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 withou t any notic e.
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
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information furnished, if any) for the development and/or manufacture of weapon of mass destruction or for other
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All brands or product names mentioned herein are trademarks and/or registered trademarks of their respective
companies.
S5U1C17F57T ManualSeiko Epson Corporation i
(Rev.1.1)
Page 5
1. Overview
1. Overview
The S5U1C17F57T1 (SVT17F57: Software eValuation Tool for S1C17F57) and the S5U1C17F57T2(SVTmini
17F57: Software eValuation Tool for S1C17F57)
*1
are evaluation and development support boards for the Seiko
Epson single-chip microcontroller S1C17F57.
The S5U1C17F57T1 is composed of a CPU board and a peripheral board. In the CPU board, an IC socket for the
S1C17F57, extension connectors, debug connectors for the S1C17F57 and others are built-in. In the peripheral
board, an EPD (Electrophoretic Display) panel, EPD panel connectors, EPD panel connector pads, a buzzer, a
tact switch and others are built-in. These make it possible to perform the functions such as the EPD drive display,
buzzer rumbling and switch input.
The S5U1C17F57T2 is composed only of the CPU board that is used in the S5U1C17F57T1, and can be
applicable for various applications using the extension connectors.
1) CPU S1C17F57 (QFP15-128)
2) Power supply voltage External power supply (DC3.0V)
Coin battery (CR2032: 3.0 V) (inserted in the battery folder)
IC socket for S1C17F57 (S1C17F57 is inserted)
Crystal oscillator
Reset switch
Extension connector
LED
USB interface and connector
Jumper switches for various settings
Peripheral board:
5) Accessories
6) Operating temperature
EPD panel connectors and connector pads
EPD panel (DM-EPS2)
Tact switches
Buzzer
Power supply switch
Jumper switches for various settings
Jumper switch × 3
Power supply cable
5 °C to 35 °C
range
7) Operating voltage
range
2.0 V to 5.5 V
*1: The S5U1C17F57T1 is a package of the CPU board and the peripheral board, and the S5U1C17F57T2 is a
The S1C17F57 software debugging and evaluation environment can be set up with the following procedures.
<For Software Debugging>
(1) Connect the 4-pin connector for the target and the 4-pin connector for the Flash programming power supply
of the ICDminiVer.2 to the connectors (CN2-1 (J5) and CN2-2 (J6)) of the CPU board, respectively, using
the dedicated cables that are included in the S5U1C17001H2 (ICDminiVer.2).
(2) Place the VDD power supply selection jumper switch (JP14) of the CPU board on the “EXT” side.
(3) Place the VPP power supply selection jumper switch (JP12) of the CPU board on the “ICD” side.
(4) Set the jumper switches of the CPU board as follows.
JP1, JP2, JP3, JP17: Short
JP13, JP18, JP19: Open
If the peripheral board is connected, set JP23 of the peripheral board to open.
(5) Supply the power output from a stabilized power supply or the power output from the ICDminiVer.2 to the
power supply connector (CN3 (J8)) of the CPU board. The power supply voltage should be within the
S1C17F57 operating power supply voltage range.
(6) Connect the ICDminiVer.2 to the PC using the USB cable included in the ICDminiVer.2.
In addition, set DIP switches of the ICDminiVer.2 as follows
“Selecting the DSIO signal level” (SW4, SW5) “Voltage input from the target”
“Selecting the Flash programming voltage output” (SW8) ON
<For Free-run with External Power Supply>
(1) Place the V
DD power supply selection jumper switch (JP14) of the CPU board on the “EXT” side.
(2) Set the jumper switches of the CPU board as follows.
JP1, JP2, JP3, JP17: Short
JP13, JP18, JP19: Open
If the peripheral board is connected, set JP23 of the peripheral board to open.
(3) Supply the power output from a stabilized power supply to the power supply connector (CN3 (J8)) of the
CPU board. The power supply voltage should be within the S1C17F57 operating power supply voltage
range.
<For Free-run with Coin Battery (when the CPU board and the peripheral board are used as a set)>
(1) Place the V
DD power supply selection jumper switch (JP14) of the CPU board on the “EXT” side.
(2) Set the jumper switches of the CPU board as follows.
JP1, JP2, JP3 Short
JP13, JP17, JP18, JP19 Open
Place JP23 of the peripheral board on the “BATT” side.
(3) Insert the coin battery to the battery folder mounted on the peripheral board.
(4) Set the power supply switch (SW2) of the peripheral board to the “ON” side.
The factory default settings are the above.
