µPD78F9436, 78F9456 8-BIT SINGLE-CHIP MICROCONTROLLERS DESCR
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INTEGRATED CIRCUIT
µPD78F9436, 78F9456
8-BIT SINGLE-CHIP MICROCONTROLLERS
DESCRIPTION
µPD78F9436 78F9456 belong µPD789436, 789456 Subseries (for drivers) 78K/0S Series. µPD78F9436 flash memory place internal µPD789435 789436, µPD78F9456 flash memory place internal µPD789455 789456. Because flash memory allows program written erased electrically with device mounted board, this product ideal evaluation stages system development, small-scale production, rapid development products. Detailed function descriptions provided following user's manuals. sure read them before designing. µPD789426, 789436, 789446, 789456 Subseries User's Manual: U15075E 78K/0S Series User's Manual Instructions: U11047E
FEATURES
compatible with mask version (except pin) Flash memory capacities
Item Part Number Flash Memory Data Memory Internal High-Speed bytes Display bits bits
µPD78F9436 µPD78F9456
Minimum instruction execution time changed from high-speed (0.4 operation with main system clock) ultra-low-speed (122 32.768 operation with subsystem clock). ports (µPD78F9436) (µPD78F9456) Timer: channels converter 10-bit resolution: channels Serial interface: channel controller/driver Segment signals: common signals: (µPD78F9436) Segment signals: common signals: (µPD78F9456) Power supply voltage:
APPLICATIONS
Portable audio systems, cameras, healthcare equipment, etc.
information this document subject change without notice. Before using this document, please confirm that this latest version.
devices/types available every country. Please check with local representative availability additional information.
Document U15379EJ1V0DS00 (1st edition) Date Published June 2001 CP(K) Printed Japan
2001 1996, 1999
µPD78F9436, 78F9456
ORDERING INFORMATION
Part Number Package 64-pin plastic TQFP 64-pin plastic TQFP
µPD78F9436GK-9ET µPD78F9456GK-9ET
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
78K/0S SERIES LINEUP
products 78K/0S Series listed below. names enclosed boxes subseries names.
Products mass production Products under development Subseries products support SMB. Small-scale package, general-purpose applications 44-pin 42-/44-pin 30-pin 30-pin 28-pin
PD789046 PD789026 µPD789088 PD789074 PD789014
PD789074 with added subsystem clock PD789014 with enhanced timer increased ROM, capacity PD789074 with enhanced timer increased capacity PD789026 with enhanced timer On-chip UART capable voltage (1.8 operation
Small-scale package, general-purpose applications converter 44-pin 44-pin 30-pin 30-pin 30-pin 30-pin 30-pin 30-pin
PD789177 PD789167 PD789156 PD789146 PD789134A PD789124A PD789114A PD789104A
Inverter control
PD789177Y PD789167Y
PD789167 with enhanced converter PD789104A with enhanced timer PD789146 with enhanced converter PD789104A with added EEPROMµ PD789124A with enhanced converter oscillation version PD789104A PD789104A with enhanced converter PD789026 with added converter multiplier
44-pin
PD789842
On-chip inverter controller UART
drive 78K/0S Series 52-pin
PD789871
Total display outputs:
drive 80-pin 80-pin 80-pin 80-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 52-pin 52-pin
PD789488 PD789477 PD789417A PD789407A PD789456 PD789446 PD789436 PD789426 PD789316 PD789306 PD789467 PD789327
drive
SIO, 10-bit converter, on-chip voltage booster type SIO, 8-bit converter, resistance division type PD789407A with enhanced converter SIO, 8-bit converter, resistance division type PD789446 with enhanced converter SIO, 8-bit converter, on-chip voltage booster type µPD789426 with enhanced converter SIO, 8-bit converter, on-chip voltage booster type oscillation version µPD789306 on-chip voltage booster type 8-bit converter on-chip voltage booster type resistance division type
144-pin 88-pin
PD789835 PD789830
Segment/common outputs: Segments: commons:
ASSP 64-pin 44-pin 44-pin 20-pin 20-pin
PD789803 µPD789800 PD789840 PD789861 PD789860
keyboard, on-chip function keyboard, on-chip function keypad, on-chip oscillation version µPD789860 keyless entry, on-chip return circuit
Remark
(Vacuum Fluorescent Display) referred "FIP documents, functions same.
(fluorescent Indicator panel) some
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
major functional differences among subseries listed below.
Function Capacity (Bytes) Note (UART: (UART: (UART: RCoscillation version (USB: (UART: RCoscillation version, on-chip EEPROM On-chip EEPROM (UART: Timer 8-Bit 16-Bit Watch 8-Bit 10-Bit Serial Interface MIN. Value Remarks
Subseries Name Small-scale package, generalpurpose applications Small-scale package, generalpurpose applications converter
µPD789046 µPD789026 µPD789088 µPD789074 µPD789014 µPD789177 µPD789167 µPD789156 µPD789146
On-chip EEPROM RCoscillation version
µPD789134A µPD789124A µPD789114A µPD789104A
Inverter control drive drive
µPD789842 µPD789871 µPD789488 µPD789477
(UART: (UART:
µPD789417A µPD789407A µPD789456 µPD789446 µPD789436 µPD789426 µPD789316
µPD789306 µPD789427 µPD789327
drive
µPD789835 µPD789830
ASSP
µPD789803 µPD789800 µPD789840 µPD789861
µPD789860
Note 10-bit timer: channel
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
OVERVIEW FUNCTIONS
Item Internal memory Flash memory High-speed display Minimum instruction execution time bytes bits bits
µPD78F9436
µPD78F9456
µs/1.6 operation with main system clock) 32.768 operation with subsystem clock) bits registers 16-bit operation manipulation (set, reset, test) Total: CMOS I/O: CMOS input: N-ch open drain: 16-bit timer: 8-bit timer: Watch timer: Watchdog timer: channel channels channel channel Total: CMOS I/O: CMOS input: N-ch open drain:
General-purpose registers Instruction
ports
Timers
converter Serial interface controller/driver
10-bit resolution channels Switchable between 3-wire serial mode UART mode: channel Segment signal outputs: (max.) Common signal outputs: (max.) Internal: external: Internal: +85°C 64-pin plastic TQFP Segment signal outputs: (max.) Common signal outputs: (max.)
