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SM89S16R1C40

SM89S16R1C40

  • 厂商:

    SYNCMOS

  • 封装:

  • 描述:

    SM89S16R1C40 - 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedd...

  • 数据手册
  • 价格&库存
SM89S16R1C40 数据手册
SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Product List SM89S16R1L25, 25MHz 64KB internal flash MCU SM89S16R1C25, 25MHz 64KB internal flash MCU SM89S16R1C40, 40MHz 64KB internal flash MCU Feature Working Voltage: 3.3V or 5.0V. 80C51 Central Processor Unit (CPU). 64K x 8 bits on chip flash memory. 1024 x 8 bits RAM, expandable externally to 64KB. Two standard 16-bits timers/counters An additional 16-bits timer/counter coupled to a capture and compare register. Two 8-bits / 5-bits resolution Pulse-Width-Modulation (PWM) outputs Four 8-bits I/O ports.(For PDIP package) Four 8-bits I/O ports plus one 4-bits I/O port. (For PLCC or QFP package) Full-duplex UART 8 interrupt sources with 2 priority levels Extended temperature range (-40℃ to +85℃) Software enable/disable ALE output pulse Wake-up from POWER-DOWN mode by INT0/INT1, RTCI or H/W RESET. RTC (Real Time Clock) function. Four channels 6-bits Analog to Digital Converter (ADC). General Description The SM89S16R1 is a single-chip 8-bits microcontroller manufactured in an advanced CMOS process with on chip flash memory. It supports a derivative of the 80C51 microcontroller family. The SM89S16R1 has the same instructions set as the 80C51. The SM89S16R1 contains a 64K x 8 bits on chip program flash, a volatile 1024 x 8 bits data RAM, four 8-bits I/O ports, one 4-bits I/O port, two 16-bits timer/event counters, and an additional 16-bits timer coupled to capture and compare latches, a two-priority-level, nested interrupt structure, two PWM clock outputs, one serial interfaces (UART bus). For system that requires extra capability the SM89S16R1 can be expanded using standard TTL and LVTTL compatible memory and logic. In addition, The SM89S16R1 has two software selectable modes of power saving – IDLE mode and POWER-DOWN mode. The IDLE mode freezes the CPU while allowing the RAM, timer, serial ports, and interrupt system to continue functioning. The POWER-DOWN mode saves the RAM contents but freezes the oscillator, causing all other chip functions to be inoperative. Ordering Information SM89S16R1ihhkL yymmv i: process identifier {L=3.0V~3.6V,C=4.5V~ 5.5V} hh: working clock in MHz {25, 40} k: package type postfix {as below table} yy: year mm: month v: version identifier { , A, B, ...} L:PB Free identifier {No text is Non-PB Free,”P” is PB Free} Taiwan 6F, No.10-2 Li- Hsin 1st Road , Science-based Industrial Park, Hsinchu, Taiwan 30078 TEL: 886-3-567-1820 886-3-567-1880 FAX: 886-3-567-1891 886-3-567-1894 Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 1 SyncMOS Technologies International, Inc. Package Spec. Package 44L PQFP 44L PLCC 40L PDIP Pin / PAD Figure 1 Figure 2 Figure 3 SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Frequency 25 MHz at 3.3V and 40MHz at 5V 25 MHz at 3.3V and 40MHz at 5V 25 MHz at 3.3V and 40MHz at 5V Pin Configuration Figure 1 44L PQFP Package Figure 2 44L PLCC Package P1.4/PWM0 P1.1/T2EX P0.0/AD0 P0.1/AD1 P0.2/AD2 41 P2.7/A15/ADC3 P2.6/A14/ADC2 P2.5/A13/ADC1 P1.0/T2 ALE/X32OUT #PSEN/X32IN P1.3 P0.5/AD5 P0.6/AD6 P0.7/AD7 P0.4/AD4 #EA P4.1 6 PWM1/P1.5 7 8 9 10 11 12 13 14 15 16 17 18 #WE/P3.6 5 P1.2 4 3 2 P4.2 1 VDD 44 43 42 P0.3/AD3 40 39 P0.4/AD4 38 P0.5/AD5 37 P0.6/AD6 36 P0.7/AD7 35 #EA 34 P4.1 33 ALE/X32OUT 32 #PSEN/X32IN 31 P2.7/A15/ADC3 30 P2.6/A14/ADC2 29 P2.5/A13/ADC1 28 ADC0/A12/P2.4 33 AD3/P0.3 34 AD2/P0.2 35 AD1/P0.1 36 AD0/P0.0 37 VDD 38 P4.2 39 T2/P1.0 40 T2EX/P1.1 41 P1.2 42 P1.3 43 PWM0/P1.4 44 1 PWM1/P1.5 32 31 30 29 28 27 26 25 24 23 22 P2.4/A12/ADC0 21 P2.3/A11 20 P2.2/A10 19 P2.1/A9 18 P2.0/A8 17 P4.0 16 VSS 15 XTAL1 14 XTAL2 13 P3.7/#RD 12 P3.6/#WE P1.6 P1.7 RES RXD/P3.0 P4.3 TXD/P3.1 #INT0/P3.2 #INT1/P3.3 T0/P3.4 T1/P3.5 19 #RD/P3.7 20 XTAL2 21 XTAL1 22 VSS 23 P4.0 24 A8/P2.0 25 A9/P2.1 26 A10/P2.2 27 A11/P2.3 2 P1.6 3 P1.7 4 RES 5 RXD/P3.0 6 P4.3 7 TXD/P3.1 8 #INT0/P3.2 9 #INT1/P3.3 10 T0/P3.4 11 T1/P3.5 P2.4/A12/ADC0 Figure 3 40L PDIP Package P2.7/A15/ADC3 P2.6/A14/ADC2 P2.5/A13/ADC1 #PSEN/X32IN ALE/X32OUT P0.1/AD1 P0.2/AD2 P0.0/AD0 P0.3/AD3 P0.4/AD4 P0.5/AD5 P0.6/AD6 P0.7/AD7 P2.3/A11 P2.2/A10 P2.1/A9 22 XTAL1 19 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 8 9 10 23 11 12 13 14 15 16 17 P1.6 P1.2 P1.3 P1.7 T0/P3.4 T2/P1.0 T2EX/P1.1 TXD/P3.1 T1/P3.5 #INT0/P3.2 PWM0/P1.4 