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Hardware ManualS5U1C17602T1100SOFTWARE EVALUATION TOOL FOR S1C17602
Evaluation board/kit and Development tool important notice
1. This evaluation board/kit or development tool is designed for use for engineering evaluation, demonstration, or development purposes only. Do not use it for other purpose. It is not intended to meet the requirement of design for finished product.
2. This evaluation board/kit or development tool is intended for use by an electronics engineer, and it is not the product for consumer. The user should use this goods properly and safely. Seiko Epson dose not assume any responsibility and liability of any kind of damage and/or fire coursed by usage of it. User should cease to use it when any abnormal issue occurs even during proper and safe use.
3. The part used for this evaluation board/kit or development tool is changed without any notice. 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. When exporting the products or technology described in this material, you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations. You are requested not to use, to resell, to export and/or to otherwise dispose of the products (and any technical information furnished, if any) for the development and/or manufacture of weapon of mass destruction or for other military purposes. All brands or product names mentioned herein are trademarks and/or registered trademarks of their respective companies.
©SEIKO EPSON CORPORATION 2012, All rights reserved.
Table of Contents
S5U1C17602T1100 Hardware Manual EPSON i
Table of Contents
1. Features............................................................................................................................................. 1 2. Package Contents............................................................................................................................. 2 3. Part Names and Functions............................................................................................................... 3
3.1 Part names ................................................................................................................................. 3 3.2 Board dimensional diagram........................................................................................................ 4
3.2.1 CPU board dimensional diagram....................................................................................... 4 3.2.2 ICD board dimensional diagram ........................................................................................ 5
3.3 Main components ....................................................................................................................... 6 3.4 Individual component functions .................................................................................................. 7
3.4.1 ICD board .......................................................................................................................... 7 3.4.2 CPU board......................................................................................................................... 8
4. Block Diagram................................................................................................................................... 9 5. Operating Configuration and Startup Procedure ......................................................................... 10
5.1 Simple software development configuration ............................................................................. 10 5.2 SVT17602 independent operation .......................................................................................... 13 5.3 ICD board firmware update procedures.................................................................................... 14
6. Differences between the ICD Board and ICD Mini........................................................................ 15 7. I/O Ports........................................................................................................................................... 16 8. Switch Settings ............................................................................................................................... 18
8.1 SW5 settings ............................................................................................................................ 18 8.2 SW4 settings ............................................................................................................................ 19 8.3 SW7/SW8/SW9 (PAD1 to 12) settings...................................................................................... 20
9. CPU Board Key Input Circuit ......................................................................................................... 22 10. Infrared emitter LED/Photo-receiver Module.............................................................................. 23
10.1 Infrared unit emitting/receiving.................................................................................................. 24 10.2 Infrared photo-receiver module power supply switch................................................................ 24
11. LCD Panel ...................................................................................................................................... 25 11.1 LCD panel segment allocation.................................................................................................. 26
12. Serial Interfaces ............................................................................................................................ 27 13. Thermistor (RFC ch.0) .................................................................................................................. 28
13.1 Resistance sensor measurement DC oscillation mode ............................................................ 29 13.2 Resistance sensor measurement AC oscillation mode............................................................. 30
14. Humidity Sensor (RFC ch.1) ........................................................................................................ 31 14.1 Resistance sensor measurement AC oscillation mode............................................................. 32
Table of Contents
ii EPSON S5U1C17602T1100 Hardware Manual
14.2 Resistance sensor measurement DC oscillation mode ............................................................ 33 15. Illuminance Sensor ....................................................................................................................... 34
15.1 Illuminance sensor power supply switch................................................................................... 34 16. LEDs............................................................................................................................................... 35 17. Expansion Interfaces.................................................................................................................... 36
17.1 JICD connector ....................................................................................................................... 37 17.2 JEX connector ........................................................................................................................ 38 17.3 JEX2 connector ...................................................................................................................... 39 17.4 JEX/JEX2 connector dimensional diagram............................................................................. 40 17.5 JRIF connector ......................................................................................................................... 41 17.6 JRIF mounting diagram ............................................................................................................ 42 17.7 SPI port connector selection using analog switch..................................................................... 43
Appendix A Consumption Current Measurement Method for Individual IC................................ 44 Appendix B Consumption Current Measurement Method for Entire SVT17602 Board.............. 45
1. Features
S5U1C17602T1100 Hardware Manual EPSON 1
1. Features The S5U1C17602T1100 (SVT17602: Software Evaluation Tool for S1C17602) is an evaluation board for the S1C17602 MCU made by Seiko Epson.
The SVT17602 consists of a CPU board and an ICD board connected for software debugging, eliminating the need to connect a separate ICD debugging tool.
It also incorporates serial expansion ports to let users connect their own expansion boards.
<CPU board>
CPU S1C17602
Input power supply voltage +3.3 V DC (supplied through the ICD interface or by a CR2032 button cell)
CPU input clock OSC1: 32.768 kHz
OSC3: 6 MHz
Functions/devices • Reset switch
• Expansion interface connectors (P, UART, I2C, SPI)
• ICD board connector
• Thermistor
• Humidity sensor
• Illuminance sensor
• Key input (2 keys)
• Lever and push-switch
• Infrared emitters/photo-receiver module
• STN LCD panel (display size: 36 segments x 8 common B/W)
<ICD board>
PC interface USB 1.1
Power supply voltage USB bus power (onboard regulator output voltage: 3.3 V)
Functions/devices • Status display LED (3-color)
• Reset switch
• CPU board connector
2. Package Contents
2 EPSON S5U1C17602T1100 Hardware Manual
2. Package Contents The S5U1C17602T1100 package contains the following items.
(1) SVT17602 CPU board (main unit)................................................................................... 1
(2) SVT17602 ICD board ...................................................................................................... 1
(3) USB cable ........................................................................................................................ 1
(4) Coin cell (CR2032/3V) .................................................................................................... 1
(5) Warranty card........................................................................ 1 in English & 1 in Japanese
(6) Precautions............................................................................ 1 in English & 1 in Japanese
(7) Manual downloading instructions ......................................... 1 in English & 1 in Japanese
3. Part Names and Functions
S5U1C17602T1100 Hardware Manual EPSON 3
3. Part Names and Functions 3.1 Part names The part names and functions are as shown below.
Figure 3.1 Upper side component names
Figure 3.2 Underside component names
3. Part Names and Functions
4 EPSON S5U1C17602T1100 Hardware Manual
3.2 Board dimensional diagram
3.2.1 CPU board dimensional diagram The CPU board dimensional diagram is shown below.
<Upper side>
Figure 3.3 CPU board dimensional diagram (upper side)
<Underside>
Figure 3.4 CPU board dimensional diagram (underside)
3. Part Names and Functions
S5U1C17602T1100 Hardware Manual EPSON 5
3.2.2 ICD board dimensional diagram The ICD board dimensional diagram is shown below.
<Upper side>
Figure 3.5 ICD board dimensional diagram (upper side)
<Underside>
Figure 3.6 ICD board dimensional diagram (underside)
3. Part Names and Functions
6 EPSON S5U1C17602T1100 Hardware Manual
3.3 Main components <CPU board>
CPU (U7)....................................................................S1C17602................................ SEIKO EPSON CORP.
Crystal oscillator (32.768 kHz) (X1) ..........................FC-255 ....................................EPSON TOYOCOM CORP.
Crystal oscillator (6 MHz) (X2)..................................MA-406...................................EPSON TOYOCOM CORP.
Reset switch (SW6) ....................................................SKQTLCE010 ........................ALPS
LCD panel ..................................................................Custom-made ..........................Epson custom-made component
Thermistor (R32) ........................................................103AP-2.................................. Ishizuka
Humidity sensor (R31)................................................C10-M53R .............................. SHINYEI TECHNOROGY
Illuminance sensor (U2)..............................................TPS856 ...................................TOSHIBA
Expansion board connector (JEX) ..............................SLW-110-01-G-D................... SAMTEC
Expansion board connector (JEX2) ............................SLW-105-01-G-D................... SAMTEC
Expansion board connector (JICD).............................PS-10SD-D4T1-1.................... JAE
Expansion board connector (JRIF) (not mounted) ......8913-020-178MS-A-F ............KEL
Key switch (SW1, SW2).............................................SKRAAKE010........................ALPS
Lever and push-switch (SW3) ....................................SLLB5.....................................ALPS
Infrared emitters (D1) .................................................AN333..................................... STANLEY
Infrared photo-receiver module (U1) ..........................PNA4702M............................. Panasonic
Battery holder (V1).....................................................BA2032SM .............................TAKACHI
Coin cell......................................................................CR2032(3V)
<ICD board>
USB mini-B connector................................................54819-0572 .............................molex
LED(RGB) .................................................................598-9920-307F........................Dialight
Reset switch (SW1) ....................................................SKRAAKE010........................ALPS
3. Part Names and Functions
S5U1C17602T1100 Hardware Manual EPSON 7
3.4 Individual component functions
3.4.1 ICD board The ICD board is a hardware tool (emulator) designed to make S1C17602 software development more efficient. It provides a simple S1C17602 software development configuration by controlling communications between the PC and the target IC (S1C17602) on the CPU board. Refer to Section 6 for detailed information on functional differences from the S5U1C17001H development tool ICD Mini, which supports all S1C17 core products.
* The C17/C33 core selector switch (SW2) in Figure 3.7 should be set to “C17” at all times. Note that operation is not possible if this switch is set to “C33.”
