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Epson S1C63358 Technical Manual

Cmos 4-bit single chip microcomputer
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MF1022 - 04
CMOS 4 - BIT SINGLE CHIP MICROCOMPUTER
S1C63358
Technical Manual
S1C63358 Technical Hardware

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Summary of Contents for Epson S1C63358

  • Page 1 MF1022 - 04 CMOS 4 - BIT SINGLE CHIP MICROCOMPUTER S1C63358 Technical Manual S1C63358 Technical Hardware...
  • Page 2 No part of this material may be reproduced or duplicated in any form or by any means without the written permission of Seiko Epson. Seiko Epson reserves the right to make changes to this material without notice. Seiko Epson does not assume any...
  • Page 3 Revisions and Additions for this manual Chapter Section Page Item Contents 4.5.4 I/O memory of input ports The sentence was revised. KCPxx: Kx port input comparison register 4.8.3 Control of LCD display and drive waveform A part of contents was deleted. (1) Display ON/OFF control 4.11.5 Programming notes...
  • Page 5 Configuration of product number Devices 63158 0A01 Packing specifications 00 : Besides tape & reel 0A : TCP BL 2 directions 0B : Tape & reel BACK 0C : TCP BR 2 directions 0D : TCP BT 2 directions 0E : TCP BD 2 directions 0F : Tape &...

  • Page 7: Table Of Contents

    4.4.2 OSC1 oscillation circuit ................30 4.4.3 OSC3 oscillation circuit ................31 4.4.4 Switching of operating voltage ..............32 4.4.5 Clock frequency and instruction execution time ........33 4.4.6 I/O memory of oscillation circuit .............. 33 4.4.7 Programming notes ................... 34 EPSON S1C63358 TECHNICAL MANUAL...
  • Page 8 4.11.3.2 Counter mode ................82 4.11.3.3 Setting of input clock in timer mode ......... 83 4.11.3.4 Interrupt function ..............84 4.11.3.5 Setting of TOUT output ............. 84 4.11.3.6 Transfer rate setting for serial interface ........85 EPSON S1C63358 TECHNICAL MANUAL...
  • Page 9 7.7 Timing Chart ....................128 _______________________________________________ 129 CHAPTER ACKAGE 8.1 Plastic Package ................... 129 8.2 Ceramic Package for Test Samples ............. 130 ____________________________________________ 131 CHAPTER AYOUT 9.1 Diagram of Pad Layout ................131 9.2 Pad Coordinates ..................132 EPSON S1C63358 TECHNICAL MANUAL...
  • Page 10 OARD FOR A.1 Names and Functions of Each Part ............133 A.2 Connecting to the Target System ..............136 A.3 Usage Precautions ..................138 A.3.1 Operational precautions ................138 A.3.2 Differences with the actual IC ..............138 EPSON S1C63358 TECHNICAL MANUAL...

  • Page 11: Outline

    CHAPTER UTLINE The S1C63358 is a microcomputer which has a high-performance 4-bit CPU S1C63000 as the core CPU, ROM (8,192 words × 13 bits), RAM (512 words × 4 bits), serial interface, watchdog timer, program- mable timer, time base counter (1 system), SVD circuit, a segment type LCD driver that can drive a maximum 32 segments ×...

  • Page 12: Block Diagram

    Timer/Counter 32 SEG × 4 COM SEG0–31 K00–K03 K10–K13 Input Port – Power CA–CB TEST Controller Buzzer Output P00–P03 P10–P13 I/O Port R00–R03 P20–P23 Output Port R10–R13 P30–P33 R20–R23 P40–P43 Serial Interface Fig. 1.2.1 Block diagram EPSON S1C63358 TECHNICAL MANUAL...

  • Page 13: Pin Layout Diagram

    OSC1 SEG20 OSC2 SEG21 SEG22 OSC3 SEG23 OSC4 SEG24 SEG25 RESET SEG0 SEG26 TEST SEG1 SEG27 SEG2 SEG28 SEG3 SEG29 SEG4 SEG30 N.C. SEG5 SEG31 N.C. SEG6 N.C. : No Connection Fig. 1.3.1 Pin layout diagram EPSON S1C63358 TECHNICAL MANUAL...

  • Page 14: Pin Description

    LCD segment output pin – Power (+) supply pin for A/D converter – Power (–) supply pin for A/D converter – Reference voltage for A/D converter Buzzer output pin RESET Initial reset input pin TEST Testing input pin EPSON S1C63358 TECHNICAL MANUAL...

  • Page 15: Mask Option

    S1C63358, are used for this selection. Mask pattern of the IC is finally generated based on the data created by the winfog and the winsog. Refer to the "S5U1C63000A Manual" for the winfog and the winsog.
  • Page 16 Refer to Section 4.4.3, "OSC3 oscillation circuit", for details. <Mask option list> The following is the option list for the S1C63358. Multiple selections are available in each option item as indicated in the option list. Refer to Chapter 4, "Peripheral Circuits and Operation", to select the specifica- tions that meet the application system.
  • Page 17 5. External Power Voltage 2 V V (3.0 V) 6. External Power Voltage 2 V V (3.0 V) 10. SERIAL PORT INTERFACE POLARITY 1. Positive 2. Negative 11. SOUND GENERATOR POLARITY FOR OUTPUT 1. Positive 2. Negative EPSON S1C63358 TECHNICAL MANUAL...

  • Page 18: Power Supply And Initial Reset

    • When using the A/D converter with 0.9 V to 1.6 V power supply voltage, software control is necessary. The S1C63358 operates by applying a single power supply within the above range between V and V . The S1C63358 itself generates the voltage necessary for all the internal circuits by the built-in power supply circuits shown in Table 2.1.1.

  • Page 19: Voltage

    The S1C63358 is designed with twin clock specification; it has two types of oscillation circuits OSC1 and OSC3 built-in. Use OSC1 clock for normal operation, and switch it to OSC3 by the software when high- speed operation is necessary.

