LC876748A

CMOS IC 8-Bit Single Chip Microcontroller LC876764A/48A Under Development LC876764A 8 b it Single Chip Microcontroller incorporating 64KB ROM and 1536 byte RAM on chip LC876748A 8 b it Single Chip Microcontroller incorporating 48KB ROM and 1536 byte RAM on chip Overview T he LC876764A/LC876748A are 8 bit single chip microcomputers with the following on-chip functional blocks: - CPU: operable at a minimum bus cycle time of 100ns - On-chip ROM Maximum Capacity : LC876764A 64K bytes LC876748A 48K bytes - On-chip RAM: 1536 bytes - VFD automatic display controller / driver - 16 bit timer / counter (can be divided into two 8 bit timers) - 16 bit timer / PWM (can be divided into two 8 bit timers) - four 8 bit timer with prescaler - timer for use as date / time clock - High speed clock counter - System clock divider function - synchronous serial I/O port (with automatic block transmit / receive function) - asynchronous / synchronous serial I/O port - 14-channel × 8-bit AD converter - Weak signal detector - 21-source 10-vectored interrupt system All of the above functions are fabricated on a single chip. Ver:1.01 80901 SYSTEM-BIZ Div. S. Kubota 1/26 LC876764A/48A Features ( 1) Read-Only Memory (ROM): LC876764A 65536 × 8 bits LC876748A 49152 × 8 bits (2) Random Access Memory (RAM): LC876764A/48A (3) Minimum Bus Cycle Time: 100ns (10MHz) Note: The bus cycle time indicates ROM read time. (4) Minimum Instruction Cycle Time: 300ns (10MHz) (5) Ports - Input/output ports Data direction programmable for each bit individually : - 15V withstand input/output ports Data direction programmable in nibble units : (When N-channel open drain output is selected, data can Data direction programmable for each bit individually : - Input ports : - VFD output ports Large current outputs for digits : Large current outputs for digits / segments : digit / segment outputs : segment outputs : Other functions Input/output ports : Input ports : - Oscillator pins : - Reset pin : - Power supply : 1536 × 9 bits 20 (P1n, P70 to P73, P8n) 8 be 8 2 (P0n) input in bit units.) (P3n) (XT1,XT2) 9 (S0 / T0 to S8 / T8) 7 (S9 / T9 to S15 / T15) 8 (S16 to S23) 28 (S24 to S51) 12(PFn, PG0 to 3) 24 (PCn, PDn, PEn) 2 (CF1,CF2) 1 (RES#) 6 (VSS1 to 2, VDD1 to 4) (6) VFD automatic display controller - Programmable segment/digit output pattern Output can be switched between digit/segment waveform output (pins 9 to 24 can be used for output of digit waveforms). parallel-drive available for large current VFD. - 16-step dimmer function available (7) Weak signal detection (MIC signals etc) - Counts pulses with width greater than a preset value - 2 bit counter (8) Timers - Timer 0: 16 bit timer / counter with capture register Mode 0: 2 channel 8-bit timer with programmable 8 bit prescaler and 8 bit capture register Mode 1: 8 bit timer with 8 bit programmable prescaler and 8 bit capture register + 8 bit Counter with 8-bit capture register Mode 2: 16 bit timer with 8 bit programmable prescaler and 16 bit capture register Mode 3: 16 bit counter with 16 bit capture register 2/26 LC876764A/48A - Timer 1: PWM / 16 bit timer toggle output Mode 0: 2 channel 8 bit timer (with toggle output) Mode 1: 2 channel 8 bit PWM Mode 2: 16 bit timer (with toggle output) Toggle output also possible using lower order 8 bits. Mode 3: 16 bit timer (with toggle output) Lower order 8 bits can be used as PWM output. - Timer 4: 8 bit timer with 6 bit prescaler - Timer 5: 8 bit timer with 6 bit prescaler - Timer 6: 8 bit timer with 6 bit prescaler - Timer 7: 8 bit timer with 6 bit prescaler - Base Timer 1) The clock signal can be selected from any of the following. Sub-clock (32.768kHz crystal oscillator), system clock, and prescaler output from timer 0 2) Interrupts can be selected to occur at one of five different times. (9) High speed clock counter 1) Capable of counting maximum: 20MHz clock (Using main clock 10MHz) 2) Real time output (10) Serial-interface - SIO 0: 8 bit synchronous serial Interface 1) LSB first / MSB first function available 2) Internal 8 bit baud-rate generator (maximum transmit clock period 4 / 3 Tcyc) 3) Continuous automatic data communication (1-256 bits) - SIO 1: 8 bit asynchronous / synchronous serial interface Mode 0: Synchronous 8 bit serial IO (2-wire or 3-wire, transmit clock 2–512 Tcyc) Mode 1: Asynchronous serial IO (half duplex, 8 data bits, 1 stop bit, baud rate 8–2048Tcyc) Mode 2: Bus mode 1 (start bit, 8 data bits, transmit clock 2–512 Tcyc) Mode 3: Bus mode 2 (start detection, 8 data bits, stop detection) (11) AD converter -8 bits × 14 channels (12) Remote control receiver circuit (connected to P73 / INT3 / T0IN terminal) -Noise rejection function (noise rejection filter time constant can selected from 1 / 32 / 128 Tcyc) (13) Watchdog timer - The watching timer period is set using an external RC. - Watchdog timer can produce interrupt, system reset 3/26 LC876764A/48A ( 14) Interrupts: 21-source, 10-vectored interrupts 1) Three priority (low, high and highest) multiple interrupts are supported. During interrupt handling, an equal or lower priority interrupt request is refused. 2) If interrupt requests to two or more vector addresses occur at once, the higher priority interrupt takes precedence. In the case of equal priority levels, the vector with the lowest address takes precedence. No. Vector Selectable Level 1 0 0003H X or L 2 0 000BH X or L 3 0 0013H H or L 4 0 001BH H or L 5 0 0023H H or L 6 0 002BH H or L 7 0 0033H H or L 8 0 003BH H or L 9 0 0043H H or L 10 0004BH H or L P riority Level: X>H>L For equal priority levels, vector with lowest (15) Subroutine stack levels: 768 levels max. (16) Multiplication and division - 16 bit × 8 bit (executed in 5 cycles) - 24 bit × 16 bit (12 cycles) - 16 bit ÷ 8 bit (8 cycles) - 24 bit ÷ 16 bit (12 cycles) (17) Oscillation circuits - On-chip RC oscillation circuit for system clock use. - On-chip CF oscillation circuit for system clock use. (R f b uilt in) - On-chip Crystal oscillation circuit low speed system clock use. (Rd, Rf e xternal) - On-chip frequency -variable RC oscillation circuit for system clock use (18) System clock divider function - Able to reduce current consumption Available minimum instruction cycle time: 300ns, 600ns, 1.2µs, 2.4 µs, 4.8µs, 9.6µs, 19.2µs, 38.4µs, 76.8µs. (Using 10MHz main clock) (19) Standby function - HALT mode HALT mode is used to reduce power consumption. Program execution is stopped. Peripheral circuits still operate but VFD display and some serial transfer operations stop. 1) Oscillation circuits are not stopped automatically. 2) Release occurs on system reset or by interrupt. Interrupt signal INT0 INT1 INT2/ T0L/ INT4 INT3/ Base timer/ INT5 T0H T1L/ T1H SI00 SI01 ADC/ MIC/ T6/ T7 VFD automatic display controller/ Port0/ T4/ T5 address takes precedence. Stack is located in RAM. 4/26 LC876764A/48A -HOLD mode HOLD mode is used to reduce power consumption. Both program execution and peripheral circuits are stopped. 1)CF, RCand crystal oscillation circuits stop automatically. 2) Release occurs on any of the following conditions. (1) input to the reset pin goes low (2) a specified level is input at least one of INT0, INT1, INT2, INT4, INT5 (3) an interrupt condition arises at port 0 -X’tal HOLD made X’tal HOLD mode is used to reduce power consumption. Program execution is stopped. All peripheral circuits except the base timer are stopped. 1) CF and RC oscillation circuits stop automatically. 2) Crystal oscillator is maintained in its state at HOLD mode inception. 