PWM1/P1.5 #INT1/P3.3 RXD/P3.0 #WE/P3.6 #RD/P3.7 XTAL2 RES 18 Specifications subject to change without notice contact your sales representatives for the most recent information. VSS 20 1 2 3 4 5 6 7 21 P2.0/A8 VDD #EA Ver 2.1 SM89S16R1 08/2006 2 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Block Diagram PWM0 PWM1 ADC0 ADC1 ADC2 ADC3 TxD RxD (3) (3) (1) (1) (2) (2)(2) (2) Xtal1 Xtal2 EA CPU ALE PSEN RD WR (3) (3) UART Int-RAM 256x8 FLASH 64Kx8 Ext-RAM 768x8 PWM ADC C51 CORE iBUS Timer0 Timer1 Timer2 INT PDWU Parallel I/O ports & Ext. Bus Port0 Port1 Port2 Port3 Port4 RTC (3) (3) (1) (1) (3) (3) (3) (3) (4) (4) Notes: (1): Alternate function of P1 (2): Alternate function of P2 (3): Alternate function of P3 (4): Alternate function of ALE, PSEN Specifications subject to change without notice contact your sales representatives for the most recent information. RES INT0 INT1 INT0 P0 INT1 P4 P1 X32OUT X32IN P2 P3 T2 T2EX T1 T0 3 Ver 2.1 SM89S16R1 08/2006 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Pin Description MNEMONIC VDD P0.0 – P0.7 PDIP 40 pin 40 39,38,37,36 35,34,33,32 PQFP 44 Pin 38 37,36,35,34 33,32,31,30 PLCC 44 pin 44 43,42,41,40 39,38,37,36 Names and Functions Power supply: +5V or +3.3V power supply pin during normal operations and power saving modes. Port 0: Port 0 is an open-drain, bidirectional I/O port. Port 0 pins that have 1s written to them become floating and can be used as high- impedance inputs. Port 0 is also the multiplexed low-order address and data bus during accesses to external program and data memory. In this application, it uses strong internal pull-ups when emitting 1s. Port Pin Alternative function P0.0 AD0 P0.1 AD1 P0.2 AD2 P0.3 AD3 P0.4 AD4 P0.5 AD5 P0.6 AD6 P0.7 AD7 Port 1: An 8-bits bidirectional I/O port with internal pull-ups on all pins. Port 1 pins that have 1s written to them are pulled high by the internal pull-ups and can be used as inputs. As inputs, port 1 pins that are externally pulled low will source current because of the internal pull-ups. (See DC Electrical Characteristics: IIL). Port Pin Alternative function P1.0 T2: TIMER2 clock output P1.1 T2EX: TIMER2 reload/capture DIR. P1.4 PWM0: PWM channel 0 output P1.5 PWM1: PWM channel 1 output Reset: A high on this pin for two machine cycles while the oscillator is running, resets the device. An internal resistor to VSS permits a power-on reset using only an external capacitor to VCC. Port 2: Port 2 is an 8-bits bidirectional I/O port with internal pull-ups. Port 2 pins that have 1s written to them are pulled high by the internal pull-ups and can be used as inputs. As inputs, port 2 pins that are externally being pulled low will source current because of the internal pull-ups. (See DC Electrical Characteristics: IIL). Port 2 emits the high-order address byte during fetches from external program memory and during accesses to external data memory that uses 16-bits addresses (MOVX @DPTR). In this application, it uses strong internal pull-ups when emitting 1s. During accesses to external data memory that uses 8-bits addresses (MOV @Ri), port 2 emits the contents of the P2 special function register. Port Pin Alternative function P2.0 A8 P2.1 A9 P2.2 A10 P2.3 A11 P2.4 A12/ADC0 P2.5 A13/ADC1 P2.6 A14/ADC2 P2.7 A15/ADC3 P1.0 – P1.7 1,2,3,4, 5,6,7,8 40,41,42,43, 44,1,2,3 2,3,4,5, 6,7,8,9 RST 9 4 10 P2.0 – P2.7 21,22,23,24, 25,26,27,28 18,19,20,21 22,23,24,25 24,25,26,27, 28,29,30,31 MNEMONIC PDIP 40 pin PQFP 44 Pin PLCC 44 pin 4 Names and Functions Ver 2.1 SM89S16R1 08/2006 Specifications subject to change without notice contact your sales representatives for the most recent information. SyncMOS Technologies International, Inc. P3.0 – P3.7 10,11,12,13 14,15,16,17 5,7,8,9, 10,11,12,13 11, 13,14,15, 16,17,18,19 SM89S16R1 Port 3: Port 3 is an 8-bits bidirectional I/O port with internal pull-ups. Port 3 pins that have 1s written to them are pulled high by the internal pull-ups and can be used as inputs. As inputs, port 3 pins that are externally being pulled low will source current because of the pull-ups. (See DC Electrical Characteristics: IIL). Port 3 also serves the special features. Port Pin Alternative function P3.0 RxD UART input P3.1 TxD UART output P3.2 #EX0 external interrupt 0 P3.3 #EX1 external interrupt 1 P3.4 T0: Timer 0 external input P3.5 T1: Timer 1 external input P3.6 #WR External data memory write strobe P3.7 #RD External data memory read strobe Address Latch Enable: Output pulse for latching the low byte of