Download R7S72100 CPU board RTK772100BC00000BR User`s Manual
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User’s Manual R7S72100 CPU board 32 RTK772100BC00000BR (GENMAI) User's Manual Renesas Microcomputer RZ/A Series 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). www.renesas.com Rev.0.08 2013.12 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; anticrime 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 majorityowned 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 User's Manual Description Document Title Describes functional specifications R7S72100 CPU board (devices, memory maps, electrical RTK772100BC00000BR characteristics), and operational User's Manual Document No. This publication specifications (connectors, and switches) 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 Application note Applications, sample programs, etc. RENESAS TECHNICAL Information regarding product UPDATE specifications, documents, etc. Document Title Document No. 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. 2. 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 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 3. 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 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 1.1 Overview 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-1 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1.2 1. Overview System Configuration Figure 1.1 shows the System Configuration using RTK772100BC00000BR. Host computer * Debugger * ICE LAN Micro SD card headphone MMC card JTAG DC12V output AC adapter (accessory) or DC12V output Stabilized power supply (over 3A) MOST * RCA R7S72100 USB LVDS R7S72100 CPU board RTK772100BC00000BR USB serial Serial port CAN TOSLINK Figure 1.1 * These items are not included. Please purchase them separately. System Configuration using RTK772100BC00000BR R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-2 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1.3 1. Overview External Specifications Table 1.1 and Table 1.2 list the RTK772100BC00000BR External Specifications. Table 1.1 RTK772100BC00000BR External Specifications (1) Item CPU Memories Description 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) • 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 Connectors • • • • • • • • • • • • • LEDs • • • R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 - Renesas R1EX24128ASAS0A 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 Power supply LED: 1 User LEDs: 2 LAN status LEDs: 3 1-3 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table 1.2 1. Overview RTK772100BC00000BR External Specifications (2) Item Switches Board specification R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Description • 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 • Dimensions: 175mm×155mm • Mounting form: 6 layered double-sided • Number of board: 1 1-4 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1.4 1. Overview Exterior Appearance Figure 1.2 shows the RTK772100BC00000BR Exterior Appearance. Figure 1.2 RTK772100BC00000BR Exterior Appearance R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-5 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview Figure 1.3 shows the RTK772100BC00000BR Block Diagram. ICE 50Ω UDI RESET NMI IRQ6 100Ω RJ-45 Pin Header (3pin) SD Card Slot PHY uPD60610 INTC MII:8 CAN Transceiver 4 75Ω DVDEC RCA×4 RCA×2 (VIN2) ETHER RSCAN LVDS R7S72100 (324BGA) ch0 USB 100Ω LVDS Output 90Ω USB×2 SDHI MMC Card Slot 4 ch1 MMC 8 MIC SSIF SSIF0 AudioCodec (WM8978) MLB MOST I/F Board HP ch2 SCIF RIIC EEPROM (16KB) SCIF2 Tx, Rx RS-232C Transceiver Dsub-9 ch2 RL78/G1C-S NAND (512MB) Serial Flash (64MB×2) Serial Flash (64MB) 8 8 4 USB Mini-B FLCTL SPIBSC SPIBSC TOSLINK (TODX) RSPDIF BSC 16bit CS0 NOR (64MB) CS1 NOR (64MB) CS2 SDRAM (64MB) CS3 SDRAM (64MB) *Memory capacity unit : Byte External Connector Bootable Figure 1.3 Optional Dedicated connector Expansion connector RTK772100BC00000BR Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-6 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1.5 1. Overview Parts Layout SW2: DIP switch for I/F setting J15: MMC card slot X8: Audio oscillator (22.5792MHz) J4: Mic-in pin jack U19: Audio CODEC J6: Lineout pin jack J3: MOST I/F connector J11: SD card slot X10: PHY oscillator (25MHz) U20: Ethernet PHY J10: LAN connector SW3: DIP switch for PHY setting J1: RCA connector for image input Figure 1.4 and Figure 1.5 show the Parts Layout of the RTK772100BC00000BR. J23: 12V power supply connector J25: 12V AC adapter jack SW4: Power switch J21, J22:UDI connectors X7: Video resonator (27MHz) X5: USB oscillator (48MHz) X1: EXTAL oscillator (13.33MHz) U1 R7S72100 J5, J7: USB connectors X2: RTC resonator (32.768kHz) X4: RTC oscillator (4MHz) J8, J9: USB connectors U4 SDRAM J19: Serial port connector (USB Mini-B) U28: USB serial conversion IC Figure 1.4 SW7: Toggle switch SW8: Test switch SW5: NMI switch SW6: IRQ6 switch U26: TOSLINK connector SW1: DIP switch for system setting X9: LCD oscillator (optional) J12, J13: CAN connectors U2: NOR flash memory SW9: Reset switch J16: LVDS backlight connector J17: Serial port connector (D-Sub9) RTK772100BC00000BR Parts Layout (Top View of Component Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-7 R7S72100 CPU board RTK772100BC00000BR (GENMAI) CN6: Expansion connector 1. Overview CN7: U9: Expansion NAND flash memory (optional) connector CN8: Expansion connector U7: Serial flash memory J14: LVDS connector U6: Serial flash memory U5 SDRAM U8: Serial flash memory U3: NOR flash memory CN9: Expansion connector CN2: Expansion connector CN1: Expansion connector CN5: Expansion connector Figure 1.5 CN4: Expansion connector CN3: Expansion connector RTK772100BC00000BR Parts Layout (Top View of Solder Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-8 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1. Overview 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 Parts U1 CPU R7S72100 (Renesas) U2, U3 NOR flash memory S29GL512S10T (Spansion) U4, U5 U6 to U8 SDRAM Serial flash memory S25FL512SDPM (Spansion) U9 NAND flash memory Optional U10 EEPROM R1EX24128ASAS0A (Renesas) U19 Audio CODEC WM8978 (Wolfson) U20 Ethernet PHY U21, U24 CAN transceiver uPD60610 (Renesas) HA13721RPJE (Renesas) U27 RS-232C transceiver MAX3222CPW (TI) U28 USB serial conversion IC U30 5V regulator RL78/G1C-S (Renesas) 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 X10 Ethernet PHY oscillator X11 USB serial conversion IS42S16320B-75 (ISSI) S34ML04G100TFI (Spansion) SG-8002DC (Epson) SG8002CA_25MHz (Epson) IC DSX321G_12MHz (KDS) resonator R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-9 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table 1.4 Part Number CN1, CN4, 1. Overview RTK772100BC00000BR Main Parts (2) Connectors Part Name Type (Manufacturer) Expansion connectors (20-pin) HIF3FC-20PA-2.54DSA (HRS) Recommended Optional Parts CN1 is optional. CN2, CN3 Expansion connectors (30-pin) HIF3FC-30PA-2.54DSA (HRS) CN3 is optional. CN6, CN9 Expansion connectors (30-pin) HTSS-115-01-L-DV (Samtec) CN5, CN8 Surface mount type CN7 Expansion connectors (34-pin) HTSS-117-01-L-DV (Samtec) Surface mount type J1 RCA connector for video input J3 MOST I/F connector T5857 (EMUDEN) 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 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 USB Mini-B J21 ETM connector (20-pin) 54819-0572 (MOLEX) FTSH-110-01 (Samtec) J22 JTAG connector (20-pin) HIF3FC-20PA-2.54DSA (HRS) ARM JTAG 20 J25 DC power jack LGP6531-0700F (SMK) J24, External power supply connectors Optional TOSLINK connector TODX2951 (Toshiba) 54819-0572 (MOLEX) CoreSight 20 A2-2PA-2.54DSA (HRS) J26 to J28 U26 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-10 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1.6 1. Overview Memory Map Figure 1.6 shows the R7S72100 Memory Map. Logical address H'0000 0000 R7S72100 logical space CS0 space: 64MB H'0400 0000 RTK772100BC00000BR memory map NOR flash memory (64MB) 16 bit bus CS1 space: 64MB NOR flash memory (64MB) 16 bit bus CS2 space: 64MB SDRAM (64MB) 16 bit bus CS3 space: 64MB SDRAM (64MB) 16 bit bus CS4 space: 64MB User area CS5 space: 64MB User area SPI multi I/O bus space 1: 64MB Serial flash memory (64MB) SPI multi I/O bus space 2: 64MB Serial flash memory (64MB) H'0800 0000 H'0C00 0000 H'1000 0000 H'1400 0000 H'1800 0000 H'1C00 0000 H'2000 0000 Large-capacity on-chip RAM (10MB) H'20A0 0000 H'4000 0000 Others: 512MB Reserved area (Unusable) CS0 to CS5 spaces, SPI multi I/O bus space (Mirror space) H'6000 0000 H'60A0 0000 Others: 2560MB (Mirror space) CS0 to CS5 spaces, SPI multi I/O bus space (Mirror space) Large-capacity on-chip RAM (10MB) (Mirror space) On-chip peripheral module, Reserved area H'FFFF FFFF Figure 1.6 R7S72100 Memory Map R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-11 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 1.7 1. Overview Absolute Maximum Ratings Table 1.5 lists the RTK772100BC00000BR Absolute Maximum Ratings. Table 1.5 RTK772100BC00000BR Absolute Maximum Ratings Symbol Item 12Vcc 5Vcc *1 Value 12V system power supply voltage -0.3V to 15V Remarks Vss reference 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 -0.3V to 4.6V AVss reference 1.18V system power supply voltage -0.3V to 1.7V Vss reference Operating ambient temperature *6 0°C to 50°C Do not expose to condensation or corrosive gases. -10°C to 60°C Do not expose to condensation or corrosive gases. voltage *5 1.18Vcc Topr Tstg Storage ambient temperature [Note] *1 *2 *3 *4 *5 *6 1.8 *6 When providing 5V system power supply directly from the external power supply connector. When providing VBUS power supply directly from the external power supply connector. When providing 3.3V system power supply directly from the external power supply connector. When providing analog 3.3V system power supply directly from the external power supply connector. When providing 1.18V system power supply directly from the external power supply connector. The ambient temperature is the air temperature immediate to the board. 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 Analog 3.3V system power supply 3.0V to 3.6V Vss reference AVcc *3 voltage 1.18Vcc *4 - 1.18V system power supply voltage Maximum consumption voltage 1.10V to 1.26V Up to 3A Vss reference Total value of 12V, 5V, 3.3V and 1.18V system power supplies Topr [Note] *1 *2 *3 *4 *5 Operating ambient temperature *5 0°C to 40°C Do not expose to condensation or corrosive gases. When providing 5V system power supply directly from the external power supply connector. When providing 3.3V system power supply directly from the external power supply connector. When providing analog 3.3V system power supply directly from the external power supply connector. When providing 1.18V system power supply directly from the external power supply connector. The ambient temperature is the air temperature immediate to the board. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1-12 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification 2.1 Functions Overview 2. Functional Specification Table2.1.1 lists the RTK772100BC00000BR Function Modules. Table2.1.1 RTK772100BC00000BR Function Modules Section 2.2 Function CPU Description • 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 z NOR flash memory: 64MB×2 ・Spansion S29GL512S10T z SDRAM: 64MB×2 ・ISSI IS42S16320B-75 z Serial flash memory: 64MB×3 ・Spansion S25FL512SDPM z NAND flash memory: Board pattern which enables to implement 512MB ・Spansion S34ML04G100TFI z EEPROM: 16KB×1 ・Renesas R1EX24128ASAS0A 2.4 USB Interface 2.5 Serial Interface • Connection between the R7S72100 USB2.0 host/function module and the USB connector. • 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 2.7 Interrupt Switches • Connection between the R7S72100 I/O ports and the LEDs and DIP switches. • Connection between the R7S72100 NMI pin, IRQ6 pin and TEST pin and the push switches. 2.8 Clocks 2.9 Reset Control 2.10 Power Supply 2.11 Debug Interface 2.12 CAN Interface • System clock configuration • Reset control for the device on the RTK772100BC00000BR • The RTK772100BC00000BR system power supply configuration • Connection between the R7S72100 user debug interface and the connectors. • Connection between the R7S72100 controller area network (RSCAN) and the CAN transceiver. 