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| DATA SHEET MOS INTEGRATED CIRCUIT PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 8-BIT SINGLE-CHIP MICROCONTROLLER DESCRIPTION The PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, and 78018FY are the products in the PD78018FY subseries within the 78K/0 series, and the products which is added the I2C bus control function to the PD78018F subseries. A one-time PROM or EPROM product PD78P018FY capable of operating in the same power supply voltage as of the mask ROM product and other development tools are also provided. Functions are described in detail in the following User's Manual, which should be read when carring out design work. PD78018F, 78018FY Subseries User's Manual : U10659E 78K/0 Series Users Manual - Instruction : U12326E FEATURES * Serial interface : 2 channels (I2C bus mode : 1 channel) * Large on-chip ROM & RAM Item Product Name Program Memory (ROM) 8K bytes 16K bytes 24K bytes 32K bytes 40K bytes 48K bytes 60K bytes 1024 bytes Internal HighSpeed RAM 512 bytes Data Memory Internal Expanded RAM - Buffer RAM 32 bytes Package * 64-pin plastic shrink DIP (750 mil) * 64-pin plastic QFP (14 x 14 mm) PD78011FY PD78012FY PD78013FY PD78014FY PD78015FY PD78016FY PD78018FY 512 bytes 1024 bytes * * * * * * External memory expansion space : 64K bytes Minimum instruction execution time can be varied from high-speed (0.4 s) to ultra-low-speed (122 s) I/O ports: 53 (N-ch open-drain : 4) 8-bit resolution A/D converter : 8 channels Timer : 5 channels Supply voltage : VDD = 1.8 to 5.5 V APPLICATION FIELDS Cellular phone, pager, VCR, audio, camera, home appliances, etc The information in this document is subject to change without notice. Document No. U10281EJ2V0DS00 (2nd edition) Date Published August 1997 N Printed in Japan The mark shows major revised points. (c) 1994 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY ORDERING INFORMATION Part Number Package 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin plastic plastic plastic plastic plastic plastic plastic plastic plastic plastic plastic plastic plastic plastic shrink DIP QFP (14 x shrink DIP QFP (14 x shrink DIP QFP (14 x shrink DIP QFP (14 x shrink DIP QFP (14 x shrink DIP QFP (14 x shrink DIP QFP (14 x (750 mil) 14 mm) (750 mil) 14 mm) (750 mil) 14 mm) (750 mil) 14 mm) (750 mil) 14 mm) (750 mil) 14 mm) (750 mil) 14 mm) PD78011FYCW-xxx PD78011FYGC-xxx-AB8 PD78012FYCW-xxx PD78012FYGC-xxx-AB8 PD78013FYCW-xxx PD78013FYGC-xxx-AB8 PD78014FYCW-xxx PD78014FYGC-xxx-AB8 PD78015FYCW-xxx PD78015FYGC-xxx-AB8 PD78016FYCW-xxx PD78016FYGC-xxx-AB8 PD78018FYCW-xxx PD78018FYGC-xxx-AB8 Remark xxx indicates a ROM code suffix. 2 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 78K/0 SERIES DEVELOPMENT The following shows the products organized according to usage. The names in the parallelograms are subseries names. Products in mass production Products under development Y subseries products are compatible with I2C bus. Control 100-pin 100-pin 100-pin 100-pin 80-pin 80-pin 80-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 64-pin 42/44-pin PD78075B PD78078 PD78070A PD780058 PD78058F PD78054 PD780034 PD780024 PD78014H PD78018F PD78014 PD780001 PD78002 PD78083 Inverter control PD78075BY PD78078Y PD78070AY PD780018AY PD780058YNote PD78058FY PD78054Y PD780034Y PD780024Y PD78018FY PD78014Y PD78002Y EMI-noise reduced version of PD78078 A timer was added to the PD78054 and external interface was enhanced ROM-less version of the PD78078 Serial I/O of the PD78078Y was enhanced and the function is limited. Serial I/O of the PD78054 was enhanced and EMI-noise was reduced. EMI-noise reduced version of the PD78054 UART and D/A converter were enhanced to the PD78014 and I/O was enhanced A/D converter of the PD780024 was enhanced Serial I/O of the PD78018F was added and EMI-noise was reduced. EMI-noise reduced version of PD78018F Low-voltage (1.8 V) operation version of the PD78014, with larger selection of ROM and RAM capacities An A/D converter and 16-bit timer were added to the PD78002 An A/D converter was added to the PD78002 Basic subseries for control On-chip UART, capable of operating at low voltage (1.8 V) 64-pin 64-pin PD780964 PD780924 FIPTM drive A/D converter of the PD780924 was enhanced On-chip inverter control circuit and UART. EMI-noise was reduced. 100-pin 100-pin 78K/0 Series 80-pin 80-pin PD780208 PD780228 PD78044H PD78044F LCD drive The I/O and FIP C/D of the PD78044F were enhanced, Display output total: 53 The I/O and FIP C/D of the PD78044H were enhanced, Display output total: 48 An N-ch open drain I/O was added to the PD78044F, Display output total: 34 Basic subseries for driving FIP, Display output total: 34 100-pin 100-pin 100-pin PD780308 PD78064B PD78064 PD780308Y PD78064Y The SIO of the PD78064 was enhanced, and ROM, RAM capacity increased EMI-noise reduced version of the PD78064 Basic subseries for driving LCDs, On-chip UART IEBusTM supported 80-pin 80-pin PD78098B PD78098 Meter control EMI-noise reduced version of the PD78098 An IEBus controller was added to the PD78054 80-pin PD780973 LV On-chip controller/driver for automobile meters 64-pin PD78P0914 On-chip PWM output, LV digital code decoder, and Hsync counter Note Under planning 3 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY The following lists the main functional differences between Y subseries products. Functions Subseries Name Control PD78075BY VDD MIN. Value 1.8 V ROM Capacity 32 K to 40 K 48 K to 60 K - 48 K to 60 K Serial Interface Configuration 3-wire/2-wire/I2C : 1 ch With automatic transmit/receive function, 3-wire : 1 ch 3-wire/UART : 1 ch With automatic transmit/receive function, 3-wire : 1 ch Time division, 3-wire : 1 ch I2C bus (for multimaster) : 1 ch 3-wire/2-wire/I2C : 1 ch With automatic transmit/receive function, 3-wire : 1 ch 3-wire/time division UART : 1 ch 3-wire/2-wire/I2C : 1 ch With automatic transmit/receive function, 3-wire : 1 ch 3-wire/UART : 1 ch UART 3-wire I2C bus (for multimaster) : 1 ch : 1 ch : 1 ch I/O 88 PD78078Y PD78070AY PD780018AY 61 88 2.7 V PD780058Y 24 K to 60 K 68 1.8 V PD78058FY PD78054Y PD780034Y PD780024Y PD78018FY PD78014Y PD78002Y LCD drive 48 K to 60 K 16 K to 60 K 8 K to 32 K 69 2.7 V 2.0 V 51 1.8 V 8 K to 60 K 3-wire/2-wire/I2C : 1 ch With automatic transmit/receive function, 3-wire : 1 ch 3-wire/2-wire/SBI/I2C : 1 ch With automatic transmit/receive function, 3-wire : 1 ch 3-wire/2-wire/SBI/I2C 3-wire/2-wire/I2C 3-wire/time division UART 3-wire : 1 ch : 1 ch : 1 ch : 1 ch : 1 ch : 1 ch 53 8 K to 32 K 2.7 V 8 K to 16 K 48 K to 60 K PD780308Y 57 2.0 V PD78064Y 16 K to 32 K 3-wire/2-wire/I2C 3-wire/UART Remark The functions other than the serial interface are the same as those of subseries products without the suffix Y. 4 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY OVERVIEW OF FUNCTION (1/2) Item Product Name ROM High-speed RAM Expanded RAM Buffer RAM Memory space General-purpose registers 32 bytes 64K bytes 8 bits x 32 registers (8 bits x 8 registers x 4 banks) PD78011FY PD78012FY PD78013FY PD78014FY PD78015FY PD78016FY PD78018FY 8K bytes 16K bytes 24K bytes 32K bytes 40K bytes 1024 bytes -- 512 bytes 1024 bytes 48K bytes 60 K bytes Internal memory 512 bytes Minimum instruction execution time On-chip minimum instruction execution time cycle modification function When main system clock selected When subsystem clock selected Instruction set 0.4 s/0.8 s/1.6 s/3.2 s/6.4 s (at 10.0 MHz operation) 122 s (at 32.768 kHz operation) * * * * 16-bit operation Multiplication/division (8 bits x 8 bits,16 bits / 8 bits) Bit manipulation (set, reset, test, boolean operation) BCD correction, etc. : 53 : 02 : 47 : 04 I/O ports Total * CMOS input * CMOS I/O * N-channel open-drain I/O (15 V withstand voltage) A/D converter * 8-bit resolution x 8 channels * Operable over a wide power supply voltage range: VDD = 1.8 to 5.5 V * 3-wire serial I/O/2-wire serial I/O/I2C bus mode selectable: 1 channel * 3-wire mode (on-chip max. 32 bytes automatic data transmit/receive function): 1 channel * * * * 16-bit timer/event counter 8-bit timer/event counter Watch timer Watchdog timer : : : : 1 2 1 1 channel channels channel channel Serial interface Timer Timer output Clock output 3 (14-bit PWM output x 1) 39.1 kHz, 78.1 kHz, 156 kHz, 313 kHz, 625 kHz, 1.25 MHz (at main system clock: 10.0 MHz operation), 32.768 kHz (at subsystem clock: 32.768 kHz operation) 2.4 kHz, 4.9 kHz, 9.8 kHz (at main system clock: 10.0 MHz operation) Internal : 8 External : 4 Internal : 1 1 Buzzer output Vectored interrupt sources Non-maskable Software Maskable 5 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY OVERVIEW OF FUNCTION (2/2) Item Product Name Test input PD78011FY PD78012FY PD78013FY PD78014FY PD78015FY PD78016FY PD78018FY Internal : 1 External : 1 VDD = 1.8 to 5.5 V TA = -40 to +85C * 64-pin plastic shrink DIP (750 mil) * 64-pin plastic QFP (14 x 14 mm) Supply voltage Operating ambient temperature Package 6 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY TABLE OF CONTENTS 1. 2. 3. PIN CONFIGURATION (TOP VIEW) ....................................................................................................... 8 BLOCK DIAGRAM ................................................................................................................................... 11 PIN FUNCTIONS ...................................................................................................................................... 12 3.1 PORT PINS ........................................................................................................................................................ 12 3.2 PINS OTHER THAN PORT PINS ...................................................................................................................... 13 3.3 PIN I/O CIRCUITS AND RECOMMENDED CONNECTION OF UNUSED PINS ............................................. 15 4. 5. MEMORY SPACE .................................................................................................................................... 17 PERIPHERAL HARDWARE FUNCTION FEATURES ............................................................................ 