r7s72100 cpu board rtk772100bc00000br user's manual · 12. please contact a renesas...
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User’s M
anual
Rev.0.08 2013.12
All information contained in these materials, including products and product specifications, represents information on the product at the time of publication and is subject to change by Renesas Electronics Corporation without notice. Please review the latest information published by Renesas Electronics Corporation through various means, including the Renesas Electronics Corporation website (http://www.renesas.com).
32R7S72100 CPU board
RTK772100BC00000BR (GENMAI) User's Manual
Renesas Microcomputer RZ/A Series
www.renesas.com
Notice 1. Descriptions of circuits, software and other related information in this document are provided only to illustrate the operation of
semiconductor products and application examples. You are fully responsible for the incorporation of these circuits, software, and information in the design of your equipment. Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits, software, or information.
2. Renesas Electronics has used reasonable care in preparing the information included in this document, but Renesas Electronics does not warrant that such information is error free. Renesas Electronics assumes no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included herein.
3. Renesas Electronics does not assume any liability for infringement of patents, copyrights, or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or technical information described in this document. No license, express, implied or otherwise, is granted hereby under any patents, copyrights or other intellectual property rights of Renesas Electronics or others.
4. You should not alter, modify, copy, or otherwise misappropriate any Renesas Electronics product, whether in whole or in part. Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from such alteration, modification, copy or otherwise misappropriation of Renesas Electronics product.
5. Renesas Electronics products are classified according to the following two quality grades: “Standard” and “High Quality”. The recommended applications for each Renesas Electronics product depends on the product’s quality grade, as indicated below. “Standard”: Computers; office equipment; communications equipment; test and measurement equipment; audio and visual
equipment; home electronic appliances; machine tools; personal electronic equipment; and industrial robots etc. “High Quality”: Transportation equipment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster systems; anti-
crime systems; and safety equipment etc. Renesas Electronics products are neither intended nor authorized for use in products or systems that may pose a direct threat to human life or bodily injury (artificial life support devices or systems, surgical implantations etc.), or may cause serious property damages (nuclear reactor control systems, military equipment etc.). You must check the quality grade of each Renesas Electronics product before using it in a particular application. You may not use any Renesas Electronics product for any application for which it is not intended. Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for which the product is not intended by Renesas Electronics.
6. You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics, especially with respect to the maximum rating, operating supply voltage range, movement power voltage range, heat radiation characteristics, installation and other product characteristics. Renesas Electronics shall have no liability for malfunctions or damages arising out of the use of Renesas Electronics products beyond such specified ranges.
7. Although Renesas Electronics endeavors to improve the quality and reliability of its products, semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and malfunctions under certain use conditions. Further, Renesas Electronics products are not subject to radiation resistance design. Please be sure to implement safety measures to guard them against the possibility of physical injury, and injury or damage caused by fire in the event of the failure of a Renesas Electronics product, such as safety design for hardware and software including but not limited to redundancy, fire control and malfunction prevention, appropriate treatment for aging degradation or any other appropriate measures. Because the evaluation of microcomputer software alone is very difficult, please evaluate the safety of the final products or systems manufactured by you.
8. Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product. Please use Renesas Electronics products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations.
9. Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable domestic or foreign laws or regulations. You should not use Renesas Electronics products or technology described in this document for any purpose relating to military applications or use by the military, including but not limited to the development of weapons of mass destruction. When exporting the Renesas Electronics products or technology described in this document, you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations.
10. It is the responsibility of the buyer or distributor of Renesas Electronics products, who distributes, disposes of, or otherwise places the product with a third party, to notify such third party in advance of the contents and conditions set forth in this document, Renesas Electronics assumes no responsibility for any losses incurred by you or third parties as a result of unauthorized use of Renesas Electronics products.
11. This document may not be reproduced or duplicated in any form, in whole or in part, without prior written consent of Renesas Electronics.
12. Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products, or if you have any other inquiries.
(Note 1) “Renesas Electronics” as used in this document means Renesas Electronics Corporation and also includes its majority-owned subsidiaries.
(Note 2) “Renesas Electronics product(s)” means any product developed or manufactured by or for Renesas Electronics.
(2012.4)
WEEE Directive Renesas development tools and products are directly covered by the European Union's Waste Electrical and Electronic Equipment, (WEEE), Directive 2002/96/EC. As a result, this equipment, including all accessories, must not be disposed of as household waste but through your locally recognised recycling or disposal schemes. As part of our commitment to environmental responsibility Renesas also offers to take back the equipment and has implemented a Tools Product Recycling Program for customers in Europe. This allows you to return equipment to Renesas for disposal through our approved Producer Compliance Scheme. To register for the program, click here "http://www.renesas.com/weee".
About This Manual
1. Purpose and Target Readers This manual is designed to provide the user with an understanding of the functions and operating specifications of this extension board. A basic knowledge of electrical circuits, logical circuits, and microcomputers (MCUs) is necessary in order to use this manual. This manual is composed of an overview of the CPU board; its functional and operational specifications. Carefully read all notes described in the body of text in the manual.
The Revision History summarizes the modifications and additions to the previous versions. Refer to the text of the manual for details.
The following document applies to the R7S72100 CPU board RTK772100BC00000BR.
Document Type Description Document Title Document No.
User's Manual Describes functional specifications (devices, memory maps, electrical characteristics), and operational specifications (connectors, and switches)
R7S72100 CPU board RTK772100BC00000BRUser's Manual
This publication
The following documents apply to the RZ/A1H group. Make sure to refer to the latest version of these documents which can be obtained from Renesas Electronics website.
Document Type Description Document Title Document No.
Application note Applications, sample programs, etc.
RENESAS TECHNICAL UPDATE
Information regarding product specifications, documents, etc.
Available on Renesas Electronics website
2. Frequently Used Abbreviations and Acronyms ACIA Asynchronous Communication Interface Adapter
bps Bits per second
CRC Cyclic Redundancy Check
DMA Direct Memory Access
DMAC Direct Memory Access Controller
GSM Global System for Mobile Communications
Hi-Z High Impedance
IEBus Inter Equipment bus
I/O Input/Output
IrDA Infrared Data Association
LSB Least Significant Bit
MSB Most Significant Bit
NC Non-Connection
PLL Phase Locked Loop
PWM Pulse Width Modulation
SFR Special Function Registers
SIM Subscriber Identity Module
UART Universal Asynchronous Receiver/Transmitter
VCO Voltage Controlled Oscillator
All trademarks and registered trademarks are the property of their respective owners.
Table of Contents
1. Overview.................................................................................................................................................... 1-1
1.1 Overview ......................................................................................................................................................... 1-1 1.2 System Configuration ...................................................................................................................................... 1-2 1.3 External Specifications .................................................................................................................................... 1-3 1.4 Exterior Appearance ........................................................................................................................................ 1-5 1.5 Parts Layout ..................................................................................................................................................... 1-7 1.6 Memory Map ................................................................................................................................................. 1-11 1.7 Absolute Maximum Ratings .......................................................................................................................... 1-12 1.8 Operating Conditions..................................................................................................................................... 1-12
2. Functional Specification............................................................................................................................. 2-1
2.1 Functions Overview......................................................................................................................................... 2-1 2.2 CPU ................................................................................................................................................................. 2-2
2.2.1 R7S72100 Overview............................................................................................................................... 2-2 2.2.2 R7S72100 Pin Functions ........................................................................................................................ 2-2 2.2.3 RTK772100BC00000BR Module Applicability................................................................................... 2-16
2.3 Memories ....................................................................................................................................................... 2-17 2.3.1 R7S72100 On-Chip RAM .................................................................................................................... 2-17 2.3.2 NOR Flash Memory Interface .............................................................................................................. 2-17 2.3.3 SDRAM Interface................................................................................................................................. 2-20 2.3.4 Serial Flash Memory Interface.............................................................................................................. 2-24 2.3.5 NAND Flash Memory Interface ........................................................................................................... 2-26 2.3.6 EEPROM Interface............................................................................................................................... 2-27
2.4 USB Interface ................................................................................................................................................ 2-28 2.5 Serial Interface............................................................................................................................................... 2-30 2.6 I/O Ports......................................................................................................................................................... 2-31 2.7 Interrupt Switches.......................................................................................................................................... 2-32 2.8 Clocks ............................................................................................................................................................ 2-33 2.9 Reset Control ................................................................................................................................................. 2-35 2.10 Power Supply................................................................................................................................................. 2-36 2.11 Debug Interface ............................................................................................................................................. 2-37 2.12 CAN Interface................................................................................................................................................ 2-38 2.13 Video Input Interface ..................................................................................................................................... 2-39 2.14 Audio Interface .............................................................................................................................................. 2-40
2.15 SD Card Interface (4-bit) ............................................................................................................................... 2-41 2.16 MMC Card Interface (8-bit) .......................................................................................................................... 2-42 2.17 LAN Interface................................................................................................................................................ 2-43 2.18 LVDS Interface.............................................................................................................................................. 2-44 2.19 TOSLINK Interface ....................................................................................................................................... 2-45 2.20 MOST Interface ............................................................................................................................................. 2-46
3. Operational Specification........................................................................................................................... 3-1
3.1 Connector Overview........................................................................................................................................ 3-1 3.1.1 RCA Connector for Video Input (J1)...................................................................................................... 3-3 3.1.2 MOST I/F Connector (J3)....................................................................................................................... 3-4 3.1.3 Mic-in Pin Jack Assignments (J4) .......................................................................................................... 3-6 3.1.4 Lineout Pin Jack (J6) .............................................................................................................................. 3-7 3.1.5 USB Connectors (J5 and J8) ................................................................................................................... 3-8 3.1.6 LAN Connector (J10) ........................................................................................................................... 3-10 3.1.7 SD Card Slot (J11)................................................................................................................................ 3-11 3.1.8 MMC Card Slot (J15) ........................................................................................................................... 3-12 3.1.9 CAN Connectors (J12 and J13) ............................................................................................................ 3-13 3.1.10 LVDS Connectors (J14 and J16) .......................................................................................................... 3-14 3.1.11 TOSLINK Connector (U26) ................................................................................................................. 3-16 3.1.12 Serial Port Connectors (J17 and J19).................................................................................................... 3-17 3.1.13 UDI Connectors (J21 and J22).............................................................................................................. 3-18 3.1.14 Power Supply Connectors (J23 and J25) .............................................................................................. 3-20 3.1.15 External Power Supply Connectors (J24 and J26 to J28) ..................................................................... 3-21 3.1.16 Expansion Connectors (CN1 to CN9)................................................................................................... 3-23
3.2 Operation Parts Layout .................................................................................................................................. 3-32 3.2.1 Jumpers (JP1 to JP15, JP18, JP19 and JP21)........................................................................................ 3-33 3.2.2 Switches and LEDs............................................................................................................................... 3-36
3.3 Dimensions .................................................................................................................................................... 3-39
Appendix RTK772100BC00000BR Schematics...................................................................................................1
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-1 Dec. 19, 2013
1. Overview
1.1 Overview
RTK772100BC00000BR is a CPU board to evaluate functions and performance of Renesas Electronics RISC microcomputer R7S72100 and to execute development and evaluation of its application software. The features of the R7S72100 CPU board are described below. • The following external memories are generally included.
- NOR flash memory: 64MB×2 (16-bit bus connection) - SDRAM: 64MB×2 (16-bit bus connection) - Serial flash memory: 64MB×3 - EEPROM: 16KB×1
• Any of NOR flash memory, serial flash memory, SD controller on-chip NAND flash memory, and MMC controller on-chip NAND flash memory can be selected as a boot memory.
• A serial port connector (RS-232C or USB Mini-B), USB connectors, CAN connectors, SD card slot, MMC card slot, RCA connector for video input, and MOST I/F connector are generally included as the R7S72100 peripheral function interface.
• An audio CODEC is included to enable advance development of the audio system. • The USB connectors generally include the series A receptacles. The board pattern enables the Mini-B receptacles to
be implemented for the USB host/function module evaluation. • A LAN connector is generally included to enable software development or evaluation using the Ethernet. • Data bus, address bus and on-chip peripheral function pins of the R7S72100 are all connected to the expansion
connectors to enable timing evaluation with the peripheral devices using measurement instrument, or development of expansion board for its application.
• The ARM JTAG 20 and the CoreSight 20 are mounted to connect with the R7S72100 user debug interface.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-2 Dec. 19, 2013
1.2 System Configuration
Figure 1.1 shows the System Configuration using RTK772100BC00000BR.
DC12V output Stabilized
power supply (over 3A)
R7S72100 CPU boardRTK772100BC00000BR
USB
* These items are not included. Please purchase them separately.
Debugger
Host computer *
SD card
R7S72100
MMC cardMicro
headphone
TOSLINK
RCA
Serial port
CAN
LVDS
MOST
LAN
*
USB serial
JTAG
ICE*
or
DC12V output
AC adapter(accessory)
Figure 1.1 System Configuration using RTK772100BC00000BR
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-3 Dec. 19, 2013
1.3 External Specifications
Table 1.1 and Table 1.2 list the RTK772100BC00000BR External Specifications. Table 1.1 RTK772100BC00000BR External Specifications (1)
Item Description CPU R7S72100
• Input (XIN) clock: 13.33MHz • CPU clock (Iφ): Up to 400MHz • Image process clock (Gφ): Up to 266.67MHz • Internal bus clock (Bφ): Up to 133.33MHz • External bus clock (CKIO): Up to 66.67MHz • Peripheral clock 1 (P1φ): Up to 66.67MHz • Peripheral clock 0 (P0φ): Up to 33.33MHz • On-chip memory
Large-capacity on-chip RAM: 10MB External memory: 128KB Instruction cache: 32KB Operand cache: 32KB
• Power supply voltage: 1.18V (internal), 3.3V (I/O) • 324-pin BGA 0.8mm pitch (package code: PRBG0324GA-A)
Memories • NOR flash memory: 64MB×2 - Spansion S29GL512S10T
• SDRAM: 64MB×2 - ISSI IS42S16320B-75
• Serial flash memories: 64MB×3 - Spansion S25FL512SDPM
• NAND flash memory: 512MB×1 (implementable board pattern) - Spansion S34ML04G100TFI
• EEPROM: 16KB×1 - Renesas R1EX24128ASAS0A
Connectors • USB series A receptacles: 2 (can be changed to Mini-B receptacles) • LAN connector (RJ-45) • SD card slot (4-bit) • MMC card slot (8-bit) • Audio I/O mini jacks (φ3.5): 2 • RCA connector for image input (4 input) • CAN port connectors (3-pin, pin header): 2 • TOSLINK connector (for SPDIF connection) • MOST I/F connector • Serial port connector (D-Sub 9-pin and USB Mini-B can be switched) • User debug interface connector (ARM JTAG 20, CoreSight 20): 1 for each • Expansion connectors: 34-pin×1, 30-pin×4, 20-pin×4 (partially mounted) • DC power jack
LEDs • Power supply LED: 1 • User LEDs: 2 • LAN status LEDs: 3
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-4 Dec. 19, 2013
Table 1.2 RTK772100BC00000BR External Specifications (2)
Item Description Switches • Reset switch: 1
• User switches: 3 (NMI, IRQ6*, TEST) • Toggle switch: 1 (IRQ6*)
*parallel connection • DIP switch for system setting: 6/package×1 • DIP switch for I/F setting: 4/package×1 • DIP switch for Ethernet PHY setting: 8/package×1
Board specification • Dimensions: 175mm×155mm • Mounting form: 6 layered double-sided • Number of board: 1
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-5 Dec. 19, 2013
1.4 Exterior Appearance
Figure 1.2 shows the RTK772100BC00000BR Exterior Appearance.
Figure 1.2 RTK772100BC00000BR Exterior Appearance
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-6 Dec. 19, 2013
Figure 1.3 shows the RTK772100BC00000BR Block Diagram.
SSIF0
R7S72100(324BGA)
SPIBSC BSC
ETHER
SDHI
MMC
16bit
CS2SDRAM(64MB)
CS3SDRAM(64MB)
CS1NOR
(64MB)
CS0NOR
(64MB)
RSCAN
Serial Flash(64MB)
4
SPIBSCSerial Flash(64MB×2)
8
FLCTL8NAND
(512MB)
RIIC
EEPROM (16KB)
DVDEC
SD CardSlot
MMC CardSlot 8
4
PHYuPD60610
MII:8RJ-45
CANTransceiver
Pin Header(3pin)
UDI
USB USB×2
75Ω
ExternalConnector
ICE
RESETNMIIRQ6
INTC
SSIF AudioCodec(WM8978)
MIC
HP
SCIF RS-232CTransceiver Dsub-9
Tx, Rx
LVDSOutput
LVDS
MLB
90Ω
100Ω
MOST I/FBoard
ch2
RL78/G1C-S
ch2
ch1
ch0
100Ω
4
*Memory capacity unit : Byte
USBMini-B
SCIF2
RSPDIF TOSLINK(TODX)
50Ω
RCA×2(VIN2)
RCA×4
Bootable Optional Dedicated connector
Expansion connector
Figure 1.3 RTK772100BC00000BR Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-7 Dec. 19, 2013
1.5 Parts Layout
Figure 1.4 and Figure 1.5 show the Parts Layout of the RTK772100BC00000BR.
U1R7S72100
U4
SDR
AMJ1
2, J
13: C
AN c
onne
ctor
s
J5, J7: USB connectors
SW
1:D
IP s
witc
h fo
r sys
tem
set
ting
J8, J9: USB connectors
J19: Serial port connector(USB Mini-B)
J17: Serial port connector(D-Sub9)
U26
: TO
SLIN
K co
nnec
tor
SW
5: N
MI s
witc
h
SW
6: IR
Q6
switc
h
SW
8: T
est s
witc
h
SW7:
Tog
gle
switc
h
U28:USB serial conversion IC
X9: L
CD
osc
illato
r (op
tiona
l)
J21, J22:UDI connectors
J25:12V AC adapter jack
J23:12V power supply connector
SW4: Power switch
J15:
MM
C c
ard
slot
J11:
SD
car
d sl
ot
J3: M
OST
I/F
conn
ecto
r
J10:
LAN
con
nect
or
J4: M
ic-in
pin
jack
J6: L
ineo
ut p
in ja
ckU
19: A
udio
CO
DEC
X8:
Aud
io o
scilla
tor
(22.
5792
MH
z)
SW
2:D
IP s
witc
h fo
r I/F
se
tting
U20
: Eth
erne
t PH
Y
X1: EXTAL oscillator (13.33MHz)
X7: Video resonator (27MHz)
X4: RTC oscillator (4MHz)
X2: RTC resonator (32.768kHz)
X5: USB oscillator (48MHz)
X10
: PH
Y o
scill
ator
(25M
Hz)
SW
3:D
IP s
witc
h fo
r PH
Y s
ettin
g
J1:
RC
A co
nnec
tor f
or im
age
inpu
tJ1
6:LV
DS
back
light
con
nect
or
SW
9: R
eset
sw
itch
U2:
NO
R fl
ash
mem
ory
Figure 1.4 RTK772100BC00000BR Parts Layout (Top View of Component Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-8 Dec. 19, 2013
U9:NAND flash memory (optional)
CN8: Expansion connector
CN9: Expansion connector
U5
SD
RA
M
U3: NOR flash memory
J14: LVDS connector
U6: Serial flash memory
U7: Serial flash memory
U8: Serial flash memory
CN2: Expansion connector
CN1: Expansion connector
CN7:Expansion connector
CN6:Expansion connector
CN3:Expansion connector
CN4:Expansion connector
CN5:Expansion connector
Figure 1.5 RTK772100BC00000BR Parts Layout (Top View of Solder Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-9 Dec. 19, 2013
Table 1.3 and Table 1.4 list the Main Parts of the RTK772100BC00000BR. Table 1.3 RTK772100BC00000BR Main Parts (1) IC
Part Number Part Name Type (Manufacturer) Recommended Optional PartsU1 CPU R7S72100 (Renesas) U2, U3 NOR flash memory S29GL512S10T (Spansion) U4, U5 SDRAM IS42S16320B-75 (ISSI) U6 to U8 Serial flash memory S25FL512SDPM (Spansion) U9 NAND flash memory Optional S34ML04G100TFI (Spansion)U10 EEPROM R1EX24128ASAS0A (Renesas) U19 Audio CODEC WM8978 (Wolfson) U20 Ethernet PHY uPD60610 (Renesas) U21, U24 CAN transceiver HA13721RPJE (Renesas) U27 RS-232C transceiver MAX3222CPW (TI) U28 USB serial conversion IC RL78/G1C-S (Renesas) U30 5V regulator LM20343 (TI) 12V → 5V U32 3.3V regulator LM2833X (TI) 5V → 3.3V U34 1.18V regulator LM2830Z (TI) 5V → 1.18V U35 Vref reference voltage supply LM4132 (TI) 5V → 3.3V U33 Reset IC RNA51957BFP (Renesas) X1 XIN oscillator (socket mounted) SG-8002DC-13.3333MHz (Epson) X2 RTC resonator MC-306 32.768KHz (Epson) X4 RTC oscillator SG8002CA_4MHz (Epson) X5 USB oscillator (socket mounted) SG8002DC_48MHz (Epson) X7 Video recorder resonator FA-128_27MHz (Epson) X8 Audio oscillator (socket mounted) SG8002DC_22.5792MHz (Epson) X9 LCD oscillator (socket mounted) Optional SG-8002DC (Epson) X10 Ethernet PHY oscillator SG8002CA_25MHz (Epson) X11 USB serial conversion IC
resonator
DSX321G_12MHz (KDS)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-10 Dec. 19, 2013
Table 1.4 RTK772100BC00000BR Main Parts (2) Connectors
Part Number Part Name Type (Manufacturer) Recommended Optional PartsCN1, CN4, CN5, CN8
Expansion connectors (20-pin) HIF3FC-20PA-2.54DSA (HRS) CN1 is optional.
CN2, CN3 Expansion connectors (30-pin) HIF3FC-30PA-2.54DSA (HRS) CN3 is optional. CN6, CN9 Expansion connectors (30-pin)
Surface mount type HTSS-115-01-L-DV (Samtec)
CN7 Expansion connectors (34-pin) Surface mount type
HTSS-117-01-L-DV (Samtec)
J1 RCA connector for video input T5857 (EMUDEN) J3 MOST I/F connector QSH-020-01-L-D-DP-A (Samtec) J4 Mic-in pin jack HSJ1456-010320 (Hoshiden) J6 Lineout pin jack HSJ1456-010320 (Hoshiden) J5, J8 USB series A receptacles UBA-4R-D14T-4D (JST) J7, J9 USB Mini-B receptacles Optional 54819-0572 (MOLEX) J10 LAN connector (RJ-45) TLA-6T718 (TDK) J11 SD card slot DM1AA-SF-PEJ (HRS) 4-bit J15 MMC card slot 7SDMM-X0-2211-B (KINGCONN) 8-bit J12, J13 CAN connectors B3P-SHF-1AA (JST) J14 LVDS connector DF14A-20P-1.25H (HRS) J17 Serial port connector XM2C-0942-132L (OMRON) D-sub 9-pin J19 Serial port connector 54819-0572 (MOLEX) USB Mini-B J21 ETM connector (20-pin) FTSH-110-01 (Samtec) CoreSight 20 J22 JTAG connector (20-pin) HIF3FC-20PA-2.54DSA (HRS) ARM JTAG 20 J25 DC power jack LGP6531-0700F (SMK) J24, J26 to J28
External power supply connectors Optional A2-2PA-2.54DSA (HRS)
U26 TOSLINK connector TODX2951 (Toshiba)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-11 Dec. 19, 2013
1.6 Memory Map
Figure 1.6 shows the R7S72100 Memory Map.
Logical address R7S72100 logical space RTK772100BC00000BR
memory map H'0000 0000
CS0 space: 64MB NOR flash memory (64MB)
16 bit bus H'0400 0000
CS1 space: 64MB NOR flash memory (64MB) 16 bit bus
H'0800 0000
CS2 space: 64MB SDRAM (64MB) 16 bit bus
H'0C00 0000
CS3 space: 64MB SDRAM (64MB) 16 bit bus
H'1000 0000
CS4 space: 64MB User area
H'1400 0000
CS5 space: 64MB User area
H'1800 0000
SPI multi I/O bus space 1: 64MB Serial flash memory (64MB)
H'1C00 0000
SPI multi I/O bus space 2: 64MB Serial flash memory (64MB)
H'2000 0000
Large-capacity on-chip RAM (10MB)
H'20A0 0000
Others: 512MB Reserved area
(Unusable)
H'4000 0000
CS0 to CS5 spaces, SPI multi I/O bus space
(Mirror space)
CS0 to CS5 spaces, SPI multi I/O bus space
(Mirror space) H'6000 0000
Large-capacity on-chip RAM (10MB) (Mirror space)
H'60A0 0000
H'FFFF FFFF
Others: 2560MB (Mirror space)
On-chip peripheral module, Reserved area
Figure 1.6 R7S72100 Memory Map
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview
R20UT2596EJ0008 Rev.0.08 1-12 Dec. 19, 2013
1.7 Absolute Maximum Ratings
Table 1.5 lists the RTK772100BC00000BR Absolute Maximum Ratings. Table 1.5 RTK772100BC00000BR Absolute Maximum Ratings
Symbol Item Value Remarks 12Vcc 12V system power supply voltage -0.3V to 15V Vss reference 5Vcc *1 5V system power supply voltage -0.3V to 6.25V Vss reference VBUS *2 VBUS voltage -0.3V to 5.5V Vss reference 3Vcc *3 3.3V system power supply voltage -0.3V to 4.6V Vss reference AVcc *4 Analog 3.3V system power supply
voltage -0.3V to 4.6V AVss reference
1.18Vcc *5 1.18V system power supply voltage -0.3V to 1.7V Vss reference Topr Operating ambient temperature *6 0°C to 50°C Do not expose to condensation or corrosive gases.Tstg Storage ambient temperature *6 -10°C to 60°C Do not expose to condensation or corrosive gases.
[Note] *1 When providing 5V system power supply directly from the external power supply connector. *2 When providing VBUS power supply directly from the external power supply connector. *3 When providing 3.3V system power supply directly from the external power supply connector. *4 When providing analog 3.3V system power supply directly from the external power supply connector. *5 When providing 1.18V system power supply directly from the external power supply connector. *6 The ambient temperature is the air temperature immediate to the board.
1.8 Operating Conditions
Table 1.6 lists the RTK772100BC00000BR Operating Conditions. Table 1.6 RTK772100BC00000BR Operating Conditions
Symbol Item Value Remarks 12Vcc 12V system power supply voltage 10.8V to 13.2V Vss reference 5Vcc *1 5V system power supply voltage 4.5V to 5.5V Vss reference 3Vcc *2 3.3V system power supply voltage 3.0V to 3.6V Vss reference AVcc *3 Analog 3.3V system power supply
voltage 3.0V to 3.6V Vss reference
1.18Vcc *4 1.18V system power supply voltage 1.10V to 1.26V Vss reference - Maximum consumption voltage Up to 3A Total value of 12V, 5V, 3.3V and 1.18V system
power supplies Topr Operating ambient temperature *5 0°C to 40°C Do not expose to condensation or corrosive gases.
[Note] *1 When providing 5V system power supply directly from the external power supply connector. *2 When providing 3.3V system power supply directly from the external power supply connector. *3 When providing analog 3.3V system power supply directly from the external power supply connector. *4 When providing 1.18V system power supply directly from the external power supply connector. *5 The ambient temperature is the air temperature immediate to the board.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-1
Dec. 19, 2013
2. Functional Specification
2.1 Functions Overview Table2.1.1 lists the RTK772100BC00000BR Function Modules. Table2.1.1 RTK772100BC00000BR Function Modules
Section Function Description
2.2 CPU • R7S72100 ・Input (XIN) clock: 13.33MHz ・Bus clock: Up to 66.67MHz ・CPU clock: Up to 400MHz
2.3 Memories • On-chip memory ・Large-capacity on-chip RAM: 10MB ・External memory: 128KB NOR flash memory: 64MB×2 ・Spansion S29GL512S10T SDRAM: 64MB×2 ・ISSI IS42S16320B-75 Serial flash memory: 64MB×3 ・Spansion S25FL512SDPM NAND flash memory: Board pattern which enables to implement 512MB ・Spansion S34ML04G100TFI EEPROM: 16KB×1 ・Renesas R1EX24128ASAS0A
2.4 USB Interface • Connection between the R7S72100 USB2.0 host/function module and the USB connector.
2.5 Serial Interface • Connection between the R7S72100 FIFO on-chip serial communication interface (SCIF) and 1) the D-Sub 9 connector, or 2) the USB Mini-B connector.
2.6 I/O Ports • Connection between the R7S72100 I/O ports and the LEDs and DIP switches.
2.7 Interrupt Switches • Connection between the R7S72100 NMI pin, IRQ6 pin and TEST pin and the push switches.
2.8 Clocks • System clock configuration
2.9 Reset Control • Reset control for the device on the RTK772100BC00000BR
2.10 Power Supply • The RTK772100BC00000BR system power supply configuration
2.11 Debug Interface • Connection between the R7S72100 user debug interface and the connectors.
2.12 CAN Interface • Connection between the R7S72100 controller area network (RSCAN) and the CAN transceiver.
2.13 Video Input Interface • Connection between the R7S72100 digital video decoder and the RCA connector. 2.14 Audio Interface • Connection between the R7S72100 and the audio CODEC (WM8978). 2.15 SD Card Interface
(4-bit) • Connection between the R7S72100 SD host interface (SDHI) channel 0 and MMC host
interface (MMCIF) and the SD card slot. 2.16 MMC Card Interface
(8-bit) • Connection between the R7S72100 SD host interface (SDHI) channel 1 and MMC host
interface (MMCIF) and the MMC card slot. 2.17 LAN Interface • Connection between the R7S72100 Ethernet controller (ETHER) and the Ethernet PHY.
2.18 LVDS Interface • Connection between the R7S72100 and the LVDS I/F connector. 2.19 TOSLINK Interface • Connection between the R7S72100 and the TOSLINK connector. 2.20 MOST Interface • Connection between the R7S72100 media local bus (MLB) and the MOST I/F connector.
- Operating specifications
• Connectors, switcheds and LEDs (described in Chapter 3)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-2
Dec. 19, 2013
2.2 CPU
2.2.1 R7S72100 Overview The RTK772100BC00000BR includes a 32-bit RISC microcomputer R7S72100 which runs at a maximum CPU clock frequency of 400MHz.
