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Hardware Manual(Software eValuation Tool for S1C6F632)
S5U1C6F632T1/T2(SVT6F632)
CMOS 4-BIT SINGLE CHIP MICROCOMPUTER
NOTICE
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 liability of any kind
arising out of any inaccuracies contained in this material or due to its application or use in any product or circuit and, further, there is no
representation that this material is applicable to products requiring high level reliability, such as medical products. Moreover, no license
to any intellectual property rights is granted by implication or otherwise, and there is no representation or warranty that anything made in
accordance with this material will be free from any patent or copyright infringement of a third party. This material or portions thereof may
contain technology or the subject relating to strategic products under the control of the Foreign Exchange and Foreign Trade Law of
Japan and may require an export license from the Ministry of Economy, Trade and Industry or other approval from another government
agency.
Windows 2000 and Windows XP are registered trademarks of Microsoft Corporation, U.S.A.
PC/AT and IBM are registered trademarks of International Business Machines Corporation, U.S.A.
All other product names mentioned herein are trademarks and/or registered trademarks of their respective owners.
© SEIKO EPSON CORPORATION 2009
Configuration of product number
Tx : Reference board
Table of Contents
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON i
Table of Contents
1. Overview............................................................................................................................................ 1
1.1 Features ..................................................................................................................................... 3
1.2 Package contents ....................................................................................................................... 4
2. Component Names and Functions.................................................................................................. 5
2.1 Component names ..................................................................................................................... 5
2.2 Component functions.................................................................................................................. 7
2.3 Board dimensional diagram........................................................................................................ 9
2.3.1 Board dimensions.............................................................................................................. 9
2.3.2 LCD panel dimensions .................................................................................................... 10
2.4 Main components ..................................................................................................................... 12
3. Block Diagram................................................................................................................................. 13
4. Operating Configuration and Startup Procedure ......................................................................... 15
4.1 Standalone operation (S5U1C6F632T1) .................................................................................. 15
4.2 In-circuit emulator debugging operations (S5U1C6F632T2)..................................................... 16
5. Connecting the Ports to Peripheral Circuits................................................................................. 17
6. Switch Input (Shared Input/Output Ports)..................................................................................... 19
7. Temperature/Humidity Measurement (R/F Converter) ................................................................. 20
8. LCD Display (LCD Driver)............................................................................................................... 21
9. Pressure Sensor (Serial Interface) ................................................................................................ 22
10. Buzzer (Sound Generator) ........................................................................................................... 24
11. Illumination Sensor....................................................................................................................... 25
12. External Interface.......................................................................................................................... 26
12.1 USB-Serial on Board Writer (S5U1C88000W4) connector (CN1) ............................................ 28
12.2 Expansion connector (CN2)...................................................................................................... 29
12.3 Expansion connector implementation pattern (CN3) ................................................................ 30
12.4 ICE connector (S5U1C6F632T2).............................................................................................. 31
Appendix A Consumption Current Measurement Method............................................................ 37
1. Overview
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 1
1. Overview The S5U1C6F632T1/T2 (SVT6F632: Software eValuation Tool for S1C6F632) are evaluation boards for the S1C6F632 single-chip
microcomputer made by Seiko Epson. These boards feature a circuit structure designed for the Weather Center, which is an example
of one of S1C6F632’s applications. The S1C6F632’s internal circuit functions can drive a 48 seg. x 32 com LCD, measure
temperature and humidity, and produce a buzzer output. Equipped with an external pressure sensor and an illumination sensor, the
S5U1C6F632T1/T2 boards provide power-saving control based on weather forecasts and illumination intensity.
The SVT6F632 comes with two types of boards: S5U1C6F632T1 and S5U1C6F632T2. The S5U1C6F632T1 is capable of
standalone operations, while the S5U1C6F632T2 can connect to the In-Circuit Emulator (ICE63: S5U1C63000H) for software
debugging. Each board is provided with an expansion connector to allow clients to connect custom boards.
Figure 1.1 External view of S5U1C6F632T1
1. Overview
2 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
Figure 1.2 External view of S5U1C6F632T2
1. Overview
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 3
1.1 Features
S5U1C6F632T1
1) CPU S1C6F632 (mask option specification: Standard Type B)
2) Input power supply voltage +3.0 V(DC), supplied by coin cell (CR2032) or external power source (+5.0 V)
3) CPU clock OSC1: 32.768 Hz (crystal oscillator), OSC3: 4 MHz (ceramic oscillator)
4) Functions/devices Reset switch
USB-Serial on Board Writer connector (CN1)
Expansion connector and board pattern (CN2, CN3)
Switch input (4 keys)
Temperature and humidity sensors
Pressure sensor
Illumination sensor
Piezo buzzer
STN LCD panel (128 seg. x 32 com, black and white)
* Effective display area: 48 seg. x 32 com
S5U1C6F632T2
1) CPU S1C6F632 (operated by ICE63)
2) Input power supply voltage +3.3 V(DC), supplied from ICE63 through I/O cable
3) CPU clock OSC1: 32.768 Hz, OSC3: 4 MHz (based on oscillation frequency adjustment on ICE63’s internal peripheral circuit board)
4) Functions/devices Reset switch
Expansion connector and board pattern (CN2, CN3)
Switch input (4 keys)
Pressure sensor
Illumination sensor
Piezo buzzer
STN LCD panel (128 seg. x 32 com, black and white)
* Effective display area: 48 seg. x 32 com
1. Overview
4 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
1.2 Package contents
The S5U1C6F632T1/T2 package contains the following items.
S5U1C6F632T1
(1) Board (main unit) ............................................................................................................. 1
(2) Coin cell (CR2032/3.0 V) ................................................................................................ 1
(3) External power cable........................................................................................................ 1
(4) Warranty card........................................................................ 1 in English & 1 in Japanese
(5) Precautions............................................................................ 1 in English & 1 in Japanese
(6) Manual download instructions .............................................. 1 in English & 1 in Japanese
S5U1C6F632T2
(1) Board (main unit, double-board configuration)................................................................ 1
(2) Warranty card........................................................................ 1 in English & 1 in Japanese
(3) Precautions............................................................................ 1 in English & 1 in Japanese
(4) Manual download instructions .............................................. 1 in English & 1 in Japanese
2. Component Names and Functions
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 5
2. Component Names and Functions
2.1 Component names
The component names and functions are given below.
S5U1C6F632T1
Figure 2.1.1 Names of components mounted on the upper side of S5U1C6F632T1
Figure 2.1.2 Names of components mounted on the underside of the S5U1C6F632T1
(2) External power supply connector
Push-on switches
(6) Expansion connector (5) USB-Serial on Board Writer
connector
(7) Reset switch
Piezo buzzer
S1C6F632
Humidity sensor
Pressure sensor
(4) Power switch
(1) Power supply input selector switch
Temperature sensor
(8) Power supply jumper switch for S1C6F632
(9) VDD pin
Illumination sensor
LCD panel
(9) VSS pin
(6) Expansion connector implementation pattern
(3) Coin cell holder
2. Component Names and Functions
6 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
S5U1C6F632T2
Figure 2.1.3 Names of components mounted on the upper side of S5U1C6F632T2
(3) Expansion connector implementation pattern
Pressure sensor Illumination sensor
Piezo buzzer
LCD panel Push-on switches
(2) Reset switch (3) Expansion connector
(1) ICE connectors (LCD) (1) ICE connectors (I/O)
2. Component Names and Functions
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 7
2.2 Component functions
S5U1C6F632T1
(1) Power supply input selector switch
This jumper switch (JP2) is used to select the method of power supply. The S5U1C6F632T1 board can operate on a coin cell or external power supply. When a coin cell is used, set this switch to “B.” To use an external power source, set the switch to “E.”
Figure 2.2.1 (a) Switch setting for use of coin cell Figure 2.2.1 (b) Switch setting for use of external power supply
(2) External power supply connector
This connector is used to provide a stabilized power supply from an external source. Use the provided power cable to supply power (5.0 V10%).
(3) Coin cell holder
The coin cell (CR2032) holder is located on the underside of the board. See the instructions below for installing/removing the coin cell.
Figure 2.2.2 Installing the coin cell Figure 2.2.3 Removing the coin cell
Caution! Make sure that the positive side of the coin cell faces up when installing it into the coin cell holder located on the underside of the board.
1) Insert the coin cell. 2) Push down until you hear a click.
1) Press down on the center tab of the coin cell holder.
2. Component Names and Functions
8 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
(4) Power switch
Slide this switch to supply power to the board. When the power supply input selector switch is set to external power supply, the board receives power from the external power supply connector. When the selector is set to coin cell, the board receives power from the coin cell.
(5) USB-Serial on Board Writer connector
This connector is used to write programs/data to the internal flash memory of the S1C6F632. Connect the USB-Serial on Board Writer (S5U1C88000W4) to this connector and transfer programs/data from a PC.
