DATA SHEET MOS INTEGRATED CIRCUIT µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY TM V850/SA1 32-BIT SINGLE-CHIP MICROCONTROLLER DESCRIPTION The µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, and 703017AY (V850/SA1) are 32-bit single-chip V850 Family TM microcontrollers that include the peripheral functions such as ROM/RAM, timer/counters, serial interfaces, an A/D converter, and a DMA controller. In addition to its high real-time responsiveness and one-clock-pitch execution of instructions, the V850/SA1 includes a hardware multiplier for multiplication instructions, saturation instructions, and bit manipulation instructions, all of which are instructions suited to digital servo control applications. As a real-time control system, this device provides a high-level cost performance ideal for applications ranging from low-power camcorders and other AV equipment to portable telephone equipment such as cellular phones and personal handyphone systems (PHS). Detailed function descriptions are provided in the following user’s manuals. Be sure to read them before designing. V850/SA1 User’s Manual Hardware: U12768E V850 Family User’s Manual Architecture: U10243E FEATURES { Number of instructions: 74 { Memory space: { Minimum instruction execution time: 16 MB linear address space 58.8 ns (@ 17 MHz operation with main clock (fXX)) 50 ns (@ 20 MHz operation with main clock (fXX)) 30.5 µs (@ 32.768 kHz operation with subclock (fXT)) { General-purpose registers: 32 bits × 32 registers { Instruction set: Memory block allocation function: 2 MB per block { External bus interface: 16-bit data bus Address bus: Separate output enabled { Interrupts and exception External: 8, internal: 23, exception: 1 Signed multiplication, saturation operations, 32-bit { I/O lines Total: 85 shift instructions, bit manipulation instructions, { Timer/counters load/store instructions { Internal memory • Mask ROM: 16-bit timer: 2 channels 8-bit timer: 4 channels { Watch timer: 1 channel 64 KB { Watchdog timer: 1 channel (µPD703014A, 703014AY, 703014B, 703014BY) { Serial interface (SIO) 128 KB Asynchronous serial interface (UART) (µPD703015A, 703015AY, 703015B, 703015BY) Clocked serial interface (CSI) 256 KB (µPD703017A, 703017AY) I C bus interface 2 (µPD703014AY, 703014BY, 703015AY, • RAM: 703015BY, 703017AY) 4 KB (µPD703014A, 703014AY, 703014B, 703014BY, { A/D converter: 12 channels 703015A, 703015AY, 703015B, 703015BY) { DMA controller: 3 channels 8 KB (µPD703017A, 703017AY) { RTP: 8 bits × 1 channel or 4 bits × 2 channels The information in this document is subject to change without notice. Before using this document, please confirm that this is the latest version. Not all devices/types available in every country. Please check with local NEC representative for availability and additional information. Document No. U14526EJ3V0DS00 (3rd edition) Date Published June 2001 N CP(K) Printed in Japan The mark shows major revised points. © 2000 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY { Power-saving functions: HALT/IDLE/STOP modes { Packages: 100-pin plastic LQFP (14 × 14) 121-pin plastic FBGA (12 × 12) APPLICATIONS { Low-power portable devices Cellular phones, PHSs, and camcorders ORDERING INFORMATION Part Number Internal ROM µPD703014AF1-×××-EA6 121-pin plastic FBGA (12 × 12) 64 KB (Mask ROM) µPD703014AYF1-×××-EA6 121-pin plastic FBGA (12 × 12) 64 KB (Mask ROM) µPD703014BGC-×××-8EU 100-pin plastic LQFP (fine pitch) (14 × 14) 64 KB (Mask ROM) µPD703014BYGC-×××-8EU 100-pin plastic LQFP (fine pitch) (14 × 14) 64 KB (Mask ROM) µPD703015AF1-×××-EA6 121-pin plastic FBGA (12 × 12) 128 KB (Mask ROM) µPD703015AYF1-×××-EA6 121-pin plastic FBGA (12 × 12) 128 KB (Mask ROM) µPD703015BGC-×××-8EU 100-pin plastic LQFP (fine pitch) (14 × 14) 128 KB (Mask ROM) µPD703015BYGC-×××-8EU 100-pin plastic LQFP (fine pitch) (14 × 14) 128 KB (Mask ROM) µPD703017AF1-×××-EA6 121-pin plastic FBGA (12 × 12) 256 KB (Mask ROM) µPD703017AGC-×××-8EU 100-pin plastic LQFP (fine pitch) (14 × 14) 256 KB (Mask ROM) µPD703017AYF1-×××-EA6 121-pin plastic FBGA (12 × 12) 256 KB (Mask ROM) µPD703017AYGC-×××-8EU 100-pin plastic LQFP (fine pitch) (14 × 14) 256 KB (Mask ROM) Remark 2 Package ××× indicates ROM code suffix. Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY PIN CONFIGURATION 100-pin plastic LQFP (fine pitch) (14 × 14) µPD703014BGC-×××-8EU µPD703014BYGC-×××-8EU µPD703015BGC-×××-8EU µPD703015BYGC-×××-8EU µPD703017AGC-×××-8EU 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 P20/SI2 P15/SCK1/ASCK0 P14/SO1/TXD0 P13/SI1/RXD0 P12/SCK0/SCLNote 2 P11/SO0 P10/SI0/SDANote 2 P07/INTP6 P06/INTP5/RTPTRG P05/INTP4/ADTRG P04/INTP3 P03/INTP2 P02/INTP1 P01/INTP0 P00/NMI P83/ANI11 P82/ANI10 P81/ANI9 P80/ANI8 P77/ANI7 P76/ANI6 P75/ANI5 P74/ANI4 P73/ANI3 P72/ANI2 µPD703017AYGC-×××-8EU 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 P71/ANI1 P70/ANI0 AVREF AVSS AVDD P65/A21 P64/A20 P63/A19 P62/A18 P61/A17 P60/A16 P57/AD15 P56/AD14 P55/AD13 P54/AD12 P53/AD11 P52/AD10 P51/AD9 P50/AD8 BVSS BVDD P47/AD7 P46/AD6 P45/AD5 P44/AD4 P107/RTP7/A12 P110/A1 P111/A2 P112/A3 P113/A4 RESET P114/XT1 XT2 VDD X2 X1 VSS CLKOUT P120/WAIT P90/LBEN/WRL P91/UBEN P92/R/W/WRH P93/DSTB/RD P94/ASTB P95/HLDAK P96/HLDRQ P40/AD0 P41/AD1 P42/AD2 P43/AD3 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 P21/SO2 P22/SCK2 P23/RXD1 P24/TXD1 P25/ASCK1 VDD VSS P26/TI2/TO2 P27/TI3/TO3 P30/TI00 P31/TI01 P32/TI10 P33/TI11 P34/TO0/A13 P35/TO1/A14 P36/TI4/TO4/A15 P37/TI5/TO5 ICNote 1 P100/RTP0/A5 P101/RTP1/A6 P102/RTP2/A7 P103/RTP3/A8 P104/RTP4/A9 P105/RTP5/A10 P106/RTP6/A11 Notes 1. Connect the IC pin directly to VSS. 2. Applies to the µPD703014BY, 703015BY, and 703017AY only. Data Sheet U14526EJ3V0DS 3 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 121-pin plastic FBGA (12 × 12) µPD703014AF1-×××-EA6 µPD703015AF1-×××-EA6 µPD703017AF1-×××-EA6 µPD703014AYF1-×××-EA6 µPD703015AYF1-×××-EA6 µPD703017AYF1-×××-EA6 Top View Bottom View 13 12 11 10 9 8 7 6 5 4 3 2 1 A B C D E F G H J K L M N N M L K J H G F E D C B A Pin Pin Pin Pin Pin Pin Pin Name Pin Name Pin Name Pin Name Pin Name Pin Name Number Number Number Number Number Number A1 P20 B8 P83 A2 P15 B9 P80 A3 VSS B10 P75 A4 P13 B11 AVSS A5 P11 B12 AVSS A6 P06 B13 A7 P03 A8 P00 A9 P81 D2 VDD G11 P60 K13 BVDD M7 VSS D3 VSS G12 P56 L1 P104 M8 VSS D11 AVDD G13 P57 L2 P105 M9 P92 D12 AVDD H1 P34 L3 RESET M10 P95 D13 AVDD H2 P37 L4 VDD M11 P41 P71 E1 P25 H3 P35 L5 VSS M12 P45 C1 P22 E2 VDD H11 P55 L6 X2 M13 P44 C2 P23 E3 P30 H12 P53 L7 P90 N1 P107 C3 VSS E11 AVDD H13 P54 L8 P120 N2 P110 Note A10 P76 C4 P24 E12 P64 J1 IC L9 P93 N3 P112 A11 P73 C5 P07 E13 P65 J2 ICNote L10 P96 N4 VDD A12 P72 C6 P04 F1 P26 J3 P100 L11 BVSS N5 XT1 A13 AVSS C7 P01 F2 P27 J11 P52 L12 BVSS N6 VSS B1 P21 C8 P82 F3 P33 J12 P50 L13 BVSS N7 VSS B2 P14 C9 P77 F11 P63 J13 P51 M1 P106 N8 B3 VSS C10 P74 F12 P61 K1 P101 M2 P111 N9 P91 P94 CLKOUT B4 P12 C11 AVSS F13 P62 K2 P102 M3 P113 N10 B5 P10 C12 P70 G1 P31 K3 P103 M4 VDD N11 P40 B6 P05 C13 AVREF G2 P32 K11 P46 M5 XT2 N12 P42 B7 P02 D1 