  • Page 20: Voltage Source For A/D Converter

    In this mode, the A/D converter circuit directly operates by the power supply voltage V above 1.6 V without changing the power source to V Table 2.1.4.1 Correspondence between power supply voltage and operating mode (A/D converter) Power supply voltage V Circuit 0.9–1.6 1.6–3.6 A/D converter mode Normal mode EPSON S1C63358 TECHNICAL MANUAL...

  • Page 21: Initial Reset

    CHAPTER 2: POWER SUPPLY AND INITIAL RESET 2.2 Initial Reset To initialize the S1C63358 circuits, initial reset must be executed. There are two ways of doing this. (1) External initial reset by the RESET terminal (2) External initial reset by simultaneous low input to terminals K00–K03 (mask option setting) The circuits are initialized by either (1) or (2).

  • Page 22: Simultaneous Low Input To Terminals K00-K03

    Undefined data to the EXT register for initialization Display memory Undefined only. ∗ Other pheripheral circuits – Refer to the "S1C63000 Core CPU Manual" ∗ See Section 4.1, "Memory Map". for extended addressing and usable instructions. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 23: Terminal Settings At Initial Resetting

    For setting procedure of the functions, see explanations for each of the peripheral circuits. 2.3 Test Terminal (TEST) This is the terminal used for the factory inspection of the IC. During normal operation, connect the TEST terminal to V EPSON S1C63358 TECHNICAL MANUAL...

  • Page 24: Chapter 3 Cpu, Rom, Ram

    The core CPU can linearly access the program space up to step FFFFH from step 0000H, however, the program area of the S1C63358 is step 0000H to step 1FFFH. The program start address after initial reset is assigned to step 0110H. The non-maskable interrupt (NMI) vector and hardware interrupt vectors are allocated to step 0100H and steps 0102H–010EH, respectively.
  • Page 25 4 words (for PC evacuation) in the stack area for 16-bit data (SP1) and 1 word (for F register evacua- tion) in the stack area for 4-bit data. 0000H 4-bit access area (SP2 stack area) 00FFH 0100H 4/16-bit access area (SP1 stack area) 01FFH 4 bits Fig. 3.3.1 Configuration of data RAM EPSON S1C63358 TECHNICAL MANUAL...

  • Page 26: Eripheral

    4.1 Memory Map The S1C63358 data memory consists of 512-word RAM, 32-word display memory and 76-word peripheral I/O memory area. Figure 4.1.1 shows the overall memory map of the S1C63358, and Tables 4.1.1(a)–(f) the peripheral circuits' (I/O space) memory maps.
  • Page 27 SIK20 ∗3 ∗2 – Unused FF28H ∗3 ∗2 – Unused SIK20 Enable Disable K20 interrupt selection register Remarks ∗1 Initial value at initial reset ∗2 Not set in the circuit ∗3 Constantly "0" when being read EPSON S1C63358 TECHNICAL MANUAL...
  • Page 28 SIF is selected FF44H IOC11 Output Input P11 I/O control register (ESIF=0) functions as a general-purpose register when SIF is selected IOC10 Output Input P10 I/O control register (ESIF=0) functions as a general-purpose register when SIF is selected EPSON S1C63358 TECHNICAL MANUAL...
  • Page 29 A/D is enabled FF51H PUL41 P41 pull-up control register (PAD1=0) functions as a general-purpose register when A/D is enabled PUL40 P40 pull-up control register (PAD0=0) functions as a general-purpose register when A/D is enabled EPSON S1C63358 TECHNICAL MANUAL...
  • Page 30 Timer 0 pulse polarity selection (for event counter mode) CHSEL Timer1 Timer0 TOUT output channel selection CHSEL PTOUT CKSEL1 CKSEL0 PTOUT TOUT output control FFC1H CKSEL1 OSC3 OSC1 Prescaler 1 source clock selection CKSEL0 OSC3 OSC1 Prescaler 0 source clock selection EPSON S1C63358 TECHNICAL MANUAL...
  • Page 31 ADDR3 ADDR2 ADDR1 ADDR0 ∗2 ADDR2 – A/D converted data (D0–D3) FFD2H ∗2 ADDR1 – ∗2 ADDR0 – ∗2 ADDR7 – ADDR8 ADDR6 ADDR5 ADDR4 ∗2 ADDR6 – A/D converted data (D4–D7) FFD3H ∗2 ADDR5 – ∗2 ADDR4 – EPSON S1C63358 TECHNICAL MANUAL...
  • Page 32 Interrupt factor flag (Clock timer 8 Hz) Reset Invalid Interrupt factor flag (Clock timer 16 Hz) ∗3 ∗2 – Unused ∗3 ∗2 – Unused FFF7H ∗3 ∗2 – Unused Reset Invalid Interrupt factor flag (A/D converter) EPSON S1C63358 TECHNICAL MANUAL...

  • Page 33: Setting Of Power Supply And Operating Mode

    4.2.1 Control of supply voltage When the voltage value necessary to drive the oscillation system voltage regulator is not provided from the power supply voltage supplied externally, the S1C63358 drives the power supply circuit using the voltage V generated by the LCD booster circuit. The supply voltage V is controlled using the register LPWR.

  • Page 34: Operating Mode For Lcd System Voltage Circuit

    V mode. (2) Power supply voltage V = 0.9 V to 1.6 V When the power supply voltage is in this range, VADSEL should be set to "1", to choose V as the A/D converter power. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 35: I/O Memory Of Power Supply And Operating Mode

    VDSEL register should be set to "1" after taking a 100 msec or longer interval for the V to stabilize from setting the LPWR register to "1". At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 36: Programming Notes

    When using the A/D converter with a 1.6 V or less power supply voltage, set the V mode. 4.2.6 Programming notes (1) When operating the S1C63358 with a 0.9–1.4 V power supply voltage, software control is necessary. Set the oscillation system voltage regulator to the V mode. When 1.4 V or more power supply voltage is used, don't set the oscillation system voltage regulator into the V mode.