2.2.2 R7S72100 Pin Functions Table 2.2.1 to Table2.2.11 list the R7S72100 pin functions used in the RTK772100BC00000BR. Table 2.2.1 R7S72100 Pin Functions (1)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
A1 Vss A2 P6_4 / D4 / LCD1_DATA12 /
CRx2 / IRQ3 / RTS5 / RSPCK1 / DV0_DATA20
D4 Data bus CN1-15
A3 P0_3 / MD_CLKS MD_CLKS Connected to DIPSW as a clock selection input
- SW1-5
DV0_DATA12 LCD0_DATA7
A4 P11_0 / DV0_DATA12 / TIOC4A / SCK6 / LCD0_DATA7 / VIO_D12
VIO_D12
Used on option board CN9-28
SPBIO20_0 Connected to serial flash memory 1 A5 P9_6 / LCD1_DATA22 / SPBIO20_0 / SSIWS2 / RTS1 / CS5
LCD1_DATA22 Used on option board CN9-24
SPBSSL_0 Connected to serial flash memroy 1 and 2 JP7: Short A6 P9_3 / LCD1_DATA19 / SPBSSL_0 / TxD1 LCD1_DATA19 Used on option board
CN9-19 JP7: Open
ET_MDC Connected to Ethernet PHY JP4: 2-3 CRx1 Connected to CAN transceiver JP4: 1-2 P5_9 IERxD
A7 P5_9 / WE2/DQMUL / ET_MDC / DV0_VSYNC / IRQ2 / CRx1 / IERxD / LCD1_DATA16
LCD1_DATA16
Used on option board
CN9-16
JP4: Open
A8 Vss TXOUT0P Connected to LCD panel for LVDS - LCD1_DATA6
A9 P5_6 / TXOUT0P / LCD1_DATA6 / LCD0_DATA22 / DV1_DATA6 / TxD6 / IRQ6 / SPDIF_IN / DV0_DATA14
DV1_DATA6 Used on option board CN9-8
TXOUT2P Connected to LCD panel for LVDS - LCD1_DATA2
A10 P5_2 / TXOUT2P / LCD1_DATA2 / LCD0_DATA18 / DV1_DATA2 / SCK3 / TIOC1B / MOSI3
DV1_DATA2 Used on option board CN9-4
TXCLKOUTP Connected to LCD panel for LVDS - LCD1_DATA0
A11 P5_0 / TXCLKOUTP / LCD1_DATA0 / LCD0_DATA16 / DV1_DATA0 / TxD4 / TIOC0A / RSPCK3
DV1_DATA0 Used on option board CN9-2
A12 Vss A13 VIN2B Channel 1 input pin 2 of Composit Video,
Blanking,and Sync (CVBS) -
A14 VDAVss A15 VIN2A Channel 0 input pin 2 of Composit Video,
Blanking, and Sync (CVBS) -
A16 P0_2 / MD_CLK MD_CLK Connected to DIPSW as a clock mode input
- SW1-4
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-3
Dec. 19, 2013
Table 2.2.2 R7S72100 Pin Functions (2)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
SCL3 A17 P1_6 / SCL3 / DV1_VSYNC / IERxD / IRQ6 / VIO_D12 / DV0_DATA12
DV1_VSYNC Used on option board CN8-20
A18 P1_3 / SDA1 / DV0_DATA19 / ET_COL / IRQ3 / ADTRG
SDA1 Connected to TH7 CN8-15
A19 P1_0 / SCL0 / DV0_DATA16 / TCLKA / IRQ0 / VIO_VD / DV0_VSYNC
SCL0 Used on option board CN8-14
SPBIO11_0 Connected to serial flash memory 2 A20 P2_13 / D29 / SSL00 / DV0_DATA13 / SPBIO11_0 / CTx3 / SCK0 / LCD1_DATA13 / IRQ7
LCD1_DATA13 Used on option board CN8-7
SPBIO01_0 Connected to serial flash memory 2 A21 P2_12 / D28 / RSPCK0 / DV0_DATA12 / SPBIO01_0 / CRx3 / IRQ6 / LCD1_DATA12 / TIOC1B
LCD1_DATA12 Used on option board CN8-8
A22 Vss B1 Vcc B2 Vss B3 P6_0 / D0 / LCD1_DATA8 /
LRXD0 / DV0_CLK / TIOC1A / IRQ5 / RxD3 / DV0_DATA16
D0 Data bus CN1-20
DV0_DATA14 LCD0_DATA5
B4 P11_2 / DV0_DATA14 / TIOC4C / RxD6 / LCD0_DATA5 / VIO_D14
VIO_D14
Used on option board CN9-30
SPBIO30_0 Connected to serial flash memory 1 B5 P9_7 / LCD1_DATA23 / SPBIO30_0 / SSIDATA2 / TIOC1A
LCD1_DATA23 Used on option board CN9-23
SPBIO00_0 Connected to serial flash memory 1 B6 P9_4 / LCD1_DATA20 / SPBIO00_0 / RxD1 LCD1_DATA20 Used on option board
CN9-22
P5_10 Connected to TH3 CTx1 Connected to CAN transceiver IETxD
B7 P5_10 / WE3/DQMUU/AH / DV0_HSYNC / CTx1 / IETxD / LCD1_DATA17
LCD1_DATA17 Used on option board
CN9-15
CS2 Connected to CS pin of SDRAM 2 B8 P5_8 / LCD0_EXTCLK / IRQ0 / DV1_CLK / DV0_CLK / CS2 LCD0_EXTCLK Used on option board
CN9-11
TXOUT0M Connected to LCD panel for LVDS - LCD1_DATA7
B9 P5_7 / TXOUT0M / LCD1_DATA7 / LCD0_DATA23 / DV1_DATA7 / RxD6 / TIOC0D / SPDIF_OUT / DV0_DATA15
DV1_DATA7 Used on option board CN9-7
TXOUT2M Connected to LCD panel for LVDS - LCD1_DATA3
B10 P5_3 / TXOUT2M / LCD1_DATA3 / LCD0_DATA19 / DV1_DATA3 / TxD3 / TIOC3C / MISO3
DV1_DATA3 Used on option board CN9-3
TXCLKOUTM Connected to LCD panel for LVDS - LCD1_DATA1
B11 P5_1 / TXCLKOUTM / LCD1_DATA1 / LCD0_DATA17 / DV1_DATA1 / RxD4 / TIOC0B / SSL30
DV1_DATA1 Used on option board CN9-1
B12 Vss B13 VIN1B Channel 1 input pin 1 of Composit Video,
Blanking, and Sync (CVBS) -
B14 VDAVcc
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-4
Dec. 19, 2013
Table 2.2.3 R7S72100 Pin Functions (3)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
B15 VIN1A Channel 0 input pin 1 of Composit Video, Blanking, and Sync (CVBS)
-
SDA3 B16 P1_7 / SDA3 / DV1_HSYNC / LRXD0 / IRQ7 / VIO_D13 / DV0_DATA13
DV1_HSYNC Used on option board CN8-19
Connected to EEPROM B17 P1_4 / SCL2 / DV0_CLK / CRx1 / IRQ4 / CAN_CLK
SCL2 Used on option board
CN8-18
SCL1 Connected to TH6 B18 P1_2 / SCL1 / DV0_DATA18 / FRB / IRQ2 / LCD1_EXTCLK FRB Connected to NAND flash memory
CN8-16
SPBIO31_0 Connected to serial flash memory 2 B19 P2_15 / D31 / MISO0 / DV0_DATA15 / SPBIO31_0 / CAN_CLK / RxD0 / LCD1_DATA15 / IRQ1
LCD1_DATA15 Used on option board CN8-9
B20 PVcc B21 Vss
ET_RXD2 Connected to Ethernet PHY - SW2-1: ON LTXD0
B22 P2_10 / D26 / ET_RXD2 / DV0_DATA10 / SSIRxD0 / LTXD0 / LCD1_DATA10 / VIO_D10/MOSI4
LCD1_DATA10 Used on option board CN7-34 SW2-1: OFF
C1 P6_5 / D5 / LCD1_DATA13 / CTx2 / SCK5 / SSL10 / DV0_DATA21
D5 Data bus CN1-14
C2 Vcc C3 Vss C4 P6_2 / D2 / LCD1_DATA10 /
LRXD1 / IRQ7 / TCLKA / TIOC2A / RxD2 / DV0_DATA18
D2 Data bus CN1-18
DV0_DATA15 LCD0_DATA4
C5 P11_3 / DV0_DATA15 / TIOC4D / LCD0_DATA4 / VIO_D15
VIO_D15
Used on option board CN9-29
DV0_DATA13 LCD0_DATA6
C6 P11_1 / DV0_DATA13 / TIOC4B / TxD6 / LCD0_DATA6 / VIO_D13
VIO_D13
Used on option board CN9-27
SPBIO10_0 Connected to serial flash memory 1 C7 P9_5 / LCD1_DATA21 / SPBIO10_0 / SSISCK2 / CTS1 / CS4
LCD1_DATA21 Used on option board CN9-21
SPBCLK_0 Connected to serial flash memroy 1 and 2 C8 P9_2 / LCD1_DATA18 / SPBCLK_0 / LTXD0 / SCK1 / A0 LCD1_DATA18 Used on option board
CN9-20
C9 Vss TXOUT1M Connected to LCD panel for LVDS - FCE Connected to NAND flash memory R110:
Mounted LCD1_DATA5
C10 P5_5 / TXOUT1M / LCD1_DATA5 / LCD0_DATA21 / DV1_DATA5 / AUDIO_XOUT / TIOC0C / FCE / DV0_DATA13
DV1_DATA5 Used on option board
CN9-5
TXOUT1P Connected to LCD panel for LVDS - LCD1_DATA4
C11 P5_4 / TXOUT1P / LCD1_DATA4 / LCD0_DATA20 / DV1_DATA4 / RxD3 / TIOC3D / DV0_DATA12
DV1_DATA4 Used on option board CN9-6
C12 LVDSAPVcc C13 VRM A/D converter BOTTOM reference voltage
pin for video signal input -
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-5
Dec. 19, 2013
Table 2.2.4 R7S72100 Pin Functions (4)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
C14 REXT A/D converter reference voltage pin for video signal input
- 22k Ω±1%
C15 Vss Connected to EEPROM SDA2 C16 P1_5 / SDA2 / DV1_CLK / CRx4 /
IRQ5 / VIO_CLK / LCD1_EXTCLK DV1_CLK
Used on option board CN8-17
C17 P1_1 / SDA0 / DV0_DATA17 / TCLKC / IRQ1 / VIO_HD / DV0_HSYNC
SDA0 Used on option board CN8-13
SPBIO21_0 Connected to serial flash memory 2 C18 P2_14 / D30 / MOSI0 / DV0_DATA14 / SPBIO21_0 / CRx4 / TxD0 / LCD1_DATA14 / IRQ0
LCD1_DATA14 Used on option board CN8-10
C19 PVcc C20 Vss
ET_RXD1 Connected to Ethernet PHY - SW2-1: ON LRXD0
C21 P2_9 / D25 / ET_RXD1 / DV0_DATA9 / SSIWS0 / LRXD0 / LCD1_DATA9 / VIO_D9 / SSL40 LCD1_DATA9
Used on option board CN7-31 SW2-1: OFF
ET_TXD3 Connected to Ethernet PHY - SW2-1: ON C22 P2_7 / D23 / ET_TXD3 / DV0_DATA7 / SSITxD5 / IETxD/RTS1 / VIO_D7 / LCD0_DATA23
SSITxD5 Used on option board CN7-29 SW2-1: OFF
D1 P6_7 / D7 / LCD1_DATA15 / LCD0_TCON6 / RxD5 / MISO1 / DV0_DATA23
D7 Data bus CN1-12
D2 P6_6 / D6 / LCD1_DATA14 / LCD0_TCON5 / TxD5 / MOSI1 / DV0_DATA22
D6 Data bus CN1-13
D3 Vcc D4 Vss D5 P6_3 / D3 / LCD1_DATA11 /
LTXD1 / IRQ2 / CTS5 / TIOC2B / TxD2 / DV0_DATA19
D3 Data bus CN1-17
D6 P6_1 / D1 / LCD1_DATA9 / LTXD0 / IRQ4 / TIOC1B / SSIDATA4 / TxD3 / DV0_DATA17
D1 Data bus CN1-19
D7 PVcc D8 PVcc D9 LVDSPLLVcc
D10 Vss D11 LVDSREFRIN - 5.6k Ω±1% D12 LVDSAPVcc D13 Vcc D14 VRP A/D converter TOP reference voltage pin
for video signal input -
D15 Vss D16 PVcc D17 PVcc D18 PVcc D19 Vss
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-6
Dec. 19, 2013
Table2.2.5 R7S72100 Pin Functions (5)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
ET_RXD0 Connected to Ethernet PHY - SW2-1: ON D20 P2_8 / D24 / ET_RXD0 / DV0_DATA8 /SSISCK0 / LCD0_TCON6 / LCD1_DATA8 / VIO_D8 / RSPCK4
LCD1_DATA8 Used on option board CN7-32 SW2-1: OFF
DV0_DATA11 LCD0_DATA8
D21 P10_15 / DV0_DATA11 / SSITxD1 / MISO0 / LCD0_DATA8 / VIO_D11 VIO_D11
Used on option board CN7-11
DV0_DATA10 LCD0_DATA9
D22 P10_14 / DV0_DATA10 / SSIRxD1 / MOSI0 / LCD0_DATA9 / VIO_D10 VIO_D10
Used on option board CN7-12
E1 P6_10 / D10 / DV0_DATA14 / LCD0_TCON5 / RxD0 / LCD0_DATA2 / IRQ2
D10 Data bus CN1-8
E2 P6_9 / D9 / DV0_DATA13 / TxD0 / LCD0_DATA1 / IRQ1
D9 Data bus CN1-9
E3 P6_8 / D8 / DV0_DATA12 / CAN_CLK / SCK0 / LCD0_DATA0 / IRQ0
D8 Data bus CN1-10
E4 Vcc ET_RXD3 Connected to Ethernet PHY - SW2-1: ON P2_11
E19 P2_11 / D27 / ET_RXD3 / DV0_DATA11 /SSITxD0 / TIOC1A / LCD1_DATA11 / VIO_D11 / MISO4
LCD1_DATA11 Used on option board CN7-33 SW2-1: OFF
ET_TXD2 Connected to Ethernet PHY - SW2-1: ON E20 P2_6 / D22 / ET_TXD2 / DV0_DATA6 / SSIRxD5 / RxD1 / VIO_D6 / LCD0_DATA22
SSIRxD5 Used on option board CN7-30 SW2-1: OFF
DV0_DATA8 LCD0_DATA11
E21 P10_12 / DV0_DATA8 / SSISCK1 / RSPCK0 / LCD0_DATA11 / VIO_D8 VIO_D8
Used on option board CN7-10
ET_TXD1 Connected to Ethernet PHY - SW2-1: ON E22 P2_5 / D21 / ET_TXD1 / DV0_DATA5 / SSIWS5 / SPBSSL_1 / TxD1 / VIO_D5 / LCD0_DATA21
SSIWS5 Used on option board CN7-27 SW2-1: OFF
F1 P6_14 / D14 / DV0_DATA22 / TxD6 / LCD0_DATA6 / IRQ6
D14 Data bus CN1-3
F2 P6_13 / D13 / DV0_DATA21 / SCK6 / RXD1 / LCD0_DATA5 / IRQ5
D13 Data bus CN1-4
F3 P6_11 / D11 / DV0_DATA15 / LCD0_TCON6 / SCK1 / LCD0_DATA3 / IRQ3
D11 Data bus CN1-7
F4 Vcc ET_TXD0 Connected to Ethernet PHY - SW2-1: ON F19 P2_4 / D20 / ET_TXD0 /
DV0_DATA4 / SSISCK5 / SPBCLK_1 / SCK1 / VIO_D4 / LCD0_DATA20
SSISCK5 Used on option board CN7-28 SW2-1: OFF
DV0_DATA9 LCD0_DATA10
F20 P10_13 / DV0_DATA9 / SSIWS1 / SSL00 / LCD0_DATA10 / VIO_D9 VIO_D9
Used on option board CN7-9
: 3.3V systempower supply, : 1.18V system power supply, : GND,
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-7
Dec. 19, 2013
Table2.2.6 R7S72100 Pin Functions (6)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
ET_TXEN Connected to Ethernet PHY - SW2-1: ON F21 P2_2 / D18 / ET_TXEN / DV0_DATA2 / SPBIO20_1 / MLB_SIG / TIOC2B / VIO_D2 / LCD0_DATA18
MLB_SIG Connected to MOST I/F connector CN7-26 SW2-1: OFF
SD_D2_0 Connected to SD card slot DAT2 pin LCD1_TCON2
F22 P4_15 / LCD0_DATA23 / LCD1_TCON2 / SD_D2_0 / MMC_D2 / SPBIO31_1 / SSITxD3 / RxD2 / IRQ7
SSITxD3 Used on option board
CN7-19
G1 P11_13 / CTx1 / SSL10 / LCD0_TCON4 / MMC_D5 / LCD0_TCON1
LCD0_TCON1 Used on option board CN2-19
G2 P11_12 / CRx1 / RSPCK1 / IRQ3 / MMC_D4 / LCD0_TCON2
LCD0_TCON2 Used on option board CN2-20
G3 P6_15 / D15 / DV0_DATA23 / RxD6 / LCD0_DATA7 / IRQ7
D15 Data bus CN1-2
G4 P6_12 / D12 / DV0_DATA20 / TXD1 / LCD0_DATA4 / IRQ4
D12 Data bus CN1-5
SD_D3_0 Connected to SD card slot G19 P4_14 / LCD0_DATA22 / LCD1_TCON1 / SD_D3_0 / MMC_D3 / SPBIO21_1 / SSIRxD3 / TxD2 / IRQ6
LCD1_TCON1 Used on option board CN7-20
ET_CRS Connected to Ethernet PHY - SW2-1: ON G20 P2_3 / D19 / ET_CRS / DV0_DATA3 / SPBIO30_1 / IERxD / CTS1 / VIO_D3 / LCD0_DATA19
P2_3 Connected to MOST I/F connector (resetcontrol)
CN7-25 SW2-1: OFF
SD_CMD_0 Connected to SD card slot LCD1_TCON0
G21 P4_13 / LCD0_DATA21 / LCD1_TCON0 / SD_CMD_0 / MMC_CMD / SPBIO11_1 / SSIWS3 / RxD1 / IRQ5
SSIWS3 Used on option board
CN7-17
G22 Vss RAS Connected to SDRAM 1 and 2 JP1: Open H1 P7_2 / RAS / DV0_DATA18 /
ET_TXER / RXD4 / CRx2 / SSIWS1 / TIOC0C
CRx2 Connected to CAN transceiver CN2-28
JP1: Short
H2 P7_1 / CS3 / DV0_DATA17 / ET_TXCLK / TXD4 / DV0_CLK / SSISCK1 / TIOC0B
CS3 Connected to SDRAM 2 CN2-29
H3 P11_14 / SPDIF_IN / MOSI1 / LCD0_TCON5 / MMC_D6 / LCD0_TCON0
LCD0_TCON0 Used on option board CN2-18
MD_BOOT2 Connected to DIPSW as a boot mode input SW1-3 JP5: 1-2
H4 P7_0 / MD_BOOT2 / CS0 / DV0_DATA16 / ET_MDC / SCK4 / LTXD0 / TIOC0A CS0 Connected to NOR flash memroy 1
CN2-30
JP5: 2-3 SD_D0_0 Connected to SD card slot H19 P4_11 / LCD0_DATA19 /
LCD1_TCON6 / SD_D0_0 / MMC_D0 / SSITxD5 / CTx4 / SCK1 / IRQ3
LCD1_TCON6 Used on option board CN7-15
DV0_DATA7 LCD0_DATA12
H20 P10_11 / DV0_DATA7 / TIOC2B / ET_RXD3 / LCD0_DATA12 / VIO_D7 VIO_D7
Used on option board CN7-7
DV0_DATA6 LCD0_DATA13
H21 P10_10 / DV0_DATA6 / TIOC2A / ET_RXD2 / LCD0_DATA13 / VIO_D6 VIO_D6
Used on option board CN7-8
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-8
Dec. 19, 2013
Table2.2.7 R7S72100 Pin Functions (7)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
SD_CLK_0 Connected to SD card slot LCD1_CLK
H22 P4_12 / LCD0_DATA20 / LCD1_CLK / SD_CLK_0 / MMC_CLK / SPBIO10_1 / SSISCK3 / TxD1 / IRQ4
SSISCK3 Used on option board
CN7-18
RD/WR Connected to SDRAM 1 and 2 J1 P7_5 / RD/WR / DV0_DATA21 / ET_TXD1 / RXD7 / SSISCK2 / TIOC1B
RxD7 Used on option board CN2-25
CKE Connected to SDRAM 1 and 2 J2 P7_4 / CKE / DV0_DATA20 / ET_TXD0 / TXD7 / SSITxD1 / TIOC1A
TxD7 Used on option board CN2-26
CAS Connected to SDRAM 1 and 2 J3 P7_3 / CAS / DV0_DATA19 / ET_TXEN / SCK7 / CTx2 / SSIRxD1 / TIOC0D
CTx2 Connected to CAN transceiver CN2-27
J4 P11_15 / SPDIF_OUT / MISO1 / IRQ1 / MMC_D7 / LCD0_CLK
LCD0_CLK Used on option board CN2-17
J9 Vss J10 Vss J11 Vss J12 Vss J13 Vss J14 Vss J19 Vcc
DV0_DATA5 LCD0_DATA14
J20 P10_9 / DV0_DATA5 / TIOC1B / ET_RXD1 / LCD0_DATA14 / VIO_D5 VIO_D5
Used on option board CN7-5
DV0_DATA4 LCD0_DATA15
J21 P10_8 / DV0_DATA4 / TIOC1A / ET_RXD0 / LCD0_DATA15 / VIO_D4 VIO_D4
Used on option board CN7-6
SD_D1_0 Connected to SD card slot J22 P4_10 / LCD0_DATA18 / LCD1_TCON5 / SD_D1_0 / MMC_D1 / SSIRxD5 / RxD0 / IRQ2
LCD1_TCON5 Used on option board CN7-16
K1 P7_9 / A1 / SSIWS3 / ET_RXD0 / CTx0 / TIOC3B / IRQ0
A1 Address bus CN3-30
Connected to SDRAM 1 and 2 WE1/DQMLU Connected to NOR flash memory 1 and 2
K2 P7_7 / WE1/DQMLU / DV0_DATA23 / ET_TXD3 / RTS7 / SSIDATA2 / TIOC2B RTS7 Used on option board
CN2-23
WE0/DQMLL Connected to SDRAM 1 and 2 K3 P7_6 / WE0/DQMLL / DV0_DATA22 / ET_TXD2 / CTS7 / SSIWS2 / TIOC2A
CTS7 Used on option board CN2-24
RD Connected to NOR flash memory 1 and 2 K4 P7_8 / RD / SSISCK3 / CRx0 / TIOC3A / IRQ1 P7_8 Used on option board
CN2-22
K9 Vss K10 Vss K11 Vss K12 Vss K13 Vss K14 Vss K19 Vcc
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-9
Dec. 19, 2013
Table2.2.8 R7S72100 Pin Functions (8)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
SD_CD_0 Connected to SD card slot K20 P4_8 / LCD0_DATA16 / LCD1_TCON3 / SD_CD_0 / MMC_CD / SSISCK5 / CTx2 / SCK0 / IRQ0
LCD1_TCON3 Used on option board CN7-14
SD_WP_0 Connected to SD card slot K21 P4_9 / LCD0_DATA17 / LCD1_TCON4 / SD_WP_0 / SSIWS5 / CRx2 / TxD0 / IRQ1
LCD1_TCON4 Used on option board CN7-13
ET_TXER Connected to Ethernet PHY - SW2-1: ON K22 P2_1 / D17 / ET_TXER / DV0_DATA1 / SPBIO10_1 / MLB_DAT / TIOC2A / VIO_D1 / LCD0_DATA17
MLB_DAT Connected to MOST I/F connector CN7-23 SW2-1: OFF
DV0_DATA17 SSIWS4
L1 P11_5 / DV0_DATA17 / SD_WP_0 / SSIWS4 / LCD0_DATA2 LCD0_DATA2
Used on option board CN2-13
L2 P7_11 / A3 / SSITxD3 / ET_RXD2 / CRx1 / TIOC3D / IRQ3
A3 Address bus CN3-28
L3 P7_10 / A2 / SSIRxD3 / ET_RXD1 / CTx1 / TIOC3C / IRQ2
A2 Address bus CN3-29
DV0_DATA16 SSISCK4
L4 P11_4 / DV0_DATA16 / SD_CD_0 / SSISCK4 / MMC_CD / LCD0_DATA3 LCD0_DATA3
Used on option board CN2-14
L9 Vss L10 Vss L11 Vss L12 Vss L13 Vss L14 Vss L19 PVcc
SSITxD0 Connected to audio CODEC (WM8978) - SW2-2: ON L20 P4_7 / LCD0_DATA15 / MISO1 / TIOC4D / PWM2H / SSITxD0 / DV0_DATA15
CN6-29 SW2-2: OFF
ET_TXCLK Connected to Ethernet PHY - SW2-1: ON L21 P2_0 / D16 / ET_TXCLK / DV0_DATA0 / SPBIO00_1 / MLB_CLK / IRQ5 / VIO_D0 / LCD0_DATA16
MLB_CLK Connected to MOST I/F connector CN7-24 SW2-1: OFF
SSIRxD0 Connected to audio CODEC (WM8978) - SW2-2: ON L22 P4_6 / LCD0_DATA14 / MOSI1 / TIOC4C / PWM2G / SSIRxD0 / DV0_DATA14
CN6-30 SW2-2: OFF
M1 P7_12 / A4 / SSISCK4 / ET_RXD3 / TIOC4A / IRQ4
A4 Address bus CN3-27
DV0_DATA18 SSIDATA4
M2 P11_6 / DV0_DATA18 / SD_D1_0 / SSIDATA4 / MMC_D1 / LCD0_DATA1 LCD0_DATA1
Used on option board CN2-12
DV0_DATA19 M3 P11_7 / DV0_DATA19 / SD_D0_0 / CTS5 / MMC_D0 / LCD0_DATA0
LCD0_DATA0 Used on option board CN2-11
M4 Vcc M9 Vss
M10 Vss M11 Vss
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-10
Dec. 19, 2013
Table2.2.9 R7S72100 Pin Functions (9)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
M12 Vss M13 Vss M14 Vss M19 PVcc
SSIWS0 Connected to audio CODEC (WM8978) - SW2-2: ON M20 P4_5 / LCD0_DATA13 / SSL10 / TIOC4B / PWM2F / SSIWS0 / DV0_DATA13
CN6-27 SW2-2: OFF
SSISCK0 Connected to audio CODEC (WM8978) - SW2-2: ON M21 P4_4 / LCD0_DATA12 / RSPCK1 / TIOC4A / PWM2E / SSISCK0 / DV0_DATA12
CN6-28 SW2-2: OFF
DV0_DATA3 LCD0_DATA16
M22 P10_7 / DV0_DATA3 / TIOC0D / PWM2H / ET_TXD3 / LCD0_DATA16 / VIO_D3 VIO_D3
Used on option board CN6-23
N1 P7_13 / A5 / SSIWS4 / ET_MDIO / TIOC4B / IRQ5
A5 Address bus CN3-26
N2 P7_14 / A6 / SSIDATA4 / ET_CRS / TIOC4C / IRQ6
A6 Address bus CN3-25
N3 P7_15 / A7 / RSPCK0 / ET_RXCLK / CTS5 / SCI_TXD0 / TIOC4D
A7 Address bus CN3-24
N4 PVcc N9 Vss
N10 Vss N11 Vss N12 Vss N13 Vss N14 Vss
DV0_DATA0 LCD0_DATA19
N19 P10_4 / DV0_DATA0 / TIOC0A / PWM2E / ET_TXD0 / LCD0_DATA19 / VIO_D0 VIO_D0
Used on option board CN6-22
DV0_DATA1 LCD0_DATA18
N20 P10_5 / DV0_DATA1 / TIOC0B / PWM2F / ET_TXD1 / LCD0_DATA18 / VIO_D1 VIO_D1
Used on option board CN6-21
DV0_DATA2 LCD0_DATA17
N21 P10_6 / DV0_DATA2 / TIOC0C / PWM2G / ET_TXD2 / LCD0_DATA17 / VIO_D2 VIO_D2
Used on option board CN6-24
FWE Connected to NAND flash memory MMC_D7 Connected to MMC card slot
Connected to audio CODEC (WM8978)
N22 P4_3 / LCD0_DATA11 / TIOC0D / FWE / CTx3 / RxD2 / MISO4 / MMC_D7 MISO4
Used on option board
CN6-17
P1 P8_0 / A8 / SSL00 / ET_RXER / SCK5 / SCI_SCK0
A8 Address bus CN3-23
P2 P8_1 / A9 / MOSI0 / ET_RXDV / TXD5 / SCI_RXD0
A9 Address bus CN3-21
P3 P8_2 / A10 / MISO0 / RXD5 / IRQ0
A10 Address bus CN3-20
P4 PVcc P9 Vss
P10 Vss P11 Vss P12 Vss P13 Vss
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-11
Dec. 19, 2013
Table2.2.10 R7S72100 Pin Functions (10)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
P14 Vss P19 Vss
FRE Connected to NAND flash memory MMC_D4 Connected to MMC card slot
Connected to audio CODEC (WM8978)
P20 P4_0 / LCD0_DATA8 / TIOC0A / FRE / RSPCK4 / MMC_D4
RSPCK4 Used on option board
CN6-16
FALE Connected to NAND flash memory MMC_D6 Connected to MMC card slot
Connected to audio CODEC (WM8978)
P21 P4_2 / LCD0_DATA10 / TIOC0C / FALE / CRx3 / TxD2 / MOSI4 / MMC_D6 MOSI4
Used on option board
CN6-18
FCLE Connected to NAND flash memory MMC_D5 Connected to MMC card slot
JP10: Open P22 P4_1 / LCD0_DATA9 / TIOC0B / FCLE / SCK2 / SSL40 / MMC_D5
SSL40 Connected to audio CODEC (WM8978)
CN6-15
JP10: Short R1 P8_3 / A11 / DV1_DATA0 /
RSPCK2 / RTS5 / IRQ1 / SCK2 A11 Address bus CN3-19
R2 P8_4 / A12 / DV1_DATA1 / SSL20 / IERxD / RxD2
A12 Address bus CN3-18
R3 P8_5 / A13 / DV1_DATA2 / MOSI2
A13 Address bus CN3-17
R4 Vcc R19 Vcc
NAF7 Connected to NAND flash memory SD_D2_1
R20 P3_15 / LCD0_DATA7 / NAF7 / TRACECTL / SD_D2_1 / MMC_D2 MMC_D2
Connected to MMC card slot CN6-11
NAF6 Connected to NAND flash memory SD_D3_1 MMC_D3
Connected to MMC card slot R21 P3_14 / LCD0_DATA6 / NAF6 /
TRACECLK / SD_D3_1 / MMC_D3
TRACECLK Connected to UDI connector
CN6-12
NAF5 Connected to NAND flash memory SD_CMD_1
R22 P3_13 / LCD0_DATA5 / NAF5 / AUDIO_XOUT / SD_CMD_1 / MMC_CMD MMC_CMD
Connected to MMC card slot CN6-9
DV0_DATA20 T1 P11_8 / DV0_DATA20 / SD_CLK_0 / RTS5 / MMC_CLK / LCD0_TCON6
LCD0_TCON6 Used on option board CN2-8
DV0_DATA21 T2 P11_9 / DV0_DATA21 / SD_CMD_0 / SCK5 / MMC_CMD / LCD0_TCON5
LCD0_TCON5 Used on option board CN2-7
DV0_DATA22 T3 P11_10 / DV0_DATA22 / SD_D3_0 / TxD5 / MMC_D3 / LCD0_TCON4
LCD0_TCON4 Used on option board CN2-6
T4 Vcc T19 Vcc
NAF2 Connected to NAND flash memory SD_D1_1 MMC_D1
Connected to MMC card slot T20 P3_10 / LCD0_DATA2 / NAF2 /
TRACEDATA2 / TIOC4C / SD_D1_1 / MMC_D1
TRACEDATA2 Connected to UDI connector
CN6-4
NAF3 Connected to NAND flash memory SD_D0_1 MMC_D0
Connected to MMC card slot T21 P3_11 / LCD0_DATA3 / NAF3 /
TRACEDATA3 / TIOC4D / SD_D0_1 / MMC_D
TRACEDATA3 Connected to UDI connector
CN6-3
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-12
Dec. 19, 2013
Table2.2.11 R7S72100 Pin Functions (11)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
NAF4 Connected to NAND flash memory SD_CLK_1
T22 P3_12 / LCD0_DATA4 / NAF4 / SD_CLK_1 / MMC_CLK
MMC_CLK Connected to MMC card slot
CN6-10
U1 Vss U2 P8_6 / A14 / DV1_DATA3 /
MISO2 / IETxD / TxD2 A14 Address bus CN3-16
DV0_DATA23 U3 P11_11 / DV0_DATA23 / SD_D2_0 / RxD5 / MMC_D2 / LCD0_TCON3
LCD0_TCON3 Used on option board CN2-5
U4 P8_7 / A15 / DV1_DATA4 / AUDIO_XOUT / IRQ5 / ET_COL
A15 Address bus CN3-15
U19 Vcc U20 JP0_1 / TDO TD0 Test data output - U21 TCK Test clock - U22 Vss V1 CKIO Connected to SDRAM 1 and 2 CN2-2
A16 Address bus JP2: 1-2 V2 P8_8 / A16 / DV1_DATA5 / SPBIO00_1 / SPDIF_IN / TIOC1A / PWM1A / TxD3 / SSISCK5
SPDIF_IN Connected to TOSLINK connector CN3-14
JP2: 2-3
A17 Address bus V3 P8_9 / A17 / DV1_DATA6 / SPBIO10_1 / SPDIF_OUT / TIOC1B / PWM1B / RxD3 / SSIWS5
SPDIF_OUT Connected to TOSLINK connector CN3-12
A21 Address bus JP8: Open V4 P8_13 / A21 / SPBSSL_1 / TIOC3D / TXD5 / PWM1F / SGOUT_3 / SSIWS4
SPBSSL_1 Connected to serial flash memory 3 CN3-8
JP8: Short
NAF0 Connected to NAND flash memory SD_CD_1 MMC_CD
Connected to MMC card slot V19 P3_8 / LCD0_DATA0 / NAF0 /
TRACEDATA0 / TIOC4A / SD_CD_1 / MMC_CD
TRACEDATA0 Connected to UDI connector
CN6-2
V20 TRST# Initialization signal input pin - V21 JP0_0 / TDI TDI Test data input -
V22 TMS Test mode select -
W1 Vss A18 Address bus W2 P8_10 / A18 / DV1_DATA7 /
SPBIO20_1 / TIOC3A / CTx4 / PWM1C / SGOUT_0 / SSITxD5
SPBIO20_1 Connected to serial flash memory 3 CN3-11
A19 Address bus W3 P8_11 / A19 / SPBIO30_1 / TIOC3B / RxD5 / PWM1D / SGOUT_1 / DV0_CLK
SPBIO30_1 Connected to serial flash memory 3 CN3-10
W4 PVcc W5 PVcc W6 PVcc W7 Vss W8 Vss W9 Vcc
W10 Vcc W11 Vss W12 PVcc W13 PVcc W14 PLLVcc
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-13
Dec. 19, 2013
Table2.2.12 R7S72100 Pin Functions (12)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
W15 Vss W16 Vss W17 AVss CN5-13, 14 W18 AVcc CN5-9, 10 W19 PVcc
NAF1 Connected to NAND flash memory SD_WP_1 Connected to MMC card slot
W20 P3_9 / LCD0_DATA1 / NAF1 / TRACEDATA1 / TIOC4B / SD_WP_1 / IRQ6 TRACEDATA1 Connected to UDI connector
CN6-1
W21 AUDIO_X2 Open - W22 AUDIO_X1 Connected to audio external clock - 22.5792MHz
A20 Address bus Y1 P8_12 / A20 / SPBCLK_1 / TIOC3C / SCK5 / PWM1E / SGOUT_2 / SSISCK4
SPBCLK_1 Connected to serial flash memory 3 CN3-9
A22 Address bus Y2 P8_14 / A22 / SPBIO01_0 / SPBIO00_1 / TIOC2A / RSPCK2 / PWM1G / TxD4 / SSIDATA4
SPBIO01_0 Connected to serial flash memory 3 CN3-7
Y3 PVcc LCD1_EXTCLK Connected to external clock for LCD panel Empty socket
JP6: 1-2 Y4 P3_7 / LCD0_TCON6 / SSITxD1 /
LCD1_EXTCLK / SCI_CTS0/RTS0 / TIOC3D / CS1 / WDTOVF
CS1 Connected to NOR flash memory 2
CN4-13
JP6: 2-3
ET_RXCLK Connected to Ethernet PHY - SW2-1: ON SSISCK1
SCI_SCK0
Y5 P3_4 / LCD0_TCON3 / ET_RXCLK / SSISCK1 / AUDIO_XOUT2 / SCI_SCK0 / TIOC3A / SCK3 SCK3
Used on option board CN4-12 SW2-1: OFF
DV0_HSYNC LCD0_DATA21
Y6 P10_2 / DV0_HSYNC / TCLKC / PWM2C / ET_TXEN / LCD0_DATA21 / VIO_HD VIO_HD
Used on option board CN4-18
Connected to D-sub 9-pin connector via RS-232C transceiver
JP12: 1-2 Y7 P3_2 / LCD0_TCON1 / ET_TXEN / RxD2 / SCI_RXD1 / TEND0 / PWM2C / MOSI3
RxD2
Connected to USB mini-B connector via USB serial conversion IC
CN4-8
JP12: 2-3
Y8 RES# Connected to reset input switch CN4-2 Y9 NMI Connected to non-maskable interrupt
switch CN4-1
Y10 Vss Y11 VBUSIN1 USB channel 1VBUS input - JP11 Y12 VBUSIN0 USB channel 0VBUS input CN5-17, 18 JP9 Y13 USBAVcc Transceiver analog core power supply Y14 Vss Y15 P0_0 / MD_BOOT0 MD_BOOT0 Connected to DIPSW as a boot mode input - SW1-1 Y16 P0_1 / MD_BOOT1 MD_BOOT1 Connected to DIPSW as a boot mode input - SW1-2 Y17 P1_10 / AN2 / IRQ4 / TCLKB AN2 Used on option board CN5-16 Y18 P1_13 / AN5 / DV0_HSYNC /
WAIT P1_13 Used on option board CN5-11
Y19 P1_15 / AN7 P1_15 Connected to Ethernet PHY (INT / GPIO4) CN5-7 Y20 PVcc Y21 VIDEO_X2 Open - Y22 VIDEO_X1 Connects external clock for video decoder - 27MHz
A23 Address bus AA1 P8_15 / A23 / SPBIO11_0 / SPBIO10_1 / TIOC2B / SSL20 / PWM1H / RxD4
SPBIO11_0 Connected to serial flash memory 3 CN3-6
AA2 PVcc
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-14
Dec. 19, 2013
Table2.2.13 R7S72100 Pin Functions (13)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
AA3 P9_1 / A25 / SPBIO31_0 / CRx0 / IRQ0 / MISO2
A25 Address bus CN3-3
ET_RXER Connected to Ethernet PHY - SW2-1: ON SSIWS1
SCI_TXD0
AA4 P3_5 / LCD0_TCON4 / ET_RXER / SSIWS1 / AUDIO_XOUT3 / SCI_TXD0 / TIOC3B / TxD3 TxD3
Used on option board CN4-11 SW2-1: OFF
DV0_VSYNC LCD0_DATA22
AA5 P10_1 / DV0_VSYNC / TCLKB / PWM2B / ET_TXER / LCD0_DATA22 / VIO_VD VIO_VD
Used on option board CN4-19
ET_MDIO Connected to Ethernet PHY - SW2-1: ON AA6 P3_3 / LCD0_TCON2 / ET_MDIO / IRQ4 / BS / SCI_CTS1 / RTS1 / DACK0 / PWM2D / MISO3
P3_3 Used on option board CN4-7 SW2-1: OFF
Connected to interrupt switch - JP3: 1-2 IRQ6 AA7 P3_1 / LCD0_TCON0 / ET_TXER / IRQ6 / TxD2 / SCI_TXD1 / AUDIO_CLK / PWM2B / SSL30
AUDIO_CLK Used on option board CN4-5 JP3: 2-3
AA8 RTC_X2 Connects RTC resonator - 32.768KHz AA9 P0_5 / RTC_X4 RTC_X4 Open - AA10 Vss AA11 DM_1 USB channel 1 differential signal D- data - AA12 DP_0 USB channel 0 differential sibnal D+ data - AA13 REFRIN Reference input - 5.6k Ω±1% AA14 Vss AA15 USB_X2 Open - AA16 XTAL Open - AA17 P1_8 / AN0 / IRQ2 / DREQ0 /
VIO_D14 / DV0_DATA14 AN0 Used on option board CN5-20
AA18 P1_11 / AN3 / IRQ5 / TCLKD AN3 Used on option board CN5-15 AA19 P1_14 / AN6 / ET_COL ET_COL Connected to Ethernet PHY CN5-8 AA20 AVcc CN5-9, 10 AA21 PVcc AA22 BSCANP Connected to DIPSW as a pin for boundary
scan mode setting - SW2-3
AB1 PVcc AB2 P9_0 / A24 / SPBIO21_0 / CTx0 /
TCLKC / MOSI2 A24 Address bus CN3-5
ET_RXDV Connected to Ethernet PHY - SW2-1: ON SSIRxD1
SCI_RXD0
AB3 P3_6 / LCD0_TCON5 / ET_RXDV / SSIRxD1 / SCI_RXD0 / TIOC3C / RxD3
RxD3
Used on option board CN4-14 SW2-1: OFF
DV0_CLK LCD0_DATA23
AB4 P10_0 / DV0_CLK / TCLKA / PWM2A / ET_TXCLK / LCD0_DATA23 / VIO_CLK VIO_CLK
Used on option board CN4-20
LCD0_DATA20 AB5 P10_3 / TCLKD / PWM2D / ET_CRS / LCD0_DATA20 / VIO_FLD
P10_3 Used on option board CN4-17
Connected to D-sub 9-pin via RS-232C transceiver
JP13: 1-2 AB6 P3_0 / LCD0_CLK / ET_TXCLK / IRQ2 / SCK2 / SCI_SCK1 / TxD2 / PWM2A / RSPCK3
TxD2
Connected to USB mini-B connector via USB serial conversion IC
CN4-6
JP13: 2-3
AB7 Vss
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-15
Dec. 19, 2013
Table2.2.14 R7S72100 Pin Functions (14)
Pin No.