3) Release occurs on any an any of the following conditions (1) input to the reset pin goes low (2) a specified level is input to at least one of INT0, INT1, INT2, INT4, INT5 (3) an interrupt condition arises at port 0 (4) an interrupt condition arises at the base-timer (20) Factory shipment -delivery form QIP100E (21) Development tools - Evaluation chip: LC876093 - Emulator: EVA62S + ECB876600 (Evaluation chip board) + SUB876700 + POD100QFP : ICE-B877300 + SUB876700 + POD100QFP - Flash ROM version: LC87F67C8A 5/26 Pin Assignment S 48/PG0 S49/PG1 S50/PG2 S51/PG3 P00 P01 P02 P03 VSS2 VDD2 P04 P05 P06 P07 P10/SO0 P11/SI0/SB 0 P12/SCK0 P13/SO1 P14/SI1/SB 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 LC876764A/48A P16/T1PWML P17/T1PWMH/BUZ P30/INT4/T1IN P31/INT4/T1IN P32/INT4/T1IN P33/INT4/T1IN P34/INT5/T1IN P35/INT5/T1IN P36/INT5/T1IN P37/INT5/T1IN RES XT1/AN10 XT2/AN11 VSS1 CF1 CF2 VDD1 P80/AN0 P81/AN1 P82/AN2 P83/AN3 P84/AN4 P85/AN5 P86/AN6 P87/AN7/MICIN P70/INT0/T0LCP/AN8 P71/INT1/T0HCP/AN9 P72/INT2/T0IN/NKIN/AN12 P73/INT3/T0IN/AN13 S0/T0 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 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 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 S47/PF7 S46/PF6 S45/PF5 S44/PF4 S43/PF3 S42/PF2 S41/PF1 S40/PF0 VDD4 S39/PE7 S38/PE6 S37/PE5 S36/PE4 S35/PE3 S34/PE2 S33/PE1 S32/PE0 S31/PD7 S30/PD6 S29/PD5 S28/PD4 S27/PD3 S26/PD2 S25/PD1 S24/PD0 S23/PC7 S22/PC6 S21/PC5 S20/PC4 FIX0 S 19/PC3 S18/PC2 S17/PC1 S16/PC0 VDD3 S15/T15 S14/T14 S13/T13 S12/T12 S11/T11 S10/T10 S9/T9 S8/T8 S7/T7 S6/T6 S5/T5 S4/T4 S3/T3 S2/T2 S1/T1 S ANYO: QIP100E 6/26 LC876764A/48A S ystem Block Diagram I nterrupt Control IR P LA S tand-by Control F lash ROM CF RC M RC X ’tal C lock Generator PC B us Interface A CC S IO0 P ort 0 B R egister S IO1 P ort 1 C R egister Timer 0 ( High speed clock counter) P ort 3 ALU Timer 1 P ort 7 B ase Timer P ort 8 P SW V FD Controller A DC R AR I NT 0 - 5 Noise Rejection Weak Signal R AM Timer 4 Timer 6 S tack Pointer Timer 5 Timer 7 Watch Dog Timer 7/26 LC876764A/48A P in Assignment P in name V SS1 VSS2 V DD1 VDD2 VDD3 VDD4 F IX0 P ORT0 P00 to P07 I/O • Power supply (-) • Power supply (+) Function Option No No I/O • Test pin Set as VSS with the user’s option. (see Note 1) • 8bit input/output port • data direction programmable in nibble units • Use of pull-up resistor can be specified in nibble units • Input for HOLD release • Input for port 0 interrupt • 15V withstand at N-channel open drain output • • • • 8bit input/output port data direction programmable for each bit Use of pull-up resistor can be specified for each bit Other pin functions P10 SIO0 data output P11 SIO0 data input/bus input/output P12 SIO0 clock input/output P13 SIO1 data output P14 SIO1 data input/bus input/output P15 SIO1 clock input/output P16: Timer 1 PWML output P17: Timer 1 PWMH output/Buzzer output No Yes P ORT1 P10 to P17 I/O Yes P ORT3 P30 to P37 I/O • 8 bit Input/output port • Data direction can be specified for each bit • Use of pull-up resistor can be specified for each bit • 15V withstand at N-channel open drain output • Other functions: P30 to P33: INT4 input/ HOLD release input/ Timer 1 event input/ Timer 0L capture input/ Timer 0H capture input P34 to P37: INT4 input/ HOLD release input/ Timer 1 event input/ Timer 0L capture input/ Timer 0H capture input The following types of interrupt detection are possible: R ising I NT4 INT5 Yes Yes Falling Yes Yes Rising/ Falling Yes Yes H level No No L level No No Yes 8/26 LC876764A/48A P in name P ORT7 P70 to P73 I/O I/O Function • 4 bit Input/output port • Data direction can be specified for each bit • Use of pull-up resistor can be specified for each bit • Other functions P70: INT0 input/HOLD release input/Timer0L capture Input/output for watchdog timer P71: INT1 input/HOLD release input/Timer0H capture input P72: INT2 input/HOLD release input/timer 0 event input/Timer0L capture input/High speed clock counter input P73: INT3 input(noise rejection filter attached input)/timer 0 event input/Timer 0H capture input AD input port: AN8(P70), AN9(P71), AN12(P72), AN13(P73) The following types of interrupt detection are possible: R ising I NT0 I NT1 I NT2 I NT3 P ORT8 P80 to P87 I/O Yes Yes Yes Yes Falling Yes Yes Yes Yes Rising/ Falling No No Yes Yes H level Yes Yes No No L level Yes Yes No No No Option No S 0/T0 to S8/T8 S 9/T9 to S15/T15 S 16 to S23 O O I/O • 8bit Input/output port • Input/output can be specified in a bit unit • Other functions: AD input port: AN0 to AN7 Weak signal detector input port: MICIN(P87) • Large current output for VFD display controller digit (can be used for segment) • Large current output for VFD display controller segment/digit • Output for VFD display controller segment/digit • Other functions: High voltage input port: PC0 to PC7 • Output for VFD display controller segment • Other functions: High voltage input port: PD0 to PD7 • Output for VFD display controller segment • Other functions High voltage input port: PE0 to PE7 • Output for VFD display controller segment • Other functions: High voltage input/output port: PF0 to PF7 • Output for VFD display controller segment • Other functions: High voltage input/output port: PG0 to PG3 Reset terminal • Input for 32.768kHz crystal oscillation • Other functions: General purpose input port When not in use, connect to VDD1. AD input port: AN10 No No No S 24 to S31 I/O No S 32 to S39 I /O No S 40 to S47 I /O No S 48 to S51 I /O No RES X T1 I I No No 9/26 LC876764A/48A P in name X T2 I/O I/O Function • Output for 32.768kHz crystal oscillation • Other functions: General purpose input port When not in use, set to oscillation mode and leave open circuit. AD input port: AN11 Input terminal for ceramic oscillator Output terminal for ceramic oscillator Option No C F1 C F2 I O No No Note 1: The LC876700 series can be mounted onto the circuit board intended for the LC 876500 and LC876600 series. In this case, the minus voltage of the VFD power supply is supplied to the FIX0 pin. Using a negative voltage does not alter the FIX0 pin’s operation. 10/26 LC876764A/48A P ort Output Configuration O utput configuration and pull-up/pull-down resistor options are shown in the following table. Input /output is possible even when port is set to output mode. Terminal P 00 to P07 Option applies Options to: 1 bit units 1 2 P 10 to P17 each bit 1 2 P 30 to P37 each bit 1 2 P 70 P 71 to P73 P 80 to P87 S 0/T0 to S15/T15 S16 to S51 X T1 X T2 None None None High voltage Pch-open drain Input only Output for 32.768kHz crystal oscillation None None None None None None C MOS 15 voltage Nch-open drain C MOS Nch-open drain C MOS 15V Nch-open drain Nch-open drain CMOS Nch-open drain Output Format Pull-up resistor Programmable (Note 1) None Programmable Programmable Programmable None Programmable Programmable None Pull-down resistor - Note 1 Programmable pull-up resisters of Port 0 can be attached in nibble units (P00-03, P04-07). * Note 1: Connect as follows to reduce noise on VDD and increase the back-up time. VSS1, and VSS2 must be connected together and grounded. *Note 2 : The power supply for the internal memory is VDD1 but it uses the VDD2 as the power supply for ports. When the VDD2 is not backed up, the port level does not become “H” even if the port latch is in the “H” level. Therefore, when the VDD2 is not backed up and the port latch is “H” level, the port level is unstable in the HOLD mode, and the back up time becomes shorter because the through current runs from VDD to GND in the input buffer. If VDD2 is not backed up, output “L” by the program or pull the port to “L” by the external circuit in the HOLD mode so that the port level becomes “L” level and unnecessary current consumption is prevented. LSI VDD1 Back-up capacitors P ower S upply VDD2 VDD3 V FD VDD4 VSS1 P owers VSS2 11/26 LC876764A/48A 1. Absolute maximum ratings / Ta=25°C and VSS1=VSS2=0V L imits P arameter S upply voltage I nput voltage O utput