2.13 Video Input Interface 2.14 Audio Interface 2.15 SD Card Interface (4-bit) 2.16 MMC Card Interface (8-bit) 2.17 LAN Interface 2.18 LVDS Interface 2.19 TOSLINK Interface 2.20 MOST Interface - Operating specifications R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 • Connection between the R7S72100 digital video decoder and the RCA connector. • Connection between the R7S72100 and the audio CODEC (WM8978). • Connection between the R7S72100 SD host interface (SDHI) channel 0 and MMC host interface (MMCIF) and the SD card slot. • Connection between the R7S72100 SD host interface (SDHI) channel 1 and MMC host interface (MMCIF) and the MMC card slot. • Connection between the R7S72100 Ethernet controller (ETHER) and the Ethernet PHY. • Connection between the R7S72100 and the LVDS I/F connector. • Connection between the R7S72100 and the TOSLINK connector. • Connection between the R7S72100 media local bus (MLB) and the MOST I/F connector. • Connectors, switcheds and LEDs (described in Chapter 3) 2-1 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.2 2. Functional Specification 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 Pin No. R7S72100 Pin Functions (1) Pin Name A1 Vss A2 P6_4 / D4 / LCD1_DATA12 / Function D4 Description Expansion Connector Data bus CN1-15 Connected to DIPSW as a clock selection - Remarks CRx2 / IRQ3 / RTS5 / RSPCK1 / DV0_DATA20 A3 P0_3 / MD_CLKS MD_CLKS SW1-5 input A4 P11_0 / DV0_DATA12 / TIOC4A / DV0_DATA12 SCK6 / LCD0_DATA7 / VIO_D12 LCD0_DATA7 Used on option board CN9-28 P9_6 / LCD1_DATA22 / SPBIO20_0 SPBIO20_0 / SSIWS2 / RTS1 / Connected to serial flash memory 1 CN9-24 LCD1_DATA22 Used on option board P9_3 / LCD1_DATA19 / SPBSSL_0 Connected to serial flash memroy 1 and 2 SPBSSL_0 / TxD1 LCD1_DATA19 Used on option board P5_9 / WE2/DQMUL / ET_MDC / ET_MDC Connected to Ethernet PHY DV0_VSYNC / IRQ2 / CRx1 / CRx1 Connected to CAN transceiver JP4: 1-2 IERxD / LCD1_DATA16 P5_9 Used on option board JP4: Open VIO_D12 A5 CS5 A6 A7 CN9-19 JP7: Short CN9-16 JP4: 2-3 JP7: Open IERxD LCD1_DATA16 A8 Vss A9 P5_6 / TXOUT0P / TXOUT0P Connected to LCD panel for LVDS - LCD1_DATA6 / LCD0_DATA22 / LCD1_DATA6 Used on option board CN9-8 DV1_DATA6 / TxD6 / IRQ6 / DV1_DATA6 SPDIF_IN / DV0_DATA14 A10 P5_2 / TXOUT2P / TXOUT2P Connected to LCD panel for LVDS - LCD1_DATA2 / LCD0_DATA18 / LCD1_DATA2 Used on option board CN9-4 DV1_DATA2 / SCK3 / TIOC1B / DV1_DATA2 MOSI3 A11 P5_0 / TXCLKOUTP / TXCLKOUTP Connected to LCD panel for LVDS - LCD1_DATA0 / LCD0_DATA16 / LCD1_DATA0 Used on option board CN9-2 DV1_DATA0 / TxD4 / TIOC0A / DV1_DATA0 Channel 1 input pin 2 of Composit Video, - RSPCK3 A12 Vss A13 VIN2B 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 - SW1-4 input : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-2 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table 2.2.2 Pin No. A17 2. Functional Specification R7S72100 Pin Functions (2) Pin Name Function P1_6 / SCL3 / DV1_VSYNC / SCL3 IERxD / IRQ6 / VIO_D12 / DV1_VSYNC Description Expansion Connector Used on option board CN8-20 SDA1 Connected to TH7 CN8-15 SCL0 Used on option board CN8-14 P2_13 / D29 / SSL00 / SPBIO11_0 Connected to serial flash memory 2 CN8-7 DV0_DATA13 / SPBIO11_0 / LCD1_DATA13 Used on option board Remarks DV0_DATA12 A18 P1_3 / SDA1 / DV0_DATA19 / ET_COL / IRQ3 / ADTRG A19 P1_0 / SCL0 / DV0_DATA16 / TCLKA / IRQ0 / VIO_VD / DV0_VSYNC A20 CTx3 / SCK0 / LCD1_DATA13 / IRQ7 A21 P2_12 / D28 / RSPCK0 / SPBIO01_0 Connected to serial flash memory 2 DV0_DATA12 / SPBIO01_0 / LCD1_DATA12 Used on option board D0 Data bus CN1-20 P11_2 / DV0_DATA14 / TIOC4C / DV0_DATA14 Used on option board CN9-30 RxD6 / LCD0_DATA5 / VIO_D14 LCD0_DATA5 CN9-23 CN8-8 CRx3 / IRQ6 / LCD1_DATA12 / TIOC1B A22 Vss B1 Vcc B2 Vss B3 P6_0 / D0 / LCD1_DATA8 / LRXD0 / DV0_CLK / TIOC1A / IRQ5 / RxD3 / DV0_DATA16 B4 VIO_D14 B5 P9_7 / LCD1_DATA23 / SPBIO30_0 Connected to serial flash memory 1 SPBIO30_0 / SSIDATA2 / LCD1_DATA23 Used on option board TIOC1A B6 B7 P9_4 / LCD1_DATA20 / SPBIO00_0 Connected to serial flash memory 1 SPBIO00_0 / RxD1 LCD1_DATA20 Used on option board P5_10 / WE3/DQMUU/AH / P5_10 Connected to TH3 DV0_HSYNC / CTx1 / IETxD / CTx1 Connected to CAN transceiver LCD1_DATA17 IETxD Used on option board CN9-22 CN9-15 LCD1_DATA17 B8 B9 P5_8 / LCD0_EXTCLK / IRQ0 / CS2 Connected to CS pin of SDRAM 2 DV1_CLK / DV0_CLK / CS2 CN9-11 LCD0_EXTCLK Used on option board P5_7 / TXOUT0M / TXOUT0M Connected to LCD panel for LVDS - LCD1_DATA7 / LCD0_DATA23 / LCD1_DATA7 Used on option board CN9-7 DV1_DATA7 / RxD6 / TIOC0D / DV1_DATA7 SPDIF_OUT / DV0_DATA15 B10 P5_3 / TXOUT2M / TXOUT2M Connected to LCD panel for LVDS - LCD1_DATA3 / LCD0_DATA19 / LCD1_DATA3 Used on option board CN9-3 DV1_DATA3 / TxD3 / TIOC3C / DV1_DATA3 MISO3 B11 P5_1 / TXCLKOUTM / TXCLKOUTM Connected to LCD panel for LVDS - LCD1_DATA1 / LCD0_DATA17 / LCD1_DATA1 Used on option board CN9-1 DV1_DATA1 / RxD4 / TIOC0B / DV1_DATA1 Channel 1 input pin 1 of Composit Video, - SSL30 B12 Vss B13 VIN1B Blanking, and Sync (CVBS) B14 VDAVcc : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-3 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table 2.2.3 Pin No. B15 2. Functional Specification R7S72100 Pin Functions (3) Pin Name Function VIN1A Description Channel 0 input pin 1 of Composit Video, Expansion Connector Remarks - Blanking, and Sync (CVBS) B16 P1_7 / SDA3 / DV1_HSYNC / SDA3 LRXD0 / IRQ7 / VIO_D13 / DV1_HSYNC Used on option board CN8-19 Connected to EEPROM CN8-18 DV0_DATA13 B17 P1_4 / SCL2 / DV0_CLK / CRx1 / SCL2 IRQ4 / CAN_CLK B18 B19 Used on option board P1_2 / SCL1 / DV0_DATA18 / SCL1 Connected to TH6 FRB / IRQ2 / LCD1_EXTCLK FRB Connected to NAND flash memory P2_15 / D31 / MISO0 / SPBIO31_0 Connected to serial flash memory 2 DV0_DATA15 / SPBIO31_0 / LCD1_DATA15 Used on option board CN8-16 CN8-9 CAN_CLK / RxD0 / LCD1_DATA15 / IRQ1 B20 PVcc B21 Vss B22 P2_10 / D26 / ET_RXD2 / ET_RXD2 Connected to Ethernet PHY - SW2-1: ON DV0_DATA10 / SSIRxD0 / LTXD0 Used on option board CN7-34 SW2-1: OFF LTXD0 / LCD1_DATA10 / LCD1_DATA10 D5 Data bus CN1-14 D2 Data bus CN1-18 Used on option board CN9-29 Used on option board CN9-27 CN9-21 VIO_D10/MOSI4 C1 P6_5 / D5 / LCD1_DATA13 / CTx2 / SCK5 / SSL10 / DV0_DATA21 C2 Vcc C3 Vss C4 P6_2 / D2 / LCD1_DATA10 / LRXD1 / IRQ7 / TCLKA / TIOC2A / RxD2 / DV0_DATA18 C5 P11_3 / DV0_DATA15 / TIOC4D / DV0_DATA15 LCD0_DATA4 / VIO_D15 LCD0_DATA4 P11_1 / DV0_DATA13 / TIOC4B / DV0_DATA13 TxD6 / LCD0_DATA6 / VIO_D13 LCD0_DATA6 VIO_D15 C6 VIO_D13 C7 P9_5 / LCD1_DATA21 / SPBIO10_0 Connected to serial flash memory 1 SPBIO10_0 / SSISCK2 / CTS1 / LCD1_DATA21 Used on option board P9_2 / LCD1_DATA18 / SPBCLK_0 Connected to serial flash memroy 1 and 2 SPBCLK_0 / LTXD0 / SCK1 / A0 LCD1_DATA18 Used on option board CS4 C8 CN9-20 C9 Vss C10 P5_5 / TXOUT1M / TXOUT1M Connected to LCD panel for LVDS - LCD1_DATA5 / LCD0_DATA21 / FCE Connected to NAND flash memory CN9-5 TIOC0C / FCE / DV0_DATA13 LCD1_DATA5 Used on option board P5_4 / TXOUT1P / TXOUT1P Connected to LCD panel for LVDS - LCD1_DATA4 / LCD0_DATA20 / LCD1_DATA4 Used on option board CN9-6 DV1_DATA4 / RxD3 / TIOC3D / DV1_DATA4 A/D converter BOTTOM reference voltage - DV1_DATA5 / AUDIO_XOUT / R110: Mounted DV1_DATA5 C11 DV0_DATA12 C12 LVDSAPVcc C13 VRM pin for video signal input : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-4 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table 2.2.4 Pin No. C14 2. Functional Specification R7S72100 Pin Functions (4) Pin Name Function REXT Description A/D converter reference voltage pin for Expansion Connector - Remarks 22k Ω±1% video signal input C15 C16 Vss P1_5 / SDA2 / DV1_CLK / CRx4 / SDA2 IRQ5 / VIO_CLK / C17 Connected to EEPROM CN8-17 Used on option board LCD1_EXTCLK DV1_CLK P1_1 / SDA0 / DV0_DATA17 / SDA0 Used on option board CN8-13 CN8-10 TCLKC / IRQ1 / VIO_HD / DV0_HSYNC C18 P2_14 / D30 / MOSI0 / SPBIO21_0 Connected to serial flash memory 2 DV0_DATA14 / SPBIO21_0 / LCD1_DATA14 Used on option board CRx4 / TxD0 / LCD1_DATA14 / IRQ0 C19 PVcc C20 Vss C21 C22 P2_9 / D25 / ET_RXD1 / ET_RXD1 Connected to Ethernet PHY - SW2-1: ON DV0_DATA9 / SSIWS0 / LRXD0 / LRXD0 Used on option board CN7-31 SW2-1: OFF LCD1_DATA9 / VIO_D9 / SSL40 LCD1_DATA9 P2_7 / D23 / ET_TXD3 / ET_TXD3 Connected to Ethernet PHY - SW2-1: ON DV0_DATA7 / SSITxD5 / SSITxD5 Used on option board CN7-29 SW2-1: OFF D7 Data bus CN1-12 D6 Data bus CN1-13 D3 Data bus CN1-17 D1 Data bus CN1-19 IETxD/RTS1 / VIO_D7 / LCD0_DATA23 D1 P6_7 / D7 / LCD1_DATA15 / LCD0_TCON6 / RxD5 / MISO1 / DV0_DATA23 D2 P6_6 / D6 / LCD1_DATA14 / LCD0_TCON5 / TxD5 / MOSI1 / DV0_DATA22 D3 Vcc D4 Vss D5 P6_3 / D3 / LCD1_DATA11 / LTXD1 / IRQ2 / CTS5 / TIOC2B / TxD2 / DV0_DATA19 D6 P6_1 / D1 / LCD1_DATA9 / LTXD0 / IRQ4 / TIOC1B / SSIDATA4 / TxD3 / DV0_DATA17 D7 PVcc D8 PVcc D9 LVDSPLLVcc D10 Vss D11 LVDSREFRIN D12 LVDSAPVcc D13 Vcc D14 VRP - A/D converter TOP reference voltage pin 5.6k Ω±1% - for video signal input D15 Vss D16 PVcc D17 PVcc D18 PVcc D19 Vss : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-5 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.5 Pin No. D20 2. Functional Specification R7S72100 Pin Functions (5) Pin Name Function Description Expansion Connector Remarks P2_8 / D24 / ET_RXD0 / ET_RXD0 Connected to Ethernet PHY - SW2-1: ON DV0_DATA8 /SSISCK0 / LCD1_DATA8 Used on option board CN7-32 SW2-1: OFF Used on option board CN7-11 Used on option board CN7-12 LCD0_TCON6 / LCD1_DATA8 / VIO_D8 / RSPCK4 D21 D22 E1 P10_15 / DV0_DATA11 / DV0_DATA11 SSITxD1 / MISO0 / LCD0_DATA8 LCD0_DATA8 / VIO_D11 VIO_D11 P10_14 / DV0_DATA10 / DV0_DATA10 SSIRxD1 / MOSI0 / LCD0_DATA9 LCD0_DATA9 / VIO_D10 VIO_D10 P6_10 / D10 / DV0_DATA14 / D10 Data bus CN1-8 D9 Data bus CN1-9 D8 Data bus CN1-10 LCD0_TCON5 / RxD0 / LCD0_DATA2 / IRQ2 E2 P6_9 / D9 / DV0_DATA13 / TxD0 / LCD0_DATA1 / IRQ1 E3 P6_8 / D8 / DV0_DATA12 / CAN_CLK / SCK0 / LCD0_DATA0 / IRQ0 E4 Vcc E19 P2_11 / D27 / ET_RXD3 / ET_RXD3 Connected to Ethernet PHY - SW2-1: ON DV0_DATA11 /SSITxD0 / P2_11 Used on option board CN7-33 SW2-1: OFF TIOC1A / LCD1_DATA11 / LCD1_DATA11 VIO_D11 / MISO4 E20 P2_6 / D22 / ET_TXD2 / ET_TXD2 Connected to Ethernet PHY - SW2-1: ON DV0_DATA6 / SSIRxD5 / RxD1 / SSIRxD5 Used on option board CN7-30 SW2-1: OFF P10_12 / DV0_DATA8 / DV0_DATA8 Used on option board CN7-10 SSISCK1 / RSPCK0 / LCD0_DATA11 VIO_D6 / LCD0_DATA22 E21 E22 LCD0_DATA11 / VIO_D8 VIO_D8 P2_5 / D21 / ET_TXD1 / ET_TXD1 Connected to Ethernet PHY - SW2-1: ON DV0_DATA5 / SSIWS5 / SSIWS5 Used on option board CN7-27 SW2-1: OFF D14 Data bus CN1-3 D13 Data bus CN1-4 D11 Data bus CN1-7 SPBSSL_1 / TxD1 / VIO_D5 / LCD0_DATA21 F1 P6_14 / D14 / DV0_DATA22 / TxD6 / LCD0_DATA6 / IRQ6 F2 P6_13 / D13 / DV0_DATA21 / SCK6 / RXD1 / LCD0_DATA5 / IRQ5 F3 P6_11 / D11 / DV0_DATA15 / LCD0_TCON6 / SCK1 / LCD0_DATA3 / IRQ3 F4 F19 Vcc P2_4 / D20 / ET_TXD0 / ET_TXD0 Connected to Ethernet PHY - SW2-1: ON DV0_DATA4 / SSISCK5 / SSISCK5 Used on option board CN7-28 SW2-1: OFF Used on option board CN7-9 SPBCLK_1 / SCK1 / VIO_D4 / LCD0_DATA20 F20 P10_13 / DV0_DATA9 / DV0_DATA9 SSIWS1 / SSL00 / LCD0_DATA10 LCD0_DATA10 / VIO_D9 VIO_D9 : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND, 2-6 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.6 Pin No. F21 2. Functional Specification R7S72100 Pin Functions (6) Pin Name Function Expansion Connector Description Remarks P2_2 / D18 / ET_TXEN / ET_TXEN Connected to Ethernet PHY - SW2-1: ON DV0_DATA2 / SPBIO20_1 / MLB_SIG Connected to MOST I/F connector CN7-26 SW2-1: OFF CN7-19 MLB_SIG / TIOC2B / VIO_D2 / LCD0_DATA18 F22 P4_15 / LCD0_DATA23 / SD_D2_0 Connected to SD card slot DAT2 pin LCD1_TCON2 / SD_D2_0 / LCD1_TCON2 Used on option board MMC_D2 / SPBIO31_1 / SSITxD3 SSITxD3 / RxD2 / IRQ7 G1 P11_13 / CTx1 / SSL10 / LCD0_TCON1 Used on option board CN2-19 LCD0_TCON2 Used on option board CN2-20 D15 Data bus CN1-2 D12 Data bus CN1-5 P4_14 / LCD0_DATA22 / SD_D3_0 Connected to SD card slot CN7-20 LCD1_TCON1 / SD_D3_0 / LCD1_TCON1 Used on option board LCD0_TCON4 / MMC_D5 / LCD0_TCON1 G2 P11_12 / CRx1 / RSPCK1 / IRQ3 / MMC_D4 / LCD0_TCON2 G3 P6_15 / D15 / DV0_DATA23 / RxD6 / LCD0_DATA7 / IRQ7 G4 P6_12 / D12 / DV0_DATA20 / TXD1 / LCD0_DATA4 / IRQ4 G19 MMC_D3 / SPBIO21_1 / SSIRxD3 / TxD2 / IRQ6 G20 P2_3 / D19 / ET_CRS / ET_CRS Connected to Ethernet PHY DV0_DATA3 / SPBIO30_1 / P2_3 Connected IERxD / CTS1 / VIO_D3 / to MOST I/F connector - SW2-1: ON CN7-25 SW2-1: OFF (resetcontrol) LCD0_DATA19 G21 P4_13 / LCD0_DATA21 / SD_CMD_0 Connected to SD card slot LCD1_TCON0 / SD_CMD_0 / LCD1_TCON0 Used on option board MMC_CMD / SPBIO11_1 / SSIWS3 CN7-17 SSIWS3 / RxD1 / IRQ5 G22 H1 Vss P7_2 / RAS / DV0_DATA18 / RAS Connected to SDRAM 1 and 2 ET_TXER / RXD4 / CRx2 / CN2-28 CRx2 Connected to CAN transceiver CS3 Connected to SDRAM 2 CN2-29 LCD0_TCON0 Used on option board CN2-18 MD_BOOT2 