Caution! When writing programs/data to the flash memory, provide an external stabilized power supply, if at all possible. While it is possible to write programs/data to flash memory using the coin cell as the power source, this may result in write errors if the voltage of the coin cell drops below required levels.
(6) Expansion connector, expansion connector implementation pattern
These are used to connect custom client boards for expanded functionality. For more information, refer to “12. External Interface.”
(7) Reset switch
Press this switch to initialize the S1C6F632 and peripheral devices for the board.
Caution! If a PC is connected via the USB-Serial on Board Writer, the writer software in the PC is used for S1C6F632 reset control. Do not press this Reset switch in such cases.
(8) Power supply jumper switch for S1C6F632
Remove this jumper switch (JP1) and connect an ammeter to the pins to measure the current consumed by the S1C6F632. For normal use, keep the jumper switch mounted on the board. See Appendix A for more information.
(9) VDD pin, VSS pin
These pins supply VDD and VSS power to the S1C6F632.
S5U1C6F632T2
(1) ICE connectors (I/O, LCD)
These connectors are used to connect the ICE63. Power (+3.3 V) from the ICE63 is supplied through these connectors (I/O).
(2) Reset switch
Press this switch to initialize the peripheral devices for the board and to provide an initialization signal to the connected ICE63.
(3) Expansion connector, expansion connector implementation pattern
These are used to connect custom client boards for expanded functionality. For more information, refer to “12. External Interface.”
2. Component Names and Functions
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 9
2.3 Board dimensional diagram
2.3.1 Board dimensions
The dimensions of the boards are given below.
S5U1C6F632T1/T2
Figure 2.3.1 S5U1C6F632T1 board dimensions
S5U1C6F632T2 (interface board)
Figure 2.3.2 S5U1C6F632T2 interface board dimensions
* Note
The unit of measurement is millimeters (mm).
Component coordinate origin
2. Component Names and Functions
10 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
2.3.2 LCD panel dimensions
The dimensions of the LCD panel mounted on the board are given below.
Figure 2.3.3 (a) LCD panel/bezel dimensions
2. Component Names and Functions
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 11
Figure 2.3.3 (b) LCD panel dimensions
Figure 2.3.3 (c) Bezel dimensions
2. Component Names and Functions
12 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
2.4 Main components
S5U1C6F632T1
CPU (U1)........................................................................................................... S1C6F632 (Seiko Epson)
Crystal oscillator 32.768 kHz (x 1) .................................................................... MC-306 (Epson Toyocom)
Ceramic oscillator (x 2) ..................................................................................... EFOSS4004E5 (Matsushita)
LCD (LCD1)...................................................................................................... Custom-made component
Thermistor (R7) ................................................................................................. 103KT1005 (Ishizuka)
Humidity sensor (R3) ........................................................................................ C10M53R (Shinyei Technology)
Pressure sensor (U5) .......................................................................................... SCP1000-D01 (VTI)
Illumination sensor (U4).................................................................................... TPS856 (Toshiba)
A/D converter (U2)............................................................................................ AD7466BRM (Analog Devices)
Regulator (U8)................................................................................................... LT1962EMS8-3 (Linear Technology)
Piezo buzzer (BZ1) ............................................................................................ PS1240P02AT (TDK)
Coin cell holder (BT1)....................................................................................... BA2032SM (Takachi Electric)
Connector (CN1) ............................................................................................... HIF3E-10PA-2.54DSA (71) (Hirose Electric)
Connector (CN2) ............................................................................................... HIF3E-30PA-2.54DSA (71) (Hirose Electric)
Connector (CN6) ............................................................................................... B2B-XH-A (J.S.T Mfg.)
Switch (SW1, SW2, SW3, SW4, RESET)......................................................... SKHHDHA010 (Alps Electric)
Switch (POW).................................................................................................... 09 10290 01 (SECME)
Coin cell............................................................................................................. CR2032
<Accessories>
Power cable and connectors............................................................................... XHP-2 (J.S.T Mfg.)
S5U1C6F632T2
<Main board: Upper board>
LCD (LCD1)...................................................................................................... Custom-made component
Pressure sensor (U5) .......................................................................................... SCP1000-D01 (VTI)
Illumination sensor (U4).................................................................................... TPS856 (Toshiba)
A/D converter (U2)............................................................................................ AD7466BRM (Analog Devices)
Piezo buzzer (BZ1) ............................................................................................ PS1240P02AT (TDK)
Connector (CN1) ............................................................................................... HIF3E-10PA-2.54DSA (71) (Hirose Electric)
Connector (CN2) ............................................................................................... HIF3E-30PA-2.54DSA (71) (Hirose Electric)
Switch (SW1, SW2, SW3, SW4, RESET)......................................................... SKHHDHA010 (Alps Electric)
<Interface board: Lower board>
Connector (P1, P2, P5, P6) ................................................................................ 3432-6002LCPL (3M)
Connector (P3)................................................................................................... 3662-6002LCPL (3M)
3. Block Diagram
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 13
3. Block Diagram The block diagrams for the SVT6F632 are shown below.
S5U1C6F632T1
Figure 3.1 S5U1C6F632T1 block diagram
S1C6F632
(PQFP20-144)
Pressure sensor SCP1000
SIO
LCD
SEG
48 dots
32 dots
Crystal oscillator (32.768 Hz)
Ceramic oscillator (4 MHz)
I/O
Push-on switches
COM
SEN0
SEN1
REF0
Thermistor resistor 103KT1005
Humidity sensor C10M53R
Piezo buzzer
OSC1
OSC3
OSC2
OSC4
P10P11P12P13
P03
USB-Serial on Board Writer
S5U1C88000W4
HUD
USB
Power switch (slide switch)
Cable for writer
Illumination sensor TPS850 ADC
Provided in product package
Expansion connector
3. Block Diagram
14 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
S5U1C6F632T2
Figure 3.2 S5U1C6F632T2 block diagram
Pressure sensor SCP1000
SIO
LCD
SEG
48 dots
32 dots COM
USB
Illumination sensor TPS850
ADC
Provided in product package
Expansion connector
ICE interfaces 1) 40 pins x 2: I/O1 2) 10 pins x 1: I/O2 3) 40 pins x 2: LCD
In-circuit emulator S5U1C63000H
Push-on switches Piezo buzzer
4. Operating Configuration and Startup Procedure
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 15
4. Operating Configuration and Startup Procedure
4.1 Standalone operation (S5U1C6F632T1)
With the USB-Serial on Board Writer (S5U1C88000W4) connected, the S5U1C6F632T1 can write programs/data to the internal
flash EEPROM of the S1C6F632 mounted on the S5U1C6F632T1 board. Once a program/data is written, the board can run from a
coin cell for standalone operations. The corresponding connection configurations and startup procedures are described below.
1) Connecting the USB-Serial on Board Writer
Connect the USB-Serial on Board Writer (S5U1C88000W4) to the CN1 connector on the S5U1C6F632T1 board.
Figure 4.1.1 Connecting the USB-Serial on Board Writer
Caution! Carefully check the position of Pin 1 in the CN1 connector when connecting. The connector lacks a safeguard to prevent reversed connections.
2) Selecting the power supply
Set the power supply input selector switch correctly. When using a coin cell, set the jumper switch to “B.” When using an external power supply, set the switch to “E.” For more information, refer to “2. Component Names and Functions.”
Caution! When writing programs/data to the flash memory, use an external stabilized power supply, if at all possible. While it is possible to write programs/data to the flash memory by using the coin cell as the power source, this may result in write errors if the voltage of the coin cell drops below required levels.
3) Writing programs/data using the USB-Serial on Board Writer
Write programs/data to the flash EEPROM by referring to Appendix B “PROM Programming” in the S1C6F632 Technical Manual.
4) Operation
After writing programs/data, turn off the power to the board, disconnect the USB-Serial on Board Writer, then turn on power once again. When an external power supply is used to write programs/data and the coin cell is used for board operations, switch the power supply input selector from “E” to “B.”
4. Operating Configuration and Startup Procedure
16 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
4.2 In-circuit emulator debugging operations (S5U1C6F632T2)
Connecting the in-circuit emulator (ICE63: S5U1C63000H) to a PC allows use of the S5U1C6F632T2 as part of an advanced
debugging environment. The corresponding connection configurations and startup procedures are described below.
1) Connecting the in-circuit emulator
Connect the P1, P2, P5, P6, and P3 connectors, respectively, on the S5U1C6F632T2 board to the CN1-2, CN1-1, CN4-2, CN4-1, and CN3 on the in-circuit emulator (ICE63: S5U1C63000H). The names of the ICE63 connectors (CN1-1, CN1-2, CN4-1, CN4-2, CN3) are also indicated on the S5U1C6F632T2 board. Confirm these connector indications when connecting. Use the I/O cables supplied for the standard peripheral board (S5U1C63000P6) and add-on board (S5U1C6F632P2), which are designed to be used in combination with the ICE63.