2 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 7
1. Overview
Table 1.1 Jumper setting list in each mode
Free-run with
external power
supply
-
-
-
Free-run with coin
battery
-
-
-
-
-
Board
CPU
Peripheral
Jumper switch
number
JP1-JP3 ON ON ON
JP4-JP11
JP12 ICD JP13 OPEN OPEN OPEN
JP14 EXT EXT EXT
JP15-16
JP17 ON ON OPEN
JP18-19 OPEN OPEN OPEN
JP1-22
JP23 OPEN OPEN BATT
JP24-29
Software
debugging
- -
-
-
-
ON: Place the jumper switch
OPEN: Remove the jumper switch
-
: Arbitrary
Other: Place the jumper switch to the side of this name
Figure 2.5 Connection diagram of EPD module (DM-EPS2)
8 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 13
2.2 Functions of Each Part
2.2.1 Jumper Switch Functions
Table 2.2.1 Jumper function list for CPU board
2. Name and Functions of Each Part
Name Type Function
JP1
(VD1_F-VD1)
JP2
(S1C17F57-V
JP3
(S1C17F57-VPP)
JP4 to JP7 Solder
JP8 to JP11 Solder
JP12(VPP) Pin Selects the S1C17F57 Flash programming
JP13
(VPP_CNT-P05)
JP14(VDD) Pin Selects the S1C17F57 VDD power supply.
JP15 Solder
JP16 Solder
JP17
(VDD_EXT)
JP18 Pin Connects the S1C17F57 VE1 terminal to
JP19 Pin Connects the S1C17F57 VE2 terminal to
DD)
Pin Connects the S1C17F57 VD1_F terminal
to the VD1 terminal.
Pin Connects the S1C17F57 V
DD power supply.
the V
Pin Connects the S1C17F57 VPP terminal to
the VPP power supply.
Selects the usage of the S1C17F57 P20 to
bridge
bridge
Pin Enables the USB power supply boost
bridge
bridge
Pin Supplies the power from the external VDD
P23 terminals.
Short: General purpose I/O
Open: RF converter component
connection
Selects the usage of the S1C17F57 P24 to
P27 terminals.
Short: General purpose I/O
Open: RF converter component
connection
power supply.
1(ICD): External power supply
connector CN2-2(J6)
3(USB): USB VBUS boost power supply
circuit.
Short: Enables the USB power supply
boost control
Open: Disables the USB power supply
boost control
1(EXT): External power supply
connector CN3(J8)
3(USB): USB VBUS power supply
When using the coin battery in the
peripheral board, set to “1 (EXT)” and set
JP17 to open. Or remove this jumper
switch.
Connects the signal line (SIN) between the
CP2102 and the S1C17F57.
Connects the signal line (SOUT) between
the CP2102 and the S1C17F57.
power supply connector CN3 (J8).
Short: Supplies
Open: Does no supply.
Table 2.2.2 Jumper function list for peripheral board
Name Type Function
JP1(VOUT2-VEPD) Pin Short Open
JP2(VOUT2-C) Pin Short Open
JP3(VD1-C) Pin Short Open
JP4(EPDTRG) Pin Short Open
JP5(EPDCLK) Pin Short Open
JP6(SDO) Pin Short Open
JP7(SDA) Pin Short Open
JP8(SPICLK) Pin Short Open
JP9(I2C_AD0_SCS) Pin Short Open
JP10(OS) Pin Open Short
JP11(XRES) Pin Short Open
JP12(VDD) Pin Short Open
JP13(VPP) Pin Open Short
JP14(MFS) Pin Open Short
JP15(VD1-VDD) Pin Open Short
JP16(MFS) Pin Connects the external EPD module
connector pad CN10 (J12) to the MFS
terminal.
JP17(I2C_AD0_SCS) Pin Open 1(VSS)
JP18(I2C_AD1) Pin Open 1(VSS)
JP19(IFSEL) Pin 3(VDD) 1(VSS)
JP20(SLVSEL) Pin 3(VDD) 1(VSS)
JP21(VD1SEL) Pin 3(VDD) 1(VSS)
JP22(VPP) Pin Connect the external EPD module
JP23(VDD) Pin Selects the VDD power supply.
JP24-27 Solder
bridge
JP28 Pin Open Short
JP29 Pin Short Open
connector pad CN10 (J12) to the VPP
terminal.
3(BATT): Coin battery
1(EXT): Power supply connector
CN5(J14)
Connects tact switches to the P00 –
P03 port.
Factory
default
setting
Open Short
Open Short
3(BATT) 1(EXT)
Short Open
2.2.2 Functions of Each Component
Selectable
setting
3(V
DD)
3(V
DD)
Open
Open
Open
Open
able 2.2.3 Component and function list for CPU board
T
Name Location Function
IC socket U1 For the S1C17F57
Connector CN1-1 to 4
(J4,J3,J1,J2)
Connector CN2-1 to 2(J5,J6) Debug interface (for the S5U1C17001H2)
Connector CN3(J8) External power supply connector
Connector CN4(J7) USB connector
LED D2 Lit when using the external VDD power supply
Switch SW1 System reset
Monitor pin TP1(VPP) VPP (USB VBUS boost) power supply monitor pin
Monitor terminal TP2(VDD) VDD power supply monitor through-hole
Monitor terminal TP3,TP4 Serial interface signal monitor through-hole
Capacitor C35 Reference capacitor (DC/AC bias, channel 0)
Table 2.2.4 Component and function list for peripheral board
Name Location Function
IC U1
Connector CN1-1 to 4(J5,J3,J15,J4) Interface with the CPU board
Connector CN5(J14) Dedicated external power supply connector for the peripheral
board with stand-alone operation (When the CPU board i s
connected, the external power supply connector CN3 is
used.)