19 5.1 5.2 5.3 5.4 5.5 5.6 5.7 PORTS ............................................................................................................................................................... CLOCK GENERATOR ....................................................................................................................................... TIMER/EVENT COUNTER ................................................................................................................................ CLOCK OUTPUT CONTROL CIRCUIT ............................................................................................................ BUZZER OUTPUT CONTROL CIRCUIT ........................................................................................................... A/D CONVERTER .............................................................................................................................................. SERIAL INTERFACES ...................................................................................................................................... 19 20 21 23 23 24 24 6. INTERRUPT FUNCTIONS AND TEST FUNCTIONS .............................................................................. 26 6.1 INTERRUPT FUNCTIONS ................................................................................................................................. 26 6.2 TEST FUNCTIONS ............................................................................................................................................ 29 7. 8. 9. EXTERNAL DEVICE EXPANSION FUNCTIONS .................................................................................... 30 STANDBY FUNCTIONS .......................................................................................................................... 30 RESET FUNCTIONS ................................................................................................................................ 30 10. INSTRUCTION SET ................................................................................................................................. 31 11. ELECTRICAL SPECIFICATIONS ............................................................................................................ 34 12. CHARACTERISTIC CURVE (REFERENCE VALUES) ........................................................................... 61 13. PACKAGE DRAWINGS ........................................................................................................................... 62 14. RECOMMENDED SOLDERING CONDITIONS ....................................................................................... 64 APPENDIX A. DEVELOPMENT TOOLS ...................................................................................................... 65 APPENDIX B. RELATED DOCUMENTS ...................................................................................................... 67 7 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 1. PIN CONFIGURATION (TOP VIEW) * 64-Pin Plastic Shrink DIP (750 mil) PD78011FYCW-xxx, 78012FYCW-xxx, 78013FYCW-xxx, PD78014FYCW-xxx, 78015FYCW-xxx, 78016FYCW-xxx, PD78018FYCW-xxx P20/SI1 P21/SO1 P22/SCK1 P23/STB P24/BUSY P25/SI0/SB0/SDA0 P26/SO0/SB1/SDA1 P27/SCK0/SCL P30/TO0 P31/TO1 P32/TO2 P33/TI1 P34/TI2 P35/PCL P36/BUZ P37 VSS P40/AD0 P41/AD1 P42/AD2 P43/AD3 P44/AD4 P45/AD5 P46/AD6 P47/AD7 P50/A8 P51/A9 P52/A10 P53/A11 P54/A12 P55/A13 VSS 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 26 27 28 29 30 31 32 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 AVREF AVDD P17/ANI7 P16/ANI6 P15/ANI5 P14/ANI4 P13/ANI3 P12/ANI2 P11/ANI1 P10/ANI0 AVSS P04/XT1 XT2 IC X1 X2 VDD P03/INTP3 P02/INTP2 P01/INTP1 P00/INTP0/TI0 RESET P67/ASTB P66/WAIT P65/WR P64/RD P63 P62 P61 P60 P57/A15 P56/A14 Cautions 1. Always connect the IC (Internally Connected) pin to VSS directly. 2. Always connect the AVDD pin to VDD. 3. Always connect the AVSS pin to VSS. 8 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY * 64-Pin Plastic QFP (14 x 14 mm) PD78011FYGC-xxx-AB8, 78012FYGC-xxx-AB8, 78013FYGC-xxx-AB8, PD78014FYGC-xxx-AB8, 78015FYGC-xxx-AB8, 78016FYGC-xxx-AB8, PD78018FYGC-xxx-AB8 P26/SO0/SB1/SDA1 P25/SI0/SB0/SDA0 P27/SCK0/SCL P24/BUSY P22/SCK1 P17/ANI7 P16/ANI6 P15/ANI5 P14/ANI4 P13/ANI3 50 64 P30/TO0 P31/TO1 P32/TO2 P33/TI1 P34/TI2 P35/PCL P36/BUZ P37 VSS P40/AD0 P41/AD1 P42/AD2 P43/AD3 P44/AD4 P45/AD5 P46/AD6 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 63 62 61 60 59 58 57 56 55 54 53 52 51 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 P12/ANI2 P21/SO1 P23/STB P20/SI1 AVREF AVDD P11/ANI1 P10/ANI0 AVSS P04/XT1 XT2 IC X1 X2 VDD P03/INTP3 P02/INTP2 P01/INTP1 P00/INTP0/TI0 RESET P67/ASTB P66/WAIT 18 19 20 21 22 23 24 25 26 27 28 29 30 31 33 32 P56/A14 P57/A15 P60 P61 P62 P63 P64/RD P47/AD7 P52/A10 P53/A11 P54/A12 P55/A13 Cautions 1. Always connect the IC (Internally Connected) pin to VSS directly. 2. Always connect the AVDD pin to VDD. 3. Always connect the AVSS pin to VSS. P65/WR P50/A8 P51/A9 VSS 9 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY A8 to A15 AD0 to AD7 ANI0 to ANI7 ASTB AVDD AVREF AVSS BUSY BUZ IC : Address Bus : Address/Data Bus : Analog Input : Address Strobe : Analog Power Supply : Analog Reference Voltage : Analog Ground : Busy : Buzzer Clock : Internally Connected PCL RD RESET SB0, SB1 SCK0, SCK1 SCL SDA0, SDA1 SI0, SI1 SO0, SO1 STB TI0 to TI2 TO0 to TO2 VDD VSS WAIT WR X1, X2 XT1, XT2 : Programmable Clock : Read Strobe : Reset : Serial Bus : Serial Clock : Serial Clock : Serial Data : Serial Input : Serial Output : Strobe : Timer Input : Timer Output : Power Supply : Ground : Wait : Write Strobe : Crystal (Main System Clock) : Crystal (Subsystem Clock) INTP0 to INTP3 : Interrupt from Peripherals P00 to P04 : Port0 P10 to P17 P20 to P27 P30 to P37 P40 to P47 P50 to P57 P60 to P67 : Port1 : Port2 : Port3 : Port4 : Port5 : Port6 10 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 2. BLOCK DIAGRAM TO0/P30 TI0/INTP0/P00 TO1/P31 TI1/P33 TO2/P32 TI2/P34 16-bit TIMER/ EVENT COUNTER P00 PORT0 P01 to P03 P04 8-bit TIMER/ EVENT COUNTER 1 PORT1 P10 to P17 8-bit TIMER/ EVENT COUNTER 2 PORT2 P20 to P27 WATCHDOG TIMER PORT3 P30 to P37 WATCH TIMER 78K/0 CPU CORE SERIAL INTERFACE 0 ROM PORT4 P40 to P47 SI0/SB0/P25 SO0/SB1/P26 SCK0/P27 SI1/P20 SO1/P21 SCK1/P22 STB/P23 BUSY/P24 SERIAL INTERFACE 1 PORT5 P50 to P57 PORT6 P60 to P67 AD0/P40 to AD7/P47 A8/P50 to A15/P57 RAM ANI0/P10 to ANI7/P17 AVDD AVSS AVREF EXTERNAL ACCESS RD/P64 WR/P65 WAIT/P66 ASTB/P67 RESET A/D CONVERTER INTP0/P00 to INTP3/P03 INTERRUPT CONTROL X1 SYSTEM CONTROL X2 XT1 XT2 BUZ/P36 BUZZER OUTPUT PCL/P35 CLOCK OUTPUT CONTROL VDD VSS IC (VPP) Remarks 1. Internal ROM & RAM capacity varies depending on the product. 2. ( ) : PD78P018FY 11 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 3. PIN FUNCTIONS 3.1 PORT PINS (1/2) Pin Name P00 P01 P02 P03 P04Note 1 P10 to P17 Input Input/ output Input only Port 1 8-bit input/output port. Input/output can be specified bit-wise. When used as an input port, on-chip pull-up resistor can be used in software.Note 2 Port 2 8-bit input/output port. Input/output can be specified bit-wise. When used as an input port, on-chip pull-up resistor can be used in software. Input Input I/O Input Input/ output Port 0 5-bit I/O port Input only Input/output can be specified bit-wise. When used as an input port, on-chip pull-up resistor can be used in software. Function On Reset Input Input DualFunction Pin INTP0/TI0 INTP1 INTP2 INTP3 XT1 ANI0 to ANI7 P20 P21 P22 P23 P24 P25 P26 P27 P30 P31 P32 P33 P34 P35 P36 P37 P40 to P47 Input/ output Input SI1 SO1 SCK1 STB BUSY SI0/SB0/SDA0 SO0/SB1/SDA1 SCK0/SCL Input/ output Port 3 8-bit input/output port. Input/output can be specified in 1-bit units. When used as an input port, on-chip pull-up resistor can be used in software. Input TO0 TO1 TO2 TI1 TI2 PCL BUZ -- Input/ output Port 4 8-bit input/output port. Input/output can be specified in 8-bit unit. When used as an input port, on-chip pull-up resistor can be used in software. Test input flag (KRIF) is set to 1 by falling edge detection. Input AD0 to AD7 Notes 1. When using the P04/XT1 pins as an input port, set 1 to bit 6 (FRC) of the processor clock control register (PCC). Do not use the on-chip feedback register of the subsystem clock oscillator. 2. When using the P10/ANI0 to P17/ANI7 pins as the A/D converter analog input, on-chip pull-up resistor is automatically unused. 12 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 3.1 PORT PINS (2/2) Pin Name P50 to P57 I/O Input/ output Function Port 5 8-bit input/output port. LED can be driven directly. Input/output can be specified bit-wise. When used as an input port, on-chip pull-up resistor can be used in software. Port 6 8-bit input/output port. Input/output can be specified bit-wise. N-ch open-drain input/output port. On-chip pull-up resistor can be specified by mask option. LED can be driven directly. On Reset Input DualFunction Pin A8 to A15 P60 P61 P62 P63 P64 P65 P66 P67 Input/ output Input When used as an input port, on-chip pull-up resistor can be used in software. RD WR WAIT ASTB 3.2 PINS OTHER THAN PORT PINS (1/2) Pin Name INTP0 INTP1 INTP2 INTP3 SI0 SI1 SO0 SO1 SB0 SB1 SDA0 SDA1 SCK0 SCL SCK1 STB BUSY Output Input Serial interface automatic transmit/receive strobe output. Serial interface automatic transmit/receive busy input. Input Input Input /output Serial interface serial clock input/output. Input Input /output Serial interface serial data input/output. Input Output Serial interface serial data output. Input Input I/O Input Function External interrupt request input by which the effective edge (rising edge, falling edge, or both rising edge and falling edge) can be specified. Falling edge detection external interrupt request input. Serial interface serial data input. Input On Reset Input DualFunction Pin P00/TI0 P01 P02 P03 P25/SB0/SDA0 P20 P26/SB1/SDA1 P21 P25/SI0/SDA0 P26/SO0/SDA1 P25/SI0/SB0 P26/SO0/SB1 P27/SCL P27/SCK0 P22 P23 P24 13 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 3.2 PINS OTHER THAN PORT PINS (2/2) DualFunction Pin P00/INTP0 P33 P34 Input P30 P31 P32 Input Input Input Input Input P35 P36 P40 to P47 P50 to P57 P64 P65 Input Input P66 P67 Pin Name TI0 TI1 TI2 TO0 TO1 TO2 PCL BUZ AD0 to AD7 A8 to A15 RD WR WAIT ASTB I/O Input Function External count clock input to 16-bit timer (TM0). External count clock input to 8-bit timer (TM1). External count clock input to 8-bit timer (TM2). On Reset Input Output 16-bit timer (TM0) output (shared as 14-bit PWM output). 8-bit timer (TM1) output. 