Note that circuit data for S1C6F632 must be written to the standard peripheral board (S5U1C63000P6) built into the in-circuit emulator in advance. For a detailed discussion of the procedure for writing data, refer to Appendix A in the S1C6F632 Technical Manual.
Figure 4.2.1 Connecting the in-circuit emulator
2) Starting the in-circuit emulator
Turn on power for the in-circuit emulator. For operating method of the in-circuit emulator, refer to the S1C63000H6 Hardware Manual. Do not supply power to the S5U1C6F632T2 board. The power needed will be provided from the in-circuit emulator through the I/O cables.
Caution! The sensors (temperature sensor, humidity sensor) for R/F converter use variable resistors in pseudo mode. Mount variable resistors and other components to the in-circuit emulator’s internal add-on board (S5U1C6F632P2) for S1C6F632 for software evaluations.
5. Connecting the Ports to Peripheral Circuits
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 17
5. Connecting the Ports to Peripheral Circuits Table 5.1 shows the ports on the S1C6F632 of the SVT6F632 and the peripheral circuits to which ports are connected. For
information on the expansion connector, refer to “12. External Interface.”
Table 5. 1 List of ports and connection destinations
Port Direction Multiplex Signal name Connection destination
P00 - R/F converter (ch0)
P00/RFIN0 Temperature sensor Expansion connector (CN2)*1 ICE connector (CN5 P4 P3)*2
P01 - R/F converter (ch0)
P01/REF0 Temperature sensor Expansion connector (CN2)*1 ICE connector (CN5 P4 P3)*2
P02 - R/F converter (ch0)
P02/SEN0 Temperature sensor Expansion connector (CN2)*1 ICE connector (CN5 P4 P3)*2
P03 O R/F converter (ch0), buzzer
P03/RFOUT/BZ Piezo buzzer Expansion connector (CN2)*1 ICE connector (CN5 P4 P3 )*2
P10 I Stopwatch P10/RUN/LAP Push-on switch (SW1) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P11 I Stopwatch P11/RUN/LAP Push-on switch (SW2) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P12 I Event counter P12/EVIN_A Push-on switch (SW3) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P13 I Programmable timer
P13/TOUT_A Push-on switch (SW4) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P20 O Serial interface
P20/SCLK SCK pin for pressure sensor (SCP1000) Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P21 O Serial interface
P21/SOUT MOSI pin for pressure sensor (SCP1000) Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P22 I Serial interface
P22/SIN MISO pin for pressure sensor (SCP1000) Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P23 O Serial interface, FOUT
P23/SRDY/SS/FOUT CSB pin for pressure sensor (SCP1000) (after logic inversion) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P30 O P30 PD pin for pressure sensor (SCP1000) (after logic inversion) Expansion connector (CN2) ICE connector (CN5 P2)*2
P31 I Programmable timer
P31/TOUT_B DRDY pin for pressure sensor (SCP1000) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
5. Connecting the Ports to Peripheral Circuits
18 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
Port Direction Multiplex Signal name Connection destination
P32 I/O Programmable timer
P32/TOUT_C Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P33 O Programmable timer
P33/TOUT_D Illumination sensor power supply control (after logic inversion) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P40 O P40 SCLK pin for AD converter Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P41 I Programmable timer
P41/EVIN_B SDAT pin for AD converter Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P42 O Programmable timer
P42/EVIN_C XCS pin for AD converter Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P43 I/O Programmable timer
P43/EVIN_D Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
P50 I/O P50 Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P51 I/O P51 Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P52 I/O P52 Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
P53 I/O P53 Expansion connector (CN2) Expansion connector (CN3)*3 ICE connector (CN5 P4 P2)*2
Caution!
*1 Connect by shorting out the solder bridge.
*2 In the case of S5U1C6F632T2
*3 Connector not provided. Board pattern only.
6. Switch Input (Shared Input/Output Ports)
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 19
6. Switch Input (Shared Input/Output Ports) Switches SW1 through SW4 provided on the SVT6F632 are connected to ports P10, P11, P12, and P13 on the S1C6F632, as shown
in Figure 6.1.
Figure 6.1 Key input connection circuit of CPU board
Input ports P10, P11, P12, and P13 on the S1C6F632 are internally added with pull-down resistors and remain at Low (input = 0)
under normal conditions. It changes to High (input = 1) when the push-on switch is pressed.
Caution!
The mask option specification for the S1C6F632 of the board is Standard Type B. For more information, refer to the S1C6F632
Technical Manual.
SW1
SW2
SW3
SW4
S1C6F632
P10
P11
P12
P13
7. Temperature/Humidity Measurement (R/F Converter)
20 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
7. Temperature/Humidity Measurement (R/F Converter)
The S5U1C6F632T1 is equipped with a temperature sensor (thermistor resistor) and a humidity sensor. Using the S1C6F632’s
internal R/F converter, the S5U1C6F632T1 can measure temperature and humidity. The S5U1C6F632T2 lacks the resistor or
capacitor necessary for such measurements. For software evaluations, variable resistors and other functions are connected in pseudo
mode to the platform on the add-on board (S5U1C6F632P2), which is designed to be used in combination with the ICE63. For more
information, refer to Appendix A in the S1C6F632 Technical Manual.
Figure 7.1 Connection for temperature and humidity measurements
Caution!
The P00 to P02 ports on the S1C6F632 are shared with the R/F converter. These ports are used as R/F converter pins by the board
and serve as dedicated R/F converter connection pins. However, when the S5U1C6F632T2 is used, the temperature and humidity
sensors are connected to the add-on board inside the ICE63. This means the P00 to P02 ports can also be used as general-purpose
I/O ports by switching pin functions through software. The P00 to P02 pins can be used through the expansion board connector
(CN2). For more information, refer to “12. External Interface.”
Humidity sensor
Temperature sensor
8. LCD Display (LCD Driver)
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 21
8. LCD Display (LCD Driver) The S1C6F632 is equipped with a dot matrix LCD driver capable of driving a black-and-white LCD panel of up to 48 segments
(SEG) x 32 commons (COM). The board comes with an LCD panel of 128 segments (SEG) x 32 commons (COM), which is
connected to the SEG/COM pins of the S1C6F632, as shown below.
Figure 8.1 LCD panel connection
Although the LCD panel mounted on the SVT6F632 has 128 segments (SEG) x 32 commons (COM), the S1C6F632 is capable of
displaying up to 48 segments (SEG) x 32 commons (COM). On the SVT6F632, the display area is centered in the LCD panel, as
shown below.
Figure 8.2 SEG/COM direction of LCD panel
LCD panel
COM0 to COM31
SEG0 to SEG47
COM0 to COM31
SEG0 to SEG47
S1C6F632
COM0COM1COM2COM3
・
・
・
COM28COM29COM30COM31 S
EG
0S
EG
1
SE
G127
SE
G126
SE
G40
SE
G41
SE
G86
SE
G87
・・・ ・・・ ・・・
(SE
G47
)(S
EG
46
(SE
G1
)(S
EG
0)
LCD panel display area
SEG direction
CO
M d
irect
ion
C6F
632
9. Pressure Sensor (Serial Interface)
22 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
9. Pressure Sensor (Serial Interface) The SVT6F632 uses the S1C6F632’s built-in serial interface (clock synchronization type x 1 ch) to communicate with the pressure
sensor (SCP1000). Since the general-purpose input/output ports on the S1C6F632 also serve as serial ports, the functions of these
ports must be switched by software if they are to be used as serial ports. Input/output signals from the serial ports are also connected
to the expansion connector. Furthermore, the shared input/output ports (P30, P31) are used for pressure sensor communication-ready
control and power supply control.
Table 9.1 Serial port connection destinations
Interface Signal name (port pin) I/O Connection destination
SCLK (P20) O SCK pin for pressure sensor (SCP1000) Expansion connector (CN2) Expansion connector (CN3)*1 ICE connector (CN5 P4 P2)*2
SOUT (P21) O MOSI pin for pressure sensor (SCP1000) Expansion connector (CN2) Expansion connector (CN3)*1 ICE connector (CN5 P4 P2)*2
SIN (P22) I MISO pin for pressure sensor (SCP1000) Expansion connector (CN2) Expansion connector (CN3)*1 ICE connector (CN5 P4 P2)*2
Clock synchronization type
SS (P23) O CSB pin for pressure sensor (SCP1000) (after logic inversion) Expansion connector (CN2) ICE connector (CN5 P4 P2)*2
*1 Connector not provided. Board pattern only.
*2 In the case of S5U1C6F632T2
9. Pressure Sensor (Serial Interface)
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 23
Figure 9.1 Pressure sensor connection diagram
S1C6F632
Pressure sensor
10. Buzzer (Sound Generator)
24 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
10. Buzzer (Sound Generator) The SVT6F632 can drive a piezo buzzer using the S1C6F632’s built-in sound generator. This capability is enhanced by the
externally connected transistor.