VDD G3 P36 K12 P47 M6 X1 N13 P43 Note Connect the IC pin directly to VSS. Remarks 1. Alternate function names are omitted. The alternate functions are identical to the 100-pin plastic LQFP. However, the SCL and SDA pins apply to the µPD703014AY, 703015AY, and 703017AY only. 2. Connect the D4 pin directly to VSS. 4 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY PIN IDENTIFICATION A1 to A21: Address bus P90 to P96: Port 9 AD0 to AD15: Address/data bus P100 to P107: Port 10 ADTRG: AD trigger input P110 to P114: Port 11 ANI0 to ANI11: Analog input P120: Port 12 ASCK0, ASCK1: Asynchronous serial clock RD: Read ASTB: Address strobe RESET: Reset AVDD: Analog VDD RTP0 to RTP7: Real-time port AVREF: Analog reference voltage RTPTRG: RTP trigger AVSS: Analog VSS R/W: Read/write status BVDD: Power supply for bus interface RXD0, RXD1: Receive data BVSS: Ground for bus interface SCK0 to SCK2: CLKOUT: Clock output SCL DSTB: Data strobe SDA HLDAK: Hold acknowledge SI0 to SI2: Serial input HLDRQ: Hold request SO0 to SO2: Serial output IC: Internally connected TI00, TI01, TI10, INTP0 to INTP6: Interrupt request from peripherals TI11, TI2 to TI5: Timer input LBEN: Lower byte enable TO0 to TO5: Timer output NMI: Non-maskable interrupt request TXD0, TXD1: Transmit data P00 to P07: Port 0 UBEN: Upper byte enable P10 to P15: Port 1 VDD: Power supply P20 to P27: Port 2 VSS: Ground P30 to P37: Port 3 WAIT: Wait P40 to P47: Port 4 WRH: Write strobe high-level data Note : Note : Serial clock Serial clock Serial data P50 to P57: Port 5 WRL: Write strobe low-level data P60 to P65: Port 6 X1, X2: Crystal for main clock P70 to P77: Port 7 XT1, XT2: Crystal for sub clock P80 to P83: Port 8 Note Applies to the µPD703014AY, 703014BY, 703015AY, 703015BY, and 703017AY only. Data Sheet U14526EJ3V0DS 5 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY INTERNAL BLOCK DIAGRAM NMI INTP0 to INTP6 Mask ROM CPU INTC HLDRQ (P96) HLDAK (P95) Instruction queue PC ASTB (P94) DSTB/RD (P93) R/W/WRH (P92) UBEN (P91) LBEN/WRL (P90) WAIT Note 1 TI00, TI01, TI10, TI11 TO0, TO1 TI2/TO2 TI3/TO3 TI4/TO4 TI5/TO5 Timer/counters 16-bit timer: TM0, TM1 8-bit timer: TM2 to TM5 RAM SIO Note 2 SO0 SI0/SDANote 3 SCK0/SCLNote 3 CSI0/I2CNote 3 SO1/TXD0 SI1/RXD0 SCK1/ASCK0 CSI1/UART0 SO2 SI2 SCK2 32-bit barrel shifter Multiplier 16 x 16 32 System registers BCU ALU A1 to A12 (P100 to P107, P110 to P113) A13 to A15 (P34 to P36) General-purpose registers 32 bits x 32 A16 to A21 (P60 to P65) AD0 to AD15 (P40 to P47, P50 to P57) Port CSI2 RTP CLKOUT A/D converter X1 DMAC: 3 ch Watch timer AVDD AVREF AVSS ANI0 to ANI11 ADTRG UART1 RTP0 to RTP7 RTPTRG TXD1 RXD1 ASCK1 P120 P114 P110 to P113 P100 to P107 P90 to P96 P80 to P83 P70 to P77 P60 to P65 P50 to P57 P40 to P47 P30 to P37 P20 to P27 P10 to P15 P00 to P07 CG X2 XT1 (P114) XT2 RESET VDD VSS BVDD BVSS Watchdog timer IC Notes 1. µPD703014A, 703014AY, 703014B, 703014BY: 64 KB µPD703015A, 703015AY, 703015B, 703015BY: 128 KB µPD703017A, 703017AY: 256 KB 2. µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY: 4 KB µPD703017A, 703017AY: 8 KB 3. Applies to the µPD703014AY, 703014BY, 703015AY, 703015BY, and 703017AY only. 6 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY CONTENTS 1. PIN FUNCTIONS ..................................................................................................................................8 1.1 Port Pins ..................................................................................................................................................... 8 1.2 Non-Port Pins........................................................................................................................................... 11 1.3 Pin I/O Circuits and Recommended Connection of Unused Pins ....................................................... 14 2. ELECTRICAL SPECIFICATIONS ......................................................................................................18 3. PACKAGE DRAWINGS .....................................................................................................................42 4. RECOMMENDED SOLDERING CONDITIONS ................................................................................44 Data Sheet U14526EJ3V0DS 7 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 1. PIN FUNCTIONS 1.1 Port Pins (1/3) Pin Name P00 I/O PULL I/O Yes P01 Function Port 0 8-bit I/O port Input/output can be specified in 1-bit units. Alternate Function NMI INTP0 P02 INTP1 P03 INTP2 P04 INTP3 P05 INTP4/ADTRG P06 INTP5/RTPTRG P07 INTP6 P10 I/O Yes P11 Port 1 6-bit I/O port Input/output can be specified in 1-bit units. SI0/SDANote SO0 P12 SCK0/SCLNote P13 SI1/RXD0 P14 SO1/TXD0 P15 SCK1/ASCK0 P20 I/O Yes P21 Port 2 8-bit I/O port Input/output can be specified in 1-bit units. SI2 SO2 P22 SCK2 P23 RXD1 P24 TXD1 P25 ASCK1 P26 TI2/TO2 P27 TI3/TO3 P30 P31 I/O Yes Port 3 8-bit I/O port Input/output can be specified in 1-bit units. TI00 TI01 P32 TI10 P33 TI11 P34 TO0/A13 P35 TO1/A14 P36 TI4/TO4/A15 P37 TI5/TO5 Note Applies to the µPD703014AY, 703014BY, 703015AY, 703015BY, and 703017AY only. Remark 8 PULL: On-chip pull-up resistor Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (2/3) Pin Name P40 I/O PULL I/O No P41 Function Port 4 8-bit I/O port Input/output can be specified in 1-bit units. Alternate Function AD0 AD1 P42 AD2 P43 AD3 P44 AD4 P45 AD5 P46 AD6 P47 AD7 P50 I/O No P51 Port 5 8-bit I/O port Input/output can be specified in 1-bit units. AD8 AD9 P52 AD10 P53 AD11 P54 AD12 P55 AD13 P56 AD14 P57 AD15 P60 I/O No P61 Port 6 6-bit I/O port Input/output can be specified in 1-bit units. A16 A17 P62 A18 P63 A19 P64 A20 P65 A21 P70 Input No P71 Port 7 8-bit input port ANI0 ANI1 P72 ANI2 P73 ANI3 P74 ANI4 P75 ANI5 P76 ANI6 P77 ANI7 P80 P81 Input No Port 8 4-bit input port ANI8 ANI9 P82 ANI10 P83 ANI11 Remark PULL: On-chip pull-up resistor Data Sheet U14526EJ3V0DS 9 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (3/3) Pin Name P90 I/O PULL I/O No P91 Function Port 9 7-bit I/O port Input/output can be specified in 1-bit units. Alternate Function LBEN/WRL UBEN P92 R/W/WRH P93 DSTB/RD P94 ASTB P95 HLDAK P96 HLDRQ P100 I/O Yes P101 Port 10 8-bit I/O port Input/output can be specified in 1-bit units. RTP0/A5 RTP1/A6 P102 RTP2/A7 P103 RTP3/A8 P104 RTP4/A9 P105 RTP5/A10 P106 RTP6/A11 P107 RTP7/A12 P110 I/O Yes P111 P112 Port 11 5-bit I/O port Input/output can be specified in 1-bit units. P114 is fixed as input only. P113 Input No P120 I/O No 10 A2 A3 A4 P114 Remark A1 XT1 Port 12 1-bit I/O port PULL: On-chip pull-up resistor Data Sheet U14526EJ3V0DS WAIT µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 1.2 Non-Port Pins (1/3) Pin Name A1 to A4 I/O PULL Output Yes Function Low-order address bus used for external memory expansion Alternate Function P110 to P113 A5 to A12 P100/RTP0 to P107/RTP7 A13 P34/TO0 A14 P35/TI1 A15 P36/TI4/TO4 A16 to A21 Output No High-order address bus used for external memory expansion P60 to P65 AD0 to AD7 I/O No 16-bit multiplexed address/data bus used