  • Page 37: Watchdog Timer

    4.3.1 Configuration of watchdog timer The S1C63358 has a built-in watchdog timer that operates with a 256 Hz divided clock from the OSC1 as the source clock. The watchdog timer starts operating after initial reset, however, it can be stopped by the software.

  • Page 38: I/O Memory Of Watchdog Timer

    (1) When the watchdog timer is being used, the software must reset it within 3-second cycles. (2) Because the watchdog timer is set in operation state by initial reset, set the watchdog timer to disabled state (not used) before generating an interrupt (NMI) if it is not used. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 39: Oscillation Circuit

    4.4.1 Configuration of oscillation circuit The S1C63358 has two oscillation circuits (OSC1 and OSC3). OSC1 is either a crystal or a CR oscillation circuit that supplies the operating clock to the CPU and peripheral circuits. OSC3 is either a CR or a ceramic oscillation circuit.

  • Page 40: Osc1 Oscillation Circuit

    Pay special attention to the circuits that use f as the source clock, such as the timer (time OSC1 lag), the LCD frame frequency (display quality, flicker in low frequency) and the sound generator (sound quality). EPSON S1C63358 TECHNICAL MANUAL...

  • Page 41: Osc3 Oscillation Circuit

    CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (Oscillation Circuit) 4.4.3 OSC3 oscillation circuit The S1C63358 has built-in the OSC3 oscillation circuit that generates the CPU's sub-clock (Typ. 1.8 MHz CR oscillation or Max. 4 MHz ceramic oscillation) for high speed operation and the source clock for peripheral circuits needing a high speed clock (programmable timer, FOUT output).

  • Page 42: Switching Of Operating Voltage

    When the power supply voltage is in this range, the oscillation system voltage regulator can always be operated in the normal mode regardless of the system clock selection. Therefore, it is nor necessary to switch the operating mode before and after switching the system clock. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 43: Clock Frequency And Instruction Execution Time

    Furthermore, when the crystal oscillation circuit has been selected as the OSC1 oscillation circuit by mask option, it is necessary to switch the operating voltage V when turning the OSC3 oscillation circuit ON and OFF At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 44: Programming Notes

    V using the VDC register and the V voltage is fixed at 2.25 V. The V level does not change even if any data is written to the VDC register. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 45: Input Ports (K00-K03, K10-K13 And K20)

    4.5 Input Ports (K00–K03, K10–K13 and K20) 4.5.1 Configuration of input ports The S1C63358 has nine bits general-purpose input ports. Each of the input port terminals (K00–K03, K10– K13, K20) provides internal pull-up resistor. Pull-up resistor can be selected for each bit with the mask option.

  • Page 46: Interrupt Function

    Fig. 4.5.2.1 Input interrupt circuit configuration (K00–K03, K10–K13) Address Address Input comparison Interrupt factor register (KCP20) Interrupt flag (IK2) request Address Interrupt mask Interrupt selection register (EIK2) register (SIK20) Address Address Fig. 4.5.2.2 Input interrupt circuit configuration (K20) EPSON S1C63358 TECHNICAL MANUAL...

  • Page 47: Mask Option

    K20) with the input port mask option. When "Gate direct" is selected, take care that the floating status does not occur for the input. Select "With pull-up resistor" for input ports that are not being used. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 48: I/O Memory Of Input Ports

    ∗2 – Unused ∗3 ∗2 – Unused FFF5H Interrupt factor flag (K20) Reset Invalid Interrupt factor flag (K10–K13) *1 Initial value at initial reset *2 Not set in the circuit *3 Constantly "0" when being read EPSON S1C63358 TECHNICAL MANUAL...
  • Page 49 When "0" is written: Mask Reading: Valid With these registers, masking of the input port interrupt can be selected for each of the three systems (K00–K03, K10–K13, K20). At initial reset, these registers are set to "0". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 50 The software can discriminates which key was pressed from the conversion result. After that, turn SENON off to reduce current consumption. Output SENON register Generate an interrupt A/D IN Key set Fig. 4.5.4.1 Key position sensing circuit EPSON S1C63358 TECHNICAL MANUAL...

  • Page 51: Programming Notes

    "1") is set or the RETI instruction is executed unless the interrupt factor flag is reset. Therefore, be sure to reset (write "1" to) the interrupt factor flag in the interrupt service routine before shifting to the interrupt enabled state. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 52: Output Ports (R00-R03, R10-R13 And R20-R23)

    (R00–R03, R10–R13 and R20–R23) 4.6.1 Configuration of output ports The S1C63358 has 12 bits general output ports. Output specifications of the output ports can be selected individually with the mask option. Two kinds of output specifications are available: complementary output and N-channel open drain output.

  • Page 53: High Impedance Control

    R02 and R03 registers when the special output has been selected. • Be aware that the output terminal shifts into high impedance status when "1" is written to the high impedance control register (R02HIZ, R03HIZ). EPSON S1C63358 TECHNICAL MANUAL...
  • Page 54 Note: A hazard may occur when the FOUT signal is turned ON and OFF. Figure 4.6.4.3 shows the output waveform of the FOUT signal. R03HIZ register Fix at "0" R03 register Fix at "1" FOUTE register "0" "1" "0" FOUT output Fig. 4.6.4.3 Output waveform of FOUT signal EPSON S1C63358 TECHNICAL MANUAL...

