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Renesas Electronics Corp. without notice. Please review the latest information published by
Renesas Electronics Corp. through various means, including the Renesas Electronics Corp.
website (http://www.renesas.com).
Renesas Synergy
Starter Kit SK-S7G2
User’s Manual
Rev.1.00 Oct. 2015
Synergy S7G2 MCU
Users Manual
www.renesas.com
Notice
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(2012.4)
Table of Contents
1. Overview ............................................................................................................................................ 1
1.1 Features ..................................................................................................................................................................... 1
1.2 In the box .................................................................................................................................................................. 1
1.3 Block diagram ........................................................................................................................................................... 2
1.4 Hardware features ..................................................................................................................................................... 2
1.5 Resources .................................................................................................................................................................. 2
2. Getting Started ................................................................................................................................... 3
3. Power Supply Requirements .............................................................................................................. 4
3.1 Power supply ............................................................................................................................................................. 4
3.2 Power-up behavior .................................................................................................................................................... 4
3.3 Microcontroller current ............................................................................................................................................. 4
4. Board Components ............................................................................................................................. 6
4.1 J-Link On-Board debugger ........................................................................................................................................ 6
4.2 LCD .......................................................................................................................................................................... 6
4.3 Ethernet ..................................................................................................................................................................... 7
4.4 Pmod Compatible interfaces ..................................................................................................................................... 7
4.5 CAN, RS-232/485 ..................................................................................................................................................... 8
4.6 USB Device port ....................................................................................................................................................... 9
4.7 USB Host port ........................................................................................................................................................... 9
4.8 Capacitive touch interface ......................................................................................................................................... 9
4.9 Audio ...................................................................................................................................................................... 10
4.10 User buttons and LEDs ........................................................................................................................................... 10
4.11 QSPI flash ............................................................................................................................................................... 10
4.12 Arduino Shield interface ......................................................................................................................................... 11
4.13 Breakout headers ..................................................................................................................................................... 11
5. Board Layout ................................................................................................................................... 13
6. Configuration ................................................................................................................................... 14
6.1 RS-232 transceiver configuration ........................................................................................................................... 14
7. Connectivity .................................................................................................................................... 15
7.1 USB Host port ......................................................................................................................................................... 15
7.2 USB Device port ..................................................................................................................................................... 15
7.3 Ethernet ................................................................................................................................................................... 15
7.4 LCD ........................................................................................................................................................................ 16
7.5 Pmod Compatible ports ........................................................................................................................................... 17
7.6 JTAG/SWD ............................................................................................................................................................. 18
7.7 UART & CAN ........................................................................................................................................................ 18
8. Pin Connections ............................................................................................................................... 20
R12UM0004EU0100 Rev.1.00 Page 1 of 22
October 8, 2015
1. Overview
1.1 Features
The SK-S7G2 is a single-board starter kit for the Renesas Synergy S7G2 microcontroller in a 176-pin LQFP package.
The board provides easy-to-access interfaces to the peripherals of the S7G2 microcontroller for application development.
The SK-S7G2 includes four header connectors for direct access to the S7G2 microcontroller I/O pins. Additionally, the
board includes connectors for USB, Ethernet, RS-232/485, CAN, and JTAG J-Link interfaces.
The SK-S7G2 includes a 2.4-in. QVGA (240 x 320) TFT display with capacitive touch screen.
As a starter kit, the SK-S7G2 is designed to demonstrate the main features of the Synergy P latfor m using the S7G2
device. It is an i nitial evaluation platfo rm that you can us e to determine which development kit is appropriate for further
deve lopment of your product.