Figure 3.7 C17/C33 core selector switch
ICD board Reset switch
Pressing the ICD board Reset switch (SW1) reboots the ICD board firmware and outputs a target reset signal (#RESET_OUT) to the CPU board. The connection required for communications is complete once the ICD board is physically connected to the CPU board. A wait status remains until this physical connection is made.
ICD board LED
This LED displays different colors to indicate the ICD board and target status.
(blue) Power on (before target and initial connection is established) (green) Target is in debugging mode. (red) Target is not connected or is not connected correctly.
Target is running a user program.
3. Part Names and Functions
8 EPSON S5U1C17602T1100 Hardware Manual
3.4.2 CPU board The CPU board is a simple target evaluation board on which the target CPU (S1C17602) is mounted. It also includes peripheral components and circuits such as an LCD panel, temperature/humidity/illuminance sensors, and infrared emitters/photo-receiver module and can be used to develop and evaluate control software for these components.
CPU board Reset switch
Press the CPU board Reset switch (SW6) to reset the CPU board.
Coin cell
The underside of the CPU board features a coin cell (CR2032) holder. Power is supplied by a coin cell if the CPU board is used on its own. When used connected to the ICD board, power is automatically supplied from the ICD board by the switching circuit on the CPU board, in which case power from the coin cell is automatically switched off.
4. Block Diagram
S5U1C17602T1100 Hardware Manual EPSON 9
4. Block Diagram The block diagrams for the SVT17602 CPU and ICD boards are shown below.
Figure 4.1 CPU board block diagram
Figure 4.2 ICD board block diagram
5. Operating Configuration and Startup Procedure
10 EPSON S5U1C17602T1100 Hardware Manual
5. Operating Configuration and Startup Procedure
The SVT17602 can be operated in accordance with commands executed on a PC debugger by connecting to a PC via the ICD board. The CPU board can also be used on its own without the ICD board or a PC. The corresponding connection configurations and startup procedures are described below.
5.1 Simple software development configuration The SVT17602 provides a simple S1C17602 software development configuration for the CPU board as a target by connecting to a PC via the ICD board and using in conjunction with the S1C17 development tools on the PC (e.g., GNU17 IDE, compiler, and debugger provided as part of the S5U1C17001C package).
Figure 5.1 Simple software development configuration
Simple software development configuration
In this operating configuration, the target CPU (S1C17602 on the CPU board) is controlled by commands executed on the debugger in the PC connected to the IC board. Commands issued by the debugger are sent via USB to the ICD board, where they are analyzed, then converted to S1C17602 debugging signals and sent to the CPU board. Programs and data can be downloaded from the PC debugger to the CPU board for debugging by starting and stopping program execution.
CPU operation mode
The target CPU (S1C17602 on CPU board) halts target program operations following a brk command or debug interrupt (e.g., forced break operations on the debugger) from the ICD board, then switches to debug mode (break state). This state allows commands to be executed from the PC debugger. The ICD board LED illuminates in green for debug mode. The target program is executed by the target CPU in a state called normal mode. The ICD board LED illuminates in red for normal mode.
Connections and startup
The connection and startup procedures for the simple software development configuration are described below.
(1) Connect the CPU board to the ICD board. (Connect the two JICD 10-pin connectors. Refer to Section 2 for the connection diagram.)
(2) Connect the PC to the ICD board using a USB cable.
(3) Install the appropriate USB driver from the driver install screen that appears on the PC monitor. (This step is performed for first-time use only and is not repeated for subsequent connections.) Refer to the following “Installing the USB driver” section for installation procedure specifics.
(4) Confirm that the ICD board LED changes from blue to green (indicating target debug mode).
(5) Launch IDE on the PC and run the program using GDB launched by IDE. Confirm that the LED changes to red (target in normal mode) while the program is running.
5. Operating Configuration and Startup Procedure
S5U1C17602T1100 Hardware Manual EPSON 11
For detailed information on using the debugger and debugging commands, refer to the S5U1C17001C Manual (S1C17 Family C Compiler Package).
Note: Never disconnect the USB cable between the PC and ICD board while the debugger is running.
Installing the USB driver
(1) The following screen appears when the SVT17602 is connected to the host computer via a USB cable.
(2) Install the USB driver according to directions provided by the install wizard.
Specify “C:\EPSON\GNU17\utility\drv_usb” for the USB driver directory.
* This path specifies the path at which the IDE is installed.
5. Operating Configuration and Startup Procedure
12 EPSON S5U1C17602T1100 Hardware Manual
The Device Manager appears as shown below once the USB driver is successfully installed.
Note: If the screen does not appear as shown above, re-install the USB driver.
5. Operating Configuration and Startup Procedure
S5U1C17602T1100 Hardware Manual EPSON 13
5.2 SVT17602 independent operation The SVT17602 can be used as a CPU board by itself, without the ICD board or PC.
Independent operation
In this operating configuration, the S1C17602 on the CPU board operates in normal mode and runs the program written to internal flash memory. This means the user program must be downloaded to S1C17602 internal flash memory beforehand. (The SVT17602 is shipped with demo programs stored on internal flash memory.) For instructions on downloading user programs to internal flash memory, refer to the S5U1C17001C Manual (S1C17Family C Compiler Package).
Connections and startup
The procedures for operating the SVT17602 by itself are given below.
(1) Turn on the PC (only if turned off).
(2) With the CPU board connected to the ICD board, connect the PC to the ICD board using a USB cable.
(3) Launch the PC debugger and download the user program to S1C17602 internal flash memory. For instructions on downloading programs, refer to the S5U1C17001C Manual (S1C17Family C Compiler Package).
(4) Once the debugger has finished running, disconnect the USB cable to separate the ICD board from the PC.
(5) Remove the ICD board from the CPU board and insert the coin cell.
(6) Turn on the power control switch (SW5).
(7) Press the CPU board Reset switch. The S1C17602 on the CPU board executes the user program downloaded to flash memory.
5. Operating Configuration and Startup Procedure
14 EPSON S5U1C17602T1100 Hardware Manual
5.3 ICD board firmware update procedures The SVT17602 allows the ICD board firmware to be updated using the PC debugger. The ICD board firmware is available from Seiko Epson, as required. (The update file has the file extension “.sa.”)
The firmware update procedure is described below.
Note: The USB driver must be installed before updating the firmware.
(1) Using a USB cable, connect the SVT17602 ICD board to the PC.
(2) Press the ICD board Reset switch (SW1).
(3) Launch the debugger from the command prompt.
>cd c:\EPSON\gnu17 (Specifies the path at which the gnu17 tool was installed.)
>gdb
(4) Enter the following commands once the debugger is running.
(gdb) target icd usb
(gdb) c17 firmupdate path\filename.sa
(For “path\filename.sa,” specify the name of the file to be updated.)
(5) The process is complete when the ICD board LED illuminates in green ( ).
(6) Press the ICD board Reset switch to restart the firmware.
6. Differences between the ICD Board and ICD Mini
S5U1C17602T1100 Hardware Manual EPSON 15
6. Differences between the ICD Board and ICD Mini
Table 6.1 compares specifications for the S5U1C17001H (ICD Mini) S1C17 Family development tool and the SVT17602 ICD board. The SVT17602 includes an ICD Mini interface, however, note that the ICD board and ICD Mini cannot be connected at the same time. For detailed information on using the ICD Mini, refer to the S5U1C17001H User Manual.
Table 6.1 Comparison of ICD Board and ICD Mini Functions
Product S5U1C17000H (ICD Mini)
S5U1C17602T1100(SVT17602) ICD board
Core supported S1C17 core
Host interface USB1.1
Communication frequency with target (DCLK frequency)
4 kHz to 40 MHz
Independent flash writing function Yes No
Firmware update function Yes
Flash write power supply Yes No
Reset signal output to target Yes
Target system I/O compatible voltage 3.3 V, 1.8 V, voltage input from target (1.0 V to 5.0 V) 3.3 V
Target connector 4-pin 10-pin (including reset signal) *1
Flash write power supply connector *2 4-pin -
*1 For connection to the CPU board only.
*2 The S1C17602 does not require a separate power supply for flash writing.
7. I/O Ports
16 EPSON S5U1C17602T1100 Hardware Manual
7. I/O Ports Table 7.1 lists S1C17602 ports and SVT17602 connection targets.
For detailed information on expansion interfaces and connectors, refer to Section 17.
