 channels A/D converter Number of segments: 9 to 40 Number of digits: 2 to 16 FIP controller/driver Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range Package Development tools 2.7 to 5.5 V • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) ∗ Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications VCRs, audio equipments, microwave ovens, etc. ∗: • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin ceramic WQFN (14 × 20 mm) 66 60K (PROM) 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Serial interface 60K 2192 Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ FIP Drive Series (µPD780232 Subseries) µPD780232 Part number µPD78F0233★ Number of basic instructions 63 0.4 µs (5.0 MHz) Minimum instruction execution time Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs and 6.4 µs (5.0 MHz) Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) Interrupt function I/O pin 16K 24K (Flash memory) 768 External 2 Internal 12 CMOS I/O 11 P-ch open-drain I/O 29 P-ch open-drain output Timer Timer outupt 24 8-bit remote control timer × 1 channel 8-bit timer × 2 channels Watchdog timer × 1 channel 3 (PWM output: 2) Serial interface 2-wire: 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel A/D converter 8-bit resolution × 4 channels FIP controller/driver Standby function Operating power supply voltage range Package Development tools Applications Display outputs: 53 STOP/HALT VDD = 4.5 to 5.5 V 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Combined mini-component stereo systems, separate mini-component stereo systems, tuners, cassette tape decks, compact disc/mini disc players, audio amplifiers, etc. ★: Selection Guide X10679EJHV0SG00 Under development 67 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ LCD Drive Series ( µPD78064, 78064B Subseries) µPD78064 Subseries Subseries name µPD78062 Part number µPD78063 µPD78064B Subseries µPD78064 Number of basic instructions µPD78P064 µPD78064B µPD78P064B 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) 16K RAM Size (bytes) 532 Interrupt function I/O pin 24K 32K 32K (PROM) 32K External 6 Internal 14 CMOS input 2 CMOS I/O 55 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels Segment signal outputs: 40 maximum Common signal outputs: 4 maximum Bias: 1/2 or 1/3 (switchable) LCD controller/driver Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range 2.0 to 6.0 V Package Development tools • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) ∗ • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications Cellular phones, CD players, cameras, etc. ∗: • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) • 100-pin ceramic WQFN (14 × 20 mm) 68 32K (PROM) 1044 Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ LCD Drive Series (µ PD78064Y Subseries) µPD78062Y Part number µPD78063Y Number of basic instructions µPD78064Y 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) 16K RAM Size (bytes) 532 Interrupt function I/O pin 24K External 6 Internal 14 CMOS input 2 CMOS I/O 55 Timer Timer output 32K 1044 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 3 (PWM output: 1) Serial interface 3-wire/2-wire/I2C bus mode (selectable): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels LCD controller/driver Others Standby function Operating power supply voltage range Package Development tools Applications Segment signal outputs: 40 maximum Common signal outputs: 4 maximum Bias: 1/2 or 1/3 (switchable) Clock output function Buzzer output function STOP/HALT 2.0 to 6.0 V • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, CD players, cameras, etc. Selection Guide X10679EJHV0SG00 69 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ LCD Drive Series ( µPD780308, 780308Y Subseries) µPD780308 Subseries Subseries name µPD780306 Part number µPD780308Y Subseries µPD780308 µPD78P0308 Number of basic instructions Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 0.4 µs (5.0 MHz) Selectable from 0.4 µs, 0.8 µs, 1.6 µs, 3.2 µs, 6.4 µs, and 12.8 µs (5.0 MHz) 122 µs (32.768 kHz) When subsystem clock is selected 48K 60K 48K I/O pin External 6 Internal 15 2 CMOS I/O 55 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output Serial interface 3 (PWM output: 1) 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire/UART mode (selectable): 1 channel 3-wire (with time-division transmission function): 1 channel Segment signal outputs: 40 maximum Common signal outputs: 4 maximum Bias: 1/2 or 1/3 (switchable) LCD controller/driver Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range 2.0 to 5.5 V • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) ∗ • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) ∗ Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications Cellular phones, pagers, CD players, meters, etc. ∗: • 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) • 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) • 100-pin ceramic WQFN (14 × 20 mm) 70 3-wire/I2C bus/2-wire mode (selectable): 1 channel 3-wire/UART mode (selectable): 1 channel 3-wire (with time-division transmission function): 1 channel 8-bit resolution × 8 channels A/D converter Development tools 60K (PROM) 64K bytes CMOS input Package 60K 2068 Address space Interrupt function µPD780308Y µPD78P0308Y★ 63 Minimum instruction execution time When main system clock is selected µPD780306Y ★ Selection Guide X10679EJHV0SG00 ★: Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Inverter Controller Series (µPD780988 Subseries) µPD780982★ µPD780983★ µPD780984★ Part number Number of basic instructions 0.24 µs (8.38 MHz) Minimum instruction execution time Selectable from 0.24 µs, 0.48 µs, 0.95 µs, 1.9 µs and 3.8 µs (8.38 MHz) ROM Size (bytes) RAM Size (bytes) Address space Interrupt function I/O pin 16K 24K 32K 48K 1024 External 8 Internal 16 8 39 Timer Timer output 10-bit timer for inverter control × 1 channel 16-bit timer/event counter × 2 channels 8-bit timer/event counter × 3 channels Watchdog timer × 1 channel 11 (PWM output: 3, inverter control output: 6) Serial interface 3-wire: 1 channel UART: 2 channels A/D converter 10-bit resolution × 8 channels Others Standby function Operating power supply voltage range Applications 60K (Flash memory) 2048 CMOS I/O Development tools 60K 64K bytes CMOS input Package µPD780988 µPD78F0988★ 63 Instruction cycle Internal memory µPD780986 Real-time output port STOP/HALT VDD = 4.0 to 5.5 V 64-pin plastic shrink DIP (750 mil) 64-pin plastic QFP (14 × 14 mm, 0.8 mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Motor control for inverter-type air conditioners, washing machines, etc. ★: Selection Guide X10679EJHV0SG00 Under development 71 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Call ID Series (µ PD780841 Subseries) µPD780840★ Part number µPD780841★ Number of basic instructions Instruction cycle When main system clock is selected Internal memory ROM Size (bytes) RAM Size (bytes) 63 0.56 µs (3.58 MHz) 122 µs (32.768 kHz) When subsystem clock is selected 24K 32K I/O pin 32K (Flash memory) 1024 Address space Interrupt function µPD78F0841★ 64K bytes External 5 Internal 8 CMOS input 2 CMOS I/O 55 N-ch open-drain I/O Timer Timer output 4 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 2 (PWM output: 2) Serial interface 3-wire: 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 2 channels Others Call ID decoder function Simple DTMF function Standby function Operating power supply voltage range Package Development tools Applications STOP/HALT VDD = 2.7 to 5.5 V 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Cordless phones, etc. ★: 72 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Super Low Power Consumption (Meter Controller) Series (µPD780955) µPD780955★ Part number Number of basic instructions Minimum instruction execution time Internal memory ROM Size (bytes) RAM Size (bytes) Address space Interrupt function I/O pin 62 52 µs (38.4 kHz) 40K 1024 64K bytes External 7 Internal 10 CMOS I/O 47 N-ch open drain I/O 3 Timer 16-bit counter × 1 channel 8-bit timer/event counter × 1 channel 8-bit timer × 5 channels Watchdog timer × 1 channel Timer output Serial interface 1 UART: 2 channels A/D converter 8-bit resolution × 1 channel LCD controller Segment signal outputs: 19 maximum Common signal outputs: 1 Static display mode only Others Quality grade: Special (µPD780955(A)) only (for high reliability electronic equipment) Standby function Operating power supply voltage range Package Development tools Applications HALT VDD = 2.2 to 3.5 V 80-pin plastic QFP (14 × 20 mm, 0.8 mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Gas meters, etc. ★: Selection Guide X10679EJHV0SG00 Under development 73 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Super Low Power Consumption (Meter Controller) Series (µPD780958 Subseries) µPD780957★ Part number µPD780958★ Number of basic instructions 62 2 µs (1.0 MHz), 61 µs (32.768 kHz) Minimum instruction execution time Internal memory ROM Size (bytes) RAM Size (bytes) 48K 60K 2048 Address space Interrupt function I/O pin 64K bytes External 7 Internal 17 CMOS I/O 66 N-ch open-drain I/O Timer 3 16-bit timer/event counter × 2 channels 8-bit timer × 4 channels Watchdog timer × 1 channel Timer output Serial interface LCD controller/driver Others 1 UART: 1 channel 3-wire: 1 channel Segment signal outputs: 30 maximum Common signal outputs: 3 maximum Bias: static or 1/3 (switchable) MR control function Sampling output function Quality grade: Special (µPD780957(A), µPD780958(A)) only (for high reliability electronic equipment) Standby function Operating power supply voltage range Package Development tools Applications HALT VDD = 2.2 to 3.5 V 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Gas meters, etc. ★: 74 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Dashboard Controller Series (µ PD780973 Subseries) µPD780973★ Part number µPD78F0974★ Number of basic instructions 63 0.24 µs (8.38 MHz) Minimum instruction execution time Selectable from 0.24 µs, 0.48 µs, 0.95 µs, 1.91 µs, and 3.81 µs (8.38 MHz) Instruction cycle Internal memory ROM Size (bytes) 24K 32K (Flash memory) RAM Size (bytes) 778 1034 EEPROM Size (bytes) Address space Interrupt function I/O pin 256 64K bytes External 3 Internal 18 CMOS input 5 CMOS Output 16 CMOS I/O Timer 35 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 3 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer output 2 (PWM output: 2) Serial interface 3-wire: 1 channel UART: 1 channel A/D converter LCD controller/driver Sound generator Meter controller/driver Others Standby function Operating power supply voltage range Package Development tools Applications 8-bit resolution × 5 channels Segment signal outputs: 20 maximum Common signal outputs: 4 maximum Bias: 1/3 Buzzer output signal with composed amplitude 4 meter control (Cross-coil or stepper motor) Clock output function STOP/HALT 4.5 to 5.5 V 80-pin plastic QFP (14 × 20 mm, 0.8-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Vehicle meters control (dashboard mounted) ★: Selection Guide X10679EJHV0SG00 Under development 75 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■Bus Controller Series (µPD78098B Subseries) µPD78095B Part number µPD78096B Number of basic instructions µPD78098B µPD78P098B 63 0.4 µs (5.0 MHz) Minimum instruction execution time Instruction cycle When main system clock is selected Selectable from 0.5 µs, 1.0 µs, 2.0 µs, 4.0 µs, 8.0 µs, and 16.0 µs (6.0 MHz) When subsystem clock is selected 122 µs (32.768 kHz) Internal memory ROM Size (bytes) RAM Size (bytes) 40K 48K 60K 1056 Address space Interrupt function I/O pin 60K (PROM) 3104 64K bytes External 7 Internal 16 CMOS input 2 CMOS I/O 63 N-ch open-drain I/O 4 16-bit timer/event counter × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 3 (PWM output: 1) Serial interface 3-wire/SBI/2-wire mode (selectable): 1 channel 3-wire (with function for automatic transmission and reception of up to 32 bytes): 1 channel 3-wire/UART mode (selectable): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels IEBus controller Effective transmission speed: 26 kbps maximum Clock output function Buzzer output function Others Standby function STOP/HALT Operating power supply voltage range Package Development tools 2.7 to 5.5 V • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Applications Car audios, CD changers, etc. ∗: • 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) • 80-pin ceramic WQFN (14 × 14 mm) 76 ∗ Selection Guide X10679EJHV0SG00 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Bus Controller Series (µPD780948 Subseries) µPD780948★ Part number µPD780949★ µPD78F0948★ Number of basic instructions 63 0.25 µs (8.0 MHz) Minimum instruction execution time Selectable from 0.25 µs, 0.5 µs, 1 µs, 2 µs and 4 µs (8.0 MHz) Instruction When main system clock is selected cycle When subsystem clock is selected Internal memory Size (bytes) Internal fast RAM Size (bytes) 1024 Internal expansion RAM Size (bytes) 1024 Size (bytes) Address space Interrupt function I/O pin 122 µs (32.768 kHz) ROM EEPROM µPD78F0949★ 60K – 60K (Flash memory) 256 – 256 64K bytes External 5 Internal 24 CMOS input 8 CMOS I/O 71 Timer Timer output 16-bit timer/event counter × 1 channel 16-bit timer × 1 channel 8-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 4 (16-bit PWM output: 1, 8-bit PWM output: 2) Serial interface 3-wire: 1 channel 2-wire: 1 channel UART: 1 channel CAN controller Conformed on CAN protocol Ver. 2.0 (part B), transmission speed: 500 kbps maximum A/D converter LCD controller/driver Power fail detect function Sound generator Standby function Operating power supply voltage range Package Development tools Applications 8-bit resolution × 8 channels Segment signal output: 40 maximum Common signal output: 4 maximum Bias: 1/3 bias Battery voltage detect function Buzzer output function (with composed amplitude) STOP/HALT VDD = 4.0 to 5.5 V 100-pin plastic QFP (14 × 20 mm, 0.65 mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Control of automotive dashboard and electrical equipment in car body, etc. ★: Selection Guide X10679EJHV0SG00 Under development 77 Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Bus Controller Series (µPD780701Y Subseries) µPD780701Y★ Part number µPD780702Y★ Number of basic instructions 63 0.32 µs (6.29 MHz) Minimum instruction execution time Selectable from 0.32 µs, 0.64 µs, 1.27 µs, 2.54 µs, and 5.09 µs (6.29 MHz) Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 60K 60K (Flash memory) 3350 Address space Interrupt function I/O pin µPD78F0701Y★ 64K bytes External 8 Internal 21 CMOS I/O 56 TTL input/CMOS output 8 N-ch open-drain I/O 3 16-bit timer/event counter × 2 channels 8-bit timer/event counter × 3 channels Watch timer × 1 channel Watchdog timer × 1 channel Timer Timer output 5 (PWM output: 3) Serial interface 3-wire: 2 channels UART: 1 channel I2C bus (supporting multiplex master): 1 channel A/D converter 8-bit resolution × 16 channels Power fail detect function Battery voltage detect function Clock output function Buzzer output function Others Bus controller DCAN controller IEBus controller Standby function Operating power supply voltage range Package Development tools Applications DCAN controller or IEBus controller STOP/HALT VDD = 3.5 to 5.5 V 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Car audio systems, etc. ★: 78 Selection Guide X10679EJHV0SG00 Under development Microcomputer 8-Bit Single-Chip Microcontroller 78K/0 Series ■ Bus Controller Series (µPD780833Y Subseries) µPD780831Y★ Part number µPD780833Y★ Number of basic instructions 63 0.48 µs (4.19 MHz) Minimum instruction execution time Selectable from 0.48 µs, 0.96 µs, 1.92 µs, 3.84 µs, and 7.68 µs (4.19 MHz) Instruction cycle Internal memory ROM Size (bytes) RAM Size (bytes) 60K I/O pin 60K (Flash memory) 3104 Address space Interrupt function µPD78F0833Y★ 64K bytes External 9 Internal 20 CMOS I/O 54 TTL input/CMOS output 8 N-ch open-drain I/O 3 Timer Timer output 16-bit timer/event counter × 2 channels Watch timer × 1 channel Watchdog timer × 1 channel 16-bit timer/event counter × 2 channels 8-bit timer/event counter × 3 channels Watch timer × 1 channel Watchdog timer × 1 channel 5 (PWM output: 3) Serial interface 3-wire: 2 channels UART: 1 channel I2C bus (supporting multiplex master): 1 channel A/D converter 8-bit resolution × 8 channels × 2 Others Bus controller Standby function Operating power supply voltage range Package Development tools Applications Clock output function J1850 (CLASS2) bus interface STOP/HALT VDD = 4.5 to 5.5 V 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Car audio systems, etc. ★: Selection Guide X10679EJHV0SG00 Under development 79 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ 78K/ IV Series Product Evolution Subseries names are shown inside frames. I2C bus supported µPD784038Y µPD784038 80-pin Large size memory Multiplex master I2C bus supported Multiplex master I2C bus supported µPD784216Y µPD784218Y µPD784216 100-pin D/A converter UART µPD784218 Expansion memory size Multiplex master I2C bus supported µPD784054 µPD784255Y µPD784046 80-pin 10-bit A/D converter µPD784255 80-pin I2C bus supported µPD784928Y µPD784928 VCR servo controller µPD784915 VCR servo, analog amplifier IEBus controller µPD784908 DC inverter controller µPD784955 Enhanced peripheral function µPD784938 Expansion memory size Under development 80 Selection Guide X10679EJHV0SG00 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ Differences among the Subseries Function Subseries name Generalpurpose µPD784225 ROM capacity 96K to 128K Timer 8-bit 16-bit Watch WDT 4 ch 1 ch 1 ch 1 ch 8-bit 10-bit 8-bit A/D A/D D/A 8 ch – 2 ch µPD784225Y µPD784218 192K to 256K 3 ch (UART: 2 ch) 67 1.8 V 86 2.2 V 64 4.5 V 3 ch (UART: 2 ch, I2C: 1 ch) 3 ch (UART: 2 ch) 96K to 128K 3 ch (UART: 2 ch, I2C: 1 ch) µPD784054 32K µPD784046 32K to 64K 5 ch µPD784038 48K to 128K 4 ch – 3 ch – – 16 ch – 2 ch (UART: 2 ch) 65 8 ch – 2 ch µPD784038Y µPD784928 VDD MIN. value 3 ch (UART: 2 ch) 6 ch µPD784216Y VCR servo controller I/O 3 ch (UART: 2 ch, I2C: 1 ch) µPD784218Y µPD784216 Serial interface 3 ch (UART: 2 ch) 46/64 2.7 V 74 2.7 V 3 ch (UART: 2 ch, I2C: 1 ch) 96K to 128K 2 ch 6 ch – – 12 ch – – µPD784928Y 2 ch 2 3 ch (I C: 1 ch) µPD784915 48K to 62K On-chip IEBus controller µPD784938 96K to 256K µPD784908 96K to 128K DC inverter controller µPD784955 24K to 64K 2 ch 54 – 4 ch – 1 ch 8 ch – – 4 ch (UART: 2 ch) 80 4.0 V 2 ch 6 ch – 1 ch 8 ch – – 2 ch (UART: 1 ch) 67 4.5 V Selection Guide X10679EJHV0SG00 81 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784038 Subseries) µPD784031 Part number µPD784035 µPD784036 Number of instructions Total of 1M bytes for both programs and data – 48K 64K 128K 3.5K External source 7 Internal source 18 Number of interrupts supporting the use of a macro service 19 8 Output 4 I/O 34 0 56 Timer/counter 16-bit timer/counter × 3 channels 16-bit timer × 1 channel Serial interface UART/IOE (with on-chip baud rate generator): 2 channels CSI (3-wire/2wire mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels PWM output 12-bit resolution × 2 channels HALT/IDLE/STOP mode Standby function Provided Pseudo-SRAM refresh function • Large internal memory • Wide operating voltage range (2.7 to 5.5 V) • System clock dividing function (1/2, 1/4, 1/8, 1/16) Feature 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch, 2.7-mm thick) 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch, 1.4-mm thick) 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) Package Development tools ∗: • • • • 82 80-pin 80-pin 80-pin 80-pin 4.25K 4 types, 21 kinds Input Applications 128K (PROM) 4-level programmable priority, macro service, vectored interrupt, context switching function Type of macro service I/O pin 96K 2K RAM size (bytes) Interrupt function µPD78P4038 125 ns (32 MHz) Memory expansion function Internal memory µPD784038 113 Minimum instruction cycle ROM size (bytes) µPD784037 ∗ Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator PPCs, LBPs, autofocus cameras, etc. plastic QFP (14 × 14 mm, 0.65-mm pitch, 2.7-mm thick) plastic QFP (14 × 14 mm, 0.65-mm pitch, 1.4-mm thick) plastic TQFP (12 × 12 mm, 0.5-mm pitch) ceramic WQFN (14 × 14 mm, 0.65-mm pitch) Selection Guide X10679EJHV0SG00 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784038Y Subseries) µPD784031Y Part number µPD784035Y µPD784036Y Number of instructions Minimum instruction cycle ROM size (bytes) – 48K 64K 96K 2K 3.5K External source 8 Internal source 19 Number of interrupts supporting the use of a macro service 20 4 0 I/O 34 56 16-bit timer/counter × 3 channels 16-bit timer × 1 channel UART/IOE (with on-chip baud rate generator): 2 channels CSI (3-wire/2wire/I2C bus mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels PWM output 12-bit resolution × 2 channels Standby function HALT/IDLE/STOP mode Pseudo-SRAM refresh function 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch, 2.7-mm thick) 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch, 1.4-mm thick) 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) Package Development tools 80-pin 80-pin 80-pin 80-pin Provided • Large internal memory • Wide operating voltage range (2.7 to 5.5 V) • System clock dividing function (1/2, 1/4, 1/8, 1/16) Feature ∗: • • • • 4.25K 8 Output Serial interface Applications 128K (PROM) 4 types, 21 kinds Input Timer/counter 128K 4-level programmable priority, macro service, vectored interrupt, context switching function Type of macro service I/O pin µPD78P4038Y 125 ns (32 MHz) RAM size (bytes) Interrupt function µPD784038Y Total of 1M bytes for both programs and data Memory expansion function Internal memory µPD784037Y 113 ∗ Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, cordless phones, AV equipment, etc. plastic QFP (14 × 14 mm, 0.65-mm pitch, 2.7-mm thick) plastic QFP (14 × 14 mm, 0.65-mm pitch, 1.4-mm thick) plastic TQFP (12 × 12 mm, 0.5-mm pitch) ceramic WQFN (14 × 14 mm, 0.65-mm pitch) Selection Guide X10679EJHV0SG00 83 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784046, 784054 Subseries) µPD784046 Subseries Subseries name µPD784044 Part number µPD784046 Number of instructions Total of 1M bytes for both programs and data ROM size (bytes) 32K 64K 64K (flash memory) 32K RAM size (bytes) 1024 2048 2048 1024 Interrupt function 4-level programmable priority, macro service, vectored interrupt, context switching function 8 External source Internal source 23 19 Number of interrupts supporting the use of a macro service 25 21 7 types, 27 kinds 7 types, 23 kinds Type of macro service Input 17 Output 0 I/O Timer/counter 48 47 16-bit timer × 3 channels 16-bit timer/counter × 2 channels 16-bit timer × 3 Serial interface UART/CSI × 2 channels A/D converter 10-bit resolution × 16 channels Standby function HALT/IDLE/STOP mode Feature On-chip timer unit optimum for real-time control Package Development tools Applications 84 µPD784054 125 ns (32 MHz) Memory expansion function I/O pin µPD78F4046 113 Minimum instruction cycle Internal memory µPD784054 Subseries HALT/IDLE/STOP/standby invalidation mode 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch, 2.7-mm thick) Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Hot water supplier, vending machines, etc. Selection Guide X10679EJHV0SG00 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784216 Subseries) µPD784214 Part number µPD784215 Number of instructions Minimum instruction cycle 160 ns (Main system clock 12.5 MHz)/61 µs (Subsystem clock 32.768 kHz) 96K 128K RAM size (bytes) 3584 5120 128K 4-level programmable priority, macro service, vectored interrupt, context switching function 9 Internal source 20 Number of interrupts supporting the use of a macro service 27 4 types, 21kinds Input 8 I/O 72 N-ch open-drain I/O Timer/counter Real-time output port 128K (Flash memory) 8192 External source Type of macro service I/O pin Total of 1M bytes for both programs and data ROM size (bytes) Interrupt function µPD78F4216★ 113 Memory expansion function Internal memory µPD784216 6 16-bit timer/counter × 1 channel 8-bit timer/counter × 6 channels 4-bit × 2 ports or 8-bit × 1 port Serial interface UART/IOE (with dedicated on-chip baud rate generator): 2 channels CSI (3-wire mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24, fXX/25, fXX/26, fXX/27, fXT Buzzer output Clock timer Standby function Feature Package Development tools Applications Select of fXX/210, fXX/211, fXX/212, fXX/213 1 channel HALT/STOP/IDLE mode HALT/IDLE mode at Low power consumption mode (CPU operation using subsystem clock) • Large internal memory • Wide operation voltage range (Mask ROM version: 2.2 to 5.5 V, Flash memory version: 2.7 to 5.5 V) • Using peripheral functions of 78K/0 series 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, PHS, cordless phones, CD-ROMs, AV equipment, etc. ★: Selection Guide X10679EJHV0SG00 Under development 85 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784216Y Subseries) µPD784214Y Part number µPD784215Y Number of instructions Minimum instruction cycle 160 ns (Main system clock 12.5 MHz)/61 µs (Subsystem clock 32.768 kHz) 96K 128K RAM size (bytes) 3584 5120 128K 4-level programmable priority, macro service, vectored interrupt, context switching function 9 Internal source 20 Number of interrupts supporting the use of a macro service 27 4 types, 21kinds Input 8 I/O 72 N-ch open-drain I/O Timer/counter Real-time output port 128K (Flash memory) 8192 External source Type of macro service I/O pin Total of 1M bytes for both programs and data ROM size (bytes) Interrupt function µPD78F4216Y★ 113 Memory expansion function Internal memory µPD784216Y 6 16-bit timer/counter × 1 channel 8-bit timer/counter × 6 channels 4-bit × 2 ports or 8-bit × 1 port Serial interface UART/IOE (with dedicated on-chip baud rate generator): 2 channels CSI (3-wire/I2C bus supporting multiplex master mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24, fXX/25, fXX/26, fXX/27, fXT Buzzer output Select of fXX/210, fXX/211, fXX/212, fXX/213 Clock timer Standby function Feature Package Development tools Applications 1 channel HALT/STOP/IDLE mode HALT/IDLE mode at Low power consumption mode (CPU operation using subsystem clock) • Large internal memory • Wide operation voltage range (Mask ROM version: 2.2 to 5.5 V, Flash memory version: 2.7 to 5.5 V) • Using peripheral functions of 78K/0 series 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, PHS, cordless phones, CD-ROMs, AV equipment, etc. ★: 86 Selection Guide X10679EJHV0SG00 Under development Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784218 Subseries) µPD784217★ Part number Number of instructions Minimum instruction cycle ROM size (bytes) RAM size (bytes) Interrupt function 160 ns (Main system clock 12.5 MHz)/61 µs (Subsystem clock 32.768 kHz) I/O pin Total of 1M bytes for both programs and data 192K 256K 4-level programmable priority, macro service, vectored interrupt, context switching function 9 Internal source 20 Number of interrupts supporting the use of a macro service 27 4 types, 21 kinds Input 8 I/O 72 N-ch open-drain I/O Timer/counter Real-time output port 256K (Flash memory) 12800 External source Type of macro service µPD78F4218 113 Memory expansion function Internal memory µPD784218 6 16-bit timer/counter × 1 channel 8-bit timer/counter × 6 channels 4-bit × 2 ports or 8-bit × 1 port Serial interface UART/IOE (with dedicated on-chip baud rate generator): 2 channels CSI (3-wire mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24, fXX/25, fXX/26, fXX/27, fXT Buzzer output Clock timer Standby function Select of fXX/210, fXX/211, fXX/212, fXX/213 1 channel HALT/STOP/IDLE mode HALT/IDLE mode at Low power consumption mode (CPU operation using subsystem clock) Feature • Large internal memory • Wide operation voltage range (Mask ROM version: 2.2 to 5.5 V, Flash memory version: 2.7 to 5.5 V) • Using peripheral functions of 78K/0 series Package 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Development tools Applications Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, PHS, cordless phones, CD-ROMs, AV equipment, etc. ★: Selection Guide X10679EJHV0SG00 Under development 87 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784218Y Subseries) µPD784217Y★ Part number µPD784218Y★ Number of instructions Minimum instruction cycle 113 160 ns (Main system clock 12.5 MHz)/61 µs (Subsystem clock 32.768 kHz) Memory expansion function Internal memory ROM size (bytes) 192K 256K 4-level programmable priority, macro service, vectored interrupt, context switching function 9 Internal source 20 Number of interrupts supporting the use of a macro service 27 4 types, 21 kinds Input 8 I/O 72 N-ch open-drain I/O Timer/counter Real-time output port 256K (Flash memory) 12800 External source Type of macro service I/O pin Total of 1M bytes for both programs and data RAM size (bytes) Interrupt function µPD78F4218Y★ 6 16-bit timer/counter × 1 channel 8-bit timer/counter × 6 channels 4-bit × 2 ports or 8-bit × 1 port Serial interface UART/IOE (with dedicated on-chip baud rate generator): 2 channels CSI (3-wire/I2C bus supporting multiplex master mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24, fXX/25, fXX/26, fXX/27, fXT Buzzer output Select of fXX/210, fXX/211, fXX/212, fXX/213 Clock timer Standby function Feature Package Development tools Applications 1 channel HALT/STOP/IDLE mode HALT/IDLE mode at Low power consumption mode (CPU operation using subsystem clock) • Large internal memory • Wide operation voltage range (Mask ROM version: 2.2 to 5.5 V, Flash memory version: 2.7 to 5.5 V) • Using peripheral functions of 78K/0 series 100-pin plastic LQFP (14 × 14 mm, 0.5-mm pitch) 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Cellular phones, PHS, cordless phones, CD-ROMs, AV equipment, etc. ★: 88 Selection Guide X10679EJHV0SG00 Under development Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784225 Subseries) µPD784224★ Part number Number of instructions Minimum instruction cycle 160 ns (Main system clock 12.5 MHz)/61 µs (Subsystem clock 32.768 kHz) 96K RAM size (bytes) 3584 128K 4-level programmable priority, macro service, vectored interrupt, context switching function 7 Internal source 18 Number of interrupts supporting the use of a macro service 23 4 types, 21 kinds Input 8 I/O 59 Timer/counter Real-time output port 128K (Flash memory) 4352 External source Type of macro service I/O pin Total of 1M bytes for both programs and data ROM size (bytes) Interrupt function µPD78F4225★ 113 Memory expansion function Internal memory µPD784225★ 16-bit timer/counter × 1 channel 8-bit timer/counter × 4 channels 4-bit × 2 ports or 8-bit × 1 port Serial interface UART/IOE (with dedicated on-chip baud rate generator): 2 channels CSI (3-wire mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24, fXX/25, fXX/26, fXX/27, fXT Buzzer output Clock timer Standby function Select of fXX/210, fXX/211, fXX/212, fXX/213 1 channel HALT/STOP/IDLE mode HALT/IDLE mode at Low power consumption mode (CPU operation using subsystem clock) Feature • Large internal memory • Wide operation voltage range (1.8 to 5.5 V) • Using peripheral functions of 78K/0 series Package 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) Development tools Applications Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Car audio, portable audio, telephones, etc. ★: Selection Guide X10679EJHV0SG00 Under development 89 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ General-Purpose (µPD784225Y Subseries) µPD784224Y★ Part number µPD784225Y★ Number of instructions Minimum instruction cycle 113 160 ns (Main system clock 12.5 MHz)/61 µs (Subsystem clock 32.768 kHz) Memory expansion function Internal memory ROM size (bytes) RAM size (bytes) Interrupt function I/O pin Total of 1M bytes for both programs and data 96K 128K 3584 4352 7 Internal source 18 Number of interrupts supporting the use of a macro service 23 4 types, 21 kinds Input 8 I/O Timer/counter Real-time output port 128K (Flash memory) 4-level programmable priority, macro service, vectored interrupt, context switching function External source Type of macro service µPD78F4225Y★ 59 16-bit timer/counter × 1 channel 8-bit timer/counter × 4 channels 4-bit × 2 ports or 8-bit × 1 port Serial interface UART/IOE (with dedicated on-chip baud rate generator): 2 channels CSI (3-wire I2C bus supporting multiplex master mode): 1 channel A/D converter 8-bit resolution × 8 channels D/A converter 8-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24, fXX/25, fXX/26, fXX/27, fXT Buzzer output Select of fXX/210, fXX/211, fXX/212, fXX/213 Clock timer Standby function 1 channel HALT/STOP/IDLE mode HALT/IDLE mode at Low power consumption mode (CPU operation using subsystem clock) Feature • Large internal memory • Wide operation voltage range (1.8 to 5.5 V) • Using peripheral functions of 78K/0 series Package 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch) 80-pin plastic TQFP (12 × 12 mm, 0.5-mm pitch) Development tools Applications Assembler, C compiler, real-time OS, system performance analyzer, integrated debugger, system simulator, device file, in-circuit emulator Car audio, portable audio, telephones, etc. ★: 90 Selection Guide X10679EJHV0SG00 Under development Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ VCR Servo Controller (µPD784915 Subseries) µPD784915B µPD784915, 784915A Part number µPD784916A Number of instructions Minimum instruction cycle Internal memory ROM size (bytes) RAM size (bytes) Interrupt function 48K 62K Super timer unit 2048 4 levels (programmable), vectored interrupt, macro service, vectored interrupt, context switching function 9 (including NMI) Internal source 20 (including software interrupts) 8 Output 0 I/O 46 11 (including pseudo V sync, head amplifier switch, chroma-rotation outputs) Timer/counter 22-bit FRC counter × 1 channel 16-bit timer × 6 channels (including 3 channels for general-purpose timers) 8-bit counter × 2 channels 5-bit UDC counter × 1 channel Special circuit for VCR V sync separator circuit, H sync separator circuit VISS detection circuit, wide aspect detection circuit Field identification circuit Head amplifier switch/chroma-rotation output circuit PWM output 16-bit resolution × 3 channels (Carrier frequency: 62.5 kHz) 8-bit resolution × 3 channels (Carrier frequency: 62.5 kHz) Serial interface A/D converter Analog VCR circuits Standby function Clock function Package Development tools Applications 62K (PROM) 1280 External source Real-time output port µPD78P4916 250 ns (Internal clock: 8 MHz) Input I/O pin µPD784916B 113 Synchronous serial interface (3-wire): 2 channels (including 1 channel supporting BUSY/STRB control) 8-bit resolution × 12 channels (Conversion time: 10 µs) CTL amplifier, RECCTL driver (with rewrite capability) CFG amplifier DFG amplifier, DPG comparator, DPFG separator circuit (3-value separator circuit) Reel FG comparator (2 channels) Csync comparator HALT/STOP mode HALT mode for low power consumption 0.5-second measurement, low voltage operation (VDD = 2.7 V) allowed 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, integrated debugger, system simulator, device file, in-circuit emulator VCRs, camcorder, integrated TV-VCR machines, etc. Selection Guide X10679EJHV0SG00 91 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ VCR Servo Controller (µPD784928 Subseries) µPD784927 Part number µPD784928 Number of instructions 113 250 ns (Internal clock: 8 MHz) Minimum instruction cycle Internal memory ROM size (bytes) 96K RAM size (bytes) 2048 Interrupt function 128K 4 levels (programmable), vectored interrupt, macro service, context switching function External source 9 (including NMI) Internal source 22 (including software interrupts) 20 Output 0 I/O 54 Real-time output port Super timer unit 128K (Flash memory) 3584 Input I/O pin µPD78F4928★ 11 (including pseudo V sync, head amplifier switch, chroma-rotation outputs) Timer/counter 22-bit FRC counter × 1 channel 16-bit timer × 6 channels (including 3 channels for general-purpose timers) 8-bit counter × 2 channels 5-bit UDC counter × 1 channel Special circuit for VCR V sync separator circuit, H sync separator circuit VISS detection circuit, wide aspect detection circuit Field identification circuit Head amplifier switch/chroma-rotation output circuit PWM output 16-bit resolution × 3 channels (Carrier frequency: 62.5 kHz) 8-bit resolution × 3 channels (Carrier frequency: 62.5 kHz) Serial interface A/D converter Analog VCR circuits Synchronous serial interface (3-wire): 2 channels (including 1 channel supporting BUSY/STRB control) 8-bit resolution × 12 channels (Conversion time: 10 µs) CTL amplifier, RECCTL driver (with rewrite capability) CFG amplifier DFG amplifier, DPG amplifier, DPFG separator circuit (3-value separator circuit) Reel FG comparator (2 channels) Csync comparator Standby function HALT/STOP mode Low power consumption mode/HALT mode for low power consumption Clock function 0.5-second measurement, low voltage operation (VDD = 2.7 V) allowed Package Development tools Applications 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, integrated debugger, system simulator, device file, in-circuit emulator VCRs, camcorder, integrated TV-VCR machines, etc. ★: 92 Selection Guide X10679EJHV0SG00 Under development Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ VCR Servo Controller (µPD784928Y Subseries) µPD784927Y Part number Number of instructions 113 ROM size (bytes) 96K RAM size (bytes) 2048 Interrupt function 128K 4 levels (programmable), vectored interrupt, macro service, context switching function External source 9 (including NMI) Internal source 23 (including software interrupts) 20 Output 0 I/O 54 Real-time output port Super timer unit 128K (Flash memory) 3584 Input I/O pin µPD78F4928Y★ 250 ns (Internal clock: 8 MHz) Minimum instruction cycle Internal memory µPD784928Y 11 (including pseudo V sync, head amplifier switch, chroma-rotation outputs) Timer/counter 22-bit FRC counter × 1 channel 16-bit timer × 6 channels (including 3 channels for general-purpose timers) 8-bit counter × 2 channels 5-bit UDC counter × 1 channel Special circuit for VCR V sync separator circuit, H sync separator circuit VISS detection circuit, wide aspect detection circuit Field identification circuit Head amplifier switch/chroma-rotation output circuit PWM output 16-bit resolution × 3 channels (Carrier frequency: 62.5 kHz) 8-bit resolution × 3 channels (Carrier frequency: 62.5 kHz) Serial interface A/D converter Analog VCR circuits Synchronous serial interface (3-wire): 2 channels (including 1 channel supporting BUSY/STRB control) I2C bus interface: 1 channel 8-bit resolution × 12 channels (Conversion time: 10 µs) CTL amplifier, RECCTL driver (with rewrite capability) CFG amplifier DFG amplifier, DPG amplifier, DPFG separator circuit (3-value separator circuit) Reel FG comparator (2 channels) Csync comparator Standby function HALT/STOP mode Low power consumption mode/HALT mode for low power consumption Clock function 0.5-second measurement, low voltage operation (VDD = 2.7 V) allowed Package Development tools Applications 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, integrated debugger, system simulator, device file, in-circuit emulator VCRs, camcorder, integrated TV-VCR machines, etc. ★: Selection Guide X10679EJHV0SG00 Under development 93 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ IEBus Controller (µ PD784908 Subseries) µPD784907 Part number µPD784908 Number of instructions 113 320 ns (6.29 MHz) 160 ns (12.58 MHz) Minimum instruction cycle Memory expansion function Internal memory I/O pin Total of 1M bytes for both programs and data ROM size (bytes) 96K RAM size (bytes) 3584 Interrupt function 128K 4-level programmable priority, macro service, vectored interrupt, context switching function 7 Internal source 20 Input 8 I/O 72 LED direct drive output 24 Transistor direct drive 8 N-ch open-drain I/O 4 Real-time output port 128K (PROM) 4352 External source Timer/counter µPD78P4908 16-bit timer/counter × 4 channels 4-bit × 2 ports or 8-bit × 1 port IEBus controller Incorporated (simple version) Serial interface UART/IOE (3-wire): 2 channels CSI (3-wire): 2 channels A/D converter 8-bit resolution × 8 channels PWM output 12-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24 Watchdog timer 1 channel Standby function HALT/STOP/IDLE mode Power supply voltage Package Development tools Applications 94 VDD = 4.0 to 5.5 V (Main clock: fXX = 12.58 MHz, internal system clock = fXX, fCYK = 79 ns) VDD = 3.5 to 5.5 V (Other than above, fCYK = 159 ns) VDD = 4.5 to 5.5 V (Main clock: fXX = 12.58 MHz, internal system clock = fXX, fCYK = 79 ns) VDD = 4.0 to 5.5 V (Other than above, fCYK = 159 ns) 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Car audio, etc. Selection Guide X10679EJHV0SG00 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ IEBus Controller (µPD784938 Subseries) µPD784935 Part number µPD784936 Number of instructions RAM size (bytes) Interrupt function I/O pin Total of 1M bytes for both programs and data 96K 128K 192K 5120 6656 8192 256K 7 Internal source 20 Input 8 I/O 72 LED direct drive output 24 Transistor direct drive 8 N-ch open-drain I/O 4 4-bit × 2 ports or 8-bit × 1 port IEBus controller Incorporated (simple version) Serial interface UART/IOE (3-wire): 2 channels CSI (3-wire): 2 channels A/D converter 8-bit resolution × 8 channels PWM output 12-bit resolution × 2 channels Clock output Select of fXX, fXX/2, fXX/22, fXX/23, fXX/24 Standby function Package Development tools Applications 10240 16-bit timer/counter × 4 channels Real-time output port Watchdog timer 256K (Flash memory) 4-level programmable priority, macro service, vectored interrupt, context switching function External source Timer/counter µPD78F4938★ 320 ns (6.29 MHz) 160 ns (12.58 MHz) Memory expansion function ROM size (bytes) µPD784938★ 113 Minimum instruction cycle Internal memory µPD784937★ 1 channel HALT/STOP/IDLE mode 100-pin plastic QFP (14 × 20 mm, 0.65-mm pitch) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Car audio, etc. ★: Selection Guide X10679EJHV0SG00 Under development 95 Microcomputer 16-Bit Single-Chip Microcontroller 78K/ IV Series ■ DC Inverter Controller (µPD784955 Subseries) µPD784953★ Part number µPD784955★ Number of instructions 113 Minimum instruction cycle Internal memory I/O pin 160 ns (Internal 12.5 MHz) ROM size (bytes) 24K RAM size (bytes) 768 Interrupt function 48K 64K (Flash memory) 2048 4-level programmable priority, macro service, vectored interrupt, context switching function External source 8 (Also internal source: 2) Internal source 22 Input 8 I/O 59 Pin with pull-up register 59 LED direct drive output Timer/counter µPD78F4956★ 32 16-bit timer/counter × 6 channels 8-bit timer/counter × 2 channels Serial interface Synchronous serial interface (3-wire): 1 channel UART: 1 channel A/D converter 8-bit resolution × 8 channels Watchdog timer 1 channel Standby function HALT/STOP/IDLE mode Package Development tools Applications 80-pin plastic QFP (14 × 14 mm, 0.65-mm pitch, 1.4-mm thick) Assembler, C compiler, real-time OS, integrated debugger, system simulator, device file, in-circuit emulator Motor control for inverter air-conditioners, etc. ★: 96 Selection Guide X10679EJHV0SG00 Under development Microcomputer 32-Bit Microprocessor V800 Series TM ■ V800 Series Road Map Support of instructions for multimedia MIPS For multimedia processing applications V830 FamilyTM 100 On chip ROM/RAM 50 For embeded control applications V850 FamilyTM On chip cache memory For data processing applications V810 FamilyTM 10 1992 1996 Selection Guide X10679EJHV0SG00 1998 2000 DEVELOPMENT YEAR 97 Microcomputer 32-Bit Microprocessor V810 Family, V830 Family Part number Alias Performance Operating frequency µPD70741 µPD705101 µPD705102★ V821TM V831TM V832TM 16 MIPS/25 MHz 118 MIPS/100 MHz 170 MIPS/143 MHz 25 MHz 100 MHz 143 MHz Operating voltage 4.5 to 5.5 V 3.0 to 3.6 V 2.3 to 2.7 V 3.0 to 3.6 V Power consumption (max.) 500 mW (5 V25 MHz) 550 mW (3.3 V/100 MHz) 350 mW (2.5 V, 3.3 V/143 MHz) Address bus 24-bit 24-bit Data bus 16-bit 16-/32-bit Internal: 4 G bytes External: 64M bytes (maximum) Internal: 4 G bytes External: 128M bytes (maximum) Instruction cache: 1K bytes Instruction cache: 4K bytes, Data cache: 4K bytes — Instruction RAM: 4K bytes, Data RAM: 4K bytes Address space Cache Internal RAM DSP — 32 bits 2 channels 2 channels Interrupt External: 9, Internal: 11 External: 9, Internal: 11 Serial I/O 2 channels 2 channels DMA 2 channels Timer Peripheral I/O Memory interface Others Package Development tools Applications Fast page mode DRAM, SRAM, I/O, Page-ROM 4 channels EDO DRAM, SRAM, I/O, Page-ROM SDRAM, SRAM, I/O, Page-ROM Watchdog timer Debug controller 100-pin plastic QFP 160-pin plastic LQFP Real-time OS Real-time OS, task debugger, C compiler, system performance analyzer, device file Printers, facsimiles, word processors, game machines, car navigation, PDAs, etc. Internet/intra-net systems, car navigation, color facsimile machines, high-performance TVs, etc. Internet/intra-net systems, car nativation, color facsimile machines, digital still cameras, etc. ★: 98 Selection Guide X10679EJHV0SG00 Under development Microcomputer 32-Bit Single-Chip Microcontroller V850 Family ■ V850E/MS1TM µPD703100/ µPD703100-A★ Part number µPD703101/ µPD703101-A★ CPU core µPD703102/ µPD703102-A★ V850E CPU performance (Dhrystone) — On-chip ROM (bytes) — 43 MIPS (33 MHz) 96K 4K Address bus 24-bit Data bus 16-bit Programmable wait 0 to 7 Interrupt controller 32 × 32 → 64 DSP 32 × 32 + 32 → 32 External: 25, Internal: 47 0.025 to 0.05 µs (40 MHz) 0.03 to 0.06 µs (33 MHz) 0.075 µs (40 MHz) 0.09 µs (33 MHz) 16 × 16 → 32 — 16 × 16 + 32 → 32 — 16-bit × 8 channels Timer/counter (RPU) CSI Serial interface (SIO) 2 channels CSI/I2C — CSI/UART 2 channels UART — Dedicated baud rate generator 3 channels A/D converter 10-bit resolution × 8 channels DMA controller 4 channels Real-time output port — Input/output Port 114 Input Other peripheral function 9 Memory access control function (Direct connectable various memory) Power save function Operating frequency Operating voltage Power consumption (TYP.) HALT/IDLE/STOP 2 to 40 MHz Applications 2 to 33 MHz Internal unit: 3.3 V, A/D converter: 5 V/3.3 V, External pin: 5 V/3.3 V 570 mW/ 360 mW (40 MHz) 470 mW/300 mW (33 MHz) 144-pin plastic LQFP (20 × 20 mm) 157-pin plastic FBGA (14 × 14 mm)∗ Package Development tools 128K (Flash memory) 128K On-chip RAM (bytes) External bus interface µPD70F3102/ µPD70F3102-A★ Real-time OS, task debugger, C compiler, debugger, system performance analyzer, device file, in-circuit emulator Printers, facsimiles, PPCs, digital still cameras, video printers, DVD systems, etc. ∗: Except µPD703100, 703101, 703102, 70F3102 Selection Guide X10679EJHV0SG00 ★: Under development 99 Microcomputer 32-Bit Single-Chip Microcontroller V850 Family ■ V850/SA1 TM µPD703015/ µPD703015Y Part number µPD703017★/ µPD703017Y★ CPU core V850 CPU performance (Dhrystone) 19 MIPS (17 MHz) On-chip ROM (bytes) 128K On-chip RAM (bytes) 4K External bus interface 8K Address bus 22-bit Data bus 16-bit Programmable wait 0 to 3 External: 8, Internal: 23 32 × 32 → 64 — 32 × 32 + 32 → 32 — 16 × 16 → 32 0.059 to 0.118 µs (17 MHz) 16 × 16 + 32 → 32 Timer/counter (RPU) Serial interface (SIO) 256K (Flash memory) 256K Interrupt controller DSP µPD70F3017★/ µPD70F3017Y★ 0.177 µs (17 MHz) 16-bit × 2 channels 8-bit × 4 channels (Cascade connection supported) CSI 2 channels/1 channel 2 channels/1 channel 2 channels/1 channel CSI/I2C 0 channels/1 channel 0 channels/1 channel 0 channels/1 channel CSI/UART 1 channel UART 1 channel Dedicated baud rate generator 2 channels (UART only) A/D converter 10-bit resolution × 12 channels DMA controller 3 channels (internal RAM ←→ internal peripheral I/O) Real-time output port 8-bit × 1 or 4-bit × 2 Input/output Port 72 Input Other peripheral function 13 Watch timer: 1 channel Watchdog timer: 1 channel Power save function HALT/IDLE/STOP Operating frequency 1 to 17 MHz (main clock, 3 V) 32.768 kHz (subclok) Operating voltage 2.7 to 3.6 V Power consumption (TYP.) 30 mW (main clock: 10 MHz, 3 V) Package 100-pin plastic LQFP (14 × 14 mm) 121-pin plastic FBGA (12 × 12 mm) Development tools Real-time OS, task debugger, C compiler, debugger, system performance analyzer, device file, in-circuit emulator Applications Portable equipment such as camcorders, PHS (Personal Handyphone System), digital still cameras, cellular phones, portable MDs, etc. ★: 100 Selection Guide X10679EJHV0SG00 Under development Microcomputer 32-Bit Single-Chip Microcontroller V850 Family ■ V850/SB1 TM, V850/SB2TM Part number µPD703033★/ µPD70F3033★/ µPD70F3035★/ µPD703033Y★ µPD70F3033Y★ µPD70F3035Y★ V850/SB1TM Alias V850/SB2TM CPU core V850 CPU performance (Dhrystone) On-chip ROM (bytes) 22 MIPS (20 MHz) 256K 256K (Flash memory) On-chip ROM (bytes) External bus interface 16K Address bus 22-bit Data bus 16-bit Programmable wait 0 to 3 Interrupt controller External: 8, Internal: 30 (31 for Y products) 32 × 32 → 64 — 32 × 32 + 32 → 32 DSP — 0.050 to 0.100 µs (20 MHz) 16 × 16 → 32 0.150 µs (20 MHz) 16 × 16 + 32 → 32 Timer/counter (RPU) Serial interface (SIO) External: 8 Internal: 32 (33 for Y products) 16-bit × 2 channels 8-bit × 6 channels (Cascade connection supported) CSI 3 channels/1 channel 3 channels/1 channel 3 channels/1 channel CSI/I2C 0 channels/2 channels 0 channels/2 channels 0 channels/2 channels CSI/UART 2 channels UART Dedicated baud rate generator — 3 channels A/D converter 10-bit resolution × 12 channels DMA controller 6 channels (internal RAM ←→ internal peripheral I/O) Real-time output port Port 8-bit × 1 or 4-bit × 2 Input/output 71 Input 12 Other peripheral function Watch timer: 1 channel Watchdog timer: 1 channel Power save function HALT/IDLE/STOP Operating frequency 2 to 20 MHz (main clock) 32.768 kHz (subclock) Operating voltage Power consumption (TYP.) Package Watch timer: 1 channel Watchdog timer: 1 channel IEBus (Simple version) 4.5 to 5.5 V 40 mW (target value) (main clock: 5 V, 10 MHz) 100-pin plastic LQFP (14 × 14 mm) 100-pin plastic QFP (14 × 20 mm) Development tools Real-time OS, task debugger, C compiler, debugger, system performance analyzer, device file, in-circuit emulator Applications AV equipment such as car audio systems, TVs, and VCRs, and other applications ★: Selection Guide X10679EJHV0SG00 Under development 101 Microcomputer 32-Bit Single-Chip Microcontroller V850 Family ■ V854TM µPD703006 µPD703008 CPU performance (Dhrystone) — 29 MIPS (25 MHz) On-chip ROM (bytes) — Part number CPU core 18 MIPS (16 MHz) Data bus 16-bit Programmable wait 0 to 3 External: 22, Internal: 31 32 × 32 → 64 — 32 × 32 + 32 → 32 — 16 × 16 → 32 0.03 to 0.06 µs (33 MHz) 0.04 to 0.08 µs (25 MHz) 0.03 to 0.06 µs (33 MHz) 0.06 to 0.12 µs (16 MHz) 0.09 µs (33 MHz) 0.12 µs (25 MHz) 0.09 µs (33 MHz) 0.18 µs (16 MHz) 24-bit × 2 channels 16-bit × 6 channels Timer/counter (RPU) CSI 2 CSI/I C 128K (Flash memory) 4K 24-bit 16 × 16 + 32 → 32 Serial interface (SIO) 38 MIPS (33 MHz) 128K Address bus Interrupt controller DSP µPD70F3008★/ µPD70F3008Y★ V850 On-chip RAM (bytes) External bus interface µPD703008Y 3 channels 3 channels 0 channels 0 channels CSI/UART 2 channels 3 channes/2 channels 1 channel 0 channels/1 channel 1 channel UART — Dedicated baud rate generator 4 channels A/D converter 8-bit resolution × 16 channels DMA controller — Real-time output port 8 Input/output Port 96 Input 16 Other peripheral function PWM: 4 channels (12 to 16-bit resolution) Power save function Operating frequency Operating voltage Power consumption (TYP.) Package HALT/IDLE/STOP 2 to 33 MHz (3.3 V) 2 to 25 MHz (3 V) 2 to 33 MHz (3.3 V) 2 to 16 MHz (3.3 V) 3.0 to 3.6 V 2.7 to 3.6 V 3.0 to 3.6 V 3.1 to 3.6 V 195 mW (3.3 V, 33 MHz) 120 mW (3 V, 25 MHz) 195 mW (3.3 V, 33 MHz) 136 mW (3.3 V, 16 MHz) 144-pin plastic LQFP (20 × 20 mm) Development tools Real-time OS, task debugger, C compiler, debugger, simulator, system performance analyzer, device file, in-circuit emulator Applications Low-voltage-operation equipment including camcorders, VCRs, cellular phones, PDAs, and digital still cameras ★: 102 Selection Guide X10679EJHV0SG00 Under development Microcomputer 32-Bit Single-Chip Microcontroller V850 Family ■ V853TM µPD703003/ µPD703003A★ Part number µPD703004A★ µPD70F3003 CPU core On-chip ROM (bytes) 38 MIPS (33 MHz) 128K 128K (Flash memory) 8K Address bus 20-bit Data bus 16-bit Programmable wait 0 to 3 External: 17, Internal: 32 32 × 32 → 64 — 32 × 32 + 32 → 32 — 0.03 to 0.06 µs (33 MHz) 16 × 16 → 32 0.09 µs (33 MHz) 16 × 16 + 32 → 32 16 bit × 5 channels Timer/counter (RPU) CSI 2 channels 2 — CSI/UART 2 channels CSI/I C UART — Dedicated baud rate generator 3 channels A/D converter 10-bit resolution × 8 channels DMA controller — Real-time output port Port 256K (Flash memory) 256K 4K Interrupt controller Serial interface (SIO) 38 MIPS (33 MHz) 29 MIPS (25 MHz) 96K On-chip RAM (bytes) DSP µPD70F3025A★ V850 CPU performance (Dhrystone) External bus interface µPD70F3003A★ µPD703025A★ — Input/output 67 Input 8 PWM: 4 ch (8/9/10/12-bit resolution) D/A converter: 2 channels Other peripheral function Power save function Operating frequency HALT/IDLE/STOP 5 to 33 MHz (5 V) 5 to 25 MHz (5 V) 5 to 33 MHz (5 V) 4.5 to 5.5 V 4.75 to 5.25 V 4.5 to 5.5 V Operating voltage Power consumption (TYP.) Package 450 mW/365 mW (5 V, 33 MHz) 365 mW (5 V, 33 MHz) 385 mW (5 V, 25 MHz) ∗ 100-pin plastic LQFP (14 × 14 mm) 100-pin plastic QFP (14 × 14 mm) 425 mW (5 V, 33 MHz) 450 mW (5 V, 33 MHz) 480 mW (5 V, 33 MHz) 100-pin plastic LQFP (14 × 14 mm) Development tools Real-time OS, task debegger, C compiler, debugger, simulator, system performance analyzer, device file, in-circuit emulator Applications HDDs, PPCs, VCRs, motor control, robots, LBPs, printers, NC machine tools, single-lens reflex cameras, digital still cameras, etc. ∗: • 100-pin plastic QFP (14 × 14 mm) • 100-pin plastic LQFP (14 × 14 mm) ★: Selection Guide X10679EJHV0SG00 Under development 103 Microcomputer 32-Bit Single-Chip Microcontroller V850 Family ■ V852 TM µPD703002 Part number µPD70P3002 CPU core V850 CPU performance (Dhrystone) On-chip ROM (bytes) 29 MIPS (25 MHz) 90K 90K (PROM) On-chip RAM (bytes) External bus interface 3K Address bus 24-bit Data bus 16-bit Programmable wait 0 to 3 Interrupt controller DSP External: 9, Internal: 16 32 × 32 → 64 — 32 × 32 + 32 → 32 — 16 × 16 → 32 0.04 to 0.08 µs (25 MHz) 16 × 16 + 32 → 32 0.12 µs (25 MHz) 16-bit × 2 channels Timer/counter (RPU) CSI 3 channels 2 CSI/I C Serial interface (SIO) — CSI/UART — UART 1 channel Dedicated baud rate generator 2 channels A/D converter — DMA controller — Real-time output port Port — Input/output 67 Input 1 Other peripheral function — Power save function HALT/IDLE/STOP Operating frequency 3 to 25 MHz (5 V) Operating voltage Power consumption (TYP.) Package 4.5 to 5.5 V 250 mW (5 V, 25 MHz) • 100-pin plastic QFP (14 × 14 mm) • 100-pin plastic LQFP (14 × 14 mm) 320 mW (5 V, 25 MHz) 100-pin plastic QFP (14 × 14 mm) Development tools Real-time OS, task debugger, C compiler, debugger, simulator, system performance analyzer, device file, in-circuit emulator Applications HDDs, PPCs, VCRs, motor control, robots, LBPs, printers, NC machine tools, digital phones, engine control, etc. 104 Selection Guide X10679EJHV0SG00 Microcomputer 64-Bit Microprocessor VR Series TM ■ VR Series Road Map MIPS VR12000TM-300 VR10000-250 VR5464TM-200 TM VR10000 -200 500 VR5000-250 TM VR5000 -200 VR5432TM-167 VR4400-250 VR4310TM-167 High Performance VR4400-200/100 VR4121TM-168/131 VR4300-133 32-bit bus VR4400TM-150/75 200 64-bit RISC VR4000TM-100/50 VR4305TM-80 VR4300TM-100 High cost performance/ low power consumption VR4111TM-90/70 VR4102TM-49 VR4200TM-80/40 Low power consumption VR4100TM-40 PDA VR4101TM-33 Low cost / Low powet 92 93 94 95 96 97 98 99 Under development Selection Guide X10679EJHV0SG00 105 Microcomputer 64-Bit Microprocessor VR Series ■ VR Series Products (1/2) Part number µPD30121★ Alias Internal frequency µPD30200 VR4121 131 MHz VR4300 168 MHz 100 MHz 133 MHz µPD30210 VR4305 80 MHz µPD30500 VR4310 VR5000 167 MHz 200 MHz 250 MHz External: 3.3 V Internal: 2.5 V 3.3 V 3.3 V Cache size Instruction: 16K bytes Data: 8K bytes Instruction: 16K bytes Data: 8K bytes Instruction: 32K bytes Data: 32K bytes Performance 163 MIPS Features CPU core: VR4120TM On-chip peripheral function ideal for PDAs High-speed processing by 168 MHz operation and 0.25 µm process rule Low power consumption design Package 224-pin plastic FBGA Operating voltage Applications 208 MIPS PDAs such as handheld PCs and palm-size PCs 177 MIPS 80 SPECint92 60 SPECfp92 106 MIPS 48 SPECint92 36 SPECfp92 Software compatible with VR4000 Series 32-bit external bus High-speed floating-point operation 222 MIPS 100 SPECint92 75 SPECfp92 391 MIPS 6.8 SPECint95 6.8 SPECfp95 Software compatible with VR4300 32-bit external bus High-speed floatingpoint operation Two-way superscalar On-chip large primary cache On-chip secondary cache interface 272-pin plastic BGA 223-pin ceramic PGA 120-pin plastic QFP High-end embedded equipment for color LBPs, network routers, etc Embedded equipment for LBP, and game machines ★: Under development ■ VR Series Products (2/2) µPD30540★ µPD30541★ µPD30700 Alias VR5464 VR5432 VR10000 Internal frequency 200 MHz 167 MHz Part number Operating voltage Cache size Performance Features Package Applications External: 3.3 V, Internal: 2.5 V 200 MHz 3.3 V Instruction: 32K bytes Data: 32K bytes 309 MIPS 7 SPECint95 4 SPECfp95 258 MIPS 6.6 SPECint95 3.6 SPECfp95 Two-way superscalar On-chip large primary cache with line-lock function Hardware debugging function 272-pin plastic BGA µPD30710 VR12000 250 MHz 300 MHz 2.6 V 2.6 V Instruction: 32K bytes Data: 32K bytes 9.0 SPECint95 19.0 SPECfp95 14 SPECint95 23 SPECfp95 16.8 SPECint95 27.8 SPECfp95 Five-way superscalar On-chip FPU and MMU On-chip multiprocessor and secondary cache interface 208-pin plastic QFP High-end embedded equipment for color LBPs and STB, etc. 599-pin ceramic LGA Advanced WSs, servers ★: 106 Selection Guide X10679EJHV0SG00 Under development Microcomputer Development Tools 75XL Series Software Tools ■ List of Software Tools Host machine PC-9800 Series Software tool name Relocatable assembler RA75X IBM PC/ATTM and compatibles IE control program PC98-NX Series IE75X ■ List of Device Files Target device µPD750004 Device file name DF750008 Target device µPD753036 Device file name DF753036 µPD750006 Target device µPD754144 Device file name DF754244 µPD754244 µPD750008 µPD750104 µPD753104 µPD750106 µPD753106 µPD750108 µPD753108 µPD750064 DF750068 µPD750066 µPD754202 DF754202 DF753208 µPD754264 DF754264 DF753304 µPD754302 DF754304 µPD753206 µPD750068 µPD753012A µPD753204 DF753108 µPD753208 DF753017 µPD753304 µPD753016A µPD754304 µPD753017A Selection Guide X10679EJHV0SG00 107 Microcomputer Development Tools 75XL Series Hardware Tools ■ Common Hardware Tools Tool name Product name In-circuit emulator IE-75001-R Emulation board IE-75300-R-EM ■ List of Hardware Tools Conversion socket/ Target device Emulation probe Device name µPD750004 µPD750006 µPD750008 µPD750104 µPD750106 µPD750108 µPD750064 µPD750066 µPD750068 µPD753012A µPD753016A µPD753017A µPD753036 µPD753104 µPD753106 µPD753108 µPD753204 Package Conversion adapter/ Flexible board 42-pin SDIP (600 mil) EP-75008CU-R – 44-pin QFP (10 × 10) EP-75008GB-R 42-pin SDIP (600 mil) EP-75008CU-R 44-pin QFP (10 × 10) EP-75008GB-R 42-pin SDIP (600 mil) EP-750068CU-R 42-pin SSOP (375 mil) EP-750068GT-R EV-9500GT-42 80-pin QFP (14 × 14) EP-753017GC-R EV-9200GC-80 80-PIN TQFP (12 × 12) EP-753017GK-R TGK-080SDW∗ EV-9200G-44 – EV-9200G-44 – 80-pin QFP (14 × 14) EP-75336GC-R EV-9200GC-80 80-pin TQFP (12 × 12) EP-75336GK-R TGK-080SDW∗ 64-pin QFP (14 × 14) EP-753108GC-R EV-9200GC-64 64-pin LQFP (12 × 12) EP-753108GK-R TGK-064SBW∗ 48-pin SSOP (375 mil) EP-753208GT-R EV-9500GT-48 µPD753206 µPD753208 µPD753304 42-pin SDIP (600 mil) EP-753304DU-R (ES only) (ES only) µPD754144 20-pin SOP (300 mil) EP-754144GS-R µPD754244 20-pin SSOP (300 mil) µPD754264 20-pin SOP (300 mil) µPD754202 20-pin SOP (300 mil) 36-pin SSOP (300 mil) EV-9501GS-20 EV-9500GS-20 EV-9501GS-20 EP-754144GS-R 20-pin SSOP (300 mil) µPD754302 – EV-9501GS-20 EV-9500GS-20 EP-754304GS-R EV-9500GS-36 µPD754304 ∗: This is a product of Tokyo Eletech Corporation. 