Figure 1: SK-S7G2
1.2 In the box
The following c ompo nents are included in the SK-S7G2:
SK-S7G2 board
3-foot USB Type-A to Micro-B cable for debugger and power connection
Quick Start G uid e
SK-S7G2 1. Overview
R12UM0004EU0100 Rev.1.00 Page 2 of 22
October 8, 2015
1.3 Block diagram
Figure 2: SK-S7G2 block diagram
1.4 Hardware features
The SK-S7G2 contains the following hardware:
S7G2 microprocessor with 176 LQFP package
Four connectors that provide access to all S7G2 microprocessor signals
Low cost QVGA TFT touch screen
Three user LEDs
Arduino Shield Uno compatible socket
Two mechanical switches connected directly to microprocessor interrupt pins
Two capacitive touch-buttons connected to pins that can generate interrupts
One capacitive slider
Audio output
QSPI memory (8 MB)
SPI, IIC, CAN, and SCI interface
1.5 Resources
The following documents are related to S7G2 and SK-S7G2 hardware:
SK-S7G2 Quick Start Guide
SK-S7G2 Board Schematics
S7G2 User’s Manual: Hardware
S7G2 Data sheet
SK-S7G2 2. Getting Started
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2. Getting Started
To start wor king with the SK-S7G2, see the Quick Start Guide included in the kit.
SK-S7G2 3. Power Supply Requirements
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October 8, 2015
3. Power Supply Requirements
3.1 Power supply
Power is supplied to the SK-S7G2 through the debug USB connector (J19). The SK-S7G2 requires 5V applied on this
interface (USB standard). Once power is supplied, the power supply indicator LED4 will light green.
3.2 Power-up behavior
When power is applied to the SK-S7G2, the power-on reset (P OR) monito r of the S7G2 micr ocontroller resets the S7G2.
The memory from which the S7G2 microcontroller starts program execution after reset dep ends on jumper J1. If J1 is in
position 1-2 ( default), the S7 G2 starts execution from internal flash (ROM). If J1 is in positio n 2 -3, the S7G2 starts
execution in USB p rogram mode, which enables you to load a pro gra m directly to the internal microcontroller flash
through the USB device interface.
Figure 3: CPU startup mode
The microcontroller can be forced to reset by the J2 jumper even while the S K-S7G2 is powered.
Figure 4: CPU reset control
3.3 Microcontroller current
Power consumption of the S7G2 microcontroller can be measured for the digital power supply of the microcontroller by
removing the J31 j umper and measur i ng the c urrent draw across it .
SK-S7G2 3. Power Supply Requirements
R12UM0004EU0100 Rev.1.00 Page 5 of 22
October 8, 2015
Figure 5: Mea sur ing digital curr e nt consumption on S7G2 microcontroller
Power consumption for the analog supply of the S7G2 microcontroller requires removing resistor R114 and measuring
current across it.
Figure 6: Measuring analog current consumption on S7G2 microcontroller
SK-S7G2 4. Board Components
R12UM0004EU0100 Rev.1.00 Page 6 of 22
October 8, 2015
4. Board Components
4.1 J-Link On-Board debugger
The SK-S7G2 features a SEGGER J-Link On-Board debugger, accessible through the J19 USB connector. Alternatively,
the onboard debugger can be bypassed by removing resistors R107, R108, R109, and R110. Once removed, JTAG/SWD
debugging can the n be done through the J18 header.
Figure 7: On/off-board JTAG debugging
4.2 LCD
The SK-S7G2 contains a 2.4-in. LCD panel with touch screen interface. The LCD is connected directly to the LCD
interface of the S7G2 microcontroller. The LCD panel is a HaoRan HT024K5QV50T, which uses an Ilitek ILI9341V
driver IC. The mode of operation of the Ilitek driver is selected with R19, R20, R22, R23, R26, R27, R28 and R29; the
default mode of operation is the 4-wire, 8-bit ser ia l interface.
SK-S7G2 4. Board Components
R12UM0004EU0100 Rev.1.00 Page 7 of 22
October 8, 2015
Figure 8: LCD interface mode selection
Touch-screen sensing is through a Semtech SX8656 resistive touch-screen controller, connected to the S7G2
microcontroller through an IIC bus.