Connector CN6(J13) Interface with the external CPU
Connector CN7-1 to 2 (J2,J1) EPD panel connector (0.3 mm pitch, staggered arrangement)
Connector pad CN8-1 to 3 (J8,J9,J11) EPD panel connector pad (0.3, 0.4 and 0.5 mm pitch, straight
alignment)
Connector pad CN9-1 to 2 (J7,J6) EPD panel connector pad (0. 2 and 0.4 mm pitch, staggered
arrangement)
Connector pad CN10(J12) Connector pad for the external EPD module (0.5 mm pitch)
Through-holes CN11(J10) Through-holes for the EPD panel connection (2.54 mm pitch)
Switch SW1 System reset
Switch SW2 Battery power supply switch
Switch SW3 to SW6 P00 - P03 port input switch
Monitor terminal TP1 VDD power supply (battery)
Monitor terminal TP2 VDD power supply (selected power supply)
Monitor terminal TP3 GND terminal
Monitor terminal TP4 VDD (external power supply)
Monitor pin TP5 P00 (REGMON) monitor pin
Buzzer BZ1 Piezo buzzer
Battery folder BT1 For the coin battery (When the coin battery is inserted, do not
supply a power from the CN3 (external power supply
Table 4.4 Pin assignment table for CPU board interface connector (CN1-4)
No.
1 VSS
2 VSS
3 ESEG7 O EPD segment output 23 DSIO I/O DSIO/P32
4 ESEG6 O EPD segment output 24 VSS
5 ESEG5 O EPD segment output 25 P31 I/O P31/EPDCLK
6 ESEG4 O EPD segment output 26 VDD
7 ESEG3 O EPD segment output 27 VDD
8 ESEG2 O EPD segment output 28 P30 I/O P30/FOUTB/#SPISS
9 ESEG1 O EPD segment output 29 P27 I/O P27/SENB1
10 ESEG0 O EPD segment output 30 P26 I/O P26/SENA1
1 1 EBP0 O EPD back plane o u t p ut 31 P25 I/O P25/REF1
12 ETP0 O E PD t o p pl a n e o u t p u t 32 P24 I/O P24/RFIN1
13 VPP
14 VPP
15 NC
16 TEST0 I Input for testing 36 P22 I/O P22/SDAM/REF0
17 #RESET O Initial reset output 37 VSS
18 VSS
19 DCLK I/O DCLK/P34 39 VSS
20 VSS
Terminal
name
I/O Function No.
-
Power supply (-) 21 DST2 I/O DST2/P33
-
Power supply (-) 22 VSS
Flash memory
-
programming power
supply
Flash memory
-
programming power
supply
-
Unconnected 35 VSS
-
Power supply (-) 38 P21 I/O P21/SCLS/SENA0/#BZ
-
Power supply (-) 40 VSS
33 VSS
34 P23 I/O P23/SCLM/RFIN0
Terminal
name
I/O Function
-
Power supply (-)
-
Power supply (-)
-
Power supply (+)
-
Power supply (+)
-
Power supply (-)
-
Power supply (-)
-
Power supply (-)
-
Power supply (-)
-
Power supply (-)
14 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 19
4.1.2 Debug Interface Connectors (CN2-1 to CN2-2)
Table 4.5 Pin assignment table for CPU board debug interface connector (CN2-1)
4. Connectors
1 2 3 4
No. Terminal name I/OFunction
1 DCLK O Clock signal for debugging
2 GND
3 DSIO I/OSerial communication I/O signal for
4 DST2 O Debug status signal
-
Power supply (GND)
debugging
Note: The No.1 pin position of the CN2-1 (J5) connector is shown above. When connecting the ICDminiVer.2
to this board, confirm the direction of the connector carefully.
Table 4.6 Pin assignment table for CPU board interface connector (CN2-2)
4 3 2 1
No. Terminal name I/O Function
1 VPP I
2 GND
3 RESET I Reset signal input for the target
4 VCCIN O Target voltage output
-
Flash memory programming power
supply input
Power supply (GND)
4.1.3 Power Supply Connector (CN3)
T
able 4.7 Pin assignment table for CPU board power supply connector (CN3)
No. Terminal name I/OFunction
1 VDD
2 GND
4.1.4 USB Connector (CN4)
T
able 4.8 Pin assignment table for CPU board USB connector (CN4)
Table 4.9 Pin assignment table for peripheral board power supply connector (CN5)
No. Terminal name I/OFunction
1 VDD
2 GND
3 VPP
4.2.2 General Purpose CPU Interface (CN6)
able 4.10 Pin assignment table for general purpose CPU interface connector (CN6)
T
-
-
-
Power supply (+)
Power supply (GND)
Flash memory programming power
supply input
No.