108 Selection Guide X10679EJHV0SG00 Microcomputer Development Tools 17K Series Software Tools ■ List of Software Tools Host machine Software tool name PC-9800 Series Relocatable assembler IBM PC/AT and compatibles C-like compiler PC98-NX Series Integrated debugger RA17K emlC-17KTM SIMPLEHOSTTM ■ List of Device Files Target device Device file name Target device Device file name Target device Device file name µPD17001 AS17001 µPD17053 AS17053 µPD17933A µPD17003A AS17003 µPD17062 AS17062 µPD17934A µPD17005 AS17005 µPD17068 AS17068 µPD17201A AS17201 µPD17010 AS17010 µPD17071 AS17071 µPD17203A AS17203 µPD17204 AS17204 µPD17207 AS17207 µPD17225 AS17225 µPD17072 µPD17073 µPD17012 µPD17015 µPD17016 µPD17017 AS17012 AS17015 AS17016 µPD17704 AS17707 µPD17705 µPD17226 µPD17707 µPD17227 µPD17708 µPD17228 µPD17709 µPD17235★ µPD17717 µPD17236★ AS17934 AS17235★ µPD17718 µPD17719 ★: Selection Guide X10679EJHV0SG00 Under development 109 Microcomputer Development Tools 17K Series Hardware Tools ■ Common Hardware Tools Tool name Product name In-circuit emulator IE-17K IE-17K-ET EMU-17K∗ ∗: This is a product of I.C Corporation. ■ List of Hardware Tools (1/2) Conversion socket/ Target device SE board Device name Emulation probe Package Conversion adapter/ Flexible board µPD17001 48-pin QFP SE-17001 EP-17001GH EV-9200GH-48 µPD17003A 80-pin QFP SE-17010 EP-17003GF EV-9200G-80 µPD17005 80-pin QFP SE-17010 EP-17003GF EV-9200G-80 µPD17010 80-pin QFP SE-17010 EP-17003GF EV-9200G-80 µPD17012 64-pin QFP SE-17012 EP-17202GF EV-9200G-64 µPD17015 38-pin SSOP SE-17015 EP-17K38GT EV-9500GT-38 µPD17016 80-pin QFP SE-17010 EP-17003GF EV-9200G-80 µPD17053 64-pin SDIP SE-17053 EP-17052CW – µPD17062 48-pin SDIP SE-17002 EP-17002CU – µPD17017 EP-17002GC EV-9200GC-64 µPD17068 64-pin QFP 100-pin QFP SE-17008 EP-17068GF µPD17071 56-pin QFP SE-17072 EP-17K56GB -1 EV-9200GF-100 TGB-056SBW∗ µPD17072 (Bend lead package) µPD17073 EP-17K56GB-2 (Inverted lead package) 64-pin TQFP EP-17K64GB ∗: This is a product of Tokyo Eletech Corporation. 110 Selection Guide X10679EJHV0SG00 TGB-064SDP∗ Microcomputer Development Tools 17K Series Hardware Tools ■ List of Hardware Tools (2/2) Conversion socket/ Target device SE board Device name µPD17704 Emulation probe Conversion adapter/ Package Flexible board 80-pin QFP SE-17709 EP-17K80GC EV-9200GC-80 80-pin QFP SE-17934 EP-17K80GK TGB-080SDP∗ µPD17201A 80-pin QFP (14 × 20) SE-17207 EP-17201GF EV-9200G-80 µPD17203A 52-pin QFP (14 × 20) SE-17204 EP-17203GC EV-9200G-52 µPD17207 80-pin QFP (14 × 20) SE-17207 EP-17201GF EV-9200G-80 µPD17225 28-pin SDIP (400 mil) SE-17225 EP-17K28CT – µPD17705 µPD17707 µPD17708 µPD17709 µPD17717 µPD17718 µPD17719 µPD17933A µPD17934A µPD17204 µPD17226 µPD17227 µPD17228 28-pin SOP (375 mil) EP-17K28GT EV-9500GT-28 30-pin SSOP (300 mil) EP-17K30GS★ EV-9500GT-30 EP-17K28GT EV-9500GT-28 EP-17K30GS★ EV-9500GT-30 µPD17235★ 28-pin SOP (375 mil) µPD17236 30-pin SSOP (300 mil) ★ SE-17235★ ∗: This is a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 ★: Under development 111 Microcomputer Development Tools µPD6133, 6604, 63 Series Software Tools ■ List of Software Tools Host machine PC-9800 Series Product name Absolute assembler AS6133 IBM PC/AT and compatibles PC98-NX Series 178K Series Software Tools ■ List of Device Files Target device µPD178002 Device file name DF178018 Target device µPD178023 ★ µPD178003 µPD178024★ µPD178004A µPD178046★ µPD178006A µPD178048 Device file name ★ DF178134 Target device µPD178076 ★ Device file name DF178098 µPD178078★ DF178048★ ★ µPD178096★ µPD178098★ µPD178016A µPD178018A ★: Under development Software tools other than device files are common to the 178K Series and the 78K/0 Series. See 78K/0 Series List of Software Tools for details. 112 Selection Guide X10679EJHV0SG00 Microcomputer Development Tools 178K Series Hardware Tools (1) When using the in-circuit emulator IE-78K0-NS ■ Common Hardware Tools (When using IE-78K0-NS) Tool name Product name In-circuit emulator IE-78K0-NS Performance board IE-78K0-NS-PA★ Power supply unit IE-70000-MC-PS-B Interface adapter IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus IE-70000-CD-IF-A for PCMCIA socket ★: Under development ■ List of Hardware Tools (When using IE-78K0-NS) Target device Device name µPD178002 Package Conversion socket/ Emulation board I/O board Emulation probe Conversion adapter/ Flexible board 80-pin QFP (14 × 14) IE-178018-NS-EM1 NP-80GC∗1 EV-9200GC-80 80-pin QFP (14 × 14) IE-178018-NS-EM1 NP-80GC∗1 EV-9200GC-80 80-pin QFP (14 × 20) IE-178134-NS-EM1★ NP-80GF∗1 EV-9200G-80 NP-80GC∗1 EV-9200GC-80 µPD178003 µPD178004A µPD178006A µPD178016A µPD178018A µPD178023★ ★ µPD178024 80-pin QFP (14 × 14) µPD178046★ 64-pin SDIP (750 mil) ★ µPD178048 80-pin TQFP (12 × 12) µPD178076★ 100-pin QFP (14 × 20) 100-pin QFP (14 × 20) IE-178048-NS-EM1★ NP-64CW∗1 – NP-80GK∗1 TGK-080SDW∗2 IE-178098-NS-EM1 NP-100GF∗1 EV-9200GF-100 IE-178098-NS-EM1 NP-100GF∗1 EV-9200GF-100 µPD178078 ★ µPD178096★ µPD178098 ★ ∗1: This is a product of Natio Densei Machida Mfg. Co., Ltd. ∗2: This ia a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 ★: Under development 113 Microcomputer Development Tools 178K Series Hardware Tools (2) When using the in-circuit emulator IE-78001-R-A ■ Common Hardware Tools (When using IE-78001-R-A) Tool name Product name In-circuit emulator IE-78001-R-A Interface adapter IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus ■ List of Hardware Tools (When using IE-78001-R-A) Target device Emulation board I/O board Device name µPD178002 Package Conversion socket/ Emulation probe Conversion adapter/ Emulation probe conversion board Flexible board 80-pin QFP (14 × 14) IE-178018-R-EM EP-78230GC-R EV-9200GC-80 80-pin QFP (14 × 14) IE-178018-R-EM EP-78230GC-R EV-9200GC-80 µPD178023★ 80-pin QFP (14 × 20) IE-178134-NS-EM1★ EP-78130GF-R EV-9200G-80 µPD178024 80-pin QFP (14 × 14) IE-78K0-R-EX1 EP-78230GC-R EV-9200GC-80 µPD178046 64-pin SDIP (750 mil) Not supported. Use IE-78K0-NS for these devices. µPD178048★ 80-pin TQFP (12 × 12) µPD178076★ 100-pin QFP (14 × 20) µPD178003 µPD178004A µPD178006A µPD178016A µPD178018A ★ ★ µPD178078★ µPD178096★ µPD178098★ IE-178098-NS-EM1 EP-78064GF-R EV-9200GF-100 EP-78064GF-R EV-9200GF-100 IE-78K0-R-EX1 100-pin QFP (14 × 20) IE-178098-NS-EM1 IE-78K0-R-EX1 ★: 114 Selection Guide X10679EJHV0SG00 Under development Microcomputer Development Tools 78K/0S Series Software Tools ■ List of Software Tools Host machine Software tool name PC-9800 Series Assembler package IBM PC/AT and compatibles C compiler PC98-NX Series C library source file RA78K0S CC78K0S CC78K0S-L Integrated debugger System simulator ID78K0S-NS SM78K0S Embedded OS MX78K0S EWS Assembler package C compiler RA78K0S CC78K0S C library source file CC78K0S-L ■ List of Device Files Subseries name Device file name Subseries name µPD789014 DF789014 µPD789167★ µPD789026 DF789026 µPD789177★ DF789046 µPD789407A DF789134 µPD789417A µPD789046 µPD789104A ★ µPD789114A★ µPD789800 Device file name DF789178 DF789418 DF789801 µPD789124A µPD789830 ★ DF789831 µPD789134A★ µPD789842★ DF789842 ★ ★: Under development Selection Guide X10679EJHV0SG00 115 Microcomputer Development Tools 78K/0S Series Hardware Tools ■ Common Hardware Tools Tool name Product name In-circuit emulator IE-78K0S-NS Power supply unit IE-70000-MC-PS-B Interface adapter IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus IE-70000-CD-IF-A for PCMCIA socket ■ List of Hardware Tools (1/2) Conversion socket/ Target device Emulation board Subseries name µPD789014 Emulation probe Conversion adapter/ Package 28-pin SDIP (400 mil) Flexible board IE-789014-NS-EM1 NP-28CT∗ 28-pin SOP (375 mil) NP-28GT∗ 42-pin SDIP (600 mil) NP-42CU∗ – AXS628119P∗ AXS662821∗ µPD789026 IE-789026-NS-EM1 44-pin QFP (10 × 10) µPD789046 µPD789104A ★ – NP-44GB∗ EV-9200G-44 EV-9200G-44 44-pin QFP (10 × 10) IE-789046-NS-EM1 NP-44GB∗ 28-pin SDIP (400 mil) IE-789136-NS-EM1 NP-28CT∗ 30-pin SSOP (300 mil) NP-36GS∗ 28-pin SDIP (400 mil) NP-28CT∗ – NGS-30∗ (attached to NP-36GS∗) µPD789114A ★ IE-789136-NS-EM1 NP-36GS∗ 30-pin SSOP (300 mil) – NGS-30∗ (attached to NP-36GS∗) µPD789124A ★ 28-pin SDIP (400 mil) IE-789136-NS-EM1 NP-28CT∗ NP-36GS∗ 30-pin SSOP (300 mil) – NGS-30∗ (attached to NP-36GS∗) ∗: This is a product of Naito Densei Machida Mfg. Co., Ltd. 116 Selection Guide X10679EJHV0SG00 ★: Under development Microcomputer Development Tools 78K/0S Series Hardware Tools ■ List of Hardware Tools (2/2) Conversion socket/ Target device Emulation board Subseries name µPD789134A ★ Emulation probe Conversion adapter/ Package 28-pin SDIP (400 mil) Flexible board NP-28CT∗1 IE-789136-NS-EM1 NP-36GS∗1 30-pin SSOP (300 mil) – NGS-30∗1 (attached to NP-36GS∗1) ★ µPD789167 µPD789177★ µPD789407A µPD789417A µPD789800 44-pin QFP (10 × 10) IE-789177-NS-EM1 ★ NP-44GB∗1 EV-9200G-44 44-pin QFP (10 × 10) IE-789177-NS-EM1★ NP-44GB∗1 EV-9200G-44 IE-789418-NS-EM1 NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) NP-80GK∗1 TGK-080SDW∗2 80-pin QFP (14 × 14) NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) NP-80GK∗1 TGK-080SDW∗2 42-pin SDIP (600 mil) NP-42CU∗1 80-pin QFP (14 × 14) IE-789418-NS-EM1 IE-789801-NS-EM1 44-pin QFP (10 × 10) µPD789830★ 88-pin bare chip µPD78F9831★ 100-pin LQFP (14 × 14) µPD789842★ 44-pin QFP (10 × 10) NP-44GB∗1 IE-789831-NS-EM1 IE-789840-NS-EM1 ∗1: This is a product of Naito Densei Machida Mfg. Co., Ltd. ∗2: This is a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 – EV-9200G-44 – – NP-100GC∗1 TGC-100SDW∗2 NP-44GB∗1 EV-9200G-44 ★: Under development 117 Microcomputer Development Tools 78K/0 Series Software Tools ■ List of Software Tools Host machine Software tool name PC-9800 Series Assembler package IBM PC/AT and compatibles C compiler PC98-NX Series C library source file CC78K0 CC78K0-L Integrated debugger ID78K0-NS Integrated debugger ID78K0 System simulator Real-time OS SM78K0 RX78K/0 Embedded OS EWS RA78K0 MX78K0 Assembler package C compiler RA78K0 CC78K0 C library source file CC78K0-L Integrated debugger ID78K0 ■ List of Device Files Subseries name µPD78018F Device file name DF78014 Subseries name µPD78078 Device file name DF78078 Subseries name µPD780232 Device file name DF780233 µPD78018FY µPD78078Y µPD780308 DF780308 µPD78014H µPD78075B µPD780308Y (µSxxxxDF78064) µPD78044F DF78044 µPD78044H µPD78054 DF78054 µPD78083 DF78083 µPD780701Y★ DF780701★ µPD78098B DF78098 µPD780833Y DF780831★ µPD780018AY DF780018 µPD780948★ DF780948★ DF780024 DF780955 ★ µPD78054Y µPD780024A µPD780955 ★ µPD78058F µPD780024AY µPD780958 ★ DF780958★ µPD78058FY µPD780034A µPD780973 ★ DF780974 µPD78064 µPD780034AY DF78054 DF78064 µPD78064Y µPD780058 µPD78064B µPD780058Y★ µPD78070A µPD78070AY DF78078 DF780034 µPD780988 DF780988 DF780058 µPD780065★ DF780066★ µPD780208 DF780208 ★: 118 Selection Guide X10679EJHV0SG00 Under development Microcomputer Development Tools 78K/0 Series Hardware Tools (1) When using the in-circuit emulator IE-78K0-NS ■ Common Hardware Tools (When using IE-78K0-NS) Tool name Product name In-circuit emulator IE-78K0-NS Performance board IE-78K0-NS-PA★ Power supply unit IE-70000-MC-PS-B Interface adapter IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus IE-70000-CD-IF-A for PCMCIA socket ★: Under development ■ List of Hardware Tools (When using IE-78K0-NS) (1/3) Target device Conversion socket/ Emulation board Emulation probe Subseries name µPD78018F µPD78018FY µPD78014H µPD78044F Package 64-pin SDIP (750 mil) I/O board IE-78018-NS-EM1 Conversion adapter/ Flexible board NP-64CW∗1 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 64-pin SDIP (750 mil) IE-78018-NS-EM1 NP-64CW∗1 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 64-pin SDIP (750 mil) NP-64CW∗1 IE-78018-NS-EM1 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 IE-78048-NS-EM1 NP-80GF∗1 TGF-080RAW∗2 TGF-080RAW∗2 80-pin QFP (14 × 20) µPD78044H 80-pin QFP (14 × 20) IE-78048-NS-EM1 NP-80GF∗1 µPD78054 80-pin QFP (14 × 14) IE-780308-NS-EM1 NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) IE-780308-NS-EM1 NP-80GK∗1 TGK-080SDW∗2 80-pin QFP (14 × 14) IE-780308-NS-EM1 NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) IE-780308-NS-EM1 NP-80GK∗1 TGK-080SDW∗2 80-pin QFP (14 × 14) IE-780308-NS-EM1 NP-80GC∗1 EV-9200GC-80 IE-780308-NS-EM1 NP-80GC∗1 EV-9200GC-80 µPD78054Y µPD78058F µPD78058FY 80-pin QFP (14 × 14) ∗1: This is a product of Naito Densei Machida Mfg. Co., Ltd. ∗2: This is a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 119 Microcomputer Development Tools 78K/0 Series Hardware Tools ■ List of Hardware Tools (When using IE-78K0-NS) (2/3) Target device Conversion socket/ Emulation board Emulation probe Subseries name µPD78064 Package 100-pin SDIP (14 × 20) I/O board IE-780308-NS-EM1 100-pin LQFP (14 × 14) µPD78064Y 100-pin QFP (14 × 20) IE-780308-NS-EM1 100-pin LQFP (14 × 14) µPD78064B 100-pin QFP (14 × 20) IE-780308-NS-EM1 100-pin LQFP (14 × 14) µPD78070A 100-pin QFP (14 × 20) IE-78078-NS-EM1 100-pin LQFP (14 × 14) µPD78070AY 100-pin QFP (14 × 20) IE-78078-NS-EM1 100-pin LQFP (14 × 14) µPD78078 100-pin QFP (14 × 20) IE-78078-NS-EM1 100-pin LQFP (14 × 14) µPD78078Y 100-pin QFP (14 × 20) IE-78078-NS-EM1 100-pin LQFP (14 × 14) µPD78075B 100-pin QFP (14 × 20) IE-78078-NS-EM1 100-pin LQFP (14 × 14) µPD78083 42-pin SDIP (600 mil) IE-78078-NS-EM1 Flexible board NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-42CU∗1 NP-44GB∗1 44-pin QFP (10 × 10) µPD78098B 80-pin QFP (14 × 14) Not supported. Use IE-78001-R-A for these devices. µPD780018AY 100-pin QFP (14 × 20) IE-780018-NS-EM1 NP-100GF∗1 µPD780024A 64-pin SDIP (750 mil) IE-780034-NS-EM1 NP-64CW∗1 µPD780024AY µPD780034A µPD780034AY – EV-9200G-44 EV-9200GF-100 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 64-pin SDIP (750 mil) NP-64CW∗1 IE-780034-NS-EM1 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 64-pin SDIP (750 mil) IE-780034-NS-EM1 NP-64CW∗1 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 64-pin SDIP (750 mil) NP-64CW∗1 IE-780034-NS-EM1 – 64-pin QFP (14 × 14) NP-64GC∗1 EV-9200GC-64 64-pin LQFP (12 × 12) NP-64GK∗1 TGK-064SBW∗2 ∗1: This is a product of Naito Densei Machida Mfg. Co., Ltd. ∗2: This is a product of Tokyo Eletech Corporation. 120 Conversion adapter/ Selection Guide X10679EJHV0SG00 Microcomputer Development Tools 78K/0 Series Hardware Tools ■ List of Hardware Tools (When using IE-78K0-NS) (3/3) Target device Conversion socket/ Emulation board Emulation probe Subseries name µPD780058 Package I/O board EV-9200GC-80 NP-80GK∗1 TGK-080SDW∗2 NP-80GC∗1 EV-9200GC-80 NP-80GK∗1 TGK-080SDW∗2 NP-80GC∗1 EV-9200GC-80 NP-100GF∗1 EV-9200GF-100 NP-80GC∗1 EV-9200GC-80 NP-100GF∗1 EV-9200GF-100 100-pin LQFP (14 × 14) NP-100GC∗1 TGC-100SDW∗2 100-pin QFP (14 × 20) NP-100GF∗1 EV-9200GF-100 NP-100GC∗1 TGC-100SDW∗2 NP-80GC∗1 EV-9200GC-80 NP-80GC∗1 EV-9200GC-80 IE-780308-NS-EM1 80-pin TQFP (12 × 12) µPD780058Y 80-pin QFP (14 × 14) IE-780308-NS-EM1 80-pin TQFP (12 × 12) µPD780065 80-pin QFP (14 × 14) µPD780208 100-pin QFP (14 × 20) ★ Flexible board NP-80GC∗1 80-pin QFP (14 × 14) ★ Conversion adapter/ IE-780066-NS-EM4 ★ IE-78K0-NS-P01 µPD780232 80-pin QFP (14 × 14) IE-780208-NS-EM1 IE-780233-NS-EM4 ★ IE-78K0-NS-P01 µPD780308 100-pin QFP (14 × 20) µPD780308Y IE-780308-NS-EM1 IE-780308-NS-EM1 100-pin LQFP (14 × 14) µPD780701Y ★ ★ 80-pin QFP (14 × 14) IE-780701-NS-EM1 µPD780833Y★ 80-pin QFP (14 × 14) IE-780831-NS-EM4 µPD780948★ 100-pin QFP (14 × 20) Not supported. Use IE-78001-R-A for these devices. µPD780955 80-pin QFP (14 × 20) We, NEC, will support each requirement for the development environment of this IE-78K0-NS-P02 ★ subseries’ devices. Please contact an NEC sales representative. µPD780958 ★ 100-pin LQFP (14 × 14) IE-780958-NS-EM4★ NP-100GC∗1 TGC-100SDW∗2 EV-9200G-80 IE-78K0-NS-P01 µPD780973 80-pin QFP (14 × 20) IE-780974-NS-EM1★ NP-80GF∗1 µPD780988 64-pin SDIP (750 mil) IE-780988-NS-EM4 NP-64CW∗1 IE-780K0-NS-P01 NP-64GC∗1 ★ 64-pin QFP (14 × 14) ∗1: This is a product of Naito Densei Machida Mfg. Co., Ltd. ∗2: This is a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 – EV-9200GC-64 ★: Under development 121 Microcomputer Development Tools 78K/0 Series Hardware Tools (2) When using the in-circuit emulator IE-78001-R-A ■ Common Hardware Tools (When using IE-78001-R-A) Tool name Product name In-circuit emulator IE-78001-R-A Interface adapter IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus ■ List of Hardware Tools (When using IE-78001-R-A) (1/3) Emulation board Target device I/O board Subseries name µPD78018F µPD78018FY µPD78014H Package 64-pin SDIP (750 mil) Conversion socket/ Emulation probe Emulation probe conversion board IE-78014-R-EM-A Conversion adapter/ Flexible board EP-78240CW-R – 64-pin QFP (14 × 14) EP-78240GC-R EV-9200GC-64 64-pin LQFP (12 × 12) EP-78012GK-R TGK-064SBW∗ 64-pin SDIP (750 mil) IE-78014-R-EM-A EP-78240CW-R – 64-pin QFP (14 × 14) EP-78240GC-R EV-9200GC-64 64-pin LQFP (12 × 12) EP-78012GK-R TGK-064SBW∗ 64-pin SDIP (750 mil) IE-78014-R-EM-A EP-78240CW-R – 64-pin QFP (14 × 14) EP-78240GC-R EV-9200GC-64 64-pin LQFP (12 × 12) EP-78012GK-R TGK-064SBW∗ µPD78044F 80-pin QFP (14 × 20) IE-78044-R-EM EP-78130GF-R EV-9200G-80 µPD78044H 80-pin QFP (14 × 20) IE-78044-R-EM EP-78130GF-R EV-9200G-80 80-pin QFP (14 × 14) IE-780308-R-EM µPD78054 80-pin TQFP (12 × 12) µPD78054Y 80-pin QFP (14 × 14) IE-780308-R-EM 80-pin TQFP (12 × 12) EP-78230GC-R EV-9200GC-80 EP-78054GK-R TGK-080SDW∗ EP-78230GC-R EV-9200GC-80 EP-78054GK-R TGK-080SDW∗ µPD78058F 80-pin QFP (14 × 14) IE-780308-R-EM EP-78230GC-R EV-9200GC-80 µPD78058FY 80-pin QFP (14 × 14) IE-780308-R-EM EP-78230GC-R EV-9200GC-80 100-pin QFP (14 × 20) IE-780308-R-EM µPD78064 100-pin LQFP (14 × 14) µPD78064Y 100-pin QFP (14 × 20) IE-780308-R-EM 100-pin LQFP (14 × 14) µPD78064B 100-pin QFP (14 × 20) IE-780308-R-EM 100-pin LQFP (14 × 14) ∗: This is a product of Tokyo Eletech Corporation. 122 Selection Guide X10679EJHV0SG00 EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ Microcomputer Development Tools 78K/0 Series Hardware Tools ■ List of Hardware Tools (When using IE-78001-R-A) (2/3) Emulation board Target device I/O board Subseries name µPD78070A Package 100-pin QFP (14 × 20) 100-pin QFP (14 × 20) IE-78078-R-EM IE-78078-R-EM 100-pin LQFP (14 × 14) µPD78078 100-pin QFP (14 × 20) IE-78078-R-EM 100-pin LQFP (14 × 14) µPD78078Y 100-pin QFP (14 × 20) IE-78078-R-EM 100-pin LQFP (14 × 14) µPD78075B 100-pin QFP (14 × 20) IE-78078-R-EM 100-pin LQFP (14 × 14) µPD78083 42-pin SDIP (600 mil) Conversion adapter/ Emulation probe conversion board 100-pin LQFP (14 × 14) µPD78070AY Conversion socket/ Emulation probe IE-78078-R-EM 44-pin QFP (10 × 10) Flexible board EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78083CU-R – EP-78083GB-R EV-9200G-44 µPD78098B 80-pin QFP (14 × 14) IE-780908-R-EM EP-78230GC-R EV-9200GC-80 µPD780018AY 100-pin QFP (14 × 20) IE-780018-R-EM EP-78064GF-R EV-9200GF-100 µPD780024A 64-pin SDIP (750 mil) IE-780034-NS-EM1 EP-78240CW-R 64-pin QFP (14 × 14) IE-78K0-R-EX1 EP-78240GC-R EV-9200GC-64 EP-78012GK-R TGK-064SBW∗ 64-pin LQFP (14 × 14) µPD780024AY 64-pin SDIP (750 mil) IE-780034-NS-EM1 EP-78240CW-R 64-pin QFP (14 × 14) IE-78K0-R-EX1 EP-78240GC-R EV-9200GC-64 EP-78012GK-R TGK-064SBW∗ 64-pin LQFP (12 × 12) µPD780034A IE-780034-NS-EM1 EP-78240CW-R 64-pin QFP (14 × 14) IE-78K0-R-EX1 EP-78240GC-R EV-9200GC-64 EP-78012GK-R TGK-064SBW∗ IE-780034-NS-EM1 EP-78240CW-R 64-pin QFP (14 × 14) IE-78K0-R-EX1 EP-78240GC-R EV-9200GC-64 EP-78012GK-R TGK-064SBW∗ EP-78230GC-R EV-9200GC-80 EP-78054GK-R TGK-080SDW∗ EP-78230GC-R EV-9200GC-80 EP-78054GK-R TGK-080SDW∗ 80-pin QFP (14 × 14) IE-780308-R-EM 80-pin TQFP (12 × 12) µPD780058Y ★ – 64-pin SDIP (750 mil) 64-pin LQFP (12 × 12) µPD780058 – 64-pin SDIP (750 mil) 64-pin LQFP (12 × 12) µPD780034AY – 80-pin QFP (14 × 14) IE-780308-R-EM 80-pin TQFP (12 × 12) ∗: This is a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 – ★: Under development 123 Microcomputer Development Tools 78K/0 Series Hardware Tools ■ List of Hardware Tools (When using IE-78001-R-A) (3/3) Emulation board Target device I/O board Subseries name µPD780065 ★ Package 80-pin QFP (14 × 14) Conversion socket/ Emulation probe Conversion adapter/ Emulation probe conversion board IE-780066-NS-EM4★ Flexible board EP-78230GC-R EV-9200GC-80 IE-78K0-NS-P01 IE-78K0-R-EX1 µPD780208 100-pin QFP (14 × 20) IE-780208-R-EM EP-78064GF-R EV-9200GF-100 µPD780232 80-pin QFP (14 × 14) IE-780233-NS-EM4★ EP-78230GC-R EV-9200GC-80 IE-78K0-NS-P01 IE-78K0-R-EX1 µPD780308 100-pin QFP (14 × 20) IE-780308-R-EM 100-pin LQFP (14 × 14) µPD780308Y 100-pin QFP (14 × 20) IE-780308-R-EM 100-pin LQFP (14 × 14) µPD780701Y ★ 80-pin QFP (14 × 14) ★ IE-780701-NS-EM1 EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78064GF-R EV-9200GF-100 EP-78064GC-R TGC-100SDW∗ EP-78230GC-R EV-9200GC-80 EP-78230GC-R EV-9200GC-80 EP-100GF-SL TQPACK100RB∗ or IE-78K0-R-EX1 µPD780833Y★ 80-pin QFP (14 × 14) IE-780831-NS-EM4 IE-78K0-NS-P02 IE-78K0-R-EX1 µPD780948★ 100-pin QFP (14 × 20) IE-780948-SL-EM1 YQPACK100RB∗ + IE-780948-SL-EM4 NQPACK100RB∗ µPD780955 ★ 80-pin QFP (14 × 20) We, NEC, will support each requirement for the development environment of this subseries’ devices. Please contact an NEC sales representative. µPD780958 ★ 100-pin LQFP (14 × 14) IE-780958-NS-EM4★ EP-78064GC-R TGC-100SDW∗ EP-78130GF-R EV-9200G-80 IE-78K0-NS-P01 IE-78K0-R-EX1 µPD780973★ 80-pin QFP (14 × 20) IE-780974-NS-EM1★ 64-pin SDIP (750 mil) IE-780988-NS-EM4 IE-78K0-R-EX1 µPD780988 EP-78024CW-R – IE-78K0-NS-P01 64-pin QFP (14 × 14) IE-78K0-R-EX1 ∗: This is a product of Tokyo Eletech Corporation. 124 Selection Guide X10679EJHV0SG00 EP-78240GC-R EV-9200GC-64 ★: Under development Microcomputer Development Tools 78K/IV Series Software Tools ■ List of Software Tools Host machine Software tool name PC-9800 Series Assembler package IBM PC/AT and compatibles C compiler PC98-NX Series C library source file RA78K4 CC78K4 CC78K4-L Integrated debugger ID78K4-NS Integrated debugger ID78K4 System simulator SM78K4 System performance analyzer Real-time OS Embedded OS EWS MX78K4 Assembler package C compiler AZ78K4 RX78K4 RA78K4 CC78K4 C library source file CC78K4-L Integrated debugger ID78K4 ■ List of Device Files Subseries name µPD784038 Device file name DF784038 DF784046 µPD784216Y µPD784225★ DF784218 Subseries name Device file name µPD784928 DF784928 µPD784928Y DF784225 µPD784225Y★ µPD784054 µPD784216 Device file name DF784218 µPD784218Y µPD784038Y µPD784046 Subseries name µPD784218 µPD784908 DF784908 µPD784915 DF784916 µPD784938★ DF784937★ µPD784955★ DF784956 ★: Selection Guide X10679EJHV0SG00 Under development 125 Microcomputer Development Tools 78K/IV Series Hardware Tools (1) When using the in-circuit emulator IE-78K4-NS ■ Common Hardware Tools (When using IE-78K4-NS) Tool name Product name In-circuit emulator IE-78K4-NS Power supply unit IE-70000-MC-PS-B Interface adapter IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus IE-70000-CD-IF-A for PCMCIA socket ■ List of Hardware Tools (When using IE-78K4-NS) Conversion socket/ Target device Emulation board Subseries name µPD784038 Emulation probe Conversion adapter/ Package Flexible board NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) NP-80GK∗1 TGK-080SDW∗2 80-pin QFP (14 × 14) NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) NP-80GK∗1 TGK-080SDW∗2 µPD784046 80-pin QFP (14 × 14) IE-784046-NS-EM1 NP-80GC∗1 EV-9200GC-80 µPD784054 80-pin QFP (14 × 14) IE-784046-NS-EM1 NP-80GC∗1 EV-9200GC-80 IE-784225-NS-EM1 NP-100GF∗1 EV-9200GF-100 100-pin LQFP (14 × 14) NP-100GC∗1 TGC-100SDW∗2 100-pin QFP (14 × 20) NP-100GF∗1 EV-9200GF-100 100-pin LQFP (14 × 14) NP-100GC∗1 TGC-100SDW∗2 100-pin QFP (14 × 20) NP-100GF∗1 EV-9200GF-100 100-pin LQFP (14 × 14) NP-100GC∗1 TGC-100SDW∗2 100-pin QFP (14 × 20) NP-100GF∗1 EV-9200GF-100 100-pin LQFP (14 × 14) NP-100GC∗1 TGC-100SDW∗2 80-pin QFP (14 × 14) NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) NP-80GK∗1 TGK-080SDW∗2 80-pin QFP (14 × 14) NP-80GC∗1 EV-9200GC-80 80-pin TQFP (12 × 12) NP-80GK∗1 TGK-080SDW∗2 µPD784908 100-pin QFP (14 × 20) IE-784908-NS-EM1 NP-100GF∗1 EV-9200GF-100 µPD784915 100-pin QFP (14 × 20) IE-784928-NS-EM1 EP-784928GF-NS NEV-921GF-100 µPD784928 100-pin QFP (14 × 20) IE-784928-NS-EM1 EP-784928GF-NS NEV-921GF-100 µPD784928Y 100-pin QFP (14 × 20) IE-784928-NS-EM1 EP-784928GF-NS NEV-921GF-100 EV-9200GF-100 EV-9200GC-80 80-pin QFP (14 × 14) µPD784038Y µPD784216 100-pin QFP (14 × 20) µPD784216Y µPD784218 µPD784218Y µPD784225 ★ µPD784225Y ★ IE-784038-NS-EM1 IE-784038-NS-EM1 IE-784225-NS-EM1 IE-784225-NS-EM1 IE-784225-NS-EM1 IE-784225-NS-EM1 IE-784225-NS-EM1 µPD784938 100-pin QFP (14 × 20) IE-784937-NS-EM1 NP-100GF∗1 µPD784955★ 80-pin QFP (14 × 14) IE-784956-NS-EM1 NP-80GC∗1 ★ ∗1: This is a product of Naito Densei Machida Mfg. Co., Ltd. ∗2: This is a product of Tokyo Eletech Corporation. 126 Selection Guide X10679EJHV0SG00 ★: Under development Microcomputer Development Tools 78K/IV Series Hardware Tools (2) When using the in-circuit emulator IE-784000-R ■ Common Hardware Tools (When using IE-784000-R) Tool name Product name In-circuit emulator IE-784000-R Emulation board IE-784000-R-EM Interface board IE-70000-98-IF-C for C bus of PC-9800 Series IE-70000-PC-IF-C for ISA bus of PC/AT and compatibles IE-70000-PCI-IF for PCI bus IE-70000-CD-IF-A for PCMCIA socket ■ List of Hardware Tools (When using IE-784000-R) (1/2) I/O emulation board Target device (emulation board) Subseries name µPD784038 Package 80-pin QFP (14 × 14) Emulation probe conversion board IE-784038-R-EM1 80-pin TQFP (12 × 12) µPD784038Y 80-pin QFP (14 × 14) Conversion socket/ Emulation probe IE-784038-R-EM1 80-pin TQFP (12 × 12) Conversion adapter/ Flexible board EP-78230GC-R EV-9200GC-80 EP-78054GK-R TGK-080SDW∗ EP-78230GC-R EV-9200GC-80 EP-78054GK-R TGK-080SDW∗ EP-78230GC-R EV-9200GC-80 µPD784046 80-pin QFP (14 × 14) µPD784054 80-pin QFP (14 × 14) IE-784046-R-EM1 EP-78230GC-R EV-9200GC-80 µPD784216 100-pin QFP (14 × 20) IE-784225-NS-EM1 EP-78064GF-R EV-9200GF-100 100-pin LQFP (14 × 14) IE-78K4-R-EX3 EP-78064GC-R TGC-100SDW∗ IE-784046-R-EM1 ∗: This is a product of Tokyo Eletech Corporation. Selection Guide X10679EJHV0SG00 127 Microcomputer Development Tools 78K/IV Series Hardware Tools ■ List of Hardware Tools (When using IE-784000-R) (2/2) I/O emulation board Target device (emulation board) Subseries name µPD784216Y µPD784218 µPD784218Y µPD784225★ µPD784225Y★ Package Conversion socket/ Emulation probe Conversion adapter/ Emulation probe conversion board Flexible board 100-pin QFP (14 × 20) IE-784225-NS-EM1 EP-78064GF-R 100-pin LQFP (14 × 14) IE-78K4-R-EX3 EP-78064GC-R TGC-100SDW∗ 100-pin QFP (14 × 20) IE-784225-NS-EM1 EP-78064GF-R EV-9200GF-100 100-pin LQFP (14 × 14) IE-78K4-R-EX3 EP-78064GC-R TGC-100SDW∗ 100-pin QFP (14 × 20) IE-784225-NS-EM1 EP-78064GF-R EV-9200GF-100 100-pin LQFP (14 × 14) IE-78K4-R-EX3 EP-78064GC-R TGC-100SDW∗ 80-pin QFP (14 × 14) IE-784225-NS-EM1 EP-78230GC-R EV-9200GC-80 80-pin TQFP (12 × 12) IE-78K4-R-EX2 EP-78054GK-R TGK-080SDW∗ 80-pin QFP (14 × 14) IE-784225-NS-EM1 EP-78230GC-R EV-9200GC-80 EV-9200GF-100 80-pin TQFP (12 × 12) IE-78K4-R-EX2 EP-78054GK-R TGK-080SDW∗ µPD784908 100-pin QFP (14 × 20) IE-784908-R-EM1 EP-784915GF-R EV-9200GF-100 µPD784915 100-pin QFP (14 × 20) IE-784928-NS-EM1 EP-784928GF-NS EV-9200GF-100 EP-784928GF-NS EV-9200GF-100 EP-784928GF-NS EV-9200GF-100 EP-78064GF-R EV-9200GF-100 EP-784915GF-R EV-9200GC-80 IE-78K4-R-EX3 µPD784928 100-pin QFP (14 × 20) IE-784928-NS-EM1 IE-78K4-R-EX3 µPD784928Y 100-pin QFP (14 × 20) IE-784928-NS-EM1 IE-78K4-R-EX3 µPD784938★ 100-pin QFP (14 × 20) IE-784937-NS-EM1 IE-78K4-R-EX3 µPD784955★ 80-pin QFP (14 × 14) IE-784956-NS-EM1 IE-78K4-R-EX2 ∗: This is a product of Tokyo Eletech Corporation. 128 Selection Guide X10679EJHV0SG00 ★: Under development Microcomputer Development Tools V810 Family Development Tools ■ List of Software Tools Product name Real-time OS Target device RX732 V821 Host machine PC-9800 Series IBM PC/AT and compatibles SPARCstationTM File system RX-FS732 PC-9800 Series SPARCstation Remark Please contact an NEC sales representative if you use host machines not mentioned above. ■ List of Hardware Tools Product name Target device In-circuit emulator V821 Part number Remarks Conversion socket : TQPACK100SD∗ + IE-70741-BX TQSOCKET100SDW∗ (essential) Interface board IE-70000-98-IF-C For PC-9800 Series IE-70000-PC-IF-C For IBM PC/AT and compatibles IE-70000-BX-MM2 Expands 2M bytes of the emulation memory External logic probe IE-70000-BX-EP Consists of one GND and eight external inputs Conversion adapter / TQPACK100SD∗ Probe included in the in-circuit emulator → 100-pin QFP Conversion socket TQSOCKET100SDW∗ Expansion memory board ∗: This is a product of Tokyo Eletech Corporation. V830 Family Development Tools ■ List of Software Tools Product name Real-time OS RX830 Target device V830 Family Host machine PC-9800 Series IBM PC/AT and compatibles SPARCstation Compiler CA830 V830 PC-9800 Series V831 IBM PC/AT and compatibles SPARCstation System AZ830 V830 Family performance PC-9800 Series IBM PC/AT and compatibles analyzer Device file DF705100 V830 DF705101 V831 PC-9800 Series IBM PC/AT and compatibles SPARCstation Remark Please contact an NEC sales representative if you use host machines not mentioned above. Hardwre tools are not provided. Please contact an NEC sales representative about the development environment of the V830 Family. Selection Guide X10679EJHV0SG00 129 Microcomputer Development Tools V850 Family Software Tools ■ List of Software Tools Product name Real-time OS RX850 Target device V850 Family RX850 pro Host machine PC-9800 Series IBM PC/AT and compatibles SPARCstation Compiler CA850 PC-9800 Series IBM PC/AT and compatibles SPARCstation Debugger ID850 PC-9800 Series Simulator SM850 PC-9800 Series System AZ850 IBM PC/AT and compatibles IBM PC/AT and compatibles PC-9800 Series performance IBM PC/AT and compatibles analyzer Device file DF703002 V852 PC-9800 Series DF703003 V853 IBM PC/AT and compatibles DF703008 V854 SPARCstation DF703017 V850/SA1 DF703037 V850/SB1 V850/SB2 DF703102 V850E/MS1 Remark Please contact an NEC sales representative if you use host machines not mentioned above. 130 Selection Guide X10679EJHV0SG00 Microcomputer Development Tools V850 Family Hardware Tools ■ List of Hardware Tools (1/2) Product name In-circuit emulator Target device Part number Remarks V850E/MS1 IE-703102-MC A PC interface cable, external logic probe, and conversion V850/SA1, V850/SB1, IE-703002-MC sockets∗1 are included V852, V853, V854 In-circuit emulator option board V850/SA1 NQPACK100SD∗2 is included IE-703017-MC-EM1 ★ V850/SB1, V850/SB2 IE-703037-MC-EM1 V853 IE-703003-MC-EM1 NQPACK100SD∗2 is included V854 IE-703008-MC-EM1 NQPACK144SD∗2, YQPACK144SD∗2, HQPACK144SD∗2, Conversion socket not included (the V850/SB2 version is under development) and YQGUIDE∗2 are included V850E/MS1 Power supply unit V850/SA1, V850/SB1, IE-703102-MC-EM1 ★ For 5V, conversion socket not included IE-703102-MC-EM1-A★ For 3.3V, conversion socket not included IE-70000-MC-PS-B Power supply cable for AC100 to 240V is included IE-70000-98-IF-B or For PC-9800 (C bus)∗3 V850/SB2, V850E/MS1, V852, V853, V854 PC Interface board V850/SA1, V850/SB1, V850/SB2, V850E/MS1, IE-70000-98-IF-C V852, V853, V854 IE-70000-PC-IF-B or For IBM PC/AT and compatibles (ISA bus)∗3 IE-70000-PC-IF-C IE-70000-CD-IF-A For PCMCIA socket∗4 IE-70000-PCI-IF For PCI bus∗4 ★: Under development ∗1: The following conversion sockets, which are products of Tokyo Eletech Corporation, are included. IE-703102-MC : NQPACK144SD, YQPACK144SD, HQPACK144SD, YQGUIDE IE-703002-MC : NQPACK100SD, YQPACK100SD, HQPACK100SD, YQSOCKET100SDN, YQGUIDE ∗2: This is a product of Tokyo Eletech Corporation. ∗3: Not available for PC98-NX Series. ∗4: Available for PC98-NX Series. Selection Guide X10679EJHV0SG00 131 Microcomputer Development Tools V850 Family Hardware Tools ■ List of Hardware Tools (2/2) Product name Conversion Target device V850/SA1 Part number CSICE121A1312N02∗ adapter/ Conversion adapter for 121-pin FPBGA CSPACK121A1312N02∗ is necessary when using this conversion socket Remarks CSPACK121A1312N02∗ Conversion socket for 121-pin FPBGA V850/SA1, V850/SB1, NQPACK100SD∗ V850/SB2, V852, V853 V850/SB1, V850/SB2 Conversion socket for target board (for 100-pin QFP (0.5-mm pitch)) YQPACK100SD∗ Conversion socket for connection to an in-circuit emulator HQPACK100SD∗ Cover of the socket for 100-pin QFP YQSOCKET100SDN∗ Socket for spacer YQGUIDE∗ Fixing screws NEXB-100SD/RB∗ 100-pin GC-GF conversion board NQPACK100RB∗ Conversion socket for target board (for 100-pin QFP (14 × 20 mm, 0.65-mm pitch)) V850E/MS1, V854 YQPACK100RB∗ Conversion socket for connection to an in-circuit emulator HQPACK100RB∗ Cover of the socket for 100-pin QFP YQSOCKET100RBN∗ Socket for spacer YQGUIDE∗ Fixing screws NQPACK144SD∗ Conversion socket for target board (for 144-pin QFP (0.5-mm pitch)) V850E/MS1 YQPACK144SD∗ Conversion socket for connection to an in-circuit emulator HQPACK144SD∗ Cover of the socket for 144-pin QFP YQSOCKET144SDN∗ Socket for spacer YQGUIDE∗ Fixing screws CSPACK157A1614N01∗ Conversion socket for 157-pin FPBGA CSICE157A1614N01∗ Conversion adapter for 157-pin FPBGA CSPACK157A1614N01∗ is necessary when using this Expansion probe V850/SA1, V850/SB1, SC-100SDN∗ Expansion probe for 100-pin QFP (0.5-mm pitch) SC-144SDN∗ Expansion probe for 144-pin QFP (0.5-mm pitch) V850/SB2, V852, V853 V850E/MS1, V854 ∗: This is a product of Tokyo Eletech Corporation. 132 Selection Guide X10679EJHV0SG00 Microcomputer Development Tools VR Series Development Tools ■ List of Software Tools Product name Real-time OS RX4000 Target device Host machine VR4100 SeriesTM PC-9800 Series VR4300 SeriesTM IBM PC/AT and compatibles Other than above, tools as follows are also provided by development tool makers for VR Series. Software tools Hardware tools Operating system Evaluation board Real-time OS ROM emulator Optimization compiler Source debugger Selection Guide X10679EJHV0SG00 133 Microcomputer Middleware Middleware that Holds the Key to Multimedia Various key technologies are needed to realize multimedia applications, such as a human-machine interface as speech recognition, and data compression/decompression including data communications. And these technologies require high-performance RISC microcomputers capable of high-speed data processing. The V800 Series and VR Series answer these requirements with powerful CPU performance complemented by middleware support based on multimedia performance. ■ The positioning of middleware Software integration Hardware integration • User programs CPU • Middleware Memory Human interface (speech recognition, handwritten Standard macro character recognition, etc.) Dedicated macro Internet Analog circuit Multimedia signal processing (JPEG, voice compression, User logic moving picture processing) Communication (modem, mobile communications, etc.) ■ Features Reduced overall costs due to shorter TAT development and lower development costs If middleware that has been optimized to the CPU architecture is used, the amount of time taken to develop each individual system can be markedly reduced. Moreover, as there is no need to use dedicated devices, the cost is further streamlined. Improved CPU performance The CPU, due to the improvement in CPU performance, can now easily realize applications that could previously only be performed by dedicated hardware or personal computers/workstations. The addition, modification and deletion of functions difficult to perform with hardware, as well as the organization of user-friendly interfaces have now been made simpler. Spread of Internet and multimedia signal-processing applications Through the popularity of the Internet, the management of multimedia information such as picture images and speech has expanded considerably. To employ dedicated hardware to process this information would take a large-scale system and considerable cost. By using middleware, the processing of this information can be easily realized by the CPU alone. 134 Selection Guide X10679EJHV0SG00 Microcomputer Middleware Middleware Development Framework NEC middleware will gradually develop into optimal processor for each system. Furthermore, NEC plans to realize standardized middleware by using not only NEC's uniquely developed technologies, but also the most outstanding third party technologies and standards. NEC's unique technologies Standards Cooperation with third parties Development support framework Planning Middleware creation Build up of middleware solutions V830 Family Feasibility study System advice Demonstration Performance evaluation Hardware/ software division V850 Family RISC VR4300 SeriesTM Development Embedded support Customization VR4100 SeriesTM DSP µ PD77016 Next generation processor Selection Guide X10679EJHV0SG00 Mass Production 135 Microcomputer Middleware Middleware Road Map Communication W-CDMA 2000 or later 1999 Multimedia MPEG7 xDSL Modem Internet MPEG-4 Audio (MPEG-2 AAC) USB/1394 IrDA Security MPEG-4/Speech Watermark G.729 Echo Canceller TM TrueSpeech 8.5 Browser MH/MR/MMR Developed ADPCM JBIG JAVA support of Middleware JAVA+ITRON TCP/IP JPEG Image Recognition Agent System Automatic Interpreter Human Interface Speech Recognition (Multilingual) Text To Speech (Multilingual) Speech Recognition (Japanese) Text To Speech (Japanese) Handwritten Character Recognition Developed 1999 2000 or later Middleware Products Field Image Middleware V800 Series V830 Family V850 Family VR Series MH/MR/MMR JBIG JPEG Speech Text To Speech Japanese Multilingual Version (TTS3000∗1) English∗2 – – TrueSpeech8.5 – – G.726 (ADPCM) Sample G.729/AnnexA/B – – MPEG-4/Speech (CELP) – – Echo Canceller (for Hands-free operation) – Sound MPEG-4 Audio (MPEG-2 AAC) – Recognition Speech Recognition Multilingual Version (ASR1600/C∗1) English∗2 Japanese (large vocabulary) – – – – Handwritten Character Recognition Internet Browser (Third party products) JAVA – TCP/IP lrDA protocol stack∗3 Interface ∗1: English/German/French/Italian/Dutch/Spanish (Jointly developed with L&H Inc.) ∗2: WindowsCE supported ∗3: This is a product of Okaya Systemware Co., Ltd. Remark 136 : Developed, : Under Development, : Under Planning Selection Guide X10679EJHV0SG00 – IC Memory Dynamic RAM ................................................................. 138 Dynamic RAM Module ................................................... 142 Static RAM ....................................................................... 146 Mask ROM ....................................................................... 151 COMBO Memory ............................................................. 152 Flash Memory ................................................................. 152 MCP (Flash Memory + SRAM) ...................................... 153 Other ................................................................................ 153 • Line Buffer.................................................................. 153 Selection Guide X10679EJHV0SG00 137 2 IC Memory Dynamic RAM ■ Synchronous DRAM: SDR (Single Data Rate) Density (bits) Organization (words × bits × banks) Part number 256M★ 16M×4×4 µ PD45256441 Speed grade A75 (1/3) Clock Clock access /CAS frequency time latency (MHz) MAX. (ns) 3 133 5.4 Self refresh current MAX. (mA) Supply voltage (V) 2 3.3±0.3 Refresh cycle Interface level (cycles /ms) 8K/64 LVTTL Package G5: 54-pin A80 A10 A10B A80L A10L 8M×8×4 µ PD45256841 3 125 2 100 3 100 TSOP(II) 6 (400 mil) Remark PC133 Compliant (3-3-3) PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 1 PC100 Compliant (3-2-2) 7 2 77 A10BL 3 100 A75 2 3 67 133 8 5.4 A80 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 2 PC133 Compliant (3-3-3) A10 A10B A80L A10L A10BL 4M×16×4 µ PD45256163 A80 A10 A10B A80L A10L A10BL PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 1 PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 2 PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant 2 77 3 100 2 67 — 1 7 PC100 Compliant (3-2-2) — 8 ★: Under development 138 Selection Guide X10679EJHV0SG00 IC Memory Dynamic RAM ■ Synchronous DRAM: SDR (Single Data Rate) Density (bits) Organization (words × bits × banks) Part number Speed grade 128M 8M×4×4 µ PD45128441 A75 (2/3) Clock Clock access /CAS frequency time latency (MHz) MAX. (ns) 3 133 5.4 Self refresh current MAX. (mA) Supply voltage (V) 2 3.3±0.3 Refresh cycle Interface level (cycles /ms) 4K/64 LVTTL Package G5: 54-pin A80 A10 A10B A80L A10L µ PD45128841 125 2 100 3 100 TSOP(II) 6 (400 mil) PC133 Compliant (3-3-3) PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 0.8 PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 A75 3 133 5.4 A80 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant A10BL 4M×8×4 3 Remark — 2 PC133 Compliant (3-3-3) A10 A10B A80L A10L A10BL 2M×16×4 µ PD45128163 A80 A10 A10B A80L A10L A10BL PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 0.8 PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 2 PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant 2 77 3 100 2 67 — 0.8 7 PC100 Compliant (3-2-2) — 8 Selection Guide X10679EJHV0SG00 139 IC Memory Dynamic RAM ■ Synchronous DRAM: SDR (Single Data Rate) Density (bits) Organization (words × bits × banks) Part number Speed grade 64M 4M×4×4 µ PD4564441 A75 (3/3) Clock Clock access /CAS frequency time latency (MHz) MAX. (ns) 3 133 5.4 Self refresh current MAX. (mA) Supply voltage (V) 1 3.3±0.3 Refresh cycle Interface level (cycles /ms) 4K/64 LVTTL Package G5: 54-pin A80 A10 A10B A80L A10L µ PD4564841 125 2 100 3 100 TSOP(II) 6 (400 mil) PC133 Compliant (3-3-3) PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — PC100 Compliant 0.4 (3-2-2) 7 2 77 3 100 2 67 8 A75 3 133 5.4 A80 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant A10BL 2M×8×4 3 Remark — 1 PC133 Compliant (3-3-3) A10 A10B A80L A10L A10BL 1M×16×4 µ PD4564163 A80 A10 A10B A80L A10L A10BL 512K×32×4 µ PD4564323 A80★ A10★ A10B A80L★ A10L★ A10BL★ PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — PC100 Compliant 0.4 (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — 1 PC100 Compliant (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant — PC100 Compliant 0.4 (3-2-2) 7 2 77 3 100 2 67 8 3 125 6 2 100 86-pin 3 100 TSOP(II) PC100 Compliant (400 mil) (3-2-2) — 1 7 G5: PC100 Compliant (2-2-2) 2 77 3 100 2 67 8 3 125 6 2 100 (2-2-2) 3 100 PC100 Compliant 2 77 3 100 2 67 — 0.4 7 PC100 Compliant (3-2-2) — 8 ★: Under development 140 Selection Guide X10679EJHV0SG00 IC Memory Dynamic RAM ■ Virtual Channel Synchronous DRAM:SDR (Single Data Rate) Organization Density (words (bits) × bits × banks) 64M 8M×4×2 4M×8×2 2M×16×2 Part number Speed grade µ PD4565421 A70★ µ PD4565821 µ PD4565161 Clock Clock access Read frequency time latency (MHz) MAX. (ns) 143 5.4 A75 133 5.4 A10 100 6 2 A15 1 67 12 A70★ 2 143 5.4 A75 133 5.4 A10 100 6 A15 1 67 12 A70★ 2 143 5.4 A75 133 5.4 A10 100 6 67 12 A15 1 Supply voltage (V) 3.3±0.3 Refresh cycle Interface level (cycles /ms) 4K/64 LVTTL Package Remark G5: 54-pin TSOP(II) (400 mil) ★: Under development ■ Synchronous DRAM: DDR (Double Data Rate) Density (bits) 128M Organization (words × bits × banks) Part number 8M×4×4 µ PD45D128442 Speed grade Self Clock refresh /CAS frequency current latency (MHz) MAX. (mA) C80★ 133 2 125 66-pin 2.5 125 TSOP(II) 2 100 (400 mil) C12 2.5 100 2 83 C80★ 2.5 133 2 125 C10 2.5 125 2 100 2.5 100 C12 2M×16×4 µ PD45D128164 Package 2.5 C10 4M×8×4 µ PD45D128842 2 Supply voltage (V) Refresh cycle Interface level (cycles Vcc VccQ /ms) 2 83 C80★ 2.5 133 2 125 C10 2.5 125 2 100 2.5 100 2 83 C12 2.5±0.125 2.5±0.125 4K/64 Remark SSTL_2 G5: ★: Under development ■ Direct Rambus TM DRAM Clock frequency Organization Density (words (bits) × bits × banks) Part number 256K×18×16 µ PD488385 72M 128M 256K×16×32 144M 256K×18×32 µ PD488448 µ PD488488 Class 1/tCYCLE (MHz) C80 400 Access time Maximum supply current (mA) Refresh Refresh Supply cycle Interface voltage (cycles level Active (V) Auto Self /ms) Package Class tRAC (ns) 40 40 45 45 74-pin D2BGATM TBD TBD TBD 2.5±0.13 8K/32 RSL Type FB: Remark Pin configuration BF1:Normal C60 300 53 53 C80 400 40 40 FB: • Normal 45 45 62-pin • D2BGA TBD TBD TBD Mirrored C60 300 53 53 C80 400 40 40 FB: • Normal 45 45 62-pin • Mirrored 53 53 D2BGA C60 300 TBD TBD TBD Selection Guide X10679EJHV0SG00 141 IC Memory Dynamic RAM Module ■ 168-pin SDRAM DIMM (Dual In-line Memory Module): Unbuffered Type Density (bytes) 256M Organization Bank (words organi× bits) zation 32M×72 2 Part number Refresh Clock Supply InterSpeed /CAS cycle frequency voltage face grade latency (cycles (MHz) level (V) /ms) MC-4532CC726 A80 A10 32M×64 2 MC-4532CD646 A80 A10 128M 16M×72 2 MC-4516CC726 A80 A10 2 16M×64 2 MC-4516CC725 A10B MC-4516CD646 A80 A10 2 64M 8M×72 1 MC-4516CD645 A10B MC-458CA726 A80 A10 1 8M×64 1 MC-458CA725 A10B MC-458CB646 A80 A10 1 32M 4M×72 1 MC-458CB645 A10B MC-454CA726 A80 A10 4M×64 1 MC-454CB646 A10B A80 1 142 MC-454CB645 A10B 3 125 2 100 3 100 3.3±0.3 4K/64 LVTTL Mounted devices Package height (mm/inch) Remark µ PD45128841G5 34.93/1.375 PC100 Compliant ×18 pcs. (3-2-2) 2 77 3 125 µ PD45128841G5 2 100 ×16 pcs. 3 100 125 µ PD4564841G5 2 100 ×18 pcs. 3 100 100 2 67 3 125 µ PD4564841G5 2 100 ×16 pcs. 3 100 100 µ PD4564841G5 2 67 ×16 pcs. 3 125 µ PD4564841G5 2 100 ×9 pcs. 3 100 — 34.93/1.375 PC100 Compliant (2-2-2) 33.02/1.30 — 34.93/1.375 PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 2 77 3 100 2 67 3 125 µ PD4564841G5 2 100 ×8 pcs. 3 100 31.75/1.25 — 34.93/1.375 PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 2 77 3 100 2 67 3 125 µ PD4564163G5 2 100 ×5 pcs. 3 100 31.75/1.25 — 34.93/1.375 PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 2 77 3 125 µ PD4564163G5 2 100 ×4 pcs. 3 100 Selection Guide X10679EJHV0SG00 33.02/1.30 (3-2-2) 77 3 67 (2-2-2) PC100 Compliant 2 2 PC100 Compliant (3-2-2) 77 3 77 34.93/1.375 PC100 Compliant 2 100 (2-2-2) (3-2-2) 77 3 3 PC100 Compliant PC100 Compliant 2 2 (2-2-2) PC100 Compliant 34.93/1.375 PC100 Compliant (2-2-2) PC100 Compliant (3-2-2) 29.21/1.15 — IC Memory Dynamic RAM Module ■ 168-pin SDRAM DIMM (Dual In-line Memory Module): Registered Type Density (bytes) 512M Organization Bank (words organization × bits) 64M×72 2 Part number Refresh InterClock Supply Speed /CAS cycle frequency voltage face grade latency (cycles (MHz) level (V) /ms) MC-4564DC726 A80 A10 256M 32M×72 1 3 125 2 100 3 100 3.3±0.3 4K/64 LVTTL Mounted devices Package height (mm/inch) Remark µ PD45128441G5 43.18/1.70 PC100 Compliant ×36 pcs. (2-2-2) PC100 Compliant (3-2-2) 2 77 MC-4532DA727 A75 3 133 MC-4532DA726 A80 3 125 2 100 (2-2-2) 3 100 PC100 Compliant µ PD45128441G5 PC133 Compliant ×18 pcs. A10 128M 16M×72 1 (3-3-3) PC100 Compliant (3-2-2) 2 77 MC-4516DA727 A75 3 133 MC-4516DA726 A80 3 125 2 100 (2-2-2) 3 100 PC100 Compliant µ PD4564441G5 PC133 Compliant ×18 pcs. A10 64M 8M×72 1 (3-2-2) 2 77 MC-458DA727 A75 3 133 MC-458DA726 A80 3 125 2 100 (2-2-2) 3 100 PC100 Compliant µ PD4564841G5 ×9 pcs. A10 32M 4M×72 1 (3-3-3) PC100 Compliant MC-454DA726 A80 A10 38.1/1.50 PC133 Compliant (3-3-3) PC100 Compliant (3-2-2) 2 77 3 125 µ PD4564163G5 2 100 ×5 pcs. 3 100 PC100 Compliant 2 77 (3-2-2) Selection Guide X10679EJHV0SG00 PC100 Compliant (2-2-2) 143 IC Memory Dynamic RAM Module ■ 144-pin SDRAM SO DIMM (Small Outline Dual In-line Memory Module) Density (bytes) 128M Organization Bank (words organization × bits) 16M×64 1 Part number Self Refresh InterClock Supply refresh Speed /CAS cycle frequency face voltage current grade latency (cycles (MHz) level (V) (mA) /ms) MC-4516CB64ES A10B A10BL 2 MC-4516CD64ES A10B A10BL 2 MC-4516CD641ES A80 A10 64M 8M×64 1 MC-458CB64LSA A10B A10BL 1 MC-458CB641ES A80 A10 2 MC-458CD64LS A10B A10BL 2 MC-458CD641LS A80 A10 32M 4M×64 1 MC-454CB64LS A10B A10BL MC-454CB641LS A80 A10 144 3 100 2 67 3 100 2 67 3 100 2 67 3 100 16 Mounted devices Package height (mm/inch) 3.3±0.3 4K/64 LVTTL µ PD45128841G5 26.67/1.05 Remark — ×8 pcs. 6.4 16 µ PD45128163G5 ×8 pcs. 6.4 2 67 3 125 2 100 (2-2-2), Rev.1.0 3 100 PC100 Compliant 2 77 3 100 2 67 3 100 2 67 3 125 2 100 3 100 2 77 3 100 2 67 3 100 2 67 3 125 2 100 3 100 16 31.75/1.25 PC100 Compliant (3-2-2), Rev.1.0 8 µ PD4564841G5 26.67/1.05 — ×8 pcs. 3.2 4 µ PD45128163G5 25.4/1.0 PC100 Compliant ×4 pcs. (2-2-2), Rev.1.0 PC100 Compliant (3-2-2), Rev.1.0 8 µ PD4564163G5 26.67/1.05 — ×8 pcs. 3.2 31.75/1.25 PC100 Compliant 8 (2-2-2), Rev.1.0 PC100 Compliant 3.2 (3-2-2), Rev.1.0 2 77 3 100 2 67 3 100 2 67 3 125 2 100 (2-2-2), Rev.0.7 3 100 PC100 Compliant 2 77 (3-2-2), Rev.1.0 4 µ PD4564163G5 25.4/1.00 — ×4 pcs. 2 4 Selection Guide X10679EJHV0SG00 PC100 Compliant IC Memory Dynamic RAM Module ■ 168-pin Virtual Channel SDRAM DIMM (Dual In-line Memory Module): Unbuffered Type Density (bytes) 128M Organization Bank (words organization × bits) 16M×64 2 Speed Read grade latency Part number MC-45V16AD641 A75 Refresh Prefetch Clock Supply Intercycle read frequency voltage face (cycles latency (MHz) level (V) /ms) 2 4 133 64M 8M×64 1 MC-45V8AB641 ×16 pcs. A15 1 66 A75 2 133 µ PD4565821G5 100 ×8 pcs. A10 A15 Remark 3.3±0.3 4K/64 LVTTL µ PD4565821G5 34.93/1.375 100 A10 Package height (mm/inch) Mounted devices 66 1 ■ 144-pin Virtual Channel SDRAM SO DIMM (Small Outline Dual In-line Memory Module) Density (bytes) 64M★ Organization Bank (words organization × bits) 8M×64 1 Speed Read grade latency Part number MC-45V8AB641KS A75 Refresh Prefetch Clock Supply Intercycle read frequency voltage face (cycles latency (MHz) level (V) /ms) 2 4 133 A10 2 MC-45V8AD641KS Package height (mm/inch) Mounted devices 3.3±0.3 4K/64 LVTTL µ PD4565821G5 31.75/1.25 ×8 pcs. 100 A15 1 66 A75 2 133 µ PD4565161G5 100 ×8 pcs. A10 A15 Remark 66 1 ★: Under development ■ 184-pin Direct RambusTM RIMM TM Density (bytes) Organization (words × bits) Bank organization Part number Class 128M 64M × 18 16 × 16 MC-4R128BKD8J 840 Clock Access frequency time 1/tCYCLE tRAC (MHz) (ns) 400 32M × 18 16 × 8 MC-4R64BKD8J — — MC-4RCNTYK RSL Mounted devices Remark µ PD488385FB With heat ×16 pcs. spreader 653 300 53 840 400 40 µ PD488385FB With heat 45 ×8 pcs. spreader 845 — 2.5±0.13 45 845 64M 40 Supply Interface voltage level (V) 653 300 53 — — — — — — Note Note This module is the Direct Rambus RIMM continuity module which is designed to be inserted into any unused RIMM sockets in Direct Rambus systems. It continues the Rambus channel through unused RIMM connectors to terminate signals properly on motherboard, and has no active components mounted on it. Selection Guide X10679EJHV0SG00 145 IC Memory Static RAM ■ Low Power SRAM (Temperature range TA = 0 to 70°C) Maximum supply current Organization Density (words (bits) × bits) 1M 128K × 8 Part number Supply voltage (V) µ PD431000A 4.5 to 5.5 Version Class L LL Access time MAX. (ns) 70 70 85 85 70 70 Active (mA) Data Standby retention (µA) (µA) Package 70 100 50 GW: 32-pin SOP (525 mil) 70 20 10 GW: 32-pin SOP (525 mil) GU: 32-pin TSOP(I) (8 × 13.4 mm) (Normal bent) (Reverse bent) GZ: 32-pin TSOP(I) (8 × 20 mm) (Normal bent) (Reverse bent) 3.0 to 5.5 A 85 85 70 20 10 GW: 32-pin SOP (525 mil) 10 100 35 13 10 GW: 32-pin SOP (525 mil) 70 (VCC=4.5 to 5.5) 70 20 GU: 32-pin TSOP(I) (8 × 13.4 mm) 120 35 13 (Normal bent) (Reverse bent) 70 (VCC=4.5 to 5.5) 70 20 100 30 11 70 (VCC=4.5 to 5.5) 70 20 12 2.7 to 5.5 B 10 µ PD43257B 4.5 to 5.5 L LL µ PD43256B 4.5 to 5.5 L LL GU: 28-pin SOP (450 mil) 120 30 11 70 20 150 30 11 70 (VCC=4.5 to 5.5) 70 20 70 70 45 50 20 85 85 70 70 45 15 7 85 85 70 70 45 50 20 GU: 28-pin SOP (450 mil) 85 85 70 70 45 15 7 GU: 28-pin SOP (450 mil) 85 85 85 85 15 32K × 8 (Normal bent) (Reverse bent) 70 (VCC=4.5 to 5.5) 12 256K GZ: 32-pin TSOP(I) (8 × 20 mm) 10 GW: 28-pin TSOP(I) (8 × 13.4 mm) (Normal bent) (Reverse bent) 3.0 to 5.5 A 10 45 15 7 7 100 85 (VCC=4.5 to 5.5) 12 120 85 (VCC=4.5 to 5.5) 2.7 to 5.5 B 10 12 15 146 100 20 10 85 (VCC=4.5 to 5.5) 45 15 120 20 10 85 (VCC=4.5 to 5.5) 45 15 150 20 10 85 (VCC=4.5 to 5.5) 45 15 Selection Guide X10679EJHV0SG00 IC Memory Static RAM ■ Low Power SRAM (Extended Temperature TA = –25 to +85°C) Maximum supply current Organization Density (words (bits) × bits) 4M Part number Supply voltage (V) 512K × 8 µ PD444010L-X 2.7 to 3.6 C 1.8 to 3.6 D B 2.2 to 3.6 C 1.8 to 3.6 D 256K × 8 µ PD442000L-X 2.7 to 3.6 2.2 to 3.6 1M B 2.2 to 3.6 256K × 16 µ PD444012L-X 2.7 to 3.6 2M Version Class B C 70 70 85 85 10 100 12 120 12 120 15 150 70 70 85 85 10 100 12 120 12 120 15 150 85 85 10 100 10 100 12 120 Active (mA) 40 Data Standby retention (µA) (µA) 7 7 Package GY: 48-pin TSOP(I) (12 × 18 mm) (Normal bent) (Reverse bent) 40 7 7 GY: 48-pin TSOP(I) (12 × 18 mm) (Normal bent) (Reverse bent) 35 2 2 GU: 32-pin TSOP(I) (8 × 13.4 mm) (Normal bent) (Reverse bent) GZ: 32-pin TSOP(I) (8 × 20 mm) 30 (Normal bent) (Reverse bent) F1: 36-pin FPBGA (10.5 × 6.5 mm) 15 150 1.8 to 3.6 D 15 150 18 180 128K × 8 µ PD441000L-X 2.7 to 3.6 B 70 70 85 85 (Normal bent) (Reverse bent) 10 100 GZ: 32-pin TSOP(I) (8 × 20 mm) 10 100 (Normal bent) (Reverse bent) 12 120 F1: 36-pin FPBGA (6 × 6 mm) 12 120 15 150 70 70 85 85 10 100 10 100 35 26 70 (VCC=4.5 to 5.5) 70 50 2.2 to 3.6 C 1.8 to 3.6 D µ PD431000A-X 4.5 to 5.5 — 3.0 to 5.5 A 2.7 to 5.5 B 3.0 to 5.5 — A 70 2 50 26 50 100 30 22 70 (VCC=4.5 to 5.5) 70 50 120 30 22 70 (VCC=4.5 to 5.5) 70 50 150 30 22 70 (VCC=4.5 to 5.5) 70 50 70 70 45 50 85 85 10 100 40 85 85 45 10 100 12 120 20 GU: 32-pin TSOP(I) (8 × 13.4 mm) GU: 32-pin TSOP(I) (8 × 13.4 mm) GZ: 32-pin TSOP(I) (8 × 20 mm) 70 10 2 (Normal bent) (Reverse bent) 35 15 µ PD43256B-X 4.5 to 5.5 25 120 12 32K × 8 25 70 (VCC=4.5 to 5.5) 12 256K Access time MAX. (ns) (Normal bent) (Reverse bent) 20 GW: 28-pin TSOP(I) (8 × 13.4 mm) (Normal bent) (Reverse bent) 50 40 100 (VCC=4.5 to 5.5) 2.7 to 5.5 B 10 100 25 25 12 120 25 25 100 (VCC=4.5 to 5.5) 40 50 150 25 25 100 (VCC=4.5 to 5.5) 40 50 15 Selection Guide X10679EJHV0SG00 147 IC Memory Static RAM ■ CMOS Fast SRAM Organization Density (words (bits) × bits) 4M 4M × 1 Part number Class Access time MAX. (ns) µ PD434001A 15 17 µ PD434001AL 1M × 4 µ PD434004A µ PD434004AL 512K × 8 µ PD434008A µ PD434008AL 256K × 16 µ PD434016A µ PD434016AL 148 Maximum supply current Active (mA) Standby (mA) Supply voltage (V) 15 140 10 5.0±0.5 LE: 32-pin SOJ (400 mil) 17 130 5 3.3±0.3 LE: 32-pin SOJ (400 mil) 20 20 120 A15 15 130 A17 17 120 A20 20 110 15 15 140 17 17 130 20 20 120 A15 15 130 A17 17 120 A20 20 110 12 12 200 15 15 170 17 17 160 20 20 150 A15 15 150 A17 17 140 A20 20 130 12 12 230 15 15 200 17 17 190 20 20 180 A15 15 190 A17 17 180 A20 20 170 Package G5: 32-pin TSOP (II) (400 mil) 10 5.0±0.5 LE: 32-pin SOJ (400 mil) 5 3.3±0.3 LE: 32-pin SOJ (400 mil) 10 5.0±0.5 LE: 36-pin SOJ (400 mil) 5 3.3±0.3 LE: 36-pin SOJ (400 mil) 10 5.0±0.5 LE: 44-pin SOJ (400 mil) G5: 44-pin TSOP (II) (400 mil) 5 3.3±0.3 Selection Guide X10679EJHV0SG00 LE: 44-pin SOJ (400 mil) G5: 44-pin TSOP (II) (400 mil) Remark IC Memory Static RAM ■ CMOS Synchronous Fast SRAM Organization Density (words (bits) × bits) 2M Part number Maximum supply current Standby (mA) Power down (mA) Chip I/O 3.5 — 3.3±0.2 2.0 275 3.53 350 A37 267 3.65 350 A40 250 3.9 350 A44 225 4.34 350 A50 200 4.9 350 A55 183 5.3 335 A57 175 5.3 325 A60 167 5.3 290 A40 250 3.9 350 A44 225 4.34 350 A50 200 4.9 350 A55 183 5.3 335 A57 175 5.3 325 A60 167 5.3 290 A5 100 5.0 A7 83 7.0 A8 66 8.0 A7 83 7.0 A8 66 8.0 A6 150 4.6 220 A7 133 5.0 200 A8 100 8.5 200 A9 100 9.0 A10 83 10.0 A12 66 12.0 A6 150 4.6 220 A7 133 5.0 200 A8 100 8.5 200 A9 100 9.0 A10 83 10.0 A12 66 12.0 64K × 32 32K × 32 µ PD432232L µ PD431231L µ PD431632L µ PD431532L 32K × 36 µ PD431636L µ PD431536L Supply voltage (V) Active (mA) 64K × 36 µ PD432836AL A36 µ PD432836L 1M Clock Clock access Class frequency time (MHz) MAX.