Pin Name Function Description Expansion Connector
Remarks
AB8 RTC_X1 Conntects RTC resonator - 32.768KHz AB9 P0_4 / RTC_X3 RTC_X3 Connects RTC external clock - 4MHz AB10 Vss AB11 DP_1 USB channel 1 differential signal D+ data - AB12 DM_0 USB channel 0 differential signal D- data - AB13 Vss AB14 USBAPVcc Transceiver analog pin power supply AB15 USB_X1 Connects USB external clock - 48MHz AB16 EXTAL Connects crystal resonator as a system
clock source - 13.33MHz
AB17 Vss AB18 P1_9 / AN1 / IRQ3 / VIO_D15 /
DV0_DATA15 AN1 Used on option board CN5-19
AB19 P1_12 / AN4 / DV0_VSYNC / VIO_FLD
P1_12 Used on option board CN5-12
AB20 AVss CN5-13, 14 AB21 AVref ADC analog reference voltage AB22 Vss
: 3.3V systempower supply, : 1.18V system power supply, : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-16
Dec. 19, 2013
2.2.3 RTK772100BC00000BR Module Applicability Table2.2.15 lists the RTK772100BC00000BR Module Applicability. The symbol of "Y" in the table indicates that both modules can be used in combination, and the "N" indicates that combination use is not applicable. Table2.2.15 RTK772100BC00000BR Module Applicability
R7S72100PeripheralFunction
Part No. Module Name
NO
R fl
ash
mem
ory
1 N
OR
flas
h m
emor
y 2
SD
RAM
1 S
DR
AM2
Ser
ial f
lash
mem
ory
1 an
d 2
Ser
ial f
lash
mem
ory
3 N
AND
flas
h m
emor
y E
EPR
OM
USB
Eth
erne
t V
ideo
inpu
t L
CD
out
put
Aud
io C
OD
EC C
AN1
CAN
2 S
D c
ard
slot
MM
C c
ard
slot
LVD
S o
utpu
t T
OSL
INK
MO
ST C
oreS
ight
20
AR
M J
TAG
20
IRQ
6 sw
itch
Ser
ial p
ort
BSC U2 NOR flash memory 1(connected with CS0) Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y
BSC U3 NOR flash memory 2(connected with CS1) Y Y Y Y N Y Y Y Y Y *1 Y Y Y Y Y Y N Y Y Y Y Y
BSC U4 SDRAM1 (connected with CS2) Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y YBSC U5 SDRAM2 (connected with CS3) Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y
SPIBSC U6, U7 Serial flash memory 1 and 2(connected with SPIBSC0) Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y
SPIBSC U8 Serial flash memory 3(connected with SPIBSC1) N N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y
FLCTL U9 NAND flash memory Y Y Y Y Y Y Y Y Y Y Y N Y Y Y N N Y Y N Y Y YRIIC U10 EEPROM Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YUSB J5, J8 USB Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YETHER U20 Ethernet Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y N Y Y Y YDVDEC J1 Video input Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YVDC5 X9 LCD output (LCD1_EXTCLK) Y *1 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YSSIF, RSPI U19 Audio CODEC Y Y Y Y Y Y N Y Y Y Y Y Y Y Y N Y Y Y Y Y Y YRSCAN U21 CAN1 Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y YRSCAN U24 CAN2 Y Y N N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YSDHI0,MMCIF J11 SD card slot (4-bit) Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y
SDHI1,MMCIF J15 MMC card slot (8-bit) Y Y Y Y Y Y N Y Y Y Y Y N Y Y Y Y Y Y N Y Y Y
LVDS J14 LVDS output Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YRSPDIF U26 TOSLINK N N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YMLB J3 MOST Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y YUDI J21 CoreSight 20 Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y N Y Y Y N Y YUDI J22 ARM JTAG 20 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y YINTC SW6 IRQ6 switch Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y YSCIF J17, J19 Serial port Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y
*1: P3_7 / CS1 / LCD1_EXTCLK is a common terminal. When LCD1_EXTCLK is not used, it may be used in combination.
RTK772100BC00000BR
RTK
7721
00BC
0000
0BR
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-17
Dec. 19, 2013
2.3 Memories The RTK772100BC00000BR includes NOR flash memory, SDRAM, serial memory and EEPROM as external memories other than the R7S72100 on-chip RAM. The details are described as follows.
2.3.1 R7S72100 On-Chip RAM The R7S72100 includes a 2MB high-speed RAM with high-speed access, a 10MB large-capacity on-chip RAM, and a 128KB data-retention RAM as on-chip memories.
2.3.2 NOR Flash Memory Interface The RTK772100BC00000BR generally includes two NOR flash memories (listed in Table2.3.1) to store the user program. The NOR flash memories are controlled by the bus state controller (BSC) which is embedded in the R7S72100. The NOR flash memories and the BSC are connected by 16-bit bus width. The R7S72100 address pins (A23 to A18) are in common with the SPI multi I/O interface (SPIBSC) channel 1 pin. When applying the NOR flash memories, the serial flash memory 3 cannot be used. JP8 should be disconnected. The R7S72100 address pin (A16) is in common with the Renesasn SPDIF interface (RSPDIF) pin. When applying the NOR flash memories, the TOSLINK connector cannot be used. Figure 2.3.1 shows the NOR Flash Memory Block Diagram, and Table2.3.2 lists the JP2, JP5, JP6 and JP8 Function Settings. Table2.3.1 NOR Flash Memory Overview
NOR No. Bus Size Capacity Access Time S29GL512S10T 16 bits 64MB (16 bits×32M words) 100ns
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-18
Dec. 19, 2013
R7S72100 (U1) NOR flash memory 1 (U2)
16
A24-A20
DQ15-DQ0P6_15-P6_0 / D15-D0
3.3V
P7_8 / RD#
P7_6 / WE0# / DQMLL NC
CE#
OE#
WE# RY/BY#
RESET# RES#WP#
Note: Letters in Red indicate functions in use.
P9_1-0 & P8_15-13 / A25-A21
A19-A16
P7_0 / MD_BOOT2 / CS0#
3.3V
213
JP5
3.3V
DIP SW1-3
5
4
P3_7 / LCD1_EXTCLK / CS1#
NOR flash memory 2 (U3)
A24-A20, A15
DQ15-DQ0
3.3V
3.3V
NC
CE#
OE#
WE# RY/BY#
RESET# RES#WP#
A19-A16, A14-A0
3.3V
3.3V
213
JP6
CLKSocket(X9)
: Optional
A17: To TOSLINK connector1
A23-A18: To serial flash memory 36
To expansion connectors45
JP8A21 SPBSSL_1
231
JP2
P8_8 / A16 / SPDIF_IN
P8_7-0 & P7_15-9 / A15-A1
P8_12-9 / A20-A17
To TOSLINK connectorA15
A14-A015
Figure 2.3.1 NOR Flash Memory Block Diagram
Table2.3.2 JP2, JP5, JP6 and JP8 Function Settings
Jumper 1-2 2-3 or Open
JP2 Use P8_8 as A16 output pin (initial setting) Use P8_8 as SPDIF_IN input pin JP5 Use P7_0 as MD_BOOT2 input pin Use P7_0 as CS0 output pin (initial setting) JP6 Use P3_7 as LCD1_EXTCLK input pin Use P3_7 as CS1 output pin (initial setting) JP8 Use P8_13 as SPBSSL_1 output pin Use P8_13 as A21 output pin (initial setting)
indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-19
Dec. 19, 2013
Figure2.3.2 shows the Esample of NOR Flash Memory Write/Read Access Timing, and Table2.3.3 lists the Setting for Bus State Controller (NOR Flash Memory Writing/Reading) when the R7S72100 bus block runs at 66.67MHz.
[Write/Read Timing]
Write1 Write2 Read1
DATA DATA DATA
tDFtDF
tAACtCE
tOEtWDH1
tWDD1tWDH1
tWDD1
tWED1tWED1tWED1tWED1
tRSDtRSD
tCSD1tCSD1
tCSD1tCSD1
tCSD1tCSD1
tAD1tAD1tAD1
tAD1tAD1tAD1
tRDH1tRDS1tDHtDS
tDHtDS
tOEHtCH
tWP
tAHtAS
tWPH tWPtWPHtCH
tWP
tAHtAStCS
tWP
tRCtRCtWCtWC
T1T2Tw4T1 Tw1 Tw2 Tw1 Tw2 T2 T1 Tw1 Tw2 Tw3 T2Tf Tf Taw1Taw1Th Th Th TfTw4Tw3 Tw3 Tw4 Tw5Tw5 Tw5 Tw6Tw6 Tw6
CKIO
A25-A1
CSn#
RD#
WE0#
D15-D0
Figure2.3.2 Esample of NOR Flash Memory Write/Read Access Timing
Table2.3.3 Setting for Bus State Controller (NOR Flash Memory Writing/Reading)
User Area Target Device Setting for Bus State Controller
CS0 CS1
S29GL512S10T CSn space bus control register (CSnBCR) (n=0, 1): Initial value: H'36DB 0C00 (in boot mode 0) Recommended setting value: H'1000 0C00
• Idle specification between write-read/write-write cycles: IWW[2:0] = B'001; insert 1 address cycle
• Idle specification between different space read-write cycles: IWRWD[2:0] = B'000; No idle cycle
• Idle specification between identical space read-write cycles: IWRWS[2:0] = B'000; No idle cycle
• Data bus width specification: BSZ[1:0] = B'10; 16-bit bus width
CSn space wait control register (CSnWCR) (n=0, 1): Initial value: H'0000 0500 Recommended setting value: H'0000 0B40
• Address, CSn# assert → RD#, WEn# assert delay cycle counts: SW[1:0] = B'01; 1.5 cycles
• Access wait cycle counts: WR[3:0] = B'0110; 6 cycles
• External wait mask specification: WM = B'1; Ignore external wait input
• RD#, WEn# negate → Address, CSn# negate delay cycle counts: HW[1:0] = B'00; 0.5 cycles
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-20
Dec. 19, 2013
2.3.3 SDRAM Interface The RTK772100BC00000BR generally includes two SDRAMs (listed in Table 2.2.4) as external SDRAM. The SDRAMs are controlled by the bus state controller (BSC) which is embedded in the R7S72100. The SDRAMs and the BSC are connected by 16-bit width. The RAS output pin is in common with the CRx2 input pin, and therefore JP1 must be set when using the SDRAMs. Figure2.3.3 shows the SDRAM Block Diagram, and Table2.3.5 lists the JP1 Function Setting. Table2.3.4 SDRAM Overview
Spec. Contents
Part number IS42S16320B-75 Composition 64MB (8M words×16 bits×4 banks)×2 Capacity 64MB Access time 7.5ns CAS latency 2 (system clock:66.67MHz) Refresh interval 8192 refresh cycles every 64 ms Low address A12-A0 Column address A9-A0 Bank counts 4-bank operation controlled by BA0 and BA1
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-21
Dec. 19, 2013
D15-0, A15-1, WE0: To NOR flash memories
SDRAM1 (U4)R7S72100 (U1)
16DQ15-DQ4P6_15-P6_0 / D15-D0
P7_1 / CS3#
P7_2 / CRx2 / RAS#
P7_3 / CTx2 / CAS#
P7_4 / CKE
A6-A0
RAS#
CAS#
CKE
CS#
CKIO
P7_5 / RD/WR#
P7_6 / WE0# / DQMLL
P7_7 / WE1#/DQMLU
CLK
WE#
LDQM
UDQM
Note: Letters in Red indicate functions in use.
P8_5-P8_0 / A13-A8
P7_15-P7_9 / A7-A1
BA1-BA0
To expansion connectors40
: Optional
32
JP1
P8_7-P8_6 / A15-A14
A12-A7
2
6
7
SDRAM2 (U5)
DQ15-DQ4
A6-A0
RAS#
CAS#
CKE
CS#
CLK
WE#
LDQM
UDQM
BA1-BA0
A12-A7
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
3.3V
P5_8 / CS2#
To CAN transceiver2
3.3V
Figure2.3.3 SDRAM Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-22
Dec. 19, 2013
Table2.3.5 JP1 Function Setting
Jumper 1-2 (Short) None (Open)
JP1 Use P7_2 as CRx2 input pin Use P7_2 as RAS output pin (initial setting)
indicates setting function. Figure2.3.4 shows the Example of SDRAM Single Read/Write Timing, and Table2.3.6 lists the Setting for Bus State Controller (SDRAM Reading/Writing) when the R7S72100 bus clock runs at a frequency of 66.67MHz.
SDRAM SINGLE READ SDRAM SINGLE WRITE
DatatWDH2
tWDD2tOHZ
tOHtAC
tLZ
tAD1tAD1tAD1tAD1tAD1tAD1
tAD1tAD1tAD1tAD1tAD1tAD1
tAD1tAD1tAD1tAD1tAD1tAD1
tDQMD1tDQMD1tDQMD1tDQMD1
tRWD1tRWD1
tCASD1tCASD1
tCASD1tCASD1
tRASD1tRASD1
tRASD1
tRASD1
tCSD1tCSD1tCSD1tCSD1
tHItSItRDH2
tRDS2
tHItSI
tHItSI
tHItSI
tHItSI
tDAL
tRPtRC
tRPtRAStDPL
tDALtDPLtRCD
tRCtRP tRAS
tRC
tRCDtRAS tRP
tRCtRAS
ACT READA ACT WRITEA ACTTr Trw1 Tc1 Tcw Td1 Tde Tr Trw1 Tc1 Trw11 Trw12 TrTap TapTrw2 Trw2
CKIO
CKE
CSn#
RAS#
CAS#
RD/WR#
DQMLU-LL
A13-A1(A12-A0)
A11(A10/AP)
15,A14(BA1,0)
D15-0
Figure2.3.4 Example of SDRAM Single Read/Write Timing
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-23
Dec. 19, 2013
Table2.3.6 Setting for Bus State Controller (SDRAM Reading/Writing)
User Area Target Device Setting for Bus State Controller
CS2 CS3
IS42S16320B-75 CSn space bus control register (CSnBCR) (n=2, 3): Initial value: H'36DB 0C00 Recommended setting value: H'0000 4C00
• Memory specification: TYPE[2:0] = B'100; SDRAM
• Data bus width specification: BSZ[1:0] = B'10; 16-bit bus width
CSn space wait control regisiter (CSnWCR) (n=2, 3): Initial value: H'0000 0500 Recommended setting value: H'0000 0480 (CS2), H'0000 2492 (CS3)
• Wait cycle counts for precharge completion: WTRP[1:0] = B'01; 1 cycle
• ACTV command → Wait cycle counts between READ(A)/WRITE(A) commands: WTRCD[1:0] = B'01; 1 cycle
• Area 3CAS latency: A3CL[1:0] = B'01; 2 cycles
• Wait cycle counts for precharge activation: TRWL[1:0] = B'10; 2 cycles
• REF command/self refresh cancellation → Idle cycle counts between ACTV/REF/MRS commands: WTRC[1:0] = B'10; 5 cycles
SDRAM control regiter (SDCR): Initial value: H'0000 0000 Recommended setting value: H'0012 0812
• Refresh control: RFSH = B'1; Execute refresh
• Refresh control: RMODE = B'0; Auto refresh
• Bank active mode: BACTV = B'0; Auto precharge mode
• Area 3 low address bit counts: A3ROW[1:0] = B'10; 13 bits
• Area 3 column address bit counts: A3COL[1:0] = B'10; 10 bits
Refresh timer control/status register (RTCSR): Initial value: H'0000 0000 Recommended setting value: H'A55A 0010
• Clock select: CKS[2:0] = B'010; CKIOΦ/16
• Refresh counts: RRC[2:0] = B'000; 1 time
Refresh time constant register (RTCOR): Initial value: H'0000 0000 Recommended setting value: H'A55A 0020
1 cycle: 240nsec (66.67MHz/16=4.166875MHz) Refresh request interval for this SDRAM: 7.8125µsec/time 7.8125µsec /240nsec = 32(0x20) cycles/ refresh
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-24
Dec. 19, 2013
2.3.4 Serial Flash Memory Interface The RTK772100BC00000BR generally includes three serial flash memories, which are controlled by the SPI multi I/O buscontroller (SPIBSC) embedded in theR7S72100. The data (program) is read out from the serial flash memory 1 at the time of booting (boot mode 3). The 8-bit width can be achieved by concurrent access to the serial flash memory 1 and 2. The CS pin of the serial flash memory 3 is in common with address A21. When using the flash memory 3, the NOR flash memory can not be used. When using the serial flash memory 3 SPBCLK at a frequency of 66.67MHz, R41 should be removed from the board. Figure2.3.5 shows the Serial Flash Memory Interface Block Diagram, and Table2.3.8 lists the JP7 and JP8 Function Settings. Table2.3.7 Serial Flash Memory Overview
Part No. Serial flash No. Connection interface for the R7S72100 Capacity Package
U6, U7 S25FL512SDPM 10-wire system serial (SPIBSC) 64MB×2 16-pin SOIC U8 S25FL512SDPM 6-wire system serial (SPIBSC) 64MB 16-pin SOIC
R7S72100 (U1)
Note: Letters in Red indicate functions in use.
P9_2 / SPBCLK_0
P9_3 / SPBSSL_0
P9_7 / SPBIO30_0
P2_15 / SPBIO31_0
To expansion connectors16
Serial flash memory 1 (U6)
SCK
SI/IO0
WP#/IO2
CS#
SO/IO1
HOLD#/IO3
3.3V
3.3VIO7_0
IO6_0
CS_0
CLK_0
IO5_0
IO4_0
3.3V
10
IO1_0
IO0_0
CS_0
CLK_0
IO2_0
IO3_0
3.3V
JP8
P2_14 / SPBIO21_0
P2_12 / SPBIO01_0
P2_13 / SPBIO11_0
P9_4 / SPBIO00_0
P9_5 / SPBIO10_0
P9_6 / SPBIO20_0
IO3_0
IO2_0
IO1_0
IO0_0
Serial flash memory 2 (U7)
SCK
SI/IO0
WP#/IO2
CS#
SO/IO1
HOLD#/IO3
3.3V
3.3V
3.3V
3.3V
3.3VIO5_0
IO4_0
CS_0
CLK_0
IO6_0
IO7_0
3.3VP8_12 / A20 / SPBCLK_1
P8_13 / A21 / SPBSSL_1
P8_11 / A19 / SPBIO30_1
P8_14 / A22 / SPBIO00_1
P8_15 / A23 / SPBIO10_1
P8_10 / A18 / SPBIO20_1
CLK_1
CS_1
IO3_1
IO2_1
IO1_1
IO0_1
6
Serial flash memory 3 (U8)
SCK
SI/IO0
WP#/IO2
CS#
SO/IO1
HOLD#/IO3
3.3V
3.3V
3.3V
3.3V
3.3VIO1_1
IO0_1
CS_1
CLK_1
IO2_1
IO3_1
3.3V
A23-A18: To NOR flash memories6
JP7
3.3V
: Optional
Figure2.3.5 Serial Flash Memory Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-25
Dec. 19, 2013
Table2.3.8 JP7 and JP8 Function Settings
Jumper Short Open
JP7 Use P9_3 as SPBSSL_0 output pin (initial setting) Use P9_3 on option board JP8 Use P8_13 as SPBSSL_1 output pin Use P8_13 as A21 output pin (initial setting)
indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-26
Dec. 19, 2013
2.3.5 NAND Flash Memory Interface The RTK772100BC00000BR has a board pattern which enables to mount a NAND flash memory (listed in Table2.3.9). The NAND flash memory is control by the NAND flash memory controller (FLCTL) embedded in the R7S72100. The FLCTL pin is in common with the pins for SD host interface (SDHI) channel 1 and MMC host interface (MMCIF), Renesas serial peripheral interface (RSPI) channel 4, and LVDS interface. When using the NAND flash memory, the MMC card slot, audio interface and the LVDS interface can not be used. JP10 should be set for the use of NAND flash memory. Figure2.3.6 shows the NAND Flash Memory Interface Block Diagram, and Table2.3.10 lists the JP10 Function Setting. Table2.3.9 NAND Flash Memory Overview
Nand No. Bus Size Capacity Access Time
S34ML04G100TFI 8 bits 512MB (8 bits×512M words)Random: 25µs (Max)
Sequential: 25ns (Min)
R7S72100 (U1)
P3_15-P3_8 / NAF7-NAF0
12
Note: Letters in Red indicate functions in use.
: Optional
P4_3 / MMC_D7 / FWE
P4_2 / MMC_D6 / MOSI4 / FALE
P4_1 / MMC_D5 / SSL40 / FCLE
P4_0 / MMC_D4 / RSPCK4 / FRE
P5_5 / TXOUT1M / FCE#
P1_2 / SCL1 / FRB
WE#
I/O7-I/O0
ALE
CLE
R/B#
CE#
RE#
3.3V
WP#
3.3V
3.3V
3.3V
3.3V
8
To MMC card slot
JP10
3To audio CODEC
14To expansion connectors
To LVDS I/F
S34ML04G1 (U9)
Figure2.3.6 NAND Flash Memory Interface Block Diagram
Table2.3.10 JP10 Function Setting
Jumper 1-2 (Short) None (Open)
JP10 Use P4_1 as SSL40 output pin (initial setting) Use P4_1 as FCLE output pin or MMC_D5 I/O pin
indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-27
Dec. 19, 2013
2.3.6 EEPROM Interface The RTK772100BC00000BR generally includes an EEPROM (listed in Table2.3.11). The EEPROM is controlled by the I2C bus interface (RIIC) which is embedded in the R7S72100. Figure2.3.7 shows the EEPROM Interface Block Diagram. Table2.3.11 EEPROM Overview
EEPROM No. Interface Capacity Package R1EX24128ASAS0A 2-wire system serial (RIIC) 16KB (16K words×8 bits) 8-pin SOP
R7S72100 (U1) R1EX24128 (U10)16KB
WP
P1_4 / SCL2 SCL
SDAP1_5 / SDA2
3.3V
3.3V
A2-A0
2To MOST I/F connector
Address: RD=0xA1, WR=0xA0
Note: Letters in Red indicate functions in use.
2To expansion connectors
Figure2.3.7 EEPROM Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-28
Dec. 19, 2013
2.4 USB Interface The RTK772100BC00000BR generally includes two USB series A receptacles as USB connector, and has a board pattern which enables to mount Mini-B receptacles to evaluate the USB host/function modules. When mounting the Mini-B receptacles, the USB series A receptacles should be removed. When using such receptacles as a function, JP9 and JP11 should be disconnected. The VBUS power supply for the USB channel 0 can be provided from the expansion connectors. Figure2.4.1 shows the USB Interface Block Diagram, and Table2.4.1 lists the JP9 and JP11 Function Settings.
BLM21PG600SN1
R7S72100 (U1)
VBUS0
USBAPVss
REFRIN5.6KΩ±1%
USB_X2
USB_X1
1 2
4 3DM0
DP0
HN6.2Z4MFA
FLG1
EN1
IN1
5V
0Ω
100Ω
OUT1
VBUS power supply control IC
MIC2026 (U17)
150µF
VBus
D+
D-
GND
FRAME
VBus
D+
D-
GND
FRAME
USBSeries A receptacle (J5)
USBMini-B receptacle (J7)
BLM21PG600SN1
CLK48MHz
TP3
Socket (X5)
: Optional
BLM21PG600SN1
VBUS1
1 2
4 3DM1
DP1
HN6.2Z4MFA
100ΩVBus
D+
D-
GND
FRAME
VBus
D+
D-
GND
FRAME
USBSeries A receptacle (J8)
USBMini-B receptacle (J9)
BLM21PG600SN1
IN2
FLG2TP4
EN2 OUT2150µF
JP11
JP9231
To expansion connectors
NC
Figure2.4.1 USB Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-29
Dec. 19, 2013
Table2.4.1 JP9 and JP11 Function Settings
Jumper 1-2 None 2-3
JP9 Provide VBUS0 power supply (initial setting)
Do not provide VBUS0 power supply
Profide VBUS0 power supply from expansion connectors
JP11 Provide VBUS1 power supply (initial setting)
Do not provide VBUS1 power supply
-
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-30
Dec. 19, 2013
2.5 Serial Interface The RTK772100BC00000BR connects the FIFO on-chip serial communication interface (SCIF) channel 2 in the R7S72100 to 1) the D-Sub 9-pin connector via the RS-232C transceiver, and 2) to the USB Mini-B connector via the USB serial conversion IC (RL78/G1C-S). JP12 or JP13 should be set to connect to either 1 or 2 mentioned above. Figure2.5.1 shows the Serial Interface Block Diagram, and Table2.5.1 lists the JP12 and JP13 Function Settings.
R7S72100 (U1) RS-232C transceiver (U27)
SHDN#
P3_0 / TxD2 TIN
ROUTP3_2 / RxD2
3.3V
RES#
3.3V
RIN
TOUT
RXD
DTR#DSR#RTS#CTS#
D-Sub 9-pin (J17)
TXD
Note: Letters in Red indicate functions in use.
To expansion connectors
: Optional
231JP13
231JP12
RL78/G1C-S (U28)
P50 / RxD0
P51 / TxD0
RESET#
UDP0
UDM0
UVBUS VBUS
D+
D-
USB Mini-B (J19)
100Ω
1µF 1µF
E1 connector (J20)
P40 / TOOL0
RESET#
VDD
VDD
VDD
UVDD0.33µF
VDD
TOOL0 (dedicated single wire UART)
Figure2.5.1 Serial Interface Block Diagram
Table2.5.1 JP12 and JP13 Function Settings
Jumper 1-2 2-3
JP12 Connect P3_2 / RxD2 to RS-232C transceiver (initial setting)
Connect P3_2 / RxD2 to USB serial conversion IC
JP13 Connect P3_0 / TxD2 to RS-232C transceiver (initial setting)
Connect P3_0 / TxD2 to USB serial conversion IC
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-31
Dec. 19, 2013
2.6 I/O Ports The RTK772100BC00000BR connects the R7S72100 I/O ports to the switches and the LEDs. Figure2.6.1 shows the I/O Ports Block Diagram.
3.3V
1.5KΩ
3.3V
1.5KΩR7S72100 (U1)
AN1
AN2
AN3
P1_11 / AN3
P1_8 / AN0
P1_9 / AN1
P1_10 / AN2
To expansion connectors
AVcc
AVcc
AVcc
AVcc
1
Note: Letters in Red indicate functions in use.
P0_0 / MD_BOOT0
LED2LED1AN0
4
P1_15-P1-12 / AN7-AN4No input protection circuit
3.3V
SW13.3V
3.3V
3.3V
2
3
4
5
3.3V
P0_1 / MD_BOOT1
P7_0 / CS0 / MD_BOOT2
P0_2 / MD_CLK
P0_3 / MD_CLKS
P4_10 / SD_D1_0
P4_11 / SD_D0_0
6Vss
3.3V
: Optional
Figure2.6.1 I/O Ports Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-32
Dec. 19, 2013
2.7 Interrupt Switches The RTK772100BC00000BR has push switches (NMI switch and IRQ6 switch) for R7S72100 NMI and IRQ6 interrupt signal input and a push switch (test switch) for test signal. The IRQ6 switch is also connected to the toggle switch. The test switch is left open to be connected to any terminal. Figure2.7.1 shows the Interrupt Switch Block Diagram, and Table2.7.1 lists the JP3 Function Setting.
R7S72100 (U1)
3.3V
+
P3_1 / IRQ6
3.3V
+NMI
NMI switch (SW5)
IRQ6 switch (SW7, SW6)
3.3V
+
Test switch (SW8)
TP22
JP32
31
Note: Letters in Red indicates function in use.
2To expansion connectors
Figure2.7.1 Interrupt Switch Block Diagram
Table2.7.1 JP3 Function Setting
Jumper 1-2 2-3
JP3 Use P3_1 as IRQ6 input pin (initial setting) Use P3_1 on option board
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-33
Dec. 19, 2013
2.8 Clocks The following seven clocks are input in the R7S72100 on the RTK772100BC00000BR. • R7S72100 Input clock : 13.33MHz • R7S72100 RTC clock : 32.768kHz • R7S72100 RTC clock (high precision) : 4MHz • R7S72100 USB clock : 48MHz • R7S72100 Video decoder clock : 27MHz • R7S72100 LCD clock : Optional • R7S72100 Audio clock : 22.5792MHz Figure2.8.1 shows the Clock Configuration. Table2.8.1 and Table2.8.2 list the DIP Switch SW1 Function Settings and the JP6 Function Setting respectively.
R7S72100 (U1)
P4_12 / LCD1_CLK / SD_CLK_0
CKIO
AUDIO_X2
AUDIO_X1
DIP SW1-4
3.3V
P0_2 / MD_CLK
EXTALCLK13.33MHz
USB_X1
USB_X2
CLK48MHz
XTAL
RTC_X1
RTC_X232.768kHz
NC
NC
CLK
SDRAM2 (U5)PLL To expansion connectors
VIDEO_X1
VIDEO_X2
Socket (X5)
(X2)
Socket (X1)
: Optional
DIP SW1-5
3.3V
P0_3 / MD_CLKS
CLK
SDRAM1 (U4)
MCLK
WM8978 (U19)
4
22.5792MHzCLK(X8)
REF
CLKOUT
CLK4
CLK2CLK3
CLK1
Clock Buffer (U16)
NC
P3_7 / LCD1_EXTCLK / CS1CLKSocket (X9)
P5_0 / TXCLKOUTP
P5_1 / TXCLKOUTM
CLKIN+
CLKIN-
LVDS connector
To SD card slot
JP62
13
To NOR flash memory
Note: Letters in Red indicate functions in use.
P0_4/ RTC_X3
P0_5 / RTC_X4
CLK4MHz
NC
(X4) 1/2
DFF
NC
27MHz
(X7)
Figure2.8.1 Clock Configuration
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-34
Dec. 19, 2013
Table2.8.1 DIP Switch SW1 Function Settings
Function DIP Switch ON OFF
SW1-4 Receive EXTAL input as input clock (initial setting) Receive USB_X1 input as input clock SW1-5 Set SSCG function OFF (initial setting) Set SSCG fuction ON
Table2.8.2 JP6 Function Setting
Jumper 1-2 2-3
JP6 Use P3_7 as LCD1_EXTCLK input pin* Use P3_7 as CS1 output pin (initial setting)
Indicates setting function.
*: When using P3_7 as LCD1_EXTCLK input pin, an oscillator should be mounted to X9.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-35
Dec. 19, 2013
2.9 Reset Control The RTK772100BC00000BR controls the reset signals connected to the R7S72100, memories, connectors, the Ethernet PHY, the RS-232C transceiver and others by using the reset IC. The system reset has two types of resets; power on reset and reset by switch. Figure2.9.1 shows the Reset Control Block Diagram.
User debug interfaces (J21, J22) R7S72100 (U1)
RES#
RESETB
RS-232C transceiver(U27)
SHDN#
Expansion connectors
RES#
Ethernet PHY (U20)IN OUT
Cd
Reset IC (U33)
Reset IC output delay timetpd=0.34×Cd(pF)=34ms
Reset IC output detection voltage1.20×(Ra+Rb)/Rb=1.20×(15kΩ+10kΩ)/10kΩ=3.0V
NOR flash memories (U2, U3)
RESET#
Serial flash memories (U6 to U8)
RESET#
3.3V
+
Reset switch (SW9)
3.3V
15kΩ
10kΩ
0.1µF
3.3V
4.7kΩ
0Ω
nSRST
3.3V
Figure2.9.1 Reset Control Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-36
Dec. 19, 2013
2.10 Power Supply The RTK772100BC00000BR generates 5V, 3.3V and 1.18B by regurator using 12V power supply. The 5V power supply, the I/O power supply (3.3V), the analog power supply (3.3V), and the internal power supply (1.18V) for the R7S72100 can also be provided from the outside. The USB serial convertsion IC (U28) is run by the VBUS power supply provided from the USB Mini-B connector (J19). Figure2.10.1 shows the Power Supply Configuration Diagram.
AVccVDAVcc
USBAPVcc
A3.3Vexternal power supply (J27)
AVss
Power select jumper (JP19)
A3.3V
Audio CODEC: WM8978 (AVDD, SPKVDD)Ethernet PHY: uPD60610 (VDDA)Expansion connectors
PVccR7S72100 (digital 3.3V)
SDRAM, NOR flash memorySerial flash memory, NAND flash memoryEEPROM, RS-232C, Clock bufferAudio CODEC: WM8978 8 (DBVDD, DCVDD)Ethernet PHY: uPD60610 (VDDIO)SD/MMC card slot, expansion connectors
D3.3V
USBDPVcc
D3.3Vexternal power supply (J26)
Vss
Power select jumper (JP18)
R7S72100 (analog 3.3V)
D1.18V1.18V
external power supply (J28)
Vss
Power select jumper (JP21)
VccUSBAVcc
R7S72100 (1.18V system)
USB (VBUS1), CAN, Expansion connectors
5Vexternal power
supply (J24)
Vss
Power select jumper(JP15)
D5V
System power supply (DC12V) Vss
Vss
D12V
Backlight power supply for LVDS panelExpansion connectors (generating 8V for CD deck)
DC power jack (J25)
Power switch (SW4)
12V→5V
5V→3.3V
5V→3.3V
Constant voltage regulator
AVref
R7S72100 (analog reference voltage)
Power select jumper (JP9)
USB (VBUS0)
Expansion connectors
5V→1.18V
Power select jumper (JP14)
12Vexternal power supply (J23)
PLLVccLVDSPLLVcc
LVDSAPVcc
USB serial conversion IC (U38)VDD
USB Mini-B (J19)VBUS
Figure2.10.1 Power Supply Configuration Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-37
Dec. 19, 2013
2.11 Debug Interface The RTK772100BC00000BR has the ARM JTAG 20 connector (J22) and the CoreSight 20 connector (J21) to connect with the R7S72100 user debug interface. The CoreSight 20 connector cannot be connected in JTAG mode. When connecting in JTAG mode, the ARM JTAG 20 connector should be used. Figure2.11.1 shows the Debug Interface Block Diagram.
3.3V
TRST#
TMS
TCK
JP0_0 / TDI
JP0_1 / TDO
RES#
R7S72100 (U1)
*: Refer to the debugger user’s manual for the details about connecting method.
Note: Letters in Red indicate functions in use.
: Optional
P3_15 / MMC_D2 / NAF7 / TRACECTL
P3_14 / MMC_D3 / NAF6 / TRACECLK
P3_11 / MMC_D0 / NAF3 / TRACEDATA3
P3_10 / MMC_D1 / NAF2 / TRACEDATA2
P3_9 / SD_WP_1 / NAF1 / TRACEDATA1
P3_8 / MMC_CD / NAF0 / TRACEDATA0
CoreSight 20 connector (J21)
TMS / SWDIO
NC / TDI
TDO / SWO
nSRST
TCK / SWCLK
RTCK / TraceClk
SWO / TraceD0
DBGRQ / TraceD2
nTRST / TraceD1
ARM JTAG 20 connector (J22)
TMS / SWDIO
TDI
TDO / SWO
nSRST
TCK / SWCLK
nTRST
RTCK
10kΩ
DBGACK / TraceD3
22Ω
DBGRQ
DBGACKReset switch (SW9)
Reset IC (U33)
Figure2.11.1 Debug Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-38
Dec. 19, 2013
2.12 CAN Interface The R7S72100 has controller area network (RSCAN). The RTK772100BC00000BR connects the R7S72100 RSCAN channel 1 and 2 to the 3-pin 2.5mm pitch connector via the power voltage level shifter and the CAN transceiver IC to enable CAN communication. The RSCAN channel 1 pin is in common the the Ethernet PHY, and the channel 2 pin is in common with the SDRAMs. When applying the CAN interface, these pins cannot be used together. Figure2.12.1 shows the CAN interface Block Diagram, and Table2.12.1 lists the JP1 and JP4 Function Settings.
R7S72100 (U1)
P5_9 / MDC / CRx1123
CANconnector (J12)
CAN transceiver (U21)
CANH
RXD
VCCA VCCB
A0 B0
DIR
P5_10 / CTx1
P7_2 / RAS# / CRx2
TXD
: Optional
Note: Letters in Red indicate functions in use.
CANL
P7_3 / CAS# / CTx2
JP1
A1 B1
CRx1
CTx1
CRx2
CTx2
4
CRx1
CRx2
5V5V3.3V
22kΩ
3.3V
22kΩCTx1
5V
22kΩ
123
CANconnector (J13)
CAN transceiver (U24)
CANH
RXD
TXD
CANL
3.3V
22kΩCTx2
213
JP4
2To expansion connectors
RAS, CAS: To SDRAM
4
Ether PHY
Figure2.12.1 CAN interface Block Diagram
Table2.12.1 JP1 and JP4 Function Settings
Jumper 1-2 None or 2-3
JP1 Use P7_2 as CRx2 input pin Use P7_2 as RAS output pin (initial setting) JP4 Use P5_9 as CRx1 input pin Use P5_9 as MDC output pin (initial setting)
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-39
Dec. 19, 2013
2.13 Video Input Interface The R7S72100 has digital video decoder function, which enables direct input of the composit video signal (CVBS). The RTK772100BC00000BR has a RCA connector for CVBS input. Figure2.13.1 shows the Video Input Interface Block Diagram.
VIN1A
VIDEO_X1
R7S72100 (U1)
VIDEO_X2 VRM
VRP
BIAS22kΩ±1%
0.1µF
0.1µF
0.1µFJ1
75Ω
75Ω
VIN2A0.1µF
VIN1B0.1µF
75Ω
75Ω
VIN2B0.1µF
0.1µF
2.2µF
27MHz
(X7)
Figure2.13.1 Video Input Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-40
Dec. 19, 2013
2.14 Audio Interface The RTK772100BC00000BR has the Wolfson audio CODEC WM8978 as an audio interface. The WM8978 register is controlled by the Renesas serial peripheral interface (RSPI) channel 4, and the audio data input/output is controlled by the serial sound interface (SSIF) channel 0. The RSPI pin is in common with the NAND flash memory controller (FLCTL) pin and the MMC host interface (MMCIF) pin. When applying the WM8978, the NAND flash memory cannot be used. Also, the MMC card slot cannot be used in 8-bit mode. Figure2.14.1 shows the Audio Interface Block Diagram. Table2.14.1 and Table2.14.2 list the DIP Switch SW2-2 Function Setting and the JP10 Function Setting respectively.