Figure 10.1 Piezo buzzer drive circuit diagram
S1C6F632
11. Illumination Sensor
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 25
11. Illumination Sensor The SVT6F632 is equipped with an illumination sensor and an AD converter. The AD converter processes the voltage output from
the illumination sensor for illumination detection. The S1C6F632 uses the shared input/output ports (P40 to P42) to control the AD
converter. It also uses the shared input/output port (P33) to control the illumination sensor power supply.
Figure 11.1 Illumination sensor circuit diagram
S1C6F632
Illumination sensor
12. External Interface
26 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
12. External Interface The board is provided with an expansion connector (CN2) and an expansion connector implementation pattern (CN3) to allow
clients to connect custom boards. The S5U1C6F632T2 is also provided with ICE connectors to allow users to configure an advanced
debugging environment by connecting it to the ICE63.
S5U1C6F632T1 external interface
Figure 12.1 External interface connector (S5U1C6F632T1)
S1C6F632
CN
2(3
0pin)
Main board
R/F converter
Thermistor resistor for
temperature measurement
Buzzer circuit Piezo buzzer
P00 |
P02
P03
Input/output circuit
Push-on switches
P10 |
P13
Serial interface
P20 |
P23 P30 P31
Pressure sensor
P32P33
AD converter
P40 |
P42 P43
P50 |
P53 C
N3
(20pin)
Solder bridge
P20P21 P22 P32 P50 |
P53
Illumination sensor
LCD
CN
1(1
0pin)
DMOD DRXD DTXD DCLK
USB-Serial on Board
Writer
12. External Interface
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 27
S5U1C6F632T2 external interface connector
Figure 12.2 External interface connector (S5U1C6F632T2)
CN
2 (30pin)
Main board
CN
5 (50pin)
Thermistor resistor for
temperature measurement
Piezo buzzer
Push-on switches
Pressure sensor
AD converter
CN
3 (20pin)
Interface board
P4 (50p
in)
P3 (10p
in)P
1(40p
in)P
2(40p
in)
Solder bridge
P20P21 P22 P32 P50 |
P53
P5 (40p
in)P
6(40p
in)
CN
4(8
0pin)
P7
(80pin)
Illumination sensor
LCD
S1C6F632
(Not mounted)
ICE
63
12. External Interface
28 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
12.1 USB-Serial on Board Writer (S5U1C88000W4) connector (CN1)
The CN1 connector specifications and pin layout are as shown below.
Table 12.1 CN1 connector pin layout and connector diagram (CN1)
CN1 connector
Manufacturer: Hirose Electric Model: HIF3E-10PA-2.54DSA (71)
(Upper side)
No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 DCLK I System clock input
4 VSS - Power supply pin (negative)
5 DTXD O Serial interface data output
6 DRXD I Serial interface data input
7 RESET I Reset input
8 NC - Not connected
9 VSS - Power supply pin (negative)
10 DMOD I Programming mode setting input
C6F
632
9 10
1 2
CN1
12. External Interface
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 29
12.2 Expansion connector (CN2)
The CN2 connector specifications and pin layout are as shown below.
Table 12.2 CN2 connector pin layout and connector diagram
CN2 connector
Manufacturer: Hirose Electric Model: HIF3E-30PA-2.54DSA (71)
(Upper side)
No. Name I/O Function
1 P00 I/O General-purpose port*1
2 P01 I/O General-purpose port*1
3 P02 I/O General-purpose port*1
4 P03 - Used (buzzer)
5 P10 - Used (push-on switch (SW1))
6 P11 - Used (push-on switch (SW2))
7 P12 - Used (push-on switch (SW3))
8 P13 - Used (push-on switch (SW4))
9 P20 - Used (pressure sensor interface (SCK))
10 P21 - Used (pressure sensor interface (MOSI))
11 P22 - Used (pressure sensor interface (MISO))
12 P23 - Used (pressure sensor interface (CSB))
13 P30 - Used (pressure sensor interface (PD))
14 P31 - Used (pressure sensor interface (DRDY))
15 P32 I/O General-purpose port
16 P33 - Used (illumination sensor power supply control)
17 P40 - Used (AD converter interface (SCLK))
18 P41 - Used (AD converter interface (SDAT))
19 P42 - Used (AD converter interface (XCS))
20 P43 I/O General-purpose port
21 P50 I/O General-purpose port
22 P51 I/O General-purpose port
23 P52 I/O General-purpose port
24 P53 I/O General-purpose port
25 VDD - Power supply pin (positive)
26 VDD - Power supply pin (positive)
27 RESET O Reset output (positive logic)
28 VSS - Power supply pin (negative)
29 VSS - Power supply pin (negative)
30 VSS - Power supply pin (negative)
*1 May be used only with the S5U1C6F632T2. (Cannot be used with R/F converter ch0.) Not connected with S5U1C6F632T1.
C6F
632
1 2
29 30
CN2
12. External Interface
30 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
12.3 Expansion connector implementation pattern (CN3)
The pin layout of the CN3 connector implementation pattern is shown below.
Table 12.3 CN3 connector implementation pattern layout
CN3 connector implementation pattern
Manufacturer: KEL Model: 8913-020-178MS-A (Not mounted)
(Upper side)
No. Name I/O Function
1 NC - Not connected
2 NC - Not connected
3 P22 - Used (pressure sensor interface (MISO))
4 P21 - Used (pressure sensor interface (MOSI))
5 VSS - Power supply pin (negative)
6 P32 I/O General-purpose port
7 VSS - Power supply pin (negative)
8 P20 - Used (pressure sensor interface (SCK))
9 VSS - Power supply pin (negative)
10 P50 I/O General-purpose port
11 VSS - Power supply pin (negative)
12 P51 I/O General-purpose port
13 VSS - Power supply pin (negative)
14 P52 I/O General-purpose port
15 VSS - Power supply pin (negative)
16 XRESET O Reset output (negative logic)
17 P53 I/O General-purpose port
18 NC - Not connected
19 VDD - Power supply pin (positive)
20 VDD - Power supply pin (positive)
C6F
632
2 1
20 19
CN3
12. External Interface
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 31
12.4 ICE connector (S5U1C6F632T2)
The ICE connector specifications and pin layouts are shown below.
Table 12.4.1 ICE connector pin layout and connector diagram (P1, P2, P3, P5, P6)
P1, P2, P3, P5, and P6 connectors
Manufacturer: 3M Models: 3432-6002LCPL (P1, P2, P5, P6) 3662-6002LCPL (P3)
(Upper side)
Not
mounted2
P2 (CN1-1)
P1 (CN1-2) P5 (CN4-2)
P6 (CN4-1)
P3 (CN3)
12. External Interface
32 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
Table 12.4.2 ICE connector pin layout and connector diagram (P1)
P1 (CN1-2)
No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 NC - Not connected
4 NC - Not connected
5 NC - Not connected
6 NC - Not connected
7 NC - Not connected
8 NC - Not connected
9 NC - Not connected
10 NC - Not connected
11 VSS - Power supply pin (negative)
12 VSS - Power supply pin (negative)
13 NC - Not connected
14 NC - Not connected
15 NC - Not connected
16 NC - Not connected
17 NC - Not connected
18 NC - Not connected
19 NC - Not connected
20 NC - Not connected
21 VDD - Power supply pin (positive)
22 VDD - Power supply pin (positive)
23 NC - Not connected
24 NC - Not connected
25 NC - Not connected
26 NC - Not connected
27 NC - Not connected
28 NC - Not connected
29 NC - Not connected
30 NC - Not connected
31 VSS - Power supply pin (negative)
32 VSS - Power supply pin (negative)
33 NC - Not connected
34 NC - Not connected
35 NC - Not connected
36 NC - Not connected
37 NC - Not connected
38 RESET O Reset output to ICE (positive logic)
39 VSS - Power supply pin (negative)
40 VSS - Power supply pin (negative)
12. External Interface
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 33
Table 12.4.3 ICE connector pin layout and connector diagram (P2)
P2 (CN1-1)
No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 NC - Not connected
4 NC - Not connected
5 NC - Not connected
6 NC - Not connected
7 NC - Not connected
8 NC - Not connected
9 NC - Not connected
10 NC - Not connected
11 VSS - Power supply pin (negative)
12 VSS - Power supply pin (negative)
13 P10 O Switch output (SW1)
14 P11 O Switch output (SW2)
15 P12 O Switch output (SW3)
16 P13 O Switch output (SW4)
17 P20 I Pressure sensor interface (SCK)
18 P21 I Pressure sensor interface (MOSI)
19 P22 O Pressure sensor interface (MISO)
20 P23 I Pressure sensor interface (CSB)
21 VDD - Power supply pin (positive)
22 VDD - Power supply pin (positive)
23 P30 I Pressure sensor interface (PD)
24 P31 O Pressure sensor interface (DRDY)
25 P32 I/O General-purpose port*1
26 P33 I Illumination sensor power supply control
27 P40 I AD converter interface (SCLK)
28 P41 O AD converter interface (SDAT)
29 P42 I AD converter interface (XCS)
30 P43 I/O General-purpose port*1
31 VSS - Power supply pin (negative)
32 VSS - Power supply pin (negative)
33 P50 I/O General-purpose port*1
34 P51 I/O General-purpose port*1
35 P52 I/O General-purpose port*1
36 P53 I/O General-purpose port*1
37 NC - Not connected
38 NC - Not connected
39 VSS - Power supply pin (negative)
40 VSS - Power supply pin (negative)
*1 May be used by pulling out from the CN2 connector on the main board.