(ns) Package GF: 100-pin LQFP Remark Pipeline operation 3.5 3.5 180 2 2 3.3+0.3/-0.2 3.0 or 2.5 130 5 1 3.3+0.3/-0.2 3.3±0.2 2.0 2.5 GF: 100-pin LQFP Pipeline operation 20 20 3.3±0.165 3.3 or 2.5 5 5 3.3±0.165 3.3 or 2.5 Pipeline operation Flow Through operation 20 20 3.3±0.165 3.3 or 2.5 5 5 3.3±0.165 3.3 or 2.5 Pipeline operation Selection Guide X10679EJHV0SG00 Flow Through operation 149 IC Memory Static RAM ■ Bi-CMOS Synchronous Fast SRAM Organization Density (words (bits) × bits) 4M Part number 256K × 18 µ PD464318AL Clock Class frequency (MHz) Clock access time MAX.(ns) Maximum supply current Active (mA) Standby (mA) Supply voltage (V) Interface level 550 55 3.3±0.15 HSTL A4 250 2.0 A44 225 2.3 A5 200 2.5 A5 200 2.6 A6 167 3.0 A65 154 3.5 µ PD464518AL A55 182 5.5 A6 166 6.0 A7 143 7.0 A8 125 8.0 450 150 3.3±0.15 LVTTL A4 250 2.0 750 55 3.3±0.15 HSTL A44 225 2.3 A5 200 2.5 A5 200 2.6 A6 167 3.0 A65 154 3.5 µ PD464536AL A55 182 5.5 A6 166 6.0 A7 143 7.0 A8 125 8.0 µ PD464318L µ PD464518L Package S1: 119-pin BGA Remark Single clock RR mode 600 — 3.3±0.15 HSTL Single clock RR mode 400 45 3.3±0.15 LVTTL Single clock RL mode Single clock RL mode 128K × 36 µ PD464336AL µ PD464336L µ PD464536L Single clock RR mode 700 — 3.3±0.15 HSTL Single clock RR mode 650 45 3.3±0.15 LVTTL Single clock RL mode 550 150 3.3±0.15 LVTTL Single clock RL mode 150 Selection Guide X10679EJHV0SG00 IC Memory Mask ROM ■ Mask ROM Access time MAX. (ns) Density (bits) Organization (words × bits) Part number 128M 16M × 8 or 8M × 16 µ PD23C128000L Maximum supply current Normal Page access Active (mA) Standby (µA) Supply voltage (V) Package 120 — TBD TBD 3.3±0.3 GY: 48-pin TSOP (I) (12 × 18 mm) 3.0±0.3 (Normal bent) (Reverse bent) 3.3±0.3 GY: 48-pin TSOP (I) (12 × 18 mm) 3.0±0.3 (Normal bent) (Reverse bent) 140 µ PD23C128040L TBD TBD 120 TBD 140 64M 4M × 16 µ PD23C64020 120 — 70 — 5.0±0.5 CZ: 42-pin DIP (600 mil) 8M × 8 or 4M × 16 µ PD23C64000AL 90 — 45 30 3.3±0.3 GX: 44-pin SOP (600 mil) 100 — 40 30 3.0±0.3 GY: 48-pin TSOP (I) (12 × 18 mm) 90 25 60 30 3.3±0.3 GX: 44-pin SOP (600 mil) 100 30 55 30 3.0±0.3 GY: 48-pin TSOP (I) (12 × 18 mm) 120 — 70 100 5.0±0.5 (Normal bent) (Reverse bent) µ PD23C64040AL (Normal bent) (Reverse bent) 32M 4M × 8 or 2M × 16 µ PD23C32000A GX: 44-pin SOP (600 mil) GY: 48-pin TSOP (I) (12 × 18 mm) (Normal bent) (Reverse bent) G5: 44-pin TSOP (II) (400 mil) 2M × 16 4M × 8 or 2M × 16 µ PD23C32020A µ PD23C32000L 120 — 70 100 5.0±0.5 CZ: 42-pin DIP (600 mil) 120 — 40 30 3.3±0.3 GX: 44-pin SOP (600 mil) 35 30 3.0±0.3 GY: 48-pin TSOP (I) (12 × 18 mm) 140 (Normal bent) (Reverse bent) G5: 44-pin TSOP (II) (400 mil) µ PD23C32040L 140 60 40 30 3.3±0.3 GX: 44-pin SOP (600 mil) GY: 48-pin TSOP (I) (12 × 18 mm) (Normal bent) (Reverse bent) G5: 44-pin TSOP (II) (400 mil) 100 30 80 30 3.3±0.3 G7: 70-pin SSOP (500 mil) 3M × 8 or 1.5M × 16 µ PD23C32082L µ PD23C24000 120 — 70 100 5.0±0.5 GX: 44-pin SOP (600 mil) 1.5M × 16 µ PD23C24020 120 — 70 100 5.0±0.5 CZ: 42-pin DIP (600 mil) 2M × 8 or 1M × 16 µ PD23C16000AL 85 — 45 30 3.3±0.3 GY: 48-pin TSOP (I) (12 × 18 mm) 3.0±0.3 (Normal bent) (Reverse bent) 3.3±0.3 G5: 44-pin TSOP (II) (400 mil) 2M × 16 or 1M × 32 24M 16M 40 100 µ PD23C16040AL 85 30 60 100 40 55 30 3.0±0.3 ■ Synchronous Mask ROM Density (bits) 32M Organization (words × bits) Part number 2M × 16 or 1M × 32 µ PD23C32202L Clock Maximum Clock /CAS /RAS access supply Supply Interface frelatency latency time current voltage level quency MIN. (V) MIN. MAX. active (MHz) (ns) (mA) 66 5 2 10 50 4 1 15 33 3 1 25 150 Package Remark 3.3±0.3 LVTTL G5: 86-pin TSOP (II) (400 mil) Selection Guide X10679EJHV0SG00 151 IC Memory COMBO Memory ■ COMBO Memory Maximum supply current Supply voltage (V) Access time MAX. (ns) Active (mA) Standby (µA) Data Retention (µA) 10 Part number Function Density (bits) Organization (words × bits) µ PD26401 SRAM 1M (128K × 8) 1.8 to 2.2 500 3.5 6.5 + + 2.2 to 2.7 375 5.5 8.0 µ PD26411 ROM 2M (256K × 8) 2.7 to 3.3 250 7.5 10.0 SRAM 1M (128K × 8) 1.8 to 2.2 500 4.0 6.5 + + 2.2 to 2.7 375 6.0 8.0 ROM 2M (256K × 8) 2.7 to 3.3 250 10.0 10.0 Package GU: 32-pin TSOP (I) (8 × 13.4 mm) (Normal bent) (Reverse bent) 10 GZ: 32-pin TSOP (I) (8 × 20 mm) (Normal bent) (Reverse bent) Flash Memory ■ Flash Memory Maximum supply current Density (bits) Organization (words × bits) Part number 8M 1M × 8 µ PD29F008AL-X★ Access time MAX. (ns) Active (mA) Standby (µA) Supply voltage (V) Boot code Sector architecture 90 12 5 2.7 to 3.6 top or bottom 100 120 Package GZ: 40-pin TSOP (I) (10 × 20 mm) (Normal bent) (Reverse bent) 12 5 2.2 to 2.7 12 5 2.7 to 3.6 12 5 2.2 to 2.7 150 1M × 8 µ PD29F800AL-X★ 90 or 100 512K × 16 120 top or bottom GZ: 48-pin TSOP (I) (12 × 20 mm) (Normal bent) (Reverse bent) 150 ★: Under development 152 Selection Guide X10679EJHV0SG00 IC Memory MCP (Flash Memory + SRAM) ■ MCP (Flash Memory and SRAM) Maximum supply current Density (bits) Organization (words × bits) Access time MAX. (ns) Active (mA) 100 35 Boot code Supply Data Sector Standby Retention Voltage (V) architecture (µA) (µA) Part number Function MC-22100 Flash Memory 16M (2M × 8) 5 — SRAM 2M (256K × 8) 2 2 — MC-22101 Flash Memory 16M (2M × 8) 5 — Bottom SRAM 2M (256K × 8) 2 2 — MC-22102 Flash Memory 16M (1M × 16) 5 — Top SRAM 2M (256K × 8) 2 2 — MC-22103 Flash Memory 16M (1M × 16) 5 — Bottom SRAM 2M (256K × 8) 2 2 — MC-22104 Flash Memory 16M (2M × 8) 5 — Top SRAM 1M (128K × 8) 26 20 — MC-22105 Flash Memory 16M (2M × 8) 5 — Bottom SRAM 1M (128K × 8) 26 20 — MC-22106 Flash Memory 16M (1M × 16) 5 — Top SRAM 1M (128K × 8) 26 20 — MC-22107 Flash Memory 16M (1M × 16) 5 — Bottom SRAM 1M (128K × 8) 26 20 — MC-22000 Flash Memory 8M (1M × 8) 5 — Top SRAM 2M (256K × 8) 2 2 — MC-22001 Flash Memory 8M (1M × 8) 5 — Bottom SRAM 2M (256K × 8) 2 2 — MC-22002 Flash Memory 8M (1M × 8 or 512K × 16) 5 — Top SRAM 2M (256K × 8) 2 2 — MC-22003 Flash Memory 8M (1M × 8 or 512K × 16) 5 — Bottom SRAM 2M (256K × 8) 2 2 — MC-22004 Flash Memory 8M (1M × 8) 5 — Top SRAM 1M (128K × 8) 26 20 — MC-22005 Flash Memory 8M (1M × 8) 5 — Bottom SRAM 1M (128K × 8) 26 20 — MC-22006 Flash Memory 8M (1M × 8 or 512K × 16) 5 — Top SRAM 1M (128K × 8) 26 20 — MC-22007 Flash Memory 8M (1M × 8 or 512K × 16) 5 — Bottom SRAM 1M (128K × 8) 26 20 — 2.7 to 3.6 Top Package F1-DE: 48-pin BGA (10 × 14 mm) F1-DB: 48-pin BGA (10 × 11 mm) Other ■ Line Buffer Density (bits) Organization (words × bits) Part number 80K 10096 × 8 µ PD485506 5048 × 16 40K 5048 × 8 Maximum supply current active (mA) Supply voltage (V) Package Remark — 140 5.0±0.5 • 44-pin TSOP II FAX, PPC Line buffer — 80 Read/Write Data hold period cycle time (ms) MIN. (ns) 25/25 35/35 µ PD485505 25/25 FIFO structure • 24-pin SOP 35/35 Selection Guide X10679EJHV0SG00 153 [MEMO] 154 Selection Guide X10679EJHV0SG00 Semi-Custom IC NEC’s ASICs .................................................................... 156 0.25 µm ASIC ................................................................... 166 Gate Array ....................................................................... 172 • CMOS Gate Array ...................................................... 176 • BiCMOS Gate Array .................................................. 195 Cell-Based IC .................................................................. 200 Embedded Array ............................................................. 217 Analog Master ................................................................. 220 Mixed Signal ASIC .......................................................... 223 Selection Guide X10679EJHV0SG00 155 3 Semi-Custom IC NEC’s ASICs What Is ASICs ? (1/2) LSIs are broadly classified into two types: general-purpose LSIs and Application-Specific ICs (ASICs). The general-purpose LSIs are designed and supplied as standard products by the manufacturers. Because these LSIs are mass-produced, generally they are inexpensive and do not require much work or expense for development from the user even if each user uses only a small quantity of these LSIs. However, because they are general-purpose products, some of their functions may be redundant for some users, and some functions may not be available. Moreover, the user's own unique functions cannot be provided. In contrast, ASICs are for specific applications and can be further classified as illustrated below. Classification of ASICs For single user Gate array Full-custom LSI Cell-based IC ASCP/USIC Semi-custom LSI ASIC Embedded array Analog master Mixed signal ASIC FPGA UPIC Single-chip microcontroller PLD etc. LSI PROM etc. For multiple users General-purpose LSI ASSP Image processing LSI Audio LSI Automobile LSI Communications LSI etc. Remark ASCP ............. Application Specific Custom Product ASSP ............. Application Specific Standard Product FPGA ............. Field Programmable Gate Array PLD ............... Programmable Logic Device PROM ............ Programmable Read Only Memory USIC .............. User Specific IC UPIC .............. User Programmable IC ASICs are broadly classified into LSIs for single users (ASCPs, USICs, and UPICs) and those for multiple users, as shown above. 156 Selection Guide X10679EJHV0SG00 Semi-Custom IC NEC’s ASICs What Is ASICs ? (2/2) ASIC for single users (ASCP/USIC) ASICs of this type are designed for a specific user and are used for security and to improve performance (such as increasing speed and lowering power consumption). On the other hand, the load on the user for development is heavy. These ASICs are classified into full custom LSIs and semi-custom LSIs. Full-custom LSIs are developed by the users who have mastered LSI production technologies, and require a long development time and incur large costs. A contract for production with the manufacturer is made on the assumption of mass production of the application system. Usually, the LSIs developed in this way offer extremely high performance. The word semi-custom LSI is used to differenciate from full-custom LSIs. With full-custom LSIs, all the development processes, from circuit design to photo mask, are tailored to that particular design. In contrast, the elements on the chip of a semi-custom LSI are designed and produced in advance by the manufacturer, and the user builds his own unique functions using these elements. Take gate arrays for example. A common photo mask is used for the diffusion process and only the photo mask for the wiring process is created according to the specifications of the user. This means an LSI can be developed in a shorter time. ASIC for single user (UPIC) FPGA, PLD, and PROM are collectively called UPIC. These are ASICs that can be developed by the user by using dedicated development tools for production runs as small as a single sample. In particular, because the logical operations of FPGA and PLD are the same as those of gate arrays, these UPICs are highly useful as sample LSIs to evaluate the breadboard and circuit operations before the development of gate arrays. Compared with gate array products, the development cost of UPICs can be kept very low, and the development period is short. For these reasons, UPICs are also used to check parts of large-scale LSIs. ASIC for multiple users (ASSP) ASSPs are standard LSIs produced by the manufacturer for specific fields. Because they are designed and produced by the manufacturer, the user does not have to shoulder any development burden and there is no limit to the production quantity. These LSIs include graphics display controllers and field memories. Selection Guide X10679EJHV0SG00 157 Semi-Custom IC NEC’s ASICs Selecting an LSI Users' products increasingly require the following features: High added value Implementation in software Total solutions System integration, etc. Integrating the circuits formerly implemented with conventional ICs using an ASIC is the best way to achieve these things. Consequently, it is important to select an ASIC manufacturer who can provide you with powerful device technology, system technology, and upstream software support. NEC offers a variety of ASIC products that can satisfy every user's needs, as well as comprehensive support. The key to selecting the most suitable ASIC product is completely understanding the characteristics required by the entire system to be developed and the circuits to be integrated into an ASIC. These characteristics include the following conditions: • Development investment • Development period (delivery period) • Quantity of production • Necessary functions and performance • Application If you use the list of criteria on the next page, taking these points into consideration, you can find the ASIC you really need. 158 Selection Guide X10679EJHV0SG00 Semi-Custom IC NEC’s ASICs Criteria for Selection (1/4) Whether a full-custom or semi-custom LSI should be used, or whether ASSP or general-purpose LSI should be used depend on your concept, development plan, and the characteristics you require. By considering the items in the following diagram you can select the products that satisfy all your requirements. The subsequent sections 1 through 4 compare the major semi-custom products and full-custom products for your reference. Criteria for selection Full-custom LSI • Purpose of IC • Application Concept • Operating conditions and environment • Package User • Targeted price Semi-custom LSI Gate array • Quantity of samples and delivery period System Development plan • Desired development cost Cell-based IC • Quantity and period of mass production • Life cycle • Circuit I/O conditions Embedded array Analog master • Circuit diagram Characteristics • Circuit characteristics and constants Mixed signal ASIC • Reliability test • Pin arrangement Selection Guide X10679EJHV0SG00 159 Semi-Custom IC NEC’s ASICs Criteria for Selection (2/4) As shown in the figure on the right, fullcustom LSIs have high performance but High Development Period and Relative Performance Full-custom require a long development period. In contrast, the development period of semi-custom is shorter, although these LSIs have some redundant functions. For embedded arrays, the wafer is produced when the macros to be used have been determined. In the meantime, the circuits are determined through simulation. After simulation has been completed, only the wiring process is left, and development can be completed in almost the same period as gate arrays. If the macros and gate scale of the wafer are the same as those of gate arrays, the wafer can be used as a master wafer; Cell-based IC Relative functions and performance LSIs, such as gate arrays and analog masters, Embedded array Analog master * Gate array 2 3 4 * Performance relative to full-custom 5 6 7 8 910 20 30 40 50 Development period (No. of week after determination of specifications) consequently, the development period is equivalent to that of gate arrays. Cell-based ICs, and new semi-custom LSIs fall somewhere between full-custom LSIs and gate arrays. Although these LSIs offer performance and functions comparable to those of full-custom LSIs, their development period is only slightly longer than that of gate arrays. 160 Mixed signal ASIC Selection Guide X10679EJHV0SG00 Semi-Custom IC NEC’s ASICs Criteria for Selection (3/4) As shown in the figure on the right, there is an clear relationship between the development High Development Investment and Element Cost investment and unit cost. PLD/ FPGA PLD (Programmable Logic Device) and Mixed signal ASIC types of general-purpose LSIs with a design philosophy close to that of gate arrays. You can purchase one unit of these LSIs, and can program and use the LSI on the day you purchase it. Therefore, the development investment is extremely low. However, the Unit price per element FPGA (Field Programmable Gate Array) are Analog master Embedded array Gate array Full-custom price per element of PLDs and FPGAs is high. Conversely, although the development Cell-based IC period and cost of a full-custom LSI are higher, the unit price of each element is very low, partly because almost 100% of the Development investment (period, cost) High elements are used and partly because the fullcustom LSI is usually mass-produced. The various semi-custom LSI products fall between these two. Therefore, semi-custom LSIs are ideal if the development period and cost are limited and at the same time, the unit price of the element must be kept low. In addition, because many development tools and standard cell libraries are available for semi-custom LSIs , the development period can be further shortened. Selection Guide X10679EJHV0SG00 161 Semi-Custom IC NEC’s ASICs Criteria for Selection (4/4) One of the indexes that indicate the price of an LSI is a gate unit price. The gate unit price High Total Production and Gate Units (Guideline) of PLD and general-purpose LSIs is low if the Cell-based IC does not decrease even if the volume of production increases. Full-custom LSIs are not profitable unless they are produced in a large quantity. Semi-custom LSIs can be profitable whether Full-custom Gate unit price production is small. However, the unit price PLD, general-purpose IC, FPGA Gate array they are produced in a small or large quantity. Of these semi-custom LSIs, gate arrays are more suitable for small-scale production than Cell-based IC Full-custom Gate array cell-based ICs. Production Large ● Suitability for Different Types of Circuit Semi-custom LSI Circuits can be broadly classified into analog circuits and digital circuits. Gate array for digital circuits, and analog masters can be Embedded array used to integrate analog circuits. Cell-based ICs are mainly used for digital circuits, but can also be used to combine analog and digital Cell-based IC circuits. A complicated circuit with a special configuMixed signal ASIC custom LSI must be created as a full-custom LSI. A full-custom LSI can be used to inte- Analog ration that cannot be realized using semi- grate both analog circuits and digital circuits. 162 Selection Guide X10679EJHV0SG00 Analog master Full-custom LSI the semi-custom LSIs gate arrays are suitable Digital As shown in the figure on the right, among Semi-Custom IC NEC’s ASICs History of Development of ASIC NEC developed device technology and basic software for its ASICs in the 1970’s, and started sales of its ASICs from 1981. Semi-custom LSIs were first developed in response to demands to improve the performance of systems such as computers and private branch exchanges. When the advantages of ASICs became more widely recognized as device development and tool organization advanced in the 1980’s, the use of ASICs increasingly became widespread. Today, users who have experience of development using gate arrays wish to develop using ASICs to acheive a larger scale and higher performance. Consequently, device manufacturers are required to supply state-of-the-art semiconductor chips and efficient design environments. To satisfy these requirements, NEC supplies a wide range of services including an extensive line-up of processes and technologies, and integrated CAD systems using original EWS and networking. (Year) 81 82 83 84 85 86 ECL-3A ECL-4 87 88 89 ECL-3B ECL-4A 90 91 92 93 94 95 BiCMOS-8 QB-8 96 97 98 CMOS-9 CMOS- CMOS- CMOS8LHD 8LH 9HD CMOSN5 Sales start Gate array TTL ECL TTL-2 TTL-3 ECL-2 TTL-2A ECL-3 ECL-4R BiCMOS BiCMOS-4 BiCMOS-4A BiCMOS-5 CMOS CMOS-2 CMOS-3 CMOS-4 CMOS-5 CMOS-6 CMOS-7 CMOS-8/ 8L/8LCX ASA NOTE Universal PCI series MV series CB-C10 Cell-based IC CB-C7 Standard cell SC-4 Custom micro CB-C8 CB-C8 CB-C9 VX/VM CB-C9 VX/VM SC-5 CMICRO-4 CMICRO-5 EA-C10 Embedded array EA-C9 EA-9HD Analog master CHS V-CHS M-CHS CHS-A BiCMOS Mixed signal ASIC MA-8 MA-9 Design environment VISTASLTM C&C VAN VISTASLII VISTASLIII OPENCADTM OPENCAD V4 OPENCAD V5 Note Application Specific Arrays Remark : Maintenance parts Selection Guide X10679EJHV0SG00 163 Semi-Custom IC NEC’s ASICs NEC's ASIC Products (1/2) Gate array Gate arrays are semi-custom LSIs. Gates are laid out on master wafers in the form of an array. These gates are wired together to create the desired LSI. To lay out gates, an area where no gates are placed may be provided on the wafer (channel structure) or gates may be laid out over the entire surface of the wafer (channel-less structure). The channel gate arrays have fixed wiring areas and gate areas. Almost all the gates of these gate arrays can be used. However, it is difficult to integrate memories on these gate arrays. The channel-less gate arrays can be used to integrate a large-scale system on a single chip. They allow you to determine the width of the wiring area and the shape of the gates freely and to integrate memories efficiently. Cell-based IC Cell-based ICs are high-performance semi-custom LSIs for integrating memories such as RAM and ROM, CPU, CPU peripherals, and analog circuits, as well as logic, on a single chip, by means of a building block type standard cell design technique. Cell-based ICs cannot only realize a density higher than gate arrays and embedded arrays, but also integrate high-performance macros. Therefore, they have increasingly grown in popularity recently as semicustom LSIs for achieving systems-on-chip. Unlike gate arrays, no master wafers are available for cell-based ICs, and a cell-based IC is processed from the very first process, i.e., the diffusion process, to satisfy the user's particular requirements. 164 Selection Guide X10679EJHV0SG00 Semi-Custom IC NEC’s ASICs NEC's ASIC Products (2/2) Embedded array Embedded arrays are high-performance semi-custom LSIs that use the basic cells of a gate array in the internal area, and that can be used to integrate memories like cell-based ICs, such as RAM and ROM. LSIs with sophisticated functions and high performance comparable to those of cell-based ICs can be created. Because the wafer is produced in parallel with simulation, only the wiring process must be done after simulation has been completed. Consequently, the development period up to completion of a sample is as short as that of gate arrays. If a cell-based IC is used for initial production, the production of the system can be started in a short time. If the macro configuration and gate scale are the same, the same master wafer can be used to develop other LSIs. Therefore, many variations of LSIs can be created at a lower cost than cell-based ICs. In addition, the circuits of embedded arrays can be easily modified, so that the risk involved in development can be lowered. Analog master An analog master is used to create an analog LSI by using a master wafer on which transistors, resistors, and capacitors are laid out in advance, and desiging the appropriate wiring in a similar way to when a gate array is used. If you think it would be too difficult to create a full-custom analog circuit from the viewpoint of development period, cost, and the quantity of ICs used, the analog master is the ideal product. Mixed signal ASIC This is a semi-custom LSI that integrates the functions of a CMOS gate array and an analog semi-custom IC on a single chip. The gate array block consists of the basic cells of a CMOS gate array, and can be designed in the same manner as a gate array. The analog delay block incorporates CMOS transistors and bipolar transistors for analog circuits, so that high-performance analog circuits can be constructed. Selection Guide X10679EJHV0SG00 165 Semi-Custom IC 0.25 µm ASIC EA-C10 Family Features (1/3) High-density, super high-speed, and low-power consumption embedded array using the most advanced 0.25 µm technology • High-level function and high-performance LSI compatible to cell-based IC • 2.5 V/3.3 V interface • Short turn around time equivalent to gate array • High-density of system-on-a-chip level • Easy development and modification of derivative models • Macro maintenance common to cell-based IC (CB-C10) (including analog circuit) Family Name EA-C10 Maximum density (total number of gates) 7 million gates Supply voltage 2.5 V ± 0.2 V Delay time Internal gate Note 1 59 ps Input buffer Note 2 79 ps Output buffer Note 3 1363 ps 0.14 µ W/MHz/cell (internal gates) Power consumption Notes 1. 2-input NAND power gate, fanout: 1, wiring length: 0.5 mm 2. Fanout: 2, wiring length: 0 mm 3. Load capacitance: 50 pF, IOL = 12 mA 166 Selection Guide X10679EJHV0SG00 Semi-Custom IC 0.25 µ m ASIC EA-C10 Family Features (2/3) Wide variety of macro libraries (1/2) Functional cell Compiled macro (cell-based IC type) Logic gate High-speed 1-port RAM Delay gate High-speed 2-port RAM Adder Super high-speed 1-port RAM Decoder High-density 1-port RAM Multiplexer High-density 2-port RAM Latch High-speed ROM Flip-flop Shift register Counter Mega macro to be developed Macro name PC Consumer Portable equipment Communication Graphic PCI controller USB IEEE1394 V8×× CPU VR4××× CPU V30MZTM MPEG2 (decoder) A/D, D/A Modem CODEC DSP (SPRX, OAK/Pine) ARM CPU ATM (25MHz, 155MHz) Ethernet 10/100 Base PHY, MAC RAC (RambusTM ASIC Core cell) 2D, 3D accelerator Remarks 1. The release schedule differs depending on the macro. For details, consult NEC. 2. Including macro libraries under development and under study Selection Guide X10679EJHV0SG00 167 Semi-Custom IC 0.25 µm ASIC EA-C10 Family Features (3/3) Wide variety of macro libraries (2/2) I/O buffer High-speed I/O LVCMOS/LVTTL GTL/GTL+ (Gunning Transceiver Logic) Slew rate buffer PCINote 1 (Peripheral Component Interconnect) 3-state buffer HSTL (High Speed Transceiver Logic) Open-drain buffer pECL (Pseudo Emitter Coupled Logic) Others DPLL (to 250 MHz) APLL (to 500 MHz) Multiplier SSTL (Stub Series Terminated Transfer Logic) LVDS (Low Voltage Differential Signaling) USB (Universal Serial Bus) IEEE1394 UART RAM macro (gate array type)Note 2 Register file High-speed 1-port RAM DRAM High-speed 2-port RAM Flash memory Scan block JTAG Notes 1. Interface standard proposed by Intel. 2. RAM macro for gate array. Bit/word fixed. Remarks 1. The release schedule differs depending on the macro. For details, consult NEC. 2. Including macro libraries under development and under study 168 Selection Guide X10679EJHV0SG00 Semi-Custom IC 0.25 µm ASIC CB-C10 Family Features (1/3) High-density, super high-speed, and low-power consumption cell-based IC using the most advanced 0.25 µ m technology In addition to featuring a high-density of 20 million gates (MAX.) and low-power consumption, highspeed internal gates, the EA-C10 Family achieves system-on-chip capabilities through a wide variety of application-oriented macros. Features Furthermore, a macro library which operates on low voltage (to 1.8 V) is also being prepared. Family Name CB-C10 Maximum density (number of usable gates) 20M gates (15M gates) 2.5 V ± 0.2 V Supply voltage Delay time Internal gate Input buffer Note 1 93.4 ps Note 2 Output buffer 31.5 ps Note 3 1363 ps 0.04 µ W/MHz/gate Power consumption Note 1. 2-input NAND power gate, fanout: 1, wiring length: 0 mm 2. Fanout: 2, wiring length: 0 mm 3. Load capacitance: 50 pF, IOL = 12 mA Selection Guide X10679EJHV0SG00 169 Semi-Custom IC 0.25 µm ASIC CB-C10 Family Features (2/3) Wide variety of macro libraries (1/2) Functional cell Compiled macro Logic gate High-speed 1-port RAM Delay gate High-speed 2-port RAM Adder Super high-speed 1-port RAM Decoder High-density 1-port RAM Multiplexer High-density 2-port RAM Latch High-speed ROM Flip-flop Shift register Counter Mega macro to be developed Macro name PC Consumer Portable equipment Communication PCI controller USB IEEE1394 V8×× CPU VR4××× CPU V30MZ MPEG2 (decoder) A/D, D/A Modem CODEC DSP (SPRX, OAK/Pine) ARM CPU ATM (25MHz, 155MHz) Ethernet 10/100 Base PHY, MAC RAC (RambusTM ASIC Core cell) 2D, 3D accelerator Remarks 1. The release schedule differs depending on the macro. For details, consult NEC. 2. Including macro libraries under development and under study 170 Selection Guide X10679EJHV0SG00 Graphic Semi-Custom IC 0.25 µm ASIC CB-C10 Family Features (3/3) Wide variety of macro libraries (2/2) I/O buffer High-speed I/O LVCMOS/LVTTL GTL/GTL+ (Gunning Transceiver Logic) Slew rate buffer PCINote (Peripheral Component Interconnect) 3-state buffer HSTL (High Speed Transceiver Logic) Open-drain buffer pECL (Pseudo Emitter Coupled Logic) Others DPLL (to 250 MHz) APLL (to 500 MHz) Multiplier SSTL (Stub Series Terminated Transfer Logic) LVDS (Low Voltage Differential Signaling) USB (Universal Serial Bus) IEEE1394 UART Register file DRAM Flash memory Scan block JTAG Note Interface standard proposed by Intel. Remarks 1. The release schedule differs depending on the macro. For details, consult NEC. 2. Including macro libraries under development and under study Selection Guide X10679EJHV0SG00 171 Semi-Custom IC Gate Array What Is a Gate Array ? When producing LSIs, the diffusion process that forms elements such as transistors on a silicon wafer takes a long time. With gate NEC ASIC ASIC ASCP/USIC Full-custom LSI Semi-custom LSI arrays, manufacturers can supply wafers called Gate array master wafers whose diffusion process has Cell-based IC been completed. On a master wafer, logic Analog master gates (basic cells) are arranged in the shape of a grid (array). These basic cells are not wired ASSP Image processing LSI Audio LSI to each other at first, and are electrically independent. When the required circuit has Automobile LSI been determined, these basic cells are com- Communications LSI bined to create it. Therefore, because the user produce product in the short time required for the processes following the wiring process, very short development times are possible. In addition, even a small quantity of products can be produced at a low cost by individually wiring master wafers chosen from the many different types readily available. As the density of gate arrays has increased, a type called the channel-less gate array that can be used to integrate a large-scale system Silicon wafer (before diffusion) Master wafer (after diffusion) Chip of gate array on a single chip has come into the spotlight. A channel-less gate array does not have a wiring area, unlike conventional gate arrays, but has transistors over its entire surface. The major features of the channel-less gate array, in addition to a short development period, are as follows: Channel structure • Memories can be efficiently implemented. • The width of the wiring area and the shapes of the gates can be determined as you like. Channel-less structure 172 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array Product Line-Up NEC offers 89 different gate array models (78 CMOS models, 11 BiCMOS models) with the world's highest performance and density, backed up by its leading-edge technology. These gate arrays are employed in a wide range of fields, such as electronic games, household appliances, optical communications equipment, and super computers. Product Line-up 0.6 ns CMOS-6S CMOS-6 Delay time/gate (fanout: 2, wiring length: 2 mm) 0.5 ns CMOS-6A 0.4 ns CMOS-8L 0.3 ns CMOS-8 CMOS-N5 CMOS-9HD 0.2 ns QB-8 0.1 ns 1K 2K 3K 5K 10 K 20 K 30 K 50 K 100 K 200 K 300 K 500 K 1M 2M 3M Number of gates Channel-less CMOS : CMOS-N5, CMOS-9HD, CMOS-8, CMOS-8L, CMOS-6, CMOS-6A, CMOS-6S BiCMOS : QB-8 Selection Guide X10679EJHV0SG00 173 Semi-Custom IC Gate Array Features of NEC Gate Arrays Wide variety of models Many different models are available,suitable for all kinds of systems. CMOS gate arrays : 7 families, 78 models BiCMOS gate arrays : 1 families, 11 models High density and high speed thanks to leading edge technology The CMOS-9HD family employs a 0.35-µ m CMOS technology, 3-layer wiring technology, and channelless structure. As a result, a density of up to 1.6M gates (1.1M usable gates) and a speed of 107ps have been achieved, enabling large-scale system integration on a single chip. Drastic cost reduction The CMOS-N5 family is a gate array that provides high-speed operation with a 5-V power supply voltage. Drastic cost reductions have been achieved thanks to higher integration by the adoption of 0.5 µ m technology (2-layer wiring), and lowering the package assembly cost. High-level gate arrays from many libraries Because many library functions are available, its easy to improve the functionality of your system. Moreover, every technology is standardized to facilitate design. Macros of large-scale CPU peripheral circuits are available for CMOS gate arrays, shortening the designing period and improving the functionality of your systems. 174 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array Which Gate Arrays Is Best-Suited to Your System ? Start High-speed interface? Yes QB-8 No 3.3V Supply voltage 5V Density, operating speed High CMOS-9HD Low CMOS-8L Operating speed High CMOS-8 Low Low Density High CMOS-6 Middle CMOS-6A CMOS-6S CMOS-N5 Selection Guide X10679EJHV0SG00 175 Semi-Custom IC Gate Array CMOS Gate Arrays Product Line-Up NEC offer many types of CMOS gate arrays including the CMOS-6 family with a design rule of 1.0 µ m and the CMOS-9HD family with a design rule of 0.35 µ m. These CMOS gate arrays have densities from 1.8K gates to 1.6M gates (78 models) and satisfy a wide range of user needs by providing compound functions with integrated memories and keeping the Density • function operating voltage low. 3.3-V power supply CMOS-9HD (0.35µ m) CMOS-8L (0.5µ m) 5-V power supply <NEW> CMOS-8 (0.6 µ m) CMOS-N5 (0.5 µ m) CMOS-6 (1.0 µ m) 89 176 90 91 92 93 94 95 Selection Guide X10679EJHV0SG00 96 97 98 Year Semi-Custom IC Gate Array CMOS Gate Array CMOS-6 Family Density Available Models µ PD65658 µ PD65664 µ PD65672 µPD65676 Number of integrated gates* 42240 72576 119232 177408 Number of usable gates** 31680 54432 89424 133056 236 304 384 464 Delay time Number of pads Note Internal gate 0.5 ns (fanout: 2, wiring length: 2 mm) Power gate 0.4 ns (fanout: 2, wiring length: 2 mm) Input buffer 1.0 ns (fanout: 2, wiring length: 2 mm) Output buffer 2.0 ns (CL = 15 pF) Output drive capability IOL = 4.5, 9.0, 13.5, 18.0, 24.0 mA Supply voltage 5V Remark * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 75 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. CMOS-6A Family Available Models Delay time Density µ PD65630 µ PD65636 µPD65640 µPD65646 µ PD65650 µ PD65654 µ PD65656 µPD65662 Number of integrated gates* 5376 8000 11520 16240 21120 30720 40480 70272 Number of usable gates** 3225 4800 6912 9744 12672 18432 24288 42163 100 116 136 156 176 208 220 288 Note Number of pads Internal gate 0.5 ns (fanout: 2, wiring length: 2 mm) Power gate 0.4 ns (fanout: 2, wiring length: 2 mm) Input buffer 1.0 ns (fanout: 2, wiring length: 2 mm) Output buffer 2.0 ns (CL = 15 pF) Output drive capability IOL = 4.5, 9.0, 13.5, 18.0, 24.0 mA Supply voltage Remark 5V * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 60 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. Selection Guide X10679EJHV0SG00 177 Semi-Custom IC Gate Array CMOS Gate Array CMOS-6S Family Delay time Density Available Models Internal gates* Number of usable gates** Number of pads Note µ PD65611 µ PD65621 µPD65625 µ PD65643 µ PD65653 1836 3484 5312 13416 25488 1101 2090 3187 8049 15292 80 100 120 176 236 Internal gate 0.5 ns (fanout: 2, wiring length: 2 mm) Power gate 0.4 ns (fanout: 2, wiring length: 2 mm) Input buffer 1.0 ns (fanout: 2, wiring length: 2 mm) Output buffer 2.0 ns (CL = 15 pF) Output drive capability IOL = 4.5, 9.0, 13.5, 18.0, 24.0 mA Supply voltage Remark 5V * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 60 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. 178 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-6/6A/6S Family Library I/O buffer Function block Memory block Mega macro Function Function Function Function Input buffer Output buffer Bidirectional buffer Low-noise buffer Fail-safe buffer Oscillation circuit High-speed single-port RAM High-speed dual-port RAM High-density single-port RAM Compiled RAM ROM Logic gate Buffer Inverter 3-state buffer Driver Delay Adder Decoder Multiplexer Latch Flip-flop Shift register Counter Others DMA controller Serial interface unit Parallel interface unit Timer/counter Interrupt controller Characteristics Absolute Maximum Ratings Parameter Recommended Operating Conditions Symbol Rating Unit VDD –0.5 to +6.5 V Supply voltage Parameter CMOS Level MIN. MAX. Symbol TTL Level MIN. MAX. Unit VI/VO –0.5 to VDD + 0.5 V Supply voltage VDD 4.5 5.5 4.75 5.25 V Output current IO 40Note1 mA High-level input voltage VIH 0.7 VDD VDD 2.2 VDD V Output current IO 30Note2 mA Low-level input voltage VIL 0 0.3 VDD 0 0.8 V Output current IO 20Note3 mA Input rise time tr 0 200 0 200 ns Output current IO 10Note4 mA Input fall time tf 0 200 0 200 ns Input/output voltage Operating temperature TA –40 to +85 ˚C Positive trigger voltage VP 1.8 4.0 1.2 2.4 V Storage temperature Tstg –65 to +150 ˚C Negative trigger voltage VN 0.6 3.1 0.6 1.8 V Hysteresis voltage V 0.3 1.5 1.5 0.3 VH 1. IOL (MIN.) = 18.0 mA type 2. IOL (MIN.) = 13.5 mA type 3. IOL (MIN.) = 9.0 mA type 4. IOL (MIN.) = 4.5 mA type Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. Notes DC Characteristics Parameter Symbol Conditions MIN. TYP. MAX. Unit 0.1 280 Off-state output leakage current IOZ VO = VDD or GND ±10 µA µA Output short-circuit current IOS VO = 0V –250 mA Normal input II VI = VDD or GND Input leakage with pull-up (50 kΩ) II VI = GND current with pull-up (5 kΩ) II VI = GND with pull-down (50 kΩ) II VI = VDD Static current consumption IDDS VI = VDD or GND ±10–5 ±10 µA –45 –131 –320 µA –0.35 –1.0 –2.2 mA 45 131 320 µA High-level output voltage (CMOS) VOH IOH = 0mA VDD – 0.1 High-level output voltage (TTL) VOH IOH = 0mA 2.6 Low-level output voltage VOL IOL = 0mA V V 0.1 V Remark The above values are under the recommended operating conditions shown above. For the details of the DC characteristics when other supply voltage (3.0 V ± 10%) is used, refer to the Design Manual. Selection Guide X10679EJHV0SG00 179 Semi-Custom IC Gate Array CMOS Gate Array CMOS-8 Family Delay time Density Available Models (2-layer wiring) µ PD65800 µ PD65801 µPD65802 µ PD65803 Number of integrated gates* 11712 21504 32000 42688 Number of usable gates** 7027 12902 19200 25612 Number of padsNote 172 228 268 308 Internal gate 0.29 ns (fanout: 2, wiring length: 2 mm) Power gate 0.20 ns (fanout: 2, wiring length: 2 mm) Input buffer 0.36 ns (fanout: 2, wiring length: 2 mm) Output buffer 1.73 ns (CL = 15 pF) Output drive capability IOL = 3.0, 6.0, 9.0, 12.0, 18.0, 24.0 mA 5 V ± 10% (CMOS level), 5 V ± 5% (TTL level) Supply voltage Remark * 2-input NAND conversion ** Cell utilization rate: 60 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. Delay time Density Available Models (3-layer wiring) µ PD65804 µPD65806 µPD65808 µ PD65810 µ PD65811 µ PD65812 µ PD65813 Number of integrated gates* 42688 58752 82432 103680 138776 176720 233280 Number of usable gates** 32016 44064 61824 77760 104082 132540 174960 308 356 420 468 524 588 676 Note Number of pads Internal gate 0.29 ns (fanout: 2, wiring length: 2 mm) Power gate 0.20 ns (fanout: 2, wiring length: 2 mm) Input buffer 0.36 ns (fanout: 2, wiring length: 2 mm) Output buffer 1.73 ns (CL = 15 pF) Output drive capability IOL = 3.0, 6.0, 9.0, 12.0, 18.0, 24.0 mA Supply voltage Remark 5 V ± 10% (CMOS level), 5 V ± 5 % (TTL level) * 2-input NAND conversion ** Cell utilization rate: 75 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. 180 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-8 Family Library I/O buffer Function block Memory block Mega macro Function Function Function Function Input buffer Output buffer Bidirectional buffer Low-noise buffer Fail-safe buffer PCI buffer GTL (under development) D-PLL (under development) Oscillation circuit High-speed single-port RAM High-speed dual-port RAM High-density single-port RAM ROM Logic gate Buffer Inverter 3-state buffer Clock driver Delay Adder Decoder Multiplexer Latch Flip-flop Shift register Counter Others DMA controller Serial interface unit Parallel interface unit Timer/counter Interrupt controller Characteristics Recommended Operating Conditions Absolute Maximum Ratings Parameter Symbol Rating Unit VDD –0.5 to +6.5 V VI/VO –0.5 to VDD + 0.5 V Supply voltage Input/output voltage Parameter Symbol CMOS Level MIN. MAX. TTL Level MIN. MAX. Unit Supply voltage VDD 4.5 5.5 4.75 5.25 V Output current IO 60 mA High-level input voltage VIH 0.7 VDD VDD 2.2 VDD V Output current IO 40Note2 mA Low-level input voltage VIL 0 0.3 VDD 0 0.8 V Output current IO 30Note3 mA Input rise time tr 0 200 0 200 ns Output current IO 20Note4 mA Input fall time tf 0 200 0 200 ns Output current IO 15Note5 mA Positive trigger voltage VP 1.8 4.0 1.2 2.4 V Output current IO 10Note6 mA Negative trigger voltage VN 0.6 3.1 0.6 1.8 V Operating temperature TA –40 to +85 °C Hysteresis voltage VH 0.3 1.5 0.3 1.5 V Storage temperature Tstg –65 to +150 °C Note1 Notes 1. IOL (MIN.) = 24.0 mA type 4. IOL (MIN.) = 9.0 mA type 2. IOL (MIN.) = 18.0 mA type 5. IOL (MIN.) = 6.0 mA type 3. IOL (MIN.) = 12.0 mA type 6. IOL (MIN.) = 3.0 mA type Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. DC Characteristics Parameter Symbol Conditions Static current consumption IDDS VI = VDD or GND Off-state output leakage current IOZ VO = VDD or GND Output short-circuit current IOS VO = 0V MIN. TYP. MAX. Unit 0.1 200 ±10 µA µA –250 mA ±10 ±10 µA –131 –320 µA –0.35 –1.0 –2.2 mA 45 131 320 µA –5 Normal input II VI = VDD or GND Input leakage with pull-up (50 kΩ) II VI = GND –45 current with pull-up (5 kΩ) II VI = GND with pull-down (50 kΩ) II VI = VDD High-level output voltage (CMOS) VOH IOH = 0 mA VDD – 0.1 High-level output voltage (TTL) VOH IOH = 0 mA 2.6 Low-level output voltage VOL IOL = 0 mA V V 0.1 V Remark The above values are under the recommended operating conditions shown above. For the details refer to the Design Manual. Selection Guide X10679EJHV0SG00 181 Semi-Custom IC Gate Array CMOS Gate Array CMOS-N5 Family Features The CMOS-N5 family is a channel-less type gate array that provides high speed operation with a 5V power supply voltage. Drastic cost reductions have been achieved compared with the conventional CMOS-6 and CMOS-8 families thanks to higher integration by the adoption of 0.5 µ m technology (2-layer wiring), and lowering the package assembly cost. NEW CMOS-6 Family CMOS-N5 Family CMOS-8 Family Integration • 3K to 120K gates (number of integrated gates) • 2K to 74K gates (number of usable gates) High-speed operation (preliminary) • tPD = 0.2 ns (2-input NAND (power gate), fanout = 2, standard wiring length) • Operating frequency: 60 MHz max. Function blocks • RAM block (1 port/2 ports) • Oscillation block • CTS block 182 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-N5 Family Available Models (Preliminary) Delay time Density µ PD65880 µ PD65881 µ PD65882 µ PD65883 µ PD65884 µ PD65885 µ PD65887 µ PD65889 µ PD65890 µ PD65893 Number of integrated gates* 3456 5880 13952 25344 33864 40768 56496 76000 99528 123384 Number of usable gates** 2073 3528 8371 15206 20318 24460 33897 45600 59716 74030 72 88 120 160 184 244 284 324 372 412 Note Number of pads Internal gate 0.29 ns (fanout: 2, standard wiring length) Power gate 0.20 ns (fanout: 2, standard wiring length) Input buffer 0.36 ns (fanout: 2, standard wiring length) Output buffer 1.73 ns (CL = 15 pF) Output drive capability IOL = 3, 6, 9, 12, 18, 24 mA Supply voltage 5 V ± 10 % (CMOS level) Remark * 2-input NAND conversion ** Cell utilization rate: 60 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. Selection Guide X10679EJHV0SG00 183 Semi-Custom IC Gate Array CMOS Gate Array CMOS-8L Family Available Models (2-layer wiring) Delay time Density µ PD65837 µ PD65839 µ PD65840 µ PD65841 µPD65842 µPD65843 µ PD65845 µ PD65846 Number of integrated gates* 4480 7904 10912 20832 30192 40592 52528 61904 Number of usable gates** 2912 5137 6547 12499 18115 24355 31516 37142 80 104 164 204 212 244 276 300 Number of pads Note Internal gate 0.33 ns (fanout: 2, wiring length: 2 mm) Power gate 0.21 ns (fanout: 2, wiring length: 2 mm) Input buffer 0.71 ns (fanout: 2, wiring length: 2 mm) Output buffer 1.44 ns (CL = 15 pF) Output drive capability IOL = 3, 6, 9, 12, 18, 24 mA 3.3 V ± 0.3 V Supply voltage Remark * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 60 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. Delay time Density µ PD65848 µ PD65849 µ PD65850 µ PD65851 µ PD65852 µ PD65853 µ PD65855 µ PD65858 Number of integrated gates* 81984 102272 120768 148256 202752 255744 342000 488720 Number of usable gates** 49190 61363 72460 88953 121651 153446 205200 293232 340 380 412 452 524 588 676 804 Note Number of pads Internal gate 0.33 ns (fanout: 2, wiring length: 2 mm) Power gate 0.21 ns (fanout: 2, wiring length: 2 mm) Input buffer 0.71 ns (fanout: 2, wiring length: 2 mm) Output buffer 1.44 ns (CL = 15 pF) Output drive capability IOL = 3, 6, 9, 12, 18, 24 mA Supply voltage Remark 3.3 V ± 0.3 V * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 60 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. 184 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-8L Family Available Models (3-layer wiring) Delay time Density µ PD65860 µ PD65861 µPD65862 µPD65863 µ PD65865 µ PD65866 µ PD65868 µPD65869 Number of integrated gates* 10912 20832 30192 40592 52528 61904 81984 102272 Number of usable gates** 8184 15624 22644 30444 39396 46428 61488 76704 164 204 212 244 276 300 340 380 Note Number of pads Internal gate 0.33 ns (fanout: 2, wiring length: 2 mm) Power gate 0.21 ns (fanout: 2, wiring length: 2 mm) Input buffer 0.71 ns (fanout: 2, wiring length: 2 mm) Output buffer 1.44 ns (CL = 15 pF) Output drive capability IOL = 3, 6, 9, 12, 18, 24 mA 3.3 V ± 0.3 V Supply voltage Remark * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 75 % Delay time Density Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. µ PD65870 µ PD65871 µ PD65872 µ PD65873 µ PD65875 µ PD65878 Number of integrated gates* 120768 148256 202752 255744 342000 488720 Number of usable gates** 90576 111192 152064 191808 256500 366540 412 452 524 588 676 804 Note Number of pads Internal gate 0.33 ns (fanout: 2, wiring length: 2 mm) Power gate 0.21 ns (fanout: 2, wiring length: 2 mm) Input buffer 0.71 ns (fanout: 2, wiring length: 2 mm) Output buffer 1.44 ns (CL = 15 pF) Output drive capability IOL = 3, 6, 9, 12, 18, 24 mA Supply voltage Remark 3.3 V ± 0.3 V * 2-input NAND conversion (1 cell = 1 gate) ** Cell utilization rate: 75 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. Selection Guide X10679EJHV0SG00 185 Semi-Custom IC Gate Array CMOS Gate Array CMOS-8L Family Library I/O buffer Function block Memory block Mega macro Function Function Function Function 3V Input buffer Output buffer Bidirectional buffer PCI buffer 5 V (level shifter) Input buffer Output buffer Bidirectional buffer GTL D-PLL 186 Logic gate Buffer Inverter 3-state buffer Clock driver Delay Adder Decoder Multiplexer Latch Flip-flop Shift register Counter Others High-speed single-port RAM High-speed dual-port RAM High-density single-port RAM ROM Selection Guide X10679EJHV0SG00 DMA controller Serial interface unit Parallel interface unit Timer/counter Interrupt controller Semi-Custom IC Gate Array CMOS Gate Array CMOS-8L Family Characteristics Absolute Maximum Ratings Parameter Symbol Rating Unit VDD –0.5 to +4.6 V VI/VO –0.5 to +4.6 V Supply voltage Input/output voltage (3-V interface block) Input/output voltage Recommended Operating Conditions Parameter Symbol Supply voltage High-level input voltage (3-V interface block) VDD = 3.3V + 0.3V Unit MIN. MAX. VDD 3.0 3.6 V VIH 2.0 VDD V VIH 2.0 5.5 V VIL 0 0.8 V VIL 0 0.8 V VI/VO –0.5 to +6.6 V Output current IO Note1 3 mA (5-V interface block) Output current IO 7Note2 mA Low-level input voltage Output current IO 10Note3 mA (3-V interface block) Output current IO 20Note4 mA Low-level input voltage Output current IO Note5 30 mA (5-V interface block) Output current IO 40Note6 mA Input rise time tr 0 200 ns IO Note7 mA Input fall time tf 0 200 ns VP 1.70 2.70 V VP 2.20 2.55 V VN 0.60 1.20 V VN 0.84 1.01 V VH 1.10 1.50 V VH 1.36 1.54 V (5-V interface block) Output current 60 High-level input voltage Output current IO mA Positive trigger voltage Operating temperature TA –40 to +85 °C (3-V interface block) Storage temperature Tstg –65 to +150 °C Positive trigger voltage Notes 1. 2. 3. 4. 5. 6. 7. 8. Note8 80 (5-V interface block) IOL (MIN.) = 1.0 mA type IOL (MIN.) = 2.0 mA type IOL (MIN.) = 3.0 mA type IOL (MIN.) = 6.0 mA type IOL (MIN.) = 9.0 mA type IOL (MIN.) = 12.0 mA type IOL (MIN.) = 18.0 mA type IOL (MIN.) = 24.0 mA type Negative trigger voltage (3-V interface block) Negative trigger voltage (5-V interface block) Hysteresis voltage (3-V interface block) Hysteresis voltage (5-V interface block) Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. DC Characteristics MAX. Unit Static current consumption Parameter Symbol IDDS Conditions MIN. TYP. 300 Off-state output leakage current IOZ ±18 µA µA Output short-circuit current IOS –250 mA ±10 µA ±10– 5 Normal input II Input leakage with pull-up (50 kΩ) II VI = GND –10 –40 –80 µA current with pull-up (5 kΩ) II VI = GND –130 –350 –640 µA with pull-down (50 kΩ) II VI = VDD 30 65 130 µA VI = VDD or GND High-level output voltage (3-V interface block) VOH IOH = 0 mA VDD – 0.1 High-level output voltage (5-V interface block) VOH IOH = 0 mA VDD – 0.2 Low-level output voltage VOL IOL = 0 mA V V 0.1 V Remark 1. The above values are under the recommended operating conditions shown above. For details, refer to the Design Manual. 2. Blank indicates value is under study. Selection Guide X10679EJHV0SG00 187 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Features The CMOS-9HD family is a collection of channel-less gate arrays employing a 0.35-µ m technology. This family consists of 10 masters with 75K to 1.6M gates. The most outstanding feature of this family is the scale of integration. The gate density of this family is about 2.5 times higher than that of the existing CMOS-9 family 0.35-µ m gate arrays, thanks to improvement of the cell structure. In addition, the power consumption is 30 % lower, and thanks to new I/O pad layout technology, this family offers a large number of pins in addition to the high density. Conventional (CMOS-9) Gate density: 2.5 times higher Power consumption: 30% lower 1.0 0.4 CMOS-9 CMOS-9HD Conventional CMOS-8LH CMOS-8LHD Integration CMOS-9HD High density, low cost, low power consumption, high speed, large number of packages/interfaces CMOS-9 188 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Available Models (3-layer wiring) Delay time Density µ PD65943 µ PD65944 µ PD65945 µ PD65946 µ PD65948 µ PD65949 µ PD65951 µ PD65954 µ PD65956 µ PD65958 Internal gates* Number of usable gates** Note Number of pads 75740 100602 128338 202630 312684 437136 585390 835664 1096452 1615646 53018 70421 89836 172 196 216 141841 218878 305995 351234 501398 657871 969387 268 324 380 436 516 588 Internal gate 131 ps (2-input NAND, fanout: 1, standard wiring length) Power gate 107 ps (2-input NAND, fanout: 1, standard wiring length) Input buffer 229 ps (fanout: 2, standard wiring length) Output buffer 1396 ps (CL = 15 pF, IOL = 9 mA) Output drive capability IOL = 1, 2, 3, 6, 9, 12, 18, 24 mA 708 3.3 V ± 0.3 V Supply voltage * 2-input NAND conversion ** Cell utilization rate: 70 % (60 % in the largest four masters) Remark Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. Library I/O buffer Function block Memory block Mega macro (under development) Function Function Function Function 3V Input buffer Output buffer Bidirectional buffer PCI buffer Low-noise buffer Fail-safe buffer 5 V (level shifter) Input buffer Output buffer Bidirectional buffer GTL (under development) D-PLL (under development) Logic gate Buffer Inverter 3-state buffer Clock driver Delay Adder Decoder Multiplexer Latch Flip-flop Shift register Counter Others High-speed single-port RAM High-speed dual-port RAM Selection Guide X10679EJHV0SG00 DMA controller Serial interface unit Parallel interface unit Timer/counter Interrupt controller 189 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Characteristics (1/5) Absolute Maximum Ratings Parameter Supply voltage Symbol Condition VDD Rating Unit –0.5 to +4.6 V Input voltage 3-V input buffer 3-V input buffer with fail-safe function 5-V input buffer VI VI < VDD + 0.5 V –0.5 to +4.6 V VI VI < VDD + 0.5 V –0.5 to +4.6 V VI VI < VDD + 0.5 V –0.5 to +6.6 V VO VO < VDD + 0.5 V –0.5 to +4.6 V VO VO < VDD + 3.0 V –0.5 to +6.6 V VO VO < VDD + 3.0 V –0.5 to +6.6 V IOL = 1 mA(FV0B) 3 mA IOL = 2 mA(FV0B) 7 mA IOL = 3 mA(FO09,FV09) 10 mA IOL = 6 mA(FO04,FV04) 20 mA IOL = 9 mA(FO01,FV01) 30 mA IOL = 12 mA(FO02) 40 mA IOL = 18 mA(FO03) 60 mA IOL = 24 mA(FO06) 75 mA TA –40 to +85 ˚C Tstg –65 to +150 ˚C Output voltage 3-V output buffer TTL 5-V output buffer CMOS 5-V output buffer Output currentNote Operating temperature Storage temperature IO Note Input current: Maximum value of current that can flow via input protection diode. Output current: Maximum DC current that can flow through output pin Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. Remark Apart from the buffer with the fail-safe function, apply 5 V or 3 V to the I/O pin after the supply voltage has been stabilized. 