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EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT GENERAL DESCRIPTION EM73866 is an advanced single chip CMOS 4-bit micro-controller. It contains 8K-byte ROM, 500-nibble RAM, 4-bit ALU, 13-level subroutine nesting, 22-stage time base, two 12-bit timer/counters for the kernel function. EM73866 also contains 6 interrupt sources, 2 input port, 7 bidirection ports, Max LCD display (32x4), built-in watch-dog-timer and high speed Timer/Counter. EM73866 has plentiful operating modes (SLOW, IDLE, STOP) intended to reduce the power consumption. FEATURES Operation voltage Clock source : 2.2V ~ 6V. : Dual clock system. Low-frequency oscillator is Crystal or RC oscillator (32K Hz, connect an external resistor) by mask option and high-frequency oscillator is RC (Connect an external resistor) or Crystall oscillator. Instruction set : 107 powerful instructions. Instruction cycle time : Up to 2us for 4 MHz (high speed clock). 244 s for 32768 Hz (low speed clock). 122 s for 32768 Hz (low speed clock with frequency Double) ROM capacity : 8192 X 8 bits. RAM capacity : 500 X 4 bits. Input port : 2 ports (P0, P2), P0(0..3), P2 (0..3), IDLE/STOP releasing function are available by mask option. Bidirection port : 7 ports (P1, P3, P4, P5, P6, P7, P8). P4.1 is shared with HTC external input. IDLE/STOP releasing function are available by mask option for P8(0..3). 12-bit timer/counter : Two 12-bit timer/counters are programmable for timer, event counter and pulse width measurement. Built-in watch-dog-timer : It is available by mask option. Built-in time base counter : 22 stages. Built-in high Speed Timer/Counter : Could be timer, melody out or pulse width measurement. Subrountine nesting : Up to 13 levels. Interrupt : External . . . . . 2 input interrupt sources. Internal . . . . . . 2 Timer overflow interrupts, 1 time base interrupt. 1 high speed counter overflow interrupt. LCD driver : Max 32 X 4 dots, 1/4, 1/3, 1/2 static four kinds of duty selectable, 1/2 or 1/3 bias choice and dynamic resistor available. Power saving function :SLOW, IDLE, STOP operation mode. Package type : Chip form 76 pins. APPLICATIONS EM73866 is suitable for application in family applicance, consumer products, hand held games, calculator and the toy controller. * This specification are subject to be changed without notice. 12.29.1999 1 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT FUNCTION BLOCK DIAGRAM VDD RESET XOUT XIN LXOUT LXIN Reset Control Clock Generator Clock Generator (slow) System Control Timing Generator Sleep Mode Control Data pointer Interrupt Control Time Base TEST V1 V2 V3 VRLC Instruction Decoder Instruction Register Data Bus Stack pointer Stack RAM S HR LR P0(0..3)/WAKEUP(0..3) P2(0..3)/WAKEUP(4..7) I/O Control ACC ALU Flag Z C Timer/Counter (TA,TB) ROM PC LCD P4(0..3) /WAKEUP(P8..11) P5(0..3) /WAKEUP(P12..15) P1.0 - P1.1 P3.0 - P3.3 COM0~COM3 SEG0~SEG29 P6.0 - P6.1 PIN DESCRIPTIONS Symbol V DD VSS RESET Pin-type Function Power supply (+) Power supply (-) RESET-A System reset input signal, low active mask option : none pull-up XIN/RCOSC OSC-A/OSC-H1 Crystal/RC clock source connecting pin XOUT OSC-A Crystal connecting pin LXIN OSC-B/OSC-H2 Crystal/RC connecting pin for low speed clock source LXOUT OSC-B Crystal connecting pin for low speed clock source P0(0..3)/WAKEUP(0..3) INPUT-K 8-bit input pins with IDLE/STOP releasing function P2(0..3)/WAKEUP(4..7) mask option : wakeup enable, negative edge release, pull-up wakeup enable, negative edge release, none wakeup enable, positive edge release, pull-down wakeup enable, positive edge release, none wakeup disable, pull-up wakeup disable, pull-down wakeup disable, none P1(0..1) I/O-Z 2-bit bidirection I/O pins with high current function source mask option 1: initial low initial high mask option 2: low current push-pull normal current push-pull high current push-pull NMOS open-drain PMOS open-drain * This specification are subject to be changed without notice. 12.29.1999 2 P8(0,2)(INT1,0)/ WAKEUPA,C VSS P7.0 /WAKEUPD EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT PIN DESCRIPTIONS Symbol Pin-type I/O-O Function 2-bit bidirection I/O pins are shared with LCD segment pin mask option : segment pin low current push-pull normal current push-pull open-drain 4-bit bidirection I/O pins mask option : low current push-pull normal current push-pull open-drain 1-bit bidirection I/O with inverse sound output and IDLE/STOP releasing function. mask option : wakeup disable, low current push-pull wakeup disable, normal current push-pull wakeup disable, high current push-pull wakeup disable, open-drain wakeup disable, SOUND wakup enable, low current push-pull wakeup enable, normal current push-pull 1-bit bidirection I/O with HTC output and IDLE/STOP releasing function. mask option : wakeup disble, low current push-pull wakeup disable, normal current push-pull wakeup disable, high current push-pull wakeup disable, NMOS open-drain wakeup disable, PMOS open-drain wakeup enable, low current push-pull wakeup enable, normal current push-pull 2-bit bidirection I/O pins with IDLE/STOP releasing function mask option : wakeup disble, low current push-pull wakeup disable, normal current push-pull wakeup disable, high current push-pull wakeup disable, NMOS open-drain wakeup disable, PMOS open-drain wakeup enable, low current push-pull wakeup enable, normal current push-pull 4-bit bidirection I/O pins with IDLE/STOP releasing function mask option : wakeup disable, low current push-pull wakeup disable, normal current push-pull wakeup disable, open-drain wakeup enable, low current push-pull wakeup enable, normal current push-pull 2-bit bidirection I/O pins with timer/counterA, B external intput and IDLE/STOP releasing function mask option : wakeup disable, low current push-pull wakeup disable, normal current push-pull wakeup disable, open-drain wakeup enable, low current push-pull wakeup enable, normal current push-pull 12.29.1999 3 P3(0,1)/SEG(30,31) P3(2,3), P6(0,1) I/O-N P4.0/SOUND/WAKEUP8 I/O-R1 P4.1(TRGH)/WAKEUP9 I/O-R1 P4(2,3)/WAKEUP(10,11) I/O-R1 P5(0..3)/WAKEUP(12..15) I/O-S P7.0/TRGA/WAKEUPD P8.1/TRGB/WAKEUPB I/O-S * This specification are subject to be changed without notice. EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT PIN DESCRIPTIONS Symbol P8.0(INT1)/WAKEUPA P8.2(INT0)/WAKEUPC Pin-type I/O-S Function 2-bit bidirection I/O pins with interrupt 0, 1 external intput and IDLE/STOP releasing function mask option : wakeup disable, low current push-pull wakeup disable, normal current push-pull wakeup disable, open-drain wakeup enable, low current push-pull wakeup enable, normal current push-pull LCD common pins LCD segment pins LCD bias pins COM(0..3) SEG(0..29) V1, V2, V3, VRLC ---- FUNCTION DESCRIPTIONS PROGRAM ROM ( 8K X 8 bits ) 8 K x 8 bits program ROM contains user's program and some fixed data. The basic structure of the program ROM may be categorized into 5 partitions. 1. Address 0000h: Reset start address. 2. Address 0002h - 000Ch : 6 kinds of interrupt service routine entry addresses. 3. Address 000Eh - 0086h : SCALL subroutine entry address, only available at 000Eh, 0016h, 001Eh, 0026h, 002Eh, 0036h, 003Eh, 0046h, 004Eh, 0056h, 005Eh, 0066h, 006Eh, 0076h, 007Eh, 0086h. 4. Address 0000h - 07FFh : LCALL subroutine entry address. 