Vectored interrupt Maskable sources Non-maskable Power supply voltage Operating ambient temperature Package
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
CONTENTS
CONFIGURATION (Top View) Configuration µPD78F9436 (Top View) Configuration µPD78F9456 (Top View)
BLOCK DIAGRAM
FUNCTIONS. Port Pins. Non-Port Pins Circuits Recommended Connection Unused Pins
MEMORY SPACE
FLASH MEMORY PROGRAMMING. Selecting Communication Mode Function Flash Memory Programming. Connecting Flashpro III. Example Settings Flashpro (PG-FP3)
OVERVIEW INSTRUCTION Conventions. List Operations.
ELECTRICAL SPECIFICATIONS
CHARACTERISTICS CURVES CONTROLLER/DRIVER (REFRENCE VALUES).
PACKAGE DRAWINGS
RECOMMENDED SOLDERING CONDITIONS APPENDIX DIFFERENCES BETWEEN µPD78F9436, 78F9456 MASK VERSIONS APPENDIX DEVELOPMENT TOOLS.
APPENDIX RELATED DOCUMENTS
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
CONFIGURATION (TOP VIEW)
Configuration µPD78F9436 (Top View) 64-pin plastic TQFP
µPD78F9436GK-9ET
RESET P00/KR0 P01/KR1 P02/KR2 P03/KR3
P21/BZO90 P22/SS20 P23/SCK20/ASCK20 P24/SO20/TxD20 P25/SI20/RxD20 P26/TO90 P30/INTP0/CPT90 P31/INTP1/TO50/TMI60 P32/INTP2/TO60 P33/INTP3/TO61 AVSS P60/ANI0 P61/ANI1
P62/ANI2 P63/ANI3 P64/ANI4 P65/ANI5 AVDD
Cautions Connect directly VSS. Connect AVDD VDD. Connect AVSS VSS.
CAPH CAPL VLC0 VLC1 VLC2 COM0 COM1 COM2 COM3
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Configuration µPD78F9456 (Top View) 64-pin plastic TQFP
µPD78F9456-9ET
RESET P00/KR0 P01/KR1 P02/KR2 P03/KR3
P21/BZO90 P22/SS20 P23/SCK20/ASCK20 P24/SO20/TxD20 P25/SI20/RxD20 P26/TO90 P30/INTP0/CPT90 P31/INTP1/TO50/TMI60 P32/INTP2/TO60 P33/INTP3/TO61 AVSS P60/ANI0 P61/ANI1
P62/ANI2 P63/ANI3 P64/ANI4 P65/ANI5 AVDD
Cautions Connect directly VSS. Connect AVDD VDD. Connect AVSS VSS.
CAPH CAPL VLC0 VLC1 VLC2 COM0 COM1 COM2 COM3
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
ANI0 ANI5: ASCK20: AVDD: AVSS: BZO90: CAPH, CAPL: COM0 COM3: CPT90: INTP0 INTP3: KR3: P03: P10, P11: P26: P33: P53: P63: P72:
Note
Analog input Asynchronous serial input Analog power supply Analog ground Buzzer output power supply capacitance control Common output Capture trigger input External interrupt input return Port Port Port Port Port Port Port
RESET: RxD20: SS20: S14: SCK20: SI20: SO20: TMI60: TO61: TxD20: VDD:
Note
Port Reset Receive data Serial chip select Segment output Serial clock Serial input Serial output Timer input Timer output Transmit data Power supply power supply Programming power supply Ground Crystal (Main system clock) Crystal (Subsystem clock)
TO90, TO50, TO60,
VLC0 VLC2: VPP: VSS: XT1, XT2:
Port
Note µPD78F9436 only
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
BLOCK DIAGRAM
TO50/TMI60/P31 TO60/P32 TO61/P33 TMI60/TO50/P31 TO90/P26 CPT90/P30 BZO90/P21
Cascaded 16-bit timer/ 8-bit event timer/event counter counter
8-bit timer
Port
Port Port
P10, P80, P81Note P97Note RESET INTP0/P30
16-bit timer Port
Watch timer
Port Port Port
Watchdog timer
78K/0S core
Flash memory
ANI0/P60 ANI5/P65 AVDD AVSS SCK20/ASCK20/P23 SO20/TxD20/P24 SI20/RxD20/P25 SS20/P22
converter space data
Port 8Note Port 9Note
Serial interface
System control
S14) COM0 COM3 VLC0 VLC2 CAPH CAPL controller driver Interrupt control
INTP1/P31 INTP2/P32 INTP3/P33 KR0/P00 KR3/P03
Note µPD78F9436 only Remark Descriptions parentheses µPD78F9456.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
FUNCTIONS
Port Pins
Name Function Port 4-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting. Port 2-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting. Port 7-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting. After Reset Input Alternate Function
P10,
Input
Input BZO90 SS20
SCK20/ASCK20 SO20/TxD20 SI20/RxD20 TO90
Port 4-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting. Port 4-bit port. Input/output specified 1-bit units. Port 6-bit input port. Port 3-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting. Port 2-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting. Port 8-bit port. Input/output specified 1-bit units. When used input port, on-chip pull-up resistor specified software setting.
Input
INTP0/CPT90 INTP1/TO50/TMI60 INTP2/TO60 INTP3/TO61
Input
Input
Input
ANI0 ANI5
Input
P80, P81Note
Input
P97Note
Input
Note µPD78F9436 only
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Non-Port Pins
Name INTP0 INTP1 INTP2 INTP3 SS20 SCK20 SI20 SO20 ASCK20 RxD20 TxD20 TO90 CPT90 TO50 TO60 TO61 TMI60 ANI0 ANI5
Note
Input
Function External interrupt input which valid edge (rising edge, falling edge, both rising falling edges) specified
After Reset Input
Alternate Function P30/CPT90 P31/TO50/TMI60 P32/TO60 P33/TO61
Input Input Input Output Input Output Output Input Output Output Output Input Input Output Output
return signal detection Serial interface (SIO20) chip select Serial interface (SIO20) serial clock input/output SIO20 serial interface serial data input SIO20 serial interface serial data output Asynchronous serial interface serial clock input Asynchronous serial interface serial data input Asynchronous serial interface serial data output 16-bit timer (TM90) output Capture edge input 8-bit timer (TM50) output 8-bit timer (TM60) output 8-bit timer (TM60) output External count clock input 8-bit timer (TM60) converter analog inputs Segment signal outputs controller/driver Segment signal outputs controller/driver Common signal outputs controller/driver drive voltage Connection driver's capacitor
Input Input Input Input Input Input Input Input Input Input Input Input Input Input Input Output Output Output
P23/ASCK20 P25/RxD20 P24/TxD20 P23/SCK20 P25/SI20 P24/SO20 P30/INTP0 P31/INTP1/TMI60 P32/INTP2 P33/INTP3 P31/INTP1/TO50
COM0 COM3 Output VLC0 VLC2 CAPH CAPL RESET AVDD AVSS Input Input Input
Connecting crystal resonator main system clock oscillation
Connecting crystal resonator subsystem clock oscillation
System reset input Positive power supply ports Ground potential converter analog potential converter ground potential Flash memory programming mode setting. High-voltage application program write/verify. normal operation mode, connect directly VSS.