the address during an access to external memory. In normal operation, ALE is emitted twice every machine cycle, and can be used for external timing or clocking. Note that one ALE pulse is skipped during each access to external data memory. Setting SFR SCONF.0 can disable ALE. With this bits set, ALE will be active only during a MOVX instruction. X32OUT: The 32.768KHz crystal output for RTC function. Program Store Enable: The read strobe to external program memory. When executing code from the external program memory, #PSEN is activated twice each machine cycle, except that two #PSEN activations are skipped during each access to external data memory. #PSEN is not activated during fetches from internal program memory. X32IN: The 32.768KHz crystal input for RTC function. External Access Enable: #EA must be externally held low to enable the device to fetch code from external program memory locations. If #EA is held high, the device executes from internal program memory. Crystal 1: Input to the inverting oscillator amplifier and input to the internal clock generator circuits. Crystal 2: Output from the inverting oscillator amplifier. 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded ALE/X32OUT 30 27 33 #PSEN/X32IN 29 26 32 #EA 31 29 35 X1 X2 19 18 15 14 21 20 Specifications subject to change without notice contact your sales representatives for the most recent information. 5 Ver 2.1 SM89S16R1 08/2006 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded SFR Mapping The special function register of SM89S16R1 fall into the following categories C51 CORE register: ACC, B, DPL, DPH, PSW, SP I/O ports: P0,P1, P2, P3, P4 Timer/Counter register: T2CON, T2MOD, TCON, TMOD, TH0, TH1, TH2, TL0, TL1, TL2, RCAP2L, RCAP2H UART I/O register: SBUF, SCON Power and system control register: PCON, SCONF Interrupt system register: IP, IE, IP1, IE1, IFR PWM output register: PWMC0, PWMC1, PWMD0, PWMD1, P1CON ADC register: ADCSC, ADCD, P2CON RTC register: RTCC, RTCS LED Driving Capability Control: LEDP0, LEDP1, LEDP2, LEDP3, LEDP4 Table 1 SFR Map $F8 $F0 $E8 $E0 $D8 $D0 $C8 $C0 $B8 $B0 $A8 $A0 $98 $90 $88 $80 IP 0000 0000 P3 1111 1111 IE 0000 0000 P2 1111 1111 SCON 0000 0000 P1 1111 1111 TCON 0000 0000 P0 1111 1111 IP1 0000 0000 PWMD0 0000 0000 IE1 0000 0000 RTCS 0000 0000 SBUF xxxx xxxx TMOD 0000 0000 SP 0000 0111 IFR 0000 0000 RTCC 0000 0000 LEDP0 0000 0000 TL0 0000 0000 DPL 0000 0000 P1CON 0000 0000 LEDP1 0000 0000 TL1 0000 0000 DPH 0000 0000 P2CON 0000 0000 LEDP2 0000 0000 TH0 0000 0000 LEDP3 0000 0000 TH1 0000 0000 LEDP4 0000 0000 ADCSC 0000 0000 PWMD1 0000 0000 SCONF 0000 0000 ACC 0000 0000 P4 xxxx 1111 PSW 0000 0000 T2CON 0000 0000 B 0000 0000 $FF $F7 $EF $E7 $DF PWMC0 0000 0000 RCAP2H 0000 0000 PWMC1 0000 0000 TL2 0000 0000 $D7 TH2 0000 0000 $CF $C7 $BF $B7 $AF $A7 $9F $97 ADCD 0000 0000 PCON 0000 0000 $8F $87 T2MOD xxxx xx00 RCAP2L 0000 0000 Table 2 : All SFR list (8051, I/O, Timer, UART, System, Interrupt, RAM Control, PWM, RTC, ADC) Symbol Description Direct Bit 7 Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 RESET Specifications subject to change without notice contact your sales representatives for the most recent information. 6 Ver 2.1 SM89S16R1 08/2006 SyncMOS Technologies International, Inc. 8051 Core ACC* B SP PSW* DPTR DPH DPL P0* P1* P2* P3* P4* P1CON P2CON TCON* THL0 TH0 TL0 THL1 TH1 TL1 T2CON* T2MOD RCAP2HL RCAP2H RCAP2L THL2 TH2 TL2 SCON* SBUF ADSCR ADCD RTCS RTCC PWMC0 PWMC1 PWMD0 PWMD1 PCON SCONF IE* IE1 IFR IP* IP1 LEDP 0 LEDP 1 LEDP 2 LEDP 3 LEDP 4 Accumulator B register Stack Pointer Process Status Data Pointer (2 Bytes) Data Pointer High Data Pointer Low Port 0 Port 1 Port 2 Port 3 Port 4 P1 Control P2 Control Timer Control register Timer 0 (2 Bytes) Timer 0 High Timer 0 Low Timer 1 (2 Bytes) Timer 1 High Timer 1 Low Timer 2 Control Timer 2 Mode Reload/Capture (2 bytes) RCAP2 High RCAP2 Low Time 2 (2 bytes) Timer 2 High Time 2 Low UART Control UART Buffer ADC status & control ADC data register RTC Status RTC Control PWM 0 Control PWM 1 Control PWM 0 Data PWM 1 Data Power Control register System Control Interrupt Enable Interrupt Enable 1 Interrupt Flag 1 Interrupt Priority Interrupt Priority 1 LED output in P0 LED output in P1 LED output in P2 LED output in P3 LED output in P4 E0 F0 81H D0H 82H 83H 80H 90H A0H B0H D8H 9BH 9CH 88H 8CH 8AH 8DH 8BH C8H C9H CBH CAH CDH CCH 98H 99H 8EH 8FH A1H A2H D3H D4H B3H B4H 87H BFH A8H A9H AAH B8H B9H 92H 93H 94H 95H 96H SM0 COM AD.5 RTCen Int_sel.1 SM1 UART SM2 REN