Figure 9: Touch-screen controller
4.3 Ethernet
The SK-S7G2 includes a Micrel KSZ8081 1 0 /100 Ethernet physical interface. Ethernet connection is through the RJ -45
standard connector J11.
4.4 Pmod Compatible interfaces
The SK-S7G2 includes two standard Pmod™ Compatible interfaces. PMODA, available on the J12 connector, exposes
an SPI interface, three GPIO lines, and an interrupt line to the S7G2 microcontroller.
Figure 10: PMODA interface
SK-S7G2 4. Board Components
R12UM0004EU0100 Rev.1.00 Page 8 of 22
October 8, 2015
PMODB, available on the J14 connector, exposes a UART, three GPIO lines, and an interrupt line to the S 7G2
microcontroller.
Figure 11: PMODB interface
Both PMOD interfaces can output either 5V or 3.3V, depending on the position of the J13 and J15 jumpers.
4.5 CAN, RS-232/485
The SK-S7G2 includes a UART interface (either RS-232 or RS-485) and a CAN interface. The CAN interface is exposed
on connector J7, while the UART interface is available on connector J7 in RS-232 format (jumper J9 has to be in
positions 1-3 and 2-4), or in raw TTL format in connector J10 (jumper J9 has to be in positions 3-5 and 4-6 to be
connected to an external RS-485 converter).
Figure 12: RS-232/485 and CAN interfaces
SK-S7G2 4. Board Components
R12UM0004EU0100 Rev.1.00 Page 9 of 22
October 8, 2015
4.6 USB Device port
The SK-S7G2 is equipped with a USB Full-Speed (12-Mbps) Device port on J5. The SK-S7G2 cannot be powered
through this interface (power still needs to be applied through the USB device port J19), but connection to t his port can
be detected since the power pin of this port is connected to a microcontroller GPIO.
Figure 13: USB Device port
4.7 USB Host port
The SK-S7G2 is equipped with a USB High-Speed (480-Mbps) Host port on J6. This host port can source current to
devices connected to it, and over-consumption conditions on devices can be detected.
Figure 14: USB Host port
4.8 Capacitive touch interface
The SK-S7G2 kit contains two capacitive buttons (S1 and S3) and one slider (S2) connected to the capacitive touch-
sensing unit ( CTSU) of the S7G2 microcontroller.
Figure 15: Capacit i ve touch buttons and slider
SK-S7G2 4. Board Components
R12UM0004EU0100 Rev.1.00 Page 10 of 22
October 8, 2015
4.9 Audio
The SK-S7G2 contains an amplified mono audio output on a standard 3.5mm audio jack J16. The audio is generated with
the S7G2 D/A converter on output DA0, and the amplification gain can be changed by modifying resistor pairs R70/R71
and R73/R72.
Figure 16: Audio output
4.10 User buttons and LEDs
The SK-S7G2 includes t wo user buttons directly wired to interrupt pins of the S7G 2 microcontro lle r , as well as three
generic user LEDs connected to microcontroller GPIO pins.
Figure 17: User butto ns and LEDs
4.11 QSPI flash
The SK-S7G2 includes one 64Mb (8MB) QSPI flash connected to the QSPI interface of the microcontroller.
SK-S7G2 4. Board Components
R12UM0004EU0100 Rev.1.00 Page 11 of 22
October 8, 2015
Figure 18: QSPI flash
4.12 Arduino Shield interface
The SK-S7G2 includes one Arduino Shield compatible interface, so that Arduino Shield boards can expand the SK-S7G2
functionali ty. T he Arduino Shield interface is implemented with the J24, J25, J26, and J27 connectors.
Figure 19: Arduino Shield interface
4.13 Breakout headers
All of the S7G2 microcontroller I/O pins are accessible through four double row 2.54-mm (0.1-in.) pitch breako ut
headers (J20 thr ough J23).
