93C46B 1K 5.0V Microwire® Serial EEPROM FEATURES BLOCK DIAGRAM • Single supply 5.0V operation • Low power CMOS technology - 1 mA active current (typical) - 1 µA standby current (maximum) • 64 x 16 bit organization • Self-timed ERASE and WRITE cycles (including auto-erase) • Automatic ERAL before WRAL • Power on/off data protection circuitry • Industry standard 3-wire serial interface • Device status signal during ERASE/WRITE cycles • Sequential READ function • 1,000,000 E/W cycles ensured • Data retention > 200 years • 8-pin PDIP/SOIC and 8-pin TSSOP packages • Available for the following temperature ranges: - Commercial (C): 0°C to +70°C - Industrial (I): -40°C to +85°C - Automotive (E): -40°C to +125°C ADDRESS DECODER MEMORY ARRAY ADDRESS COUNTER DATA REGISTER OUTPUT BUFFER DO DI MEMORY DECODE LOGIC CS CLK VCC VSS CLOCK GENERATOR DESCRIPTION The Microchip Technology Inc. 93C46B is a 1 Kbit, low-voltage serial Electrically Erasable PROM. The device memory is configured as 64 x 16 bits. Advanced CMOS technology makes this device ideal for low-power, nonvolatile memory applications. The 93C46B is available in standard 8-pin DIP, surface mount SOIC, and TSSOP packages. The 93C46BX are only offered in a 150 mil SOIC package. PACKAGE TYPE DIP 1 8 VCC DI 3 DO 4 7 NC CLK 6 NC 5 VSS 2 DI 3 DO 4 93C46B 2 93C46B CLK 1 8 VCC NC 1 7 NC VCC 2 NC CS 3 VSS CLK 4 6 5 93C46BX CS SOIC TSSOP 8 NC 7 VSS 6 DO 5 DI CS CLK DI DO 1 2 3 4 93C46B CS SOIC 8 7 6 5 VCC NC NC VSS Microwire is a registered trademark of National Semiconductor Incorporated. 2001 Microchip Technology Inc. DS21172E-page 1 93C46B 1.0 1.1 ELECTRICAL CHARACTERISTICS TABLE 1-1 Name Maximum Ratings* VCC...................................................................................7.0V All inputs and outputs w.r.t. VSS .............. -0.6V to VCC +1.0V Storage temperature .....................................-65°C to +150°C Ambient temp. with power applied ................-65°C to +125°C Soldering temperature of leads (10 seconds) ............. +300°C ESD protection on all pins................................................4 kV *Notice: Stresses above those listed under “Maximum ratings” may cause permanent damage to the device. This is a stress rating only and functional operation of the device at those or any other conditions above those indicated in the operational listings of this specification is not implied. Exposure to maximum rating conditions for extended periods may affect device reliability. TABLE 1-2 PIN FUNCTION TABLE Function CS Chip Select CLK Serial Data Clock DI Serial Data Input DO Serial Data Output VSS Ground NC No Connect VCC Power Supply DC AND AC ELECTRICAL CHARACTERISTICS All parameters apply over the specified operating ranges unless otherwise noted Parameter Commercial (C) VCC = +4.5V to +5.5V TAMB = 0°C to +70°C Industrial (I) VCC = +4.5V to +5.5V TAMB = -40°C to +85°C Automotive (E) VCC = +4.5V to +5.5V TAMB = -40°C to +125°C Symbol Min. Max. Units VIH 2.0 VCC +1 V Low level input voltage VIL -0.3 0.8 V — Low level output voltage VOL — 0.4 V IOL = 2.1 mA; VCC = 4.5V High level output voltage High level input voltage Conditions (Note 2) VOH 2.4 — V IOH = -400 µA; VCC = 4.5V Input leakage current ILI -10 10 µA VIN = VSS to VCC Output leakage current ILO -10 10 µA VOUT = VSS to VCC pF VIN/VOUT = 0 V (Notes 1 & 2) TAMB = +25°C, FCLK = 1 MHz Pin capacitance (all inputs/outputs) Operating current CIN, COUT — 7 ICC read — 1 mA — ICC write — 1.5 mA — Standby current ICCS — 1 µA Clock frequency FCLK — 2 MHz CS = VSS; DI = VSS Clock high time TCKH 250 — ns — Clock low time TCKL 250 — ns — Chip select setup time TCSS 50 — ns Relative to CLK Chip select hold time TCSH 0 — ns Relative to CLK VCC = 4.5V Chip select low time TCSL 250 — ns — Data input setup time TDIS 100 — ns Relative to CLK Data input hold time TDIH 100 — ns Relative to CLK Data output delay time TPD — 400 ns CL = 100 pF Data output disable time TCZ — 100 ns CL = 100 pF (Note 2) Status valid time TSV — 500 ns CL = 100 pF TWC — 2 ms ERASE/WRITE mode TEC — 6 ms ERAL mode TWL — 15 ms — 1M — cycles Program cycle time Endurance WRAL mode 25°C, VCC = 5.0V, Block Mode (Note 3) Note 1: This parameter is tested at TAMB = 25°C and FCLK = 1 MHz. 2: This parameter is periodically sampled and not 100% tested. 