8-bit timer (TM2) output. Output Output Input /output Output Output Clock output (for main system clock, subsystem clock trimming). Buzzer output. Low-order address/data bus at external memory expansion. High-order address bus at external memory expansion. External memory read operation strobe signal output. External memory write operation strobe signal output. Input Output Wait insertion at external memory access. Strobe output which latches the address information output at port 4 and port 5 to access external memory. A/D converter analog input. A/D converter reference voltage input. A/D converter analog power supply. Connected to VDD. A/D converter ground potential. Connected to VSS. System reset input. Main system clock oscillation crystal connection. ANI0 to ANI7 AVREF AVDD AVSS RESET X1 X2 XT1 XT2 VDD VSS IC Input Input -- -- Input Input -- Input -- -- -- -- Input -- -- -- -- -- -- P10 to P17 -- -- -- -- -- -- P04 -- -- -- -- Subsystem clock oscillation crystal connection. Input -- Positive power supply. Ground potential. Internal connection. Connected to VSS directly. -- -- -- 14 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 3.3 PIN I/O CIRCUITS AND RECOMMENDED CONNECTION OF UNUSED PINS The input/output circuit type of each pin and recommended connection of unused pins are shown in Table 3-1. For the input/output circuit configuration of each type, refer to Figure 3-1. Table 3-1. Input/Output Circuit Type of Each Pin Pin Name P00/INTP0/TI0 P01/INTP1 P02/INTP2 P03/INTP3 P04/XT1 P10/ANI0 to P17/ANI7 P20/SI1 P21/SO1 P22/SCK1 P23/STB P24/BUSY P25/SI0/SB0 P26/SO0/SB1 P27/SCK0 P30/TO0 P31/TO1 P32/TO2 P33/TI1 P34/TI2 P35/PCL P36/BUZ P37 P40/AD0 to P47/AD7 P50/A8 to P57/A15 P60 to P63 P64/RD P65/WR P66/WAIT P67/ASTB RESET XT2 AVREF AVDD AVSS IC 2 16 -- Input -- -- Leave open. Connected to VSS . Connected to VDD . Connected to VSS . Connected to VSS directly. 5-E 5-A 13-B 5-A Individually connected to VDD via resistor. Individually connected to VDD or VSS via resistor. Individually connected to VDD via resistor. Individually connected to VDD or VSS via resistor. 5-A 8-A 5-A 16 11 8-A 5-A 8-A 5-A 8-A 10-A Input Input/output Connected to VDD or VSS. Individually connected to VDD or VSS via resisitor. Input/output Circuit Type 2 8-A Input Input/output I/O Recommended Connection when Not Used Connected to VSS . Individually connected to VSS via resistor. 15 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 3-1. Pin Input/Output Circuits Type 2 Type 10-A VDD P-ch V DD pull-up enable IN data open drain output disable Schmitt-Triggered Input with Hysteresis Characteristic P-ch IN / OUT N-ch Type 5-A VDD P-ch V DD data P-ch IN / OUT N-ch Type 11 V DD P-ch V DD P-ch IN / OUT N-ch P-ch + - N-ch VREF (Threshold Voltage) pull-up enable pull-up enable data output disable Comparator output disable input enable Type 5-E input enable VDD Type 13-B VDD Mask Option IN / OUT pull-up enable data output disable P-ch V DD P-ch IN / OUT N-ch RD data output disable N-ch VDD P-ch Middle-High Voltage Input Buffer Type 8-A Type 16 VDD P-ch V DD data P-ch IN / OUT N-ch pull-up enable feedback cut-off P-ch output disable XT1 XT2 16 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 4. MEMORY SPACE The memory map of the PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY and 78016FY is shown in Figures 4-1 and 4-2. Figure 4-1. Memory Map (PD78011FY, 78012FY, 78013FY, 78014FY) FFFFH Special Function Registers (SFR) 256 x 8 Bits FF00H FEFFH General-Purpose Registers 32 x 8 Bits FEE0H FEDFH FA7FH Use Prohibited F800H F7FFH Internal Expanded RAM 512 x 8 Bits F600H F5FFH External Memory Internal High-Speed RAMNote 2 nnnnH + 1 Note 1 mmmmH mmmmH - 1 Use Prohibited Data Memory Space FAE0H FADFH FAC0H FABFH FA80H FA7FH Program Memory Space nnnnH + 1 nnnnH Buffer RAM 32 x 8 Bits nnnnH Program Area 1000H 0FFFH CALLF Entry Area Use Prohibited 0800H 07FFH Program Area External Memory 0080H 007FH CALLT Table Area 0040H 003FH Internal ROMNote Vector Table Area 0000H 0000H Note Intermal ROM and internal high-speed RAM capacities vary depending on the product (refer to the table below). Internal High-Speed RAM Start Address mmmmH FD00H Product Name Intenal ROM End Address nnnnH PD78011FY PD78012FY PD78013FY PD78014FY 1FFFH 3FFFH 5FFFH 7FFFH FB00H 17 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 4-2. Memory Map (PD78015FY, 78016FY, 78018FY) FFFFH Special Function Registers (SFR) 256 x 8 Bits FF00H FEFFH General-Purpose Registers 32 x 8 Bits FEE0H FEDFH Internal High-Speed RAMNote mmmmH mmmmH - 1 Use Prohibited Data Memory Space FAE0H FADFH FAC0H FABFH FA80H FA7FH Use Prohibited F800H F7FFH Program Memory Space kkkkH kkkkH - 1 0800H 07FFH Internal Expanded RAMNote Program Area 0080H 007FH CALLT Table Area 0040H 003FH Internal ROMNote 0000H 0000H Vector Table Area Buffer RAM 32 x 8 Bits nnnnH Use Prohibited 1000H 0FFFH CALLF Entry Area Program Area External Memory nnnnH + 1 nnnnH Note Intermal ROM, internal high-speed RAM, and internal expanded RAM capacities vary depending on the product (refer to the table below). Internal High-Speed RAM Start Address mmmmH FB00H Internal Expanded RAM Start Address kkkkH F600H Product Name Intenal ROM End Address nnnnH 9FFFH BFFFH EFFFH PD78015FY PD78016FY PD78018FY F400H 18 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 5. PERIPHERAL HARDWARE FUNCTION FEATURES 5.1 PORTS The I/O port has the following three types * CMOS input (P00, P04) * CMOS input/output (P01 to P03, port 1 to port 5, P64 to P67) * N-ch open-drain input/output(15V withstand voltage) (P60 to P63) Total : 2 : 47 :4 : 53 Table 5-1. Functions of Ports Port Name Port 0 Pin Name P00, P04 P01 to P03 Port 1 Port 2 Port 3 Port 4 P10 to P17 P20 to P27 P30 to P37 P40 to P47 Dedicated Input port Input/output ports. Input/output can be specified bit-wise. When used as an input port, pull-up resistor can be used in software. Input/output ports. Input/output can be specified bit-wise. When used as an input port, pull-up resistor can be used in software. Input/output ports. Input/output can be specified bit-wise. When used as an input port, pull-up resistor can be used in software. Input/output ports. Input/output can be specified bit-wise. When used as an input port, pull-up resistor can be used in software. Input/output ports. Input/output can be specified in 8-bit units. When used as an input port, pull-up resistor can be used in software. Test input flag (KRIF) is set to 1 by falling edge detection. Input/output ports. Input/output can be specified bit-wise. When used as an input port, pull-up resistor can be used in software. LED can be driven directly. N-ch open-drain input/output port. Input/output can be specified bit-wise. On-chip pull-up resistor can be specified by mask option. LED can be driven directly. Input/output ports. Input/output can be specified bit-wise. When used as an input port, pull-up resistor can be used in software. Function Port 5 P50 to P57 Port 6 P60 to P63 P64 to P67 19 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 5.2 CLOCK GENERATOR There are two types of clock generator: main system clock and subsystem clock. The minimum instruction exection time can be changed. * 0.4s/0.8s/1.6s/3.2s/6.4s (Main system clock: at 10.0 MHz operation) * 122s (Subsystem clock: at 32.768 KHz operation) Figure 5-1. Clock Generator Block Diagram XT1/P04 XT2 Subsystem Clock Osicillator fXT Watch Timer Clock Output Function Prescaler X1 X2 Main System Clock Osicillator fX Prescaler Clock to Peripheral Hardware fX 24 fX 2 STOP fX 22 fX 23 Selector Standby Control Circuit Wait Control Circuit CPU Clock (fCPU) INTP0 Sampling Clock 20 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 5.3 TIMER/EVENT COUNTER The following five channels are incorporated in the timer/event counter. * 16-bit timer/event counter * 8-bit timer/event counter * Watch timer * Watchdog timer : 1 channel : 2 channels : 1 channel : 1 channel Table 5-2. Operation of Timer/Event Counter 16-bit Timer/Event Counter Operation mode Functions Interval timer Externanal event counter Timer output PWM output Pulse width mesurement Sqare wave output Interrupt request Test input 1 channel 1 channel 1 output 1 output 1 input 1 output 2 - 8-bit Timer/Event Counter 2 channels 2 channels 2 outputs - - 2 outputs 2 - Watch Timer 1 channel - - - - - 1 1 input Watchdog Timer 1 channel - - - - - 1 - Figure 5-2. 16-bit Timer/Enent Counter Block Diagram Internal Bus 16-Bit Compare Register (CR00) PWM Pulse Output Control Circuit 16-Bit Timer Register (TM0) Clear Selector Output Control Circuit INTTM0 Match TO0/P30 fX/2 fX/22 fX/23 TI0/INTP0/P00 Edge Detector Selector INTP0 16-Bit Capture Register (CR01) Internal Bus 21 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 5-3. 8-bit Timer/Enent Counter Block Diagram Internal Bus INTIM1 8-Bit Compare Register (CR10) 8-Bit Compare Register (CR20) Selector Match Output Control Circuit TO2/P32 INTTM2 fX/22 to fX/210 fX/212 TI1/P33 Selector 8-Bit Timer Register 1 (TM1) Clear Selector 8-Bit Timer Register 2 (TM2) Clear fX/22 to fX/210 fX/212 TI2/P34 Selector Selector Output Control Circuit Internal Bus TO1/P31 Figure 5-4. Watch Timer Block Diagram fX/28 Selector Selector 5-Bit Counter fW 214 Selector INTWT fW Prescaler fXT fW 24 fW 25 fW 26 fW 27 fW 28 fW 29 fW 213 Selector INTTM3 22 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 5-5. Watchdog Timer Block Diagram fX 24 fX 25 fX 26 fX 27 Prescaler fX 28 fX 29 fX 210 fX 212 INTWDT Maskable Interrupt Request Selector 8-Bit Counter Control Circuit RESET INTWDT Non-Maskable Interrupt Request 5.4 CLOCK OUTPUT CONTROL CIRCUIT The clock with the following frequencies can be output for clock output. * 39.1 kHz/78.1 kHz/156 kHz/313 kHz/625 kHz/1.25 MHz (Main system clock: at 10.0 MHz operation) * 32.768 kHz (Subsystem clock: at 32.768 kHz operation) Figure 5-6. Clock Output Control Block Diagram fX/23 fX/24 fX/25 fX/26 fX/27 fX/28 fXT Selector Synchronization Circuit Output Control Circuit PCL/P35 5.5 BUZZER OUTPUT CONTROL CIRCUIT The clock with the following frequencies can be output for buzzer output. * 2.4 kHz/4.9 kHz/9.8 kHz (Main system clock: at 10.0 MHz operation) Figure 5-7. Buzzer Output Control Block Diagram fX/210 fX/211 fX/212 Selector Output Control Circuit BUZ/P36 23 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 5.6 A/D CONVERTER The A/D converter has on-chip eight 8-bit resolution channels. There are the following two method to start A/D conversion. * Hardware starting * Software starting Figure 5-8. A/D Converter Block Diagram Series Resistor String ANI0/P10 ANI1/P11 ANI2/P12 ANI3/P13 ANI4/P14 ANI5/P15 ANI6/P16 ANI7/P17 Succesive Approxmation Register (SAR) AVSS Selector Tap Selector Sample & Hold Circuit Voltage Comparator AVDD AVREF INTP3/P03 Falling Edge Detector Control Circuit INTAD INTP3 A/D Conversion Result Register (ADCR) Internal Bus 5.7 