12. External Interface
34 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
Table 12.4.4 ICE connector pin layout and connector diagram (P3)
P3 (CN3)
No. Name I/O Function
1 VDD - Power supply pin (positive)
2 VDD - Power supply pin (positive)
3 P00 I/O General-purpose port*1
4 P01 I/O General-purpose port*1
5 P02 I/O General-purpose port*1
6 P03 I Buzzer
7 NC - -
8 NC - -
9 VSS - Power supply pin (negative)
10 VSS - Power supply pin (negative)
*1 May be used by pulling out from the CN2 connector on the main board.
12. External Interface
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 35
Table 12.4.5 ICE connector pin layout and connector diagram (P5)
P5 (CN2-2)
No. Name I/O Function
1 SEG24 I LCD drive waveform input (SEG)
2 SEG25 I LCD drive waveform input (SEG)
3 SEG26 I LCD drive waveform input (SEG)
4 SEG27 I LCD drive waveform input (SEG)
5 SEG28 I LCD drive waveform input (SEG)
6 SEG29 I LCD drive waveform input (SEG)
7 SEG30 I LCD drive waveform input (SEG)
8 SEG31 I LCD drive waveform input (SEG)
9 SEG32 I LCD drive waveform input (SEG)
10 SEG33 I LCD drive waveform input (SEG)
11 SEG34 I LCD drive waveform input (SEG)
12 SEG35 I LCD drive waveform input (SEG)
13 SEG36 I LCD drive waveform input (SEG)
14 SEG37 I LCD drive waveform input (SEG)
15 SEG38 I LCD drive waveform input (SEG)
16 SEG39 I LCD drive waveform input (SEG)
17 SEG40 I LCD drive waveform input (SEG)
18 SEG41 I LCD drive waveform input (SEG)
19 SEG42 I LCD drive waveform input (SEG)
20 SEG43 I LCD drive waveform input (SEG)
21 SEG44 I LCD drive waveform input (SEG)
22 SEG45 I LCD drive waveform input (SEG)
23 SEG46 I LCD drive waveform input (SEG)
24 SEG47 I LCD drive waveform input (SEG)
25 COM31 I LCD drive waveform input (COM)
26 COM30 I LCD drive waveform input (COM)
27 COM29 I LCD drive waveform input (COM)
28 COM28 I LCD drive waveform input (COM)
29 COM27 I LCD drive waveform input (COM)
30 COM26 I LCD drive waveform input (COM)
31 COM25 I LCD drive waveform input (COM)
32 COM24 I LCD drive waveform input (COM)
33 COM23 I LCD drive waveform input (COM)
34 COM22 I LCD drive waveform input (COM)
35 COM21 I LCD drive waveform input (COM)
36 COM20 I LCD drive waveform input (COM)
37 COM19 I LCD drive waveform input (COM)
38 COM18 I LCD drive waveform input (COM)
39 COM17 I LCD drive waveform input (COM)
40 COM16 I LCD drive waveform input (COM)
12. External Interface
36 EPSON S5U1C6F632T1/T2 (SVT6F632) Hardware Manual
Table 12.4.6 ICE connector pin layout and connector diagram (P6)
P6 (CN2-1)
No. Name I/O Function
1 COM0 I LCD drive waveform input (COM)
2 COM1 I LCD drive waveform input (COM)
3 COM2 I LCD drive waveform input (COM)
4 COM3 I LCD drive waveform input (COM)
5 COM4 I LCD drive waveform input (COM)
6 COM5 I LCD drive waveform input (COM)
7 COM6 I LCD drive waveform input (COM)
8 COM7 I LCD drive waveform input (COM)
9 COM8 I LCD drive waveform input (COM)
10 COM9 I LCD drive waveform input (COM)
11 COM10 I LCD drive waveform input (COM)
12 COM11 I LCD drive waveform input (COM)
13 COM12 I LCD drive waveform input (COM)
14 COM13 I LCD drive waveform input (COM)
15 COM14 I LCD drive waveform input (COM)
16 COM15 I LCD drive waveform input (COM)
17 SEG0 I LCD drive waveform input (SEG)
18 SEG1 I LCD drive waveform input (SEG)
19 SEG2 I LCD drive waveform input (SEG)
20 SEG3 I LCD drive waveform input (SEG)
21 SEG4 I LCD drive waveform input (SEG)
22 SEG5 I LCD drive waveform input (SEG)
23 SEG6 I LCD drive waveform input (SEG)
24 SEG7 I LCD drive waveform input (SEG)
25 SEG8 I LCD drive waveform input (SEG)
26 SEG9 I LCD drive waveform input (SEG)
27 SEG10 I LCD drive waveform input (SEG)
28 SEG11 I LCD drive waveform input (SEG)
29 SEG12 I LCD drive waveform input (SEG)
30 SEG13 I LCD drive waveform input (SEG)
31 SEG14 I LCD drive waveform input (SEG)
32 SEG15 I LCD drive waveform input (SEG)
33 SEG16 I LCD drive waveform input (SEG)
34 SEG17 I LCD drive waveform input (SEG)
35 SEG18 I LCD drive waveform input (SEG)
36 SEG19 I LCD drive waveform input (SEG)
37 SEG20 I LCD drive waveform input (SEG)
38 SEG21 I LCD drive waveform input (SEG)
39 SEG22 I LCD drive waveform input (SEG)
40 SEG23 I LCD drive waveform input (SEG)
Appendix A Consumption Current Measurement Method
S5U1C6F632T1/T2 (SVT6F632) Hardware Manual EPSON 37
Appendix A Consumption Current Measurement Method
The S5U1C6F632T1 board can measure the current consumed solely by the S1C6F632. Figure A.1 shows the circuit structure of the
S5U1C6F632T1 board power supply connection. To measure the amount of current consumed just by the S1C6F632, remove the
jumper switch (JP1) and connect an ammeter to the two pins in series. Note that the ports on the S1C6F632 must be set
appropriately according to the peripheral circuits.