Connected to DIPSW as a boot mode input CN2-30 SCK4 / LTXD0 / TIOC0A CS0 Connected to NOR flash memroy 1 P4_11 / LCD0_DATA19 / SD_D0_0 Connected to SD card slot LCD1_TCON6 / SD_D0_0 / LCD1_TCON6 Used on option board Used on option board CN7-7 Used on option board CN7-8 JP1: Open JP1: Short SSIWS1 / TIOC0C H2 P7_1 / CS3 / DV0_DATA17 / ET_TXCLK / TXD4 / DV0_CLK / SSISCK1 / TIOC0B H3 P11_14 / SPDIF_IN / MOSI1 / LCD0_TCON5 / MMC_D6 / LCD0_TCON0 H4 P7_0 / MD_BOOT2 / CS0 / DV0_DATA16 / ET_MDC / H19 SW1-3 JP5: 1-2 JP5: 2-3 CN7-15 MMC_D0 / SSITxD5 / CTx4 / SCK1 / IRQ3 H20 H21 P10_11 / DV0_DATA7 / TIOC2B / DV0_DATA7 ET_RXD3 / LCD0_DATA12 / LCD0_DATA12 VIO_D7 VIO_D7 P10_10 / DV0_DATA6 / TIOC2A / DV0_DATA6 ET_RXD2 / LCD0_DATA13 / LCD0_DATA13 VIO_D6 VIO_D6 : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-7 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.7 Pin No. H22 2. Functional Specification R7S72100 Pin Functions (7) Pin Name Function Description P4_12 / LCD0_DATA20 / SD_CLK_0 Connected to SD card slot LCD1_CLK / SD_CLK_0 / LCD1_CLK Used on option board MMC_CLK / SPBIO10_1 / SSISCK3 Expansion Connector Remarks CN7-18 SSISCK3 / TxD1 / IRQ4 J1 P7_5 / RD/WR / DV0_DATA21 / RD/WR Connected to SDRAM 1 and 2 ET_TXD1 / RXD7 / SSISCK2 / RxD7 Used on option board CN2-25 P7_4 / CKE / DV0_DATA20 / CKE Connected to SDRAM 1 and 2 ET_TXD0 / TXD7 / SSITxD1 / TxD7 Used on option board P7_3 / CAS / DV0_DATA19 / CAS Connected to SDRAM 1 and 2 ET_TXEN / SCK7 / CTx2 / CTx2 Connected to CAN transceiver LCD0_CLK Used on option board CN2-17 Used on option board CN7-5 Used on option board CN7-6 CN7-16 TIOC1B J2 CN2-26 TIOC1A J3 CN2-27 SSIRxD1 / TIOC0D J4 P11_15 / SPDIF_OUT / MISO1 / IRQ1 / MMC_D7 / LCD0_CLK J9 Vss J10 Vss J11 Vss J12 Vss J13 Vss J14 Vss J19 Vcc J20 P10_9 / DV0_DATA5 / TIOC1B / DV0_DATA5 ET_RXD1 / LCD0_DATA14 / LCD0_DATA14 J21 J22 VIO_D5 VIO_D5 P10_8 / DV0_DATA4 / TIOC1A / DV0_DATA4 ET_RXD0 / LCD0_DATA15 / LCD0_DATA15 VIO_D4 VIO_D4 P4_10 / LCD0_DATA18 / SD_D1_0 Connected to SD card slot LCD1_TCON5 / SD_D1_0 / LCD1_TCON5 Used on option board A1 Address bus CN3-30 WE1/DQMLU Connected to SDRAM 1 and 2 CN2-23 MMC_D1 / SSIRxD5 / RxD0 / IRQ2 K1 P7_9 / A1 / SSIWS3 / ET_RXD0 / CTx0 / TIOC3B / IRQ0 K2 P7_7 / WE1/DQMLU / DV0_DATA23 / ET_TXD3 / K3 Connected to NOR flash memory 1 and 2 RTS7 / SSIDATA2 / TIOC2B RTS7 Used on option board P7_6 / WE0/DQMLL / WE0/DQMLL Connected to SDRAM 1 and 2 DV0_DATA22 / ET_TXD2 / CTS7 Used on option board CN2-24 CTS7 / SSIWS2 / TIOC2A K4 P7_8 / RD / SSISCK3 / CRx0 / RD Connected to NOR flash memory 1 and 2 TIOC3A / IRQ1 P7_8 Used on option board K9 Vss K10 Vss K11 Vss K12 Vss K13 Vss K14 Vss K19 Vcc : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, CN2-22 : GND 2-8 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.8 Pin No. K20 2. Functional Specification R7S72100 Pin Functions (8) Pin Name Function Description P4_8 / LCD0_DATA16 / SD_CD_0 Connected to SD card slot LCD1_TCON3 / SD_CD_0 / LCD1_TCON3 Used on option board P4_9 / LCD0_DATA17 / SD_WP_0 Connected to SD card slot LCD1_TCON4 / SD_WP_0 / LCD1_TCON4 Used on option board Expansion Connector Remarks CN7-14 MMC_CD / SSISCK5 / CTx2 / SCK0 / IRQ0 K21 CN7-13 SSIWS5 / CRx2 / TxD0 / IRQ1 K22 P2_1 / D17 / ET_TXER / ET_TXER Connected to Ethernet PHY - SW2-1: ON DV0_DATA1 / SPBIO10_1 / MLB_DAT Connected to MOST I/F connector CN7-23 SW2-1: OFF P11_5 / DV0_DATA17 / DV0_DATA17 Used on option board CN2-13 SD_WP_0 / SSIWS4 / SSIWS4 LCD0_DATA2 LCD0_DATA2 P7_11 / A3 / SSITxD3 / A3 Address bus CN3-28 A2 Address bus CN3-29 Used on option board CN2-14 Connected to audio CODEC (WM8978) - SW2-2: ON CN6-29 SW2-2: OFF MLB_DAT / TIOC2A / VIO_D1 / LCD0_DATA17 L1 L2 ET_RXD2 / CRx1 / TIOC3D / IRQ3 L3 P7_10 / A2 / SSIRxD3 / ET_RXD1 / CTx1 / TIOC3C / IRQ2 L4 P11_4 / DV0_DATA16 / DV0_DATA16 SD_CD_0 / SSISCK4 / SSISCK4 MMC_CD / LCD0_DATA3 LCD0_DATA3 L9 Vss L10 Vss L11 Vss L12 Vss L13 Vss L14 Vss L19 PVcc L20 P4_7 / LCD0_DATA15 / MISO1 / SSITxD0 TIOC4D / PWM2H / SSITxD0 / DV0_DATA15 L21 P2_0 / D16 / ET_TXCLK / ET_TXCLK Connected to Ethernet PHY - SW2-1: ON DV0_DATA0 / SPBIO00_1 / MLB_CLK Connected to MOST I/F connector CN7-24 SW2-1: OFF SSIRxD0 Connected to audio CODEC (WM8978) - SW2-2: ON CN6-30 SW2-2: OFF MLB_CLK / IRQ5 / VIO_D0 / LCD0_DATA16 L22 P4_6 / LCD0_DATA14 / MOSI1 / TIOC4C / PWM2G / SSIRxD0 / DV0_DATA14 M1 P7_12 / A4 / SSISCK4 / A4 Address bus CN3-27 P11_6 / DV0_DATA18 / DV0_DATA18 Used on option board CN2-12 SD_D1_0 / SSIDATA4 / SSIDATA4 Used on option board CN2-11 ET_RXD3 / TIOC4A / IRQ4 M2 M3 MMC_D1 / LCD0_DATA1 LCD0_DATA1 P11_7 / DV0_DATA19 / DV0_DATA19 SD_D0_0 / CTS5 / MMC_D0 / LCD0_DATA0 LCD0_DATA0 M4 Vcc M9 Vss M10 Vss M11 Vss : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-9 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.9 2. Functional Specification R7S72100 Pin Functions (9) Pin No. Pin Name M12 Vss M13 Vss M14 Vss M19 PVcc M20 P4_5 / LCD0_DATA13 / SSL10 / Function SSIWS0 Description Connected to audio CODEC (WM8978) TIOC4B / PWM2F / SSIWS0 / Expansion Connector Remarks - SW2-2: ON CN6-27 SW2-2: OFF - SW2-2: ON CN6-28 SW2-2: OFF DV0_DATA13 M21 P4_4 / LCD0_DATA12 / SSISCK0 Connected to audio CODEC (WM8978) RSPCK1 / TIOC4A / PWM2E / SSISCK0 / DV0_DATA12 M22 N1 P10_7 / DV0_DATA3 / TIOC0D / DV0_DATA3 PWM2H / ET_TXD3 / LCD0_DATA16 Used on option board CN6-23 LCD0_DATA16 / VIO_D3 VIO_D3 P7_13 / A5 / SSIWS4 / A5 Address bus CN3-26 A6 Address bus CN3-25 A7 Address bus CN3-24 P10_4 / DV0_DATA0 / TIOC0A / DV0_DATA0 Used on option board CN6-22 PWM2E / ET_TXD0 / LCD0_DATA19 Used on option board CN6-21 Used on option board CN6-24 CN6-17 ET_MDIO / TIOC4B / IRQ5 N2 P7_14 / A6 / SSIDATA4 / ET_CRS / TIOC4C / IRQ6 N3 P7_15 / A7 / RSPCK0 / ET_RXCLK / CTS5 / SCI_TXD0 / TIOC4D N4 PVcc N9 Vss N10 Vss N11 Vss N12 Vss N13 Vss N14 Vss N19 N20 N21 N22 LCD0_DATA19 / VIO_D0 VIO_D0 P10_5 / DV0_DATA1 / TIOC0B / DV0_DATA1 PWM2F / ET_TXD1 / LCD0_DATA18 LCD0_DATA18 / VIO_D1 VIO_D1 P10_6 / DV0_DATA2 / TIOC0C / DV0_DATA2 PWM2G / ET_TXD2 / LCD0_DATA17 LCD0_DATA17 / VIO_D2 VIO_D2 P4_3 / LCD0_DATA11 / TIOC0D / FWE Connected to NAND flash memory FWE / CTx3 / RxD2 / MISO4 / MMC_D7 Connected to MMC card slot MMC_D7 MISO4 Connected to audio CODEC (WM8978) P8_0 / A8 / SSL00 / ET_RXER / A8 Address bus CN3-23 A9 Address bus CN3-21 A10 Address bus CN3-20 Used on option board P1 SCK5 / SCI_SCK0 P2 P8_1 / A9 / MOSI0 / ET_RXDV / TXD5 / SCI_RXD0 P3 P8_2 / A10 / MISO0 / RXD5 / IRQ0 P4 PVcc P9 Vss P10 Vss P11 Vss P12 Vss P13 Vss : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-10 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.10 R7S72100 Pin Functions (10) Pin No. P14 2. Functional Specification Pin Name Function Description Expansion Connector Remarks Vss P19 Vss P20 P4_0 / LCD0_DATA8 / TIOC0A / FRE Connected to NAND flash memory FRE / RSPCK4 / MMC_D4 MMC_D4 Connected to MMC card slot RSPCK4 Connected to audio CODEC (WM8978) P4_2 / LCD0_DATA10 / TIOC0C / FALE Connected to NAND flash memory FALE / CRx3 / TxD2 / MOSI4 / MMC_D6 Connected to MMC card slot MMC_D6 MOSI4 Connected to audio CODEC (WM8978) P4_1 / LCD0_DATA9 / TIOC0B / FCLE Connected to NAND flash memory FCLE / SCK2 / SSL40 / MMC_D5 MMC_D5 Connected to MMC card slot SSL40 Connected to audio CODEC (WM8978) P8_3 / A11 / DV1_DATA0 / A11 Address bus CN3-19 A12 Address bus CN3-18 A13 Address bus CN3-17 CN6-11 CN6-16 Used on option board P21 CN6-18 Used on option board P22 R1 CN6-15 JP10: Open JP10: Short RSPCK2 / RTS5 / IRQ1 / SCK2 R2 P8_4 / A12 / DV1_DATA1 / SSL20 / IERxD / RxD2 R3 P8_5 / A13 / DV1_DATA2 / MOSI2 R4 Vcc R19 Vcc R20 R21 P3_15 / LCD0_DATA7 / NAF7 / NAF7 Connected to NAND flash memory TRACECTL / SD_D2_1 / SD_D2_1 Connected to MMC card slot MMC_D2 MMC_D2 P3_14 / LCD0_DATA6 / NAF6 / NAF6 Connected to NAND flash memory TRACECLK / SD_D3_1 / SD_D3_1 Connected to MMC card slot MMC_D3 MMC_D3 P3_13 / LCD0_DATA5 / NAF5 / NAF5 Connected to NAND flash memory AUDIO_XOUT / SD_CMD_1 / SD_CMD_1 Connected to MMC card slot TRACECLK R22 T1 MMC_CMD MMC_CMD P11_8 / DV0_DATA20 / DV0_DATA20 SD_CLK_0 / RTS5 / MMC_CLK / LCD0_TCON6 CN6-12 Connected to UDI connector CN6-9 Used on option board CN2-8 Used on option board CN2-7 Used on option board CN2-6 CN6-4 LCD0_TCON6 T2 P11_9 / DV0_DATA21 / DV0_DATA21 SD_CMD_0 / SCK5 / LCD0_TCON5 MMC_CMD / LCD0_TCON5 T3 P11_10 / DV0_DATA22 / DV0_DATA22 SD_D3_0 / TxD5 / MMC_D3 / LCD0_TCON4 LCD0_TCON4 T4 Vcc T19 Vcc T20 P3_10 / LCD0_DATA2 / NAF2 / NAF2 Connected to NAND flash memory TRACEDATA2 / TIOC4C / SD_D1_1 Connected to MMC card slot SD_D1_1 / MMC_D1 MMC_D1 TRACEDATA2 T21 Connected to UDI connector P3_11 / LCD0_DATA3 / NAF3 / NAF3 Connected to NAND flash memory TRACEDATA3 / TIOC4D / SD_D0_1 Connected to MMC card slot SD_D0_1 / MMC_D MMC_D0 TRACEDATA3 : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 CN6-3 Connected to UDI connector : 1.18V system power supply, : GND 2-11 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.11 R7S72100 Pin Functions (11) Pin No. T22 2. Functional Specification Pin Name Function Description P3_12 / LCD0_DATA4 / NAF4 / NAF4 Connected to NAND flash memory SD_CLK_1 / MMC_CLK SD_CLK_1 Connected to MMC card slot Expansion Connector Remarks CN6-10 MMC_CLK U1 U2 Vss P8_6 / A14 / DV1_DATA3 / A14 Address bus CN3-16 P11_11 / DV0_DATA23 / DV0_DATA23 Used on option board CN2-5 SD_D2_0 / RxD5 / MMC_D2 / LCD0_TCON3 A15 Address bus CN3-15 TD0 Test data output - Test clock - Connected to SDRAM 1 and 2 CN2-2 CN3-14 MISO2 / IETxD / TxD2 U3 LCD0_TCON3 U4 P8_7 / A15 / DV1_DATA4 / AUDIO_XOUT / IRQ5 / ET_COL U19 Vcc U20 JP0_1 / TDO U21 TCK U22 Vss V1 CKIO V2 P8_8 / A16 / DV1_DATA5 / A16 Address bus SPBIO00_1 / SPDIF_IN / SPDIF_IN Connected to TOSLINK connector P8_9 / A17 / DV1_DATA6 / A17 Address bus SPBIO10_1 / SPDIF_OUT / SPDIF_OUT Connected to TOSLINK connector JP2: 1-2 JP2: 2-3 TIOC1A / PWM1A / TxD3 / SSISCK5 V3 CN3-12 TIOC1B / PWM1B / RxD3 / SSIWS5 V4 P8_13 / A21 / SPBSSL_1 / A21 Address bus TIOC3D / TXD5 / PWM1F / SPBSSL_1 Connected to serial flash memory 3 CN3-8 JP8: Open JP8: Short SGOUT_3 / SSIWS4 V19 P3_8 / LCD0_DATA0 / NAF0 / NAF0 Connected to NAND flash memory TRACEDATA0 / TIOC4A / SD_CD_1 Connected to MMC card slot SD_CD_1 / MMC_CD MMC_CD TRACEDATA0 V20 TRST# V21 JP0_0 / TDI V22 TMS TDI CN6-2 Connected to UDI connector Initialization signal input pin - Test data input - Test mode select CN3-11 W1 Vss W2 P8_10 / A18 / DV1_DATA7 / A18 Address bus SPBIO20_1 / TIOC3A / CTx4 / SPBIO20_1 Connected to serial flash memory 3 P8_11 / A19 / SPBIO30_1 / A19 Address bus TIOC3B / RxD5 / PWM1D / SPBIO30_1 Connected to serial flash memory 3 PWM1C / SGOUT_0 / SSITxD5 W3 CN3-10 SGOUT_1 / DV0_CLK 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, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-12 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.12 2. Functional Specification R7S72100 Pin Functions (12) Pin No. Pin Name Function Description Expansion Connector W15 Vss W16 Vss W17 AVss CN5-13, 14 W18 AVcc CN5-9, 10 W19 PVcc W20 P3_9 / LCD0_DATA1 / NAF1 / NAF1 Connected to NAND flash memory TRACEDATA1 / TIOC4B / SD_WP_1 Connected to MMC card slot SD_WP_1 / IRQ6 TRACEDATA1 CN6-1 Connected to UDI connector W21 AUDIO_X2 Open - W22 AUDIO_X1 Connected to audio external clock CN3-9 Y1 Remarks bus 22.5792MHz P8_12 / A20 / SPBCLK_1 / A20 Address TIOC3C / SCK5 / PWM1E / SPBCLK_1 Connected to serial flash memory 3 P8_14 / A22 / SPBIO01_0 / A22 Address bus SPBIO00_1 / TIOC2A / RSPCK2 / SPBIO01_0 Connected to serial flash memory 3 LCD1_EXTCLK Connected to external clock for LCD panel CS1 Connected to NOR flash memory 2 P3_4 / LCD0_TCON3 / ET_RXCLK Connected to Ethernet PHY - SW2-1: ON ET_RXCLK / SSISCK1 / SSISCK1 Used on option board CN4-12 SW2-1: OFF AUDIO_XOUT2 / SCI_SCK0 / SCI_SCK0 Used on option board CN4-18 Connected to D-sub 9-pin connector via CN4-8 SGOUT_2 / SSISCK4 Y2 CN3-7 PWM1G / TxD4 / SSIDATA4 Y3 PVcc Y4 P3_7 / LCD0_TCON6 / SSITxD1 / CN4-13 SCI_CTS0/RTS0 / TIOC3D / Empty socket JP6: 1-2 LCD1_EXTCLK / JP6: 2-3 CS1 / WDTOVF Y5 Y6 Y7 TIOC3A / SCK3 SCK3 P10_2 / DV0_HSYNC / TCLKC / DV0_HSYNC PWM2C / ET_TXEN / LCD0_DATA21 LCD0_DATA21 / VIO_HD VIO_HD P3_2 / LCD0_TCON1 / RxD2 ET_TXEN / RxD2 / SCI_RXD1 / RS-232C transceiver TEND0 / PWM2C / MOSI3 Connected to USB mini-B connector via JP12: 1-2 JP12: 2-3 USB serial conversion IC Y8 RES# Connected to reset input switch CN4-2 Y9 NMI Connected to non-maskable interrupt CN4-1 switch Y10 Vss Y11 VBUSIN1 USB channel 1VBUS input - JP11 CN5-17, 18 JP9 Y12 VBUSIN0 USB channel 0VBUS input 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 P1_13 / AN5 / DV0_HSYNC / P1_13 Used on option