  • Page 55: I/O Memory Of Output Ports

    When "1" is written, it shifts into high impedance status. When the output ports R02 and R03 are used for special output (TOUT, FOUT), fix the R02HIZ register and the R03HIZ register at "0" (data output). At initial reset, these registers are set to "0". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 56 "0", the TOUT signal is output from the R02 terminal. When "0" is written, the R02 termi- nal goes high (V When using the R02 output port for DC output, fix this register at "0". At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 57: Programming Notes

    (2) A hazard may occur when the FOUT signal and the TOUT signal are turned ON and OFF. (3) When f is selected for the FOUT signal frequency, it is necessary to control the OSC3 oscillation OSC3 circuit before output. Refer to Section 4.4, "Oscillation Circuit", for the control and notes. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 58: I/O Ports (P00-P03, P10-P13, P20-P23, P30-P33 And P40-P43)

    CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (I/O Ports) 4.7 I/O Ports (P00–P03, P10–P13, P20–P23, P30–P33 and P40–P43) 4.7.1 Configuration of I/O ports The S1C63358 has 20 bits general-purpose I/O ports. Figure 4.7.1.1 shows the configuration of the I/O port. Pull-up control...

  • Page 59: Mask Option

    4.7.4 Pull-up during input mode A pull-up resistor that operates during the input mode is built into each I/O port of the S1C63358. Mask option can set the use or non-use of this pull-up. The pull-up resistor becomes effective by writing "1" to the pull-up control register PULxx that corresponds to each port, and the input line is pulled up during the input mode.

  • Page 60: I/O Memory Of I/O Ports

    IOC33 IOC32 IOC31 IOC30 IOC32 Output Input P30–P33 I/O control register FF4CH IOC31 Output Input IOC30 Output Input *1 Initial value at initial reset *2 Not set in the circuit *3 Constantly "0" when being read EPSON S1C63358 TECHNICAL MANUAL...
  • Page 61 In the slave mode, all the P10–P13 ports are set to the serial interface input/output port. In the master mode, P10–P12 are set to the serial interface input/output port and P13 can be used as the I/O port. At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 62 Make this waiting time the amount of time or more calculated by the following expression. 10 × C × R C: terminal capacitance 5 pF + parasitic capacitance ? pF R: pull-up resistance 300 k Ω EPSON S1C63358 TECHNICAL MANUAL...

  • Page 63: Programming Note

    Particular care needs to be taken of the key scan during key matrix configuration. Make this waiting time the amount of time or more calculated by the following expression. 10 × C × R C: terminal capacitance 5 pF + parasitic capacitance ? pF R: pull-up resistance 300 kΩ EPSON S1C63358 TECHNICAL MANUAL...

  • Page 64: Lcd Driver (Com0-Com3, Seg0-Seg31)

    ALOFF, ALON (all ON) has priority over the ALOFF (all OFF). (2) Setting of drive duty In the S1C63358, the drive duty can be set to 1/4, 1/3 or 1/2 by the software. This setting is done using the LDUTY1 and LDUTY0 registers as shown in Table 4.8.3.1.
  • Page 65 CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (LCD Driver) LCD lighting status COM0 COM0 COM1 COM2 COM1 COM3 SEG0–31 COM2 Not lit COM3 0–31 Frame frequency Fig. 4.8.3.1 Dynamic drive waveform for 1/4 duty (1/3 bias) EPSON S1C63358 TECHNICAL MANUAL...
  • Page 66 Fig. 4.8.3.2 Dynamic drive waveform for 1/3 duty (1/3 bias) LCD lighting status COM0 COM0 COM1 COM1 SEG0–31 COM2 Not lit COM3 0–31 Frame frequency Fig. 4.8.3.3 Dynamic drive waveform for 1/2 duty (1/3 bias) EPSON S1C63358 TECHNICAL MANUAL...
  • Page 67 CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (LCD Driver) LCD lighting status COM0 COM0 C1,C2 COM1 COM2 COM1 COM3 SEG0–31 COM2 Not lit COM3 C1,C2 0–31 Frame frequency Fig. 4.8.3.4 Dynamic drive waveform for 1/4 duty (1/2 bias) EPSON S1C63358 TECHNICAL MANUAL...
  • Page 68 Fig. 4.8.3.5 Dynamic drive waveform for 1/3 duty (1/2 bias) LCD lighting status COM0 COM0 C1,C2 COM1 COM1 SEG0–31 COM2 Not lit COM3 C1,C2 0–31 Frame frequency Fig. 4.8.3.6 Dynamic drive waveform for 1/2 duty (1/2 bias) EPSON S1C63358 TECHNICAL MANUAL...
  • Page 69 CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (LCD Driver) (3) Static drive The S1C63358 provides software setting of the LCD static drive. To set in static drive, write "1" to the common output signal control register STCD. Then, by writing "1" to any one of COM0 to COM3 (display memory) corresponding to the SEG terminal, the SEG terminal outputs a static ON waveform.

  • Page 70: Mask Option

    When DC output is selected, either complementary output or N-channel open drain output can be selected for each terminal with the mask option. ∗ The terminal pairs are combination of SEG2 × n and SEG2 × n + 1 (where n is an integer from 0 to 15). EPSON S1C63358 TECHNICAL MANUAL...
  • Page 71 V inside the IC. 1/4, 1/3, 1/2 duty, 1/2 bias 3.0 V Note: V is shorted to V inside the IC. Fig. 4.8.4.2 External elements when LCD system voltage regurator is not used EPSON S1C63358 TECHNICAL MANUAL...

  • Page 72: I/O Memory Of Lcd Driver

    64 (32 × 2) COM0, COM1 32 Hz 96 (32 × 3) COM0–COM2 42.7 Hz 128 (32 × 4) COM0–COM3 32 Hz ∗ When f = 32.768 kHz OSC1 At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 73: Programming Notes

    (2) 100 msec or more time is necessary for stabilizing the LCD drive voltages V and V after setting the LCD power control register LPWR to "1". Be careful of the segment-on right after the power is turned on. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 74: Clock Timer

    4.9 Clock Timer 4.9.1 Configuration of clock timer The S1C63358 has a built-in clock timer that uses OSC1 (crystal oscillator) as the source oscillator. The clock timer is configured of an 8-bit binary counter that serves as the input clock, f...