Figure A.1 S1C6F632 consumption current measurement circuit
S1C6F632
VDD
VDD VSS
VSS
VSS
JP1 2
1
VDD
VDD
VDD
DTXD
SEG9
SEG19
P50
SEG8
DRXD
SEG23
SEG37
SEG46
SEG27
SEG35
COM11
SEG16
SEG5
SEG2
COM12
SEG7
DCLK
COM2
P30
SEG25
P00
SEG30
SEG18
P20
SEG0
SEG17
P03
SEG38
P53
P12
SEG47
P43
SEG26
SEG12
P22SEG28
COM14
COM6
COM10
SEG42
SEG34
P42
SEG4
SEG33P40
SEG6
P52
SEG1
DMOD
COM9
P03_BZ
SEG14
SEG41
P01
COM13
P51
COM5
COM0
P32
SEG3
SEG32
SEG43
P31
SEG15
COM1
P11
SEG10
P21
SEG22SEG21
SEG11
SEG13
COM3
P13
RESET
SEG39
P10
SEG31
SEG29
P41
P33
SEG20
COM7
SEG24
COM8
P23
SEG40
COM4
SEG45
COM15
SEG44
SEG36
P02
COM20
COM25
COM23
COM19COM18
COM29
COM22
COM28COM27
COM16
COM24
COM26
COM17
COM31COM30
COM21
COM16COM17COM18COM19COM20COM21COM22COM23
COM24COM25COM26COM27COM28COM29COM30COM31COM8
COM9COM10COM11COM12COM13COM14COM15
COM0COM1COM2COM3COM4COM5COM6COM7
SEG0SEG1SEG2SEG3SEG4SEG5SEG6SEG7SEG8SEG9SEG10SEG11SEG12SEG13SEG14SEG15SEG16SEG17SEG18SEG19SEG20SEG21SEG22SEG23
SEG24SEG25SEG26SEG27SEG28SEG29SEG30SEG31SEG32SEG33SEG34SEG35SEG36SEG37SEG38SEG39SEG40SEG41SEG42SEG43SEG44SEG45SEG46SEG47
VC3VC3
VC2
VC2
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T1100 circuit
A3
1 2Monday, April 07, 2008
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T
A3
1 2Monday, April 07, 2008
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T1100 circuit
A3
1 2Monday, April 07, 2008
for Ceramic or CR
Temperature
Humidity
RESET
PAD_APAD_A
U1
S1C6F632 ( Caution: This pin assignment is not same to for sales version. )
U1
SEG161
SEG172
SEG183
SEG194
SEG205
SEG216
SEG227
SEG238
SEG249
SEG2510
SEG2611
SEG2712
SEG2813
SEG2914
SEG3015
SEG3116
SEG3217
SEG3318
SEG3419
SEG3520
SEG3621
SEG3722
SEG3823
SEG3924
SEG4025
SEG4126
SEG4227
SEG4328
SEG4429
SEG4530
SEG4631
SEG4732
NC33
NC34
NC35
NC36
CO
M31
SE
G48
37
CO
M30
SE
G49
38
CO
M29
SE
G50
39
CO
M28
SE
G51
40
CO
M27
SE
G52
41
CO
M26
SE
G53
42
CO
M25
SE
G54
43
CO
M24
SE
G55
44
CO
M23
SE
G56
45
CO
M22
SE
G57
46
CO
M21
SE
G58
47
CO
M20
SE
G59
48
CO
M19
SE
G60
49
CO
M18
SE
G61
50
CO
M17
SE
G62
51
CO
M16
SE
G63
52
VS
S53
VD
254
CG
55
CF
56
CE
57
CD
58
CC
59
CB
60
CA
61
VC
562
VC
463
VC
364
VC
265
VC
166
VD
D67
OS
C3
68
OS
C4
69
VS
S70
OS
C1
71
OS
C2
72
VD1 73TEST1 74TEST2 75TEST3 76DMOD 77DRXD 78DTXD 79DCLK 80TEST 81
RESET 82P53 83P52 84P51 85P50 86P43 87P42 88P41 89P40 90P33 91P32 92P31 93P30 94P23 95P22 96P21 97P20 98P13 99P12 100P11 101P10 102
RFOUTP03 103VDD 104
SEN0P02 105REF0P01 106
RFIN0P00 107VSS 108
RF
IN1
109
RE
F1
110
SE
N1
111
HU
D11
2C
OM
011
3C
OM
111
4C
OM
211
5C
OM
311
6C
OM
411
7C
OM
511
8C
OM
611
9C
OM
712
0C
OM
812
1C
OM
912
2C
OM
1012
3C
OM
1112
4C
OM
1212
5C
OM
1312
6C
OM
1412
7C
OM
1512
8S
EG
012
9S
EG
113
0S
EG
213
1S
EG
313
2S
EG
413
3S
EG
513
4S
EG
613
5S
EG
713
6S
EG
813
7S
EG
913
8S
EG
1013
9S
EG
1114
0S
EG
1214
1S
EG
1314
2S
EG
1414
3S
EG
1514
4
R6 OPENR6 OPEN
X1MC-306X1MC-306
1 234
C19
0.1uF
C19
0.1uF
R80R80
C17
0.1uF
C17
0.1uF
R4 47KR4 47K
C18
0.1uF
C18
0.1uF
X2
EFOSS4004E5 4MHz
X2
EFOSS4004E5 4MHz
R9
1M
R9
1M
SW1SKHHDHA010
SW1SKHHDHA010
12
PAD7
PAD2
PAD7
PAD2
1
3
2
C9 10pFC9 10pF
R2 4.3KR2 4.3K
C16
0.1uF
C16
0.1uF
R3
C10M53R
R3
C10M53R
C15
0.1uF
C15
0.1uF
R1 10MR1 10M
C14
0.1uF
C14
0.1uF
PAD5
PAD2
PAD5
PAD2
1
3
2
C13
0.1uF
C13
0.1uF
C80.1uFC80.1uF
C4
0.1uF
C4
0.1uF
C20
0.1uF
C20
0.1uF
C1110pFC1110pF
C21
0.1uF
C21
0.1uF
C10 10pFC10 10pF
+C63.3uF
+C63.3uF
C2
1000pF
C2
1000pF
JP1DSP02JP1DSP02
C1
1000pF
C1
1000pF
PAD_APAD_A
PAD_APAD_A
PAD_APAD_A
C7 6pFC7 6pF
C5
0.1uF
C5
0.1uF
PAD_APAD_A
+C3
3.3uF
+C3
3.3uF
LCD1
LCD_PANEL
LCD1
LCD_PANEL
COM71
COM62
COM53
COM44
COM35
COM26
COM17
COM08
SEG09
SEG110
SEG211
SEG312
SEG413
SEG514
SEG615
SEG716
SEG817
SEG918
SEG1019
SEG1120
SEG1221
SEG1322
SEG1423
SEG1524
SEG1625
SEG1726
SEG1827
SEG1928
SEG2029
SEG2130
SEG2231
SEG2332
SEG2433
SEG2534
SEG2635
SEG2736
SEG2837
SEG2938
SEG3039
SEG3140
SEG3241
SEG3342
SEG3443
SEG3544
SEG3645
SEG3746
SEG3847
SEG3948
SEG4049
SEG4150
SEG4251
SEG4352
SEG4453
SEG4554
SEG4655
SEG4756
SEG4857
SEG4958
SEG5059
SEG5160
SEG5261
SEG5362
SEG5463
SEG5564
SEG5665
SEG5766
SEG5867
SEG5968
SEG6069
SEG6170
SEG6271
SEG6372
COM873
COM974
COM1075
COM1176
COM1277
COM1378
COM1479
COM1580
COM16 81
COM17 82
COM18 83
COM19 84
COM20 85
COM21 86
COM22 87
COM23 88
SEG64 89
SEG65 90
SEG66 91
SEG67 92
SEG68 93
SEG69 94
SEG70 95
SEG71 96
SEG72 97
SEG73 98
SEG74 99
SEG75 100
SEG76 101
SEG77 102
SEG78 103
SEG79 104
SEG80 105
SEG81 106
SEG82 107
SEG83 108
SEG84 109
SEG85 110
SEG86 111
SEG87 112
SEG88 113
SEG89 114
SEG90 115
SEG91 116
SEG92 117
SEG93 118
SEG94 119
SEG95 120
SEG96 121
SEG97 122
SEG98 123
SEG99 124
SEG100 125
SEG101 126
SEG102 127
SEG103 128
SEG104 129
SEG105 130
SEG106 131
SEG107 132
SEG108 133
SEG109 134
SEG110 135
SEG111 136
SEG112 137
SEG113 138
SEG114 139
SEG115 140
SEG116 141
SEG117 142
SEG118 143
SEG119 144
SEG120 145
SEG121 146
SEG122 147
SEG123 148
SEG124 149
SEG125 150
SEG126 151
SEG127 152
COM31 153
COM30 154
COM29 155
COM28 156
COM27 157
COM26 158
COM25 159
COM24 160
R7103KT1005
R7103KT1005
C12
0.1uF
C12
0.1uF
R5 10KR5 10K
PD
CSB
VDDFON
VDDFON
XRESET
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD VDDVDD_F
VDD_F
VDD
VDD_F
VDD
VDD
VDD
VDD
VDD
P22
P00
DRXD
P13
P20
P10
P22
P32P40
P13
P13
P10
P01
P42P51
P41
P31
P43
P02
P53DMOD
P23
DTXD
P21
P03P11
P30
P20
P42
P12
P50
P31
P23
P11
RESET
P52 P53
P02
P33P41
P10
P33
RESET
P03_BZ
P20
P12
P22
P01
P32
DCLK
P30
P52
P11
P12
P03
P50
P40P43
P21
P21
P51
P00
RESET
P31
P51
P20P32
P52
P50
P21
P53XRESET
P33
P30
P23 COM30
SEG4
SEG15
SEG13
SEG16
SEG19
SEG10
SEG20
SEG1
SEG14
SEG21
SEG2
SEG22
SEG0
SEG17
SEG3
SEG11SEG12
SEG23
SEG18
COM11COM10
COM15
COM13COM12
COM14
COM20
COM17
COM19COM18
COM22COM21
COM16
COM23
SEG27
SEG24
SEG41SEG42
SEG45
SEG31
SEG39
SEG35
SEG43
SEG47
SEG34
SEG29
SEG46
SEG40
SEG33SEG32
SEG38
SEG26
SEG30
SEG25
SEG37
COM27
COM25
COM29
COM26
COM24
SEG36
SEG28
SEG44
COM31
COM28
P40P41P42
RESET
COM7
COM0COM1COM2COM3COM4COM5COM6
