UPD78P098AGC-8BT Renesas Electronics Corporation., UPD78P098AGC-8BT Datasheet

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SINGLE-CHIP MICROCONTROLLER The µ PD78P098A is a member of the µ PD78098 subseries of the 78K/0 series products, in which the on- chip mask ROM of the µ PD78098A is replaced with one-time PROM. Because a program can be ...

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ORDERING INFORMATION Part Number µ PD78P098AGC-8BT 80-pin plastic QFP (14 × 14) 2 Package Data Sheet U10203EJ2V0DS µ PD78P098A ...

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SERIES LINEUP The products in the 78K/0 Series are listed below. The names enclosed in boxes are subseries names. Control µ PD78075B 100-pin µ µ PD78078 PD78078Y 100-pin µ µ PD78070A 100-pin PD78070AY µ PD780018AY 100-pin µ µ PD780058 ...

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The major functional differences among the subseries are shown below. ROM Function Capacity 8-Bit 16-Bit Watch WDT A/D Subseries Name (Bytes) µ PD78075B Control µ ...

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Functional Outline Item Internal memory Memory space General-purpose register Instruction cycle With main system clock With subsystem clock Instruction set • I/O port IEBus controller A/D converter D/A converter Serial interface Timer Timer output Clock output Buzzer output Notes 1. ...

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Item Vector Maskable interrupt interrupt Non-maskable interrupt Software interrupt Test input Operating voltage Package 6 Function Internal: 14, external: 7 Internal Internal: 1, external 2 • 80-pin plastic QFP (14 × ...

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PIN CONFIGURATION (Top View) (1) Normal operation mode • 80-pin plastic QFP (14 × 14) µ PD78P098AGC-8BT P15/ANI5 1 P16/ANI6 ...

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P00-P07 : Port0 P10-P17 : Port1 P20-P27 : Port2 P30-P37 : Port3 P40-P47 : Port4 P50-P57 : Port5 P60-P67 : Port6 P70-P72 : Port7 P120-P127 : Port12 P130, P131 : Port13 RTP0-RTP7 : Real-Time Output Port INTP0-INTP6 : Interrupt from ...

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PROM programming mode • 80-pin plastic QFP (14 × 14) µ PD78P098AGC-8BT ( ...

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BLOCK DIAGRAM TO0/P30 16-bit TIMER/ TI00/INTP0/P00 EVENT COUNTER TI01/INTP1/P01 TO1/P31 8-bit TIMER/ EVENT COUNTER 1 TI1/P33 TO2/P32 8-bit TIMER/ EVENT COUNTER 2 TI2/P34 WATCHDOG TIMER WATCH TIMER SI0/SB0/P25 SERIAL SO0/SB1/P26 INTERFACE 0 SCK0/P27 SI1/P20 SO1/P21 SERIAL SCK1/P22 INTERFACE 1 STB/P23 ...

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DIFFERENCES BETWEEN µ PD78P098A AND MASK ROM MODEL .................................... 12 2. PIN FUNCTIONS .......................................................................................................................... 13 2.1 Pins in Normal Operation Mode ...................................................................................... 13 2.2 Pins in PROM Programming Mode ................................................................................. 16 2.3 Pin I/O Circuits and Handling of Unused ...

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DIFFERENCES BETWEEN µ PD78P098A AND MASK ROM MODEL The µ PD78P098A is provided with a one-time PROM to which a program can be written only once. The functions of the µ PD78P098A, except the PROM specification and the mask ...

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PIN FUNCTIONS 2.1 Pins in Normal Operation Mode (1) Port pins (1/2) Pin Name I/O P00 Input Port 0. P01 I/O 8-bit I/O port P02 P03 P04 P05 P06 Note 1 P07 Input P10-P17 I/O Port 1. 8-bit I/O ...

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Port pins (2/2) Pin Name I/O P40-P47 I/O Port 4. 8-bit I/O port. Can be set in input or output mode in 8-bit units. When used as an input port, a pull-up resistor can be connected via software. Test ...

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Pins other than port pins (1/2) Pin Name I/O INTP0 Input External interrupt input whose valid edge can be specified (rising INTP1 edge, falling edge, and both rising and falling edges). INTP2 INTP3 INTP4 INTP5 INTP6 SI0 Input Serial ...

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Pins other than port pins (2/2) Pin Name I/O AD0-AD7 I/O Low-order address/data bus when external memory is connected. A8-A15 Output High-order address bus when external memory is connected. RD Output Strobe signal output for read operation on external ...