SK-S7G2 4. Board Components
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October 8, 2015
Figure 20: S7G2 microcontroller breakout headers
SK-S7G2 5. Board Layout
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5. Board Layout
The SK-S7G2 board measures 145mm x 120mm. Figure 21 shows the locatio n of all the relevant board components
describe d in the prior section.
Figure 21: SK-S7G2 compone nt placement
SK-S7G2 6. Configuration
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October 8, 2015
6. Configuration
The SK-S7G2 kit has several configuration options set by jumpers. Table 1 lists the different jumpers and their positio ns.
Table 1: SK-S7G2 configuration jumpers
Jumper
Function
J1
S7G2 boot selection. If J1 is in position 1-2 (default), the MCU boots in nor mal mod e (from
its ROM). If J1 is set on the 2-3 position, the MCU boots in USB programming mode,
which allows programming the MCU flash through the USB port.
J2 S7G2 MCU reset. If J2 is set, MCU is reset. If J2 is open, MCU reset is released.
J8
RS-232 transmit ready/RS-485 receive enable selector jumper. If J8 is in position 1-2
(default), the RS-232 driver’s transmit ready signal (which indicates that the transmit
voltages are appropriate) is connected to an MCU GPIO signal. If J8 is in position 2-3, the
(external) RS-485 driver’s receive enable is connected to the same MCU GPIO signal.
J9 RS-232/485 mode selection jumper. If J9 is in position 1-3 & 2-4 (default), the MCU’s SCI3
port is connected to the RS-232 driver (which is exposed on the J7 port). If J9 is in the 3 -5
& 4-6 position, the MCU’s SCI3 port is connected to the RS-485 port (J10) for an off-board
driver.
J13
PMODA 3.3V/5V output selection. If J13 is set on the position labeled “5V”, then 5V are
provided in the PMODA connector. If J13 is set on the “3V3” labeled position, then 3.3V
are provided in the PMODA interface.
J15 PMODB 3.3V/5V output selection. If J15 is set on the position labeled “5V”, then 5V are
provided in the PMODB connector. If J15 is set on the “3V3” labeled position, then 3.3V
are provided in the PMODB interface.
J31
Power measurement jumper for S7G2. If J31 is installed, (digital) MCU current goes
through the jumper. If J31 is removed, the (digital) MCU current consumption will go
through an ammeter connected across pins 1 and 2 of J31.
6.1 RS-232 transceiver configuration
The SK-S7G2 exposes the S7G2 MCU’s SCI (Serial Communication Interface) port 3 through three different electrical
interfaces: RS-232, (external) RS-485, and the MCU breakout headers. Table 2 summarizes the configuration alter natives
for this port.
Table 2: Configuration options for RS-232/485 port
Option
J8
J9
RS-232 on J7
1-2
1-3 & 2-4
RS-485 on J10 (external converter) 2-3 3-5 & 4-6
TTL interface on MCU breakout headers J20-J23
removed
removed
SK-S7G2 7. Connectivity
R12UM0004EU0100 Rev.1.00 Page 15 of 22
October 8, 2015
7. Connectivity
The following sections describe in detail the interfaces available on the SK-S7G2, detailing the MCU resources utilized
in each.
7.1 USB Host port
The SK-S7G2 includes one USB Host/High-Speed port (J6). This port supplies current to devices connected to it through
a current limited power switch (U14). The power output can be monitored through an S7G2 microcontroller G PIO pin
and enabled through another GPIO pin. Table 3 shows the S7G2 functions used for the USB Host port.
Table 3: USB host por t functions
S7G2 Pin
Function name
USBHS_DM
USBHS_N
USBHS_DP USBHS_P
PB01 USBHS_VBUS (monitor)
PB00 USBH_VBUSEN
P308
FAULT (monitor)
7.2 USB Device port
The SK-S7G2 includes one USB Device/Full-Speed port (J5). Detection of USB connection can be done by monitoring
the status of the power pin of the USB device connector through its connection to a GPIO pin on the S7G2
microcontroller. Table 4 shows the S7G2 functions used for the USB device port.