WM8978(U19)
BCLK
DACDAT
LRC
ADCDAT
MODESCLK
SDIN
CSB/GPIO1
LOUT1 ++ROUT1
MCLK
PE0/SCL0/AUDIO_CLK/IRQ0
R7S72100 (U1)
AUDIO_X2
AUDIO_X1
P4_4 / SSISCK0
P4_5 / SSIWS0
P4_6 / SSIRxD0
P4_7 / SSITxD0
NC
: Optional
P4_0 / FRE / RSPCK4 / MMC_D4
P4_2 / FALE / MOSI4 / MMC_D6
P4_1 / FCLE / SSL40 / MMC_D5
Note: Letters in Red indicate functions in use.
1A1B1
1B2
2A2B1
2B2
3A3B1
3B2
4A4B1
4B2MUX
OE# S
WM8978 / Option select
3.3V
DIP SW2-2
3.3V
3.3V
22.5792MHzCLK(X8)
REF
CLK1
CLKPUT
CLK3CLK4
CLK2
Clock Buffer (U16)
To MMC card slot, NAND flash memory, and external connectors
3
JP10
1/2
L2/GPIO2
R2/GPIO3
MICBIAS
+
J6J4
Figure2.14.1 Audio Interface Block Diagram
Table2.14.1 DIP Switch SW2-2 Function Setting
Function DIP Switch ON OFF
SW2-2 Use P4_4[7:4] as SSIF pin (initial setting) Use P4_4[7:4] on option board
Indicates setting function. Table2.14.2 JP10 Function Setting
Jumper 1-2 (Short) None (Open)
JP10 Use P4_1 as SSL40 output pin (initial setting) Use P4_1 as FCLE output pin or MMC_D5 I/O pin
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-41
Dec. 19, 2013
2.15 SD Card Interface (4-bit) The RTK772100BC00000BR has a 4-bit SD card slot which is connected with the SD host interface (SDHI) channel 0 in the R7S72100. MMC card can be used by setting the dual-purpose pin, MMC host interface (MMCIF). Figure2.15.1 shows the SD Card Interface Block Diagram.
R7S72100 (U1)
P4_15 / SD_D2_0 / MMC_D2
P4_14 / SD_D3_0 / MMC_D3
P4_13 / SD_CMD_0 / MMC_CMD
P4_12 / SD_CLK_0 / MMC_CLK
P4_11 / SD_D0_0 / MMC_D0
P4_10 / SD_D1_0 / MMC_D1
P4_9 / SD_WP_0
P4_8 / SD_CD_0 / MMC_CD
DAT2
DAT3
DAT0
DAT1
SD card slot (J11)5
CLK
CMD
DAT0
DAT1
DAT2
DAT3
22kΩ
22kΩ
AEN AOUT
LTC1471 (U23)
22kΩ
3.3 V
22kΩ
VDD
WP
COMMON
CD
GND
CLK
CMD
CMD
CLK
3.3 V
DAT3
DAT2
DAT1
DAT0
When inserting SD card: COMMON and CD are conducted.
When removing card write protection: WP and COMMON are conducted.
Note: Letters in Red indicate functions in use.
CVDD
CVDD
CVDD
: Optional
8To expansion connectors
Figure2.15.1 SD Card Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-42
Dec. 19, 2013
2.16 MMC Card Interface (8-bit) The RTK772100BC00000BR has an 8-bit MMC card slot, which is connected with the MMC host interface (MMCIF) in the R7S72100. SD card can be used by setting the dual-porpose pin, SD host interface (SDHI) channel 1. The MMCIF pin and the SDHI pin are in common with the NAND falsh memory controller (FLCTL) pin and the Renesas serial peripheral interface (RSPI) pin. When inserting the MMC card or the SD card to the MMC card slot, the NAND flash memory cannot be used. Also, when applying the MMC card in 8-bit mode, the audio interface cannot be used. Figure2.16.1 shows the MMC Card Interface Block Diagram, and Table2.16.1 lists the JP10 Function Setting.
R7S72100 (U1)
P3_15 / SD_D2_1 / MMC_D2 / NAF7
P3_14 / SD_D3_1 / MMC_D3 / NAF6
P3_13 / SD_CMD_1 / MMC_CMD / NAF5
P3_12 / SD_CLK_1 / MMC_CLK / NAF4
P3_11 / SD_D0_1 / MMC_D0 / NAF3
P3_10 / SD_D1_1 / MMC_D1 / NAF2
P3_9 / SD_WP_1 / NAF1
P3_8 / SD_CD_1 / MMC_CD / NAF0
DAT2
DAT3
DAT0
DAT1
MMC card slot (J15)9
CLK
CMD
DAT0DAT1DAT2DAT3
22kΩ
22kΩ
BEN BOUT
LTC1471 (U23)
22kΩ
3.3 V
22kΩ
VDD
WP
COMMON
CD
GND
CLK
CMD
CMD
CLK
3.3 V
DAT3DAT2DAT1DAT0
When inserting MMC card:COMMON and CD are conducted.
When removing card write protection: WP and COMMON are conducted.
Note: Letters in Red indicate functions in use.
CVDD
CVDD
CVDD
: Optional
P4_3 / MMC_D7 / FWE
P4_2 / MMC_D6 / FALE / MOSI4
P4_1 / MMC_D5 / FCLE / SSL40
P4_0 / MMC_D4 / FRE / RSPCK4
DAT7
DAT6
DAT5
DAT4
12To NAND flash memory
P4_2-P4_0: To audio CODEC3
JP10P4_1 SSL40
12To expansion connectors
DAT4DAT4
DAT5DAT5
DAT6DAT6
DAT7DAT7
Figure2.16.1 MMC Card Interface Block Diagram
Table2.16.1 JP10 Function Setting
Jumper 1-2 (Short) None (Open)
JP10 Use P4_1 as SSL40 output pin (initial setting) Use P4_1 as FCLE output pin or MMC_D5 I/O pin
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-43
Dec. 19, 2013
2.17 LAN Interface The RTK772100BC00000BR has the Renesas Ethernet PHY μPD60610 to enable the Ethernet communication using the Ethernet controller (ETHER) embedded in the R7S72100. Figure2.17.1 shows the LAN Interface Block Diagram. Table2.17.1 and Table2.17.2 list the DIP Switch SW2-1 Function Setting and the JP4 Function Setting respectively.
R7S72100 (U1)
P3_6 / RXDV
RES#Note: Letters in Red indicate functions in use.
: Optional
P3_5 / RXER
P3_4 / RXCLK
P3_3 / MDIO
P2_2 / TXEN / MLB_SIG
P2_1 / TXER / MLB_DAT
P2_0 / TXCLK / MLB_CLK
P2_11 / RxD[3]
P2_10 / RxD[2]
P2_9 / RxD[1]
P2_8 / RxD[0]
P2_7 / TxD[3]
P2_6 / TxD[2]
P2_5 / TxD[1]
P2_4 / TxD[0]
P2_3 / CRS
P5_9 / MDC / CRx1
RXDV
RXER
RXCLK
RxD3
RxD2
RxD1
RxD0
TxD3
TxD2
TxD1
TxD0
CRS
16
MDC2
31 To CAN transceiver
TXEN
TXER
TXCLK
MDIO
P1_14 / COL JP4
MDIO
MDC
P0RXDV
P0RXERR
P0RXCLK / GPIO3
P0RXD3 / GPIO7
P0RXD2 / GPIO8
P0RXD1
P0RXD0
P0TXEN
P0TXERR / GPIO9
P0TXCLK
P0TXD3 / GPIO10
P0TXD2 / GPIO11
P0TXD1
P0TXD0
μPD60610 (U20)
P0CRS / GPIO6
P0COLSD / GPIO19COL
CRS
TXCLK
RxD0
RxD1
RxD2
RxD3
RXDV
RXER
RXCLK
MDC
MDIO
TXER
TXEN
TxD3
TxD2
TxD1
TxD0
A B1MUX×4
Ethernet / MOST selection
3.3V
DIP SW2-1
OE# S
COL
3.3V
To expansion connectors
XCLK0
XCLK1
RESETB
CLK25MHz
NC
(X10)
TXP
TXN
RXP
RXN
P0LINKLED / GPIO0
INT / GPIO4
GPIO14
3.3V
510Ω
3.3V
510Ω
LED4LED3
3.3V
510Ω
LED5
A3V
TD+
TD-
RD+
RD-
TCT
RCT
RJ-45 (J10)
49.9Ω×4
A3V
10Ω×2
0.01µF×2
RE
GO
FFD
TES
TA
TP
EX
TRE
S
22kΩ×312.4kΩ-1%
P1_15 INT
INT
Figure2.17.1 LAN Interface Block Diagram
Table2.17.1 DIP Switch SW2-1 Function Setting
Function DIP Switch ON OFF
SW2-1 Use P3_[6:3] and P2_[11:0] as Ethernet PHY control pin (initial setting)
Use P3_[6:3] and P2_[11:0] as MOST control pin and expansion connectors
Indicates setting function. Table2.17.2 JP4 Function Setting
Jumper 1-2 2-3
JP4 Use P5_9 as CRx1 input pin Use P5_9 as MDC output pin (initial setting)
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-44
Dec. 19, 2013
2.18 LVDS Interface The RTK772100BC00000BR includes a connector for the Mitsubishi LCD module (AA104XD02) which can be connected with the R7S72100 LDVS interface.The backlight power supply voltage should be raised by using the TDK-lambda DC-DC converter ALD-414012PJ126 or ALD-514012PJ134. If it effects on the differential signals, remove the 0Ω resistors RE0 to RE7. Figure2.18.1 shows the LDVS Interface Block Diagram.
R7S72100 (U1) LVDS I/ F connector (J14)
P5_7 / TXOUT0M
Note: Letters in Red indicate functions in use.
: Optional
P5_6 / TXOUT0P
P5_5 / TXOUT1M / FCE
P5_4 / TXOUT1P
Link 0-
Link 0+
Link 1-
Link 1+
3.3V
Vcc
GND
P5_3 / TXOUT2M
P5_2 / TXOUT2P
P5_1 / TXCLKOUTM
P5_0 / TXCLKOUTP
Backlight connector (J16)BM14B-SRSS-TB
12V
Vcc
GND
Link 2-
Link 2+
CLKIN-
CLKIN+
MODELow:6bit, Hi:8bit
680Ω
3.3V
620Ω
Link 3-
Link 3+
3.3V
SCScan direction control.
Low:Normal, Hi:Reverse
3.3V
12V
VrmtBacklight enable control. Low:Disable, Hi:Enable
Vbr/RbrPWM control.2.5V:Min, 0V:Max
ADIMADIM control.2.5V:Min, 0V:Max
8To expansion connectors
1P5_5/FCE: To NAND flash memory
RE7RL7
RE6RL6
RE5RL5
RE4RL4
RE3RL3
RE2RL2
RE1RL1
RE0RL0
LVDSREFRIN5.6kΩ±1%
100Ω
100Ω
100Ω
100Ω
Figure2.18.1 LDVS Interface Block Diagram
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-45
Dec. 19, 2013
2.19 TOSLINK Interface The RTK772100BC00000BR includes a TOSLINK connector to connect the R7S72100 Renesas SPDIF interface (RSPDIF). The RSPDIF pin is in common with the address pins (A17 and A16). When using the TOSLINK connector, the NOR flash memory can not be used. Figure2.19.1 shows the TOSLINK Interface Block Diagram, and Table2.19.1 lists the JP2 Function Setting.
R7S72100 (U1) TOSLINK connector (U26)5V
Vcc
GND
Note: Letters in Red indicate functions in use.
P8_9 / A17 / SPDIF_OUT
TORX
TOTX
2 To NOR flash memory, expansion connectors
: Optional
P8_8 / A16 / SPDIF_IN
VCCA VCCB
A B
DIR
5V3.3V231
JP2
Figure2.19.1 TOSLINK Interface Block Diagram
Table2.19.1 JP2 Function Setting
Jumper 1-2 2-3
JP2 Use P8_8 as A16 output pin (initial setting) Use P8_8 as SPDIF_IN input pin
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification
R20UT2596EJ0008 Rev.0.08 2-46
Dec. 19, 2013
2.20 MOST Interface The RTK772100BC00000BR includes a connector to be connected with SMSC MOST PHY I/F board (OS81110/2+0). The MOST control pin isinmmon with the Ethernet control pin. SW2-1 should be set to use the MOST I/F connector. Figure2.20.1 shows the MOST Interface Block Diagram, and Table2.20.1 lists the DIP Switch SW2-1 Function Setting.
R7S72100 (U1) MOST I/F connector (J3)
P2_2 / TXEN / MLB_SIG
Note: Letters in Red indicate functions in use.
: Optional
P2_1 / TXER / MLB_DAT
P2_0 / TXCLK / MLB_CLK
P2_3 / CRS
P1_5 / SDA2
P1_4 / SCL2
MLB_SIG
MLB_DAT
MLB_CLK
RST
SDA
SCL
3.3V
Vcc
GND
1A1B1
1B2
2A2B1
2B2
3A3B1
3B2
4A4B1
4B2MUX
OE# S
Ethernet / MOST selection
3.3V
DIP SW2-1
47kΩ
47kΩ
47kΩ
3.3V
3.3V
To expansion connectors6
To EEPROM2
Figure2.20.1 MOST Interface Block Diagram
Table2.20.1 DIP Switch SW2-1 Function Setting
Function DIP Switch ON OFF
SW2-1 Use P2_[3:0] as Ethernet PHY control pin (initial setting)
Use P2_[3:0] as MOST control pin
Indicates setting function.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-1
Dec. 19, 2013
3. Operational Specification
3.1 Connector Overview Figure 3.1.1and Figure 3.1.2 show the RTK772100BC00000BR Connector Assignments.
J12,
J13
: C
AN
con
nect
ors
J5, J7: USB connectors
J8, J9: USB connectors
J19: Serial port connector (USB Mini-B)
J17: Serial port connector (D-Sub9)
U26
: TO
SLIN
K co
nnec
tor
J21, J22: UDI connectors
J25:12V AC adapter jack
J23:12V power supply connector
J15:
MM
C c
ard
slot
J11:
SD
car
d sl
ot
J3: M
OS
T I/F
co
nnec
tor
J10:
LA
N c
onne
ctor
J4: M
ic-in
pin
jack
J6: L
ineo
ut p
in ja
ck
J1:
RC
A c
onne
ctor
for v
ideo
inpu
tJ1
6:LV
DS
bac
klig
ht c
onne
ctor
Figure 3.1.1 RTK772100BC00000BR Connector Assignments (Top View of Component Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-2
Dec. 19, 2013
CN8: Expansion connector
CN9:Expansion connector
J14:LVDS connector
CN2:Expansion connector
CN1:Expansion connector
CN7: Expansion connectorCN6: Expansion connector
CN3:Expansion connector
CN4:Expansion connector
CN5: Expansion connector
Figure 3.1.2 RTK772100BC00000BR Connector Assignments (Top View of Solder Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-3
Dec. 19, 2013
3.1.1 RCA Connector for Video Input (J1) The RTK772100BC00000BR has a RCA connector for video input (J1). Figure3.1.3 shows the RCA Connector for Video Input Pin Assignments, and Table3.1.1 lists the RCA Connector for Video Input Pin Descriptions.
1
2
3
4
1 2 3 456
Top view of component side
Side viewJ1
Figure3.1.3 RCA Connector for Video Input Pin Assignments
Table3.1.1 RCA Connector for Video Input Pin Descriptions
Pin No. Signal Name
1 VIN1A 2 VIN2A 3 VIN1B 4 VIN2B 5 GND (AVss) 6 GND (AVss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-4
Dec. 19, 2013
3.1.2 MOST I/F Connector (J3) The RTK772100BC00000BR has a connector to connect with the SMSC MOST I/F board (J3). Figure3.1.4 shows the MOST I/F Connector Pin Assignments, and Table3.1.2 lists the MOST I/F Connector Pin Descriptions.
12
3940
J3
Top view of component side
Figure3.1.4 MOST I/F Connector Pin Assignments
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-5
Dec. 19, 2013
Table3.1.2 MOST I/F Connector Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 NC 2 MLB_CLK (P2_0 / D16 / ET_TXCLK / DV0_DATA0 / SPBIO00_1 / MLB_CLK / IRQ5 / VIO_D0 / LCD0_DATA16)
3 NC 4 NC 5 NC 6 MLB_SIG (P2_2 / D18 / ET_TXEN /
DV0_DATA2 / SPBIO20_1 / MLB_SIG / TIOC2B / VIO_D2 / LCD0_DATA18)
7 NC 8 NC 9 NC 10 MLB_DAT (P2_1 / D17 / ET_TXER /
DV0_DATA1 / SPBIO10_1 / MLB_DAT / TIOC2A / VIO_D1 / LCD0_DATA17)
11 NC 12 NC 13 NC 14 NC 15 NC 16 NC 17 NC 18 NC 19 NC 20 NC 21 NC 22 NC 23 NC 24 NC 25 RESETB (P2_3 / D19 / ET_CRS / DV0_DATA3 /
SPBIO30_1 / IERxD / CTS1 / VIO_D3 / LCD0_DATA19)
26 NC
27 NC 28 NC 29 NC 30 NC 31 NC 32 NC 33 SCL (P1_4 / SCL2 / DV0_CLK / CRx1 / IRQ4 /
CAN_CLK 34 NC
35 SDA (P1_5 / SDA2 / DV1_CLK / CRx4 / IRQ5 / VIO_CLK / LCD1_EXTCLK)
36 NC
37 +3.3V 38 +3.3V 39 +3.3V 40 NC
Note: Bold letters indicate setting functions.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-6
Dec. 19, 2013
3.1.3 Mic-in Pin Jack Assignments (J4) The RTK772100BC00000BR has a mic-in pin jack (J4). Figure3.1.5 shows the Mic-in Pin Jack Pin Assignments, and Table3.1.3 lists the Mic-in Pin Jack Pin Descriptions.
31
24
31
24
J4J6
Top view of component side
Figure3.1.5 Mic-in Pin Jack Pin Assignments
Table3.1.3 Mic-in Pin Jack Pin Descriptions
Pin No. Signal Name
1 GND (AVss) 2 L2 (A/D converter Lch analog input pin) 3 R2 (A/D converter Rch analog input pin) 4 NC
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-7
Dec. 19, 2013
3.1.4 Lineout Pin Jack (J6) The RTK772100BC00000BR has a lineout pin jack (J6). Figure3.1.6 shows the Lineout Pin Jack Pin Assignments, and Table3.1.4 lists the Lineout Pin Jack Pin Descriptions.
31
24
31
24
J4J6
Top view of component side
Figure3.1.6 Lineout Pin Jack Pin Assignments
Table3.1.4 Lineout Pin Jack Pin Descriptions
Pin No. Signal Name
1 GND (AVss) 2 LOUT1 (D/A converter Lch analog output pin) 3 ROUT1 (D/A converter Rch analog output pin) 4 NC
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-8
Dec. 19, 2013
3.1.5 USB Connectors (J5 and J8) The RTK772100BC00000BR has two series A receptacles (J5 and J8), but Mini-B receptacles (J7 and J9) are also applicable for this board. When using the Mini-B receptacles, the series A receptacles should be removed. Refer to Table 1.4 of Chapter 1 for the parts of Mini-B receptacles. Figure3.1.7 and Figure3.1.8 show the Pin Assignments for Series A Receptacle and Mini-B receptacle respectively. Table3.1.5 and Table3.1.6 list the Pin Descriptions for Series A Receptacle and Mini-B Receptacle respectively.
Figure3.1.7 Series A Receptacle Pin Assignments
Table3.1.5 Series A Receptacle Pin Descriptions
Signal Name Pin No. J8 J5
1 VBUS (VBUS1) VBUS (VBUS0) 2 DM (DM1) DM (DM0) 3 DP (DP1) DP (DP0) 4 GND (Vss) GND (Vss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-9
Dec. 19, 2013
Top view of component side 1 2 3 4 5
Side veiwJ9
1 2 3 4 5
J7
Figure3.1.8 Mini-B Receptacle Pin Assignments
Table3.1.6 Mini-B Receptacle Pin Descriptions
Signal Names Pin J9 J7
1 VBUS (VBUS1) VBUS (VBUS0) 2 DM (DM1) DM (DM0) 3 DP (DP1) DP (DP0) 4 ID (Connected to test pin TP10) ID (Connected to test pin TP5) 5 GND (Vss) GND (Vss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-10
Dec. 19, 2013
3.1.6 LAN Connector (J10) The RTK772100BC00000BR has a LAN connector (J10). Figure3.1.9 shows the LAN Connector Pin Assignments, and Table3.1.7 lists the LAN Connector Pin Descriptions.
Top view of component side
J10
2 4 6 8
Side view
1 3 5 7
Figure3.1.9 LAN Connector Pin Assignments
Table3.1.7 LAN Connector Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 TD+ (P0TXP) 2 TD- (P0TXN) 3 TCT 4 RD+ (P0RXP) 5 RD- (P0RXN) 6 RCT 7 NC 8 GND (AVss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-11
Dec. 19, 2013
3.1.7 SD Card Slot (J11) The RTK772100BC00000BR has a SD card slot (J11). Figure3.1.10 shows the SD Card Slot Pin Assignments, and Table3.1.8 lists the SD Card Slot Pin Descriptions.
Top view of component side 1
23
45
67
8 9
10
11
12
J11
Figure3.1.10 SD Card Slot Pin Assignments
Table3.1.8 SD Card Slot Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 DAT3 (P4_14 / LCD0_DATA22 / LCD1_TCON1 / SD_D3_0 / MMC_D3 / SPBIO21_1 / SSIRxD3 / TxD2 / IRQ6)
2 CMD (P4_13 / LCD0_DATA21 / LCD1_TCON0 / SD_CMD_0 / MMC_CMD / SPBIO11_1 / SSIWS3 / RxD1 / IRQ5)
3 GND (Vss) 4 +3.3V 5 CLK (P4_12 / LCD0_DATA20 / LCD1_CLK /
SD_CLK_0 / MMC_CLK / SPBIO10_1 / SSISCK3 / TxD1 / IRQ4)
6 GND (Vss)
7 DAT0 (P4_11 / LCD0_DATA19 / LCD1_TCON6 / SD_D0_0 / MMC_D0 / SSITxD5 / CTx4 / SCK1 / IRQ3)
8 DAT1 (P4_10 / LCD0_DATA18 / LCD1_TCON5 / SD_D1_0 / MMC_D1 / SSIRxD5 / RxD0 / IRQ2)
9 DAT2 (P4_15 / LCD0_DATA23 / LCD1_TCON2 / SD_D2_0 / MMC_D2 / SPBIO31_1 / SSITxD3 / RxD2 / IRQ7)
10 WP (P4_9 / LCD0_DATA17 / LCD1_TCON4 / SD_WP_0 / SSIWS5 / CRx2 / TxD0 / IRQ1)
11 CD (P4_8 / LCD0_DATA16 / LCD1_TCON3 / SD_CD_0 / MMC_CD / SSISCK5 / CTx2 / SCK0 / IRQ0)
12 COMMON (Vss)
Note: Bold letters indicate setting functions.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-12
Dec. 19, 2013
3.1.8 MMC Card Slot (J15) The RTK772100BC00000BR has a MMC card slot (J15). Figure3.1.11 shows the MMC Card Slot Pin Assignments, and Table3.1.9 lists the MMC Card Slot Pin Descriptions.
Top view of component side
1234578
912 1011
1413
15
J15
Figure3.1.11 MMC Card Slot Pin Assignments
Table3.1.9 MMC Card Slot Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 DAT3 (P3_14 / LCD0_DATA6 / NAF6 / TRACECLK / SD_D3_1 / MMC_D3)
2 CMD (P3_13 / LCD0_DATA5 / NAF5 / AUDIO_XOUT / SD_CMD_1 / MMC_CMD)
3 GND (Vss) 4 +3.3V 5 SCLK (P3_12 / LCD0_DATA4 / NAF4 /
SD_CLK_1 / MMC_CLK) 6 -
7 DAT0 (P3_11 / LCD0_DATA3 / NAF3 / TRACEDATA3 / TIOC4D / SD_D0_1 / MMC_D0)
8 DAT1 (P3_10 / LCD0_DATA2 / NAF2 / TRACEDATA2 / TIOC4C / SD_D1_1 / MMC_D1)
9 DAT2 (P3_15 / LCD0_DATA7 / NAF7 / TRACECTL / SD_D2_1 / MMC_D2)
10 DAT4 (P4_0 / LCD0_DATA8 / TIOC0A / FRE / RSPCK4 / MMC_D4)
11 DAT5 (P4_1 / LCD0_DATA9 / TIOC0B / FCLE / SCK2 / SSL40 / MMC_D5)
12 DAT6 (P4_2 / LCD0_DATA10 / TIOC0C / FALE / CRx3 / TxD2 / MOSI4 / MMC_D6)
13 DAT7 (P4_3 / LCD0_DATA11 / TIOC0D / FWE / CTx3 / RxD2 / MISO4 / MMC_D7)
14 CD (P3_8 / LCD0_DATA0 / NAF0 / TRACEDATA0 / TIOC4A / SD_CD_1 / MMC_CD)
15 WP (P3_9 / LCD0_DATA1 / NAF1 / TRACEDATA1 / TIOC4B / SD_WP_1 / IRQ6)
Note: Bold letters indicate setting functions.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-13
Dec. 19, 2013
3.1.9 CAN Connectors (J12 and J13) The RTK772100BC00000BR has two CAN connectors (J12 and J13). Figure3.1.12 shows the CAN Connector Pin Assignments, and Table3.1.10 lists the CAN Connector Pin Descriptions.
Top view of component side
J12
1
J13
31 31 3
Figure3.1.12 CAN Connector Pin Assignments
Table3.1.10 CAN Connector Pin Descriptions
Signal Name Pin No. J13 (CAN2) J12 (CAN1)
1 CANH CANH 2 GND (Vss) GND (Vss) 3 CANL CANL
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-14
Dec. 19, 2013
3.1.10 LVDS Connectors (J14 and J16) The RTK772100BC00000BR has a LVDS I/F connector (J14) to connect the Mitsubishi LCD panel AA104XD02 and the TDK Lambda DC-DC converter ALD-414012PJ126 or ALD-514012PJ134 connector (J16) for backlight power supply. Figure3.1.13 and Figure3.1.14 show the Pin Assignments for LVDS I/F Connector and Backlight Power Supply Connector respectively. Table3.1.11 and Table3.1.12 list the Pin Descriptions for LVDS I/F Connector and Backlight Power Supply Connector respectively.
Top view of solder side
12
34 20
19
J14
Figure3.1.13 LVDS I/F Connector Pin Assignments
Table3.1.11 LVDS I/F Connector Pin Descriptions
Pin No. Signal Name
1 +3.3V 2 +3.3V 3 GND (Vss) 4 GND (Vss) 5 Link0- (P5_7 / TXOUT0M / LCD1_DATA7 / LCD0_DATA23 / DV1_DATA7 / RxD6 / TIOC0D / SPDIF_OUT /
DV0_DATA15) 6 Link0+ (P5_6 / TXOUT0P / LCD1_DATA6 / LCD0_DATA22 / DV1_DATA6 / TxD6 / IRQ6 / SPDIF_IN /
DV0_DATA14) 7 GND (Vss) 8 Link1- (P5_5 / TXOUT1M / LCD1_DATA5 / LCD0_DATA21 / DV1_DATA5 / AUDIO_XOUT / TIOC0C / FCE /
DV0_DATA13) 9 Link1+ (P5_4 / TXOUT1P / LCD1_DATA4 / LCD0_DATA20 / DV1_DATA4 / RxD3 / TIOC3D / DV0_DATA12)
10 GND (Vss) 11 Link2- (P5_3 / TXOUT2M / LCD1_DATA3 / LCD0_DATA19 / DV1_DATA3 / TxD3 / TIOC3C / MISO3) 12 Link2+ (P5_2 / TXOUT2P / LCD1_DATA2 / LCD0_DATA18 / DV1_DATA2 / SCK3 / TIOC1B / MOSI3) 13 GND (Vss) 14 CLKIN- (P5_1 / TXCLKOUTM / LCD1_DATA1 / LCD0_DATA17 / DV1_DATA1 / RxD4 / TIOC0B / SSL30) 15 CLKIN+ (P5_0 / TXCLKOUTP / LCD1_DATA0 / LCD0_DATA16 / DV1_DATA0 / TxD4 / TIOC0A / RSPCK3) 16 GND (Vss) 17 Link3- (Connected to +3.3V via 680Ω resistor) 18 Link3+ (Connected to Vss via 620Ω resistor) 19 MODE (Connected to Vss via 22kΩ resistor) 20 SC (Connected to Vss via 22kΩ resistor)
Note: Bold letters indicate setting functions.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-15
Dec. 19, 2013
Top view of component side
12
3414
13
J16
Figure3.1.14 Backlight Power Supply Connector Pin Assignments
Table3.1.12 Backlight Power Supply Connector Pin Descriptions
Pin No. Signal Name
1 +12V 2 +12V 3 +12V 4 +12V 5 +12V 6 GND (Vss) 7 GND (Vss) 8 GND (Vss) 9 GND (Vss)
10 GND (Vss) 11 Vrmt (Connected to +3.3V via 1kΩ resistor) 12 Vbr/Rbr (Connected to Vss via 22kΩ resistor) 13 ADIM (Connected to Vss via 22kΩ resistor) 14 Vst (Connected to Vss via 22kΩ resistor)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-16
Dec. 19, 2013
3.1.11 TOSLINK Connector (U26) The RTK772100BC00000BR has a TOSLINK connector (U26) for digital audio. Figure3.1.15 shows the TOSLINK Connector Pin Descriptions, and Table3.1.13 lists the TOSLINK Connector Pin Descriptions.
12349 10
5678
Top view of component side
Side view
U26
Figure3.1.15 TOSLINK Connector Pin Assignments
Table3.1.13 TOSLINK Connector Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 RX (P8_8 / A16 / DV1_DATA5 / SPBIO00_1 / SPDIF_IN / TIOC1A / PWM1A / TxD3 / SSISCK5)
2 GND (Vss)
3 +5V 4 GND (Vss) 5 GND (Vss) 6 LED (Connected to +5V via 1.2kΩ resistor) 7 +5V 8 TX (P8_9 / A17 / DV1_DATA6 / SPBIO10_1 /
SPDIF_OUT / TIOC1B / PWM1B / RxD3 / SSIWS5)
Note: Bold letters indicate setting functions.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-17
Dec. 19, 2013
3.1.12 Serial Port Connectors (J17 and J19) The RTK772100BC00000BR has two types of serial port connectors (J17 for Dsub-9, J19 for USB Mini-B). Figure3.1.16 shows the Serial Port Connector Pin Assignments. Table3.1.14 and Table3.1.15 list the Pin Descriptions for J17 and J19.
Top view of component side
Side view
1 2 3 4 56 7 8 9
1 2 3 4 5
1 2 3 4 56 7 8 9
J19J17
Figure3.1.16 Serial Port Connector Pin Assignments
Table3.1.14 Serial Port Connector (J17) Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 NC 6 DSR# 2 RXD (P3_2 / LCD0_TCON1 / ET_TXEN / RxD2 /
SCI_RXD1 / TEND0 / PWM2C / MOSI3) 7 RTS#
3 TXD (P3_0 / LCD0_CLK / ET_TXCLK / IRQ2 / SCK2 / SCI_SCK1 / TxD2 / PWM2A / RSPCK3)
8 CTS#
4 DTR# 9 NC 5 GND (Vss)
Note: Bold letters indicate setting functions.
Pin 4 to 6, 7 and 8 are connected by using loopback. Table3.1.15 Serial Port Connector (J19) Pin Descriptions
Pin No. Signal Name
1 VBUS (UVBUS) 2 DM (UDM0) 3 DP (UDP0) 4 ID (NC) 5 GND (Vss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-18
Dec. 19, 2013
3.1.13 UDI Connectors (J21 and J22) The RTK772100BC00000BR has the CoreSight 20 connector with 1.27mm (J21) and the ARM JTAG 20 connector with 2.54mm (J22) to connect the ICE (In Circuit Emulator). Figure3.1.17 shows the UDI Connector Pin Assignments. Table3.1.16 and Table3.1.17 list the Pin Descriptions for UDI Connectors (J21 and J22).
Top view of component side
J21 J22
12
1920
19 20
1 2
Figure3.1.17 UDI Connector Pin Assignments
Table3.1.16 CoreSight 20 Connector (J21) Pin Descriptions
Pin No. Signal Name Pin No. Signal Name
1 +3.3V 2 TMS/SWDIO 3 GND (Vss) 4 TCK/SWCLK 5 GND (Vss) 6 TDO/SWO
7 KEY (NC) 8 TDI
9 GND (Vss) 10 nSRST (RES#)
11 NC 12 RTCK/TraceCLK (P3_14 / LCD0_DATA6 / NAF6 / TRACECLK / SD_D3_1 / MMC_D3)
13 NC 14 SWO/TraceD0 (P3_8 / LCD0_DATA0 / NAF0 / TRACEDATA0 / TIOC4A / SD_CD_1 / MMC_CD)
15 GND (Vss) 16 nTRST/TraceD1 (P3_9 / LCD0_DATA1 / NAF1 / TRACEDATA1 / TIOC4B / SD_WP_1 / IRQ6)
17 GND (Vss) 18 DBGRQ/TraceD2 (P3_10 / LCD0_DATA2 / NAF2 / TRACEDATA2 / TIOC4C / SD_D1_1 / MMC_D1)
19 GND (Vss) 20 DBGACK/TaceD3 (P3_11 / LCD0_DATA3 / NAF3 / TRACEDATA3 / TIOC4D / SD_D0_1 / MMC_D0)
Note: Bold letters indicate setting functions.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-19
Dec. 19, 2013
Table3.1.17 ARM JTAG 20 Connector (J22) Pin Descriptions Pin No. Signal Name Pin No. Signal Name
1 +3.3V 2 +3.3V 3 nTRST (TRST#) 4 GND (Vss) 5 TDI 6 GND (Vss) 7 TMS/SWDIO 8 GND (Vss) 9 TCK/SWCLK 10 GND (Vss) 11 RTCK 12 GND (Vss) 13 TDO/SWO 14 GND (Vss) 15 nSRST (RES#) 16 GND (Vss) 17 DBGRQ (Connected to Vss via 10kΩ resistor) 18 GND (Vss) 19 DBGACK (Connected to Vss via 10kΩ resistor) 20 GND (Vss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-20
Dec. 19, 2013
3.1.14 Power Supply Connectors (J23 and J25) The RTK772100BC00000BR has a 3-pin connector (J23) and an AC adapter jack (J25) for system power supply. Figure3.1.18 shows the Power Supply Connector Pin Assignments. Table3.1.18 and Table3.1.19 list the Power Supply Connector Pin Descriptions for J23 and J25.
J23
J25
123
4
2 3
Top view of component side
Figure3.1.18 Power Supply Connector Pin Assignments
Table3.1.18 Power Supply Connector (J23) Pin Descriptions
Pin No. Signal Name
1 +12V 2 NC 3 GND (Vss)
Table3.1.19 Power Supply Connector (J25) Pin Descriptions
Pin No. Signal Name
1 NC (without pins) 2 +12V 3 GND (Vss) 4 GND (Vss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-21
Dec. 19, 2013
3.1.15 External Power Supply Connectors (J24 and J26 to J28) The RTK772100BC00000BR has a board pattern which enables external power supply connectors (J24, J26 to J28) to be mounted in order to provide digital 5V, digital 3.3V, analog 3.3V and digital 1.18V directly from the outside. The internal power supply and the external power supply are switched at the jumpers, JP15, JP18, JP19, and JP21. Figure3.1.19 shows the External Power Supply Connector Pin Assignments. Table3.1.20 to Table3.1.23 list the Pin Descriptions for External Power Supply Connectors (JP15, JP18, JP19 and JP21).
J24
J26
J27
J28
12
12
1 2
21
Top view of component side
1
3
JP19
JP18
JP15JP21
1
1
1
3
3
3
Figure3.1.19 External Power Supply Connector Pin Assignments
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-22
Dec. 19, 2013
Table3.1.20 Digital 5V External Power Supply Connector (J24) Pin Descriptions Pin No. Signal Name Pin No. Signal Name
1 +5V 2 GND (Vss)
Table3.1.21 Digital 3.3V External Power Supply Connector (J26) Pin Descriptions Pin No. Signal Name Pin No. Signal Name
1 +3.3V 2 GND (Vss)
Table3.1.22 Analog 3.3V External Power Supply Connector (J27) Pin Descriptions Pin No. Signal Name Pin No. Signal Name
1 +3.3V 2 GND (AVss)
Table3.1.23 Digital 1.18V External Power Supply Connector (J28) Pin Descriptions Pin No. Signal Name Pin No. Signal Name
1 +1.18V 2 GND (Vss)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-23
Dec. 19, 2013
3.1.16 Expansion Connectors (CN1 to CN9) The RTK772100BC00000BR has through holes which enables the expansion connectors (CN1 to CN9) to be mounted. Figure3.1.20 shows the Expansion Connector Pin Assignments. Table3.1.24 to Table3.1.32 list the Expansion Connector Pin Descriptions.