Terminal
name
1 SDO O
2 SDI I
3 VSS
4 SCL I
5 SCS I
I/O Function No.
SPI interface control data
output
SPI interface control data
output
-
Power supply (-) 8 NC
SPI interface control
clock input
SPI interface control chip
select
6 XRES - Unconnected
7 V
9 NC
10 NC
Terminal
name
DD
I/O Function
-
Power supply (+)
-
Unconnected
-
Unconnected
-
Unconnected
16 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 21
4.2.3 EPD Panel Interface Connector (CN7-1)
Table 4.11 Pin assignment table for EPD interface connector (CN7-1)
4. Connectors
No.
1 CN92 O ETP0(MCU) 47 CN46 O ESEG20(MCU)
2 CN91 O EBP0(MCU) 48 CN45 O ESEG21(MCU)
3 CN90
4 CN89
5 CN88
6 CN87
7 CN86
8 CN85
9 CN84
10 CN83
11 CN82
12 CN81
13 CN80
14 CN79
15 CN78
16 CN77
17 CN76
18 CN75
19 CN74
20 CN73
21 CN72
22 CN71
23 CN70
24 CN69
25 CN68
26 CN67
27 CN66 O ESEG0(MCU) 73 CN20 O ESEG46(MCU)
28 CN65 O ESEG1(MCU) 74 CN19 O ESEG47(MCU)
29 CN64 O ESEG2(MCU) 75 CN18 O ESEG48(MCU)
30 CN63 O ESEG3(MCU) 76 CN17 O ESEG49(MCU)
31 CN62 O ESEG4(MCU) 77 CN16 O ESEG50(MCU)
32 CN61 O ESEG5(MCU) 78 CN15 O ESEG51(MCU)
33 CN60 O ESEG6(MCU) 79 CN14 O ESEG52(MCU)
34 CN59 O ESEG7(MCU) 80 CN13 O ESEG53(MCU)
35 CN58 O ESEG8(MCU) 81 CN12 O ESEG54(MCU)
36 CN57 O ESEG9(MCU) 82 CN11 O ESEG55(MCU)
37 CN56 O ESEG10(MCU) 83 CN10 O ESEG56(MCU)
38 CN55 O ESEG11(MCU) 84 CN9 O ESEG57(MCU)
39 CN54 O ESEG12(MCU) 85 CN8 O ESEG58(MCU)
40 CN53 O ESEG13(MCU) 86 CN7 O ESEG59(MCU)
41 CN52 O ESEG14(MCU) 87 CN6 O ESEG60(MCU)
42 CN51 O ESEG15(MCU) 88 CN5 O ESEG61(MCU)
43 CN50 O ESEG16(MCU) 89 CN4 O ESEG62(MCU)
44 CN49 O ESEG17(MCU) 90 CN3 O ESEG63(MCU)
45 CN48 O ESEG18(MCU) 91 CN2 O EBP1(MCU)
46 CN47 O ESEG19(MCU) 92 CN1 O ETP1(MCU)
Table 4.12 Pin assignment table for EPD interface connector (CN7-2)
No.
1 CN92 47 CN46 O ESEG44(MCU)
2 CN91 48 CN45 O ESEG45(MCU)
3 CN90 O ESEG0(MCU) 49 CN44 O ESEG46(MCU)
4 CN89 O ESEG1(MCU) 50 CN43 O ESEG47(MCU)
5 CN88 O ESEG2(MCU) 51 CN42 O ESEG48(MCU)
6 CN87 O ESEG3(MCU) 52 CN41 O ESEG49(MCU)
7 CN86 O ESEG4(MCU) 53 CN40 O ESEG50(MCU)
8 CN85 O ESEG5(MCU) 54 CN39 O ESEG51(MCU)
9 CN84 O ESEG6(MCU) 55 CN38 O ESEG52(MCU)
10 CN83 O ESEG7(MCU) 56 CN37 O ESEG53(MCU)
11 CN82 O ESEG8(MCU) 57 CN36 O ESEG54(MCU)
12 CN81 O ESEG9(MCU) 58 CN35 O ESEG55(MCU)
13 CN80 O ESEG10(MCU) 59 CN34 O ESEG56(MCU)
14 CN79 O ESEG11(MCU) 60 CN33 O ESEG57(MCU)
15 CN78 O ESEG12(MCU) 61 CN32 O ESEG58(MCU)
16 CN77 O ESEG13(MCU) 62 CN31 O ESEG59(MCU)
17 CN76 O ESEG14(MCU) 63 CN30 O ESEG60(MCU)
18 CN75 O ESEG15(MCU) 64 CN29 O ESEG61(MCU)
19 CN74 O ESEG16(MCU) 65 CN28 O ESEG62(MCU)
20 CN73 O ESEG17(MCU) 66 CN27 O ESEG63(MCU)
21 CN72 O ESEG18(MCU) 67 CN26
22 CN71 O ESEG19(MCU) 68 CN25
23 CN70 O ESEG20(MCU) 69 CN24
24 CN69 O ESEG21(MCU) 70 CN23
25 CN68 O ESEG22(MCU) 71 CN22
26 CN67 O ESEG23(MCU) 72 CN21
27 CN66 O ESEG24(MCU) 73 CN20
28 CN65 O ESEG25(MCU) 74 CN19
29 CN64 O ESEG26(MCU) 75 CN18