Note: Only connect a host to this device port when the board is powered.
Table 4: USB device port functions
S7G2 Pin
Function name
USB_DM
USBF_N
UDB_DP USBF_P
P407
USB_VBUS (monitor)
7.3 Ethernet
The SK-S7G2 includes an RJ45 Ethernet connector to the on-board Ethernet PHY. Table 5 shows the pins of the S7G2
microcontroller used on the SK-S7G2 when connected as a RMII interface to the PHY. I n ad dition, interrupt IRQ14 is
connected to the Ethernet PHY.
The Ethernet PHY is clocked by its own oscillator based on a 25.000 MHz crystal (X5).
Since the Ethernet connector (J11) is connected to the S7G2 microcontroller through other components, only the
functions us ed by t he Ethernet module on the S7G2 are shown in Table 5.
SK-S7G2 7. Connectivity
R12UM0004EU0100 Rev.1.00 Page 16 of 22
October 8, 2015
Table 5: Ethernet functions
S7G2 Pin
Function name
P010
ETH_IRQ14#
P806 ETH_RESET#
P403 ETH_MDC
P404 ETH_MDIO
P705
ETH_CRS_DV
P405 ETH_TXD_EN
P700
ETH_TDX0
P406 ETH_TXD1
P702
ETH_RXD0
P703 ETH_RXD1
P704
ETH_RX_ER
P701 ETH (Reference Clock)
7.4 LCD
The SK-S7G2 includes a 240x320 QVGA LCD panel with touch-screen interface. This display is connected directly to
the S7G2’s display port, and through a touchscreen contro ller IC to the display’s touch-screen interface. Table 6 and
Table 7 list the functions used by the LCD display and touch-screen controller on the S7G2.
SK-S7G2 7. Connectivity
R12UM0004EU0100 Rev.1.00 Page 17 of 22
October 8, 2015
Table 6: LCD functions (J3)
S7G2 Pin
Function name
P610
LCD_RESET
P314 LCD_VSYNC
P313 LCD_HSYNC
P900 LCD_CLK_B
P315
LCD_Data_Enable
P901 LCD_D15
P908
LCD_D14
P907 LCD_D13
P906
LCD_D12
P905 LCD_D11
P615
LCD_D10
PA08 LCD_D9
PA09
LCD_D8
PA10 LCD_D7
PA01
LCD_D6
PA00 LCD_D5
P607
LCD_D4
P606 LCD_D3
P802
LCD_D2
P803 LCD_D1
P804 LCD_D0
P103 LCD_CS
P102
LCD_SCK
P115 LCD_WR
P114
LCD_RD
P101 LCD_MOSI
P100
LCD_MISO
Table 7: LCD touchscreen functions
S7G2 Pin
Function name
P609
RESET#
P004 IRQ9#
P512
SCL2
P511 SDA2
7.5 Pmod Compatible ports
The SK-S7G2 includes two Pmod Compatible ports, PMODA (J12), and PMODB (J14). Both can output either 3.3-V or
5-V supply, configurable by jumpers. Table 8 and Table 9 show the S7G2 functions used for these ports.
SK-S7G2 7. Connectivity
R12UM0004EU0100 Rev.1.00 Page 18 of 22
October 8, 2015
Table 8: PMODA port functions
S7G2 Pin
Function name
P103
SSLA0_A
P101 MOSIA_A
P100 MISOA_A
P102 RSPCK_A
P111
IRQ4#
P310 GPIO (PMOD pin 4)
P311
GPIO (P MOD pin 6)
P312 GPIO (PMOD pin 8)
Table 9: PMODB port funct i ons
S7G2 Pin Function name
P413 CTS0_B
P411
TXD0_B
P410 RXD0_B
P412
SCK0_B
P400 IRQ0#
P603
GPIO (P MOD pin 4)
P604 GPIO (PMOD pin 6)
P605
GPIO (P MOD pin 8)
7.6 JTAG/SWD
The SK-S7G2 provides several alternatives for JTAG emulation/debugging. An onboard SEGGER J-Link JTAG
debugger is accessible through the debugging/power USB port (J19). There is also direct access to the S7G2
microcontroller JTAG/SWD port through connector J18. To enable the direct access connector, the resistors that connect
the onboard J-Link debugger with the MCU (R107, R108, R109, and R110) must be removed. Table 10 shows the S7G2
functions connected to the direct access JTAG/SWD connector.