board CN5-11 P1_15 Connected to Ethernet PHY (INT / GPIO4) CN5-7 Y18 WAIT Y19 P1_15 / AN7 Y20 PVcc Y21 VIDEO_X2 Open - Y22 VIDEO_X1 Connects external clock for video decoder - AA1 P8_15 / A23 / SPBIO11_0 / A23 Address bus CN3-6 SPBIO10_1 / TIOC2B / SSL20 / SPBIO11_0 Connected to serial flash memory 3 27MHz PWM1H / RxD4 AA2 PVcc : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-13 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.13 Pin No. AA3 2. Functional Specification R7S72100 Pin Functions (13) Pin Name Function P9_1 / A25 / SPBIO31_0 / CRx0 / Description Expansion Connector Remarks A25 Address bus CN3-3 P3_5 / LCD0_TCON4 / ET_RXER Connected to Ethernet PHY - SW2-1: ON ET_RXER / SSIWS1 / SSIWS1 Used on option board CN4-11 SW2-1: OFF AUDIO_XOUT3 / SCI_TXD0 / SCI_TXD0 TIOC3B / TxD3 TxD3 P10_1 / DV0_VSYNC / TCLKB / DV0_VSYNC Used on option board CN4-19 PWM2B / ET_TXER / LCD0_DATA22 LCD0_DATA22 / VIO_VD VIO_VD IRQ0 / MISO2 AA4 AA5 AA6 P3_3 / LCD0_TCON2 / ET_MDIO Connected to Ethernet PHY - SW2-1: ON ET_MDIO / IRQ4 / BS / P3_3 Used on option board CN4-7 SW2-1: OFF IRQ6 Connected to interrupt switch - JP3: 1-2 Used on option board CN4-5 JP3: 2-3 Connects RTC resonator - 32.768KHz Open - SCI_CTS1 / RTS1 / DACK0 / PWM2D / MISO3 AA7 P3_1 / LCD0_TCON0 / ET_TXER / IRQ6 / TxD2 / SCI_TXD1 / AUDIO_CLK / AUDIO_CLK PWM2B / SSL30 AA8 RTC_X2 AA9 P0_5 / RTC_X4 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 - AA14 Vss AA15 USB_X2 Open - AA16 XTAL Open - AA17 P1_8 / AN0 / IRQ2 / DREQ0 / AN0 Used on option board CN5-20 RTC_X4 5.6k Ω±1% VIO_D14 / DV0_DATA14 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 AA21 PVcc AA22 BSCANP CN5-9, 10 Connected to DIPSW as a pin for boundary - SW2-3 scan mode setting AB1 PVcc AB2 P9_0 / A24 / SPBIO21_0 / CTx0 / A24 Address bus CN3-5 P3_6 / LCD0_TCON5 / ET_RXDV Connected to Ethernet PHY - SW2-1: ON ET_RXDV / SSIRxD1 / SSIRxD1 Used on option board CN4-14 SW2-1: OFF Used on option board CN4-20 Used on option board CN4-17 Connected to D-sub 9-pin via RS-232C CN4-6 TCLKC / MOSI2 AB3 SCI_RXD0 / TIOC3C / RxD3 SCI_RXD0 RxD3 AB4 AB5 AB6 AB7 P10_0 / DV0_CLK / TCLKA / DV0_CLK PWM2A / ET_TXCLK / LCD0_DATA23 LCD0_DATA23 / VIO_CLK VIO_CLK P10_3 / TCLKD / PWM2D / LCD0_DATA20 ET_CRS / LCD0_DATA20 / P10_3 VIO_FLD P3_0 / LCD0_CLK / TxD2 ET_TXCLK / IRQ2 / SCK2 / transceiver SCI_SCK1 / TxD2 / PWM2A / Connected to USB mini-B connector via RSPCK3 USB serial conversion IC JP13: 1-2 JP13: 2-3 Vss : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 1.18V system power supply, : GND 2-14 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.2.14 2. Functional Specification R7S72100 Pin Functions (14) Pin No. Pin Name AB8 RTC_X1 AB9 P0_4 / RTC_X3 AB10 Vss AB11 Function Description Expansion Connector Remarks Conntects RTC resonator - 32.768KHz Connects RTC external clock - 4MHz 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 - 13.33MHz RTC_X3 clock source AB17 Vss AB18 P1_9 / AN1 / IRQ3 / VIO_D15 / AN1 Used on option board CN5-19 P1_12 Used on option board CN5-12 DV0_DATA15 AB19 P1_12 / AN4 / DV0_VSYNC / VIO_FLD AB20 AVss AB21 AVref AB22 Vss : 3.3V systempower supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 CN5-13, 14 ADC analog reference voltage : 1.18V system power supply, : GND 2-15 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.2.3 2. Functional Specification 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 RTK772100BC00000BR BSC U2 BSC U3 BSC BSC U4 U5 SPIBSC U6, U7 SPIBSC U8 FLCTL RIIC USB ETHER DVDEC VDC5 SSIF, RSPI RSCAN RSCAN SDHI0, MMCIF SDHI1, MMCIF LVDS RSPDIF MLB UDI UDI INTC SCIF U9 U10 J5, J8 U20 J1 X9 U19 U21 U24 NOR flash memory 1 (connected with CS0) NOR flash memory 2 (connected with CS1) SDRAM1 (connected with CS2) SDRAM2 (connected with CS3) Serial flash memory 1 and 2 (connected with SPIBSC0) Serial flash memory 3 (connected with SPIBSC1) NAND flash memory EEPROM USB Ethernet Video input LCD output (LCD1_EXTCLK) Audio CODEC CAN1 CAN2 J11 SD card slot (4-bit) Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y N Y Y Y Y Y *1 Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y *1 Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y J15 MMC card slot (8-bit) Y Y Y Y Y Y N Y Y Y Y Y N Y Y Y LVDS output TOSLINK MOST CoreSight 20 ARM JTAG 20 IRQ6 switch Serial port Y N Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y N Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y Y Y Y Y N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y N 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. Dec. 19, 2013 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y J14 U26 J3 J21 J22 SW6 J17, J19 R20UT2596EJ0008 Rev.0.08 Serial port IRQ6 switch ARM JTAG 20 CoreSight 20 MOST TOSLINK LVDS output MMC card slot SD card slot CAN2 CAN1 Audio CODEC LCD output Video input Ethernet USB EEPROM NAND flash memory Serial flash memory 3 Serial flash memory 1 and 2 SDRAM2 SDRAM1 Module Name NOR flash memory 2 R7S72100 Peripheral Part No. Function NOR flash memory 1 RTK772100BC00000BR 2-16 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.3 2. Functional Specification 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 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-17 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 45 1 6 2. Functional Specification To expansion connectors A17: To TOSLINK connector A23-A18: To serial flash memory 3 A21 R7S72100 (U1) P6_15-P6_0 / D15-D0 P9_1-0 & P8_15-13 / A25-A21 P8_12-9 / A20-A17 P8_8 / A16 / SPDIF_IN P8_7-0 & P7_15-9 / A15-A1 P7_0 / MD_BOOT2 / CS0# P7_8 / RD# SPBSSL_1 JP8 NOR flash memory 1 (U2) 16 DQ15-DQ0 5 A24-A20 4 A19-A16 JP2 1 2 3 A15 To TOSLINK connector 3.3V 15 A14-A0 2 3 1 CE# JP5 OE# 3.3V P7_6 / WE0# / DQMLL P3_7 / LCD1_EXTCLK / CS1# 2 3 1 WE# RY/BY# WP# RESET# NC RES# JP6 NOR flash memory 2 (U3) Socket(X9) CLK 3.3V Note: Letters in Red indicate functions in use. : Optional DQ15-DQ0 A24-A20, A15 3.3V DIP SW1-3 A19-A16, A14-A0 3.3V CE# 3.3V OE# 3.3V Figure 2.3.1 Table2.3.2 WE# RY/BY# WP# RESET# NC RES# NOR Flash Memory Block Diagram 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-18 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2. Functional Specification 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 Th Write2 T1 Tw1 Tw2 Tw3 Tw4 Tw5 Tw6 T2 Tf Taw1 Th Read1 T1 Tw1 Tw2 Tw3 Tw4 Tw5 Tw6 T2 Tf Taw1 Th T1 Tw1 Tw2 Tw3 Tw4 Tw5 Tw6 T2 Tf CKIO tWC tAD1 tAD1 tAD1 tCSD1 tCSD1 tAD1 tAD1 tAD1 tRC A25-A1 tCSD1 tCSD1 tCSD1 tCSD1 CSn# tRSD tRSD RD# tWP tWED1 tWED1 tWED1 tWED1 tAH tAS tCS tAH tCH tWPH tAS tCH tOEH tWP WE0# tDS tWDD1 D15-D0 tWDH1 tDH tWDD1 DATA Figure2.3.2 Table2.3.3 tDS tWDH1 tDH tOE tCE tAAC DATA tDF tDF tRDS1 tRDH1 DATA Esample of NOR Flash Memory Write/Read Access Timing Setting for Bus State Controller (NOR Flash Memory Writing/Reading) User Area Target Device CS0 S29GL512S10T CS1 Setting for Bus State Controller 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 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-19 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.3.3 2. Functional Specification 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 Refresh interval 2 (system clock:66.67MHz) 8192 refresh cycles every 64 ms Low address A12-A0 Column address A9-A0 Bank counts 4-bank operation controlled by BA0 and BA1 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-20 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 32 40 R7S72100 (U1) 2 2. Functional Specification D15-0, A15-1, WE0: To NOR flash memories To expansion connectors SDRAM1 (U4) To CAN transceiver 16 P6_15-P6_0 / D15-D0 DQ15-DQ4 2 P8_7-P8_6 / A15-A14 BA1-BA0 6 P8_5-P8_0 / A13-A8 A12-A7 7 P7_15-P7_9 / A7-A1 A6-A0 CLK CKIO P7_5 / RD/WR# WE# P7_6 / WE0# / DQMLL LDQM P7_7 / WE1#/DQMLU UDQM JP1 P7_2 / CRx2 / RAS# RAS# P7_3 / CTx2 / CAS# CAS# 3.3V P7_4 / CKE CKE P5_8 / CS2# CS# P7_1 / CS3# SDRAM2 (U5) Note: Letters in Red indicate functions in use. DQ15-DQ4 : Optional BA1-BA0 A12-A7 A6-A0 3.3V CLK 3.3V WE# 3.3V LDQM 3.3V UDQM 3.3V RAS# 3.3V CAS# 3.3V CKE CS# Figure2.3.3 SDRAM Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-21 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.3.5 JP1 Function Setting 1-2 (Short) Jumper JP1 2. Functional Specification None (Open) 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 tRC tRC tRAS tRP tRAS tRP tRCD tDPL tDAL ACT Tr Trw1 Trw2 READA Tc1 Tcw Td1 Tde ACT Tr Tap Trw1 Trw2 WRITEA Tc1 Trw11 Trw12 Tap ACT Tr CKIO CKE tSI tSI tHI tCSD1 tHI tCSD1 tCSD1 tCSD1 CSn# tRASD1 tHI tSI tRASD1 tRASD1 tRASD1 RAS# tHI tSI tCASD1 tCASD1 tCASD1 tCASD1 CAS# tRWD1 tRWD1 RD/WR# tDQMD1 tDQMD1 tDQMD1 tDQMD1 DQMLU-LL tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 A13-A1(A12-A0) A11(A10/AP) 15,A14(BA1,0) tLZ tAC Data D15-0 Figure2.3.4 tHI tSI tWDD2 tWDH2 Example of SDRAM Single Read/Write Timing R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 tRDS2 tRDH2 tOH tOHZ 2-22 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.3.6 2. Functional Specification Setting for Bus State Controller (SDRAM Reading/Writing) User Area Target Device CS2 IS42S16320B-75 CS3 Setting for Bus State Controller 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 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-23 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.3.4 2. Functional Specification 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 U8 S25FL512SDPM 10-wire system serial (SPIBSC) 64MB×2 16-pin SOIC S25FL512SDPM 6-wire system serial (SPIBSC) 64MB 16-pin SOIC 6 16 A23-A18: To NOR flash memories To expansion connectors R7S72100 (U1) Serial flash memory 1 (U6) 10 3.3V CLK_0 CLK_0 P9_2 / SPBCLK_0 SCK 3.3V CS_0 CS_0 P9_3 / SPBSSL_0 CS# JP7 3.3V IO7_0 P2_15 / SPBIO31_0 IO0_0 SI/IO0 3.3V P2_14 / SPBIO21_0 IO6_0 IO1_0 P2_13 / SPBIO11_0 IO5_0 IO2_0 WP#/IO2 P2_12 / SPBIO01_0 IO4_0 IO3_0 HOLD#/IO3 P9_7 / SPBIO30_0 IO3_0 P9_6 / SPBIO20_0 IO2_0 P9_5 / SPBIO10_0 IO1_0 SO/IO1 3.3V 3.3V CLK_0 SCK 3.3V CS_0 CS# IO0_0 P9_4 / SPBIO00_0 3.3V 6 IO4_0 SI/IO0 3.3V IO5_0 CLK_1 P8_12 / A20 / SPBCLK_1 SO/IO1 3.3V IO6_0 WP#/IO2 IO7_0 HOLD#/IO3 CS_1 P8_13 / A21 / SPBSSL_1 JP8 P8_11 / A19 / SPBIO30_1 IO3_1 P8_10 / A18 / SPBIO20_1 IO2_1 P8_15 / A23 / SPBIO10_1 IO1_1 P8_14 / A22 / SPBIO00_1 IO0_1 Serial flash memory 2 (U7) 3.3V 3.3V Serial flash memory 3 (U8) 3.3V CLK_1 SCK 3.3V CS_1 CS# 3.3V IO0_1 Note: Letters in Red indicate functions in use. : Optional Figure2.3.5 IO1_1 SO/IO1 3.3V IO2_1 WP#/IO2 IO3_1 HOLD#/IO3 Serial Flash Memory Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 SI/IO0 3.3V 2-24 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.3.8 2. Functional Specification 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-25 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.3.5 2. Functional Specification 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) 12 3 To MMC card slot To audio CODEC 14 To expansion connectors R7S72100 (U1) S34ML04G1 (U9) 8 P3_15-P3_8 / NAF7-NAF0 3.3V I/O7-I/O0 WE# P4_3 / MMC_D7 / FWE ALE P4_2 / MMC_D6 / MOSI4 / FALE JP10 3.3V CLE P4_1 / MMC_D5 / SSL40 / FCLE RE# P4_0 / MMC_D4 / RSPCK4 / FRE 3.3V WP# 3.3V 3.3V P5_5 / TXOUT1M / FCE# CE# P1_2 / SCL1 / FRB R/B# Note: Letters in Red indicate functions in use. To LVDS I/F : Optional Figure2.3.6 NAND Flash Memory Interface Block Diagram Table2.3.10 JP10 Function Setting Jumper JP10 1-2 (Short) Use P4_1 as SSL40 output pin (initial setting) None (Open) Use P4_1 as FCLE output pin or MMC_D5 I/O pin indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-26 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.3.6 2. Functional Specification 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 2 R7S72100 (U1) To expansion connectors 3.3V R1EX24128 (U10) 16KB 3.3V P1_5 / SDA2 SDA P1_4 / SCL2 SCL WP A2-A0 Address: RD=0xA1, WR=0xA0 Note: Letters in Red indicate functions in use. Figure2.3.7 To MOST I/F connector EEPROM Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2 2-27 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.4 2. Functional Specification 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. 