30 CN63 O ESEG27(MCU) 76 CN17
31 CN62 O ESEG28(MCU) 77 CN16
32 CN61 O ESEG29(MCU) 78 CN15
33 CN60 O ESEG30(MCU) 79 CN14
34 CN59 O ESEG31(MCU) 80 CN13
35 CN58 O ESEG32(MCU) 81 CN12
36 CN57 O ESEG33(MCU) 82 CN11
37 CN56 O ESEG34(MCU) 83 CN10
38 CN55 O ESEG35(MCU) 84 CN9
39 CN54 O ESEG36(MCU) 85 CN8
40 CN53 O ESEG37(MCU) 86 CN7
41 CN52 O ESEG38(MCU) 87 CN6
42 CN51 O ESEG39(MCU) 88 CN5
43 CN50 O ESEG40(MCU) 89 CN4
44 CN49 O ESEG41(MCU) 90 CN3
45 CN48 O ESEG42(MCU) 91 CN2
46 CN47 O ESEG43(MCU) 92 CN1
Terminal
name
I/OFunction No.
Terminal
name
I/OFunction
18 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 23
4.2.5 EPD Panel Interface Connector Pads (CN8-1 to 3)
Table 4.13 Pin assignment table for EPD interface connector pads (CN8-1 to CN8-3)
4. Connectors
No.
1 CN96 49 CN48 O ESEG18(MCU)
2 CN95 50 CN47 O ESEG19(MCU)
3 CN94 51 CN46 O ESEG20(MCU)
4 CN93 52 CN45 O ESEG21(MCU)
5 CN92 53 CN44 O ESEG22(MCU)
6 CN91 54 CN43 O ESEG23(MCU)
7 CN90 55 CN42 O ESEG24(MCU)
8 CN89 56 CN41 O ESEG25(MCU)
9 CN88 57 CN40 O ESEG26(MCU)
10 CN87 58 CN39 O ESEG27(MCU)
11 CN86 59 CN38 O ESEG28(MCU)
12 CN85 60 CN37 O ESEG29(MCU)
13 CN84 61 CN36 O ESEG30(MCU)
14 CN83 62 CN35 O ESEG31(MCU)
15 CN82 63 CN34 O ESEG32(MCU)
16 CN81 64 CN33 O ESEG33(MCU)
17 CN80 65 CN32 O ESEG34(MCU)
18 CN79 66 CN31 O ESEG35(MCU)
19 CN78 67 CN30 O ESEG36(MCU)
20 CN77 68 CN29 O ESEG37(MCU)
21 CN76 69 CN28 O ESEG38(MCU)
22 CN75 70 CN27 O ESEG39(MCU)
23 CN74 71 CN26 O ESEG40(MCU)
24 CN73 72 CN25 O ESEG41(MCU)
25 CN72 73 CN24 O ESEG42(MCU)
26 CN71 74 CN23 O ESEG43(MCU)
27 CN70 75 CN22 O ESEG44(MCU)
28 CN69 76 CN21 O ESEG45(MCU)
29 CN68 O ETP0(MCU) 77 CN20 O ESEG46(MCU)
30 CN67 O EBP0(MCU) 78 CN19 O ESEG47(MCU)
31 CN66 O ESEG0(MCU) 79 CN18 O ESEG48(MCU)
32 CN65 O ESEG1(MCU) 80 CN17 O ESEG49(MCU)
33 CN64 O ESEG2(MCU) 81 CN16 O ESEG50(MCU)
34 CN63 O ESEG3(MCU) 82 CN15 O ESEG51(MCU)
35 CN62 O ESEG4(MCU) 83 CN14 O ESEG52(MCU)
36 CN61 O ESEG5(MCU) 84 CN13 O ESEG53(MCU)
37 CN60 O ESEG6(MCU) 85 CN12 O ESEG54(MCU)
38 CN59 O ESEG7(MCU) 86 CN11 O ESEG55(MCU)
39 CN58 O ESEG8(MCU) 87 CN10 O ESEG56(MCU)
40 CN57 O ESEG9(MCU) 88 CN9 O ESEG57(MCU)
41 CN56 O ESEG10(MCU) 89 CN8 O ESEG58(MCU)
42 CN55 O ESEG11(MCU) 90 CN7 O ESEG59(MCU)
43 CN54 O ESEG12(MCU) 91 CN6 O ESEG60(MCU)
44 CN53 O ESEG13(MCU) 92 CN5 O ESEG61(MCU)
45 CN52 O ESEG14(MCU) 93 CN4 O ESEG62(MCU)
46 CN51 O ESEG15(MCU) 94 CN3 O ESEG63(MCU)
47 CN50 O ESEG16(MCU) 95 CN2 O EBP1(MCU)
48 CN49 O ESEG17(MCU) 96 CN1 O ETP1(MCU)
1 NC
2 NC
3 NC
4 NC
5 CN96 55 CN46 O ESEG20(MCU)
6 CN95 56 CN45 O ESEG21(MCU)
7 CN94 57 CN44 O ESEG22(MCU)
8 CN93 58 CN43 O ESEG23(MCU)
9 CN92 59 CN42 O ESEG24(MCU)
10 CN91 60 CN41 O ESEG25(MCU)
11 CN90 61 CN40 O ESEG26(MCU)
12 CN89 62 CN39 O ESEG27(MCU)
13 CN88 63 CN38 O ESEG28(MCU)
14 CN87 64 CN37 O ESEG29(MCU)
15 CN86 65 CN36 O ESEG30(MCU)
16 CN85 66 CN35 O ESEG31(MCU)