TB8 CH1 AD.1 Sec.3 Min.3 RB8 CH0 AD.0 Sec.2 Min.2 PBS PBS PWMD.7 PWMD.7 PWMD.6 PWMD.6 PWMD.5 PWMD.5 PWMD.4 PWMD.4 PWMD.3 PWMD.3 PWMD.2 PWMD.2 SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded 00H 00H 07H 00H 00H 00H P0.7 P1.7 P2.7 P3.7 ADC3E TF1 P0.6 P1.6 P2.6 P3.6 I/O PORT P0.5 P1.5 P2.5 P3.5 P0.4 P1.4 P2.4 P3.4 P0.3 P1.3 P2.3 P3.3 P4.3 PWM1E IE1 P0.2 P1.2 P2.2 P3.2 P4.2 PWM0E IT1 P0.1 P1.1 P2.1 P3.1 P4.1 IE0 P0.0 P1.0 P2.0 P3.0 P4.0 IT0 FFH FFH FFH FFH XFH 00H 00H 00H 00H 00H 00H 00H 00H X0H 00H 00H 00H 00H TI RI 00H XXH 00H 00H Sec.1 Min.1 PFS1 PFS1 PWMD.1 PWMD.1 CY AC F0 RS1 RS0 OV P ADC2E ADC1E ADC0E TIMER / Counter TF1 TF0 TR0 TF2 EXF2 RCLK TCLK EXEN2 TR2 CT2 T2OE CPRL2 DCEN A/D Converter ADCSS1 ADCSS0 CON AD.4 AD.3 AD.2 Real Timer Clock (RTC) Stable Sec.5 Sec.4 Int_sel.0 Min.5 Min.4 PWM output Sec.0 Min.0 PFS0 PFS0 PWMD.0 PWMD.0 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H Power and System SMOD PDWUE EA Interrupt system ET2 PT2 ES0 PS0 ET1 EADC ADCIF PT1 PADC EX1 ERTC RTCIF PX1 PRTC PD OME ET0 PT0 IDLE ALEI EX0 PX0 LED Driving Capability Control Specifications subject to change without notice contact your sales representatives for the most recent information. 7 Ver 2.1 SM89S16R1 08/2006 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Target Spec. Absolute Rating Symbol TA VCC5 VCC3.3 Fosc 25 Fosc 40 Description Operating temperature Supply voltage Supply voltage Oscillator Frequency Oscillator Frequency Min. -40 4.5 3.0 Typ. 25 5.0 3.3 Max. 85 5.5 3.6 25 40 Unit. ℃ V V MHz MHz Remarks Ambient temperature under bias For 3.3V application For 5.0V application DC Characteristic VCC = 5V (±10%), VSS=0V TA= -40℃ to 85℃ SYMBOL VCC ICC IID Supply Voltage Supply current operating Supply current IDLE Mode Supply current Power-Down MODE RTC Disable Supply current Power-Down MODE RTC Enable Input LOW voltage, P0, P1, P2, P3, P4, /EA Input LOW voltage, RES, XTAL1 Input HIGH voltage, P0, P1, P2, P3, P4, /EA Input HIGH voltage, RES, XTAL1 Input current LOW level Port 1,2,3,4 Transition current High to Low Port 1,2,3,4 Input leakage current ,Port 0 Output LOW voltage, Port 0,ALE, /PSEN Output LOW voltage, Port 1, 2, 3, 4 Output High voltage Port0 ALE, /PSEN Output High voltage Port 1,2,3,4 Internal RESET pull-down resistor Pin capacitance See notes 1 fCLK = 12MHz VCC = 5.5V See note 2 fCLK = 12MHz VCC = 5.5V See note 3;VCC (= 5.5V) See note 3;VCC (= 5.5V) INPUT VIL1 VIL2 VIH1 VIH2 IIL ITL ILI VOL1 VOL2 VOH1 VOH2 RRST CIO -0.5 0 2.0 70%VCC VIN = 0.45V VIN = 2.0 V 0.45V < VIN < VCC-0.3V OUTPUT IOL = 8mA,VCC=5.0V IOL = 6.5mA,VCC =5.0V IOH = -800uA,VCC =5.0V IOH = -60µA,VCC =5.0V Test freq=1MHz, TA=25℃ 0.8 0.8 Vcc+0.5 Vcc+0.5 -75 -650 ±10 0.45 0.45 2.4 2.4 50 V V V V µA µA µA V V V V kΩ pF PARAMETER TEST CONDITIONS 4.5 LIMITS MIN 5.5 20 6.5 30 80 MAX UNIT V mA mA µA µA IPD 300 10 VCC = 3.3V (±10%), VSS=0V , TA= -40℃ to 85℃ SYMBOL VCC ICC IID Supply Voltage Supply current operating Supply current IDLE Mode Supply current Power-Down MODE RTC Disable Supply current Power-Down MODE RTC Enable Input LOW voltage, P0, P1, P2, P3, P4, /EA Input LOW voltage, RST Input LOW voltage, XTAL1 See note 1 fCLK = 12MHz VCC = 3.6V See note 2 fCLK = 12MHz VCC = 3.6V See note 3;VCC (= 3.6V) See note 3;VCC (= 3.6V) INPUT VCC = 3.6V VCC = 3.6V VCC = 3.6V 0 0 0 PARAMETER TEST CONDITIONS 3.0 LIMITS MIN 3.6 10 5 20 30 0.2 VCC -0.2 0.2 VCC -0.2 0.2 VCC -0.2 MAX V mA mA µA µA V V V UNIT IPD VIL1 VIL2 VIL3 Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 8 SyncMOS Technologies International, Inc. VIH1 VIH2 VIH3 IIN1 ITL ILI VOL1 VOL2 VOH1 VOH2 ISK1 ISK2 ISR1 ISR2 RRST CIO Input HIGH voltage, P0, P1, P2, P3, P4, /EA Input HIGH voltage, RST Input HIGH voltage, XTAL1 Input current LOW level Port 1,2,3,4 Transition current High to Low Port 1,2,3,4 Input leakage current P0, /EA Output LOW voltage, Port 0,ALE, /PSEN Output Low voltage Port 1,2,3,4 Output High voltage Port0, ALE, /PSEN Output High voltage Port 1,2,3,4 Sink Current Port 1, 2, 3, 4 Sink Current Port 0,ALE, /PSEN Source Current Port 1, 2, 3, 4 Source Current Port 0,ALE, /PSEN Internal RESET pull-down resistor Pin capacitance VCC = 3.6V VCC = 3.6V VCC = 3.6V VCC = 3.0V ~3.6V, VIN = 0.45V. See note 4 VCC = 3.6V, VIN = 2.0 V VCC = 3.0V ~3.6V, 0.45V MOV < direct >, “@SP”: DEC SP ACC and < Rn > exchange data ACC and < direct > exchange data ACC and < Ri > exchange data ACC and @Ri exchange low nibbles C=0 bit = 0 C=1 bit = 1 C = /C bit = /bit C = C .AND. bit C = C .AND. /bit C = C .OR. bit C = C .OR. /bit C = bit bit = C Jump if C= 1 Jump if C= 0 Jump if bit = 1 Jump if bit = 0 Jump if C = 1 Call Subroutine only at 2k bytes Address Call Subroutine in max 64K bytes Address Return from subroutine Return from interrupt Jump only at 2k bytes Address Jump to max 64K bytes Address Jump on at 256 bytes Jump to A+ DPTR Jump if A = 0 Jump if A ≠ 0 Jump if A ≠ < direct > Jump if A ≠ < #data > Jump if Rn ≠ < #data > Jump if @Ri ≠ < #data > Decrement and jump if Rn not zero 1 1 1 1 1 2 1 2 1 2 2 2 2 3 2 2 1 2 2 3 1 1 1 1 1 1 2 2 1 2 1 1 1 2 1 2 1 2 2 2 2 2 2 2 2 2 3 3 3 2 3 1 1 2 3 2 1 2 2 3 3 3 3 2 SM89S16R1 1 1 1 1 1 1 1 1 1 2 1 1 2 2 2 1 1 2 1 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 2 2 2 2 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 18 SyncMOS Technologies International, Inc. DJNZ NOP direct,rel Decrement and jump if direct not zero No Operation 3 1 SM89S16R1 2 1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Memory organization The central processing unit (CPU) manipulates operands in three memory spaces; there are 1024 bytes internal data memory (consisting of 256 bytes standard RAM and 768 bytes AUX-RAM) and 64K bytes internal/external program memory (see FIGURE 15) 64K 64K Overlapped space Internal FLASH memory /EA=1 External FLASH memory /EA=0 0080 DIRECT AND INDIRECT 0000 0000 02FF INDIRECT ONLY DIRECT (SFR) XRAM (OME=1) XRAM OME=0 0000 Program memory Internal DATA memory Figure 15 Memory organization of SM89S16R1 External DATA memory Program memory The program memory of SM89S16R1 consists of 64K bytes FLASH memory on chip. If during RESET, the /EA pin was held high, the SM89S16R1 does not execute out of the internal program memory. If the /EA pin was held low during RESET the SM89S16R1 fetch all instructions from the external program memory. External writer can program it. The feature of FLASH memory is shown as following: READ: byte-wise WRITE: byte-wise within 30us (previously erased by a chip erase). ERASE: Page Erase (512 bytes) within 10 ms Full Erase (64K bytes) within 2 sec. Erased bytes contain FFH Endurance : Retention : 10K erase and write cycles each byte at TA=25℃ 10 years Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 19 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Internal Data memory The data memory of SM89S16R1 consists of 1024 bytes internal data memory (256 bytes standard RAM and 768 bytes AUX-RAM). The AUX-RAM is enable by SCONF.1 ($BF.1), and read/write by MOVX Analog to Digital Converter (ADC) The ADC block diagram was shown as below: Those are only 4 pins mirror to Port 2[7:4] at Vin. The digital output DATA [11:4] were put into ADCD ($8FH). And the ADC interrupt vector is 4BH. The ADC SFR shown as below: ADSCR ($8EH) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Com Con ADCSS1 ADCSS0 CH1 CH0 COM: Read only. When conversion complete, it will be set. CON: when set, the ADC will conversion continuous, else it will conversion only once. ADCSS [1:0]: ADC clock select. (ADC_CLK range 500 KHz~2.5 MHz).If over frequency of ADC_CLK, the conversion data may be unstable. ADCSS1 ADCSS0 ADC_CLK 0 0 FOSC/8 0 1 FOSC/16 1 0 FOSC/32 1 1 FOSC/64 CH [1:0]: ADC channel select. CH1 CH0 Input select 0 0 CH0 0 1 CH1 1 0 CH2 1 1 CH3 ADCD ($8FH) Bit7 AD.5 *Read Only. Bit6 AD.4 Bit5 AD.3 V D D (= V re f) A D C SS1 A D C SS0 A D C _C LK 0 0 F o s c /4 0 1 F o s c /8 1 0 F o s c /1 6 1 1 F o s c /3 2 A D C S S [1 :0 ]= { A D S C R [5 :4 ]} Bit4 AD.2 Bit3 AD.1 Bit2 AD.0 Bit1 Bit0 A D C_CLK 6 6 -b it S A R A D C 4 3 C o m p le te { A D S C R .7 } D A T A < 5 :0 > { A D C D [7 :2 ]} V A IN < 3 :0 > { P 2 .4 ~ P 2 .7 } C H < 2 :0 > { A D S C R [3 :2 ]} C o n tin u o u s { A D S C R .6 } VSS Figure 16 ADC Block Diagram Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 20 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Pulse Width Modulation (PWM) The PWM output pins are P1.4 and P1.5. The PWM clock is {Fosc/ (2xDivider)}, the PWM output frequency is {(PWM clock)/32} at 5 bits resolution and {(PWM clock)/256} at 8 bits resolution. The PWM SFR show as below: PWMC ($D3H and $D4H) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 PBS Bit1 PFS1 Bit0 PFS0 PBS: when set, the PWM is 5 bits resolution. PFS [1:0]: The PWM clock divider select. PFS1 0 0 1 1 PFS0 0 1 0 1 PWM clock divider select 2 4 8 16 PWMD ($B3H and $B4H) Bit7 PWMD.7 Bit6 PWMD.6 Bit5 PWMD.5 Bit4 PWMD.4 Bit3 PWMD.3 Bit2 PWMD.2 Bit1 PWMD.1 Bit0 PWMD.0 Real Time Clock (RTC) The on-chip RTC