SERIAL INTERFACES There are two on-chip clocked serial interfaces as follows. * Serial Interface channel 0 * Serial Interface channel 1 Table 5-3. Type and Function of Serial Interface Function 3-wire serial I/O mode 3-wire serial I/O mode with automatic data transmit/ receive function 2-wire serial I/O mode I C (Inter IC) bus mode 2 Serial Interface Channel 0 O (MSB/LSB-first switchable) - Serial Interface Channel 1 O (MSB/LSB-first switchable) O (MSB/LSB-first switchable) O (MSB-first) O (MSB-first) - - 24 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 5-9. Serial Interface Channel 0 Block Diagram Internal Bus SI0/SB0/SDA0/P25 Selector Serial I/O Shift Register 0 (SIO0) Output Latch SO0/SB1/SDA1/P26 Selector Start Condition/ Stop Condition/ Acknowledge Detection Circuit Acknowlede Output Circuit SCK0/SCL/P27 Serial Clock Counter Interrupt Request Signal Generator INTCSI0 fx/22 to fx/29 Serial Clock Control Circuit Selector TO2 Figure 5-10. Serial Interface Channel 1 Block Diagram Internal Bus Automatic Data Transmit/ Receive Address Pointer (ADTP) Buffer RAM SI1/P20 Serial I/O Shift Register 1 (SIO0) SO1/P21 STB/P23 BUSY/P24 Handshake Control Circuit SCK/P22 Serial Clock Counter Interrupt Request Signal Generator INTCSI1 fX/22 to fX/29 Serial Clock Control Circuit Selector TO2 25 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 6. INTERRUPT FUNCTIONS AND TEST FUNCTIONS 6.1 INTERRUPT FUNCTIONS There are interrupt functions, 14 sources of three different kinds, as shown below. * Non-maskable * Maskable * Software : 1 : 12 :1 Table 6-1. Interrupt Source List Default Priority Note 1 Interrupt Source Name INTWDT Trigger Watchdog timer overflow (with watchdog timer mode 1 selected) Watchdog timer overflow (with interval timer mode selected) Pin input edge detection External 0006H 0008H 000AH 000CH Serial interface channel 0 transfer end Serial interface channel 1 transfer end Reference time interval signal from watch timer 16 bit timer/event counter match signal generation 8-bit timer/event counter 1 match signal generation 8-bit timer/event counter 2 match signal generation A/D converter conversion end BRK instruction execution --- Internal 000EH 0010H 0012H (B) Internal/ External Vector Table Address Basic Configuratin Type Note 2 Internal 0004H (A) Interrupt Type Non-maskable --- Maskable 0 INTWDT (B) 1 2 3 4 5 6 7 INTP0 INTP1 INTP2 INTP3 INTCSI0 INTCSI1 INTTM3 (C) (D) 8 INTTM0 0014H 9 INTTM1 0016H 10 INTTM2 0018H 11 Software --- INTAD BRK 001AH 003EH (E) Notes 1. The default pririty is the priority applicable when more than one maskable interrupt request is generated. 0 is the highest priority and 11, the lowest. 2. Basic configuration types (A) to (E) correspond to (A) to (E) on the next page. 26 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 6-1. Basic Interrupt Function Configuration (1/2) (A) Internal Non-Maskable Interrupt Internal Bus Interrupt Request Priority Control Circuit Vector Table Address Generator Standby Release Signal (B) Internal Maskable Interrupt Internal Bus MK IE PR ISP Interrupt Request IF Priority Control Circuit Vector Table Address Generator Standby Release Signal (C) External Maskable Interrupt (INTP0) Internal Bus Sampling Clock Select Register (SCS) External Interrupt Mode Register (INTM0) MK IE PR ISP Interrupt Request Sampling Clock Edge Detector IF Priority Control Circuit Vector Table Address Generator Standby Release Signal 27 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Figure 6-1. Basic Interrupt Function Configuration (2/2) (D) External Maskable Interrupt (Except INTP0) Internal Bus External Interrupt Mode Register (INTM0) MK IE PR ISP Interrupt Request Edge Detector IF Priority Control Circuit Vector Table Address Generator Standby Release Signal (E) Software Interrupt Internal Bus Interrupt Request Priority Control Circuit Vector Table Address Generator IF IE ISP MK PR : Interrupt request flag : Interrupt enable flag : In-service priority flag : Interrupt mask flag : Priority spcification flag 28 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 6.2 TEST FUNCTIONS There are two test functions as shown in Table 6-2. Table 6-2. Test Source List Test Source Internal/External Name INTWT INTPT4 Trigger Watch timer overflow Port 4 falling edge detection Internal External Figure 6-2. Test Function Basic Configuration Internal Bus MK Test Input IF Standby Release Signal IF : Test input flag MK : Test mask flag 29 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 7. EXTERNAL DEVICE EXPANSION FUNCTIONS The external device expansion function is used to connect external devices to areas other than the internal ROM, RAM and SFR. Ports 4 to 6 are used for connection with external devices. 8. STANDBY FUNCTIONS There are the following two standby functions to reduce the current dissipation. * HALT mode : The CPU operating clock is stopped. The average consumption current can be reduced by intermittent operation in combination with the normal operat ing mode. * STOP mode : The main system clock oscillation is stopped. The whole operation by the main system clock is stopped, so that the system operates withultra-low power consumption using only the subsystem clock. Figure 8-1. Standby Functions Main System Clock Operation Interrupt Request STOP Instruction Interrupt Request CSS=1 CSS=0 HALT Instruction Subsystem Clock OperationNote HALT Instruction Interrupt Request STOP Mode (Main system clock oscillation stopped) HALT Mode (Clock supply to CPU is stopped, oscillation) HALT ModeNote (Clock supply to CPU is stopped, oscillation) Note The power consumption can be reduced by stopping the main system clock. When the CPU is operating on the subsystem clock, set the MCC to stop the main system clock. The STOP instruction cannot be used. Caution When the main system clock is stopped and the system is operated by the subsystem clock, the subsystem clock should be switched again to the main system clock after the oscillation stabilization time is secured by the program by the program. 9. RESET FUNCTIONS There are the following two reset methods. * External reset input by RESET pin. * Internal reset by watchdog timer runaway time detection. 30 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 10. INSTRUCTION SET (1) 8-Bit Instruction MOV, XCH, ADD, ADDC, SUB, SUBC, AND, OR, XOR, CMP, MULU, DIVUW, INC, DEC, ROR, ROL, RORC, ROLC, ROR4, ROL4, PUSH, POP, DBNZ 2nd Operand #byte 1st Operand A ADD ADDC SUB SUBC AND OR XOR CMP MOV XCH ADD ADDC SUB SUBC AND OR XOR CMP MOV ADD ADDC SUB SUBC AND OR XOR CMP B, C sfr sadder MOV MOV MOV MOV ADD ADDC SUB DBNZ INC DEC DBNZ MOV XCH MOV XCH ADD ADDC SUB SUBC AND OR XOR CMP MOV XCH ADD ADDC SUB SUBC AND OR XOR CMP MOV MOV XCH MOV XCH ADD ADDC SUB SUBC AND OR XOR CMP A r Note sfr saddr !addr16 PSW [DE] [HL] [HL+byte] [HL+B] $adder16 [HL+C] MOV XCH ADD ADDC SUB SUBC AND OR XOR CMP 1 None ROR ROL RORC ROLC r MOV INC DEC SUBC AND OR XOR CMP !adder16 PSW MOV MOV MOV PUSH POP [DE] [HL] MOV MOV ROR4 ROL4 [HL+byte] [HL+B] [HL+C] X C MOV MULU DIVUW Note Except r=A 31 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (2) 16-Bit Instruction MOVW, XCHW ADDW, SUBW, CMPW, PUSH, POP, INCW, DECW 2nd Operand 1st Operand AX #byte ADDW SUBW CMPW rp MOVW MOVWNote INCW, DECW PUSH, POP AX rp Note MOVW XCHW saddrp MOVW !addr16 MOVW SP MOVW None MOVW sfrp sadderp !adder16 SP MOVW MOVW MOVW MOVW MOVW MOVW MOVW Note Only when rp=BC, DE, HL. (3) Bit Manipulation Instruction MOV1, AND1, OR1, XOR1, SET1, CLR1, NOT1, BT, BF, BTCLR 2nd Operand A.bit 1st Operand A.bit MOV1 BT BF BTCLR BT BF BTCLR BT BF BTCLR BT BF BTCLR BT BF BTCLR SET1 CLR1 sfr.bit saddr.bit PWS.bit [HL].bit CY $addr16 None sfr.bit MOV1 SET1 CLR1 saddr.bit MOV1 SET1 CLR1 PSW.bit MOV1 SET1 CLR1 [HL].bit MOV1 SET1 CLR1 CY MOV1 AND1 OR1 XOR1 MOV1 AND1 OR1 XOR1 MOV1 AND1 OR1 XOR1 MOV1 AND1 OR1 XOR1 MOV1 AND1 OR1 XOR1 SET1 CLR1 NOT1 32 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (4) Call Instruction/Branch Instruction CALL, CALLF, CALLT, BR, BC, BNC, BZ, BNZ, BT, BF, BTCLR, DBNZ 2nd Operand AX 1st Operand Basic instruction BR CALL, BR CALLF CALLT BR, BC, BNC, BZ, BNZ BT,BF, BTCLR, DBNZ !addr16 !addr11 [addr5] $addr16 Compound instruction (5) Other Instruction ADJBA, ADJBS, BRK, RET, RETI, RETB, SEL, NOP, EI, DI, HALT, STOP 33 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 11. ELECTRICAL SPECIFICATIONS Absolute Maximum Ratings (TA = 25 C) Parameter Supply voltage Symbol VDD AVDD AVREF AVSS Input voltage VI1 VI2 Output voltage Analog input voltage Output current high VO VAN P10 to P17 1 pin IOH P10 to P17, P20 to P27, P30 to P37 total P01 to P03, P40 to P47, P50 to P57, P60 to P67 total Output current low Peak value 1 pin P40 to P47, P50 to P55 total rms Peak value rms P01 to P03, P56, P57, IOLNote P60 to P67 total P01 to P03, P64 to P67 total Peak value rms Peak value rms Analog input pin P00 to P04, P10 to P17, P20 to P27, P30 to P37 P40 toP47, P50 to P57, P64 to P67, X1, X2, XT2 P60 to P67 Open-drain -0.3 to +16 -0.3 to VDD + 0.3 AVSS - 0.3 to AVREF + 0.3 -10 -15 -15 30 15 100 70 100 70 50 20 50 20 -40 to +85 V V V mA mA mA mA mA mA mA mA mA mA mA mA mA C Test Conditions Rating -0.3 to +7.0 -0.3 to VDD + 0.3 -0.3 to VDD + 0.3 -0.3 to +0.3 -0.3 to VDD + 0.3 Unit V V V V V P10 to P17, P20 to P27, P30 to P37 Peak value total Operating ambient temperature Storage temperature TA rms Tstg -65 to +150 C Note rms should be calculated as follows: [rms] = [peak value] x duty Caution Product quality may suffer if the absolute maximum rating is exceeded for even a single parameter or even momentarily. That is, the absolute maximuam 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 which ensure that the absolute maximum ratings are not exceeded. 