5. Address 0000h - 1FFFh : Except used as above function, the other region can be used as user's program and data region. * This specification are subject to be changed without notice. 12.29.1999 4 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT address 0000h 0002h 0004h 0006h 0008h 000Ah 000Ch 000Eh 0086h 8192 x 8 bits Reset start address INT0 ; External interrupt service routine entry address HTCI; High speed counter interrupt service routine entry address TRGA; Timer/counterA interrupt serice routine entry address TRGB; Timer/counterA interrupt serice routine entry address TBI; Time base interrupt serice routine entry address INT1; External interrupt serice routine entry address SCALL, subroutine call entry address Subroutine call entry address designated by [LCALL a] instruction . . . 07FFh 0800h 0FFFh 1000h 1FFFh Data table for [LDAX],[LDAXI] instruction DP is a 12-bit data register that stores the program ROM address as pointer for the ROM code data. User has to initially load ROM address into DP with instructions "STADPL", and "STADPM, STADPH", then then to obtain the lower nibble of ROM code data by instruction "LDAX" and higher nibble by instruction "LDAXI" PROGRAM EXAMPLE: Read out the ROM code of address 1777h by table-look-up instruction. LDIA #07h; STADPL STADPM STADPH : LDL #00h; LDH #03h; LDAX STAMI LDAXI STAM ; ORG 1777h DATA 56h; ; [DP]L 07h ; [DP]M 07h ; [DP]H 07h, Load DP=777h ; ACC 6h ; RAM[30] 6h ; ACC 5h ; RAM[31] 5h DATA RAM ( 500-nibble ) A total 500-nibble data RAM is available from address 000 to 1FFh. DATA RAM includes the zero page region, stacks and data areas. * This specification are subject to be changed without notice. 12.29.1999 5 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Increment Address Bank 0 000h - 00Fh 010h - 01Fh 020h - 02Fh : : : Zero-page Increment 0C0h - 0CFh 0D0h - 0DFh 0E0h - 0EFh 0F0h - 0F3h Level 0 Level 4 Level 8 Level 12 Level 1 Level 5 Level 9 Level 2 Level 6 Level 10 Level 3 Level 7 Level 11 Bank 1 100h - 10Fh 110h - 11Fh : : : : : : 1F0h - 1FFh ZERO- PAGE: From 000h to 00Fh is the zero-page location. It is used as the zero-page address mode pointer for the instruction of "STD #k,y; ADD #k,y; CLR y,b; CMP k,y". PROGRAM EXAMPLE: To write immediate data "07h" to RAM [03] and to clear bit 2 of RAM [0Eh]. STD CLR #07h, 03h 0Eh,2 ; RAM[03] 07h ; RAM[0Eh]2 0 STACK: There are 13 (maximum) stack levels that user can use for subroutine (including interrupt and CALL). User can assign any level be the starting stack by providing the level number to stack pointer (SP). When an instruction (CALL or interrupt) is invoked, before enter the subroutine, the previous PC address is saved into the stack until returned from those subroutines, the PC value is restored by the data saved in stack. SPECIAL PURPOSE REGISTER: The instruction concerning with "Timer/counter", "Data Pointer" and "Stack Pointer" at instruction table 14 be sure the RAM bank must be set in Bank0. DATA AREA: Except the area used by user's application, the whole RAM can be used as data area for storing and loading general data. ADDRESSING MODE The 500 nibble data memory consists of two banks (bank 0 and bank 1). There are 244x4 bits (address 000h~0F3h) in bank 0 and 256x4 bits (address 100h~1FFh) in bank 1. * This specification are subject to be changed without notice. 12.29.1999 6 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT The bank is selected by P9.3. When P9.3 is cleared to "0", the bank 0 is selected. When P9.3 is set to "1", the bank 1 is selected. There are 3 addressing mode to access the data memory, namely (1) Indirect addressing mode: The address in the certain bank is specified by the HL registers. P9.3 HR LR RAM address PROGRAM EXAMPLE: Load the data of RAM address "143h" to RAM address "032h". SEP LDL LDH LDAM CLP LDL LDH STAM P9,3 #3h #4h ; P9.3 1 ; LR 3 ; HR 4 ; Acc RAM[143h] ; P9.3 0 ; LR 2 ; HR 3 ; RAM[032h] Acc P9,3 #2h #3h (2) Direct addressing mode: The address in the bank is directly specified by 8 bits code of the second byte in the instruction field. instruction field xxxxxxxx P9.3 RAM address SEP LDA CLP STA P9,3 43h P9,3 23h xxxxxxxx PROGRAM EXAMPLE: Load the data of RAM address "143h" to RAM address "023h". ; P9.3 1 ; Acc RAM[143h] ; P9.3 0 ; RAM[023h] Acc (3) Zero-page addressing mode: The address is the lower 4 bits code of the second byte in the instruction field.This kind of instructions are only available for the zero page. Area in bank0, even the P9.3 is set. instruction field yyyy RAM address 0 STD #0Fh, 05h 0000 yyyy PROGRAM EXAMPLE: Write immediate "0Fh" to RAM address "005h". ; RAM[05h] 0Fh * This specification are subject to be changed without notice. 12.29.1999 7 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT PROGRAM COUNTER (8K ROM) Program counter ( PC ) is composed by a 13-bit counter, which indicates the next executed address for the instruction of program ROM instruction. For BRANCH and CALL instructions, PC is changed by instruction indicated. PC can only indicate the address from 0000h-1FFFh. (1) Branch instruction: SBR a Object code: 00aa aaaa Condition: SF=1; PC PC 12-6.a ( branch condition satisified ) PC Hold original PC value+1 a a a a a a SF=0; PC PC +1( branch condition not satisified) PC Original PC value + 1 LBR a Object code: 1100 aaaa aaaa aaaa Condition: SF=1; PC PC 12.a ( branch condition satisified ) PC Hold +2 a a a a a a a a a a a a SF=0; PC PC +2( branch condition not satisified) PC Original PC value + 2 SLBR a Object code: 0101 0101 1100 aaaa aaaa aaaa (a:1000h~1FFFh) 0101 0111 1100 aaaa aaaa aaaa (a:0000h~0FFFh) Condition: SF=1; PC a ( branch condition satisified ) PC a a a a a a a a a a a a a SF=0 ; PC PC + 3 ( branch condition not satisified ) PC Original PC value + 3 (2) Subrountine instruction: SCALL a Object code: 1110 nnnn Condition : PC a ; a=8n+6 ; n=1..Fh ; a=86h, n=0 PC 0 0 0 0 0 a a a a a a a a * This specification are subject to be changed without notice. 12.29.1999 8 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT LCALL a Object code: 0100 0aaa aaaa aaaa Condition: PC a PC 0 0 a a a a a a a a a a a RET Object code: 0100 1111 Condition: PC STACK[SP]; SP + 1 PC The return address stored in stack RT I Object code: 0100 1101 Condition : FLAG. PC STACK[SP]; EI 1; SP + 1 PC The return address stored in stack (3) Interrupt acceptance operation: When an interrupt is accepted, the original PC is pushed into stack and interrupt vector will be loaded into PC,The interrupt vectors are as following: INT0 (External interrupt from P8.2) PC 0 0 0 0 0 0 0 0 0 0 0 1 0 TRGH (High speed counter interrupt) PC 0 0 0 0 0 0 0 0 0 0 1 0 0 TRGA (Timer A overflow interrupt) PC 0 0 0 0 0 0 0 0 0 0 1 1 0 TRGB (Time B overflow interrupt) PC 0 0 0 0 0 0 0 0 0 1 0 0 0 TBI (Time base interrupt) PC 0 0 0 0 0 0 0 0 0 1 0 1 0 INT1 (External interrupt from P8.0) PC 0 (4) Reset operation: PC 0 0 0 0 0 0 0 0 0 0 0 0 0 12.29.1999 9 0 0 0 0 0 0 0 0 1 1 0 0 * This specification are subject to be changed without notice. EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT (5) Other operations: For 1-byte instruction execution: PC + 1 For 2-byte instruction execution: PC + 2 For 3-byte instruction execution: PC + 3 ACCUMULATOR Accumulator is a 4-bit data register for temporary data. For the arithematic, logic and comparative opertion .., ACC plays a role which holds the source data and result. FLAGS There are 3 kinds of flag, CF ( Carry flag ), ZF ( Zero flag ), SF ( Status flag ), these 3 1-bit flags are affected by the arithematic, logic and comparative .... operation. All flags will be put into stack when an interrupt subrountine is served, and the flags will be restored after RTI instruction executed. (1) Carry Flag ( CF ) The carry flag is affected by following operation : a. Addition : CF as a carry out indicator, when the addition operation has a carry-out, CF will be "1", in another word, if the operation has no carry-out, CF will be "0". b. Subtraction : CF as a borrow-in indicator, when the subtraction operation must has a borrow-in, the CF will be "0", in another word, if no borrow-in, CF will be "1". c. Comparision : CF is as a borrow-in indicator for Comparision operation as the same as subtraction operation. d. Rotation : CF shifts into the empty bit of accumulator for the rotation and holds the shift out data after rotation. e. CF test instruction : For TFCFC instruction, the content of CF sends into SF then clear itself "0". For TTSFC instruction, the content of CF sends into SF then set itself "1". (2) Zero Flag ( ZF ) ZF is affected by the result of ALU, if the ALU operation generate a "0" result, the ZF will be "1", otherwise, the ZF will be "0". (3) Status Flag ( SF ) The SF is affected by instruction operation and system status. a. SF is initiated to "1" for reset condition. b. Branch instruction is decided by SF, when SF=1, branch condition will be satisified, otherwise, branch condition will not be satisified by SF = 0. PROGRAM EXAMPLE: Check following arithematic operation for CF, ZF, SF * This specification are subject to be changed without notice. 12.29.1999 10 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT LDIA #00h; LDIA #03h; ADDA #05h; ADDA #0Dh; ADDA #0Eh; CF - ZF 1 0 0 0 0 SF 1 1 1 0 0 ALU The arithematic operation of 4-bit data is performed in ALU unit. There are 2 flags can be affected by the result of ALU operation, ZF and SF. The operation of ALU can be affected by CF only. ALU STRUCTURE ALU supported user arithematic operation function, including : addition, subtraction and rotaion. DATA BUS ALU ZF CF SF ALU FUNCTION (1) Addition: For instruction ADDAM, ADCAM, ADDM #k, ADD #k,y .... ALU supports additional function. The additional operation can affect CF and ZF. For additional operation, if the result is "0", ZF will be "1", otherwise, not equal "0", ZF will be "0". When the addition operation has a carry-out, CF will be "1", otherwise, CF will be "0". EXAMPLE: Operation 3+4=7 7+F=6 0+0=0 8+8=0 Carry 0 1 0 1 Zero 0 0 1 1 (2) Subtraction: For instruction SUBM #k, SUBA #k, SBCAM, DECM... ALU supports user subtraction function. The subtraction operation can affect CF and ZF, For subtraction operation, if the result is negative, CF will be "0", it means a borrow out, otherwise, if the result is positive, CF will be "1". For ZF, if the result of subtraction operation is "0", the ZF will be "1", otherwise, ZF will be "1". * This specification are subject to be changed without notice. 12.29.1999 11 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT EXAMPLE: Operation 8-4=4 7-F= -8(1000) 9-9=0 Carry 1 0 1 Zero 0 0 1 (3) Rotation: There are two kinds of rotation operation, one is rotation left, the other is rotation right. RLCA instruction rotates Acc value to left, shift the CF value into the LSB bit of Acc and the shift out data will be hold in CF. MSB LSB ACC CF RRCA instruction operation rotates Acc value to right, shift the CF value into the MSB bit of Acc and the shift out data will be hold in CF. MSB LSB ACC CF PROGRAM EXAMPLE: To rotate Acc right and shift a "1" into the MSB bit of Acc. TTCFS; CF 1 RRCA; rotate Acc right and shift CF=1 into MSB. HL REGISTER HL register are two 4-bit registers, they are used as a pair of pointer for the address of RAM memory and also 2 independent temporary 4-bit data registers. For some instruction, L register can be a pointer to indicate the pin number (Port4). HL REGISTER STRUCTURE 3210 3210 H REGISTER L REGISTER * This specification are subject to be changed without notice. 12.29.1999 12 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT HL REGISTER FUNCTION (1) For instruction : LDL #k, LDH #k, THA, THL, INCL, DECL, EXAL, EXAH, HL register used as a temporary register. LDL #05h; LDH #0Dh; PROGRAM EXAMPLE: Load immediate data "5h" into L register, "Dh" into H register. (2) For instruction LDAM, STAM, STAMI.., HL register used as a pointer for the address of RAM memory. LDL #5h; LDH #3h; STDMI #0Ah; RAM[35] Ah PROGRAM EXAMPLE: Store immediate data #Ah into RAM of address 35h. (3) For instruction : SELP, CLPL, TFPL, L regieter be a pointer to indicate the bit of I/O port. When LR = 0 indicate P4.0 LDL #00h; SEPL ; P4.0 1 PROGRAM EXAMPLE: To set bit 0 of Port4 to "1" STACK POINTER (SP) Stack pointer is a 4-bit register which stores the present stack level number. Before using stack, user must set the SP value first, CPU will not initiate the SP value after reset condition. When a new subroutine is accepted, the SP will be decreased one automatically, in another word, if returning from a subroutine, the SP will be increased one. The data transfer between ACC and SP is by instruction of "LDASP" and "STASP". When "LDASP" and "STASP" are used, Port 9.3 must be set to 0. DATA POINTER (DP) Data pointer is a 12-bit register which stores the address of ROM can indicate the ROM code data specified by user (refer to data ROM). When "LDADPL", "LDADPM" and "LDADPH" are used, Port 9.3 must be set to 0. CLOCK AND TIMING GENERATOR The clock generator is supported by a dual clock system, the clock source comes from crystal (resonator) or RC oscillation for both high or low frequency osc. are decided by mask option. CLOCK GENERATOR STRUCTURE There are two clock generator for system clock control. P14 is the status register for the CPU status. P16, P19 and P22 are the system clock mode control ports. * This specification are subject to be changed without notice. 