190 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Characteristics (2/5) Recommended Operating Conditions Parameter Symbol Conditions Supply voltage VDD High-level input voltage VIH • LVTTL interface buffer Low-level input voltage VIL • LVTTL interface buffer with fail- Positive trigger voltage VP Negative trigger voltage VN Hysteresis voltage VH High-level input voltage VIH • TTL 5-V tolerant interface buffer Low-level input voltage VIL • 5-V input buffer Positive trigger voltage VP Negative trigger voltage VN Hysteresis voltage safe function Schmitt input MIN. TYP. MAX. Unit 3.00 3.30 3.60 V 2.00 VDD V 0 0.80 V 1.50 2.70 V 0.60 1.40 V 1.10 1.50 V 2.00 5.50 V 0 0.80 V 2.20 2.55 V 0.84 1.01 V VH 1.36 1.54 V Input rise time tri 0 200 ns Input fall time tfi 0 200 ns Input rise time tri 0 10 ms Input fall time tfi 0 10 ms Schmitt input Normal input Schmitt input Note Note Do not use this for the clock. Remark If a signal with a long rise/fall time is input, use a Schmitt trigger input buffer to prevent malfunctioning due to noise superimposed on the signal line. Fluctuation of power caused by simultaneous operation of output buffers lower the capability of the Schmitt trigger input buffer, and therefore, care must be exercised in laying out the pins. Selection Guide X10679EJHV0SG00 191 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Characteristics (3/5) The following values are under the recommended operating conditions shown above. For details, refer to the Design Manual. DC Characteristics (1/3) Parameter Symbol Conditions IDDS µ PD65951, 65954, 65956 µ PD65958 MIN. TYP. MAX. Unit VI = VDD or GND 2.0 300 µA IDDS VO = VDD or GND 0 400 µA IDDS VO = VDD or GND 4.0 800 µA 3-V output IOZ VO = VDD or GND ±10 µA TTL 5-V output IOZ VO = VDD or GND ±10 µA CMOS 5-V output IOZ VO = VDD or GND ±10 µA IR VPU = 5.5 V RPU = 2 kΩ 10 µA –250 mA Static current consumption Note1 µ PD65943, 65944, 65945 µ PD65946, 65948, 65949 Off-state output leakage current Note2 Output sink current Note3 CMOS 5-V output VO = 3.0 V Output short-circuit current Note4 IOS VO = GND Normal input II VI = VDD or GND ±1.0 µA With pull-up resistor (50 kΩ) II VI = GND 28 83 190 µA With pull-up resistor (5 kΩ) II VI = GND 280 700 1900 µA With pull-down resistor (50 kΩ) II VI = VDD 28 83 190 µA Input leakage current Pull-up resistor (50 kΩ) Note5 RPU 18.9 39.8 107.1 kΩ Pull-up resistor (5 kΩ) Note5 RPU 1.9 4.7 10.7 kΩ RPD 18.9 39.8 107.1 kΩ Pull-down resistor (50 kΩ) Note5 Notes 1. The static current consumption increases when an I/O block with pull-up/pull-down resistor is used. 2. The output off-state current of the TTL and CMOS 5-V 3-state buffer and I/O buffer slightly increases because of the bias of the 5-V protection circuit. 3. A sink current flows from the output pin to the internal circuit of the LSI if the TTL and CMOS 5-V output buffer are pulled up at a voltage higher than the supply voltage of the LSI. 4. The output short-circuit time is 1 second or less for only 1 pin of the LSI. 5. The pull-up resistance and pull-down resistance vary depending on the input and output voltages. Remark The + and – symbols next to the current values in the above figure indicate the direction of the current. Current flowing into the device is indicated by + and current flowing out is indicated by –. Note that the CMOS 5-V tolerant output buffer cannot output a DC high level because of its structure. 192 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Characteristics (4/5) DC Characteristics (2/3) Parameter Symbol Conditions MIN. TYP. MAX. Unit Low-level output current Note1 3-V output type 3.0-mA type FO09 IOL VOL = 0.4 V 3.00 Note2 mA 6.0-mA type FO04 IOL VOL = 0.4 V 6.00 mA 9.0-mA type FO01 IOL VOL = 0.4 V 9.00 mA 12.0-mA type FO02 IOL VOL = 0.4 V 12.00 mA 18.0-mA type FO03 IOL VOL = 0.4 V 18.00 mA 24.0-mA type FO06 IOL VOL = 0.4 V 24.00 mA Low-level output current Note1 TTL 5-V output 1.0-mA type FV0A IOL VOL = 0.4 V 1.00 mA 2.0-mA type FV0B IOL VOL = 0.4 V 2.00 mA 3.0-mA type FV09 IOL VOL = 0.4 V 3.00 mA 6.0-mA type FV04 IOL VOL = 0.4 V 6.00 mA 9.0-mA type FV01 IOL VOL = 0.4 V 9.00 mA 12.0-mA type FV02 IOL VOL = 0.4 V 12.00 mA 18.0-mA type FV03 IOL VOL = 0.4 V 18.00 mA 24.0-mA type FV06 IOL VOL = 0.4 V 24.00 mA Low-level output current Note1 CMOS 5-V output 3.0-mA type FY09 IOL VOL = 0.4 V 3.00 mA 6.0-mA type FY04 IOL VOL = 0.4 V 6.00 mA 9.0-mA type FY01 IOL VOL = 0.4 V 9.00 mA 12.0-mA type FY02 IOL VOL = 0.4 V 12.00 mA 18.0-mA type FY03 IOL VOL = 0.4 V 18.00 mA 24.0-mA type FY06 IOL VOL = 0.4 V 24.00 mA Notes 1. The specifications of the buffers with the same driving capabilities are the same. 2. 2.00 mA for type with 5-kΩ pull-up resistor Remark The + and – symbols next to the current values in the above figure indicate the direction of the current. Current flowing into the device is indicated by + and current flowing out is indicated by –. Note that the CMOS 5-V tolerant output buffer cannot output a DC high level because of its structure. Selection Guide X10679EJHV0SG00 193 Semi-Custom IC Gate Array CMOS Gate Array CMOS-9HD Family Characteristics (5/5) DC Characteristics (3/3) Parameter Symbol Conditions MIN. TYP. MAX. Unit High-level output current Note 3-V output type 3.0-mA type FO09 IOH VOH = 2.4 V –3.00 mA 6.0-mA type FO04 IOH VOH = 2.4 V –6.00 mA 9.0-mA type FO01 IOH VOH = 2.4 V –9.00 mA 12.0-mA type FO02 IOH VOH = 2.4 V –12.00 mA 18.0-mA type FO03 IOH VOH = 2.4 V –18.00 mA 24.0-mA type FO06 IOH VOH = 2.4 V –24.00 mA High-level output current Note TTL 5-V output 1.0-mA type FV0A IOH VOH = 2.4 V –1.00 mA 2.0-mA type FV0B IOH VOH = 2.4 V –1.00 mA 3.0-mA type FV09 IOH VOH = 2.4 V –3.00 mA 6.0-mA type FV04 IOH VOH = 2.4 V –3.00 mA 9.0-mA type FV01 IOH VOH = 2.4 V –3.00 mA 12.0-mA type FV02 IOH VOH = 2.4 V –3.00 mA 18.0-mA type FV03 IOH VOH = 2.4 V –6.00 mA 24.0-mA type FV06 IOH VOH = 2.4 V –6.00 mA 3-V output type VOL IOL = 0 mA 3-V output type VOL IOL = 0 mA Low-level output current Note (with 5-kΩ pull-up resistor) 0.1 V 0.2 V TTL 5-V output VOL IOL = 0 mA 0.1 V CMOS 5-V output VOL IOL = 0 mA 1 V High-level output voltage 3-V output type VOH IOH = 0 mA VDD – 0.1 V TTL 5-V output VOH IOH = 0 mA VDD – 0.2 V Note The specifications of the buffers with the same driving capabilities are the same. Remark The + and – symbols next to the current values in the above figure indicate the direction of the current. Current flowing into the device is indicated by + and current flowing out is indicated by –. Note that the CMOS 5-V tolerant output buffer can not output a DC high level because of its structure. 194 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array BiCMOS Gate Array QB-8 Family Features The QB-8 family is a collection of BiCMOS gate arrays that offer high speed, low power consumption, and high density, and a price comparable to CMOS devices through the use of an innovative of cell structure and technology, radicaly changing the image of conventional BiCMOS gate arrays. These gate arrays help increase the speed and decrease the power consumption of many electronic systems such as office machines and communications equipment. High-speed operation • Internal gate tPD = 107 ps (2-input NAND, fanout: 1, wiring length: 0 mm) tPD = 191 ps (2-input NAND, fanout: 2, wiring length: 2 mm) • Power gate tPD = 142 ps (2-input NAND, fanout: 2, wiring length: 2 mm) Super low power consumption 1.09 µ W = (per gate, VDD = 3.3 V at 1 MHz) Function block Compatible with CMOS-8L family Many high-speed interfaces Maximum operating output frequency • LVTTL 100 MHz • GTL 200 MHz • PECL 250 MHz • PCI 66 MHz • HSTL 250 MHz • LVDS 300 MHz Selection Guide X10679EJHV0SG00 195 Semi-Custom IC Gate Array BiCMOS Gate Array QB-8 Family Delay time Density Available Models µ PD67821 µ PD67822 µ PD67823 µ PD67824 µ PD67825 µ PD67826 Number of integrated gates* 32832 44352 56800 69520 93184 123808 Number of usable gates** 22982 31046 39760 48664 65229 86666 180 204 228 240 284 324 Note Number of pads Internal gate 107 ps (fanout: 1, wiring length: 0 mm), 191 ps (fanout: 2, wiring length: 2 mm) Power gate 142 ps (fanout: 2, wiring length: 2 mm) Input buffer 289 ps (fanout: 2, wiring length: 2 mm) Output buffer 1.64 ns (load: 15 pF, IOL = 18 mA) 3.3V ± 0.3V Supply voltage Output drive capability IOL = 1, 2, 3, 6, 9, 12, 18, 24 mA I/O interface level LVTTL, TTL, GTL, HSTL, PECL, PCI Remark * 2-input NAND conversion **Cell utilization rate: 70 % Delay time Density Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. µ PD67827 µ PD67828 µ PD67829 µ PD67830 µ PD67831 Number of integrated gates* 136752 167280 234280 292896 381840 Number of usable gates** 95726 117096 164024 205027 267288 340 372 436 484 548 Note Number of pads Internal gate 107 ps (fanout: 1, wiring length: 0 mm), 191 ps (fanout: 2, wiring length: 2 mm) Power gate 142 ps (fanout: 2, wiring length: 2 mm) Input buffer 289 ps (fanout: 2, wiring length: 2 mm) Output buffer Supply voltage Output drive capability I/O interface level Remark 1.64 ns (load: 15 pF, IOL = 18 mA) 3.3 V ± 0.3 V IOL = 1, 2, 3, 6, 9, 12, 18, 24 mA LVTTL, TTL, GTL, HSTL, PECL, PCI * 2-input NAND conversion **Cell utilization rate: 70 % Note Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of the package. 196 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array BiCMOS Gate Array QB-8 Family Library I/O buffer Function block Memory block Function Function Function 3V Input buffer Output buffer Bidirectional buffer PCI buffer HSTL buffer Low-noise buffer Fail-safe buffer 5 V (level shifter) Input buffer GTL PECL LVDS Logic gate Buffer Inverter 3-state buffer Clock driver Delay Adder Decoder Multiplexer Latch Flip-flop Shift register Counter Others High-speed single-port RAM High-speed dual-port RAM High-density single-port RAM High-density dual-port RAM Selection Guide X10679EJHV0SG00 Mega macro (under development) Function DMA controller Serial interface unit Parallel interface unit Timer/counter Interrupt controller 197 Semi-Custom IC Gate Array BiCMOS Gate Array QB-8 Family Characteristics (1/2) Absolute Maximum Ratings Parameter Supply voltage Symbol Condition VDD Rating Unit –0.5 to +4.6 V Input voltage VI VI < VDD + 0.5 V –0.5 to +4.6 V VI VI < VDD + 0.5 V –0.5 to +4.6 V VI VI < VDD + 0.5 V –0.5 to +6.6 V 3-V output buffer VO VO < VDD + 0.5 V –0.5 to +4.6 V 5-V output buffer VO VO < VDD + 3.0 V –0.5 to +6.6 V 3-V input buffer 3-V input buffer with fail-safe function 5-V input buffer Output voltage Output currentNote Operating temperature Storage temperature IOL = 1 mA(FV0A) 3 mA IOL = 2 mA(FV0B) 7 mA IOL = 3 mA (FO09,FV09,FW09) 10 mA IOL = 6 mA (FO04,FV04,FW04) 20 mA IOL = 9 mA (FO01) 30 mA IOL = 12 mA (FO02) 40 mA IOL = 18 mA (FO03) 60 mA IOL = 24 mA (FO06) 80 mA TA –40 to +85 °C Tstg –65 to +150 °C IO Note Output current: Maximum DC current that can flow through output pin Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. Remark Apart from the buffer with the fail-safe function, apply 5 V or 3 V to the I/O pin after the supply voltage has been stabilized. Recommended Operating Conditions MIN. TYP. MAX. Unit Supply voltage Parameter Symbol VDD Conditions 3.00 3.30 3.60 V High-level input voltage VIH 2.00 VDD V Low-level input voltage VIL 0 0.80 V Positive trigger voltage VP 1.50 2.70 V Negative trigger voltage VN 0.60 1.40 V Hysteresis voltage VH 1.10 1.50 V High-level input voltage VIH 2.00 5.50 V Low-level input voltage VIL 0 0.80 V Positive trigger voltage VP 2.20 2.25 V Negative trigger voltage VN 0.84 1.01 V Hysteresis voltage VH 1.36 1.54 V Input rise time tri 0 200 ns Input fall time tfi 0 200 ns Input rise time tri 0 10 ms Input fall time tfi 0 10 ms 3-V interface 5-V interface Normal input Schmitt input Note Note Do not use this for the clock. 198 Selection Guide X10679EJHV0SG00 Semi-Custom IC Gate Array BiCMOS Gate Array QB-8 Family Characteristics (2/2) DC Characteristics Parameter Symbol Conditions MIN. TYP. MAX. Unit µ PD67830,67831 15 4800 µA µ PD67827,67828,67829 9 3000 µA 5 1500 µA 2 700 µA Static current consumption µ PD67824,67825,67826 IDDS VI = VDD or GND µ PD67821,67822,67823 Off-state output current 3-V output IOZ VO = VDD or GND ±10 µA 5-V output IOZ VO = VDD or GND ±14 µA 14 µA –250 mA Output sink current 5-V output Output short-circuit current IR VPU = 5.5 V RPU = 2 kΩ VO = 3.0 V IOS VO = GND Normal input II VI = VDD or GND ±10 µA with pull-up resistor (50 kΩ) II VI = GND –30 –66 –144 µA with pull-up resistor (5 kΩ) II VI = GND –300 –660 –1440 µA with pull-down resistor (50 kΩ) II VI = VDD 30 66 144 µA Input leakage current High-level output voltage 3-V output VOH IOH = 0 mA VDD – 0.1 V 5-V output VOH IOH = 0 mA VDD – 0.2 V Low-level output voltage 3-V output VOL IOL = 0 mA 0.1 V 5-V output VOL IOL = 0 mA 0.1 V Remarks 1. The above values are under the recommended operating conditions shown above. For details, refer to the Design Manual. 2. Blank indicates values are under study. Selection Guide X10679EJHV0SG00 199 Semi-Custom IC Cell-Based IC Cell-Based IC Line-Up (1/2) A cell-based IC is an LSI that is designed combining large-scale macros such as existing CPU and memories, and user’s own circuits. Because its internal logic cells are optimally designed according to their functions, a large scale of integration with low current consumption can be realized even if the circuit consists of only logic, as compared with gate arrays. In addition, a system-on-chip that integrates a high-performance CPU core with analog macros such as A/D and D/A converters can be realized. Many families available Families are available for each technology. 0.8 µm CMOS family :CB-C7 family (HD/FT/VX type) 0.5 µm CMOS family :CB-C8 family (VX/VM type) 0.35 µ m CMOS family :CB-C9 family (VX/VM type) 0.25 µ m CMOS family :CB-C10 family The CB-C8 family VM type and CB-C9 family VM type can easily interface with 5-V and 3.3-V signals by using a buffer with level shifter in a system where 5 V and 3.3 V are used together. The CB-C9 family VX type internally operates at 2.0 V and has a 3.3-V interface, and is ideal for portable systems where low power consumption is required, such as cellular telephones. The CB-C10 family can internally operate at 2.5 V and have a 2.5 or 3.3 V interface to allow largerscale systems with lower power consumption. (For details of the CB-C10 family, refer to the description in the section titled 0.25 µ m ASIC in this pamphlet.) Series development of Cell-Based ICs CB-C10 family (0.25 µm) Front-end process Super high density, low power consumption series Multiple power supplies High density, low power consumption CB-C9 family Density • function (0.35 µm) CB-C9 CB-C10 CB-C9VM (3V, 5V full interface) CB-C9VX (0.35 µ m) (Being replaced by CB-C9VX) ≤ 3.3V CB-C8 family (0.5 µm) Multiple power supplies CB-C8VM High density, low power consumption CB-C8VX (3V, 5V full interface) (0.5 µ m) 3.3V/5VTTL CB-C8HD (Being replaced by CB-C8VX) CB-C7VX (5V single power supply, medium speed, improved cost effectiveness) 3.3V High density CB-C7HD (5V single power supply, high speed series) CB-C7 family CB-C7FT (ES, short turn around time series) (0.8 µm) 5V 91 200 92 93 94 95 Selection Guide X10679EJHV0SG00 96 97 98 99 Semi-Custom IC Cell-Based IC Cell-Based IC Line-Up (2/2) Comparison of performance of each series 100M CB-C9VX/VM (VDD = 3.3V) CB-C10 (VDD = 2.5V) 80M CB-C8VX/VM (VDD = 3.3V) 60M CB-C7HD (VDD = 5V) 40M CB-C7FT (VDD = 5V) CB-C7VX (VDD = 5V) CB-C7VX (VDD = 3V) 3K 5K 10K 50K 100K 500K 1M 2M 5M 10M 20M Number of usable gates [gates] Transition of power consumption CB-C7HD (VDD = 5V) Power consumption ( µ W/MHz/Gate) Operating frequency : fS (Hz) Caution The operating frequency shown here is for your reference only. In practice, the frequency is determined depending on your circuit configuration and must be decided for each product (the frequency may be higher or lower than the value shown here, depending on the circuit). 4 CB-C7VX (VDD = 5V) 3 2 CB-C7HD (VDD = 3V) CB-C8VX/VM (VDD = 3.3V) 1 CB-C7VX (VDD = 3V) 0.5 CB-C9VX/VM (VDD = 3.3V) CB-C10 (VDD = 2.5V) CB-C9VX/VM (VDD = 2.0V) 100K 200K 300K 500K 1M 2M 3M 5M 10M Number of usable gates [gates] (MAX) Selection Guide X10679EJHV0SG00 201 Semi-Custom IC Cell-Based IC 5V/3V, double Note2 3V, single Note2 3V Note2 / 2V Note3, double I/O signal 5V, single < 30 MHz Note1 CB-C7VX is recommended in terms of cost. < 60 MHz Note1 > 60 MHz Note1 5V full-swing output required (only CMOS I/F operates on 5V) CB-C7HD/FT is recommended. Consider a 2-power supply system. 5V full-swing output not required (only TTL I/F operates on 5V) CB-C8VM or CB-C9VM Operating frequency (for your reference) Voltage that can be supplied Operating frequency (for your reference) Guide to Selecting Cell-Based ICs < 15 MHz Note1 < 100 MHz Note1 CB-C8VX or CB-C9VX > 100 MHz Note1 Circuit size CB-C9VX < 1M gates > 1M gates CB-C10 Notes 1. The values of the operating frequency shown above are for your reference only. In practice, the value of the operating frequency varies depending on your circuit configuration. 2. CB-C7, 3V: VDD = 3.0 V ± 0.3 V CB-C8VX/VM, CB-C9VX/VM, CB-C10: VDD = 3.3 V ± 0.3 V 3. CB-C9VX, 2V: VDD = 2.0 V ± 0.2 V CB-C10: VDD = 2.5 V ± 0.2 V Many cores available The need for system-on-chip is satisfied by CPU peripheral cores, memory macros, and analog masters such as A/D and D/A, as well as a high-performance CPU. High-density memory macros, RAM and ROM, can be integrated by means of the memory compiled method. 202 Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC CB-C7 Family Features Three types available FT type : Short turn around time realized by gate array method (substrate is developed first) HD type : High speed and high density by employing dedicated cells VX type Note : Super high density by employing dedicated cells and small transistors Note The applications of the VX type are limited. Library Technology Macro: CPU, CPU peripherals, memories (compiled type) Functional cell I/O buffer Technology : 0.8-µ m CMOS 2-/3-layer wiring Density : 270,000 gates Number of I/Os : 440 Delay time : 0.33 ns FT vs. HD vs. VX selection • Comparison of features of each type FT Turn around time Speed O Density Power consumption O HD VX O O O O HD type VX type • Comparison of cell area (average of all blocks) FEB 28TH JAN 2ND FT HD VX (S.O.G) (dedicated cell) (dedicated cell) 1.2 : 1.0 : FT type User logic Small chip area, low cost FEB 2ND JAN 2ND Short turn around time 0.8 Selection Guide X10679EJHV0SG00 203 Semi-Custom IC Cell-Based IC CB-C7 Family Product Outline FT type/HD type/VX type Type name µPD93000 Part number CPU, peripherals Derivative models Note 1 — µ PD96100 O O — gates Note 2 Internal gate Input buffer Output buffer Power consumption (internal gate) Output drive capability FT: 167K gates (MAX.)/HD: 223K gates (MAX.)/VX: 273K gates (MAX.) FT,HD : 0.33nsNote 3/0.44ns(5V), 0.67nsNote 3/0.90ns(3V) [F/O=2,L=2mm] VX : 0.90nsNote 3/2.10ns(5V), 1.54nsNote 3/3.42ns(3V) [F/O=2,L=2mm] FT,HD : 0.60 ns(5 V), 0.76 ns(3 V) [F/O = 2, L = 2 mm] VX : 1.25 ns(5 V), 2.18 ns(3 V) [F/O = 2, L = 2 mm] FT,HD : 1.6 ns(5 V,IOL = 8 mA), 3.0 ns(3 V,IOL = 4.4 mA) [CL = 15 pF] VX : 1.7 ns(5 V,IOL = 8 mA), 3.0 ns(3 V,IOL = 4.4 mA) [CL = 15 pF] FT,HD : 3.90 µW/MHz/gate(5 V), 1.41 µ W/MHz/gate(3 V) VX : 3.21 µW/MHz/gate(5 V), 1.17 µ W/MHz/gate(3 V) IOL = 4,8,12,24,48 mA(5 V) IOL = 2.2,4.4,6.6 mA(3 V) Notes 1. ROM code changeable. O: Derivative models available, —: No derivative models available 2. Number of gates if hard macro is not integrated (2-input NAND gate conversion) 3. Power gate 204 O CMOS, TTL compatible Interface level Delay time µ PD95100 5 V ± 10 %, 3 V ± 10 % Supply voltage Number of usable µ PD94000 — Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC CB-C8 Family VX/VM Type Features High-density, power-saving type and 2-power supply type available VX type : Density 1.5 times (MAX.) higher and power consumption 20% lower than existing type VM type : 2-power supply full-swing interface in system where 5-V and 3.3-V power sources are used together Interface level 3.3 V 3.3 V 5V TTL (5 V) LVTTL (3.3 V) CMOS (5 V) CMOS (5 V) LVTTL (3.3 V) LVTTL (3.3V, 5 V tolerances) TTL (5 V) LVTTL (3.3 V, 5 V tolerances) PCI (3.3 V) LVTTL (3.3 V) CB-C8 VX type PCI (3.3 V) CB-C8 VM type LVTTL (3.3 V) PCI (5 V) PCI (5 V) PCI (3.3 V) PCI (3.3 V) Product Outline (VX/VM type) Type name Part number Derivative models Note 1 Technology Supply voltage Interface level Delay time Number of usable gates Note 2 Internal gate Input buffer Output buffer Power consumption (internal gate) Output drive capability VX type µ PD97000 VM type µ PD99000 O O 0.5 µ m rule CMOS (Ti silicide), aluminum 2-layer/3-layer wiring Internal: 3.3 V ± 0.3 V I/O block: 5 V ± 10%, 3.3 V ± 0.3 V LVTTL (including 5 V tolerance) 5 V CMOS/TTL LVTTL (including 5 V tolerance) 1000K gates (MAX.) 0.16 ns Note 3/0.34 ns [F/O = 2, L = 1mm] 3.3-V LVTTL: 0.26 ns [F/O = 2, L = 1 mm] 5-V tolerant LVTTL: 0.33 ns [F/O = 2, L = 1 mm] 5-V full swing: 0.72 ns [F/O = 2, L = 1 mm] 3.3-V LVTTL: 1.24 ns (IOL = 9 mA) [CL = 15 pF] 5-V tolerant LVTTL: 1.88 ns (IOL = 9 mA) [CL = 15 pF] 5-V full swing: 2.30 ns (IOL = 9 mA) [CL = 15 pF] Standard block (F, L blocks): 1.04 µ W/MHz/gate (3.3 V) Low power consumption block (Y block): 0.75 µW/MHz/gate (3.3 V) IOL = 3, 6, 9, 12, 18, 24 mA [for 3-V interface] IOL = 1, 2, 3, 6. 9 mA [for 5-V interface (5 V tolerance)] IOL = 1, 2, 3, 6, 9, 12, 18 mA — [for 5-V full swing] 3.3V ± 0.3V, single Notes 1. ROM code changeable. O: Derivative models available 2. Number of gates if hard macro is not integrated [2-input NAND gate conversion] 3. 2 NAND power gate Selection Guide X10679EJHV0SG00 205 Semi-Custom IC Cell-Based IC CB-C9 Family VX/VM Type Features The CB-C9 family VX/VM type is a collection of cell-based ICs employing a 0.35-µ m technology. The VX type realizes an I/O voltage of 3.3 V and internal voltage of 2.0 V, and the VM type realizes an I/O voltage of 5 V and internal voltage of 3.3 V. These cell-based ICs are suitable for systems where low power consumption is required. CB-C9 family VX/VM type Office machines (PC, printer, etc.) Multi-power supply • Internal 2.0 V • Internal 3.3 V External 3.3 V External 5 V Many core libraries • V850 family TM • PLL • 78K/0 • High-speed/high-density RAM • V30MX TM • High-speed ROM • Z80 TM • LINE BUFFER • DSP (SPX) • IrDA • RTC • USB (SIE) • UART + FIFO • JPEG • Parallel IO • PCI • Timer • PCMCIA • General-purpose A/D, D/A • High-speed A/D, D/A Interface buffer • PCI • GTL+ • HSTL • RambusTM IO • USB • SSTL Audio/visual systems (DVC, DVD, etc.) Portable systems Game machines, 3D graphics systems Remark The above cores and buffers include those still under development. 206 Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC CB-C9 Family VX/VM Type Product Outline (VX/VM type) Type name Part Number Derivative models VX type VM type µ PD822XX µ PD826XX Note1 O 0.35 µ m rule CMOS, aluminum 2-layer/3-layer wiring Technology 3.3 V ± 0.3 V Supply voltage I/O block Supply voltage internal block 3.3 V ± 0.3 V Interface level Delay time Internal gate Note3 Note4 Output buffer Note5 Power consumption (internal gate) Notes 1. 2. 3. 4. 5. 2.0 V ± 0.2 V 3.3 V ± 0.3 V 3.3 V ± 0.3 V LVTTL, TTL, 5-V CMOS (VM Type only) Number of usable gates Input buffer 5.0 V ± 10 % Note2 1.7-M usable gate 1.6-M usable gate 114 ps 207 ps 114 ps 114 ps 169 ps — 690 ps 169 ps 864 ps — 2045 ps 864 ps 0.3 µ W/MHz/gate 0.12 µ W/MHz/gate 0.3 µ W/MHz/gate ROM code changeable. O: Derivative models available Number of gates if hard macro is not mounted (2-input NAND conversion) 2-input NAND power gate, fanout = 2, standard wiring length fanout = 2, standard wiring length Load capacitance: 15 pF, IOL = 18 mA Selection Guide X10679EJHV0SG00 207 Semi-Custom IC Cell-Based IC Library CPU core General-purpose model CB-C7 (5 V) CB-C7 (3 V) CB-C8 (HD) CB-C8 (VX/VM) CB-C9 (VX/VM) µPD70008A O O O O O TM V20HL µPD70108H O O — — — V30HLTM µPD70116H O O — — — V30MX O — O O O V30MT — — — O — — — — O Z80 V30MZ V30MZC TM — — — — O 78K/0 — — — — O V851TM — — — — O V853TM — — — — O V850E — — — — V830 familyTM — — — — VR seriesTM — — — — Remark O : can be supported, : under development, — : cannot be supported, blank : under study Features of V850E core CPU performance (Dhrystone): 87 MIPS (at 66 MHz) V850 RISC CPU adopting 5-stage pipeline method. The object coding efficiency of C compilation has been improved and the program size has been reduced using 2-byte length basic instructions and instructions compatible with high-level language. Two kinds of bus interface, VSB and NPB • VSB : Bus operates synchronously with the CPU clock. It is used for connecting high-speed peripheral macros such as peripheral I/O provided with a memory controller and FIFO interface. • NPB : Bus operates asynchronously with the CPU clock. It is used for connecting low-speed peripheral macros such as a timer and serial interface. Instruction set: Completely compatible with V850E series 32-bit single-chip microcontrollers. 208 Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC Library Functional Outline of V850E Core Item Register set Instruction set Function General-purpose registers 32 bits × 32 + dedicated registers 32 bits × 11 Upward compatible with V850 CPU Signed multiplication (32 bits × 32 bits → 64 bits) Saturated operation instruction (with overflow/underflow detection function) 32-bit shift instruction: 1clock Bit manipulation instruction Load/store instruction with long/short format Signed load instruction Memory space Program area: 64M bytes linear Data area: 4G byte linear Internal ROM size: 0 to 1M bytes Internal RAM size: 4K/12K/28K/60K bytes Memory bank division function VSB (V850E) system bus • Separate address/data bus (28-bit address/32-bit data bus) • 32/16/8-bit bus sizing function • Bus hold function • External wait function NPB (NEC peripheral I/O bus) • Separate address/data bus (14-bit address/16-bit data bus) • Programmable wait function • Retry function External bus interface Interrupt Non-maskable Maskable Exception DMA control function Power save function 3 64 (8 priority levels can be specified.) 1 4-channel configuration Transfer unit: 8 bits, 16bits, 32bits Maximum number of transfer: 65536 (216)times Transfer type: Fly-by (1 cycle) transfer, 2-cycle transfer Transfer mode: Single transfer, single-step transfer, line transfer, block transfer Terminal count output signal HALT, software STOP, hardware STOP modes NPB Peripheral Macro for V850E Core Function Prescaler PWM 16-bit timer/counter 16-bit interval timer UART Serial I/O Remark Macro name CB-C9 (VX/VM) PRS1 PWM TMC TMD UART5 SIO : Under development Selection Guide X10679EJHV0SG00 209 Semi-Custom IC Cell-Based IC Library Features of V851 and V853 core CPU performance (Dhrystone): 38 MIPS (at 33 MHz) Executes almost all instructions in 1 clock under control of a 5-stage pipeline based on RISC architecture. Linear address space of up to 4G bytes Supports linear address space of up to 4G bytes as data area and up to 16M bytes as program area Instruction set: Completely compatible with V85X series 32-bit single-chip microcontrollers Functional Outline of V851 Core Item Internal memory Mask ROM Function Note RAM 48K, 64K, 96K, 128K, 256K 4K, 8K, 16K, 24K General-purpose register 32 bits ✕ 32 + dedicated register 32 bits ✕ 6 Register set Minimum instruction execution time 30 ns (at 33 MHz) Signed multiplication (16 bits ✕ 16 bits —> 32 bits): 1 to 2 clocks Instruction set Saturated operation instruction (with overflow/underflow detection function) 32-bit shift instruction:1 clock Bit manipulation instruction Load/store instruction with long/short format External bus interface 16-bit data bus (DIN/DOUT separated) 24-bit address bus Interrupt Non-maskable 1 Maskable 14 (8 priority levels can be specified) Real-time pulse unit 16-bit timer/event counter: 1 ch 16-bit interval timer: 1 ch Serial interface Asynchronous serial interface (UART): 1 ch Clocked serial interface (CSI): 1 ch Power save function HALT, STOP, IDLE modes Clock output stop function Note ROM may not be provided. 210 Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC Library Functional Outline of V853 Core Item Internal memory Mask ROM Function Note RAM 48K, 64K, 96K, 128K, 256K 4K, 8K, 16K, 24K General-purpose register 32 bits ✕ 32 + dedicated register 32 bits ✕ 6 Register set Minimum instruction execution time 30 ns (at 33 MHz) Signed multiplication (16 bits ✕ 16 bits —> 32 bits): 1 to 2 clocks Instruction set Saturated operation instruction (with overflow/underflow detection function) 32-bit shift instruction:1 clock Bit manipulation instruction Load/store instruction with long/short format External bus interface 16-bit data bus (DIN/DOUT separated) 24-bit address bus Interrupt Non-maskable 1 Maskable 31 (8 priority levels can be specified) Real-time pulse unit 16-bit timer/event counter: 4 ch 16-bit interval timer: 1 ch Serial interface Asynchronous serial interface (UART) Clocked serial interface (CSI) UART/CSI: 2 ch CSI: 2 ch PWM output 8/9/10/12-bit resolution PWM: 2 ch Power save function HALT, STOP, IDLE modes Clock output stop function Note ROM may not be provided. Selection Guide X10679EJHV0SG00 211 Semi-Custom IC Cell-Based IC Library Features of 78K/0 core • Instruction set: Completely compatible with 78K/0 series 8-bit single-chip microcontrollers • Many peripheral units such as timer, serial interface, and interrupt controller • Software development environments available Functional Outline of 78K/0 Core Item General-purpose register Function 8 bits ✕ 32 Minimum instruction execution time 238.4 ns (at 8.38 MHz) Multiplication/division (8 bits ✕ 8 bits, 16 bits Instruction set 8 bits) Bit manipulation instruction (set, reset, test, Boolean operation) External bus interface 8-bit data bus (DIN/DOUT separated) 16-bit address bus Interrupt Maskable Internal : 17 External : 12 Port 128 bits MAX. Input : 64 bits (8 bits ✕ 8) Output : 64 bits (8 bits ✕ 8) Timer 16-bit timer/event counter: 1 ch 8-bit timer (PWM output): 2 chs Watch timer: 1 ch Watchdog timer: 1 ch Serial interface Asynchronous serial interface (UART): 2 chs Clocked serial interface (CSI): 2 chs I2C bus interface: 2 chs Standby function 212 HALT, STOP modes Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC Library V851, V853, and 78K/0 core dedicated peripheral macros Function Macro Name UART UART Serial I/O SIO 16-bit timer TM4 8/16-bit timer TM5 Remark : can be supported UART Features CB-C9 (VX/VM) SIO(CSI) 7/8-bit character length 3-wire synchronous serial 1/2-bit stop bit length Transfer clock Parity bit spesification None/0/odd/even TM4 16-bit interval timer External clock TM5 8/16-bit timer/event counter 8-bit PWM output External pulse output fx/2 Baud rate generator fx/8 IrDA mode fx/32 Dedicated external bus interface for V851, V853, or 78K/0 core is provided with each peripheral macro. Each peripheral macro can be directly connected to each CPU core. Selection Guide X10679EJHV0SG00 213 Semi-Custom IC Cell-Based IC Library Features of V30MX series V30MX core V30HL upward compatible 2-clock bus cycle realized by separating the address bus and data bus which are multiplexed in the V30HL. V30MT core Small and low-power model of V30MX • Software compatible with V30HL and V30MX • Low power consumption realized by deleting internal Hi-Z signal V30MZ core • Processing performance comparable to RISC thanks to internal pipeline processing 35 MIPS (66 MHz, 0 wait) • 1-clock bus cycle • ICE conforming to N-Wire • Software compatible with V30HL and V30MX • 2.0 V supported for CB-C9VX/VM (f MAX = 32 MHz) V30MZC core V30MZ with cache memory • Cache memory capacity: 4K bytes • 20 MIPS (50 MHz) • Burst transfer mode supported CPU core V30MX V30MT V30MZ V30MZC Operating frequency 33 MHz 16 MHz 66 MHz 50 MHz Performance (0 wait) 4.3 MIPS 2.6 MIPS 35 MIPS 20 MIPS Current consumption 1.0 mA/MHz 0.8 mA/MHz 1.2 mA/MHz T.B.D. Bus cycle 2 clocks 2 clocks 1 clock 4 clocks (external) 1 clock between cache and CPU Remark Specification for CB-C9VX/VM. However, V30MT only is for CB-C8VX/VM 214 Selection Guide X10679EJHV0SG00 Semi-Custom IC Cell-Based IC Library Peripheral macros Function General-purpose model CB-C7 (5 V) CB-C7 (3 V) CB-C8 (VX/VM) CB-C9 (VX/VM) O Serial I/O µ PD71051 O O O Timer µ PD71054 O O O O Parallel I/O µ PD71055 O O O — Interrupt controller µ PD71059 O O O O DMAC (8 bits) µ PD71037 O O O — Watch µ PD4991AL O O O O UART + FIFO NS16550 O — O O FDC + DVFO µ PD72065B — IrDA1.1 — — O O SIE for USB1.1 full speed — — — O USB function controller for printer — — — — — USB function controller for display — Line buffer for PPC (7.5 kW) Remark O : can be supported, — O : under development, — : cannot be supported, blank : under study Analog macros Function A/D D/A Performance CB-C7 CB-C8 (VX/VM) CB-C9 (VX/VM) 8 bits, 100 kHz O O O 10 bits, 100 kHz — — O 12 bits, 300 kHz — — 8 bits, 50 MHz — — 10 bits, 30 MHz — — 8 bits, 100 kHz (1 ch) O O O 10 bits, 100 kHz (1 ch) — — O 8 bits, 20 MHz (3 chs) O — — 8 bits, 30 MHz (3 chs) — O O 9 bits, 30 MHz (2 chs) — O — 10 bits, 30 MHz (3 chs) — — O 10 bits, 85 MHz (1 ch) — — For multiplication O O O For skew adjustment — — O Analog switch O O Comparator O PLL Remark O : can be supported, O — : under development, — : cannot be supported, blank : under study Selection Guide X10679EJHV0SG00 215 Semi-Custom IC Cell-Based IC Library Compiled macros Function Performance CB-C7 (5 V) CB-C7 (3 V) CB-C8 (VX/VM) CB-C9 (VX/VM) Multiplier Signed (32 ✕ 32 MAX.) O O — Register file (2 ports) 8K bits MAX. O O O Register file (3 ports) 8K bits MAX. O O O Low-power synchronous 1-port RAM 128K bits MAX. O O O — High-density synchronous 1-port RAM 64K bits MAX. — — — O High-density synchronous 2-port (R + W) RAM 32K bits MAX. — — — O 64K bits MAX. O — — O O O High-speed synchronous 1-port RAM High-speed synchronous 2-port (R/W + R) RAM 64K bits MAX. — — Super high-speed synchronous 1-port RAM 16K bits MAX. — — — O Low-power asynchronous 1-port ROM 512K bits MAX. O O O — High-speed synchronous 1-port ROM 512K bits MAX. — — — O Remark O: can be supported, 216 : under development, —: cannot be supported, blank : under study Selection Guide X10679EJHV0SG00 Semi-Custom IC Embedded Array EA-C9HD Family Features (1/2) High-density, super high-speed, and low-power consumption embedded array using the most advanced 0.35 µ m technology • High-level function and high-performance LSI compatible to cell-based IC • Easy development and modification of derivative models • Short turn around time equivalent to gate array • Macro maintenance common to cell-based IC (CB-C9/9VX) The EA-C9HD family is a collection of embedded arrays employing a 0.35-µ m technology. This family consists of 10 masters with 76K to 1.6M gates. The gate density of this family is about 2.5 times higher than that of the existing EA-C9 family 0.35- µ m embedded arrays, thanks to improvement of the cell structure. In addition, the power consumption is 40 % lower, and thanks to new I/O pad layout technology, this family offers a large number of pins in addition to the high density. Selection Guide X10679EJHV0SG00 217 Semi-Custom IC Embedded Array EA-C9HD Family Features (2/2) Wide variety of macro libraries Memory macro Cell-based IC type Gate array type • High-speed synchronous 1-port compiled RAM • Asynchronous 1-port soft macro RAM • High-speed synchronous 2-port compiled RAM • Asynchronous 2-port soft macro RAM • High-density synchronous 1-port compiled RAM • Asynchronous 1-port compiled RAM Note • High-density synchronous 2-port compiled RAM • Asynchronous 2-port compiled RAM Note • Super high-speed synchronous 1-port compiled RAM • FIFO • Compiled ROM Note User logic • Logic gate • Decoder • Adder • Multiplexer • Shift register PLL • PLL for skew adjustment • PLL for multiplication CPU core • V30MX Note • V30MZ Note I/O buffer CPU peripheral core • DMA controller ( µ PD71037) Note • Serial interface ( µ PD71051)Note • Oscillation circuit • Timer/counter ( µ PD71054) • PCI Note • Interrupt controller ( µ PD71059)Note • HSTL Note • High-drive buffer • Parallel interface ( µ PD71055) Note • USB Note • Low-noise buffer • AGP Note • SSTL Note • pECL (input only)Note Note • UART + FIFO ( µ PD16550D)Note • FDD controller ( µ PD72065)Note Note Macros under development or under study 218 Selection Guide X10679EJHV0SG00 Semi-Custom IC Embedded Array EA-C9HD Family Available Models (3-layer wiring) Delay time Density µ PD65443 µ PD65444 µ PD65445 µ PD65446 µ PD65448 µ PD65449 µ PD65451 µ PD65454 µ PD65456 µ PD65458 Internal gates* Number of usable gates** Number of pads Note1 76720 103032 128872 207000 314104 440832 592020 840768 1104432 1626628 38360 51516 64436 172 196 216 103500 157052 220416 296010 420384 552216 813314 268 324 380 436 516 Internal gate 131 ps (2-input NAND, fanout: 1, standard wiring length) Power gate 107 ps (2-input NAND, fanout: 1, standard wiring length) Input buffer 229 ps (fanout: 2, standard wiring length) Output buffer 1396 ps (CL = 15 pF, IOL = 9 mA) Output drive capability IOL = 1, 2, 3, 6, 9, 12, 18, 24 mA Supply voltage Remark 588 708 3.3V ± 0.3V *2-input NAND conversion, **Cell utilization rate: 50 to 70 % Note2 Notes 1. Including the power supply and GND pins. The number of pins that can be actually used differs depending on the type of package. 2. Differs depending on the number of pin pairs and the occupation rate of the macro. Selection Guide X10679EJHV0SG00 219 Semi-Custom IC Analog Master Analog Master Line-Up NEC’s analog master is classified into the following 3 families (refer to the figure below). • CHS family and CHS-A family for wide application field • M-CHS family for high voltage From this wide line-up (3 families 13 masters), user can find the optimum one to realize the userdesired analog LSI. Line-up and features Number of elements CHS family M-CHS family µ PC5024 µ PC5204 µ PC5203 CHS-A family µ PC5022 µ PC5021 µ PC5034 Function µ PC5202 µPC5020 µ PC5201 µ PC5023 µ PC5200 For general purpose Voltage For high voltage 220 Selection Guide X10679EJHV0SG00 µ PC5032 µ PC5031 For low power consumption or for driving circuit Semi-Custom IC Analog Master Circuit Scale of Each Family The scale of the circuit that can be integrated on the analog master differs depending on the model of each family. The scale of the circuit that can be integrated shown below is roughly calculated in terms of the number of circuits where one circuit is equivalent to the general-purpose operational amplifier Number of circuits equivalent to µ PC4558(unit: circuits) µ PC4558 Note 1. 30 µ PC5024(28) µ PC5204(24) 20 10 µ PC5022(16) µ PC5034(16) µ PC5021(12) µ PC5032(12) µ PC5203(16) µ PC5202(9) µ PC5020(8) µ PC5023(4) µ PC5031(4) CHS family CHS-A family µ PC5201(5) µ PC5200(3) 0 M-CHS family (Numbers in the parentheses indicate the number of circuitsNotes 2 that can be integrated.) Notes 1. One of the two operational amplifiers in the general-purpose operational amplifier µ PC4558 package (8-pin DIP) is counted as one circuit. One circuit 2. The number of circuits shown above is a guideline in which only operational amplifiers are integrated, and does not include operational amplifier peripheral circuits (such as feedback circuits). When selecting a model, estimate the circuit scale by taking these peripheral circuits into consideration. Selection Guide X10679EJHV0SG00 221 Semi-Custom IC Analog Master Available Models Family Name Item CHS Family Technology CHS-A Family High-speed bipolar Absolute maximum ratings 14 V Features • High-speed analog signal processing circuit can be created. • Many pins • Internal driver •f < • High resistance = several 10 MHz Part number µ PC5020 µ PC5021 µ PC5022 µ PC5023 µ PC5024 µ PC5031 µ PC5032 µ PC5034 1628 2328 3042 727 6152 576 1472 2252 260 368 476 129 836 118(13) 298(18) 446(26) PNP transistor 224 320 416 116 672 105 280 450 Resistor 1116 1600 2098 468 4560 338 854 1266 28 40 52 14 84 15 40 90 Total number of elements NPN transistor Note1 Capacitor Operational amplifiers, comparators, regulators, Operational amplifiers, comparators, switches, timers regulators, switches, super white TEG Macro library Item Family Name M-CHS Family Technology High voltage bipolar Absolute maximum ratings 44 V • High voltage: VCC (MAX.) = 44 V •f< = several MHz Features µPC5200 µPC5201 µ PC5202 µ PC5203 µ PC5204 654 1030 1787 3088 4562 NPN transistor 105 163 283 484 710 PNP transistor 84 140 252 448 672 Resistor 456 712 1225 2108 3108 9 15 27 48 72 Part number Total number of elements Capacitor Macro library Note2 Operational amplifiers, comparators, regulators, switches Notes 1. ( ): Products with driver 2. Super white TEG: TEG (Test Element Group) containing analog function macros (operational amplifiers, comparators, regulators, switches, drivers, and reset circuits) used as peripherals of microcontroller in one package 222 Selection Guide X10679EJHV0SG00 Semi-Custom IC Mixed Signal ASIC Mixed Signal ASIC Product Lines (1/2) NEC offers mixed digital ASICs that employ the BiCMOS technology with a technology rule of 0.6 µ m to 0.35 µ m. Furthermore, NEC supports the world’s first analog IP cores through the use of a leading-edge 0.35- µ m BiCMOS technology, applying its rich analog circuit design know-how. An extensive line-up of products is available to answer the wide-ranging needs of users. MA-8 family ( µ PD680✕✕) 5-V power supply for small-scale circuits 0.6-µ m BiCMOS technology Gate array + Analog master slice form 3.3-V power supply for large-scale systems MA-9 family ( µ PD681✕✕✕) 0.35-µm BiCMOS technology Cell-based form MA-9 Family Analog IP Core TIMING GENERATOR MA-9 family CONTROL CDS Under planning CLAMP AGC Analog IP core 10-bit ADC REF. CCD SENSOR Selection Guide X10679EJHV0SG00 223 Semi-Custom IC Mixed Signal ASIC Mixed Signal ASIC Product Lines (2/2) Level of integration, functions Mixed Signal ASIC Family Evolution 3.3-V power supply MA-9 family (0.35- µ m BiCMOS) 5-V power supply MA-8 family (0.6-µ m BiCMOS) 1996 1997 1998 1999 2000 2001 2002 (year) Mixed Signal ASIC Analog Core Evolution MA-9 family (0.35-µm BiCMOS) Operating frequency 8-bit 150-MHz ADC Under planning 8-bit 80-MHz ADC Under development 10-bit 30-MHz ADC 1996 224 1997 1998 1999 2000 Selection Guide X10679EJHV0SG00 2001 2002 (year) Semi-Custom IC Mixed Signal ASIC MA-8 Family (0.6- µm Mixed Signal ASIC) Features The MA-8 Family ( µPD680××) consists of top-level mixed signal ASICs that employ the latest highcost-performance BiCMOS technology. This family achieves the integration of mixed digital/analog circuits on a single chip, which will be pivotal for the development of the multimedia market. Support of digital/analog mixed circuits By employing the latest BiCMOS technology, the MA-8 Family realizes the integration of 0.6- µ m CMOS gate array and analog ASIC (analog master) on a single chip. Analog block element configuration prioritizing circuit functions Analog circuits that mix bipolar transistors and CMOS transistors can be created through the use of the BiCMOS technology: High input impedance operational amplifiers Sample and hold circuits Analog switches, etc. Simple design and short development time The logic block can be easily developed with OPENCAD (NEC’ s original CAE tool). Furthermore, a short development time can be achieved, which is another advantage of ASICs. Selection Guide X10679EJHV0SG00 225 Semi-Custom IC Mixed Signal ASIC MA-8 Family (0.6- µm Mixed Signal ASIC) Chip Configuration The MA-8 Family is mainly composed of a gate array block and an analog array block. The I/O cells for the digital/analog interface perform input/output of digital signals between the gate array block and the analog array block. Gate array block internal cell area Digital circuit pad I/O cell for digital/ analog interface I/O cell Analog circuit pad Internal cell Analog array block I/O Cells for Digital/Analog Interface Analog circuit test switching pin Test pins Analog array block internal cell area Gate array block internal cell area I/O cell for digital/ analog interface 226 Digital circuit test switching pin Selection Guide X10679EJHV0SG00 Digital signals Semi-Custom IC Mixed Signal ASIC MA-8 Family (0.6- µm Mixed Signal ASIC) Master Size The MA-8 Family offers eight masters, based on the gate array block size, the analog array block size, and whether the analog array block has MOS transistors. The figure below shows the master block size in terms of the number of usable gates and the number of circuitsNote 1 calculated as general-purpose operational amplifier circuits corresponding to the µ PC4558. MA-8 Family Master Sizes Number of usable gatesNote 2 (Unit: Gates) 30K µ PD68070 10K µ PD68061 µ PD68041 µ PD68031 3K µ PD68011 µ PD68001 µ PD68010 µ PD68000 1K 0 5 10 15 20 25 30 Number of operational amplifier conversion circuits based on product equivalent to µ PC4558 (reference values) Notes 1. The two operational amplifiers mounted on the package (8-pin DIP) of the µPC4558 general-purpose amplifier are each treated as one circuit. Moreover, the numbers of conversion circuits indicated in the figure above are merely reference values for the case when only operational amplifiers are mounted on the analog array block, and operational amplifier peripheral circuits (such as feedback circuits) are not included. In particular when selecting products, estimate the circuit scale considering their peripheral circuits. 2. Gate utilization rate: 60% Remark The presence of analog MOS transistors and analog switches on the analog array block. • Mounted : µPD68000, 68010, 68070 • Not mounted : µPD68001, 68011, 68031, 68041, 68061 Selection Guide X10679EJHV0SG00 (Unit: Circuit) 1 circuit −+ +− 227 Semi-Custom IC Mixed Signal ASIC MA-8 Family (0.6- µm Mixed Signal ASIC) Element List µ PD68000 µ PD68001 µ PD68010 µ PD68011 µ PD68031 µ PD68041 µ PD68061 µ PD68070 Part Number Technology High-performance BiCMOS technology Maximum supply voltage 6.0 V (absolute maximum rating) 68 68 108 84 96 108 128 168 1520 1520 1680 2880 6720 9520 16512 28320 Number of usable gates 912 912 1008 1728 4032 5712 9907 16992 Number of logic I/Os 23 23 31 32 44 53 68 88 912 1264 4614 2016 2016 2304 2736 5017 (Standard) 150 210 756 336 336 384 456 816 (Large type) 25 35 126 56 56 64 76 136 200 280 1008 448 448 512 608 1088 (1 kΩ) 150 210 756 336 336 384 456 816 (5 kΩ) 300 420 1512 672 672 768 912 1632 Capacitor (5 pF) 25 35 126 56 56 64 76 136 P-ch MOS transistor 50 70 252 112 112 128 152 272 Analog SW 4 0 24 0 0 0 0 15 P-ch MOS transistor for analog 4 2 28 0 0 0 0 58 N-ch MOS transistor for analog 4 2 26 0 0 0 0 48 14 14 36 14 14 14 14 24 Number of pads Logic block Number of gates Note Analog block Total number of elements NPN transistor PNP transistor (Lateral) Polysilicon resistor Digital/analog junction block Digital/analog I/F (Maximum) Note Gate utilization rate: 60% Remark The last digit in the part number of MA-8 Family products indicates the presence/absence of analog MOS transistors and analog switches in the analog array block, as follows: Last digit = 0 Mounted Last digit = 1 Not mounted 228 Selection Guide X10679EJHV0SG00 Semi-Custom IC Mixed Signal ASIC MA-8 Family (0.6- µm Mixed Signal ASIC) Basic Specifications Logic Block Product Name µ PD680✕✕ Technology 0.6- µ m BiCMOS technology Supply Voltage 5.0 V ± 0.5 V (I/O block, internal gates) Maximum integration (logic only) 17K gates (usable) Interface level Delay time CMOS, TTL Internal gatesNote 1 190 ps (TYP.) Input bufferNote 2 340 ps (TYP.) Output bufferNote 3 2.13 ns (TYP.) Notes 1. Value assuming 2-input NAND power gate, fanout: 1, and wiring length: 0.6 mm/1 pin pair. 2. Value assuming fanout: 2, wiring length: 0.6 mm/1 pin pair. 3. Value assuming load capacitance: 15 pF, block name: FO01. Analog Block Product Name µ PD680✕✕ Technology 0.6- µ m BiCMOS technology Supply Voltage 5.0 V ± 0.5 V Transistor NPN type fT = 10 GHz, hFE = 80 (all TYP.) PNP type (Lateral) fT = 10 MHz, hFE = 70 (all TYP.) MOS N-ch type, P-ch type for analog circuit Polysilicon resistorNote Absolute precision: ±20%, relative precision: ±2% (all MAX.) Capacitor (MOS type)Note Absolute precision: ±15%, relative precision: ±2% (all MAX.) Note Values indicated are for reference only. The relative precision applies only to when the pin is positioned in an adjacent location. Selection Guide X10679EJHV0SG00 229 Semi-Custom IC Mixed Signal ASIC MA-8 Family (0.6- µm Mixed Signal ASIC) Electrical Characteristics Absolute Maximum Ratings Item Symbol Supply voltage Conditions Ratings Unit −0.5 to +6.0 V −0.5 to VDD + 0.5 V 20 mA IOL = 3 mA 10 mA IOL = 6 mA 15 mA IOL = 9 mA 20 mA IOL = 12 mA 30 mA IOL = 18 mA 40 mA IOL = 24 mA 60 mA VDD,VCC Input/output voltage (logic block) Input current (logic block) Output current (logic block) V I / VO II IO Operating ambient temperature TA −40 to +85 °C Storage temperature Tstg −65 to +150 °C Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. Definition of absolute maximum rating terms Item Symbol Meaning Supply voltage VDD The range of voltage that, even if applied to the VDD pin, will not cause destruction or lower reliability. Input voltage VI The range of voltage that, even if applied to the input pin, will not cause destruction or lower reliability. Output voltage VO The range of voltage that, even if applied to the output pin, will not cause destruction or lower reliability. Input current II The absolute value of current capacity that, even if applied to the input pin, will not cause latchup to occur. Output current IO The absolute value of DC current capacity that, even if output from or input to the output pin, will not cause destruction or lower reliability. Operating ambient TA temperature Storage Tstg temperature 230 Range of ambient temperature in which normal logical operation will occur. Range of pin temperature that will not cause destruction or lower reliability when voltage and current are not applied. Selection Guide X10679EJHV0SG00 Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Features The MA-9 Family (µ PD68155) consists of leading-edge mixed signal ASICs that aim for systemon-a-chip through the use of a leading-edge 0.35- µ m BiCMOS technology pioneered by NEC. While aiming for ultra-high integration for large-scale digital/analog mixed systems in the field of multimedia, the MA-9 Family realizes high-speed, high-accuracy stable signal processing. Support of world’s first analog IP core NEC supports the world’s first analog IP core, using its rich analog circuit design resources. Mixed signal ASICs aiming for system-on-a-chip Large-scale mixed signal systems can now be created on a single chip using the cellbased form. NEC supports mixed signal cores that include an analog IP core, high-speed ADC and DAC and other analog cores, digital/analog mixed circuits, etc. Leading-edge BiCMOS technology High-speed digital circuits and high-accuracy, sophisticated analog circuits can now be realized on a single chip by employing NEC’s leading-edge 0.35- µm BiCMOS technology. Low power consumption A low power consumption is achieved for LSIs by employing a low-voltage operation technology (3.3 V) Flexible mixed signal development environment NEC’s development environment for cell-based ICs can be used for the internal logic. For mixed signal cores, NEC supports a development environment using analog arrays that enables a short turn around time comparable to that of embedded arrays. Moreover, for circuit blocks, for which analog characteristics particularly matter, NEC supports a development environment that enables the use of macro cells. Selection Guide X10679EJHV0SG00 231 Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Chip Configuration The MA-9 Family features a digital/analog mixed circuit configured as a core (mixed signal core) as its internal logic. Internal Logic • User logic Logic gates, decoder, adder, multiplexer, counter, shift register, etc. User logic Test bus Test bus User logic ADC core Analog macro cells • I/O buffer • Cores Analog core Mixed signal core Analog array cells Mixed signal core Analog array cells User logic (analog macro) Operational amplifier, comparator, reference voltage source, analog switches,sample and hold, VCA, filters, etc. 232 + (analog circuit operation and related logic circuits) Logic gates, decoder, latches, shift registers, etc. Selection Guide X10679EJHV0SG00 Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Analog IP Cores (1/2) The MA-9 Family combines NEC’s rich analog circuit design technology and NEC’s analog ASIC technology cultivated through its analog master products, supporting analog IP cores through the use of the world’s first leading-edge BiCMOS technology. In the area of digital/analog mixed circuits, NEC provides already custom designed analog circuits that require advanced circuit technology as IP cores, thereby reducing the development load of users and supporting the creation of high-quality mixed signal systems within a short time. Analog Front-End Cores for CCD Signal Processing Through the use of bipolar transistors, which have outstanding analog characteristics compared to CMOS transistors, NEC offers cores with superb low-noise characteristics made possible only by the use of the BiCMOS technology. Features • CDS optimum for digital still cameras (correlated double sampling) • • High-gain AGC for higher sensitivity Low-consumption-power-type 10-bit ADC and reference voltage • Controller circuit inside DAC for analog circuit characteristics correction Under planning Application Example (Digital Still Camera) TIMING GENERATOR MA-9 family CPU DRAM CONTROL CDS CCD SENSOR Under planning AGC CLAMP Analog IP core 10-bit ADC DSP DCT REF. Selection Guide X10679EJHV0SG00 233 Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Analog IP Cores (2/2) High-Speed ADC Cores for Video The MA-9 Family supports high-speed ADC cores as ASIC cores through the use of the world’s most advanced 0.35-µ m BiCMOS technology. NEC has realized high-speed ADC, which is difficult to realize with a CMOS technology, through optimum design using CMOS transistors and bipolar transistors that can created only by employing the BiCMOS technology. Moreover, by offering these ADCs as cores, NEC makes these products available for a wide range of applications. For video Under development 8-bit 80-MHz Application Example (LDC Display Video Signal Input) By combining an analog circuit and a high-speed ADC core on a single chip, it is possible to realize high-precision analog/digital conversion by avoiding the attenuation and degradation of high-speed analog signals caused by the capacitance load of the package I/O pins of analog LSIs and high-speed ADC LSIs externally connected to conventional LSIs and the capacitance load of the printed wiring board. Moreover, the reduction of these load capacitances enables the simplification of the output stage of the analog circuit, thereby making it relatively easy to achieve high bandwidth analog circuits and enabling the reduction of the power consumption of the LSI. Analog RGB input MA-9 family R G B Video amplifier H V Synchronization separation 8-bit ADC Digital processing Resolution judgment Interface Controller Vertical sync driver 234 Selection Guide X10679EJHV0SG00 Horizontal sync driver Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Analog Core ADC Core NEC provides both video and general-purpose ADC cores. VDD = 3.3 V (TYP) , IDD = 60 mA (TYP) 10-bit 30 MHz Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±2.0 LSB (MAX) Analog input range : 0.8 to 1.8 V For video VDD = 3.3 V (TYP) , IDD = 30 mA (TYP) 10-bit 15 MHz Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±2.0 LSB (MAX) Analog input range : 0.8 to 1.8 V VDD = 3.3 V (TYP) , IDD = 1.5 mA (TYP) 10-bit 100 kHz Generalpurpose Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±2.0 LSB (MAX) Analog input range : 0.3 to 3.0 V VDD = 3.3 V (TYP) , IDD = 0.6 mA (TYP) 8-bit 100 kHz Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±2.0 LSB (MAX) Analog input range : 0.3 to 3.0 V DAC Core NEC provides both video and general-purpose DAC cores. VDD = 3.3 V (TYP) , IDD = 7 mA (TYP) 10-bit 30 MHz For video Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±2.0 LSB (MAX) Analog output voltage : 1.2 to 2.2 V VDD = 3.3 V (TYP) , IDD = 5 mA (TYP) 8-bit 30 MHz Differential linearity error : ±0.5 LSB (MAX) Integral linearity error : ±1.5 LSB (MAX) Analog output voltage : 1.4 to 2.4 V VDD = 3.3 V (TYP) , IDD = 40 µ A (TYP) 10-bit 100 kHz Generalpurpose Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±1.0 LSB (MAX) Analog output voltage : 0 to 3.2 V VDD = 3.3 V (TYP) , IDD = 20 µ A (TYP) 8-bit 100 kHz Differential linearity error : ±1.0 LSB (MAX) Integral linearity error : ±1.0 LSB (MAX) Analog output voltage : 0 to 3.2 V Selection Guide X10679EJHV0SG00 235 Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Basic Specifications Logic Block Product Name µ PD681✕✕ Technology 0.35- µ m BiCMOS technology Supply Voltage 3.3 V ±0.3 V (I/O block, internal gates) Maximum integration (logic only) 1.7 million gates (usable) Interface level Delay time LVTTL Internal gatesNote 1 114 ps (TYP) Input bufferNote 2 169 ps (TYP) Output bufferNote 3 864 ps (TYP) Notes 1. Value assuming 2-input NAND power gate, fanout 2, and standard wiring length. 2. Value assuming fanout 2 and standard wiring length. 3. Value assuming load capacitance 15 pF, IOL = 18 mA. Analog Block Product Name µ PD681✕✕ Technology 0.35- µ m BiCMOS technology Supply Voltage 3.3 V ±0.3 V Transistors NPN type fT = 10 GHz, hFE = 70 (all TYP) PNP type (Vertical type) fT = 2 GHz, hFE = 30 (all TYP) MOS N-ch type, P-ch type for analog circuit Polysilicon resistorNote Absolute precision: ±20%, relative precision: ±2% Capacitor (MIM type)Note Absolute precision: ±20%, relative precision: ±2% Note Values indicated are for reference only. The relative precision applies only to when the pin is positioned in an adjacent location. 