Table 7.1 I/O port function list
Port Direction Multiplex Signal Connected to
P00 I/O REMC P00/REMO Infrared emitters (D1)
P01 I/O REMC P01/REMI Infrared photo-receiver module (U1)
P02 I/O Timer P02/EXCL0 Key input (SW1)
P03 I/O ADTRG P03/#ADTRG Lever & push-switch and expansion I/F (connector: JEX2)
P04 I/O SPI P04/SPICLK Switch IC (U13) → Expansion I/F (connector: JEX) or expansion I/F (connector: JRIF)
P05 I/O SPI P05/SDO Switch IC (U11) → Expansion I/F (connector: JEX) or expansion I/F (connector: JRIF)
P06 I/O SPI P06/SDI Switch IC (U9) → Expansion I/F (connector: JEX) or expansion I/F (connector: JRIF)
P07 I/O SPI P07/#SPISS Expansion I/F (connector: JEX2) and expansion I/F (connector: JRIF)
P10 I/O UART P10/SCLK0 Expansion I/F (connector: JEX)
P11 I/O UART P11/SOUT0 Expansion I/F (connector: JEX) and expansion I/F (connector: JRIF)
P12 I/O UART P12/SIN0 Expansion I/F (connector: JEX) and expansion I/F (connector: JRIF)
P13 I/O Timer/ADC P13/EXCL1/AIN7 Expansion I/F (connector: JEX2) and switch IC (U4) → LED (D5)
P14 I/O Timer/ADC P14/EXCL2/AIN6 Expansion I/F (connector: JEX)
P15 I/O Timer/ADC P15/EXCL3/AIN5 Key input (SW2) and expansion I/F (connector: JEX)
P16 I/O UART/ADC P16/SCLK1/AIN4 Switch IC
P17 I/O ADC P17/AIN3 Expansion I/F (connector: JEX)
P20 I/O ADC P20/AIN2 Expansion I/F (connector: JEX)
P21 I/O ADC P21/AIN1 Illuminance sensor (U2) and expansion I/F (connector: JEX)
P22 I/O ADC P22/AIN0 Expansion I/F (connector: JEX)
P23 I/O RFC P23/SENB0 Thermistor
P24 I/O RFC P24/SENA0 Thermistor
P25 I/O RFC P25/REF0 Thermistor
P26 I/O RFC P26/RFIN0 Thermistor
P27 I/O UART/RFC P27/SOUT1/RFIN1 Humidity sensor
P30 I/O UART/RFC P30/SIN1/REF1 Humidity sensor
P31 I/O I2C/RFC P31/SCL0/SENA1 Humidity sensor or expansion I/F (connector: JEX2)
P32 I/O I2C/RFC P32/SDA0/SENB1 Humidity sensor or expansion I/F (connector: JEX2)
P33 I/O I2C/RFC P33/SCL1/SCL0 Expansion I/F (connector: JEX)
P34 I/O I2C/RFC P34/SDA1/SDA0 Expansion I/F (connector: JEX)
P35 I/O FOUT/Memory P35/FOUT1/#BFR Expansion I/F (connector: JEX)
7. I/O Ports
S5U1C17602T1100 Hardware Manual EPSON 17
Port Direction Multiplex Signal Connected to
P36 I/O TOUT/RFC P36/TOUT3 /RFCLKO
Lever & push-switch and expansion I/F (connector: JEX2)
P37 I/O TOUTN /LFRO/TOUT
P37/TOUTN3 /LFRO/TOUT4
Lever & push-switch and expansion I/F (connector: JEX2)
P40 I/O FOUT P40/FOUTH Expansion I/F (connector: JEX2) and switch IC (U4) → LED (D4)
P41 I/O Debugger P41/DSIO Expansion I/F (connector: JICD and JICDM)
P42 I/O Debugger P42/DST2 Expansion I/F (connector: JICD and JICDM)
P43 I/O Debugger P43/DCLK Expansion I/F (connector: JICD and JICDM)
8. Switch Settings
18 EPSON S5U1C17602T1100 Hardware Manual
8. Switch Settings The underside of the SVT17602 has one side slide switch (SW5) and four DIP switches (SW4, SW7, SW8, SW9), as shown in Figure 8.1. The various switch settings are described below.
Figure 8.1 Switch locations (CPU board underside)
8.1 SW5 settings The SW5 switch is used to turn the power supply from the coin cell (CR2032) to the board on or off. The power supply from the coin cell is controlled via the circuit shown in Figure 8.2. This circuit helps minimize unnecessary battery power consumption by switching off the power supply when the board is not in use. (This switch is disabled when power is supplied by VDD_ICD from JICD as shown in Figure 8.2.)
Figure 8.2 Coin cell control switch circuit
8. Switch Settings
S5U1C17602T1100 Hardware Manual EPSON 19
8.2 SW4 settings The SW4 switch is used to control the power supply to the infrared photo-receiver module (U1: PNA4702M), LED (D4, D5: SML-D12P8W, SML-D12V8W), and illuminance sensor (U2: TPS856). The power supply for the infrared photo-receiver module, LED, and illuminance sensor can be controlled via the circuit shown in Figure 8.3. This circuit minimizes unnecessary power consumption by switching off the power supply when the board is not in use.
* The infrared photo-receiver module is socket-mounted to permit removal if it is not needed.
Figure 8.3 Power supply switch (SW4) peripheral circuit
8. Switch Settings
20 EPSON S5U1C17602T1100 Hardware Manual
8.3 SW7/SW8/SW9 (PAD1 to 12) settings The SW7, SW8, and SW9 switches are used to select external connections to allow enabling/disabling of the R/F converter (RFC) incorporated into the S1C17602 as well as differing RFC drive methods (DC/AC drive). Lands (PAD1 to 6) are also provided for inserting/removing the 0-Ω resistor between the pads for external connections linked to the RFC drive method selected by the switches. Lands (PAD7 to 12) also enable setting of the standard capacitance to 100 pF or 1,000 pF by inserting or removing the 0-Ω resistor between the pads.
Tables 8.1 and 8.2 give the RFC drive methods and standard capacitance for the various switch (SW7 to 9) and land (PAD1 to 12) settings. (The factory default settings are indicated in bold text in the tables below.)
* For detailed information on RFC drive method selection, refer to Sections 13 and 14 .
Table 8.1 RFC drive methods for SW7 to 9 settings
SW7 SW8 SW9
RFC I2C DC AC DC AC
RFC Ch.0 DC drive AC drive
RFC Ch.1 RFC I2C DC drive
(when SW7=RFC) AC drive
(when SW7=RFC)
Table 8.2 RFC drive methods and standard capacitance for PAD1 to 12 settings (when SW7=RFC)
PAD1 to 3 0-Ω resistor
PAD4 to 6 0-Ω resistor
PAD7 to 9 0-Ω resistor PAD10 to 12 0-Ω resistor
1 to 2 2 to 3 4 to 5 5 to 6 7 to 8 8 to 9 10 to 11 11 to 12
RFC Ch.0
AC drive
DC drive
Std capacitance 1,000 pF
Std capacitance 100 pF
RFC Ch.1
DC
drive AC
drive Std capacitance
1,000 pF Std capacitance
100 pF
8. Switch Settings
S5U1C17602T1100 Hardware Manual EPSON 21
Figure 8.4 RFC function selector switch (SW7) and drive method selector switches (SW8, SW9) and PAD1 to 12
9. CPU Board Key Input Circuit
22 EPSON S5U1C17602T1100 Hardware Manual
9. CPU Board Key Input Circuit Switches SW1 and SW2 on the SVT17602 CPU board are connected to the S1C17602 ports P02 and P15 as shown in Figure 9.1 below.
Figure 9.1 CPU board key input circuit
The input ports P02 and P15 are pulled up via a 47 kΩ resistance and normally maintained at High level (input = 1). Pressing the switch switches the port to Low level (input = 0).
10. Infrared emitter LED/Photo-receiver Module
S5U1C17602T1100 Hardware Manual EPSON 23
10. Infrared emitter LED/Photo-receiver Module
The infrared emitters (AN333) and infrared photo-receiver module (PNA4702M) mounted on the SVT17602 CPU board are connected to the S1C17602 remote controller pins (P01/REMI and P00/REMO) as shown in Figure 10.1 below.
Figure 10.1 Infrared emitters/infrared photo-receiver module
Refer to the application note for detailed information on infrared emitters and infrared photo-receiver module control.
10. Infrared emitter LED/Photo-receiver Module
24 EPSON S5U1C17602T1100 Hardware Manual
10.1 Infrared unit emitting/receiving Two SVT17602 units can be used as shown in Figure 10.2 to transmit and receive remote control signals.
Figure 10.2 Transmitting and receiving using two units
* As a guide, the maximum separation allowing transmission in this case is approximately 3 m with the photo-emitter LED and photo-receiver module facing each other with no intervening obstructions. Figure 10.3 shows the waveforms observed for transmitted/received waveforms (1) to (3) in Figure 10.1 in this case.
Figure 10.3 Infrared remote controller transmission waveforms
10.2 Infrared photo-receiver module power supply switch The power supply for the infrared photo-receiver module (PNA4702M) mounted on the SVT17602 can be turned on and off using switch SW4-1. Turning off this switch reduces unnecessary current consumption for the entire board when the infrared photo-receiver module is not in use.
* The infrared photo-receiver module is socket-mounted to permit removal if it is not needed.
11. LCD Panel
S5U1C17602T1100 Hardware Manual EPSON 25
11. LCD Panel The S1C17602 features a segment LCD driver capable of driving a monochrome LCD panel of up to 288 segments (36 segments (SEG) x 8 common (COM)). The CPU board includes a segment-type LCD panel for evaluating functions of the LCD driver on the S1C17602 and is connected to the S1C17602 SEG/COM pins as shown in the diagram below.
Figure 11.1 LCD panel connection
11. LCD Panel
26 EPSON S5U1C17602T1100 Hardware Manual
11.1 LCD panel segment allocation The segment allocation diagram for the SVT17602 LCD panel is shown below, together with the segment/common allocation chart for the LCD panel pin arrangement.
Figure 11.2 LCD panel segment allocation diagram
Figure 11.3 LCD panel segment/common allocation chart
Refer to the application note for detailed information on LCD panel control.
12. Serial Interfaces
S5U1C17602T1100 Hardware Manual EPSON 27
12. Serial Interfaces The SVT17602 allows the use of three serial interfaces (UART x 2ch, SPI x 1ch, I2C x 2ch (1 master/1 slave)) incorporated into the S1C17602. The general input/output port pins on the S1C17602 double as serial port pins. Functions must be selected by selecting the analog switch via software and the DIP switch when they are used as serial ports.
The serial port input/output signals are shown in the table below.