Input
Note µPD78F9456 only
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Circuits Recommended Connection Unused Pins input/output circuit type each recommended connection unused pins shown Table 3-1. input/output circuit configuration each type, refer Figure 3-1. Table 3-1. Types Input/Output Circuits Recommended Connection Unused Pins
Name Circuit Type Recommended Connection Unused Pins
P10, P21/BZO90 P22/SS20 P23/SCK20/ASCK20 P24/SO20/TxD20 P25/SI20/RxD20 P26/TO90 P30/INTP0/CPT90 P31/INTP1/TO50/ TMI60 P32/INTP2/TO60 P33/INTP3/TO61
Input: Independently connect resistor. Output: Leave open.
Input: Independently connect resistor. Output: Leave open.
13-V
Input: Independently connect resistor. Output: Leave open. Input Connect directly VSS. Input: Independently connect resistor. Output: Leave open.
P60/ANI0 P65/ANI5 P80,
Note
P97Note
Note
Output
Leave open.
COM0 COM3 VLC0 VLC2 CAPH, CAPL AVSS AVDD RESET
Input
Connect VSS. Leave open. Connect VSS. Connect VDD.
Input Connect directly VSS.
Notes µPD78F9436 only µPD78F9456 only
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Figure 3-1. Input/Output Circuits Type Type
P-ch N-ch AVSS
Comparator
VREF (Threshold voltage)
Schmitt-triggered input with hysteresis characteristics
Input enable
Type
Pull-up enable Data P-ch IN/OUT Output disable N-ch
Type 13-V
P-ch
IN/OUT Output data Output disable N-ch
Input enable Middle-voltage input buffer
Input enable
Type
Type
VLC0
P-ch
Pull-up enable Data P-ch
P-ch
VLC1
P-ch N-ch P-ch
data
IN/OUT
N-ch P-ch N-ch N-ch
Output disable
N-ch
VLC2
Type
VLC0
P-ch P-ch N-ch P-ch N-ch
VLC1
data VLC2
N-ch P-ch N-ch
N-ch P-ch
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
MEMORY SPACE
Figure shows memory map. Figure 4-1. Memory
FFFFH Special function registers (SFRs) bits FF00H FEFFH Internal high-speed bits FD00H FCFFH Reserved mmmm mmmmH Data memory space display RAMNote FA00H F9FFH 4000H 3FFFH Reserved 3FFFH
Program area
Program memory space
Flash memory 16384 bits
0080H 007FH CALLT table area 0040H 003FH Program area 0022H 0021H
0000H
0000H
Vector table area
Note
capacity display varies depending product (see following table).
Part Number Last Address display mmmmH FA04H FA0EH
µPD78F9436 µPD78F9456
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
FLASH MEMORY PROGRAMMING
program memory that incorporated µPD78F9436 78F9456 flash memory. With flash memory, possible write programs on-board. Writing performed connecting dedicated flash programmer (Flashpro (Part FL-PR3, PG-FP3)) host machine target system. Remark FL-PR3 product Naito Densei Machida Mfg. Co., Ltd. Selecting Communication Mode Writing flash memory performed using Flashpro serial communication mode. Select communication modes Table 5-1. selection communication mode made using format shown Figure 5-1. Each communication mode selected using number pulses shown Table 5-1. Table 5-1. List Communication Mode
Communication Mode 3-wire serial SCK20/P23 SO20/P24 SI20/P25 P00/KR0 (serial clock input) P01/KR1 (serial data output) P02/KR2 (serial data input) UART TxD20/P24 RxD20/P25 PinsNote Pulses
Note Shifting flash memory programming mode sets pins used flash memory programming same state immediately after reset. external device connected port does acknowledge port state immediately after reset, handling such connecting resistor connecting required. Caution sure select communication mode using number pulses shown Table 5-1. Figure 5-1. Format Communication Mode Selection
RESET
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Function Flash Memory Programming Operations such writing flash memory performed various command/data transmission reception operations according selected communication mode. Table shows major functions flash memory programming. Table 5-2. Major Function Flash Memory Programming
Function Batch erase Batch blank check Data write Deletes entire memory contents. Checks deletion status entire memory. Performs write operation flash memory based write start address number data written (number bytes). Compares entire memory contents with input data. Description
Batch verify
Connecting Flashpro connection Flashpro µPD78F9436 78F9456 differs according communication mode (3-wire serial UART). connections each communication mode shown Figures 5-3, respectively. Figure 5-2. Connection Example Flashpro When Using 3-Wire Serial Mode (1/2)
Flashpro VPPnNote RESET
PD78F9436, 78F9456
RESET SCK20 SI20 SO20
Note
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Figure 5-2. Connection Example Flashpro When Using 3-Wire Serial Mode (2/2)
Flashpro VPPnNote RESET
PD78F9436, 78F9456
RESET P00/KR0 (Serial clock) P02/KR2 (Serial input) P01/KR1 (Serial output)
Note
Figure 5-3. Connection Example Flashpro When Using UART Mode
Flashpro VPPnNote RESET
PD78F9436, 78F9456
RESET RxD20 TxD20
Note
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Example Settings Flashpro (PG-FP3) When writing flash memory using Flashpro (PG-FP3), make following settings. Load parameter file. Select mode serial communication serial clock with type command. Make settings according example settings PG-FP3 shown below. Table 5-3. Example Settings PG-FP3
Communication Mode 3-wire serial COMM PORT Example Settings PG-FP3 SIO-ch0 Target Board Flashpro Target Board Flashpro COMM PORT 4.1943 SIO-ch1 Target Board Flashpro Target Board Flashpro UART COMM PORT Target Board UART 4.1943 UART-ch0 Target Board 4.1943 9600 bpsNote Pulse NumberNote
Notes This number pulses that supplied Flashpro serial communication initialization. pins that will used communication determined according this number. Select 9600 bps, 19200 bps, 38400 bps, 76800 bps. Remark COMM PORT: Serial port selection CLK: CLK: Serial clock frequency selection Input clock source selection
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
OVERVIEW INSTRUCTION
This section lists instruction µPD78F9436 78F9456. Conventions 6.1.1 Operand expressions description methods Operands described "Operand" column each instruction accordance with description method instruction operand expression (see assembler specifications details). When there more description methods, select them. Uppercase letters symbols, words described they are. meaning each symbol described below. Immediate data specification Absolute address specification Relative address specification