COM8COM9
SEG5SEG6SEG7SEG8SEG9
P22
Title
Size
Date: Sheet of
A3
2 2Tuesday, April 08, 2008
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T1100 circuit
A3
2 2Tuesday, April 08, 2008
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T1100 circuit
A3
2 2Tuesday, April 08, 2008
Pressure
FlashWriter
Expansion I/O
ICE CN2
Illumination
Expansion I/O
ICE CN1
PAD8PAD8
CN6
B2B-XH-A
CN6
B2B-XH-A
12
+C34
10uF
+C34
10uF
U5
SCP1000-D01
U5
SCP1000-D01
ATST1
TRIG2
DRDY3
CLK4
DVDD5
DVSS6
DV
DD
S7
PD
8
SCK 9MOSI 10MISO 11CSB 12
AVDD 13AVSS 14
AV
SS
15
AT
ST
16
R20OPENR20OPEN
C22
0.1uF
C22
0.1uF
SW209 10290 01SW209 10290 01
2 1 3
SW4
SKHHDHA010
SW4
SKHHDHA010
12
+C26
0.47uF+
C26
0.47uF
SW6
SKHHDHA010
SW6
SKHHDHA010
12
+ C280.47uF
+ C280.47uF
R18 0R18 0
C30
0.1uF
C30
0.1uF
R13 200KR13 200K
BZ1
PS1240P02AT
BZ1
PS1240P02AT
R21100KR21100K
C25 0.01uF Only pattern, the pin No.1 and 3 for OPA2349 is connected.C25 0.01uF
TP1TP1
JP2
DSP03-003-432 G
JP2
DSP03-003-432 G
R14200K
R14200K
U7
SN74LVC2G04DCKT
U7
SN74LVC2G04DCKT
1A1
GND2
2A3 2Y 4VCC 5
1Y 6
+ C3110uF
+ C3110uF
C230.1uF
C230.1uF
TP2TP2
U6
SN74LVC2G04DCKT
U6
SN74LVC2G04DCKT
1A1
GND2
2A3 2Y 4VCC 5
1Y 6
U8
LT1962EMS8-3
U8
LT1962EMS8-3
OUT1
ADJ2
BYP3
GND4 SHDN 5NC 6NC 7IN 8
U4
TPS856
U4
TPS856
VCC1
GND2
GND3
OUT 6
GND 4
GND 5
SW5
SKHHDHA010
SW5
SKHHDHA010
12
+
C3310uF
+
C3310uF
C320.1uFC320.1uF
CN38913-020-178MS-ACN38913-020-178MS-A
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717
20 20191918 18
R10200KR10200K
R161KR161K
R15 200KR15 200K
AD7466U2 AD7466U2
XCS1
SDAT2
SCLK3GND 7
NC 5VIN 6
VCC 8
NC4
CN1HIF3E-10PA-2.54DSACN1HIF3E-10PA-2.54DSA
VDD1
VDD2
CLK_M3
GND4
RXD5
TXD6
MRESET7
NC8
GND9
DMOD10
C24
0.1uF
C24
0.1uF
CN2HIF3E-30PA-2.54DSACN2HIF3E-30PA-2.54DSA
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717
30 30292928 28272726 26252524 24232322 22212120 20191918 18
CN4
AXN1800115S
CN4
AXN1800115S
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717 18 18
1919 20 20
2121 22 22
2323 24 24
2525 26 26
2727 28 28
2929 30 30
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
4141 42 42
4343 44 44
4545 46 46
4747 48 48
4949 50 50
5151 52 52
5353 54 54
5555 56 56
5757 58 58
5959 60 60
6161 62 62
6363 64 64
6565 66 66
6767 68 68
6969 70 70
7171 72 72
7373 74 74
7575 76 76
7777 78 78
7979 80 80
C29
0.1uF
C29
0.1uF
R12R121K
Q2
SSM3K02F
Q2
SSM3K02F
3
1
2
SW3
SKHHDHA010
SW3
SKHHDHA010
12
R190R190
CN5AXN1500115SCN5AXN1500115S
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717
30 30292928 28272726 26252524 24232322 22212120 20191918 18
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
4141 42 42
4343 44 44
4545 46 46
4747 48 48
4949 50 50
R170
R170
C27
0.1uF
C27
0.1uF
+
-
U3B
OPA2349
+
-
U3B
OPA2349
5
67
84
+
-
U3A
OPA2349
+
-
U3A
OPA2349
3
21
84
BT1BA2032SM
BT1BA2032SM 1
2
Q1
SSM3J02F
Q1
SSM3J02F
1
2 3
R110R110
VDDVDDVDD VDD
VDD VDD
VDD
VDDVDD
COM13
COM2
SEG9
SEG12
COM5
SEG46
SEG24
SEG1
SEG4
COM10
COM28SEG51COM27SEG52
SEG38
SEG17
SEG20
SEG41
SEG35
SEG30
COM30SEG49
COM19SEG60
COM8
SEG18
COM11
COM1
SEG28
SEG7
SEG10
COM3
COM21SEG58
SEG44
SEG23
SEG2SEG39
COM29SEG50
SEG36
SEG15
SEG37
SEG43
SEG31
COM16SEG63
COM6
SEG16
COM9
COM0
SEG26
SEG5
SEG8
COM14
COM23SEG56
SEG42
SEG21
SEG0
COM24SEG55
COM31SEG48
SEG34
SEG13
COM20SEG59COM18SEG61
SEG29
SEG47
COM15
COM4
SEG11
SEG14
COM7SEG27SEG25
SEG3
SEG6
COM12
COM22SEG57COM25SEG54
SEG40
SEG19
SEG22
SEG45
SEG33SEG32
COM26SEG53
COM17SEG62
P10P12P20P22
P11P13P21P23
P42P40P32P30
P41P33P31
P43
P52P50 P51
P53RESET
P01P03
P00P02
RESET
P00P01P02P03
P10P11P12P13
P20P21P22P23
P30P31P32P33
P40P41P42P43
P50P51P52P53
SEG19
SEG1
SEG20
SEG2
SEG21
SEG3
SEG22
SEG4
SEG23
SEG5
COM8
SEG6
COM9
SEG7
COM10
SEG8
COM11
SEG9
COM0
COM12
SEG10
COM13
SEG11
COM1
COM14
SEG12
COM2
COM15
SEG13
COM3
SEG14
COM4
SEG15
COM5
SEG16
COM6
SEG17
COM7
SEG18
SEG0
COM18SEG61
COM25SEG54
SEG37
COM19SEG60
COM24SEG55
SEG38
COM20SEG59
SEG39
COM21SEG58
SEG40
COM22SEG57
SEG41
COM23SEG56
SEG42
SEG24
SEG43
SEG25
SEG44
SEG26
SEG45
SEG27
SEG46
SEG28
SEG47
SEG29
COM31SEG48
SEG30SEG31
COM30SEG49
SEG32
COM29SEG50
SEG33
COM16SEG63
COM28SEG51
SEG34
COM27SEG52
SEG35
COM17SEG62
COM26SEG53
SEG36
P20
P52
P10P02
P50P42P40
P00
P12
P32P30
RESET
P22
P03
P31
P51
P41
P23
P11
P53
P33
P01
P43
P21
P13
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T2100 circuit
A3
1 1Tuesday, March 11, 2008
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632 2100 circuit
A3
1 1Tuesday, March 11, 2008
Title
Size Document Number Rev
Date: Sheet of
S5U1C6F632T
A3
1 1Tuesday, March 11, 2008
CN 3CN1-1CN1-2
CN4-2 CN4-1
P2
3432-6002LC
P2
3432-6002LC
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717 18 18
1919 20 20
2121 22 22
2323 24 24
2525 26 26
2727 28 28
2929 30 30
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
P1
3432-6002LC
P1
3432-6002LC
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717 18 18
1919 20 20
2121 22 22
2323 24 24
2525 26 26
2727 28 28
2929 30 30
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
TP25P51TP25P51
TP1P00TP1P00
TP2P01TP2P01
P6
3432-6002LC
P6
3432-6002LC
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717 18 18
1919 20 20
2121 22 22
2323 24 24
2525 26 26
2727 28 28
2929 30 30
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
TP3P02TP3P02
P5
3432-6002LC
P5
3432-6002LC
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717 18 18
1919 20 20
2121 22 22
2323 24 24
2525 26 26
2727 28 28
2929 30 30
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
TP4P03TP4P03
TP20P20TP20P20
TP9RESETTP9RESET
TP16P40TP16P40
TP23P23TP23P23
TP19P43TP19P43
TP5P30TP5P30
TP22P22TP22P22 TP27
P53TP27P53
TP18P42TP18P42
TP12P10TP12P10
TP8P33TP8P33
TP26P52TP26P52
TP21P21TP21P21
TP17P41TP17P41
TP15P13TP15P13
TP7P32TP7P32
TP10VDDTP10VDD
TP11VSSTP11VSS
TP14P12TP14P12
TP6P31TP6P31
P3
3662-6002LC
P3
3662-6002LC
13579
2468
10
TP13P11TP13P11
P7
AXN1800115S
P7
AXN1800115S
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717 18 18
1919 20 20