keeps time of second and minute functions. Its time base is a 32.768 KHz crystal between pins X32OUT (alternate function of ALE) and X32IN (alternate function of PSEN). The RTC maintains time to a second. It also allows a user to read (and write) seconds and minute. The RTC function used SFR descriptor as below: RTCS ($A1H) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 RTCen Stable SEC.5 SEC.4 SEC.3 SEC.2 SEC.1 SEC.0 RTCen: When set to ‘1’, enable the enable RTC function. When this bit set, the ALE and PSEN pins output will disable, and the ALE and PSEN pins will use for RTC function as X32OUT and X32IN. Stable: Read only. The Stable bit will set to 1 when the RTC module stable. Please wait 2 seconds before used the RTC function. SEC [5:0]: show the current second counter at RTC function. The range is from 00H to 3BH. RTCC ($A2H) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 INT_SEL1 INT_SEL0 MIN.5 MIN.4 MIN.3 MIN.2 MIN.1 INT_SEL [1:0]: the interrupt distribution selection bit, the interrupt vector is 43H. 00: the interrupt is set as 0.5 second 01: the interrupt is set as 1 second 10: the interrupt is set as 30 second 11: the interrupt is set as 60 second MIN [5:0]: show the current minute counter at RTC function. The range is from 00H to 3BH. Bit0 MIN.0 Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 21 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Starting and stopping the RTC: RTCS ($A1H) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 RTCen Stable SEC.5 SEC.4 SEC.3 SEC.2 SEC.1 SEC.0 The RTC Function is enable by set the RTCS.7 (RTCen=1), then the ALE and /PSEN pins will switch to X32OUT and X32IN that for RTC function used, the ALE and PSEN signal output will disable; the crystal frequency is 32.768 KHz. See figure 17. R SW 1 1 2 J1 1 X 3 2 in ( /P S E N ) Y1 32768Hz J2 1 X 3 2 o u t(A L E ) 1 2 RTCen 3 2 7 6 8 H z C lo c k in I n C h ip Figure 17 The RTC Crystal connect diagram The stable bit (RTCS.6) will set to 1 when the RTC module stable. The design is about 31.25 ms; suggest waiting 2 second to use the RTC function. This bit will clear when RTCen bit set again. The SEC [5:0] will show the second counter (range from 00H to 3BH), and the MIN [5:0] will show the minute counter (range from 00H to 3BH) of RTC function. This two register will clear when RTCen bit set. Interrupt: IE1 ($A9H) Bit3 Bit2 Bit1 Bit0 EADC ERTC ERTC: When set to ‘1’, enable the RTC interrupt. If you want to use the RTC interrupt function, must enable the EA bit in IE.7 and enable the ERTC bit in IE1.2. EADC: When set to ‘1’, enable the ADC interrupt. If you want to use the ADC interrupt function, must enable the EA bit in IE.7 and enable the EADC bit in IE1.3 Bit7 Bit6 Bit5 Bit4 RTCC ($A2H) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 INT_SEL1 INT_SEL0 MIN.5 MIN.4 MIN.3 MIN.2 MIN.1 MIN.0 Then select the interrupt distribution in INT_SEL [1:0] in RTCC [7:6]. The RTC can select each of 4 interrupt sources: 0.5 second, 1 second, 0.5 minute, and 1 minute. The interrupt vector is 43H, it can wake-up CPU from POWER-DOWN mode. IFR ($AAH) Bit3 Bit2 Bit1 Bit0 ADCIF RTCIF ADCIF: When interrupt occupy the ADC interrupt flag (IFR.3) will set, and the CPU will execute the interrupt subroutine at the interrupt vector 4BH. The ADC Interrupt Flag must clear by software. RTCIF: When interrupt occupy the RTC interrupt flag (IFR.2) will set, and the CPU will execute the interrupt subroutine at the interrupt vector 43H. The RTC Interrupt Flag must clear by software. Specifications subject to change without notice contact your sales representatives for the most recent information. Bit7 Bit6 Bit5 Bit4 Ver 2.1 SM89S16R1 08/2006 22 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded IP1 ($B9H) Bit7 Bit6 Bit5 Bit4 Bit3 PADC Bit2 PRTC Bit1 Bit0 The interrupt priority can be set at IP1.2 or IP1.3. PADC: When set to ‘1’, enable the ADC interrupt priority. PRTC: When set to ‘1’, enable the RTC interrupt priority. U2 int 0.5sec int 1sec Divider 16384 Divider 2 Divider 30 4 3 2 1 15 14 13 12 11 10 9 7 D0 D1 D2 D3 D4 D5 D6 D7 A B C G 74151 5 bits shif register sec0 sec1 sec2 second register sec3 sec4 sec5 5 bits shif register min0 min1 min2 minute register min3 min4 min5 Y Y 5 6 int out int 0.5min Divider 2 int 1min 32768Hz Clock in int sel0 int sel1 RTCen Figure 18 The RTC Block Diagram LED Driving Capability Control This function is set the sink current more then 10 mA for each pin, 26 mA for whole Port 0, 15 mA for whole