12.29.1999 13 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Mask option for choose Crystal or RC oscillator XIN XOUT LXIN High-frequency generator Low-frequency generator fc P14 fs System clock mode control P16 P19 P22 LXOUT Mask option for choose Crystal or RC oscillator System control Res LXIN/XIN LXIN/XIN LXOUT/XOUT LXOUT/XOUT Crystal connection or RC connection ( Res=100K for high frequency osc / Res=1M for slow frequency osc) SYSTEM CLOCK MODE CONTROL The system clock mode controller can start or stop the high-frequency and low-frequency clock oscillator and switch between these two basic clocks. EM73866 has four operation modes (NORMAL, SLOW, IDLE and STOP operation modes). STOP operation mode High osc : stopped Low osc : stopped I/O wakeup Reset Command (P16) Reset NORMAL operation mode High osc : oscillating Low osc : oscillating Command (P22) Command (P22) Command (P16) Reset release RESET operation Reset SLOW operation mode High osc : stopped Low osc : oscillating Reset Command (P19) I/O or internal timer wakeup IDLE (CPU stops) High osc : stopped Low osc : oscillating Operation Mode NORMAL SLOW IDLE STOP Oscillator System Clock High, Low frequency High frequency clock Low frequency Low frequency clock Low frequency None CPU stops CPU stops Available function One instruction cycle LCD, High speed timer 8 / fc LCD, High speed timer 8 / fs 8 / fs x 2 (freq.Double) LCD All disable 12.29.1999 14 * This specification are subject to be changed without notice. EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT NORMAL OPERATION MODE The 4-bit c is in the NORMAL operation mode when the CPU is reseted. This mode is a dual clock system (high-frequency and low-frequency clocks oscillating). It can be changed to SLOW or STOP operation mode by the command register (P22 or P16). LCD display and high speed timer/counter with melody output are available for the NORMAL operation mode. SLOW OPERATION MODE The SLOW operation mode is a single clock system (low-frequency clock oscillating). It can be changed to the DUAL operation mode by the command register (P22), STOP operation mode by P16 and IDLE operation mode by P19. LCD display and high speed timer/counter with melody output are available for the SLOW operation mode. P22 3 * 2 1 SOM 0 Initial value : 0000 With low-frequency double 2^3/LXIN RC solw to normal 2^4/LXIN RC solw to normal 2^11/LXIN X'tal slow to normal 2^12/LXIN X'tal slow to normal normal to slow SOM 000 001 010 011 1** P14 3 * Low-frequency 2^3/LXIN RC solw to normal 2^4/LXIN RC solw to normal 2^11/LXIN X'tal slow to normal 2^12/LXIN X'tal slow to normal normal to slow 2 WKS 1 0 LFS CPUS Initial value : *000 CPUS 0 1 CPU status NORMAL operation mode SLOW operation mode LFS 0 1 WKS 0 1 Low-frequency status LXIN source is not stable LXIN source is stable Wakeup status Wakeup not by internal timer Wakeup by internal timer Port14 is the status register for CPU. P14.0 (CPU status) and P14.1 (Low-frequency status) are read-only bits. p14.2 (wakeup status) will be set to "1" when CPU is wake-up by internal timer. P14.2 will be cleared to "0" when user out data to P14. IDLE OPERATION MODE The IDLE operation mode suspends all SLOW operations except for the low-frequency clock and LCD driver. It retains the internal status with low power consumption without stopping the clock function and LCD display. LCD display is available for the IDLE operation mode. The IDLE operation mode will be wakeup and return to the SLOW operation mode by the internal timing generator or I/O pins ( P0(0..3)/WAKEUP(0..3), P2(0..3)/WAKEUP(4..7), P4(0..3)/WAKEUP(8..11), P5(0..3)/WAKEUP(12..15), P7.0/WAKEUPD or P8 (0..2)/WAKEUP(A..C) ). * This specification are subject to be changed without notice. 12.29.1999 15 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT P19 IDME 01 ** 3 IDME 2 1 0 SIDR Initial value : 0000 SIDR 00 01 1 1 0 1 Select IDLE releasing condition P0(0..3), P2(0..3), P4(0..3), P5(0..3), P7.0, P8(0..2) pin input P0(0..3), P2(0..3), P4(0..3), P5(0..3), P7.0, P8(0..2) pin input and 1 sec signal (0.5 sec with frequency Double) P0(0..3), P2(0..3), P4(0..3), P5(0..3), P7.0, P8(0..2) pin input and 0.5 sec signal (0.25 sec with frequency Double) P0(0..3), P2(0..3), P4(0..3), P5(0..3), P7.0, P8(0..2) pin input and 15. 625 ms signal (7.8 ms with frequency Double) Enable IDLE mode Enable IDLE mode Reserved STOP OPERATION MODE The STOP operation mode suspends system operation and holds the internal status immediately before the suspension with low power consumption. This mode will be released by reset or I/O pins (P0(0..3)/, P2 (0.. 3), P4(0..3), P5(0..3), P7.0 or P8(0..2)). LCD display and high speed timer/counter with melody output are disabled in STOP mode. Initial value : 0000 P16 3 2 1 0 SWWT Set wake up * Stop wake up time ( go to NORMAL ) * 100 2^9/XIN for RC osc. * 101 2^10/XIN for RC osc. * 110 2^18/XIN for Crystal osc. * 111 2^19/XIN for Crystal osc. TIME BASE INTERRUPT (TBI ) The time base can be used to generate a fixed frequency interrupt. There are 8 kinds of frequencies can be selected by setting P25. P25 3 2 1 0 initial value : 0000 P25 0 0 0 0 0 1 1 1 1 1 0x 10 10 11 11 10 10 11 11 0x x 0 1 0 1 0 1 0 1 x Interrupt Rate Low-frequency NORMAL mode SLOW mode disable disable LXIN / 23 Hz Reserved LXIN / 24 Hz Reserved 5 LXIN / 2 Hz Reserved LXIN / 214 Hz LXIN / 214 Hz LXIN / 21 Hz Reserved 6 LXIN / 2 Hz LXIN / 26 Hz 8 LXIN / 2 Hz LXIN / 28 Hz 10 LXIN / 2 Hz LXIN / 210 Hz Reserved Reserved With low-frequency double NORMAL mode SLOW mode disable disable LXIN / 22 Hz Reserved LXIN / 23 Hz Reserved 4 LXIN / 2 Hz Reserved LXIN / 213 Hz LXIN / 213 Hz LXIN / 2 Hz Reserved 5 LXIN / 2 Hz LXIN / 25 Hz 7 LXIN / 2 Hz LXIN / 27 Hz 9 LXIN / 2 Hz LXIN / 29 Hz Reserved Reserved * This specification are subject to be changed without notice. 12.29.1999 16 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT TIMER / COUNTER (TIMERA, TIMERB) Timer/counters can support user three special functions: 1. Even counter 2. Timer. 3. Pulse-width measurement. These three functions can be executed by 2 timer/counter independently. For timerA, the counter data is saved in timer register TAH, TAM, TAL, which user can set counter initial value and read the counter value by instruction "LDATAH(M,L), STATAH(M,L)" and timer register is TBH, TBM, TBL and W/R instruction "LDATBH (M,L), STATBH (M,L)". The basic structure of timer/counter is composed by two same structure counter, these two counters can be set initial value and send counter value to timer register, P28 and P29 are the command ports for timerA and timer B, user can choose different operation mode and different internal clock rate by setting these two ports. When timer/counter overflow, it will generate a TRGA(B) interrupt request to interrupt control unit. INTERRUPT CONTROL TRGA request DATA BUS 12 BIT COUNTER 12 BIT COUNTER TRGB request P7.0/ TRGA internal clock EVENT COUNTER CONTROL EVENT COUNTER CONTROL P8.1/ TRGB TIMER CONTROL PULSE-WIDTH MEASUREMENT CONTROL TIMER CONTROL PULSE-WIDTH MEASUREMENT CONTROL MUX internal clock high speed timer/counter P28 TMSA IPSA P29 TMSB IPSB TIMER/COUNTER CONTROL P8.1/TRGB, P7.0/TRGA are the external timer inputs for timerB and timerA, they are used in event counter and pulse-width measurement mode. Timer/counter command port: P28 is the command port for timer/counterA and P29 is for the timer/ counterB. Port 28 3 2 1 0 TIMER/COUNTER MODE SELECTION TMSA (B) 00 01 Port 29 3 2 1 0 IPSB 11 Pulse width measurement mode 10 Stop Event counter mode Timer mode Function description TMSA IPSA Initial state: 0000 TMSB Initial state: 0000 * This specification are subject to be changed without notice. 