Indirect address specification
immediate data, enter appropriate numeric value label. When using label, sure enter symbols. operand register expressions, either function names etc.) absolute names (names parenthesis table below, etc.) used description. Table 6-1. Operand Expressions Description Methods
Expression saddr saddrp addr16 addr5 word byte Description Method (R0), (R1), (R2), (R3), (R4), (R5), (R6), (R7) (RP0), (RP1), (RP2), (RP3) Special function register symbol FE20H FF1FH: immediate data label FE20H FF1FH: immediate data label (even addresses only) 0000H FFFFH: immediate data label (even addresses only 16-bit data transfer instruction) 0040H 007FH: immediate data label (even addresses only) 16-bit immediate data label 8-bit immediate data label 3-bit immediate data label
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
6.1.2 Description "Operation" column PSW: NMIS: addr16: jdisp8: register; 8-bit accumulator register register register register register register register register pair; 16-bit accumulator register pair register pair register pair Program counter Stack pointer Program status word Carry flag Auxiliary carry flag Zero flag Interrupt request enable flag Flag indicating non-maskable interrupt servicing progress Memory contents indicated address register contents parenthesis Higher bits lower bits 16-bit register Logical product (AND) Logical (OR) Exclusive logical (exclusive Inverted data 16-bit immediate data label Signed 8-bit data (displacement value)
6.1.3 Description "Flag" column (Blank): Unchanged Cleared Set/cleared according result Previously saved value restored
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
List Operations
Mnemonic Operand Bytes Clocks Operation #byte saddr, #byte sfr, #byte saddr saddr, sfr, !addr16 !addr16, PSW, #byte PSW, [DE] [DE], [HL] [HL], byte] byte], saddr [DE] [HL] byte] MOVW #word saddrp saddrp, XCHW
Note Note Note
Flag
byte (saddr) byte byte (saddr) (saddr) (addr16) (addr16) byte (DE) (DE) (HL) (HL) byte) byte) (saddr) (sfr) (DE) (HL) byte) word (saddrp) (saddrp)
Note
Note
Note
Notes Except Except Only when Remark instruction clock cycle clock cycle (fCPU) selected processor clock control register (PCC).
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Mnemonic Operand Bytes Clocks Operation #byte saddr, #byte saddr !addr16 [HL] byte] ADDC #byte saddr, #byte saddr !addr16 [HL] byte] #byte saddr, #byte saddr !addr16 [HL] byte] SUBC #byte saddr, #byte saddr !addr16 [HL] byte] #byte saddr, #byte saddr !addr16 [HL] byte] byte (saddr), (saddr) byte (saddr) (addr16) (HL) byte) byte (saddr), (saddr) byte (saddr) (addr16) (HL) byte) byte (saddr), (saddr) byte (saddr) (addr16) (HL) byte) byte (saddr), (saddr) byte (saddr) (addr16) (HL) byte) byte (saddr) (saddr) byte (saddr) (addr16) (HL) byte) Flag
Remark
instruction clock cycle clock cycle (fCPU) selected processor clock control register (PCC).
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Mnemonic Operand Bytes Clocks Operation #byte saddr, #byte saddr !addr16 [HL] byte] #byte saddr, #byte saddr !addr16 [HL] byte] #byte saddr, #byte saddr !addr16 [HL] byte] ADDW SUBW CMPW #word #word #word saddr saddr INCW DECW RORC ROLC byte (saddr) (saddr) byte (saddr) (addr16) (HL) byte) byte (saddr) (saddr) byte (saddr) (addr16) (HL) byte) byte (saddr) byte (saddr) (addr16) (HL) byte) word word word rr+1 (saddr) (saddr) rr-1 (saddr) (saddr) (CY, time (CY, time time time Flag
Remark
instruction clock cycle clock cycle (fCPU) selected processor clock control register (PCC).
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Mnemonic Operand Bytes Clocks Operation SET1 saddr. sfr. PSW. [HL]. CLR1 saddr. sfr. PSW. [HL]. SET1 CLR1 NOT1 CALL !addr16 (saddr. bit) sfr. PSW. (HL). (saddr. bit) sfr. PSW. (HL). 3)H, 3)L, addr16, 1)H, 1)L, (00000000, addr5 (00000000, addr5), (SP), (SP), NMIS PSW, rpH, rpL, (SP), (SP), addr16 jdisp8 Flag
CALLT
[addr5]
RETI
PUSH
MOVW
!addr16 $addr16
Remark
instruction clock cycle clock cycle (fCPU) selected processor clock control register (PCC).
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Mnemonic Operand Bytes Clocks Operation $addr16 $addr16 $addr16 $addr16 saddr. bit, $addr16 jdisp8 jdisp8 jdisp8 jdisp8 jdisp8 (saddr. bit) jdisp8 sfr. jdisp8 jdisp8 PSW. jdisp8 (saddr. bit) jdisp8 sfr. jdisp8 jdisp8 PSW. then jdisp8 then jdisp8 (saddr) (saddr) then jdisp8 (saddr) Operation (Enable Interrupt) (Disable Interrupt) HALT Mode STOP Mode Flag
sfr. bit, $addr16 bit, $addr16 PSW. bit, $addr16 saddr. bit, $addr16
sfr. bit, $addr16 bit, $addr16 PSW. bit, $addr16 DBNZ $addr16
$addr16
saddr, $addr16
HALT STOP
Remark
instruction clock cycle clock cycle (fCPU) selected processor clock control register (PCC).
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
ELECTRICAL SPECIFICATIONS
Absolute Maximum Ratings 25°C)
Parameter Power supply voltage Symbol AVDD Input voltage P03, P10, P11, P26, P33, P65, P72, P80Note P81Note P97Note XT1, XT2, RESET N-ch open drain -0.3 +10.5 -0.3
Note
Conditions AVDD
Ratings -0.3 +6.5
Unit
Output voltage Output current, high
-0.3 -0.3
Note
Total pins
+125
Output current,
Total pins
Operating ambient temperature
normal operation mode During flash memory programming
Storage temperature
Tstg
Notes µPD78F9436 less Caution Product quality suffer absolute maximum rating exceeded even momentarily parameter. That absolute maximum ratings rated values which product verge suffering physical damage, therefore product must used under conditions that ensure that absolute maximum ratings exceeded. Remark Unless otherwise specified, characteristics alternate-function pins same those port pins.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Main System Clock Oscillator Characteristics +85°C,
Resonator Ceramic resonator Recommended Circuit
Parameter Oscillation frequency (fX)Note Oscillation stabilization timeNote
Conditions
MIN.