5V 0Ω IN1 IN2 150µF FLG1 FLG2 EN1 EN2 To expansion connectors JP9 2 TP3 OUT1 3 1 TP4 VBUS power supply control IC MIC2026 (U17) OUT2 150µF R7S72100 (U1) JP11 BLM21PG600SN1 Socket (X5) CLK USB_X1 VBUS0 USB_X2 DP0 NC DM0 VBus 100Ω 48MHz 1 2 4 3 USB Series A receptacle (J5) D+ DGND FRAME USB Mini-B receptacle (J7) REFRIN 5.6KΩ±1% HN6.2Z4MFA USBAPVss VBus D+ DGND FRAME BLM21PG600SN1 VBUS1 DP1 DM1 2 4 3 USB Series A receptacle (J8) VBus 100Ω 1 BLM21PG600SN1 D+ DGND : Optional FRAME HN6.2Z4MFA USB Mini-B receptacle (J9) VBus D+ DGND FRAME BLM21PG600SN1 Figure2.4.1 USB Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-28 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.4.1 JP9 and JP11 Function Settings Jumper JP9 JP11 1-2 None 2-3 Provide VBUS0 power supply Do not provide VBUS0 power Profide VBUS0 power supply (initial setting) supply from expansion connectors Provide VBUS1 power supply Do not provide VBUS1 power (initial setting) supply R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2. Functional Specification - 2-29 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.5 2. Functional Specification 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. To expansion connectors 3.3V R7S72100 (U1) RS-232C transceiver (U27) P3_0 / TxD2 JP13 1 2 3 P3_2 / RxD2 JP12 1 2 3 TIN D-Sub 9-pin (J17) TOUT TXD DTR# DSR# RIN RXD RTS# CTS# 3.3V ROUT SHDN# RES# Note: Letters in Red indicate functions in use. : Optional RL78/G1C-S (U28) P50 / RxD0 USB Mini-B (J19) D+ UDP0 VDD VDD P51 / TxD0 P40 / TOOL0 D- UDM0 VDD UVBUS 100Ω 1µF RESET# VBUS 1µF VDD UVDD 0.33µF E1 connector (J20) TOOL0 (dedicated single wire UART) RESET# Figure2.5.1 Serial Interface Block Diagram Table2.5.1 JP12 and JP13 Function Settings Jumper JP12 1-2 Connect P3_2 / RxD2 to RS-232C transceiver 2-3 Connect P3_2 / RxD2 to USB serial conversion IC (initial setting) JP13 Connect P3_0 / TxD2 to RS-232C transceiver Connect P3_0 / TxD2 to USB serial conversion IC (initial setting) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-30 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.6 2. Functional Specification 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 To expansion connectors 4 AVcc AN0 R7S72100 (U1) P1_11 / AN3 P4_10 / SD_D1_0 3.3V 1.5KΩ 1.5KΩ LED1 LED2 P4_11 / SD_D0_0 AVcc AN1 3.3V P1_10 / AN2 SW1 3.3V AN2 1 P0_0 / MD_BOOT0 AVcc 3.3V P1_9 / AN1 2 P0_1 / MD_BOOT1 3.3V 3 P7_0 / CS0 / MD_BOOT2 3.3V AVcc 4 P0_2 / MD_CLK 3.3V AN3 P1_8 / AN0 P0_3 / MD_CLKS Vss No input protection circuit 5 6 P1_15-P1-12 / AN7-AN4 Note: Letters in Red indicate functions in use. : Optional Figure2.6.1 I/O Ports Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-31 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.7 2. Functional Specification 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. 2 To expansion connectors 3.3V R7S72100 (U1) NMI switch (SW5) NMI + 3.3V IRQ6 switch (SW7, SW6) JP3 3 1 2 P3_1 / IRQ6 + Note: Letters in Red indicates function in use. 3.3V Test switch (SW8) TP22 + Figure2.7.1 Table2.7.1 Interrupt Switch Block Diagram JP3 Function Setting Jumper JP3 1-2 Use P3_1 as IRQ6 input pin (initial setting) 2-3 Use P3_1 on option board Indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-32 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.8 2. Functional Specification Clocks The following seven clocks are input in the R7S72100 on the RTK772100BC00000BR. • • • • • • • R7S72100 Input clock R7S72100 RTC clock R7S72100 RTC clock (high precision) R7S72100 USB clock R7S72100 Video decoder clock R7S72100 LCD clock R7S72100 Audio clock : 13.33MHz : 32.768kHz : 4MHz : 48MHz : 27MHz : Optional : 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. SDRAM1 (U4) R7S72100 (U1) Socket (X1) CLK PLL EXTAL 13.33MHz NC CLK 4 SDRAM2 (U5) CKIO CLK XTAL To expansion connectors RTC_X1 32.768kHz RTC_X2 Clock Buffer (U16) (X2) (X8) CLK (X4) CLK 22.5792MHz P0_4/ RTC_X3 4MHz NC P0_5 / RTC_X4 CLK4 CLK3 CLK2 CLK1 CLKOUT NC DFF WM8978 (U19) 1/2 MCLK AUDIO_X1 AUDIO_X2 Socket (X5) CLK REF NC USB_X1 48MHz NC USB_X2 VIDEO_X1 VIDEO_X2 27MHz (X7) Socket (X9) CLK JP6 1 3 2 P4_12 / LCD1_CLK / SD_CLK_0 P3_7 / LCD1_EXTCLK / CS1 To NOR flash memory P5_0 / TXCLKOUTP 3.3V P5_1 / TXCLKOUTM To SD card slot LVDS connector CLKIN+ CLKIN- P0_2 / MD_CLK DIP SW1-4 3.3V P0_3 / MD_CLKS DIP SW1-5 Note: Letters in Red indicate functions in use. : Optional Figure2.8.1 Clock Configuration R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-33 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table2.8.1 2. Functional Specification DIP Switch SW1 Function Settings DIP Switch Function 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 JP6 1-2 Use P3_7 as LCD1_EXTCLK input pin* 2-3 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-34 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.9 2. Functional Specification 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. 3.3V User debug interfaces (J21, J22) R7S72100 (U1) nSRST RES# 3.3V NOR flash memories (U2, U3) Reset switch (SW9) RESET# + Serial flash memories (U6 to U8) RESET# 3.3V 3.3V Reset IC (U33) 15kΩ IN 10kΩ 4.7kΩ OUT 0Ω Cd 0.1µF Ethernet PHY (U20) RESETB RS-232C transceiver(U27) SHDN# Reset IC output delay time tpd=0.34×Cd(pF)=34ms Reset IC output detection voltage 1.20×(Ra+Rb)/Rb=1.20×(15kΩ+10kΩ)/10kΩ=3.0V Figure2.9.1 RES# Reset Control Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Expansion connectors 2-35 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.10 2. Functional Specification 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. Power switch (SW4) DC power jack (J25) System power supply (DC12V) D12V Backlight power supply for LVDS panel Expansion connectors (generating 8V for CD deck) Vss 12V external power supply (J23) Vss 12V→5V Power select jumper (JP14) D5V Power select jumper(JP15) 5V external power supply (J24) Vss Power select jumper (JP9) Expansion connectors USB (VBUS0) USB (VBUS1), CAN, Expansion connectors Constant voltage regulator R7S72100 (analog reference voltage) 5V→3.3V 5V→3.3V A3.3V AVref Power select jumper (JP19) A3.3V external power supply (J27) AVss R7S72100 (analog 3.3V) AVcc VDAVcc Audio CODEC: WM8978 (AVDD, SPKVDD) Ethernet PHY: uPD60610 (VDDA) Expansion connectors D3.3V Power select jumper (JP18) D3.3V external power supply (J26) Vss R7S72100 (digital 3.3V) PVcc USBDPVcc LVDSAPVcc USBAPVcc SDRAM, NOR flash memory Serial flash memory, NAND flash memory EEPROM, RS-232C, Clock buffer Audio CODEC: WM8978 8 (DBVDD, DCVDD) Ethernet PHY: uPD60610 (VDDIO) SD/MMC card slot, expansion connectors 5V→ 1.18V D1.18V Power select jumper (JP21) 1.18V external power supply (J28) Vss R7S72100 (1.18V system) Vcc USBAVcc USB Mini-B (J19) VBUS Figure2.10.1 VDD PLLVcc LVDSPLLVcc Power Supply Configuration Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 USB serial conversion IC (U38) 2-36 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.11 2. Functional Specification 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 R7S72100 (U1) CoreSight 20 connector (J21) 10kΩ 22Ω RTCK / TraceClk P3_15 / MMC_D2 / NAF7 / TRACECTL P3_14 / MMC_D3 / NAF6 / TRACECLK DBGACK / TraceD3 P3_11 / MMC_D0 / NAF3 / TRACEDATA3 DBGRQ / TraceD2 P3_10 / MMC_D1 / NAF2 / TRACEDATA2 nTRST / TraceD1 P3_9 / SD_WP_1 / NAF1 / TRACEDATA1 SWO / TraceD0 P3_8 / MMC_CD / NAF0 / TRACEDATA0 TCK / SWCLK TCK TMS / SWDIO TMS JP0_1 / TDO TDO / SWO NC / TDI JP0_0 / TDI nSRST TRST# ARM JTAG 20 connector (J22) RES# DBGRQ DBGACK RTCK Reset IC (U33) Reset switch (SW9) TCK / SWCLK TMS / SWDIO TDO / SWO TDI nTRST nSRST Note: Letters in Red indicate functions in use. *: Refer to the debugger user’s manual for the details about connecting method. : Optional Figure2.11.1 Debug Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-37 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.12 2. Functional Specification 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. 4 To expansion connectors 2 RAS, CAS: To SDRAM R7S72100 (U1) P5_9 / MDC / CRx1 2 3 1 P5_10 / CTx1 JP1 VCCA Ether PHY CRx1 CTx1 CAN transceiver (U21) 5V CRx1 CRx2 VCCB A0 22kΩ 5V B0 A1 B1 RXD 22kΩ 1 CANH 2 3 CANL 22kΩ CTx2 TXD CAN transceiver (U24) Note: Letters in Red indicate functions in use. : Optional RXD CANH CANL CTx2 Figure2.12.1 CAN interface Block Diagram Table2.12.1 JP1 and JP4 Function Settings 1-2 22kΩ CAN connector (J13) 1 2 3.3V Jumper CAN connector (J12) 3.3V DIR CRx2 CTx1 P7_3 / CAS# / CTx2 5V 4 JP4 P7_2 / RAS# / CRx2 3.3V 3 TXD 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-38 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.13 2. Functional Specification 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. R7S72100 (U1) J1 0.1µF 0.1µF 75Ω 75Ω 0.1µF 75Ω 0.1µF VIN1A VIN2A VIN1B VIN2B 75Ω 22kΩ±1% BIAS VIDEO_X1 VRP VIDEO_X2 VRM 27MHz 0.1µF 0.1µF 2.2µF 0.1µF (X7) Figure2.13.1 Video Input Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-39 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.14 2. Functional Specification 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. To MMC card slot, NAND flash memory, and external connectors 3 R7S72100 (U1) SCLK P4_0 / FRE / RSPCK4 / MMC_D4 3.3V WM8978(U19) MODE 3.3V SDIN P4_2 / FALE / MOSI4 / MMC_D6 JP10 P4_1 / FCLE / SSL40 / MMC_D5 CSB/GPIO1 WM8978 / Option select P4_4 / SSISCK0 1A P4_5 / SSIWS0 2A P4_6 / SSIRxD0 3A P4_7 / SSITxD0 4A 1B1 BCLK 1B2 2B1 LRC 2B2 3B1 ADCDAT 3B2 4B1 4B2 MUX OE# DACDAT 1/2 MCLK S Clock Buffer (U16) L2/GPIO2 AUDIO_X1 DIP SW2-2 J4 LOUT1 MICBIAS J6 R2/GPIO3 Note: Letters in Red indicate functions in use. ROUT1 + CLK 22.5792MHz CLKPUT CLK4 REF CLK3 CLK2 CLK1 + (X8) PE0/SCL0/AUDIO_CLK/IRQ0 AUDIO_X2 + 3.3V NC : Optional Figure2.14.1 Table2.14.1 Audio Interface Block Diagram DIP Switch SW2-2 Function Setting DIP Switch Function ON SW2-2 Use P4_4[7:4] as SSIF pin (initial setting) OFF Use P4_4[7:4] on option board Indicates setting function. Table2.14.2 JP10 Function Setting Jumper JP10 1-2 (Short) Use P4_1 as SSL40 output pin (initial setting) None (Open) Use P4_1 as FCLE output pin or MMC_D5 I/O pin Indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-40 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.15 2. Functional Specification 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. 8 R7S72100 (U1) CVDD 5 P4_15 / SD_D2_0 / MMC_D2 DAT2 P4_14 / SD_D3_0 / MMC_D3 CVDD To expansion connectors SD card slot (J11) 22kΩ 22kΩ CLK CLK DAT3 CMD CMD P4_13 / SD_CMD_0 / MMC_CMD CMD DAT0 DAT0 P4_12 / SD_CLK_0 / MMC_CLK CLK DAT1 DAT1 P4_11 / SD_D0_0 / MMC_D0 DAT0 DAT2 DAT2 P4_10 / SD_D1_0 / MMC_D1 DAT1 DAT3 DAT3 3.3 V GND COMMON 3.3 V P4_9 / SD_WP_0 P4_8 / SD_CD_0 / MMC_CD 22kΩ WP 22kΩ CD LTC1471 (U23) Note: Letters in Red indicate functions in use. : Optional AEN AOUT CVDD VDD When inserting SD card: COMMON and CD are conducted. When removing card write protection: WP and COMMON are conducted. Figure2.15.1 SD Card Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-41 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.16 2. Functional Specification 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. 12 12 3 To expansion connectors To NAND flash memory P4_2-P4_0: To audio CODEC P4_1 JP10 R7S72100 (U1) 9 P3_15 / SD_D2_1 / MMC_D2 / DAT2 NAF7 P3_14 / SD_D3_1 / MMC_D3 / NAF6 P3_13 / SD_CMD_1 / MMC_CMD / NAF5 P3_12 / SD_CLK_1 / MMC_CLK / CLK NAF4 P3_11 / SD_D0_1 / MMC_D0 / DAT0 NAF3 P3_10 / SD_D1_1 / MMC_D1 / DAT1 CVDD SSL40 CVDD MMC card slot (J15) 22kΩ 22kΩ CLK CLK DAT3 CMD CMD CMD DAT0 DAT1 DAT2 DAT3 DAT4 DAT5 DAT6 DAT7 DAT0 DAT1 DAT2 DAT3 DAT4 DAT5 DAT6 DAT7 NAF2 3.3 V GND COMMON 3.3 V 22kΩ P3_9 / SD_WP_1 / NAF1 P3_8 / SD_CD_1 / MMC_CD / WP 22kΩ NAF0 P4_3 / MMC_D7 / FWE DAT7 P4_2 / MMC_D6 / FALE / MOSI4 DAT6 P4_1 / MMC_D5 / FCLE / SSL40 DAT5 P4_0 / MMC_D4 / FRE / RSPCK4 DAT4 CD LTC1471 (U23) BEN BOUT CVDD VDD 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. : Optional Figure2.16.1 Table2.16.1 MMC Card Interface Block Diagram JP10 Function Setting Jumper JP10 1-2 (Short) Use P4_1 as SSL40 output pin (initial setting) None (Open) Use P4_1 as FCLE output pin or MMC_D5 I/O pin Indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-42 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.17 2. Functional Specification 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. 3.3V Ethernet / MOST selection 16 A B1 MUX×4 OE# S R7S72100 (U1) P3_6 / RXDV RXDV P3_5 / RXER RXER P3_4 / RXCLK 3.3V RXCLK RxD3 P2_10 / RxD[2] RxD2 P2_9 / RxD[1] RxD1 P2_8 / RxD[0] RxD0 P2_7 / TxD[3] TxD3 P2_6 / TxD[2] MDIO MDC MDC RXCLK P0LINKLED / GPIO0 510Ω 510Ω LED3 LED4 LED5 INT / GPIO4 P0RXCLK / GPIO3 GPIO14 RXER P0RXERR RXDV P0RXDV RxD3 P0RXD3 / GPIO7 RxD2 P0RXD2 / GPIO8 RxD1 P0RXD1 RxD0 P0RXD0 TxD2 TXCLK P0TXCLK P2_5 / TxD[1] TxD1 TXER P0TXERR / GPIO9 P2_4 / TxD[0] TxD0 TXEN P0TXEN TxD3 P2_3 / CRS CRS P0TXD3 / GPIO10 TxD2 P2_2 / TXEN / MLB_SIG TXEN P0TXD2 / GPIO11 TxD1 P2_1 / TXER / MLB_DAT TXER P0TXD1 TXP TD+ TxD0 P0TXD0 TXN TD- COL P0COLSD / GPIO19 RXP RD+ CRS P0CRS / GPIO6 RXN RD- P2_0 / TXCLK / MLB_CLK DIP SW2-1 TXCLK P5_9 / MDC / CRx1 P1_14 / COL P1_15 2 1 3 JP4 MDC COL (X10) CLK INT To expansion connectors Note: Letters in Red indicate functions in use. NC RES# A3V 10Ω×2 RJ-45 (J10) RCT XCLK1 RESETB 12.4kΩ-1% 0.01µF×2 22kΩ×3 LAN Interface Block Diagram DIP Switch SW2-1 Function Setting DIP Switch Function ON SW2-1 A3V XCLK0 : Optional Table2.17.1 49.9Ω×4 TCT To CAN transceiver 25MHz Figure2.17.1 INT P2_11 / RxD[3] MDIO 3.3V 510Ω ATP TEST REGOFFD MDIO μPD60610 (U20) EXTRES P3_3 / MDIO 3.3V 3.3V OFF Use P3_[6:3] and P2_[11:0] as Ethernet PHY Use P3_[6:3] and P2_[11:0] as MOST control pin control pin (initial setting) and expansion connectors Indicates setting function. Table2.17.2 JP4 Function Setting Jumper JP4 1-2 Use P5_9 as CRx1 input pin 2-3 Use P5_9 as MDC output pin (initial setting) Indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-43 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.18 2. Functional Specification 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. 