CN8: Expansion connector
CN9: Expansion connector
CN2: Expansion connector
CN1: Expansion connector
CN7: Expansion connectorCN6: Expansion connector
CN3: Expansion connector
CN5: Expansion connector
19 20
1 2
2
1
34
33
2
1
30
29
19 20
1 2
2
1
20
19
30
29
2
1 30
1 2
2
1
20
19
2
1
30
29CN4: Expansion connector
Figure3.1.20 Expansion Connector Pin Assignments
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-24
Dec. 19, 2013
Table3.1.24 Expansion Connector (CN1) Pin Descriptions 1
Pin No. Signal Name Pin No. Signal Name
1 5VCC 2 P6_15 / D15 / DV0_DATA23 / RxD6 / LCD0_DATA7 / IRQ7
3 P6_14 / D14 / DV0_DATA22 / TxD6 / LCD0_DATA6 / IRQ6
4 P6_13 / D13 / DV0_DATA21 / SCK6 / RXD1 / LCD0_DATA5 / IRQ5
5 P6_12 / D12 / DV0_DATA20 / TXD1 / LCD0_DATA4 / IRQ4
6 3VCC
7 P6_11 / D11 / DV0_DATA15 / LCD0_TCON6 / SCK1 / LCD0_DATA3 / IRQ3
8 P6_10 / D10 / DV0_DATA14 / LCD0_TCON5 / RxD0 / LCD0_DATA2 / IRQ2
9 P6_9 / D9 / DV0_DATA13 / TxD0 / LCD0_DATA1 / IRQ1
10 P6_8 / D8 / DV0_DATA12 / CAN_CLK / SCK0 / LCD0_DATA0 / IRQ0
11 Vss 12 P6_7 / D7 / LCD1_DATA15 / LCD0_TCON6 / RxD5 / MISO1 / DV0_DATA23
13 P6_6 / D6 / LCD1_DATA14 / LCD0_TCON5 / TxD5 / MOSI1 / DV0_DATA22
14 P6_5 / D5 / LCD1_DATA13 / CTx2 / SCK5 / SSL10 / DV0_DATA21
15 P6_4 / D4 / LCD1_DATA12 / CRx2 / IRQ3 / RTS5 / RSPCK1 / DV0_DATA20
16 Vss
17 P6_3 / D3 / LCD1_DATA11 / LTXD1 / IRQ2 / CTS5 / TIOC2B / TxD2 / DV0_DATA19
18 P6_2 / D2 / LCD1_DATA10 / LRXD1 / IRQ7 / TCLKA / TIOC2A / RxD2 / DV0_DATA18
19 P6_1 / D1 / LCD1_DATA9 / LTXD0 / IRQ4 / TIOC1B / SSIDATA4 / TxD3 / DV0_DATA17
20 P6_0 / D0 / LCD1_DATA8 / LRXD0 / DV0_CLK / TIOC1A / IRQ5 / RxD3 / DV0_DATA16
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-25
Dec. 19, 2013
Table3.1.25 Expansion Connector (CN2) Pin Descriptions 2
Pin No. Signal Name Pin No. Signal Name
1 Vss 2 CKIO 3 Vss 4 Vss 5 P11_11 / DV0_DATA23 / SD_D2_0 / RxD5 /
MMC_D2 / LCD0_TCON3 6 P11_10 / DV0_DATA22 / SD_D3_0 / TxD5 /
MMC_D3 / LCD0_TCON4 7 P11_9 / DV0_DATA21 / SD_CMD_0 / SCK5 /
MMC_CMD / LCD0_TCON5 8 P11_8 / DV0_DATA20 / SD_CLK_0 / RTS5 /
MMC_CLK / LCD0_TCON6 9 3VCC 10 3VCC 11 P11_7 / DV0_DATA19 / SD_D0_0 / CTS5 /
MMC_D0 / LCD0_DATA0 12 P11_6 / DV0_DATA18 / SD_D1_0 / SSIDATA4 /
MMC_D1 / LCD0_DATA1 13 P11_5 / DV0_DATA17 / SD_WP_0 / SSIWS4 /
LCD0_DATA2 14 P11_4 / DV0_DATA16 / SD_CD_0 / SSISCK4 /
MMC_CD / LCD0_DATA3 15 3VCC 16 3VCC 17 P11_15 / SPDIF_OUT / MISO1 / IRQ1 /
MMC_D7 / LCD0_CLK 18 P11_14 / SPDIF_IN / MOSI1 / LCD0_TCON5 /
MMC_D6 / LCD0_TCON0 19 P11_13 / CTx1 / SSL10 / LCD0_TCON4 /
MMC_D5 / LCD0_TCON1 20 P11_12 / CRx1 / RSPCK1 / IRQ3 / MMC_D4 /
LCD0_TCON2 21 Vss 22 P7_8 / RD / SSISCK3 / CRx0 / TIOC3A / IRQ1 23 P7_7 / WE1/DQMLU / DV0_DATA23 /
ET_TXD3 / RTS7 / SSIDATA2 / TIOC2B 24 P7_6 / WE0/DQMLL / DV0_DATA22 /
ET_TXD2 / CTS7 / SSIWS2 / TIOC2A 25 P7_5 / RD/WR / DV0_DATA21 / ET_TXD1 /
RXD7 / SSISCK2 / TIOC1B 26 P7_4 / CKE / DV0_DATA20 / ET_TXD0 / TXD7 /
SSITxD1 / TIOC1A 27 P7_3 / CAS / DV0_DATA19 / ET_TXEN /
SCK7 / CTx2 / SSIRxD1 / TIOC0D 28 P7_2 / RAS / DV0_DATA18 / ET_TXER / RXD4 /
CRx2 / SSIWS1 / TIOC0C 29 P7_1 / CS3 / DV0_DATA17 / ET_TXCLK /
TXD4 / DV0_CLK / SSISCK1 / TIOC0B 30 P7_0 / MD_BOOT2 / CS0 / DV0_DATA16 /
ET_MDC / SCK4 / LTXD0 / TIOC0A
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-26
Dec. 19, 2013
Table3.1.26 Expansion Connector (CN3) Pin Descriptions 3
Pin No. Signal Name Pin No. Signal Name
1 NC 2 NC 3 P9_1 / A25 / SPBIO31_0 / CRx0 / IRQ0 /
MISO2 4 Vss
5 P9_0 / A24 / SPBIO21_0 / CTx0 / TCLKC / MOSI2
6 P8_15 / A23 / SPBIO11_0 / SPBIO10_1 / TIOC2B / SSL20 / PWM1H / RxD4
7 P8_14 / A22 / SPBIO01_0 / SPBIO00_1 / TIOC2A / RSPCK2 / PWM1G / TxD4 / SSIDATA4
8 P8_13 / A21 / SPBSSL_1 / TIOC3D / TXD5 / PWM1F / SGOUT_3 / SSIWS4
9 P8_12 / A20 / SPBCLK_1 / TIOC3C / SCK5 / PWM1E / SGOUT_2 / SSISCK4
10 P8_11 / A19 / SPBIO30_1 / TIOC3B / RxD5 / PWM1D / SGOUT_1 / DV0_CLK
11 P8_10 / A18 / DV1_DATA7 / SPBIO20_1 / TIOC3A / CTx4 / PWM1C / SGOUT_0 / SSITxD5
12 P8_9 / A17 / DV1_DATA6 / SPBIO10_1 / SPDIF_OUT / TIOC1B / PWM1B / RxD3 / SSIWS5
13 Vss 14 P8_8 / A16 / DV1_DATA5 / SPBIO00_1 / SPDIF_IN / TIOC1A / PWM1A / TxD3 / SSISCK5
15 P8_7 / A15 / DV1_DATA4 / AUDIO_XOUT / IRQ5 / ET_COL
16 P8_6 / A14 / DV1_DATA3 / MISO2 / IETxD / TxD2
17 P8_5 / A13 / DV1_DATA2 / MOSI2 18 P8_4 / A12 / DV1_DATA1 / SSL20 / IERxD / RxD2
19 P8_3 / A11 / DV1_DATA0 / RSPCK2 / RTS5 / IRQ1 / SCK2
20 P8_2 / A10 / MISO0 / RXD5 / IRQ0
21 P8_1 / A9 / MOSI0 / ET_RXDV / TXD5 / SCI_RXD0
22 Vss
23 P8_0 / A8 / SSL00 / ET_RXER / SCK5 / SCI_SCK0
24 P7_15 / A7 / RSPCK0 / ET_RXCLK / CTS5 / SCI_TXD0 / TIOC4D
25 P7_14 / A6 / SSIDATA4 / ET_CRS / TIOC4C / IRQ6
26 P7_13 / A5 / SSIWS4 / ET_MDIO / TIOC4B / IRQ5
27 P7_12 / A4 / SSISCK4 / ET_RXD3 / TIOC4A / IRQ4
28 P7_11 / A3 / SSITxD3 / ET_RXD2 / CRx1 / TIOC3D / IRQ3
29 P7_10 / A2 / SSIRxD3 / ET_RXD1 / CTx1 / TIOC3C / IRQ2
30 P7_9 / A1 / SSIWS3 / ET_RXD0 / CTx0 / TIOC3B / IRQ0
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-27
Dec. 19, 2013
Table3.1.27 Expansion Connector (CN4) Pin Descriptions 4
Pin No. Signal Name Pin No. Signal Name
1 NMI 2 RES# 3 NC 4 NC 5 P3_1 / LCD0_TCON0 / ET_TXER / IRQ6 /
TxD2 / SCI_TXD1 / AUDIO_CLK / PWM2B / SSL30
6 P3_0 / LCD0_CLK / ET_TXCLK / IRQ2 / SCK2 / SCI_SCK1 / TxD2 / PWM2A / RSPCK3
7 P3_3 / LCD0_TCON2 / ET_MDIO / IRQ4 / BS / SCI_CTS1 / RTS1 / DACK0 / PWM2D / MISO3
8 P3_2 / LCD0_TCON1 / ET_TXEN / RxD2 / SCI_RXD1 / TEND0 / PWM2C / MOSI3
9 Vss 10 Vss 11 P3_5 / LCD0_TCON4 / ET_RXER / SSIWS1 /
AUDIO_XOUT3 / SCI_TXD0 / TIOC3B / TxD3 12 P3_4 / LCD0_TCON3 / ET_RXCLK / SSISCK1 /
AUDIO_XOUT2 / SCI_SCK0 / TIOC3A / SCK3 13 P3_7 / LCD0_TCON6 / SSITxD1 /
LCD1_EXTCLK / SCI_CTS0/RTS0 / TIOC3D / CS1 / WDTOVF
14 P3_6 / LCD0_TCON5 / ET_RXDV / SSIRxD1 / SCI_RXD0 / TIOC3C / RxD3
15 Vss 16 Vss 17 P10_3 / TCLKD / PWM2D / ET_CRS /
LCD0_DATA20 / VIO_FLD 18 P10_2 / DV0_HSYNC / TCLKC / PWM2C /
ET_TXEN / LCD0_DATA21 / VIO_HD 19 P10_1 / DV0_VSYNC / TCLKB / PWM2B /
ET_TXER / LCD0_DATA22 / VIO_VD 20 P10_0 / DV0_CLK / TCLKA / PWM2A /
ET_TXCLK / LCD0_DATA23 / VIO_CLK
: 5V system power supply, : 3.3V system power supply, and : GND Table3.1.28 Expansion Connector (CN5) Pin Descriptions 5
Pin No. Signal Name Pin No. Signal Name
1 +12V 2 +12V 3 +12V 4 +12V 5 +12V 6 +12V 7 P1_15 / AN7 8 P1_14 / AN6 / ET_COL 9 AVcc 10 AVcc 11 P1_13 / AN5 / DV0_HSYNC / WAIT 12 P1_12 / AN4 / DV0_VSYNC / VIO_FLD 13 AVss 14 AVss 15 P1_11 / AN3 / IRQ5 / TCLKD 16 P1_10 / AN2 / IRQ4 / TCLKB 17 VBUS 18 VBUS 19 P1_9 / AN1 / IRQ3 / VIO_D15 / DV0_DATA15 20 P1_8 / AN0 / IRQ2 / DREQ0 / VIO_D14 /
DV0_DATA14
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-28
Dec. 19, 2013
Table3.1.29 Expansion Connector (CN6) Pin Descriptions 6
Pin No. Signal Name Pin No. Signal Name
1 P3_9 / LCD0_DATA1 / NAF1 / TRACEDATA1 / TIOC4B / SD_WP_1 / IRQ6
2 P3_8 / LCD0_DATA0 / NAF0 / TRACEDATA0 / TIOC4A / SD_CD_1 / MMC_CD
3 P3_11 / LCD0_DATA3 / NAF3 / TRACEDATA3 / TIOC4D / SD_D0_1 / MMC_D0
4 P3_10 / LCD0_DATA2 / NAF2 / TRACEDATA2 / TIOC4C / SD_D1_1 / MMC_D1
5 5VCC 6 5VCC 7 5VCC 8 5VCC 9 P3_13 / LCD0_DATA5 / NAF5 / AUDIO_XOUT /
SD_CMD_1 / MMC_CMD 10 P3_12 / LCD0_DATA4 / NAF4 / SD_CLK_1 /
MMC_CLK 11 P3_15 / LCD0_DATA7 / NAF7 / TRACECTRL /
SD_D2_1 / MMC_D2 12 P3_14 / LCD0_DATA6 / NAF6 / TRACECLK /
SD_D3_1 / MMC_D3 13 3VCC 14 3VCC 15 P4_1 / LCD0_DATA9 / TIOC0B / FCLE / SCK2 /
SSL40 / MMC_D5 16 P4_0 / LCD0_DATA8 / TIOC0A / FRE /
RSPCK4 / MMC_D4 17 P4_3 / LCD0_DATA11 / TIOC0D / FWE / CTx3 /
RxD2 / MISO4 / MMC_D7 18 P4_2 / LCD0_DATA10 / TIOC0C / FALE / CRx3 /
TxD2 / MOSI4 / MMC_D6 19 Vss 20 Vss 21 P10_5 / DV0_DATA1 / TIOC0B / PWM2F /
ET_TXD1 / LCD0_DATA18 / VIO_D1 22 P10_4 / DV0_DATA0 / TIOC0A / PWM2E /
ET_TXD0 / LCD0_DATA19 / VIO_D0 23 P10_7 / DV0_DATA3 / TIOC0D / PWM2H /
ET_TXD3 / LCD0_DATA16 / VIO_D3 24 P10_6 / DV0_DATA2 / TIOC0C / PWM2G /
ET_TXD2 / LCD0_DATA17 / VIO_D2 25 Vss 26 Vss 27 P4_5 / LCD0_DATA13 / SSL10 / TIOC4B /
PWM2F / SSIWS0 / DV0_DATA13 28 P4_4 / LCD0_DATA12 / RSPCK1 / TIOC4A /
PWM2E / SSISCK0 / DV0_DATA12 29 P4_7 / LCD0_DATA15 / MISO1 / TIOC4D /
PWM2H / SSITxD0 / DV0_DATA15 30 P4_6 / LCD0_DATA14 / MOSI1 / TIOC4C /
PWM2G / SSIRxD0 / DV0_DATA14
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-29
Dec. 19, 2013
Table3.1.30 Expansion Connector (CN7) Pin Descriptions 7
Pin No. Signal Name Pin No. Signal Name
1 AUDIO_XTAL1 2 AUDIO_XTAL2 3 Vss 4 Vss 5 P10_9 / DV0_DATA5 / TIOC1B / ET_RXD1 /
LCD0_DATA14 / VIO_D5 6 P10_8 / DV0_DATA4 / TIOC1A / ET_RXD0 /
LCD0_DATA15 / VIO_D4 7 P10_11 / DV0_DATA7 / TIOC2B / ET_RXD3 /
LCD0_DATA12 / VIO_D7 8 P10_10 / DV0_DATA6 / TIOC2A / ET_RXD2 /
LCD0_DATA13 / VIO_D6 9 P10_13 / DV0_DATA9 / SSIWS1 / SSL00 /
LCD0_DATA10 / VIO_D9 10 P10_12 / DV0_DATA8 / SSISCK1 / RSPCK0 /
LCD0_DATA11 / VIO_D8 11 P10_15 / DV0_DATA11 / SSITxD1 / MISO0 /
LCD0_DATA8 / VIO_D11 12 P10_14 / DV0_DATA10 / SSIRxD1 / MOSI0 /
LCD0_DATA9 / VIO_D10 13 P4_9 / LCD0_DATA17 / LCD1_TCON4 /
SD_WP_0 / SSIWS5 / CRx2 / TxD0 / IRQ1 14 P4_8 / LCD0_DATA16 / LCD1_TCON3 /
SD_CD_0 / MMC_CD / SSISCK5 / CTx2 / SCK0 / IRQ0
15 P4_11 / LCD0_DATA19 / LCD1_TCON6 / SD_D0_0 / MMC_D0 / SSITxD5 / CTx4 / SCK1 / IRQ3
16 P4_10 / LCD0_DATA18 / LCD1_TCON5 / SD_D1_0 / MMC_D1 / SSIRxD5 / RxD0 / IRQ2
17 P4_13 / LCD0_DATA21 / LCD1_TCON0 / SD_CMD_0 / MMC_CMD / SPBIO11_1 / SSIWS3 / RxD1 / IRQ5
18 P4_12 / LCD0_DATA20 / LCD1_CLK / SD_CLK_0 / MMC_CLK / SPBIO10_1 / SSISCK3 / TxD1 / IRQ4
19 P4_15 / LCD0_DATA23 / LCD1_TCON2 / SD_D2_0 / MMC_D2 / SPBIO31_1 / SSITxD3 / RxD2 / IRQ7
20 P4_14 / LCD0_DATA22 / LCD1_TCON1 / SD_D3_0 / MMC_D3 / SPBIO21_1 / SSIRxD3 / TxD2 / IRQ6
21 Vss 22 Vss 23 P2_1 / D17 / ET_TXER / DV0_DATA1 /
SPBIO10_1 / MLB_DAT / TIOC2A / VIO_D1 / LCD0_DATA17
24 P2_0 / D16 / ET_TXCLK / DV0_DATA0 / SPBIO00_1 / MLB_CLK / IRQ5 / VIO_D0 / LCD0_DATA16
25 P2_3 / D19 / ET_CRS / DV0_DATA3 / SPBIO30_1 / IERxD / CTS1 / VIO_D3 / LCD0_DATA19
26 P2_2 / D18 / ET_TXEN / DV0_DATA2 / SPBIO20_1 / MLB_SIG / TIOC2B / VIO_D2 / LCD0_DATA18
27 P2_5 / D21 / ET_TXD1 / DV0_DATA5 / SSIWS5 / SPBSSL_1 / TxD1 / VIO_D5 / LCD0_DATA21
28 P2_4 / D20 / ET_TXD0 / DV0_DATA4 / SSISCK5 / SPBCLK_1 / SCK1 / VIO_D4 / LCD0_DATA20
29 P2_7 / D23 / ET_TXD3 / DV0_DATA7 / SSITxD5 / IETxD / RTS1 / VIO_D7 / LCD0_DATA23
30 P2_6 / D22 / ET_TXD2 / DV0_DATA6 / SSIRxD5 / RxD1 / VIO_D6 / LCD0_DATA22
31 P2_9 / D25 / ET_RXD1 / DV0_DATA9 / SSIWS0 / LRXD0 / LCD1_DATA9 / VIO_D9 / SSL40
32 P2_8 / D24 / ET_RXD0 / DV0_DATA8 / SSISCK0 / LCD0_TCON6 / LCD1_DATA8 / VIO_D8 / RSPCK4
33 P2_11 / D27 / ET_RXD3 / DV0_DATA11 / SSITxD0 / TIOC1A / LCD1_DATA11 / VIO_D11 / MISO4
34 P2_10 / D26 / ET_RXD2 / DV0_DATA10 / SSIRxD0 / LTXD0 / LCD1_DATA10 / VIO_D10 / MOSI4
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-30
Dec. 19, 2013
Table3.1.31 Expansion Connector (CN8) Pin Descriptions 8
Pin No. Signal Name Pin No. Signal Name
1 P3_4 / LCD0_TCON3 / ET_RXCLK / SSISCK1 / AUDIO_XOUT2 / SCI_SCK0 / TIOC3A / SCK3
2 P3_3 / LCD0_TCON2 / ET_MDIO / IRQ4 / BS / SCI_CTS1 / RTS1 / DACK0 / PWM2D / MISO3
3 P3_6 / LCD0_TCON5 / ET_RXDV / SSIRxD1 / SCI_RXD0 / TIOC3C / RxD3
4 P3_5 / LCD0_TCON4 / ET_RXER / SSIWS1 / AUDIO_XOUT3 / SCI_TXD0 / TIOC3B / TxD3
5 3VCC 6 3VCC 7 P2_13 / D29 / SSL00 / DV0_DATA13 /
SPBIO11_0 / CTx3 / SCK0 / LCD1_DATA13 / IRQ7
8 P2_12 / D28 / RSPCK0 / DV0_DATA12 / SPBIO01_0 / CRx3 / IRQ6 / LCD1_DATA12 / TIOC1B
9 P2_15 / D31 / MISO0 / DV0_DATA15 / SPBIO31_0 / CAN_CLK / RxD0 / LCD1_DATA15 / IRQ1
10 P2_14 / D30 / MOSI0 / DV0_DATA14 / SPBIO21_0 / CRx4 / TxD0 / LCD1_DATA14 / IRQ0
11 Vss 12 Vss 13 P1_1 / SDA0 / DV0_DATA17 / TCLKC / IRQ1 /
VIO_HD / DV0_HSYNC 14 P1_0 / SCL0 / DV0_DATA16 / TCLKA / IRQ0 /
VIO_VD / DV0_VSYNC 15 P1_3 / SDA1 / DV0_DATA19 / ET_COL / IRQ3 /
ADTRG 16 P1_2 / SCL1 / DV0_DATA18 / FRB / IRQ2 /
LCD1_EXTCLK 17 P1_5 / SDA2 / DV1_CLK / CRx4 / IRQ5 /
VIO_CLK / LCD1_EXTCLK 18 P1_4 / SCL2 / DV0_CLK / CRx1 / IRQ4 /
CAN_CLK 19 P1_7 / SDA3 / DV1_HSYNC / LRXD0 / IRQ7 /
VIO_D13 / DV0_DATA13 20 P1_6 / SCL3 / DV1_VSYNC / IERxD / IRQ6 /
VIO_D12 / DV0_DATA12
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-31
Dec. 19, 2013
Table3.1.32 Expansion Connector (CN9) Pin Descriptions 9
Pin No. Signal Name Pin No. Signal Name
1 P5_1 / TXCLKOUTM / LCD1_DATA1 / LCD0_DATA17 / DV1_DATA1 / RxD4 / TIOC0B / SSL30
2 P5_0 / TXCLKOUTP / LCD1_DATA0 / LCD0_DATA16 / DV1_DATA0 / TxD4 / TIOC0A / RSPCK3
3 P5_3 / TXOUT2M / LCD1_DATA3 / LCD0_DATA19 / DV1_DATA3 / TxD3 / TIOC3C / MISO3
4 P5_2 / TXOUT2P / LCD1_DATA2 / LCD0_DATA18 / DV1_DATA2 / SCK3 / TIOC1B / MOSI3
5 P5_5 / TXOUT1M / LCD1_DATA5 / LCD0_DATA21 / DV1_DATA5 / AUDIO_XOUT / TIOC0C / FCE / DV0_DATA13
6 P5_4 / TXOUT1P / LCD1_DATA4 / LCD0_DATA20 / DV1_DATA4 / RxD3 / TIOC3D / DV0_DATA12
7 P5_7 / TXOUT0M / LCD1_DATA7 / LCD0_DATA23 / DV1_DATA7 / RxD6 / TIOC0D / SPDIF_OUT / DV0_DATA15
8 P5_6 / TXOUT0P / LCD1_DATA6 / LCD0_DATA22 / DV1_DATA6 / TxD6 / IRQ6 / SPDIF_IN / DV0_DATA14
9 Vss 10 Vss 11 P5_8 / LCD0_EXTCLK / IRQ0 / DV1_CLK /
DV0_CLK / CS2 12 Vss
13 Vss 14 Vss 15 P5_10 / WE3/DQMUU/AH / DV0_HSYNC /
CTx1 / IETxD / LCD1_DATA17 16 P5_9 / WE2/DQMUL / ET_MDC /
DV0_VSYNC / IRQ2 / CRx1 / IERxD / LCD1_DATA16
17 Vss 18 Vss 19 P9_3 / LCD1_DATA19 / SPBSSL_0 / TxD1 20 P9_2 / LCD1_DATA18 / SPBCLK_0 / LTXD0 /
SCK1 / A0 21 P9_5 / LCD1_DATA21 / SPBIO10_0 /
SSISCK2 / CTS1 / CS4 22 P9_4 / LCD1_DATA20 / SPBIO00_0 / RxD1
23 P9_7 / LCD1_DATA23 / SPBIO30_0 / SSIDATA2 / TIOC1A
24 P9_6 / LCD1_DATA22 / SPBIO20_0 / SSIWS2 / RTS1 / CS5
25 3VCC 26 3VCC 27 P11_1 / DV0_DATA13 / TIOC4B / TxD6 /
LCD0_DATA6 / VIO_D13 28 P11_0 / DV0_DATA12 / TIOC4A / SCK6 /
LCD0_DATA7 / VIO_D12 29 P11_3 / DV0_DATA15 / TIOC4D /
LCD0_DATA4 / VIO_D15 30 P11_2 / DV0_DATA14 / TIOC4C / RxD6 /
LCD0_DATA5 / VIO_D14
: 5V system power supply, : 3.3V system power supply, and : GND
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-32
Dec. 19, 2013
3.2 Operation Parts Layout Figure3.2.1 shows the RTK772100BC00000BR Operation Parts Layout.
SW1:
DIP
sw
itch
for s
yste
m s
ettin
g
SW
5: N
MI s
witc
h
SW
6: IR
Q6
switc
h
SW
8: T
est s
witc
h
SW
7: T
oggl
e sw
itch
SW4: Power switchS
W2:
D
IP s
witc
h fo
r I/F
set
ting
SW
3:D
IP s
witc
h fo
r PH
Y s
ettin
g
SW
9: R
eset
sw
itch
JP1:
CR
x2/R
AS s
witc
h ju
mpe
r
JP2:
A16
/SPD
IF_I
N s
witc
h ju
mpe
r
JP3:
IRQ
6 se
lect
jum
per
JP4:
CR
x1/M
DC
sw
itch
jum
per
JP5:
MD
_BO
OT2
/CS
0 sw
itch
jum
per
JP6:
LCD
_EX
TCLK
/CS1
sw
itch
jum
per
JP7:
S
SL_0
con
nect
ion
jum
per
JP8:
SS
L_1/
A21
sw
itch
jum
per
JP9:VBUS0 power select jumper
JP10
:S
SL40
/MM
C_D
5 sw
itch
jum
per
JP11:VBUS1 power select jumper
JP12: RxD2 select jumperJP13: TxD2 select jumper
JP14:System power supply select jumper
JP15:5V power select jumper
JP21:Vcc power select jumper
JP18:PVcc power select jumper
JP19:Avcc power select jumper
LED6: Power LED
LED
1, L
ED
2: U
ser L
EDs
LED
3 to
LE
D5:
LAN
sta
tus
LED
s
Top view of component side
Figure3.2.1 RTK772100BC00000BR Operation Parts Layout
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-33
Dec. 19, 2013
3.2.1 Jumpers (JP1 to JP15, JP18, JP19 and JP21) The RTK772100BC00000BR has 18 jumpers for system setting. Figure3.2.2 shows the RTK772100BC00000BR System Setting Jumper Assignments. Table3.2.1 to Table3.2.3 list the Jumper Settings.
JP9
31
13
Top view of component side
JP19
JP14
JP10
JP7
JP5JP2JP4
JP1
JP8
JP6
JP18
JP11JP15
JP3 JP12 JP13
JP21
111
1
1
1
1
1
11 1
3
3
3
3
3
333
333
Figure3.2.2 RTK772100BC00000BR System Setting Jumper Assignments.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-34
Dec. 19, 2013
Table3.2.1 Jumper Setting for Switching Multifunctional pins (JP1 to JP8, JP10, JP12 and JP13)
Jumper Setting Function
1 - 2 Connected to CAN transceiver IC (U24) as CRx2 input pin JP1
RAS/CRx2 None (open) Connected to SDRAM (U4 and U5) as RAS output pin 1 - 2 Connected to NOR flash memories (U2 and U3) as A16 output pin JP2
A16/SPDIF_IN 2 - 3 Connected to TOSLINK connector (U26) as SPDIF_IN input pin 1 - 2 Connected to IRQ6 switch (SW6) asIRQ6 input pin JP3
IRQ6/Ext 2 - 3 Connected to expansion connectors (CN4 to CN5) 1 - 2 Connected to CAN transceiver (U21) as CRx1 input pin JP4
CRx1/ET_MDC 2 - 3 Connected to Ethernet PHY (U29) as ET_MDC output pin 1 - 2 Connected to DIP switch for system setting (SW-3) as MD_BOOT2 input pin JP5
MD_BOOT2/CS0 2 - 3 Connected to NOR flash memory 1 (U2) as CS0 output pin 1 - 2 Connected to Crystal oscillator (X9) as LCD1_EXTCLK input pin JP6
LCD1_EXTCLK/CS1 2 - 3 Connected to NOR flash memory 2 (U3) as U3CS1 output pin 1 - 2 Connected to serial flash memories (U6 and U7) as SPBSSL_0 output pin JP7
SPBSSL_0/Ext None (open) Connected to expansion connectors (CN9 to CN19) 1 - 2 Connected to serial flash memory (U8) as SPBSSL_1 output pin JP8
SPBSSL_1/A21 None (open) Connected to NOR flash memory (U2 and U3) as A21 output pin 1 - 2 Connected to audio CODEC (U19) as SSL40 output pins JP10
SSL40/ FCLE/MMC_D5
None (open) Connected to NAND flash memory (U9) as FCLE output pin Connected to MMC card slot (J15) as MMC_D5 I/O pin
1 - 2 Connected to RS-232C transceiver (U27) as RxD2 input pin JP12 for RxD2
connection 2 - 3 Connected to USB serial converter IC (U28) as RxD2 input pin
1 - 2 Connected s to RS-232C transceiver (U27) as TxD2 output pin JP13 for TxD2
connection 2 - 3 Connected to USB serial converter IC (U28) as TxD2 output pin
indicates initial setting.
Note: The power of the board should be off when changing the jumpers. Table3.2.2 Jumper Setting for USB VBUS Power Supply (JP9 and JP11)
Jumper Setting Function
1 - 2 Used USB ch0 in host mode (Provides VBUS0 power supply) None (open) Used USB ch0 in function mode (Does not provide VBUS0 power supply)
JP9 for USB ch0
2 - 3 Used USB ch0 in host mode (Provides VBUS0 power supply from expansion connectors)
1 - 2 Used USB ch1 in host mode (Provides VBUS1 power supply) JP11 for USB ch1 None (open) Used USB ch1 in function mode (Does not provide VBUS1 power supply)
indicates initial setting.
Note: The power of the board should be off when changing the jumpers.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-35
Dec. 19, 2013
Table3.2.3 Jumper Setting for Power Select (JP14, JP1, JP18, JP19 and JP21)
Jumper Setting Function
1 - 2 Provides system power supply from J23 JP14 for system power
supply 2 - 3 Provides system power supply from J25 (using AC adapter)
1 - 2 Provides 5V power supply from U30 (Internal power supply) JP15 for 5V power
supply 2 - 3 Provides 5V power supply from J24. (External power supply)
1 - 2 Provides R7S72100 digital 3.3V power supply from U32 (Internal power supply) JP18 for D3.3V power
supply 2 - 3 Provides R7S72100 digital 3.3V power supply from J26 (External power supply)
1 - 2 Provides R7S72100 analog 3.3V power supply from U32 (Internal power supply) JP19 for A3.3V power
supply 2 - 3 Provides R7S72100 analog 3.3V power supply from J27 (External power supply)
1 - 2 Provides R7S72100 1.18V power supply from U34 (Internal power supply) JP21 for 1.18V power
supply 2 - 3 Provides R7S72100 1.18V power supply from J28 (External power supply)
indicates initial setting.
Note: The power of the board should be off when changing the jumpers.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-36
Dec. 19, 2013
3.2.2 Switches and LEDs The RTK772100BC00000BR includes nine switches and six LEDs. Figure3.2.3 shows the RTK772100BC00000BR Switches, LED Pin Assignments. Table3.2.5 to Table3.2.7 list the Function Descriptions for DIP switches, and Table3.2.8 lists the Descriptions of RTK772100BC00000BR LEDs.
LED6SW4
SW2
SW1
SW5 SW8
SW6 SW7
SW9
LED1LED2
SW3
LED3LED4LED5
Top view of component side
Figure3.2.3 RTK772100BC00000BR Switches, LED Pin Assignments
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-37
Dec. 19, 2013
Table3.2.4 RTK772100BC00000BR Switches
No. Function Remarks
SW1 DIP switch for system setting (6/package) Refer to Table3.2.5 for more details SW2 DIP switch for I/F setting (4/package) Refer to Table3.2.6 for more details SW3 DIP switch for Ethernet PHY setting (8/package) Refer to Table3.2.7 for more details SW4 Power supply switch - SW5 NMI switch SW6 IRQ6 switch SW7 IRQ6 toggle switch SW8 TEST switch
Refer to Section 2.7 for more details
SW9 Reset switch Refer to Section 2.9 for more details Table3.2.5 Function Descriptions of DIP Switch for System Setting (SW1)
No. Function Remarks
OFF MD_BOOT0 = "H" SW1-1 MD_BOOT0 ON MD_BOOT0 = "L"
OFF MD_BOOT1 = "H" SW1-2 MD_BOOT1 ON MD_BOOT1 = "L"
OFF MD_BOOT2 = "H" SW1-3 MD_BOOT2 ON MD_BOOT2 = "L"
Boot mode MD_BOOT[2:0]
Boot device
0 (B'*00) NOR flash memory (bus width 16-bit) 1 (B'*10) NOR flash memory (bus width 32-bit) 3 (B'101) Serial flash memory 4 (B'011) eSD 5 (B'111) eMMC
OFF MD_CLK = "H" Inputs system clock from USB_X1 SW1-4 MD_CLK ON MD_CLK = "L" Inputs system clock from EXTAL
OFF MD_CLKS = "H" SSCG operation ON SW1-5 MD_CLKS ON MD_CLKS = "L" SSCG operation OFF
OFF SW1-6 ON
Sets without reference to setting
indicates initial setting. Table3.2.6 Function Descriptions of DIP Switch for I/F Setting (SW2)
No. Function Remarks
OFF LAN#/MLB,EXT = "H" Connected to MOST I/F connector (J3) and expansion connectors
SW2-1 P2_[11:0], P3_[6:3]
for connection destination ON LAN#/MLB,EXT = "L" Connected to Ethernet PHY (U20)
OFF SSIF#/EXT = "H" Connected to expansion connectors SW2-2 P4_[7:4]
for connection destination
ON SSIF#/EXT = "L" Connected to audio CODEC (U19)
OFF BSCANP = "H" Boundary scan operation SW2-3 BSCANP ON BSCANP = "L" Normal operation
OFF TP2 = "H" SW2-4 TP2 ON TP2 = "L"
indicates initial setting.
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-38
Dec. 19, 2013
Table3.2.7 Function Descriptions of DIP Switch for Ethernet PHY Setting (SW3)
No. Function Remarks
OFF P0RXD3 = "H" Autoneg enabled, 100BaseT SW3-1 Autoneg ON P0RXD3 = "L" Autoneg disabled, 100BaseT
OFF P0RXD2 = "H" If Autoneg disabled : Full Duplex If Autoneg enabled : Forced Full Duplex in parallel detect
SW3-2 Duplex
ON P0RXD2 = "L" If Autoneg disabled : Half Duplex If Autoneg enabled : Parallel detect ends in half duplex mode
OFF P0RXCLK = "H" If Autoneg enabled : Quick Autonegotiation, shortest times If Autoneg disabled : Special Isolate. In this mode the PHYs will not set up a link unless programmed and enabled through the SMI.
SW3-3 Quick Autoneg
ON P0RXCLK = "L" Disable Quick Autonegotiation OFF P0RXERR = "H" Configure MII Interface SW3-4
Interface ON P0RXERR = "L" Configure RMII Interface OFF P0TXCLK = "H" Fast Mode, Only "J" required for Start of Frame detection.
Do not use in RMII Mode. SW3-5
Frame detection ON P0TXCLK = "L" Standard Mode, "JK" required for Start of Frame detection. OFF P0CRS = "H" AUTOMDI-X enabled SW3-6
AUTOMDI-X ON P0CRS = "L" AUTOMDI-X disabled OFF P0RXD0 = "L" SW3-7
PHY Address0 ON P0RXD0 = "H" OFF P0RXD1 = "L" SW3-8
PHY Address1 ON P0RXD1 = "H"
Configures the upper two bits N and M of the PHY addresses. 00: device uses address 00xxx for SMI 01: device uses address 01xxx for SMI 10: device uses address 10xxx for SMI 11: device uses address 11xxx for SMI
indicates initial setting. Table3.2.8 Descriptions of RTK772100BC00000BR LEDs
No. Color Function
LED1 Yellow User LED (Lights up when P4_10 outputs "L") LED2 Yellow User LED (Lights up when P4_11 outputs "L") LED3 Green LAN status LED (LinkA: lights up when linked up) LED4 Green LAN status LED (ACT: blinks when communicating) LED5 Green LAN status LED (FD: lights up in full duplex communication) LED6 Blue Power supply LED (Lights up when 12V power is supplied)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-39
Dec. 19, 2013
3.3 Dimensions Figure3.3.1 and Figure3.3.2 show the RTK772100BC00000BR Dimensions of Top View of Component Side. Figure3.3.3 shows the RTK772100BC00000BR Dimensions of Perspective View of Component Side.