2121 22 22
2323 24 24
2525 26 26
2727 28 28
2929 30 30
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
4141 42 42
4343 44 44
4545 46 46
4747 48 48
4949 50 50
5151 52 52
5353 54 54
5555 56 56
5757 58 58
5959 60 60
6161 62 62
6363 64 64
6565 66 66
6767 68 68
6969 70 70
7171 72 72
7373 74 74
7575 76 76
7777 78 78
7979 80 80
P4AXN1500115SP4AXN1500115S
11 2 2
33 4 4
55 6 6
77 8 8
99 10 10
1111 12 12
1313 14 14
1515 16 16
1717
30 30292928 28272726 26252524 24232322 22212120 20191918 18
3131 32 32
3333 34 34
3535 36 36
3737 38 38
3939 40 40
4141 42 42
4343 44 44
4545 46 46
4747 48 48
4949 50 50
TP24P50TP24P50
S5U1C6F632T1100 parts list REV1.0
F E D C B AREV.MARK
PARTS NAMEMATERIALLOCATION
STANDARD MODEL No. MAKER
1 Board SA-0804 Custom
1 Battery holder BT1 Surface mount BA2032SM TAKACHI
1 Piezo buzzer BZ1 PS1240P02AT TDK
1 Connector (pin header) CN1 HIF3E-10PA-2.54DSA(71) HIROSE
1Connector (pin header) CN2 HIF3E-30PA-2.54DSA(71) HIROSE
1 Battery CR2032 Toshiba
1 Connector CN6 B2B-XH-A J.S.T
2 Monolithic ceramic capacitor C1,C2 1000pF 2.0*1.25 GRM2195C2A102JA01D Murata
2 Tantalum capacitor C3,C6 3.3uF/16V 3.2*1.6 F931C335MAA nichicon
19 Monolithic ceramic capacitorC4,C5,C8,C12,C13,C14,C15,C16,C17,C18,C19,C20,C21,C22,C24,C27,C29,C30,C32 0.1uF 2*1.25 GRM219F11H104ZA01D Murata
1 Trimmer capacitor C7 3.0 - 10pF 2.5mm * 3.2mm TZY2Z100A001R00 Murata
3 Monolithic ceramic capacitor C9,C10,C11 10pF 1.6*0.8 GRM1882C1H100JA01D Murata
2 Tantalum capacitor C26,C28 0.47uF/35V 3.2*1.6 F931V474MAA nichicon
3 Tantalum capacitor C31,C33,C34 10uF/16V 3.2*1.6 TEESVA1C106M NEC TOKIN
1 Ceramic resonator X2 4MHz EFOSS4004E5 Panasonic
1 Dip short plug JP1 DSP02-002-431G KEL
1 Dip short plug JP2 DSP03-003-432G KEL
1 LCD LCD1 LCD_PANEL Custom
1Transistor Q1 SC-59 SSM3J02F Toshiba
1 Transistor Q2 SC-59 SSM3K02F Toshiba
1 Resistor R5 10K RK73H2ATTD1002F KOA
1 Humidity sensor R3 C10M53R SHINYEI
1 Resistor R4 47K RK73H2ATTD4702F KOA
R6,R20,R14,R15,C23,C25 OPEN
1 Thermistor R7 103KT1005 ISHIZUKA
5 Resistor R8,R11,R17,R18,R19 0 Ohm RK73Z2AT KOA
1 Resistor R9 1M RK73H2ATTD1004F KOA
2 Resistor R10,R13 200K RK73H2ATTD2003F KOA
2 Resistor R16,R12 1K RK73H2ATTD1001F KOA
1 Resistor R21 100K RK73H2ATTD1003F KOA
5 Switch SW1,SW3,SW4,SW5,SW6 SKHHAKA010 ALPS
1 Switch SW2 09 10290 01 SECME
1 Check pin TP1 LC-22-G red MAC8
1 Check pin TP2 LC-22-G black MAC8
1 IC U1 22 * 22 S1C6F632 EPSON
1 A/D converter U2 RM-8 AD7466BRM Analog devices
1 Illumination sensor U4 TPS856 Toshiba
1 Pressure sensor U5 SCP1000-D01 VTI
2 Inverter U6,U7 SN74LVC2G04DCKT T.I.
1 Regulator U8 LT1962EMS8-3 LINEAR
1 Resonator X1 32.768KHz MC-306 EPSON TOYOCOM
1 Resistor R1 10M RK73H2ATTD1005F KOA
1 Resistor R2 4.3K RK73H2ATTD4301F KOA
4 Screw FB-0305N Wilco
4 Stud 10mm ASB-310E HIROSUGI
2 Dip short plug socket DSP01-002-430G-9 KEL
1 Connector XHP-2 J.S.T
2 Contact SXH-001T-P0.6N J.S.T
1 Wire AWM116-24(7)-SA RED Junkosha
1 Wire AWM116-24(8)-SA BLACK Junkosha
REVISION/QUANTITY
S5U1C6F632T2100 parts list REV1.0
F E D C B AREV.MARK
PARTS NAMEMATERIALLOCATION
STANDARD MODEL No. MAKER
1 Board SA-0804 Custom
1 Piezo buzzer BZ1 PS1240P02AT TDK
1Connector (pin header) CN2 HIF3E-30PA-2.54DSA(71) HIROSE
1 Connector CN4 AXN1800115S Panasonic
1 Connector CN5 AXN1500115S Panasonic
7 Monolithic ceramic capacitor C4,C22,C24,C27,C29,C30 0.1uF 2*1.25 GRM219F11H104ZA01D Murata
2 Tantalum capacitor C26,C28 0.47uF/35V 3.2*1.6 F931V474MAA nichicon
1 Tantalum capacitor C31,C33,C34 10uF/16V 3.2*1.6 TEESVA1C106M NEC TOKIN
1LCD LCD1 LCD_PANEL Custom
1Transistor Q1 SC-59 SSM3J02F Toshiba
1 Transistor Q2 SC-59 SSM3K02F Toshiba
3 Resistor R8,R11,R17,R18,R19 0 Ohm RK73Z2AT KOA
4 Resistor R10,R13 200K RK73H2ATTD2003F KOA
1 Resistor R16,R12 1K RK73H2ATTD1001F KOA
R6,R20,R14,R15,C23,C25 OPEN
5 Switch SW1,SW3,SW4,SW5,SW6 SKHHAKA010 APLS
1A/D converter U2 RM-8 AD7466BRM Analog devices
1 Illumination sensor U4 TPS856 Toshiba
1 Pressure sensor U5 SCP1000-D01 VTI
2 Inverter U6,U7 SN74LVC2G04DCKT T.I.
1 Board SA-0805 Custom
4 Connector P1,P2,P5,P6 3432-6002LCPL 3M
1Connector P3 3662-6002LCPL 3M
1Socket P4 50pin AXN1500115S Panasonic
1 Socket P7 80pin AXN1800115S Panasonic
5 Stud 10mm ASB-310E HIROSUGI
5 Screw FB-0305N Wilco
REVISION/QUANTITY
International Sales Operations
AMERICA
EPSON ELECTRONICS AMERICA, INC. 2580 Orchard Parkway,
San Jose, CA 95131, USA
Phone: +1-800-228-3964 FAX: +1-408-922-0238
EUROPE
EPSON EUROPE ELECTRONICS GmbH Riesstrasse 15, 80992 Munich,
GERMANY
Phone: +49-89-14005-0 FAX: +49-89-14005-110
ASIA
EPSON (CHINA) CO., LTD. 7F, Jinbao Bldg., No.89 Jinbao St., Dongcheng District, Beijing 100005, CHINA Phone: +86-10-6410-6655 FAX: +86-10-6410-7320
SHANGHAI BRANCH 7F, Block B, Hi-Tech Bldg., 900 Yishan Road, Shanghai 200233, CHINA Phone: +86-21-5423-5522 FAX: +86-21-5423-5512
SHENZHEN BRANCH 12F, Dawning Mansion, Keji South 12th Road, Hi-Tech Park, Shenzhen 518057, CHINA Phone: +86-755-2699-3828 FAX: +86-755-2699-3838 EPSON HONG KONG LTD. 20/F, Harbour Centre, 25 Harbour Road, Wanchai, Hong Kong Phone: +852-2585-4600 FAX: +852-2827-4346 Telex: 65542 EPSCO HX EPSON TAIWAN TECHNOLOGY & TRADING LTD. 14F, No. 7, Song Ren Road, Taipei 110, TAIWAN Phone: +886-2-8786-6688 FAX: +886-2-8786-6660 EPSON SINGAPORE PTE., LTD. 1 HarbourFront Place,
#03-02 HarbourFront Tower One, Singapore 098633 Phone: +65-6586-5500 FAX: +65-6271-3182 SEIKO EPSON CORP. KOREA OFFICE 50F, KLI 63 Bldg., 60 Yoido-dong, Youngdeungpo-Ku, Seoul 150-763, KOREA Phone: +82-2-784-6027 FAX: +82-2-767-3677
SEIKO EPSON CORP. SEMICONDUCTOR OPERATIONS DIVISION IC Sales Dept. IC International Sales Group 421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN Phone: +81-42-587-5814 FAX: +81-42-587-5117
First Issue March 2009 in JAPAN DDocument code: 411665301
EPSON Electronic Devices Website
SEMICONDUCTOR OPERATIONS DIVISION
S5U1C6F632T1/T2
Hardware Manual(SVT6F632)
Revised February 2010 in JAPAN