12.29.1999 17 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT IPSA 0 0 1 1 0 1 0 1 INTERNAL PULSE-RATE SELECTION Low-frequency With low-frequency double NORMAL mode SLOW mode NORMAL mode SLOW mode Reserved LXIN/22 Hz Reserved LXIN/23 Hz LXIN/27 Hz LXIN/27 Hz LXIN/26 Hz LXIN/26 Hz 11 11 10 LXIN/2 Hz LXIN/2 Hz LXIN/2 Hz LXIN/210 Hz 15 15 14 LXIN/2 Hz LXIN/2 Hz LXIN/214 Hz LXIN/2 Hz INTERNAL PULSE-RATE SELECTION Low-frequency With low-frequency double NORMAL mode SLOW mode NORMAL mode SLOW mode Depend on high speed timer/counter Depend on high speed timer/counter LXIN/25 Hz LXIN/24 Hz LXIN/24 Hz LXIN/25 Hz 9 9 8 LXIN/2 Hz LXIN/2 Hz LXIN/2 Hz LXIN/28 Hz 13 13 12 LXIN/2 Hz LXIN/2 Hz LXIN/2 Hz LXIN/212 Hz IPSB 0 0 1 1 0 1 0 1 TIMER/COUNTER FUNCTION Timer/counter A can be programmable for timer, event counter and pulse width measurement. Each timer/ counter can execute any one of these functions independly. EVENT COUNTER MODE For event counter mode, timer/counter increases one at any rising edge of P8.1/TRGB for timerB (P7.0/ TRGA for timer A). When timerB (timerA) counts overflow, it will give interrupt control an interrupt request TRGB (TRGA). P8.1/TRGB (P7.0/TRGA) TimerB (TimerA) value n n+1 n+2 n+3 n+4 n+5 n+6 PROGRAM EXAMPLE: Enable timerA with P28 LDIA OUTA #0100B ; P28 ; Enable timerA with event counter mode TIMER MODE For timer mode, timer/counter increase one at any rising edge of internal pulse. User can choose 4 kinds of internal pulse rate by setting IPSB for timerB (IPSA for timerA). When timer/counter counts overflow, TRGB (TRGA) will be generated to interrupt control unit. Internal pulse TimerB (TimerA )value n n+1 n+2 n+3 n+4 n+5 n+6 n+7 * This specification are subject to be changed without notice. 12.29.1999 18 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT LDIA EXAE EICIL LDIA STATAL LDIA STATAM LDIA STATAH LDIA OUTA PROGRAM EXAMPLE: To generate TRGA interrupt request after 60 ms with system clock LXlN=32KHz #0100B ; ; enable mask 2 110111B ; interrupt latch 0, enable EI #0AH ; ; #00H ; ; #0FH ; ; #1000B ; P28 ; enable timerA with internal pulse rate: LXIN/23 Hz NOTE: The preset value of timer/counter register is calculated as following procedure. Internal pulse rate: LXIN/23 ; LXIN = 32KHz The time of timer counter count one = 23 /LXIN = 8/32768=0.244ms The number of internal pulse to get timer overflow = 60 ms/ 0.244ms = 245.901= 0F6H The preset value of timer/counter register = 1000H - 0F6H = 0F0AH PULSE WIDTH MEASUREMENT MODE For the pulse width measurement mode, the counter only incresed by the rising edge of internal pulse rate as external timer/counter input (P8.1/TRGB, P7.0/TRGA ), interrupt request will be generated as soon as timer/counter count overflow. P8.1/TRGB(P8.3/TRGA) Internal pulse TimerB(TimerA) value n n+1 n+2 n+3 n+4 n+5 PROGRAM EXAMPLE: Enable timerA by pulse width measurement mode. LDIA OUTA #1100b ; P28 ; Enable timerA with pulse width measurement mode. HIGH SPEED TIMER/COUNTER EM73866 has one 8-bit high speed timer/counter (HTC). It supports three special functions : auto load timer, melody output and pulse width measurement modes. The HTC is available for the NORMAL and SLOW operation mode. The HTC can be set initial value and send counter value to counter registers (P11 and P10), P31 is the command port for HTC, user can choose different operation mode and different internal clockrate by setting the port. The timer/counter increase one at the rising edge of internal pulse. The HTC can generate an overflow interrupt (HTCI) when it overflows. The HTCI cannot be generated when the HTC is in the melody mode or disabled. * This specification are subject to be changed without notice. 12.29.1999 19 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Output data FHTC P4.0/SOUND mask option P31(1,0) XIN P4.1/TRGH P31(3,2) O2 8-bit binary counter Overflow HTCI interrupt Timer/counter B Reload P11 P10 Data bus Input data P31 is the command register of the 8-bit high speed timer/counter. 2 1 0 Initial value : 0000 P31 3 HTMS HIPS HTMS 00 01 10 11 HIPS 0 0 1 1 0 1 0 1 Mode selection Stop Auto load timer mode Melody mode Pulse width measurement mode CLOCK RATE SELECTION Low-frequency With low-frequency double NORMAL mode SLOW mode NORMAL mode SLOW mode LXIN/20 Hz LXIN/20 Hz 2xLXIN Hz 2xLXIN Hz 2 2 1 LXIN/2 Hz LXIN/2 Hz LXIN/2 Hz LXIN/21 Hz 4 3 RCIN/2 Hz Reserved RCIN/2 Hz Reserved RCIN/26 Hz Reserved RCIN/25Hz Reserved P11 and P10 are the counter registers of the 8-bit high speed timer/counter. P10 is the lower nibble register and P11 is the higher nibble register. (HT is the value of counter registers.) P11 3 2 1 0 Higher nibble register P10 3 2 1 0 Lower nibble register Initial value : 0000 0000 (HT) * This specification are subject to be changed without notice. 12.29.1999 20 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT LDIA OUTA LDIA OUTA LDIA OUTA ** FHTC=[(XIN/2X)/(100H-HT)]/2, HT=0~255 ** Example : LXIN=32K Hz, HIPS=01, HT=11110000B=0F0H. FHTC=[(32K Hz/22)/(100H-0f0H)]/2=256 Hz. #1111B P11 #0000B P10 #1001B P31 The value of 8-bit binary up counter can be presetted by P10 and P11. The value of registers can loaded into the HTC when the counter starts counting or occurs overflow. If user write value to the registers before the next overflow occurs, the preset value can be changed. The preset value will be changed when users output the different data to P10 and P11. The count value of HTC can be read from P10 and P11. The value is unstable when user read the value during counting. Thus, user must disable the counter before reading the value. The P4.0/SOUND and SOUND pins will output the squre wave in the melody mode. When the CPU is not in the melody mode, the P4.0/SOUND is high and SOUND is low. The P4.1/RGH pin will be the input pin in the pulse width measurement mode. User must output high to P4.1/ TRGH and then it can be the HTC external input pin. When the HTC is disabled, the P4.1 pin is a normal I/ O pin. INTERRUPTFUNCTION There are 6 interrupt sources, 2 external interrupt sources, 4 internal interrupt sources. Multiple interrupts are admitted according the priority. Interrupt source Priority 1 2 3 4 5 6 Interrupt Interrupt Program ROM Latch Enable condition entry address IL5 IL4 IL3 IL2 IL1 IL0 EI=1 EI=1, MASK3=1 EI=1, MASK2=1 EI=1, MASK1=1 EI=1,MASK0=1 002H 004H 006H 008H 00AH 00CH Type External Internal Internal Internal Internal External External interrupt (INT0) High speed timer overflow interrupt(HTCI) TimerA overflow interrupt (TRGA) TimerB overflow interrupt (TRGB) Time base interrupt (TBI) External interrupt(INT1) INTERRUPT STRUCTURE MASK0 MASK1 MASK1 MASK2 MASK3 INT1 r0 Reset by system reset and program instruction IL0 TBI r1 IL1 TRGB r2 IL2 TRGA r3 IL3 HTCI r4 IL4 INT0 r5 IL5 Priority checker Reset by system reset and program instruction Set by program instruction EI Entry address generator Interrupt request Interrupt entry address * This specification are subject to be changed without notice. 12.29.1999 21 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Interrupt controller: IL0-IL5 : Interrupt latch. Hold all interrupt requests from all interrupt sources. ILr can not be set by program, but can be reset by program or system reset, so IL only can decide which interrupt source can be accepted. : Except INT0 ,MASK register can promit or inhibit all interrupt sources. : Enable interrupt Flip-Flop can promit or inhibit all interrupt sources, when interrupt happened, EI is cleared to "0" automatically, after RTI instruction happened, EI will be set to "1" again. MASK0-MASK3 EI Priority checker: Check interrupt priority when multiple interrupts happened. INTERRUPT FUNCTION The procedure of interrupt operation: 1. Push PC and all flags to stack. 