[Top View of Component Side] Unit: mm
Figure3.3.1 RTK772100BC00000BR Dimensions 1 (Top View of Component Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-40
Dec. 19, 2013
[Top View of Component Side] Unit: mm
Figure3.3.2 RTK772100BC00000BR Dimensions 2 (Top View of Component Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-41
Dec. 19, 2013
[Perspective View of Component Side] Unit: mm
Figure3.3.3 RTK772100BC00000BR Dimensions 3 (Perspective View of Component Side)
R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification
R20UT2596EJ0008 Rev.0.08 3-42
Dec. 19, 2013
This page intentionally left blank
R7S72100 CPU board RTK772100BC00000BR (GENMAI) Appendix
R20UT2596EJ0008 Rev.0.08 Appendix-1 Dec. 19, 2013
Appendix RTK772100BC00000BR Schematics
R7S72100 CPU board RTK772100BC00000BR (GENMAI) Appendix
R20UT2596EJ0008 Rev.0.08 Appendix-2 Dec. 19, 2013
1
1
2
2
3
3
4
4
5
5
A A
B B
C C
D D
R7S72100 CPU board RTK772100BC00000BR SCHEMATICS(RZ/A1H, BGA324)
IndexCPU-mainCPU-power & clock, Dip-SWNOR-flash, SDRAMSerial-flash, NAND, EEPROM, MOSTAudio-codec, USB, LANSD/MMC, SPDIF, CAN, LVDSSerial(RS-232C, USB), UDIPower, Reset, Push-SWExt. Connector
PAGE
1 2 3 4 5 6 7 8 910
TITLE Note:
Digital GND (GND)
Analog GND (AVss)
Not mounted
12VCC = Digital 12V (System Power)5VCC = Digital 5V3VCC = Digital 3.3VPVcc = 3.3V for CPU I/OVcc = 1.18V for CPU CorePLLVcc = Digital 1.18V for PLLUSBAPVcc = Analog 3.3V for USBUSBAVcc = Analog 1.18V for USBAVcc = Analog 3.3VAVref = 3.3V for ADC Voltage ReferenceAN3V = Analog 3.3V for Audio-codec, LAN
R = Fixed ResistorsRA = Resistor ArrayC = Ceramic CapsCE = Tantalum Electrolytic CapsCP = Decoupling Caps
Renesas Solutions Corp.
DATE
APPROVEDSCALE
DESIGNEDCHECKEDDRAWN
CHANGE ( / )1 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRINDEX
Renesas Solutions Corp.
DATE
APPROVEDSCALE
DESIGNEDCHECKEDDRAWN
CHANGE ( / )1 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRINDEX
Renesas Solutions Corp.
DATE
APPROVEDSCALE
DESIGNEDCHECKEDDRAWN
CHANGE ( / )1 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRINDEX
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
Data
ADC
P4_11/SD_D0_0/(LED2)
P4_10/SD_D1_0/(LED1)
A9A10A11A12
A1
A13A14A15
A2A3A4A5A6A7A8
P7_0P7_1P7_2P7_3P7_4P7_5P7_6P7_7P7_8
P7_2
P23
P26
P2_9
P2_10
P2_11
P2_8P28
P29
P210
P211
P22
P211
P25
P21P2_1
P2_14P2_15
P2_12P2_13
P2_2
P2_3
P2_0P20
P21
P22
P23
P2[11:0]
P29P210
P27P28
P24
P20
P2_5
P2_6
P2_7
P2_4P24
P25
P26
P27
P10_2P10_3
P10_6P10_7
P10_4P10_5
P10_10P10_11
P10_8P10_9
P10_14P10_15
P10_12P10_13
P10_1P10_0
P11_14
P11_12P11_13
P11_15
P11_2P11_3
P11_0P11_1
P11_6P11_7
P11_4P11_5
P11_10P11_11
P11_8P11_9
P1_6P1_7
P1_0
P1_2P1_3
P1_1
P1_4P1_5
P6_14
P6_12P6_13
P6_15
P6_2P6_3
P6_0P6_1
P6_6P6_7
P6_4P6_5
P6_10P6_11
P6_8P6_9
P3_4
P3_5
P3_6
P3_3P33
P34
P35
P36
P3[6:3]P3_0
P3_10P3_11P3_12
P3_2
P35P36
P3_14P3_15
P3_13
P33P34
P3_7P3_8P3_9
P3_1
P4_5
P4_6
P4_7
P4_4
P4_10P4_11
P4_0
P4_12
P4_2
P4_14P4_15
P4_13
P4_3
P4_1
P4_8P4_9
P44
P45
P46
P47
P4[7:4]
P44P45P46P47
P4_10
P4_11
P19P1_9
P1_11
P1[11:8]
P1_10
P1_8
P110
P18
P111
P1_6P1_7
P1_0
P1_2P1_3
P1_1
P1_4P1_5
P1_14P1_15
P1_12P1_13
P18
P111P110P19
P5_3 P53
P52P53
P50P51
P56P57
P55P54
P5_6 P56
P5_9
P5_4 P54
P5[7:0]
P5_7 P57
P5_2
P51P5_1
P5_10
P5_8P5_9
P50
P52
P5_0
P5_5 P55
A18A19
A17
A16
P9_3P9_4P9_5P9_6P9_7
P9_2
A23A24A25
A21A22
A20
A[25:1][4,5,7,10]
P7_[8:0][4,7,10]
P7_2/CRx2[7]
P2_6/TxD[2] [6]
P2_[15:0] [5,10]
P2_0/TXCLK [6]
P2_10/RxD[2] [6]
P2_8/RxD[0] [6]
P2_2/TXEN [6]
P2_11/RxD[3] [6]
P2_3/CRS [6]
P2_1/TXER [6]
P2_9/RxD[1] [6]
P2_7/TxD[3] [6]
P2_4/TxD[0] [6]
P2_5/TxD[1] [6]
P10_[15:0] [10]
P11_[15:0] [10]
P1_[15:0][5,6,10]
P6_[15:0] [4]
P3_6/RXDV [6]
P3_3/MDIO [6]
P3_4/RXCLK [6]
SW2-1[3]
P3_5/RXER [6]
P3_[15:0] [4,5,7,8,10]
P3_1/IRQ6 [9]P4_[15:0] [5,6,7,10]
P4_7/SSITxD0 [6]
P4_4/SSISCK0 [6]
P4_5/SSIWS0 [6]
SW2-2[3]
P4_6/SSIRxD0 [6]
P5_4/TXOUT1P[7]
P5_5/TXOUT1M[7]
P5_9/CRx1[7]
P5_9/MDC[6]
P5_6/TXOUT0P[7]
P5_7/TXOUT0M[7]
P5_1/TXCLKOUTM[7]
P5_2/TXOUT2P[7]
P5_0/TXCLKOUTP[7]
P5_3/TXOUT2M[7]
P5_[10:0][4,5,7,8,10]
P8_8/SPDIF_IN[7]
P9_[7:2][5,10]
P8_12/SPBCLK_1[5]
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
AVcc
AVcc
AVcc
AVcc
3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )2 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRCPU-main
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )2 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRCPU-main
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )2 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRCPU-main
Texas Instruments
MUX
U15SN74CB3Q3257Texas Instruments
MUX
U15SN74CB3Q3257
S1
OE
15
1A4
2A7
3A9
4A12
1B12
1B23
2B15
2B26
3B111
3B210
4B114
4B213
GND8
Vcc16
C20.1µFC20.1µF
R15 0ΩR15 0Ω
CP20.1µFCP20.1µF
D7RB520S-30D7RB520S-30
R19 0ΩR19 0Ω
R20 0ΩR20 0Ω
R4122ΩR4122Ω
LED1SML-311YTLED1SML-311YT
R9100ΩR9100Ω
C40.1µFC40.1µF
R16 0ΩR16 0Ω
R21 0ΩR21 0Ω
D6RB520S-30D6RB520S-30
Texas Instruments
MUX
U11 SN74CB3Q3257Texas Instruments
MUX
U11 SN74CB3Q3257
S1
OE
15
1A4
2A7
3A9
4A12
1B12
1B23
2B15
2B26
3B111
3B210
4B114
4B213
GND8
Vcc16
LED2SML-311YTLED2SML-311YT
D1RB520S-30D1RB520S-30
R17 0ΩR17 0Ω
R22 0ΩR22 0Ω
R11100ΩR11100Ω
R6 2.2kΩR6 2.2kΩ
JP1
HWP-2P-G
JP1
HWP-2P-G
R14 0ΩR14 0Ω
Texas Instruments
MUX
U13 SN74CB3Q3257Texas Instruments
MUX
U13 SN74CB3Q3257
S1
OE
15
1A4
2A7
3A9
4A12
1B12
1B23
2B15
2B26
3B111
3B210
4B114
4B213
GND8
Vcc16
R301.5kΩR301.5kΩ
R13 0ΩR13 0Ω
R7 2.2kΩR7 2.2kΩ
Texas Instruments
MUX
U14SN74CB3Q3257Texas Instruments
MUX
U14SN74CB3Q3257
S1
OE
15
1A4
2A7
3A9
4A12
1B12
1B23
2B15
2B26
3B111
3B210
4B114
4B213
GND8
Vcc16
D5RB520S-30D5RB520S-30
C10.1µFC10.1µF
R23 0ΩR23 0Ω
R5 2.2kΩR5 2.2kΩ
D2RB520S-30D2RB520S-30
R1 2.2kΩR1 2.2kΩ
JP2HWP-3P-GJP2HWP-3P-G
12
3
R24 0ΩR24 0Ω
CP50.1µFCP50.1µF
R10100ΩR10100Ω
C30.1µFC30.1µF
CP30.1µFCP30.1µF
R8 2.2kΩR8 2.2kΩ
CP10.1µFCP10.1µF
R25 0ΩR25 0Ω
JP3HWP-3P-GJP3HWP-3P-G
12
3
R27 0ΩR27 0Ω
R2 2.2kΩR2 2.2kΩ
Texas Instruments
MUX
U12 SN74CB3Q3257Texas Instruments
MUX
U12 SN74CB3Q3257
S1
OE
15
1A4
2A7
3A9
4A12
1B12
1B23
2B15
2B26
3B111
3B210
4B114
4B213
GND8
Vcc16
CP40.1µFCP40.1µF
R26 0ΩR26 0Ω
R12100ΩR12100Ω
R4 2.2kΩR4 2.2kΩ
D4RB520S-30D4RB520S-30
R29 0ΩR29 0Ω
R3 2.2kΩR3 2.2kΩ
RenesasRZ/A1H_BGA324U1A
RenesasRZ/A1H_BGA324U1A
P6_5/D5/LCD1_DATA13/CTx2/SCK5/SSL10/DV0_DATA21C1
P6_6/D6/LCD1_DATA14/LCD0_TCON5/TxD5/MOSI1/DV0_DATA22D2
P6_7/D7/LCD1_DATA15/LCD0_TCON6/RxD5/MISO1/DV0_DATA23D1
P6_8/D8/DV0_DATA12/CAN_CLK/SCK0/LCD0_DATA0/IRQ0E3
P6_9/D9/DV0_DATA13/TxD0/LCD0_DATA1/IRQ1E2
P6_10/D10/DV0_DATA14/LCD0_TCON5/RxD0/LCD0_DATA2/IRQ2E1
P6_11/D11/DV0_DATA15/LCD0_TCON6/SCK1/LCD0_DATA3/IRQ3F3
P6_12/D12/DV0_DATA20/TXD1/LCD0_DATA4/IRQ4G4
P6_13/D13/DV0_DATA21/SCK6/RXD1/LCD0_DATA5/IRQ5F2
P6_14/D14/DV0_DATA22/TxD6/LCD0_DATA6/IRQ6F1
P6_15/D15/DV0_DATA23/RxD6/LCD0_DATA7/IRQ7G3
P7_12/A4/SSISCK4/ET_RXD3/TIOC4A/IRQ4M1
P7_13/A5/SSIWS4/ET_MDIO/TIOC4B/IRQ5N1
P7_15/A7/RSPCK0/ET_RXCLK/CTS5/SCI_TXD0/TIOC4DN3
P8_1/A9/MOSI0/ET_RXDV/TXD5/SCI_RXD0P2
P8_3/A11/DV1_DATA0/RSPCK2/RTS5/IRQ1/SCK2R1
P8_5/A13/DV1_DATA2/MOSI2R3
P8_9/A17/DV1_DATA6/SPBIO10_1/SPDIF_OUT/TIOC1B/PWM1B/RxD3/SSIWS5V3
P8_11/A19/SPBIO30_1/TIOC3B/RxD5/PWM1D/SGOUT_1/DV0_CLKW3
P8_13/A21/SPBSSL_1/TIOC3D/TXD5/PWM1F/SGOUT_3/SSIWS4V4
P8_14/A22/SPBIO01_0/SPBIO00_1/TIOC2A/RSPCK2/PWM1G/TxD4/SSIDATA4Y2
P9_1/A25/SPBIO31_0/CRx0/IRQ0/MISO2AA3
P7_0/MD_BOOT2/CS0/DV0_DATA16/ET_MDC/SCK4/LTXD0/TIOC0AH4
P7_3/CAS/DV0_DATA19/ET_TXEN/SCK7/CTx2/SSIRxD1/TIOC0DJ3
P7_4/CKE/DV0_DATA20/ET_TXD0/TXD7/SSITxD1/TIOC1AJ2
P7_6/WE0/DQMLL/DV0_DATA22/ET_TXD2/CTS7/SSIWS2/TIOC2AK3
P7_8/RD/SSISCK3/CRx0/TIOC3A/IRQ1K4
P3_6/LCD0_TCON5/ET_RXDV/SSIRxD1/SCI_RXD0/TIOC3C/RxD3AB3
P3_4/LCD0_TCON3/ET_RXCLK/SSISCK1/AUDIO_XOUT2/SCI_SCK0/TIOC3A/SCK3Y5
P3_2/LCD0_TCON1/ET_TXEN/RxD2/SCI_RXD1/TEND0/PWM2C/MOSI3Y7
P3_1/LCD0_TCON0/ET_TXER/IRQ6/TxD2/SCI_TXD1/AUDIO_CLK/PWM2B/SSL30AA7
P1_13/AN5/DV0_HSYNC/WAITY18
P1_11/AN3/IRQ5/TCLKDAA18
P1_9/AN1/IRQ3/VIO_D15/DV0_DATA15AB18
P11_12/CRx1/RSPCK1/IRQ3/MMC_D4/LCD0_TCON2G2
P11_13/CTx1/SSL10/LCD0_TCON4/MMC_D5/LCD0_TCON1G1
P11_14/SPDIF_IN/MOSI1/LCD0_TCON5/MMC_D6/LCD0_TCON0H3
P11_15/SPDIF_OUT/MISO1/IRQ1/MMC_D7/LCD0_CLKJ4
P11_5/DV0_DATA17/SD_WP_0/SSIWS4/LCD0_DATA2L1
P11_6/DV0_DATA18/SD_D1_0/SSIDATA4/MMC_D1/LCD0_DATA1M2
P11_8/DV0_DATA20/SD_CLK_0/RTS5/MMC_CLK/LCD0_TCON6T1
P11_10/DV0_DATA22/SD_D3_0/TxD5/MMC_D3/LCD0_TCON4T3
P11_11/DV0_DATA23/SD_D2_0/RxD5/MMC_D2/LCD0_TCON3U3
P10_1/DV0_VSYNC/TCLKB/PWM2B/ET_TXER/LCD0_DATA22/VIO_VDAA5
P10_3/TCLKD/PWM2D/ET_CRS/LCD0_DATA20/VIO_FLDAB5
P7_1/CS3/DV0_DATA17/ET_TXCLK/TXD4/DV0_CLK/SSISCK1/TIOC0BH2
P7_2/RAS/DV0_DATA18/ET_TXER/RXD4/CRx2/SSIWS1/TIOC0CH1
P7_5/RD/WR/DV0_DATA21/ET_TXD1/RXD7/SSISCK2/TIOC1BJ1
P7_7/WE1/DQMLU/DV0_DATA23/ET_TXD3/RTS7/SSIDATA2/TIOC2BK2
P7_9/A1/SSIWS3/ET_RXD0/CTx0/TIOC3B/IRQ0K1
P7_10/A2/SSIRxD3/ET_RXD1/CTx1/TIOC3C/IRQ2L3
P7_11/A3/SSITxD3/ET_RXD2/CRx1/TIOC3D/IRQ3L2
P11_4/DV0_DATA16/SD_CD_0/SSISCK4/MMC_CD/LCD0_DATA3L4
P11_7/DV0_DATA19/SD_D0_0/CTS5/MMC_D0/LCD0_DATA0M3
P7_14/A6/SSIDATA4/ET_CRS/TIOC4C/IRQ6N2
P8_0/A8/SSL00/ET_RXER/SCK5/SCI_SCK0P1
P8_2/A10/MISO0/RXD5/IRQ0P3
P8_4/A12/DV1_DATA1/SSL20/IERxD/RxD2R2
P11_9/DV0_DATA21/SD_CMD_0/SCK5/MMC_CMD/LCD0_TCON5T2
P8_6/A14/DV1_DATA3/MISO2/IETxD/TxD2U2
P3_8/LCD0_DATA0/NAF0/TRACEDATA0/TIOC4A/SD_CD_1/MMC_CDV19
P8_7/A15/DV1_DATA4/AUDIO_XOUT/IRQ5/ET_COLU4
P8_8/A16/DV1_DATA5/SPBIO00_1/SPDIF_IN/TIOC1A/PWM1A/TxD3/SSISCK5V2
P8_10/A18/DV1_DATA7/SPBIO20_1/TIOC3A/CTx4/PWM1C/SGOUT_0/SSITxD5W2
P8_12/A20/SPBCLK_1/TIOC3C/SCK5/PWM1E/SGOUT_2/SSISCK4Y1
P8_15/A23/SPBIO11_0/SPBIO10_1/TIOC2B/SSL20/PWM1H/RxD4AA1
P9_0/A24/SPBIO21_0/CTx0/TCLKC/MOSI2AB2
P3_7/LCD0_TCON6/SSITxD1/LCD1_EXTCLK/SCI_CTS0/RTS0/TIOC3D/CS1/WDTOVFY4
P3_5/LCD0_TCON4/ET_RXER/SSIWS1/AUDIO_XOUT3/SCI_TXD0/TIOC3B/TxD3AA4
P10_0/DV0_CLK/TCLKA/PWM2A/ET_TXCLK/LCD0_DATA23/VIO_CLKAB4
P10_2/DV0_HSYNC/TCLKC/PWM2C/ET_TXEN/LCD0_DATA21/VIO_HDY6
P3_3/LCD0_TCON2/ET_MDIO/IRQ4/BS/SCI_CTS1/RTS1/DACK0/PWM2D/MISO3AA6
P3_0/LCD0_CLK/ET_TXCLK/IRQ2/SCK2/SCI_SCK1/TxD2/PWM2A/RSPCK3AB6
P1_8/AN0/IRQ2/DREQ0/VIO_D14/DV0_DATA14AA17
P1_10/AN2/IRQ4/TCLKBY17
P1_12/AN4/DV0_VSYNC/VIO_FLDAB19
P1_14/AN6/ET_COLAA19
P1_15/AN7Y19
P3_11/LCD0_DATA3/NAF3/TRACEDATA3/TIOC4D/SD_D0_1/MMC_D0T21
P3_12/LCD0_DATA4/NAF4/SD_CLK_1/MMC_CLKT22
P3_14/LCD0_DATA6/NAF6/TRACECLK/SD_D3_1/MMC_D3R21
P4_0/LCD0_DATA8/TIOC0A/FRE/RSPCK4/MMC_D4P20
P4_2/LCD0_DATA10/TIOC0C/FALE/CRx3/TxD2/MOSI4/MMC_D6P21
P10_4/DV0_DATA0/TIOC0A/PWM2E/ET_TXD0/LCD0_DATA19/VIO_D0N19
P10_6/DV0_DATA2/TIOC0C/PWM2G/ET_TXD2/LCD0_DATA17/VIO_D2N21
P3_10/LCD0_DATA2/NAF2/TRACEDATA2/TIOC4C/SD_D1_1/MMC_D1T20
P3_13/LCD0_DATA5/NAF5/AUDIO_XOUT/SD_CMD_1/MMC_CMDR22
P3_15/LCD0_DATA7/NAF7/TRACECTRL/SD_D2_1/MMC_D2R20
P4_1/LCD0_DATA9/TIOC0B/FCLE/SCK2/SSL40/MMC_D5P22
P4_3/LCD0_DATA11/TIOC0D/FWE/CTx3/RxD2/MISO4/MMC_D7N22
P10_5/DV0_DATA1/TIOC0B/PWM2F/ET_TXD1/LCD0_DATA18/VIO_D1N20
P10_7/DV0_DATA3/TIOC0D/PWM2H/ET_TXD3/LCD0_DATA16/VIO_D3M22
P4_4/LCD0_DATA12/RSPCK1/TIOC4A/PWM2E/SSISCK0/DV0_DATA12M21
P4_6/LCD0_DATA14/MOSI1/TIOC4C/PWM2G/SSIRxD0/DV0_DATA14L22
P2_0/D16/ET_TXCLK/DV0_DATA0/SPBIO00_1/MLB_CLK/IRQ5/VIO_D0/LCD0_DATA16L21
P4_8/LCD0_DATA16/LCD1_TCON3/SD_CD_0/MMC_CD/SSISCK5/CTx2/SCK0/IRQ0K20
P4_10/LCD0_DATA18/LCD1_TCON5/SD_D1_0/MMC_D1/SSIRxD5/RxD0/IRQ2J22
P10_10/DV0_DATA6/TIOC2A/ET_RXD2/LCD0_DATA13/VIO_D6H21
P4_11/LCD0_DATA19/LCD1_TCON6/SD_D0_0/MMC_D0/SSITxD5/CTx4/SCK1/IRQ3H19
P4_12/LCD0_DATA20/LCD1_CLK/SD_CLK_0/MMC_CLK/SPBIO10_1/SSISCK3/TxD1/IRQ4H22
P4_5/LCD0_DATA13/SSL10/TIOC4B/PWM2F/SSIWS0/DV0_DATA13M20
P4_7/LCD0_DATA15/MISO1/TIOC4D/PWM2H/SSITxD0/DV0_DATA15L20
P2_1/D17/ET_TXER/DV0_DATA1/SPBIO10_1/MLB_DAT/TIOC2A/VIO_D1/LCD0_DATA17K22
P4_9/LCD0_DATA17/LCD1_TCON4/SD_WP_0/SSIWS5/CRx2/TxD0/IRQ1K21
P10_8/DV0_DATA4/TIOC1A/ET_RXD0/LCD0_DATA15/VIO_D4J21
P10_9/DV0_DATA5/TIOC1B/ET_RXD1/LCD0_DATA14/VIO_D5J20
P10_11/DV0_DATA7/TIOC2B/ET_RXD3/LCD0_DATA12/VIO_D7H20
P4_13/LCD0_DATA21/LCD1_TCON0/SD_CMD_0/MMC_CMD/SPBIO11_1/SSIWS3/RxD1/IRQ5G21
P4_15/LCD0_DATA23/LCD1_TCON2/SD_D2_0/MMC_D2/SPBIO31_1/SSITxD3/RxD2/IRQ7F22
P2_3/D19/ET_CRS/DV0_DATA3/SPBIO30_1/IERxD/CTS1/VIO_D3/LCD0_DATA19G20
P2_5/D21/ET_TXD1/DV0_DATA5/SSIWS5/SPBSSL_1/TxD1/VIO_D5/LCD0_DATA21E22
P4_14/LCD0_DATA22/LCD1_TCON1/SD_D3_0/MMC_D3/SPBIO21_1/SSIRxD3/TxD2/IRQ6G19
P2_2/D18/ET_TXEN/DV0_DATA2/SPBIO20_1/MLB_SIG/TIOC2B/VIO_D2/LCD0_DATA18F21
P2_4/D20/ET_TXD0/DV0_DATA4/SSISCK5/SPBCLK_1/SCK1/VIO_D4/LCD0_DATA20F19
P10_12/DV0_DATA8/SSISCK1/RSPCK0/LCD0_DATA11/VIO_D8E21
P10_14/DV0_DATA10/SSIRxD1/MOSI0/LCD0_DATA9/VIO_D10D22
P2_6/D22/ET_TXD2/DV0_DATA6/SSIRxD5/RxD1/VIO_D6/LCD0_DATA22E20
P2_7/D23/ET_TXD3/DV0_DATA7/SSITxD5/IETxD/RTS1/VIO_D7/LCD0_DATA23C22
P10_13/DV0_DATA9/SSIWS1/SSL00/LCD0_DATA10/VIO_D9F20
P10_15/DV0_DATA11/SSITxD1/MISO0/LCD0_DATA8/VIO_D11D21
P2_8/D24/ET_RXD0/DV0_DATA8/SSISCK0/LCD0_TCON6/LCD1_DATA8/VIO_D8/RSPCK4D20
P2_9/D25/ET_RXD1/DV0_DATA9/SSIWS0/LRXD0/LCD1_DATA9/VIO_D9/SSL40C21
P2_10/D26/ET_RXD2/DV0_DATA10/SSIRxD0/LTXD0/LCD1_DATA10/VIO_D10/MOSI4B22
P2_12/D28/RSPCK0/DV0_DATA12/SPBIO01_0/CRx3/IRQ6/LCD1_DATA12/TIOC1BA21
P2_14/D30/MOSI0/DV0_DATA14/SPBIO21_0/CRx4/TxD0/LCD1_DATA14/IRQ0C18
P1_0/SCL0/DV0_DATA16/TCLKA/IRQ0/VIO_VD/DV0_VSYNCA19
P1_2/SCL1/DV0_DATA18/FRB/IRQ2/LCD1_EXTCLKB18
P1_4/SCL2/DV0_CLK/CRx1/IRQ4/CAN_CLKB17
P1_6/SCL3/DV1_VSYNC/IERxD/IRQ6/VIO_D12/DV0_DATA12A17
P2_11/D27/ET_RXD3/DV0_DATA11/SSITxD0/TIOC1A/LCD1_DATA11/VIO_D11/MISO4E19
P2_13/D29/SSL00/DV0_DATA13/SPBIO11_0/CTx3/SCK0/LCD1_DATA13/IRQ7A20
P2_15/D31/MISO0/DV0_DATA15/SPBIO31_0/CAN_CLK/RxD0/LCD1_DATA15/IRQ1B19
P1_1/SDA0/DV0_DATA17/TCLKC/IRQ1/VIO_HD/DV0_HSYNCC17
P1_3/SDA1/DV0_DATA19/ET_COL/IRQ3/ADTRGA18
P1_5/SDA2/DV1_CLK/CRx4/IRQ5/VIO_CLK/LCD1_EXTCLKC16
P1_7/SDA3/DV1_HSYNC/LRXD0/IRQ7/VIO_D13/DV0_DATA13B16
P5_0/TXCLKOUTP/LCD1_DATA0/LCD0_DATA16/DV1_DATA0/TxD4/TIOC0A/RSPCK3A11
P5_1/TXCLKOUTM/LCD1_DATA1/LCD0_DATA17/DV1_DATA1/RxD4/TIOC0B/SSL30B11
P5_4/TXOUT1P/LCD1_DATA4/LCD0_DATA20/DV1_DATA4/RxD3/TIOC3D/DV0_DATA12C11
P5_5/TXOUT1M/LCD1_DATA5/LCD0_DATA21/DV1_DATA5/AUDIO_XOUT/TIOC0C/FCE/DV0_DATA13C10
P5_9/WE2/DQMUL/ET_MDC/DV0_VSYNC/IRQ2/CRx1/IERxD/LCD1_DATA16A7
P9_2/LCD1_DATA18/SPBCLK_0/LTXD0/SCK1/A0C8
P9_4/LCD1_DATA20/SPBIO00_0/RxD1B6
P9_6/LCD1_DATA22/SPBIO20_0/SSIWS2/RTS1/CS5A5
P5_2/TXOUT2P/LCD1_DATA2/LCD0_DATA18/DV1_DATA2/SCK3/TIOC1B/MOSI3A10
P5_3/TXOUT2M/LCD1_DATA3/LCD0_DATA19/DV1_DATA3/TxD3/TIOC3C/MISO3B10
P5_6/TXOUT0P/LCD1_DATA6/LCD0_DATA22/DV1_DATA6/TxD6/IRQ6/SPDIF_IN/DV0_DATA14A9
P5_7/TXOUT0M/LCD1_DATA7/LCD0_DATA23/DV1_DATA7/RxD6/TIOC0D/SPDIF_OUT/DV0_DATA15B9
P5_8/LCD0_EXTCLK/IRQ0/DV1_CLK/DV0_CLK/CS2B8
P5_10/WE3/DQMUU/AH/DV0_HSYNC/CTx1/IETxD/LCD1_DATA17B7
P9_3/LCD1_DATA19/SPBSSL_0/TxD1A6
P9_5/LCD1_DATA21/SPBIO10_0/SSISCK2/CTS1/CS4C7
P9_7/LCD1_DATA23/SPBIO30_0/SSIDATA2/TIOC1AB5
P11_1/DV0_DATA13/TIOC4B/TxD6/LCD0_DATA6/VIO_D13C6
P11_3/DV0_DATA15/TIOC4D/LCD0_DATA4/VIO_D15C5
P6_1/D1/LCD1_DATA9/LTXD0/IRQ4/TIOC1B/SSIDATA4/TxD3/DV0_DATA17D6
P6_3/D3/LCD1_DATA11/LTXD1/IRQ2/CTS5/TIOC2B/TxD2/DV0_DATA19D5
P11_0/DV0_DATA12/TIOC4A/SCK6/LCD0_DATA7/VIO_D12A4
P11_2/DV0_DATA14/TIOC4C/RxD6/LCD0_DATA5/VIO_D14B4
P6_0/D0/LCD1_DATA8/LRXD0/DV0_CLK/TIOC1A/IRQ5/RxD3/DV0_DATA16B3
P6_4/D4/LCD1_DATA12/CRx2/IRQ3/RTS5/RSPCK1/DV0_DATA20A2
P6_2/D2/LCD1_DATA10/LRXD1/IRQ7/TCLKA/TIOC2A/RxD2/DV0_DATA18C4
P3_9/LCD0_DATA1/NAF1/TRACEDATA1/TIOC4B/SD_WP_1/IRQ6W20
D3RB520S-30D3RB520S-30
D8RB520S-30D8RB520S-30
JP4
HWP-3P-G
JP4
HWP-3P-G
12
3
R281.5kΩR281.5kΩ
R18 0ΩR18 0Ω
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
XR2A-0811-N
USB
JTAG
Interrupt
VIN1VIN2
VIN3VIN4 VIN2
VIN1 VIN3
VIN4
VIN[4:1]
AUDIO_XTAL1[10]
WM8978/MCLK[6]
DM0 [6]DP0 [6]
VBUS0 [6]
DM1 [6]DP1 [6]
VBUS1 [6]
P7_0/MD_BOOT2[4]
TDO [8]TDI [8]
TMS [8]
TRST# [8]
TCK [8]
NMI [9,10]RES# [4,5,6,8,10]
CKIO_SD2[4]CKIO_SD1[4]
CKIO_CN[10]
SW2-1[2]SW2-2[2]
AUDIO_XTAL2[10]
USBAVcc
VDAVcc
USBAPVcc
PVcc
Vcc
AVccAVref
LVDSAPVccLVDSPLLVcc
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
Vcc
PLLVcc
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )3 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRCPU-power & clock, Dip-SW
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )3 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRCPU-power & clock, Dip-SW
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )3 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRCPU-power & clock, Dip-SW
R45
75Ω
R45
75Ω
CP220.1µFCP220.1µF
CP4
00.
1µF/
1005
CP4
00.
1µF/
1005
CP4
80.
1µF/
1005
CP4
80.
1µF/
1005
CP1
80.
1µF/
1005
CP1
80.
1µF/
1005
+ CE64.7µF/10V
+ CE64.7µF/10V
CP3
80.
1µF/
1005
CP3
80.
1µF/
1005
CP6
70.
1µF/
1005
CP6
70.
1µF/
1005
R36
22kΩ
R36
22kΩ
R4722kΩ-1%R4722kΩ-1%
CP160.1µFCP160.1µF
CP1
70.
1µF/
1005
CP1
70.
1µF/
1005
CP3
90.
1µF/
1005
CP3
90.
1µF/
1005
R54
22Ω
R54
22Ω
R35
22kΩ
R35
22kΩ
CP3
60.
1µF/
1005
CP3
60.
1µF/
1005
R43
75Ω
R43
75Ω
CP7
00.
1µF/
1005
CP7
00.
1µF/
1005
R66
22kΩ
R66
22kΩ
CP1
20.
1µF/
1005
CP1
20.
1µF/
1005
C120.1µFC120.1µF
CP3
70.
1µF/
1005
CP3
70.
1µF/
1005
R44
75Ω
R44
75Ω
CP210.1µFCP210.1µF
CP6
90.
1µF/
1005
CP6
90.
1µF/
1005
C628pFC628pF
R38
22kΩ
R38
22kΩ
R4018ΩR4018Ω
R481MΩR481MΩ
C8 0.1µFC8 0.1µF
CP6
80.
1µF/
1005
CP6
80.
1µF/
1005
+ CE84.7µF/10V
+ CE84.7µF/10V
+ CE5
22µF/10V
+ CE5
22µF/10V
CP2
60.
1µF/
1005
CP2
60.
1µF/
1005
CP7
10.
1µF/
1005
CP7
10.
1µF/
1005
R63
0ΩR
630Ω
C7 0.1µFC7 0.1µF
CP5
40.
1µF/
1005
CP5
40.
1µF/
1005
CP3
50.
1µF/
1005
CP3
50.
1µF/
1005
X7FA-128_27MHzX7FA-128_27MHz
2 4
1 3
+ CE74.7µF/10V
+ CE74.7µF/10V
C9 0.1µFC9 0.1µF
CP60.1µFCP60.1µF
CP5
70.
1µF/
1005
CP5
70.
1µF/
1005
R68
22kΩ
R68
22kΩ
+ CE4
22µF/10V
+ CE4
22µF/10V
CypressU16CY2305SC-1H CypressU16CY2305SC-1H
REF1
CLKOUT8
CLK13
CLK22
CLK35
CLK47
VDD6
GN
D4
R340ΩR340Ω
X8SG-8002DC_22.5792MHzX8SG-8002DC_22.5792MHz
OUT5
VCC8
GND4
OE1
R37
22kΩ
R37
22kΩ
X5SG-8002DC_48MHzX5SG-8002DC_48MHz
OUT5
VCC8
GND4
OE1
R61 22ΩR61 22Ω
OMRON
SW1A6S-6104OMRON
SW1A6S-6104
12345
12111098
6 7
CP460.1µFCP460.1µF
CP150.1µFCP150.1µF
C610pFC610pF
+ CE9
220µF/6.3V
+ CE9
220µF/6.3V
R51 22ΩR51 22Ω
EMUDEN
J1T5857EMUDEN
J1T5857
3
5
4
1
2
6
+ CE3
22µF/10V
+ CE3
22µF/10V
CP6
10.
1µF/
1005
CP6
10.
1µF/
1005
CP3
20.
1µF/
1005
CP3
20.
1µF/
1005
CP2
50.
1µF/
1005
CP2
50.
1µF/
1005
CP80.001µFCP80.001µF
+ CE10
220µF/6.3V
+ CE10
220µF/6.3V
CP4
10.
1µF/
1005
CP4
10.
1µF/
1005
R33
22kΩ
R33
22kΩ
CP90.01µFCP90.01µF
CP3
10.
1µF/
1005
CP3
10.
1µF/
1005
R585.6kΩ-1%R585.6kΩ-1%
CP1
40.
1µF/
1005
CP1
40.
1µF/
1005
CP2
90.
1µF/
1005
CP2
90.
1µF/
1005
X4SG-8002CA_4MHzX4SG-8002CA_4MHz
OUT3
VCC4
GND2
OE1
CP230.1µFCP230.1µF
CP100.001µFCP100.001µF
CP3
30.
1µF/
1005
CP3
30.
1µF/
1005
R5022ΩR5022Ω
CP5
10.
1µF/
1005
CP5
10.