34 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Capacitance ( TA = 25 C, VDD = VSS = 0 V ) Parameter Input capacitance I/O capacitance Symbol CIN Test Conditions f = 1 MHz Unmeasured pins returned to 0 V P01 to P03, P10 to P17, f = 1 MHz Unmeasured P20 to P27, P30 toP37, CIO pins returned to 0 V P40 toP47, P50 to P57, P64 to P67 P60 to P63 20 pF 15 pF MIN. TYP. MAX. 15 Unit pF Remark The characteristics of a dual-function pin and a port pin are the same unless specified otherwise. Main System Clock Oscillation Circuit Characteristics ( TA = -40 to +85 C, VDD = 1.8 to 5.5 V) Resonator Ceramic resonator Recommended Circuit X1 X2 VSS R1 C1 C2 Parameter Oscillator frequency (fX) Note 1 Oscillation stabilization time Note 2 Oscillator frequency (fX) Note 1 Oscillation stabilization time Note 2 X1 input frequency (fX) Note 1 X1 input Test Conditions 2.7 V VDD 5.5 V 1.8 V VDD < 2.7 V After VDD reaches oscillator voltage range MIN. 2.7 V VDD 5.5 V 1.8 V VDD < 2.7 V VDD = 4.5 to 5.5 V MIN. 1 1 TYP. MAX. 10 Unit MHz 5 ms 4 1 1 10 5 10 Crystal resonator X1 X2 VSS MHz C1 C2 ms 30 External clock X1 X2 1.0 10.0 MHz PD74HCU04 high/low level width 45 500 ns (tXH , tXL) Notes 1. Indicates only oscillation circuit characteristics. Refer to AC Characteristics for instruction execution time. 2. Time required to stabilize oscillation after reset or STOP mode release. Cautions 1. When using the main system clock oscillator, wiring the area enclosed with the dotted line should be carried out as follows to avoid an adverse effect from wiring capacitance. q Wiring should be as short as possible. q Wiring should not cross other signal lines. q Wiring should not be placed close to a varying high current. q The potential of the oscillator capacitor ground should be the same as VSS. q Do not ground wiring to a ground pattern in which a high current flows. q Do not fetch a signal from the oscillator. 2. When the main system clock is stopped and the system is operated by the subsystem clock, the subsystem clock should be switched again to the main system clock after the oscillation stabilization time is secured by the program. 35 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Subsystem Clock Oscillation Circuit Characteristics (TA = -40 to +85 C, VDD = 1.8 to 5.5 V) Resonator Crystal resonator Recommended Circuit XT1 XT2 VSS R2 C3 C4 Parameter Oscillator frequency (fXT) Note 1 Oscillation stabilization time Note 2 XT1 input frequency (fXT) Note 1 XT1 input high/low level width (tXTH , tXTL) Test Conditions MIN. TYP. MAX. Unit 32 32.768 35 kHz VDD = 4.5 to 5.5 V 1.2 2 10 s External clock 32 100 kHz XT1 XT2 5 15 s Notes 1. Indicates only oscillation circuit characteristics. Refer to AC Characteristics for instruction execution time. 2. Time required to stabilize oscillation after VDD reaches oscillator voltage MIN. Cautions 1. When using the subsystem clock oscillator, wiring in the area enclosed with the dotted line should be carried out as follows to avoid an adverse effect from wiring capacitance. q Wiring should be as short as possible. q Wiring should not cross other signal lines. q Wiring should not be placed close to a varying high current. q The potential of the oscillator capacitor ground should be the same as VSS. q Do not ground wiring to a ground pattern in which a high current flows. q Do not fetch a signal from the oscillator. 2. The subsystem clock oscillation circuit is a circuit with a low amplification level,more prone to misoperation due to noise than the main system clock. Particular care is therefore required with the wiring method when the subsystem clock is used. 36 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Recommended Oscillation Circuit Constant Recommended oscillation circuit constant differs depending on the model. (1) PD78011FY, 78012FY, 78013FY, 78014FY (a) Main system clock: ceramic resonator (TA = -45 to +85 C) Manufacturer Product Name Frequency (MHz) 4.19 4.19 5.00 5.00 8.00 8.00 10.00 10.00 4.19 4.19 5.00 5.00 8.38 8.38 10.00 10.00 Recommended Oscillation Circuit Constant C1 (pF) TDK Corp. CCR4.19MC3 FCR4.19MC5 CCR5.00MC3 FCR5.00MC5 CCR8.38MC FCR8.38MC5 CCR10.00MC FCR10.00MC5 Murata Mfg. Co. Ltd. CSA4.19MG CST4.19MGW CSA5.00MG CST5.00MGW CSA8.38MTZ CST8.38MTW CSA10.00MTZ CST10.00MTW Built-in Built-in Built-in Built-in Built-in Built-in Built-in Built-in 30 Built-in 30 Built-in 30 Built-in 30 Built-in C2 (pF) Built-in Built-in Built-in Built-in Built-in Built-in Built-in Built-in 30 Built-in 30 Built-in 30 Built-in 30 Built-in Oscillation Voltage Range MIN. (V) 1.8 1.8 1.8 1.8 2.7 2.7 2.7 2.7 1.8 1.8 1.8 1.8 2.7 2.7 2.7 2.7 MAX. (V) 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 (b) Main system clock: ceramic resonator (TA = -20 to +80 C) Manufacturer Product Name Frequency (MHz) 5.00 5.00 5.00 5.00 8.00 10.00 Recommended Oscillation Circuit Constant C1 (pF) Kyocera Corp. PBRC5.00A PBRC5.00B KBR-5.00MSA KBR-5.00MKS KBR-8M KBR-10M 33 Built-in 33 Built-in 33 33 C2 (pF) 33 Built-in 33 Built-in 33 33 Oscillation Voltage Range MIN. (V) 1.8 1.8 1.8 1.8 2.7 2.7 MAX. (V) 5.5 5.5 5.5 5.5 5.5 5.5 Caution The oscillation circuit constants and oscillation voltage range indicate conditions for stable oscillation but do not guarantee the accuracy of the oscillation frequency. If the application circuit requires accuracy of the oscillation frequency, it is necessary to set the oscillation frequency of the resonator in the application circuit. For this, it is necessary to directly contact manufacturer of the resonator being used. 37 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (2) PD78015FY, 78016FY (a) Main system clock: ceramic resonator (TA = -45 to +85 C) Manufacturer Product Name Frequency (MHz) 1.00 2.00 2.00 4.00 4.00 6.00 6.00 10.0 10.0 6.00 6.00 10.0 10.0 4.0 10.0 Recommended Oscillation Circuit Constant C1 (pF) Murata Mfg. Co. Ltd. CSB1000J CSA2.00MG040 CST2.00MG040 CSA4.00MG040 CST4.00MGW040 CSA6.00MG CST6.00MGW CSA10.0MTZ CST10.0MTW Murata Mfg. Co. Ltd. (EMI noise reduced products) CSA6.00MG040 CST6.00MGW040 CSA10.0MTZ040 CST10.0MTW040 TDK Corp. FCR4.0MC5 FCR10.0MC 100 100 Built-in 100 Built-in 30 Built-in 30 Built-in 100 Built-in 100 Built-in Built-in Built-in C2 (pF) 100 100 Built-in 100 Built-in 30 Built-in 30 Built-in 100 Built-in 100 Built-in Built-in Built-in R1 (k) 5.6 0 0 0 0 0 0 0 0 0 0 0 0 2.2 1.0 Oscillation Voltage Range MIN. (V) 1.8 1.8 1.8 1.8 1.8 1.8 1.8 1.8 1.8 2.7 2.7 2.7 2.7 1.8 1.8 MAX. (V) 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 6.0 (b) Main system clock: ceramic resonator (TA = -20 to +80 C) Manufacturer Product Name Frequency (MHz) 5.00 5.00 5.00 5.00 8.00 10.00 Recommended Oscillation Circuit Constant C1 (pF) Kyocera Corp. PBRC5.00A PBRC5.00B KBR-5.00MSA KBR-5.00MKS KBR-8M KBR-10M 33 Built-in 33 Built-in 33 33 C2 (pF) 33 Built-in 33 Built-in 33 33 Oscillation Voltage Range MIN. (V) 1.8 1.8 1.8 1.8 2.7 2.7 MAX. (V) 5.5 5.5 5.5 5.5 5.5 5.5 Caution The oscillation circuit constants and oscillation voltage range indicate conditions for stable oscillation but do not guarantee the accuracy of the oscillation frequency. If the application circuit requires accuracy of the oscillation frequency, it is necessary to set the oscillation frequency of the resonator in the application circuit. For this, it is necessary to directly contact manufacturer of the resonator being used. 38 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (3) PD78018FY (a) Main system clock: ceramic resonator (TA = -40 to +85 C) Manufacturer Product Name Frequency (MHz) 4.00 4.00 8.00 8.00 10.0 10.0 4.00 4.00 8.00 8.00 Recommended Oscillation Circuit Constant C1 (pF) TDK Corp. CCR4.0MC3 FCR4.0MC5 CCR8.0MC5 FCR8.0MC CCR10.0MC5 FCR10.0MC Murata Mfg. Co. Ltd. CSA4.0MG CST4.0MGW CSA8.0MTZ CST8.0MTW Built-in Built-in Built-in Built-in Built-in Built-in 30 Built-in 30 Built-in C2 (pF) Built-in Built-in Built-in Built-in Built-in Built-in 30 Built-in 30 Built-in Oscillation Voltage Range MIN. (V) 1.8 1.8 2.7 2.7 2.7 2.7 1.8 1.8 2.7 2.7 MAX. (V) 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 5.5 (b) Main system clock: ceramic resonator (TA = -20 to +80 C) Manufacturer Product Name Frequency (MHz) 4.00 4.00 4.00 4.00 8.00 10.00 Recommended Oscillation Circuit Constant C1 (pF) Kyocera Corp. FBRC4.00A FBRC4.00B KBR-4.00MSB KBR-4.00MKC KBR-8M KBR-10M 33 Built-in 33 Built-in 33 33 C2 (pF) 33 Built-in 33 Built-in 33 33 Oscillation Voltage Range MIN. (V) 1.8 1.8 1.8 1.8 2.7 2.7 MAX. (V) 5.5 5.5 5.5 5.5 5.5 5.5 Caution The oscillation circuit constants and oscillation voltage range indicate conditions for stable oscillation but do not guarantee the accuracy of the oscillation frequency. If the application circuit requires accuracy of the oscillation frequency, it is necessary to set the oscillation frequency of the resonator in the application circuit. For this, it is necessary to directly contact manufacturer of the resonator being used. 39 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY DC Characteristics (TA = -40 to +85 C, VDD = 1.8 to 5.5 V) Parameter Input voltage high Symbol VIH1 Test Conditions P10 to P17, P21, P23, P30 to P32, VDD = 2.7 to 5.5 V P35 to P37, P40 to P47, P50 to P57, P64 to 67 VIH2 P00 to P03, P20, P22, P24 to P27, VDD = 2.7 to 5.5 V P33, P34, RESET VIH3 P60 to P63 (N-ch open-drain) VIH4 X1, X2 VDD = 2.7 to 5.5 V 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 1.8 V VDD < 2.7 V Note Input voltage low VIL1 P10 to P17, P21, P23, P30 to P32, VDD = 2.7 to 5.5 V P35 to P37, P40 to P47, P50 to P57, P64 to 67 VIL2 P00 to P03, P20, P22, P24 to P27, VDD = 2.7 to 5.5 V P33, P34, RESET VIL3 P60 to P63 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 0 0 0 0 0 0 VIL4 X1, X2 VDD = 2.7 to 5.5 V 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 1.8 V VDD < 2.7 V Note Output voltage high Output voltage low P01 to P03, P10 to P17, P20 to P27 P30 to P37, P40 to P47, P64 to P67 VOL2 SB0, SB1, SCK0 IOL = 400 A VOL1 VOH1 VDD = 4.5 to 5.5 V, IOH = -1 mA IOH = -100 A P50 to P57, P60 to P63 VDD = 4.5 to 5.5 V, IOL = 15 mA VDD = 4.5 to 5.5 V, IOL = 1.6 mA VDD = 4.5 to 5.5 V, open-drain pulled-up (R = 1 K) VOL3 0.5 V 0.2 VDD V 0.4 V 0 0 VIL5 XT1/P04, XT2 0 0 0 VDD - 1.0 VDD - 0.5 0.4 2.0 0.2 VDD 0.2 VDD 0.15 VDD 0.3 VDD 0.2 VDD 0.1 VDD 0.4 0.2 0.2 VDD 0.1 VDD 0.1 VDD V V V V V V V V V V V V V V VDD = 2.7 to 5.5 V 0.8 VDD 0.8 VDD 0.85 VDD 0.7 VDD 0.8 VDD VDD - 0.5 VDD - 0.2 VIH5 XT1/P04, XT2 0.8 VDD 0.9 VDD 0.9 VDD 0 VDD VDD VDD 15 15 VDD VDD VDD VDD VDD 0.3 VDD V V V V V V V V V V V MIN. 0.7 VDD TYP. MAX. VDD Unit V Note When using XT1/P04 as P04, input the inverse of P04 to XT2 using an inverter. The characteristics of a dual-function pin and a port pin are the same unless specified otherwise. Remark 40 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY DC Characteristics (TA = -40 to +85 C, VDD = 1.8 to 5.5 V) Parameter Symbol VIN = VDD Test Conditions P00 to P03, P10 to P17, P20 to P27, P30 to P37, P40 to P47, P50 to P57, P60 to P67, RESET ILIH2 ILIH3 Input leakege ILIL1 current low VIN = 15 V VIN = 0 V X1, X2, XT1/P04, XT2 P60 to P63 P00 to P03, P10 to P17, P20 to P27, P30 to P37, P40 to P47, P50 to P57, P60 to P67, RESET ILIL2 ILIL3 Output leakage ILOH1 current high Output leakage ILOL current low Mask option pull-up resister Software pull-up resister R2 VIN = 0 V, P01 to P03, P10 to P17, P20 to P27, P30 to P37, P40 to P47, P50 to P57, P60 to P67 15 40 90 k R1 VIN = 0 V, P60 to P63 20 40 90 k VOUT = 0 V -3 VOUT = VDD X1, X2, XT1/P04, XT2 P60 to P63 -20 -3 Note 3 20 80 -3 MIN. TYP. MAX. 3 Unit Input leakage ILIH1 current high A A A A A A A A Note For P60 to P63, if pull-up resistor is not provided (specifiable by mask option) a low-level input leak current of -200 A (MAX.) flows only during the 3 clocks (no-wait time) after an instruction has been executed to read out port 6 (P6) or port mode register 6 (PM6). Outside the period of 3 clocks following execution a read-out instruction, the current is -3 A (MAX.). Remark The characteristics of a dual-function pin and a port pin are the same unless specified otherwise. 