Table 12.1 Serial port
Interface Signal (Port pin) I/O Connected to
SPICLK (P04) I/O Expansion I/F (JEX pin 13 or JRIF pin 8)
SDO (P05) O Expansion I/F (JEX pin 12 or JRIF pin 4)
SDI (P06) I Expansion I/F (JEX pin 11 or JRIF pin 3)
SPI
#SPISS (P07) I Expansion I/F (JEX2 pin 3 and JRIF pin 6)
SCLK0 (P10) I Expansion I/F (JEX pin 2)
SOUT0 (P11) O Expansion I/F (JEX pin 3 and JRIF pin 16)
UART ch.0
SIN0 (P12) I Expansion I/F (JEX pin 4 and JRIF pin 17)
SCLK1 (P16) I Check pin (TP9) and analog switch (U4, U6, U9, U11, U13) control
SOUT1 (P27) O Check pin (TP10) and humidity sensor control circuit (PAD4, PAD11)
UART ch.1
SIN1 (P30) I Check pin (TP11) and humidity sensor control circuit (PAD5)
SDL0 (P31) I/O SW7 → Expansion I/F (JEX2 pin 5) I2C (Master only) *1 SDA0 (P32) I/O SW7 → Expansion I/F (JEX2 pin 6)
SDL1/SDL0 (P33) I/O Expansion I/F (JEX pin 10) I2C (Master/Slave) *1 SDA1/SDA0 (P34) I/O Expansion I/F (JEX pin 9)
*1. The S1C17602 includes two I2C channels, one for the master function and one for the slave function. Master functions cannot be used for P33/P34 when the I2C master is used for P31/P32. Likewise, the master functions cannot be used for P31/P32 when the master is used for P33/P34.
13. Thermistor (RFC ch.0)
28 EPSON S5U1C17602T1100 Hardware Manual
13. Thermistor (RFC ch.0) The thermistor mounted on the SVT17602 CPU board is connected to the S1C17602 R/F converter (RFC) ch.0, as shown in Figure 13.1 below.
Figure 13.1 Thermistor (resistance sensor measurement DC oscillation mode) peripheral circuit
13. Thermistor (RFC ch.0)
S5U1C17602T1100 Hardware Manual EPSON 29
13.1 Resistance sensor measurement DC oscillation mode Figure 13.1 shows the default wiring configuration for the thermistor (103AP-2) mounted on the SVT17602 CPU board. This sensor is connected in resistance sensor measurement DC oscillation mode. (See Table 8.1 & 8.2 ⇒ “DC drive.”)
Up to two resistance sensors can be connected in resistance sensor measurement DC oscillation mode. In addition to the thermistor shown in Figure 13.1, a second resistance sensor can be connected at the J7 position. The default thermistor connected is socket-mounted to permit removal. The 103AP-2 connected in the default configuration can be removed to enable connection of another sensor for evaluation.
The default standard capacitance is 1,000 pF.
The standard capacitance affects the R/F conversion rate and accuracy. Increasing the standard capacitance increases conversion accuracy, while reducing capacitance increases conversion rate.
Refer to the application note for detailed information on controlling the thermistor connected in resistance sensor measurement DC oscillation mode.
* Refer to the S1C17602 technical manual for detailed information on resistance sensor measurement DC oscillation mode.
13. Thermistor (RFC ch.0)
30 EPSON S5U1C17602T1100 Hardware Manual
13.2 Resistance sensor measurement AC oscillation mode The SVT17602 RFC ch.0 can also be connected to a sensor in resistance sensor measurement AC oscillation mode, as shown in the circuit illustrated in Figure 13.2. (See Table 8.1 & 8.2 ⇒ “AC drive.”)
* Refer to the S1C17602 technical manual for detailed information on resistance sensor measurement AC oscillation mode.
Figure 13.2 Resistance sensor measurement AC oscillation mode peripheral circuit
14. Humidity Sensor (RFC ch.1)
S5U1C17602T1100 Hardware Manual EPSON 31
14. Humidity Sensor (RFC ch.1) The humidity sensor mounted on the SVT17602 CPU board is connected to the S1C17602 R/F converter (RFC) ch.1 as shown in Figure 14.1 below.
Figure 14.1 Humidity sensor (resistance sensor measurement AC oscillation mode) peripheral circuit
14. Humidity Sensor (RFC ch.1)
32 EPSON S5U1C17602T1100 Hardware Manual
14.1 Resistance sensor measurement AC oscillation mode Figure 14.1 shows the default wiring configuration for the humidity sensor (C10-M53R) mounted on the SVT17602 CPU board. This sensor is connected in resistance sensor measurement AC oscillation mode. (See Table 8.1 & 8.2 ⇒ “AC drive.”)
* SENA1 and SENB1 for RFC ch.1 of the S1C17602 are multiplexed with I2C. SW7 must be switched to “RFC” when using RFC. (See Table 8.1.)
The default humidity sensor (R31) connected is socket-mounted to permit removal. The C10-M53R connected in the default configuration can be removed to enable connection of another sensor for evaluation.
The default standard capacitance is 1,000 pF.
The standard capacitance affects the R/F conversion rate and accuracy. Increasing the standard capacitance increases conversion accuracy, while reducing capacitance increases conversion rate.
Refer to the application note for detailed information on controlling the humidity sensor connected in resistance sensor measurement AC oscillation mode.
* Refer to the S1C17602 technical manual for detailed information on resistance sensor measurement AC oscillation mode.
14. Humidity Sensor (RFC ch.1)
S5U1C17602T1100 Hardware Manual EPSON 33
14.2 Resistance sensor measurement DC oscillation mode SVT17602 RFC ch.1 can also be connected to a sensor in resistance sensor measurement DC oscillation mode, as shown in the circuit illustrated in Figure 14.2. (See Table 8.1 & 8.2 ⇒ “DC drive.”)
* Refer to the S1C17602 technical manual for detailed information on resistance sensor measurement DC oscillation mode.
Figure 14.2 Resistance sensor measurement DC oscillation mode peripheral circuit
15. Illuminance Sensor
34 EPSON S5U1C17602T1100 Hardware Manual
15. Illuminance Sensor The illuminance sensor mounted on the SVT17602 CPU board is connected to the S1C17602 AD converter as shown in Figure 15.1 below.
Figure 15.1 Illuminance sensor peripheral circuit
Refer to the application note for detailed information on illuminance sensor control.
15.1 Illuminance sensor power supply switch The power supply for the illuminance sensor (TPS856) mounted on the SVT17602 can be turned on and off using switch SW4-3. Turning off this switch reduces unnecessary current consumption for the entire board when the illuminance sensor is not in use.
16. LEDs
S5U1C17602T1100 Hardware Manual EPSON 35
16. LEDs The SVT17602 CPU board includes a red LED (SML-D12V8W) and green LED (SML-D12P8W), as shown in Figure 16.1, which are controlled via the S1C17602 ports (P13, P16, P40).
SW4-2 is used on the SVT17602 to control the VDD supplied to the LEDs. SW4-2 must be turned on to use the LEDs.
The S1C17602 LED control ports (P13, P40) are connected to the LEDs via an analog switch IC, as shown in Figure 16.1. The analog switch IC is controlled by port P16 on the S1C17602.
Table 16.1 shows the LED status for the various port settings when SW4-2 is on.
Figure 16.1 LED peripheral circuit
Table 16.1 LED status chart for different port settings (when SW4-2 is on)
P16=High P16=Low
P13=High P13=Low P40=High P40=Low P13=High P13=Low P40=High P40=Low
Red LED (SML-D12V8W)
On (illuminated) OFF - - OFF OFF - -
Green LED (SML-D12P8W)
- - On
(illuminated)OFF - - OFF OFF
17. Expansion Interfaces
36 EPSON S5U1C17602T1100 Hardware Manual
17. Expansion Interfaces The CPU board includes expansion interface connectors (JICD, JEX, JEX2) and an expansion connector mounting pattern (JRIF) to enable connection of an ICD board or user expansion boards.
*1: The S1C17602 includes two I2C channels, one for the master function and one for the slave function. The I2C from JEX cannot be used as master when the I2C (master only) from JEX2 is used. Likewise, the I2C (master only) from JEX2 cannot be used when the I2C from JEX is used as master.
Figure 17.1 Expansion interface connectors
17. Expansion Interfaces
S5U1C17602T1100 Hardware Manual EPSON 37
17.1 JICD connector The JICD connector is used to connect the ICD board.
The connector specifications and pin layout are shown below.
Table 17.1 JICD connector pin layout and connector diagram
JICD connector
(Diagram on the right shows a connector side view.) Manufacturer: Japan Aviation Electronics Industry, Ltd. (JAE) Code: PS-10SD-D4T1-1 (female) <ICD board side> Manufacturer: Tyco Code: 9-103801-0 (male)
No. Name I/O Function
1 DCLK O On-chip debugger clock output port
2 GND - Power supply ground (Connecting to all pins is recommended.)
3 GND - Power supply ground (Connecting to all pins is recommended.)
4 #RESET_OUT I Target reset signal input port
5 DSIO I/O On-chip debugger data input/output port
6 TGT_EN I Target enable signal input/output port
7 DST2 O On-chip debugger status signal output port
8 N.C - -
9 VCC (+3.3V) - +3.3 V power supply pin
10 VCC (+3.3V) - +3.3 V power supply pin
Note: Make the connection so that the CPU board LCD panel surface and ICD board USB connector mounting surface face up. Note that connecting this connector incorrectly may damage both boards.
<CPU board side view>
<ICD board side view>
<ICD board> <CPU board>
17. Expansion Interfaces
38 EPSON S5U1C17602T1100 Hardware Manual
17.2 JEX connector The JEX connector is used to connect a user expansion board.
The connector specifications and pin layout are shown below.