17 CN84 67 CN34 O ESEG32(MCU)
18 CN83 68 CN33 O ESEG33(MCU)
19 CN82 69 CN32 O ESEG34(MCU)
20 CN81 70 CN31 O ESEG35(MCU)
21 CN80 71 CN30 O ESEG36(MCU)
22 CN79 72 CN29 O ESEG37(MCU)
23 CN78 73 CN28 O ESEG38(MCU)
24 CN77 74 CN27 O ESEG39(MCU)
25 CN76 75 CN26 O ESEG40(MCU)
26 CN75 76 CN25 O ESEG41(MCU)
27 CN74 77 CN24 O ESEG42(MCU)
28 CN73 78 CN23 O ESEG43(MCU)
29 CN72 79 CN22 O ESEG44(MCU)
30 CN71 80 CN21 O ESEG45(MCU)
31 CN70 81 CN20 O ESEG46(MCU)
32 CN69 82 CN19 O ESEG47(MCU)
33 CN68 O ETP0(MCU) 83 CN18 O ESEG48(MCU)
34 CN67 O EBP0(MCU) 84 CN17 O ESEG49(MCU)
35 CN66 O ESEG0(MCU) 85 CN16 O ESEG50(MCU)
36 CN65 O ESEG1(MCU) 86 CN15 O ESEG51(MCU)
37 CN64 O ESEG2(MCU) 87 CN14 O ESEG52(MCU)
38 CN63 O ESEG3(MCU) 88 CN13 O ESEG53(MCU)
39 CN62 O ESEG4(MCU) 89 CN12 O ESEG54(MCU)
40 CN61 O ESEG5(MCU) 90 CN11 O ESEG55(MCU)
41 CN60 O ESEG6(MCU) 91 CN10 O ESEG56(MCU)
42 CN59 O ESEG7(MCU) 92 CN9 O ESEG57(MCU)
43 CN58 O ESEG8(MCU) 93 CN8 O ESEG58(MCU)
44 CN57 O ESEG9(MCU) 94 CN7 O ESEG59(MCU)
45 CN56 O ESEG10(MCU) 95 CN6 O ESEG60(MCU)
46 CN55 O ESEG11(MCU) 96 CN5 O ESEG61(MCU)
47 CN54 O ESEG12(MCU) 97 CN4 O ESEG62(MCU)
48 CN53 O ESEG13(MCU) 98 CN3 O ESEG63(MCU)
49 CN52 O ESEG14(MCU) 99 CN2 O EBP1(MCU)
50 CN51 O ESEG15(MCU) 100 CN1 O ETP1(MCU)
1 CN96 49 CN48 O ESEG18(MCU)
2 CN95 50 CN47 O ESEG19(MCU)
3 CN94 51 CN46 O ESEG20(MCU)
4 CN93 52 CN45 O ESEG21(MCU)
5 CN92 53 CN44 O ESEG22(MCU)
6 CN91 54 CN43 O ESEG23(MCU)
7 CN90 55 CN42 O ESEG24(MCU)
8 CN89 56 CN41 O ESEG25(MCU)
9 CN88 57 CN40 O ESEG26(MCU)
10 CN87 58 CN39 O ESEG27(MCU)
11 CN86 59 CN38 O ESEG28(MCU)
12 CN85 60 CN37 O ESEG29(MCU)
13 CN84 61 CN36 O ESEG30(MCU)
14 CN83 62 CN35 O ESEG31(MCU)
15 CN82 63 CN34 O ESEG32(MCU)
16 CN81 64 CN33 O ESEG33(MCU)
17 CN80 65 CN32 O ESEG34(MCU)
18 CN79 66 CN31 O ESEG35(MCU)
19 CN78 67 CN30 O ESEG36(MCU)
20 CN77 68 CN29 O ESEG37(MCU)
21 CN76 69 CN28 O ESEG38(MCU)
22 CN75 70 CN27 O ESEG39(MCU)
23 CN74 71 CN26 O ESEG40(MCU)
24 CN73 72 CN25 O ESEG41(MCU)
25 CN72 73 CN24 O ESEG42(MCU)
26 CN71 74 CN23 O ESEG43(MCU)
27 CN70 75 CN22 O ESEG44(MCU)
28 CN69 76 CN21 O ESEG45(MCU)
29 CN68 O ETP0(MCU) 77 CN20 O ESEG46(MCU)
30 CN67 O EBP0(MCU) 78 CN19 O ESEG47(MCU)
31 CN66 O ESEG0(MCU) 79 CN18 O ESEG48(MCU)
32 CN65 O ESEG1(MCU) 80 CN17 O ESEG49(MCU)
33 CN64 O ESEG2(MCU) 81 CN16 O ESEG50(MCU)
34 CN63 O ESEG3(MCU) 82 CN15 O ESEG51(MCU)
35 CN62 O ESEG4(MCU) 83 CN14 O ESEG52(MCU)
36 CN61 O ESEG5(MCU) 84 CN13 O ESEG53(MCU)
37 CN60 O ESEG6(MCU) 85 CN12 O ESEG54(MCU)
38 CN59 O ESEG7(MCU) 86 CN11 O ESEG55(MCU)
39 CN58 O ESEG8(MCU) 87 CN10 O ESEG56(MCU)
40 CN57 O ESEG9(MCU) 88 CN9 O ESEG57(MCU)
41 CN56 O ESEG10(MCU) 89 CN8 O ESEG58(MCU)
42 CN55 O ESEG11(MCU) 90 CN7 O ESEG59(MCU)
43 CN54 O ESEG12(MCU) 91 CN6 O ESEG60(MCU)
44 CN53 O ESEG13(MCU) 92 CN5 O ESEG61(MCU)
45 CN52 O ESEG14(MCU) 93 CN4 O ESEG62(MCU)