3: This application is not tested but ensured by characterization. For endurance estimates in a specific application, please consult the Total Endurance Model which may be obtained on our website: www.microchip.com DS21172E-page 2 2001 Microchip Technology Inc. 93C46B 2.0 PIN DESCRIPTION 2.1 Chip Select (CS) After detecting a START condition, the specified number of clock cycles (respectively low to high transitions of CLK) must be provided. These clock cycles are required to clock in all required opcodes, addresses, and data bits before an instruction is executed (Table 2-1). CLK and DI then become don't care inputs waiting for a new START condition to be detected. A high level selects the device; a low level deselects the device and forces it into standby mode. However, a programming cycle which is already in progress will be completed, regardless of the Chip Select (CS) input signal. If CS is brought low during a program cycle, the device will go into standby mode as soon as the programming cycle is completed. Note: 2.3 CS must go low between consecutive instructions. Data In (DI) CS must be low for 250 ns minimum (TCSL) between consecutive instructions. If CS is low, the internal control logic is held in a RESET status. Data In (DI) is used to clock in a START bit, opcode, address, and data synchronously with the CLK input. 2.2 2.4 Serial Clock (CLK) Data Out (DO) Data Out (DO) is used in the READ mode to output data synchronously with the CLK input (TPD after the positive edge of CLK). The Serial Clock (CLK) is used to synchronize the communication between a master device and the 93C46B. Opcodes, addresses, and data bits are clocked in on the positive edge of CLK. Data bits are also clocked out on the positive edge of CLK. This pin also provides READY/BUSY status information during ERASE and WRITE cycles. READY/BUSY status information is available on the DO pin if CS is brought high after being low for minimum chip select low time (TCSL) and an ERASE or WRITE operation has been initiated. CLK can be stopped anywhere in the transmission sequence (at high or low level) and can be continued anytime with respect to clock high time (TCKH) and clock low time (TCKL). This gives the controlling master freedom in preparing the opcode, address, and data. The status signal is not available on DO, if CS is held low during the entire ERASE or WRITE cycle. In this case, DO is in the HIGH-Z mode. If status is checked after the ERASE/WRITE cycle, the data line will be high to indicate the device is ready. CLK is a “Don't Care” if CS is low (device deselected). If CS is high, but START condition has not been detected, any number of clock cycles can be received by the device, without changing its status (i.e., waiting for a START condition). CLK cycles are not required during the self-timed WRITE (i.e., auto ERASE/WRITE) cycle. TABLE 2-1 INSTRUCTION SET FOR 93C46B Instruction SB Opcode Address Data In Data Out Req. CLK Cycles ERASE 1 11 A5 A4 A3 A2 A1 ERAL 1 00 1 0 X X X A0 — (RDY/BSY) 9 X — (RDY/BSY) 9 EWDS 1 00 0 0 X X EWEN 1 00 1 1 X X X X — HIGH-Z 9 X X — HIGH-Z 9 READ 1 10 A5 A4 A3 A2 A1 A0 — D15 - D0 25 WRITE 1 01 A5 A4 A3 A2 A1 A0 D15 - D0 (RDY/BSY) 25 WRAL 1 00 0 1 X X X X D15 - D0 (RDY/BSY) 25 2001 Microchip Technology Inc. DS21172E-page 3 93C46B 3.0 FUNCTIONAL DESCRIPTION Instructions, addresses and write data are clocked into the DI pin on the rising edge of the clock (CLK). The DO pin is normally held in a HIGH-Z state except when reading data from the device, or when checking the READY/BUSY status during a programming operation. The READY/BUSY status can be verified during an ERASE/WRITE operation by polling the DO pin; DO low indicates that programming is still in progress, while