Table 17.2 JEX connector pin layout and connector diagram
JEX connector
Manufacturer: SAMTEC Code: SLW-110-01-G-D
No. Name I/O Function
1 GND - Power supply ground (Connecting to all pins is recommended.)
2 P10/SCLK0 I/O | I General input/output port | UART ch0 clock input port
3 P11/SOUT0 I/O | O General input/output port | UART ch0 data output port
4 P12/SIN0 I/O | I General input/output port | UART ch0 data input port
5 P17/AIN3 I/O | I General input/output port | Analog input port
6 VCC (+3.3V) - +3.3 V power supply pin
7 P20/AIN2 I/O | I General input/output port | Analog input port
8 P21/AIN1 I/O | I General input/output port | Analog input port
9 P34/SDA1/SDA0 I/O | I/O | I/O General input/output port | I2C (slave) data input/output port | I2C (master) data input/output port
10 P33/SCL1/SCL0 I/O | I/O | I/O General input/output port | I2C (slave) clock input/output port | I2C (master) clock input/output port
11 P06/SDI I/O | I General input/output port | SPI data input port
12 P05/SDO I/O | O General input/output port | SPI data output port
13 P04/SPICLK I/O | I/O General input/output port | SPI clock input/output port
14 P22/AIN0 I/O | I General input/output port | Analog input port
15 GND - Power supply ground (Connecting to all pins is recommended.)
16 P35/FOUT1/#BFR I/O | O | I General input/output port | OSC1 external clock output | I2C bus open
17 P15/EXCL3/AIN5 I/O | I General input/output port | T16E ch0 external clock input | Analog input port
18 P14/EXCL2/AIN6 I/O | O General input/output port | T16 ch2 external clock input | Analog input port
19 N.C - -
20 VCC (+3.3V) - +3.3 V power supply pin
12
1920
JEX
LCD panel
17. Expansion Interfaces
S5U1C17602T1100 Hardware Manual EPSON 39
17.3 JEX2 connector The JEX2 connector is used to connect a user expansion board.
The connector specifications and pin layout are shown below.
Table 17.3 JEX2 connector pin layout and connector diagram
JEX2 connector
Manufacturer: SAMTEC Code: SLW-105-01-G-D
No. Name I/O Function
1 GND - Power supply ground (Connecting to all pins is recommended.)
2 P03/#ADTRG I/O | I General input/output port | A/D converter external trigger
3 P07/#SPISS I/O | I General input/output port | SPI slave select input
4 P13/EXCL1/AIN7 I/O | O General input/output port | T16 ch0 external clock input | Analog input port
5 P31/SCL0 I/O | I/O General input/output port | I2C (master) clock input/output port
6 P32/SDA0 I/O | I/O General input/output port | I2C (master) data input/output port
7 P36/TOUT3/RFCLK0 I/O | O | O General input/output port | T16E ch0 PWM signal output (non-inverted) | R/F clock output pin
8 P37/TOUTN3/LFRO/TOUT4 I/O | O | O | O General input/output port | T16E ch0 PWM signal output (inverted) | LCD frame output | T8 OSC1 PWM signal output pin
9 P40/FOUTH I/O | O General input/output port | HSCLK clock output
10 VDD(+3.3V) - +3.3 V power supply pin
12
910
JEX2
LCD panel
17. Expansion Interfaces
40 EPSON S5U1C17602T1100 Hardware Manual
17.4 JEX/JEX2 connector dimensional diagram The dimensional diagram for the JEX and JEX2 connectors described above is shown below.
(While JEX is 20-pin and JEX2 is 10-pin, the dimensions shown below are common to both JEX and JEX2 connectors.)
Figure 17.2 JEX/JEX2 connector dimensional diagram
17. Expansion Interfaces
S5U1C17602T1100 Hardware Manual EPSON 41
17.5 JRIF connector The JRIF connector is used to connect a user expansion board.
The connector specifications and pin layout are shown below.
Table 17.4 JRIF connector pin layout and connector diagram
JRIF connector
Manufacturer: KEL Corporation Code: 8913-020-178MS-A-F (not mounted) No. Name I/O Function
1 N.C - -
2 N.C - -
3 P06/SDI I/O | I General input/output port | SPI data input port
4 P05/SDO I/O | O General input/output port | SPI data output port
5 GND - Power supply ground (Connecting to all pins is recommended.)
6 P07/#SPISS I/O | I General input/output port | SPI slave select input
7 GND - Power supply ground (Connecting to all pins is recommended.)
8 P04/SPICLK I/O | I/O General input/output port | SPI external clock input/output port
9 GND - Power supply ground (Connecting to all pins is recommended.)
10 N.C - -
11 GND - Power supply ground (Connecting to all pins is recommended.)
12 N.C - -
13 GND - Power supply ground (Connecting to all pins is recommended.)
14 N.C - -
15 GND - Power supply ground (Connecting to all pins is recommended.)
16 P11/SOUT0 I/O | O General input/output port | UART ch0 data output port
17 P12/SIN0 I/O | I General input/output port | UART ch0 data input port
18 N.C - -
19 VDD (+3.3V) - +3.3 V power supply pin
20 VDD (+3.3V) - +3.3 V power supply pin
JRIF
17. Expansion Interfaces
42 EPSON S5U1C17602T1100 Hardware Manual
17.6 JRIF mounting diagram The mounting diagram for the JRIF connector described above is shown below.
Figure 17.3 JRIF mounting diagram
17. Expansion Interfaces
S5U1C17602T1100 Hardware Manual EPSON 43
17.7 SPI port connector selection using analog switch The S1C17602 SPI input/output signal is connected to both the JEX2 connector and the JEX or JRIF connector via the analog switch, as shown in Figure 17.4. The analog switch IC is controlled by the S1C17602 P16 port and is connected to JRIF when the P16 output is “High” and to JEX when “Low.”
The #SPISS signal is also connected to both the JEX2 and JRIF connectors.
Table 17.5 shows the correlation between SPI signals and expansion connectors for various analog switch control port (P16) statuses.
Figure 17.4 SPI port connector selection circuit
Table 17.5 SPI signal and expansion connector correlation according to analog switch control port (P16) statuses
P16 = High output P16 = Low output
JEX JRIF JEX2 JEX JRIF JEX2
SPICLK Enabled Disabled - Disabled Enabled -
SDI Enabled Disabled - Disabled Enabled -
SDO Enabled Disabled - Disabled Enabled -
SPISS - Enabled Enabled - Enabled Enabled
Appendix A Consumption Current Measurement Method for Individual IC
44 EPSON S5U1C17602T1100 Hardware Manual
Appendix A Consumption Current Measurement Method for Individual IC
The SVT17602 CPU board enables measurement of current consumed for just the S1C17602.
The current consumed by the S1C17602 itself can be measured by removing the jumper (J2) for VDD and VDD2 on the SVT17602 CPU board and inserting an ammeter between them, as shown in the circuit layout diagram in Figure A.1. The various S1C17602 ports must be set appropriately for the peripheral circuits.
Refer to the S1C17602 IC current consumed measuring application note for detailed information on the sampling software (software flow) used to set these ports and to measure the current consumed.
Figure A.1 Consumption current measurement circuit for individual SVT17602 IC
Appendix B Consumption Current Measurement Method for Entire SVT17602 Board
S5U1C17602T1100 Hardware Manual EPSON 45
Appendix B Consumption Current Measurement Method for Entire SVT17602 Board
The SVT17602 CPU board enables measurement of current consumed for the entire SVT17602 board while powered by the coin cell.
Figure B.1 shows the SVT17602 CPU board coin cell peripheral circuit. To measure current consumed for the entire SVT17602 board, remove the resistor (R4) and replace with an ammeter.
(Note that the current through FET (Q1, Q2) shown in Figure B-1 may not reflect the current measured by this method.)
When seeking to reduce overall current consumption for the board, consider the current that flows through the external components listed below.
(1) Current through infrared photo-receiver module
(2) Current through sensors
You can eliminate the current (1) through the infrared photo-receiver module by removing the module from its socket when it is not being used.
You can eliminate the current (2) through the illuminance sensor by turning off the power supply switch (SW4-3) when the illuminance sensor is not being used. Just as for the infrared photo-receiver module, the current through the temperature and humidity sensors can be eliminated by removing the sensors from their sockets when they are not being used.
Refer to the SVT board current consumed measuring application note for detailed information on measuring overall current consumed by the board and for software examples that reduce overall board current consumption.