46 CN51 O ESEG15(MCU) 94 CN3 O ESEG63(MCU)
47 CN50 O ESEG16(MCU) 95 CN2 O EBP1(MCU)
48 CN49 O ESEG17(MCU) 96 CN1 O ETP1(MCU)
Table 4.16 Pin assignment table for EPD module interface connector pad (CN10)
No.
1 SDI I
2 SDO O
3 VSS
4 SCL O
5 SCS O
6 MFDI I
7 MFDO O
Terminal
name
I/O Function No.
-
Terminal
name
SPI interface control
data input
SPI interface control
data output
Power supply (-) 10 MFS O
SPI interface control
serial clock output
SPI interface control
chip select output
Flash memory serial
control data input
Flash memory serial
control data output
8 V
9 MFC O
11 OS O
12 XRES O
13 V
14 VPP
SS
DD
I/O Function
-
-
-
Power supply (-)
Flash memory serial
control clock output
Flash memory serial
control chip select
output
Flash memory serial
control clock output
Initialization control
output
Power supply (+)
Flash memory
programming power
supply
22 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 27
5. Sample Software Manipulation
5. Sample Software Manipulation
The S5U1C17F57T is shipped with the demonstration software that is programmed to the S1C17F57 mounted in
this board. The manipulation method is described here.
By manipulating the demonstration software, various functions such as temperature measurement, timer, switch
input, EPD display and current consumption measurement are confirmed. Refer to the source codes for the
detailed explanations of the demonstration software. For the demonstra tio n softw are development environment,
refer to the “S5U1C17001C Manual”. And for the details of the S1C17F57 peripheral circuits, refer to the
“S1C17F57 Technical Manual”.
5.1 Jumper Switch Settings
Set the jumper switches according to Table 1.1 “Jumper setting list in each mode”. For the jumper switches with
arbitrary setting, use the factory default settings, referring Table 2.2.1 “Jumper function list for CPU board” and
Table 2.2.2 “Jumper function list for peripheral board”.
5.2 Basic Function Manipulation Method
5.2.1 Function Overview
The basic functions are shown below.
Table 5.1 Basic functions of demonstration software
Function Explanation
EPD display method selectionSelects the EPD display method.
RTC demonstration (clock) Displays the clock on the EPD.
RTC demonstration
(date: month, day)
RTC demonstration
(date: year)
Temperature m easurement
Demonstration
Current consumption
demonstration
Displays the date (month, day) on the EPD.
Displays the date (year) on the EPD.
Measures the temperature and displays the result on the EPD.
Sets various conditions for the S1C17F57 to measure the current consumption
under the conditions easily.
5.2.2 Software Startup
tart the S5U1C17F57T1. If the S5U1C17F57T1 operates stand-alone using the coin battery, it becomes the
S
waiting state for the EPD display method selection by turning ON the battery power supply switch (SW2) on the
peripheral board.