41 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY DC Characteristics (TA = -40 to +85 C, VDD = 1.8 to 5.5 V) Parameter Supply current Note 1 Symbol IDD1 10.00 MHz crystal Test Conditions VDD = 5.0 V 10 % Note 2 VDD = 3.0 V 10 % VDD = 5.0 V 10 % VDD = 5.0 V 10 % Note 4 Note 3 Note 2 MIN. TYP. 9.0 1.3 2.4 1.2 60 35 24 25 5 2 1 0.5 0.3 0.1 0.05 0.05 MAX. 18.0 2.6 4.8 2.4 120 70 48 50 15 10 30 10 10 30 10 10 Unit mA mA mA mA oscillation operation mode IDD2 10.00 MHz crystal oscillation HALT mode IDD3 32.768 kHz crystal oscillation operation mode VDD = 3.0 V 10 % Note 3 VDD = 3.0 V 10 % VDD = 2.0 V 10 % VDD = 5.0 V 10 % Note 4 A A A A A A A A A A A A IDD4 32.768 kHz crystal oscillation HALT mode VDD = 3.0 V 10 % VDD = 2.0 V 10 % VDD = 5.0 V 10 % VDD = 3.0 V 10 % VDD = 2.0 V 10 % VDD = 5.0 V 10 % VDD = 3.0 V 10 % VDD = 2.0 V 10 % IDD5 XT1 = VDD STOP mode when using feedback resistor IDD6 XT1 = VDD STOP mode when not using feedback resistor Notes 1. This current excludes the AVREF current, port current, and current which flows in the built-in pull-down resistor. 2. When operating at high-speed mode (when the processor clock control register (PCC) is set to 00H) 3. When operating at low-speed mode (when the PCC is set to 04H) 4. When main system clock stopped. 42 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY AC Characteristics (1) Basic Operation (TA = -40 to +85 C, VDD = 1.8 to 5.5 V) Parameter Cycle time (Min. instruction execution time) Operating on subsystem clock TI0 input frequency tTIH0 tTIL0 3.5 V VDD 5.5 V 2.7 V VDD < 3.5 V 1.8 V VDD < 2.7 V TI1, TI2 input frequency TI1, TI2 input high/low-level width Interrupt request input high/low-level width INTP1 to INTP3, KR0 to KR7 tTIL1 tINTH tINTL INTP0 3.5 V VDD 5.5 V 2.7 V VDD < 3.5 V 1.8 V VDD < 2.7 V VDD = 2.7 to 5.5 V 1.8 2/fsam + 0.1 Note 2/fsam + 0.2 Note 2/fsam + 0.5 10 20 RESET low level width tRSL VDD = 2.7 to 5.5 V 10 20 Note Symbol TCY Test Conditions Operating on main system clock 3.5 V VDD 5.5 V 2.7 V VDD < 3.5 V 1.8 V VDD < 2.7 V MIN. 0.4 0.8 2.0 40 2/fsam + 0.1 2/fsam + 0.2 Note Note TYP. MAX. 64 64 64 Unit s s s s s s s 122 125 2/fsam + 0.5 Note 0 0 4 275 fTI1 VDD = 4.5 to 5.5 V MHz kHz ns tTIH1 VDD = 4.5 to 5.5 V 100 s s s s s s s s Note In combination with bits 0 (SCS0) and 1 (SCS1) of sampling clock select register (SCS), selection of fsam is possible between fX/2N+1, fX/64 and fX/128 (when N= 0 to 4). 43 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY TCY vs VDD (At main system clock operation) 60.0 10.0 Operation Guaranteed Range Cycle Time TCY [ S] 5.0 1.0 0.5 0.1 0 1.0 1.8 2.0 2.7 3.0 3.5 4.0 5.0 5.5 6.0 Supply voltage VDD [V] 44 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (2) Read/Write Operation (TA = -40 to +85 C, VDD = 2.7 to 5.5 V) Parameter ASTB high-level width Address setup time Address hold time Data input time from address Symbol tASTH tADS tADH tADD1 tADD2 Data input time from RD tRDD1 tRDD2 Read data hold time RD low-level width tRDH tRDL1 tRDL2 WAIT input time from RD tRDWT1 tRDWT2 WAIT input time from WR WAIT low-level width Write data setup time Write data hold time WR low-level width RD delay time from ASTB WR delay time from ASTB ASTB delay time from RD in external fetch Address hold time from RD in external fetch Write data output time from RD tWRWT tWTL tWDS tWDH tWRL1 tASTRD tASTWR tRDAST tRDADH tRDWD VDD = 4.5 to 5.5 V Load resistor 5 k (0.5 + 2n) tCY + 10 100 20 (2.5 + 2n) tCY - 20 0.5tCY - 30 1.5tCY - 30 tCY - 10 tCY 0.5tCY + 5 0.5tCY + 15 Write data output time from WR tWRWD VDD = 4.5 to 5.5 V 5 15 Address hold time from WR tWRADH VDD = 4.5 to 5.5 V tCY tCY RD delay time from WAIT WR delay time from WAIT tWTRD tWTWR 0.5tCY 0.5tCY tCY + 40 tCY + 50 0.5tCY + 30 0.5tCY + 90 30 90 tCY + 60 tCY + 100 2.5tCY + 80 2.5tCY + 80 0 (1.5 + 2n) tCY - 20 (2.5 + 2n) tCY - 20 0.5tCY 1.5tCY 0.5tCY (2 + 2n) tCY Test Conditions MIN. 0.5tCY 0.5tCY - 30 50 (2.5 + 2n) tCY - 50 (3 + 2n) tCY - 100 (1 + 2n) tCY - 25 (2.5 + 2n) tCY - 100 MAX. Unit ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns Remarks 1. tCY = TCY/4 2. n indicates number of waits. 45 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (3) Serial Interface (TA = -40 to +85 C, VDD = 1.8 to 5.5 V) (a) Serial Interface Channel 0 (i) 3-wire serial I/O mode (SCK0... Internal clock output) Parameter SCK0 cycle time Symbol tKCY1 Conditions 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V MIN. 800 1600 3200 4800 SCK0 high/low-level width SI0 setup time (to SCK0) tKH1 tKL1 tSIK1 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V VDD = 4.5 to 5.5 V tKCY1/2 - 50 tKCY1/2 - 100 100 150 300 400 SI0 hold time (from SCK0) SO0 output delay time from SCK0 tKSO1 C = 100 pF Note 300 ns tKSI1 400 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns Note C is the load capacitance of SCK0 and SO0 output line. (ii) 3-wire serial I/O mode (SCK0... External clock input) Parameter SCK0 cycle time Symbol tKCY2 Test Conditions 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V MIN. 800 1600 3200 4800 SCK0 high/low-level width tKH2 tKL2 400 800 1600 2400 SI0 setup time (to SCK0) SI0 hold time (from SCK0) SO0 output delay time from SCK0 SCK0 rise, fall time tR2 tF2 When external device expansion function is used When external When 16-bit timer 700 ns tKSO2 C = 100 pF Note VDD = 2.0 to 5.5 V 300 500 160 ns ns ns tKSI2 tSIK2 VDD = 2.0 to 5.5 V 100 150 400 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns device expansion output function is function is not used used When 16-bit timer output function is not used 1000 ns Note C is the load capacitance of SO0 output line. 46 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (iii) 2-wire serial I/O mode (SCK0... Internal clock output) Parameter SCK0 cycle time Symbol tKCY3 Test Conditions R = 1 k Note C = 100 pF 2.7 V VDD 5.5 V 2.0 V VDD < 2.7 V MIN. 1600 3200 4800 SCK0 high-level width tKH3 VDD = 2.7 to 5.5 V tKCY3/2 - 160 tKCY3/2 - 190 SCK0 low-level width tKL3 VDD = 4.5 to 5.5 V 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V tKCY3/2 - 50 tKCY3/2 - 100 SB0, SB1 setup time (to SCK0) tSIK3 300 350 400 500 SB0, SB1 hold time (from SCK0) SB0, SB1 output delay time from SCK0 tKSO3 0 300 ns tKSI3 600 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns ns Note R and C are the load resistance and load capacitance of the SCK0, SB0 and SB1 output line. 47 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (iv) 2-wire serial I/O mode (SCK0... External clock input) Parameter SCK0 cycle time Symbol tKCY4 Test Conditions 2.7 V VDD 5.5 V 2.0 V VDD < 2.7 V 2.7 V VDD 5.5 V 2.0 V VDD < 2.7 V 2.7 V VDD 5.5 V 2.0 V VDD < 2.7 V MIN. 1600 3200 4800 SCK0 high-level width tKH4 650 1300 2100 SCK0 low-level width tKL4 800 1600 2400 SB0, SB1 setup time (to SCK0) SB0, SB1 hold time (from SCK0) SB0, SB1 output delay time from SCK0 tKSO4 R = 1 k, 4.5 V VDD 5.5 V 0 0 0 SCK0 rise, fall time tR4 tF4 When external device expansion function is used When external When 16-bit timer 700 ns 300 500 800 160 ns ns ns ns C = 100 pF Note 2.0 V VDD < 4.5 V tKSI4 tSIK4 VDD = 2.0 to 5.5 V 100 150 tKCY4/2 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns ns device expansion output function is function is not used used When 16-bit timer output function is not used 1000 ns Note R and C are the load resistance and load capacitance of the SB0 and SB1 output line. 48 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (v) I2C bus mode (SCK0... Internal clock output) Parameter SCL cycle time Symbol tKCY5 Test Conditions R = 1 k Note C = 100 pF 2.7 V VDD 5.5 V 2.0 V VDD < 2.7 V MIN. 10 20 30 SCL high-level width tKH5 VDD = 2.7 to 5.5 V tKCY5 - 160 tKCY5 - 190 SCL low-level width tKL5 VDD = 4.5 to 5.5 V 2.7 V VDD 5.5 V 2.0 V VDD 2.7 V tKCY5 - 50 tKCY5 - 100 SDA0, SDA1 setup time tSIK5 (to SCL) 200 300 400 SDA0, SDA1 hold time (from SCL) SDA0, SDA1 output delay time from SCL tKSO5 4.5 V VDD 5.5 V 2.0 V VDD < 4.5 V 0 0 0 SDA0, SDA1 from SCL or SDA0, SDA1 from SCL SCL from SDA0, SDA1 SDA0, SDA1 high-level tSBH width tSBK VDD = 2.0 to 5.5 V 400 500 500 ns ns ns tKSB 200 300 500 600 ns ns ns ns tKSI5 0 TYP. MAX. Unit s s s ns ns ns ns ns ns ns ns Note R and C are the load resistance and load capacitance of the SCL, SDA0 and SDA1 output line. 49 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (vi) I2C bus mode (SCK0... External clock output) Parameter SCL cycle time SCL high/low-level width SDA0, SDA1 setup time (to SCL) SDA0, SDA1 hold time (from SCL) SDA0, SDA1 output delay time from SCL tKSO6 R = 1 k, 4.5 V VDD 5.5 V 0 0 0 SDA0, SDA1 from SCL or SDA0, SDA1 from SCL SCL from SDA0, SDA1 SDA0, SDA1 high-level tSBH width SCL rise, fall time tR6 tF6 When external device expansion function is used When external When 16-bit timer 700 ns VDD = 2.0 to 5.5 V tSBK VDD = 2.0 to 5.5 V 400 500 500 800 160 ns ns ns ns ns tKSB 200 300 500 600 ns ns ns ns tKSI6 Symbol tKCY6 tKH6 tKL6 tSIK6 VDD = 2.0 to 5.5 V VDD = 2.0 to 5.5 V Test Conditions MIN. 1000 400 600 200 300 0 TYP. MAX. Unit ns ns ns ns ns ns C = 100 pF Note 2.0 V VDD < 4.5 V device expansion output function function is not used is used When 16-bit timer output function is not used 1000 ns Note R and C are the load resistance and load capacitance of the SB0 and SB1 output line. 50 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (b) Serial Interface Channel 1 (i) 3-wire serial I/O mode (SCK1... Internal clock output) Parameter SCK1 cycle time Symbol tKCY7 Test Conditions 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V MIN. 800 1600 3200 4800 SCK1 high/low-level width SI1 setup time (to SCK1) tKH7 tKL7 tSIK7 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V VDD = 4.5 to 5.5 V tKCY7/2 - 50 tKCY7/2 - 100 100 150 300 400 SI1 hold time (from SCK1) SO1 output delay time from SCK1 tKSO7 C = 100 pF Note 300 ns tKSI7 400 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns Note C is the load capacitance of SCK1 and SO1 output line. (ii) 3-wire serial I/O mode (SCK1... External clock input) Parameter SCK1 cycle time Symbol tKCY8 Test Conditions 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V MIN. 800 1600 3200 4800 SCK1 high/low-level width tKH8 tKL8 400 800 1600 2400 SI1 setup time (to SCK1) SI1 hold time (from SCK1) SO0 output delay time from SCK1 SCK1 rise, fall time tR8 tF8 When external device expansion function is used When external When 16-bit timer 700 ns tKSO8 C = 100 pF Note VDD = 2.0 to 5.5 V 300 500 160 ns ns ns tKSI8 tSIK8 VDD = 2.0 to 5.5 V 100 150 400 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns device expansion output function is function is not used used When 16-bit timer output function is not used 1000 ns Note C is the load capacitance of SO1 output line. 51 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (iii) 3-wire serial I/O mode with automatic transmit/receive function (SCK1... Internal clock output) Parameter SCK1 cycle time Symbol tKCY9 Test Conditions 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V MIN. 800 1600 3200 4800 SCK1 high/low-level width SI1 setup time (to SCK1) tKH9 tKL9 tSIK9 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V VDD = 4.5 to 5.5 V tKCY9/2 - 50 tKCY9/2 - 100 100 150 300 400 SI1 hold time (from SCK1) SO1 output delay time from SCK1 STB from SCK1 Strobe signal high-level width tSBD tSBW 2.7 V VDD 5.5 V 2.0 V VDD < 2.7 V tKCY9/2 - 100 tKCY9 - 30 tKCY9 - 60 tKCY9 - 90 Busy signal setup time (to busy signal detection timing) Busy signal hold time (from busy signal detection timing) tBYH 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V 100 150 200 300 SCK1 from busy inactive tSPS 2tKCY9 ns ns ns ns ns tBYS 100 tKCY9/2 + 100 tKCY9 + 30 tKCY9 + 60 tKCY9 + 90 ns ns ns ns ns tKSO9 C = 100 pF Note 300 ns tKSI9 400 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns Note C is the load capacitance of SCK1 and SO1 output line. 52 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY (iv) 3-wire serial I/O mode with automatic transmit/receive function (SCK1... External clock input) Parameter SCK1 cycle time Symbol tKCY10 Test Conditions 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V 4.5 V VDD 5.5 V 2.7 V VDD < 4.5 V 2.0 V VDD < 2.7 V MIN. 800 1600 3200 4800 SCK1 high/low-level width tKH10, tKL10 400 800 1600 2400 SI1 setup time (to SCK1) SI1 hold time (from SCK1) SO1 output delay time from SCK1 SCK1 rise, fall time tR10, tF10 When external device expansion function is used When external device expansion function is not used 1000 ns tKSO10 C = 100 pF Note VDD = 2.0 to 5.5 V 300 500 160 ns ns ns tKSI10 tSIK10 VDD = 2.0 to 5.5 V 100 150 400 TYP. MAX. Unit ns ns ns ns ns ns ns ns ns ns ns Note C is the load capacitance of the SO1 output line. 53 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY AC Timing Test Point (Excluding X1, XT1 Input) 0.8 VDD 0.2 VDD Test Points 0.8 VDD 0.2 VDD Clock Timing 1/fX tXL tXH X1 Input VIH4 (MIN.) VIL4 (MAX.) 1/fXT tXTL tXTH XT1 Input VIH5 (MIN.) VIL5 (MAX.) TI Timing tTIL0 tTIH0 TI0 1/fTI1 tTIL1 tTIH1 TI1,TI2 54 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Read/Write Operation External fetch (No wait): A8 to A15 Higher 8-Bit Address tADD1 Hi-Z AD0 to AD7 tADS tASTH ASTB Lower 8-Bit Address Operation Code tRDD1 tRDADH tRDAST tADH RD tASTRD tRDL1 tRDH External fetch (Wait insertion): A8 to A15 Higher 8-Bit Address tADD1 AD0 to AD7 tADS tASTH ASTB Lower 8-Bit Address Hi-Z tRDD1 Operation Code tRDADH tRDAST tADH RD tASTRD WAIT tRDWT1 tWTL tWTRD tRDL1 tRDH 55 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY External data access (No wait): A8 to A15 tADD2 AD0 to AD7 tADS tASTH ASTB Lower 8-Bit Address Higher 8-Bit Address Hi-Z tRDD2 Read Data Hi-Z Write Data Hi-Z tADH tRDH RD tASTRD WR tASTWR tWRL1 tRDL2 tRDWD tWRWD tWDS tWDH tWRADH External data access (Wait insertion): A8 to A15 tADD2 AD0 to AD7 tADS tADH tASTH ASTB tASTRD RD tRDL2 WR tASTWR WAIT tRDWT2 tWTL tRDD2 Lower 8-Bit Address Higher 8-Bit Address Hi-Z Hi-Z Hi-Z Read Data Write Data tRDH tRDWD tWDS tWRWD tWRL1 tWDH tWRADH tWTRD tWRWT tWTL tWTWR 56 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Serial Transfer Timing 3-wire serial I/O mode: tKLm tRn tKCYm tKHm tFn SCK0,SCK1 tSIKm tKSIm SI0,SI1 Input Data tKSOm SO0,SO1 m = 1, 2, 7, 8 n = 2, 8 Output Data 2-wire serial I/O mode: tKCY5,6 tKL5,6 tR6 SCK0 tKSO5,6 SB0, SB1 tSIK5,6 tKSI5,6 tKH5,6 tF6 I2C bus mode: tF6 SCL tKL5, 6 SDA0, SDA1 tSBH tSBK tKH5, 6 tKSI5, 6 tSIK5, 6 tKSO5, 6 tKSB tSBK tKSB tR6 tKCY5, 6 57 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 3-wire serial I/O mode with automatic transmit/receive function: SO1 D2 D1 D0 D7 SI1 D2 tSIK9,10 tKSO9,10 D1 tKSI9,10 tKH9,10 tF10 D0 D7 SCK1 tKL9,10 tKCY9,10 STB tR10 tSBD tSBW 3-wire serial I/O mode with automatic transmit/receive function (busy processing): SCK1 7 8 9 Note 10 tBYS Note 10 + n tBYH Note 1 tSPS BUSY (Active High) Note The signal is not actually driven low here; it is shown as such to indicate the timing. A/D converter characteristics (TA = -40 to +85 C, AVDD = VDD = 1.8 to 5.5 V, AVSS = VSS = 0 V) Parameter Resolution Overall error Note 2.7 V AVREF AVDD 1.8 V AVREF < 2.7 V Conversion time tCONV 2.0 V AVDD 5.5 V 1.8 V AVDD < 2.0 V Sampling time Analog input voltage Reference voltage AVREF resistance tSAMP VIAN AVREF RAIREF 19.1 38.2 24/fX AVSS 1.8 4 14 AVREF AVDD Symbol Test Conditions MIN. 8 TYP. 8 MAX. 8 0.6 1.4 200 200 Unit bit % % s s s V V k Note Overall error excluding quantization error (1/2 LSB). It is indicated as a ratio to the full-scale value. 58 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Data Memory STOP Mode Low Supply Voltage Data Retention Characteristics (TA = -40 to +85 C) Parameter Data retention supply voltage Data retention supply current IDDDR VDDDR = 1.8 V Subsystem clock stop and feedback resister disconnected Release signal set time Oscillation stabilization wait time tSREL tWAIT Release by RESET Release by interrupt request 0 2 /fX Note 18 Symbol VDDDR Test Conditions MIN. 1.8 TYP. MAX. 5.5 Unit V 0.1 10 A s ms ms Note In combination with bit 0 to bit 2 (OSTS0 to OSTS2) of oscillation stabilization time select register (OSTS), selection of 213/fX and 215/fX to 218/fX is possible. Data Retention Timing (STOP Mode Release by RESET) Internal Reset Operation HALT Mode STOP Mode Data Retension Mode Operating Mode VDD STOP Instruction Execution VDDDR tSREL RESET tWAIT Data Retention Timing (Standby Release Signal : STOP Mode Release by Interrupt Request Signal) HALT Mode STOP Mode Data Retension Mode Operating Mode VDD VDDDR STOP Instruction Execition tSREL Standby Release Signal (Interrupt Request) tWAIT 59 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Interrupt Request Input Timing tINTL INTP0 to INTP2 tINTH tINTL INTP3 RESET Input Timing tRSL RESET 60 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 12. CHARACTERISTIC CURVE (REFERENCE VALUES) IDD vs VDD (Main System Clock: 10.0 MHz) (TA = 25 C) PCC = 00H PCC = 01H 5.0 PCC = 02H PCC = 03H PCC = 04H PCC = 30H 10.0 HALT (X1 Oscillation, XT1 Stop) 1.0 0.5 Supply Current IDD [mA] 0.1 0.05 PCC = B0H HALT (X1 Stop, XT1 Oscillation) 0.01 0.005 fX = 10.0 MHz fXT = 32.768 kHz 0.001 0 1 2 3 4 5 6 7 8 Supply Voltage VDD [V] 61 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 13. PACKAGE DRAWINGS 64 PIN PLASTIC SHRINK DIP (750 mil) 64 33 1 A 32 K L J I F D G H N M C B M R NOTE 1) Each lead centerline is located within 0.17 mm (0.007 inch) of its true position (T.P.) at maximum material condition. 2) Item "K" to center of leads when formed parallel. ITEM A B C D F G H I J K L M N R MILLIMETERS 58.68 MAX. 1.78 MAX. 1.778 (T.P.) 0.500.10 0.9 MIN. 3.20.3 0.51 MIN. 4.31 MAX. 5.08 MAX. 19.05 (T.P.) 17.0 0.25 +0.10 -0.05 0.17 0~15 INCHES 2.311 MAX. 0.070 MAX. 0.070 (T.P.) 0.020 +0.004 -0.005 0.035 MIN. 0.1260.012 0.020 MIN. 0.170 MAX. 0.200 MAX. 0.750 (T.P.) 0.669 0.010 +0.004 -0.003 0.007 0~15 P64C-70-750A,C-1 Remark Dimensions and materials of ES products are the same as those of mass-production products. 62 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 64 PIN PLASTIC QFP ( 14) A B 48 49 33 32 detail of lead end C D S 64 1 17 16 F G H IM J K P N L P64GC-80-AB8-2 ITEM A B C D F G H I J K L M N P Q S MILLIMETERS 17.6 0.4 14.0 0.2 14.0 0.2 17.6 0.4 1.0 1.0 0.35 0.10 0.15 0.8 (T.P.) 1.8 0.2 0.8 0.2 0.15+0.10 -0.05 0.10 2.55 0.1 0.1 2.85 MAX. INCHES 0.693 0.016 0.551 +0.009 -0.008 0.551+0.009 -0.008 0.693 0.016 0.039 0.039 0.014 +0.004 -0.005 0.006 0.031 (T.P.) 0.071 0.008 0.031+0.009 -0.008 0.006 +0.004 -0.003 0.004 0.100 0.004 0.004 0.112 MAX. NOTE Each lead centerline is located within 0.15 mm (0.006 inch) of its true position (T.P.) at maximum material condition. Remark Dimensions and materials of ES products are the same as those of mass-production products. M 55 Q 63 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 14. RECOMMENDED SOLDERING CONDITIONS The PD78011FY/78012FY/78013FY/78014FY/78015FY/78016FY/78018FY should be soldered and mounted under the conditions recommended in the table below. For detail of recommended soldering conditions, refer to the information document Semiconductor Device Mounting Technology Manual (C10535E). For soldering methods and conditions other than those recommended below, contact our salespersonnel. Table 14-1. Surface Mounting Type Soldering Conditions (1) PD78011FYGC-xxx-AB8 : 64-Pin Plastic QFP (14 x 14 mm) PD78012FYGC-xxx-AB8 : 64-Pin Plastic QFP (14 x 14 mm) PD78013FYGC-xxx-AB8 PD78014FYGC-xxx-AB8 PD78015FYGC-xxx-AB8 PD78016FYGC-xxx-AB8 PD78018FYGC-xxx-AB8 : 64-Pin Plastic QFP (14 x 14 mm) : 64-Pin Plastic QFP (14 x 14 mm) : 64-Pin Plastic QFP (14 x 14 mm) : 64-Pin Plastic QFP (14 x 14 mm) : 64-Pin Plastic QFP (14 x 14 mm) Recommended Condition Symbol IR35-00-3 Soldering Method Infrared reflow Soldering Conditions Package peak temperature: 235 C, Duration: 30 sec. max. (at 210 C or above), Number of times: Three times max. Package peak temperature: 215 C, Duration: 40 sec. max. (at 200 C or above), Number of times: Three times max. Solder bath temperature: 260 C max. Duration: 10 sec. max. Number of times: Once Preheating temperature: 120 C max. (Package surface temperature) Pin temperature: 300 C max., Duration: 3 sec. max. (per device side) VPS VP15-00-3 Wave soldering WS60-00-1 Partial heating -- Caution Use more than one soldering method should be avoided (except in the case of partial heating). Table 14-2. Insertion Type Soldering Conditions PD78011FYCW-xxx PD78012FYCW-xxx PD78013FYCW-xxx PD78014FYCW-xxx PD78015FYCW-xxx PD78016FYCW-xxx PD78018FYCW-xxx Soldering Method Wave soldering (pin only) Partial heating : 64-Pin Plastic Shrink DIP (750 mil) : 64-Pin Plastic Shrink DIP (750 mil) : 64-Pin Plastic Shrink DIP (750 mil) : 64-Pin Plastic Shrink DIP (750 mil) : 64-Pin Plastic Shrink DIP (750 mil) : 64-Pin Plastic Shrink DIP (750 mil) : 64-Pin Plastic Shrink DIP (750 mil) Soldering Conditions Solder bath temperature: 260C max., Duration: 10 sec. max. Pin temperature: 300C max., Duration: 3 sec. max. (per pin) Caution Wave soldering is only for the lead part in order that jet solder can not contact with the chip directly. 