DO high indicates the device is ready. The DO will enter the HIGH-Z state on the falling edge of the CS. 3.1 3.2 It is possible to connect the Data In (DI)and Data Out (DO) pins together. However, with this configuration, if A0 is a logic-high level, it is possible for a “bus conflict” to occur during the “dummy zero” that precedes the READ operation. Under such a condition, the voltage level seen at DO is undefined and will depend upon the relative impedances of DO and the signal source driving A0. The higher the current sourcing capability of A0, the higher the voltage at the DO pin. 3.3 START Condition The START bit is detected by the device if CS and DI are both high with respect to the positive edge of CLK for the first time. Before a START condition is detected, CS, CLK, and DI may change in any combination (except to that of a START condition), without resulting in any device operation (ERASE, ERAL, EWDS, EWEN, READ, WRITE, and WRAL). As soon as CS is high, the device is no longer in the standby mode. An instruction following a START condition will only be executed if the required amount of opcodes, addresses, and data bits for any particular instruction is clocked in. Data In (DI) and Data Out (DO) Data Protection During power-up, all programming modes of operation are inhibited until Vcc has reached a level greater than 3.8V. During power-down, the source data protection circuitry acts to inhibit all programming modes when Vcc has fallen below 3.8V at nominal conditions. The ERASE/SRITE Disable (EWDS) and ERASE/ WRITE Enable (EWEN) commands give additional protection against accidental programming during normal operation. After power-up, the device is automatically in the EWDS mode. Therefore, an EWEN instruction must be performed before any ERASE or WRITE instruction can be executed. After execution of an instruction (i.e., clock in or out of the last required address or data bit) CLK and DI become don’t care bits until a new START condition is detected. FIGURE 3-1: CS SYNCHRONOUS DATA TIMING VIH TCSS VIL TCKH TCKL TCSH VIH CLK VIL TDIS TDIH VIH DI VIL TPD TPD DO (READ) TCZ VOH TCZ VOL TSV DO VOH (PROGRAM) VOL Note: STATUS VALID AC test conditions: VIL = 0.4V, VIH = 2.4V DS21172E-page 4 2001 Microchip Technology Inc. 93C46B 3.4 ERASE 3.5 The ERASE instruction forces all data bits of the specified address to the logical “1” state. This cycle begins on the rising clock edge of the last address bit. The Erase All (ERAL) instruction will erase the entire memory array to the logical “1” state. The ERAL cycle is identical to the ERASE cycle, except for the different opcode. The ERAL cycle is completely self-timed and commences at the rising clock edge of the last address bit. Clocking of the CLK pin is not necessary after the device has entered the ERAL cycle. The DO pin indicates the READY/BUSY status of the device if CS is brought high after a minimum of 250 ns low (TCSL). DO at logical “0” indicates that programming is still in progress. DO at logical “1” indicates that the register at the specified address has been erased and the device is ready for another instruction. FIGURE 3-2: Erase All (ERAL) The DO pin indicates the READY/BUSY status of the device, if CS is brought high after a minimum of 250 ns low (TCSL) and before the entire ERAL cycle is complete. ERASE TIMING TCSL CS CHECK STATUS CLK 1 DI 1 1 AN AN-1 AN-2 ••• A0 TCZ TSV DO HIGH-Z BUSY READY HIGH-Z TWC FIGURE 3-3: ERAL TIMING TCSL CS CHECK STATUS CLK 1 DI 0 0 1 0 X ••• X TSV DO HIGH-Z BUSY TCZ READY HIGH-Z TEC 2001 Microchip Technology Inc. DS21172E-page 5 93C46B 3.6 ERASE/WRITE Disable and Enable (EWDS/EWEN) 3.7 The READ instruction outputs the serial data of the addressed memory location on the DO pin. A dummy zero bit precedes the 16-bit output string. The output data bits will toggle on the rising edge of the CLK and are stable after the specified time delay (TPD). Sequential read is possible when CS is held high. The memory data will automatically cycle to the next register