  • Page 75: Interrupt Function

    (EIT0, EIT1, EIT2, EIT3). However, regardless of the interrupt mask register setting, the interrupt factor flag is set to "1" at the falling edge of the corresponding signal. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 76: I/O Memory Of Clock Timer

    The clock timer is reset by writing "1" to TMRST. When the clock timer is reset in the RUN status, opera- tion restarts immediately. Also, in the STOP status the reset data is maintained. No operation results when "0" is written to TMRST. This bit is write-only, and so is always "0" at reading. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 77 RETI instruction is executed unless the interrupt factor flag is reset. Therefore, be sure to reset (write "1" to) the interrupt factor flag in the interrupt service routine before shifting to the interrupt enabled state. At initial reset, these flags are set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 78: Programming Notes

    (3) When the CR oscillation circuit is selected as the OSC1 oscillation circuit by mask option, the frequen- cies and times differ from the values described in this section because the oscillation frequency will be 60 kHz (Typ.). Therefore, the clock timer can not be used for the clock function. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 79: A/D Converter

    CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (A/D Converter) 4.10 A/D Converter 4.10.1 Characteristics and configuration of A/D converter The S1C63358 has a built-in A/D converter with the following characteristics. • Conversion method: Successive-approximation type • Resolution: 8 bits Maximum error: ±3 LSB, A/D clock: OSC1, OSC3, V = 2.7 V to 3.6 V...

  • Page 80: Mask Option

    • To prevent malfunction, do not start A/D conversion (writing "1" to the ADRUN register) when the A/D conversion clock is not being output from the clock selector, and do not turn the clock off during A/D conversion. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 81 Figure 4.10.4.1 shows the flow chart for starting an A/D conversion. Set PAD0–PAD3 Enable A/D input channel Set CHS1, CHS0 Select A/D input channel Set ADCLK Select A/D input clock Set ADRUN to "1" Start A/D conversion Fig. 4.10.4.1 Flowchart for starting A/D conversion EPSON S1C63358 TECHNICAL MANUAL...

  • Page 82: Interrupt Function

    The interrupt factor flag set in "1" is reset to "0" by writing "1". The interrupt vector for the A/D conversion completion has been set in 010EH. A/D conversion completion Interrupt factor flag Address Interrupt request Interrupt mask register EIAD Address Fig. 4.10.5.1 Configuration of A/D converter interrupt circuit EPSON S1C63358 TECHNICAL MANUAL...

  • Page 83: I/O Memory Of A/D Converter

    When "1" is written to ADCLK, OSC3 is selected as the clock source for the A/D converter. However, the supply voltage must be 2.3 V or more. When "0" is written, OSC1 is selected. At initial reset, this register is set to "0" (OSC1). EPSON S1C63358 TECHNICAL MANUAL...
  • Page 84 When "1" is written: Enabled When "0" is written: Masked Reading: Valid Writing "1" to the EIAD register enables the A/D converter interrupt and writing "0" disables the inter- rupt. At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 85: Programming Notes

    (7) During A/D conversion, do not operate the P4n terminals which are not used for analog inputs of the A/D converter (for input/output of digital signals). It affects the A/D conversion precision. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 86: Programmable Timer

    4.11.1 Configuration of programmable timer The S1C63358 has two 8-bit programmable timer systems (timer 0 and timer 1) built-in. Timer 0 and timer 1 are composed of 8-bit presettable down counters and they can be used as 8-bit × 2 channel programmable timers or a 16-bit ×...

  • Page 87: Tow Separate 8-Bit Timer (Mode16 = "0") Operation

    PTRUN0 (1) PTRST0 (1) RLD00–07 (10–17) Input clock PTD07 (17) PTD06 (16) PTD05 (15) PTD04 (14) PTD03 (13) PTD02 (12) PTD01 (11) PTD00 (10) Preset Reload & Interrupt generation Fig. 4.11.2.1.1 Basic operation timing of down counter EPSON S1C63358 TECHNICAL MANUAL...

  • Page 88: Counter Mode

    2,048 Hz signal after changing the input level of the K13 input port terminal. Consequently, the pulse width of noise that can reliably be rejected is 0.48 msec or less.) Figure 4.11.2.2.2 shows the count down timing with noise rejecter. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 89: Setting Of Input Clock In Timer Mode

    By writing "1" to the register PTRUN0 (timer 0) or PTRUN1 (timer 1), the prescaler inputs the source clock and outputs the clock divided by the selected division ratio. The counter starts counting down by inputting the clock. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 90: Interrupt Function

    ON and OFF by setting the register. Figure 4.11.2.5.3 shows the output waveform of the TOUT signal. R02HIZ register Fix at "0" R02 register Fix at "1" PTOUT register "0" "1" "0" TOUT output Fig. 4.11.2.5.3 Output waveform of the TOUT signal EPSON S1C63358 TECHNICAL MANUAL...

  • Page 91: Transfer Rate Setting For Serial Interface

    It continues counting down from the initial value after reloading. In addition to reloading the counter, this underflow signal controls the interrupt generation, pulse (TOUT signal) output and clock supplying to the serial interface. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 92: Counter Mode

    2,048 Hz signal after changing the input level of the K13 input port terminal. Consequently, the pulse width of noise that can reliably be rejected is 0.48 msec or less.) Figure 4.11.3.2.2 shows the count down timing with noise rejecter. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 93: Setting Of Input Clock In Timer Mode

    Source clock / 1 By writing "1" to the register PTRUN0 (timer 0), the prescaler inputs the source clock and outputs the clock divided by the selected division ratio. The counter starts counting down by inputting the clock. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 94: Interrupt Function

    ON and OFF by setting the register. Figure 4.11.3.5.2 shows the output waveform of the TOUT signal. R02HIZ register Fix at "0" R02 register Fix at "1" PTOUT register "0" "1" "0" TOUT output Fig. 4.11.3.5.2 Output waveform of the TOUT signal EPSON S1C63358 TECHNICAL MANUAL...