for external memory expansion P40 to P47 AD8 to AD15 P50 to P57 ADTRG Input Yes A/D converter external trigger input P05/INTP4 ANI0 to ANI7 Input No Analog input to A/D converter P70 to P77 ANI8 to ANI11 Input No ASCK0 Input Yes P80 to P83 Serial clock input for UART0 and UART1 ASCK1 P15/SCK1 P25 ASTB Output No AVDD − − Positive power supply for A/D converter − AVREF Input − Reference voltage input for A/D converter − AVSS − − Ground potential for A/D converter − BVDD − − Positive power supply for bus interface − BVSS − − Ground potential for bus interface − CLKOUT Output − Internal system clock output − DSTB Output No External data strobe signal output P93/RD HLDAK Output No Bus hold acknowledge output P95 HLDRQ Input No Bus hold request input P96 INTP0 to INTP3 Input Yes External interrupt request input (analog noise elimination) P01 to P04 External interrupt request input (digital noise elimination) P05/ADTRG INTP4 External address strobe signal output P94 INTP5 P06/RTPTRG INTP6 P07 LBEN Output No External data bus’s low-order byte enable signal output P90/WRL NMI Input Yes Non-maskable interrupt request input P00 RD Output No Read strobe signal output P93/DSTB Input − Output Yes RESET RTP0 to RTP7 Remark System reset input Real-time output port − P100/A5 to P107/A12 PULL: On-chip pull-up resistor Data Sheet U14526EJ3V0DS 11 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (2/3) Pin Name RTPTRG R/W RXD0 I/O PULL Function Input Yes RTP external trigger input P06/INTP5 Output No External read/write status output P92/WRH Input Yes Serial receive data input for UART0 and UART1 P13/SI1 RXD1 SCK0 Alternate Function P23 I/O Yes Serial clock I/O (3-wire type) for CSI0 to CSI2 P12 SCK1 P15/ASCK0 SCK2 P22 I2C serial clock I/ONote SCL 2 SDA SI0 Input Yes P12/SCK0 Note I C serial transmit/receive data I/O P10/SI0 Serial receive data input (3-wire type) for CSI0 to CSI2 P10 SI1 P13/RXD0 SI2 P20 SO0 Output Yes Serial transmit data output (3-wire type) for CSI0 to CSI2 P11 SO1 P14/TXD0 SO2 P21 TI00 External capture trigger input and external count clock input for TM0 P30 TI01 External capture trigger input for TM0 P31 TI10 External capture trigger input and external count clock input for TM1 P32 TI11 External capture trigger input for TM1 P33 TI2 External count clock input for TM2 P26/TO2 TI3 External count clock input for TM3 P27/TO3 TI4 External count clock input for TM4 P36/TO4/A15 TI5 External count clock input for TM5 P37/TO5 Pulse signal output for TM0 and TM1 P34/A13, P35/A14 TO2 Pulse signal output for TM2 P26/TI2 TO3 Pulse signal output for TM3 P27/TI3 TO4 Pulse signal output for TM4 P36/TI4/A15 TO5 Pulse signal output for TM5 P37/TI5 Serial transmit data output for UART0 and UART1 P14/SO1 TO0, TO1 TXD0 Input Output Output Yes Yes Yes TXD1 UBEN P24 Output No High-order byte enable signal output for external data bus P91 VDD − − Positive power supply pin − VSS − − Ground potential − Note Applies to the µPD703014AY, 703014BY, 703015AY, 703015BY, and 703017AY only. Remark 12 PULL: On-chip pull-up resistor Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (3/3) Pin Name I/O PULL WAIT Input No Control signal input for inserting wait in bus cycle P120 WRH Output No High-order byte write strobe signal output for external data bus P92/R/W Low-order byte write strobe signal output for external data bus P90/LBEN WRL X1 Input X2 − − Alternate Function − Resonator connection for main clock − XT1 Input No XT2 − − IC − − Remark Function Resonator connection for subclock P114 − Internally connected (connect directly to VSS) − PULL: On-chip pull-up resistor Data Sheet U14526EJ3V0DS 13 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 1.3 Pin I/O Circuits and Recommended Connection of Unused Pins The I/O circuit type of each pin and recommended connection of unused pins are show in Table 1-1. For the input/output schematic circuit diagram of each type, refer to Figure 1-1. Table 1-1. Types of Pin I/O Circuits (1/2) Pin Alternate Function P00 NMI P01 to P04 INTP0 to INTP3 P05 INTP4/ADTRG P06 INTP5/RTPTRG P07 INTP6 P10 SI0/SDANote P11 SO0 I/O Circuit Type 8-A Recommended Connection of Unused Pins Input: Independently connect to VDD or VSS via a resistor. Output: Leave open. 10-A 26 Note P12 SCK0/SCL 10-A P13 SI1/RXD0 8-A P14 SO1/TXD0 26 P15 SCK1/ASCK0 10-A P20 SI2 8-A P21 SO2 26 P22 SCK2 10-A P23 RXD1 8-A P24 TXD1 5-A P25 ASCK1 8-A P26, P27 TI2/TO2, TI3/TO3 P30, P31 TI00, TI01 P32, P33 TI10, TI11 P34, P35 TO0/A13, TO1/A14 5-A P36 TI4/TO4/A15 8-A P37 TI5/TO5 P40 to P47 AD0 to AD7 P50 to P57 AD8 to AD15 P60 to P65 A16 to A21 P70 to P77 ANI0 to ANI7 P80 to P83 ANI8 to ANI11 5 Input: Independently connect to BVDD or BVSS via a resistor. Output: Leave open. 9 Connect to AVSS or AVDD Note Applies to the µPD703014AY, 703014BY, 703015AY, 703015BY, and 703017AY only. 14 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Table 1-1. Types of Pin I/O Circuits (2/2) Pin Alternate Function I/O Circuit Type Recommended Connection of Unused Pins 5 Input: Independently connect to BVDD or BVSS via a resistor. Output: Leave open. Input: Independently connect to VDD or VSS via a resistor. Output: Leave open. P90 LBEN/WRL P91 UBEN P92 R/W/WRH P93 DSTB/RD P94 ASTB P95 HLDAK P96 HLDRQ P100 to P107 RTP0/A5 to RTP7/A12 26 P110 to P113 A1 to A4 5 P114 XT1 P120 WAIT 16-A Connect to VSS. 5 Input: Independently connect to BVDD or BVSS via a resistor. Output: Leave open. AVREF − − Connect to AVSS. CLKOUT − 4 Leave open. RESET − 2 X2 − − XT2 − 16-A IC − – − Leave open (when external clock is input to X1 pin). Leave open. Always connect directly to VSS. Data Sheet U14526EJ3V0DS 15 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Figure 1-1. Pin Input/Output Circuits (1/2) Type 2 Type 5-A VDD Pull-up enable P-ch VDD Data IN P-ch IN/OUT Output disable N-ch Schmitt-triggered input with hysteresis characteristics Input enable Type 8-A Type 4 VDD VDD Data Pull-up enable P-ch OUT Output disable P-ch VDD Data P-ch N-ch IN/OUT Output disable N-ch Push-pull output that can be set for high-impedance output (both P-ch and N-ch off) Type 5 Type 9 VDD Data P-ch P-ch IN/OUT Output disable IN N-ch Comparator – N-ch VREF (threshold voltage) Input enable Input enable 16 + Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Figure 1-1. Pin Input/Output Circuits (2/2) Type 10-A Type 26 VDD Pull-up enable Pull-up enable P-ch VDD Data VDD P-ch VDD Data P-ch P-ch IN/OUT Open drain Output disable N-ch IN/OUT Open drain Output disable N-ch Type 16-A XT1 XT2 Data Sheet U14526EJ3V0DS 17 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 2. ELECTRICAL SPECIFICATIONS Absolute Maximum Ratings (TA = 25°C, VSS = 0 V) Parameter Supply voltage Input voltage Symbol Ratings Unit VDD –0.5 to +4.6 V AVDD –0.5 to +4.6 V BVDD –0.5 to +4.6 V VSS –0.5 to +0.5 V AVSS –0.5 to +0.5 V BVSS –0.5 to +0.5 VI1 VI2 Clock input voltage Analog input voltage Analog reference input voltage Output current, low Output current, high Output voltage VK VIAN AVREF IOL IOH VO1 VO2 Conditions Note 