Figure B.1 Consumption current measurement circuit for entire SVT17602 board
+3V3
USBVCCUSB_VBUS
USBVCC +3V3
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XRESET_OUTC33DSIOTGT_ENC33DST2
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R6
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C8
4.7uF
R6 22R6 22
TP6
TH
TP6
TH
R11 470R11 470
U6
S-1170B33UC
U6
S-1170B33UC
ON1VSS2NC3 VIN 4
VOUT 5
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TP3
TH
TP3
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U3
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U3
S-1000N28
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VDD 2NC3
VSS4
D6
D6
D10
D5
D7
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A13
A19
D2
A4
A8
A11
A12
A10
D14
D15
A3
A21
D14
A20
D4
A12
A15
D1
A9
D0
D3
D13
A18
D2
A17
A6
A9
A3
A5
D9
A7
A15
A22
A8
A6
A19
A1
A16D8
A2
D11D10
D3
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D4
D7
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D0
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A14
A14
A16
A17
A20
D1
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A5
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D12
A4
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D13
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D5
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+3V3
+3V3
+3V3
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USB_VBUS
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LED01_0LED01_1LED01_2
TIMER
C33DST2
C33DSIO
SIO
SIO
P81P81
TGT_EN
C33DST2
XRESET
P10
P30
XRESET_OUT
C33DCLK
P12
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P31
P13
P32
P14
P11
P10P11P12P13P14P30P31P32
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C21
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R310R310
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C17
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R18 0R18 0
R28OPENR28OPEN
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C36
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C36
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R350R350
C18
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C18
9pF
C26
0.01uF
C26
0.01uF
C22
0.1uF
C22
0.1uF
C40
1000pF
C40
1000pF
C20
1uF
C20
1uF
R23OPENR23OPEN
R174.7KR174.7K
C19
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C19
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C34
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C34
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R15
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R15
4.7K
R340R340
R27OPENR27OPEN
C14 0.1uFC14 0.1uF
C27
1000pF
C27
1000pF
R144.7K
R144.7K
R16OPEN
R16OPEN
C23
0.1uF
C23
0.1uF
C33
0.1uF
C33
0.1uF
C31
1uF
C31
1uF
C37
0.01uF
C37
0.01uF
CN3
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C38
1000pF
C38
1000pF
R330R330
U8 S29PL064JU8 S29PL064J
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VCC G4
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D10 F3D11 G3D12 F4D13 G5D14 F5D15 G6
R26OPENR26OPEN
R201MR201M
C35
0.01uF
C35
0.01uF
R370R370
C28
1000pF
C28
1000pF
R134.7K
R134.7K
C130.1uF
C130.1uF
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CHS-01B1
SW2
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12
C24
0.01uF
C24
0.01uF
U9
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U9
S1C33E07
P00/SIN0/#DMAACK2E2P01/SOUT0/#DMAACK3F2P02/#SCLK0/#DMAEND2E3P03/#SRDY0/#DMAEND3F1P04/SIN1/I2S_SDOG2P05/SOUT1/I2S_WSF3P06/#SCLK1/I2S_SCKG1P07/#SRDY1/I2S_MCLKG3
P10/TM0/SIN0/#DMAEND0H1P11/TM1/SOUT0/#DMAEND1H2P12/TM2/#SCLK0/#DMAACK0J4P13/TM3/#SRDY0/#DMAACK1J2P14/TM4/SIN1H3
P20/SDCKED13P21/SDCLKD14P22/#SDCSC14P23/#SDRAS/TFT_CTL1C13P24/#SDCASB14P25/#SDWEB13P26/DQMLA13P27/DQMHB12
P30/CARD2/#DMAREQ0D1P31/CARD3/#DMAREQ1D3P32/CARD4/#DMAREQ2E4P33/CARD5/#DMAREQ3E1
P60/SIN2/DCSIO0/EXCL0L13P61/SOUT2/DCSIO1/EXCL1K12P62/#SCLK2/#ADTRG/CMU_CLKJ12P63/#SRDY2/WDT_CLK/#WDT_NMIK14P64/#WAIT/EXCL2K3P65/SDI/FPDAT8M2P66/SDO/FPDAT9M3P67/SPICLK/FPDAT10N1
P70/AIN0N6P71/AIN1M6P72/AIN2N7P73/AIN3M5P74/AIN4/EXCL5N5
P80/FPFRAMEP7P81/FPLINEL6P82/FPSHIFTL7P83/FPDRDY/TFT_CTL1/BCLKM7P84/DCSIO0/FPDAT11L8P85/DCSIO1M8
#RESETN13#NMIM13
BO
OT0
K13
BO
OT1
L5
VC
PN
4
DS
IO/P
34K
1D
CLK
/P35
L1D
ST2
/P36
K4
DS
T1/P
16/D
CS
IO0/
#SC
LK1/
TFT_
CTL
3J3
DS
T0/P
15/T
M5/
SO
UT1
/TFT
_CTL
0J1
DP
CO
/P17
/DC
SIO
1/#S
RD
Y1/
TFT_
CTL
2K
2
MC
LKI
P8
MC
LKO
P9
RTC
CLK
1P
2
RTC
CLK
OP
3
TES
T0M
4
BU
RN
INM
9
NC
P1
NC
P14
NC
A14
NC
A1
PLL
VS
SP
4
VS
SD
11V
SS
D6
VS
SD
5V
SS
D4
VS
SN
9V
SS
N3
VS
SE
11V
SS
E10
VS
SE
5V
SS
J11
VS
SJ1
0V
SS
J5V
SS
K11
VS
SK
10V
SS
K6
VS
SK
5
USBDP M14USBDM N14USBVBUS L14
PB3/FPDAT11/I2S_MCLK/CARD5 M1PB2/FPDAT10/I2S_SCK/CARD4 L3PB1/FPDAT9/I2S_WS/CARD3 L4PB0/FPDAT8/I2S_SDO/CARD2 L2
PA4/FPDAT11/TFT_CTL3/CARD1 P13PA3/FPDAT10/TFT_CTL2/CARD0 P12PA2FPDAT9/TFT_CTL1 L12PA1/FPDAT8/TFT_CTL0 N11PA0/TFT_CTL0 P11
P97/FPDAT7 M12P96/FPDAT6 N12P95/FPDAT5 N10P94/FPDAT4 M11P93/FPDAT3 M10P92/FPDAT2 P10P91/FPDAT1 L11P90/FPDAT0 L10
#RD A5#WRH/#BSH B4#WRL C5
#CE11/P56 A4#CE10/P57 B5#CE9/P55/CARD0 B2#CE8/P54/CARD1 A2#CE7/P53/SDA10 A10P52/BCLK/#CE6/CMU_CLK C4#CE5/P51/CARD1 B3#CE4/P50/CARD0 A3
D15/PC7 E14D14/PC6 C12D13/PC5 D12D12/PC4 E13D11/PC3 F12D10/PC2 E12D9/PC1 F13D8/PC0 F14D7 G13D6 G14D5 G12D4 H14D3 H13D2 H12D1 J14D0 J13
A24
/P40
/EX
CL4
/#S
DC
AS
C6
A23
/P41
/EX
CL3
/#S
DR
AS
A6
A22
/P42
/FP
DA
T8C
1A
21/P
43/F
PD
AT9
C3
A20
/P44
/FP
DA
T10
C2
A19
/P45
/FP
DA
T11
D2
A18
/P46
/TFT
_CTL
2B
1A
17/D
QM
HB
10A
16/D
QM
LC
11A
15A
11A
14A
12A
13B
6A
12C
7A
11/P
47A
7A
10B
7A
9C
8A
8A
8A
7D
9A
6B
8A
5D
10A
4A
9A
3C
9A
2B
9A
1C
10A
0/#B
SL
B11
VD
DD
7V
DD
N8
VD
DN
2V
DD
E7
VD
DE
6V
DD
F11
VD
DF1
0V
DD
H5
VD
DH
4V
DD
K7
VD
DG
11V
DD
G4
PLL
VD
DP
5
AV
DD
P6
VD
DH
L9V
DD
HD
8V
DD
HF5
VD
DH
F4V
DD
HH
11V
DD
HH
10V
DD
HK
9V
DD
HK
8V
DD
HG
10V
DD
HG
5V
DD
HE
9V
DD
HE
8
R22OPENR22OPEN
R210R210
C39
1000pF