2. Set interrupt entry address into PC. 3. Set SF= 1. 4. Clear EI to inhibit other interrupts happened. 5. Clear the IL for which interrupt source has already be accepted. 6. To excute interrupt subrountine from the interrupt entry address. 7. CPU accept RTI, restore PC and flags from stack. Set EI to accept other interrupt requests. PROGRAM EXAMPLE: To enable interrupt of "INT0, TRGA" LDIA EXAE EICIL #1100B ; ; set mask register "1100B" 111111B ; enable interrupt F.F. LCD DRIVER EM73866 can directly drive the liquid crystal display (LCD) and has max. 32 segment and 4 common output pins. There are total 32 x 4 dots can be display. The VRLC pin is the LCD driver power input, there is the voltage of (VCC-VRLC) to LCD. CONTROL OF LCD DRIVER The LCD driver control command register is P27. When LDC is 00, the LCD is disabled and changes the duty only. When LDC is 01, the LCD is blanking, the COM pins are inactive and the SEG pins continuously output the display data. When LDC is 11, the LCD driver enables, the power switch is turned on and it cannot off forever except the CPU is reseted or sleeping. User must enable the LCD driver by self when the CPU is waked up. Port27 3 2 1 0 Initial value : 0000 DUTY 00 01 10 11 Driving method select 1/4 duty (1/3 bias) 1/3 duty (1/3 bias) 1/2 duty (1/2 bias) Static Frame frequency 85 Hz 114 Hz 171 Hz 85 Hz 12.29.1999 22 LDC 0 0 1 1 DUTY LDC 0 1 0 1 LCD display control LCD display disable & change duty Blanking Reserved LCD display enable * This specification are subject to be changed without notice. EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT The storing region of data RAM for LCD display data. RAM COM3 COM2 address bit3 bit2 SEG0 20H SEG1 21H SEG2 22H : : SEG32 3FH The relation between LCD display data and driving method Driving method bit3 bit2 1/4 duty COM3 COM2 1/3 duty COM2 1/2 duty Static PROGRAM EXAMPLE: LDIA OUTA LDIA OUTA LDIA STA #0000B P27 ; Set LCD duty #1100B P27 ; Enable LCD #1010B 24H COM1 bit1 COM0 bit0 bit1 COM1 COM1 COM1 - bit0 COM0 COM0 COM0 COM0 LCD driving methods There are four kinds of driving methods can be selected by DUTY (P27.0~P27.1). Ther are two waveform types, but for the reason of the number of voltage transition point in type A is greater than type B, so type B gets a better display performance. The driving waveforms type A and B of LCD driver are as below : * This specification are subject to be changed without notice. 12.29.1999 23 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT TYPE A : * 1/4 duty (1/3 bias) COM0 * 1/3 duty (1/3 bias) COM0 * 1/2 duty (1/2 bias) COM0 * Static COM0 COM1 COM1 COM1 COM2 COM2 COM3 SEG0 SEG0 SEG0 SEG0 ON OFF SEG0~COM0 ON ON SEG0~COM0 ON SEG0~COM0 ON SEG0~COM0 SEG0~COM1 OFF SEG0~COM1 OFF SEG0~COM1 OFF SEG0~COM0 OFF Frame Frame Frame Frame TYPE B : (1) 1/4 duty (1/3 bias) COM0 V3 V2 V1 Vss V3 V2 V1 Vss V3 V2 V1 Vss V3 V2 V1 Vss V3 V2 V1 Vss V3 V2 V1 Vss -V1 -V2 -V3 V3 V2 V1 Vss -V1 -V2 -V3 (2 ) 1/3 duty (1/3 bias) V3 V2 V1 Vss V3 V2 V1 Vss V3 V2 V1 Vss (3) 1/2 duty (1/2 bias) V3 V1 Vss V3 V1 Vss (4) static V3 V1 Vss COM1 COM2 COM3 SEG0 V3 V2 V1 Vss V3 V2 V1 Vss -V1 -V2 -V3 V3 V2 V1 Vss -V1 -V2 -V3 V3 V1 Vss V3 V1 Vss -V1 -V3 V3 V1 Vss -V1 -V3 Frame ON OFF V3 V1 Vss SEG0-COM0 ON V3 Vss -V3 V3 Vss -V3 Frame SEG0-COM1 OFF Frame Frame * This specification are subject to be changed without notice. 12.29.1999 24 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT WATCH-DOG-TIMER (WDT) Watch-dog-timer can help user to detect the malfunction (runaway) of CPU and give system a timeup signal every certain time. User can use the time up signal to give system a reset signal when system is fail. This function is available by mask option. If the mask option of WDT is enabled, it will stop counting when CPU is reseted or in the STOP operation mode. The basic structure of Watch-Dog-Timer control is composed by a 4-stage binary counter and a control unit. The WDT counter counts for a certain time to check the CPU status, if there is no malfunction happened, the counter will be cleared and continue counting. Otherwise, if there is a malfunction happened, the WDT control will send a WDT signal (low active) to reset CPU. The WDT checking period is assign by P21 (WDT command port). WDT counter LXIN/213 0 1 2 3 RESET pin counter clear request mask option WDT control P21 WDT command port P21 is the control port of watch-dog-timer, and the WDT time up signal is connected to RESET. Port 21 CWC 0 1 WDT 0 1 CWC 3 * 2 * 1 WDT 0 Initial value :0000 Clear watchdog timer counter Clear counter then return to 1 Nothing SET WATCH-DOG-TIMER DETECT TIME Low-frequency With low-frequency double 13 13 12 3 x 2 /LXIN = 3 x 212/32K Hz = 0.375 sec 3 x 2 /LXIN = 3 x 2 /32K Hz = 0.75 sec 13 13 7 x 2 /LXIN = 7 x 2 /32K Hz = 1.75 sec 7 x 212/LXIN = 7 x 212/32K Hz = 0.875 sec * This specification are subject to be changed without notice. 12.29.1999 25 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT PROGRAM EXAMPLE To enable WDT with 7x213/LXIN detection time. LDIA #0001B OUTA P21 ; set WDT detection time and clear WDT counter : : RESETTING FUNCTION When CPU in normal working condition and RESET pin holds in low level for three instruction cycles at least, then CPU begins to initialize the whole internal states, and when RESET pin changes to high level, CPU begins to work in normal condition. The CPU internal state during reset condition is as following table : Hardware condition in RESET state Program counter Status flag Interrupt enable flip-flop ( EI ) MASK0 ,1, 2, 3 Interrupt latch ( IL ) P10, 11,14, 16, 19, 21, 22, 25, 27, 28, 29, 31 P1, 3, 4, 5, 6, 7, 8 Both oscillator Initial value 0000h 01h 00h 00h 00h 00h 0Fh Start oscillation The RESET pin is a hysteresis input pin and it has a pull-up resistor available by mask option. The simplest RESET circuit is connect RESET pin with a capacitor to VSS and a diode to VDD. RESET * This specification are subject to be changed without notice. 12.29.1999 26 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT EM73866 I/O PORT DESCRIPTION : Port 0 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 E E E E E E E E E Input function Input port , wakeup function Input port Input port , wakeup function Input port Input port , wakeup function Input port , wakeup function Input port Input port, wakeup function Input port, wakeup function -----CPU status -Output function Note I E Output port -E Output port, shared with segment E Output port E Output port, P4.0/SOUND, P4.1(TRGH) E Output port E Output port, P7.0(TRGA) E Output port,P8.0(INT1),P8.1(TRGB),P8.2(INT1) -I High speed Timer/Counter Register Low nibble I High speed Timer/Counter Register High nibble --I Clear P14.0 to 0 -I STOP mode control register --I IDLE mode control register -I WDT control register I Slow mode control register --I Timebase control register -I LCD control register I Timer/counter A control register I Timer/counter B control register -I HTC control register E : External port I : Internal port * This specification are subject to be changed without notice. 