Table 10: JTAG/SWD functions
S7G2 Pin
Function name
P108 TMS/SWDIO
P300 TCK/SWCLK
P109
TDO/SDDO
P110 TDI
RESET
RESET
7.7 UART & CAN
The SK-S7G2 exposes one MCU UART as an external connection, as well as a CAN interface (J7 and J10). The UART
interface can be configured to op erate in RS-232 mode or in RS-485 (with an external driver IC) depending on the
position of jumpers J8 and J9. Table 11 and Table 12 show the S7G2 functions connected to these interfaces.
SK-S7G2 7. Connectivity
R12UM0004EU0100 Rev.1.00 Page 19 of 22
October 8, 2015
Table 11: UART interface functions
S7G2 Pin
Function name
P706
UART_RXD
P707 UART_TXD
P801 INVALID
P800 READY (RS-232) or RE (RS-485)
Table 12: CAN interface functions
S7G2 Pin Function name
P401 CAN_TX
P402 CAN_RX
SK-S7G2 8. Pin Connections
R12UM0004EU0100 Rev.1.00 Page 20 of 22
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8. Pin Connections
Table 13 shows the connection of S7G2 pins to SK-S7G2 functions.
Table 13: Pin conne ctions
S7G2 Pin
Peripheral
Signal
SK-S7G2 connector
P000
Arduino Shield
AN000
J26 (1)
P001 Arduino Shield AN001 J26 (2)
P002
Arduino Shield
AN002
J26 (3)
P004 LCD (Touchscreen) IRQ9# n/a
P005
User Button
IRQ10#
S5
P006 User Button IRQ11# S4
P007
Arduino Shield
n/a
J24 (1)
P008 Arduino Shield AN003 J26 (4)
P009
Arduino Shield
AN004
J26 (5)
P010 Ethernet ETH_IRQ14# n/a
P014
Audio
DA0
n/a
P015 Arduino Shield AN005 J26 (6)
P100
LCD / PMODA
LCD_MISO / MISOA_A
J3 (18) / J12 (5)
P101 LCD / PMODA LCD_MOSI / MOSIA_A J3 (17) / J12 (3)
P102 LCD / PMODA LCD_SCK / RSPCK_A J3 (14) / J12 (7)
P103 LCD / PMODA LCD_CS / SSLA0_A J3 (13) / J12 (1)
P104
Arduino Shield
n/a
J24 (4)
P105 Arduino Shield n/a J24 (5)
P106
Arduino Shield
n/a
J24 (6)
P108 JTAG TMS/SWDIO J18 (2)
P109
JTAG
TDO/SDDO
J18 (6)
P110 JTAG TDI J18 (8)
P111
PMODA
IRQ4#
J12 (2)
P112 Arduino Shield n/a J27 (5)
P113
Bluetooth
BLE_PWR_EN
n/a
P202 Arduino Shield n/a J27 (3)
P204
Cap Touch
n/a
S1
P205 Cap Touch n/a S3
P206
Cap Touch
TSCAP_A
n/a
P207 Cap Touch n/a S2 (5)
P300
JTAG
TCK/SWCLK
J18 (4)
P301 Bluetooth / Arduino Shield RXD2 / RXD2 n/a / J27 (2)
P302 Bluetooth / Arduino Shield TXD2 / TXD2 n/a / J27 (1)
P303 Arduino Shield n/a J27 (4)
P304
Bluetooth
RXD6_A
n/a
P305 Bluetooth TXD6_A n/a
P306
Bluetooth
SCK6_A
n/a
P308 USB Host FAULT n/a
P309
Bluetooth
BLE_RESET
n/a
SK-S7G2 8. Pin Connections
R12UM0004EU0100 Rev.1.00 Page 21 of 22