C39
1000pF
R320R320
C30
1uF
C30
1uF
R25OPENR25OPEN
R360R360
C150.22uF
C150.22uF
U10SN74LVC1G97U10SN74LVC1G97
IN11GND2IN03 Y 4VCC 5IN2 6
R29OPENR29OPEN
C29
1000pF
C29
1000pF
R12100K
R12100K
TP9PADTP9PAD
TP11
PAD
TP11
PAD
XTAL1
FA-238
XTAL1
FA-238
IN1GND2 OUT 3GND 4
C25
0.01uF
C25
0.01uF
TP10PAD
TP10PAD
C32
0.1uF
C32
0.1uF
10
10
9
9
8
8
7
7
6
6
5
5
4
4
3
3
2
2
1
1
H H
G G
F F
E E
D D
C C
B B
A A
SEG35SEG34SEG33SEG32SEG31SEG30SEG29SEG28SEG27SEG26SEG25SEG24SEG23SEG22SEG21SEG20SEG19SEG18SEG17SEG16SEG15SEG14
SEG26SEG27SEG28SEG29SEG30SEG31SEG32SEG33SEG34SEG35COM7COM6COM5COM4COM3COM2COM1COM0
SEG0DCLKDST2DSIO
SE
G12
SE
G13
SE
G14
SE
G15
SE
G16
SE
G17
SE
G18
SE
G19
SE
G20
SE
G21
SE
G22
SE
G23
SE
G24
SE
G25
SEG
1
SEG
3SE
G4
SEG
2
SEG
5SE
G6
SEG
7SE
G8
SEG
9
SE
G11
SPICLKSDOSDI
P02
P03
P07
P10
P11
P12
P13
P14
P15
REF0RFIN0
RFIN1REF1P31/SENA1
SENA0
P37P36P35P34P33
P22P21P20P17
SE
G10
P40
P21P34
P37
P33
P40
P35
P03P07
P07
P15
P11
P14
P12
P13
P10
P32
P22
P11
P36
P12P17
P20
REMOREMI
SENA1
SENB1
COM2
SEG13
COM1
SEG12
COM0
SEG11SEG10SEG9SEG8SEG7SEG6SEG5SEG4SEG3SEG2SEG1SEG0COM7COM6COM5COM4COM3
SENB0
P32/SENB1
P31P32
P15
P02
P37P03
P36
P21
P13
P40
P31
P16
VDD
VDD
VDD
VDD_ICD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD2
VDD2AVDD
AVDD
AVDD
VDD2
AVDD2
VDD2 VDD2 VDD2
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
Title
veRrebmuN tnemucoDeziS
teehS:etaD of
0.1A2
1 1
Title
veRrebmuN tnemucoDeziS
teehS:etaD of
0.1A2
1 1
Title
veRrebmuN tnemucoDeziS
teehS:etaD of
0.1A2
1 1
JICDM
JICD
電流測定用0Ω抵抗
電流測定用ジャンパーピン
JEX
JRIF
JEX2DCAC DC AC
アナログ電流測定用ジャンパーピン
注意:
1. で囲んだ部分はアナログ部分なので 配線は最短で行い、GNDでガードする。
2.表面、裏面ともベタGNDとする。
3.DSIO,DST2,DCLK,XRESET信号は、他の信号と分離し、 GNDでガードする。
4.C32~C35はマイコンの四隅に配置する。
5.SW7はできるだけマイコンの端子の近くに配置する。
※PAD1,2,3間、PAD4,5,6間、PAD7,8,9間、PAD10,11,12間は2012の0Ω抵抗でショートさせて選択する。 PAD2-3間、PAD5-6間、PAD7-8間、PAD10-11間に0Ω抵抗を実装する。
I2C RFC
U7
S1C17602_QFP
U7
S1C17602_QFP
SE
G1
1S
EG
22
SE
G3
3S
EG
44
SE
G5
5S
EG
66
SE
G7
7S
EG
88
SE
G9
9S
EG
1010
SE
G11
11S
EG
1212
SE
G13
13S
EG
1414
SE
G15
15S
EG
1616
SE
G17
17S
EG
1818
SE
G19
19S
EG
2020
SE
G21
21S
EG
2222
SE
G23
23S
EG
2424
SE
G25
25
SEG26 26SEG27 27SEG28 28SEG29 29SEG30 30SEG31 31SEG32 32SEG33 33SEG34 34SEG35 35SEG36/COM7 36SEG37/COM6 37SEG38/COM5 38SEG39/COM4 39
COM0 43COM1 42COM2 41COM3 40
TEST2 44CB 45CA 46
VC1 49VC2 48VC3 47
VSS 50
VD
D51
OS
C4
52O
SC
353
VS
S54
VD
155
OS
C1
57O
SC
256
#TE
ST
58#R
ES
ET
59P
00/R
EM
O60
P01
/RE
MI
61P
02/E
XC
L062
P03
/#A
DTR
G63
P04
/SP
ICLK
64P
05/S
DO
65P
06/S
DI
66P
07/#
SP
ISS
67P
10/S
CLK
068
P11
/SO
UT0
69P
12/S
IN0
70P
13/E
XC
L1/A
IN7
71P
14/E
XC
L2/A
IN6
72P
15/E
XC
L3/A
IN5
73
P16/SCLK1/AIN476P17/AIN377
VS
S74
AV
DD
75
P20/AIN278P21/AIN179P22/AIN080
P23/SENB082P24/SENA083P25/REF084P26/RFIN085
P27/SOUT1/RFIN187
VDD81
VSS86
P30/SIN1/REF188P31/SCL0/SENA189P32/SDA0/SENB190P33/SCL1/SCL091P34/SDA1/SDA092P35/FOUT1/#BFR93P36/TOUT3/RFCLKO94
95 P37/TOUTN3/LFRO/TOUT4P40/FOUTH96P41/DSIO97P42/DST298P43/DCLK99SEG0100
V G
U9TS5A3159A
V G
U9TS5A3159A
1 4
6
25
3
R32
103AP-2
R32
103AP-2
C27 0.1uFC27 0.1uF
VG
U6TS5A3159A
VG
U6TS5A3159A
14
6
2 5
3
PAD10PAD10
TP5GND3
TP5GND3
G
DS
Q2
FDC638APZ
G
DS
Q2
FDC638APZ
4
3
1256
R16
0
R16
0
R2
47K
R2
47K
X1
FC-255_32.768KHz
X1
FC-255_32.768KHz
R23
1K
R23
1K
TP2TP_VDD2TP2TP_VDD2
TP10P27
TP10P27
C25 0.1uFC25 0.1uF
R24
OPEN
R24
OPEN
C26 0.1uFC26 0.1uF
C12
3.3uF
C12
3.3uF
C39
100pF
C39
100pF
C13
0.1uF
C13
0.1uF
V G
U10TS5A3166
V G
U10TS5A3166
2 1
4
35
SW1
SKQTLCE010
SW1
SKQTLCE0101 2
C36 0.1uFC36 0.1uF
MA-406_6MHz
X2
MA-406_6MHz
X2
41
32
Q5
MMBTA42-TP
Q5
MMBTA42-TPC
E
B
R22
47K
R22
47K
PAD9PAD9
R12
47K
R12
47K
C29 0.1uFC29 0.1uF
R20
1K
R20
1K
C35
0.1uF
C35
0.1uF
SW4
CHS-04B
SW4
CHS-04B
12
43
5678
R27
2.2K
R27
2.2K
D3
CRS06_OPEN
D3
CRS06_OPEN
A K
R6
1K
R6
1K
TP4GND2
TP4GND2
R34
4.3K 0.1%
R34
4.3K 0.1%
C32
0.1uF
C32
0.1uF
C7
15pF
C7
15pF
C30
0.1uF
C30
0.1uF
C4
4.7uF
C4
4.7uF
-+V1
BA2032SM-+V1
BA2032SM
C38
1000pF
C38
1000pF
TP11
P30
TP11
P30
SW2
SKQTLCE010
SW2
SKQTLCE0101 2
F1
BLM18PG330SN1D
F1
BLM18PG330SN1D
C18
3.3uF
C18
3.3uF
J2
HWHP-2P
J2
HWHP-2P12
J3
JLS-2504
J3
JLS-2504
DCLK1GND2DSIO3DST24
C8
15pF
C8
15pF
U3
S-1000N18-M5V1G
U3
S-1000N18-M5V1G
NC 4VSS3 VDD2 OUT1 NC 5
J11
SLW-105-01-G-D
J11
SLW-105-01-G-D
P03/#ADTRG 2P07/#SPISS 3
GND 1
P31/SCL0 5P32/SDA0 6
P36/TOUT3/RFCLK0 7P37/TOUTN3/LFRO/TOUT4 8
P40/FOUTH 9VDD(+3.3V) 10
P13/EXCL1/AIN7 4
J10HWHP-2PJ10HWHP-2P
12
R13
47K
R13
47K
V G
U13TS5A3159A
V G
U13TS5A3159A
1 4
6
25
3
R18
1M
R18
1M
R5
0
R5
0
PAD11PAD11
J5
PS-10SD-D4T1-1
J5
PS-10SD-D4T1-1
DCLK1GND2GND3#RESET_OUT4DSIO5TGT_EN6DST27N.C8VDD(+3.3V)9VDD(+3.3V)10
R3
47K
R3
47K
R7
1K
R7
1K
C19
0.1uF
C19
0.1uF
D1
AN333
D1
AN333
A
K
R15
270
R15
270
TP3GND1
TP3GND1
SW9CAS-220BSW9CAS-220B
21 3
54 6
PAD4PAD4
D2
CRS06
D2
CRS06
AK
C14 0.1uFC14 0.1uF
TP6GND4
TP6GND4
Q3
MMBTA42-TP
Q3
MMBTA42-TP
C
E
B
C5
15pF
C5
15pF
SW8CAS-220BSW8CAS-220B
213
546
R10
100K
R10
100K
C31 0.1uFC31 0.1uF
C9
0.1uF
C9
0.1uF
C2
4.7uF
C2
4.7uF
R14
240
R14
240
R19
470K
R19
470K
C37
0.1uF
C37
0.1uF
R33
10K 1%
R33
10K 1%
G
GV
U5SN74LVC1G97
G
GV
U5SN74LVC1G97
6
4
5 2
3
1
R11
47K
R11
47K
R28
33
R28
33
PAD5PAD5
PAD3PAD3
SW51K2SW51K2
2 1 3
R1
100
R1
100
C41
100pF
C41
100pF
V G
U11TS5A3159A
V G
U11TS5A3159A
1 4
6
25
3
PAD7PAD7
R8
1K
R8
1K
J9
2.54pitch-Through
J9
2.54pitch-Through
1122334455667788
1313
99101011111212
141415151616171718181919202021212222
R21
OPEN
R21
OPEN
C40
1000pF
C40
1000pF
R17
0
R17
0
C33
0.1uF
C33
0.1uF
C34
0.1uF
C34
0.1uF
R26
2.2K
R26
2.2K
C110.1uF C110.1uF
R36
2.2K
R36
2.2K
J1
HWHP-2P
J1
HWHP-2P1 2
TP1TP_VDD1TP1TP_VDD1
Q4
MMBTA42-TP
Q4
MMBTA42-TPC
E
B
R9
OPEN
R9
OPEN
VG
U4TS5A3159A
VG
U4TS5A3159A
14
6
2 5
3
C10
0.1uF
C10
0.1uF
C24 0.1uFC24 0.1uF
G
D S
Q1
FDC638APZ
G
D S
Q1
FDC638APZ
4
3
1256
R2510KR2510K
R35
2.2K
R35
2.2K
PAD12PAD12
SW7CAS-220BSW7CAS-220B
21 3
54 6
TP7GND5
TP7GND5
U1PNA4702M
U1PNA4702M
Vout 1GND 2Vcc 3
C42
0.1uF
C42
0.1uF
R30
47K 1%
R30
47K 1%