  • Page 95: Transfer Rate Setting For Serial Interface

    A setting value for the RLD1X register according to a transfer rate is calculated by the following expres- sion: RLD1X, RLD0X = fosc / (2 ∗ bps ∗ division ratio of the prescaler) - 1 fosc: Oscillation frequency (OSC1/OSC3) bps: Transfer rate (00H can be set to RLD1X) EPSON S1C63358 TECHNICAL MANUAL...

  • Page 96: I/O Memory Of Programmable Timer

    Unused FFF2H IPT1 Interrupt factor flag (Programmable timer 1) IPT0 Reset Invalid Interrupt factor flag (Programmable timer 0) *1 Initial value at initial reset *2 Not set in the circuit *3 Constantly "0" when being read EPSON S1C63358 TECHNICAL MANUAL...
  • Page 97 When 16-bit × 1 channel is selected, timer 0 and timer 1 are chained together and are used as a 16-bit programmable timer. The clock is input to timer 0 and interrupts will be generated from timer 1. At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 98 Since the high-order 4 bits are held by reading the low-order 4 bits, be sure to read the low-order 4 bits first. Since these latches are exclusively for reading, the writing operation is invalid. At initial reset, these counter data are set to "00H". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 99 R02 and when "0" is written, the terminal goes to a high ) level. However, the data register R02 must always be "1" and the high impedance control register R02HIZ must always be "0" (data output state). At initial reset, this register is set to "0". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 100 RETI instruction is executed unless the interrupt factor flag is reset. Therefore, be sure to reset (write "1" to) the interrupt factor flag in the interrupt service routine before shifting to the interrupt enabled state. At initial reset, these flags are set to "0". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 101: Programming Notes

    . Be especially careful when using the OSC1 (low- speed clock) as the clock source of the programmable timer and the CPU is operating with the OSC3 (high-speed clock). EPSON S1C63358 TECHNICAL MANUAL...

  • Page 102: Serial Interface (Sin, Sout, Sclk, Srdy)

    The synchronous clock for serial data input/output may be set by selecting by software any one of three types of master mode (internal clock mode: when the S1C63358 is to be the master for serial input/ output) and a type of slave mode (external clock mode: when the S1C63358 is to be the slave for serial input/output).

  • Page 103: Mask Option

    4.12.3 Master mode and slave mode of serial interface The serial interface of the S1C63358 has two types of operation mode: master mode and slave mode. The master mode uses an internal clock as the synchronous clock for the built-in shift register, and outputs this internal clock from the SCLK (P12) terminal to control the external (slave side) serial device.

  • Page 104: Data Input/Output And Interrupt Function

    (1) Serial data output procedure and interrupt The S1C63358 serial interface is capable of outputting parallel data as serial data, in units of 8 bits. By setting the parallel data to the data registers SD0–SD3 (FF72H) and SD4–SD7 (FF73H) and writing "1"...
  • Page 105 (2) Serial data input procedure and interrupt The S1C63358 serial interface is capable of inputting serial data as parallel data, in units of 8 bits. The serial data is input from the SIN (P10) terminal, synchronizes with the synchronous clock, and is sequentially read in the 8-bit shift register.
  • Page 106 CHAPTER 4: PERIPHERAL CIRCUITS AND OPERATION (Serial Interface) (5) Timing chart The S1C63358 serial interface timing charts are shown in Figures 4.12.4.2 and 4.12.4.3. SCTRG (W) SCTRG (R) SCLK 8-bit shift register SOUT ISIF SRDY (Slave mode) (a) When SCPS = "1"...

  • Page 107: I/O Memory Of Serial Interface

    At initial reset, this register is set to "0". Note: After setting ESIF to "1", wait at least 10 µsec before starting actual data transfer since a hazard may be generated from the P12 (SCLK) terminal when ESIF is set to "1". EPSON S1C63358 TECHNICAL MANUAL...
  • Page 108 When "1" is written: Rising edge of SCLK When "0" is written: Falling edge of SCLK Reading: Valid Select whether the fetching for the serial input data to registers (SD0–SD7) at the rising edge or falling edge of the synchronous signal. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 109 Write data to be output in these registers. The register data is converted into serial data and output from the SOUT (P11) terminal; data bits set at "1" are output as high (V ) level and data bits set at "0" are output as low (V ) level. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 110: Programming Notes

    (5) Be aware that the maximum clock frequency for the serial interface is limited to 1 MHz when OSC3 is used as the clock source of the programmable timer or in the slave mode. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 111: Buzzer Output Circuit

    4.13.1 Configuration of buzzer output circuit The S1C63358 is capable of generating buzzer signal to drive a piezo-electric buzzer. The buzzer signal is output from the BZ terminal by software control. Furthermore, the buzzer signal frequency can be set to 2 kHz or 4 kHz with 2 Hz interval by software.

  • Page 112: Control Of Buzzer Output

    Fig. 4.13.3.2 2 Hz interval Note: Since it generates a buzzer signal that is out of synchronization with the BZON register, hazards may at times be produced when the signal goes ON/OFF due to the setting of the BZON register. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 113: I/O Memory Of Buzzer Output Circuit

    4.13.5 Programming note Since it generates a buzzer signal that is out of synchronization with the BZON register, hazards may at times be produced when the signal goes ON/OFF due to the setting of the BZON register. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 114: Svd (Supply Voltage Detection) Circuit

    4.14.1 Configuration of SVD circuit The S1C63358 has a built-in SVD (supply voltage detection) circuit, so that the software can find when the source voltage lowers. Turning the SVD circuit ON/OFF and the SVD criteria voltage setting can be done with software.