TYP.
MAX.
Unit
After reaches oscillation voltage range MIN.
Crystal resonator
Oscillation frequency(fX)Note Oscillation stabilization timeNote
External clock
input frequency (fX)Note input high-/low-level width (tXH, tXL)
input frequency (fX)Note input high-/low-level width (tXH, tXL)
OPEN
Notes Indicates only oscillator characteristics. Refer Characteristics instruction execution time. Time required stabilize oscillation after reset STOP mode release. Cautions When using main system clock oscillator, wire follows area enclosed broken lines above figures avoid adverse effect from wiring capacitance. Keep wiring length short possible. cross wiring with other signal lines. route wiring near signal line through which high fluctuating current flows. Always make ground point oscillator capacitor same potential VSS. ground capacitor ground pattern through which high current flows. fetch signals from oscillator. When main system clock stopped device operating subsystem clock, wait until oscillation stabilization time been secured program before switching back main system clock. Remark resonator selection oscillator constant, customers required either evaluate oscillation themselves apply resonator manufacturer evaluation.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Subsystem Clock Oscillator Characteristics +85°C,
Resonator Crystal resonator Recommended Circuit
Parameter Oscillation frequency (fXT)Note Oscillation stabilization timeNote input frequency (fXT)Note input high-/low-level width (tXTH, tXTL)
Conditions
MIN.
TYP. 32.768
MAX.
Unit
External clock
14.3
15.6
Notes Indicates only oscillator characteristics. Refer Characteristics instruction execution time. Time required stabilize oscillation after reaches oscillation voltage range MIN. Cautions When using subsystem clock oscillator, wire follows area enclosed broken lines above figure avoid adverse effect from wiring capacitance. Keep wiring length short possible. cross wiring with other signal lines. route wiring near signal line through which high fluctuating current flows. Always make ground point oscillator capacitor same potential VSS. ground capacitor ground pattern through which high current flows. fetch signals from oscillator. subsystem clock oscillator designed low-amplitude circuit reducing current consumption, more prone malfunction noise than main system clock oscillator. Particular care therefore required with wiring method when subsystem clock used. Remark resonator selection oscillator constant, customers required either evaluate oscillation themselves apply resonator manufacturer evaluation.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Characteristics +85°C,
Parameter Output current, Symbol pins Output current, high pins Input voltage, high VIH1 P10, P11, P65, P72, P80Note, P81Note, P97Note N-ch open drain 0.7VDD 0.9VDD 0.7VDD 0.9VDD 0.8VDD 0.9VDD Input voltage, VIL1 P10, P11, P65, P72, P80Note, P81Note, P97Note VIL3 RESET, P03, P26, XT1, Output voltage, high -100 Output voltage, VOL1 P03, P10, P11, P26, P33, P65, P72, P80Note, P81Note, P97Note, XT1, Conditions MIN. TYP. MAX. 0.3VDD 0.1VDD 0.3VDD 0.1VDD 0.2VDD 0.1VDD Unit
VIH2
VIH3
RESET, P03, P26, XT1,
VIH4
VIL2
VIL4
VOL2
Note µPD78F9436 only Remark Unless otherwise specified, characteristics alternate-function pins same those port pins.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Characteristics +85°C,
Parameter Input leakage current, high Symbol ILIH1 Conditions P03, P10, P11, P26, P33, P65, P72, P80Note P81Note P97Note RESET XT1, (N-ch open drain) P03, P10, P11, P26, P33, P65, P72, P80Note P81Note P97Note RESET XT1, (N-ch open drain) MIN. TYP. MAX. Unit
ILIH2 ILIH3
Input leakage current,
ILIL1
ILIL2 ILIL3
Note
Output leakage current, ILOH high Output leakage current, ILOL Software pull-up resistor
P03, P10, P11, P26, P33, P72, P80Note P81Note P97Note
Notes µPD78F9436 only have been input mode when read instruction executed read from P53, low-level input leakage current flows during only cycle. other times, maximum leakage current Remark Unless otherwise specified, characteristics alternate-function pins same those port pins.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Characteristics +85°C,
Parameter Power supply currentNote Symbol IDD1 Conditions crystal oscillation ±10% operation mode ±10%Note ±10%Note
Note
MIN.
TYP. 0.65 0.19
MAX. 0.42
Unit
IDD2
crystal oscillation ±10% HALT mode ±10%Note ±10%Note
Note
IDD3
32.768 crystal oscillation operation modeNote 220k) 32.768 crystal oscillation HALT modeNote operating
±10% ±10% ±10%
IDD4
±10% ±10% ±10%
0.05 0.05
10.8
operatingNote
±10% ±10% ±10%
IDD5
STOP mode
Note
±10% ±10% ±10%
IDD6
crystal oscillation ±10% operating modeNote ±10%Note ±10%Note
Note
Notes port current (including current that flows on-chip pull-up resistor) included. High-speed mode operation (when processor clock control register (PCC) 00H) Low-speed mode operation (when 02H) When main system clock stopped This current when controller/driver operating (LCDON0 VAON0 LIPS0 power supply current when operating (LCDON0 VAON0 LIPS0 included IDD2 (HALT mode). Remark When voltage amplifier stopped (LCDON0 VAON0 This total current that flows AVDD. Unless otherwise specified, characteristics alternate-function pins same those port pins.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Characteristics Basic operation +85°C,
Parameter Cycle time (minimum instruction execution time) Symbol Conditions Operating with main system clock MIN. TYP. MAX. Unit
Operating with subsystem clock Capture input high-/low- tCPTH, level width tCPTL TMI60 input frequency fTMI CPT90
TMI60 input high-/lowlevel width Interrupt input high/low-level width return input lowlevel width RESET low-level width
tTIMH, tTIML tINTH, tINTL tKRL
INTP0 INTP3
tRSL
(main system clock)
Cycle time
Guaranteed operation range
Power supply voltage
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Serial interface (SIO20) +85°C, 3-wire serial mode (internal clock output)
Parameter SCK20 cycle time Symbol tKCY1 Conditions MIN. 3200 SCK20 high-/low-level width SI20 setup time SCK20) SI20 hold time (from SCK20) tKH1, tKL1 tSIK1
tKCY1/2-50 tKCY1/2-150
TYP.