and output sequentially. The device powers up in the ERASE/WRITE Disable (EWDS) state. All programming modes must be preceded by an Erase/Write Enable (EWEN) instruction. Once the EWEN instruction is executed, programming remains enabled until an EWDS instruction is executed or Vcc is removed from the device. To protect against accidental data disturbance, the EWDS instruction can be used to disable all ERASE/WRITE functions and should follow all programming operations. Execution of a READ instruction is independent of both the EWDS and EWEN instructions. FIGURE 3-4: READ EWDS TIMING TCSL CS CLK 1 DI FIGURE 3-5: 0 0 0 0 ••• X X EWEN TIMING TCSL CS CLK 1 DI FIGURE 3-6: 0 0 1 1 ••• X X READ TIMING CS CLK 1 DI DO HIGH-Z DS21172E-page 6 1 0 An ••• A0 0 Dx ••• D0 Dx ••• D0 Dx ••• D0 2001 Microchip Technology Inc. 93C46B 3.8 WRITE 3.9 The WRITE instruction is followed by 16 bits of data, which are written into the specified address. After the last data bit is clocked into the DI pin, the self-timed auto-erase and programming cycle begins. The Write All (WRAL) instruction will write the entire memory array with the data specified in the command. The WRAL cycle is completely self-timed and commences at the rising clock edge of the last data bit. Clocking of the CLK pin is not necessary after the device has entered the WRAL cycle. The WRAL command does include an automatic ERAL cycle for the device. Therefore, the WRAL instruction does not require an ERAL instruction, but the chip must be in the EWEN status. The DO pin indicates the READY/BUSY status of the device, if CS is brought high after a minimum of 250 ns low (TCSL) and before the entire write cycle is complete. DO at logical “0” indicates that programming is still in progress. DO at logical “1” indicates that the register at the specified address has been written with the data specified and the device is ready for another instruction. FIGURE 3-7: Write All (WRAL) The DO pin indicates the READY/BUSY status of the device if CS is brought high after a minimum of 250 ns low (TCSL). WRITE TIMING TCSL CS CLK DI 1 0 1 An ••• A0 Dx ••• D0 TSV HIGH-Z DO TCZ BUSY READY HIGH-Z Twc FIGURE 3-8: WRAL TIMING TCSL CS CLK DI 1 0 0 0 1 X ••• X Dx ••• D0 TSV DO HIGH-Z BUSY TCZ READY HIGH-Z TWL 2001 Microchip Technology Inc. DS21172E-page 7 93C46B 93C46B PRODUCT IDENTIFICATION SYSTEM To order or obtain information, e.g., on pricing or delivery, refer to the factory or the listed sales office. 93C46B — /P Package: Temperature Range: Device: P SN SM ST = = = = Plastic DIP (300 mil Body), 8-lead Plastic SOIC (150 mil Body), 8-lead Plastic SOIC (208 mil Body), 8-lead TSSOP, 8-lead Blank = 0 °C to +70°C I = -40°C to +85°C E = -40°C to +125°C 93C46B = 1K Microwire Serial EEPROM 93C46BT = 1K Microwire Serial EEPROM Tape and Reel 93C46BX = 1K Microwire Serial EEPROM in alternate pinout (SN only) 93C46BXT = 1K Microwire Serial EEPROM in alternate pinout, Tape and Reel (SN only) Sales and Support Data Sheets Products supported by a preliminary Data Sheet may have an errata sheet describing minor operational differences and recommended workarounds. To determine if an errata sheet exists for a particular device, please contact one of the following: 1. Your local Microchip sales office 2. The Microchip Corporate Literature Center U.S. FAX: (480) 792-7277 3. The Microchip Worldwide Web Site (www.microchip.com) DS21172E-page 8 2001 Microchip Technology Inc. 93C46B NOTES: 2001 Microchip Technology Inc. DS21172E-page 9 93C46B NOTES: DS21172E-page 10 2001 Microchip Technology Inc. 93C46B “All rights reserved. Copyright © 2001, Microchip Technology Incorporated, USA. Information contained in this publication regarding device applications and the like is intended through suggestion only and may be superseded by updates. No representation or warranty is given and no liability is assumed by Microchip Technology Incorporated with respect to the accuracy or use of such information, or infringement of patents or other intellectual property