12.29.1999 27 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT ABSOLUTE MAXIMUM RATINGS Items Supply Voltage Input Voltage Output Voltage Power Dissipation Operating Temperature Storage Temperature Items Sym. VDD VIN VO PD T OPR TSTG Sym. Ratings -0.5V to 6V -0.5V to VDD+0.5V -0.5V to VDD+0.5V 300mW 0oC to 50oC -55oC to 125oC Ratings Max. 6.0V VDD : 2.0~5.5V Osc LXIN, LXOUT (crystal osc) Conditions TOPR=50oC RECOMMANDED OPERATING CONDITIONS Supply Voltage VDD Condition 4MHz by RC osc Input Voltage schmitt circuit Operating Frequency VIH VIL FC Fs Min. Normal 2.2V Slow 2.2V Idle 2.2V Stop 2.0V 0.80xVDD to VDD 0V to 0.20 to VDD 4MHz 32KHz * This specification are subject to be changed without notice. 12.29.1999 28 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT DC ELECTRICAL CHARACTERISTICS (VDD=50.5V, VSS=0V, TOPR=25oC) Parameters Supply current Sym. I DD_Xtal Min. - Typ. 1 100 80 0.1 650 80 45 0.1 16 550 24 11 460 22 150 150 70 20 20 Max. 2 150 100 1 1000 120 70 1 0.75VDD 0.40VDD Unit mA A A A A A A A V V A A mA A A V V V mA A A A K K K % % Conditions VDD=5.5V,no load,NORMAL mode, Fc=4MHz, Fs=32KHz (crystal) VDD=5.5V,no load,SLOW mode,Fs=32KHz (crystal) VDD=5.5V,no load,RVRLC=68K,IDLE mode, Fs=32KHz (crystal) VDD=5.5V,STOP mode (crystal) VDD=5.5V,no load,NORMAL mode, Fc=4MHz,Fs=32KHz (RC, OSC) VDD=5.5V,no load,SLOW mode,Fs=32KHz (RC, OSC) VDD=5.5V,no load,RVRLC=68K,IDLE mode, Fs=32KHz (RC, OSC) VDD=5.5V,STOP mode (RC, OSC) RESET,all I/O ports except P3 RESET, P0,P2, VDD=5.5V,VIH=5.5/0V Open-drain,VDD=5.5V,VIH=5.5/0V P1,P4 I/O port acts as input(push-pull), P1,P3~8 optional,VDD=4.5V,VIL=0.2V P1,P3~8 VDD=4.5V,IOH=3mA for P1 VDD=4.5V,see IOH=typical. for P3~8 VDD=4.5V,IOL=0.5mA,P1,P3~8 P1,P4,optional VDD=4.5V,VOH=2.2V P1,P3~8,optional P1,P3~8,optional Open-drain,VDD=5.5V,Vo=5.5V P0,P2,pull-up,optional P0,P2,pull-down,optional RESET VDD=2.2~5.5V+10% RC OSC R=100K+2%, fc=4MHz VDD=2.2~5.5V+10% RC OSC R=1M+2%, fs=32KHz I DD_RC Hysteresis voltage Input current V HYS+ V HYSI IH 0.50VDD 0.20VDD High current Normal current I IL Low current Output Voltage High current Normal current VOH1 VOH VOL IOH Low current Leakage current ILO Input resistor RIN 12 450 20 3 2.2 9 420 18 120 120 50 High Frequency Variation Low Frequency Variation 1 1 20 650 28 0.2 14 500 27 1 180 180 90 30 30 * This specification are subject to be changed without notice. 12.29.1999 29 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT RESET PIN TYPE TYPE RESET-A RESET mask option OSCILLATION PIN TYPE TYPE OSC-A TYPE OSC-B LXIN XIN Crystal Osc. XOUT LXOUT Crystal Osc. TYPE OSC-H1 (Low frequency) VDD 1Mohm LXIN TYPE OSC-H2 (High frequency) VDD RC Osc. 10Kohm OSC RC Osc. INPUT PIN TYPE TYPE INPUT-K positive edge input data detector WAKEUP mask option negative edge detector : mask option I/O PIN TYPE TYPE I/O-N TYPE I/O-O path B path A Input data TYPE I/O-N Output data latch Output data Special function output : mask option : mask option * This specification are subject to be changed without notice. 12.29.1999 30 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT TYPE I/O-Q TYPE I/O-R1 path B path A Input data TYPE I/O-Q Output data latch Output data Special function output : mask option WAKEUP function mask option TYPE I/O-S path B path A SEL TYPE I/O-Z Special function control input Input data Output data latch TYPE I/O-Q path B path A Input data Power-on reset Output data Special function output TYPE I/O-N Output data : mask option Output S R data latch WAKEUP function mask option Path A : Path B : For set and clear bit of port instructions, data goes through path A from output data latch to CPU. For input and test instructions, data from output pin go through path B to CPU and the output data latch will be set to high. * This specification are subject to be changed without notice. 12.29.1999 31 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT PAD DIAGRAM P8.1/W/TRGB P8.0/W/INT1 P8.2/W/INT0 P7.0/W/TRGA P0.0/W P0.1/W P0.2/W P0.3/W P2.0/W P2.1/W P2.2/W P2.3/W VDD 1 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 RESET XOUT XIN/OSC TEST P6.1 P6.0 P3.3 P3.2 P3.1/(SEG31) P3.0/(SEG30) VSS VRLC V1 V2 V3 VDD SEG0 SEG1 SEG2 SEG3 SEG4 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41 40 39 38 VSS P5.3/W P4.0/SOUND/W P4.1/W P4.2/W P4.3/W LXIN LXOUT COM3 COM2 COM1 COM0 SEG29 SEG28 SEG27 SEG26 SEG25 SEG24 SEG23 SEG22 SEG21 SEG20 (0,0) EM73866 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18 SEG19 SEG5 SEG6 SEG7 SEG8 SEG9 * This specification are subject to be changed without notice. P1.0 P1.1 P5.0/W P5.1/W P5.2/W 12.29.1999 32 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Pad No. 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 33 34 35 36 37 38 39 40 Symbol P0.0/W RESET XOUT XIN/OSC TEST P6.1 P6.0 P3.3 P3.2 P3.1/(SEG31) P3.0/(SEG30) VSS VRLC V1 V2 V3 VDD SEG0 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7 SEG8 SEG9 SEG10 SEG11 SEG12 SEG13 SEG14 SEG15 SEG16 SEG17 SEG18 SEG19 SEG20 SEG21 SEG22 X -1056.5 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -991.7 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -1030.3 -839.4 -719.4 -599.4 -479.4 -359.4 -239.4 -119.4 0.6 120.6 240.6 360.6 480.6 600.6 720.6 840.6 1030.2 1030.2 1030.2 Y 1391.1 1186.6 1066.7 946.7 826.7 703.3 583.4 459.5 339.6 215.8 95.8 -105.5 -271.5 -391.5 -511.5 -631.5 -782.8 -902.8 -1022.8 -1142.8 -1262.8 -1382.8 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.2 -1390.7 -1270.7 -1150.7 * This specification are subject to be changed without notice. 12.29.1999 33 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Pad No. 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 Symbol SEG23 SEG24 SEG25 SEG26 SEG27 SEG28 SEG29 COM0 COM1 COM2 COM3 LXOUT LXIN P4.3/W P4.2/W P4.1/W P4.0/SOUND/W P5.3/W VSS P5.2/W P5.1/W P5.0/W P7.0/W/TRGA P1.1 P1.0 VDD P8.2/W/INT0 P8.1/WTRGB P8.0/W/INT1 P2.3/W P2.2/W P2.1/W P2.0/W P0.3/W P0.2/W P0.1/W X 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1030.2 1061.1 941.0 817.2 697.2 573.4 453.4 332.0 180.7 56.9 -63.1 -189.5 -309.5 -438.5 -558.5 -687.5 -807.5 -936.5 Y -1030.7 -910.7 -790.7 -670.7 -550.7 -430.7 -310.7 -190.7 -70.7 49.3 169.3 289.3 409.2 531.2 651.2 775.0 895.0 1018.8 1181.6 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 1391.1 Chip size : 2420 * 3140 UM Unit : m For PCB layout, IC substrate must be floated or connected at Vss. * This specification are subject to be changed without notice. 12.29.1999 34 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT INSTRUCTION TABLE (1) Data Transfer Mnemonic LDA x LDAM LDAX LDAXI LDH #k LDHL x LDIA #k LDL #k STA x STAM STAMD STAMI STD #k,y STDMI #k THA TLA (2) Rotate Mnemonic RLCA RRCA Object code ( binary ) Operation description 0101 0000 0101 0001 CFAcc CFAcc Byte 1 1 Cycle 1 1 Flag Z Z Z Object code ( binary ) 0110 1010 xxxx xxxx 0101 1010 0110 0101 0110 0111 1001 kkkk 0100 1110 xxxx xx00 1101 kkkk 1000 kkkk 0110 1001 xxxx xxxx 0101 1001 0111 1101 0111 1111 0100 1000 kkkk yyyy 1010 kkkk 0111 0110 0111 0100 Operation description AccRAM[x] Acc RAM[HL] AccROM[DP] L AccROM[DP] H,DP+1 HRk LRRAM[x],HRRAM[x+1] Acck LRk RAM[x]Acc RAM[HL]Acc RAM[HL]Acc, LR-1 RAM[HL]Acc, LR+1 RAM[y]k RAM[HL]k, LR+1 AccHR AccLR Byte 2 1 1 1 1 2 1 1 2 1 1 1 2 1 1 1 Cycle 2 1 2 2 1 2 1 1 2 1 1 1 2 1 1 1 C Flag Z Z Z Z Z Z Z Z Z Z Z S 1 1 1 1 1 1 1 1 1 1 C C' 1 C' 1 1 C C C S C' C' (3) Arithmetic operation Mnemonic ADCAM ADD #k,y ADDA #k ADDAM ADDH #k ADDL #k ADDM #k DECA DECL DECM INCA Object code ( binary ) 0111 0100 0110 0111 0110 0110 0110 0101 0111 0101 0101 0000 1001 kkkk yyyy 1110 0101 kkkk 0001 1110 1001 kkkk 1110 0001 kkkk 1110 1101 kkkk 1100 1100 1101 1110 Operation description AccAcc + RAM[HL] + CF RAM[y]RAM[y] +k AccAcc+k AccAcc + RAM[HL] HRHR+k LRLR+k RAM[HL]RAM[HL] +k AccAcc-1 LRLR-1 RAM[HL]RAM[HL] -1 AccAcc + 1 Byte 1 2 2 1 2 2 2 1 1 1 1 Cycle 1 2 2 1 2 2 2 1 1 1 1 C C Flag Z Z Z Z Z Z Z Z Z Z Z Z S C' C' C' C' C' C' C' C C C C' * This specification are subject to be changed without notice. 