MAX.
Unit
tSI1
Delay time from tSO1 SCK20 SO20 output
Note
1000
Note load resistance load capacitance SO20 output line. 3-wire serial mode (external clock input)
Parameter SCK20 cycle time Symbol tKCY2 Conditions MIN. 3200 SCK20 high-/low-level width SI20 setup time SCK20) SI20 hold time (from SCK20) tKH2, tKL2 tSIK2 1600 tSI2 pFNote 1000 tKDS2 TYP. MAX. Unit
Delay time from tSO2 SCK20 SO20 output SO20 setup time (with SS20, SCK20) SO20 disable time (with SS20, from SCK20) tKAS2
Note load resistance load capacitance SO20 output line. UART mode (dedicated baud rate generator output)
Parameter Transfer rate Symbol Conditions MIN. TYP. MAX. 78125 19531 Unit
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
UART mode (external clock input)
Parameter ASCK20 cycle time Symbol tKCY3 Conditions MIN. 3200 ASCK20 high-/lowlevel width Transfer rate tKH3, tKL3 1600 39063 9766 ASCK20 rise/fall time TYP. MAX. Unit
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Timing Test Points (excluding inputs)
0.8VDD 0.2VDD
Test points
0.8VDD 0.2VDD
Clock Timing
1/fX VIH4 (MIN.) VIL4 (MAX.)
input
1/fXT tXTL tXTH VIH4 (MIN.) VIL4 (MAX.)
input
Capture Input Timing
tCPTL tCPTH
CPT90
Timing
1/fTI tTIL tTIH
TMI60
Interrupt Input Timing
tINTL tINTH
INTP0 INTP3
Return Input Timing
tKRL
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
RESET Input Timing
tRSL
RESET
Serial Transfer Timing 3-wire serial mode:
tKCYm tKLm tKHm
SCK20
tSIKm SI20
tKSIm
Input data
tKSOm
SO20
Output data
Remark
3-wire serial mode (when using SS20):
SS20 tKAS2 tKDS2
SO20
Output data
UART mode (external clock input):
tKCY3 tKL3 ASCK20 tKH3
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
10-Bit Converter Characteristics +85°C, AVDD AVSS
Parameter Resolution Overall error
Note
Symbol
Conditions
MIN.
TYP. ±0.2 ±0.4 ±0.8
MAX. ±0.4 ±0.6 ±1.2 ±0.4 ±0.6 ±1.2 ±0.4 ±0.6 ±1.2 ±2.5 ±4.5 ±8.5 ±1.5 ±2.0 ±3.5
Unit %FSR %FSR %FSR
AVDD AVDD AVDD
Conversion time
tCONV
AVDD AVDD AVDD
%FSR %FSR %FSR %FSR %FSR %FSR
Zero-scale error
Note
AINL
AVDD AVDD AVDD
Full-scale errorNote
AINL
AVDD AVDD AVDD
Non-integral linearity
Note
AVDD AVDD AVDD
Non-differential linearityNote
AVDD AVDD AVDD
Analog input voltage
VIAN
AVDD
Note Excludes quantization error (±0.05%) Remark FSR: Full scale range
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Characteristics +85°C,
Parameter output voltage variation range Doubler output Tripler output Voltage amplification wait timeNote Symbol VLCD2
Note
Conditions 0.47 GAIN GAIN
MIN. 0.84 1.26 2VLCD2 -0.1 3VLCD2 -0.15
TYP. 2.0VLCD2 3.0VLCD2
MAX. 1.165 1.74 2.0VLCD2 3.0VLCD2
Unit
VLCD1 VLCD0 tVAWAIT
C4Note 0.47
Note
0.47
GAIN GAIN
±0.2 ±0.2
output voltage differentialNote (common) output voltage differentialNote (segment)
VODC
VODS
Notes This capacitor that connected between voltage pins used drive LCD. capacitor connected between CAPH CAPL capacitor connected between VLC0 capacitor connected between VLC1 capacitor connected between VLC2 This wait time from when voltage amplification started (VAON0 until display enabled (LCDON0 voltage differential difference between segment common signal output's actual ideal output voltages. Data Memory STOP Mode Supply Voltage Data Retention Characteristics +85°C)
Parameter Data retention power supply voltage Release signal time Symbol VDDDR Conditions MIN. TYP. MAX. Unit
tSREL
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Data Retention Timing (STOP Mode Release RESET)
Internal reset operation HALT mode STOP mode Data retention mode Operation mode
VDDDR STOP instruction execution
tSREL
RESET
tWAIT
Data Retention Timing (Standby Release Signal: STOP Mode Release Interrupt Request Signal)
HALT mode STOP mode Data retention mode Operation mode
VDDDR STOP instruction execution
tSREL
Standby release signal (interrupt request) tWAIT
Oscillation Stabilization Wait Time +85°C,
Parameter Oscillation stabilization wait timeNote Symbol tWAIT Conditions Release RESET Release interrupt MIN. TYP. Note
MAX.
Unit
Notes resonator whose oscillation stabilizes within oscillation stabilization wait time. Selection /fX, /fX, possible with bits (OSTS0 OSTS2) oscillation stabilization time selection register (OSTS). Remark Main system clock oscillation frequency
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Flash Memory Write/Erase Characteristics 40°C,
Parameter Operating frequency Symbol Conditions MIN. Write currentNote (VDD pin) Write currentNote (VPP pin) Erase currentNote (VDD pin) Erase currentNote (VPP pin) Unit erase time Total erase time Write count supply voltage VPP0 VPP1 IDDW When supply voltage VPP1 During operation TYP. MAX. 1.25 Unit
IPPW
When supply voltage VPP1
IDDE
When supply voltage VPP1
During operation
IPPE
When supply voltage VPP1
tera Erase/write regarded cycle normal operation During flash memory programming
Times
10.0
0.2VDD 10.3
Note port current (including current that flows on-chip pull-up resistors) included.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
CHARACTERISTICS CURVES CONTROLLER/DRIVER (REFRENCE VALUES)
Characteristics curves voltage amplification stabilization time following shows characteristics curves time from start voltage amplification (VAON0 changes output voltage (when GAIN (using display panel)).
output voltage/Voltage amplification time
output voltage
VLCD2 VLCD1 VLCD0
1000
1500
2000
2500
3000
3500
4000
Voltage amplification time [ms]
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Temperature characteristics output voltage following shows temperature characteristics curves output voltage.