1, P114, RESET Note 2 X1, XT1, XT2, VDD = 2.7 to 3.6 V V Note 4 –0.5 to VDD + 0.5 Note 4 –0.5 to BVDD + 0.5 Note 4 –0.5 to VDD + 1.0 V V V Note 3 (AVDD) Note 4 –0.5 to AVDD + 0.5 V AVREF –0.5 to AVDD + 0.5Note 4 V Per pin 4.0 mA Total for P00 to P07, P10 to P15, P20 to P25 25 mA Total for P26, P27, P30 to P37, P100 to P107, P110 to P113 25 mA Total for P40 to P47, P90 to P96, P120, CLKOUT 25 mA Total for P50 to P57, P60 to P65 25 mA Per pin –4.0 mA Total for P00 to P07, P10 to P15, P20 to P25 –25 mA Total for P26, P27, P30 to P37, P100 to P107, P110 to P113 –25 mA Total for P40 to P47, P90 to P96, P120, CLKOUT –25 mA Total for P50 to P57, P60 to P65 –25 Note 1, VDD = 2.7 to 3.6 V Note 2, CLKOUT, BVDD = 2.7 to 3.6 V mA Note 4 –0.5 to VDD + 0.5 Note 4 –0.5 to BVDD + 0.5 V V Operating ambient temperature TA –40 to +85 °C Storage temperature Tstg –65 to +150 °C Notes 1. P00 to P07, P10 to P15, P20 to P27, P30 to P37, P100 to P107, P110 to P113, P120, and their alternate-function pins. 2. P40 to P47, P50 to P57, P60 to P65, P90 to P96, and their alternate-function pins. 3. P70 to P77, P80 to P83, and their alternate-function pins. 4. Be sure not to exceed the absolute maximum ratings (MAX. value) of each supply voltage. 18 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Cautions 1. Do not directly connect the output (or I/O) pins of IC products to each other, or to VDD, VCC, and GND. Open-drain pins or open-collector pins, however, can be directly connected to each other. Direct connection of the output pins between an IC product and an external circuit is possible, if the output pins can be set to the high-impedance state and the output timing of the external circuit is designed to avoid output conflict. 2. Product quality may suffer if the absolute maximum rating is exceeded even momentarily for any parameter. That is, the absolute maximum ratings are rated values at which the product is on the verge of suffering physical damage, and therefore the product must be used under conditions that ensure that the absolute maximum ratings are not exceeded. The ratings and conditions indicated for DC characteristics and AC characteristics represent the quality assurance range during normal operation. Capacitance (TA = 25°C, VDD = AVDD = BVDD = VSS = AVSS = BVSS = 0 V) Parameter Symbol Input capacitance CI I/O capacitance CIO Output capacitance CO Conditions MIN. TYP. fC = 1 MHz Unmeasured pins returned to 0 V MAX. Unit 15 pF 15 pF 15 pF MAX. Unit Operating Conditions (1) Operation frequency, operation voltage Internal Operation Clock Frequency Supply Voltage (VDD) 2 MHz ≤ fXX ≤ 17 MHz 2.7 to 3.6 V 2 MHz ≤ fXX ≤ 20 MHz 3.0 to 3.6 V fXT = 32.768 kHz 2.7 to 3.6 V (2) CPU operation frequency Parameter CPU operation frequency Symbol fCPU Conditions MIN. TYP. During main clock operation VDD = 2.7 to 3.6 V 0.25 17 MHz VDD = 3.0 to 3.6 V 0.25 20 MHz During subclock operation VDD = 2.7 to 3.6 V Data Sheet U14526EJ3V0DS 32.768 kHz 19 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Recommended Oscillator (1) Main clock oscillator (TA = –40 to +85°C) (a) Connection of ceramic resonator or crystal resonator X1 Parameter Oscillation frequency Symbol fXX Oscillation stabilization time X2 Conditions MIN. VDD = 2.7 to 3.6 V 2 VDD = 3.0 to 3.6 V 2 TYP. MAX. Unit 17 MHz 20 MHz 19 Upon reset release 2 /fXX s Upon STOP mode release Note s Note The TYP value differs depending on the setting of the oscillation stabilization time select register (OSTS). Caution Ensure that the duty of oscillation waveform is between 45% and 55%. Remarks 1. Connect the oscillator as close as possible to the X1 and X2 pins. 2. Do not route the wiring near broken lines. 3. For the resonator selection and oscillator constant, customers are requested to either evaluate the oscillation themselves or apply to the resonator manufacturer for evaluation. (b) External clock input X1 X2 Open High-speed CMOS inverter External clock Parameter Input frequency Cautions Symbol fXX Conditions MIN. TYP. MAX. Unit VDD = 2.7 to 3.6 V 2 17 MHz VDD = 3.0 to 3.6 V 2 20 MHz 1. Connect the high-speed CMOS inverter as close as possible to the X1 pin. 2. Sufficiently evaluate the matching between the µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY and the highspeed CMOS inverter. 20 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (2) Subclock oscillator (TA = –40 to +85°C) (a) Connection of crystal resonator XT1 Parameter Oscillation frequency Symbol fXT XT2 Conditions VDD = 2.7 to 3.6 V MIN. TYP. MAX. Unit 32 32.768 35 kHz Oscillation stabilization time 10 s Remarks 1. Connect the oscillator as close as possible to the XT1 and XT2 pins. 2. Do not route the wiring near broken lines. 3. For the resonator selection and oscillator constant, customers are requested to either evaluate the oscillation themselves or apply to the resonator manufacturer for evaluation. (b) External clock input XT1 XT2 High-speed CMOS inverter External clock Parameter Input frequency Cautions Symbol fXT Conditions VDD = 2.7 to 3.6 V MIN. TYP. MAX. Unit 32 32.768 35 kHz 1. Connect the high-speed CMOS inverter as close as possible to the XT2 pin. 2. Sufficiently evaluate the matching between the µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY and the highspeed CMOS inverter. Data Sheet U14526EJ3V0DS 21 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY DC Characteristics (1) Operating conditions (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V) (1/2) Parameter Input voltage, high Input voltage, low Output voltage, high Output voltage, low Input leakage current, high Input leakage current, low Symbol Conditions MIN. TYP. MAX. Unit 0.7VDD VDD V VIH1 Pins other than below VIH2 Note 1 0.7AVDD AVDD V VIH3 Note 2 0.75VDD VDD V VIH4 X1, XT1 (P114), XT2 0.8VDD VDD V VIL1 Pins other than below VSS 0.3VDD V VIL2 Note 1 AVSS 0.3AVDD V VIL3 Note 2 VSS 0.2VDD V VIL4 X1, XT1 (P114), XT2 VSS 0.2VDD V VOH1 Note 3 IOH = –3 mA 0.8VDD V VOH2 Note 4 IOH = –1 mA 0.8VDD V VOL1 Note 3 IOL = 1.6 mA 0.4 V VOL2 Note 4 (Except pins P10 and P12) IOL = 1.6 mA 0.4 V VOL3 P10, P12 IOL = 3 mA 0.4 V ILIH1 Pins other than below 5 µA ILIH2 VI = VDD = AVDD = BVDD X1, XT1, XT2 20 µA ILIL1 VI = 0 V Pins other than below –5 µA X1, XT1, XT2 –20 µA ILIL2 Output leakage current, high ILOH VO = VDD = AVDD = BVDD 5 µA Output leakage current, low ILOL VO = 0 V –5 µA IDD1 Normal operation fXX = 17 MHz All peripheral functions operating 17 30 mA IDD2 HALT mode fXX = 17 MHz All peripheral functions operating 8 20 mA IDD3 IDLE mode fXX = 17 MHz Watch timer operating 1 4 mA IDD4 STOP mode (subclock operation @ fXT = 32.768 kHz, watch timer operating) 8 60 µA STOP mode (subclock stopped (XT1 = VSS)) 1 60 µA Supply current 22 Note 5 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (1) Operating conditions (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V) (2/2) Parameter Supply currentNote 5 Pull-up resistance Symbol Conditions MIN. TYP. MAX. Unit IDD5 Subclock normal operation mode fXT = 32.768 kHz (main clock stopped) 40 