F2
BLM18PG330SN1D
F2
BLM18PG330SN1D
TP8GND6
TP8GND6
C3
10uF
C3
10uFU2
TPS856
U2
TPS856
VCC1GND2GND3 GND 4GND 5OUT 6
C22 0.1uFC22 0.1uF
C200.1uF C200.1uF
J6
SLW-110-01-G-D
J6
SLW-110-01-G-D
GND 1P10/SCLK0 2P11/SOUT0 3
P12/SIN0 4P17/AIN3 5
VDD(+3.3V) 6P20/AIN2 7P21/AIN1 8
P34/SDA1/SDA0 9P33/SCL1/SCL0 10
P06/SDI 11P05/SDO 12
P04/SPICLK 13P22/AIN0 14
GND 15P35/FOUT1/#BFR 16P15/EXCL3/AIN5 17P14/EXCL2/AIN6 18
N.C 19VDD(+3.3V) 20
PAD2PAD2
D4
SML-D12P8W
D4
SML-D12P8W
A
K
R31
C10-M53R
R31
C10-M53R
C16
3.3uF
C16
3.3uF
C6
4.7uF
C6
4.7uF
C23 0.1uFC23 0.1uF
J4
8913-020-178MS-A-F
J4
8913-020-178MS-A-F
N.C. 1N.C. 2
P06/SDI 3P05/SDO 4
GND 5P07/#SPISS 6
GND 7P04/SPICLK 8
GND 9N.C. 10GND 11N.C. 12GND 13N.C. 14GND 15
P11/SOUT0 16P12/SIN0 17
N.C. 18VDD(+3.3V) 19VDD(+3.3V) 20
C28
0.1uF
C28
0.1uF
C21 0.1uFC21 0.1uF
SW3
SLLB5
SW3
SLLB5
CCW1COMCPUSHTCW2
PAD6PAD6
V G
U8TS5A3166
V G
U8TS5A3166
2 1
4
35
PAD1PAD1
PAD8PAD8
C15
0.1uF
C15
0.1uFTP9P16TP9P16
SW6
SKQTLCE010
SW6
SKQTLCE01012
R4
0
R4
0
V G
U12TS5A3166
V G
U12TS5A3166
2 1
4
35
D5
SML-D12V8W
D5
SML-D12V8W
A
K
J7HWHP-2PJ7HWHP-2P
12
R29
10M 1%
R29
10M 1%
C1
4.7uF
C1
4.7uF
J8
2.54pitch-Through
J8
2.54pitch-Through4444 4343 4242 4141 4040 3939 3838
3333
3737 3636 3535 3434
3232 3131 3030 2929 2828 2727 2626 2525 2424 2323
C17
0.1uF
C17
0.1uF
SVT17602 CPU Board
NO. Parts name Location Model number SPEC mfr1 CPU U7 S1C17602 TQFP14-100pin EPSON
2 LCD44pin (22pin×2column)36SEG×8COM
3 IC socket J8,J9 643654-1 SIP,22pin AMP4 Analog switch U8,U10,U12 TS5A3166DCKR SC-70 Texas Instruments5 Analog switch U4,U6,U9,U11,U13 TS5A3159ADCKR SC-70 Texas Instruments6 Reset IC U3 S-1000N18-M5V1G SOT-23-5,1.8V detection SII7 Universal logic U5 SN74LVC1G97DCKR SC-70 Texas Instruments8 Thermistor R32 103-AP-2 ISHIZUKA9 Humidity sensor R31 C10-M53R Shinei10 Photo IC U2 TPS856 TOSHIBA11 Photodiode U1 PNA4702M Panasonic12 infrared-emitting diode D1 AN333 STANLEY13 Transistor Q3,Q4,Q5 MMBTA42-TP SOT-23 MCC14 MOS FET Q1,Q2 FDC638APZ FAIRCHILD15 schottky diode D2,D3(non-connection) CRS06 3516,1A,20V,0.36V TOSHIBA16 LED D4 SML-D12P8W green,1608 ROHM17 LED D5 SML-D12V8W red,1608 ROHM18 filter F1,F2 BLM18PG330SN1D 1608,33O,3A,0.025O MURATA19 crystal oscillator X2 MA-406 6MHz 16pF 6MHz EPSON TOYOCOM
20 crystal oscillator X1 FC-255 32.768kHz±5ppM 12.5pF 32.768kHz EPSON TOYOCOM
21 Pin header J3(JICDM) JLS-2504 1-column,4-pole,right angle Hirosugi22 Connector J5(JICD) PS-10SD-D4T1-1 2-column,10-pole,right angle JAE23 Connector J4(JRIF)(non-connection) 8913-020-178MS-A-F SMT,20-pole KEL24 Connector J6(JEX) SLW-110-01-G-D 2-column,20-pole SAMTEC25 Connector J11(JEX2) SLW-105-01-G-D 2-column,10-pole SAMTEC26 Jumper pin J1,J2,J7,J10 HWHP-2P 2-pole,terminal part: 6mm MAC827 Jumper socket J1,J2 MJS-0605B black Hirosugi28 battery holder V1 BA2032SM SMT,CR2032 Takachi29 tact switch SW1,SW2,SW6 SKQTLCE010 side push ALPS30 lever & push switch SW3 SLLB510100 ALPS31 slide switch SW5 1K2 09.10290.01 eao32 DIP switch SW4 CHS-04B SMT,4-pole COPAL33 jumper switch SW7,SW8,SW9 CAS-220B 2 circuit COPAL34 IC socket R31,R32 300-032-050 2 pin 3M35 battery CR2032
SVT17602 SVT17602 CPUboard_BOMlist 1/2
36 USB cable USB-ECOM515 A-miniB,1.5m ELECOM37 test terminal LC-33-G-RED red MAC838 test terminal LC-33-G-BLACK black MAC839 laminated ceramic capacitor C1,C2,C4,C6 C1608JB0J475K 1608,4.7uF±10%,6.3V TDK
40
laminated ceramic capacitor
C9,C10,C11,C13,C14,C15,C17,C19,C20,C21,C22,C23,C24,C25,C26,C27,C28,C29,C30,C31,C32,C33,C34,C35,C36,C37,C42
GRM219F11H104ZA01D
2012,0.1uF+80/-20%,50V
MURATA
41 laminated ceramic capacitor C3 EMK316F106ZL-T 3216,10uF+80/-20%,16V Taiyo Yuden Co., Ltd.42 laminated ceramic capacitor C5,C7,C8 C1608CH1H150J 1608,15pF±5%,50V TDK43 laminated ceramic capacitor C12,C16,C18 C1608JB0J335K 1608,3.3uF±10%,6.3V TDK44 film condenser C38,C40 ECH-U1C102GX5 1608,1000pF±2%,16V Panasonic45 film condenser C39,C41 ECH-U1C101GX5 1608,100pF±2%,16V Panasonic
46 chip resistor R2,R3,R11,R12,R13,R22,R30
RK73H2ATTD4702F 2012,47K,1%,0.125W KOA
47chip resistor
R4,R5,R16,R17,PAD2-3,PAD5-6,PAD7-8,PAD10-11
RK73Z2ATTD2012,0,2A
KOA
48 chip resistor R1 RK73H2ATTD1000F 2012,100,1%,0.125W KOA
49 chip resistor R6,R7,R8,R20,R23
RK73H2ATTD1001F 2012,1K,1%,0.125W KOA
50 chip resistor R10 RK73H2ATTD1003F 2012,100K,1%,0.125W KOA51 chip resistor R18 RK73H2ATTD1004F 2012,1M,1%,0.125W KOA52 chip resistor R14 RK73H2ATTD2400F 2012,240,1%,0.125W KOA53 chip resistor R15 RK73H2ATTD2700F 2012,270,1%,0.125W KOA54 chip resistor R19 RK73H2ATTD4703F 2012,470K,1%,0.125W KOA55 chip resistor R25,R33 RK73H2ATTD1002F 2012,10K,1%,0.125W KOA56 chip resistor R26,R27,R35,R36 RK73H2ATTD2201F 2012,2.2K,1%,0.125W KOA57 chip resistor R28 RK73H2ATTD33R0F 2012,33,1%,0.125W KOA58 chip resistor R29 RK73H2ATTD1005F 2012,10M,1%,0.125W KOA59 chip resistor R34 RG2012P-432-B-T1 2012,4.3K,0.1%,0.1W SUSUMU CO.,LTD60 chip resistor R9,R21,R24 - - -
SVT17602 SVT17602 CPUboard_BOMlist 2/2
International Sales Operations
AMERICA EPSON ELECTRONICS AMERICA, INC. 214 Devcon Drive, San Jose, CA 95112, 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: +86-10-8522-1199 FAX: +86-10-8522-1125 SHANGHAI BRANCH 7F, Block B, Hi-Tech Bldg., 900 Yishan Road, Shanghai 200233, CHINA Phone: +86-21-5423-5577 FAX: +86-21-5423-4677 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. Unit 715-723, 7/F Trade Square, 681 Cheung Sha Wan Road, Kowloon, Hong Kong. Phone: +852-2585-4600 FAX: +852-2827-4346 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 5F, 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. MICRODEVICES OPERATIONS DIVISION IC Sales & Marketing Department 421-8, Hino, Hino-shi, Tokyo 191-8501, JAPAN Phone: +81-42-587-5814 FAX: +81-42-587-5117
Hardware ManualS5U1C17602T1100
First Issue January, 2009 DDocument code: 411637901a
Revised: December 2012 in JAPAN
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