This demonstration software has the function to select the EPD display method. When the switch of SW3 or SW4
is pressed during the waiting state for the EPD display method selection described in the above 5.2.2, the EPD
display method is selected and the EPD display is initialized (repeating black → white → black → white). After
that the RTC demonstration (clock display) starts.
When the SW3 is pressed: The display is changed after displaying the whole area black → white.
When the SW4 is pressed: The display is changed without displaying black → white.
5.2.4 RTC Demonstration
oftware runs the RTC that is built in the S1C17F57 and displays the results.
The s
Immediately after the EPD display waveform selection, the RTC starts to display [time: minute, second, (mark of
the sun)]. When the SW3 is pressed while the RTC is displaying [time: minute, second, (mark of the sun)], the
display changes to [month, day]. When the SW3 is pressed while the RTC is displaying [month, day], the display
changes to [year]. Moreover, when the SW3 is pressed while the RTC is displaying [year], the display returns to
[time: minute, second, (mark of the sun)].
Table 5.2 RTC demonstration contents
Item Content
RTC demonstration (clock) Executes the RTC and displays [time: minute, second, (mark of the
oftware uses the temperature measurement function built in the S1C17F57 and displays the result.
When the SW4 is pressed while the RTC demonstration software is running, the temperature is displayed. When
the SW3 is pressed while the temperature measurement, [time: minute, second, (mark of the sun)] is displayed.
Figure 5.2 Display example of temperature measurement
24 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 29
5. Sample Software Manipulation
5.2.6 Current Consumption Measurement Demonstration
The software can set the S1C17F57 in each mode to measure the current consumed by the S1C17F57.
The S1C17F57 is set in each mode by turning on the power soppy while holding down each switch, as shown in
the following table.
When measuring the current, insert an ammeter between both sides of the jumper switch (JP2) on the CPU board.
Table 5.3 Setting list for current consumption measurement mode
Setting method
Press the reset key
while holding down the
SW3.
Press the reset key
while holding down the
SW4.
Press the reset key
while holding down the
SW3 and SW4.
Press the reset key
while holding down the
SW5.
Press the reset key
while holding down the
SW3 and SW5.
Press the reset key
while holding down the
SW4 and SW5.
Press the reset key
while holding down the
SW3, SW4 and SW5.
Press the reset key
while holding down the
SW6.
Press the reset key
while holding down the
SW3 and SW6.
Press the reset key
while holding down the
SW4 and SW6.
Press the reset key
while holding down the
SW3, SW4 and SW6.
Press the reset key
while holding down the
SW5 and SW6.
Press the reset key
while holding down the
SW3, SW5 and SW6.
No. Location Name Model number SpecificationsQty Manufacturer
15 J10 Connector
CN11
(CN-EXT_TH)
16 J11 Connector
CN8-3
(CN-EXT_S05)
17 J12 Connector
CN10
(CN-COF_S05)
18 J13 Connector
CN6
(CN-EXT_MCU)
19 J14 Connector
CN5
20 Q1 Transistor SSM3K02F TO-236MOD,
21 R1 Resistor RK73H2ATTD4703F 470kΩ,
22 R2, R5, R6 Resistor RK73H2ATTD1003F 100kΩ,
23 R3 Resistor RK73H2ATTD1001F 1kΩ, 2125 1 KOA
24 R4 Resistor RK73Z2AT 0Ω, 2125 1 KOA
25 SW1,SW3,
SW4,SW5,SW6
26 SW2 Slide switch 09 10290 01 1pole-
27 TP1 VDD_BAT PAT only
28 TP2 VDD_PER PAT only
29 TP3 GND_BAT PAT only
30 TP4 VPP_PER PAT only
31 U1 IC No mount TQFP12-64 0
32 U2 IC SN74LVC1G08DCK SOT
33 TP5 Checkpin LC-22-G-RED Red,
Tact switch SKRAAKE010 Surface
PAT only
PAT only
PAT only
7610-5002-PL 10pin,
S3B-XH-A(LF)(SN) 3pin 1 J.S.T. Mfg.
-
0
-
0
-
0
2.54mm
SC-59,
2-3F1F
2125
2125
mount
2position
-
0
-
0
-
0
-
0
(SC-70)-DCK
φ1.0mm
-
-
-
1 3M Limited
Co.,Ltd.
1 TOSHIBA
CORPORA TION
1 KOA
Corporation
3 KOA
Corporation
Corporation
Corporation
5 ALPS
ELECTRIC
CO., LTD.
1 EAO
-
-
-
-
1 Texas
Instruments
1 Mac-Eight
Co.,Ltd.
*1: The components and accessories are subject to change without notice.
38 Seiko Epson Corporation S5U1C17F57T Manual
(Rev.1.1)
Page 43
Appendix B Circuit Diagram and Component List
S5U1C17F57T1100 component list (mounted component and accessory)
No. Location Name Model number SpecificationsQty Manufacturer