output voltage/ Temperature (When GAIN
VLCD2
VLCD1
VLCD0
output voltage
Temperature [°C]
output voltage/ Temperature (When GAIN
VLCD2
VLCD1
VLCD0
output voltage
Temperature [°C]
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
PACKAGE DRAWINGS
64-PIN PLASTIC TQFP (12x12)
detail lead
ITEM MILLIMETERS 14.0±0.2 12.0±0.2 12.0±0.2 14.0±0.2 1.125 1.125 0.32 +0.06 -0.10 0.13 0.65 (T.P.) 1.0±0.2 0.17 +0.03 -0.07 0.10 0.1±0.05 1.1±0.1 0.25 0.6±0.15 P64GK-65-9ET-3
NOTE Each lead centerline located within 0.13 true position (T.P.) maximum material condition.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
RECOMMENDED SOLDERING CONDITIONS
µPD78F9436 78F9456 should soldered mounted under following recommended conditions. details recommended soldering conditions, refer document Semiconductor Device Mounting Technology Manual (C10535E). soldering methods conditions other than those recommended below, contact your sales representative. Table 10-1. Surface Mounting Type Soldering Conditions
µPD78F9436-9ET: 64-pin plastic TQFP µPD78F9456-9ET: 64-pin plastic TQFP
Soldering Method Soldering Conditions Recommended Condition Symbol Interface reflow Package peak temperature: 235°C, Time:30 seconds max. 210°C higher), Count: times less, Exposure limit: daysNote (after that, prebake 125°C hours) Package peak temperature: 215°C, Time:40 seconds max. 200°C higher), Count: times less, Exposure limit: daysNote (after that, prebake 125°C hours) temperature: 300°C max., Time: seconds max. (per row) IR35-107-2
VP15-107-2
Partial heating
Note After opening peak, store 25°C less less allowable storage period. Caution different soldering methods together (except partial heating).
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
APPENDIX DIFFERENCES BETWEEN µPD78F9436, 78F9456 MASK VERSIONS
µPD78F9436 78F9456 have flash memory place internal mask versions. Differences between µPD78F9436 78F9456 mask versions shown Table A-1. Table A-1. Differences Between µPD78F9436, 78F9456 Mask Versions
Part Number Item Internal memory High-speed display Pull-up resistors Flash Memory Versions Mask Versions
µPD78F9436
bytes bits available Available (software control:
µPD78F9456
µPD789435
µPD789436
µPD789455
µPD789456
bits
bits Available available
bits
(software control:
(software control: mask option:
(software control: mask option:
Electrical specifications
Refer relevant data sheet.
Caution There differences noise immunity noise radiation between flash memory mask versions. When pre-producing application with flash memory version then mass-producing with mask version, sure conduct sufficient evaluations commercial samples (not engineering samples) mask version.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
APPENDIX DEVELOPMENT TOOLS
following development tools available system development using µPD78F9436 78F9456. Language Processing Software
RA78K0SNotes CC78K0S
Notes
Assembler package common 78K/0S Series compiler package common 78K/0S Series Device file µPD789426, 789436, 789446, 789456 Subseries compiler library source file common 78K/0S Series
DF789456
Notes
CC78K0S-L
Notes
Flash Memory Writing Tools
Flashpro (Part FL-PR3Note PG-FP3) FA-64GK-9ETNote Flash programmer dedicated on-chip flash memory microcontroller
Flash memory writing adapter 64-pin plastic TQFP (GK-9ET type)
Debugging Tools
IE-78K0S-NS In-circuit emulator This in-circuit emulator debugging hardware software application system using 78K/0S Series. supports integrated debugger (ID78K0S-NS). used with adapter, emulation probe, interface adapter connecting host machine. This board expand functions IE-78K0S-NS. addition this board enhances debugging functions such coverage, tracer, timer functions. This adapter supplying power from AC-100 outlet.
IE-78K0S-NS-A In-circuit emulator IE-70000-MC-PS-B adapter IE-70000-98-IF-C Interface adapter IE-70000-CD-IF-A card interface IE-70000-PC-IF-C Interface adapter IE-70000-PCI-IF-A Interface adapter IE-789436-NS-EM1 Emulation board IE-789456-NS-EM1 Emulation board NP-64GKNote Emulator probe SM78K0SNotes ID78K0S-NS DF789456
Notes
This adapter needed when PC-9800 series (except notebook type) used host machine IE-78K0S-NS (supports bus). This card interface cable needed when PC-9800 series notebook-type used host machine IE-78K0S-NS (supports PCMCIA socket). This adapter needed when PC/ATor compatible used host machine IE-78K0S-NS (supports bus). This adapter needed when that includes used host machine IE-78K0S-NS. This emulation board emulating peripheral hardware inherent µPD789426, 789436 Subseries devices. used with in-circuit emulator. This emulation board emulating peripheral hardware inherent µPD789446, 789456 Subseries devices. used with in-circuit emulator. This cable that used connect in-circuit emulator target system. 64-pin plastic TQFP (GK-9ET type). System simulator common 78K/0S Series Integrated debugger common 78K/0S Series Device file µPD789426, 789436, 789446, 789456 Subseries
Notes
Real-Time
MX78K0SNotes 78K/0S Series
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Notes Based PC-9800 Series (Japanese WindowsTM) Based PC/AT compatibles (Japanese/English Windows) Based HP9000 Series 700(HP-UXTM), SPARCstation(SunOSTM, SolarisTM) This product manufactured Naito Densei Machida Mfg. Co., Ltd. (TEL +81-45-475-4191). Remark RA78K0S, CC78K0S, SM78K0S used combination with DF789456.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
APPENDIX RELATED DOCUMENTS
related documents indicated this publication include preliminary versions. versions marked such. Documents related devices
Document Name Document U14493E This document U15075E U11047E U14458E
However, preliminary
µPD789425, 789426, 789435, 789436, 789445, 789446, 789455, 789456 Data Sheet µPD78F9436, 78F9456 Data Sheet µPD789426, 789436, 789446, 789456 Subseries User's Manual
78K/0S Series User's Manual Instructions 78K/0, 78K/0S Series Application Note Flash Memory Write
Documents related development tools (user's manuals)
Document Name RA78K0S Assembler Package Operation Language Structured Assembly Language CC78K0S Compiler Operation Language SM78K0S, SM78K0, System Simulator Ver.2.10 later Windows Based SM78K Series System Simulator 2.10 Later Operation Document U11622E U11599E U11623E U11816E U11817E U14611E
External Part User Open Interface Specifications Operation
U15006E
ID78K0-NS, ID78K0S-NS Integrated Debugger Ver.2.20 later Windows Based IE-78K0S-NS In-circuit Emulator IE-789436-NS-EM1 Emulation Board IE-789456-NS-EM1 Emulation Board PG-FP3 Flash Memory Programmer
U14910E
U13549E prepared prepared U13502E
Documents related embedded software (user's manuals)
Document Name 78K/0S Series MX78K0S Fundamental Document U12938E
Other documents
Document Name SEMICONDUCTOR SELECTION GUIDE Products Packages (CD-ROM) Semiconductor Device Mounting Technology Manual Quality Grades Semiconductor Devices Semiconductor Device Reliability/Quality Control System Guide Prevent Damage Semiconductor Devices Electrostatic Discharge (ESD) Document X13769E C10535E C11531E C10983E C11892E