12.29.1999 35 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT INCL INCM SUBA #k SBCAM SUBM #k 0111 1110 0101 1111 0110 1110 0111 kkkk 0111 0010 0110 1110 1111 kkkk LRLR + 1 RAM[HL]RAM[HL]+1 Acck-Acc AccRAM[HLl - Acc - CF' RAM[HL]k - RAM[HL] 1 1 2 1 2 1 1 2 1 2 C - Z Z Z Z Z C' C' C C C (4) Logical operation Mnemonic ANDA #k ANDAM ANDM #k ORA #k ORAM ORM #k XORAM (5) Exchange Mnemonic Object code ( binary ) Operation description Byte Cycle Flag C Z S Object code ( binary ) 0110 0111 0110 0110 0111 0110 0111 1110 0110 kkkk 1011 1110 1110 kkkk 1110 0100 kkkk 1000 1110 1100 kkkk 1001 Operation description AccAcc&k AccAcc & RAM[HL] RAM[HL]RAM[HL]&k AccAcc k Acc Acc RAM[HL] RAM[HL]RAM[HL] k AccAcc^RAM[HL] ----- Byte 2 1 2 2 1 2 1 Cycle 2 1 2 2 1 2 1 C - Flag Z Z Z Z Z Z Z Z S Z' Z' Z' Z' Z' Z' Z' EXA x EXAH EXAL EXAM EXHL x (6) Branch Mnemonic 0110 1000 xxxx xxxx 0110 0110 0110 0100 0101 1000 0100 1100 xxxx xx00 AccRAM[x] AccHR AccLR AccRAM[HL] LRRAM[x], HRRAM[x+1] 2 1 1 1 2 2 2 2 1 2 - Z Z Z Z - 1 1 1 1 - 1 Object code ( binary ) Operation description Byte Cycle SBR a LBR a SLBR a 00aa aaaa 1100 aaaa aaaa aaaa 0101 0101 1100 aaaa aaaa aaaa (a:1000~1FFFh) If SF=1 then PCPC12-6.a5-0 else null If SF= 1 then PCa else null If SF=1 then PCa else null 1 2 3 1 2 3 Flag C Z - - S 1 - - 1 1 0101 0111 1100 aaaa (7) Compare Mnemonic aaaa aaaa (a:0000~0FFFh) Object code ( binary ) Operation description Byte Cycle CMP #k,y 0100 1011 kkkk yyyy CMPA x 0110 1011 xxxx xxxx k-RAM[y] RAM[x]-Acc 2 2 2 2 Flag C Z C C Z Z Z' Z' 36 S * This specification are subject to be changed without notice. 12.29.1999 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT Mnemonic Object code ( binary ) Operation description Byte Cycle CMPAM CMPH #k CMPIA #k CMPL #k 0111 0011 0110 1110 1011 kkkk 1011 kkkk 0110 1110 0011 kkkk RAM[HL] - Acc k - HR k - Acc k-LR 1 2 1 2 1 2 1 2 C C - C Flag Z Z Z Z Z Z' C Z' C S (8) Bit manipulation Mnemonic CLM CLP CLPL CLR SEM SEP SEPL SET TF TFA TFM TFP TFPL TT TTP b p,b y,b b p,b y,b y,b b b p,b y,b p,b Object code ( binary ) 1111 00bb 0110 1101 11bb pppp 0110 0000 0110 1100 11bb yyyy 1111 01bb 0110 1101 01bb pppp 0110 0010 0110 1100 01bb yyyy 0110 1100 00bb yyyy 1111 10bb 1111 11bb 0110 1101 00bb pppp 0110 0001 0110 1100 10bb yyyy 0110 1101 10bb pppp Operation description RAM[HL]b0 PORT[p]b0 PORT[LR3-2+4]LR1-00 RAM[y]b0 RAM[HL]b1 PORT[p]b1 PORT[LR3-2+4]LRl-01 RAM[y]b1 SFRAM[y]b' SFAcc b' SFRAM[HL]b' SFPORT[p]b' SFPORT[LR 3-2 +4]LR1-0' SFRAM[y]b SFPORT[p]b Byte 1 2 1 2 1 2 1 2 2 1 1 2 1 2 2 Cycle 1 2 2 2 1 2 2 2 2 1 1 2 2 2 2 C Flag Z S 1 1 1 1 1 1 1 1 * * * * * * * (9) Subroutine Mnemonic LCALL a SCALL a RET (10) Input/output Mnemonic INA INM OUT OUTA OUTM p p #k,p p p Object code ( binary ) 0110 1111 0100 pppp 0110 1111 1100 pppp 0100 1010 kkkk pppp 0110 1111 000p pppp 0110 1111 100p pppp Operation description AccPORT[p] RAM[HL]PORT[p] PORT[p]k PORT[p]Acc PORT[p]RAM[HL] Byte 2 2 2 2 2 Cycle 2 2 2 2 2 C Flag Z Z S Z' Z' 1 1 1 37 Object code ( binary ) 0100 0aaa aaaa aaaa 1110 nnnn 0100 1111 Operation description STACK[SP]PC, SPSP -1, PCa STACK[SP]PC, SPSP - 1, PCa, a = 8n + 6 (n =115),0086h (n = 0) SPSP + 1, PCSTACK[SP] Byte 2 1 1 Cycle 2 2 2 C - Flag Z - S - * This specification are subject to be changed without notice. 12.29.1999 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT (11) Flag manipulation Mnemonic TFCFC TTCFS TZS Object code ( binary ) Operation description 0101 0011 0101 0010 0101 1011 SFCF', CF0 SFCF, CF1 SFZF Byte 1 1 1 Cycle 1 1 1 C 0 1 Flag Z S * * * (12) Interrupt control Mnemonic CIL r DICIL r EICIL r EXAE RTI (13) CPU control Mnemonic NOP Object code ( binary ) 0101 0110 Operation description no operation Byte 1 Cycle 1 C Flag Z S Object code ( binary ) 0110 0011 11rr rrrr 0110 0011 10rr rrrr 0110 0011 01rr rrrr 0111 0101 0100 1101 Operation description ILIL & r EIF0,ILIL&r EIF1,ILIL&r MASKAcc SPSP+1,FLAG.PC STACK[SP],EIF 1 Byte 2 2 2 1 1 Cycle 2 2 2 1 2 C * Flag Z * S 1 1 1 1 * (14) Timer/Counter & Data pointer & Stack pointer control Mnemonic Object code ( binary ) Operation description Byte 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 Cycle 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 C Flag Z Z Z Z Z Z Z Z Z Z Z S 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 38 LDADPL 0110 1010 1111 1100 Acc[DP]L LDADPM 0110 1010 1111 1101 Acc[DP] M LDADPH 0110 1010 1111 1110 Acc[DP] H LDASP 0110 1010 1111 1111 AccSP LDATAL 0110 1010 1111 0100 Acc[TA] L LDATAM 0110 1010 1111 0101 Acc[TA]M LDATAH 0110 1010 1111 0110 Acc[TA] H LDATBL 0110 1010 1111 1000 Acc[TB] L LDATBM 0110 1010 1111 1001 Acc[TB]M LDATBH 0110 1010 1111 1010 Acc[TB]H STADPL 0110 1001 1111 1100 [DP] LAcc STADPM 0110 1001 1111 1101 [DP] M Acc STADPH 0110 1001 1111 1110 [DP] HAcc STASP 0110 1001 1111 1111 SPAcc STATAL 0110 1001 1111 0100 [TA] LAcc STATAM 0110 1001 1111 0101 [TA]M Acc STATAH 0110 1001 1111 0110 [TA] HAcc STATBL 0110 1001 1111 1000 [ TB] LAcc STATBM 0110 1001 1111 1001 [TB] MAcc STATBH 0110 1001 1111 1010 [TB] HAcc * This specification are subject to be changed without notice. 12.29.1999 EM73866 4-BIT MICRO-CONTROLLER FOR LCD PRODUCT **** SYMBOL DESCRIPTION Symbol HR PC SP ACC CF SF IL PORT[p] RAM[x] ROM[DP]H [DP]M [TA]L([TB]L) [TA]H([TB]H) LR3-2 PC12-6 -- Description H register Program counter Stack pointer Accumulator Carry flag Status flag Interrupt latch Port ( address : p ) Timer/counter B Data memory (address : x ) High 4-bit of program memory Middle 4-bit of data pointer register Low 4-bit of timer/counter A (timer/counter B) register High 4-bit of timer/counter A (timer/counter B) register Bit 3 to 2 of LR Bit 12 to 6 of program counter Exchange Substraction Logic OR Inverse operation 4-bit immediate data 4-bit zero-page address Bit address Symbol LR DP STACK[SP] FLAG ZF EI MASK RAM[HL] ROM[DP]L [DP]L [DP]H [TA]M([TB]M) LR 1-0 a5-0 + & ^ . x p r Description L register Data pointer Stack specified by SP All flags Zero flag Enable interrupt register Interrupt mask Timer/counter A Data memory (address : HL ) Low 4-bit of program memory Low 4-bit of data pointer register High 4-bit of data pointer register Middle 4-bit of timer/counter A (timer/counter B) register Contents of bit assigned by bit 1 to 0 of LR Bit 5 to 0 of destination address for branch instruction Transfer Addition Logic AND Logic XOR Concatenation 8-bit RAM address 4-bit or 5-bit port address 6-bit interrupt latch #k y b * This specification are subject to be changed without notice. 12.29.1999 39 |
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