140 µA IDD6 Subclock IDLE mode fXT = 32.768 kHz (main clock stopped, watch timer operating) 8 60 µA RL VIN = 0 V 30 100 kΩ 10 Notes 1. P70 to P77, P80 to P83, and their alternate-function pins. 2. P00 to P07, P10, P12, P13, P15, P20, P22, P23, P25 to P27, P30 to P33, P36, P37, RESET, and their alternate-function pins. 3. CLKOUT, P40 to P47, P50 to P57, P60 to P65, P90 to P96, P120, and their alternate-function pins. 4. P00 to P07, P10 to P15, P20 to P27, P30 to P37, P100 to P107, P110 to P113, and their alternatefunction pins. 5. The TYP. value of VDD is 3.3 V. The current consumed by the output buffer is not included. Data Sheet U14526EJ3V0DS 23 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (2) Operating conditions (TA = –40 to +85°C, VDD = AVDD = BVDD = 3.0 to 3.6 V, VSS = AVSS = BVSS = 0 V) (1/2) Parameter Input voltage, high Input voltage, low Output voltage, high Output voltage, low Input leakage current, high Input leakage current, low Symbol Conditions MIN. TYP. MAX. Unit 0.7VDD VDD V VIH1 Pins other than below VIH2 Note 1 0.7AVDD AVDD V VIH3 Note 2 0.75VDD VDD V VIH4 X1, XT1 (P114), XT2 0.8VDD VDD V VIL1 Pins other than below VSS 0.3VDD V VIL2 Note 1 AVSS 0.3AVDD V VIL3 Note 2 VSS 0.2VDD V VIL4 X1, XT1 (P114), XT2 VSS 0.2VDD V VOH1 Note 3 IOH = –3 mA 0.8VDD V VOH2 Note 4 IOH = –1 mA 0.8VDD V VOL1 Note 3 IOL = 1.6 mA 0.4 V VOL2 Note 4 (Except pins P10 and P12) IOL = 1.6 mA 0.4 V VOL3 P10, P12 IOL = 3 mA 0.4 V ILIH1 Pins other than below 5 µA ILIH2 VI = VDD = AVDD = BVDD X1, XT1, XT2 20 µA ILIL1 VI = 0 V Pins other than below –5 µA X1, XT1, XT2 –20 µA ILIL2 Output leakage current, high ILOH VO = VDD = AVDD = BVDD 5 µA Output leakage current, low ILOL VO = 0 V –5 µA IDD1 Normal operation fXX = 20 MHz All peripheral functions operating 20 35 mA IDD2 HALT mode fXX = 20 MHz All peripheral functions operating 9 22 mA IDD3 IDLE mode fXX = 20 MHz Watch timer operating 1.2 4.5 mA IDD4 STOP mode (subclock operation @ fXT = 32.768 kHz, watch timer operating) 8 60 µA STOP mode (subclock stopped (XT1 = VSS)) 1 60 µA Supply current 24 Note 5 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY (2) Operating conditions (TA = –40 to +85°C, VDD = AVDD = BVDD = 3.0 to 3.6 V, VSS = AVSS = BVSS = 0 V) (2/2) Parameter Supply current Note 5 Pull-up resistance Symbol Conditions MIN. TYP. MAX. Unit IDD5 Subclock normal operation mode fXT = 32.768 kHz (main clock stopped) 40 140 µA IDD6 Subclock IDLE mode fXT = 32.768 kHz (main clock stopped, watch timer operating) 8 60 µA RL VIN = 0 V 30 100 kΩ 10 Notes 1. P70 to P77, P80 to P83, and their alternate-function pins. 2. P00 to P07, P10, P12, P13, P15, P20, P22, P23, P25 to P27, P30 to P33, P36, P37, RESET and their alternate-function pins. 3. CLKOUT, P40 to P47, P50 to P57, P60 to P65, P90 to P96, P120, and their alternate-function pins. 4. P00 to P07, P10 to P15, P20 to P27, P30 to P37, P100 to P107, P110 to P113, and their alternatefunction pins. 5. The TYP. value of VDD is 3.3 V. The current consumed by the output buffer is not included. Data Sheet U14526EJ3V0DS 25 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Data Retention Characteristics (TA = –40 to +85°C, VSS = AVSS = BVSS = 0 V) Parameter Symbol Conditions MIN. TYP. 1.8 MAX. Unit 3.6 V 60 µA Data retention voltage VDDDR STOP mode Data retention current IDDDR VDD = VDDDR, XT1 = VSS Supply voltage rise time tRVD 200 µs Supply voltage fall time tFVD 200 µs Supply voltage hold time (from STOP mode setting) tHVD 0 ms STOP mode release signal input time tDREL 0 ms Data retention high-level input voltage VIHDR All input ports VIHn VDDDR V Data retention low-level input voltage VILDR All input ports 0 VILn V 1 Remarks 1. TYP. values are reference values for when TA = 25°C. 2. n = 1 to 4 Setting STOP mode tFVD tRVD 2.7 VNote VDD tHVD RESET (input) STOP mode release interrupt (e.g. NMI) (released by the falling edge) STOP mode release interrupt (e.g. NMI) (released by the rising edge) VDDDR tDREL VIHDR VIHDR VILDR Note VDD = 2.7 V indicates the minimum operation voltage (fXX = 17 MHz) of the V850/SA1. Caution Shifting to STOP mode and restoring from STOP mode must be performed at VDD = 2.7 V min. (fXX = 17 MHz) and VDD = 3.0 V min. (fXX = 20 MHz), respectively. 26 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY AC Characteristics AC Test Input Test Points (1) P11, P14, P21, P24, P34, P35, P40 to P47, P50 to P57, P60 to P65, P90 to P96, P100 to P107, P110 to P113, P120, and their alternate-function pins VDD 0.7VDD 0.7VDD Test points 0.3VDD 0V 0.3VDD (2) P70 to P77, P80 to P83, and their alternate-function pins AVDD 0.7AVDD 0.7AVDD Test points 0V 0.3AVDD 0.3AVDD (3) P00 to P07, P10, P12, P13, P15, P20, P22, P23, P25 to P27, P30 to P33, P36, P37, RESET, and their alternate-function pins VDD 0.75VDD 0.75VDD Test points 0V 0.2VDD 0.2VDD (4) X1, XT1 (P114), XT2 VDD 0.8VDD 0.8VDD Test points 0V 0.2VDD 0.2VDD AC Test Output Test Points VDD 0.8VDD 0.8VDD Test points 0V 0.4 V 0.4 V Data Sheet U14526EJ3V0DS 27 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Load conditions DUT (Device under test) CL = 50 pF Caution If the load capacitance exceeds 50 pF due to the circuit configuration, bring the load capacitance of the device to 50 pF or less by inserting a buffer or by some other means. 28 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Clock Timing (1) Operating conditions (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter X1 input cycle Symbol tCYX Conditions <1> XT1 input cycle X1 input high-level width MIN. MAX. Unit 58.8 500 ns 28.5 31.2 26.4 µs tWXH <2> tWXL <3> X1, XT1 input rise time tXR <4> X1, XT1 input fall time tXF <5> CLKOUT output cycle tCYK <6> 58.8 ns CLKOUT high-level width tWKH <7> 0.4tCYK – 10 ns CLKOUT low-level width tWKL <8> 0.4tCYK – 10 ns CLKOUT rise time tKR <9> 10 ns CLKOUT fall time tKF <10> 10 ns XT1 input high-level width X1 input low-level width ns 12.8 µs 26.4 ns µs 12.8 XT1 input low-level width 0.5 (tCYX – ns tWXH – tWXL) 0.5 (tCYX – tWXH – tWXL) ns 31.2 µs Remark Ensure that the duty is between 45% and 55%. (2) Operating conditions (TA = –40 to +85°C, VDD = AVDD = BVDD = 3.0 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter X1 input cycle MIN. MAX. Unit tCYX Symbol <1> Conditions 50.0 500 ns 28.5 31.2 tWXH <2> 22.5 ns 12.8 µs 22.5 ns 12.8 µs XT1 input cycle X1 input high-level width XT1 input high-level width X1 input low-level width tWXL <3> XT1 input low-level width µs X1, XT1 input rise time tXR <4> 0.5 (tCYX – tWXH – tWXL) ns X1, XT1 input fall time tXF <5> 0.5 (tCYX – tWXH – tWXL) ns CLKOUT output cycle tCYK <6> 50.0 ns CLKOUT high-level width tWKH <7> 0.4tCYK – 10 CLKOUT low-level width tWKL <8> 0.4tCYK – 10 CLKOUT rise time tKR <9> 10 ns CLKOUT fall time tKF <10> 10 ns 31.2 µs ns ns Remark Ensure that the duty is between 45% and 55%. Data Sheet U14526EJ3V0DS 29 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Clock Timing <1> <2> <3> X1, XT1 (input) <4> <5> <6> <7> <8> CLKOUT (output) <9> <10> Timing of pins other than CLKOUT, ports 4, 5, 6, and 9 (TA = –40 to +85°°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter Symbol Conditions MIN. MAX. Unit Output rise time tOR <11> 20 ns Output fall time tOF <12> 20 ns <11> 30 <12> Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Bus Timing (CLKOUT Asynchronous) (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter Symbol Conditions MIN. MAX. Unit Address setup time (to ASTB↓) tSAST <13> 0.5T – 15 ns Address hold time (from ASTB↓) tHSTA <14> 0.5T – 15 ns Delay time from DSTB↓ to address float tFDA <15> 2 ns Data input setup time from address tSAID <16> (2 + n)T – 25 ns Data input setup time from DSTB↓ tSDID <17> (1 + n)T – 25 ns Delay time from ASTB↓ to DSTB↓ tDSTD <18> 0.5T – 15 ns Data input hold time (from DSTB↑) tHDID <19> 0 ns Address output time from DSTB↑ tDDA <20> (1 + i)T – 15 ns Delay time from DSTB↑ to ASTB↑ tDDST1 <21> 0.5T – 15 ns Delay time from DSTB↑ to ASTB↓ tDDST2 <22> (1.5 + i)T – 15 ns DSTB low-level width tWDL <23> (1 + n)T – 15 ns ASTB high-level width tWSTH <24> T – 15 ns Data output time from DSTB↓ tDDOD <25> Data output setup time (to DSTB↑) tSODD <26> (1 + n)T – 20 ns Data output hold time (from DSTB↑) tHDOD <27> T – 15 ns WAIT setup time (to address) tSAWT1 <28> n≥1 1.5T – 25 ns tSAWT2 <29> n≥1 (1.5 + n)T – 25 ns tHAWT1 <30> n≥1 (0.5 + n)T ns tHAWT2 <31> n≥1 (1.5 + n)T ns tSSTWT1 <32> n≥1 T – 25 ns tSSTWT2 <33> n≥1 (1 + n)T – 25 ns tHSTWT1 <34> n≥1 nT ns tHSTWT2 <35> n≥1 (1 + n)T ns HLDRQ high-level width tWHQH <36> T + 10 ns HLDAK low-level width tWHAL <37> T – 15 ns Bus output delay time from HLDAK↑ tDHAC <38> 0 ns Delay time from HLDRQ↓ to HLDAK↓ tDHQHA1 <39> Delay time from HLDRQ↑ to HLDAK↑ tDHQHA2 <40> WAIT hold time (from address) WAIT setup time (to ASTB↓) WAIT hold time (from ASTB↓) 15 0.5T ns (2n + 7.5)T + 25 ns 1.5T + 25 ns Remarks 1. T = 1/fCPU (fCPU: CPU operation clock frequency) 2. n: Number of wait clocks inserted in the bus cycle. The sampling timing changes when a programmable wait is inserted. 3. i: Number of idle states inserted after the read cycle (0 or 1). 4. The values in the above specifications are values for when clocks with a 1:1 duty ratio are input from X1. Data Sheet U14526EJ3V0DS 31 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Bus Timing (CLKOUT Synchronous) (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter Symbol Conditions MIN. MAX. Unit Delay time from CLKOUT↑ to address tDKA <41> 0 19 ns Delay time from CLKOUT↑ to address float tFKA <42> –12 7 ns Delay time from CLKOUT↓ to ASTB tDKST <43> –12 7 ns Delay time from CLKOUT↑ to DSTB tDKD <44> –5 14 ns Data input setup time (to CLKOUT↑) tSIDK <45> 15 ns Data input hold time (from CLKOUT↑) tHKID <46> 5 ns Data output delay time from CLKOUT↑ tDKOD <47> WAIT setup time (to CLKOUT↓) tSWTK <48> 15 ns WAIT hold time (from CLKOUT↓) tHKWT <49> 5 ns HLDRQ setup time (to CLKOUT↓) tSHQK <50> 15 ns HLDRQ hold time (from CLKOUT↓) tHKHQ <51> 5 ns Delay time from CLKOUT↑ to bus float tDKF <52> 19 ns Delay time from CLKOUT↑ to HLDAK tDKHA <53> 19 ns 19 ns Remark The values in the above specifications are values for when clocks with a 1:1 duty ratio are input from X1. 32 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Read Cycle (CLKOUT Synchronous/Asynchronous, 1 Wait) T1 T2 TW T3 CLKOUT (output) <41> A16 to A21 (output), A1 to A15 (output), Note <16> <45> <46> <42> AD0 to AD15 (I/O) Hi-Z Address Data <43> <14> <13> <43> <19> ASTB (output) <24> <44> <18> <21> <15> <17> <44> <20> <22> DSTB (output), RD (output) <32> <48> <34> <33> <35> <49> <23> <48> <49> WAIT (input) <28> <30> <29> <31> Note R/W (output), UBEN (output), LBEN (output) Remark WRL and WRH are high level. Data Sheet U14526EJ3V0DS 33 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Write Cycle (CLKOUT Synchronous/Asynchronous, 1 Wait) T1 T2 TW T3 CLKOUT (output) <41> A16 to A21 (output), A1 to A15 (output), Note <47> AD0 to AD15 (I/O) Address Data <43> <14> <13> <43> ASTB (output) <24> <21> <44> <18> <25> <44> <26> <27> DSTB (output), WRL (output), WRH (output) <32> <48> <34> <33> <35> <49> <23> <48> WAIT (input) <28> <30> <29> <31> Note R/W (output), UBEN (output), LBEN (output) Remark RD is high level. 34 Data Sheet U14526EJ3V0DS <49> µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Bus Hold TH TH TH TI CLKOUT (output) <50> <50> <51> <36> HLDRQ (input) <53> <53> <39> <40> HLDAK (output) <52> <37> <38> Hi-Z A16 to A19 (output), Note A1 to A15 (output) AD0 to AD15 (I/O) Data Hi-Z Hi-Z ASTB (output) Hi-Z DSTB (output), RD (output), WRL (output), WRH (output) Remark R/W (output), UBEN (output), LBEN (output) Data Sheet U14526EJ3V0DS 35 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Reset/Interrupt Timing (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter Symbol Conditions MIN. MAX. Unit RESET high-level width tWRSH <54> 500 ns RESET low-level width tWRSL <55> 500 ns NMI high-level width tWNIH <56> 500 ns NMI low-level width tWNIL <57> INTPn high-level width tWITH <58> INTPn low-level width tWITL <59> 500 ns n = 0 to 3 (analog noise elimination) 500 ns n = 4 to 6 (digital noise elimination) 3T + 20 ns n = 0 to 3 (analog noise elimination) 500 ns n = 4 to 6 (digital noise elimination) 3T + 20 ns Remark T = 1/fXX Reset <54> <55> <56> <57> <58> <59> RESET (input) Interrupt NMI (input) INTPn (input) Remark n = 0 to 6 36 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY TIn Input Timing (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter TIn0, TIn1 high-level width Symbol tTIHn <60> n = 0, 1 n = 2 to 5 TIn high-level width TIn0, TIn1 low-level width Conditions tTILn <61> TIn low-level width n = 0, 1 n = 2 to 5 MIN. MAX. Note Unit 2Tsam + 20 ns 3T + 20 ns Note 2Tsam + 20 ns 3T + 20 ns Note Tsam (count clock cycle) can be selected from the following by setting the PRMn2 to PRMn0 bits of prescaler mode register n, n1 (PRMn, PRMn1). For n = 0 (TM0): Tsam = 2T, 4T, 16T, 64T, 256T, or 1/INTWTI cycle For n = 1 (TM1): Tsam = 2T, 4T, 16T, 32T, 128T, or 256T cycle However, when the TIn0 valid edge is selected as the count clock, Tsam = 2T. Remark T = 1/fXX <60> <61> Tln Remark n = 00, 01, 10, 11, 2 to 5 Data Sheet U14526EJ3V0DS 37 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY CSI Timing (1) Master mode (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter SCKn cycle time Symbol Conditions MIN. MAX. Unit tKCY1 <62> 400 ns SCKn high-/low-level width tKH1, tKL1 <63> 140 ns SIn setup time (to SCKn↑) tSIK1 <64> 50 ns SIn hold time (from SCKn↑) tKSI1 <65> 50 Delay time from SCKn↓ to SOn output tKSO1 <66> ns 60 ns Remark n = 0 to 2 (2) Slave mode (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter SCKn cycle time Symbol Conditions MIN. MAX. Unit tKCY2 <62> 400 ns tKH2, tKL2 <63> 140 ns SIn setup time (to SCKn↑) tSIK2 <64> 50 ns SIn hold time (from SCKn↑) tKSI2 <65> 50 ns Delay time from SCKn↓ to SOn output tKSO2 <66> SCKn high-/low-level width 60 Remark n = 0 to 2 <62> <63> <63> SCKn (I/O) <64> SIn (input) Hi-Z <65> Input data <66> SOn (output) Output data Remark n = 0 to 2 38 Data Sheet U14526EJ3V0DS