voltage I nput/Output voltage Symbol Pins Conditions VDD1=VDD2= VDD3=VDD4 V DD [V ] m in. -0.3 -0.3 VDD-45 VDD-45 -0.3 typ. max. +7.0 VDD+0.3 VDD+0.3 VDD+0.3 VDD+0.3 unit V VDDMAX VDD1,VDD2, VDD3,VDD4 V I(1) VI(2) VO(1) V IO(1) XT1,XT2,CF1, RES VP S0/T0 to S15/T15 •Port 0: CMOS output option •Port 1 •Port 3: CMOS output option •Port 7 •Port 8 •Port 0 open drain •Port 3 open drain S16 to S51 Port 0, 1, 3 V IO(2) VIO(3) H igh P eak I OPH(1) level output output current current I OPH(2) I OPH(3) IOPH(4) -0.3 VDD-45 •CMOS output selected •Current at each pin Current at each pin Current at each pin Current at each pin Total of all pins Total of all pins Total of all pins Total of all pins Total of all pins Total of all pins Total of all pins For each pin For each pin For each pin For each pin For each pin Ta = -30 to+70°C -10 15 VDD+0.3 mA Port71,72,73 S0/T0 to S15/T15 S16 to S51 -3 -30 -15 -30 -30 -5 -65 -60 -60 -60 20 5 50 50 20 mW Σ IOAH(1) Port 0 Total output Σ IOAH(2) Port 1,3 current Σ IOAH(3) Port 7 Σ IOAH(4) S0/T0 to S15/T15 Σ IOAH(5) S16 to S27 Σ IOAH(6) S28 to S39 Σ IOAH(7) S40 to S51 L ow Port 7,8 level output Total Σ IOAL(1) Port 00,01,02,03 current output Σ IOAL(2) •Port 04,05,06,07 current •Port 1,3 Σ IOAL(3) Ports 7,8 M aximum power dissipation O perating temperature range S torage temperature range Pdmax QIP100E P eak I OPL(1) output IOPL(2) current Port 0,1,3 Topr -30 70 °C Tstg -55 125 12/26 LC876764A/48A 2. Recommended operating range / Ta=-30°C to +70°C, VSS1=VSS2=0V P arameter Symbol Pins VDD1=VDD2=VDD3 =VDD4 VDD1 Conditions 0.294µs ≤ Tcyc ≤ 200µs RAM and the register data are kept in HOLD mode. Output disable L imits VDD [V] m in. 4.5 typ. max. 6.0 unit V O perating VDD(1) supply voltage range H old voltage VHD 2.0 6.0 I nput high voltage V IH(1) •Port 0,3: CMOS output option •Port 8 Port 0,3: N-ch open drain output •Port 1 •Port71,72,73 • P70 port input/ interrupt S16 to S51 P70 Weak signal input Port 70 Watchdog timer XT1, XT2, CF1, RES •Port 0,3: CMOS output option •Port 8 Port 0,3: N-ch open drain output •Port 1 • Port 71,72,73 •P70 port input /interrupt S16 to S51 Port 87 weak signal input Port 70 Watchdog timer XT1,XT2,CF1, RES 4.5–6.0 0.3VDD +0.7 4.5–6.0 0.3VDD +0.7 4.5–6.0 0.3VDD +0.7 VDD V IH(2) V IH(3) Output disable Output disable 13.5 VDD V IH(4) V IH(5) V IH(6) VIH(7) I nput low voltage V IL(1) Output P-channel Tr. OFF Output disable Output disable 4.5–6.0 0.3VDD +1.0 4.5–6.0 0.75VDD 4.5–6.0 0.9VDD 4.5–6.0 0.75VDD VDD VDD VDD VDD 0.15VDD +0.4 0.15VDD +0.4 0.1VDD +0.4 Output disable 4.5–6.0 VSS V IL(2) V IL(3) Output disable Output disable 4.5–6.0 4.5–6.0 VSS VSS V IL(4) V IL(5) V IL(6) VIL(7) O peration cycle time E xternal system clock frequency t CYC Output P-channel Tr. OFF Output disabled Output disabled 4.5–6.0 4.5–6.0 4.5–6.0 4.5–6.0 4 .5–6.0 -35 VSS VSS VSS 0.294 0.1 0.2VDD 0.25VDD 0.8VDD -1.0 0.25VDD 200 10 µs M Hz fEXCF(1) CF1 • CF2 open circuit 4.5–6.0 •system clock divider set to 1/1 •external clock DUTY = 50±50% •CF2 open circuit 4.5–6.0 •system clock divider set to 1/2 0.2 20 Continued 13/26 LC876764A/48A P arameter O scillation stabilizing time period (Note 1) Symbol F mCF(1) FmCF(2) Pins CF1, CF2 CF1, CF2 Conditions 10MHz ceramic resonator oscillation R efer to figure 1 VDD[V] 4 .5–6.0 4 .5–6.0 L imits min. typ. 10 4 max. unit MHz 4MHz ceramic resonator oscillation R efer to figure 1 F mRC F mMRC F sX’tal XT1, XT2 RC oscillation Frequency variable RC oscillation 32.768kHz crystal resonator oscillation R efer to figure 2 4.5–6.0 4.5-6.0 4 .5–6.0 0.3 1.0 50 32.768 2.0 KHz ( Note 1) The oscillation constant is shown in table 1 and table 2. 