Port 1 or whole Port2 or whole Port3 or whole Port4, and total 71 mA for whole chip. The SFR show as below: Port Name Port0 Port1 Port2 Port3 Port4 SFR Address $92H $93H $94H $95H $96H Iol(max) for total port 26 mA 15 mA 15 mA 15 mA 15 mA The Power Down Wake Up (PDWU) function The device can be put into Power Down mode by writing 1 to bit PCON.1. The instruction that does this will be the last instruction to be executed before the device goes into Power Down mode. In the Power Down mode, all the clocks are stopped and the device comes to a halt. All activity is completely stopped and the power consumption is reduced to the lowest possible value. In this state the ALE and PSEN pins are pulled low. The port pins output the values held by their respective SFRs. Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 23 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded The SM89S16R1 will exit the Power Down mode with a reset or by a RTC (Real Time Clock) interrupt or by an external interrupts pin enabled as level detects. 1. An external reset can be used to exit the Power Down state. The high on RST pin terminates the Power Down mode, and restarts the clock. The program execution will restart from 0000H. 2. An external interrupt pin and RTC interrupt can be used to exit the Power Down state when the external interrupt or RTC interrupt actives and provided the corresponding interrupt is enabled, while the global enable (EA) bit is set and the external input has been set to a level detect mode or RTC interrupt set. If these conditions are met, then the low level on the external pin or RTC interrupt re-starts the oscillator. Then device executes the interrupt service routine for the corresponding external interrupt or RTC interrupt. After the interrupt service routine is completed, the program execution returns to the instruction after the one that put the device into Power Down mode and continues from there. PCON ($87H) Bit7 Bit6 Bit5 Bit4 Bit3 SMOD SMOD: This bit set to ‘1’ to make the UART baud-rate double. PD: When set to ‘1’ , the MCU will into Power Down mode IDLE: When set to ‘1’ , the MCU will into IDLE mode Bit2 Bit1 PD Bit0 IDLE SCONF ($BFH) Bit4 Bit3 PDWUE PDWUE: When set to ‘1’, enable the PDWU function. OME: When set to ‘1’, enable the 768 bytes expanded RAM. ALEI: When set to ‘1’, it will stop ALE clock output for EMI reduce. Bit7 Bit6 Bit5 Bit2 Bit1 OME Bit0 ALEI IE ($A8H) Bit7 Bit6 Bit5 Bit4 EA ET2 ES0 EA: When set to ‘1’, enable interrupt global. ET2: When set to ‘1’, enable Timer2 interrupt. ES0: When set to ‘1’, enable UART interrupt. ET1: When set to ‘1’, enable Timer1 interrupt. EX1: When set to ‘1’, enable external interrupt 1. ET0: When set to ‘1’, enable Timer0 interrupt. EX0: When set to ‘1’, enable external interrupt 0. Bit3 ET1 Bit2 EX1 Bit1 ET0 Bit0 EX0 TCON ($88H) Bit7 Bit6 Bit5 TF1 TR1 TF0 TF1: Timer 1 overflow flag. TR1: Timer 1 run control bit. TF0: Timer 0 overflow flag. TR0: Timer 0 run control bit. IE1: External Interrupt 1 edge flag. IT1: Interrupt 1 type control bit. IE0: External Interrupt 0 edge flag. IT0: Interrupt 0 type control bit. Bit4 TR0 Bit3 IE1 Bit2 IT1 Bit1 IE0 Bit0 IT0 Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 24 SyncMOS Technologies International, Inc. IP ($B8H) Bit7 Bit6 Bit5 PT2 Bit4 PS0 Bit3 PT1 Bit2 PX1 Bit1 PT0 SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded Bit0 PX0 PT2: Timer2 interrupt priority. PS0: UART interrupts priority. PT1: Timer1 interrupt priority. PX1: external interrupt 1 priority. PT0: Timer0 interrupt priority. PX0: external interrupt 0 priority. The Priority structure and vector locations of interrupts: Source External interrupt 0 Timer 0 overflow External interrupt 1 Timer 1 overflow UART 0 interrupt Timer 2 overflow RTC interrupt ADC interrupt Flag IE0 TF0 IE1 TF1 RI+TI TF2+EXF2 RTCIF ADCIF Priority level 1(highest) 2 3 4 5 6 7 8 Vector Address 03H 0BH 13H 1BH 23H 2BH 43H 4BH T2MOD ($C9H) Bit1 Bit0 T2OE DCEN T2CR: Timer 2 Capture Reset. In the Timer2 Capture Mode this bit enables/disables hardware automatically reset Timer2 while the value in TL2 and TH2 have been transferred into the capture register. T2OE: Timer2 clock Output Enable bit. If set to 1, the Timer2 clock will output to P1.0. DCEN: Down Count Enable. When set this bit then allows Timer2 to be configured as an up/down counter. Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Application Reference X'tal C1 C2 R 3MHz 30 pF 30 pF open Valid for SM89S16R1 6MHz 9MHz 30 pF 30 pF 30 pF 30 pF open open 12MHz 22 pF 22 pF open XI X'tal SM89S16R1 R X'tal 16MHz 25MHz 33MHz 40MHz C1 C2 C1 30 pF 15 pF 5 pF 2 pF C2 30 pF 15 pF 5 pF 2 pF R open open 6.8K  4.7K  Note: Oscillation circuit may differs with different crystal or ceramic resonator in higher oscillation frequency which was due to each crystal or ceramic resonator has its own characteristics. User should check with the crystal or ceramic resonator manufacturer for appropriate value of external components. X2 Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 25 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded PDIP 40L (600mil) Package Information: Symbol A1 A2 b b1 b2 b3 c c1 D E E1 e eB L S Q1 θ Dimension in mm Min 0.254 3.683 0.356 0.356 1.016 1.016 0.203 0.203 52.07 14.99 13.69 - 15.75 2.921 1.727 1.651 0° Dimension in MIL Min 10 145 14 14 40 40 8 8 2050 590 539 - 620 115 68 65 0° Nom - 3.810 0.500 0.457 1.270 1.321 0.254 0.254 52.2 15.24 13.87 2.540 16.26 3.302 1.981 1.778 - Max - 3.937 0.660 0.508 1.524 1.626 0.432 0.356 52.32 15.49 13.94 - 16.76 3.683 2.235 1.905 10° Nom - 150 20 18 50 52 10 10 2055 600 546 100 640 130 78 70 - Max - 155 26 22 60 64 17 14 2060 610 549 - 660 145 88 75 10° Note: 1. Refer to JEDEC STD.MS-011(AC). 2. Dimension D and E1 do not include mold protrusion. Allowable protrusion is 0.25 mm per side. D and E1 are maximum plastic body size dimension include mold mismatch. 3. Dimension b3 does not include dambar protrusion. Allowable dambar protrusion shall not cause the lead width to exceed the maximum b3 dimension by more than 0.2mm. Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 26 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded PLCC 44L Package Information: UNIT SYMBOL A A1 A2 B B1 c D D1 D2 E E1 E2 e y θ INCH(REF) 0.180(MAX) 0.024 ±0.005 0.105 ±0.005 0.018 + 0.004 - 0.002 0.028 + 0.004 - 0.002 0.010(TYP) 0.690 ±0.010 0.653 ±0.003 0.610 ±0.020 0.690 ±0.010 0.653 ±0.003 0.610 ±0.010 0.050(TYP) 0.003(MAX) 0~5° MM(BASE) 4.572(MAX) 0.52 ±0.14 2.667 ±0.127 0.457 + 0.102 - 0.051 0.711 + 0.102 - 0.051 0.254(TYP) 17.526 ±0.254 16.586 ±0.076 15.494 ±0.508 17.526 ±0.254 16.586 ±0.076 15.494 ±0.254 1.270(TYP) 0.076(MAX) 0~5° Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 27 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded QFP 44L(10x10x2.0mm) Package Information: Symbol A A1 A2 b b1 c Note: 1. Refer to JEDC STD.MS-022(AB). 2. Dimension E1 do not include mold protrusion. Allowable protrusion is 0.25mm per side.E1 are maximum plastic body size dimension include mold mismatch . 3. Dimension b does not include dambar protrusion .Allowable dambar protrusion shall not cause the lead width to exceed the maximum b3 dimension by more than 0.1 mm. Dimension in mm Min - 0.05 1.90 0.29 0.29 0.11 0.11 13.00 9.90 - 0.73 1.50 - 0° Dimension in MIL Min - 2.1 74.8 11.4 11.4 4.3 4.3 512 390 - 28.7 59.1 - 0° Nom - 0.15 2.00 0.32 0.30 0.17 0.15 13.20 10.00 0.800 0.88 1.60 - - Max 2.45 0.25 2.10 0.45 0.41 0.23 0.19 13.40 10.10 - 1.03 1.70 0.076 7° Nom - 6.0 78.7 12.6 11.8 6.7 5.9 520 394 31.5 34.6 63.0 - - Max 964 9.6 82.7 17.7 16.1 9.1 7.5 528 398 - 40.6 66.9 3 7° c1 E E1 【e】 L L1 y θ Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 28 SyncMOS Technologies International, Inc. SM89S16R1 8-Bits Micro-controller With 64KB Flash ROM & 1KB RAM & RTC & ADC & PWM & PDWU embedded e MCU writer list Company Advantech 7F, No.98, Ming-Chung Rd., Shin-Tien City, Taipei, Taiwan, ROC Web site: http://www.aec.com.tw Hi-Lo 4F, No. 20, 22, LN, 76, Rui Guang Rd., Nei Hu, Taipei, Taiwan, ROC. Web site: http://www.hilosystems.com.tw Leap 6th F1-4, Lane 609, Chunghsin Rd., Sec. 5, Sanchung, Taipei Hsien, Taiwan, ROC Web site: http://www.leap.com.tw Xeltek Electronic Co., Ltd 338 Hongwu Road, Nanjing, China 210002 Web site: http://www.xeltek-cn.com Contact info Tel:02-22182325 Fax:02-22182435 E-mail: aecwebmaster@advantech.com.tw Programmer Model Number Lab Tool - 48XP (1 * 1) Lab Tool - 848 (1*8) Tel:02-87923301 Fax:02-87923285 E-mail: support@hilosystems.com.tw All - 11 (1*1) Gang - 08 (1*8) Tel:02-29991860 Fax:02-29990015 E-mail: service@leap.com.tw Leap-48 (1*1) SU - 2000 (1*8) Tel:+86-25-84408399, 84543153-206 E-mail: xelclw@jlonline.com, xelgbw@jlonline.com Superpro/2000 (1*1) Superpro/280U (1*1) Superpro/L+(1*1) Specifications subject to change without notice contact your sales representatives for the most recent information. Ver 2.1 SM89S16R1 08/2006 29
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