236 Selection Guide X10679EJHV0SG00 Semi-Custom IC Mixed Signal ASIC MA-9 Family (0.35- µ m Mixed Signal ASIC) New Products Electrical Characteristics Absolute Maximum Ratings Item Symbol Supply voltage Conditions Rating Unit −0.5 to +4.6 V −0.5 to +4.6 V IOL = 1 mA 3 mA IOL = 2 mA 7 mA IOL = 3 mA 10 mA IOL = 6 mA 20 mA IOL = 9 mA 30 mA IOL = 12 mA 40 mA IOL = 18 mA 60 mA IOL = 24 mA 75 mA VDD 3.3-V I/O voltage VI/VO LVTTL buffer VI/VO < VDD + 0.5 V Output current IO Operating ambient temperature TA −40 to +85 °C Storage temperature Tstg −65 to +150 °C Caution If any of the parameters exceeds the absolute maximum ratings, even momentarily, the quality of the product may be impaired. The absolute maximum ratings are values that may physically damage the product(s). Be sure to use the product(s) within the ratings. Definition of absolute maximum rating terms Item Symbol Meaning Supply voltage VDD The range of voltage that, even if applied to the VDD pin, will not cause destruction or lower reliability. Input voltage VI The range of voltage that, even if applied to the input pin, will not cause destruction or lower reliability. Output voltage VO The range of voltage that, even if applied to the output pin, will not cause destruction or lower reliability. Input current II The absolute value of current capacity that, even if applied to the input pin, will not cause latchup to occur. Output current IO The absolute value of DC current capacity that, even if output from or input to the output pin, will not cause destruction or lower reliability. Operating ambient TA temperature Storage Tstg temperature Range of ambient temperature in which normal logical operation will occur. Range of pin temperature that will not cause destruction or lower reliability when voltage and current are not applied. Selection Guide X10679EJHV0SG00 237 [MEMO] 238 Selection Guide X10679EJHV0SG00 Particular Purpose IC DSP ................................................................................... CCD Linear Image Sensor............................................. Communication IC.......................................................... Mass Storage IC ............................................................. Global Positioning System IC ...................................... Display IC ........................................................................ Intelligent Power MOS LSI ............................................ Power Switch for USB Application .............................. Image IC ........................................................................... MPEG IC........................................................................... Audio IC ........................................................................... TV IC ................................................................................. Multisync Monitor IC...................................................... Digital Image IC .............................................................. On-Screen Character Display IC .................................. Video Camera IC ............................................................. Remote Control IC.......................................................... Clock IC ........................................................................... Rotary Encoder IC .......................................................... A/D Converter IC ............................................................ D/A Converter IC............................................................. Line Driver Receiver IC ................................................. Selection Guide X10679EJHV0SG00 240 243 245 250 251 251 254 255 255 256 257 259 262 263 265 265 266 266 266 267 267 267 239 4 Particular Purpose IC DSP µPD77016 µPD77018A µPD77019 30 16.7 16.7 16.7 Data type fixed point decimal fixed point decimal fixed point decimal fixed point decimal Multiplier precision (bits) 40 + 16 × 16 → 40 40 + 16 × 16 → 40 40 + 16 × 16 → 40 40 + 16 × 16 → 40 40 40 40 40 – 24K × 32 24K × 32 – 1.5K × 32 256 × 32 4K × 32 4K × 32 Instruction cycle (ns) ALU precision (bits) Program ROM Internal memory Program RAM (words × bits) Data ROM Data RAM External memory (words × bits) Power supply Power consumption (TYP.) – 24K × 16 24K × 16 – 4K × 16 6K × 16 6K × 16 6K × 16 48K × 32 (program) 96K × 16 (data) 32K × 16 (data) 32K × 16 (data) 32K × 16 (data) 5.0 V 3.0 V 3.0 V 3.0 V 4.2 mA/MHz (@5.0 V) 1.0 mA/MHz (@3.0 V) 1.1 mA/MHz (@3.0 V) 1.1 mA/MHz (@3.0 V) • 160-pin QFP Package • 100-pin TQFP • 116-pin FBGA • 100-pin TQFP µPD77110 µPD77111 13.3 13.3 13.3 Data type fixed point decimal fixed point decimal fixed point decimal Multiplier precision (bits) 40 + 16 × 16 → 40 40 + 16 × 16 → 40 40 + 16 × 16 → 40 40 40 40 – 32K × 32 32K × 32 Instruction cycle (ns) ALU precision (bits) Program ROM Internal memory Program RAM (words × bits) Data ROM Data RAM External memory (words × bits) Power supply Power consumption (TYP.) Package 240 µPD77019-013 µPD77112 35.5K × 32 1K × 32 1K × 32 – 32K × 16 32K × 16 48K × 16 6K × 16 6K × 16 64K × 16 (data) – 32K × 16 (data) DSP core: 2.5 V I/O pins: 3.0 V DSP core: 2.5 V I/O pins: 3.0 V DSP core: 2.5 V I/O pins: 3.0 V 0.5 mA/MHz (@2.5 V) 0.4 mA/MHz (@2.0 V) 0.5 mA/MHz (@2.5 V) 0.4 mA/MHz (@2.0 V) 0.5 mA/MHz (@2.5 V) • 100-pin TQFP • 80-pin TQFP • 80-pin FBGA Selection Guide X10679EJHV0SG00 • 100-pin TQFP • 100-pin TQFP Particular Purpose IC DSP ■ DSP Development Plan High performance (high speed,low power consumption) over 1000MIPS DSP µPD77xxxx** 320MIPS DSP µPD77116* 3.3V,60MIPS,ROM high capacity instruction RAM µPD77016 µPD77015/17/18 µPD77113*/114* µPD77110 µPD77019 5V,33MIPS,RAM µPD77111/112 µPD77018A µPD7721x** 2.5V,75MIPS,ROM capacity extended RAM and ROM 2.5V,75MIPS,RAM 2.5V,75MIPS,ROM lower power consumption 3.3V,60MIPS,ROM Low power consumption µPD77xxxx* 2.5V,80MIPS,RAM µPD77111 family 1.8V,200MIPS,core 2.5V,80MIPS,core 3V,33MIPS,ROM DSP core* NASPXK3 3V,60MIPS,core NA77111 NASPXK2 ∼1995 1996 1997 NA77113* 1998 1999 Selection Guide X10679EJHV0SG00 NA7721x** SOC (System on a Chip) 2000∼ *: under development **: under planning 241 Particular Purpose IC DSP ■ DSP Middleware Field µPD77016 family Middleware JPEG Image sample H.263 G.722 G.723.1 G.723.1 ANNEX A/C G.726 (ADPCM) Speech G.728 (LDCELP) G.729 G.729 ANNEX A/B MPEG-4/Speech (CELP) Echo canceller (for hands-free operation) Recognition Remark : Developed, Speech recognition Small vocabulary (Japanese) 1000 words : Under development, – : Under planning ■ DSP Middleware Development Plan Communication Multi-media After 2000 W-CDMA MPEG-4 video 1999 MPEG-4/Speech(CELP) Echo canceller FAX CODEC (JBI/ MH) Under Developed H.263 Speech CODEC G.722, G.723.1, G.726, G.728, G.729 JPEG Under Developed 242 Human Interface Speech recognition (small vocabulary, Japanese) 1999 Selection Guide X10679EJHV0SG00 After 2000 Particular Purpose IC CCD Linear Image Sensor ■ Monochrome µPD3753 µPD3734A 2088 2660 5000 Resolution (dpi/sheet) 200/B4 300/A4 400/A3 Pixel size (µm) 14 × 14 11 × 11 7×7 90 70 9.0 2 5 40 (20 × 2) Part number Pixel number Sensitivity (TYP.) (V/Ix•s) Data rate (MAX.) (MHz) µPD3739 single-sided Readout method Output (ch) dual-sided 2 (in or out of phase) 1 – S/H circuit – Package 22-pin plastic DIP (400 mil) 22-pin plastic DIP (400 mil) 22-pin ceramic DIP (CERDIP) (400 mil) Features 5 V power supply Low image lag µPD35H71A pin compatible Light source of the Sensitivity: Daylight color fluorescent lamp ■ Color µPD3794 Part number µPD3799 5300 × 3 300/A4 600/A4 8×8 7×7 R 14.6 11.2 G 13.3 10.2 B 8.00 6.10 4 (32 µm) 4 (28 µm) Resolution (dpi/sheet) Pixel size (µm) Sensitivity (TYP.) (V/Ix•s) µPD3797 2700 × 3 Pixel number Line spacing Data rate (MAX.) (MHz) 4 Readout method 3 4 single-sided Output (ch) 1 Clamp pulse generator 3 – Package 22-pin plastic DIP (400 mil) 32-pin plastic DIP (glass cap) (400 mil) 32-pin plastic DIP (plastic cap) (400 mil) Features On-chip multiplexer On-chip S/H circuit upgraded from µ PD3797 Part number Pixel number Resolution (dpi/sheet) Pixel size (µm) Sensitivity (TYP.) (V/Ix•s) Line spacing Data rate (MAX.) (MHz) Readout method Output (ch) µPD3719 µPD3729 µPD3728 10600 × 3 5000 × 3 7300 × 3 1200/A4 400/A3 600/A3 7×7 10 × 10 R 9.70 6.20 5.60 G 8.80 5.40 5.10 B 5.30 6.80 6.40 10 (70 µm) 2 4 (40 µm) 30 (15 × 2) 40 (20 × 2) single-sided dual-sided 3 6 (2-output/color (in phase)) Clamp pulse generator – Package 36-pin ceramic DIP (600 mil) Features V sat: 4.0 V (MIN.), 15 V power supply, for professional color image scanners 24-pin ceramic DIP (400 mil) 36-pin ceramic DIP (600 mil) High speed, for digital copiers Light source of the Sensitivity: 3200K halogen lamp + C-500S (infrared cut filter, t = 1 mm) Selection Guide X10679EJHV0SG00 243 Particular Purpose IC CCD Linear Image Sensor ■ CCD Linear Image Sensor System Block Diagram ASIC OSC PC Interface CCD Controller Object ADC Analog Circuit Controller Light Source CPU R Lens G B Analog Circuit I/O CCD Mirror Shading Data SRAM Image Processing Detect Switches Register DC/AC inverter 244 Register Selection Guide X10679EJHV0SG00 Motor Controller Stepper Motor Stepper Motor Driver Particular Purpose IC Communication IC ■ Communication LSI Part number Features Function µPD72001-11 Multi-protocol serial controller Package • • • • Allows communication in ASYNC, COP, and BOP mode (2 ch) µPD72001-11: 5 V Operation µPD72001-A8: 3.3 V Operation 40-pin 52-pin 52-pin 44-pin DIP QFP QFJ TQFP µPD72001-A8 • 40-pin DIP • 44-pin TQFP • 52-pin QFP µPD72002-11 Multi-protocol serial controller Allows communication in ASYNC, COP, and BOP mode (1 ch) • • • • µPD72103A HDLC controller HDLC frame control, link/separation are possible, internal DMA controller 8 Mbps operation • 68-pin QFJ • 80-pin QFP µPD72107 Packet communication control LSI (X.25 communication control) Conforms ITU-T recommendation X.25 (LAP-B ’84 ver) • 64-pin shrink DIP • 68-pin QFJ • 80-pin QFP µPD72305 LAP-D protocol processing LSI Supports LAP-D protocol of ITU-T recommendation • 64-pin shrink DIP • 68-pin QFJ • 80-pin QFP µPD98201 S interface transceiver for NT or TE 4-wire full duplexed communication (basic access) Conforms to ITU-T recommendation I430 • 64-pin QFP µPD98203 S interface transceiver for NT Conforms to ITU-T recommendation I430 • 20-pin DIP Transmit data buffer: 4 bytes Receive data buffer: 20 bytes • 16-pin SOP • 16-pin DIP Transmit data buffer: 33 bytes Receive data buffer: 40 bytes • 16-pin SOP µPD6708 µPD72042A µPD72042B IE Bus TM controller/driver 40-pin 44-pin 44-pin 44-pin DIP QFP QFJ TQFP ■ ISDN Terminal Adapter Existence terminal ISDN subscriber line µ PD98201 µ PD72001 µ PD472X S-IFC MPSC RS-232-C driver/ receiver LAP-D RAM ROM µ PD72305 Selection Guide X10679EJHV0SG00 CPU S-IFC : "S" Interface Controller MPSC : Multi-Protocol Serial Controller 245 Particular Purpose IC Communication IC ■ Chip Set for ATM Function Part number Package Features µPD98401A ATM SAR Chip • Upward compatible with µPD98401 • Conforms to ATM Forum recommendations • Implements AAL-5 SAR sublayer and ATM layer functions µPD98404 ATM Advanced SONET Framer • • • • Supports TC sublayer in PHY layer Implements SONET STS-3c/SDH STM-1 (155 Mbps) framer function Integrated Clock recovery/Clock synthesis function UTOPIA Level 2 interface • 144-pin QFP (Fine Pitch) µPD98405 ATM Integrated SAR controller • SONET STS-3c/SDH STM-1 (155M bps), Framer and SAR controller with ABR function in a single-chip • Support both PCI bus and generic bus • 304-pin QFP (Fine Pitch) µPD98408 6 port 25M ATM PHY • 25.6 Mbps ATM PHY (PMD & TC) function for 6 circuits • UTOPIA Level 2 interface • 208-pin QFP (Fine Pitch) µPD98409 ATM Light SAR Controller • Implements AAL-5 SAR sublayer and ATM layer function • Supports PCI bus interface • MPEG packet transfer engine • 240-pin QFP (Fine Pitch) µPD98410 1.2 Gbps ATM Switch • ATM switching function in a single-chip • 1.2 Gbps with non blocking • ABR traffic control • 580-pin BGA µPD98411 ATM QUAD SONET FRAMER • Implements 4 ports SONET STS-3c/SDH-1 (155M bps) framer function on chip • 240-pin QFP (Fine Pitch) • 208-pin QFP (Fine Pitch) ■ PCI Bus Supporting ATM-NIC SRAM µ PD98405 (S20) E/O For WS and Server SRAM µ PD98401A µ PD98404 (S15) (P30) E/O 64/32-bit PCI, 32-bit general purpose Bus Interface For PC 32-bit PCI, 32-bit general purpose µPD98409 (S40C) µPD98404 (P30) 32-bit PCI 246 Selection Guide X10679EJHV0SG00 E/O Particular Purpose IC Communication IC ■ ATM Switch Desktop Network Backbone Network SRAM 25M 155M µ PD98408 (T20) NIC µ PD98408 (T20) µ PD98410 (X10) µ PD98411 (P40) µ PD98408 (T20) µ PD98404 (P30) 155M CPU ■ Ethernet LSI Function Part number Features Package µPD98421 High Speed Address Search Engine • CAM (64-bit × 8K Entry) • Implements three search modes • 240-pin QFP (Fine Pitch) • 240-pin FPBGATM µPD98431 8-port 10/100 Mbps Ethernet Controller • 8-port 10/100 Mbps Ethernet MAC • MII and 10 Mbps serial interface • 352-pin BGA ■ Standard USB Part number Function µPD72011 USB Hub Controller µPD72012 Features • • • • All USB HUB function in a single-chip Compliance with USB Specification 1.0 Supports Self-powered and Bus-powered 4 or 5 down-port selectable • Up-grade LSI of µPD72011 • Compliant with USB specification 1.1 • Built-in Mask-ROM for Generic HUB Descriptor Selectable to use Standard or User-Defined Selection Guide X10679EJHV0SG00 Package • 42-pin SDIP • 44-pin QFP • 42-pin SDIP • 44-pin QFP 247 Particular Purpose IC Communication IC ■ LSI for IEEE1394 Function Part number Package Features µPD72850 IEEE1394 400M PHY • • • • Compliant with P1394a draft2.0 Selectable for 1-port, 2-port, 3-port Data Rate: 100/200/400 Mbps Compliant with MD8405 (FFM) • 80-pin TQFP µPD72861 IEEE1394 OHCI Host Controller • • • • Compliant with Open HCI for IEEE1394-1995 1.0 Compliant with P1394a draft2.0 Data Rate: 100/200/400 Mbps Supports PCI-Bus/Cardbus • 100-pin TQFP µPD72870/71★ IEEE1394 1-chip OHCI Host Controller • Integrated OHCI LINK and .aPHY in a single chip 3-port: µPD72870, 1-port: µPD72871 • 160-pin LQFP • 192-pin FPBGA ★: Under development ■ Power Switch for USB Application Part number Function Internal circuit µPD16855A Pch High-side switch for USB (High active) 2 • 8-pin SOP (225 mil) µPD16855B Pch High-side switch for USB (Low active) 2 • 8-pin DIP (300 mil) • 8-pin SOP (225 mil) µPD16855C Pch High-side switch for USB High active, instant switch off µPD16855D µPD16874 ★ µPD16875 ★ ( ) Over current detect (A) Package • 8-pin SOP (225 mil) 4.0 to 5.5 Pch High-side switch for USB (Low active) 4 Pch High-side switch for USB (Low active) Output current (A) 2 2 ) Circuit current (mA) 1.5 Pch High-side switch for USB Low active, instant switch off ( Input voltage (V) 2 0.5 Note PC CRT monitor LCD monitor 0.6 to 1.25 • 8-pin SOP (225 mil) 2.5 • 16-pin DIP (300 mil) CRT monitor • 16-pin SOP LCD monitor (300 mil) 0.1 • 8-pin DiP (300 mil) • 8-pin SOP (225 mil) ★: 248 Main application Selection Guide X10679EJHV0SG00 Key board HUB BOX Under development Particular Purpose IC Communication IC ■ Analog Line Card LSI Over voltage protect Ringing Testing Battery feed Supervision Hybrid Codec (O) (R) (T) (B) (S) (H) (C) PCM highway Telephone CODEC µPD9611 CODEC (PCM CODEC) programable control (DGS, power-down, A/µ-law), • 48-pin SSOP 4-ch PCM CODEC, Single 5 V power supply Over voltage protect Ringing Testing Battery feed Supervision Hybrid Codec (O) (R) (T) (B) (S) (H) (C) PCM highway µPC7073 Telephone µ PD9903 BS-SLIC µPC7073 • 3 relay drivers Digital CODEC µPD9903 • Terminal impedance and Hybrid balance network • 48-pin SSOP can be selected by combining µPC7073 Selection Guide X10679EJHV0SG00 • 48-pin SSOP 249 Particular Purpose IC Mass Storage IC Part number Function µPC2575 RF amplifier for 24X speed CD-ROM µPC2576 RF amplifier for 32X speed CD-ROM µPD63724A 1 chip CD-ROM controller µPD63725 250 Features RF amplifier, error amplifier for 24X speed CD-ROM RF amplifier, error amplifier for 32X speed CD-ROM Supports CD-RW Lens error amplifier Supports voltage output type pickup Power management Digital Servo, Data Processor, CD-ROM Decoder, Host I/F on 1 chip Supports 24X speed operation Automatic adjustment function Wide capture range High speed CAV audio playback Supports PIO mode 4, DMA mode 2 (Enhanced IDE/ ATAPI) Power management Digital audio interface output Digital Servo, Data Processor, AudioDAC, CD-ROM Decoder, Host I/F, 1MbitSRAM on 1 chip Supports 32X speed operation Automatic adjustment function with µ PC2576 Wide capture range by analog PLL High speed CAV audio playback Supports PIO mode 4, DMA mode 2 (Enhanced IDE/ ATAPI) Supports UltraDMA mode 2 Supports CD TEXT Power management Selection Guide X10679EJHV0SG00 Package • 36-pin SSOP • 38-pin SSOP • 160-pin LQFP • 176-pin QFP Particular Purpose IC Global Positioning System IC ■ RF IC for GPS receiver Type General purpose wideband separate IC Clock frequency specific 1 chip IC I CC (mA) V CC (V) Function (frequency unit: MHz) Part number CG (dB) Package • 6-pin mini-mold • 6-pin super mini-mold µPC2756 RF downconverter with osc. Tr 2.7 to 3.3 6 14 µPC2753 IF downconverter with gain control amplifier 2.7 to 3.3 6.5 60 to 79 • 20-pin plastic SSOP (225 mil) µPB1005 RF/IF downconverter + PLL synthesizer TCXO = 16.368/1stIF = 61.380/ 2ndIF = 4.092 2.7 to 3.3 45 72 to 92 • 36-pin plastic QFN Typical performance. (TA = +25°C, V CC = 3.0 V) Display IC ■ Fluorescent indicator panel (FIP) driver IC Number of outputs Withstand voltage (V) Static 39 18 Static 21 µPD6340 Dynamic 20 80 25 µPD6700 Static 47 18 1 µPD16304 Dynamic 40 200 µPD16306 Dynamic 64 µPD16306A Dynamic 64 µPD16310 Dynamic µPD16326 µPD16326A Part number µPD6320 µPD6321 µPD6323 µPD6323B Drives Output current (mA) Package Output type Main applications 1 CMOS • 52-pin QFP Car stereo 5 Pch-O.D • 28-pin DIP Automotive NPN+Nch • 52-pin QFP ECR, PPC CMOS • 56-pin QFP Car stereo 20 CMOS • 80-pin QFP ∗ 80 50 CMOS • 100-pin QFP 80 25 CMOS 40 80 50 CMOS • 100-pin QFP • 80-pin QFP ∗ Dynamic 32 130 20 CMOS • 44-pin QFP Dynamic 32 150 20 CMOS • 44-pin QFP 25 40 Graphic FIP module ∗ : Three direction lead ■ Fluorescent indicator panel (FIP) controller/driver IC Part number Drives Number of outputs Duty (Max.) Segments Grids Number of characters ∗ Logic voltage (V)/ Drive voltage (V) Package Main application µPD16311 Segment 1/16 12 16 192 segments 5/35 • 52-pin QFP VCR µPD16312 Segment 1/11 11 11 121 segments 5/35 • 44-pin QFP VCR µPD16313 Segment 1/11 11 11 121 segments 5/35 • 44-pin QFP VCR µPD16314 DOT character 1/24 80 24 24 × 2 characters 5/50 • 144-pin QFP OA, FA µPD16315 ★ Segment 1/14 16 14 224 segments 5/35 • 44-pin QFP ∗ : At maximum duty VCR ★: Selection Guide X10679EJHV0SG00 Remarks Included key scan Included key scan ( µPD16312 mirror) Included key scan Under development 251 Particular Purpose IC Display IC ■ Liquid crystal display (LCD) controller/driver IC Part number Drives Number of outputs Duty (MAX.) Segments Commons µPD7225 µPD16430A Segment 1/4 µPD16431A µPD16432B µPD16434 µPD16435 µPD16435A DOT character Graphic Logic voltage (V)/ Drive voltage (V) Package 4 128 segments 2.7 to 5.5/ 2.7 to 5.5 • 52-pin QFP • 56-pin QFP 60 4 240 segments 3.5 to 6/ 3.5 to 14 • 80-pin QFP 56 4 224 segments 2.7 to 5.5/ 2.7 to 6.5 • 80-pin QFP Car audio 1/15 12 × 2 characters + 60 pictographs 2.7 to 5.5/12 • 100-pin QFP 2.7 to 5.5/12 • 80-pin QFP 1/16 42 16 8 × 2 characters 1/73 119 73 119 × 71 dots + 119 × 2 pictographs 2.7 to 5.5/10 ∗2 DOT character 33 12 × 4 characters + 60 pictographs 2.7 to 3.6/12 ∗2 128 34 128 × 32 dots + 128 × 2 pictographs 2.7 to 5.5/10 ∗2 µPD16676 61 16 61 × 16 dots 2.7 to 5.5/12 µPD16680 1/53 100 53 100 × 51 dots + 100 × 2 pictographs 2.7 to 3.6/12∗2 2.45 to 4.0/12∗2 2.4 to 5.5/12 ∗2 µPD16681 1/52 96 52 96 × 52 dots + 96 pictographs (8 × 4 Japanese Kanji character) µPD16682 1/65 132 65 132 × 64 dots + 132 pictographs • TCP Mobile phone • CHIP ∗ 1 : At maximum duty ∗ 2 : Internal DC/DC Converter 252 Included key scan Included DC/DC Converter Pager 1/16 1/32 Graphic Remarks • CHIP 60 1/36 µPD16675A Main application 32 µPD16435B µPD16670 Number of characters ∗1 Selection Guide X10679EJHV0SG00 Included DC/DC Converter Mobile phone • CHIP • TCP • Included DC/DC Converter • Included Japanese Kanji ROM Included DC/DC Converter Particular Purpose IC Display IC ■ Liquid crystal display (LCD) driver IC Part number µPD6320 Number of Withstand Logic voltage (V) voltage (V) outputs Drives Static µPD6321 µPD16448A 39 18 Package • 52-pin QFP 5.0 Main applications Car stereo 240 5.0 3.3 LCD-TV 288/300 5.0 3.3/5.0 LCD-TV µPD16633B 312 10.5 3.3 XGA µPD16634A 300 8.5 3.3 SVGA µPD16638A 300/309 8.5 3.3 SVGA/XGA 300/309 3.3/5.0 3.3 SVGA/XGA 384 5.0 3.3 XGA 402 3.3/5.0 3.3 SVGA 300/309 12.0 3.3 SVGA/XGA 384 13.5 3.3 XGA/SXGA 384 8.5 3.3 XGA/SXGA 384 8.5 3.3 XGA/SXGA 384 8.5 3.3 XGA µPD16650 120/128 40 3.3/5.0 – µPD16652 ★ 192/200 31 3.3 – 150/154 40 3.3 – 240 31 3.3 µPD16780 ★ TFT (source) Analog µPD16640A µPD16640B µPD16640C µPD16644 µPD16647 ★ TFT (source) 64 gray scale µPD16710 µPD16715 µPD16715A ★ µPD16732 µPD16732A • TCP µPD16732B µPD16740 TFT (source) 256 gray scale µPD16750 µPD16654 TFT (gate) µPD16655 – µPD16661A STN (column) 4 gray scale 160 5 3.3 PDA (1/8 VGA to VGA) µPD16666A STN (row) 240 36 5.0 PDA (1/8 VGA to VGA) µPD16662 STN (column) 4 gray scale 240 5 3.3 PDA (1/8 VGA to 1/2 VGA) µPD16667 STN (row) 160 36 5.0 PDA (1/8 VGA to 1/2 VGA) µPD16663 STN (column) 16 gray scale 240 5 3.3 PDA (1/8 VGA to 1/2 VGA) STN (column) 4 gray scale 208 5 3.3 PDA (144 × 128 to 416 × 320 dots) µPD16664 ★ ★: Under development ■ Plasma display, EL display driver IC Number of outputs Withstand voltage (V) Output current (mA) 40 200 400 • 80-pin QFP ∗ 64 80 50 • 100-pin QFP 64 80 25 40 80 50 µPD16327 64 100 40 µPD16331 40 100 150 Part number µPD16305 Drives AC-PDP row µPD16306B µPD16306A AC-PDP/EL column µPD16310 AC-PDP/EL µPD16334 AC-PDP column Output type Package • 100-pin QFP • 100-pin QFP • 80-pin QFP ∗ CMOS • 100-pin QFP • 100-pin QFP • 80-pin QFP • 80-pin QFP 96 80 50 • For COB µPD16335 96 80 50 • For COB µPD16337 64 150 40 • 100-pin QFP µPD16364 ★ 160 60 25 • TCP ∗ : Three direction lead ★: Selection Guide X10679EJHV0SG00 Under development 253 Particular Purpose IC Display IC ■ Other driver IC Part number µPD6320 µPD6321 Number of outputs Withstand voltage (V) Output current (mA) 4×4 18 20 µPD6345 8 40 Output type 100 Package Main applications NPN+Nch • 52-pin QFP Car stereo (LED) NPN-O.C • 16-pin DIP • 16-pin SOP Thermal head, LED, solenoid NPN-O.C: NPN open-collector output (sink driver) Intelligent Power MOS LSI ■ Motor Driver Part number Function Recommended operation voltage range (V) Output current (A) Package Main application Control part Output part 3 to 6 Up to 7.5 ±0.5 3 to 6 Up to 7.5 ±1.0 µPD16823 2.5 to 6 Up to 7.5 ±0.5 µPD16803 4 to 6 4 to 13.2 ±0.38 µPD16808 4 to 6 4 to 13.2 ±0.45 FDD (1-2 aspects excitation) 4 to 6 ±0.31 FDD (2 aspects excitation) 4 to 6 ±0.415 2.7 to 6 ±0.38 • 20-pin SOP • 20-pin SSOP FDD (2 aspects excitation) µPD16804 µPD16805 DC motor driver µPD16813 • 16-pin SOP • 20-pin SOP • 16-pin SOP µPD16814 stepping motor driver µPD16818 Camera, DSC FDD (2 aspects excitation) FDD (1-2 aspects excitation) µPD16833 2.5 to 5.5 2.7 to 5.5 ±0.3 • 30-pin SSOP camcorder 4 ch-H bridge µPD16833A 2.5 to 5.5 2.7 to 5.5 ±0.3 • 30-pin SSOP • 26-pin TSSOP camcorder 4 ch-H bridge µPD16835 2.7 to 5.5 4.8 to 11 ±0.15 • 38-pin SSOP camcorder microstep drive • 24-pin SOP (375 mil) CD-ROM PWM drive µPD16836 3 aspects blush-less DC motor driver 4.5 to 5.5 10.8 to 13.2 ±1.3 peak µPD16837 stepping motor driver 4 to 6 10.8 to 13.2 ±1.0 peak µPD16853B 3 aspects blush-less DC motor driver µPD16856 3 aspects blush-less DC motor driver 4.5 to 5.5 10.8 to 13.2 ±2.0 peak µPD16857 stepping motor driver 3.0 to 3.6 10.8 to 13.2 ±1.0 peak • 38-pin SSOP DVD-RAM µPD16858B µPD16858C 3 aspects blush-less DC motor driver ±1.5 peak • 30-pin SSOP CD-ROM PWM drive µPD16877 stepping motor driver ±0.25 • 24-pin TSSOP camcoder 4-ch-H bridge 4.5 to 5.5 4.5 to 5.5 2.5 to 5.5 2.7 to 5.5 ±1.9 peak CD-ROM/DVD actuator drive • 30-pin SSOP (0.8 mm pitch) CD-ROM PWM drive CD-ROM PWM drive ■ Power MOS IC for Voltage Regulator Part number µPD16901 254 Function Step-up type DC/DC converter for PCMCIA Input voltage Output voltage Output current (mA) (V) (V) 4.5 to 5.5 11.72 to 12.28 140 Selection Guide X10679EJHV0SG00 Package • 14-pin SOP Main application Note PC Particular Purpose IC Power Switch for USB Application Over current Input Circuit Output voltage (V) current (mA) current (A) detect (A) Part number Function Internal circuit µPD16855A Pch High-side switch for USB (H-active) 2 • 8-pin SOP (225 mil) µPD16855B Pch High-side switch for USB (L-active) 2 • 8-pin DIP (300 mil) • 8-pin SOP (225 mil) µPD16855C Pch High-side switch for USB H-active, instant switch off µPD16855D µPD16874 ★ µPD16875 ★ ( ) Package Main application 1.5 2 4.0 to 5.5 0.5 Note PC CRT monitor LCD monitor • 8-pin SOP (225 mil) Pch High-side switch for USB L-active, instant switch off 2 Pch High-side switch for USB (L-active) 4 2.5 • 16-pin DIP (300 mil) 16-pin SOP (300 mil) CRT monitor LCD monitor Pch High-side switch for USB (L-active) 2 0.1 • 8-pin DIP (225 mil) • 8-pin SOP (225 mil) Key board HUB BOX ( ) 0.6 to 1.25 ★: Under development Image IC Function Part number µPD72254Y★ Graphics LSI Package • 208-pin QFP ★: Selection Guide X10679EJHV0SG00 Under development 255 Particular Purpose IC MPEG IC Part number µPD61012 Function Package MPEG1 Audio/Video decoder for Video-CD Signal processing for STB, includes MPEG2 Audio/Video decoder, TS demultiplexer, Graphics and VR4110CPU µPD61030 • 100-pin LQFP • 304-pin QFP ■ Video CD 4M DRAM CD-ROM OSD SRAM Video output Driver RF amp. µPC2572 Digital signal processing Digital servo µ PD63702A CD-ROM decoder MPEG video decoder + A/V separation/ synchronization NTSC/PAL encoder 3-ch video DAC Synchronization signal generation circuit SRAM CVBS Y C Synchronization signal output CD-DA Audio output System microcontroller (78K/0) 256 MPEG audio decoder µ PD61012 Selection Guide X10679EJHV0SG00 2-ch audio DF + DAC + operational amplifier µ PD63210 L R Particular Purpose IC Audio IC ■ Radio frequency amplification Part number µPC2533 Recommended operating voltage range (V) Recommended application Function FM front end AM tuner FM IF FM amplification detection ● 7.5 to 8.5 Other functions Car radio Double super heterodyne DTS use ● Package • 36-pin SOP ■ Pre-amplifier Part number µPC1228 Recommended operating voltage range (V) Recommended application Function Play back Recording amplifier amplifier MIC amplifier Radio cassette recorder Car radio Dual ● ● ● 6 to 16 Package Other functions • 8-pin SIP ■ Power amplifier Part number µPC1316 Recommended operating voltage range (V) Electrical characteristics (typical value) Recommended application Function P O (W) VCC (V) RL (Ω) 1.2 9 8 Dual 0.5 6 8 Low pop noise 3 to 16 Home stereo Radio cassette Car radio recorder ● Package • 14-pin DIPTAB ■ D/A converter for audio system Part number Recommended operating voltage range (V) µPD6376 4.5 to 5.5 µPD6379 µPD6379A 4.5 to 5.5 µPD6379L µPD6379AL 3.0 to 5.5 µPD63200 4.5 to 5.5 µPD63210 4.5 to 5.5 µPD63210L 3.0 to 5.5 Recommended application Function Package Home stereo Portable Car stereo 16-bit D/A converter ● ● ● • 16-pin SOP 16-bit D/A converter ● ● ● • 8-pin SOP 18-bit D/A converter ● ● ● • 16-pin SOP 16-bit D/A converter with digital filter ● ● ● • 28-pin SOP ■ Sound CODEC Part number Features Function µPD63310 Sound codec ∆Σ type ADCs and DACs are incorporated. Mixers are incorporated into the analog input section and analog output section. Low-noise microphone amplifiers are incorporated. Sampling frequency: 2 to 48 kHz (master clock: 256 fs) • Single power source: +3 to 5.5 V • Operating temperature range: –20 to +80°C • • • • Selection Guide X10679EJHV0SG00 Package • 80-pin TQFP 257 Particular Purpose IC Audio IC ■ Device kit for CD Part number Recommended operating voltage range (V) Recommended application Function Home stereo Package Portable Car stereo µPC2572 4.5 to 5.5 RF amp, error amp, APC for CD player ● ● • 38-pin SOP µPD63702A 4.5 to 5.5 Digital servo, data processor, DAC for CD player ● ● • 80-pin QFP 4.5 to 5.5 RF amp, servo, data processor, ATT, DAC for CD player ● ● • 100-pin LQFP µPD63710 ■ Other functions Part number µPC1237 258 Recommended operating voltage range (V) 25 to 60 Recommended application Function Home Tape stereo deck Stereo power amplifier protection circuit Selection Guide X10679EJHV0SG00 ● Radio cassette recorder Package • 8-pin SIP Particular Purpose IC TV IC ■ US MTS Decoder US MTS: Multi Television Sound for USA specifications µPC1876 Function I 2C Bus, Input Selector (2 ch), dbx NR, SAP Decoder, Tone/Volume control dbx NR, SAP Decoder µPC1854A I 2C Bus, dbx NR, SAP Decoder, Normal Output Part number µPC1851B Package • 42-pin SDIP • 42-pin SSOP • 28-pin SDIP • 28-pin SOP ■ US MTS (TV) System Block Diagram Tuner Color output Signal Processing Color Intensity Deflection PIF & SIF CRT Vertical output DTS Interface Horizontal output External input (for 2 stereos) µ PC1316 µ PC1876 US-MTS processing Stereo demodulation SAP demodulation dbx NR Speaker L Input selector Surround Volume Tone Power amp. R Tuning microcontroller I2C Bus I2C Bus interface µ PC1854A µ PC1851B Remote controller receiver amp. µ PC2800A Remark DTS: Digital Tuning System MTS: Multichannel Television Sound PIF: Picture Intermediate Frequency SIF: Sound Intermediate Frequency Selection Guide X10679EJHV0SG00 259 Particular Purpose IC TV IC ■ Matrix Surround Function Part number µPC1891A µPC1892 Matrix Surround (Phase Shift) Matrix Surround (Phase Shift), Tone/Balance/Volume, L + R output I2C bus, BASS boost, Matrix Surround, Tone/Balance/Volume, Audio output, L + R output I2C bus, Matrix Surround, Tone/Balance/Volume, Mixer input µPC1853 µPC1857A Package • 20-pin DIP • 30-pin SDIP • 30-pin SDIP • 30-pin SDIP ■ Matrix Surround (TV) System Block Diagram Tuner Color output Signal Processing Color Intensity Deflection PIF & SIF CRT Vertical output DTS Interface Horizontal output µ PC1854A (US-MTS) µPC1853/1857A µPC1892 L MTS decoder µPC1316 L µ PC1891A Surround Tone R Speaker Volume Balance Power amp. R Tuning microcontroller Remote controller receiver amp. I2C Bus I2C Bus Interface µ PC2800A Remark DTS: Digital Tuning System MTS: Multichannel Television Sound PIF: Picture Intermediate Frequency SIF: Sound Intermediate Frequency 260 Selection Guide X10679EJHV0SG00 Particular Purpose IC TV IC ■ Digital Satellite Broadcasting Part number Function µPC2781 µPC2782 A/D Converter, QPSK demodulation, Viterbi decoder, Reed-Solomon error correction AGC amplifier + Quadrature demodulator L band frequency down converter + IF-AGC amplifier µPC2795 L band frequency down converter µPC3205 AGC amplifier + Quadrature demodulator µPD61511 Package • 100-pin QFP • 20-pin SSOP • 20-pin SSOP • 8-pin SSOP (175 mil) • 20-pin SSOP ■ Digital CATV Part number µPC2798GR µPC3206GR µPC3211GR Function QAM IF down converter (AGC amplifier + MIX/OSC + Video amplifier) 50 dB AGC amplifier + Video amplifier AGC amplifier for Return-pass Selection Guide X10679EJHV0SG00 Package • 20-pin SSOP • 20-pin SSOP • 20-pin SSOP 261 Particular Purpose IC Multisync Monitor IC Part number Function µPC1883 Package Horizontal Vertical sync. processor, Picture geometry processor Horizontal Vertical sync. processor, Picture geometry processor (I 2C bus) Horizontal Vertical sync. processor, Picture geometry processor (I 2C bus) µPC1884 µPD61882A★ • 30-pin SDIP • 30-pin SDIP • 64-pin QFP ★: Under development Signal input R RGB Input process G B RGB Drive Video Amp. CRT V. sync H. sync/C. sync G. on sync Deflection OSD Yoke Sync. signal separator HD µ PD61882A VD Deflection Correction Drive µ PC1884 µ PC1883 2 IC SDA SCL CPU Control Multisync. processor Distortion Correction Geometry Vertical Drive H-F/V Horizontal Drive Panel switch Control D/A EEPROM Moire Canceller Convergence Dynamic Focus ★: 262 Under development Selection Guide X10679EJHV0SG00 Particular Purpose IC Digital Image IC ■ 3D Y/C Separator Part number µPD64082★ Function 3D Y/C separator and noise reducer with 10 bit A/D converter Package • 100-pin QFP ★: Comp./Y Input Clamp 10bit Y-ADC Bias 8bit C-ADC 10 YC Separator & Y-Noise Reducer C Input Sync. Sep Timing Generator fSC in. 8fSC PLL BPF fSC out fSC/227.5fH Decoder C-Delay & C-Noise Reducer NonStd. Detector Motion Detector Under development Y Output Y + Y-Enhancer 10bit Y-DAC Y-Coring C µPD64082 HH Decoder C Output 10bit C-DAC DigitalY/C Output 10 WCV-ID Decoder I2C Bus Line 4M EDO Interface (Frame Delay) 1M F.M. Interface (Field Delay) 4Mbit EDO DRAM Field Memory (Option) 20.000 MHz 2 I C Bus I/F : Under development Selection Guide X10679EJHV0SG00 263 Particular Purpose IC Digital Image IC ■ Analog Frontend IC Part number µPC1830 Function 5 V operation chroma decoder NTSC/PAL, 525/625 line, 50/60 Hz selectable, Matrix circuit Package • 42-pin SOP ■ Video capture system block diagram Composite video or Y/C separate signal input PAL 4.43 RGB or YUV RGB/Color difference decoder µ PC1830 8 bit A/D µPC659A 8 8 bit A/D µPC659A 8 8 bit A/D µPC659A 8 HD VD BLK Clamp pulse CLP 910 fH H lock clock generator 264 Divider Selection Guide X10679EJHV0SG00 Digital video (RGB or YUV) signal output NTSC 3.58 Particular Purpose IC On-Screen Character Display IC ■ Video type Part number Function µPD6464A Number of character types 128 (ROM) µPD6465 256 (ROM) 288 (12 lines × 24 digits) Number of display characters 12 × 18 Character configuration Character color Single (white, the luminance level of a character can be set in 2 stages.) Character size 1 dot/1H, 2H (per line) Internal video signal color White/Black/Blue/Green Background None/Fringed/Squared/Solid (per field) Applicable video signal mode NTSC/PAL/PAL-M/SECAM Supply Voltage 4.5 to 5.5 V • 24-pin SDIP (300 mil) • 24-pin SOP (375 mil) Package • µ PD6464A adapts PAL-N. ■ RGB type Part number Function Number of character types µPD6461 256 (ROM) µPD6466 128 (ROM) 512 (ROM) 288 (12 lines × 24 digits) Number of display characters 12 × 18 Character configuration Character color 8 colors Character size (per line) 1 dot/1H, 2H Character color reverse (per character) Black character/No friged 1 dot/1H, 2H, 3H, 4H Black character/No friged White character/Friged None Square (8 colors) Solid (8 colors) Background (per frame) Fringed (per frame) Two colors (Black, White) Supply voltage Package µPD6462 2.7 to 5.5 V • 20-pin SSOP (300 mil) • 24-pin SOP (375 mil) • 20-pin SSOP (300 mil) • 20-pin SSOP (300 mil) • 24-pin SOP (375 mil) • Making ideally suited for camcoders ( µ PD6461, µ PD6462) • µ PD6461 and µ PD6462 are commands conpertible and pins conpertible for 20-pin SSOP package. • µ PD6466 has a blue background and character mirror reverse function. Video Camera IC ■ CCD driver circuit Part number µPD16501 µPD16502 µPD16510 µPD16520★ Function Area sensor vertical drive interface Area sensor vertical drive interface Area sensor vertical, VOD shutter driver, for low voltage logic Area sensor vertical driver 10ch (3 state: 6, 2 state: 4), VOD shutter driver, for low voltage logic Package • 16-pin SOP (300 mil) • 20-pin SOP (300 mil) • 22-pin SSOP (225 mil) • 38-pin SSOP (300 mil) ★: Selection Guide X10679EJHV0SG00 Under development 265 Particular Purpose IC Remote Control IC ■ Infrared remote control preamplifiers IC Part number µPC2800A Supply voltage Features 5 V ± 10% Internal high trap circuit Package Remarks • 8-pin SOP Active low type ■ Infrared remote control IC µ PD6121G-001 Part number Operating voltage range Operation clock (f OSC) Transmission format Leader µ PD6122G-001 2.0 to 3.3 V 400 to 500 kHz ceramic oscillator Custom code 16-bit Data code 8-bit Data code 8-bit P.P.M. 0 ···· 1···· 38 kHz • carrier modulation(fOSC = 455 kHz) Modulation mode 16-bit set∗ Custom code Data code Number of keys Package 32 × 2 64 × 2 32 • 20-pin SOP 64 • 24-pin SOP ∗ : All codes except code “00FFH” are managed by NEC. Clock IC Part number µPD4990A I/O Alarm Supply voltage (V) Circuit Current ( µA) ✕ Serial 20 2.0 to 5.5 µPD4991A 4-bit · Parallel µPD4992 8-bit · Parallel 14 ✕ 2.4 to 5.5 6 Axis Counter-bit Supply voltage (V) µPD4701A 2 12 µPD4702 1 µPD4704 1 (Expansion for µPD4702) • • • • • • Package 14-pin DIP 16-pin SOP 18-pin DIP 20-pin SOP 20-pin DIP 20-pin SOP Rotary Encoder IC Part number 266 5.0 8 Selection Guide X10679EJHV0SG00 Package • 24-pin DIP • 24-pin SOP • 20-pin DIP • 20-pin SOP Particular Purpose IC A/D Converter IC ■ A/D Converter for Video processing Part number Resolution (bits) µPC659A Supply Sampling time (MSPS) voltage (V) Linearity (%FSR) 8 0.2 Data format Output format Binary 8-bit parallel Supply voltage (V) Input format Output format Package +5 20 Package • 24-pin SOP Remarks Parallel approximation Video processing D/A Converter IC ■ D/A Converter Part number Resolution (bits) Linearity (%FSR) Settling time (µs) µPD6325 6 (4 circuits) Monotonicity 200 +5 to +15 +5 Binary Voltage output • 16-pin DIP • 16-pin SOP Serial input, CMOS µPD6336 6 (8 circuits) Monotonicity 200 +5 to +15 +5 Binary Voltage output • 16-pin DIP Serial input, CMOS µPD6221 8 (8 circuits) 0.31 100 +5 Binary Voltage output • 20-pin DIP • 20-pin SOP I2C-bus compatible Internal Output CMOS' Buffer µPD6222 8 (12 circuits) 0.31 100 +5 Binary Voltage output • 24-pin SDIP • 24-pin SOP I2C-bus compatible Internal Output CMOS' Buffer Input format Output format Package Remarks Binary Voltage output • 30-pin SDIP µPD6335 µPD6326 Remarks ■ D/A Converter for Video processing Part number Resolution (bits) Linearity (%FSR) 10 0.1 µPC667 Supply Sampling rate (MSPS) voltage (V) 60 +5 Parallel input Video processing Line Driver Receiver IC Part number Driver Receiver µPD4711B 2 2 µPD4712C µPD4712D 4 4 4 4 µPD4713A 3 3 µPD4714A µPD4715A µPD4721 µPD4722 µPD4723 µPD4724 µPD4726 3 5 2 4 3 3 4 5 3 2 4 3 5 7 Capacitor (µ F) Supply voltage (V) Package • 20-pin DIP • 20-pin SOP 1.0 to 4.7 (4 pcs) • 28-pin DIP • 28-pin SOP 5.0 4.7 to 47 (4 pcs) • 24-pin DIP • 24-pin SOP • 28-pin DIP • 28-pin SOP 0.33 to 4.7 (4 or 5 pcs) 0.47 to 4.7 (4 or 5 pcs) • 20-pin SSOP 3.3/5.0 0.33 to 4.7 (4 or 5 pcs) 1.0 to 4.7 (4 pcs) Selection Guide X10679EJHV0SG00 5.0 • 30-pin SSOP • 36-pin SSOP 267 [MEMO] 268 Selection Guide X10679EJHV0SG00 General Purpose Linear IC Operational Amplifier ..................................................... 270 Comparator ..................................................................... 271 Fixed Output Voltage, 3-Terminal Regulator .............. 271 Variable Output Voltage Regulator .............................. 272 Regulator with System Reset ....................................... 272 Regulator with ON/OFF Function................................. 272 High Precision Reference Voltage ............................... 273 Switching Regulator Control Circuit ........................... 273 Functional Block ............................................................ 274 Selection Guide X10679EJHV0SG00 269 5 General Purpose Linear IC Operational Amplifier Part number Communication/ General industry use use Number of circuits∗ 1 V± (recommended value) (V) ∗2 Packages∗3 VIO I CC SR (MAX.) (MAX.) (TYP.) (mV) (mA) (V/µs) Features and Functions C G2 HA Number of pins µPC151 µPC741 1 ±7.5 to ±16 ±6 2.8 0.5 General purpose 8 µPC251 µPC1458 1 ±7.5 to ±16 ±6 5.6 0.5 General purpose 8 µPC258 µPC4558 2 ±4 to ±16 ±6 – 1.0 Low noise 8 µPC259 µPC4560 2 ±4 to ±16 ±6 – 2.8 Low noise, high output current 8 µPC451 µPC324 4 +3 to +30 ±7 2.0 0.3 Single supply voltage 14 µPC452 µPC3403 4 +3 to +32 ±7 7.0 0.8 Single supply voltage, high speed 14 µPC458 µPC4741 4 ±4 to ±16 ±5 7.0 1.0 Low noise 14 µPC801 µPC4081 1 ±5 to ±16 ±15 2.8 13 J-FET input 8 µPC802 µPC4250 1 ±1 to ±16 ±6 0.1 0 to 1.0 Micro-power 8 µPC803 µPC4082 2 ±5 to ±16 ±15 5.6 13 J-FET input 8 µPC804 µPC4084 4 ±5 to ±16 ±15 11.2 13 J-FET input 14 µPC811 µPC4091 1 ±5 to ±16 ±2.5 3.4 15 High accuracy, J-FET input 8 µPC812 µPC4092 2 ±5 to ±16 ±3 6.8 15 High accuracy, J-FET input 8 µPC813 µPC4093 1 ±5 to ±16 ±2.5 3.4 25 High accuracy, high speed, J-FET input 8 µPC814 µPC4094 2 ±5 to ±16 ±3 6.8 25 High accuracy, high speed, J-FET input 8 µPC815 – 1 ±3 to ±20 ±0.06 4.6 1.6 Super high accuracy 8 µPC816 – 1 ±3 to ±20 ±0.06 4.6 7.6 Super high accuracy 8 µPC821 µPC4071 1 ±5 to ±16 ±10 2.7 13 Low noise, J-FET input 8 µPC822 µPC4072 2 ±5 to ±16 ±10 5.0 13 Low noise, J-FET input 8∗4 µPC824 µPC4074 4 ±5 to ±16 ±10 10.0 13 Low noise, J-FET input 14 µPC831 µPC4061 1 ±2 to ±16 ±10 0.25 3.0 Micro-power, J-FET input 8 µPC832 µPC4062 2 ±2 to ±16 ±10 0.5 3.0 Micro-power, J-FET input 8 µPC834 µPC4064 4 ±2 to ±16 ±10 1.0 3.0 Micro-power, J-FET input 14 µPC842 µPC4742 2 +3 to +32 ±5 5.5 7.0 Single supply voltage, high speed, wide band 8 µPC844 µPC4744 4 +3 to +32 ±5 11.0 7.0 Single supply voltage, high speed, wide band µPC1251 µPC358 µPC4556 – 2 +3 to +30 ±7 1.2 0.3 Single supply voltatge 14 8∗4 2 ±4 to ±16 ±6 – 5.0 Low noise, wide band 8 – µPC4557 2 ±4 to ±16 ±6 – 1.0 Low noise, high output current 8 – µPC4559 2 ±4 to ±16 ±6 – 2.0 Low noise, wide band – µPC4570 2 ±4 to ±16 ±5 8.0 7.0 Super low noise, wide band – µPC4572 2 ±2 to ±7 ±5 7.0 6.0 Super low noise, low voltage 8∗4 8∗4 – µPC4574 4 ±4 to ±16 ±5 12.0 6.0 Super low noise, wide band 14 8 ∗1 : Single type has a offset adjust pin. ∗2 : For product indicated by +/– voltage, single supply voltage operation is possible if the input/output voltage range is observed. 3 : C, G2 or HA shows Package Type, as follows. ∗ C : Plastic DIP (300 mil) G2 : Plastic SOP (225 mil) HA : 9-pin plastic slim SIP 4 : HA has 9 pins. ∗ 270 Selection Guide X10679EJHV0SG00 General Purpose Linear IC Comparator Part number Communication/ industry use General use Packages∗1 Number of circuits V± (recommended value) (V) VIO (MAX.) (mV) I+ (MAX.) (mA) td (TYP.) (µs) Features and Functions C G2 HA Number of pins µPC177 µPC339 4 +2 to +32 ±5.0 2.0 1.3 Single supply voltage µPC271 µPC311 1 +5 to +32 ±7.5 7.5 0.2 High speed 8 µPC272 µPC319 2 +5 to +32 ±8.0 12.5 0.08 High speed 14 µPC277 µPC393 2 +2 to +32 ±5.0 1.0 1.3 Single supply voltage 8 ∗2 14 ∗1 : C, G2 or HA shows Package Type, as follows. C : Plastic DIP (300 mil) G2 : Plastic SOP (225 mil) HA : 9-pin plastic slim SIP ∗2 : HA has 9 pins. Fixed Output Voltage, 3-Terminal Regulator Type Part number Output current (A) Output voltage (V) 3 3.3 4 5 6 7 8 9 9.3 10 12 15 18 24 Absolute maximum ratings Input Total power voltage (V) dissipation (W)∗1 30 Package 0.7/2∗3 • TO-92 • TO-243 12.5 • TO-126 15 • MP-45∗2 15 • MP-45∗2 16 0.7/2∗3 • TO-92 • TO-243 0.5 20 1.0/2.0∗4 15 µPC2900 1.0 20 1.0/2.0∗4 15 µPC24A00 2.0 36 20 • MP-45∗2 µPC24M00A 0.5 36 15 • MP-45∗2 µPC2400A 1.0 36 15 • MP-45∗2 µPC79L00 0.1 0.7 • TO-92 NegaµPC79N00 tive voltage output µPC79M00 0.3 12.5 • TO-126 15 • MP-45∗2 µPC7900A 1.0 15 • MP-45∗2 µPC78L00 0.1 µPC78N00 0.3 µPC78M00A 0.5 µPC7800A 1.0 Positive µPC29L00 voltage output µPC29M00 0.1 ∗1 ∗2 ∗3 ∗4 : : : : 35 35 Remarks 40 35 40 35 40 –30 –35 –35 –40 –35 0.5 –40 –35 –40 • • • • • • TO-251 TO-252 MP-45∗2 TO-251 TO-252 MP-45∗2 Improved version of µPC78M00 Improved version of µPC7800 Low dropout voltage type Low dropout voltage type Low dropout voltage type Low dropout voltage type Low dropout voltage type Low dropout voltage type Improved version of µPC7900 Limited by internal circuit TO-220 Plastic insulated package With 16 cm2 × 0.7 mm ceramic substrate With 7.5 cm2 × 0.7 mm ceramic substrate Selection Guide X10679EJHV0SG00 271 General Purpose Linear IC Variable Output Voltage Regulator Type Positive voltage output Negative voltage output Part number Output voltage Absolute maximum ratings Output current range Input voltage Total power (A) (V) (V) dissipation (W) Remarks • 8-pin DIP • 8-pin SOP • MP-45∗2 µPC305 0.05 4.5 to 30 40 0.35, 0.44 µPC317 1.5 1.3 to 30 40 15∗1 µPC1093 0.15 2.5 to 36 37 0.48, 0.7, 2∗3, 0.2 µPC1943 0.05 1.26 to 24 25 1.6∗3 µPC1944 0.05 1.26 to 24 25 0.385, 0.56, 1.6∗3 µPC1945★ 0.015 0.4 to 9 12 0.41∗4 1.5 –1.3 to –30 –40 15∗1 µPC337 Package 3-pin regulator • 8-pin SOP • TO-92 Shunt regulator • TO-243 • 5-pin mini mold Shunt regulator • TO-243 for Low Voltage • 8-pin SOP Shunt regulator • TO-92 for Low Voltage • TO-243 Shunt regulator • 5-pin mini mold for Low Voltage • MP-45∗2 ∗1 : Limited by internal circuit ∗2 : TO-220 Plastic insulated package ∗3 : When mounted on 16 cm2 (0.7 mm thick) ceramic board ∗4 : When mounted on 75 mm2 (0.7 mm thick) ceramic board 3-pin regulator ★: Under development Regulator with System Reset Part number Type Positive voltage output Absolute maximum ratings Output Output Reset Reset output logic start current voltage voltage Active Active Input voltage Total power (V) (A) (V) dissipation (W) low high (V) µPC2251 0.1 3 2.85 12 1.2∗ µPC2253 0.1 5 2.85 12 1.2∗ µPC2255 0.1 5 4.75 12 1.2∗ µPC2260 0.5 5 4.85 35 20∗ Package Remarks • TO-126 (4-pin) • TO-126 (4-pin) • TO-126 (4-pin) • TO-220 (5-pin) Low dropout type Low dropout type Low dropout type Low dropout type ∗: Limited by internal circuit Regulator with ON/OFF Function Part number Output Output current voltage (V) (A) ON/OFF voltage (V) Output ON Absolute maximum ratings Input voltage Total power Output OFF (V) dissipation (W) µPC29S78 0.1 7.8 2.0 0.8 20 1.2∗ µPC29S10 0.1 10 2.0 0.8 20 0.48∗ ∗: Limited by internal circuit 272 Selection Guide X10679EJHV0SG00 Package • TO-126 (4-pin) • TO-126 Gullwing (4-pin) • 8-pin SOP General Purpose Linear IC High Precision Reference Voltage Part number Input voltage range (V) Output voltage (V) Output current (mA) Total power dissipation (mW) Output voltage vs. temperature (ppm/°C) µPC1060 4.5 to 40 2.5 ±0.025 10 350, 500 40 Package • 8-pin DIP Switching Regulator Control Circuit Part number Absolute maximum ratings Input voltage Output Total power range (V) current (mA) dissipation (W) Output circuit operation mode Package • 16-pin DIP • 16-pin SOP∗1 (375 mil/ 300 mil) Push-pull/single selectable Applications µPC494 7 to 40 250 1, 0.78∗ , 0.65∗ µPC1094 11 to 24 1200 (peak) 0.57, 0.55 • 14-pin DIP • 14-pin SOP Can operate up to Totem pole circuit configuration 500 kHz Single mode General purpose µPC1099 11.5 to 24 1200 (peak) 1, 0.694 • 16-pin DIP • 16-pin SOP Can operate up to Totem pole circuit configuration 500 kHz Single mode General purpose µPC1905 12 to 30 1200 (peak) 1, 0.694 • 16-pin DIP • 16-pin SOP Can operate up to Totem pole circuit configuration 500 kHz Single mode General purpose µPC1909★ 7 to 24 1200 (peak) 1, 0.694 • 16-pin DIP • 16-pin SOP Can operate up to Totem pole circuit configuration 500 kHz Q, Q output ZCS, Half bridge 3.6 to 40 25 1, 0.694 • 16-pin DIP • 16-pin SOP 2 outputs (synchronous control possible) If one output is shorted, both outputs will be turned OFF. 2 outputs (synchronous control possible) DC/DC converter If one output is shorted, only the output will be turned OFF. Open drain 1 output DC/DC converter Open drain • 16-pin SSOP • 16-pin T-SSOP 2 outputs DC/DC converter µPC1100 2 2 General purpose DC/DC converter µPC1150 3.6 to 40 25 1, 0.694 • 16-pin DIP • 16-pin SOP µPC1933 2.5 to 20 21 0.48 • 8-pin SOP µPC1934 2.5 to 20 21 0.4, 0.417 µPC1935 2.5 to 20 21 0.417 • 16-pin T-SSOP Open drain 3 outputs DC/DC converter µPC16902★ 5.2 to 25 1000 (peak) 0.625 • 30-pin SSOP High side: necessary drivers Low side: push-pull drivers 5 V, 3.3 V Synchronous rectifier controller ∗1 : µPC494G is 375 mil. µPC494GS is 300 mil. ∗2 : When mounted on 5 × 5 cm2 (1.6 mm thick) glass epoxy board. Selection Guide X10679EJHV0SG00 ★: Under development 273 General Purpose Linear IC Functional Block Function Analog Multiplexer Part number µPD5205 µPC1555 Precision Timer µPD5555 µPD5556 274 Features Single-pole 8 position mode/double-pole 4 position mode Supply Voltage: 44 V, ON Resistance: 270 Ω TYP. CR Timer, Operating Temperature: –20 ~ +80°C Supply Voltage: 4.5 ~ 16 V, Free Running Frequency: 0.1 ~ 100 kHz CMOS CR Timer, CMOS Type of µ PC1555 Supply Voltage: 3 ~ 16 V, Free Running Frequency: 0.1 ~ 500 kHz CMOS CR Timer µ Dual Type of µ PD5555 Selection Guide X10679EJHV0SG00 Package • • • • • • • • 24-pin shrink DIP 24-pin SOP 8-pin DIP 8-pin SOP 8-pin DIP 8-pin SOP 14-pin DIP 14-pin SOP Transistor/Diode/Thyristor Transistor ........................................................................ 276 • Quick Reference by Package .................................. 276 • Quick Reference Table by Function/Application ................................................ 286 Field Effect Transistor ................................................... 292 • Small Signal FET ....................................................... 292 • Power MOS FET......................................................... 295 Transistor with Internal Resistor ................................. 309 Transistor for Array........................................................ 314 Transistor Array .............................................................. 315 Zener Diode ..................................................................... 317 Noise Clipping Diode ..................................................... 319 Thyristor .......................................................................... 