1 P5_5/FCE: To NAND flash memory 8 To expansion connectors R7S72100 (U1) P5_7 / TXOUT0M LVDS I/ F connector (J14) RL7 RE7 MODE Low:6bit, Hi:8bit Link 0100Ω P5_6 / TXOUT0P RL6 RE6 P5_5 / TXOUT1M / FCE RL5 RE5 Link 0+ Link 13.3V 100Ω P5_4 / TXOUT1P RL4 RE4 P5_3 / TXOUT2M RL3 RE3 Link 1+ Link 2100Ω P5_2 / TXOUT2P RL2 RE2 P5_1 / TXCLKOUTM RL1 RE1 P5_0 / TXCLKOUTP LVDSREFRIN Link 2+ CLKINCLKIN+ 3.3V 3.3V 680Ω Note: Letters in Red indicate functions in use. : Optional SC Scan direction control. Low:Normal, Hi:Reverse 100Ω RL0 RE0 5.6kΩ±1% 3.3V Link 3- Vcc Link 3+ GND 620Ω 12V Backlight connector (J16) BM14B-SRSS-TB Vrmt Backlight enable control. Low:Disable, Hi:Enable Vbr/Rbr PWM control. 12V 2.5V:Min, 0V:Max ADIM ADIM control. 2.5V:Min, 0V:Max Figure2.18.1 GND LDVS Interface Block Diagram R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Vcc 2-44 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.19 2. Functional Specification 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. 2 To NOR flash memory, expansion connectors R7S72100 (U1) TOSLINK connector (U26) P8_9 / A17 / SPDIF_OUT P8_8 / A16 / SPDIF_IN 2 1 3 3.3V 5V VCCA VCCB TOTX Vcc TORX GND 5V JP2 A Note: Letters in Red indicate functions in use. B DIR : Optional Figure2.19.1 Table2.19.1 TOSLINK Interface Block Diagram JP2 Function Setting Jumper JP2 1-2 Use P8_8 as A16 output pin (initial setting) 2-3 Use P8_8 as SPDIF_IN input pin Indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-45 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 2.20 2. Functional Specification 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. 6 R7S72100 (U1) To expansion connectors Ethernet / MOST selection 1A P2_0 / TXCLK / MLB_CLK 1B2 2B1 2A P2_1 / TXER / MLB_DAT P2_3 / CRS 47kΩ 3B2 4B1 4A MLB_CLK 47kΩ 2B2 3B1 3A P2_2 / TXEN / MLB_SIG MOST I/F connector (J3) 1B1 47kΩ 4B2 MLB_DAT MLB_SIG RST MUX OE# 3.3V S 3.3V 3.3V P1_5 / SDA2 SDA Vcc SCL GND 3.3V P1_4 / SCL2 2 Note: Letters in Red indicate functions in use. DIP SW2-1 To EEPROM : Optional Figure2.20.1 Table2.20.1 MOST Interface Block Diagram DIP Switch SW2-1 Function Setting DIP Switch Function ON SW2-1 Use P2_[3:0] as Ethernet PHY control pin OFF Use P2_[3:0] as MOST control pin (initial setting) Indicates setting function. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2-46 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3. Operational Specification 3.1 Connector Overview 3.Operational Specification J15: MMC card slot J6: Lineout pin jack J4: Mic-in pin jack J3: MOST I/F connector J11: SD card slot J10: LAN connector J1: RCA connector for video input Figure 3.1.1and Figure 3.1.2 show the RTK772100BC00000BR Connector Assignments. J23: 12V power supply connector J25: 12V AC adapter jack J21, J22: UDI connectors J5, J7: USB connectors J8, J9: USB connectors J19: Serial port connector (USB Mini-B) Figure 3.1.1 RTK772100BC00000BR Connector Assignments (Top View of Component Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 U26: TOSLINK connector J12, J13: CAN connectors J16: LVDS backlight connector J17: Serial port connector (D-Sub9) 3-1 R7S72100 CPU board RTK772100BC00000BR (GENMAI) CN6: Expansion connector 3.Operational Specification CN7: Expansion connector CN8: Expansion connector J14: LVDS connector CN9: Expansion connector CN2: Expansion connector CN1: Expansion connector CN5: Expansion connector Figure 3.1.2 CN4: Expansion connector RTK772100BC00000BR Connector Assignments (Top View of Solder Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 CN3: Expansion connector 3-2 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.1 3.Operational Specification 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. Top view of component side 6 1 5 2 3 4 J1 Side view Figure3.1.3 Table3.1.1 1 3 2 4 RCA Connector for Video Input Pin Assignments 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) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-3 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.2 3.Operational Specification 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. Top view of component side J3 Figure3.1.4 39 2 1 MOST I/F Connector Pin Assignments R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 40 3-4 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.2 MOST I/F Connector Pin Descriptions Pin No. 1 3.Operational Specification Signal Name NC Pin No. 2 Signal Name 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 9 NC 8 NC 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 RESETB (P2_3 / D19 / ET_CRS / DV0_DATA3 / 24 NC 26 NC 25 SPBIO30_1 / IERxD / CTS1 / VIO_D3 / LCD0_DATA19) 27 NC 28 NC 29 NC 30 NC 31 NC SCL (P1_4 / SCL2 / DV0_CLK / CRx1 / IRQ4 / 32 NC 34 NC 36 NC 33 CAN_CLK 35 SDA (P1_5 / SDA2 / DV1_CLK / CRx4 / IRQ5 / VIO_CLK / LCD1_EXTCLK) 37 +3.3V 38 +3.3V 39 +3.3V 40 NC Note: Bold letters indicate setting functions. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-5 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.3 3.Operational Specification 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. Top view of component side 4 4 2 3 2 3 1 J6 Figure3.1.5 Table3.1.3 1 J4 Mic-in Pin Jack Pin Assignments 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 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-6 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.4 3.Operational Specification 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. Top view of component side 4 4 2 3 2 3 1 J6 Figure3.1.6 Table3.1.4 1 J4 Lineout Pin Jack Pin Assignments 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 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-7 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.5 3.Operational Specification 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 Table3.1.5 Series A Receptacle Pin Assignments Series A Receptacle Pin Descriptions Pin No. Signal Name J8 J5 1 VBUS (VBUS1) VBUS (VBUS0) 2 DM (DM1) DM (DM0) 3 DP (DP1) DP (DP0) 4 GND (Vss) GND (Vss) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-8 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Top view of component side 3.Operational Specification 12345 12345 J9 J7 Side veiw Figure3.1.8 Table3.1.6 Mini-B Receptacle Pin Assignments Mini-B Receptacle Pin Descriptions Pin Signal Names 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) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-9 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.6 3.Operational Specification 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 2468 1357 J10 Side view Figure3.1.9 Table3.1.7 LAN Connector Pin Assignments 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) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-10 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.7 3.Operational Specification 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 8 6 4 2 9 7 5 3 1 11 J11 10 12 Figure3.1.10 Table3.1.8 SD Card Slot Pin Assignments SD Card Slot Pin Descriptions Pin No. 1 Signal Name Pin No. DAT3 (P4_14 / LCD0_DATA22 / LCD1_TCON1 / 2 SSIWS3 / RxD1 / IRQ5) TxD2 / IRQ6) 5 CMD (P4_13 / LCD0_DATA21 / LCD1_TCON0 / SD_CMD_0 / MMC_CMD / SPBIO11_1 / SD_D3_0 / MMC_D3 / SPBIO21_1 / SSIRxD3 / 3 Signal Name GND (Vss) 4 +3.3V CLK (P4_12 / LCD0_DATA20 / LCD1_CLK / 6 GND (Vss) SD_CLK_0 / MMC_CLK / SPBIO10_1 / SSISCK3 / TxD1 / IRQ4) 7 DAT0 (P4_11 / LCD0_DATA19 / LCD1_TCON6 / 8 DAT1 (P4_10 / LCD0_DATA18 / LCD1_TCON5 / SD_D1_0 / MMC_D1 / SSIRxD5 / RxD0 / IRQ2) SD_D0_0 / MMC_D0 / SSITxD5 / CTx4 / SCK1 / IRQ3) 9 DAT2 (P4_15 / LCD0_DATA23 / LCD1_TCON2 / 10 WP (P4_9 / LCD0_DATA17 / LCD1_TCON4 / SD_WP_0 / SSIWS5 / CRx2 / TxD0 / IRQ1) SD_D2_0 / MMC_D2 / SPBIO31_1 / SSITxD3 / RxD2 / IRQ7) 11 CD (P4_8 / LCD0_DATA16 / LCD1_TCON3 / 12 COMMON (Vss) SD_CD_0 / MMC_CD / SSISCK5 / CTx2 / SCK0 / IRQ0) Note: Bold letters indicate setting functions. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-11 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.8 3.Operational Specification 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 15 11 10 8 13 12 7 14 5 4 3 2 1 9 J15 Figure3.1.11 Table3.1.9 MMC Card Slot Pin Assignments MMC Card Slot Pin Descriptions Pin No. 1 Signal Name DAT3 (P3_14 / LCD0_DATA6 / NAF6 / Pin No. 2 TRACECLK / SD_D3_1 / MMC_D3) 3 5 GND (Vss) SCLK (P3_12 / LCD0_DATA4 / NAF4 / Signal Name CMD (P3_13 / LCD0_DATA5 / NAF5 / AUDIO_XOUT / SD_CMD_1 / MMC_CMD) 4 +3.3V 6 - SD_CLK_1 / MMC_CLK) 7 DAT0 (P3_11 / LCD0_DATA3 / NAF3 / 8 MMC_D1) MMC_D0) 9 DAT2 (P3_15 / LCD0_DATA7 / NAF7 / 10 TRACECTL / SD_D2_1 / MMC_D2) 11 DAT5 (P4_1 / LCD0_DATA9 / TIOC0B / FCLE / DAT7 (P4_3 / LCD0_DATA11 / TIOC0D / FWE / CTx3 / RxD2 / MISO4 / MMC_D7) DAT4 (P4_0 / LCD0_DATA8 / TIOC0A / FRE / RSPCK4 / MMC_D4) 12 SCK2 / SSL40 / MMC_D5) 13 DAT1 (P3_10 / LCD0_DATA2 / NAF2 / TRACEDATA2 / TIOC4C / SD_D1_1 / TRACEDATA3 / TIOC4D / SD_D0_1 / DAT6 (P4_2 / LCD0_DATA10 / TIOC0C / FALE / CRx3 / TxD2 / MOSI4 / MMC_D6) 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-12 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.9 3.Operational Specification 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 J13 1 Figure3.1.12 Table3.1.10 3 J12 1 3 CAN Connector Pin Assignments CAN Connector Pin Descriptions Pin No. Signal Name J13 (CAN2) J12 (CAN1) 1 CANH CANH 2 GND (Vss) GND (Vss) 3 CANL CANL R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-13 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.10 3.Operational Specification 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 2 4 1 3 20 19 J14 Figure3.1.13 Table3.1.11 LVDS I/F Connector Pin Assignments 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 8 GND (Vss) 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-14 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification Top view of component side 14 13 4 2 3 1 J16 Figure3.1.14 Table3.1.12 Backlight Power Supply Connector Pin Assignments 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) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-15 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.11 3.Operational Specification 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. Top view of component side U26 Side view 9 10 87 65 43 21 Figure3.1.15 Table3.1.13 TOSLINK Connector Pin Assignments TOSLINK Connector Pin Descriptions Pin No. 1 Signal Name RX (P8_8 / A16 / DV1_DATA5 / SPBIO00_1 / Pin No. Signal Name 2 GND (Vss) SPDIF_IN / TIOC1A / PWM1A / TxD3 / SSISCK5) 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-16 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.12 3.Operational Specification 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 1 2 3 4 5 12345 6 7 8 9 J17 Side view J19 1 2 3 4 5 6 7 8 9 Figure3.1.16 Table3.1.14 Serial Port Connector Pin Assignments Serial Port Connector (J17) Pin Descriptions Pin No. 1 2 Signal Name Pin No. Signal Name NC 6 DSR# RXD (P3_2 / LCD0_TCON1 / ET_TXEN / RxD2 / 7 RTS# 8 CTS# 9 NC SCI_RXD1 / TEND0 / PWM2C / MOSI3) 3 TXD (P3_0 / LCD0_CLK / ET_TXCLK / IRQ2 / SCK2 / SCI_SCK1 / TxD2 / PWM2A / RSPCK3) 4 DTR# 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. 