A PLUS MAKE YOUR PRODUCTION A-PLUS ASM0912CB DATA SHEET APLUS INTEGRATED CIRCUITS INC. Address: 3 F-10, No. 32, Sec. 1, Chenggung Rd., Taipei, Taiwan 115, R.O.C. (115)台北市南港區成功路㆒段 32 號 3 樓之 10. Sales E-mail: Mr. Jason [email protected] TEL: 886-2-2782-9266 Technology E-mail: Mr. George [email protected] FAX: 886-2-2782-9255 WEBSITE : http: //www.aplusinc.com.tw ASM0912CB ASM0912CB – VERY LOW-COST VOICE SYNTHESIZER WITH 4-BIT MICROPROCESSOR 1.0 General Description The ASM0912CB is very low cost voice synthesizer with 4-bit microprocessor. It has various features including 4-bit ALU, ROM, RAM, I/O ports, timers, clock generator, watchdog timer(WDT), voice synthesizer, etc. It consists of 22 instructions in the device. With CMOS technology and halt function can minimize power dissipation. Its architecture is similar to RISC, with two stages of instruction pipeline. It allows all instructions to be executed in a single cycle, except for program branches and data table read instructions (which need two instruction cycles). 1.1 Feature Single power supply can operate from 2.4V through 5V Internal Program ROM: 4K x 10-bit 1 sets of 16-bit DPR can access up to 32K x 10 bits data memory space Data Registers: • 96 x 4-bit data RAM (00-1Fh plus 40h-7Fh) • Unbanked special function registers (SFR) range: 20h-3Fh I/O Ports: • PRA: 4-bit I/O Port A (2Bh) • PRB: 4-bit Output Port B (2Dh) • PRC: 4-bit Input Port C (2Fh) On-chip clock generator: Resistive Clock Drive(RM) Timer: 1 • Timer0: a 9-bit auto-reload timer/counter Stack: 2-level subroutine nesting HALT and Release from HALT function to reduce power consumption Watch Dog Timer (WDT) Instruction: 1-cycle instruction except for table read and program branches which are 2-cycles Number of instruction: 22 The Voice function can be implemented by microprocessor instruction • One 8-bit COUT output for ASMxxxxx 1 Rev 1.0 ASM0912CB FIGURE 1.1 : Block Diagram of ASM0912CB Data Bus[3:0] ROM Latch PCLATCH(8) PCL(4) Stack(12) PC[11:0] (ADDR[14:12]) =0000b (2-Level) ADDR[14:0] Instruction Bus [9:0] 1 DPR3,2,1 Instruction Latch 0 ROM_ADDR[14:0] Program (Data) ROM DPR[14:0] Instruction Decoder Control Signal DLATCH(10) ROM_Data[9:0] Data Bus[3:0] Instruction Bus [9:0] Accumlator(4) SRAM ALU(4) Immediate(4) PRA(4) PRB(4) PRC(4) Timer0(9) (96 x 4) Instruction Bus [9:0] PCH(8) 00h-1Fh 40h-7Fh Register(4) enter test mode One-Channel ( Voice synthesizer ) Reset Chip Reset Chip Clock Generator PRASL(4) Test select Power on Reset RESET pin COUT OSC VDD/GND PRA0 P1,P2,P3,P4 weak or strong pull-low for PRA, PRB, PRC COUT 2 Rev 1.0 ASM0912CB FIGURE 1.2 : External ROM Map of ASM0912CB PC[11:0] 12bit x 2 STACK 15-bit Data Pointer Reset Vector 00000h 00080h Reserved for Testing 00080h-003FFh 00400h Program and data ROM 00000h-00FFFh 00FFFh(4K) Data ROM 00000h-07FFFh 07FFFh(32Kx10-bits) 3 Rev 