1µF/
1005
R3918ΩR3918Ω
RZ/A1H_BGA324U1BRZ/A1H_BGA324U1B
CKIOV1
RESY8NMIY9
RTC_X1AB8
RTC_X2AA8
Vss69Y10
P0_4/RTC_X3AB9
P0_5/RTC_X4AA9
DM_1AA11
DP_1AB11
VBUSIN1Y11
DM_0AB12
DP_0AA12
VBUSIN0Y12
REFRINAA13
USB_X1AB15
USB_X2AA15
EXTALAB16
XTALAA16
BSCANPAA22
VIDEO_X1Y22
VIDEO_X2Y21
AUDIO_X1W22
AUDIO_X2W21 TRST
V20
JP0_1/TDOU20JP0_0/TDIV21
TMSV22
TCKU21
VIN1AB15
VIN2AA15
REXTC14
VRPD14
VRMC13
VIN1BB13
VIN2BA13
Vss68B12
Vss70C9
P0_0/MD_BOOT0Y15
P0_1/MD_BOOT1Y16
P0_2/MD_CLKA16
P0_3/MD_CLKSA3
LVDSREFRIND11
C110.1µFC110.1µF
C638pFC638pF
CP5
20.
1µF/
1005
CP5
20.
1µF/
1005
C142.2µFC142.2µF
R32
_22kΩ
R32
_22kΩ
R57
_22kΩ
R57
_22kΩ
C130.1µFC130.1µF
+ CE2
10µF/16V
+ CE2
10µF/16V
CP5
80.
1µF/
1005
CP5
80.
1µF/
1005
C59
_0.3
3µF
C59
_0.3
3µF
CP5
30.
1µF/
1005
CP5
30.
1µF/
1005
R56
_22kΩ
R56
_22kΩCP47
0.1µFCP470.1µF
CP6
30.
1µF/
1005
CP6
30.
1µF/
1005
R53
22Ω
R53
22Ω
CP5
60.
1µF/
1005
CP5
60.
1µF/
1005
CP4
90.
1µF/
1005
CP4
90.
1µF/
1005
R495.6kΩ-1%R495.6kΩ-1%
CP2
70.
1µF/
1005
CP2
70.
1µF/
1005
CP6
00.
1µF/
1005
CP6
00.
1µF/
1005
CP1
10.
1µF/
1005
CP1
10.
1µF/
1005
CP2
80.
1µF/
1005
CP2
80.
1µF/
1005
C10 0.1µFC10 0.1µF
R3118ΩR3118Ω
OMRON
SW2A6S-4104OMRON
SW2A6S-4104
1234
8765
CP5
50.
1µF/
1005
CP5
50.
1µF/
1005
+ CE1
10µF/16V
+ CE1
10µF/16V
C510pFC510pF
R551kΩR551kΩ
CP5
00.
1µF/
1005
CP5
00.
1µF/
1005
R64
0ΩR
640Ω
R52
22Ω
R52
22Ω
CP7
20.
1µF/
1005
CP7
20.
1µF/
1005
CP6
20.
1µF/
1005
CP6
20.
1µF/
1005
R59 22ΩR59 22Ω
X1SG-8002DC_13.3333MHzX1SG-8002DC_13.3333MHz
OUT5
VCC8
GND4
OE1
R60 22ΩR60 22Ω
TP2TP2
R65
22kΩ
R65
22kΩ
CP70.01µFCP70.01µF
RZ/A1H_BGA324U1CRZ/A1H_BGA324U1C
Vcc4D13Vcc3D3Vcc2C2Vcc1B1
PVcc3D7PVcc2C19PVcc1B20
Vss8C15
Vss9C20
Vss1A1
Vss10D4
Vss2A8
Vss11D10
Vss12D15
Vss13D19
PVcc4D8
Vss14G22
Vcc11R19
Vss3A12
Vss4A22
PVcc5D16
Vss15J9
Vcc5E4
PVcc6D17
Vss16J10
PVcc7D18
Vss17J11
PVcc8L19
Vss18J12
Vcc6F4
Vss33M9
PLLVccW14
PVcc9M19
Vss19J13
AVcc2AA20
AV
ss2
AB
20
AVrefAB21
Vss20J14
PVcc10N4
PVcc11P4
PVcc12W4
PVcc13W5
PVcc14W6
PVcc15W12
PVcc16W13
PVcc17W19
Vss58W15
AV
ss1
W17
Vcc7J19
Vcc8K19
Vcc9M4
Vcc10R4
Vcc12T4
Vcc15W9
Vss5B2
Vss21K9
Vss6B21
Vss22K10
Vss23K11
Vss24K12
Vss25K13
Vss26K14
Vss27L9
Vss7C3
Vss28L10
Vss29L11
Vss30L12
Vss31L13
Vss32L14
PVcc18Y3
PVcc19Y20
PVcc20AA2
Vss52U1
Vss48P12
Vss53U22
Vss49P13
Vss54W1
Vss50P14
Vss51P19
VDAVccB14
VDAVssA14
Vss55W7
Vss60Y14
Vss56W8
Vss61AA10
Vss57W11
Vss62AA14
LVDSPLLVccD9
Vss64AB10
Vss65AB13
Vss66AB17
PVcc21AA21
PVcc22AB1
Vss59W16
Vcc16W10
Vcc13T19
Vcc14U19
Vss63AB7
Vss67AB22
Vss34M10
Vss35M11
Vss36M12
Vss37M13
Vss38M14
Vss39N9
Vss40N10
Vss41N11
Vss42N12
Vss43N13
Vss44N14
Vss45P9
Vss46P10
Vss47P11
LVDSAPVcc1C12
LVDSAPVcc2D12
AVcc1W18
USBAPVccAB14
USBAVccY13
X2MC-306 32.768KHzX2MC-306 32.768KHz
CP3
00.
1µF/
1005
CP3
00.
1µF/
1005
CP1
90.
1µF/
1005
CP1
90.
1µF/
1005
R67
22kΩ
R67
22kΩ
CP1
30.
1µF/
1005
CP1
30.
1µF/
1005
R42
75Ω
R42
75Ω
CP5
90.
1µF/
1005
CP5
90.
1µF/
1005
1
1
2
2
3
3
4
4
5
5
A A
B B
C C
D D
NOR-flash1 (64MB)
SDRAM2 (64MB)
NOR-flash2 (64MB)
P7_8/RDP7_6/WE0/DQMLL
P7_0/MD_BOOT2/CS0
P3_7/LCD1_EXTCLK/CS1
XR2A-0811-N
SDRAM1 (64MB)
P7_2/RAS/CRx2P7_3/CAS/CTx2
P7_1/CS3
P7_5/RDWR
P7_6/WE0/DQMLLP7_7/DQMLU
P7_4/CKE
P5_8/CS2D0
D2
D9
D4
D1
D13D12
D6
D14D15
D3
D8
D11
D7
D5
D10
A2
A20A21
A4A5A6A7A8
A3
A9
A19
A1
A22A23A24
A18A17A16A15A14A13A12A11A10
A4
A6
A8A9
A12
A5
A2
A11A10
A3
A7
A1
D5
D3
D8D7
D0
D2
D6
D10D11
D4
D1
D9
D15D14
D12D13
A18A17A16
A23
A15A14A13
D0
D2
D9
D4
D1
D13D12
D6
D14D15
D3
D8
D11
D7
D5
D10
A12
A24
A11
A2
A20A21
A4A5A6A7A8
A3
A9
A19
A1
A22
A10
A25
A25
P7_0
P3_7
A24A23
A25
A21A22
A13A14A15
A13A14A15
A4
A6
A8A9
A12
A5
A2
A11A10
A3
A7
A1
D5
D3
D8D7
D0
D2
D6
D10D11
D4
D1
D9
D15D14
D12D13
P7_[8:0]
P7_4
P7_6P7_7
P7_5P7_3P7_2
P7_1
P7_8P7_6
A[25:1]
P5_[10:0]
P5_8P6_14P6_13P6_12
P6_15
P6_15
P6_13P6_14
P6_12
P6_1P6_2
P6_5P6_6
P6_3
P6_7
P6_0P6_3P6_2P6_1
P6_4
P6_0
P6_11
P6_8P6_9P6_10
P6_8P6_9
P6_11P6_10
D4
D6
D8
P6_6P6_5
D10
D7
D5P6_7
P6_4
D11
D9
D15
D13D12
D14
D3
D1D0
D2
D[15:0]
A20
A16
A[25:1][2,5,7,10]
RES#[3,5,6,8,10]
CKIO_SD2[3]
P7_[8:0][2,7,10]
P7_0/MD_BOOT2[3]
P3_[15:0][2,5,7,8,10]
CKIO_SD1[3]
P5_[10:0][2,5,7,8,10]
D[15:0] [10]P6_[15:0][2]
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )4 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRNOR-flash, SDRAM
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )4 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRNOR-flash, SDRAM
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )4 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRNOR-flash, SDRAM
CP8
90.
1µF
CP8
90.
1µF
ISSI
U4IS42S16320BISSI
U4IS42S16320B
BA121
BA020
A1135
A1022
A934
A833
A732
A631
A530
A429
A326
A225
A124
A023
CS19
RAS18
CAS17
WE16
DQMU39
DQML15
CKE37
CLK38
DQ1553
DQ1451
DQ1350
DQ1248
DQ1147
DQ1045
DQ944
DQ842
DQ713
DQ611
DQ510
DQ48
DQ37
DQ25
DQ14
DQ02
VS
S28
VS
S41
VS
S54
VS
SQ
6
VS
SQ
12
VS
SQ
46
VS
SQ
52
VDD1
VDD14
VDD27
VDDQ3
VDDQ9
VDDQ43
VDDQ49
NC40
A1236
+ CE124.7µF/10V
+ CE124.7µF/10V
R91 22kΩR91 22kΩ
R8818ΩR8818Ω
CP9
00.
1µF
CP9
00.
1µF
R70 0ΩR70 0Ω
CP8
70.
1µF
CP8
70.
1µF
R79
22kΩ
R79
22kΩ
R86
_22kΩ
R86
_22kΩ
CP940.1µFCP940.1µF
C16
_18p
FC
16_1
8pF
RA4
MNR14_22Ω
RA4
MNR14_22Ω
1234 5
678
R94 22kΩR94 22kΩ
R72
22kΩ
R72
22kΩ
R85
22kΩ
R85
22kΩ
+ CE134.7µF/10V
+ CE134.7µF/10V
ISSI
U5IS42S16320BISSI
U5IS42S16320B
BA121
BA020
A1135
A1022
A934
A833
A732
A631
A530
A429
A326
A225
A124
A023
CS19
RAS18
CAS17
WE16
DQMU39
DQML15
CKE37
CLK38
DQ1553
DQ1451
DQ1350
DQ1248
DQ1147
DQ1045
DQ944
DQ842
DQ713
DQ611
DQ510
DQ48
DQ37
DQ25
DQ14
DQ02
VS
S28
VS
S41
VS
S54
VS
SQ
6
VS
SQ
12
VS
SQ
46
VS
SQ
52
VDD1
VDD14
VDD27
VDDQ3
VDDQ9
VDDQ43
VDDQ49
NC40
A1236
R78
22kΩ
R78
22kΩ
X9_SG-8002DCX9_SG-8002DC
OUT5
VCC8
GND4
OE1
CP9
20.
1µF
CP9
20.
1µF
JP6HWP-3P-GJP6HWP-3P-G
12
3 CP8
50.
1µF
CP8
50.
1µF
R89 22kΩR89 22kΩ
CP8
20.
1µF
CP8
20.
1µF
R69
22kΩ
R69
22kΩ
R87
_22kΩ
R87
_22kΩ
R83
22kΩ
R83
22kΩ
R74
22kΩ
R74
22kΩ
RA1
MNR14_22kΩ
RA1
MNR14_22kΩ
1234 5
678
CP9
30.
1µF
CP9
30.
1µF
CP7
90.
1µF
CP7
90.
1µF
CP8
60.
1µF
CP8
60.
1µF
Spansion
U3S29GL512S-56Spansion
U3S29GL512S-56
A2456
A231
A222
A2115
A2012
A1911
A1818
A1719
A1654
A153
A144
A135
A126
A117
A108
A99
A810
A720
A621
A522
A423
A324
A225
A126
A031
RFU353
CE32
OE34
WE13
RESET14
WP16
DQ1551
DQ1449
DQ1347
DQ1245
DQ1142
DQ1040
DQ938
DQ836
DQ750
DQ648
DQ546
DQ444
DQ341
DQ239
DQ137
DQ035
NC(A25)55
RFU230
DNU28
RFU127
RY/BY17
VIO29
VCC43
VS
S33
VS
S52
R75
22kΩ
R75
22kΩ
+ CE144.7µF/10V
+ CE144.7µF/10V
CP8
10.
1µF
CP8
10.
1µF
R90 22kΩR90 22kΩ
RA7
MNR14_22kΩ
RA7
MNR14_22kΩ
1234 5
678
Spansion
U2S29GL512S-56Spansion
U2S29GL512S-56
A2456
A231
A222
A2115
A2012
A1911
A1818
A1719
A1654
A153
A144
A135
A126
A117
A108
A99
A810
A720
A621
A522
A423
A324
A225
A126
A031
RFU353
CE32
OE34
WE13
RESET14
WP16
DQ1551
DQ1449
DQ1347
DQ1245
DQ1142
DQ1040
DQ938
DQ836
DQ750
DQ648
DQ546
DQ444
DQ341
DQ239
DQ137
DQ035
NC(A25)55
RFU230
DNU28
RFU127
RY/BY17
VIO29
VCC43
VS
S33
VS
S52
R71
22kΩ
R71
22kΩ
CP8
00.
1µF
CP8
00.
1µF
R324 _22kΩR324 _22kΩ
RA5
MNR14_22kΩ
RA5
MNR14_22kΩ
1234 5
678
R77
22kΩ
R77
22kΩ
RA6
MNR14_22Ω
RA6
MNR14_22Ω
1234 5
678
R80 0ΩR80 0Ω
+ CE114.7µF/10V
+ CE114.7µF/10V
CP7
80.
1µF
CP7
80.
1µF
R93 22kΩR93 22kΩ
RA2
MNR14_22Ω
RA2
MNR14_22Ω
1234 5
678
CP7
70.
1µF
CP7
70.
1µF
R81
22kΩ
R81
22kΩ
R82
22kΩ
R82
22kΩ
CP9
10.
1µF
CP9
10.
1µF
R73
_22kΩ
R73
_22kΩ
CP8
40.
1µF
CP8
40.
1µF
CP7
60.
1µF
CP7
60.
1µF
C17
_18p
FC
17_1
8pF
R92 22kΩR92 22kΩ
R76
22kΩ
R76
22kΩ
RA3
MNR14_22kΩ
RA3
MNR14_22kΩ
1234 5
678
CP8
80.
1µF
CP8
80.
1µFR
8422
kΩR
8422
kΩ
CP8
30.
1µF
CP8
30.
1µF
RA8
MNR14_22Ω
RA8
MNR14_22Ω
1234 5
678
JP5HWP-3P-GJP5HWP-3P-G
12
3
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
P3_14/NAF6/TRACECLK/MMC_D3P3_13/NAF5/MMC_CMDP3_12/NAF4/MMC_CLK
P3_10/NAF2/TRACEDATA2/MMC_D1P3_9/NAF1/TRACEDATA1/SD_WP_1
P4_3/FWE/MMC_D7P4_2/FALE/MOSI4/MMC_D6P4_1/FCLE/SSL40/MMC_D5P4_0/FRE/RSPCK4/MMC_D4
NAND-flash (512MB)
P3_15/NAF7/MMC_D2
Serial-flash1(64MB)
Serial-flash2(64MB)
Serial-flash3(64MB)
P1_2/SCL1/FRBP5_5/TXOUT1M/FCE
EEPROM(16KB)
15.24mm
2.54mm
P2_3/ET_CRS/(RESETB)
P1_4/SCL2P1_5/SDA2
P2_0/MLB_CLK
P2_2/MLB_SIG
P2_1/MLB_DAT
MOST50
P1_5/SDA2
P1_4/SCL2
P1_3/SDA1
P1_2/SCL1/FRB
P9_2/SPBCLK_0P9_3/SPBSSL_0P9_4/SPBIO00_0P9_5/SPBIO10_0P9_6/SPBIO20_0P9_7/SPBIO30_0
P2_12/SPBIO01_0P2_13/SPBIO11_0P2_14/SPBIO21_0P2_15/SPBIO31_0
P8_12/A20/SPBCLK_1P8_13/A21/SPBSSL_1P8_14/A22/SPBIO00_1P8_15/A23/SPBIO10_1P8_10/A18/SPBIO20_1P8_11/A19/SPBIO30_1
P5_10/CTx1/(RESETB)
P3_8/NAF0/TRACEDATA0/MMC_CD
P3_11/NAF3/TRACEDATA3/MMC_D0
P4_1P4_2
P3_9
P3_13P3_12
P3_15
P3_11P3_10
P3_8
P9_4P9_5P9_6P9_7
P2_13P2_12
P2_14P2_15
A22A23
A19A18
A21
P9_3
P4_0
P1_2
P1_4
P1_5
P1_3
P1_2P5_10
P4_3P4_3
P2_3
P1_4P1_5
P2_0
P2_2
P2_1
P5_5
P3_14P9_2
A[25:1][2,4,7,10]
P9_[7:2][2,10]
P2_[15:0][2,10]
P4_[15:0][2,6,7,10]
P3_[15:0][2,4,7,8,10]
P5_[10:0][2,4,7,8,10]
P1_[15:0][2,6,10]
RES#[3,4,6,8,10]
P8_12/SPBCLK_1[2]
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC3VCC
3VCC
3VCC 3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )5 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRS-falsh, NAND, MOST, EEPROM
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )5 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRS-falsh, NAND, MOST, EEPROM
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )5 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRS-falsh, NAND, MOST, EEPROM
R11
822
kΩR
118
22kΩ
R110 0ΩR110 0Ω
Samtec
FGFG
FGFG
J3QSH-020-01-L-D-DP-ASamtec
FGFG
FGFG
J3QSH-020-01-L-D-DP-A
13579
111315171921232527293133353739
2468101214161820222426283032343638404241
43 44
R10
822
kΩR
108
22kΩ
CP1
020.
1µF
CP1
020.
1µF
R10
222
kΩR
102
22kΩ
TH7TH7
R11
722
kΩR
117
22kΩ
R10
322
kΩR
103
22kΩ
R98
22kΩ
R98
22kΩ
CP1
030.
1µF
CP1
030.
1µF
R127 0ΩR127 0Ω
Spansion
U7S25FL512S-16Spansion
U7S25FL512S-16
HOLD#/IO31
VCC2
CS#7
SO/IO18
WP#/IO29
VSS10
SI/IO015
SCK16
RESET#/RFU3
DNU14
RFU6
DNU25
NC13
DNU412DNU311
VIO/RFU14
CP1
040.
1µF
CP1
040.
1µF
TH8TH8
R95
22kΩ
R95
22kΩ
R31
922Ω
R31
922Ω
+ CE164.7µF/10V
+ CE164.7µF/10V
R11
222
kΩR
112
22kΩ
+CE154.7µF/10V +CE154.7µF/10V
R10
50Ω
R10
50Ω
TH1TH1
R12
0_2
2kΩ
R12
0_2
2kΩ
R11
122
kΩR
111
22kΩ
R12822kΩR12822kΩ
CP1010.1µFCP1010.1µF
CP9
90.
1µF
CP9
90.
1µF
TH3TH3
R32
122
kΩR
321
22kΩ
R99
_22kΩ
R99
_22kΩ
R115 0ΩR115 0Ω
R113 0ΩR113 0Ω
CP1
000.
1µF
CP1
000.
1µF
R12
547
kΩR
125
47kΩ
JP8 HWP-2P-GJP8 HWP-2P-GR
119
_22kΩ
R11
9_2
2kΩ
R12
347
kΩR
123
47kΩ
CP960.1µFCP960.1µF
R322 22ΩR322 22Ω
R10
722
kΩR
107
22kΩ
R116 0ΩR116 0Ω
TH4TH4
R97
22kΩ
R97
22kΩ
JP7HWP-2P-GJP7HWP-2P-G
TH5TH5
CP1050.1µFCP1050.1µF
R10
022
kΩR
100
22kΩ
R10
622
kΩR
106
22kΩ
Spansion
U8S25FL512S-16Spansion
U8S25FL512S-16
HOLD#/IO31
VCC2
CS#7
SO/IO18
WP#/IO29
VSS10
SI/IO015
SCK16
RESET#/RFU3
DNU14
RFU6
DNU25
NC13
DNU412DNU311
VIO/RFU14
R96
22kΩ
R96
22kΩ
Spansion
U9_S34ML04G1Spansion
U9_S34ML04G1
I/O744
I/O643
I/O542
I/O441
I/O332
I/O231
I/O130
I/O029
WE18
ALE17
CLE16
RE8
R/B7
CE9
WP19
Vss113
Vss236
VCC137
VCC212
NC11
NC22
NC33
NC44
NC55
NC66
NC710
NC811
NC914
NC1015
NC1120
NC1221
NC1322
NC1423
NC1524
Vss3(ONFI)25
NC1626
NC1827
NC1928
NC2033
VCC3(ONFI)34
NC2235
NC2338
VCC4(ONFI)39
NC2540
NC2645
NC2746
NC2847
Vss4(ONFI)48
Spansion
U6S25FL512S-16Spansion
U6S25FL512S-16
HOLD#/IO31
VCC2
CS#7
SO/IO18
WP#/IO29
VSS10
SI/IO015
SCK16
RESET#/RFU3
DNU14
RFU6
DNU25
NC13
DNU412DNU311
VIO/RFU14
R12
222
kΩR
122
22kΩ
CP1060.1µFCP1060.1µF
R114 0ΩR114 0Ω
RENESAS
U10R1EX24128ASA00ARENESAS
U10R1EX24128ASA00A
A01A12A23
VSS4
VCC8
WP7
SCL6
SDA5
CP9
70.
1µF
CP9
70.
1µF
R12
447
kΩR
124
47kΩ
R320 22ΩR320 22Ω
R12
122
kΩR
121
22kΩ
R10
422
kΩR
104
22kΩ
CP9
80.
1µF
CP9
80.
1µF
R126 0ΩR126 0Ω
TH2TH2
CP950.1µFCP950.1µF
R10
122
kΩR
101
22kΩ
R10
922
kΩR
109
22kΩ
TH6TH6
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
25MHz : MII mode50MHz : RMII mode
EXTRES : Must be connect to GND via 12.4Kohm resisterREGOFFD : Regulator disable for digital, Hi: Regulator OFF, Low: ONATP, TEST : Must be connect to GND
SML-310MT : GreenSML-310DT : OrangeSML-310VT : RedSML-310YT : YellowEthernet
LED_MODE : B'0000 LED0 : LinkA (GPIO0) LED1 : FD (GPIO14) LED2 : MUX 100BT/10BT (Not used) LED3 : Activity (GPIO4)
P2_11/RxD[3] : PUP2_10/RxD[2] : PUP3_4/RXCLK : PUP3_5/RXER : PUP2_0/TXCLK : PUP2_3/CRS : PUP2_8/RxD[0] : PDP2_9/RxD[1] : PD
Audio CODEC
JST
MOLEX
USB Socket-A
USB Mini-B
MICREL
JST
MOLEX
USB Socket-A
USB Mini-B
P1_14/COL
P1_15/(INT)
P4_0/FRE/RSPCK4/MMC_D4
P4_2/FALE/MOSI4/MMC_D6
P4_1/FCLE/SSL40/MMC_D5
P1_14
P4_0
P4_2
P4_1
P1_15
RES#[3,4,5,8,10]
VBUS0[3]
DP0[3]
DM0[3]
VBUS1[3]
DP1[3]
DM1[3]
P4_6/SSIRxD0[2]
P4_4/SSISCK0[2]
P4_7/SSITxD0[2]
P4_5/SSIWS0[2]
P4_[15:0][2,5,7,10]
P2_8/RxD[0][2]P2_9/RxD[1][2]P2_10/RxD[2][2]P2_11/RxD[3][2]
P2_4/TxD[0][2]P2_5/TxD[1][2]P2_6/TxD[2][2]P2_7/TxD[3][2]
P2_0/TXCLK[2]P2_2/TXEN[2]
P2_1/TXER[2]
P2_3/CRS[2]
P3_3/MDIO[2]
P3_4/RXCLK[2]
P3_5/RXER[2]
P3_6/RXDV[2]
P5_9/MDC[2]
P1_[15:0][2,5,10]
WM8978/MCLK[3]
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
3VCC
5VCC
VBUS
3VCC
AN3V
AN3V
AN3V
AN3V
3VCC
3VCC3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )6 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRAudio-codec, LAN, USB
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )6 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRAudio-codec, LAN, USB
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )6 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRAudio-codec, LAN, USB
RenesasuPD60610U20
RenesasuPD60610U20
EX
TRE
S1
ATP
2
P0TXP3
P0TXN4
P0RXP6
P0RXN7
P0LINKLED / GPIO012MDC
13
MDIO14
INT / GPIO415
P0RXCLK / GPIO316
P0RXD3 / GPIO717 P0RXD2 / GPIO818 P0RXD121 P0RXD022 P0RXDV23
P0RXERR24
P0TXEN25
P0TXD026
P0TXD127
P0TXD2 / GPIO1128
P0TXD3 / GPIO1029
P0TXCLK30
XCLK032
XCLK133
GPIO1434
P0TXERR / GPIO935
DVOUT1537
P0CRS / GPIO639
RESETB40
TES
T41
P0COLSD / GPIO1942
RE
GO
FFD
44
AVOUT1545
P0A
GN
D5
P0A
GN
D8
VDDA159
VDD33ESD10
VDD1511
VDDIO19
GN
DIO
20
VDDIO31
GN
DIO
36
VDDIO38
GN
DA
RE
F43
VDDA33REG46
VDDAPLL47
GN
DA
PLL
48
C32_18pFC32_18pF
R139
100Ω
R139
100Ω
R181 4.7kΩR181 4.7kΩ
R14
4_2
2kΩ
R14
4_2
2kΩ
R13
447
kΩR
134
47kΩ
R31022ΩR31022Ω
R169 22ΩR169 22Ω
R14622kΩR14622kΩ
R15
649
.9Ω
-1/4
WR
156
49.9Ω
-1/4
W
L5_DLW21HN900SQ2L5_DLW21HN900SQ2
14
23
R18318ΩR18318Ω
CP1
200.
1µF
CP1
200.
1µF
TP4TP4
+ CE19
22µF/10V
+ CE19
22µF/10V
CP1
160.
1µF
CP1
160.
1µF
CP1
140.
1µF
CP1
140.
1µF
C291µFC291µF
R158 22ΩR158 22Ω
J5UBA-4R-D14T-4DJ5UBA-4R-D14T-4D
VBus1
D-2
D+3
GND4
FRAME5
FG16FG27
C41
_10p
FC
41_1
0pF
R18
622
kΩR
186
22kΩ
+
CE3
010
µF/1
6V
+
CE3
010
µF/1
6V
TP3TP3
C361µFC361µF
CP1210.1µFCP1210.1µF
C42
0.01
µFC
420.
01µF
C200.1µFC200.1µF
+
CE2
810
µF/1
6V
+
CE2
810
µF/1
6VLE
D5
SML-
310M
TLE
D5
SML-
310M
T
JP9HWP-3P-GJP9HWP-3P-G
12
3C190.1µFC190.1µF
R163 22ΩR163 22Ω
JP11HWP-2P-GJP11HWP-2P-G
12
TP5USB_IDTP5USB_ID
C38
_10p
FC
38_1
0pF
L4
_L600
L4
_L600
R18
412
.4kΩ
, 1%
R18
412
.4kΩ
, 1%
R16
210Ω
-1%
R16
210Ω
-1%
R15
333
0ΩR
153
330Ω
CP1080.1µFCP1080.1µF
C281µFC281µF
OMRON
SW3A6HF-8102OMRON
SW3A6HF-8102
12345 12
111098
67
13141516
R15
41.
5kΩ
R15
41.
5kΩ
C261µFC261µF
CP1
170.
1µF
CP1
170.
1µF
R150
100Ω
R150
100Ω
+
CE214.7µF/10V
+
CE214.7µF/10V
On Semiconductor
U18NL17SZ74On Semiconductor
U18NL17SZ74
CP1 D2
Q3
GN
D4
Q5
CLR6
PR7
VCC8
C180.1µFC180.1µF
R18
522
kΩR
185
22kΩ
R15
233
0ΩR
152
330Ω
TP6TP6
R13
72.
2kΩ
R13
72.
2kΩ
R13
347
kΩR
133
47kΩ
R168 22ΩR168 22Ω
+CE22 47µF/10V+CE22 47µF/10V
TDK
J10TLA-6T718TDK
J10TLA-6T718
TD+1
TD-2
TCT3
RD+4
RD-5
RCT6
N.C.7
GND8 FG
9
FG10
C351µFC351µF
R170 22ΩR170 22Ω
CP1
110.
1µF
CP1
110.
1µF
J7_54819-0572J7_54819-0572
VBus1
D-2
D+3
ID4
FRAME6
GND5 FG1
7FG28FG39
LED
3SM
L-31
0MT
LED
3SM
L-31
0MT
TP9TP9
+CE23 47µF/10V+CE23 47µF/10V
R16
049
.9Ω
-1/4
WR
160
49.9Ω
-1/4
W
TP10USB_IDTP10USB_ID
C30 0.1µFC30 0.1µF
CP1
180.
1µF
CP1
180.
1µF
R13
82.
2kΩ
R13
82.
2kΩ
R30722ΩR30722Ω
C23
220p
FC
2322
0pF
R171 22ΩR171 22Ω
L3_L600L3_L600
R15
133
0ΩR
151
330Ω
R176 4.7kΩR176 4.7kΩ
R15
749
.9Ω
-1/4
WR
157
49.9Ω
-1/4
W
R147 220ΩR147 220Ω
+
CE2
910
µF/1
6V
+
CE2
910
µF/1
6V
+CE18
22µF/10V
+CE18
22µF/10V
L6_L600L6_L600
CP1
120.
1µF
CP1
120.
1µF
LED
4SM
L-31
0MT
LED
4SM
L-31
0MT
R18
722
kΩR
187
22kΩ
CP1070.1µFCP1070.1µF
R14
022
kΩR
140
22kΩ
R131 22kΩR131 22kΩ
R175 4.7kΩR175 4.7kΩR
159
49.9Ω
-1/4
WR
159
49.9Ω
-1/4
W
C25
220p
FC
2522
0pF
+
CE2
510
µF/1
6V
+
CE2
510
µF/1
6V
CP1
130.
1µF
CP1
130.
1µF
D9_HZM6.2Z4MFAD9_HZM6.2Z4MFA
15
2
4 3
R30822ΩR30822Ω
CP1
190.
1µF
CP1
190.
1µF
R132 22kΩR132 22kΩ
R177 4.7kΩR177 4.7kΩ
R166 22ΩR166 22ΩR
148
20kΩ
R14
820
kΩ
R143 47kΩR143 47kΩ
R142 47kΩR142 47kΩ
R15
522Ω
R15
522Ω
CP1
150.
1µF
CP1
150.
1µF
R14122ΩR14122Ω
J8UBA-4R-D14T-4DJ8UBA-4R-D14T-4D
VBus1
D-2
D+3
GND4
FRAME5
FG16FG27
U17MIC-2026-2YMU17MIC-2026-2YM
IN7
FLGB3
GND6
ENB4
ENA1
OUTA8
FLGA2
OUTB5
C210.1µFC210.1µF
U19 WM8978GEFL/VU19 WM8978GEFL/V
LIP1
LIN2
L2/GPIO23
RIP4
RIN5
R2/GPIO36
LRC7
BCLK8
ADCDAT9
DACDAT10
MCLK11
DG
ND
12D
CV
DD
13
DB
VD
D14
CSB/GPIO115
SCLK16
SDIN17
MODE18
AUXL19
AUXR20
OUT421
OUT322
ROUT223
SP
KG
ND
24
LOUT225
SP
KV
DD
26
VMID27
AG
ND
28
ROUT129
LOUT130
AV
DD
31
MICBIAS32
PA
D33
L2_DLW21HN900SQ2L2_DLW21HN900SQ2
14
23
D10_HZM6.2Z4MFAD10_HZM6.2Z4MFA
15
2
4 3
R178 4.7kΩR178 4.7kΩ
R165 22ΩR165 22Ω
R145 220ΩR145 220Ω
C31 0.1µFC31 0.1µF
C24
220p
FC
2422
0pF
R16
110Ω
-1%
R16
110Ω
-1%
R182 4.7kΩR182 4.7kΩ
+ CE17150µF/16V
+ CE17150µF/16V
R13
547
kΩR
135
47kΩ
CP1
090.
1µF
CP1
090.
1µF
R1720ΩR1720Ω
R30922ΩR30922Ω
J6
HSJ1456-010320
J6
HSJ1456-010320
1
2
3
4
C271µFC271µF
JP10
HWP-2P-G
JP10
HWP-2P-G
R17
9_2
2kΩ
R17
9_2
2kΩ
R164 22ΩR164 22Ω
R180 4.7kΩR180 4.7kΩC
2222
0pF
C22
220p
F
C37
_10p
FC
37_1
0pF
R1300ΩR1300Ω
C39
_10p
FC
39_1
0pF
+
CE2
410
µF/1
6V
+
CE2
410
µF/1
6V
CP1
100.
1µF
CP1
100.
1µF
R14
920
kΩR
149
20kΩ
TP7TP7
C33
220p
FC
3322
0pF
+
CE2
710
µF/1
6V
+
CE2
710
µF/1
6V
L1
_L600
L1
_L600
R174 4.7kΩR174 4.7kΩ
R167 22ΩR167 22Ω
C34
220p
FC
3422
0pF
J9_54819-0572J9_54819-0572
VBus1
D-2
D+3
ID4
FRAME6
GND5 FG1
7FG28FG39
X10SG-8002CA_25MHzX10SG-8002CA_25MHz
OUT3
VCC4
GND2
OE1
R13
647
kΩR
136
47kΩ
+ CE264.7µF/10V
+ CE264.7µF/10V
C40
0.01
µFC
400.
01µF
+ CE20150µF/16V
+ CE20150µF/16V
J4
HSJ1456-010320
J4
HSJ1456-010320
1
2
3
4
R1730ΩR1730Ω
TP8TP8
R129 _0ΩR129 _0Ω
1
1
2
2
3
3
4
4
5
5
A A
B B
C C
D D
SD Card Slot
SD/MMC Card Power Control
MMC Card Slot
3.3V3.3VGNDGNDLink0-Link0+
Link1-Link1+
GND
Link2-Link2+
GND
CLKIN-CLKIN+
GND
Link3-Link3+
GND
MODE (Low=6bit, Hi=8bit)SC (Low=Normal, Hi=Reverse)
12V12V12V12V12VGND
GNDGND
GND
Vst (Status)ADIM (ADIM Control : 2.5V=Min, 0V=Max)Vbr/Rbr (PWM Control : 2.5V=Min, 0V=Max)Vrmt (Backlight Control : 0-0.4V or Open=Disable, 2.5V-Vin=Enable)GND
LVDS
P8_9/A17/SPDIF_OUTP8_8/A16/SPDIF_IN
SPDIFTDK
P5_10/CTx1/(RESETB)
P7_3/CAS/CTx2Renesas
Renesas
JST3.3V<-5V
CAN1
LVDS Backlight3.3V<-5V
CAN2
TI
EN0 0 0 1 1
EN1 0 1 0 1
OUTHi-Z3.3V 5VHi-Z
P4_14/SD_D3_0P4_13/SD_CMD_0
P4_12/SD_CLK_0
P4_11/SD_D0_0/(LED2)P4_10/SD_D1_0/(LED1)P4_15/SD_D2_0
P4_9/SD_WP_0P4_8/SD_CD_0
P4_0/FRE/RSPCK4/MMC_D4P4_1/FCLE/SSL40/MMC_D5P4_2/FALE/MOSI4/MMC_D6P4_3/FWE/MMC_D7
P3_8/NAF0/TRACEDATA0/MMC_CD
P3_12/NAF4/MMC_CLKP3_13/NAF5/MMC_CMD
P3_11/NAF3/TRACEDATA3/MMC_D0
P3_15/NAF7/MMC_D2
DIR L H
OperationB data to A busA data to B bus
P7_2/RAS/CRx2
P3_14/NAF6/TRACECLK/MMC_D3
P3_9/NAF1/TRACEDATA1/SD_WP_1
P3_10/NAF2/TRACEDATA2/MMC_D1
P4_13
P4_15
P4_14
P4_12
P4_11P4_10
P4_9
P3_9
P4_8
P3_12P3_13
P3_8
P3_14
P4_1
P3_10
P4_2P4_3
P3_11
P4_0
A17
P7_3
P5_10
P3_15
P4_[15:0][2,5,6,10]
P3_[15:0][2,4,5,8,10]
P5_7/TXOUT0M[2]P5_6/TXOUT0P[2]
P5_5/TXOUT1M[2]P5_4/TXOUT1P[2]
P5_3/TXOUT2M[2]P5_2/TXOUT2P[2]
P5_1/TXCLKOUTM[2]P5_0/TXCLKOUTP[2]
A[25:1][2,4,5,10]
P5_9/CRx1[2]P7_2/CRx2[2]
P7_[8:0][2,4,10]
P5_[10:0][2,4,5,8,10]
P8_8/SPDIF_IN[2]
CVCC1
3VCCCVCC1
CVCC1
CVCC2
5VCC3VCC
3VCC
CVCC2
CVCC23VCC
3VCC
12VCC
3VCC
5VCC 5VCC
5VCC
3VCC
5VCC
3VCC5VCC
5VCC3VCC
5VCC
3VCC 5VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )7 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRSD/MMC, SPDIF, CAN, LVDS
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )7 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRSD/MMC, SPDIF, CAN, LVDS
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )7 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRSD/MMC, SPDIF, CAN, LVDS
CP1220.1µFCP1220.1µF
R23
022
kΩR
230
22kΩ
CP1230.1µFCP1230.1µF
L7VLCF4020T-470MR39L7VLCF4020T-470MR39
CP1250.1µFCP1250.1µF
R20
6_2
2kΩ
R20
6_2
2kΩ
R22
422
kΩR
224
22kΩ
R19
322
kΩR
193
22kΩ
KINGCONN
J157SDMM-X0-2211-BKINGCONN
J157SDMM-X0-2211-B
DAT31
CMD2
VSS3
VDD4
SCLK5
DAT07
DAT18
DAT29
DAT410
DAT511
DAT612
DAT713
WP15
CD14 PAD1
16
PAD217
R22
922
kΩR
229
22kΩ
R19
422
kΩR
194
22kΩ
R31
610
0Ω-1
%R
316
100Ω
-1%
R221 22ΩR221 22Ω
CP1
340.