October 8, 2015
S7G2 Pin Peripheral Signal SK-S7G2 connector
P310
PMODA
n/a
J12 (4)
P311 PMODA n/a J12 (6)
P312
PMODA
n/a
J12 (8)
P313 LCD LCD_HSYNC J3 (40)
P314
LCD
LCD_VSYNC
J3 (41)
P315 LCD LCD_Data_Enable J3 (38)
P400
PMODB
IRQ0#
J14 (2)
P401 CAN CAN_TX
P402
CAN
CAN_RX
P403 Ethernet ETH_MDC
P404 Ethernet ETH_MDIO
P405 Ethernet ETH_TXD_EN
P406
Ethernet
ETH_TXD1
P407 USB Device USB_VBUS J5 (1)
P408
Cap Touch
n/a
S2 (4)
P409 Cap Touch n/a S2 (3)
P410
PMODB
RXD0_B
J14 (5)
P411 PMODB TXD0_B J14 (3)
P412
PMODB
SCK0_B
J14 (7)
P413 PMODB CTS0_B J14 (1)
P414
Cap Touch
n/a
S2 (2)
P415 Cap Touch n/a S2 (1)
P500
QSPI Flash
QSPI_CLK
n/a
P501 QSPI Flash QSPI_CS# n/a
P502
QSPI Flash
QSPI_DQ0
n/a
P503 QSPI Flash QSPI_DQ1 n/a
P504
QSPI Flash
QSPI_DQ2
n/a
P505 QSPI Flash QSPI_DQ3 n/a
P506 Arduino Shield n/a J24 (2)
P507 Arduino Shield n/a J24 (3)
P511
LCD (Touchscreen) /
Arduino Shield
SDA2 / SDA2
n/a / J24 (9)
P512 LCD (Touchscreen) /
Arduino Shield SCL2 / SCL2 n/a / J24 (10)
P600
User LED
n/a
LED1
P601 User LED n/a LED2
P602
User LED
n/a
LED3
P603 PMODB n/a J14 (4)
P604
PMODB
n/a
J14 (6)
P605 PMODB n/a J14 (8)
P606
LCD
LCD_D3
J3 (24)
P607 LCD LCD_D4 J3 (25)
SK-S7G2 8. Pin Connections
R12UM0004EU0100 Rev.1.00 Page 22 of 22
October 8, 2015
S7G2 Pin
Peripheral
Signal
SK-S7G2 connector
P608
Arduino Shield
n/a
J27 (6)
P609 LCD (Touchscreen) RESET# n/a
P613
Arduino Shield
n/a
J27 (7)
P614 Arduino Shield n/a J27 (8)
P615
LCD
LCD_D10
J3 (31)
P700 Ethernet ETH_TXD0 n/a
P701
Ethernet
ETH
n/a
P702 Ethernet ETH_RXD0 n/a
P703 Ethernet ETH_RXD1 n/a
P704 Ethernet ETH_RX_ER n/a
P705
Ethernet
ETH_CRS_DV
n/a
P706 RS-232 UART_RXD J9 (4)
P707
RS-232
UART_TXD
J9 (3)
P800 RS-232 READY/RE J8 (2)
P801
RS-232
INVALID
n/a
P802 LCD LCD_D2 J3 (23)
P803
LCD
LCD_D1
J3 (22)
P804 LCD LCD_D0 J3 (21)
P806
Ethernet
ETH_RESET#
n/a
P900 LCD LCD_CLK_B J3 (39)
P901
LCD
LCD_D15
J3 (37)
P905 LCD LCD_D11 J3 (33)
P906
LCD
LCD_D12
J3 (34)
P907 LCD LCD_D13 J3 (35)
P908
LCD
LCD_D14
J3 (36)
PA00 LCD LCD_D5 J3 (26)
PA01 LCD LCD_D6 J3 (27)
PA08 LCD LCD_D9 J3 (30)
PA09
LCD
LCD_D8
J3 (29)
PA10 LCD LCD_D7 J3 (28)
PB00
USB Host
USBH_VBUSEN
n/a
PB01 USB Host USBHS_VBUS J6 (1)
RESET
JTAG
RESET
J18 (10)
USBHS_N USB Host USBHS_N J6 (2)
USBHS_P
USB Host
USBHS_P
J6 (3)
USBF_N USB Device USBF_N J5 (2)
USBF_P
USB Device
USBF_P
J5 (3)
C - 1
Revision History
SK-S7G2 User’s Manual
Rev.