rights arising from such use or otherwise. Use of Microchip’s products as critical components in life support systems is not authorized except with express written approval by Microchip. No licenses are conveyed, implicitly or otherwise, under any intellectual property rights. The Microchip logo and name are registered trademarks of Microchip Technology Inc. in the U.S.A. and other countries. All rights reserved. All other trademarks mentioned herein are the property of their respective companies. No licenses are conveyed, implicitly or otherwise, under any intellectual property rights.” Trademarks The Microchip name, logo, PIC, PICmicro, PICMASTER, PICSTART, PRO MATE, KEELOQ, SEEVAL, MPLAB and The Embedded Control Solutions Company are registered trademarks of Microchip Technology Incorporated in the U.S.A. and other countries. Total Endurance, ICSP, In-Circuit Serial Programming, FilterLab, MXDEV, microID, FlexROM, fuzzyLAB, MPASM, MPLINK, MPLIB, PICDEM, ICEPIC, Migratable Memory, FanSense, ECONOMONITOR, SelectMode and microPort are trademarks of Microchip Technology Incorporated in the U.S.A. Serialized Quick Term Programming (SQTP) is a service mark of Microchip Technology Incorporated in the U.S.A. All other trademarks mentioned herein are property of their respective companies. © 2001, Microchip Technology Incorporated, Printed in the U.S.A., All Rights Reserved. Microchip received QS-9000 quality system certification for its worldwide headquarters, design and wafer fabrication facilities in Chandler and Tempe, Arizona in July 1999. The Company’s quality system processes and procedures are QS-9000 compliant for its PICmicro® 8-bit MCUs, KEELOQ® code hopping devices, Serial EEPROMs and microperipheral products. In addition, Microchip’s quality system for the design and manufacture of development systems is ISO 9001 certified. 2001 Microchip Technology Inc. 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Benex S-1 6F 3-18-20, Shinyokohama Kohoku-Ku, Yokohama-shi Kanagawa, 222-0033, Japan Tel: 81-45-471- 6166 Fax: 81-45-471-6122 Arizona Microchip Technology SARL Parc d’Activite du Moulin de Massy 43 Rue du Saule Trapu Batiment A - ler Etage 91300 Massy, France Tel: 33-1-69-53-63-20 Fax: 33-1-69-30-90-79 Germany Arizona Microchip Technology GmbH Gustav-Heinemann Ring 125 D-81739 Munich, Germany Tel: 49-89-627-144 0 Fax: 49-89-627-144-44 Germany Analog Product Sales Lochhamer Strasse 13 D-82152 Martinsried, Germany Tel: 49-89-895650-0 Fax: 49-89-895650-22 Italy Arizona Microchip Technology SRL Centro Direzionale Colleoni Palazzo Taurus 1 V. Le Colleoni 1 20041 Agrate Brianza Milan, Italy Tel: 39-039-65791-1 Fax: 39-039-6899883 United Kingdom Arizona Microchip Technology Ltd. 505 Eskdale Road Winnersh Triangle Wokingham Berkshire, England RG41 5TU Tel: 44 118 921 5869 Fax: 44-118 921-5820 01/30/01 All rights reserved. © 2001 Microchip Technology Incorporated. Printed in the USA. 3/01 Printed on recycled paper. Information contained in this publication regarding device applications and the like is intended through suggestion only and may be superseded by updates. It is your responsibility to ensure that your application meets with your specifications. No representation or warranty is given and no liability is assumed by Microchip Technology Incorporated with respect to the accuracy or use of such information, or infringement of patents or other intellectual property rights arising from such use or otherwise. Use of Microchip’s products as critical components in life support systems is not authorized except with express written approval by Microchip. No licenses are conveyed, implicitly or otherwise, except as maybe explicitly expressed herein, under any intellectual property rights. The Microchip logo and name are registered trademarks of Microchip Technology Inc. in the U.S.A. and other countries. All rights reserved. All other trademarks mentioned herein are the property of their respective companies. DS21172E-page 12 2001 Microchip Technology Inc.