  • Page 115: I/O Memory Of Svd Circuit

    SVD detection result, follow the programming sequence below. 1. Set SVDON to "1" 2. Maintain for 100 µsec minimum 3. Set SVDON to "0" 4. Read SVDDT (2) The SVD circuit should normally be turned OFF because SVD operation increase current consump- tion. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 116: Interrupt And Halt

    NMI are masked and interrupts cannot be accepted until the other one is set. <HALT> The S1C63358 has HALT functions that considerably reduce the current consumption when it is not necessary. The CPU enters HALT status when the HALT instruction is executed.
  • Page 117 KCP10 SIK10 KCP11 Interrupt factor flag SIK11 Interrupt mask register EIK1 KCP12 Input comparison register SIK12 Interrupt selection register KCP13 SIK13 KCP20 SIK20 EIK2 EIT3 EIT2 EIT1 EIT0 EIAD Fig. 4.15.1 Configuration of the interrupt circuit EPSON S1C63358 TECHNICAL MANUAL...

  • Page 118: Interrupt Factor

    "1") is set or the RETI instruction is executed unless the interrupt factor flag is reset. Therefore, be sure to reset (write "1" to) the interrupt factor flag in the interrupt service routine before shifting to the interrupt enabled state. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 119: Interrupt Mask

    High 0104H Programmable timer 0106H Serial interface 0108H K00–K03 input 010AH K10–K13 input, K20 input 010CH Clock timer 010EH A/D converter The four low-order bits of the program counter are indirectly addressed through the interrupt request. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 120: I/O Memory Of Interrupt

    EIAD ∗3 ∗2 – Unused FFE7H ∗3 ∗2 – Unused EIAD Enable Mask Interrupt mask register (A/D converter) *1 Initial value at initial reset *2 Not set in the circuit *3 Constantly "0" when being read EPSON S1C63358 TECHNICAL MANUAL...
  • Page 121 Refer to Section 4.5, "Input Ports". EIT3–EIT0: Interrupt mask registers (FFE6H) IT3–IT0: Interrupt factor flags (FFF6H) Refer to Section 4.9, "Clock Timer". EIAD: Interrupt mask register (FFE7H•D0) IAD: Interrupt factor flag (FFF7H•D0) Refer to Section 4.10, "A/D Converter". EPSON S1C63358 TECHNICAL MANUAL...

  • Page 122: Programming Notes

    Further, when re-setting the stack pointer, the SP1 and SP2 must be set as a pair. When one of them is set, all the interrupts including NMI are masked and interrupts cannot be accepted until the other one is set. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 123: Summary Of Notes

    UMMARY OF OTES 5.1 Notes for Low Current Consumption The S1C63358 contains control registers for each of the circuits so that current consumption can be reduced. These control registers reduce the current consumption through programs that operate the circuits at the minimum levels.

  • Page 124: Summary Of Notes By Function

    0000H to 00FFH. Therefore, pay attention to the SP1 value because it may be set to 0200H or more exceeding the 4-bit/16-bit accessible range in the S1C63358 or it may be set to 00FFH or less. Memory accesses except for stack operations by SP1 are 4-bit data access.
  • Page 125 (2) 100 msec or more time is necessary for stabilizing the LCD drive voltages V and V after setting the LCD power control register LPWR to "1". Be careful of the segment-on right after the power is turned on. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 126 RUN/STOP status if a clock is not input after setting the RUN/STOP control register (PTRUN0). (3) Since the TOUT signal is generated asynchronously from the PTOUT register, a hazard within 1/2 cycle is generated when the signal is turned ON and OFF by setting the register. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 127 SVD detection result, follow the programming sequence below. 1. Set SVDON to "1" 2. Maintain for 100 µsec minimum 3. Set SVDON to "0" 4. Read SVDDT (2) The SVD circuit should normally be turned OFF because SVD operation increase current consump- tion. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 128 Further, when re-setting the stack pointer, the SP1 and SP2 must be set as a pair. When one of them is set, all the interrupts including NMI are masked and interrupts cannot be accepted until the other one is set. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 129: Precautions On Mounting

    In particular, the V –V voltages affect the display quality. Do not connect anything to the V –V terminals when the LCD driver is not used. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 130 (1) Design the product and implement the IC on the board so that it is shielded from visible radiation in actual use. (2) The inspection process of the product needs an environment that shields the IC from visible radiation. (3) As well as the face of the IC, shield the back and side too. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 131: Basic External Wiring Diagram

    100 pF Resistor for OSC3 CR oscillation 47 kΩ (1.8 MHz) 0.2 µF –C Capacitor 3.3 µF Capacitor 0.1 µF RESET terminal capacitor Note: The above table is simply an example, and is not guaranteed to work. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 132: Chapter Lectrical Haracteristics

    Max. Unit Supply voltage Booster mode (OSC3 OFF) Normal mode (OSC3 OFF) Normal mode (OSC3 ON) OSC1 CR oscillation Oscillation frequency Crystal oscillation – 32.768 – OSC1 CR oscillation CR oscillation 1800 OSC3 Ceramic oscillation 4100 EPSON S1C63358 TECHNICAL MANUAL...

  • Page 133: Dc Characteristics

    Low level output current (2) =0.1·V µA Common output current -0.05V COM0–3 µA +0.05V µA Segment output current -0.05V SEG0–31 µA (during LCD output) +0.05V µA Segment output current =0.9·V SEG0–31 -220 µA (during DC output) =0.1·V EPSON S1C63358 TECHNICAL MANUAL...

  • Page 134: Analog Circuit Characteristics And Power Current Consumption

    Unit Resolution ≤3.6V Fconv=OSC3/2 or OSC1 Error 2.7V≤V ≤2.7V Fconv=OSC3/2≤2.5MHz or OSC1 2.2V≤V ≤2.2V Fconv=OSC1 (only) 1.6V≤V ≤1.6V Fconv=OSC1 (only), VADSEL=1 0.9V≤V µs Convertion time conv Fconv=OSC3/2=2MHz 10.5 µs Fconv=OSC1=32kHz Input voltage Reference voltage resistance kΩ EPSON S1C63358 TECHNICAL MANUAL...