Date
Description
Page
Summary
1.00
Oct. 2015
First Edition issued
Sk-S7G2 User’s Manual
Publication Date: Rev.1.00 Oct. 2015
Published by: Renesas Electronics Corporation
http://www.renesas.com
Refer to "http : / /www.renesas.com/" for the latest and detailed information.
Renesas Electronics America Inc.
2801 Scott Boulevard Santa Clara, CA 95050-2549, U.S.A.
Tel: +1-408-588-6000, Fax: +1-408-588-6130
Renesas Electronics Canada Limited
9251 Yonge Street, Suite 8309 Richmond Hill, Ontario Canada L4C 9T3
Tel: +1-905-237-2004
Renesas Electronics Europe Limited
Dukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K
Tel: +44-1628-585-100, Fax: +44-1628-585-900
Renesas Electronics Europe GmbH
Arcadiastrasse 10, 40472 Düsseldorf, Germany
Tel: +49-211-6503-0, Fax: +49-211-6503-1327
Renesas Electronics (China) Co., Ltd.
Room 1709, Quantum Plaza, No.27 ZhiChunLu Haidian District, Beijing 100191, P.R.China
Tel: +86-10-8235-1155, Fax: +86-10-8235-7679
Renesas Electronics (Shanghai) Co., Ltd.
Unit 301, Tower A, Central Towers, 555 Langao Road, Putuo District, Shanghai, P. R. China 200333
Tel: +86-21-2226-0888, Fax: +86-21-2226-0999
Renesas Electronics Hong Kong Limited
Unit 1601-1611, 16/F., Tower 2, Grand Century Place, 193 Prince Edward Road West, Mongkok, Kowloon, Hong Kong
Tel: +852-2265-6688, Fax: +852 2886-9022
Renesas Electronics Taiwan Co., Ltd.
13F, No. 363, Fu Shing North Road, Taipei 10543, Taiwan
Tel: +886-2-8175-9600, Fax: +886 2-8175-9670
Renesas Electronics Singapore Pte. Ltd.
80 Bendemeer Road, Unit #06-02 Hyflux Innovation Centre, Singapore 339949
Tel: +65-6213-0200, Fax: +65-6213-0300
Renesas Electronics Malaysia Sdn.Bhd.
Unit 1207, Block B, Menara Amcorp, Amcorp Trade Centre, No. 18, Jln Persiaran Barat, 46050 Petaling Jaya, Selangor Darul Ehsan, Malaysia
Tel: +60-3-7955-9390, Fax: +60-3-7955-9510
Renesas Electronics India Pvt. Ltd.
No.777C, 100 Feet Road, HALII Stage, Indiranagar, Bangalore, India
Tel: +91-80-67208700, Fax: +91-80-67208777
Renesas Electronics Korea Co., Ltd.
12F., 234 Teheran-ro, Gangnam-Gu, Seoul, 135-080, Korea
Tel: +82-2-558-3737, Fax: +82-2-558-5141
SALES O FFICES
© 2015 Renesas Electronics Corporation. All rights reserved.
Colophon 4.0
Renesas SynergyTM SK-
S7G2
User
s Manual
R12UM0004EU0100