Hi-Z ns µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY UART Timing (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter Symbol Conditions MIN. MAX. Unit ASCKn cycle time tKCY13 <67> 200 ns ASCKn high-level width tKH13 <68> 80 ns ASCKn low-level width tKL13 <69> 80 ns Remark n = 0, 1 <67> <68> <69> ASCKn (input) Remark n = 0 or 1 Data Sheet U14526EJ3V0DS 39 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY I C Bus Mode (µPD703014AY, 703014BY, 703015AY, 703015BY, 703017AY only) 2 (TA = –40 to +85°C, VDD = AVDD = BVDD = 2.7 to 3.6 V, VSS = AVSS = BVSS = 0 V, CL = 50 pF) Parameter Symbol Normal Mode High-Speed Mode Unit MIN. MAX. MIN. MAX. 0 100 0 400 kHz SCL clock frequency fCLK Bus-free time (between stop/start conditions) tBUF <70> 4.7 – 1.3 – µs Hold timeNote 1 tHD:STA <71> 4.0 – 0.6 – µs SCL clock low-level width tLOW <72> 4.7 – 1.3 – µs SCL clock high-level width tHIGH <73> 4.0 – 0.6 – µs Setup time for start/restart conditions tSU:STA <74> 4.7 – 0.6 – µs Data hold time tHD:DAT <75> 5.0 – – – µs 0Note 2 – 0Note 2 0.9Note 3 µs – ns CBUS compatible master I2C mode Note 4 Data setup time tSU:DAT <76> 250 – SDA and SCL signal rise time tR <77> – 1000 20 + 0.1CbNote 5 300 ns SDA and SCL signal fall time tF <78> – 300 20 + 0.1CbNote 5 300 ns Stop condition setup time tSU:STO <79> 4.0 – 0.6 – µs <80> – – 0 50 ns – 400 – 400 pF Spike pulse width suppressed tSP by input filter Capacitance load of each bus line Cb 100 Notes 1. At the start condition, the first clock pulse is generated after the hold time. 2. The system requires a minimum of 300 ns hold time internally for the SDA signal (at VIHmin.. of SCL signal) in order to occupy the undefined area at the falling edge of SCL. 3. If the system does not extend the SCL signal low hold time (tLOW), only the maximum data hold time (tHD: DAT) needs to be satisfied. 2 2 4. The high-speed mode I C bus can be used in the normal-mode I C bus system. In this case, set the 2 high-speed mode I C bus so that it meets the following conditions. • If the system does not extend the SCL signal's low state hold time: tSU:DAT ≥ 250 ns • If the system extends the SCL signal's low state hold time: Transmit the following data bit to the SDA line prior to the SCL line release (tRmax. + tSU:DAT = 1000 + 2 250 = 1250 ns: Normal mode I C bus specification). 5. Cb: Total capacitance of one bus line (unit: pF) Remark The maximum operating frequency of the µPD703014AY, 703014BY, 703015AY, 703015BY, and 703017AY is fXX = 17 MHz. 40 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY I C Bus Mode (µPD703014AY, 703014BY, 703015AY, 703015BY, 703017AY only) 2 <72> <73> SCL (I/O) <78> <77> <75> <76> <74> <71> <71> <80> <79> SDA (I/O) <70> <77> <78> Restart condition Start Stop condition condition Stop condition A/D Converter (TA = –40 to +85°C, VDD = AVDD = AVREF = 2.7 to 3.6 V, VSS = AVSS = 0 V, CL = 50 pF) Parameter Symbol Conditions Resolution MIN. TYP. MAX. Unit 10 10 10 bit ±0.8 %FSR 100 µs ±0.4 %FSR ±0.4 %FSR ±4 LSB ±4 LSB 2.7 3.6 V AVSS AVREF V Note 1 Overall error Conversion time tCONV 5 Note 1 Zero-scale error Full-scale error Note 1 Integral linearity error Note 2 Differential linearity error Note 2 Analog reference voltage AVREF AVREF = AVDD Analog input voltage VIAN AVREF current AIREF 360 500 µA AVDD power supply current AIDD 1 3 mA Notes 1. Excluding quantization error (±0.05 %FSR) 2. Excluding quantization error (±0.5 LSB) Remark LSB: Least Significant Bit FSR: Full Scale Range Data Sheet U14526EJ3V0DS 41 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 3. PACKAGE DRAWINGS 100-PIN PLASTIC LQFP (FINE PITCH) (14x14) A B 75 76 51 50 detail of lead end S C D R Q 26 25 100 1 F G H I J M K P S N S L M NOTE Each lead centerline is located within 0.08 mm of its true position (T.P.) at maximum material condition. ITEM MILLIMETERS A 16.00±0.20 B 14.00±0.20 C 14.00±0.20 D 16.00±0.20 F 1.00 G 1.00 H 0.22 +0.05 −0.04 I J 0.08 0.50 (T.P.) K 1.00±0.20 L 0.50±0.20 M 0.17 +0.03 −0.07 N 0.08 P 1.40±0.05 Q 0.10±0.05 R 3° +7° −3° S 1.60 MAX. S100GC-50-8EU, 8EA-2 42 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 121-PIN PLASTIC FBGA (12x12) w E S B ZE ZD B 13 12 11 10 9 8 7 6 5 4 3 2 1 A D NM L K J HG F E DC B A w INDEX MARK S A A y1 A2 S S y S e φb A1 φx M S AB ITEM D MILLIMETERS 12.00±0.10 E 12.00±0.10 w 0.20 A 1.48±0.10 A1 A2 0.35±0.06 1.13 e 0.80 b 0.50 +0.05 −0.10 x y 0.08 0.10 y1 ZD ZE 0.20 1.20 1.20 P121F1-80-EA6 Data Sheet U14526EJ3V0DS 43 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY 4. RECOMMENDED SOLDERING CONDITIONS The µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, and 703017AY should be soldered and mounted under the following recommended conditions. For the details of the recommended soldering conditions, refer to the document Semiconductor Device Mounting Technology Manual (C10535E). For soldering methods and conditions other than those recommended below, contact your NEC sales representative. Table 4-1. Surface Mounting Type Soldering Conditions ×××-8EU: 100-pin plastic LQFP (fine pitch) (14 × 14) (1) µPD703017AGC-××× ××× ×××-8EU: 100-pin plastic LQFP (fine pitch) (14 × 14) µPD703017AYGC-××× ××× ×××-EA6: 121-pin plastic FBGA (12 × 12) µPD703014AF1-××× ××× ×××-EA6: 121-pin plastic FBGA (12 × 12) µPD703014AYF1-××× ××× ×××-EA6: 121-pin plastic FBGA (12 × 12) µPD703015AF1-××× ××× ×××-EA6: 121-pin plastic FBGA (12 × 12) µPD703015AYF1-××× ××× ×××-EA6: 121-pin plastic FBGA (12 × 12) µPD703017AF1-××× ××× ×××-EA6: 121-pin plastic FBGA (12 × 12) µPD703017AYF1-××× ××× Soldering Method Soldering Conditions Recommended Condition Symbol Infrared reflow Package peak temperature: 235°C, Time: 30 seconds max. (at 210°C or higher), Count: Two times or less Exposure limit: 7 daysNote (after that, prebake at 125°C for 10 hours) IR35-107-2 VPS Package peak temperature: 215°C, Time: 40 seconds max. (at 200°C or higher), Count: Two times or less Exposure limit: 7 daysNote (after that, prebake at 125°C for 10 hours) VP15-107-2 Partial heating Pin temperature: 300°C max., Time: 3 seconds max. (per pin row) – Note After opening the dry pack, store it at 25°C or less and 65% RH or less for the allowable storage period. Caution Do not use different soldering methods together (except for partial heating). ×××-8EU: 100-pin plastic LQFP (fine pitch) (14 × 14) (2) µPD703014BGC-××× ××× ×××-8EU: 100-pin plastic LQFP (fine pitch) (14 × 14) µPD703014BYGC-××× ××× ×××-8EU: 100-pin plastic LQFP (fine pitch) (14 × 14) µPD703015BGC-××× ××× ×××-8EU: 100-pin plastic LQFP (fine pitch) (14 × 14) µPD703015BYGC-××× ××× Soldering Method Recommended Condition Symbol Infrared reflow Package peak temperature: 235°C, Time: 30 seconds max. (at 210°C or higher), Count: Two times or less IR35-00-2 VPS Package peak temperature: 215°C, Time: 40 seconds max. (at 200°C or higher), Count: Two times or less VP15-00-2 Partial heating Pin temperature: 300°C max., Time: 3 seconds max. (per pin row) Caution 44 Soldering Conditions Do not use different soldering methods together (except for partial