  • Page 135: Oscillation Characteristics

    =0V, R =47kΩ, Ta=25°C Item Symbol Condition Min. Typ. Max. Unit Oscillation frequency dispersion 1.8MHz OSC3 Oscillation start voltage Vsta Normal mode (V Oscillation start time =2.3 to 3.6V Oscillation stop voltage Vstp Normal mode (V EPSON S1C63358 TECHNICAL MANUAL...
  • Page 136 2.2M = 2.3 to 3.6 V 2.1M = 0 V Ta = 25°C 2.0M Typ. value 1.9M 1.8M 1.7M 1.6M 1.5M 1.4M 1.3M 1.2M 1.1M 100k 110k 120k Resistor value for CR oscillation R [Ω] EPSON S1C63358 TECHNICAL MANUAL...

  • Page 137: Serial Interface Ac Characteristics

    =0V, Ta=25°C, V =0.8V =0.2V =0.8V =0.2V Item Symbol Min. Typ. Max. Unit Transmitting data output delay time Receiving data input set-up time Receiving data input hold time <Master mode> SCLK OUT SOUT <Slave mode> SCLK IN SOUT EPSON S1C63358 TECHNICAL MANUAL...

  • Page 138: Timing Chart

    ∗ 1 instruction execution time or longer LPWR ∗ 100 msec min. VDSEL ∗ 100 msec min. VADSEL (Note) 1 msec min. 2 sec min. Heavy load (Note) VADSEL is used only when it is required. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 139: Package

    CHAPTER 8: PACKAGE CHAPTER ACKAGE 8.1 Plastic Package QFP15-100pin (Unit: mm) ±0.4 ±0.1 INDEX +0.1 0.18 –0.05 +0.05 0.125 –0.025 0° 10° ±0.2 The dimensions are subject to change without notice. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 140: Ceramic Package For Test Samples

    CHAPTER 8: PACKAGE 8.2 Ceramic Package for Test Samples QFP15-100pin (Unit: mm) ±0.30 17.00 12.00Typ. 0.50 0.20 GLASS ±0.30 CERAMIC 0.82 EPSON S1C63358 TECHNICAL MANUAL...

  • Page 141: Chapter Pad Layout

    CHAPTER 9: PAD LAYOUT CHAPTER AYOUT 9.1 Diagram of Pad Layout (0, 0) 4.36 mm Chip thickness: 400 µm Pad opening: 98 µm EPSON S1C63358 TECHNICAL MANUAL...

  • Page 142: Pad Coordinates

    1.157 -2.052 1.419 SEG18 -0.127 2.169 2.052 1.287 -2.052 1.289 SEG19 0.003 2.169 2.052 1.417 -2.052 1.159 SEG20 0.133 2.169 2.052 1.547 -2.052 1.029 SEG21 0.263 2.169 -2.052 0.899 SEG22 0.393 2.169 N.C. : No Connection EPSON S1C63358 TECHNICAL MANUAL...

  • Page 143: S5U1C63000P Manual (P C B S1C63158/358/P366)

    These LEDs correspond one-to-one to the registers listed below. The LED lights when the data is logic "1" and goes out when the data is logic "0". VDC, OSCC, CLKCHG, DBON, HLON, VDSEL, VADSEL, SVDS0–3, SVDON, LPWR, VCCHG EPSON S1C63358 TECHNICAL MANUAL...
  • Page 144 These pins allow you to monitor the clock waveform from the CR oscillation circuit with an oscillo- scope. Note that these pins always output a signal waveform whether or not the oscillation circuit is operating. RESET OSC3 monitor pin (red) OSC1 monitor pin (red) GND pin (black) EPSON S1C63358 TECHNICAL MANUAL...
  • Page 145 ICE and reset CLK and PRG to the LCLK and the Norm position, respec- tively. Then power on the ICE once again. (10) IOSEL2 When downloading circuit data, set IOSEL2 to the "E" position. Otherwise, set to the "D" position. (11) VC5 Unused. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 146: Connecting To The Target System

    (80-pin/40-pin × 2, 100-pin/50-pin × 2, flat type). Take care when handling the connectors, since they conduct electrical power (V = +3.3 V). mark I/O connection cable CN1-1 (40-pin) CN1-2 (40-pin) CN2-1 (50-pin) CN2-2 (50-pin) To target board Fig. A.2.1 Connecting the S5U1C63000P to the target system EPSON S1C63358 TECHNICAL MANUAL...
  • Page 147 Cannot be connected Cannot be connected Cannot be connected Cannot be connected Cannot be connected Cannot be connected ∗ Connectors CN2-1 and CN2-2 are used when the SEG pins are set for DC output with a mask option. EPSON S1C63358 TECHNICAL MANUAL...

  • Page 148: Usage Precautions

    LCD power supply on/off circuit (LPWR) j) LCD constant-voltage change circuit (VCCHG) <Those that can only be counteracted by system or software> k) Current consumed by the internal pull-up resistors l) Input ports in a floating state EPSON S1C63358 TECHNICAL MANUAL...
  • Page 149 IC may not have a resonator connected to its OSC3, its emulator can operate with the OSC3 circuit. - Do not turn on the OSC3 oscillation circuit when the voltage-regulating circuit for high-speed operation remains idle. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 150 <Differences in I/O registers> Although the register bit D1 (address FF01H) is always set to 0 when read out, it operates as a read/ write register on this board. Take care to avoid writing a 1 to this bit. EPSON S1C63358 TECHNICAL MANUAL...
  • Page 151 Central Phone: +852-2585-4600 Fax: +852-2827-4346 101 Virginia Street, Suite 290 Telex: 65542 EPSCO HX Crystal Lake, IL 60014, U.S.A. EPSON TAIWAN TECHNOLOGY & TRADING LTD. Phone: +1-815-455-7630 Fax: +1-815-455-7633 10F, No. 287, Nanking East Road, Sec. 3 Northeast Taipei 301 Edgewater Place, Suite 120...
  • Page 152 S1C63358 Technical Manual ELECTRONIC DEVICES MARKETING DIVISION EPSON Electronic Devices Website http://www.epsondevice.com First issue November, 1997 Printed October, 2002 in Japan...

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