321 Selection Guide X10679EJHV0SG00 275 6 Transistor Quick Reference by Package TO–92 ■ TO-92 Type Transistor VCEO (V) ~15 ~30 ~50 ~70 ~100 ~150 ~200 ~250 2SA1376 2SA1376A 2SC3478 2SC3478A 2SA1544 ~400 IC (A) ~20 m 2SC1674 2SA1206∗∗ 2SA988 2SA992 2SC1841 2SC1845 ~50 m 2SA6751) 2SA733 2SA990 2SC945 2SC1842 2SC1843 AA1[ ] AN1[ ] ~100 m 2SC2901∗∗ ~200 m 2SC3622∗ (150 mA) 2SC3622A∗ (150 mA) ~500 m 2SC3615∗ (300 mA) ~1.0 2SA952 2SC2001 2SC3616∗ (25 V/ 700 mA) AB1[ ] (25 V/ 700 mA) AP1[ ] (25 V/ 700 mA) ~2.0 2SD1513 (16 V/2.0 A) 2SB1068 (16 V/2.0 A) AQ1[ ] (20 V/2.0 A) ~3.0 2SB1300 (16 V/3 A) 1) VCES 276 2SB1116 2SD1616 2SA953 2SC2002 2SA954 2SC2003 AD1[ ] AD2[ ]∗∗∗ AR1[ ] 2SB1116A (60 V) 2SD1616A (60 V) ∗∗∗ 2SD1701 (60 V) 2SD1698 (80 V) 2SA1625 : Darlington transistor, ∗: High hFE transistor, ∗∗: High speed switching, ∗∗∗: Contains internal zener diode Selection Guide X10679EJHV0SG00 Transistor Quick Reference by Package SST ■ SST Type Transistor VCEO (V) I C (A) ~15 ~20 m 2SC2786 ~50 m 2SA1459** ~20 ~30 ~50 ~120 2SC2787 2SC2784 2SA1175 2SC2785 2SC3623∗ BA1[ ] BN1[ ] ~100 m 2SC3732∗∗ 2SA1458∗∗ (40 V) 2SC3623A∗ (150 mA) 2SC3731∗∗ ~200 m (40 V) ~700 m 2SB810 2SD1020 BB1[ ] (25 V) BP1[ ] (25 V) ∗: High hFE transistor, ∗∗: High speed switching Selection Guide X10679EJHV0SG00 277 Transistor Quick Reference by Package SP–8 ■ SP-8 Type Transistor V CEO (V) I C (A) ~16 ~25 ~50 ~80 ~50 m ~140 ~160 2SA915 2SC1940 2SA916 2SC1941 2SA1221 2SC2958 ~500 m 2SB564 2SD471 2SA1460 ∗∗ 2SB734 2SC3733∗∗ 2SD774 2SD1582∗ ~1.0 2SB733 2SD773 2SD1581∗ ~2.0 2SA1222 2SC2959 2SB1117 2SD2463 2SB984 2SB1093 2SD1312 2SD1579 2SD1697 (800 mA) ∗∗∗ 2SD1700 (60 V/ 800 mA) ∗∗∗ 2SD1843 (60 V) 2SA1627 2SD1779 ∗ (60 V) 2SD1780 ∗ (60 V) CE1[ ] ∗∗∗ (60 V) CE2[ ] ∗ (60 V) 2SA1626 2SB1318 (100 V) 2SA1897 : Darlington transistor, *: High hFE transistor, **: High speed switching, ***: Internal zener diode 278 ~600 2SB605 2SD571 2SC2721 ~700 m ~5.0 ~400 2SC3209 2SC4000 (250 V/ 100 mA) ~200 m ~3.0 ~300 Selection Guide X10679EJHV0SG00 Transistor Quick Reference by Package MP–3 ■ MP-3 Type Transistor V CEO (V) I C(DC) (A) ~20 ~40 ~60 ~100 ~150 ~300 ~400 ~600 2SA1400 2SC3588 ~0.5 2SB963 2SD1286 ~1.0 2SD1583 2SD992 2SD1164 2SB962 ~3.0 2SD1584 2SB1261 2SD1899 ~5.0 2SA1385 2SC3518 2SA1648 ~2.0 ~10 2SA1615 2SA1413 2SC3632 2SB768 2SD1033 2SC2885 2SC2946 2SA1647 2SC4331 2SA1412 2SC3631 2SC4346 2SA1649 : Darlington transistor, : Complementary pair, : Single High hFE, : Low VCE(sat) MP–5 (TO–126) ■ MP-5 (TO-126) Type Transistor V CEO (V) I C(DC) (A) ~45 ~60 ~80 ~120 ~160 2SC2688 ~0.5 2SD1630 ∗ ~1.0 ~3.0 ~5.0 ~400 ~600 2SA1546 2SC4001 ~1.0 ~2.0 ~300 2SD1695 ∗ 2SD794 2SB772 2SD882 2SB794 2SD985 2SD794A 2SB1150 ∗ 2SD1693 ∗ 2SD1694 2SB1217 2SD1818 2SA1156 2SC2752 2SD415 2SB795 2SD986 2SC2690 2SA1486 2SC3840 2SC2690A 2SB1149 2SD1692 2SC4342 2SB1151 2SD1691 : Darlington transistor, : Single Hight hFE : Complementary pair, ∗: Internal zener diode between C-B, Selection Guide X10679EJHV0SG00 : Low VCE(sat), 279 Transistor Quick Reference by Package MP–25 (TO–220) ■ MP-25 (TO-220) Type Transistor VCEO (V) I C(DC) (A) ~40 ~60 ~80 ~100 ~150 ~0.5 ~300 ~400 2SC1505 2SA1008 2SC2331 ~2.0 2SB546A 2SD401A 2SA1009 2SA1069 2SA1069A 2SB601 2SD560 2SC2517 2SC2518 2SB707 2SB708 2SA1010 2SC2334 2SA1645 2SC2335 ~7.0 ~7.0 2SA1646 ~5.0 2SA1129 : Darlington transistor, : Complementary pair, ∗: Internal zener diode between C-B, : Low VCE(sat) MP–40 ■ MP-40 Type Transistor VCEO (V) IC(DC) (A) ~60 ~5.0 2SD1392 ∗ ~7.0 2SC4305 ~100 ~400 2SD1308 2SC3158 ~8.0 2SD1309 ~10 2SA1261 2SC3157 2SC4350 : Darlington transistor, 280 2SA1009A 2SC2333 : Complementary pair, ∗: Internal zener diode between C-B Selection Guide X10679EJHV0SG00 2SC3159 Transistor Quick Reference by Package MP–45 (MP-25 Insulated type) ■ MP-45, MP-45F (TO-220 Insulated Type) Transistor MP–45F (MP-25 Insulated type) V CEO (V) ~60 ~100 ~300 ~400 MP-45 MP-45 Package I C(DC) (A) MP-45 MP-45F ~2.0 ~3.0 2SB1094 2SD1585 2SD1593 ~5.0 2SA1394 2SA1441 2SC3691 2SC4351 ∗ 2SB1097 2SD1588 2SA1442 2SC3692 2SA1741 2SC4549 2SC3569 2SB1098 2SD1589 2SA1650 2SC3570 2SA1444 2SC3694 : Darlington transistor, 2SB1430 2SD2161 2SD1594 2SD2165 2SC4062 2SC4553 2SB1099 2SD1590 2SA1743 2SC4551 ~10 ~15 2SA1395 2SC3567 2SD1592 2SC3571 2SA1742 2SC4550 ~8.0 2SA1443 2SC3693 MP-45F 2SB1453 2SD2164 ~6.0 ~7.0 MP-45 2SA1744 2SC4552 2SB1431 2SD2162 2SA1396 2SC3568 2SA1652 2SC4336 2SA1720 2SB1100 2SD1591 2SC3572 2SB1432 2SD2163 2SC4063 2SC4554 : Complementary pair, ∗: Internal zener diode between C-B, : Low VCE(sat), : Single High hFE Selection Guide X10679EJHV0SG00 281 Transistor Quick Reference by Package MP–80 ■ MP-80 Type Transistor VCEO (V) I C(DC) (A) ~100 ~400 ~5.0 2SC2908 ~1.0 2SB897 2SD1210 2SC2749 ~15 2SC2750 2SD1296 2SC2751 : Darlington transistor, ∗: MP-88 MP–10 ■ MP-10 Type Transistor VCEO (V) I C(DC) (A) ~60 ~100 2.5 ~5 2SA1843 2SC4815 2SA1840 2SC4810 2SA1845 ~7 2SC4813 ~8 2SA1841 2SC4811 ~10 2SA1847 : Darlington transistor, 282 2SC4814 : Complementary pair, : Low VCE(sat) High hFE, Selection Guide X10679EJHV0SG00 : Low VCE(sat) Transistor Quick Reference by Package Mini mold SC-59 ■ Mini-Mold Transistor VCEO (V) IC (mA) ~15 ~20 ~20 ~30 ~40 ~50 ~60 ~80 ~300 2SD2383 2SA1226 2SA1462 2SC1009A 2SA811A 2SA1247 2SC1622A 2SC3115 ~50 ~100 2SA812 2SC1623 FA1[ ] FN1[ ] ~150 2SC3624 2SC3624A 2SC3735 2SC1621 2SC1653 (130 V) 2SC1654 (160 V) 2SA1330 2SC3360 2SA1461 2SC3734 2SB736 2SD780 ~300 2SB736A 2SD780A 2SA1464 2SC3739 ~500 ~700 ~200 2SC2223 ~30 ~200 ~120 2SB624 (–25 V) 2SD596 (25 V) FB1[ ] (25 V) FP1[ ] (–25 V) Selection Guide X10679EJHV0SG00 283 Transistor Quick Reference by Package Power mini mold SC-62 ■ Power Mini-Mold Transistor VCEO (V) IC (A) ~20 ~25 ~50 ~60 ~80 ~100 ~120 ~140 2SA1173 2SC2780 ~50 m ~200 m 2SC3554 2SC3617 ~300 m ~0.7 2SB1114 2SD1614 HQ1[ ] ~2.0 2SB799 2SD1000 2SB798 2SD999 2SA1463 2SB1115 2SC3736 2SD1615 2SD1702 2SB805 2SD1006 2SB1115A 2SD1615A HD1[ ] HD2[ ] HR1[ ] 2SB806 2SD1007 2SB804 2SD1005 2SD1699 2SD1950 2SB1628 ~3.0 2SB800 2SD1001 2SC3618 ~1.0 2SB1572 2SD2403 2SB1571 2SD2402 ~5.0 : Darlington connection MP-2 SC-84 ■ MP-2 Type Transistor VCEO (V) IC (A) ~60 ~600 2SA1871 2SC4942 ~1.0 ~5.0 284 ~300 2SB1578 2SD2425 Selection Guide X10679EJHV0SG00 Transistor Quick Reference by Package MP-3 ■ MP-3 Type (SC-63) Transistor VCEO (V) IC (A) ~20 ~30 ~45 ~60 ~200 ~400 2SA1400-Z 2SC3588-Z ~0.5 2SB963-Z 2SD1286-Z ~1.0 2SD1583-Z 2SA1413-Z 2SC3632-Z 2SD1164-Z (1.5 A) 2SB768 (150 V) 2SD1033 (150 V) 2SC2946(1) ~2.0 ~3.0 2SB962-Z 2SB1261-Z 2SD1584-Z 2SD1899-Z ~5.0 2SA1385-Z 2SC3518-Z ~10 ~600 2SA1412-Z 2SC3631-Z 2SA1615-Z : Darlington connection Small mini mold SC-70 ■ Small Mini-Mold Transistor VCEO (V) IC (mA) ~15 ~20 ~50 ~20 ~30 ~40 ~50 2SC4178 2SA1610 2SC4179 2SA1612 2SC4180 ~100 2SA1611 2SC4177 GA1[ ] GN1[ ] ~150 2SC4181 ~200 ~120 2SC4176 2SC4175 2SB1475 (–25 V) 2SD2228 (25 V) ~500 2SA1608 2SC4173 ■ Ultra Small Mini-Mold Transistor VCEO (V) I C (mA) ~100 ~50 2SA1836 2SC4783 Ultra small mini mold Selection Guide X10679EJHV0SG00 285 Transistor Quick Reference Table by Function/Application Small Signal Transistor ■ Small Signal Transistor (1/2) TO-92 FM/FM RF RF/MIX/CON SP-8 2SC1674 FM AM/FM/AM MIX/OSC/IF Audio Frequency Amplification 2SA733 SST SMALL MINI MOLD MINI MOLD 2SC2786 2SC4178 2SC2223 2SC2787 2SC4179 2SC1009A 2SA1175 2SA1611 POWER MINI 2SA812 (2SA812) 2SA988 2SC945 2SC2785 2SA1612 2SA811A 2SC4177 2SC1623 (2SC1623) 2SC1841 Low Noise Amplification Driver Output 2SC1622A 2SC3622/A 2SC3623/A 2SA992 2SA1174 2SC4181 2SC3624/A 2SA1247 2SC1845 2SC2784 2SC3115 2SA952 2SB810 2SB624 2SA953 2SB736 2SA954 2SB736A 2SA1376 2SA1330 2SB564 2SB811 2SB798 2SB605 2SB799 2SB1068 2SB1114 2SB1116 2SB1115 2SB1116A 2SB1115A 2SC2001 2SD1020 2SD596 2SC2002 2SD780 2SC2003 2SD780A 2SC3478 2SC3360 2SC1940 2SC1653 2SC1941 2SC1654 2SC3209 2SD1001 2SC2780 2SC3554 2SC3615 2SC3617 2SC3616 2SC3618 2SD471 2SD999 2SD571 2SD1000 2SD1513 2SD1614 2SD1616 2SD1615 2SD1616A 286 2SB800 2SD1615A 2SD1698 2SD1697 2SD1699 2SD1701 2SD1700 2SD1702 2SD1581 2SD1950 Selection Guide X10679EJHV0SG00 Transistor Quick Reference Table by Function/Application Small Signal Transistor ■ Small Signal Transistor (2/2) TO-92 Switching SP-8 2SA1206 SST 2SA1459 SMALL MINI MOLD MINI MOLD 2SA1610 2SA1462 2SA1608 2SA1464 2SA1460 2SA1463 2SA1458 2SC2901 POWER MINI 2SC3732 2SA1461 2SC4173 2SC3739 2SC4176 2SC3735 2SC3733 2SC3736 2SC3731 Selection Guide X10679EJHV0SG00 2SC3734 287 Transistor Quick Reference Table by Function/Application Power Transistor ■ Low VCE(sat) Transistor Characteristics V CEO, I C(DC) SP-8 MP-2 MP-5 (TO-126) MP-45 MP-45F 2SA1441 2SC3691 2SA1741 2SC4549 60 V, 7 A 2SA1442 2SC3692 2SA1742 2SC4550 60 V, 10 A 2SA1443 2SC3693 2SA1743 2SC4551 60 V, 15 A 2SA1444 2SC3694 2SA1744 2SC4552 16 V, 3 A MP-3 MP-25 MP-10 2SB1581 20 V, 10 A 2SA1897 (5A) 25 V, 3 A 2SB1117 2SA1615 2SB772 2SD882 30 V, 3 A 2SB962 30 V, 10 A 2SA1649 60 V, 3 A 2SB1261 2SD1899 2SB1217 2SD1818 2SA1385 2SC3518 2SB1151 2SD1691 2SB1578 2SD2425 60 V, 5 A 2SA1843 2SC4815 2SA1648 2SA1647 2SC4331 100 V, 5 A 2SA1845 2SA1650 2SA1847 2SA1652 2SC4336 2SA1645 100 V, 7 A 100 V, 10 A ■ High hFE Transistor Characteristics VCEO, IC(DC) SP-8 20 V, 2 A MP-3 MP-5 (TO-126) MP-10 MP-45F 2SD1583 25 V, 2 A 2SD1581 50 V, 1 A 2SD1582 60 V, 3 A 100 V, 2.5 A 2SD1584 2SD1694 100 V, 7.5 A 2SD1593 2SD2164 2SD1594 2SD2165 2SC4062 2SC4553∗ 2SC4063 2SC4554∗ 2SC4814∗ 100 V, 6 A 2SC4813∗ 100 V, 15 A ∗: Low VCE(sat) & High hFE 288 MP-45 Selection Guide X10679EJHV0SG00 Transistor Quick Reference Table by Function/Application Power Transistor ■ Low Voltage, High Speed Switching Transistor Characteristics VCEO, IC(DC) MP-25 MP-45 60 V, 5 A 2SA1069 2SA1394 100 V, 2 A 2SA1008 2SC2331 2SA1395 2SC3567 100 V, 5 A 2SC2517 100 V, 7 A 2SA1010 2SC2334 45 V, 1 A SP-8 MP-80 2SA1460 2SC3733 2SA1396 2SC3568 100 V, 10 100 V, 15 A 2SC2750 ■ High Voltage, High Speed Switching Transistor Characteristics VCEO, IC(DC) 200 V, 2 A MP-3 MP-5 (TO-126) 400 V, 2 A 400 V, 5 A MP-40 MP-45 2SA1009 2SA1400 2SC3588 2SA1156 2SC2752 2SC3631 2SA1009A 2SC2333 2SC4346 2SC2518 2SC3569 2SC3570 400 V, 7 A 2SC3158 2SC3571 400 V, 10 A 2SC3159 2SC3572 400 V, 15 A 600 V, 2 A MP-80 2SC2885 2SC2946 2SC2946(1) 350 V, 2 A 400 V, 0.5 A MP-25 (TO-220) 2SC2749 2SC2751 2SA1413 2SC3632 2SA1486 2SC3840 Selection Guide X10679EJHV0SG00 289 Transistor Quick Reference Table by Function/Application Power Transistor ■ Audio Frequency Amplification Transistor Characteristics VCEO, IC(DC) MP-5 (TO-126) MP-3 45 V, 3 A 2SD794 60 V, 3 A 2SD794A MP-25 (TO-220) 2SB1094 2SD1585 2SB707 60 V, 7 A 80 V, 0.8 A 2SB1097 2SD1588 2SD414 80 V, 7 A 2SB708 100 V, 0.8 A 150 V, 2 A MP-45 2SD415 2SB768 2SD1033 2SB546A 2SD401A ■ High Frequency Amplification Transistor Characteristics VCEO, IC(DC) SP-8 MP-5 (TO-126) 40 V, 7 A 2SA1129 120 V, 1.2 A 2SC2690 160 V. 1.2 A 2SC2690A 250 V, 0.1 A 2SC4000 2SA1546 2SC4001 300 V, 0.2 A 2SC2802 2SC2688 290 MP-25 (TO-220) Selection Guide X10679EJHV0SG00 2SC1505 Transistor Quick Reference Table by Function/Application Power Transistor ■ Darlington Transistor Characteristics VCEO, I C(DC) SP-8 31 V, 2 A 2SD2463 ∗ 60 V, 0.8 A 2SD1700 ∗ 60 V, 1 A 2SD1843 MP-3 MP-25 (TO-220) MP-10 2SB963 2SD1286 MP-80 2SB794 2SD985 2SD1392∗ 80 V, 0.8 A 2SD1697 80 V, 1.5 A 2SB1093 2SD1579 100 V, 8 A MP-45F 2SD1630 ∗ 60 V, 5 A 100 V, 5 A MP-45 2SB1150∗ 2SD1693 ∗ 60 V, 3 A 100 V, 3 A MP-40 2SD1695 ∗ 2SD1164 60 V, 1.5 A MP-5 (TO-126 ) 2SC4351 2SB795 2SD986 2SB1149 2SD1692 2SC4342 2SB601 2SD560 2SA1840 2SC4810 2SD1308 2SB1098 2SD1589 2SB1430 2SD2161 2SA1841 2SC4811 2SD1309 2SB1099 2SD1590 2SB1431 2SD2162 2SA1720 2SB1100 2SD1591 2SB1432 2SD2163 100 V, 10 A 2SB897 2SD1210 100 V, 15 A 2SD1296 100 V, 25 A 2SD1297 300 V, 5 A 2SD1592 : High speed darlington transistor, ∗: Internal zener diode between C-B Selection Guide X10679EJHV0SG00 291 Transistor Field Effect Transistor Small Signal FET ■ 2SK type (MOS type) (1/2) Electrical characteristics (TA = 25 °C) Absolute maximum rating (TA = 25 °C) Part number Package ID VDSS (V) |yfs| DC Pulse (A) (A) PT (W) VDS ID (V) (A) RDS(on) (S) VGS ID MIN. (V) (A) (Ω) Applications TYP. MAX. 2SK679A TO-92 30 ±0.5 ±1.5 0.75 10 0.5 0.4 4 0.5 0.6 1.0 2SK680A SC-62 30 ±1.0 ±2.0 1.0 10 0.5 0.4 4 0.5 0.6 1.0 2SK681A SP-8 30 ±1.0 ±2.0 1.0 10 0.5 0.4 4 0.5 0.6 1.0 2SK1132 SST 50 0.1 0.2 0.25 5 0.02 0.03 4 0.02 30 50 2SK1133 SC-59 50 0.1 0.2 0.2 5 0.02 0.03 4 0.02 30 50 2SK1272 TO-92 60 ±1.0 ±2.0 0.75 10 0.5 0.4 4 0.5 — 1.0 2SK1273 SC-62 60 ±2.0 ±4.0 2.0 10 0.5 0.4 4 0.5 — 1.0 2SK1274 SP-8 60 ±1.5 ±3.0 1.0 10 0.5 0.4 4 0.5 — 1.0 2SK1398 SST 50 0.1 0.2 0.25 3 0.01 0.02 2.5 0.005 20 40 2SK1399 SC-59 50 0.1 0.2 0.2 3 0.01 0.02 2.5 0.005 20 40 2SK1482 TO-92 30 ±1.5 ±3.0 0.75 10 0.5 0.4 4 0.5 0.19 0.8 2SK1483 SC-62 30 ±2.0 ±4.0 2.0 10 0.5 0.4 4 0.5 0.19 0.8 2SK1484 TO-92 100 ±0.5 ±1.0 0.75 10 0.5 0.4 4 0.5 0.62 1.2 2SK1485 SC-62 100 ±1.0 ±2.0 2.0 10 0.5 0.4 4 0.5 0.62 1.2 2SK1580 SC-70 16 0.1 0.2 0.15 3 0.01 0.02 2.5 0.001 9 15 2SK1581 SC-59 16 0.2 0.4 0.2 3 0.01 0.02 2.5 0.001 3.2 5 2SK1582 SC-59 30 0.2 0.4 0.2 5 0.01 0.02 4 0.01 2.2 5 2SK1583 SC-62 16 ±0.5 ±1.0 2.0 5 0.3 0.4 2.5 0.3 1.2 2.0 2SK1584 SC-62 30 ±0.5 ±1.0 2.0 5 0.3 0.4 2.5 0.3 1.2 2.0 2SK1585 SC-62 16 ±1.0 ±2.0 2.0 5 0.5 0.4 2.5 0.5 0.8 1.2 2SK1586 SC-62 30 ±1.0 ±2.0 2.0 5 0.5 0.4 4 0.5 — 1.0 2SK1587 SC-62 16 ±2.0 ±4.0 2.0 5 1.0 0.4 2.5 1.0 0.55 0.8 2SK1588 SC-62 16 ±3.0 ±6.0 2.0 3 1.0 0.4 2.5 1.0 0.34 0.5 2SK1589 SC-59 100 0.1 0.2 0.2 5 0.01 0.02 4 0.01 19 30 2SK1590 SC-59 60 0.2 0.4 0.2 5 0.01 0.02 4 0.01 3.2 6 2SK1591 SC-59 100 0.2 0.4 0.2 5 0.01 0.02 4 0.01 5.8 8 2SK1592 SC-62 60 ±0.5 ±1.0 2.0 10 0.5 0.4 4 0.5 1.6 2.5 2SK1593 SC-62 100 ±0.5 ±1.0 2.0 10 0.5 0.4 4 0.5 4.0 6.0 2SK1656 SST 30 0.1 0.2 0.25 3 0.01 0.02 2.5 0.01 25 45 2SK1657 SC-59 30 0.1 0.2 0.2 3 0.01 0.02 2.5 0.01 25 45 2SK1658 SC-70 30 0.1 0.2 0.15 3 0.01 0.02 2.5 0.01 25 45 ultra 2SK1824 3-pin super mini 2SK1958 SC-70 30 0.1 0.2 0.2 3 0.01 0.02 2.5 0.001 7 13 16 0.1 0.2 0.15 3 0.01 0.02 1.5 0.001 30 50 2SK1959 SC-62 16 ±2.0 ±4.0 2.0 3 1.0 1.0 1.5 0.05 0.08 0.8 2SK1960 SC-62 16 ±3.0 ±6.0 2.0 3 1.5 2.0 1.5 0.1 0.35 0.8 292 Selection Guide X10679EJHV0SG00 Switching Transistor Field Effect Transistor Small Signal FET ■ 2SK type (MOS type) (2/2) Electrical characteristics (TA = 25 °C) Absolute maximum rating (TA = 25 °C) Part number Package ID VDSS |yfs| DC Pulse (A) (A) 16 ±5 ±10 (V) PT VDS ID (V) (A) 2.0 3 (W) RDS(on) (S) (Ω) Applications VGS ID MIN. (V) (A) TYP. MAX. 2.5 0.4 1.5 0.5 0.2 0.4 2SK2053 MP-2 2SK2054 MP-2 60 ±3 ±6 2.0 10 1.5 2.0 4 1.5 0.18 0.25 2SK2055 MP-2 100 ±2 ±4 2.0 10 1.0 2.0 4 1.0 0.28 0.45 2SK2070 SP-8 100 ±1 ±2 2.0 10 1.0 2.0 4 1.0 0.28 0.45 2SK2090 SC-70 50 ±0.1 ±0.2 0.15 3 0.01 0.02 2.5 0.01 20 40 2SK2109 SC-62 60 ±0.5 ±1.0 2.0 10 0.3 0.4 4 0.3 0.55 1.5 2SK2110 SC-62 100 ±0.5 ±1.0 2.0 10 0.3 0.4 4 0.3 0.90 2.0 2SK2111 SC-62 60 ±1.0 ±2.0 2.0 10 0.5 0.4 4 0.5 0.35 1.0 2SK2112 SC-62 100 ±1.0 ±2.0 2.0 10 0.5 0.4 4 0.5 0.67 1.5 2SK2157 MP-2 30 ±5 ±10 2.0 10 2.5 2.0 4 2.5 0.08 0.15 2SK2158 SC-59 50 0.1 0.2 0.2 3 0.01 0.02 1.5 0.001 21 50 2SK2159 SC-62 60 ±2 ±4 2.0 10 1.0 0.4 1.5 0.1 0.26 0.7 2SK2541 SST 50 ±0.1 ±0.2 0.2 3 0.01 0.02 1.5 0.001 21 50 SC-62 60 ±4 ±16 2.0 10 1 1 4 1.5 0.15 0.22 2SK2858★ SC-70 30 ±0.1 ±0.4 0.15 3 0.01 0.02 2.5 0.001 10 15 2SK2857 ★ ★: Selection Guide X10679EJHV0SG00 Switching Under development 293 Transistor Field Effect Transistor Small Signal FET ■ 2SJ type (MOS type) Absolute maximum rating (TA = 25 °C) ID VDSS (V) DC Pulse (A) (A) 2SJ165 SST – 50 ± 2SJ166 SC-59 – 50 2SJ178 TO-92 – 30 2SJ179 SC-62 – 30 2SJ180 SP-8 – 30 2SJ184 SST – 50 2SJ185 SC-59 – 50 2SJ196 TO-92 – 60 2SJ197 SC-62 – 60 2SJ198 TO-92 – 100 2SJ199 SC-62 – 100 2SJ202 SC-70 – 16 2SJ203 SC-59 – 16 2SJ204 SC-59 – 30 2SJ205 SC-62 – 16 2SJ206 SC-62 – 30 2SJ207 SC-62 – 16 2SJ208 SC-62 – 16 2SJ209 SC-59 – 100 2SJ210 SC-59 – 60 2SJ211 SC-59 – 100 2SJ212 SC-62 – 60 2SJ213 SC-62 – 100 2SJ243 3-pin ultra super mini – 30 2SJ353 SP-8 – 60 2SJ355 SC-62 30 2SJ356 SC-62 60 2SJ357 MP-2 2SJ358 MP-2 2SJ411 SP-8 – 30 2SJ460 SST – 50 2SJ461 SC-59 – 50 2SJ462 MP-2 – 12 – 30 VDS ID (W) (V) (A) 0.25 –5 RDS(on) (S) (Ω) Applications VGS ID MIN. (V) (A) TYP. MAX. – 0.02 0.03 –4 – 0.02 22 50 0.2 0.2 –5 – 0.02 0.03 –4 – 0.02 22 50 ± 2.0 0.75 – 10 – 0.5 0.4 –4 – 0.5 — 1.5 ± 3.0 2.0 – 10 – 0.5 0.4 –4 – 0.5 — 1.5 ± 2.0 1.0 – 10 – 0.5 0.4 –4 – 0.5 — 1.5 ± 0.2 0.25 –5 – 0.02 0.02 – 2.5 – 0.05 25 40 ± 0.2 0.2 –5 – 0.02 0.02 – 2.5 – 0.05 25 40 ± 2.0 0.75 – 10 – 0.5 0.4 –4 – 0.5 0.89 1.5 ± 3.0 2.0 – 10 – 0.5 0.4 –4 – 0.5 0.89 1.5 ± 1.0 0.75 – 10 – 0.5 0.4 –4 – 0.5 1.7 2.0 ± 2.0 2.0 – 10 – 0.5 0.4 –4 – 0.5 1.7 2.0 ± 0.2 0.15 –3 – 0.01 0.02 – 2.5 – 0.001 — 60 ± 0.4 0.2 –3 – 0.01 0.02 – 2.5 – 0.001 16 20 ± 0.4 0.2 –3 – 0.01 0.02 – 2.5 – 0.001 8.8 15 ± 1.0 2.0 –5 – 0.3 0.4 – 2.5 – 0.3 2.2 5.0 ± 1.0 2.0 –5 – 0.3 0.4 – 2.5 – 0.3 2.8 3.0 ± 2.0 2.0 –5 – 0.5 0.4 – 2.5 – 0.5 1.5 2.0 ± 4.0 2.0 –5 – 1.0 0.4 – 2.5 – 1.0 0.6 1.5 ± 0.2 0.2 –5 – 0.01 0.02 –4 – 0.01 60 100 ± 0.4 0.2 –5 – 0.01 0.02 –4 – 0.01 10 15 ± 0.4 0.2 –5 – 0.01 0.02 –4 – 0.01 18 30 ± 1.0 2.0 – 10 – 0.5 0.4 –4 – 0.5 1.8 4.0 ± 1.0 2.0 – 10 – 0.5 0.4 –4 – 0.5 2.7 5.0 ± 0.2 0.2 –3 – 0.01 0.02 – 2.5 – 0.0005 55 100 ± 3.0 1.0 – 10 –1 1.0 –4 – 0.8 0.58 0.68 2 4 2.0 – 10 –1 1.0 4.0 1.0 0.50 0.60 2 4 2.0 – 10 –1 1.0 4.0 1.0 0.65 0.95 30 3 6 2.0 – 10 –1 1.8 4.0 1.5 0.23 0.35 60 3 6 2.0 – 10 –1 1.8 4.0 1.5 0.29 0.40 1.0 – 10 – 2.5 3.0 –4 – 2.5 0.096 0.24 0.25 –3 – 0.01 0.01 – 2.5 – 0.003 75 100 ± 0.1 ± 1.0 ± 1.5 ± 1.0 ± 0.1 ± 0.1 ± 1.0 ± 1.5 ± 0.5 ± 1.0 ± 0.1 ± 0.2 ± 0.2 ± 0.5 ± 0.5 ± 1.0 ± 2.0 ± 0.1 ± 0.2 ± 0.2 ± 0.5 ± 0.5 ± 0.1 ± 1.5 ± 5 ± 20 ± 0.1 ± 0.2 ± ± 0.1 0.2 0.2 –3 – 0.01 0.01 – 2.5 – 0.003 75 100 5.0 2.0 –3 –1 1.5 – 2.5 – 0.5 0.23 0.3 ± ± 0.1 2.5 ± 294 0.2 |yfs| ± 2SJ463A SC-70 0.1 PT TC = 25 °C ± Package ± Part number Electrical characteristics (TA = 25 °C) 0.4 0.15 –3 – 0.01 0.02 – 2.5 – 0.001 23 60 Selection Guide X10679EJHV0SG00 Switching Transistor Field Effect Transistor Power MOS FET ■ N6-L series Product Map DC drain current ID(DC) (A) 30 to 20 2SK2981 (27 m/40 m)∗ to 30 to 40 Drain to source voltage VDSS (V) Package 60 2SK2982 (12.5 m/16.5 m)∗ 2SK2983 (20 m/27 m)∗ 2SK2984 (10 m/13 m)∗ ● 2SK3055 (34 m/50 m) 2SK3056 (34 m/50 m) to 50 ● 2SK2057 (17 m/27 m) ● 2SK3059 (13 m/20 m) to 60 2SK2058 (17 m/27 m) : TO-251 (MP-3) ● : Isolated TO-220 (MP-45F) : TO-220AB (MP-25) 2SK3060 (13 m/20 m) ● 2SK3061 (8.5 m/12 m) to 70 2SK3062 (8.5 m/12 m) 2SK2826 (6.5 m/10.5 m) ( ): RDS(on) MAX (Ω) (@VGS = 10 V/VGS = 4 V) ∗ : (@VGS = 10 V/VGS = 4.5 V) ■ N5-L series/P5-L series/N4-L series Product Map DC drain current ID(DC) (A) Drain to source voltage VDSS (V) 60 30 8.0 2SK2415 (0.1/0.15) 10 2SK2413 (70 m/95 m) 2SK2414 (70 m/95 m) 15 ● 2SK2412 (70 m/95 m) 100 ● 2SK2462 (0.14/0.17) ● 2SK2461 (80 m/0.1) Package : TO-251 (MP-3) 20 2SJ492 (0.1/0.19)∗ ● 2SJ494 (50 m/88 m)∗ 25 ● 2SK2723 (40 m/60 m)∗ ● 2SK2410 (40 m/60 m) : TO-220AB (MP-25) 2SK2411 (40 m/60 m) ● 2SJ495 (30 m/56m)∗ : TO-3P (MP-88) 30 35 40 45 2SK2941 (20 m/33 m)∗ ● : Isolated TO-220 (MP-45F) : MP-10 ● 2SK2724 (27 m/40 m)∗ ● 2SK2409 (27m/40 m) ● 2SK2510 (20 m/30 m)∗ 2SK2511 (27 m/40 m)∗ ● 2SK2512 (15 m/23 m)∗ 2SK2513 (15 m/23 m)∗ ● 2SK2498 (9 m/14 m)∗ 50 2SK2499 (9 m/14 m)∗ 2SK2514 (15 m/23 m)∗ 2SK2515 (9 m/14 m)∗ ( ): RDS(on) MAX (Ω) (@VGS = 10 V/VGS = 4 V) ∗ : N5-L series Selection Guide X10679EJHV0SG00 295 Transistor Field Effect Transistor Power MOS FET ■ N3-L series/P3-L series Product Map DC drain current ID(DC) (A) ~ 4.0 Drain to source voltage VDSS (V) 2SJ324 (0.25/0.52) 2SJ325 (0.11/0.24) 100/[150] 60 30 2SK1282 (0.18/0.24) 2SK1283 (0.18/0.24) 2SJ326 (0.37/0.68) 2SJ327 (0.17/0.34) 2SK1284 (0.32/0.40) 2SK1285 (0.32/0.40) ~ 8.0 2SK1748 (0.11/0.16) ~ 10 2SK1850 (70 m/95 m) ~ 15 2SK1851 (45 m/60 m) ● 2SK1286 (70 m/95 m) ● 2SJ303 (0.1/0.24) ● 2SJ329 (60 m/0.11) 2SK1853 (80 m/0.10) ● 2SK1288 (0.15/0.20) [ ● 2SK2131 (0.12/0.20) ] ~ 20 2SK1287 (70 m/95 m) 2SJ302 (0.1/0.24) 2SJ328 (60 m/0.11) ● 2SJ330 (50 m/90 m) 2SK1289 (0.15/0.20) ● 2SK1292 (80 m/0.10) ~ 25 ● 2SK1290 (45 m/60 m) ● 2SK1594 (50 m/80 m) 2SJ331 (30 m/55 m) ~ 30 ~ 40 ~ 50 : TO-126 (MP-5) 2SK1852 (0.15/0.20) 2SK1293 (80 m/0.10) ● 2SK1295 (50 m/70 m) ● 2SK1596 (20 m/30 m) ● 2SK1294 (27 m/50 m) 2SK1122 (50 m/70 m) 2SK1123 (27 m/50 m) 2SK1749 (18 m/25 m) ( ): RDS(on) MAX (Ω) (@VGS = 10 V/VGS = 4 V) 296 Package Selection Guide X10679EJHV0SG00 : TO-251 (MP-3) ● : Isolated TO-220 (MP-45F) : TO-220AB (MP-25) : MP-10 : TO-3P (MP-88) Transistor Field Effect Transistor Power MOS FET ■ N6-L Series (Low Voltage N channel 6th generation Series) Absolute maximum ratings Part number Package VDSS (V) 2SK2981 TO-251 2SK2982 TO-251 2SK2983 TO-220AB 30 ID(DC) (A) PT @TC = 25 °C (W) 20 20 Electrical characteristics RDS(on) @VGS = 10 V RDS(on) @VGS = 4 V Ciss (pF) Crss (pF) 40 m∗ 860 160 TYP. (Ω) MAX. (Ω) TYP. (Ω) MAX. (Ω) 20 m 27 m 30 m 30 20 9.8 m 12.5 m 13.2 m 16.5 m∗ 2290 440 30 50 13 m 20 m 18 m 27 m∗ 1200 250 2SK2984 TO-220AB 40 60 6.5 m 10 m 8.5 m 13 m∗ 2600 500 2SK3053 Isolated TO-220 25 25 29 m 45 m 46 m 70 m 790 100 2SK3055 Isolated TO-220 30 25 28 m 34 m 42 m 50 m 990 90 2SK3056 TO-220AB 32 34 28 m 34 m 42 m 50 m 990 90 2SK3057 Isolated TO-220 45 30 14 m 17 m 21 m 27 m 2040 190 2SK3058 TO-220AB 55 58 14 m 17 m 21 m 27 m 2040 190 2SK3059 Isolated TO-220 60 50 30 11 m 13 m 16 m 20 m 2550 250 2SK3060 TO-220AB 70 70 11 m 13 m 16 m 20 m 2550 250 2SK3061 Isolated TO-220 70 35 6.3 m 8.5 m 9.8 m 12 m 5020 460 2SK3062 TO-220AB 70 100 6.3 m 8.5 m 9.8 m 12 m 5020 460 2SK2826 TO-220AB 70 100 5.5 m 6.5 m 7m 10.5 m 7260 660 Ciss (pF) Crss (pF) ∗ : V GS = 4.5 V ■ N5-L Series (Low Voltage N channel 5th generation Series) Absolute maximum ratings Part number Package 2SK2941 TO-220AB VDSS (V) PT @TC = 25 °C (W) RDS(on) @VGS = 10 V RDS(on) @VGS = 4 V TYP. (Ω) MAX. (Ω) TYP. (Ω) MAX. (Ω) 35 60 14 m 20 m 22 m 33 m 1250 460 2SK2723 Isolated TO-220 25 25 28 m 40 m 45 m 60 m 830 185 2SK2724 Isolated TO-220 35 30 20 m 27 m 33 m 40 m 1200 270 2SK2510 Isolated TO-220 40 35 16 m 20 m 24 m 30 m 1600 350 2SK2511 TO-3P 40 80 22 m 27 m 32 m 40 m 1210 270 2SK2512 Isolated TO-220 45 35 11 m 15 m 16 m 23 m 2100 500 45 75 11 m 15 m 16 m 23 m 2100 500 50 35 7.3 m 9m 11 m 14 m 3400 770 2SK2513 TO-220AB 2SK2498 Isolated TO-220 30 ID(DC) (A) Electrical characteristics 60 2SK2499 TO-220AB 50 75 7.3 m 9m 11 m 14 m 3400 770 2SK2514 TO-3P 50 150 11 m 15 m 16 m 23 m 2100 500 2SK2515 TO-3P 50 150 7.3 m 9m 11 m 14 m 3400 770 Selection Guide X10679EJHV0SG00 297 Transistor Field Effect Transistor Power MOS FET ■ P5-L Series (Low Voltage P channel 5th generation Series) Absolute maximum ratings Part number Package VDSS (V) ID(DC) (A) PT @TC = 25 °C (W) Electrical characteristics RDS(on) @VGS = 10 V RDS(on) @VGS = 4 V TYP. (Ω) MAX. (Ω) TYP. (Ω) MAX. (Ω) Ciss (pF) Crss (pF) 2SJ492 TO-220AB –20 70 70 m 0.10 0.12 0.185 1210 180 2SJ493 Isolated TO-220 –16 30 70 m 0.10 0.12 0.185 1210 180 2SJ494 Isolated TO-220 –20 35 39 m 50 m 61 m 88 m 2360 350 2SJ495 Isolated TO-220 –30 35 24 m 30 m 38 m 56 m 4120 580 Ciss (pF) Crss (pF) –60 ■ N4-L Series (Low Voltage N channel 4th generation Series) Absolute maximum ratings ID(DC) (A) PT @TC = 25 °C (W) 2SK2409 Isolated TO-220 40 2SK2410 Isolated TO-220 30 Part number Package VDSS (V) 2SK2411 TO-220AB Electrical characteristics RDS(on) @VGS = 10 V RDS(on) @VGS = 4 V TYP. (Ω) MAX. (Ω) TYP. (Ω) MAX. (Ω) 35 21 m 27 m 30 m 40 m 1800 350 35 28 m 40 m 40 m 60 m 1300 250 30 75 28 m 40 m 40 m 60 m 1300 250 15 30 53 m 70 m 70 m 0.10 700 150 2SK2413 MP-10 10 1.8∗ 53 m 70 m 70 m 0.10 700 150 2SK2414 TO-251 10 20 53 m 70 m 70 m 0.10 700 150 2SK2415 TO-251 8.0 20 70 m 0.10 0.11 0.15 440 85 20 35 60 m 80 m 70 m 0.10 1510 140 15 30 0.10 0.14 0.12 0.17 870 80 Ciss (pF) Crss (pF) 2SK2412 Isolated TO-220 2SK2461 Isolated TO-220 2SK2462 Isolated TO-220 60 100 ∗ : T A = 25°C ■ P3-L Series (Low Voltage P channel 3rd generation Series) Absolute maximum ratings Part number Package VDSS (V) ID(DC) (A) PT @TC = 25 °C (W) –2.0 –4.0 Electrical characteristics RDS(on) @VGS = 10 V RDS(on) @VGS = 4 V TYP. (Ω) MAX. (Ω) TYP. (Ω) MAX. (Ω) 20 0.20 0.25 0.40 0.52 330 100 20 85 m 0.11 0.15 0.24 800 250 2SJ324 TO-251 2SJ325 TO-251 2SJ326 TO-251 –2.0 20 0.28 0.37 0.50 0.68 320 75 2SJ327 TO-251 –4.0 20 0.13 0.17 0.22 0.34 750 165 2SJ303 Isolated TO-220 –14 35 75 m 0.1 0.17 0.24 1200 290 2SJ302 TO-220AB –16 60 75 m 0.1 0.17 0.24 1200 290 2SJ328 TO-220AB –20 75 48 m 60 m 85 m 0.11 2150 530 2SJ329 Isolated TO-220 –15 35 48 m 60 m 85 m 0.11 2150 530 2SJ330 Isolated TO-220 –20 35 38 m 50 m 65 m 90 m 2570 640 2SJ331 TO-3P –30 150 25 m 30 m 40 m 55 m 4300 1110 298 –30 –60 Selection Guide X10679EJHV0SG00 Transistor Field Effect Transistor Power MOS FET ■ N3-L Series (Low Voltage 3rd generation Series) Absolute maximum ratings Part number Package 2SK1594 Isolated TO-220 2SK1596 Isolated TO-220 VDSS (V) 30 ID(DC) (A) PT @TC = 25 °C (W) 20 Electrical characteristics RDS(on) @VGS = 10 V RDS(on) @VGS = 4 V Ciss (pF) Crss (pF) 80 m 1300 280 TYP. (Ω) MAX. (Ω) TYP. (Ω) MAX. (Ω) 30 37 m 50 m 50 m 40 35 14 m 20 m 20 m 30 m 3400 960 2SK1282 TO-251 3.0 20 0.15 0.18 0.18 0.24 500 40 2SK1283 TO-126 3.0 20 0.15 0.18 0.18 0.24 500 40 2SK1748 TO-251 8.0 20 80 m 0.11 0.11 0.16 850 350 2SK1850 MP-10 10 1.8∗ 55 m 70 m 80 m 95 m 1400 130 2SK1851 MP-10 15 1.8∗ 35 m 45 m 45 m 60 m 2200 180 2SK1286 Isolated TO-220 15 30 55 m 70 m 80 m 95 m 1400 130 2SK1287 TO-251 20 60 55 m 70 m 80 m 95 m 1400 130 2SK1290 Isolated TO-220 25 35 35 m 45 m 45 m 60 m 2200 180 2SK1294 Isolated TO-220 40 35 22 m 27 m 30 m 50 m 3250 380 2SK1123 TO-3P 40 100 22 m 27 m 30 m 50 m 3250 380 2SK1749 TO-3P 50 150 16 m 18 m 22 m 25 m 5400 620 2SK1284 TO-251 3.0 20 0.26 0.32 0.32 0.40 500 20 2SK1285 TO-126 3.0 20 0.26 0.32 0.32 0.40 500 20 2SK1852 MP-10 10 1.8∗ 0.12 0.15 0.15 0.20 1400 50 2SK1853 MP-10 15 1.8∗ 70 m 80 m 80 m 0.10 2200 90 2SK1288 Isolated TO-220 60 15 30 0.12 0.15 0.15 0.20 1400 50 20 60 0.12 0.15 0.15 0.20 1400 50 2SK1292 Isolated TO-220 20 35 70 m 80 m 80 m 0.10 2200 90 2SK1293 TO-220AB 30 75 70 m 80 m 80 m 0.10 2200 90 2SK1289 TO-220AB 100 2SK1295 Isolated TO-220 30 35 42 m 50 m 50 m 70 m 3300 200 2SK1122 TO-3P 40 100 42 m 50 m 50 m 70 m 3300 200 15 35 0.10 0.12 0.13 0.20 2300 140 2SK2131 Isolated TO-220 150 ∗ : T A = 25°C Selection Guide X10679EJHV0SG00 299 Transistor Field Effect Transistor Power MOS FET ■ N5-H series Product Map ( ): RDS(on) MAX (Ω) (@VGS = 10 V) DC drain current ID(DC) (A) Drain to source voltage VDSS (V) 200/250 V 600 V 400/500 V 2 Package 900 V 2SK3113 (4.4) 4 ● 2SK3306 (1.5)★ 5 2SK3305 (1.5)★ ● 2SK3221 (4.4) ● 2SK3114 (2.2) ● 2SK3297 (1.6)★ : TO-251 (MP-3) ● 2SK3115 (1.2) 6 2SK3304 (2.0) ● : Isolated TO-220 ★ (MP-45F) 7 2SK3116 (1.2) 7.5 8 : TO-3P (MP-88) ● 2SK3298 (0.75)★ ● 2SK3108 (0.4) 2SK3299 (0.75)★ 2SK3109 (0.4) 10 14 : TO-220AB (MP-25) ● 2SK3110 (0.18) 20 2SK3111 (0.18) 2SK3294 (0.12)∗1★ 25 2SK3112 (0.11)★ ∗1: 250 V 2SK3300 (0.4)★ ∗2: 450 V ★: Under development ■ N4-H series/P4-H series Product Map DC drain current ID(DC) (A) Drain to source voltage VDSS (V) 450 250 [180]/200 500 ● 2.0 2SK1954 (0.65) 2SK2132 (0.65) ● ● 2SJ448 (2.0) ● ● 4.5 2SK2353 (1.4) ● 2SK2355 (1.4) 5.0 ● 6.0 2SJ449 (0.8) ● 7.0 2SK2357 (0.9) ● ● 10 ● 11 13 2SK2363 (0.5) 2SK2358 (1.0) 2SK2360 (1.0) ● ● 2SK2361 (0.9) 2SK2365 (0.5) 2SK2362 (1.0) 2SK2366 (0.6) 2SK2367 (0.5) 2SK2368 (0.6) 2SK2369 (0.35) 2SK2370 (0.4) 2SK2371 (0.25) 2SK2372 (0.27) 2SK2341 (0.26) 2SK2135 (0.18) 16 2SK2133 (0.26) 2SK2136 (0.18) 25 ( ): RDS(on) MAX (Ω) (@VGS = 10 V) 300 ● ● Selection Guide X10679EJHV0SG00 : TO-251 (MP-3) ● : Isolated TO-220 (MP-45F) 2SK2138 (2.4) 2SK2139 (1.5) 2SK2482 (4.0) 2SK2484 (2.8) : TO-220AB (MP-25) 2SK2141 (1.1) 2SK2485 (2.8) : MP-10 2SK2140 (1.5) 2SK2486 (2.0) : TO-3P (MP-88) 2SK2364 (0.6) 2SK2134 (0.4) 15 2SK2481 (4.0) 2SK2483 (2.8) (3.5 A) 2SK2354 (1.5) 2SK2356 (1.5) 2SK2359 (0.9) 8.0 2SK2137 (2.4) Package 2SK2478 (7.5) [ ● 2SK2476 (5.0) ] 2SK2479 (7.5) ● 2SK2480 (4.0) 4.0 20 ● 2SK1953 (5.0) 2SK2040 (5.0) 3.0 14 [800]/900 600 2SK2487 (1.6) [ 2SK2477 (1.0) ] 2SK2488 (1.2) Transistor Field Effect Transistor Power MOS FET ■ N3-H series Product Map DC drain current ID(DC) (A) Drain to source voltage VDSS (V) 450 250 500 600 ● 2SK1758 (4.2) 2.0 2.5 3.0 ● 2SK1988 (2.8) ● 2SK1989 (3.0) 2SK1493 (2.8) 2SK1494 (3.0) 900 ● 2SK1994 (7.5) 2SK1793 (7.5) ● 2SK1995 (4.0) ● 2SK2275 (2.8) 3.5 4.0 2SK1501 (4.0) 4.5 ● 2SK1990 (1.4) ● 2SK1991 (1.5) 5.0 2SK1750 (1.4) 2SK1751 (1.5) 2SK1760 (4.0) 6.0 ● 2SK1992 (0.9) ● 2SK1993 (1.0) 2SK1794 (2.8) 7.0 2SK1495 (0.9) 2SK1496 (1.0) 2SK1502 (2.0) ● 2SK2234 (0.6) 2SK1795 (1.6) 10 2SK1752 (0.9) 2SK1753 (1.0) 2SK1796 (1.2) 12 2SK1784 (0.6) 2SK1785 (0.7) 15 2SK1756 (0.5) 2SK1757 (0.6) 20 2SK1497 (0.35) 2SK1498 (0.4) 2SK1499 (0.25) 2SK1500 (0.27) 8.0 25 2SK1491 (0.15) 35 2SK1492 (0.10) Package : TO-251 (MP-3) ● : Isolated TO-220 (MP-45F) : TO-220AB (MP-25) : TO-3P (MP-88) ( ): RDS(on) MAX (Ω) (@VGS = 10 V) Selection Guide X10679EJHV0SG00 301 Transistor Field Effect Transistor Power MOS FET ■ N5-H Series (High Voltage N channel 5th generation Series) Absolute maximum ratings Part number Package VDSS (V) Electrical characteristics RDS(on) @VGS = 10 V ID(DC) (A) PT (W) TYP. (Ω) MAX. (Ω) Ciss (pF) Qg (nC) 2SK3108 Isolated TO-220 200 8 25 0.33 0.4 400 15 2SK3109 TO-220AB 200 10 50 0.33 0.4 400 15 2SK3110 Isolated TO-220 200 14 35 0.13 0.18 1000 40 2SK3111 TO-220AB 200 20 65 0.13 0.18 1000 40 2SK3112 TO-220AB 200 25 70 0.08 0.11 1600 65 2SK3294★ TO-220AB 250 20 70 0.12 0.16 1600 65 ★ 2SK3305 TO-220AB 500 5 50 1.35 1.5 570 20 2SK3306★ Isolated TO-220 500 5 30 1.35 1.5 570 20 2SK3113 TO-251 600 2 20 3.3 4.4 290 9 2SK3221 Isolated TO-220 600 2 25 3.3 4.4 290 9 2SK3114 Isolated TO-220 600 4 30 1.6 2.2 550 15 2SK3297★ Isolated TO-220 600 5 35 1.28 1.6 690 24 2SK3115 Isolated TO-220 600 6 35 0.9 1.2 1100 26 2SK3116 TO-220AB 600 7.5 70 0.9 1.2 1100 26 ★ TO-220AB 600 7.5 40 0.6 0.75 1500 51 2SK3299★ TO-220AB 600 10 70 0.6 0.75 1500 51 ★ TO-3P 600 20 150 0.32 0.4 3300 80 2SK3304★ TO-3P 900 7 120 1.6 2.0 1500 50 2SK3298 2SK3300 ★: 302 Selection Guide X10679EJHV0SG00 Under development Transistor Field Effect Transistor Power MOS FET ■ N4-H Series (High Voltage N channel 4th generation Series) (1/2) Absolute maximum ratings Part number Package VDSS (V) Electrical characteristics RDS(on) @VGS = 10 V PT (W) TYP. (Ω) MAX. (Ω) Ciss (pF) Qg (nC) 4.0 20 0.52 0.65 300 10 4.0 1.8∗ 0.52 0.65 300 10 13 70 0.32 0.40 540 15 14 35 0.14 0.18 1100 30 ID(DC) (A) 2SK1954 TO-251 2SK2132 MP-10 2SK2134 TO-220AB 2SK2135 Isolated TO-220 2SK2136 TO-220AB 20 75 0.14 0.18 1100 30 2SK2341 Isolated TO-220 11 35 0.21 0.26 1090 33 2SK2133 TO-220AB 16 75 0.21 0.26 1090 25 2SK2353 Isolated TO-220 4.5 30 1.0 1.4 670 20 2SK2355 TO-220AB 5.0 50 1.0 1.4 670 20 2SK2357 Isolated TO-220 6.0 35 0.7 0.9 1050 27 2SK2359 TO-220AB 7.0 75 0.7 0.9 1050 27 2SK2361 TO-3P 10 100 0.7 0.9 1050 26 2SK2363 Isolated TO-220 8.0 35 0.4 0.5 1600 42 2SK2365 TO-220AB 10 75 0.4 0.5 1600 42 2SK2367 TO-3P 15 120 0.4 0.5 1600 43 2SK2369 TO-3P 20 120 0.28 0.40 2400 65 2SK2371 TO-3P 25 160 0.20 0.25 3600 95 2SK2354 Isolated TO-220 4.5 30 1.1 1.5 670 20 2SK2356 TO-220AB 5.0 50 1.1 1.5 670 20 2SK2358 Isolated TO-220 6.0 35 0.8 1.0 1050 27 2SK2360 TO-220AB 7.0 75 0.8 1.0 1050 27 2SK2362 TO-3P 10 100 0.8 1.0 1050 26 2SK2364 Isolated TO-220 8.0 35 0.5 0.6 1600 42 2SK2366 TO-220AB 10 75 0.5 0.6 1600 42 2SK2368 TO-3P 15 120 0.5 0.6 1600 43 2SK2370 TO-3P 20 120 0.32 0.40 2400 65 2SK2372 TO-3P 25 160 0.22 0.27 3600 95 2SK1953 Isolated TO-220 2.0 25 4.2 5.0 275 12 2SK2040 TO-251 2.0 20 4.2 5.0 275 12 2SK2137 Isolated TO-220 4.0 30 2.0 2.4 550 20 2SK2138 TO-220AB 5.0 70 2.0 2.4 550 20 2SK2139 Isolated TO-220 5.0 35 1.25 1.5 930 30 2SK2141 Isolated TO-220 6.0 40 0.9 1.1 1150 40 2SK2140 TO-220AB 7.0 75 1.25 1.5 930 30 2SK2476 Isolated TO-220 2SK2477 TO-3P 2SK2478 2SK2479 2SK2480 Isolated TO-220 2SK2481 TO-220AB 180 200 250 450 500 600 3.0 40 3.4 5.0 590 20 10 150 0.65 1.0 2950 90 Isolated TO-220 2.0 30 5.0 7.5 485 17 TO-220AB 3.0 70 5.6 7.5 485 17 3.0 35 3.2 4.0 900 30 4.0 75 3.2 4.0 900 30 800 900 ∗ : T A = 25°C Selection Guide X10679EJHV0SG00 303 Transistor Field Effect Transistor Power MOS FET ■ N4-H Series (High Voltage N channel 4th generation Series) (2/2) Absolute maximum ratings Part number Package VDSS (V) ID(DC) (A) PT (W) Electrical characteristics RDS(on) @VGS = 10 V TYP. (Ω) MAX. (Ω) Ciss (pF) Qg (nC) 2SK2482 TO-3P 5.0 100 3.2 4.0 900 30 2SK2483 Isolated TO-220 3.5 40 2.2 2.8 1200 40 2SK2484 TO-220AB 5.0 75 2.2 2.8 1200 40 2SK2485 TO-3P 6.0 100 2.2 2.8 1200 40 2SK2486 TO-3P 7.0 120 1.4 2.0 1830 55 2SK2487 TO-3P 8.0 140 1.1 1.6 2100 65 2SK2488 TO-3P 10 160 1.0 1.2 2900 90 900 ■ P4-H Series (High Voltage P channel 4th generation Series) Absolute maximum ratings Part number Package VDSS (V) ID(DC) (A) 2SJ448 Isolated TO-220 –250 ± 4.0 2SJ449 Isolated TO-220 –250 ± 6.0 304 Electrical characteristics RDS(on) @VGS = 10 V PT (W) TYP. (Ω) MAX. (Ω) Ciss (pF) Qg (nC) 30 1.5 2.0 470 15 35 0.55 0.8 1040 23.4 Selection Guide X10679EJHV0SG00 Transistor Field Effect Transistor Power MOS FET ■ N3-H Series (High Voltage N channel 3rd generation Series) Absolute maximum ratings Part number Package VDSS (V) Electrical characteristics RDS(on) @VGS = 10 V ID(DC) (A) PT (W) TYP. (Ω) MAX. (Ω) Ciss (pF) Qg (nC) 2SK1491 TO-3P 250 25 120 0.12 0.15 1950 55 2SK1492 TO-3P 250 35 140 0.08 0.1 3000 80 2SK1988 Isolated TO-220 450 2.5 30 2.2 2.8 350 12 2SK1493 TO-220AB 450 3 50 2.2 2.8 350 12 2SK1990 Isolated TO-220 450 4.5 30 1.1 1.4 610 22 2SK1750 TO-220AB 450 5 50 1.1 1.4 610 22 2SK1992 Isolated TO-220 450 6 35 0.7 0.9 1060 36 2SK1495 TO-220AB 450 7 70 0.7 0.9 1060 36 2SK1752 TO-3P 450 10 100 0.7 0.9 1060 36 2SK1784 TO-3P 450 12 100 0.5 0.6 1330 46 2SK1756 TO-3P 450 15 120 0.4 0.5 1500 50 2SK1497 TO-3P 450 20 120 0.28 0.35 2460 85 2SK1499 TO-3P 450 25 160 0.2 0.25 3300 115 2SK1989 Isolated TO-220 500 2.5 30 2.4 3 350 12 2SK1494 TO-220AB 500 3 50 2.4 3 350 12 2SK1991 Isolated TO-220 500 4.5 30 1.2 1.5 610 22 2SK1751 TO-220AB 500 5 50 1.2 1.5 610 22 2SK1993 Isolated TO-220 500 6 35 0.8 1 1060 36 2SK1496 TO-220AB 500 7 70 0.8 1 1500 57 2SK2234 Isolated TO-220 500 8 40 0.5 0.6 1060 36 2SK1753 TO-3P 500 10 100 0.8 1 1060 36 2SK1785 TO-3P 500 12 100 0.6 0.7 1330 46 2SK1757 TO-3P 500 15 120 0.5 0.6 1500 50 2SK1498 TO-3P 500 20 120 0.32 0.4 2460 85 2SK1500 TO-3P 500 25 160 0.22 0.27 3300 115 2SK1758 Isolated TO-220 600 2 30 2.8 4.2 360 17 2SK1994 Isolated TO-220 900 2 30 5.5 7.5 430 15.5 2SK1793 TO-220AB 900 3 75 5.5 7.5 430 19 2SK1995 Isolated TO-220 900 3 35 3 4 790 28 2SK2275 Isolated TO-220 900 3.5 35 2.2 2.8 1000 42 2SK1501 TO-220AB 900 4 70 2.8 4 790 33 2SK1760 TO-3P 900 5 100 3.1 4 790 34 2SK1794 TO-3P 900 6 100 2.4 2.8 1000 42 2SK1502 TO-3P 900 7 120 1.7 2 1550 80 2SK1795 TO-3P 900 8 140 1.3 1.6 1740 66 2SK1796 TO-3P 900 10 150 1 1.2 2500 90 2SK1271∗ TO-3P 1400 5 240 3.5 4 1800 125 ∗ : 2nd Generation Selection Guide X10679EJHV0SG00 305 Transistor Field Effect Transistor Power MOS FET ■ 8-pin SOP Type Power MOS FET On-Resistance RDS (on) (mΩ) (TYP.) @VGS = 10 V Drain to source voltage VDSS (V) 20 30 µPA1759 (Nch Dual) up to 150 up to 90 µPA1750 (P-ch Dual) up to 70 µPA1710 (P-ch Single) µPA1710A (P-ch Single) µPA1754 (N-ch Dual) µPA1713 (P-ch Single) up to 50 up to 40 µPA1752 (N-ch Dual)∗1 µPA1711 (P-ch Single) up to 30 µPA1753 (N-ch Dual)∗1 µPA1756 (N-ch Dual)∗1 µPA1751 µPA1714 µPA1755 µPA1758 up to 20 µPA1701 (N-ch Single)∗1 µPA1701A (N-ch Single) µPA1757 (N-ch Dual)∗1 µPA1700 (N-ch Single) µPA1700A (N-ch Single) µPA1712 (P-ch Single) µPA1716 (P-ch Single) µPA1705 (N-ch Single)∗2 µPA1702 µPA1703 µPA1704 µPA1706 µPA1707 µPA1715 up to 10 ∗1: 2.5 V drive is possible. Otherwise 4 V drive is possible. 306 60 µPA1790 (Nch + Pch) up to 600 (N-ch Dual) (P-ch Single) (N-ch Dual) (N-ch Dual)∗1 (N-ch Single) (N-ch Single) (N-ch Single) (N-ch Single) (N-ch Single) (P-ch Single) ∗2: 4.5 V drive Selection Guide X10679EJHV0SG00 Transistor Field Effect Transistor Power MOS FET ■ Power SOP8 series Electrical characteristics (TA = 25 °C) Absolute maximum rating (TA = 25 °C) Part number Configuration ID VDSS (V) DC (A) Pulse (A) µPA1700 N-ch Single 30 ±7 ±28 µPA1700A N-ch Single 30 ±7 ±28 µPA1701 N-ch Single 20 ±7 ±28 µPA1701A N-ch Single 20 ±7 ±28 µPA1702 N-ch Single 30 ±8 ±32 µPA1703 N-ch Single 30 ±10 ±40 µPA1704 N-ch Single 30 ±10 ±40 µPA1705 N-ch Single 30 ±7 ±28 µPA1706 N-ch Single 30 ±13 ±52 µPA1707 N-ch Single 30 ±10 ±40 µPA1710 P-ch Single – 30 ± 5 ± 20 µPA1710A P-ch Single – 30 ± 5 ± 20 µPA1711 P-ch Single – 30 ± 7 ± 28 µPA1712 P-ch Single – 30 ± 8 ± 32 µPA1713 P-ch Single 30 ± 5 ± 20 µPA1714 P-ch Single – 30 ± 7 ± 28 µPA1715 P-ch Single – 30 11 µPA1716 P-ch Single – 30 µPA1750 P-ch Dual – 30 µPA1751 N-ch Dual µPA1752 ± 44 8 ± 32 3.5 ± 14 30 ±5 ±20 N-ch Dual 20 ±5 ±20 µPA1753 N-ch Dual 20 ±6 ±24 µPA1754 N-ch Dual 30 ±7 ±28 µPA1755 N-ch Dual – 30 ±7 ±28 µPA1756 N-ch Dual 30 ±6 ±24 µPA1757 N-ch Dual 20 ±7 ±28 µPA1758 N-ch Dual 30 ±6 ±24 µPA1759 N-ch Dual 60 ±5 ±20 µPA1790 N-ch + P-ch ± ± ± 60/– 60 ±1.0/±0.7 ±4.0/±2.8 PT TC = 25 °C (W) RDS(on) (Ω) Applications VGS (V) ID (A) TYP. MAX. 2.0∗1 2.0∗1 4 3.5 0.040 0.050 4 3.5 0.028 0.05 2.0∗1 2.0∗1 2.5 3.5 0.03 0.04 2.5 3.5 0.026 0.04 2.0∗1 2.0∗1 4 4 0.018 0.025 4 5.0 0.012 0.017 2.0∗1 2.0∗1 2.5 5.0 0.0125 0.016 4.5 3.5 0.031 0.04 2.0∗1 2.0∗1 4 7.0 0.008 0.012 4 5.0 0.014 0.021 2.0∗1 2.0∗1 –4 – 2.5 0.11 0.16 –4 – 2.0 0.091 0.16 2.0∗1 2.0∗1 –4 – 3.5 0.049 0.07 –4 – 4.0 0.027 0.048 2.0∗1 2.0∗1 –4 2.5 0.10 0.16 –4 3.5 0.049 0.07 2.0∗1 2.0∗1 – 4.5 – 6.0 0.011 0.016 – 4.5 –4 0.017 0.023 2.0∗2 2.0∗2 –4 – 1.8 0.125 0.18 4 2.5 0.044 0.064 2.0∗2 2.0∗2 2.5 2.5 0.042 0.061 2.5 3.0 0.028 0.04 2.0∗2 2.0∗2 4 3.5 0.029 0.053 0.045 4.5 3.5 0.028 2.0∗2 2.0∗2 2.5 3.0 0.028 0.04 2.5 3.5 0.022 0.032 2.0∗2 2.0∗2 2.5 3.0 0.026 0.04 10 2.5 0.11 0.15 1.0∗2 10 Switching 0.5/0.35 0.12/0.44 0.26/0.6 ∗1: TA = 25°C, Mounted on ceramic substrate of 1200 mm2 × 0.7 mm ∗2: TA = 25°C, 2 circuits, Mounted on ceramic substrate of 2000 mm2 × 1.1 mm Selection Guide X10679EJHV0SG00 307 Transistor Field Effect Transistor Power MOS FET ■ 8-pin TSSOP Type Power MOS FET On-Resistance RDS(on) (mΩ) (MAX.) @VGS = 4.5 V Drain to source voltage VDSS (V) 12 20 30 µPA1851 (P-ch Dual) ~210 µPA1853 (P-ch Dual) ~190 µPA1850 (P-ch Dual) ~115 ~75 µPA1811 (P-ch Single) µPA1812 (P-ch Single) µPA1852 (N-ch Dual) µPA1800 (N-ch Single) µPA1854 (P-ch Dual) µPA1810 (P-ch Single) ~60 ~40 µPA1814 (P-ch Single)★ ~30 µPA1813 (P-ch Single) µPA1801 µPA1855 µPA1802 µPA1815 ~25 µPA1803 (N-ch Single)★ (N-ch Single) (N-ch Dual)★ (N-ch Single) (P-ch Single)★ ★: Under development ■ 8-pin TSSOP Type Power MOS FET Part number Configuration Absolute maximum rating (TA = 25 °C) VDSS (V) VGSS (V) ID(DC) (A) PT ∗ (W) Electrical characteristics (TA = 25 °C) Applications RDS(on) (mΩ) MAX. VGS = 2.5 V VGS = 4 V VGS = 4.5 V VGS = 10 V – 39 27 45 34 24 – 25 µPA1800 N-ch Single 30 ±20 ±5 2 µPA1801 N-ch Single 20 ±8 ±6 2 µPA1802 N-ch Single 20 ±12 ±7 2 32 25 23 – µPA1803★ N-ch Single 30 ±20 ±7 2 – – 16 21 µPA1810 P-ch Single – 12 – 10/+5 ±4 2 100 60 55 – µPA1811 P-ch Single – 20 – 12/+5 ±4 2 120 80 75 – µPA1812 P-ch Single – 30 –20/+5 ±5 2 – 90 70 40 µPA1813 P-ch Single – 12 – 10/+5 ±5 2 40 30 25 – µPA1814★ P-ch Single – 30 – 20/+5 ±7 2 – – 30 19 µPA1815★ P-ch Single – 20 – 12/+3 ±7 2 30 23 22 – µPA1850 P-ch Dual –12 –10/+5 ±2.5 2 200 130 115 – µPA1851 P-ch Dual –20 –20/+5 ±2.5 2 – 250 210 105 µPA1852 N-ch Dual 20 ±12 ±5 2 60 45 40 – µPA1853 P-ch Dual –30 –20/+5 ±2.5 2 – 220 190 85 µPA1854 P-ch Dual –12 –10/+5 ±2.5 2 105 70 60 – µPA1855★ N-ch Dual 20 ±12 ±6 2 29 24 23 – ∗ : Mounted on ceramic substrate of 50 cm 2 × 1.1 mm 308 Selection Guide X10679EJHV0SG00 ★: Switching Under development Transistor Transistor with Internal Resistor ■ Equivalent circuit A B C C B R1 C B R1 R2 C B R1 E E C B R2 D C R1 R2 E B R1 R2 E R2 E E ■ AA1[ ], AN1[ ], BA1[ ], BN1[ ] series (TO-92, SST) Part number Absolute maximum ratings Equivalent (TA = 25 °C) circuit and IC PT Tj VCBO VCEO V EBO applications (V) (V) (V) (mA) (mW) (°C) R1 R2 (kΩ) (kΩ) 10 10 Electrical characteristics (T A = 25 °C) hFE VCE IC (V) (mA) 35 to 100 5.0 5.0 TO-92 SST AA1A4M BA1A4M 60 50 10 100 250 150 AA1A4P BA1A4P 60 50 5 100 250 150 10 47 35 to 340 5.0 5.0 AA1F4M BA1F4M 60 50 10 100 250 150 22 22 60 to 195 5.0 5.0 AA1F4N BA1F4N 60 50 5 100 250 150 22 47 85 to 340 5.0 5.0 AA1L4M BA1L4M 60 50 10 100 250 150 47 47 85 to 340 5.0 5.0 AA1L4L BA1L4L 60 50 15 100 250 150 47 22 60 to 195 5.0 5.0 AA1L3Z BA1L3Z Refer to equivalent circuit A 60 50 5 100 250 150 4.7 – 135 to 600 5.0 5.0 AA1A4Z BA1A4Z Switching 60 50 5 100 250 150 10 – 135 to 600 5.0 5.0 AA1F4Z BA1F4Z 60 50 5 100 250 150 22 – 135 to 600 5.0 5.0 AA1L4Z BA1L4Z 60 50 5 100 250 150 47 – 135 to 600 5.0 5.0 AA1L3M BA1L3M 60 50 10 100 250 150 4.7 4.7 20 to 80 5.0 5.0 AA1L3N BA1L3N 60 50 5 100 250 150 4.7 10 35 to 100 5.0 5.0 AA1A3Q BA1A3Q 60 50 5 100 250 150 1.0 10 35 to 100 5.0 5.0 AN1A4M BN1A4M –60 –50 –10 –100 250 150 10 10 35 to 100 –5.0 –5.0 AN1A4P BN1A4P –60 –50 –5 –100 250 150 10 47 85 to 340 –5.0 –5.0 AN1F4M BN1F4M –60 –50 –10 –100 250 150 22 22 60 to 195 –5.0 –5.0 AN1F4N BN1F4N –60 –50 –5 –100 250 150 22 47 85 to 340 –5.0 –5.0 AN1L4M BN1L4M –60 –50 –10 –100 250 150 47 47 85 to 340 –5.0 –5.0 AN1L4L BN1L4L –60 –50 –15 –100 250 150 47 22 60 to 195 –5.0 –5.0 AN1L3Z BN1L3Z –60 –50 –5 –100 250 150 4.7 – 135 to 600 –5.0 –5.0 AN1A4Z BN1A4Z –60 –50 –5 –100 250 150 10 – 135 to 600 –5.0 –5.0 AN1F4Z BN1F4Z –60 –50 –5 –100 250 150 22 – 135 to 600 –5.0 –5.0 AN1L4Z BN1L4Z –60 –50 –5 –100 250 150 47 – 135 to 600 –5.0 –5.0 AN1L3M BN1L3M –60 –50 –10 –100 250 150 4.7 4.7 20 to 80 –5.0 –5.0 AN1L3N BN1L3N –60 –50 –5 –100 250 150 4.7 10 35 to 100 –5.0 –5.0 AN1A3Q BN1A3Q –60 –50 –5 –100 250 150 1.0 10 35 to 100 –5.0 –5.0 Refer to equivalent circuit B Selection Guide X10679EJHV0SG00 Remarks 309 Transistor Transistor with Internal Resistor ■ AB1[ ], AP1[ ], BB1[ ], BP1[ ] series (TO-92, SST) Part number Equivalent circuit and applications R1 (kΩ) – Electrical characteristics (TA = 25 °C) R2 hFE VCE IC (kΩ) (V) (A) 10 300 ~ 2.0 0.5 30 25 10 0.7 750 250 Tj (°C) 150 30 25 10 0.7 750 250 150 0.47 4.7 300 ~ 2.0 0.5 30 25 10 0.7 750 250 150 1.0 1.0 100 ~ 2.0 0.5 BB1F3P 30 25 10 0.7 750 250 150 2.2 10 300 ~ 2.0 0.5 AB1J3P BB1J3P 30 25 10 0.7 750 250 150 3.3 10 300 ~ 2.0 0.5 AB1L3N BB1L3N 30 25 10 0.7 750 250 150 4.7 10 300 ~ 2.0 0.5 AB1A4M BB1A4M 30 25 10 0.7 750 250 150 10 10 300 ~ 2.0 0.5 AP1A4A BP1A4A –25 –25 –10 – 0.7 750 250 150 – 10 100 ~ –2.0 – 0.5 AP1L2Q BP1L2Q –25 –25 –10 – 0.7 750 250 150 0.47 4.7 100 ~ –2.0 – 0.5 AP1A3M BP1A3M –25 –25 –10 – 0.7 750 250 150 1.0 1.0 100 ~ –2.0 – 0.5 AP1F3P BP1F3P –25 –25 –10 – 0.7 750 250 150 2.2 10 100 ~ –2.0 – 0.5 –25 –25 –10 – 0.7 750 250 150 3.3 10 100 ~ –2.0 – 0.5 –25 –25 –10 – 0.7 750 250 150 4.7 10 100 ~ –2.0 – 0.5 –25 –25 –10 – 0.7 750 250 150 10 10 100 ~ –2.0 – 0.5 TO-92 SST AB1A4A BB1A4A AB1L2Q BB1L2Q AB1A3M BB1A3M AB1F3P AP1J3P BP1J3P AP1L3N BP1L3N AP1A4M BP1A4M Refer to equivalent circuit A Switching Refer to equivalent circuit B Switching V CBO (V) Absolute maximum ratings (TA = 25 °C) VCEO V EBO IC P T (mW) (V) (V) (A) TO-92 SST Remarks ■ AQ1[ ] series (TO-92) Part number TO-92 Equivalent circuit and applications AQ1A4A AQ1F2Q AQ1L2N AQ1L2Q Refer to equivalent circuit B AQ1A3M AQ1F3M AQ1F3P 310 Switching Electrical characteristics (TA = 25 °C) Absolute maximum ratings (TA = 25 °C) VCBO (V) VCEO (V) VEBO (V) IC (A) PT (mW) Tj (°C) –20 –20 –10 –2.0 750 150 R1 (kΩ) – –20 –20 –10 –2.0 750 150 0.22 2.2 150 ~ –2.0 –1.0 –20 –20 –10 –2.0 750 150 0.47 1.0 150 ~ –2.0 –1.0 –20 –20 –20 –10 750 150 0.47 4.7 150 ~ –2.0 –1.0 –20 –20 –10 –2.0 750 150 1.0 1.0 150 ~ –2.0 –1.0 –20 –20 –10 –2.0 750 150 2.2 2.2 150 ~ –2.0 –1.0 –20 –20 –10 –2.0 750 150 4.7 10 150 ~ –2.0 –1.0 Selection Guide X10679EJHV0SG00 R2 (kΩ) 10 hFE 150 ~ VCE (V) –2.0 IC (A) –1.0 Remarks Transistor Transistor with Internal Resistor ■ AD1[ ], AD2[ ], AR1[ ] series (TO-92) Part number TO-92 Equivalent circuit and applications V CBO (V) AD1L3N 80 60 10 1.0 750 150 200 ~ 80 60 10 1.0 750 150 2.2 10 300 ~ 2.0 80 60 10 1.0 750 150 4.7 10 300 ~ 2.0 0.5 80 60 10 1.0 750 150 10 10 300 ~ 2.0 0.5 80 60 10 1.0 750 150 0.47 4.7 300 ~ 2.0 0.5 80 60 10 1.0 750 150 0.22 2.2 300 ~ 2.0 0.5 80 60 10 1.0 750 150 – 10 300 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 1.0 1.0 200 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 2.2 10 300 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 4.7 10 300 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 10 10 300 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 0.47 4.7 300 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 0.22 2.2 300 ~ 2.0 0.5 60 ±10 60 ±10 10 1.0 750 150 – 10 300 ~ 2.0 0.5 Refer to equivalent circuit A AD1L2Q Switching AD1A4A AD2A3M AD2F3P AD2L3N Refer to equivalent circuit C AD2A4M AD2L2Q AD2F2Q Switching AD2A4A Tj (°C) V CE (V) 2.0 AD1A4M AD1F2Q Electrical characteristics (TA = 25 °C) R1 (kΩ) 1.0 AD1A3M AD1F3P Absolute maximum ratings (T A = 25 °C) VCEO V EBO IC PT (V) (V) (A) (mW) R2 (kΩ) 1.0 h FE IC (A) 0.5 0.5 –60 –60 –10 –1.0 750 150 1.0 1.0 100 ~ –2.0 –0.5 –60 –60 –10 –1.0 750 150 2.2 10 100 ~ –2.0 –0.5 –60 –60 –10 –1.0 750 150 4.7 10 100 ~ –2.0 –0.5 –60 –60 –10 –1.0 750 150 10 10 100 ~ –2.0 –0.5 –60 –60 –10 –1.0 750 150 0.47 4.7 100 ~ –2.0 –0.5 AR1F2Q –60 –60 –10 –1.0 750 150 0.22 2.2 100 ~ –2.0 –0.5 AR1A4A –60 –60 –10 –1.0 750 150 – 10 100 ~ –2.0 –0.5 VCBO (V) Absolute maximum ratings (T A = 25 °C) V CEO V EBO IC PT (V) (V) (A) (W) AR1A3M AR1F3P AR1L3N Refer to equivalent circuit B AR1A4M AR1L2Q Switching Remarks ■ CE1[ ], CE2[ ] series (SP-8) Part number SP-8 Equivalent circuit and applications CE1A3Q CE1F3P Refer to D CE1N2R CE2A3Q CE2F3P Refer to E Tj R1 (°C) (kΩ) Electrical characteristics (TA = 25 °C) R2 hFE V CE (kΩ) (V) IC (A) 60 ±10 60 ±10 15 ±2.0 1.0 150 1.0 10 1000 to 3000 5.0 60 ±10 60 ±10 15 ±2.0 1.0 150 2.2 10 1000 to 3000 5.0 1.0 60 ±10 60 ±10 15 ±2.0 1.0 150 0.68 10 1000 to 3000 5.0 1.0 1.0 60 60 15 ±2.0 1.0 150 1.0 10 1000 to 3000 5.0 1.0 60 60 15 ±2.0 1.0 150 1.0 10 1000 to 3000 5.0 1.0 Selection Guide X10679EJHV0SG00 311 Transistor Transistor with Internal Resistor ■ FA1[ ], FN1[ ], GA1[ ], GN1[ ] series (SC-59, SC-70) Part number SC-59 SC-70 Equivalent circuit and applications VCBO (V) Absolute maximum ratings (TA = 25 °C) VCEO V EBO IC PT (V) (V) (mA) (mW) Tj (°C) R1 (kΩ) R2 (kΩ) Electrical characteristics (T A = 25 °C) hFE V CE IC (V) (mA) FA1A4M GA1A4M 60 50 10 100 150 10 10 35 to 100 5.0 5.0 FA1A4P GA1A4P 60 50 5 100 150 10 47 35 to 340 5.0 5.0 FA1F4M GA1F4M 60 50 10 100 150 22 22 60 to 195 5.0 5.0 FA1F4N GA1F4N 60 50 5 100 150 22 47 85 to 340 5.0 5.0 FA1L4M GA1L4M FA1L4L GA1L4L FA1L3Z GA1L3Z FA1A4Z GA1A4Z FA1F4Z GA1F4Z FA1L4Z Refer to equivalent circuit A 60 50 10 100 60 50 15 100 150 47 47 85 to 340 5.0 5.0 150 47 22 60 to 195 5.0 5.0 60 50 5 100 60 50 150 4.7 – 135 to 600 5.0 5.0 5 100 150 10 – 135 to 600 5.0 5.0 60 50 5 100 GA1L4Z 150 22 – 135 to 600 5.0 5.0 60 50 5 100 150 47 – 135 to 600 5.0 FA1L3M 5.0 GA1L3M 60 50 10 100 150 4.7 4.7 20 to 80 5.0 5.0 FA1L3N GA1L3N 60 50 5 100 150 4.7 10 35 to 100 5.0 5.0 FA1A3Q GA1A3Q 60 50 5 100 150 1.0 10 35 to 100 5.0 5.0 FN1A4M GN1A4M –60 –50 –10 –100 150 10 10 35 to 100 –5.0 –5.0 FN1A4P GN1A4P –60 –50 –5 –100 150 10 47 85 to 340 –5.0 –5.0 FN1F4M GN1F4M –60 –50 –10 –100 150 22 22 60 to 195 –5.0 –5.0 FN1F4N GN1F4N –60 –50 –5 –100 150 22 47 85 to 340 –5.0 –5.0 FN1L4M GN1L4M –60 –50 –10 –100 150 47 47 85 to 340 –5.0 –5.0 FN1L4L GN1L4L –60 –50 –15 –100 150 47 22 60 to 195 –5.0 –5.0 FN1L3Z GN1L3Z –60 –50 –5 –100 150 4.7 – 135 to 600 –5.0 –5.0 FN1A4Z GN1A4Z –60 –50 –5 –100 150 10 – 135 to 600 –5.0 –5.0 FN1F4Z GN1F4Z –60 –50 –5 –100 FN1L4Z GN1L4Z –60 –50 –5 –100 FN1L3M GN1L3M –60 –50 –10 –100 FN1L3N GN1L3N –60 –50 –5 –100 FN1A3Q GN1A3Q –60 –50 –5 –100 150 Switching Refer to equivalent circuit B Switching 200 (SC-59) 150 (SC-70) 200 (SC-59) 150 (SC-70) 150 22 – 135 to 600 –5.0 –5.0 150 47 – 135 to 600 –5.0 –5.0 150 4.7 4.7 20 to 80 –5.0 –5.0 150 4.7 10 35 to 100 –5.0 –5.0 1.0 10 35 to 100 –5.0 –5.0 Remarks ■ FB1[ ] series (SC-59) Part number Equivalent circuit and applications FB1A4A VCBO (V) Absolute maximum ratings (TA = 25 °C) VCEO V EBO IC PT (V) (V) (A) (mW) Tj (°C) R1 (kΩ) R2 (kΩ) Electrical characteristics (T A = 25 °C) hFE V CE IC (V) (A) 30 25 10 0.7 150 – 10 300 2.0 30 25 10 0.7 150 0.47 4.7 300 2.0 0.5 30 25 10 0.7 150 1.0 1.0 100 2.0 0.5 30 25 10 0.7 150 2.2 10 300 2.0 0.5 30 25 10 0.7 150 3.3 10 300 2.0 0.5 30 25 10 0.7 150 4.7 10 300 2.0 0.5 FB1A4M 30 25 10 0.7 150 10 10 300 2.0 0.5 FP1A4A –25 –25 –10 –0.7 150 10 100 –2.0 –0.5 –25 –25 –10 –0.7 150 0.47 4.7 100 –2.0 –0.5 –25 –25 –10 –0.7 150 1.0 1.0 100 –2.0 –0.5 –25 –25 –10 –0.7 150 2.2 10 100 –2.0 –0.5 –25 –25 –10 –0.7 150 3.3 10 100 –2.0 –0.5 –25 –25 –10 –0.7 150 4.7 10 100 –2.0 –0.5 –25 –25 –10 –0.7 150 10 10 100 –2.0 –0.5 FB1L2Q FB1A3M FB1F3P Refer to equivalent circuit A FB1J3P FB1L3N FP1L2Q FP1A3M FP1F3P FP1J3P FP1L3N FP1A4M 312 Switching Refer to equivalent circuit B Switching 200 200 Selection Guide X10679EJHV0SG00 0.5 Remarks Transistor Transistor with Internal Resistor ■ HD1[ ], HD2[ ], HR1[ ] series (SOT-89) Part number Equivalent circuit and applications HD1A3M HD1F3P HD1L3N HD1A4M Refer to equivalent circuit A HD1L2Q HD1F2Q Switching HD1A4A HD2A3M HD2F3P HD2L3N HD2A4M Refer to equivalent circuit C HD2L2Q HD2F2Q Switching HD2A4A HR1A3M HR1F3P HR1L3N HR1A4M Refer to equivalent circuit B HR1L2Q HR1F2Q Switching HR1A4A V CBO (V) Absolute maximum ratings (TA = 25 °C) V CEO V EBO IC PT (V) (V) (A) (mW) Tj (°C) R1 (kΩ) R2 (kΩ) Electrical characteristics (TA = 25 °C) hFE V CE IC (V) (A) 80 60 10 1.0 150 1.0 1.0 200 2.0 0.5 80 60 10 1.0 150 2.2 10 300 2.0 0.5 80 60 10 1.0 150 4.7 10 300 2.0 0.5 80 60 10 1.0 150 10 10 300 2.0 0.5 80 60 10 1.0 150 0.47 4.7 300 2.0 0.5 80 60 10 1.0 150 0.22 2.2 300 2.0 5.0 80 60 10 1.0 150 – 10 300 2.0 0.5 60±10 60±10 10 1.0 150 1.0 1.0 200 2.0 0.5 60±10 60±10 10 1.0 150 2.2 10 300 2.0 0.5 60±10 60±10 10 1.0 150 4.7 10 300 2.0 0.5 60±10 60±10 10 1.0 150 10 10 300 2.0 0.5 60±10 60±10 10 1.0 150 0.47 4.7 300 2.0 0.5 60±10 60±10 10 1.0 150 0.2 2.2 300 2.0 0.5 60±10 60±10 10 1.0 150 – 10 300 2.0 0.5 2.0 2.0 –60 –60 –10 –1.0 150 1.0 1.0 100 –2.0 –0.5 –60 –60 –10 –1.0 150 2.2 10 100 –2.0 –0.5 –60 –60 –10 –1.0 150 4.7 10 100 –2.0 –0.5 –60 –60 –10 –1.0 150 10 10 100 –2.0 –0.5 –60 –60 –10 –1.0 150 0.47 4.7 100 –2.0 –0.5 –60 –60 –10 –1.0 150 0.22 2.2 100 –2.0 –0.5 –60 –60 –10 –1.0 150 – 10 100 –2.0 –0.5 2.0 Remarks ■ HQ1[ ] series (SOT-89) Part number Equivalent circuit and applications VCBO (V) Absolute maximum ratings (TA = 25 °C) VCEO V EBO IC PT (V) (V) (A) (mW) Electrical characteristics (T A = 25 °C) Tj (°C) R1 (kΩ) R2 (kΩ) hFE V CE (V) IC (A) HQ1A4A –20 –20 –10 –2.0 150 – 10 150 –2.0 –1.0 HQ1F2Q –20 –20 –10 –2.0 150 0.22 2.2 150 –2.0 –1.0 –20 –20 –10 –2.0 150 0.47 1.0 150 –2.0 –1.0 –20 –20 –20 –10 150 0.47 4.7 150 –2.0 –1.0 –20 –20 –10 –2.0 150 1.0 1.0 150 –2.0 –1.0 –20 –20 –10 –2.0 150 2.2 2.2 150 –2.0 –1.0 –20 –20 –10 –2.0 150 4.7 10 150 –2.0 –1.0 HQ1L2N HQ1L2Q Refer to equivalent circuit B HQ1A3M HQ1F3M HQ1F3P Switching 2.0 Selection Guide X10679EJHV0SG00 Remarks 313 Transistor Transistor for Array Equivalent Circuit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 ■ Bipolar Transistor Part number Equivalent circuit VCEO (V) I C(DC) (mA) PT ∗ (mW) hFE VCE (V) I C (mA) µPA570T 1 50 100 200 6 1 µPA571T 2 – 50 – 100 200 –6 –1 µPA574T 3 50/– 50 100/– 100 300 6/– 6 1/– 1 µPA670T 11 50 100 200 6 1 µPA671T 12 – 50 – 100 200 –6 –1 µPA500T 1 50 100 300 µPA501T 2 – 50 – 100 300 µPA504T 3 50/– 50 µPA600T 4 µPA601T 5 µPA604T 11 µPA605T 12 µPA608T 15 50 – 16 100 – 500 µPA609T 16 40 – 40 µPA673T 17 µPA674T 90 to 600 6 1 –6 –1 6/– 6 1/– 1 100/– 100 300 50 100 300 6 1 – 50 – 100 300 –6 –1 50 100 300 6 1 – 50 – 100 300 –6 –1 300 90 to 600 110 to 400 6 –1 1 – 100 500 – 500 300 75 to 300 75 to 300 1 –1 150 – 150 15 200 200 82 to 180 6 1 18 15 – 15 200 – 50 200 40 to 200 50 to 150 1 –1 10 – 10 Equivalent circuit VDSS (V) I D(DC) (mA) PT ∗ (mW) R DS (on) (Ω) MAX Package • 5-pin Super Mini-Mold SC-88A • 6-pin Super Mini-Mold SC-88 • 5-pin Mini-Mold SC-74A • 6-pin Mini-Mold SC-74 • 6-pin Super Mini-Mold SC-88 ∗: Total ■ MOS FET Part number VGS (V) I D (mA) µPA572T 6 30 100 200 13 2.5 10 µPA573T 7 – 30 – 100 200 60 – 2.5 – 10 µPA502T 6 50 100 300 30 4 10 µPA503T 7 – 50 – 100 300 100 –4 – 10 µPA505T 8 50/– 50 100/– 100 300 30/100 4/– 4 10/– 10 µPA602T 9 50 100 300 30 4 10 µPA603T 10 – 50 – 100 300 100 –4 – 10 µPA606T 13 50 100 300 30 4 10 µPA607T 14 – 50 – 100 300 100 –4 – 10 µPA610TA 10 –30 –100 300 60 – 2.5 –1 µPA611TA 9 30 100 300 15 2.5 1 µPA672T 13 50 100 200 40 2.5 10 ∗: Total 314 Selection Guide X10679EJHV0SG00 Package • 5-pin Super Mini-Mold SC-88A • 5-pin Mini-Mold SC-74A • 6-pin Mini-Mold SC-74 • 6-pin Super Mini-Mold SC-88 Transistor Transistor Array ■ Signal transistor array Product Map (Monolithic) IO (mA) 500 VO (V) 50 µPA2981 µPA2982 µPA2987 60 µPA2001 µPA2002 µPA2003 µPA2004 ■ Signal transistor array (Monolithic) Part number Output Output Surge Input voltage current absorb- impedVO IO er diode ance (V) (mA/Unit) 8 Number of circuits 5 6 7 Input/output relationship Ative level “H” “L” Output current relationship Inverter Non-iverter Source type type type Number of pins Remarks Sink type µPA80C, GR 60 50 – 20 kΩ Darlington 16 µPA81C 45 400∗ 2 – 20 kΩ FIP driver 18 µPA2001C, GR 60 500 – Darlington 16 µPA2002C, GR 60 500 7VZDi +10.5 kΩ Darlington 16 µPA2003C, GR 60 500 2.7 kΩ Darlington 16 µPA2004C, GR 60 500 10.5 kΩ Darlington 16 µPA2981C 50 500 3 kΩ Darlington output stage 18 µPA2982C 50 500 8.5 kΩ Darlington output stage 18 µPA2987C 50 500 3 kΩ Darlington output stage 16 ∗1: PW < = 30 ms, duty cycle < = 10% (7 circuits operation) ∗2: PW < = 10 ms, duty cycle < = 10% (7 circuits operation) ■ Power transistor array Product Map (Multi-chip, 4 circuits) IC (DC) (A) VCEO (V) 30 60 100 2.0 Polarity 3.0 5.0 µPA1478H NPN PNP µPA1428AH NPN µPA1434H ● µPA1458H µPA1453H PNP µPA1476H NPN µPA1454H µPA1456H µPA1436AH ● µPA1437H PNP : with Zenner Diode : Low VCE (sat) ● : Single High hFE ■ Power transistor array (Multi-chip, 4 circuits) Output current relationship Number of circuits Collectoremitter voltage V CE (V) Collector current IC (A) µPA1428AH 4 60 ±10 ±2.0 – Darlington 10 µPA1434H 4 60 3.0 – – High beta 10 µPA1436AH 4 100 ±3.0 – – Darlington 10 µPA1437H 4 –100 ± – – Darlington 10 µPA1453H 4 –60 5.0 – – Low VCE(sat) 10 µPA1454H 4 100 5.0 – – High beta 10 µPA1456H 4 100 ±5.0 – – Darlington 10 µPA1458H 4 60 ±10 ±5.0 – Darlington 10 µPA1476H 4 100 ±15 ±2.0 – Darlington 10 µPA1478H 4 31 ±4 ±2.0 – Darlington 10 Part number 3.0 Surge absorber diode Input impedance Source type Selection Guide X10679EJHV0SG00 Remarks Sink type Number of pins 315 Transistor Transistor Array ■ Power MOS FET array Product Map (Multi-chip, 4 circuits) ID (DC) (A) 2.0 VDSS (V) 3.0 30 • µPA1520BH (0.25) 60 • µPA1522H (0.35) • µPA1572BH (0.8) • µPA1523BH (1.3) 80 • µPA1524H (1.0) 100 • µPA1526H (0.6) • µPA1576H (1.5) • µPA1527H (1.5) 5.0 • µPA1550H (0.15) • µPA1500BH (0.24) • µPA1552BH (0.24) • µPA1556AH (0.33) • µPA1501H (0.53) • µPA1560H (0.165) 120 ( ): RDS(on) (@VGS = 4 V) [Ω MAX.] Underlined: P-channel ■ Power MOS FET array (Multi-chip, 4 circuits) Number of circuits Part number 4 7 8 µPA1500BH VDSS (V) ID (A/Unit) Surge absorber diode 4V driving Active level “H” “L” Input/output relationship Output current relationship Inverter Non-inverter Source type type type Number of pins Sink type 60 ±3 120 ±3 µPA1520BH 30 ±2 – 10 µPA1522H 60 ±2 – 10 ± 2 – 10 µPA1501H µPA1523BH – 60 12 12 µPA1524H 80 ±2 – 10 µPA1526H 100 ±2 – 10 µPA1527H –100 ± 2 – 10 µPA1550H 30 ±5 – 10 µPA1552BH 60 ±5 – 10 µPA1556AH 100 ±5 – 10 µPA1572BH 60 ±2 – 10 µPA1576H 100 ±2 – 10 µPA1560H 120 ±3 10 ■ Power MOS FET array Product Map (Monolithic) ID (DC) (A) 0.43 0.5 0.87 • µPA1601 (5.3 Ω, 7CH) (DIP, SOP) • µPA1602 (5.3 Ω, 7CH) (DIP, SOP) • µPA1600 (4.0 Ω, 8CH) (DIP, SOP) • µPA1603 (1.3 Ω, 4CH) (DIP, SOP) VDSS (V) 30 ■ Power MOS FET array (Monolithic) Number of circuits Active level Input/output relationship Output current relationship VDSS (V) ID (A/Unit) Surge absorber diode µPA1600CX/GS 30 0.5 – 20 µPA1601CX/GS 30 0.43 – 16 µPA1602CX/GS 30 0.43 – 16 µPA1603CX 30 0.87 16 µPA1604CX 30 0.87 16 Part number 4 316 7 8 4V driving “H” “L” Selection Guide X10679EJHV0SG00 Inverter Non-inverter Source type type type Sink type Number of pins Diode Zener Diode ■ Zener Diode Quick Reference (1/2) (Surface-Mount Type) Vz (V) P (W) TYP. 2.0 2.2 2.4 2.7 3.0 3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 13 15 16 18 20 22 24 27 30 33 36 39 43 47 51 56 62 68 75 82 91 100 110 120 Package 0.2 0.15 RD4.7UJ RD5.1UJ RD5.6UJ RD6.2UJ RD6.8UJ RD7.5UJ RD8.2UJ RD9.1UJ RD10UJ RD11UJ RD12UJ RD13UJ RD15UJ RD16UJ RD18UJ RD20UJ RD22UJ RD24UJ RD27UJ RD30UJ RD33UJ RD36UJ RD39UJ RD2.0UM RD2.2UM RD2.4UM RD2.7UM RD3.0UM RD3.3UM RD3.6UM RD3.9UM RD4.3UM RD4.7UM RD5.1UM RD5.6UM RD6.2UM RD6.8UM RD7.5UM RD8.2UM RD9.1UM RD10UM RD11UM RD12UM RD13UM RD15UM RD16UM RD18UM RD20UM RD22UM RD24UM RD27UM RD30UM RD33UM RD36UM RD39UM 2-pin ultra mini-mold General Low noise Purpose RD2.0M RD2.2M RD2.4M RD2.7M RD3.0M RD3.3M RD3.6M RD3.9M RD4.3M RD4.7M RD5.1M RD5.6M RD6.2M RD6.8M RD7.5M RD8.2M RD9.1M RD10M RD11M RD12M RD13M RD15M RD16M RD18M RD20M RD22M RD24M RD27M RD30M RD33M RD36M RD39M RD43M RD47M RD2.0MW RD2.2MW RD2.4MW RD2.7MW RD3.0MW RD3.3MW RD3.6MW RD3.9MW RD4.3MW RD4.7MW RD5.1MW RD5.6MW RD6.2MW RD6.8MW RD7.5MW RD8.2MW RD9.1MW RD10MW RD11MW RD12MW RD13MW RD15MW RD16MW RD18MW RD20MW RD22MW RD24MW RD27MW RD30MW RD33MW RD36MW RD39MW Mini-mold (SC·59) 1.0 RD2.0S RD2.2S RD2.4S RD2.7S RD3.0S RD3.3S RD3.6S RD3.9S RD4.3S RD4.7S RD5.1S RD5.6S RD6.2S RD6.8S RD7.5S RD8.2S RD9.1S RD10S RD11S RD12S RD13S RD15S RD16S RD18S RD20S RD22S RD24S RD27S RD30S RD33S RD36S RD39S RD43S RD47S RD51S RD56S RD62S RD68S RD75S RD82S RD91S RD100S RD110S RD120S 2-pin super General Purpose Selection Guide X10679EJHV0SG00 RD4.7SL RD5.1SL RD5.6SL RD6.2SL RD6.8SL RD7.5SL RD8.2SL RD9.1SL RD10SL RD11SL RD12SL RD13SL RD15SL RD16SL RD18SL RD20SL RD22SL RD24SL RD27SL RD30SL RD33SL RD36SL RD39SL mini-mold Low noise RD2.0P RD2.2P RD2.4P RD2.7P RD3.0P RD3.3P RD3.6P RD3.9P RD4.3P RD4.7P RD5.1P RD5.6P RD6.2P RD6.8P RD7.5P RD8.2P RD9.1P RD10P RD11P RD12P RD13P RD15P RD16P RD18P RD20P RD22P RD24P RD27P RD30P RD33P RD36P RD39P RD43P RD47P RD51P RD56P RD62P RD68P RD75P RD82P RD91P RD100P RD110P RD120P RD2.0FM RD2.2FM RD2.4FM RD2.7FM RD3.0FM RD3.3FM RD3.9FM RD4.3FM RD4.7FM RD4.7FM RD5.1FM RD5.6FM RD6.2FM RD6.8FM RD7.5FM RD8.2FM RD9.1FM RD10FM RD11FM RD12FM RD13FM RD15FM RD16FM RD18FM RD20FM RD22FM RD24FM RD27FM RD30FM RD33FM RD36FM RD39FM RD43FM RD47FM RD51FM RD56FM RD62FM RD68FM RD75FM RD82FM RD91FM RD100FM RD110FM RD120FM Power mini-mold (SC·62) 2-pin power mini-mold 317 Diode Zener Diode ■ Zener Diode Quick Reference (2/2) (Through-Hole Type) V Z (V) TYP. 2.0 2.2 2.4 2.7 3.0 3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 13 15 16 18 20 22 24 27 30 33 36 39 43 47 51 56 62 68 75 82 91 100 110 120 Package 318 P (W) 0.4 RD4.7JS RD5.1JS RD5.6JS RD6.2JS RD6.8JS RD7.5JS RD8.2JS RD9.1JS RD10JS RD11JS RD12JS RD13JS RD15JS 0.4 RD2.0ES RD2.2ES RD2.4ES RD2.7ES RD3.0ES RD3.3ES RD3.6ES RD3.9ES RD4.3ES RD4.7ES RD5.1ES RD5.6ES RD6.2ES RD6.8ES RD7.5ES RD8.2ES RD9.1ES RD10ES RD11ES RD12ES RD13ES RD15ES 0.5 RD2.0E RD2.2E RD2.4E RD2.7E RD3.0E RD3.3E RD3.6E RD3.9E RD4.3E RD4.7E RD5.1E RD5.6E RD6.2E RD6.8E RD7.5E RD8.2E RD9.1E RD10E RD11E RD12E RD13E RD15E 1.0 RD2.0F RD2.2F RD2.4F RD2.7F RD3.0F RD3.3F RD3.6F RD3.9F RD4.3F RD4.7F RD5.1F RD5.6F RD6.2F RD6.8F RD7.5F RD8.2F RD9.1F RD10F RD11F RD12F RD13F RD15F RD16JS RD18JS RD20JS RD22JS RD24JS RD27JS RD30JS RD33JS RD36JS RD39JS RD16ES RD18ES RD20ES RD22ES RD24ES RD27ES RD30ES RD33ES RD36ES RD39ES RD16F RD18F RD20F RD22F RD24F RD27F RD30F RD33F RD36F RD39F RD43F RD47F RD51F RD56F RD62F RD68F RD75F RD82F DO-34 DO-34 RD16E RD18E RD20E RD22E RD24E RD27E RD30E RD33E RD36E RD39E RD43E RD47E RD51E RD56E RD62E RD68E RD75E RD82E RD91E RD100E RD110E RD120E DO-35 Selection Guide X10679EJHV0SG00 DO-41 Diode Noise Clipping Diode ■ Surface-Mount Type Quick Reference V BR (V) P (W) TYP. 0.15 3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 27 NNCD3.3C NNCD3.6C NNCD3.9C NNCD4.3C NNCD4.7C NNCD5.1C NNCD5.6C NNCD6.2C NNCD6.8C NNCD7.5C NNCD8.2C NNCD9.1C NNCD10C NNCD11C NNCD12C NNCD3.3D NNCD3.6D NNCD3.9D NNCD4.3D NNCD4.7D NNCD5.1D NNCD5.6D NNCD6.2D NNCD6.8D NNCD7.5D NNCD8.2D NNCD9.1D NNCD10D NNCD11D NNCD12D 2-pin ultra mini-mold 2-pin super mini-mold Package Application 0.2 NNCD3.3E NNCD3.6E NNCD3.9E NNCD4.3E NNCD4.7E NNCD5.1E NNCD5.6E NNCD6.2E NNCD6.8E NNCD7.5E NNCD8.2E NNCD9.1E NNCD10E NNCD11E NNCD12E NNCD3.3F NNCD3.6F NNCD3.9F NNCD4.3F NNCD4.7F NNCD5.1F NNCD5.6F NNCD6.2F NNCD6.8F NNCD7.5F NNCD8.2F NNCD9.1F NNCD10F NNCD11F NNCD12F NNCD3.3G NNCD3.6G NNCD3.9G NNCD4.3G NNCD4.7G NNCD5.1G NNCD5.6G NNCD6.2G NNCD6.8G NNCD7.5G • E.S.D. absorber • Surge absorber NNCD27G 3-pin mini-mold (SC-59) Single Twin 5-pin mini-mold (SC-74A quarto) ■ Surface-Mount Type (Low Capacitance) Quick Reference V BR (V) P (W) TYP. 0.2 5.6 6.2 6.8 Package NNCD5.6LG NNCD6.2LG NNCD6.8LG 5-pin mini-mold (SC-74A quad) Application NNCD5.6LH NNCD6.2LH NNCD6.8LH 5-pin super mini-mold (SC-88A quad) • E.S.D. absorber ■ Surface-Mount Type (Low Capacitance and High ESD Endurance Type) Quick Reference V BR (V) P (W) TYP. 0.2 5.6 6.2 6.8 Package NNCD6.2MF 3-pin mini-mold (SC-59 twin) Application NNCD5.6MG NNCD6.2MG NNCD6.8MG 5-pin mini-mold (SC-74A quad) Selection Guide X10679EJHV0SG00 • E.S.D. absorber 319 Diode Noise Clipping Diode ■ Through Hole Type Quick Reference V BR (V) 320 P (W) Application TYP. 0.4 0.5 3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1 10 11 12 Package NNCD3.3A NNCD3.6A NNCD3.9A NNCD4.3A NNCD4.7A NNCD5.1A NNCD5.6A NNCD6.2A NNCD6.8A NNCD7.5A NNCD8.2A NNCD9.1A NNCD10A NNCD11A NNCD12A DO-34 NNCD3.3B NNCD3.6B NNCD3.9B NNCD4.3B NNCD4.7B NNCD5.1B NNCD5.6B NNCD6.2B NNCD6.8B NNCD7.5B NNCD8.2B NNCD9.1B NNCD10B NNCD11B NNCD12B DO-35 Selection Guide X10679EJHV0SG00 • E.S.D. protection • Surge absorber Thyristor Thyristor ■ SCR Package Electrical characteristics MP–25 MP–45C TO-220AB TO-220-like insulated type SOT-89 TO-92 I T(RMS) (A) 0.47 0.47 4.7 8 12.6 4 4 4 4.7 4.7 8 12.6 8 I T(AV) (A) 0.3 0.3 3 5 8 2 2 2.5 3 3 5 8 5 8 ITSM (A) 6 8 40 65 80 20 20 45 65 65 80 100 80 100 125 125 – – 2S2M – – – 8P2M – 8P2SM 3S4M 5P4M 8P4M 5P4SM 8P4SM – 5P5M – – – Tj (°C) V DRM V RRM (V) 125 400 3P4J 5P4J 8P4J 2P4M 03P4J 03P4M 03P4MF* 03P4MG 3P4J-Z 5P4J-Z 8P4J-Z 500 03P5J (µ s) – – – – 1 – – – – 0.2 0.2 – 25 25 40 2P5M – 5P6J 5P6J-Z – 2P6M 0.1 0.2 10 0.2 30 80 50 30 15*2 03P6MG 100 µA 3 - 50 µA 60 2S4M 2V5P4M 3P4MH – 03P5MG – – – – 12.6 125 125 03P2J 03P2M 600 (TYP.) TO-202AA 200 IGT (mA) tq MP-3 125 – 3P5MH – – 3P6MH – 5P6M – 5P6SM – 0.3 0.1 0.2 30 10 10 10 10 80 80 5* 2 50 100 50 100 * 1: V RRM = 5 V * 2: indicates MAX. ■ TRIAC Package MP–25 Electrical characteristics SOT-89 TO-92 TO202AA MP-3 MP–45C TO-220AB TO-220AB-like insulated type IT(RMS) (A) 1.0 0.8 1.0 3 5 3 5 8 10 12 16 3 5 8 10 12 16 ITSM(50 Hz) (A) 7.0 7 9 30 50 30 50 80 80 100 150 30 50 80 80 100 150 Tj (°C) 125 V DRM V RRM (V) 400 AC01DJM 500 – 600 I GT (mA) (dv/dt)C (V/ µs) – 125 125 AC0V AC01 8DGM DGM – – – – 125 125 125 AC03 AC05 DJM DJM AC03 AC03 AC05 DGM DJM-Z DJM-Z AC05 DGM AC08 DGM AC10 DGM AC12 DGM AC16 DGM AC03 DSM AC05 DSM AC08 DSM AC10 DSM AC12 DSM AC16 DSM AC03 EGM AC05 EGM AC08 EGM AC10 EGM AC12 EGM AC16 EGM – AC05 ESM AC08 ESM AC10 ESM AC12 ESM – AC03 AC05 FJM FJM AC03 AC03 AC05 FGM FJM-Z FJM-Z AC05 FGM AC08 FGM AC10 FGM AC12 FGM AC16 FGM AC03 FSM AC05 FSM AC08 FSM AC10 FSM AC12 FSM AC16 FSM 30 – – I 5 5 3 12 10 12 10 20 20 20 30 12 10 20 20 20 II 10 10 5 – – – – – – – – – – – – – – III 5 5 3 12 10 12 10 20 20 20 30 12 10 20 20 20 30 IV 10 10 3 12 10 12 10 20 20 20 30 12 10 20 20 20 30 MIN. 0.5 1 0.5 5 5 5 5 10 10 10 10 5 5 10 10 10 10 Selection Guide X10679EJHV0SG00 321 [MEMO] 322 Selection Guide X10679EJHV0SG00 RF and Microwave Devices IC ....................................................................................... • AGC AMP. (µPC××××, µPG××××)............................... • IQ Modulator/Demodulator (µPC××××).................... • Up Converter (µPC××××) ........................................... • Prescaler (µPB××××, µPG××××) ................................ • Down Converter (µPC××××)...................................... • PLL Synthesizer (µPB××××) ..................................... • Switch (µPG××××) ...................................................... • Wide Band AMP. (µPC××××, µPG××××).................... • Driver AMP. (µPG××××).............................................. • Power AMP. (µPG××××, MC-××××) ............................ • Transistor Array (µPA×××) ........................................ • Typical Characteristics ............................................. Discrete ............................................................................ • Dual Gate MES/MOS FET ......................................... • Low Noise BIP. TR. (2SC, NE) ................................. • Twin TR. (µPA×××) ..................................................... • Low Noise GaAs/HJ FET (NE) ................................. • Power TR./FET (2SC, NE, NEL, NEM, NES, NEZ) .... • Cross-reference Table .............................................. Application ...................................................................... Selection Guide X10679EJHV0SG00 324 324 324 324 325 326 327 327 328 330 330 330 331 335 335 336 338 339 341 344 351 323 7 RF and Microwave Devices IC ■ AGC AMP. (µPC××××, µPG××××) Part Number Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) Performances µPC8119T Mobile Comm. 3 11 100–1920 µPC8120T Mobile Comm. 3 11 100-1920 µPC8130TA Mobile Comm. 3 11 800–1500 µPC8131TA Mobile Comm. 3 11 800–1500 µPG175TA µPC2723T Mobile Comm. BS Tuner, Mobile Comm. CATV Tuner, Video Amp. CATV Tuner 3 5 20 15 925–960 1100 5 34.5 100 or less 9 38 5–100 Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3 15 150 3 28 900–2000 3 16 400 3 24 900 3 36 1800–2000 3 35 915-960 3 35 889-960 3 28 800–1900 3 32.5 1800-2000 3 28 800-1500 5 60 DC–1000 LOL=–49dBc, ImR=37.5dBc, Po=–11dBm LOL=–40dBc, ImR=–40dBc, Po=–13.5dBm LOL=–40dBc, ImR=–40dBc, Po=–18.5dBm LOL=–35dBc, ImR=–40dBc, Po=–10dBm LOL=–37dBc, ImR=–35dBc, PRFout=–9dBm LOL=–35dBc, ImR=–40dBc, PRFout=–9dBm LOL=–35dBc, ImR=–40dBc, PRFout=–9dBm LOL=–40dBc, ImR=–30dBc, PRFout=–5dBm LOL=–40dBc, ImR=–40dBc, PTX•MIXout=–13dBm LOL=–40dBc, ImR=–40dBc, PRFout=–11.5dBm ∆φ < = ±1.5°, ∆V < = ±0.5dB 5 70 440–520 ∆φ < = ±2°, ∆V < = ±0.5dB 5 65 440–520 ∆φ < = ±2°, ∆V < = ±0.5dB Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3 15 800–900 µPC8106T Mobile Comm. Up/Down Mobile Comm. 3 9 400–2000 µPC8106TB Mobile Comm. 3 9 400–2000 µPC8109T Mobile Comm. 3 5 400–2000 µPC8109TB Mobile Comm. 3 5 400–2000 µPC8163TB Mobile Comm. 3 16.5 800–2000 µPC2799GR CATV Tuner 5 60 250–850 µPC3206GR µPC3211GR G P (MAX.)=12.5dB, GCR=50dB, Po(1dB)=3dBm@f=950MHz GP(MAX.)=13dB, GCR=50dB, Po(1dB)=3.5dBm@f=950MHz GP(MAX.)=12.5dB, GCR=50dB, Po(1dB)=5dBm@f=950MHz GP(MAX.)=12dB, GCR=45dB, Po(1dB)=5dBm@f=950MHz GP=30dB, GCR=35dB, Po=8dBm GP=13dB, NF=11dB, Po=–2dBm@f=500MHz GCR=50dB(MIN.), GP(MAX.)=38.5dB(@AGC block) GCR=55dB, IM2=44dBc, IM3=57dBc Package 6-pin minimold 6-pin minimold 20-pin SSOP ■ IQ Modulator/Demodulator (µPC××××) Part Number µPC8101GR µPC8104GR µPC8105GR µPC8110GR µPC8125GR µPC8126GR µPC8126K µPC8129GR µPC8139GR-7JH µPC8158K µPC2766GR/GS µPC2781GR µPC3205GR Applications Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator Mobile Comm. IQ Modulator PHS Transceiver Mobile Comm. IQ Modulator BS Tuner IQ Demodulator BS Tuner IQ Demodulator BS Tuner IQ Demodulator Performances Package 20-pin SSOP 16-pin SSOP 20-pin SSOP 28-pin QFN 20–pin SSOP 30-pin TSSOP 28-pin QFN 20-pin SSOP/SOP 20-pin SSOP ■ Up Converter (µPC××××) Part Number µPC8100GR 324 Applications Performances CG(UP)=20.5dB, CG(DOWN)=18dB CG=7dB, Po(sat)=–4dBm@fRFOUT=1900MHz CG=7dB, Po(sat)=–4dBm@fRFOUT=1900MHz CG=5dB, Po(sat)=–7.5dBm@fRFOUT=1900MHz CG=4dB, Po(sat)=–7.5dBm@fRFOUT=1900MHz CG=9dB, Po(sat)=0.5dBm OIP3 =9.5dBm@f=830MHz GCR=14.5dB, Po(sat)=6dBm (@VAGC=5V) Selection Guide X10679EJHV0SG00 Package 20-pin SSOP 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 20-pin SSOP RF and Microwave Devices IC ■ Prescaler (µPB××××, µPG××××) Part Number µPB1502GR µPB1502GR(1) µPB1504GR µPB1509GV µPB1505GR µPB1506GV µPB1507GV µPB1508GV µPB1510GV µPG501B µPG502B µPG503B µPG504B µPG506B µPG508B Applications Mobile Comm. 1.7GHz 64/65, 128/129 Mobile Comm. 2.0GHz 64/65, 128/129 Mobile Comm. 1.1GHz 64/65, 128/129 Mobile Comm. 1GHz, ÷2, ÷4, ÷8 BS Tuner 3GHz, ÷64, ÷128, ÷256 BS Tuner 3GHz, ÷64, ÷128, ÷256 BS Tuner 3GHz, ÷64, ÷128, ÷256 BS Tuner 3GHz, ÷2 BS Tuner 3GHz, ÷4 Microwave Comm. 5GHz, ÷4 Microwave Comm. 5GHz, ÷2 Microwave Comm. 9GHz, ÷4 Microwave Comm. 9GHz, ÷2 Microwave Comm. 14GHz, ÷8 Microwave Comm. 13GHz, ÷4 Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3 6.7 500–1700 64/65, 128/129, Vo=0.8Vp–p 3 6.7 500–2000 64/65, 128/129, Vo=0.8Vp–p 3 Performances 2.47@64/65 500–1100 64/65, 128/129, Vo=0.9Vp–p 2.24@128/129 5 500–1000@1/8 1/2, 1/4, 1/8 Vo=0.3Vp–p 3 Package 8-pin SOP 8-pin SSOP 5 14 500–3000 1/256, 1/128, 1/64, Vo=1.6Vp–p 8-pin SOP 5 19 500–3000 1/256, 1/128, 1/64, Vo=1.6Vp–p 8–pin SSOP 5 19 500–3000 1/256, 1/128, 1/64, Vo=1.6Vp–p 5 12 500–3000 1/2, Po=–7dBm 5 14 500–3000 1/4, Po=–7dBm 10 70 1300–5000 1/4 Static, Pin=10dBm, Po=2dBm 10 100 1000–5000 1/2 Static, Pin=10dBm, Po=2dBm 3.8, –2.2 80 4000–8000 3.8, –2.2 55 2500–8000 3.8, –2.2 105 8200–13200 3.8, –2.2 100 8500–12200 1/2 Dynamic, Po=2dBm 1/2 Dynamic, Po=–1dBm 1/8 Dynamic, Po=1dBm 1/4 Dynamic, Po=1dBm Selection Guide X10679EJHV0SG00 K-12, 8-pin ceramic Pin=10dBm, Pin=10dBm, Pin=6dBm, Pin=6dBm, 325 RF and Microwave Devices IC ■ Down Converter (µPC××××) (1/2) Part Number µPC2721GR/GV Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 5 38 900–2000 5 28 900–2000 5 35 950–2150 Performances 5 40 55–1000 µPC2757T µPC2757TB General Purpose L–Band General Purpose L–Band General Purpose L–Band General Purpose 1GHz Mobile Comm. Mobile Comm. 3 3 5.6 5.6 100–2000 100–2000 CG=18dB, NF=12.5–13.5dB, Po(sat)=10dBm CG=15dB, NF=10dB@f=800MHz CG=15dB, NF=10dB@f=800MHz µPC2758T µPC2758TB Mobile Comm. Mobile Comm. 3 3 11 11 100–2000 100–2000 CG=19dB, NF=9dB@f=800MHz CG=19dB, NF=9dB@f=800MHz µPC8001 µPC8002 µPC8112T Mobile Comm. Mobile Comm. Mobile Comm. 3 3 3 2.1 1.7 8.5 470 250 800–2000 µPC8112TB Mobile Comm. 3 8.5 800–2000 µPC8100GR Mobile Comm. Up/Down TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner UHF/VHF TV/VCR Tuner VHF TV/VCR Tuner VHF TV/VCR Tuner UHF TV/VCR Tuner UHF BS Tuner AGC BS Tuner 3 15 800–900 9 55–890 9 47@VHF 49@UHF 47@VHF 49@UHF 35@VHF 36@UHF 48@VHF 50@UHF 38 9 38 55–890 5 41 55–800 9 38 55–890 5 38 55–500 5 38 55–500 5 38 500–900 5 38 500–900 5 69 900–2000 5 40 900–2100 5 66 900–2100 5 35.5 30–250 µPC2753GR µPC2756T BS Tuner AGC CATV Tuner Video Amp. GPS GPS 3 3 6.9 6 DC–400 100–2000 µPC2756TB GPS 3 6 100–2000 fout=455kHz, RSSIout=0.79–2.75V fout=10.7MHz, RSSIout=1.08–2.68V CG=13dB, NF=11.2dB@fRFin=1900MHz CG=13dB, Po(sat)=–3dBm@fRFin=1900MHz CG(UP)=20.5dB, CG(DOWN)=18dB CG=20/23dB, NF=13/12dB, (VHF/UHF) CG=25/31dB, NF=11/10dB, (VHF/UHF) CG=22/28dB, NF=10/10dB, (VHF/UHF) CG=23/32dB, NF=11/10dB, (VHF/UHF) CG=22/28dB, NF=11/10dB, (VHF/UHF) CG=22/28dB, NF=11/10dB, (VHF/UHF) CG=25/29dB, NF=10.5/10dB, (VHF/UHF) CG=22/28dB, NF=11/10dB, (VHF/UHF) CG=19.5dB, NF=11dB, Po(sat)=10dBm@f=200MHz CG=19.5dB, NF=11dB, Po(sat)=10dBm@f=200MHz CG=26dB, NF=9dB, Po(sat)=10dBm@f=500MHz CG=26dB, NF=9dB, Po(sat)=10dBm@f=500MHz CG=14.5dB, NF=12dB@f=900MHz CG=12dB, NF=10dB, fin=480MHz@f=900MHz CG=10dB, NF=11dB@f=900MHz GCR=32dB, Vo=3Vp–p(@RL=1kΩ) CG=38dB, NF=12dB CG=14dB, NF=10dB, Po=–8dBm@f=900MHz CG=14dB, NF=10dB, Po=–8dBm@f=900MHz µPC2722GR/GV µPC2795GV µPC1694GR µPC2743GS µPC2744GS µPC2775GR/GS µPC2794GS µPC2797GR µPC3200GS µPC3202GR µPC3207GR µPC1686G µPC1686GV µPC1687G µPC1687GV µPC2731GS µPC2734GR µPC2782GR µPC2798GR 326 9 9 9 55–890 55–890 55–890 55–890 Package GP=21dB, NF=9–11dB, 8-pin SOP/SSOP Emitter follower Output GP=18dB, NF=9–11dB, Open Collector Output CG=11dB, NF=13.5dB@f=950MHz 8-pin SSOP Selection Guide X10679EJHV0SG00 14-pin SOP 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 14-pin SSOP 20-pin SSOP 6-pin minimold 6-pin super minimold 20-pin SSOP 20-pin SOP 20-pin SSOP/SOP 20-pin SOP 20-pin SSOP 20-pin SOP 20-pin SSOP 8-pin SOP 8-pin SSOP 8-pin SOP 8-pin SSOP 20-pin SOP 20-pin SSOP 6-pin minimold 6-pin super minimold RF and Microwave Devices IC ■ Down Converter (µPC××××) (2/2) Part Number Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) µPC2768GR Keyless Entry 3 6.8 DC-450 µPC8116GR µPC8103T µPC8108T Keyless Entry Pager Pager 3 1.05 1.05 4.1 1 1.5 100–500 150–330 150–930 Performances CG=36dB, NF=12dB@f=450MHz GMIX=11dB, RSSIsen=–95dBm CG=15.5dB@fRFin=280MHz CG=15dB@fRFin=930MHz Package 20-pin SSOP 6-pin minimold ■ PLL Synthesizer (µPB××××) Functions Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) PLL Synthesizer +Down Converters GPS 3 45 1575.42 Part Number µPB1005K Performances f 2ndIF=4.092MHz, fTCXOin=16.368MHz Package 36-pin QFN ■ Switch (µPG××××) Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) Mobile Comm. SPDT Mobile Comm. SPDT Mobile Comm. SPDT 0, +3 0.05 100–2500 0, –3 0.05 100–2500 0, +3 0.005 100–2500 µPG138GV Mobile Comm. SPDT 0, –3 0.005 100–2500 µPG139GV Mobile Comm. DPDT 0.015 100–2500 µPG152TA Mobile Comm. SPDT Mobile Comm. SPDT Mobile Comm. SPDT VCONT= 3.6V/0V, VDD=3V 0, +3 0.005 100–2500 VCONT= 3.0V/0V VCONT= 3.0V/0V, VDD=3V VCONT= 3.0V/0V 0.02 100–2500 0.002 100–2500 0.02 100–2500 Part Number µPG132G µPG133G µPG137GV µPG153TB µPG154TB µPG155TB Applications Mobile Comm. SPDT Performances LINS=0.6dB, ISL=22dB, Pin(1dB)=30dBm LINS=0.6dB, ISL=25dB, Pin(1dB)=25dBm LINS=0.55dB, ISL=25dB, Pin(1dB)=32dBm MIN.@f=1GHz LINS=0.55dB, ISL=30dB, Pin(1dB)=32dBm MIN.@f=1GHz TXLINS=0.7dB, TXISL=15.5dB, TXPin(1dB)=34dBm@f=1GHz LINS=0.6dB, ISL=22dB, Pin(1dB)=30dBm@f=2GHz LINS=0.7dB, ISL=13dB, Pin(1dB)=33dBm@f=2GHz LINS=0.65dB, ISL=21dB, Pin(1dB)=30dBm@f=2GHz Package 8-pin SSOP 8-pin SOP 6-pin minimold 6-pin super minimold LINS=0.75dB, ISL=16dB, Pin(1dB)=34dBm@f=2GHz Selection Guide X10679EJHV0SG00 327 RF and Microwave Devices IC ■ Wide Band AMP. (µPC××××, µPG××××) (1/2) Part Number Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) µPC1652G General Purpose 5 20 1200 µPC1658G µPC1663 General Purpose General Purpose Video Amp. 10 6 9–18 13 1000 200 µPC1675G General Purpose 5 17 1900 µPC1676G General Purpose 5 19 1200 µPC1678G General Medium General Medium General Medium General Purpose Output Purpose Output Purpose Output Purpose 5 49 2000 5 49 2000 5 40 1800 5 19 1100 Purpose Output Purpose Output Purpose Output Purpose Output Purpose Output Purpose 5 26 2900 5 26 2900 5 25 2300 5 25 2300 5 22 1000 µPC2710TB General Medium General Medium General Medium General Medium General Medium General 5 22 1000 µPC2711T General Purpose 5 12 2900 µPC2711TB General Purpose 5 12 2900 µPC2712T General Purpose 5 12 2600 µPC2712TB General Purpose 5 12 2600 µPC2713T General Purpose 5 12 1200 µPC2714T General Purpose 3.4 4.5 1800 µPC2715T General Purpose 3.4 4.5 1200 µPC2726T 5 11.5 1600 µPC3210TB General Purpose Differential Amp. General Purpose 5 15 2300 µPG100B General Purpose ±5 45 50–3000 µPG101B General Purpose 8, –5 100 50–3000 µPG103B General Purpose ±5 55 50–3000 µPG110B General Purpose 8 135 2000–8000 µPC1678GV µPC1679G µPC1688G µPC2708T µPC2708TB µPC2709T µPC2709TB µPC2710T 328 Performances GP=18dB, NF=5.5dB, Po=+5dBm@f=500MHz GP=31dB, NF=1.5dB BW=700MHz, Avd=320 Gain determined by external resister. Input noise 3µ Vr.m.s. GP=12dB, NF=5.5dB, Po=+4dBm@f=500MHz GP=22dB, NF=4.5dB, Po=+5dBm @f=500MHz GP=23dB, NF=6dB, Po=+17.5dBm @f=500MHz GP=23dB, NF=6dB, Po=+17.5dBm @f=500MHz GP=21.5dB, NF=6dB, Po=+15.5dBm@f=500MHz GP=21dB, NF=4dB, Po=+4dBm @f=500MHz GP=15dB, NF=6.5dB, Po=+10dBm @f=1GHz GP=15dB, NF=6.5dB, Po=+10dBm @f=1GHz GP=23dB, NF=5dB, Po=+11.5dBm@f=1GHz GP=23dB, NF=5dB, Po=+11.5dBm@f=1GHz GP=33dB, NF=3.5dB, Po=+13.5dBm@f=500MHz GP=33dB, NF=3.5dB, Po=+13.5dBm@f=500MHz GP=13dB, NF=5dB, Po=+1dBm@f=1GHz GP=13dB, NF=5dB, Po=+1dBm@f=1GHz GP=20dB, NF=4.5dB, Po=+3dBm@f=1GHz GP=20dB, NF=4.5dB, Po=+3dBm@f=1GHz GP=29dB, NF=3.2dB, Po=+7dBm@f=500MHz GP=11.5dB, NF=5dB, Po=–7dBm@f=500MHz GP=19dB, NF=4.5dB, Po=–6dBm@f=500MHz GP=15dB, NF=4.5dB, Po=–2dBm@f=400MHz GP=20dB, NF=3.4dB, Po=+3.5dBm@f=1.5GHz NF=2.7dB, GP=16dB, Po(1dB)=6dBm NF=5dB, GP=14dB, Po(1dB)=18dBm NF=4.5dB, GP=10dB, Po(1dB)=9dBm GP=15dB, Po(1dB)=14dBm Selection Guide X10679EJHV0SG00 Package 8-pin SOP 8-pin SOP/SSOP 4-pin super small package 8-pin SOP 8-pin SSOP 8-pin SOP 4-pin super small package 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold T-31, 8-pin ceramic 4-pin ceramic RF and Microwave Devices IC ■ Wide Band AMP. (µPC××××, µPG××××) (2/2) Part Number Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) µPC2745T Mobile Comm. 3 7.5 2700 µPC2745TB Mobile Comm. 3 7.5 2700 µPC2746T Mobile Comm. 3 7.5 1500 µPC2746TB Mobile Comm. 3 7.5 1500 µPC2747T Mobile Comm. 3 5 1800 µPC2747TB Mobile Comm. 3 5 1800 µPC2748T Mobile Comm. 3 6 200–1500 µPC2748TB Mobile Comm. 3 6 200–1500 µPC2749T Mobile Comm. 3 6 2900 µPC2749TB Mobile Comm. 3 6 2900 µPC2762T Mobile Comm. Medium Output Mobile Comm. Medium Output Mobile Comm. Medium Output Mobile Comm. Medium Output Mobile Comm. Medium Output Mobile Comm. Medium Output Mobile Comm. Buff Amp. 3 26.5 2900 3 26.5 2900 3 27 2700 3 27 2700 3 36 2200 3 36 2200 2.4–3.3 2.8 100–1900 µPC2762TB µPC2763T µPC2763TB µPC2771T µPC2771TB µPC8128TB µPC8151TB Mobile Comm. Buff Amp. 2.4–3.3 4.2 100–1900 µPC8152TB Mobile Comm. Buff Amp. 2.4–3.3 5.6 100–1900 µPG170TB Mobile Comm. 3.6 30 800–1500 µPC2776T 5 25 2700 5 25 2700 µPC2791TB BS Converter Medium Output BS Converter Medium Output BS Converter 5 17 1900 µPC2792TB BS Converter 5 19 1200 µPC8102T Pager 1 0.5 150–330 µPC2776TB Performances GP=12dB, NF=6dB, Po=–1dBm@f=500MHz GP=12dB, NF=6dB, Po=–1dBm@f=500MHz GP=19dB, NF=4dB, Po=0dBm@f=500MHz GP=19dB, NF=4dB, Po=0dBm@f=500MHz GP=12dB, NF=3.3dB, Po=–7dBm@f=900MHz GP=12dB, NF=3.3dB, Po=–7dBm@f=900MHz GP=19dB, NF=2.8dB, Po=–3.5dBm@f=900MHz GP=19dB, NF=2.8dB, Po=–3.5dBm@f=900MHz GP=16dB, NF=4dB, Po=–6dBm@f=1900MHz GP=16dB, NF=4dB, Po=–6dBm@f=1900MHz GP=13dB, NF=6.5dB, Po=+8dBm@f=900MHz GP=13dB, NF=6.5dB, Po=+8dBm@f=900MHz GP=20dB, NF=5.5dB, Po=+9.5dBm@f=900MHz GP=20dB, NF=5.5dB, Po=+9.5dBm@f=900MHz GP=21dB, NF=6dB, Po=+12.5dBm@f=900MHz GP=21dB, NF=6dB, Po=+12.5dBm@f=900MHz GP=12.5dB, ISL=39dB, Po(1dB)=–4dBm, NF=6.0dB, ICC=2.8mA@f=1000MHz GP=12.5dB, ISL=38dB, Po(1dB)=+2.5dBm, NF=6.0dB, ICC=4.2mA@f=1000MHz GP=23dB, ISL=40dB, Po(1dB)=–4.5dBm, NF=3.5dB, ICC=5.6mA@f=1000MHz GL=11dB, Po(1dB)=14.5dBm GP=23dB, NF=6dB, Po=+6.5dBm@f=1GHz GP=23dB, NF=6dB, Po=+6.5dBm@f=1GHz GP=12dB, NF=5.5dB, Po=+4dBm@f=500MHz GP=20dB, NF=3.5dB, Po=+5dBm@f=500MHz GP=14.7dB, NF=4.0dB@f=280MHz Selection Guide X10679EJHV0SG00 Package 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 6-pin super minimold 6-pin minimold 329 RF and Microwave Devices IC ■ Driver AMP. (µPG××××) Part Number Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) µPG173TA Mobile Comm. 2.8 25 800–1000 µPG174TA Mobile Comm. 3 30 1400–2000 µPG175TA Mobile Comm. 3 20 925–960 Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3, –2 160 1895–1918 24 24 24 24 24 24 24 24 240 240 395 395 240 240 395 395 50–750 50–750 50–750 50–750 50–860 50–860 50–860 50–860 Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3 3 3 3 0.001 0.001 0.001 0.001 9000 9000 9000 9000 Performances Po =9dBm, GP=27dB MIN. f=889–960MHz Po =10dBm, GP=32dB MIN. f=1429–1453MHz GP=30dB, GCR=35dB, Po =8dBm Package 6-pin minimold ■ Power AMP. (µPG××××, MC-××××) Part Number Applications µPG171GV Mobile Comm. MC-7712 MC-7716 MC-7722 MC-7726 MC-7852 MC-7856 MC-7862 MC-7866 CATV CATV CATV CATV CATV CATV CATV CATV Performances GP=20dB, Po=21dBm, Padj=–60dBc NF=7.0dB, GL=18.5dB NF=6.5dB, GL=22.0dB NF=7.0dB, GL=18.5dB NF=6.5dB, GL=22.0dB NF=7.0dB, GL=18.0dB NF=7.0dB, GL=21.5dB NF=7.0dB, GL=18.5dB NF=6.5dB, GL=21.5dB Package 8-pin SSOP 7-pin special package ■ Transistor Array (µPA×××) Part Number µPA101 µPA102 µPA103 µPA104 330 Applications General General General General Pupose Pupose Pupose Pupose Performances fT=9GHz fT=9GHz fT=9GHz fT=9GHz Selection Guide X10679EJHV0SG00 Package 14-pin ceramic, 8-pin miniflat RF and Microwave Devices IC ■ Typical Characteristics • POWER GAIN, NOISE FIGURE vs. FREQUENCY (1/4) 50 Noise figure NF (dB) Power gain GP (dB) 40 30 GP 20 µ PC1658 µ PC1678 10 µ PC1678 µ PC1679 NF µ PC1658 0 7 10 30 50 70 100 300 500 700 1G 3G 5G 3G 5G Frequency f (MHz) • POWER GAIN, NOISE FIGURE vs. FREQUENCY (2/4) 25 µ PC1676 µ PC1688 20 Noise figure NF (dB) Power gain GP (dB) GP 15 µ PC1675 10 µ PC1675 NF 5 µ PC1676 µ PC1688 0 7 10 30 50 70 100 300 500 700 1G Frequency f (MHz) Selection Guide X10679EJHV0SG00 331 RF and Microwave Devices IC ■ Typical Characteristics • POWER GAIN, NOISE FIGURE vs. FREQUENCY (3/4) 50 Power gain GP (dB) Noise figure NF (dB) 40 µ PC2710 30 µ PC2713 µ PC3210 µ PC2709 20 GP µ PC2749 µ PC2715 µ PC2712 µ PC2708 µ PC2714 10 µ PC2708/11 NF 7 10 30 µ PC2709/12/14/15 µ PC2710/13 µ PC3210 0 50 70 µ PC2711 100 300 500 µ PC2749 700 1G 3G 5G Frequency f (MHz) • POWER GAIN, NOISE FIGURE vs. FREQUENCY (4/4) 25 Power gain GP (dB) Noise figure NF (dB) µ PC2771 20 µ PC2763 µ PC2746 15 µ PC2748 GP µ PC2749 µ PC2762 µ PC2745 µ PC2747 10 µ PC2745 5 µ PC2746 NF µ PC2747, 2749 µ PC2748 0 7 10 30 50 70 100 300 500 Frequency f (MHz) 332 Selection Guide X10679EJHV0SG00 700 1G 3G 5G RF and Microwave Devices IC ■ Typical Characteristics • MAXIMUM OUTPUT POWER vs. FREQUENCY (1/2) 30 20 Maximum output power Po(sat) (dBm) µ PC2710 µ PC2709 µ PC2763 10 µ PC2762 µ PC2713 µ PC3210 µ PC2708 µ PC2712 0 µ PC2711 µ PC2749 µ PC2715 µ PC2714 – 10 – 20 7 10 30 50 70 100 300 500 700 1G 3G 5G 1G 3G 5G Frequency f (MHz) • MAXIMUM OUTPUT POWER vs. FREQUENCY (2/2) 30 20 Maximum output power Po(sat) (dBm) µ PC2771 µ PC2763 10 µ PC2762 µ PC2746 0 µ PC2745 µ PC2748 µ PC2747 µ PC2749 –10 –20 7 10 30 50 70 100 300 500 700 Frequency f (MHz) Selection Guide X10679EJHV0SG00 333 RF and Microwave Devices IC ■ Typical Characteristics • CONVERSION GAIN, NOISE FIGURE vs. FREQUENCY CG: µ PC2794 30 µ PC2744 CG: µ PC1687 CG: µ PC2775/µ PC2797 Conversion Gain CG (dB) Noise Figure NF (dB) 25 µ PC2743 20 CG: µ PC1686 CG: µ PC1694 15 CG: µ PC1685 NF: µ PC1694 NF: µ PC1685 NF: µ PC1686 10 NF: µ PC1687 NF: µ PC2775 5 NF: µ PC2794/µ PC2797 0 200 400 600 800 1000 Frequency f (MHz) • INPUT LEVEL vs. FREQUENCY 40 µ PB1504 20 µ PB1505/10 µ PB1508 Pin max. Input Level P in (dBm) µ PB1506/1507 0 -20 Pin min. -40 µ PB1509 -60 7 10 30 50 70 100 300 Frequency f (MHz) 334 Selection Guide X10679EJHV0SG00 500 700 1G 3G 5G RF and Microwave Devices Discrete ■ Dual Gate MES/MOS FET • Dual Gate MES FET Part Number 3SK177 (NE25139) 3SK206 (NE25339) 3SK299 (NE25118) Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) TV/VCR Tuner 5 10 900 NF=1.1dB TV/VCR Tuner 5 10 900 NF=1.1dB TV/VCR Tuner 5 10 900 NF=1.1dB Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) TV/VCR Tuner 10 10 200 NF=1.3dB TV/VCR Tuner 10 10 900 NF=2.1dB TV/VCR Tuner TV/VCR Tuner TV/VCR Tuner 10 6 6 10 3 10 900 470 200 NF=2.7dB NF=2.0dB NF=1.2dB TV/VCR Tuner 6 10 470 NF=2.2dB TV/VCR Tuner 6 10 900 NF=1.8dB TV/VCR Tuner 6 10 470 NF=2.2dB TV/VCR Tuner 6 10 900 NF=2.0dB TV/VCR Tuner 3.5 7 470 NF=2.0dB TV/VCR Tuner 3.5 7 900 NF=1.8dB TV/VCR Tuner 3.5 7 470 NF=2.0dB TV/VCR Tuner 3.5 7 900 NF=1.8dB Applications Performances Package 4-pin minimold 4-pin super minimold • Dual Gate MOS FET Part Number 3SK131 (NE92939) 3SK134B (NE92739) 3SK135A 3SK176A 3SK222 (NE92039) 3SK223 (NE92239) 3SK224 (NE92439) 3SK230 (NE93039) 3SK231 (NE93139) 3SK252 (NE93239) 3SK253 (NE93339) 3SK254 (NE93218) 3SK255 (NE93318) Applications Performances Selection Guide X10679EJHV0SG00 Package 4-pin minimold 4-pin super minimold 335 RF and Microwave Devices Discrete ■ Low Noise BIP. TR. (2SC, NE) (1/2) Part Number 2SC1927 2SC2148 2SC2149 2SC2351 2SC2954 2SC3355 2SC3356 2SC3357 2SC3545 2SC3582 2SC3583 2SC3585 2SC3587 2SC3603 2SC3604 2SC3663 2SC3809 2SC3810 2SC3841 2SC4092 2SC4093 2SC4094 2SC4095 2SC4182 2SC4183 2SC4184 2SC4185 2SC4186 2SC4187 2SC4225 2SC4226 2SC4227 2SC4228 2SC4536 2SC4568 2SC4569 2SC4570 2SC4571 2SC4703 2SC4885 2SC4954 2SC4955 2SC4956 2SC4957 2SC4958 2SC4959 2SC5004 2SC5005 2SC5006 2SC5007 2SC5008 2SC5009 2SC5010 336 (NE73440B) (NE73435) (NE02135) (NE02133) (NE85632) (NE85633) (NE85634) (NE94433) (NE68132) (NE68133) (NE68033) (NE68035) (NE85635) (NE68135) (NE85641) (NE68141) (NE02139E) (NE85639E) (NE68139E) (NE68039E) (NE58030) (NE73430) (NE68330) (NE85630) (NE68130) (NE68030) (NE46134) (NE58133) (NE58233) (NE58130) (NE58230) (NE46234) (NE61030) (NE68433) (NE68533) (NE68439E) (NE68539E) (NE68430) (NE68530) (NE58219) (NE58119) (NE85619) (NE68119) (NE68019) (NE68419) (NE68519) Applications General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General General Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 10 10 10 10 10 10 10 10 10 8 8 6 6 10 8 1 10 8 10 10 10 8 6 3 5 3 10 10 1 3 3 3 3 10 10 5 5 5 5 5 3 3 3 3 3 3 5 5 3 3 3 3 3 10 3 20 5 30 7 7 7 –5 7 7 5 5 7 7 0.25 20 20 –5 5 7 7 5 –5 2 –5 5 –5 0.25 5 7 7 5 50 5 5 5 5 50 5 3 3 3 3 3 3 5 5 7 7 5 3 3 – 500 2000 1000 500 1000 1000 1000 31.9 1000 1000 2000 2000 2000 2000 1000 – – 31.9 1000 1000 1000 2000 31.9 900 31.9 1000 31.9 1000 1000 1000 1000 2000 500 1000 1000 1000 1000 1000 1000 2000 2000 2000 2000 2000 2000 1000 1000 1000 1000 2000 2000 2000 Selection Guide X10679EJHV0SG00 Performances 2 × 2SC1275 NF=2.1dB NF=2.6dB NF=1.5dB NF=2.4dB NF=1.1dB NF=1.1dB NF=1.1dB Cc·rbb’=4ps NF=1.2dB NF=1.2dB NF=1.8dB NF=1.7dB NF=2.1dB NF=1.6dB NF=3.0dB 2 × 2SC3603 2 × 2SC3604 Cc·rbb’=4ps NF=1.5dB NF=1.1dB NF=1.2dB NF=1.8dB Cc·rbb’=9ps NF=3.0dB Cc·rbb’=3.5ps fT=2GHz Cc·rbb’=5ps (MAX.) NF=3.0dB NF=1.5dB NF=1.2dB NF=1.4dB NF=1.9dB NF=2.5dB |S21e|2=5.0dB (MIN.) |S21e|2=5.0dB (MIN.) |S21e|2=5.0dB (MIN.) |S21e|2=5.0dB (MIN.) NF=2.3dB NF=3.0dB NF=2.5dB NF=1.5dB NF=2.5dB NF=1.5dB NF=2.5dB NF=1.5dB |S21e|2=5.0dB (MIN.) |S21e|2=5.0dB (MIN.) NF=1.2dB NF=1.4dB NF=1.9dB NF=2.5dB NF=1.5dB Package 40(Ceramic) µ–X 3-pin minimold Power minimold TO-92 3-pin minimold Power minimold 3-pin minimold TO-92 3-pin minimold µ–X 3-pin minimold 41(Ceramic) 3-pin minimold 4-pin minimold 3-pin super minimold Power minimold 3-pin minimold 4-pin minimold Power minimold 4-pin minimold 3-pin ultra super minimold RF and Microwave Devices Discrete ■ Low Noise BIP. TR. (2SC, NE) (2/2) Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) Purpose Purpose Purpose Purpose Purpose Purpose Purpose Purpose 10 8 6 3 3 1 1 1 7 7 5 3 3 3 3 3 1000 1000 2000 2000 2000 2000 2000 2000 NF=1.1dB NF=1.2dB NF=1.8dB NF=2.5dB NF=1.5dB NF=1.5dB NF=1.5dB NF=1.5dB 2SC5180 (NE68618) General Purpose 1 3 2000 NF=1.5dB 2SC5181 (NE68619) General Purpose 1 3 2000 NF=1.5dB 2SC5182 (NE68733) 2SC5183 (NE68739) 2SC5184 (NE68730) General Purpose General Purpose General Purpose 1 1 1 3 3 3 2000 2000 2000 NF=1.3dB NF=1.3dB NF=1.3dB 2SC5185 (NE68718) General Purpose 1 3 2000 NF=1.3dB 2SC5186 (NE68719) General Purpose 1 3 2000 NF=1.3dB 2SC5191 (NE68833) 2SC5192 (NE68839) 2SC5193 (NE68830) General Purpose General Purpose General Purpose 3 3 3 7 7 7 2000 2000 2000 NF=1.5dB NF=1.5dB NF=1.5dB 2SC5194 (NE68818) General Purpose 3 7 2000 NF=1.5dB 2SC5195 (NE68819) General Purpose 3 7 2000 NF=1.5dB 2SC5336 2SC5337 2SC5338 2SC5369 (NE696M01) 2SC5408 General Purpose General Purpose General Purpose General Purpose Mobile Comm. LNA PA-Driver Mobile Comm. LNA PA-Driver Mobile Comm. VCO Mobile Comm. VCO Mobile Comm. VCO Mobile Comm. VCO Mobile Comm. VCO Mobile Comm. VCO Mobile Comm. VCO BS Tuner Buff Amp. BS Tuner Buff Amp. LNA, VCO LNA, VCO Buff Amp. 10 10 5 3 2 20 50 50 3 1 1000 1000 1000 2000 2000 |S21e|2=12dB (TYP.) |S21e|2=7.0dB (MIN.) |S21e|2=8.5dB (MIN.) NF=1.3dB NF=1.1dB 2 3 2000 NF=1.1dB 5 3 3 3 3 2 1 3 3 2 2 2 5 7 7 5 3 3 3 5 7 2 5 10 1000 1000 1000 2000 2000 2000 2000 2000 2000 2000 2000 2000 |S21e|2=5.0dB (MIN.) NF=1.4dB NF=1.4dB NF=1.9dB NF=1.5dB NF=1.4dB NF=1.9dB NF=1.5dB NF=1.5dB NF=1.2dB NF=1.1dB NF=1.2dB Part Number 2SC5011 2SC5012 2SC5013 2SC5014 2SC5015 2SC5177 2SC5178 2SC5179 2SC5409 2SC5431 2SC5432 2SC5433 2SC5434 2SC5435 2SC5436 2SC5437 2SC5454 2SC5455 2SC5507 2SC5508 2SC5509 (NE85618) (NE68118) (NE68018) (NE68418) (NE68518) (NE68633) (NE68639) (NE68630) Applications General General General General General General General General Selection Guide X10679EJHV0SG00 Performances Package 4-pin super minimold 3-pin minimold 4-pin minimold 3-pin super minimold 4-pin super minimold 3-pin ultra super minimold 3-pin minimold 4-pin minimold 3-pin super minimold 4-pin super minimold 3-pin ultra super minimold 3-pin minimold 4-pin minimold 3-pin super minimold 4-pin super minimold 3-pin ultra super minimold 4-pin power minimold 6-pin super minimold 3-pin thin-type ultra super minimold 4-pin minimold 4-pin thin-type super minimold 337 RF and Microwave Devices Discrete ■ Twin TR. (µPA×××) Part Number Applications Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) Performances µPA800T µPA801T µPA801TC General Purpose General Purpose General Purpose 1 3 3 3 7 7 2000 1000 1000 NF=1.9dB NF=1.2dB NF=1.2dB µPA802T µPA803T µPA804T µPA804TC General General General General Purpose Purpose Purpose Purpose 3 5 5 5 7 5 5 5 1000 1000 1000 1000 NF=1.4dB |S21e|2=5.0dB (MIN.) |S21e|2=5.0dB (MIN.) |S21e|2=5.0dB (MIN.) µPA805T µPA806T µPA807T µPA808T µPA809T µPA810T µPA810TC General General General General General General General Purpose Purpose Purpose Purpose Purpose Purpose Purpose 3 3 2 2 1 3 3 3 3 3 3 3 7 7 2000 2000 2000 2000 2000 1000 1000 NF=2.5dB NF=1.5dB NF=1.5dB NF=1.3dB NF=1.7dB NF=1.2dB NF=1.2dB µPA811T µPA812T µPA813T µPA814T µPA814TC µPA821TC µPA821TF General Purpose General Purpose General Purpose General Purpose General Purpose Mobile Comm. VCO Mobile Comm. VCO 3 3 5 3 3 3 3 5 7 5 7 7 7 7 2000 1000 1000 2000 2000 1000 1000 NF=1.9dB NF=1.4dB |S21e|2=5.0dB (MIN.) NF=1.5dB NF=1.5dB NF=1.2dB NF=1.2dB µPA826TC Mobile Comm. VCO 3 3 2000 NF=1.5dB µPA826TF µPA827TF µPA828TF µPA831TC Mobile Mobile Mobile Mobile VCO VCO VCO VCO 3 2 2 Q1:3, Q2:3 3 3 3 Q1:7, Q2:7 µPA831TF Mobile Comm. VCO Q1:3, Q2:3 Q1:7, Q2:7 µPA832TF Mobile Comm. VCO Q1:3, Q2:3 Q1:7, Q2:3 µPA833TF Mobile Comm. VCO Q1:1, Q2:3 Q1:3, Q2:3 µPA834TF Mobile Comm. VCO Q1:3, Q2:3 Q1:7, Q2:7 µPA835TC Mobile Comm. VCO Q1:3, Q2:3 Q1:3, Q2:7 µPA835TF Mobile Comm. VCO Q1:3, Q2:3 Q1:3, Q2:7 µPA836TC Mobile Comm. VCO Q1:3, Q2:1 Q1:3, Q2:3 µPA836TF Mobile Comm. VCO Q1:3, Q2:1 Q1:3, Q2:3 µPA840TC Mobile Comm. VCO Q1:3, Q2:3 Q1:3, Q2:7 2000 2000 2000 Q1:1000, Q2:1000 Q1:1000, Q2:1000 Q1:1000, Q2:2000 Q1:2000, Q2:2000 Q1:1000, Q2:1000 Q1:2000, Q2:1000 Q1:2000, Q2:1000 Q1:2000, Q2:2000 Q1:2000, Q2:2000 Q1:2000, Q2:1000 338 Comm. Comm. Comm. Comm. Selection Guide X10679EJHV0SG00 NF=1.5dB NF=1.5dB NF=1.3dB Q1:NF=1.2dB Q2:NF=1.4dB Q1:NF=1.2dB Q2:NF=1.4dB Q1:NF=1.2dB Q2:NF=1.5dB Q1:NF=1.7dB Q2:NF=1.5dB Q1:NF=1.4dB Q2:NF=1.2dB Q1:NF=1.5dB Q2:NF=1.2dB Q1:NF=1.5dB Q2:NF=1.2dB Q1:NF=1.5dB Q2:NF=1.7dB Q1:NF=1.5dB Q2:NF=1.7dB Q1:NF=1.5dB Q2:NF=1.4dB Package 6-pin super minimold 6-pin thin-type ultra super minimold 6-pin super minimold 6-pin thin-type ultra super minimold 6-pin super minimold 6-pin thin-type ultra super minimold 6-pin super minimold 6-pin thin-type ultra super minimold 6-pin thin-type super minimold 6-pin thin-type ultra super minimold 6-pin thin-type super minimold 6-pin thin-type super minimold 6-pin thin-type super minimold 6-pin thin-type ultra super minimold 6-pin thin-type super minimold 6-pin thin-type ultra super minimold 6-pin thin-type super minimold 6-pin thin-type ultra super minimold RF and Microwave Devices Discrete ■ Low Noise GaAs/HJ FET (NE) (1/2) Part Number NE674 NE71300 NE71383B NE76118 NE23383B NE24200 NE24283B NE27200 NE32500 NE32900 NE34018 NE38018 NE72118 NE721S01 NE72218 NE76000 NE76038 NE76083A NE76084 NE76184A NE32484A NE32584C NE325S01 NE329S01 NE3210S01 NE33284A NE334S01 Applications General Purpose GaAs FET General Purpose GaAs FET General Purpose GaAs FET General Purpose GaAs FET General Purpose HJ-FET General Purpose HJ-FET General Purpose HJ-FET General Purpose HJ-FET General Purpose HJ-FET General Purpose HJ-FET Mobile Comm. HJ-FET Mobile Comm. HJ-FET BS Converter OSC Stage GaAs FET BS Converter OSC Stage GaAs FET BS Converter OSC Stage GaAs FET BS Converter GaAs FET BS Converter GaAs FET BS Converter GaAs FET BS Converter GaAs FET BS Converter GaAs FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3 10 4000–12000 3 10 3 Performances Package Chip, 83B 12000 NF=1.4dB, Ga=10dB@f=12GHz NF=1.6dB 10 12000 NF=1.6dB 83B 3 10 2000 NF=0.8dB 18 2 10 4000–12000 83B 2 10 12000 NF=0.35dB, Ga=15dB@f=4GHz NF=0.6dB 2 10 4000–18000 2 10 12000 NF=0.6dB, Ga=11dB@f=12GHz NF=0.45dB 2 10 12000 NF=0.45dB 2 10 4000–18000 2 5 800–3000 2 5 800–3000 3 30 4000–12000 3 30 12000 3 30 4000–12000 3 10 3 NF=0.35dB, Ga=13dB@f=12GHz NF=0.6dB, Ga=16dB, Gs=18dB@f=2GHz NF=0.55dB, Ga=14.5dB, Gs=16dB@f=2GHz Gs=5.5dB, Po(1dB)=13.5dBm@=12GHz Chip Chip 83B Chip 18 Gs=7dB S01 Gs=4.5dB, Po(1dB)=15.0dBm@=12GHz 18 12000 NF=1.6dB Chip 10 12000 NF=1.7dB 38 3 10 12000 NF=1.6dB 83A 3 10 12000 NF=1.6dB 84 3 10 4000 NF=0.8dB, Ga=12dB 84A 2 10 12000 NF=0.6dB, Ga=11.0dB 2 10 12000 NF=0.45dB, Ga=12.5dB 84C 2 10 12000 NF=0.45dB, Ga=12.5dB S01 2 10 4000–18000 2 10 4000–18000 2 10 4000 NF=0.35dB, Ga=13.0dB@f=12GHz NF=0.35dB, Ga=13.5dB@f=12GHz NF=0.35dB, Ga=15.0dB 84A 2 15 4000 NF=0.25dB, Ga=16.0dB S01 Selection Guide X10679EJHV0SG00 339 RF and Microwave Devices Discrete ■ Low Noise GaAs/HJ FET (NE) (2/2) Part Number NE42484A NE42484C NE425S01 NE428M01 NE429M01 NE4210M01 NE434S01 340 Applications BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET BS Converter HJ-FET Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 2 10 12000 NF=0.8dB, Ga=10.5dB 84A 2 10 12000 NF=0.7dB, Ga=12.0dB 84C 2 10 12000 NF=0.6dB, Ga=12.0dB S01 2 10 4000–12000 M01 2 10 4000–12000 2 10 4000–12000 2 15 4000 NF=0.9dB, Ga=8.5dB@f=12GHz NF=0.9dB, Ga=10dB@f=12GHz NF=0.8dB, Ga=11dB@f=12GHz NF=0.35dB, Ga=15.5dB Selection Guide X10679EJHV0SG00 Performances Package S01 RF and Microwave Devices Discrete ■ Power TR./FET (2SC, NE, NEL, NEM, NES, NEZ) (1/3) Part Number 2SC5288 (NE68939) 2SC5289 (NE69039) NE850R599A NE8500199 NE8500295-4 NE8500295-6 NE8500295-8 NEZ3642-15D NEZ3642-15DD NEZ3642-4D NEZ3642-8D NEZ3642-8DD NEZ4450-15D NEZ4450-15DD NEZ4450-4D NEZ4450-4DD NEZ4450-8D NEZ4450-8DD NEZ5964-15D NEZ5964-15DD NEZ5964-4D NEZ5964-4DD NEZ5964-8D NEZ5964-8DD NEZ6472-15D NEZ6472-15DD Applications General Purpose Medium Po. Bip. Tr. General Purpose Medium Po. Bip. Tr. C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 3.6 lq=1 1900 Pin(1dB)=24dBm (class AB) 3.6 lq=1 1900 Pin(1dB)=27dBm (class AB) 10 100 2000–10000 Po(1dB)=25.5dBm 10 200 2000–10000 Po(1dB)=28.5dBm 10 450 3500–5500 Po(1dB)=33.8dBm 10 450 5500–7500 Po(1dB)=33.8dBm 10 450 7500–8500 Po(1dB)=33.5dBm 10 < = 6000 3600–4200 Po(1dB)=42.5dBm 10 < = 6000 3600–4200 Po(1dB)=42.5dBm 10 < = 1500 3600–4200 Po(1dB)=36.5dBm 10 < = 3000 3600–4200 Po(1dB)=39.5dBm 10 < = 3000 3600–4200 Po(1dB)=39.5dBm 10 < = 6000 4400–5000 Po(1dB)=42.5dBm 10 < = 6000 4400–5000 Po(1dB)=42.5dBm 10 < = 1500 4400–5000 Po(1dB)=36.5dBm 10 < = 1500 4400–5000 Po(1dB)=36.5dBm 10 < = 3000 4400–5000 Po(1dB)=39.5dBm 10 < = 3000 4400–5000 Po(1dB)=39.5dBm 10 < = 6000 5900–6450 Po(1dB)=42.5dBm 10 < = 6000 5900–6450 Po(1dB)=42.5dBm 10 < = 1500 5900–6450 Po(1dB)=36.5dBm 10 < = 1500 5900–6450 Po(1dB)=36.5dBm 10 < = 3000 5900–6450 Po(1dB)=39.5dBm 10 < = 3000 5900–6450 Po(1dB)=39.5dBm 10 < = 6000 6400–7200 Po(1dB)=42.5dBm 10 < = 6000 6400–7200 Po(1dB)=42.5dBm Selection Guide X10679EJHV0SG00 Performances Package 4-pin minimold 99 95 T-65 T-61 T-65 T-61 T-65 T-61 T-65 341 RF and Microwave Devices Discrete ■ Power TR./FET (2SC, NE, NEL, NEM, NES, NEZ) (2/3) Part Number NEZ6472-4D NEZ6472-4DD NEZ6472-8D NEZ6472-8DD NEZ7177-4D NEZ7177-4DD NEZ7177-8D NEZ7177-8DD NEZ7785-15D NEZ7785-4D NEZ7785-4DD NEZ7785-8D NEZ7785-8DD NE1280100 NE1280200 NE1280400 NEZ1414-2E NEZ1414-3E NEZ1414-4E NEZ1414-5E NEZ1414-8E 2SC3817 (NEL150181-12) NEL2001 NEL2004 NEL2012 NEL2012F03-24 NEL2035 342 Applications C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET C-Band Po. Amp. Power GaAs FET K-Band Medium Po. Amp. Power GaAs FET K-Band Medium Po. Amp. Power GaAs FET K-Band Medium Po. Amp. Power GaAs FET Ku-Band Po. Amp. Power GaAs FET Ku-Band Po. Amp. Power GaAs FET Ku-Band Po. Amp. Power GaAs FET Ku-Band Po. Amp. Power GaAs FET Ku-Band Po. Amp. Power GaAs FET L-Band Po. Amp. Power Bip. Tr. L-Band Po. Amp. Power Bip. Tr. L-Band Po. Amp. Power Bip. Tr. L-Band Po. Amp. Power Bip. Tr. L-Band Po. Amp. Power Bip. Tr. L-Band Po. Amp. Power Bip. Tr. Supply Voltage (V) Operating Frequency (MHz) 10 Supply Current (mA) < = 1500 6400–7200 Po(1dB)=36.5dBm 10 < = 1500 6400–7200 Po(1dB)=36.5dBm 10 < = 3000 6400–7200 Po(1dB)=39.5dBm 10 < = 3000 6400–7200 Po(1dB)=39.5dBm 10 < = 1500 7100–7700 Po(1dB)=36.5dBm 10 < = 1500 7100–7700 Po(1dB)=36.5dBm 10 < = 3000 7100–7700 Po(1dB)=39.5dBm 10 < = 3000 7100–7700 Po(1dB)=39.5dBm 10 < = 6000 7700–8500 Po(1dB)=42.5dBm T-65 10 < = 1500 7700–8500 Po(1dB)=36.5dBm T-61 10 < = 1500 7700–8500 Po(1dB)=36.5dBm 10 < = 3000 7700–8500 Po(1dB)=39.5dBm 10 < = 3000 7700–8500 Po(1dB)=39.5dBm 5 60 18700 Pout=21.5dBm 5 120 18700 Pout=24.5dBm 5 240 18700 Pout=27.5dBm 9 700 14000–14500 Po(1dB)=34.0dBm 10 700 14000–14500 Po(1dB)=34.0dBm 9 1000 14000–14500 Po=37.5dBm 10 1500 14000–14500 Po(1dB)=37.0dBm 9 2800 14000–14500 Po=39.5dBm 13.5 Iq=3 1550 Pout=30dBm (Class AB) 81 (Ceramic) 24 Iq=20 1970 Pin(1dB)=2.5W (Class AB) 01 24 Iq=40 1970 Pin(1dB)=7W (Class AB) F02 24 Iq=75 1970 Pin(1dB)=16W (Class AB) 24 Iq=75 1970 Pin(1dB)=16W 24 Iq=100 1970 Pin(1dB)=33W (Class AB) Selection Guide X10679EJHV0SG00 Performances Package T-61 Chip T-78 T-61 F03 RF and Microwave Devices Discrete ■ Power TR./FET (2SC, NE, NEL, NEM, NES, NEZ) (3/3) Part Number NE650R279A NE650R479A NE6500379A NE6500496 NE6501077 NE651R479A NE6510179A NE6510379A NES1417B-30 NES1821B-30 NES1821P-30 NES1821P-50 NES1823P-100 NES2527B-30 2SC2586 (NE050214E-12) 2SC2762 (NE050214-12) 2SC3218-M (NEM085068-28) 2SC3286-M (NEM0214068-28) NEM0899F06-30 NEM0995F06-30 2SK2597 (NEM0995F01-30) NEZ1011-2E NEZ1011-3E NEZ1011-4E NEZ1011-5E NEZ1011-8E NE960R275 NE960R575 Applications L, S-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET L-Band Po. Amp. Power GaAs HJ-FET L-Band Po. Amp. Power GaAs HJ-FET L-Band Po. Amp. Power GaAs HJ-FET L-Band Po. Amp. Power GaAs FET L-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET L, S-Band Po. Amp. Power GaAs FET S-Band Po. Amp. Power GaAs FET UHF Po. Amp. Power Bip. Tr. UHF Po. Amp. Power Bip. Tr. UHF Po. Amp. Power Bip. Tr. VHF Po. Amp. Power Bip. Tr. UHF Po. Amp. Power Bip. Tr. UHF Po. Amp. Power Bip. Tr. UHF Po. Amp. Power MOS FET X-Band Po. Amp. Power GaAs FET X-Band Po. Amp. Power GaAs FET X-Band Po. Amp. Power GaAs FET X-Band Po. Amp. Power GaAs FET X-Band Po. Amp. Power GaAs FET X, Ku-Band Po. Amp. Power GaAs FET X, Ku-Band Po. Amp. Power GaAs FET Supply Voltage (V) Supply Current (mA) Operating Frequency (MHz) 6 50 800–2500 6 100 800–2500 6 500 800–2500 10 < = 400 10 < = 1000 Performances Package 79A 2300 Po(1dB)=23dBm, GL=16dB, ηadd=45%@f=1.9GHz Po(1dB)=26dBm, GL=14dB, ηadd=45%@f=1.9GHz Po(1dB)=35dBm, GL=10dB, ηadd=50%@f=1.9GHz Po(1dB)=36dBm 2300 Po(1dB)=39.5dBm 77 79A 3.5 230 800–2500 3.5 200 800–2500 3.5 760 800–2500 10 1000 1500 Po=27dBm, GL=12dB, ηadd=60%@f=1.9GHz Po=32.5dBm, GL=10dB, ηadd=58%@f=1.9GHz Po=32.5dBm, GL=8dB, ηadd=52%@f=1.9GHz Po=45dBm 10 1000 1900 Po=45dBm 10 4000 1800-2300 10 2000 1800-2200 10 6000 1800-2300 10 6000 2500-2700 12.6 – 12.6 96 T-79 Po=45dBm, GL=13dB, ηD=40%@f=1.96GHz Po=47dBm, GL=10.5dB, ηD=52%@f=1.96GHz Po=50dBm, GL=11dB, ηD=50%@f=2.2GHz Po(1dB)=45.0dBm T-86 500 Pout=32dBm (Class C) CAN – 500 Pout=31.5dBm (Class C) 28 Iq=2×150 860 Pout=47.2dBm (Class AB) 68 (Ceramic) 28 Iq=2×500 230 Pout=51.4dBm (Class AB) Ceramic 30 Iq=2×150 860 Pout=100W F06 30 Iq=2×200 960 Pout=90W 30 Iq=2×200 960 Po=90W 9 700 10700–11700 Po(1dB)=34.5dBm 10 700 10700–11700 Po(1dB)=34.0dBm 9 1000 10 1500 10700–11700 Po=36.5dBm, GL=8.0dB@f=10.7–11.7GHz 10700–11700 Po(1dB)=37.0dBm 9 2000 10700–11700 Po=40.5dBm T-61 9 90 8000–16000 Po(1dB)=25.0dBm 75 9 180 8000–16000 Po(1dB)=27.5dBm Selection Guide X10679EJHV0SG00 T-92 T-79 F01 T-78 343 RF and Microwave Devices Discrete ■ Cross-reference Table • Dual Gate MES FET Remarks 4-pin minimold 4-pin super minimold Wg = 400 µm Wg = 800 µm 3SK177 3SK206 3SK299 • Dual Gate MOS FET Applications VHF Band (to 200 MHz) CATV Band (to 470 MHz) UHF Band (to 900 MHz) λ/4 matching λ/2 matching 4-pin minimold 4-pin super minimold 3SK131 3SK222 3SK223 3SK230 3SK252 3SK135A 3SK224 3SK231 3SK253 3SK134B 3SK242 3SK246 3SK243 3SK254 3SK244 3SK255 3SK245 Remark: Devices listed in the same row are the same chip. Example: 3SK131, 3SK242 • Dual Gate MES/MOS FET, Low Noise BIP. TR. (for TV tuner) Applications Minimold (3-pin) BIP. TR. Small minimold (3-pin) RF VHF band MIX 2SC3545 OSC 2SC3545 RF (λ /4) UHF band RF (λ /2) RF (GaAs FET) MIX OSC 344 2SC4182 2SC4184 2SC4182 2SC4184 2SC4183 Dual Gate FET Minimold Super minimold (4-pin) (4-pin) 3SK131 3SK222 3SK223 3SK230 3SK252 3SK131 3SK135A 3SK224 3SK231 3SK253 3SK134B 3SK177 3SK206 2SC3545 2SC3841 2SC3545 2SC3841 2SC4183 2SC4185 2SC4184 2SC4186 2SC4182 2SC4184 2SC4185 Selection Guide X10679EJHV0SG00 3SK254 3SK242 3SK255 RF and Microwave Devices Discrete ■ Cross-reference Table • Low Noise BIP. TR. (1/2) Part Number Electrical Characteristics 4-pin 3-pin 4-pin Ultra super minimold 3-pin 2SC3355 2SC3356 2SC2570A 2SC2351 2SC4093 2SC4092 2SC4228 2SC5013 2SC5008 2SC2570A 2SC2351 2SC3355 2SC3356 2SC2570A 2SC2351 2SC3545 2SC4092 2SC4093 2SC4092 2SC5011 2SC5006 Minimold Applications Super minimold TO-92 3-pin Pre Amp. 2SC4185 Buffer Amp. 1st IF Amp. 1st and 2nd OSC 2SC4226 2SC4184 2SC4185 2SC4570 2SC4571 2SC4185 2SC4568 2SC4569 2nd IF Amp. 2SC5005 2SC5004 fT (GHz) 7 (20 mA) 5 (20 mA) 2 (5 mA) 5 (20 mA) 7 (20 mA) 5 (20 mA) 1.8 (5 mA) 2 (5 mA) 5.5 (5 mA) 5 (5 mA) 2 (5 mA) NF (dB) 1.1 (1 1.5 (1 3 (0.5 1.5 (1 1.1 (1 1.5 (1 GHz) GHz) GHz) GHz) GHz) GHz) • Low Noise BIP. TR. (2/2) NF (dB) Frequency (MHz) 2.5 4.0 3.5 500 2SC2148 2000 2SC3604 4000 2SC3587 2SC2149 2SC3603 • Twin TR. for pager B1 B2 E2 Q2 Q1 C1 for VCO E1 C2 B1 E1 for Mobile Communications E2 Q2 Q1 C1 B1 B2 C2 Part Number µPA800T, TF µPA801T,TC,TF µPA802T µPA803T µPA804T,TC,TF µPA805T µPA806T µPA807T µPA808T µPA809T, TF 2SC5008 2SC5006 2SC5007 2SC5005 2SC5004 2SC5009 2SC5010 2SC5181 2SC5186 2SC5195 Package size Part Number 2SC No. (×2) µPA811T µPA810T,TC,TF µPA812T µPA813T 2SC5008 2SC5006 2SC5007 2SC5005 µPA814T,TC,TF 2SC5195 E2 C1 Part Number 2SC No. (×2) µPA821TC, TF 2SC5006 µPA822TF 2SC5007 µPA826TC, TF 2SC5010 µPA827TF 2SC5181 µPA828TF 2SC5186 µPA829TF 2SC5195 B2 Q2 Q1 Same Chip 2SC No. (×2) for VCO E1 C2 Different Chip 2SC No. (×2) Part Number Q1 Q2 µPA831TC, TF 2SC5006 µPA832TF 2SC5006 µPA833TF 2SC5195 µPA834TF 2SC5007 µPA835TC, TF 2SC5010 µPA836TC, TF 2SC5010 µPA837TF 2SC5181 µPA838TF 2SC5195 µPA839TF 2SC5008 µPA840TC 2SC5010 2SC5007 2SC5010 2SC5010 2SC5006 2SC5006 2SC5195 2SC5195 2SC5186 2SC5006 2SC5007 T : 2.0 × 1.25 × 0.9 (mm) TC: 1.5 × 1.1 × 0.55 (mm) TF : 2.0 × 1.25 × 0.6 (mm) Selection Guide X10679EJHV0SG00 345 RF and Microwave Devices Discrete ■ Cross-reference Table • Low Noise GaAs/HJ FET ASSOCIATED GAIN vs. NOISE FIGURE @ f = 12 GHz NE3210S01 Associated Gain Ga (dB) 13 NE329S01 NE27283B NE32584C NE325S01 NE425S01 12 NE42484C NE32484A NE24283B 11 NE4210M01 NE42484A NE429M01 10 0.3 0.4 0.5 0.6 0.7 0.8 0.9 Noise Figure NF (dB) ASSOCIATED GAIN vs. NOISE FIGURE @ f = 4 GHz NE334S01 NE434S01 NE429M01 NE33284A NE23383B 15 NE34018 16 NE428M01 Associated Gain Ga (dB) 16 Associated Gain Ga (dB) ASSOCIATED GAIN vs. NOISE FIGURE @ f = 2 GHz 15 NE38018 14 14 NE76118(MES FET) 0.2 0.3 0.4 0.6 Noise Figure NF (dB) 0.7 0.8 Noise Figure NF (dB) : In mass production 346 Selection Guide X10679EJHV0SG00 RF and Microwave Devices Discrete ■ Cross-reference Table • Power TR. (for mobile and portable radio station) OUTPUT POWER vs. FREQUENCY 200 2SK2396 2SK2597 Output Power PO (W) 100 70 50 NEL2035 30 20 NEL2012 10 7 5 NEL2004 V CC 24 V series 28 V series 3 2 1 0.1 NEL2001 0.2 0.3 0.5 0.7 1 2 3 5 7 10 Frequency f (GHz) • Power TR. (for fixed radio station) Output Power Frequency 10 W or higher 800 MHz or higher 2SK2396 900 MHz or higher 2SK2597 NEL2000 SERIES 1900 MHz or higher • Power TR. (for mobile and portable radio station) Output Power Frequency 1000 MHz or higher 0.1 W or higher 1 W or higher 2SC5288 2SC5289 Selection Guide X10679EJHV0SG00 347 RF and Microwave Devices Discrete ■ Cross-reference Table • Power FET NES1821P-50 NES1417B-30 Po (1dB) vs. FREQUENCY NES1821B-30 NES1823P-30 51.0 NES1823P-100 49.0 NEZ4450-15D/15DD 47.0 NEZ3642-15D NEZ5964-15D/15DD NEZ6472-15D/15DD 45.0 NEZ7785-15D NES2527B-30 43.0 NEZ3642-8D/8DD NEZ4450-8D/8DD 41.0 Po (1dB) (dBm) 39.0 37.0 35.0 33.0 NEZ7177-8D/8DD NEZ7785-8D/8DD NE6501077 NEZ5964-8D/8DD NEZ6472-8D/8DD NEZ3642-4D/4DD NEZ7177-4D/4DD NE6500496 NEZ7785-4D/4DD NEZ4450-4D/4DD NEZ6472-4D/4DD NE6500379A NEZ5964-4D/4DD NE85002 series NE6510379A NEZ1011-8E NEZ1414-8E NEZ1011-5E NEZ1011-4E NEZ1414-5E NEZ1414-4E NEZ1011-3E NEZ1011-2E NEZ1414-3E NEZ1414-2E MC-7660 MC-7661 31.0 NE6510179A NE85001 series 29.0 NE960R575 27.0 25.0 23.0 NE850R5 series NE1280400 NE960R275 NE650R479A NE651R479A NE650R279A µ PG171GV NE1280200 21.0 19.0 0.0 NE1280100 2.0 4.0 6.0 8.0 10.0 12.0 Frequency f (GHz) 348 Selection Guide X10679EJHV0SG00 14.0 16.0 18.0 20.0 RF and Microwave Devices Discrete ■ Cross-reference Table • Silicon Microwave Single Transistor Package µ-X TO-92 fT (GHz) Power MM (3-pin) New Power MM (4-pin) 3-pin MM 3-pin SMM 1.0 2SC2758 2SC4183 1.1 2SC2757 2SC4182 2.0 2SC2759 2SC4185 2SC3545 2SC4184 2SC3841 2SC4186 2.8 3-pin USMM (1608) 3-pin Thin USMM (1408) 2SC5431 6-pin SMM 4-pin SMM High Gain (R type) 2SC2408A 2SC2954 2SC2149 5.0 2SC3663 2SC4187 2SC4091 2SC2351 2SC4225 2SC4092 2SC4569 2SC4571 2SC5004 2SC4568 2SC4570 2SC5005 2SC3356 2SC4226 2SC4093 2SC5011 2SC5006 2SC5432 2SC3583 2SC4227 2SC4094 2SC5012 2SC5007 2SC5433 2SC3585 2SC4228 2SC4095 2SC5013 2SC5008 2SC5434 2SC5191 2SC5193 2SC5192 2SC5194 2SC5195 2SC5437 2SC2570A 5.3 2SC4536 2SC5337 2SC4703 2SC5338 2SC3357 2SC5336 5.5 6.0 7.0 2SC3603 2SC3355 8.5 2SC3604 2SC3582 10.0*1 2SC3587 11.0 12.0*2 4-pin SMM 2SC2148 4.0 4.5 4-pin MM 2SC5455 2SC4954 2SC4958 2SC4956 2SC5014 2SC5009 2SC4955 2SC4959 2SC4957 2SC5015 2SC5010 2SC5435 14.0*2 2SC5369 2SC5454 15.5*2 2SC5177 2SC5179 2SC5178 2SC5180 2SC5181 2SC5182 2SC5184 2SC5183 2SC5185 2SC5186 2SC5436 16.0 2SC5409 (2SC5533*3) 17.0 2SC5408 25.0 2SC5509 2SC5507 2SC5508 *1: Lower stage: Low operation voltage and low phase noise type. *2: Upper stage: Low power dissipation type. Lower stage: Low noise figure type. *3: 2SC5533 is a thin type of 2SC5409. Selection Guide X10679EJHV0SG00 349 RF and Microwave Devices Discrete ■ Cross-reference Table • NE Part No.-EIAJ No. NE Part No. NE73416 NE73440A NE73440B NE73435 NE02135 NE02133 NE050214E-12 NE050214-12 NEM085068-28 NEM0214068-28 NE85632 NE85633 NE85634 NE94433 NE68132 NE68133 NE68033 NE68035 NE85635 NE68135 NE85641 NE68141 NEL150181-12 NE02139E NE85639E NE68139 NE68039 NE58030 NE73430 NE68330 NE85630 NE68130 NE68030 NE46134 NE58133 NE58233 NE58130 NE58230 NE46234 NE61030 NE68433 NE68533 NE68439E EIAJ* No. 2SC1733 2SC1926 2SC1927 2SC2148 2SC2149 2SC2351 2SC2586 2SC2762 2SC3218-M 2SC3286-M 2SC3355 2SC3356 2SC3357 2SC3545 2SC3582 2SC3583 2SC3585 2SC3587 2SC3603 2SC3604 2SC3809 2SC3810 2SC3817 2SC4092 2SC4093 2SC4094 2SC4095 2SC4183 2SC4185 2SC4187 2SC4226 2SC4227 2SC4228 2SC4536 2SC4568 2SC4569 2SC4570 2SC4571 2SC4703 2SC4885 2SC4954 2SC4955 2SC4956 NE Part No. NE85619 NE68119 NE68019 NE68419 NE68519 NE85618 NE68118 NE68018 NE68418 NE68518 NE68633 NE68639 NE68630 NE68618 NE68619 NE68733 NE68739 NE68730 NE68718 NE68719 NE68833 NE68839 NE68830 NE68818 NE68819 NE68939 NE69039 NE696M01 NEM0995F01-30 NE92939 NE92739 NE25139 NE25339 NE92039 NE92239 NE92439 NE93039 NE93139 NE92918 NE92218 NE92418 NE92718 NE92018 EIAJ* No. 2SC5006 2SC5007 2SC5008 2SC5009 2SC5010 2SC5011 2SC5012 2SC5013 2SC5014 2SC5015 2SC5177 2SC5178 2SC5179 2SC5180 2SC5181 2SC5182 2SC5183 2SC5184 2SC5185 2SC5186 2SC5191 2SC5192 2SC5193 2SC5194 2SC5195 2SC5288 2SC5289 2SC5369 2SC2597 3SK131 3SK134B 3SK177 3SK206 3SK222 3SK223 3SK224 3SK230 3SK231 3SK242 3SK243 3SK244 3SK245 3SK246 NE68539E NE68430 NE68530 NE58219 NE58119 2SC4957 2SC4958 2SC4959 2SC5004 2SC5005 NE93239 NE93339 NE93318 NE25118 3SK252 3SK253 3SK255 3SK299 * : EIAJ = Electronics Industry Association Japan 350 Selection Guide X10679EJHV0SG00 RF and Microwave Devices Application ■ Digital DBS (1/2) HJ-FET NE3210S01 HJ-FET HJ-FET NE329S01 NE425S01 NE425S01 NE325S01 NE4210M01 NE4210M01 GaAs MMIC SW+IF Amp. µ PG182GR Medium Output Amp µPC2709TB SW Parabolic ANT MES-FET NE72218 NE72118 to IDU ■ Digital DBS (2/2) From ODU Down Converter µ PC2795GV I LPF 0° φ 90° Down Converter +AGC Amp. µ PC2782GR Low Noise Tr. 2SC5015 (NE68518) I/Q Demodulator µ PC2781GR PLL Q LPF SAW I/Q Demodulator µ PC2781GR Selection Guide X10679EJHV0SG00 351 RF and Microwave Devices Application ■ Transceiver Block for Digital Cable Modem/CATV Set-top-box Up Converter HPF RFin 50-750MHz µ PC2799GR RF return 5-42MHz Down Converter SAW IF Down Converter A/D SAW DUAL PLL µ PC1686GV Return Path AGC + Driver BIAS LPF µ PC3211GR 352 LPF Selection Guide X10679EJHV0SG00 µ PC2798GR QAM Demod. & FEC QPSK Modulator CMOS DSP RF and Microwave Devices Application ■ Receiver Block for Digital Cable Modem/CATV Set-top-box (1/2) Up Converter HPF Down Converter SAW µ PC2799GR IF Down Converter LPF A/D SAW DUAL PLL µ PC1686GV QAM Demod. & FEC µ PC2798GR ■ Receiver Block for Digital Cable Modem/CATV Set-top-box (2/2) Down Converter IF AGC + Video Amp. Up Converter HPF SAW LPF A/D SAW 50dB AGC ASIC QAM Demod. & FEC µ PC3206GR µ PC2799GR DUAL PLL µ PC1686GV Selection Guide X10679EJHV0SG00 353 RF and Microwave Devices Application ■ Terrestrial TV µ PC2775, µ PC2794, µ PC2797 µ PC3200, µ PC3202 VHF ANT (5V) µ PC1686 RF Amp. 3SK222 3SK223 to IF Amp. PSC + PLL UHF ANT RF Amp. 3SK224 to Controller µ PC1687 ■ Block for Digital Cable Modem/CATV Converter L.P.F 1st MIX Preamplifier 1st IF Amp. 2nd MIX 2nd IF Amp. INPUT to TV Channel 3SK134B 2SC4093 2SC4093 2SC4093 3SK224 2SC4703 2SC5338 Buffer Amp. 2SC4093 Buffer Amp. 2SC4093 Buffer Amp. 2SC4093 PSC Buffer Amp. 2SC3356 2SC3356 µPB1506/1507 2SC4093 1st OSC Up Converter 354 2nd OSC Down Converter Selection Guide X10679EJHV0SG00 RF and Microwave Devices Application ■ PDC (RF Modulation System) PDC 800M Direct Modulation System SPDT Switch µ PG152TA µ PG153TB µ PG154TA µ PG155TB SUB ANT Down Converter µ PC8112TB 2nd MIX + IF Amp. µ PC8001GR 455kHz 2nd MIX BPF to DEMOD. SW LNA 2SC5015 2SC5185 2SC5369 NE34018 NE38018 MAIN ANT DPDT Switch µ PG139GV SW RSSI Up Converter SW Buffer µ PC8123TB EXT RSSI OUT µ PC8106TB µ PC8109TB PSC PLL I 0° X2 φ 90° PA Driver µPC2771TB µPG170TB µPG173TA MCM(PA Module) [0.2ccPKG] MC - 7660(PDC800M) [0.1ccPKG] MC - 7900(PDC800M) Q AGC Amp. µPC8130TA µPC8131TA Direct I/Q Modulator µ PC8126K(800MHz) 28-pin QFN µ PG175TA(PDC800M) AGC + PA Driver ■ PDC (IF Modulation System) SUB ANT SPDT Switch µ PG152TA µ PG153TB µ PG154TB µ PG155TB LNA 2SC5015 2SC5185 2SC5369 NE34018 NE38018 BPF Down Converter µPC8112TB 1st MIX 2nd MIX + IF Amp. µPC8001GR SAW 2nd MIX 455kHz BPF to DEMOD. SW MAIN ANT DPDT Switch µ PG139GV RSSI RSSI OUT SW PLL1 PLL2 2nd LO SW 1st LO EXT MCM(PA Module) [ 0.2cc PKG ] MC-7660(PDC800M) MC-7661(PDC1.5G) [ 0.1ccPKG ] MC-7900(PDC800M) MC-7901(PDC1.5G) I 0° φ (C/R) PA Driver BPF AGC LPF 90° Q µ PC8158K (28-pin QFN) µ PG173TA(PDC800M) µ PG174TA(PDC1.5G) µ PG175TA(PDC800M) Selection Guide X10679EJHV0SG00 355 RF and Microwave Devices Application ■ PHS 1895.15∼1917.95MHz or (1906.55 ± 11.4MHz) 243.95MHz or 248.45MHz µ PC8112TB NE34018 LNA BPF 1st MIX 10.8MHz 2nd MIX BPF SAW to DEMOD. ATT MAIN ANT RSSI 1651.2∼1674.0MHz or 1646.7∼1669.5MHz RSSI OUT PLL1 PLL2 SW SW 1662.0 ∼1684.8MHz or 1635.9 ∼1658.7MHz µ PG152TA µ PG154TB 2nd LO 1st LO 2SC5006 233.15MHz or 259.25MHz I 0° AGC φ (CR) BPF µ PG171GV LPF µ PC2771TB µ PC2763TB 90° Q µ PC8139GR-7JH ■ GSM (IF Modulation System) DEMO MAIN ANT SW 2nd MIX + IF Amp. µ PC8002GR LNA 2SC5015 2SC5185 Down Converter µ PC8112TB SPDT Switch ★ µ PG157GV SW RSSI PSC PLL Up Converter µ PC8106TB µ PC8109TB Driver Amp. µ PC2763TB µ PC2771TB AGC Amp. µ PC8119T µ PC8120T PLL X2 Quadrature Mod. µ PC8105GR 90° Q Up Converter + Quadrature Mod. µ PC8104GR BPF Up Converter with AGC + Quadrature Mod. µ PC8129GR ★ : Under development 356 RSSI OUT I 0° φ Power Amp.(Bip.Tr.) 2SC5192 (DECT 1st) 2SC5288 (DECT 2nd) (PHS 1st) 2SC5289 (DECT 3rd) (PHS 2nd) I Q Selection Guide X10679EJHV0SG00 RF and Microwave Devices Application ■ 900 MHz Cordless Phone (1/2) 2SC5369 2SC5408 2SC5409 LNA 2SC5369 2SC5408 2SC5409 MIX BPF to DEMOD. Down Converter µ PC8112T DUP 2SC4093 2SC4094 2SC4958 2SC5179 µPA82XXTF µPA83XXTF X2 PLL VCO MOD. in PA BUF Driver OSC X2 2SC5288 2SC5289 µ PA82XXTF µ PA83XXTF 2SC4093 2SC4094 2SC4958 2SC5179 ■ 900 MHz Cordless Phone (2/2) Down Converter µ PC8112TB µ PA801T 2SC4096 SAW MIX LNA BPF BPF to DEMOD. X2 BPF PA Twin Tr. µ PA801T BUF PLL MOD. in X2 Twin Tr. µPA801T Twin Tr. µPA801T Selection Guide X10679EJHV0SG00 357 [MEMO] 358 Selection Guide X10679EJHV0SG00 Optical Device Photocoupler................................................................... 360 • Tr. Output Type .......................................................... 360 • IC Output Type ........................................................... 369 • Safety Standards Approval List (Made in Japan, as of January 1999) ..................... 370 • Safety Standards Approval List (Made in Taiwan, as of January 1999).................... 372 OCMOS FETTM (Opto-Coupled MOS FET Relay) ........ 373 • Safety Standards Approval List (as of January 1999) ................................................. 377 Infrared Transceivers ..................................................... 378 Plastic Fiber Link ........................................................... 378 Visible Lasers ................................................................. 380 Fiberoptic Devices ......................................................... 380 • Lasers (Digital) .......................................................... 380 • Pump Laser ................................................................ 381 • Pulsed Lasers for OTDR .......................................... 381 • Detectors .................................................................... 