14/26 LC876764A/48A 3. Electrical characteristics / Ta=-30°C to +70°C, VSS1=VSS2=0V P arameter I nput high current Symbol I IH(1) Pins Ports 0,3: N-ch open drain output Conditions •Output disabled •VIN=13.5V (including OFF state leak current of the output Tr.) •Output disabled •Pull-up resister OFF. •VIN=VDD (including OFF state leak current of the output Tr.) When configured as an input port VIN=VDD VIN=VDD When configured as an input port VIN=VDD VIN=VDD VIN=VBIS+0.5V (VBIS : Bias voltage) •Output disabled •VIN=VSS (including OFF state leak current of the output Tr.) VIN=VSS When configured as an input port VIN=VSS VIN=VSS VIN=VBIS-0.5V (VBIS : Bias voltage) IOH=-1.0mA IOH=-0.1mA IOH=-0.4mA IOH=-20.0mA IOH=-1.0mA IOH at any single pin is not over 1mA. S2+ to S51 IOH=-5.0mA IOH=-1.0mA IOH at any single pin is not over 1mA. Port 0,1,3 Port 7,8 Port 0,1,3,7 IOL=10mA IOL=1.6mA IOL=1mA VOH=0.9VDD L imits VDD[V] 4.5–6.0 min. typ. max. 5 unit µA I IH(2) Port 0,1,3,7,8 4.5–6.0 1 I IH(3) S16 to S51 (Port C,D,E,F,G) RES XT1,XT2 4.5–6.0 60 I IH(4) I IH(5) 4.5–6.0 4.5–6.0 1 1 I IH(6) IIH(7) I nput low current I IL(1) CF1 P87/AN7/MICIN weak signal input Port 0,1,3,7,8 4.5–6.0 4.5–6.0 4.5–6.0 4.2 -1 8.5 15 15 I IL(2) I IL(3) RES XT1,XT2 4.5–6.0 4.5–6.0 -1 -1 I IL(4) IIL(5) O utput high V OH(1) voltage V OH(2) V OH(3) V OH(4) V OH(5) CF1 P87/AN7/MICIN weak signal input Port 0,1,3: CMOS output option Port 7 S0/T0–S15/T15 4.5–6.0 4.5–6.0 4.5–6.0 4.5–6.0 4.5–6.0 -15 -15 VDD-1 VDD-1 VDD-1 -8.5 -4.2 V 4.5–6.0 VDD-0.5 4.5–6.0 VDD-1.8 V OH(6) VOH(7) 4.5–6.0 VDD-1.8 4.5–6.0 VDD-1 O utput low voltage P ull-up resistor V OL(1) V OL(2) VOL(3) Rpu 4.5–6.0 4.5–6.0 4.5–6.0 4.5–6.0 15 40 1.5 0.4 0.4 70 kΩ Continued 15/26 LC876764A/48A P arameter O utput offleak current Symbol I OFF(1) IOFF(2) Pins S0/T0 to S15/T15, S16 to S51 Conditions •Output P-ch Tr. OFF •VOUT=VSS •Output P-ch Tr. OFF •VOUT=VDD-40V •Output P-ch Tr. OFF VDD[V] 4.5–6.0 4.5–6.0 4.5–6.0 L imits min. -1 -30 typ. Max. unit µA R esistance of Rinpd the low level hold Tr. H ysteresis V HIS(1) voltage VHIS(2) P in capacitance CP S16 to S51 200 kΩ •Port 1,7 • RES Port 87 weak signal input All pins 4.5–6.0 4.5–6.0 •All other terminals connected to VSS. •f=1MHz •T a =25°C 4.5–6.0 0.1VDD 0.1VDD 10 V pF I nput sensitivity Vsen Port 87 weak signal input 4.5–6.0 0.12VDD Vpp 16/26 LC876764A/48A 4 . Serial input/output characteristics / Ta=-30°C to +70°C, VSS1=VSS2=0V P arameter C ycle Time L ow Level pulse width H igh Level pulse width C ycle Time Symbol tSCK(1) t SCKL(1) tSCKLA(1) t SCKH(1) tSCKHA(1) tSCK(2) tSCKL(2) tSCKH(2) tSCK(3) t SCKL(3) tSCKLA(2) t SCKH(3) tSCKHA(2) tSCK(4) tSCKL(4) tSCKH(4) t sDI t hDI tdDO S I0(P11), SI1(P14), SB0(P11), SB1(P14) SO0(P10), SO1(P13), SB0(011), SB1(P14) •Measured with respect to SI0CLK leading edge. •Refer to figure 6 •Measured with respect to SI0CLK trailing edge. •When port is open drain: Time delay from SI0CLK trailing edge to the SO data change. •Refer to figure 6 4.5–6.0 0 .03 0.03 4.5–6.0 1/3 tCYC +0.05 SCK1(P15) •CMOS output option •Refer to figure 6 4.5–6.0 2 1/2 1/2 µs SCK0(P12) •CMOS output option •Refer to figure 6 4.5–6.0 SCK1(P15) Refer to figure 6 4.5–6.0 Pins Conditions VDD[V] 4.5–6.0 min. 4/3 2/3 2/3 2/3 3 2 1 1 4/3 1/2 3/4 1/2 2 tCYC tSCK tSCK L imits typ. max. unit t CYC SCK0(P12) Refer to figure 6 S erial clock S erial input Output clock I nput clock L ow Level pulse width H igh Level pulse width C ycle Time L ow Level pulse width H igh Level pulse width C ycle Time L ow Level pulse width H igh Level pulse width D ata set-up time D ata hold time O utput time delay S erial output 17/26 LC876764A/48A 5. Pulse input conditions / Ta=-30°C to +70°C, VSS1=VSS2=0V P arameter H igh/low level pulse width Symbol Pins Conditions VDD[V] t PIH(1) INT0(P70), tPIL(1) INT1(P71), INT2(P72) INT4(P30 to P33) INT5(P34 to P37) t PIH(2) INT3(P73) tPIL(2) (Noise rejection ratio set to 1/1.) t PIH(3) INT3(P73) tPIL(3) (Noise rejection ratio set to 1/32.) t PIH(4) INT3(P73) tPIL(4) (Noise rejection ratio set to 1/128.) t PIH(5) MICIN(P87) tPIL(5) t PIH(6) NKIN(P72) tPIL(6) tPIL(7) RES •Interrupt acceptable 4.5–6.0 •Events to timer 0 can be input. L imits min. 1 typ. max. unit t CYC •Interrupt acceptable 4.5–6.0 •Events to timer 0 can be input. •Interrupt acceptable 4.5–6.0 •Events to timer 0 can be input. •Interrupt acceptable 4.5–6.0 •Events to timer 0 can be input. •Weak signal detection counter enabled •High speed clock counter countable •Reset possible 4.5–6.0 2 64 256 1 4.5–6.0 4.5–6.0 1/12 200 µs 6. AD converter characteristics / Ta=-30°C to + 70°C, VSS1=VSS2=0V P arameter R esolution A bsolute precision C onversion time Symbol N ET TCAD Pins AN0(P80) to AN7(P87), AN8(P70), AN9(P71), AN10(XT1), AN11(XT2), AN12(P72), AN13(P73) Conditions L imits VDD[V] 4.5–6.0 (Note2) A D conversion time = 32 × tCYC (ADCR2=0) (Note 3) AD conversion time = 64 × tCYC (ADCR2=1) (Note 3) 4.5–6.0 VAIN=VDD VAIN=VSS 4.5–6.0 4.5–6.0 -1 4.5–6.0 4.5–6.0 15.62 (tCYC= 0.488µs) 18.82 (tCYC= 0.294µs) VSS min. typ. 8 ± 1.5 97.92 (tCYC= 3.06µs) 97.92 (tCYC= 1.53µs) VDD 1 V µA max. unit bit LSB µs A nalog input voltage range VAIN A nalog port input I AINH current IAINL ( Note 2) Absolute precision not including quantizing error (±1/2 LSB). (Note 3) Conversion time means time from executing AD conversion instruction to loading complete digital value to register. 18/26 LC876764A/48A 7. Current dissipation characteristics / Ta=-30°C to +70°C, VSS1=VSS2=0V P arameter C urrent dissipation during basic operation (Note 4) Symbol I DDOP(1) Pins Conditions L imits VDD[V ] 4.5–6.0 min. typ. 9 max 30 unit mA I DDOP(2) I DDOP(3) I DDOP(4) I DDOP(5) IDDOP(6) VDD1 •FmCF=10MHz for Ceramic resonator = VDD2 oscillation •FsX’tal=32.768kHz for = VDD3 crystal oscillation •System clock: CF = VDD4 oscillation •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider set to 1/1 •CF1=20MHz for external clock •FsX’tal=32.768kHz for crystal oscillation •System clock: CF oscillation •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider set to 1/2 •FmCF=4MHz Ceramic resonator oscillation •FsX’tal=32.768kHz for crystal oscillation •System clock: CF oscillation •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider set to 1/1 •FmCF=0Hz (No oscillation) •FsX’tal=32.768kHz for crystal oscillation •Frequency variable RC oscillation stopped. •System clock: RC oscillation •Divider set to 1/2 •FmCF=0Hz (No oscillation) •FsX’tal=32.768kHz for crystal oscillation •Internal RC oscillation stopped. •System clock: 1MHz with frequency variable RC oscillation •Divider set to 1/2 •FmCF=0Hz (No oscillation) •FsX’tal=32.768kHz for crystal oscillation •System clock: 32.768KHz •Frequency variable RC oscillation stopped. •Divider set to 1/2 4.5–6.0 10 31 4.5–6.0 4 17 4.5–6.0 1 10 4.5–6.0 2 12 40 140 µA C ontinued 19/26 LC876764A/48A P arameter C urrent dissipation HALT mode (Note 4) Symbol Pins Conditions HALT mode •FmCF=10MHz for Ceramic resonator oscillation •FsX’tal=32.768kHz for crystal oscillation •System clock : CF oscillation •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider: 1/1 HALT mode •CF1=20MHz for external clock •FsX’tal=32.768kHz for crystal oscillation •System clock : CF oscillation •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider 1/2 HALT mode •FmCF=4MHz for Ceramic resonator oscillation •FsX’tal=32.768kHz for crystal oscillation •System clock : 4MHz •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider: 1/1 HALT mode •FmCF=0Hz (When oscillation stops.) •FsX’tal=32.768kHz for crystal oscillation •System clock : RC oscillation •Divider: 1/2 HALT mode •FmCF=0Hz (When oscillation stops.) •FsX’tal=32.768kHz for crystal oscillation •Internal RC oscillation stopped. •System clock: 1MHz with frequency variable RC oscillation •Divider: 1/2 I DDHALT(1) VDD1= VDD2= VDD3= VDD4 VDD[V] min. 4.5 to 6.0 L imits typ. max. 4 12 unit mA I DDHALT(2) 4.5 to 6.0 4.8 13 I DDHALT(3) 4.5 to 6.0 1.8 6 I DDHALT(4) 4.5 to 6.0 500 1600 µA