heating). Data Sheet U14526EJ3V0DS – µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY [MEMO] Data Sheet U14526EJ3V0DS 45 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY NOTES FOR CMOS DEVICES 1 PRECAUTION AGAINST ESD FOR SEMICONDUCTORS Note: Strong electric field, when exposed to a MOS device, can cause destruction of the gate oxide and ultimately degrade the device operation. Steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it once, when it has occurred. Environmental control must be adequate. When it is dry, humidifier should be used. It is recommended to avoid using insulators that easily build static electricity. Semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. All test and measurement tools including work bench and floor should be grounded. The operator should be grounded using wrist strap. Semiconductor devices must not be touched with bare hands. Similar precautions need to be taken for PW boards with semiconductor devices on it. 2 HANDLING OF UNUSED INPUT PINS FOR CMOS Note: No connection for CMOS device inputs can be cause of malfunction. If no connection is provided to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence causing malfunction. CMOS devices behave differently than Bipolar or NMOS devices. Input levels of CMOS devices must be fixed high or low by using a pull-up or pull-down circuitry. Each unused pin should be connected to V DD or GND with a resistor, if it is considered to have a possibility of being an output pin. All handling related to the unused pins must be judged device by device and related specifications governing the devices. 3 STATUS BEFORE INITIALIZATION OF MOS DEVICES Note: Power-on does not necessarily define initial status of MOS device. Production process of MOS does not define the initial operation status of the device. Immediately after the power source is turned ON, the devices with reset function have not yet been initialized. Hence, power-on does not guarantee out-pin levels, I/O settings or contents of registers. Device is not initialized until the reset signal is received. Reset operation must be executed immediately after power-on for devices having reset function. Caution 2 2 Purchase of NEC I C components conveys a license under the Philips I C Patent Rights to use 2 2 these components in an I C system, provided that the system conforms to the I C Standard Specification as defined by Philips. Reference document Note Electrical Characteristics for Microcomputer (U15170J) Note This document number is that of the Japanese version. Related document µPD70F3015B, 70F3015BY, 70F3017A, 70F3017AY Data Sheet (U14527E) The related documents indicated in this publication may include preliminary versions. However, preliminary versions are not marked as such. V850 Family and V850/SA1 are trademarks of NEC Corporation. 46 Data Sheet U14526EJ3V0DS µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY Regional Information Some information contained in this document may vary from country to country. Before using any NEC product in your application, pIease contact the NEC office in your country to obtain a list of authorized representatives and distributors. They will verify: • Device availability • Ordering information • Product release schedule • Availability of related technical literature • Development environment specifications (for example, specifications for third-party tools and components, host computers, power plugs, AC supply voltages, and so forth) • Network requirements In addition, trademarks, registered trademarks, export restrictions, and other legal issues may also vary from country to country. NEC Electronics Inc. (U.S.) NEC Electronics (Germany) GmbH NEC Electronics Hong Kong Ltd. Santa Clara, California Tel: 408-588-6000 800-366-9782 Fax: 408-588-6130 800-729-9288 Benelux Office Eindhoven, The Netherlands Tel: 040-2445845 Fax: 040-2444580 Hong Kong Tel: 2886-9318 Fax: 2886-9022/9044 NEC Electronics (France) S.A. Velizy-Villacoublay, France Tel: 01-3067-5800 Fax: 01-3067-5899 Seoul Branch Seoul, Korea Tel: 02-528-0303 Fax: 02-528-4411 NEC Electronics (France) S.A. NEC Electronics Singapore Pte. Ltd. Madrid Office Madrid, Spain Tel: 091-504-2787 Fax: 091-504-2860 Novena Square, Singapore Tel: 253-8311 Fax: 250-3583 NEC Electronics (Germany) GmbH Duesseldorf, Germany Tel: 0211-65 03 02 Fax: 0211-65 03 490 NEC Electronics (UK) Ltd. Milton Keynes, UK Tel: 01908-691-133 Fax: 01908-670-290 NEC Electronics Hong Kong Ltd. NEC Electronics Taiwan Ltd. NEC Electronics Italiana s.r.l. NEC Electronics (Germany) GmbH Milano, Italy Tel: 02-66 75 41 Fax: 02-66 75 42 99 Scandinavia Office Taeby, Sweden Tel: 08-63 80 820 Fax: 08-63 80 388 Taipei, Taiwan Tel: 02-2719-2377 Fax: 02-2719-5951 NEC do Brasil S.A. Electron Devices Division Guarulhos-SP, Brasil Tel: 11-6462-6810 Fax: 11-6462-6829 J01.2 Data Sheet U14526EJ3V0DS 47 µPD703014A, 703014AY, 703014B, 703014BY, 703015A, 703015AY, 703015B, 703015BY, 703017A, 703017AY The export of this product from Japan is regulated by the Japanese government. To export this product may be prohibited without governmental license, the need for which must be judged by the customer. The export or re-export of this product from a country other than Japan may also be prohibited without a license from that country. Please call an NEC sales representative. • The information in this document is current as of May, 2001. The information is subject to change without notice. For actual design-in, refer to the latest publications of NEC's data sheets or data books, etc., for the most up-to-date specifications of NEC semiconductor products. Not all products and/or types are available in every country. Please check with an NEC sales representative for availability and additional information. • No part of this document may be copied or reproduced in any form or by any means without prior written consent of NEC. NEC assumes no responsibility for any errors that may appear in this document. • NEC does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from the use of NEC semiconductor products listed in this document or any other liability arising from the use of such products. No license, express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC 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. 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The "Specific" quality grade applies only to semiconductor products developed based on a customer-designated "quality assurance program" for a specific application. The recommended applications of a semiconductor product depend on its quality grade, as indicated below. Customers must check the quality grade of each semiconductor product before using it in a particular application. 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(Note) (1) "NEC" as used in this statement means NEC Corporation and also includes its majority-owned subsidiaries. (2) "NEC semiconductor products" means any semiconductor product developed or manufactured by or for NEC (as defined above). M8E 00. 4