382 Selection Guide X10679EJHV0SG00 359 8 Optical Device Photocoupler Tr. Output Type Standard Type (Single Tr.) (1/2) Part Features Number PS2501-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) (mA) (%) (µs) TYP. 5k 80 80 50 80 to 600 3, 5 Packages 4-pin DIP (RL = 100 Ω) High VCEO UL approved PS2501-2 8-pin DIP PS2501-4 16-pin DIP PS2511-1 High isolation voltage 50 100 to 300 4-pin DIP 80 to 400 8-pin DIP UL approved PS2511-2 PS2511-4 PS2561-1 16-pin DIP High isolation voltage 80 4-pin DIP UL, VDE (Option), CSA, BSI, SEMKO, PS2561-2 FIMKO, NEMKO, 8-pin DIP DEMKO approved PS2571-1 High isolation voltage 50 100 to 300 4-pin DIP 80 to 400 16-pin DIP 80 to 400 4-pin DIP 80 to 600 6-pin DIP UL, CSA, BSI, SEMKO, FIMKO, NEMKO, PS2571-4 DEMKO approved PS2581L1 High isolation voltage PS2581L2 Outer creepage 80 distance: 8 mm UL, VDE (Standard), CSA, BSI, SEMKO, FIMKO, NEMKO, DEMKO approved PS2601 High isolation voltage High VCEO UL approved PS2602 360 6-pin DIP Selection Guide X10679EJHV0SG00 Optical Device Photocoupler Tr. Output Type Standard Type (Single Tr.) (2/2) Part Features Number PS2651 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) (mA) (%) (µs) TYP. 5k 80 80 50 50 to 400 3, 5 Packages 6-pin DIP (RL = 100 Ω) UL, VDE (Option), CSA, BSI, SEMKO, FIMKO, PS2652 PS2701-1 NEMKO, DEMKO approved UL, VDE (Option), 6-pin DIP 3.75 k 50 40 80 50 to 300 3, 5 4-pin SOP (RL = 100 Ω) BSI approved PS2701-2 8-pin SOP PS2701-4 16-pin SOP PS2801-1 Pin pitch: 1.27 mm 2.5 k 50 80 50 UL, BSI approved PS2801-4 80 to 600 3, 5 4-pin (RL = 100 Ω) Small SOP Pin pitch: 1.27 mm 16-pin UL, VDE (Option), Small SOP BSI approved Selection Guide X10679EJHV0SG00 361 Optical Device Photocoupler Tr. Output Type Standard Type (Darlington Tr.) Part Features Number PS2502-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) 5k 80 40 (mA) (%) (µs) TYP. 200 200 or above 100, 100 Packages 4-pin DIP (RL = 100 Ω) High CTR UL approved PS2502-2 160 8-pin DIP PS2502-4 PS2562-1 16-pin DIP High isolation voltage 200 4-pin DIP NEMKO, DEMKO approved 160 8-pin DIP High isolation voltage 200 6-pin DIP UL, VDE (Option), CSA, BSI, SEMKO, FIMKO, PS2562-2 PS2603 High CTR UL approved PS2604 PS2653 6-pin DIP High isolation voltage 6-pin DIP High CTR UL, VDE (Option), CSA, PS2654 BSI, SEMKO, FIMKO, 6-pin DIP NEMKO, DEMKO approved PS2702-1 High CTR 3.75 k 50 40 200 200 or above 200, 200 4-pin SOP (RL = 100 Ω) UL, VDE (Option), BSI approved PS2702-2 160 8-pin SOP PS2702-4 PS2802-1 16-pin SOP Pin pitch: 1.27 mm 2.5 k 50 40 90 UL, BSI approved PS2802-4 Pin pitch: 1.27 mm 100 UL, VDE (Option), 200, 200 4-pin (RL = 100 Ω) Small SOP 16-pin Small SOP BSI approved 362 200 or above Selection Guide X10679EJHV0SG00 Optical Device Photocoupler Tr. Output Type AC Input Type (Single Tr.) Part Features Number PS2505-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) 5k ±80 80 (mA) (%) (µs) TYP. 50 80 to 600 3, 5 Packages 4-pin DIP (RL = 100 Ω) AC input High VCEO PS2505-2 UL approved 8-pin DIP PS2505-4 PS2565-1 16-pin DIP High isolation voltage 80 to 400 4-pin DIP AC input UL, VDE (Option), CSA, PS2565-2 BSI, SEMKO, FIMKO, 8-pin DIP NEMKO, DEMKO approved PS2605 High isolation voltage 80 to 600 6-pin DIP AC input High VCEO PS2606 PS2705-1 UL approved AC input 6-pin DIP 3.75 k ±50 40 80 50 to 300 3, 5 4-pin SOP (RL = 100 Ω) UL, VDE (Option), BSI approved PS2705-2 8-pin SOP PS2705-4 16-pin SOP PS2805-1 Pin pitch: 1.27 mm 2.5 k ±50 80 50 AC input 80 to 600 3, 5 4-pin (RL = 100 Ω) Small SOP UL, BSI approved PS2805-4 Pin pitch: 1.27 mm 16-pin AC input Small SOP UL, VDE (Option), BSI approved Selection Guide X10679EJHV0SG00 363 Optical Device Photocoupler Tr. Output Type AC Input Type (Darlington Tr.) Part Features Number PS2506-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) 5k ±80 40 (mA) (%) (µs) TYP. 200 200 or above 100, 100 Packages 4-pin DIP (RL = 100 Ω) AC input High CTR PS2506-2 UL approved 160 8-pin DIP PS2506-4 PS2566-1 16-pin DIP High isolation voltage 200 4-pin DIP 160 8-pin DIP 200 6-pin DIP AC input UL, VDE (Option), CSA, PS2566-2 BSI, SEMKO, FIMKO, NEMKO, DEMKO approved PS2607 High isolation voltage AC input High CTR PS2608 PS2706-1 UL approved High CTR 6-pin DIP 3.75 k ±50 40 200 200 or above 200, 200 4-pin SOP (RL = 100 Ω) AC input UL, VDE (Option), PS2706-2 BSI approved 160 8-pin SOP PS2706-4 PS2806-1 16-pin SOP Pin pitch: 1.27 mm 2.5 k ±50 40 90 AC input 200 or above 200, 200 4-pin (RL = 100 Ω) Small SOP UL, BSI approved PS2806-4 Pin pitch: 1.27 mm 100 AC input UL, VDE (Option), BSI approved 364 16-pin Small SOP Selection Guide X10679EJHV0SG00 Optical Device Photocoupler Tr. Output Type Low Input Current Type (Single Tr.) Part Features Number PS2503-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) 5k 80 40 (mA) (%) (µs) TYP. 30 100 to 400 High-speed 20, 30 Packages 4-pin DIP (RL = 10 kΩ) UL approved PS2503-2 8-pin DIP PS2503-4 16-pin DIP PS2703-1 High VCEO (120 V) 3.75 k 50 120 30 UL, VDE (Option), 50 to 400 10, 10 4-pin SOP (RL = 1 kΩ) BSI approved PS2703-2 8-pin SOP PS2703-4 16-pin SOP PS2707-1 AC input ±50 4-pin SOP High VCEO (120 V) UL, VDE (Option), PS2707-2 BSI approved 8-pin SOP PS2707-4 16-pin SOP Selection Guide X10679EJHV0SG00 365 Optical Device Photocoupler Tr. Output Type High Collector to Emitter Voltage Type (1/2) Part Features Number PS2532-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) (mA) (%) (µs) TYP. 5k 80 300 150 1500 to 6500 100, 100 Packages 4-pin DIP (RL = 100 Ω) High VCEO (300 V) Darlington Tr. PS2532-2 UL, VDE, (Option), BSI, 8-pin DIP SEMKO, FIMKO, NEMKO, DEMKO PS2532-4 PS2533-1 approved 16-pin DIP High isolation voltage 350 4-pin DIP High VCEO (350 V) Darlington Tr. PS2533-2 UL, VDE (Option), BSI, 8-pin DIP SEMKO, FIMKO, NEMKO, DEMKO approved PS2533-4 PS2633 16-pin DIP High isolation voltage 300 1000 to 15000 6-pin DIP High VCEO (300 V) High CTR PS2634 Darlington Tr. 6-pin DIP UL approved PS2732-1 High isolation voltage 2.5 k 50 300 150 1500 or above 100, 100 4-pin SOP (RL = 100 Ω) Darlington Tr. High VCEO (300 V) PS2732-2 UL, VDE (Option), 8-pin SOP BSI approved PS2732-4 PS2733-1 16-pin SOP High isolation voltage 350 4-pin SOP Darlington Tr. High VCEO (350 V) PS2733-2 UL, VDE (Option), 8-pin SOP BSI approved PS2733-4 366 16-pin SOP Selection Guide X10679EJHV0SG00 Optical Device Photocoupler Tr. Output Type High Collector to Emitter Voltage Type (2/2) Part Features Number PS2832-1 Pin pitch: 1.27 mm Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) (mA) (%) (µs) TYP. 2.5 k 50 300 120 400 or above Darlington Tr. Packages 100, 100 4-pin (RL = 100 Ω) Small SOP High VCEO (300 V) UL approved PS2832-4 Pin pitch: 1.27 mm 16-pin Darlington Tr. Small SOP High VCEO (300 V) UL, BSI approved Selection Guide X10679EJHV0SG00 367 Optical Device Photocoupler Tr. Output Type Large Input Current Type (DC Input, Single Tr.) Part Features Number PS2521-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) (mA) (%) (µs) TYP. 5k 150 80 50 20 to 80 3, 5 Packages 4-pin DIP (RL = 100 Ω) Large input current UL approved PS2521-2 8-pin DIP PS2521-4 16-pin DIP PS2621 High isolation voltage 20 to 50 6-pin DIP Large input current UL approved PS2622 6-pin DIP Large Input Current Type (AC Input, Single Tr.) Part Features Number PS2525-1 High isolation voltage Absolute Maximum Ratings Electrical Characteristics BV IF VCEO IC CTR t r, t f (Vr.m.s.) (mA) (V) (mA) (%) (µs) TYP. 5k ±150 80 50 20 to 80 3, 5 Packages 4-pin DIP (RL = 100 Ω) Large input current AC input PS2525-2 UL approved 8-pin DIP PS2525-4 PS2625 16-pin DIP High isolation voltage 20 to 50 6-pin DIP Large input current AC input PS2626 368 UL approved 6-pin DIP Selection Guide X10679EJHV0SG00 Optical Device Photocoupler IC Output Type High-Speed Type 1Mbps (Analog Output) Part Features Number PS8601 8-pin base Absolute Maximum Ratings Electrical Characteristics BV IF VCC IO CTR tPHL tPLH (Vr.m.s.) (mA) (V) (mA) (%) (µs) MAX. (µs) MAX. 5k 25 35 8 0.8 0.8 connection 15 or above Packages 8-pin DIP (RL = 1.9 kΩ) (RL = 1.9 kΩ) UL, VDE (Option), BSI approved PS8602 8 pins 8-pin DIP High CMR (2 kV/µs) UL, VDE (Option), BSI approved PS8701 5 pins 2.5 k 25 35 8 15 to 35 High CMR (10 kV/µs) 0.8 1.2 5-pin SOP (RL = 2.2 kΩ) (RL = 2.2 kΩ) UL, VDE (Option) approved High-Speed Type 10Mbps (Digital Output) Part Features Number PS9601 Ultra high-speed type Absolute Maximum Ratings Electrical Characteristics Packages BV IF VCC IO IFLH tPLH, tPHL (Vr.m.s.) (mA) (V) (mA) (mA) MAX. (ns) MAX. 5k 30 7 50 5.0 75 8-pin DIP 2.5 k 30 7 50 5.0 75 5-pin SOP 5k 30 7 13 6.0 75 8-pin DIP 2.5 k 30 7 13 6.0 75 5-pin SOP UL approved PS9701 Ultra high-speed type UL, VDE (option) approved PS9611 Ultra high-speed type High CMR (10 kV/µs TYP.) PS9711 : Under development High-Power Type (Inverter) Part Features Number PS9634 Inverter circuit UL approved Absolute Maximum Ratings Electrical Characteristics BV IF VCC IO1/IO2 CMH, CML tPLH, tPHL (Vr.m.s.) (mA) (V) (A) (kV/µs) (µs) MAX. 5k 30 18 0.5/ 1.0 5.0 Packages 8-pin DIP 0.8 Selection Guide X10679EJHV0SG00 369 Optical Device Photocoupler Safety Standards Approval List (Made in Japan, as of January 1999) (1/2) Safety Standards Part Number UL VDE UL1577 VDE0884 CL BSI Double CA protection protection 101391 /IEC 950 /IEC 60950 /IEC 950 PS2503-1, -2, -4 PS2505-1, -2, -4 PS2506-1, -2, -4 PS2511-1, -2, -4 PS2521-1, -2, -4 PS2525-1, -2, -4 PS2532-1, -2, -4 PS2533-1, -2, -4 PS2561-1, -2 PS2562-1, -2 PS2565-1, -2 PS2566-1, -2 PS2571-1, -4 PS2581L1, L2 PS2601 PS2602 PS2603 PS2604 PS2605 PS2606 PS2607 PS2608 PS2621 PS2622 PS2625 PS2626 370 NEMKO DEMKO /IEC 65, /IEC 60665, EN 60950 EN 60950 EN 60950 EN 60950 EN 60950 PS2502-1, -2, -4 : Approved FIMKO EN 60065 EN 60065 EN 60065 EN 60065 EN 60065 PS2501-1, -2, -4 Remark SEMKO 9073 × 0030, /IEC 65, /IEC 60065, /IEC 65, E72422(S) Single CSA : Awaiting approval Selection Guide X10679EJHV0SG00 /IEC 950 /IEC 950 Optical Device Photocoupler Safety Standards Approval List (Made in Japan, as of January 1999) (2/2) Safety Standards Part Number UL VDE CSA UL1577 VDE0884 CL E72422(S) Single Double protection protection BSI SEMKO FIMKO 9073 × 0030, /IEC 65, /IEC 60065, /IEC 65, CA 101391 NEMKO DEMKO EN 60065 EN 60065 EN 60065 EN 60065 EN 60065 /IEC 65, /IEC 60665, EN 60950 EN 60950 EN 60950 EN 60950 EN 60950 /IEC 950 /IEC 60950 /IEC 950 /IEC 950 /IEC 950 PS2633 PS2634 PS2651 PS2652 PS2653 PS2654 PS2701-1, -2, -4 PS2702-1, -2, -4 PS2703-1, -2, -4 PS2705-1, -2, -4 PS2706-1, -2, -4 PS2707-1, -2, -4 PS2732-1, -2, -4 PS2733-1, -2, -4 PS2801-1 PS2802-1 PS2805-1 PS2806-1 PS2801-4 PS2802-4 PS2805-4 PS2806-4 PS2832-1 PS2832-4 PS8601 PS8602 PS8701 PS9601 PS9634 PS9701 Remark : Approved Selection Guide X10679EJHV0SG00 371 Optical Device Photocoupler Safety Standards Approval List (Made in Taiwan, as of January 1999) Safety Standards Part Number UL VDE CSA UL1577 VDE0884 CL E72422(S) Single Double protection protection BSI CA 101391 NEMKO DEMKO /IEC 65, /IEC 60665, EN 60950 EN 60950 EN 60950 EN 60950 EN 60950 /IEC 950 /IEC 60950 /IEC 950 PS2502-1, -2, -4 PS2503-1, -2, -4 PS2505-1, -2, -4 PS2506-1, -2, -4 PS2521-1, -2, -4 PS2525-1, -2, -4 PS2532-1, -2, -4 PS2533-1, -2, -4 PS2561-1, -2 PS2562-1, -2 PS2565-1, -2 PS2566-1, -2 372 FIMKO 9073 × 0030, /IEC 65, /IEC 60065, /IEC 65, PS2501-1, -2, -4 Remark SEMKO EN 60065 EN 60065 EN 60065 EN 60065 EN 60065 : Approved Selection Guide X10679EJHV0SG00 /IEC 950 /IEC 950 Optical Device OCMOS FETTM (Opto-Coupled MOS FET Relay) OCMOS FET Product Map • Continuous Load Current vs. Break Down Voltage Continuous Load Current IL (mA) 500 :DIP Type :SOP Type 400 PS7113 300 PS7200B PS7112 PS7212 200 PS7200A PS7111 PS7211 100 0 100 PS7122 PS7522 PS7221 200 PS7142 -1A /2A /1B /2B /1C PS7342 PS7122A -1A /2A /1B /2B /1C PS7342C PS7141-1A /2A /1B /2B /1C PS7341 PS7160 -1A /2A PS7141C PS7360 PS7241-1A /2A /1B /2B /1C /ATx PS7241C-1A /ATx PS7341C PS7841 300 400 500 600 Break Down Voltage VL (V) :Under Development • On-state Resistance vs. Break Down Voltage On-state Resistance (TYP.) Ron (Ω) 100 PS7141-1A /2A /1B /2B /1C PS7141C PS7241-1A /2A /1B /2B /1C /ATx PS7241C-1A /ATx PS7341 PS7341C :DIP Type :SOP Type PS7342C PS7841 PS7200A 10 PS7221 PS7200B 1.0 0.1 0 PS7160 -1A /2A PS7360 PS7211 PS7111 PS7112 PS7212 PS7113 100 PS7122A -1A /2A /1B /2B /1C PS7122 PS7522 200 300 PS7142 -1A /2A /1B /2B /1C PS7342 400 500 600 Break Down Voltage VL (V) :Under Development Selection Guide X10679EJHV0SG00 373 Optical Device OCMOS FET (Opto-Coupled MOS FET Relay) Standard Type Part Features Number Output Type Absolute Maximum Ratings VL (V) PS7111-2A Standard DIP, PS7112-1A Normally open 2a 100 IL BV (mA) (Vr.m.s.) 100 1.5 k Electrical Characteristics TA Tstg (°C) (°C) –40 to –40 to +80 +100 Diode MOSFET VF IR (V) (µA) (µA) (Ω) MAX. MAX. MAX. TYP. 1 3.0 1.4 5 ILoff Packages Coupled Ron ton toff (ms) (ms) MAX. MAX. 0.4 0.2 8-pin DIP 1a 100 200 3.0 0.4 0.2 6-pin DIP PS7113-1A 1a 100 350 0.9 3.0 0.2 6-pin DIP PS7113-2A 2a 100 350 0.9 3.0 0.2 8-pin DIP PS7122-1A 1a 200 200 3.0 2.0 0.2 6-pin DIP PS7122-2A 2a 200 200 3.0 2.0 0.2 8-pin DIP PS7122A-1A 1a 250 200 4.5 1.5 0.2 6-pin DIP PS7122A-2A 2a 250 200 4.5 1.5 0.2 8-pin DIP PS7141-1A 1a 400 150 20.0 1.0 0.2 6-pin DIP PS7141-2A 2a 400 150 20.0 1.0 0.2 8-pin DIP PS7142-1A 1a 400 200 6.0 5.0 0.2 6-pin DIP PS7142-2A 2a 400 200 7.5 2.0 0.2 8-pin DIP PS7160-1A 1a 600 90 42.0 1.5 0.2 6-pin DIP 2a 600 90 42.0 1.5 0.2 8-pin DIP 2a 100 100 3.4 1.0 0.2 8-pin SOP PS7160-2A PS7211-2A Standard SOP, PS7212-1A Normally open 1.5 k –40 to –40 to +80 +100 1.4 5 1 1a 100 200 3.0 1.0 0.2 4-pin SOP PS7221-2A 2a 200 150 4.0 1.5 0.2 8-pin SOP PS7241-1A 1a 400 120 18.0 2.0 0.2 4-pin SOP PS7241-2A 2a 400 120 21.0 1.0 0.2 8-pin SOP 1a 40 100 9.3 0.5 0.2 4-pin SOP 1a 40 250 0.8 1.0 0.2 4-pin SOP 1b 250 200 4.5 0.2 1.5 6-pin DIP PS7200A-1A Low CxR type PS7200B-1A PS7122A-1B Standard, PS7122A-2B Normally close 1.5 k –40 to –40 to +80 +100 1.5 k –40 to –40 to +80 +100 1.4 5 0.1 1.4 5 1 2b 250 200 4.5 0.2 1.5 8-pin DIP PS7141-1B 1b 400 150 24.0 0.2 1.0 6-pin DIP PS7141-2B 2b 400 150 24.0 0.2 1.0 8-pin DIP PS7142-1B 1b 400 200 7.0 0.2 5.0 6-pin DIP PS7142-2B 2b 400 200 7.0 0.2 5.0 8-pin DIP PS7241-1B 1b 400 120 24.0 0.2 2.0 4-pin SOP 2b 400 120 21.0 0.2 1.0 8-pin SOP 1a+1b 250 200 4.5 1.5 0.2 8-pin DIP PS7241-2B PS7122A-1C Standard, Transfer 1.5 k –40 to –40 to +80 +100 1.4 5 1 (N.O.) (N.O.) 0.2 1.5 (N.C.) (N.C.) PS7141-1C 1a+1b 400 150 20.0 1.0 0.2 8-pin DIP (N.O.) (N.O.) (N.O.) 24.0 0.2 1.0 (N.C.) (N.C.) (N.C.) PS7142-1C 1a+1b 400 200 8.0 2.0 0.2 8-pin DIP (N.O.) (N.O.) (N.O.) 7.0 0.2 2.0 (N.C.) (N.C.) (N.C.) PS7241-1C 1a+1b 400 120 21.0 1.0 0.2 8-pin SOP (N.O.) (N.O.) 0.2 1.0 (N.C.) (N.C.) : Under development 374 Selection Guide X10679EJHV0SG00 Optical Device OCMOS FET (Opto-Coupled MOS FET Relay) High Isolation Voltage Type Part Features Output Number Absolute Maximum Ratings Type VL (V) PS7341-1A High isolation PS7342-1A voltage 1a PS7360-1A IL BV (mA) (Vr.m.s.) 400 150 400 200 600 90 3.75 k Electrical Characteristics TA Tstg (°C) (°C) –40 to –40 to +85 +125 Diode MOSFET Packages Coupled VF IR ILoff Ron ton toff (V) (µA) (µA) (Ω) (ms) (ms) MAX. MAX. MAX. TYP. 1 20.0 1.4 5 MAX. MAX. 1.0 0.2 6.0 2.5 0.2 41.0 2.0 0.2 6-pin DIP Slow Speed Type Part Features Output Number Absolute Maximum Ratings Type VL (V) PS7522-1A Slow speed PS7522-2A IL BV (mA) (Vr.m.s.) Electrical Characteristics TA Tstg (°C) (°C) 1a 200 200 1.5 k –40 to –40 to +80 +100 2a 200 200 1.5 k –40 to –40 to +80 +100 Diode MOSFET Packages Coupled VF IR ILoff Ron ton toff (V) (µA) (µA) (Ω) (ms) (ms) MAX. MAX. MAX. TYP. 1.4 5 1 3.0 MAX. MAX. 12.0 6.5 6-pin DIP 1.4 5 1 3.0 12.0 6.5 8-pin DIP Hybrid (Multi Function) Type Part Features Number BV OCMOS FET (Vr.m.s.) (1a type) Photocoupler DC Input PS7241-AT5∗1 , PS7841-A15 AC Input ∗2 for DAA 1.5 k Darlington Tr. Packages VL IL Ron VCEO CTR VR VF VCEO IC (V) (mA) (Ω) (V) (%) (V) (V) (V) (mA) MAX. MAX. 400 120 40 50 – – – – – 100 1.2 40 120 10000 16-pin SOP to Lead pitch: TYP. PS7241-AT1∗1 Diode Bridge 20.0 hFE 8-pin SOP to 400 400 120 16 40 50 to 400 30000 1.27 mm : Under development ∗1: Solid state relays containing a GaAs LED on light emitting side (input side) and MOSFET’s (+Photo transistor) on output side. ∗2: The PS7841-A15 is a solid state relay for optical DAA (Data Access Arrangement) containing a diode bridge, MOS FET, photocoupler, Darlington transistor and LED. Selection Guide X10679EJHV0SG00 375 Optical Device OCMOS FET (Opto-Coupled MOS FET Relay) Current Limit Type • Standard Type Part Output Number Type Absolute Maximum Ratings VL (V) PS7141C-2A PS7241C-1A 2a 1a 400 400 IL BV (mA) (Vr.m.s.) 120 120 1.5 k 1.5 k Electrical Characteristics TA Tstg (°C) (°C) Diode –40 to –40 to +80 +100 –40 to –40 to +80 +100 MOSFET VF IR (V) (µA) (µA) (Ω) MAX. MAX. MAX. TYP. 1 26.0 1.4 ILoff 5 Packages Coupled Ron ton toff ILMT (ms) (ms) (mA) MAX. MAX. 1.0 1.0 170 to 8-pin DIP 250 mA/ch 1.4 5 1 28.0 2.0 0.2 125 to 4-pin SOP 180 : Under development • High Isolation Voltage Type Part Output Number Type Absolute Maximum Ratings VL (V) PS7341C-1A 1a PS7342C-1A IL BV (mA) (Vr.m.s.) 400 120 400 170 3.75 k Electrical Characteristics TA Tstg (°C) (°C) Diode –40 to –40 to +85 +125 MOSFET Packages Coupled VF IR ILoff Ron ton toff ILMT (V) (µA) (µA) (Ω) (ms) (ms) (mA) MAX. MAX. MAX. TYP. 1 27.0 1.0 1.0 125 to 250 6-pin DIP 12.0 5.0 1.0 175 to 370 1.4 5 MAX. MAX. : Under development • Hybrid (Multi Function) Type Part Features Number BV OCMOS FET (Vr.m.s.) (1a type) Photocoupler VL IL Ron ILMT VCEO CTR (V) (mA) (Ω) (mA) (V) (%) 400 120 125 to 180 40 50 to 400 Packages TYP. PS7241C-AT1∗ DC Input PS7241C-AT5∗ AC Input 1.5 k 28.0 8-pin SOP ∗: Solid state relays containing a GaAs LED on light emitting side (input side) and MOSFET’s (+Photo transistor) on output side. 376 Selection Guide X10679EJHV0SG00 Optical Device OCMOS FET (Opto-Coupled MOS FET Relay) Safety Standards Approval List (as of January 1999) Safety Standards Part Number UL VDE BSI UL1577 VDE0884 BS415 BS7002 PS7111-2A PS7112-1A PS7113-1A PS7113-2A PS7122-1A PS7122-2A PS7122A-1A PS7122A-1B PS7122A-1C PS7122A-2A PS7122A-2B PS7141-1A PS7141-1B PS7141-1C PS7141-2A PS7141-2B PS7141C-2A PS7142-1A PS7142-2A PS7142-1B PS7142-2B PS7142-1C PS7160-1A PS7160-2A PS7200A-1A PS7200B-1A PS7211-2A PS7212-1A PS7221-2A PS7241-1A PS7241-1B PS7241-1C PS7241-2A PS7241-2B PS7241-AT1 PS7241-AT5 PS7241C-1A PS7241C-AT1 PS7241C-AT5 PS7341-1A PS7341C-1A PS7342-1A PS7342C-1A PS7360-1A PS7522-1A PS7522-2A PS7841-A15 : Under development Remark : Approved : Awaiting approval Selection Guide X10679EJHV0SG00 377 Optical Device Infrared Transceivers Infrared Transceivers Part IrDA Absolute Maximum Ratings Electro-Optical Characteristics Number Ver. (TA = 25 °C) (TA = 25 °C) Remarks TA Tstg VCC ILED IEH ICC Data Rate (°C) (°C) (V) (mA) (mW/Sr) (A) (bps) TYP. TYP. TYP. NL1000 1.0 0 to +70 –25 to +85 3.3 150 80 150 µ NL1100 1.1 0 to +70 –25 to +85 5.0 300 160 4.0 m 2.4 k to Standard: with 115.2 k Shield Case A Port: Option: Shield 2.4 k to 115.2 k Case B Port: 0.576 M to 4.0 M : Under development Plastic Fiber Link Plastic Fiber Link Part Number Absolute Maximum Ratings (TC = 25 °C) VCC (V) TC (°C) Electro-Optical Characteristics (TC = 25 °C) Transmission Speed Transmission Distance (m) (Mbps) @ SI-POF @ SI-HPCF NL2100 –0.5 to +7.0 0 to +70 1 to 156 50 100 NL2110 –0.5 to +7.0 0 to +70 1 to 250 50 100 378 Selection Guide X10679EJHV0SG00 Optical Device Visible Lasers/Fiberoptic Devices Visible Lasers/Fiberoptic Devices Product Map Wavelength (nm) Family Visible Wavelength 600 700 Short Wavelength 800 900 Long Wavelength 1200 1300 1400 F-P LD NDL7001 NDL7001L 1500 1600 1700 F-P CW LD NDL7401P NDL7401P1 NDL7401P2 NDL7408PL NDL7408P1L NDL7408P2L NDL7408PK NDL7408P1K NDL7408P2K NDL7540PA PULSED LD NDL7580P NDL3325ST/SU Laser Diode (LD) PULSED LD NDL7103 NDL7113 PULSED LD NDL7502P NDL7503P NDL7503P1 NDL7510P NDL7512P NDL7513P NDL7513P1 NDL7514P NDL7514P1 NDL7515P NDL7515P1 DFB LD NDL7603P NDL7603P1 NDL7603P2 NDL7620P NDL7620P1 NDL7620P2 NDL7153 NDL7163 NDL7552P NDL7553P NDL7553P1 NDL7560P NDL7562P NDL7563P NDL7563P1 NDL7564P NDL7564P1 NDL7565P NDL7565P1 DFB LD NX8501 NDL7701P NDL7701P1 NDL7701P2 NDL7705P NDL7705P1 NDL7705P2 NX8562LB NX8563LB NDL7910P NDL5506P NDL5506PS NDL5516P NDL5520C NDL5521P NDL5521P1 NDL5521P2 NDL5522P NDL5530 NDL5530C NDL5531P NDL5531P1 NDL5531P2 NDL5551P NDL5551P1 NDL5551P2 NDL5590P NDL5590P1 NDL5590P2 NDL5592P NDL5592P1 NDL5592P2 Avalanche Photo Diode (APD) NDL5421P NDL5421P1 NDL5421P2 NDL5422P NDL5461P NDL5461P1 NDL5461P2 NDL5481P NDL5481P1 NDL5481P2 PIN Photo Diode (PD) : Mark wavelength or operating range Modules are available with FC-PC or SC-PC connector. Selection Guide X10679EJHV0SG00 : Under development 379 Optical Device Visible Lasers Visible Lasers Part Peak Absolute Maximum Ratings Electro-Optical Characteristics Number Wavelength (TC = 25 °C) (TC = 25 °C) Po TC Tstg Ith Iop Po θ⊥ θ// (mW) (°C) (°C) (mA) (mA) (mW) (deg.) (deg.) 8 –20 to +80 –40 to +85 30 40 5 30 8 λp (nm) NDL3325ST/SU Applications 650 for DVD : Under development Fiberoptic Devices Lasers (Digital) • Digital Optical Fiber Communications FP-LD Part Number Electro-Optical Characteristics (TC = 25 °C) Absolute Maximum Ratings IF TC Tstg Ith Iop Po/Pf λC σ∗ (mA) (°C) (°C) (mA) (mA) (mW) (nm) (nm) tr/tf (ns) Package TYP. TYP. MIN. TYP. TYP. MAX. NDL7001 – –40 to +85 –55 to +125 10 Ith+12 5 1310 1.0 0.5/0.5 CAN NDL7001L – –40 to +85 –55 to +125 10 Ith+15 5 1310 1.0 0.5/0.5 CAN with lens NDL7401P Series Ith+50 –40 to +85 –40 to +85 10 Ith+15 2.0 1310 1.3 0.5/0.5 Coaxial NDL7408PL Series Ith+50 –40 to +85 –40 to +85 10 Ith+15 0.2 1310 1.3 0.5/0.5 Coaxial NDL7408PK Series Ith+50 –40 to +85 –40 to +85 10 Ith+20 1.0 1310 1.3 0.5/0.5 Coaxial ∗: RMS (–20 dB) • Digital Optical Fiber Communications DFB-LD Part Number Absolute Maximum Ratings IF TC Tstg (mA) (°C) (°C) Electro-Optical Characteristics (TC = 25 °C) λp Ith Po/Pf (mA) (mW) (nm) (ns) TYP. MIN. TYP. MAX. Package tr/tf NDL7603P Series 150 –40 to +85 –40 to +85 15 2 1310 0.5/0.5 Coaxial NDL7620P Series 150 0 to +70 –40 to +85 45∗1 2 1310 0.04/0.1∗2 Coaxial NX8501 Series 200 0 to +65 –40 to +85 20 2 1510 0.5/0.5 Coaxial NDL7701P Series 150 –20 to +85 –40 to +85 15 2 1550 0.5/0.5 Coaxial NDL7705P Series Ith+50 –40 to +85 –40 to +85 15 2 1550 0.5/0.5 Coaxial 300 –20 to +65 –40 to +85 20 20 1550∗3 – Butterfly – Butterfly 0.125/0.125 Butterfly NX8562LB NX8563LB Series 300 –20 to +65 –40 to +85 20 10 ITU-T∗4 NDL7910P 150 –20 to +70 –40 to +85 7 0.5 1550∗3 (EA Modulator integrated type) ∗1: MAX. ∗2: TYP. ∗3: Wavelength selectable for ITU-T standards upon request. ∗4: Wavelength selectable for ITU-T standards. 380 Selection Guide X10679EJHV0SG00 Optical Device Fiberoptic Devices Pump Laser • EDFA Pumping Applications FP-LD Part Number Electro-Optical Characteristics (TC = 25 °C) Absolute Maximum Ratings NDL7540PA IF TC Tstg (mA) (°C) (°C) 600 –20 to +65 Ith Iop Pf λC σ∗ Package tr/tf (mA) (mA) (mW) (nm) (nm) (ns) TYP. TYP. TYP. TYP. MAX. MAX. 40 500 110 1480 8 – –40 to +85 Butterfly ∗: RMS (–20 dB) Pulsed Lasers for OTDR • OTDR Applications FP-LD Part Number Electro-Optical Characteristics (TC = 25 °C) Absolute Maximum Ratings IF∗1 TC Tstg (mA) (°C) (°C) Ith Iop∗1 Po/Pf∗1 λC∗1 σ∗2 tr/tf (mA) (mA) (mW) (nm) (nm) (ns) TYP. TYP. TYP. TYP. MAX. MAX. Package NDL7103 1200 –40 to +70 –55 to +125 35 1000 320 1310 7 2/2 CAN NDL7113 600 –40 to +70 –55 to +125 20 400 175 1310 10 1/1 CAN NDL7153 1200 –40 to +70 –55 to +125 45 1000 240 1550 8 2/2 CAN NDL7163 600 –40 to +70 –55 to +125 30 400 120 1550 10 1/1 CAN NDL7502P 1200 –20 to +65 –40 to +70 35 1000 190 1310 10 2/2 DIP NDL7503P Series 1200 –20 to +60 –40 to +85 35 1000 180 1310 10 2/2 Coaxial NDL7510P 600 –20 to +65 –40 to +70 20 400 55 1310 10 1/1 DIP NDL7512P 600 –20 to +65 –40 to +70 20 400 110 1310 10 1/1 DIP NDL7513P Series 600 –20 to +60 –40 to +85 20 400 110 1310 10 1/1 Coaxial NDL7514P Series 600 –20 to +60 –40 to +85 20 400 50 1310 10 1/1 Coaxial NDL7515P Series 600 –20 to +60 –40 to +85 20 400 30 1310 10 1/1 Coaxial NDL7552P 1200 –20 to +65 –40 to +70 40 1000 125 1550 10 2/2 DIP NDL7553P Series 1200 –20 to +60 –40 to +85 45 1000 145 1550 10 2/2 Coaxial NDL7560P 600 –20 to +65 –40 to +70 20 400 30 1550 10 1/1 DIP NDL7562P 600 –20 to +65 –40 to +70 40 400 80 1550 10 1/1 DIP NDL7563P Series 600 –20 to +60 –40 to +85 45 400 80 1550 10 1/1 Coaxial NDL7564P Series 600 –20 to +60 –40 to +85 40 400 40 1550 10 1/1 Coaxial NDL7565P Series 600 –20 to +60 –40 to +85 20 400 11 1550 10 1/1 Coaxial 1000 100∗3 1625 15 2/2 DIP NDL7580P 1200 –20 to +65 –40 to +70 30 ∗1: Pulse drive: Pulse width = 10 µs, duty = 1 % (Coaxial, DIP) Pulse width = 1 µs, duty = 1 % (CAN) ∗2: RMS (–20 dB) ∗3: MIN. Selection Guide X10679EJHV0SG00 381 Optical Device Fiberoptic Devices Detectors • InGaAs PIN-PD Part Number NDL5421P Series Electro-Optical Characteristics (TC = 25 °C) Absolute Maximum Ratings Pin TC Tstg Detecting (mW) (°C) (°C) area size VR 8 –40 to +85 –40 to +85 ID (nA) (µm) (V) φ 50 5 Ct (pF) TYP. VR TYP. (V) 0.1 5 0.7 S (A/W) λ Package fC TYP. (GHz) (nm) MIN. 1300 0.89 2.5 Coaxial 2.5 Butterfly 2.5 Coaxial 2.5 Coaxial 1550 0.94 NDL5422P – –40 to +70 –40 to +85 φ 50 5 0.1 – – 1300 0.89 NDL5461P Series 8 –40 to +85 –40 to +85 φ 80 5 0.1 5 1.0 1300 0.89 1550 1.00 with AMP 1550 0.94 NDL5481P Series 8 –40 to +85 –40 to +85 φ 80 10 0.1 10 0.7 1300 0.85 • InGaAs APD Part Number NDL5506P Series Absolute Maximum Ratings Electro-Optical Characteristics (TC = 25 °C) IR TC Tstg Detecting V(BR)R ID (mA) (°C) (°C) area size (V) (nA)∗ λ (µm) TYP. TYP. (nm) φ 50 70 2 0.5 –20 to +55 –40 to +85 S (A/W) TYP. 1300 0.89 fC (GHz) MIN. 1.0 1550 1.00 NDL5516P 0.5 –20 to +55 –40 to +85 φ 80 75 2 NDL5520C 0.5 –40 to +70 –55 to +100 φ 50 70 5 NDL5521P Series 0.5 –40 to +85 φ 50 55 5 1300 0.89 DIP with internal cooler 0.7 1550 1.00 1300 0.89 Package DIP with internal cooler 2.5 Chip on carrier 2.5 Coaxial 2.5 Butterfly with AMP 2.5 CAN 2.5 Chip on carrier 2.5 Coaxial 1.0 Coaxial 1.0 Coaxial with AMP 2.5 Coaxial with AMP 1550 1.00 –40 to +85 1300 0.94 1550 0.96 NDL5522P 0.5 –40 to +70 –40 to +85 φ 50 55 5 1310 0.89 1550 1.00 NDL5530 0.5 –40 to +85 –55 to +100 φ 30 70 5 NDL5530C 0.5 –40 to +85 –55 to +100 φ 30 70 5 NDL5531P Series 0.5 –40 to +85 φ 30 70 5 1300 0.94 1550 0.96 1300 0.94 1550 0.96 –40 to +85 1300 0.94 1550 0.96 NDL5551P Series 0.5 –40 to +85 –40 to +85 φ 50 70 5 1300 0.94 1550 0.96 NDL5590P Series 0.5 –40 to +85 –40 to +85 φ 50 70 5 NDL5592P Series 0.5 –40 to +85 –40 to +85 φ 30 70 5 1310 0.94 1550 0.96 1310 0.94 1550 0.96 ∗: Conditions: V(BR)R × 0.9 382 Selection Guide X10679EJHV0SG00 INDEX 9 Selection Guide X10679EJHV0SG00 383 Quick Reference Table by Part Number Part number Page [ Numerals ] 03P2J 321 03P2M 321 03P4J 321 03P4M 321 03P4MF 321 03P4MG 321 03P5J 321 03P5MG 321 03P6MG 321 2P4M 321 2P5M 321 2P6M 321 2S2M 321 2S4M 321 2SA1008 280,289 2SA1009 280,289 2SA1009A 280,289 2SA1010 280,289 2SA1069 280,289 2SA1069A 280 2SA1129 280,290 2SA1156 279,289 2SA1173 284 2SA1174 286 2SA1175 277,286 2SA1206 276,287 2SA1221 278 2SA1222 278 2SA1226 283 2SA1247 283,286 2SA1261 280 2SA1330 283,286 2SA1376 276,286 2SA1376A 276 2SA1385 279,288 2SA1385-Z 285 2SA1394 281,289 2SA1395 281,289 2SA1396 281,289 2SA1400 279,289 2SA1400-Z 285 2SA1412 279 2SA1412-Z 285 2SA1413 279,289 2SA1413-Z 285 2SA1441 281,288 2SA1442 281,288 2SA1443 281,288 2SA1444 281,288 2SA1458 277,287 2SA1459 277,287 2SA1460 278,287,289 2SA1461 283,287 2SA1462 283,287 2SA1463 284,287 2SA1464 283,287 2SA1486 279,289 2SA1544 276 2SA1546 279,290 2SA1608 285,287 2SA1610 285,287 2SA1611 285,286 2SA1612 285,286 2SA1615 279,288 2SA1615-Z 285 384 Part number 2SA1625 2SA1626 2SA1627 2SA1645 2SA1646 2SA1647 2SA1648 2SA1649 2SA1650 2SA1652 2SA1720 2SA1741 2SA1742 2SA1743 2SA1744 2SA1836 2SA1840 2SA1841 2SA1843 2SA1845 2SA1847 2SA1871 2SA1897 2SA675 2SA733 2SA811A 2SA812 2SA915 2SA916 2SA952 2SA953 2SA954 2SA988 2SA990 2SA992 2SB1068 2SB1093 2SB1094 2SB1097 2SB1098 2SB1099 2SB1100 2SB1114 2SB1115 2SB1115A 2SB1116 2SB1116A 2SB1117 2SB1149 2SB1150 2SB1151 2SB1217 2SB1261 2SB1261-Z 2SB1300 2SB1318 2SB1430 2SB1431 2SB1432 2SB1453 2SB1475 2SB1571 2SB1572 2SB1578 2SB1581 2SB1628 Page 276 278 278 280,288 280 279,288 279,288 279,288 281,288 281,288 281,291 281,288 281,288 281,288 281,288 285 282,291 282,291 282,288 282,288 282,288 284 278,288 276 276,286 283,286 283,286 278 278 276,286 276,286 276,286 276,286 276 276,286 276,286 278,291 281,290 281,290 281,291 281,291 281,291 284,286 284,286 284,286 276,286 276,286 278,288 279,291 279,291 279,288 279,288 279,288 285 276 278 281,291 281,291 281,291 281 285 284 284 284,288 288 284 Part number Page 2SB546A 280,290 2SB564 278,286 2SB601 280,291 2SB605 278,286 2SB624 283,286 2SB707 280,290 2SB708 280,290 2SB733 278 2SB734 278 2SB736 283,286 2SB736A 283,286 2SB768 279,285,290 2SB772 279,288 2SB794 279,291 2SB795 279,291 2SB798 284,286 2SB799 284,286 2SB800 284,286 2SB804 284 2SB805 284 2SB806 284 2SB810 277,286 2SB811 286 2SB897 282,291 2SB962 279,288 2SB962-Z 285 2SB963 279,291 2SB963-Z 285 2SB984 278 2SC1009A 283,286 2SC1505 280,290 2SC1621 283 2SC1622A 283,286 2SC1623 283,286 2SC1653 283,286 2SC1654 283,286 2SC1674 276,286 2SC1841 276,286 2SC1842 276 2SC1843 276 2SC1845 276,286 2SC1927 336 2SC1940 278,286 2SC1941 278,286 2SC2001 276,286 2SC2002 276,286 2SC2003 276,286 2SC2148 336 2SC2149 336 2SC2223 283,286 2SC2331 280,289 2SC2333 280,289 2SC2334 280,289 2SC2335 280 2SC2351 336 2SC2517 280,289 2SC2518 280,289 2SC2586 343 2SC2688 279,290 2SC2690 279,290 2SC2690A 279,290 2SC2721 278 2SC2749 282,289 2SC2750 282,289 2SC2751 282,289 2SC2752 279,289 Part number 2SC2762 2SC2780 2SC2784 2SC2785 2SC2786 2SC2787 2SC2802 2SC2885 2SC2901 2SC2908 2SC2946 2SC2946(1) 2SC2954 2SC2958 2SC2959 2SC3115 2SC3157 2SC3158 2SC3159 2SC3209 2SC3218-M 2SC3286-M 2SC3355 2SC3356 2SC3357 2SC3360 2SC3478 2SC3478A 2SC3518 2SC3518-Z 2SC3545 2SC3554 2SC3567 2SC3568 2SC3569 2SC3570 2SC3571 2SC3572 2SC3582 2SC3583 2SC3585 2SC3587 2SC3588 2SC3588-Z 2SC3603 2SC3604 2SC3615 2SC3616 2SC3617 2SC3618 2SC3622 2SC3622A 2SC3623 2SC3623A 2SC3624 2SC3624A 2SC3631 2SC3631-Z 2SC3632 2SC3632-Z 2SC3663 2SC3691 2SC3692 2SC3693 2SC3694 2SC3731 Selection Guide X10679EJHV0SG00 Page 343 284,286 277,286 277,286 277,286 277,286 290 279,289 276,287 282 279,289 285,289 336 278 278 283,286 280 280,289 280,289 278,286 343 343 336 336 336 283,286 276,286 276 279,288 285 336 284,286 281,289 281,289 281,289 281,289 281,289 281,289 336 336 336 336 279,289 285 336 336 276,286 276,286 284,286 284,286 276,286 276,286 277,286 277,286 283,286 283,286 279,289 285 279,289 285 336 281,288 281,288 281,288 281,288 277,287 Part number 2SC3732 2SC3733 2SC3734 2SC3735 2SC3736 2SC3739 2SC3809 2SC3810 2SC3817 2SC3840 2SC3841 2SC4000 2SC4001 2SC4062 2SC4063 2SC4092 2SC4093 2SC4094 2SC4095 2SC4173 2SC4175 2SC4176 2SC4177 2SC4178 2SC4179 2SC4180 2SC4181 2SC4182 2SC4183 2SC4184 2SC4185 2SC4186 2SC4187 2SC4225 2SC4226 2SC4227 2SC4228 2SC4305 2SC4331 2SC4336 2SC4342 2SC4346 2SC4350 2SC4351 2SC4536 2SC4549 2SC4550 2SC4551 2SC4552 2SC4553 2SC4554 2SC4568 2SC4569 2SC4570 2SC4571 2SC4703 2SC4783 2SC4810 2SC4811 2SC4813 2SC4814 2SC4815 2SC4885 2SC4942 2SC4954 2SC4955 Page 277,287 278,287,289 283,287 283,287 284,287 283,287 336 336 342 279,289 336 278,290 279,290 281,288 281,288 336 336 336 336 285,287 285 285,287 285,286 285,286 285,286 285 285,286 336 336 336 336 336 336 336 336 336 336 280 279,288 281,288 279,291 279,289 280 281,291 336 281,288 281,288 281,288 281,288 281,288 281,288 336 336 336 336 336 285 282,291 282,291 282,288 282,288 282,288 336 284 336 336 Quick Reference Table by Part Number Part number Page 2SC4956 336 2SC4957 336 2SC4958 336 2SC4959 336 2SC5004 336 2SC5005 336 2SC5006 336 2SC5007 336 2SC5008 336 2SC5009 336 2SC5010 336 2SC5011 337 2SC5012 337 2SC5013 337 2SC5014 337 2SC5015 337 2SC5177 337 2SC5178 337 2SC5179 337 2SC5180 337 2SC5181 337 2SC5182 337 2SC5183 337 2SC5184 337 2SC5185 337 2SC5186 337 2SC5191 337 2SC5192 337 2SC5193 337 2SC5194 337 2SC5195 337 2SC5288 341 2SC5289 341 2SC5336 337 2SC5337 337 2SC5338 337 2SC5369 337 2SC5408 337 2SC5409 337 2SC5431 337 2SC5432 337 2SC5433 337 2SC5434 337 2SC5435 337 2SC5436 337 2SC5437 337 2SC5454 337 2SC5455 337 2SC5507 337 2SC5508 337 2SC5509 337 2SC945 276,286 2SD1000 284,286 2SD1001 284,286 2SD1005 284 2SD1006 284 2SD1007 284 2SD1020 277,286 2SD1033 279,285,290 2SD1164 279,291 2SD1164-Z 285 2SD1210 282,291 2SD1286 279,291 2SD1286-Z 285 2SD1296 282,291 2SD1297 291 Part number Page 2SD1308 280,291 2SD1309 280,291 2SD1312 278 2SD1392 280,291 2SD1513 276,286 2SD1579 278,291 2SD1581 278,286,288 2SD1582 278,288 2SD1583 279,288 2SD1583-Z 285 2SD1584 279,288 2SD1584-Z 285 2SD1585 281,290 2SD1588 281,290 2SD1589 281,291 2SD1590 281,291 2SD1591 281,291 2SD1592 281,291 2SD1593 281,288 2SD1594 281,288 2SD1614 284,286 2SD1615 284,286 2SD1615A 284,286 2SD1616 276,286 2SD1616A 276,286 2SD1630 279,291 2SD1691 279,288 2SD1692 279,291 2SD1693 279,291 2SD1694 279,288 2SD1695 279,291 2SD1697 278,286,291 2SD1698 276,286 2SD1699 284,286 2SD1700 278,286,291 2SD1701 276,286 2SD1702 284,286 2SD1779 278 2SD1780 278 2SD1818 279,288 2SD1843 278,291 2SD1899 279,288 2SD1899-Z 285 2SD1950 284,286 2SD2161 281,291 2SD2162 281,291 2SD2163 281,291 2SD2164 281,288 2SD2165 281,288 2SD2228 285 2SD2383 283 2SD2402 284 2SD2403 284 2SD2425 284,288 2SD2463 278,291 2SD401A 280,290 2SD414 290 2SD415 279,290 2SD471 278,286 2SD560 280,291 2SD571 278,286 2SD596 283,286 2SD773 278 2SD774 278 2SD780 283,286 2SD780A 283,286 Part number 2SD794 2SD794A 2SD882 2SD985 2SD986 2SD992 2SD999 2SJ165 2SJ166 2SJ178 2SJ179 2SJ180 2SJ184 2SJ185 2SJ196 2SJ197 2SJ198 2SJ199 2SJ202 2SJ203 2SJ204 2SJ205 2SJ206 2SJ207 2SJ208 2SJ209 2SJ210 2SJ211 2SJ212 2SJ213 2SJ243 2SJ302 2SJ303 2SJ324 2SJ325 2SJ326 2SJ327 2SJ328 2SJ329 2SJ330 2SJ331 2SJ353 2SJ355 2SJ356 2SJ357 2SJ358 2SJ411 2SJ448 2SJ449 2SJ460 2SJ461 2SJ462 2SJ463A 2SJ492 2SJ493 2SJ494 2SJ495 2SK1122 2SK1123 2SK1132 2SK1133 2SK1271 2SK1272 2SK1273 2SK1274 2SK1282 Page 279,290 279,290 279,288 279,291 279,291 279 284,286 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 294 298 298 298 298 298 298 298 298 298 298 294 294 294 294 294 294 304 304 294 294 294 294 298 298 298 298 299 299 292 292 305 292 292 292 299 Part number 2SK1283 2SK1284 2SK1285 2SK1286 2SK1287 2SK1288 2SK1289 2SK1290 2SK1292 2SK1293 2SK1294 2SK1295 2SK1398 2SK1399 2SK1482 2SK1483 2SK1484 2SK1485 2SK1491 2SK1492 2SK1493 2SK1494 2SK1495 2SK1496 2SK1497 2SK1498 2SK1499 2SK1500 2SK1501 2SK1502 2SK1580 2SK1581 2SK1582 2SK1583 2SK1584 2SK1585 2SK1586 2SK1587 2SK1588 2SK1589 2SK1590 2SK1591 2SK1592 2SK1593 2SK1594 2SK1596 2SK1656 2SK1657 2SK1658 2SK1748 2SK1749 2SK1750 2SK1751 2SK1752 2SK1753 2SK1756 2SK1757 2SK1758 2SK1760 2SK1784 2SK1785 2SK1793 2SK1794 2SK1795 2SK1796 2SK1824 Selection Guide X10679EJHV0SG00 Page 299 299 299 299 299 299 299 299 299 299 299 299 292 292 292 292 292 292 305 305 305 305 305 305 305 305 305 305 305 305 292 292 292 292 292 292 292 292 292 292 292 292 292 292 299 299 292 292 292 299 299 305 305 305 305 305 305 305 305 305 305 305 305 305 305 292 Part number 2SK1850 2SK1851 2SK1852 2SK1853 2SK1953 2SK1954 2SK1958 2SK1959 2SK1960 2SK1988 2SK1989 2SK1990 2SK1991 2SK1992 2SK1993 2SK1994 2SK1995 2SK2040 2SK2053 2SK2054 2SK2055 2SK2070 2SK2090 2SK2109 2SK2110 2SK2111 2SK2112 2SK2131 2SK2132 2SK2133 2SK2134 2SK2135 2SK2136 2SK2137 2SK2138 2SK2139 2SK2140 2SK2141 2SK2157 2SK2158 2SK2159 2SK2234 2SK2275 2SK2341 2SK2353 2SK2354 2SK2355 2SK2356 2SK2357 2SK2358 2SK2359 2SK2360 2SK2361 2SK2362 2SK2363 2SK2364 2SK2365 2SK2366 2SK2367 2SK2368 2SK2369 2SK2370 2SK2371 2SK2372 2SK2409 2SK2410 Page 299 299 299 299 303 303 292 292 292 305 305 305 305 305 305 305 305 303 293 293 293 293 293 293 293 293 293 299 303 303 303 303 303 303 303 303 303 303 293 293 293 305 305 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 303 298 298 385 Quick Reference Table by Part Number Part number 2SK2411 2SK2412 2SK2413 2SK2414 2SK2415 2SK2461 2SK2462 2SK2476 2SK2477 2SK2478 2SK2479 2SK2480 2SK2481 2SK2482 2SK2483 2SK2484 2SK2485 2SK2486 2SK2487 2SK2488 2SK2498 2SK2499 2SK2510 2SK2511 2SK2512 2SK2513 2SK2514 2SK2515 2SK2541 2SK2597 2SK2723 2SK2724 2SK2826 2SK2857 2SK2858 2SK2941 2SK2981 2SK2982 2SK2983 2SK2984 2SK3053 2SK3055 2SK3056 2SK3057 2SK3058 2SK3059 2SK3060 2SK3061 2SK3062 2SK3108 2SK3109 2SK3110 2SK3111 2SK3112 2SK3113 2SK3114 2SK3115 2SK3116 2SK3221 2SK3294 2SK3297 2SK3298 2SK3299 2SK3300 2SK3304 2SK3305 386 Page 298 298 298 298 298 298 298 303 303 303 303 303 303 304 304 304 304 304 304 304 297 297 297 297 297 297 297 297 293 343 297 297 297 293 293 297 297 297 297 297 297 297 297 297 297 297 297 297 297 302 302 302 302 302 302 302 302 302 302 302 302 302 302 302 302 302 Part number 2SK3306 2SK679A 2SK680A 2SK681A 2V5P4M 3P4J 3P4MH 3P5MH 3P6MH 3S4M 3SK131 3SK134B 3SK135A 3SK176A 3SK177 3SK206 3SK222 3SK223 3SK224 3SK230 3SK231 3SK252 3SK253 3SK254 3SK255 3SK299 5P4J 5P4M 5P4SM 5P5M 5P6J 5P6M 5P6SM 8P2M 8P2SM 8P4J 8P4M 8P4SM [A] AA1[ ] AB1[ ] AC01DGM AC01DJM AC03DGM AC03DJM AC03DJM-Z AC03DSM AC03EGM AC03FGM AC03FJM AC03FJM-Z AC03FSM AC05DGM AC05DJM AC05DJM-Z AC05DSM AC05EGM AC05ESM AC05FGM AC05FJM AC05FJM-Z AC05FSM AC08DGM AC08DSM AC08EGM Page 302 292 292 292 321 321 321 321 321 321 335 335 335 335 335 335 335 335 335 335 335 335 335 335 335 335 321 321 321 321 321 321 321 321 321 321 321 321 276,309 276,310 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 Part number Page AC08ESM AC08FGM AC08FSM AC0V8DGM AC10DGM AC10DSM AC10EGM AC10ESM AC10FGM AC10FSM AC12DGM AC12DSM AC12EGM AC12ESM AC12FGM AC12FSM AC16DGM AC16DSM AC16EGM AC16FGM AC16FSM AD1[ ] AD2[ ] AN1[ ] AP1[ ] AQ1[ ] AR1[ ] 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 321 276,311 276,311 276,309 276,310 276,310 276,311 [B] BA1[ BB1[ BN1[ BP1[ ] ] ] ] 277,309 277,310 277,309 277,310 [C] CE1[ CE2[ ] ] 278,311 278,311 [F] FA1[ FB1[ FN1[ FP1[ ] ] ] ] 283,312 283,312 283,312 283 [G] GA1[ GN1[ ] ] 285,312 285,312 [H] HD1[ HD2[ HQ1[ HR1[ ] ] ] ] 284,313 284,313 284,313 284,313 [M] MC-22000 MC-22001 MC-22002 MC-22003 MC-22004 MC-22005 MC-22006 MC-22007 MC-22100 MC-22101 MC-22102 153 153 153 153 153 153 153 153 153 153 153 Part number MC-22103 MC-22104 MC-22105 MC-22106 MC-22107 MC-4516CB64ES MC-4516CC725 MC-4516CC726 MC-4516CD641ES MC-4516CD645 MC-4516CD646 MC-4516CD64ES MC-4516DA726 MC-4516DA727 MC-4532CC726 MC-4532CD646 MC-4532DA726 MC-4532DA727 MC-454CA726 MC-454CB641LS MC-454CB645 MC-454CB646 MC-454CB64LS MC-454DA726 MC-4564DC726 MC-458CA725 MC-458CA726 MC-458CB641ES MC-458CB645 MC-458CB646 MC-458CB64LSA MC-458CD641LS MC-458CD64LS MC-458DA726 MC-458DA727 MC-45V16AD641 MC-45V8AB641 MC-45V8AB641KS MC-45V8AD641KS MC-4R128BKD8J MC-4R64BKD8J MC-4RCNTYK MC-7712 MC-7716 MC-7722 MC-7726 MC-7852 MC-7856 MC-7862 MC-7866 µPA101 µPA102 µPA103 µPA104 µPA1428A µPA1434 µPA1436A µPA1437 µPA1453 µPA1454 µPA1456 µPA1458 µPA1476 µPA1478 µPA1500B µPA1501 Selection Guide X10679EJHV0SG00 Page 153 153 153 153 153 144 142 142 144 142 142 144 143 143 142 142 143 143 142 144 142 142 144 143 143 142 142 144 142 142 144 144 144 143 143 145 145 145 145 145 145 145 330 330 330 330 330 330 330 330 330 330 330 330 315 315 315 315 315 315 315 315 315 315 316 316 Part number µPA1520B µPA1522 µPA1523B µPA1524 µPA1526 µPA1527 µPA1550 µPA1552B µPA1556A µPA1560 µPA1572B µPA1576 µPA1600 µPA1601 µPA1602 µPA1603 µPA1604 µPA1700 µPA1700A µPA1701 µPA1701A µPA1702 µPA1703 µPA1704 µPA1705 µPA1706 µPA1707 µPA1710 µPA1710A µPA1711 µPA1712 µPA1713 µPA1714 µPA1715 µPA1716 µPA1750 µPA1751 µPA1752 µPA1753 µPA1754 µPA1755 µPA1756 µPA1757 µPA1758 µPA1759 µPA1790 µPA1800 µPA1801 µPA1802 µPA1803 µPA1810 µPA1811 µPA1812 µPA1813 µPA1814 µPA1815 µPA1850 µPA1851 µPA1852 µPA1853 µPA1854 µPA1855 µPA2001 µPA2002 µPA2003 µPA2004 Page 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 316 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 307 308 308 308 308 308 308 308 308 308 308 308 308 308 308 308 308 315 315 315 315 Quick Reference Table by Part Number Part number µPA2981 µPA2982 µPA2987 µPA500 µPA501 µPA502 µPA503 µPA504 µPA505 µPA570 µPA571 µPA572 µPA573 µPA574 µPA600 µPA601 µPA602 µPA603 µPA604 µPA605 µPA606 µPA607 µPA608 µPA609 µPA610 µPA611 µPA670 µPA671 µPA672 µPA673 µPA674 µPA80 µPA800 µPA801 µPA802 µPA803 µPA804 µPA805 µPA806 µPA807 µPA808 µPA809 µPA81 µPA810 µPA811 µPA812 µPA813 µPA814 µPA821 µPA826 µPA827 µPA828 µPA831 µPA832 µPA833 µPA834 µPA835 µPA836 µPA840 µPB1005 µPB1502 µPB1504 µPB1505 µPB1506 µPB1507 µPB1508 Page 315 315 315 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 314 315 338 338 338 338 338 338 338 338 338 338 315 338 338 338 338 338 338 338 338 338 338 338 338 338 338 338 338 251,327 325 325 325 325 325 325 Part number µPB1509 µPB1510 µPC1060 µPC1093 µPC1094 µPC1099 µPC1100 µPC1150 µPC1228 µPC1237 µPC1251 µPC1316 µPC1458 µPC151 µPC1555 µPC1652 µPC1658 µPC1663 µPC1675 µPC1676 µPC1678 µPC1679 µPC1686 µPC1687 µPC1688 µPC16902 µPC1694 µPC177 µPC1830 µPC1851B µPC1853 µPC1854A µPC1857A µPC1876 µPC1883 µPC1884 µPC1891A µPC1892 µPC1905 µPC1909 µPC1933 µPC1934 µPC1935 µPC1943 µPC1944 µPC1945 µPC2251 µPC2253 µPC2255 µPC2260 µPC2400A µPC24A00 µPC24M00A µPC251 µPC2533 µPC2572 µPC2575 µPC2576 µPC258 µPC259 µPC2708 µPC2709 µPC271 µPC2710 µPC2711 µPC2712 Page 325 325 273 272 273 273 273 273 257 258 270 257 270 270 274 328 328 328 328 328 328 328 326 326 328 273 326 271 264 259 260 259 260 259 262 262 260 260 273 273 273 273 273 272 272 272 272 272 272 272 271 271 271 270 257 258 250 250 270 270 328 328 271 328 328 328 Part number µPC2713 µPC2714 µPC2715 µPC272 µPC2721 µPC2722 µPC2723 µPC2726 µPC2731 µPC2734 µPC2743 µPC2744 µPC2745 µPC2746 µPC2747 µPC2748 µPC2749 µPC2753 µPC2756 µPC2757 µPC2758 µPC2762 µPC2763 µPC2766 µPC2768 µPC277 µPC2771 µPC2775 µPC2776 µPC2781 µPC2782 µPC2791 µPC2792 µPC2794 µPC2795 µPC2797 µPC2798 µPC2799 µPC2800A µPC2900 µPC29L00 µPC29M00 µPC29S10 µPC29S78 µPC305 µPC311 µPC317 µPC319 µPC3200 µPC3202 µPC3205 µPC3206 µPC3207 µPC3210 µPC3211 µPC324 µPC337 µPC339 µPC3403 µPC358 µPC393 µPC4061 µPC4062 µPC4064 µPC4071 µPC4072 Page 328 328 328 271 326 326 324 328 326 326 326 326 329 329 329 329 329 251,326 251,326 326 326 329 329 324 327 271 329 326 329 261,324 261,326 329 329 326 261,326 326 261,326 324 266 271 271 271 272 272 272 271 272 271 326 326 261,324 261,324 326 328 261,324 270 272 271 270 270 271 270 270 270 270 270 Part number µPC4074 µPC4081 µPC4082 µPC4084 µPC4091 µPC4092 µPC4093 µPC4094 µPC4250 µPC451 µPC452 µPC4556 µPC4557 µPC4558 µPC4559 µPC4560 µPC4570 µPC4572 µPC4574 µPC458 µPC4741 µPC4742 µPC4744 µPC494 µPC5020 µPC5021 µPC5022 µPC5023 µPC5024 µPC5031 µPC5032 µPC5034 µPC5200 µPC5201 µPC5202 µPC5203 µPC5204 µPC659A µPC667 µPC7073 µPC741 µPC7800A µPC78L00 µPC78M00A µPC78N00 µPC7900A µPC79L00 µPC79M00 µPC79N00 µPC8001 µPC8002 µPC801 µPC802 µPC803 µPC804 µPC8100 µPC8101 µPC8102 µPC8103 µPC8104 µPC8105 µPC8106 µPC8108 µPC8109 µPC811 µPC8110 Selection Guide X10679EJHV0SG00 Page 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 270 273 222 222 222 222 222 222 222 222 222 222 222 222 222 267 267 249 270 271 271 271 271 271 271 271 271 326 326 270 270 270 270 324,326 324 329 327 324 324 324 327 324 270 324 Part number µPC8112 µPC8116 µPC8119 µPC812 µPC8120 µPC8125 µPC8126 µPC8128 µPC8129 µPC813 µPC8130 µPC8131 µPC8139 µPC814 µPC815 µPC8151 µPC8152 µPC8158 µPC816 µPC8163 µPC821 µPC822 µPC824 µPC831 µPC832 µPC834 µPC842 µPC844 µPD16304 µPD16305 µPD16306 µPD16306A µPD16306B µPD16310 µPD16311 µPD16312 µPD16313 µPD16314 µPD16315 µPD16326 µPD16326A µPD16327 µPD16331 µPD16334 µPD16335 µPD16337 µPD16364 µPD16430A µPD16431A µPD16432B µPD16434 µPD16435 µPD16435A µPD16435B µPD16448A µPD16501 µPD16502 µPD16510 µPD16520 µPD16633B µPD16634A µPD16638A µPD16640A µPD16640B µPD16640C µPD16644 Page 326 327 324 270 324 324 324 329 324 270 324 324 324 270 270 329 329 324 270 324 270 270 270 270 270 270 270 270 251 253 251 251,253 253 251,253 251 251 251 251 251 251 251 253 253 253 253 253 253 252 252 252 252 252 252 252 253 265 265 265 265 253 253 253 253 253 253 253 387 Quick Reference Table by Part Number Part number µPD16647 µPD16650 µPD16652 µPD16654 µPD16655 µPD16661A µPD16662 µPD16663 µPD16664 µPD16666A µPD16667 µPD16670 µPD16675A µPD16676 µPD16680 µPD16681 µPD16682 µPD16710 µPD16715 µPD16715A µPD16732 µPD16732A µPD16732B µPD16740 µPD16750 µPD16780 µPD16803 µPD16804 µPD16805 µPD16808 µPD16813 µPD16814 µPD16818 µPD16823 µPD16833 µPD16833A µPD16835 µPD16836 µPD16837 µPD16853B µPD16855A µPD16855B µPD16855C µPD16855D µPD16856 µPD16857 µPD16858B µPD16858C µPD16874 µPD16875 µPD16877 µPD16901 µPD17001 µPD17003A µPD17005 µPD17010 µPD17012 µPD17015 µPD17016 µPD17017 µPD17071 µPD17072 µPD17073 µPD17201A µPD17203A µPD17204 388 Page 253 253 253 253 253 253 253 253 253 253 253 252 252 252 252 252 252 253 253 253 253 253 253 253 253 253 254 254 254 254 254 254 254 254 254 254 254 254 254 254 248,255 248,255 248,255 248,255 254 254 254 254 248,255 248,255 254 254 15 14 14 14 14 17 14 14 17 17 17 18 18 18 Part number µPD17207 µPD17225 µPD17226 µPD17227 µPD17228 µPD17235 µPD17236 µPD17704 µPD17705 µPD17707 µPD17708 µPD17709 µPD17717 µPD17718 µPD17719 µPD178002 µPD178003 µPD178004A µPD178006A µPD178016A µPD178018A µPD178023 µPD178024 µPD178046 µPD178048 µPD178076 µPD178078 µPD178096 µPD178098 µPD178F048 µPD178F098 µPD178P018A µPD17933A µPD17934A µPD17P001 µPD17P005 µPD17P010 µPD17P012 µPD17P073 µPD17P203A µPD17P204 µPD17P207 µPD17P228 µPD17P236 µPD17P709 µPD17P719 µPD23C128000L µPD23C128040L µPD23C16000AL µPD23C16040AL µPD23C24000 µPD23C24020 µPD23C32000A µPD23C32000L µPD23C32020A µPD23C32040L µPD23C32082L µPD23C32202L µPD23C64000AL µPD23C64020 µPD23C64040AL µPD26401 µPD26411 µPD29F008AL-X µPD29F800AL-X µPD30121 Page Part number Page 18 19 19 19 19 19 19 15 15 15 15 15 16 16 16 23 23 23 23 23 23 23 23 25 25 24 24 24 24 25 24 23 17 17 15 14 14 14 17 18 18 18 19 19 15 16 151 151 151 151 151 151 151 151 151 151 151 151 151 151 151 152 152 152 152 106 µPD30200 µPD30210 µPD30500 µPD30540 µPD30541 µPD30700 µPD30710 µPD3719 µPD3728 µPD3729 µPD3734A µPD3739 µPD3753 µPD3794 µPD3797 µPD3799 µPD431000A µPD431000A-X µPD431231L µPD431532L µPD431536L µPD431632L µPD431636L µPD432232L µPD43256B µPD43256B-X µPD43257B µPD432836AL µPD432836L µPD434001A µPD434001AL µPD434004A µPD434004AL µPD434008A µPD434008AL µPD434016A µPD434016AL µPD441000L-X µPD442000L-X µPD444010L-X µPD444012L-X µPD45128163 µPD45128441 µPD45128841 µPD45256163 µPD45256441 µPD45256841 µPD4564163 µPD4564323 µPD4564441 µPD4564841 µPD4565161 µPD4565421 µPD4565821 µPD45D128164 µPD45D128442 µPD45D128842 µPD464318AL µPD464318L µPD464336AL µPD464336L µPD464518AL µPD464518L µPD464536AL µPD464536L µPD4701A 106 106 106 106 106 106 106 243 243 243 243 243 243 243 243 243 146 147 149 149 149 149 149 149 146 147 146 149 149 148 148 148 148 148 148 148 148 147 147 147 147 139 139 139 138 138 138 140 140 140 140 141 141 141 141 141 141 150 150 150 150 150 150 150 150 266 Part number Page µPD4702 266 µPD4704 266 µPD4711B 267 µPD4712C 267 µPD4712D 267 µPD4713A 267 µPD4714A 267 µPD4715A 267 µPD4721 267 µPD4722 267 µPD4723 267 µPD4724 267 µPD4726 267 µPD485505 153 µPD485506 153 µPD488385 141 µPD488448 141 µPD488488 141 µPD4990A 266 µPD4991A 266 µPD4992 266 µPD5205 274 µPD5555 274 µPD5556 274 µPD61012 256 µPD61030 256 µPD6121G-001 266 µPD6122G-001 266 µPD6133 20 µPD6134 20 µPD61511 261 µPD61882A 262 µPD61P34B 20 µPD62 21 µPD6221 267 µPD6222 267 µPD6320 251,253,254 µPD63200 257 µPD6321 251,253,254 µPD63210 257 µPD63210L 257 µPD6323 251 µPD6323B 251 µPD6325 267 µPD6326 267 µPD63310 257 µPD6335 267 µPD6336 267 µPD6340 251 µPD6345 254 µPD63702A 258 µPD63710 258 µPD63724A 250 µPD63725 250 µPD6376 257 µPD6379 257 µPD6379A 257 µPD6379AL 257 µPD6379L 257 µPD63A 21 µPD64 21 µPD64082 263 µPD6461 265 µPD6462 265 µPD6464A 265 µPD6465 265 Selection Guide X10679EJHV0SG00 Part number µPD6466 µPD65 µPD65443 µPD65444 µPD65445 µPD65446 µPD65448 µPD65449 µPD65451 µPD65454 µPD65456 µPD65458 µPD65611 µPD65621 µPD65625 µPD65630 µPD65636 µPD65640 µPD65643 µPD65646 µPD65650 µPD65653 µPD65654 µPD65656 µPD65658 µPD65662 µPD65664 µPD65672 µPD65676 µPD65800 µPD65801 µPD65802 µPD65803 µPD65804 µPD65806 µPD65808 µPD65810 µPD65811 µPD65812 µPD65813 µPD65837 µPD65839 µPD65840 µPD65841 µPD65842 µPD65843 µPD65845 µPD65846 µPD65848 µPD65849 µPD65850 µPD65851 µPD65852 µPD65853 µPD65855 µPD65858 µPD65860 µPD65861 µPD65862 µPD65863 µPD65865 µPD65866 µPD65868 µPD65869 µPD65870 µPD65871 Page 265 21 219 219 219 219 219 219 219 219 219 219 178 178 178 177 177 177 178 177 177 178 177 177 177 177 177 177 177 180 180 180 180 180 180 180 180 180 180 180 184 184 184 184 184 184 184 184 184 184 184 184 184 184 184 184 185 185 185 185 185 185 185 185 185 185 Quick Reference Table by Part Number Part number Page Part number Page Part number Page µPD65872 µPD65873 µPD65875 µPD65878 µPD65880 µPD65881 µPD65882 µPD65883 µPD65884 µPD65885 µPD65887 µPD65889 µPD65890 µPD65893 µPD65943 µPD65944 µPD65945 µPD65946 µPD65948 µPD65949 µPD65951 µPD65954 µPD65956 µPD65958 µPD6604 µPD66P04B µPD6700 µPD6708 µPD67821 µPD67822 µPD67823 µPD67824 µPD67825 µPD67826 µPD67827 µPD67828 µPD67829 µPD67830 µPD67831 µPD680×× µPD68000 µPD68001 µPD68010 µPD68011 µPD68031 µPD68041 µPD68061 µPD68070 µPD681×× µPD6P4B µPD703002 µPD703003 µPD703003A µPD703004A µPD703006 µPD703008 µPD703008Y µPD703015 µPD703015Y µPD703017 µPD703017Y µPD703025A µPD703033 µPD703033Y µPD703100 µPD703100-A 185 185 185 185 183 183 183 183 183 183 183 183 183 183 189 189 189 189 189 189 189 189 189 189 20 20 251 245 196 196 196 196 196 196 196 196 196 196 196 229 228 228 228 228 228 228 228 228 236 21 104 103 103 103 102 102 102 100 100 100 100 103 101 101 99 99 µPD703101 µPD703101-A µPD703102 µPD703102-A µPD705101 µPD705102 µPD70741 µPD70F3003 µPD70F3003A µPD70F3008 µPD70F3008Y µPD70F3017 µPD70F3017Y µPD70F3025A µPD70F3033 µPD70F3033Y µPD70F3035 µPD70F3035Y µPD70F3102 µPD70F3102-A µPD70P3002 µPD72001-11 µPD72001-A8 µPD72002-11 µPD72011 µPD72012 µPD72042A µPD72042B µPD72103A µPD72107 µPD7225 µPD72254Y µPD72305 µPD72850 µPD72861 µPD72870 µPD72871 µPD750004 µPD750006 µPD750008 µPD750064 µPD750066 µPD750068 µPD750104 µPD750106 µPD750108 µPD753012A µPD753016A µPD753017A µPD753036 µPD753104 µPD753106 µPD753108 µPD753204 µPD753206 µPD753208 µPD753304 µPD754144 µPD754202 µPD754244 µPD754264 µPD754302 µPD754304 µPD75F4264 µPD75P0016 µPD75P0076 99 99 99 99 98 98 98 103 103 102 102 100 100 103 101 101 101 101 99 99 104 245 245 245 247 247 245 245 245 245 252 255 245 248 248 248 248 3 3 3 5 5 5 4 4 4 8 8 8 12 9 9 9 10 10 10 11 7 7 7 7 6 6 7 3 5 µPD75P0116 µPD75P3018A µPD75P3036 µPD75P3116 µPD75P3216 µPD75P4308 µPD77016 µPD77018A µPD77019 µPD77019-013 µPD77110 µPD77111 µPD77112 µPD780016AY µPD780018AY µPD780021A µPD780021AY µPD780022A µPD780022AY µPD780023A µPD780023AY µPD780024A µPD780024AY µPD780031A µPD780031AY µPD780032A µPD780032AY µPD780033A µPD780033AY µPD780034A µPD780034AY µPD780053 µPD780053Y µPD780054 µPD780054Y µPD780055 µPD780055Y µPD780056 µPD780056Y µPD780058 µPD780058Y µPD780065 µPD780076 µPD780076Y µPD780078 µPD780078Y µPD78011F µPD78011FY µPD78011H µPD78012F µPD78012FY µPD78012H µPD78013F µPD78013FY µPD78013H µPD78014F µPD78014FY µPD78014H µPD78015F µPD78015FY µPD78016F µPD78016FY µPD78018F µPD78018FY µPD780204 µPD780205 4 8 12 9 10 6 240 240 240 240 240 240 240 59 59 49 50 49 50 49 50 49 50 49 50 49 50 49 50 49 50 57 58 57 58 57 58 57 58 57 58 52 51 51 51 51 46 47 48 46 47 48 46 47 48 46 47 48 46 47 46 47 46 47 66 66 Part number µPD780206 µPD780208 µPD780232 µPD780306 µPD780306Y µPD780308 µPD780308Y µPD78042F µPD78043F µPD78044F µPD78044H µPD78045F µPD78045H µPD78046H µPD78052 µPD78052Y µPD78053 µPD78053Y µPD78054 µPD78054Y µPD78055 µPD78055Y µPD78056 µPD78056F µPD78056FY µPD78056Y µPD78058 µPD78058F µPD78058FY µPD78058Y µPD78062 µPD78062Y µPD78063 µPD78063Y µPD78064 µPD78064B µPD78064Y µPD780701Y µPD780702Y µPD78070A µPD78070AY µPD78074B µPD78075B µPD78076 µPD78076Y µPD78078 µPD78078Y µPD78081 µPD78082 µPD780831Y µPD780833Y µPD780840 µPD780841 µPD780948 µPD780949 µPD780955 µPD780957 µPD780958 µPD78095B µPD78096B µPD780973 µPD780982 µPD780983 µPD780984 µPD780986 µPD780988 Selection Guide X10679EJHV0SG00 Page 66 66 67 70 70 70 70 64 64 64 65 64 65 65 53 54 53 54 53 54 53 54 53 55 56 54 53 55 56 54 68 69 68 69 68 68 69 78 78 62 62 60 60 60 61 60 61 63 63 79 79 72 72 77 77 73 74 74 76 76 75 71 71 71 71 71 Part number µPD78098B µPD784031 µPD784031Y µPD784035 µPD784035Y µPD784036 µPD784036Y µPD784037 µPD784037Y µPD784038 µPD784038Y µPD784044 µPD784046 µPD784054 µPD784214 µPD784214Y µPD784215 µPD784215Y µPD784216 µPD784216Y µPD784217 µPD784217Y µPD784218 µPD784218Y µPD784224 µPD784224Y µPD784225 µPD784225Y µPD784907 µPD784908 µPD784915 µPD784915A µPD784915B µPD784916A µPD784916B µPD784927 µPD784927Y µPD784928 µPD784928Y µPD784935 µPD784936 µPD784937 µPD784938 µPD784953 µPD784955 µPD789011 µPD789012 µPD789022 µPD789024 µPD789025 µPD789026 µPD789046 µPD789101A µPD789102A µPD789104A µPD789111A µPD789112A µPD789114A µPD789121A µPD789122A µPD789124A µPD789131A µPD789132A µPD789134A µPD789166 µPD789167 Page 76 82 83 82 83 82 83 82 83 82 83 84 84 84 85 86 85 86 85 86 87 88 87 88 89 90 89 90 94 94 91 91 91 91 91 92 93 92 93 95 95 95 95 96 96 28 28 29 29 29 29 30 31 31 31 31 31 31 32 32 32 32 32 32 33 33 389 Quick Reference Table by Part Number Part number µPD789176 µPD789177 µPD789304 µPD789306 µPD789314 µPD789316 µPD789405A µPD789406A µPD789407A µPD789415A µPD789416A µPD789417A µPD789426 µPD789427 µPD789436 µPD789437 µPD789446 µPD789447 µPD789456 µPD789457 µPD789800 µPD789830 µPD789841 µPD789842 µPD78F0034A µPD78F0034AY µPD78F0058 µPD78F0058Y µPD78F0066 µPD78F0078 µPD78F0078Y µPD78F0233 µPD78F0701Y µPD78F0833Y µPD78F0841 µPD78F0948 µPD78F0949 µPD78F0974 µPD78F0988 µPD78F4046 µPD78F4216 µPD78F4216Y µPD78F4218 µPD78F4218Y µPD78F4225 µPD78F4225Y µPD78F4928 µPD78F4928Y µPD78F4938 µPD78F4956 µPD78F9026A µPD78F9046 µPD78F9116A µPD78F9136A µPD78F9177 µPD78F9418A µPD78F9437 µPD78F9457 µPD78F9801 µPD78F9831 µPD78F9842 µPD78P0018AY µPD78P018F µPD78P018FY µPD78P0208 µPD78P0308 390 Page 33 33 34 34 34 34 35 35 35 35 35 35 36 36 36 36 37 37 37 37 39 38 40 40 49 50 57 58 52 51 51 67 78 79 72 77 77 75 71 84 85 86 87 88 89 90 92 93 95 96 29 30 31 32 33 35 36 37 39 38 40 59 46 47 66 70 Page Part number Page µPD78P0308Y 70 µPD78P048A 64 µPD78P054 53 µPD78P058 53 µPD78P058F 55 µPD78P058FY 56 µPD78P058Y 54 µPD78P064 68 µPD78P064B 68 µPD78P078 60 µPD78P078Y 61 µPD78P083 63 µPD78P098B 76 µPD78P4038 82 µPD78P4038Y 83 µPD78P4908 94 µPD78P4916 91 µPD78P9014 28 µPD822XX 207 µPD826XX 207 µPD93000 204 µPD94000 204 µPD95100 204 µPD96100 204 µPD9611 249 µPD97000 205 µPD98201 245 µPD98203 245 µPD98401A 246 µPD98404 246 µPD98405 246 µPD98408 246 µPD98409 246 µPD98410 246 µPD98411 246 µPD98421 247 µPD98431 247 µPD99000 205 µPD9903 249 µPG100 328 µPG101 328 µPG103 328 µPG110 328 µPG132 327 µPG133 327 µPG137 327 µPG138 327 µPG139 327 µPG152 327 µPG153 327 µPG154 327 µPG155 327 µPG170 329 µPG171 330 µPG173 330 µPG174 330 µPG175 324,330 µPG501 325 µPG502 325 µPG503 325 µPG504 325 µPG506 325 µPG508 325 Part number NDL3325SU NDL5421P NDL5422P NDL5461P NDL5481P NDL5506P NDL5516P NDL5520C NDL5521P NDL5522P NDL5530 NDL5530C NDL5531P NDL5551P NDL5590P NDL5592P NDL7001 NDL7001L NDL7103 NDL7113 NDL7153 NDL7163 NDL7401P NDL7408P NDL7502P NDL7503P NDL7510P NDL7512P NDL7513P NDL7514P NDL7515P NDL7540PA NDL7552P NDL7553P NDL7560P NDL7562P NDL7563P NDL7564P NDL7565P NDL7580P NDL7603P NDL7620P NDL7701P NDL7705P NDL7910P NE02133 NE02135 NE02139E NE050214-12 NE050214E-12 NE1280100 NE1280200 NE1280400 NE23383B NE24200 NE24283B NE25118 NE25139 NE25339 NE27200 NE3210S01 NE32484A NE32500 NE32584C NE325S01 NE32900 380 382 382 382 382 382 382 382 382 382 382 382 382 382 382 382 380 380 381 381 381 381 380 380 381 381 381 381 381 381 381 381 381 381 381 381 381 381 381 381 380 380 380 380 380 336 336 336 343 343 342 342 342 339 339 339 335 335 335 339 339 339 339 339 339 339 [N] NDL3325ST 380 Part number NE329S01 NE33284A NE334S01 NE34018 NE38018 NE4210M01 NE42484A NE42484C NE425S01 NE428M01 NE429M01 NE434S01 NE46134 NE46234 NE58030 NE58119 NE58130 NE58133 NE58219 NE58230 NE58233 NE61030 NE6500379A NE6500496 NE6501077 NE650R279A NE650R479A NE6510179A NE6510379A NE651R479A NE674 NE68018 NE68019 NE68030 NE68033 NE68035 NE68039E NE68118 NE68119 NE68130 NE68132 NE68133 NE68135 NE68139E NE68141 NE68330 NE68418 NE68419 NE68430 NE68433 NE68439E NE68518 NE68519 NE68530 NE68533 NE68539E NE68618 NE68619 NE68630 NE68633 NE68639 NE68718 NE68719 NE68730 NE68733 NE68739 Selection Guide X10679EJHV0SG00 Page 339 339 339 339 339 340 340 340 340 340 340 340 336 336 336 336 336 336 336 336 336 336 343 343 343 343 343 343 343 343 339 337 336 336 336 336 336 337 336 336 336 336 336 336 336 336 337 336 336 336 336 337 336 336 336 336 337 337 337 337 337 337 337 337 337 337 Part number NE68818 NE68819 NE68830 NE68833 NE68839 NE68939 NE69039 NE696M01 NE71300 NE71383B NE72118 NE721S01 NE72218 NE73430 NE73435 NE73440B NE76000 NE76038 NE76083A NE76084 NE76118 NE76184A NE8500199 NE8500295 NE850R599A NE85618 NE85619 NE85630 NE85632 NE85633 NE85634 NE85635 NE85639E NE85641 NE92039 NE92239 NE92439 NE92739 NE92939 NE93039 NE93139 NE93218 NE93239 NE93318 NE93339 NE94433 NE960R275 NE960R575 NEL150181-12 NEL2001 NEL2004 NEL2012 NEL2012F03-24 NEL2035 NEM0214068-28 NEM085068-28 NEM0899F06-30 NEM0995F01-30 NEM0995F06-30 NES1417B-30 NES1821B-30 NES1821P-30 NES1821P-50 NES1823P-100 NES2527B-30 NEZ1011 Page 337 337 337 337 337 341 341 337 339 339 339 339 339 336 336 336 339 339 339 339 339 339 341 341 341 337 336 336 336 336 336 336 336 336 335 335 335 335 335 335 335 335 335 335 335 336 343 343 342 342 342 342 342 342 343 343 343 343 343 343 343 343 343 343 343 343 Quick Reference Table by Part Number Part number Page Part number Page NEZ1414 NEZ3642 NEZ4450 NEZ5964 NEZ6472 NEZ7177 NEZ7785 NL1000 NL1100 NL2100 NL2110 NNCD[ ]A NNCD[ ]B NNCD[ ]C NNCD[ ]D NNCD[ ]E NNCD[ ]F NNCD[ ]G NNCD[ ]LG NNCD[ ]LH NNCD[ ]MF NNCD[ ]MG NX8501 NX8562LB NX8563LB 342 341 341 341 341,342 342 342 378 378 378 378 320 320 319 319 319 319 319 319 319 319 319 380 380 380 PS2707 PS2732 PS2733 PS2801 PS2802 PS2805 PS2806 PS2832 PS7111-2A PS7112-1A PS7113-1A PS7113-2A PS7122-1A PS7122-2A PS7122A-1A PS7122A-1B PS7122A-1C PS7122A-2A PS7122A-2B PS7141-1A PS7141-1B PS7141-1C PS7141-2A PS7141-2B PS7141C-2A PS7142-1A PS7142-1B PS7142-1C PS7142-2A PS7142-2B PS7160-1A PS7160-2A PS7200A-1A PS7200B-1A PS7211-2A PS7212-1A PS7221-2A PS7241-1A PS7241-1B PS7241-1C PS7241-2A PS7241-2B PS7241-AT1 PS7241-AT5 PS7241C-1A PS7241C-AT1 PS7241C-AT5 PS7341-1A PS7341C-1A PS7342-1A PS7342C-1A PS7360-1A PS7522-1A PS7522-2A PS7841-A15 PS8601 PS8602 PS8701 PS9601 PS9611 PS9634 PS9701 PS9711 365 366 366 361 362 363 364 367 374 374 374 374 374 374 374 374 374 374 374 374 374 374 374 374 376 374 374 374 374 374 374 374 374 374 374 374 374 374 374 374 374 374 375 375 376 376 376 375 376 375 376 375 375 375 375 369 369 369 369 369 369 369 369 [R] RD[ 318 [P] PS2501 PS2502 PS2503 PS2505 PS2506 PS2511 PS2521 PS2525 PS2532 PS2533 PS2561 PS2562 PS2565 PS2566 PS2571 PS2581 PS2601 PS2602 PS2603 PS2604 PS2605 PS2606 PS2607 PS2608 PS2621 PS2622 PS2625 PS2626 PS2633 PS2634 PS2651 PS2652 PS2653 PS2654 PS2701 PS2702 PS2703 PS2705 PS2706 360 362 365 363 364 360 368 368 366 366 360 362 363 364 360 360 360 360 362 362 363 363 364 364 368 368 368 368 366 366 361 361 362 362 361 362 365 363 364 ]E Part number RD[ RD[ RD[ RD[ RD[ RD[ RD[ RD[ RD[ RD[ RD[ ]ES ]F ]FM ]JS ]M ]MW ]P ]S ]SL ]UJ ]UM Page Part number Page Part number Page 318 318 317 318 317 317 317 317 317 317 317 Selection Guide X10679EJHV0SG00 391 NEC Semiconductor Data Book List NEC Semiconductor Data Book CD-ROM List (April 1999) Following is the list of the Semiconductor Data Books NEC has published. If you need a copy, please ask our sales representative. Title / Items Memory (English / Japanese) Date Published 1999.4 Synchronous DRAM, Synchronous DRAM Module, Rambus DRAM, Rambus Module, ASM, Static RAM, Mask ROM, Flash Memory, Combo Chip Microcomputer (English / Japanese) 1999.4 4-bit MCU (75XL, 17K, µPD63), 8-bit MCU (178K, 78K/0S, 78K/0), 16-bit MCU (78K/IV), 32-bit MPU & MCU (V810, V830, V850), Development Tools Display Controller / Driver IC, General Purpose Digital IC (English) 1999.1 MOS FET (English) 1998.5 Power MOS FET, Signal MOS FET RF & Microwave Devices (English) 1998.8 Silicon Microwave Monolithic IC, High frequency Silicon Transister, GaAs Devices Optoelectronic Devices - NEPOC Series - (English) Photocoupler, OCMOS FET (Solid State Relay), Infrared Transceiver 1999.1 For further information, please contact: NEC Corporation NEC Building 7-1, Shiba 5-chome, Minato-ku Tokyo 108-8001, Japan Tel: 03-3454-1111 http://www.ic.nec.co.jp/ [North & South America] [Europe] NEC Electronics Inc. 2880 Scott Blvd. Santa Clara, CA 95050-2554, U.S.A. Tel: 408-588-6000 800-366-9782 Fax: 408-588-6130 800-729-9288 http://www.necel.com/ NEC Electronics (Germany) GmbH Kanzlerstr. 2, 40472 Düsseldorf Germany Tel: 0211-650302 Fax: 0211-6503490 Munich Office Arabellastr. 17 81925 München, Germany Tel: 089-921003-0 Fax: 089-92100315 NEC do Brasil S.A. Electron Devices Division Rodovia Presidente Dutra, Km 214 07210-902-Guarulhos-SP Brasil Tel: 55-11-6465-6810 Fax: 55-11-6465-6829 Stuttgart Office Industriestr. 3 70507 Stuttgart, Germany Tel: 0711-99010-0 Fax: 0711-99010-19 Hannover Office Königstr. 12 30175 Hannover, Germany Tel: 0511-33402-0 Fax: 0511-33402-34 Benelux Office Boschdijk 187a 5612 HB Eindhoven, The Netherlands Tel: 040-2445845 Fax: 040-2444580 Scandinavia Office P.O. Box 134 18322 Taeby, Sweden Tel: 08-6380820 Fax: 08-6380388 NEC Electronics (UK) Limited Cygnus House, Sunrise Park Way, Milton Keynes, MK14 6NP, U.K. Tel: 01908-691-133 Fax: 01908-670-290 NEC Electronics (France) S.A. 9, rue Paul Dautier-BP 187 78142 Velizy-Villacoublay Cédex France Tel: 01-30-67-58-00 Fax: 01-30675899 Madrid Office Juan Esplandiu, 15 28007 Madrid, Spain Tel: 91-504-2787 Fax: 91-504-2860 NEC Electronics Italiana s.r.l. Via Fabio Filzi, 25/A, 20124 Milano, Italy Tel: 02-667541 Fax: 02-66754299 [Asia & Oceania] NEC Electronics Hong Kong Limited 12/F., Cityplaza 4, 12 Taikoo Wan Road, Hong Kong Tel: 2886-9318 Fax: 2886-9022/9044 Seoul Branch 10F, ILSONG Bldg., 157-37, Samsung-Dong, Kangnam-Ku Seoul, the Republic of Korea Tel: 02-528-0303 Fax: 02-528-4411 NEC Electronics Taiwan Ltd. 7F, No. 363 Fu Shing North Road Taipei, Taiwan, R. O. C. Tel: 02-2719-2377 Fax: 02-2719-5951 NEC Electronics Singapore Pte. Ltd. 101 Thomson Road #04-01/05 United Square, Singapore 307591 Tel: 65-253-8311 Fax: 65-250-3583 G99. 1 Document No. X10679EJHV0SG00(17th edition) Date Published April 1999 N CP(K) © NEC Corporation 1999 Printed in Japan