IDDHALT(5) 4.5 to 6.0 1500 3600 Continued 20/26 LC876764A/48A P arameter C urrent dissipation HALT mode (Note 4) Symbol Pins Conditions HALT mode •FmCF=0Hz (When oscillation stops.) •FsX’tal=32.768kHz for crystal oscillation •System clock : 32.768kHz •Internal RC oscillation stopped. •Frequency variable RC oscillation stopped. •Divider: 1/2 IDDHALT(6) VDD1= VDD2= VDD3= VDD4 VDD[V] min. 4.5 to 6.0 L imits typ. max. 25 100 unit µA C urrent IDDHOLD(1) dissipation HOLD mode C urrent IDDHOLD(2) dissipation Date/time clock HOLD mode VDD1 VDD1 HOLD mode 4.5 to 6.0 •CF1=VDD or open circuit (when using external clock) Date/time clock HOLD 4.5 to 6.0 mode •CF1=VDD or open circuit (when using external clock) •FmX’tal=32.768kHz for crystal oscillation 0.05 25 20 90 ( Note 4) The currents of the output transistors and the pull-up MOS transistors are ignored. 21/26 LC876764A/48A M ain system clock oscillation circuit characteristics T he characteristics in the table bellow is based on the following conditions: 1. Use the standard evaluation board SANYO has provided. 2. Use the peripheral parts with indicated value externally. 3. The peripheral parts value is a recommended value of oscillator manufacturer Table 1. Main system clock oscillation circuit characteristics using ceramic resonator F requenc y Manufacture r Oscillator C ircuit parameters C1 C2 Rd1 Operating Oscillation supply stabilizing time voltage typ max range Notes 1 0MHz 4 MHz T he oscillation stabilizing time is a period until the oscillation becomes stable after VDD becomes higher than minimum operating voltage. (Refer to Figure4) Subsystem clock oscillation circuit characteristics T he characteristics in the table bellow is based on the following conditions: 1. Use the standard evaluation board SANYO has provided. 2. Use the peripheral parts with indicated value externally. 3. The peripheral parts value is a recommended value of oscillator manufacturer Table 2. Subsystem clock oscillation circuit characteristics using crystal oscillator F requency Manufacturer Oscillator C3 3 2.768kHz C ircuit parameters C4 Rf Rd2 Operating supply voltage range Oscillation stabilizing time typ max Notes T he oscillation stabilizing time is a period until the oscillation becomes stable after executing the instruction which starts the sub-clock oscillation or after releasing the HOLD mode. (Refer to Figure4) (Notes) • Since the circuit pattern affects the oscillation frequency, place the oscillation-related parts as close to the oscillation pins as possible with the shortest possible pattern length. CF1 CF2 R d1 XT1 Rf XT2 Rd2 C4 C1 CF C2 C3 X’tal F igure 1 Ceramic oscillation circuit Figure 2 Crystal oscillation circuit 22/26 LC876764A/48A 0 .5VDD Figure 3 AC timing measurement point VDD P ower l Reset time RES VDD limit 0V Internal RC Resonator t msCF CF1 , CF2 t msXtal XT1 , XT2 Operation mode Unfixed Reset Instruction execution mode Reset time and oscillation stable time HOLD release i l Without HOLD Release HOLD release signal VALID I nternal RC Resonator t msCF CF1,CF2 t msXtal XT1,XT2 Operation mode H OLD HALT H OLD release signal and oscillation stable time Figure 4 Oscillation stablization time 23/26 LC876764A/48A V DD R RES R ES C RES (Note) Set C RES , R RES v alues such that reset time exceeds 200µs. Figure 5 Reset circuit S IOCLK DATAIN DI0 DI1 DI2 DI3 DI4 DI5 DI6 DI7 DI8 DATAOUT D O0 DO1 DO2 DO3 DO4 DO5 DO6 DO7 D ata RAM transmission period (only SIO0) DO8 tSCK tSCKL SIOCLK tsDI DATAIN tdDO DATAOUT thDI tSCKH Data RAM transmission period (only SIO0) tSCKLA S IOCLK tsDI DATAIN tdDO DATAOUT thDI tSCKHA Figure 6 Serial input / output test condition 24/26 LC876764A/48A t PIL tPIH F igure 7 Pulse input timing condition 25/26 LC876764A/48A This catalog provides information as of August 2001. Specifications and information herein are subject to change without notice PS 26/26