64 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY APPENDIX A. DEVELOPMENT TOOLS The following development tools are available for system development using the PD78018FY subseries. Language Processing Software RA78K/0 Notes 1, 2, 3, 4 CC78K/0 Notes 1, 2, 3, 4 DF78014 Notes 1, 2, 3, 4 CC78K/0-L Notes 1, 2, 3, 4 78K/0 series common assembler package 78K/0 series common C compiler package Device file common to PD78014 subseries 78K/0 series common C compiler library source file PROM Writting Tools PG-1500 PA-78P018CW PA-78P018GC PA-78P018KK-S PG-1500 controller Notes 1, 2 PROM programmer Programmer adapter connected to PG-1500 PG-1500 control program Debugging Tool IE-78000-R IE-78000-R-A IE-78000-R-BK IE-78014-R-EM-A IE-78000-R-SV3 IE-70000-98-IF-B IE-70000-98N-IF IE-70000-PC-IF-B EP-78240CW-R EP-78240GC-R EV-9200GC-64 EV-9900 SM78K0 Notes 5, 6, 7 ID78K0 Notes 4, 5, 6, 7 SD78K0 Notes 1, 2 DF78014 Notes 1, 2, 4, 5, 6, 7 78K/0 series common in-circuit emulator 78K/0 series common in-circuit emulator (for integrated debugger) 78K/0 series common break board PD78018F and 78018FY subseries evaluation emulation board (VDD = 3.0 to 6.0 V) Interface adapter and cable when an EWS is used as the host machine (for IE-78000-R-A) Interface adapter when PC-9800 series (except notebook PC) is used as the host machine (for IE-78000-R-A) Interface adapter and cable when PC-9800 series notebook PC is used as the host machine (for IE-78000-R-A) Interface adapter when IBM PC/ATTM is used as the host machine (for IE-78000-R-A) Emulation probe common to PD78244 subseries Socket to be mounted on target system board created for the 64-pin plastic QFP (GC-AB8 type) Tools for removing PD78P018FYKK-S from EV-9200GC-64 78K/0 series common system simulator IE-78000-R-A integrated dubugger IE-78000-R screen debugger Device file common to PD78014 subseries Real-Time OS RX78K/0 Notes 1, 2, 3, 4 MX78K0 Notes 1, 2, 3, 4 78K/0 series real-time OS 78K/0 series OS 65 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Fuzzy Inference Devleopment Support System FE9000 Note 1/FE9200 Note 6 FT9080 Note 1/FT9085 Note 2 FI78K0 Notes 1, 2 FD78K0 Notes 1, 2 Fuzzy knowledge data creation tool Translator Fuzzy inference module Fuzzy inference debugger Notes 1. PC-9800 series (MS-DOSTM) based 2. IBM PC/AT and compatible (PC DOSTM/IBM DOSTM/MS-DOS) based 3. HP9000 series 300TM (HP-UXTM) based 4. HP9000 series 700TM (HP-UX) based, SPARCstationTM (SunOSTM) based, EWS4800 series (EWS-UX/V) based 5. PC-9800 series (MS-DOS + WindowsTM) based 6. IBM PC/AT and compatible (PC DOS/IBM DOS/MS-DOS + Windows) based 7. NEWSTM (NEWS-OSTM) based Remarks 1. For development tools manufactured by a third party, refer to the 78K/0 Series Selection Guide (U11126E). 2. RA78K/0, CC78K/0, SM78K0, ID78K0, SD78K/0, and RX78K/0 are used in combination with DF78014. 66 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY APPENDIX B. RELATED DOCUMENTS Device Related Documents Document Name Document No. Japanese U10659J U12326J U10903J U10904J U10287J IEA-715 IEA-718 English U10659E IEU-1372 -- -- -- IEA-1288 IEA-1289 PD78018F, 78018FY Subseries User's Manual 78K/0 Series User's Manual - Instruction 78K/0 Series Instruction Table 78K/0 Series Instruction Set PD78018FY Subseries Special Function Register Table 78K/0 Series Application Note Fundamental (I) Floating-Point Arithmetic Program Development Tools Documents (User's Manual) (1/2) Document Name RA78K Series Assembler Package Operation Language RA78K Series Structured Assembler Preprocessor RA78K0 Assembler Package Operation Assembly Language Structured Assembly Language CC78K Series C Compiler Operation Language CC78K0 C Compiler Operation Language CC78K/0 C Compiler Application Note CC78K Series Library Source File PG-1500 PROM Programmer PG-1500 Controller PC-9800 Series (MS-DOS) Based PG-1500 Controller IBM PC Series (PC DOS) Based IE-78000-R IE-78000-R-A IE-78000-R-BK IE-78014-R-EM-A EP-78240 SM78K0 System Simulator Reference Programming Know-how Document No. Japanese EEU-809 EEU-815 EEU-817 U11802J U11801J U11789J EEU-656 EEU-655 U11517J U11518J EEA-618 U12322J U11940J EEU-704 EEU-5008 U11376J U10057J EEU-867 EEU-962 EEU-986 U10181J English EEU-1399 EEU-1404 EEU-1402 U11802E U11801E U11789E EEU-1280 EEU-1284 U11517E U11518E EEA-1208 -- EEU-1335 EEU-1291 U10540E U11376E U10057E EEU-1427 U10418E EEU-1513 U10181E Caution The contents of the above related documents are subject to change without notice. The latest documents should be used for desining, etc. 67 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Development Tools Documents (User's Manual) (2/2) Document Name SM78K Series System Simulator External Part User Open Interface Specifications Reference Reference Guide Introduction Reference Introduction Reference Document No. Japanese U10092J English U10092E ID78K0 Integrated Debugger EWS Based ID78K0 Integrated Debugger PC Based ID78K0 Integrated Debugger Windows Based SD78K/0 Screen Debugger PC-9800 Series (MS-DOS) Based SD78K/0 Screen Debugger IBM PC/AT (PC DOS) Based U11151J U11539J U11649J EEU-852 U10952J EEU-5024 U11279J -- U11539E U11649E U10539E -- EEU-1414 U11279E Embedded Software Documents (User's Manual) Document Name 78K/0 Series Real-Time OS Fundamental Installation 78K/0 Series OS MX78K0 Fuzzy Knowledge Data Creation Tool 78K/0, 78K/II, 87AD Series Fuzzy Inference Development Support System - Translator 78K/0 Series Fuzzy Inference Development Suport System Fuzzy Inference Module 78K/0 Series Fuzzy Inference Development Support System Fuzzy Inference Debugger EEU-921 EEU-1458 EEU-858 EEU-1441 Fundamental Document No. Japanese U11537J U11536J U12257J EEU-829 EEU-862 English U11537E U11536E -- EEU-1438 EEU-1444 Other Documents Document Name IC Package Manual Semiconductor Device Mounting Technology Manual Quality Grades on NEC Semiconductor Device NEC Semiconductor Device Reliability/Quality Control System Electrostatic Discharge (ESD) Test Guide to Quality Assurance for Semiconductor Device Guide for Products Related to Microcomputer: Other Companies Document No. Japanese C10943X C10535J C11531J C10983J MEM-539 C11893J U11416J C10535E C11531E C10983E -- MEI-1202 -- English Caution The contents of the above related documents are subject to change without notice. The latest documents should be used for desining, etc. 68 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY 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 device 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 VDD 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. 69 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Regional Information Some information contained in this document may vary from country to country. Before using any NEC product in your application, please 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.) Santa Clara, California Tel: 800-366-9782 Fax: 800-729-9288 NEC Electronics (Germany) GmbH Benelux Office Eindhoven, The Netherlands Tel: 040-2445845 Fax: 040-2444580 NEC Electronics Hong Kong Ltd. Hong Kong Tel: 2886-9318 Fax: 2886-9022/9044 NEC Electronics (Germany) GmbH Duesseldorf, Germany Tel: 0211-65 03 02 Fax: 0211-65 03 490 NEC Electronics Hong Kong Ltd. NEC Electronics (France) S.A. Velizy-Villacoublay, France Tel: 01-30-67 58 00 Fax: 01-30-67 58 99 Seoul Branch Seoul, Korea Tel: 02-528-0303 Fax: 02-528-4411 NEC Electronics (UK) Ltd. Milton Keynes, UK Tel: 01908-691-133 Fax: 01908-670-290 NEC Electronics (France) S.A. Spain Office Madrid, Spain Tel: 01-504-2787 Fax: 01-504-2860 NEC Electronics Singapore Pte. Ltd. United Square, Singapore 1130 Tel: 253-8311 Fax: 250-3583 NEC Electronics Italiana s.r.1. Milano, Italy Tel: 02-66 75 41 Fax: 02-66 75 42 99 NEC Electronics Taiwan Ltd. NEC Electronics (Germany) GmbH Scandinavia Office Taeby, Sweden Tel: 08-63 80 820 Fax: 08-63 80 388 Taipei, Taiwan Tel: 02-719-2377 Fax: 02-719-5951 NEC do Brasil S.A. Sao Paulo-SP, Brasil Tel: 011-889-1680 Fax: 011-889-1689 J96. 8 70 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY Purchase of NEC I2C components conveys a license under the Philips I2C Patent Rights to use these components in an I2C system, provided that the system conforms to the I2C Standard Specification as defined by Philips. FIP and IEBus are trademarks of NEC Corporation. MS-DOS and Windows are either registered trademarks or trademarks of Microsoft Corporation in the United States and/or other countries. IBM DOS, PC/AT, and PC DOS are trademarks of IBM Corporation. HP9000 series 300, HP9000 series 700, and HP-UX are trademarks of Hewlett-Packard Company. SPARCstation is a trademark of SPARC International, Inc. SunOS is a trademark of Sun Microsystems, Inc. NEWS and NEWS-OS are trademarks of Sony Corporation. 71 PD78011FY, 78012FY, 78013FY, 78014FY, 78015FY, 78016FY, 78018FY The related documents referred to in this publication may include preliminary versions. However, preliminary versions are not marked as such. 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. No part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in this document. NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Corporation or others. While NEC Corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. NEC devices are classified into the following three quality grades: "Standard", "Special", and "Specific". The Specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application. Standard: Computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots Special: Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) Specific: Aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets or Data Books. If customers intend to use NEC devices for applications other than those specified for Standard quality grade, they should contact an NEC sales representative in advance. Anti-radioactive design is not implemented in this product. M4 96.5 72 |
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