Caution related documents listed above subject change without notice. sure latest version each document designing.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
NOTES CMOS DEVICES
PRECAUTION AGAINST SEMICONDUCTORS Note: Strong electric field, when exposed device, cause destruction gate oxide ultimately degrade device operation. Steps must taken stop generation static electricity much possible, quickly dissipate once, when occurred. Environmental control must adequate. When dry, humidifier should used. recommended avoid using insulators that easily build static electricity. Semiconductor devices must stored transported anti-static container, static shielding conductive material. test measurement tools including work bench floor should grounded. operator should grounded using wrist strap. Semiconductor devices must touched with bare hands. Similar precautions need taken boards with semiconductor devices HANDLING UNUSED INPUT PINS CMOS Note: connection CMOS device inputs cause malfunction. connection provided input pins, possible that internal input level generated noise, etc., hence causing malfunction. CMOS devices behave differently than Bipolar NMOS devices. Input levels CMOS devices must fixed high using pull-up pull-down circuitry. Each unused should connected with resistor, considered have possibility being output pin. handling related unused pins must judged device device related specifications governing devices. STATUS BEFORE INITIALIZATION DEVICES Note: Power-on does necessarily define initial status device. Production process does define initial operation status device. Immediately after power source turned devices with reset function have been initialized. Hence, power-on does guarantee out-pin levels, settings contents registers. Device initialized until reset signal received. Reset operation must executed immediately after power-on devices having reset function.
EEPROM trademarks Corporation. Windows either registered trademark trademark Microsoft Corporation United States and/or other countries. PC/AT trademark International Business Machines Corporation. HP9000 series HP-UX trademarks Hewlett-Packard Company. SPARCstation trademark SPARC International, Inc. Solaris SunOS trademarks Microsystems, Inc.
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
Regional Information
Some information contained this document vary from country country. Before using product your application, pIease contact office your country obtain list authorized representatives distributors. They will verify:
Device availability Ordering information Product release schedule Availability related technical literature Development environment specifications (for example, specifications third-party tools components, host computers, power plugs, supply voltages, forth) Network requirements
addition, trademarks, registered trademarks, export restrictions, other legal issues also vary from country country.
Electronics Inc. (U.S.)
Santa Clara, California Tel: 408-588-6000 800-366-9782 Fax: 408-588-6130 800-729-9288
Electronics (Germany) GmbH
Benelux Office Eindhoven, Netherlands Tel: 040-2445845 Fax: 040-2444580
Electronics Hong Kong Ltd.
Hong Kong Tel: 2886-9318 Fax: 2886-9022/9044
Electronics Hong Kong Ltd. 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
Electronics (Germany) GmbH
Duesseldorf, Germany Tel: 0211-65 Fax: 0211-65
Electronics (France) S.A. Electronics (UK) Ltd.
Milton Keynes, Tel: 01908-691-133 Fax: 01908-670-290 Madrid Office Madrid, Spain Tel: 091-504-2787 Fax: 091-504-2860
Electronics Singapore Pte. Ltd.
Novena Square, Singapore Tel: 253-8311 Fax: 250-3583
Electronics Taiwan Ltd. Electronics Italiana s.r.l.
Milano, Italy Tel: 02-66 Fax: 02-66
Electronics (Germany) GmbH
Scandinavia Office Taeby, Sweden Tel: 08-63 Fax: 08-63
Taipei, Taiwan Tel: 02-2719-2377 Fax: 02-2719-5951
Brasil S.A.
Electron Devices Division Guarulhos-SP, Brasil Tel: 11-6462-6810 Fax: 11-6462-6829
J01.2
Data Sheet U15379EJ1V0DS
µPD78F9436, 78F9456
information this document current April, 2001. information subject change without notice. actual design-in, refer latest publications NEC's data sheets data books, etc., most up-to-date specifications semiconductor products. products and/or types available every country. Please check with sales representative availability additional information. part this document copied reproduced form means without prior written consent NEC. assumes responsibility errors that appear this document. does assume liability infringement patents, copyrights other intellectual property rights third parties arising from semiconductor products listed this document other liability arising from such products. license, express, implied otherwise, granted under patents, copyrights other intellectual property rights others. Descriptions circuits, software other related information this document provided illustrative purposes semiconductor product operation application examples. incorporation these circuits, software information design customer's equipment shall done under full responsibility customer. assumes responsibility losses incurred customers third parties arising from these circuits, software information. While endeavours enhance quality, reliability safety semiconductor products, customers agree acknowledge that possibility defects thereof cannot eliminated entirely. minimize risks damage property injury (including death) persons arising from defects semiconductor products, customers must incorporate sufficient safety measures their design, such redundancy, fire-containment, anti-failure features. semiconductor products classified into following three quality grades: "Standard", "Special" "Specific". "Specific" quality grade applies only semiconductor products developed based customer-designated "quality assurance program" specific application. recommended applications semiconductor product depend quality grade, indicated below. Customers must check quality grade each semiconductor product before using particular application. "Standard": Computers, office equipment, communications equipment, test measurement equipment, audio visual equipment, home electronic appliances, machine tools, personal electronic equipment industrial robots "Special": Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment medical equipment (not specifically designed life support) "Specific": Aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems medical equipment life support, etc. quality grade semiconductor products "Standard" unless otherwise expressly specified NEC's data sheets data books, etc. customers wish semiconductor products applications intended NEC, they must contact sales representative advance determine NEC's willingness support given application. (Note) "NEC" used this statement means Corporation also includes majority-owned subsidiaries. "NEC semiconductor products" means semiconductor product developed manufactured defined above).
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