1.0 ASM0912CB 1.2 Pin-Out ASM0912CB Pin-Out PRC1 I PRC0/RESET I STI Std./O.D. STI Std./O.D. PRA3-1 I/O STI Std./O.D. PRA0/RESET I/O STI Std./O.D. OSC VDD1 COUT GND1 GND2 TEST VDD2 PRB0-3 PRC2-3 I I O I I O I O I Std./O.D. STI Std./O.D. Input port with programmable strong pull-low or weak pull-low or fix-input-floating capability Input port with programmable strong pull-low or weak pull-low or fix-input-floating capability Mask option selected as an external RESET pin with weak pull-low capability I/O port with programmable strong pull-low or weak pull-low or fix-input-floating capability Output type with standard or Open-Drain output I/O port with programmable strong pull-low or weak pull-low or fix-input-floating capability Output type with standard or Open-Drain output Mask option selected as an external RESET pin with weak pull-low capability RM mode Oscillator input First Power supply during operation Current Output of Audio First Circuit Ground Potential Second Circuit Ground Potential Enter Test Mode. ( TEST = High ) Second Power supply during operation Output type with standard or Open-Drain output Input port with programmable strong pull-low or weak pull-low or fix-input-floating capability 1.3 Application circuit 4 Rev 1.0 ASM0912CB 1.4 Bonding Diagram 19 18 17 16 RC3 RC2 RC1 RC0 15 14 GND2 13 VDD2 12 TEST OSC ( 32K x 10-bit ) Block ROM ASM0912CB Y=1510+80 (um) RA3 RA2 1 2 RA1 RA0 VDD1 COUT GND1 RB0 3 4 5 6 7 8 RB1 9 RB2 RB3 10 11 X= 1540+80 (um) Substrate must be connected to GND. ASM0912CB Pad Location PAD # PAD Name X 1 RA3 -682.16 2 RA2 -559.84 3 RA1 -437.52 4 RA0 -315.2 5 VDD1 -191.28 6 COUT 71.12 7 GND1 189.52 8 RB0 307.92 9 RB1 430.24 10 RB2 552.56 Chip Size: X= 1540+80 Y PAD # PAD Name -638.92 11 RB3 -638.92 12 OSC -638.92 13 TEST -638.92 14 VDD2 -638.92 15 GND2 -638.92 16 RC0 -638.92 17 RC1 -638.92 18 RC2 -638.92 19 RC3 -638.92 5 (um), Y=1510+80 (um) X Y 674.88 -638.92 633.56 670.24 432.48 670.24 273.16 670.24 134.68 670.24 -51.76 670.24 -248.4 670.24 -454.24 670.24 -650.88 670.24 Rev 1.0 ASM0912CB 1.5 DC Characteristics for ASMxxxxx SYMBOL VDD PARAMETER OPERATING VOLTAGE Isb SUPPLY CURRENT Iop STANDBY OPERATING INPUT CURRENT /Internal pull low Iih Ioh OUTPUT HIGH CURRENT Iol OUTPUT LOW CURRENT DA CURRENT OUT (FULL SCALE) FREQUENCY STABILITY Cout dF/F dF/F VDD MIN. 2.4 TYP. 3 3 5 3 5 3 5 2 7 3 9 5 -5.2 3 5 3 5 3 5 -3 -8 7 20 4 5.2 Fosc VARIATION MAX. 5.0 1 1 UNIT V uA mA uA mA -10 10 % -20 20 % CONDITION depending on Freq. 4MHz, RM in HALT Mode 4MHz, RM IO Floating 4MHz, RM in HALT Mode (IO Ports with weak pull-high pull-low) 4MHz, RM (IO ports) Fosc(3v- 2.4v) Fosc (3v) VDD=3V, Rosc=200k, 4MHz FIGURE 1.3 : Frequency Range for Rosc in RM mode Resistor(k ohm) 3v Freq.(MHz) 300 2.7 200 4.1 130 6.7 100 8.0 R osc & Freq. Freq. MHz 10 8 8 6.7 6 4.1 4 2.7 2 0 0 100 200 300 400 R osc k ohm 6 Rev 1.0