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Pin I/O Circuits and Handling of Unused Pins Table 2-1 shows the types of the I/O circuits for the various pins and handling of unused pins. For the configuration of the various I/O circuits, refer to Figure 2-1. Table ...

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Table 2-1. I/O Circuit Type of Each Pin (2/2) Pin Name I/O Circuit Type P70/SI2/RxD 8-A P71/SO2/TxD 5-A P72/SCK2/ASCK 8-A P120/RTP0-P123/RTP3 5-A P124/RTP4/TX P125/RTP5/RX P126/RTP6, P127/RTP7 P130/ANO0, P131/ANO1 12-A RESET 2 XT2 16 AV – REF0 AV REF1 AV DD ...

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Figure 2-1. I/O Circuits of Pins (1/2) Type 2 IN Schmitt trigger input with hysteresis characteristics Type 5 pullup P-ch enable V DD data P-ch output N-ch disable input enable Type 5 pullup enable V DD ...

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Figure 2-1. I/O Circuits of Pins (2/2) Type 12-A pullup enable V DD data P-ch output N-ch disable P-ch input Analog output disable voltage N-ch Type 13-D data N-ch output disable P-ch Medium-voltage input buffer 20 Type ...

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MEMORY SIZE SELECT REGISTER (IMS) This register specifies via software that part of the internal memory is not used. By using this register, the internal memory (ROM) of the µ PD78P098A can be mapped in the same manner as ...

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INTERNAL EXPANSION RAM SIZE SELECT REGISTER (IXS) This register specifies the internal expansion RAM capacity via software. By using this register, the internal expansion RAM of the µ PD78P098A can be mapped in the same manner as a mask ...

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PROM PROGRAMMING The µ PD78P098A is provided with a 60K-byte PROM as a program memory. When programming this memory, it must be set in the PROM programming mode by using the V pins, refer to (2) PROM programming mode ...

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Read mode This mode is set when both the CE and OE pins are made low. (2) Output disable mode When the OE pin is made high, data output goes into a high-impedance state, and the output disable mode ...

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PROM Writing Procedure Figure 5-1. Page Program Mode Flowchart Address = address + Pass G = start address N = end address of program Start Address = 6 12.5 V ...

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Figure 5-2. Page Program Mode Timing Page data latch A2-A16 A0, A1 D0-D7 Data input 1 PGM ...

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Figure 5-3. Byte Program Mode Flowchart Address = 6 0.1-ms program pulse Address = address + 1 No Address = 4 ...

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Figure 5-4. Byte Program Mode Timing Program A0-A16 D0-D7 Data input 1 PGM ...

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PROM Read Procedure The contents of the PROM can be read out to the external data bus (D0 through D7) in the following procedure: (1) Fix the RESET pin to the low level. Supply + the V ...

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SCREENING OF ONE-TIME PROM MODEL The one-time PROM model ( µ PD78P098AGC-8BT) cannot be completely tested by NEC before shipment recommended that screening be implemented to verify the PROM after data has been written to the PROM ...

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ELECTRICAL SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS (T A Parameter Symbol Supply voltage AV REF0 AV REF1 AV SS P00 to P07, P10 to P17, P20 to P27, P30 to P37, P40 to 47, P50 ...

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MAIN SYSTEM CLOCK OSCILLATOR CHARACTERISTICS (T Resonator Recommended Circuit Ceramic resonator Crystal resonator External clock µ PD74HCU04 Notes 1. Only the oscillator characteristics are shown. See the AC ...

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SUBSYSTEM CLOCK OSILLATOR CHARACTERISTICS (T Resonator Recommended Circuit V XT2 XT1 PP R2 Crystal resonator C4 C3 XT2 XT1 External clock Notes 1. Only the oscillator characteristics are shown. See the AC characteristics for instruction execution times. 2. This is ...

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DC CHARACTERISTICS (T = –40 to +85 A Parameter Symbol Input voltage high V P10 to P17, P21, P23, P30 to P32, P35 to P37, P40 to P47, IH1 P50 to P57, P64 to P67, P71, P120 to P127, P130, ...

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DC CHARACTERISTICS (T = –40 to +85 A Parameter Symbol I LIH1 Input leakage current high I LIH2 15V LIH3 IN I LIL1 Input leakage current low ...

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DC CHARACTERISTICS (T = –40 to +85 A Parameter Symbol 5.0 MHz crystal oscillation operating mode (f = 2.5 MHz) XX 5.0 MHz crystal oscillation operating mode Note 1 Supply current 5.0 MHz) DD1 XX 6.29 MHz ...