1µF
CP1
340.
1µF
CP1240.1µFCP1240.1µF
R21
822
kΩR
218
22kΩ
TI
U25SN74LVC1T45DCKTI
U25SN74LVC1T45DCK
VCCA1
A3
GND2
VCCB6
B4
DIR5
R21
122
kΩR
211
22kΩ
J13
B3P-SHF-1AA(LF)(SN)
J13
B3P-SHF-1AA(LF)(SN)
123
CP1320.1µFCP1320.1µF
R199 22ΩR199 22Ω
HRS
FGFG
J14DF14A-20P-1.25HHRS
FGFG
J14DF14A-20P-1.25H
123456789
1011121314151617181920
2122
R22
71kΩ
R22
71kΩ
CP1
330.
1µF
CP1
330.
1µF
J12
B3P-SHF-1AA(LF)(SN)
J12
B3P-SHF-1AA(LF)(SN)
123
R19
222
kΩR
192
22kΩ
R21
322
kΩR
213
22kΩ
C440.1µFC440.1µF
R20122kΩR20122kΩ
CP1
390.
1µF
CP1
390.
1µF
R22
562
0ΩR
225
620Ω
R22
61.
2kΩ
R22
61.
2kΩ
R31
810
0Ω-1
%R
318
100Ω
-1%
R21
722
kΩR
217
22kΩ
R22
022
kΩR
220
22kΩ
R21
922
kΩR
219
22kΩ
HRS
J11DM1AA-SF-PEJHRS
J11DM1AA-SF-PEJ
CLK5
CMD2
DAT07
DAT18
DAT29
CD/DAT31
W_Protect10
Card_Detect11
VDD4
COMMON12
VSS26
VSS13
PAD113
PAD214
PAD315
PAD416
CP1280.1µFCP1280.1µF
U22SN74LVC2T45DCTU22SN74LVC2T45DCT
VCCA1
VCCB8
A02
A13
GND4
DIR5B16B07
U24HA13721RPJEU24HA13721RPJE
TxD1
GND2
VCC3
RxD4
NC5
CANL6
CANH7MODE8
R20
7_2
2kΩ
R20
7_2
2kΩ
R22
322
kΩR
223
22kΩ
+
CE3
11µ
F/16
V
+
CE3
11µ
F/16
V
JST
FGFG
J16BM14B-SRSS-TBJST
FGFG
J16BM14B-SRSS-TB
123456789
1011121314
1516
C430.1µFC430.1µF
R21
022
kΩR
210
22kΩ
R19
122
kΩR
191
22kΩ
CP1270.1µFCP1270.1µF
U21HA13721RPJEU21HA13721RPJE
TxD1
GND2
VCC3
RxD4
NC5
CANL6
CANH7MODE8
R31
710
0Ω-1
%R
317
100Ω
-1%
R20
410
kΩR
204
10kΩ
R22
822
kΩR
228
22kΩ
R200 22ΩR200 22Ω
R21
622
kΩR
216
22kΩ
R198120Ω-1/4WR198120Ω-1/4W
R203120Ω-1/4WR203120Ω-1/4W
+
CE3
21µ
F/16
V
+
CE3
21µ
F/16
V
R20
922
kΩR
209
22kΩ
R21
222
kΩR
212
22kΩ
CP1310.1µFCP1310.1µF
R19
522
kΩR
195
22kΩ
R20
510
kΩR
205
10kΩ
CP1
380.
1µF
CP1
380.
1µF
R19
022
kΩR
190
22kΩ
R19622kΩR19622kΩ
R31
510
0Ω-1
%R
315
100Ω
-1%
R21
5_2
2kΩ
R21
5_2
2kΩ
CP1260.1µFCP1260.1µF
R20222kΩR20222kΩ
R18
8_2
2kΩ
R18
8_2
2kΩ
CP1
350.
1µF
CP1
350.
1µF
R20
868
0ΩR
208
680Ω
CP1
290.
1µF
CP1
290.
1µF
CP1
370.
1µF
CP1
370.
1µF
LT
U23LTC1471LT
U23LTC1471
AOUT11
A5VIN2
AEN13
AEN04
GN
D5
A3VIN114
A3VIN215
AOUT216
BOUT18
BOUT29
GN
D13
B3VIN16
B3VIN27
B5VIN10
BEN111
BEN012
Toshiba
U26TODX2951Toshiba
U26TODX2951
RX1
GN
D1
2
GN
D3
5G
ND
24
VCC13
VCC27TX
8
FG1
9
FG2
10
LED6
R19722kΩR19722kΩ
R21
422
kΩR
214
22kΩ
R18
922
kΩR
189
22kΩ
R222 22ΩR222 22Ω
CP1
360.
1µF
CP1
360.
1µF
CP1
300.
1µF
CP1
300.
1µF
5
5
4
4
3
3
2
2
1
1
D D
C C
B B
A A
RxD0
TxD0
OMRON
MAXIM
P3_2/RxD2
P3_0/TxD2
KEY
TMS/SWDIOVTref
NCNC
CoreSight 20
TCK/SWCLKTDO/SWOTDInSRSTRTCK/TraceClkSWO/TraceD0nTRST/TraceD1DBGRQ/TraceD2DBGACK/TraceD3
P3_8/TRACEDATA0
ARM JTAG 20
NCVTrefnTRSTTDITMS/SWDIOTCK/SWCLKRTCKTDO/SWOnSRSTDBGRQDBGACK
RFU GNDRFUTOOL0RFU
RFUEMVdd
RESET_OUT
RFURESET_INVddRESET_OUTGNDGND
Dsub9
USB Mini-B
E1
GNDGND
GND
GNDGNDGND
P5_0/TXCLKOUTPNC
VCCDBI
RST
P5_1/TXCLKOUTM
P5_2/TXOUT2PP5_3/TXOUT2M P5_4/TXOUT1P
P3_14/NAF6/TRACECLK/MMC_D3
P3_9/NAF1/TRACEDATA1/SD_WP_1P3_10/NAF2/TRACEDATA2/MMC_D1P3_11/NAF3/TRACEDATA3/MMC_D0
RenesasRenesas
P3_2
P3_0
P3_14P3_8P3_9P3_10P3_11
P5_1P5_4P5_0
P5_3P5_2
P3_[15:0][2,4,5,7,10]
TMS [3]TCK [3]TDO [3]TDI [3]
P5_[10:0][2,4,5,7,10]
TRST# [3]
nTRST[9]
nSRST[9]RES# [3,4,5,6,10]
3VCC
3VCC
3VCC
VDD
3VCC
3VCC
3VCC
VDD VDDVDD
3VCC
3VCC
3VCC
3VCC
VDD
3VCC3VCC
VDD
VDD3VCC
3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )8 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRSerial (RS-232C, USB), UDI
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )8 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRSerial (RS-232C, USB), UDI
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )8 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRSerial (RS-232C, USB), UDI
R2431MΩR2431MΩ
U38
AH
D74
LV1G
W17
AU
38A
HD
74LV
1GW
17A
61
R25
210
kΩR
252
10kΩ
R254 _22ΩR254 _22Ω
R255 22ΩR255 22Ω
R23
122
kΩR
231
22kΩ
R26
910
kΩR
269
10kΩ
R31
210
kΩR
312
10kΩ
RenesasRL78/G1C-SU28
RenesasRL78/G1C-SU28
P40 / TOOL01
RESET#2
P137 / INTP03
P122 / X2 / EXCLK4 P121 / X15
P60 / SCLA09
P61 / SDAA010
P6211
P31 / TI03 / TO03 / INTP4 / PCLBUZ012
P70 / PCLBUZ113
P30 / INTP3 / SCK00 / SCL00 / (TI03) / (TO03) / (PCLBUZ0)14
P50 / INTP1 / SI00 / RXD0 / TOOLRXD / SDA00 / (TI02) / (TO02)15 P51 / INTP2 / SO00 / TXD0 / TOOLTXD / (TI01) / (TO01)16
P17 / TI02 / TO0217
P16 / TI01 / TO01 / INTP518
IC119
IC220
UVBUS22
UDM023
UDP024
P24 / ANI425
P23 / ANI326
P22 / ANI227
P21 / ANI1 / AVREFM28
P20 / ANI0 / AVREFP29
P01 / ANI16 / TO00 / INTP9 / SCK01 / SCL01 / (SCLA0)30
P00 / ANI17 / TI00 / INTP8 / SI01 / SDA01 / (SDAA0)31
P120 / ANI19 / SO01 / (PCLBUZ1)32
RE
GC
6
VS
S7
VDD8
UVDD21
+ CE344.7µF/10V
+ CE344.7µF/10V
R23
222
kΩR
232
22kΩ
C49
_0.1
µFC
49_0
.1µF
C508pFC508pF
FG
J17XM2C-0942-132L
FG
J17XM2C-0942-132L
1
483726
59
1011
RS-232TTL
U27MAX3222E
RS-232TTL
U27MAX3222E
R2IN9
R2OUT10 R1OUT15
R1IN16
GND18
VCC19
EN1
SHDN20
C1+2
C1-4
C2+5
C2-6
V+3
V-7
T1IN13
T2IN12 T1OUT
17
T2OUT8
R27
010
kΩR
270
10kΩ
R24
810
kΩR
248
10kΩ
R23
6_1
0kΩ
R23
6_1
0kΩ
HRS_HIF3B-10PA-2.54DSAJ18
HRS_HIF3B-10PA-2.54DSAJ18
13579
246810
CP1470.1µFCP1470.1µF
C518pFC518pF
R26
5_1
0kΩ
R26
5_1
0kΩ
R32
722
kΩR
327
22kΩ
CP1960.1µFCP1960.1µF
CP1400.1µFCP1400.1µF
CP1970.1µFCP1970.1µF
R26
4_1
0kΩ
R26
4_1
0kΩ
X11DSX321G_12MHz
X11DSX321G_12MHz
R32522kΩR32522kΩ
R240
0Ω
R240
0ΩR
234
_10kΩ
R23
4_1
0kΩ
U38CHD74LV1GW17AU38CHD74LV1GW17A
25
U37CHD74LV1GW17AU37CHD74LV1GW17A
25
R244560ΩR244560Ω
R247
100kΩ
R247
100kΩ
R31
110
kΩR
311
10kΩ
R32310kΩR32310kΩ
R24522kΩR24522kΩ
R26
2_1
0kΩ
R26
2_1
0kΩ
R23
5_1
0kΩ
R23
5_1
0kΩ
R23
3_1
0kΩ
R23
3_1
0kΩ
Samtec
J21FTSH-110-01Samtec
J21FTSH-110-01
13579
1113151719
2468101214161820
U37
AH
D74
LV1G
W17
AU
37A
HD
74LV
1GW
17A
61
C54
1µF
C54
1µF
U38BHD74LV1GW17AU38BHD74LV1GW17A
43
CP1480.1µFCP1480.1µF
R25
310
kΩR
253
10kΩ
R32
822
kΩR
328
22kΩ
CP1
440.
1µF
CP1
440.
1µF
CP1430.1µFCP1430.1µF
U37BHD74LV1GW17AU37BHD74LV1GW17A
43
JP12 HWP-3P-GJP12 HWP-3P-G1
23
R32622kΩR32622kΩ
R257 22ΩR257 22ΩR256 22ΩR256 22Ω
U39HD74LV1G08AU39HD74LV1G08A
1
24
35
C52
1µF
C52
1µF
R258 22ΩR258 22Ω
R23
8_2
2kΩ
R23
8_2
2kΩ
U36HD74LV1G08AU36HD74LV1G08A
1
24
35
+ CE3510µF/16V
+ CE3510µF/16V
R267_22ΩR267_22Ω
R241_10kΩR241_10kΩ
C53
1µF
C53
1µF
R260 22ΩR260 22Ω
3M_7614-5002-PLJ20
3M_7614-5002-PLJ20
13579
246810
1113
1214
CP1420.1µFCP1420.1µF
R259 22ΩR259 22Ω
CP1
450.
33µF
CP1
450.
33µF
R2660ΩR2660Ω
R242 100ΩR242 100Ω
CP1980.1µFCP1980.1µF
C460.1µFC460.1µF
R261_0ΩR261_0Ω
R25
110
kΩR
251
10kΩ
R26
810
kΩR
268
10kΩ
C47 0.1µFC47 0.1µF
C58_1µFC58_1µF
JP13 HWP-3P-GJP13 HWP-3P-G1
23
HRSHIF3FC-20PA-2.54DSAJ22
HRSHIF3FC-20PA-2.54DSAJ22
13579
1113151719
2468101214161820
R239_0ΩR239_0Ω
C480.1µFC480.1µF
R23
7_2
2kΩ
R23
7_2
2kΩ
J1954819-0572J1954819-0572
VBus1
D-2
D+3
ID4
FRAME6
GND5 FG1
7FG28FG39
R25
010
kΩR
250
10kΩ
CP1950.1µFCP1950.1µF
CP1460.1µFCP1460.1µF
CP141_0.1µFCP141_0.1µF
R26
3_1
0kΩ
R26
3_1
0kΩ
C45 0.1µFC45 0.1µF
R24
910
kΩR
249
10kΩ
R2461kΩR2461kΩ
1
1
2
2
3
3
4
4
5
5
A A
B B
C C
D D
3.3V External
JST
ADC Voltage Reference
JST
1.18V External
Board fixed hole.
STANLEY
OMRON
AGND-DGND
PowerConnector
PowerSwitch
ACAdaptor
BLUE
A grade : 0.05%, 10 ppmB grade : 0.1%, 20 ppm
12V -> 5V
5V -> 1.18V
5V-3AR = ((3.2*5V)/(100*(5V*3A)))*0.95 = 10.13mR -> 47mRVf = 47mR * 3A = 141mV5V External
JST
NMISWITCH
RenesasRenesas
TESTSWITCH
IRQ6SWITCH
Power On Reset
5V -> 3.3V
A3.3V External
JST
for MOST I/F Connector (M2.5)
for Corner x 4 (M3)
/* 3.3V-200mA */R = ((3.2*3.3V)/(100*(3.3V*200mA)))*0.95 = 152mR -> 150mRVf = 150mR * 200mA = 30mV
/* 1.18V-1A */R = ((3.2*1.18V)/(100*(1.18V*1A)))*0.95 = 30.4mR -> 47mR (Min.)Vf = 47mR * 1A = 47mV
/* 3.3V-100mA */R = ((3.2*3.3V)/(100*(3.3V*100mA)))*0.95 = 304mR -> 300mRVf = 300mR * 100mA = 30mV
TDK
TDK
Toshiba
Toshiba
TDK
Anti-resonant Capacitor
ResetSWITCH
NMI [3,10]
P3_1/IRQ6 [2]
nTRST [8]
nSRST [8]
AVref5VCC
3VCCExPVcc
ExVcc
12VCC
12VCC
5VCC
ExVcc
ExPVcc
1.18V
Ex5V 5VEx5V
3VCC
3VCC
3VCC3VCC
3VCC
3VCC
5VCC
LVDSAPVcc
USBAPVcc
USBAVcc
ExAVccExAVcc AN3V AVcc AVcc VDAVcc
VccVcc
PVcc
5VCC
PVcc
PLLVcc
5V
3VCC
1.18V
3VCC
AN3V
12VCC PVcc AN3V 3VCC AVcc 5VCC
LVDSPLLVcc
3VCC 3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )9 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRPower, Reset, SW
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )9 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRPower, Reset, SW
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )9 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRPower, Reset, SW
CQ
200.
1µF
CQ
200.
1µF
R2980ΩR2980Ω
CQ
290.
1µF
CQ
290.
1µF
LED6UB1111CLED6UB1111C
JP15HWP-3P-GJP15HWP-3P-G
12
3
CQ
510.
1µF
CQ
510.
1µF
JP17A2-2PA-2.54DSAJP17A2-2PA-2.54DSA
1 2
R286 0ΩR286 0Ω
CQ
370.
1µF
CQ
370.
1µF
CQ
550.
1µF
CQ
550.
1µF
CP1600.1µFCP1600.1µF
R30110kΩR30110kΩ
+CE4710µF/16V
+CE4710µF/16V
TP14PLLVccTP14PLLVcc
J23S3B-XH-AJ23S3B-XH-A
+12V1
NC2
GND3
CP1540.1µFCP1540.1µF
+ CE532.2µF/10V
+ CE532.2µF/10V
CQ
170.
1µF
CQ
170.
1µF
TP22TESTTP22TEST
CQ
250.
1µF
CQ
250.
1µF
R295
0Ω
R295
0Ω
SW4MS-12AAH1SW4MS-12AAH1
21
3
TP185VTP185V
L14BLM21PG300SN1DL14BLM21PG300SN1D
R329 0ΩR329 0Ω
U29AHD74LV1GW17AU29AHD74LV1GW17A
61
CQ
440.
1µF
CQ
440.
1µF
CP1990.1µFCP1990.1µF
U31BHD74LV1GW17AU31BHD74LV1GW17A
43
C57
0.00
68µF
C57
0.00
68µF
+ CE484.7µF/10V
+ CE484.7µF/10V
CQ
210.
1µF
CQ
210.
1µF
TP135VCCTP135VCC
CQ
230.
1µF
CQ
230.
1µF
CP1581µFCP1581µF
R3029.53kΩR3029.53kΩ
R27610kΩR27610kΩ
CQ
380.
1µF
CQ
380.
1µF
R292 10ΩR292 10Ω
R277 220ΩR277 220Ω
CQ
430.
1µF
CQ
430.
1µF
CQ
360.
1µF
CQ
360.
1µF
CQ
320.
1µF
CQ
320.
1µF
CP16122µF/50VCP16122µF/50V
U29CHD74LV1GW17AU29CHD74LV1GW17A
25
TP1112VTP1112V
CP1500.1µFCP1500.1µF
CQ
530.
1µF
CQ
530.
1µF
R28
74.
75kΩ
-1%
R28
74.
75kΩ
-1%
+ CE5010µF/16V
+ CE5010µF/16V
TP243.3VTP243.3V
L12SLF10145T-150M2R2L12SLF10145T-150M2R2
CQ
350.
1µF
CQ
350.
1µF
CP1630.22µFCP1630.22µF
+CE4210µF/16V
+CE4210µF/16V
CQ
490.
1µF
CQ
490.
1µF
CQ
410.
1µF
CQ
410.
1µF
+CE3610µF/16V
+CE3610µF/16V
CQ
190.
1µF
CQ
190.
1µF
+ CE45
220µF/6.3V
+ CE45
220µF/6.3V
R281_10kΩR281_10kΩ
U40HD74LV1G08AU40HD74LV1G08A
1
24
35
CP1640.1µFCP1640.1µF
MH5
HOLE
MH5
HOLE
R2942.26kΩR2942.26kΩ
R31411.8kΩR31411.8kΩ
CQ
180.
1µF
CQ
180.
1µF
R272 220ΩR272 220Ω
D12CMS06D12CMS06
JP18HWP-3P-GJP18HWP-3P-G
12
3
D11CMS06D11CMS06
R28
810
2kΩ
-1%
R28
810
2kΩ
-1%
+ CE382.2µF/10V
+ CE382.2µF/10V
TP16PVccTP16PVcc
C61_0.47µF
C61_0.47µF
R278 0ΩR278 0Ω
SW7FT1D-2M-ZSW7FT1D-2M-Z
21 3
R283 300mΩR283 300mΩ
R29615kΩR29615kΩ
CQ
10.
1µF
CQ
10.
1µF
CQ
420.
1µF
CQ
420.
1µF
CP1570.1µFCP1570.1µF
CP1560.1µFCP1560.1µF
CP1510.1µFCP1510.1µF
TP19USBAPVccTP19USBAPVcc
CQ
120.
1µF
CQ
120.
1µF
CQ
30.
1µF
CQ
30.
1µF
CQ
100.
1µF
CQ
100.
1µF
TP23VccTP23Vcc
TI
U34LM2830ZTI
U34LM2830Z
GN
D2
FB3
EN4
VIN5
SW1
CP1620.047µFCP1620.047µF
L11BLM21PG300SN1DL11BLM21PG300SN1D
CQ
130.
1µF
CQ
130.
1µF
JP21HWP-3P-GJP21HWP-3P-G
12
3
R290 47mΩR290 47mΩ
CQ
110.
1µF
CQ
110.
1µF
R293 10kΩR293 10kΩ
+ CE462.2µF/10V
+ CE462.2µF/10V
MH2
HOLE
MH2
HOLE
CQ
500.
1µF
CQ
500.
1µF
R285 220ΩR285 220Ω
R29110.2kΩR29110.2kΩ
SW6B3S-1000SW6B3S-1000
23
14
+ CE3710µF/16V
+ CE3710µF/16VR275 47mΩR275 47mΩ
J28
_A2-2PA-2.54DSA
J28
_A2-2PA-2.54DSA
12
R2745.1kΩR2745.1kΩ
U31CHD74LV1GW17AU31CHD74LV1GW17A
25
CQ
480.
1µF
CQ
480.
1µF
CP1590.1µFCP1590.1µF
CQ
470.
1µF
CQ
470.
1µF
L10BLM21PG300SN1DL10BLM21PG300SN1D
JP22A2-2PA-2.54DSAJP22A2-2PA-2.54DSA
1 2
TI
U32LM2833XTI
U32LM2833X
SG
ND
3
FB5
EN2
VIND19
SW17
VIND210
SW28
PG
ND
6N
C4
VINC1
DA
P11
C56
0.00
68µF
C56
0.00
68µF
TP20AVccTP20AVcc
R28910kΩR28910kΩ
L15LTF5022T-1R2N4R2L15LTF5022T-1R2N4R2
CQ
310.
1µF
CQ
310.
1µF
L9BLM21PG300SN1DL9BLM21PG300SN1D
CQ
50.
1µF
CQ
50.
1µF
TP17LVDSAPVccTP17LVDSAPVcc
+ CE412.2µF/10V
+ CE412.2µF/10V
CQ
460.
1µF
CQ
460.
1µF
CQ
390.
1µF
CQ
390.
1µFNS
U35LM4132NS
U35LM4132
NC1
GN
D2
Vin4
Vref5
EN3
MH3
HOLE
MH3
HOLE
U29BHD74LV1GW17AU29BHD74LV1GW17A
43
CQ
330.
1µF
CQ
330.
1µF
J29XG8S-0331J29XG8S-0331
123
U31AHD74LV1GW17AU31AHD74LV1GW17A
61
TP26GNDTP26GND
TI
U30LM20343TI
U30LM20343
GN
D1
9
PGOOD3
EN19
VIN15
SW17
VIN26
SW28
FB2
SS
/TR
K1
BOOT17
GN
D2
10
GN
D3
11
CO
MP
4
AG
ND
12
SW313
SW414VIN3
15
VIN416
VCC18
RT
20
EP
21
CQ
400.
1µF
CQ
400.
1µF
J26
_A2-2PA-2.54DSA
J26
_A2-2PA-2.54DSA
12
R28062kΩR28062kΩ
SW8B3S-1000SW8B3S-1000
23
14
+CE3910µF/16V
+CE3910µF/16V R279 150mΩR279 150mΩ
CQ
40.
1µF
CQ
40.
1µF
CP1660.1µFCP1660.1µF
CQ
540.
1µF
CQ
540.
1µF
SW9B3S-1000SW9B3S-1000
23
14
CP15322µF/50VCP15322µF/50V
R27110kΩR27110kΩ
TP21USBAVccTP21USBAVcc
JP14XG8V-0334JP14XG8V-0334
12
3
CP15522µF/50VCP15522µF/50V
CQ
260.
1µF
CQ
260.
1µF
MH1
HOLE
MH1
HOLE
U33RNA51957BFPU33RNA51957BFP
OUT6
Cd5
GN
D4
IN2
VC
C7
NC
8N
C1
NC
3
TP271.18VTP271.18V
+ CE4947µF/10V
+ CE4947µF/10V
+ CE434.7µF/10V
+ CE434.7µF/10V
JP16A2-2PA-2.54DSAJP16A2-2PA-2.54DSA
1 2
+ CE44
220µF/6.3V
+ CE44
220µF/6.3V
CQ
300.
1µF
CQ
300.
1µF
CP1670.1µFCP1670.1µF
R2974.7kΩR2974.7kΩ
R299 220ΩR299 220Ω
CQ
450.
1µF
CQ
450.
1µF
+ CE52220µF/6.3V
+ CE52220µF/6.3V
CQ
340.
1µF
CQ
340.
1µF
+ CE404.7µF/10V
+ CE404.7µF/10V
J25LGP6531-0700J25LGP6531-0700
2
34
R30010kΩR30010kΩ
CQ
220.
1µF
CQ
220.
1µF
CQ
60.
1µF
CQ
60.
1µF
CQ
240.
1µF
CQ
240.
1µF
J27
_A2-2PA-2.54DSA
J27
_A2-2PA-2.54DSA
12
R28
249
.9kΩ
R28
249
.9kΩ
SW5B3S-1000SW5B3S-1000
23
14
L17LTF5022T-2R2N3R2L17LTF5022T-2R2N3R2
CQ
160.
1µF
CQ
160.
1µF
CP1490.1µFCP1490.1µF
CP1680.1µFCP1680.1µF
L13BLM21PG300SN1DL13BLM21PG300SN1D
J24
_A2-2PA-2.54DSA
J24
_A2-2PA-2.54DSA
12
CP1650.1µFCP1650.1µF
R30310kΩR30310kΩ
CQ
140.
1µF
CQ
140.
1µF
MH4
HOLE
MH4
HOLE
TP15LVDSPLLVccTP15LVDSPLLVcc
JP20A2-2PA-2.54DSAJP20A2-2PA-2.54DSA
1 2
CQ
70.
1µF
CQ
70.
1µF
CQ
80.
1µF
CQ
80.
1µF
+ CE5110µF/16V
+ CE5110µF/16V
CQ
280.
1µF
CQ
280.
1µF
TP25AN3VTP25AN3V
JP19HWP-3P-GJP19HWP-3P-G
12
3
CP1520.1µFCP1520.1µF
L8BLM21PG300SN1DL8BLM21PG300SN1D
CQ
520.
1µF
CQ
520.
1µF
L16BLM21PG300SN1DL16BLM21PG300SN1D
R28410kΩR28410kΩ
R273 0ΩR273 0Ω
CQ
90.
1µF
CQ
90.
1µF
C60_0.47µF
C60_0.47µF
C5522µF/50VC5522µF/50V
CQ
270.
1µF
CQ
270.
1µF
TP12VDAVccTP12VDAVcc
CQ
20.
1µF
CQ
20.
1µF
CQ
150.
1µF
CQ
150.
1µF
1
1
2
2
3
3
4
4
5
5
A A
B B
C C
D D
Data (P6) Address
D0D2
D9
D4
D1
D13D12
D6
D14D15
D3
D8D11
D7D5
D10
P7_7P7_5P7_3P7_1 P7_0
P7_2P7_4P7_6P7_8
P11_11P11_9
P11_7P11_5
P11_13
P11_10P11_8
P11_6P11_4
P11_14P11_12
A25A24A22A20A18
A15A13A11A9A8A6A4A2
A23A21A19A17A16A14A12A10
A7A5A3A1
P3_7P3_5
P3_3P3_1
P3_6P3_4
P3_2P3_0
P10_3 P10_2
P1_15
P1_13
P1_11
P1_9 P1_8
P1_10
P1_12
P1_14
P3_9P3_11
P3_13P3_15
P3_8P3_10
P3_12P3_14
P10_5P10_7
P10_4P10_6
P4_1P4_3
P4_0P4_2
P10_9P10_11P10_13P10_15
P10_8P10_10P10_12P10_14
P4_9P4_11P4_13P4_15
P4_8P4_10P4_12P4_14
P2_3P2_5P2_7P2_9P2_11
P2_0P2_2P2_4P2_6P2_8P2_10
P4_5P4_7
P4_4P4_6
P1_1P1_3P1_5P1_7
P1_0P1_2P1_4P1_6
P3_4P3_6
P3_3P3_5
P2_13P2_15
P2_12P2_14
P11_1P11_3 P11_2
P11_0
P5_1P5_3P5_5P5_7
P5_0P5_2P5_4P5_6
P5_9P5_10
P5_8
P9_3P9_5P9_7 P9_6
P9_4P9_2
P11_15
P2_1
P10_0P10_1
P11_[15:0][2]
D[15:0][4]
P7_[8:0][2,4,7]
CKIO_CN [3]
A[25:1][2,4,5,7]
P10_[15:0][2]
P3_[15:0][2,4,5,7,8]
RES# [3,4,5,6,8]NMI[3,9]
P1_[15:0][2,5,6]
P4_[15:0][2,5,6,7]
P2_[15:0][2,5]P5_[10:0][2,4,5,7,8]
P9_[7:2][2,5]
AUDIO_XTAL2 [3]AUDIO_XTAL1[3]
5VCC 3VCC
3VCC 3VCC 12VCC 12VCCAVcc AVcc VBUSVBUS
3VCC 3VCC5VCC 5VCC
3VCC 3VCC
3VCC 3VCC
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )10 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRExt. Connector
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )10 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRExt. Connector
Renesas Solutions Corp.
DATE
APPROVED
SCALE
DESIGNEDCHECKEDDRAWN
CHANGE
( / )10 10
D-RTK772100BC00000BR_C-A-R0313-12-19
RTK772100BC00000BRExt. Connector
CP1
710.
1µF
CP1
710.
1µF
CP1
720.
1µF
CP1
720.
1µF
R305 0ΩR305 0Ω
HRSHIF3FC-20PA-2.54DSACN5
HRSHIF3FC-20PA-2.54DSACN5
13579
1113151719
2468101214161820
HRSHIF3FC-20PA-2.54DSACN4
HRSHIF3FC-20PA-2.54DSACN4
13579
1113151719
2468101214161820
CP1
800.
1µF
CP1
800.
1µF
SamtecHTSS-115-01-L-DVCN9
SamtecHTSS-115-01-L-DVCN9
13579
1113151719
2468101214161820
2123252729
2224262830
R304 0ΩR304 0Ω
CP1
920.
1µF
CP1
920.
1µF
HRS_HIF3FC-30PA-2.54DSACN3
HRS_HIF3FC-30PA-2.54DSACN3
13579
1113151719
2468101214161820
2123252729
2224262830
CP1
690.
1µF
CP1
690.
1µF
CP1
770.
1µF
CP1
770.
1µF
CP1
810.
1µF
CP1
810.
1µF
CP1
860.
1µF
CP1
860.
1µF
HRS_HIF3FC-20PA-2.54DSACN1
HRS_HIF3FC-20PA-2.54DSACN1
13579
1113151719
2468101214161820
CP1
700.
1µF
CP1
700.
1µF
CP1
900.
1µF
CP1
900.
1µF
CP1
760.
1µF
CP1
760.
1µF
CP1
930.
1µF
CP1
930.
1µF
CP1
940.
1µF
CP1
940.
1µF
CP1
870.
1µF
CP1
870.
1µF
CP1
910.
1µF
CP1
910.
1µF
CP1
820.
1µF
CP1
820.
1µF
CP1
780.
1µF
CP1
780.
1µF
CP1
740.
1µF
CP1
740.
1µF
CP1
790.
1µF
CP1
790.
1µF
CP1
890.
1µF
CP1
890.
1µF
SamtecHTSS-115-01-L-DVCN6
SamtecHTSS-115-01-L-DVCN6
13579
1113151719
2468101214161820
2123252729
2224262830
HRSHIF3FC-30PA-2.54DSACN2
HRSHIF3FC-30PA-2.54DSACN2
13579
1113151719
2468101214161820
2123252729
2224262830
CP1
730.
1µF
CP1
730.
1µF
CP1
840.
1µF
CP1
840.
1µF
R306 0ΩR306 0Ω
CP1
850.
1µF
CP1
850.
1µF
CP1
830.
1µF
CP1
830.
1µF
HRSHIF3FC-20PA-2.54DSACN8
HRSHIF3FC-20PA-2.54DSACN8
13579
1113151719
2468101214161820
CP1
880.
1µF
CP1
880.
1µF
SamtecHTSS-117-01-L-DVCN7
SamtecHTSS-117-01-L-DVCN7
13579
1113151719
2468101214161820
2123252729
2224262830
3133
3234
CP1
750.
1µF
CP1
750.
1µF
REVISION HISTORY R7S72100 CPU board RTK772100BC00000BR User's Manual
Description Rev. Date Page Summary
0.01 Jul. 6, 2012 - First edition 0.02 Jul. 31, 2012 - Review specifications.
Correct the erroneous descriptions. 0.03 Dec. 12, 2012 - Revise the items pointed out when deciding the details.
Correct the erroneous descriptions. 0.04 Apr. 26, 2013 - Review the pin names and part structures.
Correct the erroneous descriptions. 0.05 May. 21, 2013 - Correct the erroneous descriptions. 0.06 Jun. 6, 2013 - Add a general name "GENMAI" for the board.
Correct the erroneous descriptions. 0.07 Oct. 18, 2013 - Correct the erroneous descriptions.
Update the schematics. 0.08 Dec. 19, 2013 2-36
Appendix
Figure2.10.1 Error correction (5V channel and R7S72100 power supply section were reviewed.) Update the schematics.
R7S72100 CPU board RTK772100BC00000BR User's Manual
Publication Date: Dec. 19, 2013 Rev.0.08 Published by: Renesas Electronics Corporation
http://www.renesas.comRefer to "http://www.renesas.com/" for the latest and detailed information.
Renesas Electronics America Inc.2880 Scott Boulevard Santa Clara, CA 95050-2554, U.S.A.Tel: +1-408-588-6000, Fax: +1-408-588-6130Renesas Electronics Canada Limited1101 Nicholson Road, Newmarket, Ontario L3Y 9C3, CanadaTel: +1-905-898-5441, Fax: +1-905-898-3220Renesas Electronics Europe LimitedDukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.KTel: +44-1628-651-700, Fax: +44-1628-651-804Renesas Electronics Europe GmbHArcadiastrasse 10, 40472 Düsseldorf, Germany Tel: +49-211-65030, Fax: +49-211-6503-1327 Renesas Electronics (China) Co., Ltd.7th Floor, Quantum Plaza, No.27 ZhiChunLu Haidian District, Beijing 100083, P.R.China Tel: +86-10-8235-1155, Fax: +86-10-8235-7679Renesas Electronics (Shanghai) Co., Ltd.Unit 204, 205, AZIA Center, No.1233 Lujiazui Ring Rd., Pudong District, Shanghai 200120, China Tel: +86-21-5877-1818, Fax: +86-21-6887-7858 / -7898 Renesas Electronics Hong Kong LimitedUnit 1601-1613, 16/F., Tower 2, Grand Century Place, 193 Prince Edward Road West, Mongkok, Kowloon, Hong KongTel: +852-2886-9318, Fax: +852 2886-9022/9044Renesas Electronics Taiwan Co., Ltd.13F, No. 363, Fu Shing North Road, Taipei, TaiwanTel: +886-2-8175-9600, Fax: +886 2-8175-9670Renesas Electronics Singapore Pte. Ltd. 80 Bendemeer Road, Unit #06-02 Hyflux Innovation Centre Singapore 339949Tel: +65-6213-0200, Fax: +65-6213-0300Renesas Electronics Malaysia Sdn.Bhd.Unit 906, Block B, Menara Amcorp, Amcorp Trade Centre, No. 18, Jln Persiaran Barat, 46050 Petaling Jaya, Selangor Darul Ehsan, MalaysiaTel: +60-3-7955-9390, Fax: +60-3-7955-9510Renesas Electronics Korea Co., Ltd.11F., Samik Lavied' or Bldg., 720-2 Yeoksam-Dong, Kangnam-Ku, Seoul 135-080, KoreaTel: +82-2-558-3737, Fax: +82-2-558-5141
SALES OFFICES
© 2013 Renesas Electronics Corporation. All rights reserved.©
Colophon 1.3
16R7S72100 CPU board
RTK772100BC00000BR(GENMAI)
User's Manual
R20UT2596EJ0008
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