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DC CHARACTERISTICS (T = –40 to +85 A Parameter Symbol Note 1 Supply current I 5.0 MHz crystal oscillation HALT mode DD2 (f = 2.5 MHz) XX 5.0 MHz crystal oscillation HALT mode (f = 5.0 MHz) XX 6.29 MHz ...

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AC CHARACTERISTICS ° (1) Basic Operation (T = –40 to +85 A Parameter Symbol Cycle time T Operating on main CY (minimum instruction system clock execution timke) (MCS = 0 Operating on main system clock (MCS = 1 Operating on ...

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(Main System Clock (IECL10 = IECL20 = 0, MCS = 0) Operation) 60 Guaranteed Operation Range 10 2.0 1.0 0.5 0 Supply Voltage V [ ...

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(Main System Clock (IECL10 = IECL20 = 0, MCS = 1) Operation) 60 Guaranteed Operation Range 10 2.0 1.0 0.5 0 Supply Voltage (Main System ...

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Read/Write Operations (a) When MCS = 1, PCC2 to PCC0 = 000B (T Parameter ASTB high-level width Address setup time Address hold time Data input time from address Data input time from RD ↓ Read data hold time RD ...

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Except when MCS = 1, PCC2 to PCC0 = 000B (T Parameter ASTB high-level width Address setup time Address hold time Data input time from address Data input time from RD↓ Read data hold time RD low-level width WAIT↓ ...

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Serial Interface (T = –40 to +85 A (a) Serial interface channel 0 (i) 3-wire serial I/O mode (SCK0 ... internal clock output) Parameter Symbol SCK0 cycle time t KCY1 SCK0 high-/low-level width t KH1 t KL1 SI0 ...

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SBI mode (SCK0 ... internal clock output) Parameter Symbol SCK0 cycle time t KCY3 SCK0 high-/low-level width t KH3 t KL3 SB0, SB1 setup time (vs. SCK0↑) t SIK3 SB0, SB1 hold time (vs. SCK0↑) t KSI3 SB0, SB1 ...

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I/O mode (SCK0 ... internal clock output) Parameter Symbol SCK0 cycle time t KCY5 SCK0 high-level width t KH5 SCK0 low-level width t KL5 SB0, SB1 setup time (vs. SCK0↑) t SIK5 SB0, SB1 hold time (vs. ...

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Serial interface channel 1 (i) 3-wire serial I/O mode (SCK1 ... internal clock output) Parameter Symbol SCK1 cycle time t KCY7 SCK1 high-/low-level width t KH7 t KL7 SI1 setup time (vs. SCK1↑) t SIK7 SI1 hold time (vs. ...

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Automatic transmission/reception function 3-wire serial I/O mode (SCK1 ... internal clock output) Parameter Symbol SCK1 cycle time t KCY9 SCK1 high-/low-level width t KH9 t KL9 SI1 setup time (vs. SCK1↑) t SIK9 SI1 hold time (vs. SCK1↑) t ...

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Serial interface channel 2 (i) 3-wire serial I/O mode (SCK2 ... internal clock output) Parameter Symbol SCK2 cycle time t KCY11 SCK2 high-/low-level width t KH11 t KL11 SI2 setup time (vs. SCK2↑) t SIK11 SI2 hold time (vs. ...

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UART mode (Dedicated baud rate generator output) Parameter Symbol = 4.5 to 5.5 V Transfer rate V DD (iv) UART mode (External clock input) Parameter Symbol = 4.5 to 5.5 V ASCK cycle time t V KCY13 DD = ...

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AC Timing Test Point (Excluding X1, XT1 Input) 0.8 V 0.2 V Clock Timing X1 Input XT1 Input TI Timing TI00, TI01 TI1, TI2 50 0 Test Points 0 1 1/f ...

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Read/Write Operations External fetch (no wait): A8-A15 AD0-AD7 t ADS ASTB RD External fetch (wait insertion): A8-A15 Low-Order AD0-AD7 8-Bit Address t t ADS ADH t ASTH ASTB RD t ASTRD WAIT t RDWT1 High-Order 8-Bit Address t ADD1 Low-Order ...

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External data access (no wait): A8-A15 Low-Order 8-Bit Address AD0-AD7 t ADS t ADH t ASTH ASTB RD t ASTRD WR External data access (wait insertion): Low-Order 8-Bit Address A8-A15 AD0-AD7 t ADS t ADH t ASTH ASTB t ASTRD ...

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Serial Transfer Timing 3-wire serial I/O mode: SCK0-SCK2 SI0-SI2 SO0-SO2 11 SBI mode (bus release signal transfer): SCK0 t KSB SB0, SB1 SBI mode (command signal transfer): SCK0 ...

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I/O mode: SCK0 t KSO5.6 SB0, SB1 Automatic transmission/reception function 3-wire serial I/O mode: SO1 D2 D1 SI1 SIK9,10 t KH9,10 t KSO9,10 SCK1 t R10 t KL9,10 STB t KCY9,10 Automatic transmission/reception function 3-wire ...

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UART mode (external Clock Input): ASCK t KCY13 t t KL13 KH13 t R13 Data Sheet U10203EJ2V0DS µ PD78P098A t F13 55 ...

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A/D Converter Characteristics (T = –40 to +85 A Parameter Symbol Resolution Note Total error IEAD = 00H IEAD = 01H Conversion time t CONV Sampling time t SAMP Analog input voltage V IAN Reference voltage AV REF0 AV -AV ...

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DATA MEMORY STOP MODE LOW SUPPLY VOLTAGE DATA RETENTION CHARACTERISTICS (T Parameter Symbol Data retention V DDDR supply voltage Data retention I DDDR supply current Release signal setup time t SREL Oscillation stabilization t WAIT wait time Note 2 12 ...

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Interrupt Input Timing INTP0-INTP6 RESET Input Timing RESET IEBus Controller Characteristics (T A Parameter Symbol IEBus controller system fs When using mode 0, 1 clock frequency When using mode 2 Driver delay time (TX output → ...

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PROM PROGRAMMING CHARACTERISTICS DC Characteristics ± ˚ (1) PROM Write Mode ( Parameter Symbol Input voltage high V IH Input voltage low V IL Output voltage high Output voltage low ...

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AC Characteristics (1) PROM Write Mode ± (a) Page program mode ( Parameter Symbol Address setup time (vs. OE↓ setup time t OES CE setup time (vs. OE↓) t CES Input data setup time ...

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PROM Read Mode ( Parameter Symbol Data output delay time from address Data output delay time from CE↓ Data output delay time from OE↓ Data output float delay time from OE↑ ...

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PROM Write Mode Timing (page program mode) Page Data Latch A2 – A16 AHL A0 Hi-Z D0 – D7 Data Input t VPS VDS V ...

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PROM Write Mode Timing (byte program mode) A0 – A16 t AS Hi-Z D0 – VPS VDS ...

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PROM Programming Mode Setting Timing RESET A16 64 t SMA Effective Address Data Sheet U10203EJ2V0DS µ PD78P098A ...

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PACKAGE DRAWINGS 80-PIN PLASTIC QFP (14x14 NOTE Each lead centerline is located within 0. its true position (T.P.) at maximum material condition ...

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RECOMMENDED SOLDERING CONDITIONS These products 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 ...

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APPENDIX A. DEVELOPMENT TOOLS The following development tools are available for development of systems using the µ PD78P098A. Also refer to (6) Notes on using development tools. (1) Software package SP78K0 Software package common to 78K/0 Series (2) Language processor ...

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Notes on using development tools • The ID78K0, and SM78K0 are used in combination with the DF78098. • The CC78K0 and RX78K0 are used in combination with the RA78K0 and DF78098. • For third-party development tools, see the Single-Chip ...

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DIMENSIONS AND RECOMMENDED MOUNTING PATTERN OF CONVERSION SOCKET Figure A-1. Dimensions of EV-9200GC-80 (reference EV-9200GC-80 1 No.1 pin index EV-9200GC-80-G0 ITEM MILLIMETERS A 18.0 0.709 B 14.4 0.567 C ...

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Figure A-2. Recommended Mounting Pattern of EV-9200GC-80 (reference) ITEM MILLIMETERS A 19.7 B 15.0 0.65 ± 0.02 × 19=12.35 ± 0.05 C 0.65 ± 0.02 × 19=12.35 ± 0. 15.0 F 19.7 6.0 ± 0.05 G 6.0 ± ...

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APPENDIX B. RELATED DOCUMENTS The related documents indicated in this publication may include preliminary versions. However, preliminary versions are not marked as such. Documents Related to Devices µ PD78098 Subseries User’s Manual µ PD78094, 78095, 78096, 78098A Data Sheet µ ...

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Other Related Documents SEMICONDUCTOR SELECTION GUIDE - Products & Package - Semiconductor Device Mounting Technology Manual Quality Grades on NEC Semiconductor Devices NEC Semiconductor Device Reliability/Quality Control System Guide to Prevent Damage for Semiconductor Devices by Electrostatic Discharge (ESD) Caution ...

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Data Sheet U10203EJ2V0DS µ PD78P098A 73 ...

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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 ...

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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 ...