1 Signal Name VBUS (UVBUS) 2 DM (UDM0) 3 DP (UDP0) 4 ID (NC) 5 GND (Vss) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-17 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.13 3.Operational Specification 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 20 2 J22 19 1 2 1 19 20 Figure3.1.17 Table3.1.16 UDI Connector Pin Assignments 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-18 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.17 3.Operational Specification 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) GND (Vss) 13 TDO/SWO 14 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) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-19 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.14 3.Operational Specification 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. Top view of component side J23 3 2 1 4 J25 2 Figure3.1.18 Table3.1.18 3 Power Supply Connector Pin Assignments 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) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-20 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.15 3.Operational Specification 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). JP19 J27 2 1 1 3 Top view of component side JP18 J26 1 JP15 3 J24 3 1 2 Figure3.1.19 JP21 1 3 J28 1 2 External Power Supply Connector Pin Assignments R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 1 2 1 3-21 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.20 Digital 5V External Power Supply Connector (J24) Pin Descriptions Pin No. 1 Signal Name +5V Table3.1.21 +3.3V +3.3V GND (Vss) Pin No. 2 Signal Name +1.18V R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Signal Name Signal Name GND (AVss) Digital 1.18V External Power Supply Connector (J28) Pin Descriptions Pin No. 1 Pin No. 2 Signal Name Table3.1.23 GND (Vss) Analog 3.3V External Power Supply Connector (J27) Pin Descriptions Pin No. 1 Signal Name Digital 3.3V External Power Supply Connector (J26) Pin Descriptions Signal Name Table3.1.22 Pin No. 2 Pin No. 1 3.Operational Specification Pin No. 2 Signal Name GND (Vss) 3-22 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.1.16 3.Operational Specification 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. CN6: Expansion connector CN7: Expansion connector 2 30 2 34 1 29 1 33 2 1 CN8: Expansion connector 1 2 19 20 20 19 1 2 CN9: Expansion connector 2 1 CN5: Expansion connector Figure3.1.20 20 19 CN4: Expansion connector 1 30 1 29 CN3: Expansion connector 30 2 29 1 30 20 CN2: Expansion connector CN1: Expansion connector 19 Expansion Connector Pin Assignments R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 2 2 3-23 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.24 3.Operational Specification Expansion Connector (CN1) Pin Descriptions 1 Pin No. Signal Name Pin No. 1 5VCC 2 3 P6_14 / D14 / DV0_DATA22 / TxD6 / 4 Signal Name P6_15 / D15 / DV0_DATA23 / RxD6 / LCD0_DATA7 / IRQ7 LCD0_DATA6 / IRQ6 5 P6_13 / D13 / DV0_DATA21 / SCK6 / RXD1 / LCD0_DATA5 / IRQ5 P6_12 / D12 / DV0_DATA20 / TXD1 / 6 3VCC 8 P6_10 / D10 / DV0_DATA14 / LCD0_TCON5 / LCD0_DATA4 / IRQ4 7 P6_11 / D11 / DV0_DATA15 / LCD0_TCON6 / SCK1 / LCD0_DATA3 / IRQ3 9 P6_9 / D9 / DV0_DATA13 / TxD0 / RxD0 / LCD0_DATA2 / IRQ2 10 LCD0_DATA1 / IRQ1 11 P6_8 / D8 / DV0_DATA12 / CAN_CLK / SCK0 / LCD0_DATA0 / IRQ0 Vss 12 P6_7 / D7 / LCD1_DATA15 / LCD0_TCON6 / RxD5 / MISO1 / DV0_DATA23 13 P6_6 / D6 / LCD1_DATA14 / LCD0_TCON5 / 14 TxD5 / MOSI1 / DV0_DATA22 15 P6_4 / D4 / LCD1_DATA12 / CRx2 / IRQ3 / P6_5 / D5 / LCD1_DATA13 / CTx2 / SCK5 / SSL10 / DV0_DATA21 16 Vss 18 P6_2 / D2 / LCD1_DATA10 / LRXD1 / IRQ7 / RTS5 / RSPCK1 / DV0_DATA20 17 P6_3 / D3 / LCD1_DATA11 / LTXD1 / IRQ2 / CTS5 / TIOC2B / TxD2 / DV0_DATA19 19 P6_1 / D1 / LCD1_DATA9 / LTXD0 / IRQ4 / TCLKA / TIOC2A / RxD2 / DV0_DATA18 20 TIOC1B / SSIDATA4 / TxD3 / DV0_DATA17 : 5V system power supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 3.3V system power supply, and P6_0 / D0 / LCD1_DATA8 / LRXD0 / DV0_CLK / TIOC1A / IRQ5 / RxD3 / DV0_DATA16 : GND 3-24 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.25 3.Operational Specification 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 / 6 P11_10 / DV0_DATA22 / SD_D3_0 / TxD5 / MMC_D2 / LCD0_TCON3 7 P11_9 / DV0_DATA21 / SD_CMD_0 / SCK5 / MMC_D3 / LCD0_TCON4 8 P11_8 / DV0_DATA20 / SD_CLK_0 / RTS5 / MMC_CMD / LCD0_TCON5 MMC_CLK / LCD0_TCON6 9 3VCC 10 3VCC 11 P11_7 / DV0_DATA19 / SD_D0_0 / CTS5 / 12 P11_6 / DV0_DATA18 / SD_D1_0 / SSIDATA4 / MMC_D0 / LCD0_DATA0 13 P11_5 / DV0_DATA17 / SD_WP_0 / SSIWS4 / MMC_D1 / LCD0_DATA1 14 LCD0_DATA2 15 17 MMC_CD / LCD0_DATA3 3VCC 16 P11_15 / SPDIF_OUT / MISO1 / IRQ1 / 18 MMC_D7 / LCD0_CLK 19 23 P11_13 / CTx1 / SSL10 / LCD0_TCON4 / 20 22 P7_7 / WE1/DQMLU / DV0_DATA23 / 24 P7_5 / RD/WR / DV0_DATA21 / ET_TXD1 / P7_3 / CAS / DV0_DATA19 / ET_TXEN / 26 P7_1 / CS3 / DV0_DATA17 / ET_TXCLK / 28 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 P7_6 / WE0/DQMLL / DV0_DATA22 / P7_4 / CKE / DV0_DATA20 / ET_TXD0 / TXD7 / P7_2 / RAS / DV0_DATA18 / ET_TXER / RXD4 / CRx2 / SSIWS1 / TIOC0C 30 TXD4 / DV0_CLK / SSISCK1 / TIOC0B : 5V system power supply, P7_8 / RD / SSISCK3 / CRx0 / TIOC3A / IRQ1 SSITxD1 / TIOC1A SCK7 / CTx2 / SSIRxD1 / TIOC0D 29 P11_12 / CRx1 / RSPCK1 / IRQ3 / MMC_D4 / ET_TXD2 / CTS7 / SSIWS2 / TIOC2A RXD7 / SSISCK2 / TIOC1B 27 P11_14 / SPDIF_IN / MOSI1 / LCD0_TCON5 / LCD0_TCON2 Vss ET_TXD3 / RTS7 / SSIDATA2 / TIOC2B 25 3VCC MMC_D6 / LCD0_TCON0 MMC_D5 / LCD0_TCON1 21 P11_4 / DV0_DATA16 / SD_CD_0 / SSISCK4 / : 3.3V system power supply, and P7_0 / MD_BOOT2 / CS0 / DV0_DATA16 / ET_MDC / SCK4 / LTXD0 / TIOC0A : GND 3-25 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.26 Expansion Connector (CN3) Pin Descriptions 3 Pin No. 1 3 3.Operational Specification Signal Name Pin No. Signal Name NC 2 NC P9_1 / A25 / SPBIO31_0 / CRx0 / IRQ0 / 4 Vss MISO2 5 P9_0 / A24 / SPBIO21_0 / CTx0 / TCLKC / 6 MOSI2 7 P8_15 / A23 / SPBIO11_0 / SPBIO10_1 / TIOC2B / SSL20 / PWM1H / RxD4 P8_14 / A22 / SPBIO01_0 / SPBIO00_1 / 8 P8_13 / A21 / SPBSSL_1 / TIOC3D / TXD5 / PWM1F / SGOUT_3 / SSIWS4 TIOC2A / RSPCK2 / PWM1G / TxD4 / SSIDATA4 9 P8_12 / A20 / SPBCLK_1 / TIOC3C / SCK5 / 10 PWM1E / SGOUT_2 / SSISCK4 11 P8_10 / A18 / DV1_DATA7 / SPBIO20_1 / P8_11 / A19 / SPBIO30_1 / TIOC3B / RxD5 / PWM1D / SGOUT_1 / DV0_CLK 12 P8_9 / A17 / DV1_DATA6 / SPBIO10_1 / SPDIF_OUT / TIOC1B / PWM1B / RxD3 / TIOC3A / CTx4 / PWM1C / SGOUT_0 / SSIWS5 SSITxD5 13 Vss 14 15 P8_7 / A15 / DV1_DATA4 / AUDIO_XOUT / 16 P8_8 / A16 / DV1_DATA5 / SPBIO00_1 / SPDIF_IN / TIOC1A / PWM1A / TxD3 / SSISCK5 IRQ5 / ET_COL 17 P8_6 / A14 / DV1_DATA3 / MISO2 / IETxD / TxD2 P8_5 / A13 / DV1_DATA2 / MOSI2 18 P8_4 / A12 / DV1_DATA1 / SSL20 / IERxD / RxD2 19 P8_3 / A11 / DV1_DATA0 / RSPCK2 / RTS5 / 20 P8_2 / A10 / MISO0 / RXD5 / IRQ0 22 Vss IRQ1 / SCK2 21 P8_1 / A9 / MOSI0 / ET_RXDV / TXD5 / SCI_RXD0 23 P8_0 / A8 / SSL00 / ET_RXER / SCK5 / 24 SCI_SCK0 25 P7_14 / A6 / SSIDATA4 / ET_CRS / TIOC4C / 26 IRQ6 27 P7_12 / A4 / SSISCK4 / ET_RXD3 / TIOC4A / 28 30 TIOC3C / IRQ2 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 P7_11 / A3 / SSITxD3 / ET_RXD2 / CRx1 / TIOC3D / IRQ3 P7_10 / A2 / SSIRxD3 / ET_RXD1 / CTx1 / : 5V system power supply, P7_13 / A5 / SSIWS4 / ET_MDIO / TIOC4B / IRQ5 IRQ4 29 P7_15 / A7 / RSPCK0 / ET_RXCLK / CTS5 / SCI_TXD0 / TIOC4D P7_9 / A1 / SSIWS3 / ET_RXD0 / CTx0 / TIOC3B / IRQ0 : 3.3V system power supply, and : GND 3-26 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.27 3.Operational Specification 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 / 6 P3_0 / LCD0_CLK / ET_TXCLK / IRQ2 / SCK2 / TxD2 / SCI_TXD1 / AUDIO_CLK / PWM2B / SCI_SCK1 / TxD2 / PWM2A / RSPCK3 SSL30 7 P3_3 / LCD0_TCON2 / ET_MDIO / IRQ4 / BS / 8 SCI_CTS1 / RTS1 / DACK0 / PWM2D / MISO3 P3_2 / LCD0_TCON1 / ET_TXEN / RxD2 / SCI_RXD1 / TEND0 / PWM2C / MOSI3 9 Vss 10 Vss 11 P3_5 / LCD0_TCON4 / ET_RXER / SSIWS1 / 12 P3_4 / LCD0_TCON3 / ET_RXCLK / SSISCK1 / AUDIO_XOUT3 / SCI_TXD0 / TIOC3B / TxD3 13 P3_7 / LCD0_TCON6 / SSITxD1 / AUDIO_XOUT2 / SCI_SCK0 / TIOC3A / SCK3 14 LCD1_EXTCLK / SCI_CTS0/RTS0 / TIOC3D / P3_6 / LCD0_TCON5 / ET_RXDV / SSIRxD1 / SCI_RXD0 / TIOC3C / RxD3 CS1 / WDTOVF 15 Vss 16 Vss 17 P10_3 / TCLKD / PWM2D / ET_CRS / 18 P10_2 / DV0_HSYNC / TCLKC / PWM2C / LCD0_DATA20 / VIO_FLD 19 P10_1 / DV0_VSYNC / TCLKB / PWM2B / ET_TXEN / LCD0_DATA21 / VIO_HD 20 ET_TXER / LCD0_DATA22 / VIO_VD : 5V system power supply, Table3.1.28 P10_0 / DV0_CLK / TCLKA / PWM2A / ET_TXCLK / LCD0_DATA23 / VIO_CLK : 3.3V system power supply, and : GND 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, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 3.3V system power supply, and : GND 3-27 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.29 Expansion Connector (CN6) Pin Descriptions 6 Pin No. 1 3.Operational Specification Signal Name P3_9 / LCD0_DATA1 / NAF1 / TRACEDATA1 / Pin No. 2 TIOC4B / SD_WP_1 / IRQ6 3 P3_11 / LCD0_DATA3 / NAF3 / TRACEDATA3 / Signal Name P3_8 / LCD0_DATA0 / NAF0 / TRACEDATA0 / TIOC4A / SD_CD_1 / MMC_CD 4 P3_10 / LCD0_DATA2 / NAF2 / TRACEDATA2 / 6 5VCC TIOC4D / SD_D0_1 / MMC_D0 TIOC4C / SD_D1_1 / MMC_D1 5 5VCC 7 5VCC 8 5VCC 9 P3_13 / LCD0_DATA5 / NAF5 / AUDIO_XOUT / 10 P3_12 / LCD0_DATA4 / NAF4 / SD_CLK_1 / SD_CMD_1 / MMC_CMD 11 P3_15 / LCD0_DATA7 / NAF7 / TRACECTRL / MMC_CLK 12 SD_D2_1 / MMC_D2 P3_14 / LCD0_DATA6 / NAF6 / TRACECLK / SD_D3_1 / MMC_D3 13 3VCC 14 3VCC 15 P4_1 / LCD0_DATA9 / TIOC0B / FCLE / SCK2 / 16 P4_0 / LCD0_DATA8 / TIOC0A / FRE / SSL40 / MMC_D5 17 RSPCK4 / MMC_D4 P4_3 / LCD0_DATA11 / TIOC0D / FWE / CTx3 / 18 RxD2 / MISO4 / MMC_D7 P4_2 / LCD0_DATA10 / TIOC0C / FALE / CRx3 / TxD2 / MOSI4 / MMC_D6 19 Vss 20 Vss 21 P10_5 / DV0_DATA1 / TIOC0B / PWM2F / 22 P10_4 / DV0_DATA0 / TIOC0A / PWM2E / ET_TXD1 / LCD0_DATA18 / VIO_D1 23 P10_7 / DV0_DATA3 / TIOC0D / PWM2H / ET_TXD0 / LCD0_DATA19 / VIO_D0 24 ET_TXD3 / LCD0_DATA16 / VIO_D3 25 27 ET_TXD2 / LCD0_DATA17 / VIO_D2 Vss 26 P4_5 / LCD0_DATA13 / SSL10 / TIOC4B / 28 PWM2F / SSIWS0 / DV0_DATA13 29 P4_7 / LCD0_DATA15 / MISO1 / TIOC4D / R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Vss P4_4 / LCD0_DATA12 / RSPCK1 / TIOC4A / PWM2E / SSISCK0 / DV0_DATA12 30 PWM2H / SSITxD0 / DV0_DATA15 : 5V system power supply, P10_6 / DV0_DATA2 / TIOC0C / PWM2G / : 3.3V system power supply, and P4_6 / LCD0_DATA14 / MOSI1 / TIOC4C / PWM2G / SSIRxD0 / DV0_DATA14 : GND 3-28 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.30 3.Operational Specification 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 / 6 P10_8 / DV0_DATA4 / TIOC1A / ET_RXD0 / LCD0_DATA14 / VIO_D5 7 P10_11 / DV0_DATA7 / TIOC2B / ET_RXD3 / LCD0_DATA15 / VIO_D4 8 LCD0_DATA12 / VIO_D7 9 P10_13 / DV0_DATA9 / SSIWS1 / SSL00 / LCD0_DATA13 / VIO_D6 10 LCD0_DATA10 / VIO_D9 11 P10_15 / DV0_DATA11 / SSITxD1 / MISO0 / P4_9 / LCD0_DATA17 / LCD1_TCON4 / P10_12 / DV0_DATA8 / SSISCK1 / RSPCK0 / LCD0_DATA11 / VIO_D8 12 LCD0_DATA8 / VIO_D11 13 P10_10 / DV0_DATA6 / TIOC2A / ET_RXD2 / P10_14 / DV0_DATA10 / SSIRxD1 / MOSI0 / LCD0_DATA9 / VIO_D10 14 SD_WP_0 / SSIWS5 / CRx2 / TxD0 / IRQ1 P4_8 / LCD0_DATA16 / LCD1_TCON3 / SD_CD_0 / MMC_CD / SSISCK5 / CTx2 / SCK0 / IRQ0 15 P4_11 / LCD0_DATA19 / LCD1_TCON6 / 16 P4_10 / LCD0_DATA18 / LCD1_TCON5 / SD_D1_0 / MMC_D1 / SSIRxD5 / RxD0 / IRQ2 SD_D0_0 / MMC_D0 / SSITxD5 / CTx4 / SCK1 / IRQ3 17 19 21 23 P4_13 / LCD0_DATA21 / LCD1_TCON0 / 18 SD_CLK_0 / MMC_CLK / SPBIO10_1 / SSIWS3 / RxD1 / IRQ5 SSISCK3 / TxD1 / IRQ4 P4_15 / LCD0_DATA23 / LCD1_TCON2 / 20 SD_D3_0 / MMC_D3 / SPBIO21_1 / SSIRxD3 / RxD2 / IRQ7 TxD2 / IRQ6 Vss 22 P2_1 / D17 / ET_TXER / DV0_DATA1 / 24 29 Vss P2_0 / D16 / ET_TXCLK / DV0_DATA0 / SPBIO00_1 / MLB_CLK / IRQ5 / VIO_D0 / LCD0_DATA16 LCD0_DATA17 27 P4_14 / LCD0_DATA22 / LCD1_TCON1 / SD_D2_0 / MMC_D2 / SPBIO31_1 / SSITxD3 / SPBIO10_1 / MLB_DAT / TIOC2A / VIO_D1 / 25 P4_12 / LCD0_DATA20 / LCD1_CLK / SD_CMD_0 / MMC_CMD / SPBIO11_1 / P2_3 / D19 / ET_CRS / DV0_DATA3 / 26 P2_2 / D18 / ET_TXEN / DV0_DATA2 / SPBIO30_1 / IERxD / CTS1 / VIO_D3 / SPBIO20_1 / MLB_SIG / TIOC2B / VIO_D2 / LCD0_DATA19 LCD0_DATA18 P2_5 / D21 / ET_TXD1 / DV0_DATA5 / 28 P2_4 / D20 / ET_TXD0 / DV0_DATA4 / SSIWS5 / SPBSSL_1 / TxD1 / VIO_D5 / SSISCK5 / SPBCLK_1 / SCK1 / VIO_D4 / LCD0_DATA21 LCD0_DATA20 P2_7 / D23 / ET_TXD3 / DV0_DATA7 / 30 P2_6 / D22 / ET_TXD2 / DV0_DATA6 / SSIRxD5 / RxD1 / VIO_D6 / LCD0_DATA22 SSITxD5 / IETxD / RTS1 / VIO_D7 / LCD0_DATA23 31 33 P2_9 / D25 / ET_RXD1 / DV0_DATA9 / 32 P2_8 / D24 / ET_RXD0 / DV0_DATA8 / SSIWS0 / LRXD0 / LCD1_DATA9 / VIO_D9 / SSISCK0 / LCD0_TCON6 / LCD1_DATA8 / SSL40 VIO_D8 / RSPCK4 P2_11 / D27 / ET_RXD3 / DV0_DATA11 / 34 P2_10 / D26 / ET_RXD2 / DV0_DATA10 / SSITxD0 / TIOC1A / LCD1_DATA11 / SSIRxD0 / LTXD0 / LCD1_DATA10 / VIO_D11 / MISO4 VIO_D10 / MOSI4 : 5V system power supply, R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 : 3.3V system power supply, and : GND 3-29 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.31 3.Operational Specification Expansion Connector (CN8) Pin Descriptions 8 Pin No. Signal Name Pin No. 1 P3_4 / LCD0_TCON3 / ET_RXCLK / SSISCK1 / 2 AUDIO_XOUT2 / SCI_SCK0 / TIOC3A / SCK3 3 P3_6 / LCD0_TCON5 / ET_RXDV / SSIRxD1 / 7 SCI_CTS1 / RTS1 / DACK0 / PWM2D / MISO3 P3_5 / LCD0_TCON4 / ET_RXER / SSIWS1 / 3VCC 6 3VCC P2_13 / D29 / SSL00 / DV0_DATA13 / 8 AUDIO_XOUT3 / SCI_TXD0 / TIOC3B / TxD3 TIOC1B IRQ7 11 13 P2_15 / D31 / MISO0 / DV0_DATA15 / 10 SPBIO21_0 / CRx4 / TxD0 / LCD1_DATA14 / LCD1_DATA15 / IRQ1 IRQ0 Vss 12 P1_1 / SDA0 / DV0_DATA17 / TCLKC / IRQ1 / 14 P1_3 / SDA1 / DV0_DATA19 / ET_COL / IRQ3 / 16 P1_5 / SDA2 / DV1_CLK / CRx4 / IRQ5 / P1_7 / SDA3 / DV1_HSYNC / LRXD0 / IRQ7 / 18 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 P1_2 / SCL1 / DV0_DATA18 / FRB / IRQ2 / P1_4 / SCL2 / DV0_CLK / CRx1 / IRQ4 / CAN_CLK 20 VIO_D13 / DV0_DATA13 : 5V system power supply, P1_0 / SCL0 / DV0_DATA16 / TCLKA / IRQ0 / LCD1_EXTCLK VIO_CLK / LCD1_EXTCLK 19 Vss VIO_VD / DV0_VSYNC ADTRG 17 P2_14 / D30 / MOSI0 / DV0_DATA14 / SPBIO31_0 / CAN_CLK / RxD0 / VIO_HD / DV0_HSYNC 15 P2_12 / D28 / RSPCK0 / DV0_DATA12 / SPBIO01_0 / CRx3 / IRQ6 / LCD1_DATA12 / SPBIO11_0 / CTx3 / SCK0 / LCD1_DATA13 / 9 P3_3 / LCD0_TCON2 / ET_MDIO / IRQ4 / BS / 4 SCI_RXD0 / TIOC3C / RxD3 5 Signal Name : 3.3V system power supply, and P1_6 / SCL3 / DV1_VSYNC / IERxD / IRQ6 / VIO_D12 / DV0_DATA12 : GND 3-30 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.1.32 Expansion Connector (CN9) Pin Descriptions 9 Pin No. 1 3 3.Operational Specification Signal Name P5_1 / TXCLKOUTM / LCD1_DATA1 / Pin No. 2 LCD0_DATA16 / DV1_DATA0 / TxD4 / TIOC0A / TIOC0B / SSL30 RSPCK3 P5_3 / TXOUT2M / LCD1_DATA3 / 4 P5_2 / TXOUT2P / LCD1_DATA2 / LCD0_DATA18 / DV1_DATA2 / SCK3 / TIOC1B / MOSI3 TIOC3C / MISO3 7 P5_0 / TXCLKOUTP / LCD1_DATA0 / LCD0_DATA17 / DV1_DATA1 / RxD4 / LCD0_DATA19 / DV1_DATA3 / TxD3 / 5 Signal Name P5_5 / TXOUT1M / LCD1_DATA5 / 6 P5_4 / TXOUT1P / LCD1_DATA4 / LCD0_DATA21 / DV1_DATA5 / AUDIO_XOUT / LCD0_DATA20 / DV1_DATA4 / RxD3 / TIOC0C / FCE / DV0_DATA13 TIOC3D / DV0_DATA12 P5_7 / TXOUT0M / LCD1_DATA7 / 8 P5_6 / TXOUT0P / LCD1_DATA6 / LCD0_DATA22 / DV1_DATA6 / TxD6 / IRQ6 / LCD0_DATA23 / DV1_DATA7 / RxD6 / SPDIF_IN / DV0_DATA14 TIOC0D / SPDIF_OUT / DV0_DATA15 9 Vss 10 Vss 11 P5_8 / LCD0_EXTCLK / IRQ0 / DV1_CLK / 12 Vss Vss 14 Vss P5_10 / WE3/DQMUU/AH / DV0_HSYNC / 16 DV0_CLK / CS2 13 15 CTx1 / IETxD / LCD1_DATA17 P5_9 / WE2/DQMUL / ET_MDC / DV0_VSYNC / IRQ2 / CRx1 / IERxD / LCD1_DATA16 17 Vss 18 19 P9_3 / LCD1_DATA19 / SPBSSL_0 / TxD1 20 Vss P9_2 / LCD1_DATA18 / SPBCLK_0 / LTXD0 / SCK1 / A0 21 P9_5 / LCD1_DATA21 / SPBIO10_0 / 22 P9_4 / LCD1_DATA20 / SPBIO00_0 / RxD1 24 P9_6 / LCD1_DATA22 / SPBIO20_0 / SSIWS2 / SSISCK2 / CTS1 / CS4 23 P9_7 / LCD1_DATA23 / SPBIO30_0 / SSIDATA2 / TIOC1A 25 27 RTS1 / CS5 3VCC 26 P11_1 / DV0_DATA13 / TIOC4B / TxD6 / 28 LCD0_DATA6 / VIO_D13 29 P11_3 / DV0_DATA15 / TIOC4D / R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 P11_0 / DV0_DATA12 / TIOC4A / SCK6 / LCD0_DATA7 / VIO_D12 30 LCD0_DATA4 / VIO_D15 : 5V system power supply, 3VCC : 3.3V system power supply, and P11_2 / DV0_DATA14 / TIOC4C / RxD6 / LCD0_DATA5 / VIO_D14 : GND 3-31 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.2 3.Operational Specification Operation Parts Layout SW2: DIP switch for I/F setting JP8: SSL_1/A21 switch jumper JP10: SSL40/MMC_D5 switch jumper LED1, LED2: User LEDs JP7: SSL_0 connection jumper LED3 to LED5: LAN status LEDs SW3: DIP switch for PHY setting Figure3.2.1 shows the RTK772100BC00000BR Operation Parts Layout. Top view of component side JP14: System power supply select jumper LED6: Power LED SW4: Power switch JP19: Avcc power select jumper JP9: VBUS0 power select jumper JP18: PVcc power select jumper JP11: VBUS1 power select jumper JP21: Vcc power select jumper JP15: 5V power select jumper Figure3.2.1 SW7: Toggle switch SW8: Test switch SW6: IRQ6 switch SW5: NMI switch SW1: DIP switch for system setting JP3: IRQ6 select jumper JP6: LCD_EXTCLK/CS1 switch jumper JP1: CRx2/RAS switch jumper JP5: MD_BOOT2/CS0 switch jumper RTK772100BC00000BR Operation Parts Layout R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 JP2: A16/SPDIF_IN switch jumper JP4: CRx1/MDC switch jumper SW9: Reset switch JP13: TxD2 select jumper JP12: RxD2 select jumper 3-32 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.2.1 3.Operational Specification 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. JP14 1 3 Top view of component side JP10 JP19 1 3 JP9 1 JP18 1 JP7 JP4 3 1 JP8 JP2 JP5 1 3 3 JP6 1 JP15 3 1 3 JP21 1 3 JP11 3 3 1 JP1 Figure3.2.2 RTK772100BC00000BR System Setting Jumper Assignments. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 JP3 JP12 JP13 3 3 3 1 1 1 3-33 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.2.1 3.Operational Specification Jumper Setting for Switching Multifunctional pins (JP1 to JP8, JP10, JP12 and JP13) Jumper Setting Function JP1 1-2 RAS/CRx2 None (open) JP2 1-2 Connected to NOR flash memories (U2 and U3) as A16 output pin A16/SPDIF_IN 2-3 Connected to TOSLINK connector (U26) as SPDIF_IN input pin JP3 1-2 Connected to IRQ6 switch (SW6) asIRQ6 input pin IRQ6/Ext 2-3 Connected to expansion connectors (CN4 to CN5) Connected to CAN transceiver (U21) as CRx1 input pin Connected to CAN transceiver IC (U24) as CRx2 input pin Connected to SDRAM (U4 and U5) as RAS output pin JP4 1-2 CRx1/ET_MDC 2-3 Connected to Ethernet PHY (U29) as ET_MDC output pin JP5 1-2 Connected to DIP switch for system setting (SW-3) as MD_BOOT2 input pin MD_BOOT2/CS0 2-3 Connected to NOR flash memory 1 (U2) as CS0 output pin JP6 1-2 Connected to Crystal oscillator (X9) as LCD1_EXTCLK input pin LCD1_EXTCLK/CS1 2-3 Connected to NOR flash memory 2 (U3) as U3CS1 output pin JP7 1-2 Connected to serial flash memories (U6 and U7) as SPBSSL_0 output pin SPBSSL_0/Ext None (open) Connected to expansion connectors (CN9 to CN19) JP8 1-2 Connected to serial flash memory (U8) as SPBSSL_1 output pin SPBSSL_1/A21 None (open) Connected to NOR flash memory (U2 and U3) as A21 output pin JP10 1-2 SSL40/ None (open) FCLE/MMC_D5 Connected to audio CODEC (U19) as SSL40 output pins Connected to NAND flash memory (U9) as FCLE output pin Connected to MMC card slot (J15) as MMC_D5 I/O pin JP12 1-2 Connected to RS-232C transceiver (U27) as RxD2 input pin for RxD2 2-3 Connected to USB serial converter IC (U28) as RxD2 input pin JP13 1-2 Connected s to RS-232C transceiver (U27) as TxD2 output pin for TxD2 2-3 Connected to USB serial converter IC (U28) as TxD2 output pin connection connection indicates initial setting. Note: The power of the board should be off when changing the jumpers. Table3.2.2 Jumper Jumper Setting for USB VBUS Power Supply (JP9 and JP11) Setting JP9 1-2 for USB ch0 None (open) 2-3 Function Used USB ch0 in host mode (Provides VBUS0 power supply) Used USB ch0 in function mode (Does not provide VBUS0 power supply) Used USB ch0 in host mode (Provides VBUS0 power supply from expansion connectors) JP11 1-2 for USB ch1 None (open) Used USB ch1 in host mode (Provides VBUS1 power supply) 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. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-34 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.2.3 3.Operational Specification Jumper Setting for Power Select (JP14, JP1, JP18, JP19 and JP21) Jumper Setting Function JP14 1-2 Provides system power supply from J23 for system power 2-3 Provides system power supply from J25 (using AC adapter) supply JP15 1-2 Provides 5V power supply from U30 (Internal power supply) for 5V power 2-3 Provides 5V power supply from J24. (External power supply) JP18 1-2 Provides R7S72100 digital 3.3V power supply from U32 (Internal power supply) for D3.3V power 2-3 Provides R7S72100 digital 3.3V power supply from J26 (External power supply) JP19 1-2 Provides R7S72100 analog 3.3V power supply from U32 (Internal power supply) for A3.3V power 2-3 Provides R7S72100 analog 3.3V power supply from J27 (External power supply) supply supply supply JP21 1-2 Provides R7S72100 1.18V power supply from U34 (Internal power supply) for 1.18V power 2-3 Provides R7S72100 1.18V power supply from J28 (External power supply) supply indicates initial setting. Note: The power of the board should be off when changing the jumpers. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-35 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.2.2 3.Operational Specification 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. LED1 LED2 SW3 LED6 LED3 LED4 LED5 SW4 SW2 Top view of component side SW9 SW1 SW6 SW5 Figure3.2.3 SW8 RTK772100BC00000BR Switches, LED Pin Assignments R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 SW7 3-36 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.2.4 3.Operational Specification RTK772100BC00000BR Switches No. Function SW1 Remarks 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 Refer to Section 2.7 for more details SW6 IRQ6 switch SW7 IRQ6 toggle switch SW8 TEST switch SW9 Reset switch Table3.2.5 Refer to Section 2.9 for more details Function Descriptions of DIP Switch for System Setting (SW1) No. Function SW1-1 OFF MD_BOOT0 = "H" MD_BOOT0 ON MD_BOOT0 = "L" SW1-2 OFF MD_BOOT1 = "H" MD_BOOT1 ON MD_BOOT1 = "L" Remarks Boot mode MD_BOOT[2:0] 0 (B'*00) 1 (B'*10) 3 (B'101) 4 (B'011) 5 (B'111) Boot device NOR flash memory (bus width 16-bit) NOR flash memory (bus width 32-bit) Serial flash memory eSD eMMC SW1-3 OFF MD_BOOT2 = "H" MD_BOOT2 ON MD_BOOT2 = "L" SW1-4 OFF MD_CLK = "H" Inputs system clock from USB_X1 MD_CLK ON MD_CLK = "L" Inputs system clock from EXTAL SW1-5 OFF MD_CLKS = "H" SSCG operation ON MD_CLKS ON MD_CLKS = "L" SSCG operation OFF SW1-6 OFF Sets without reference to setting ON indicates initial setting. Table3.2.6 Function Descriptions of DIP Switch for I/F Setting (SW2) No. SW2-1 Function OFF LAN#/MLB,EXT = "H" Remarks Connected to MOST I/F connector (J3) and expansion P2_[11:0], P3_[6:3] for connection destination ON LAN#/MLB,EXT = "L" Connected to Ethernet PHY (U20) connectors SW2-2 OFF SSIF#/EXT = "H" Connected to expansion connectors P4_[7:4] for connection destination ON SSIF#/EXT = "L" Connected to audio CODEC (U19) SW2-3 OFF BSCANP = "H" Boundary scan operation Normal operation BSCANP ON BSCANP = "L" SW2-4 OFF TP2 = "H" TP2 ON TP2 = "L" indicates initial setting. R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-37 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Table3.2.7 3.Operational Specification Function Descriptions of DIP Switch for Ethernet PHY Setting (SW3) No. Function Remarks SW3-1 OFF P0RXD3 = "H" Autoneg enabled, 100BaseT Autoneg ON P0RXD3 = "L" Autoneg disabled, 100BaseT SW3-2 OFF P0RXD2 = "H" If Autoneg disabled : Full Duplex Duplex If Autoneg enabled : Forced Full Duplex in parallel detect ON P0RXD2 = "L" If Autoneg disabled : Half Duplex If Autoneg enabled : Parallel detect ends in half duplex mode SW3-3 OFF P0RXCLK = "H" Quick Autoneg 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. ON P0RXCLK = "L" Disable Quick Autonegotiation SW3-4 OFF P0RXERR = "H" Configure MII Interface Interface ON P0RXERR = "L" Configure RMII Interface SW3-5 OFF P0TXCLK = "H" Fast Mode, Only "J" required for Start of Frame detection. Frame detection Do not use in RMII Mode. ON P0TXCLK = "L" Standard Mode, "JK" required for Start of Frame detection. SW3-6 OFF P0CRS = "H" AUTOMDI-X enabled AUTOMDI-X ON P0CRS = "L" AUTOMDI-X disabled SW3-7 OFF P0RXD0 = "L" Configures the upper two bits N and M of the PHY addresses. PHY Address0 ON P0RXD0 = "H" 00: device uses address 00xxx for SMI SW3-8 OFF P0RXD1 = "L" 01: device uses address 01xxx for SMI PHY Address1 ON P0RXD1 = "H" 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 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 R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Function Power supply LED (Lights up when 12V power is supplied) 3-38 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.3 3.Operational Specification 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] Figure3.3.1 RTK772100BC00000BR Dimensions 1 (Top View of Component Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Unit: mm 3-39 R7S72100 CPU board RTK772100BC00000BR (GENMAI) [Top View of Component Side] Figure3.3.2 Unit: mm RTK772100BC00000BR Dimensions 2 (Top View of Component Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3.Operational Specification 3-40 R7S72100 CPU board RTK772100BC00000BR (GENMAI) [Perspective View of Component Side] Figure3.3.3 Unit: mm RTK772100BC00000BR Dimensions 3 (Perspective View of Component Side) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3.Operational Specification 3-41 R7S72100 CPU board RTK772100BC00000BR (GENMAI) 3.Operational Specification This page intentionally left blank R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 3-42 R7S72100 CPU board RTK772100BC00000BR (GENMAI) Appendix Appendix RTK772100BC00000BR Schematics R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Appendix-1 R7S72100 CPU board RTK772100BC00000BR (GENMAI) R20UT2596EJ0008 Rev.0.08 Dec. 19, 2013 Appendix Appendix-2 1 2 3 4 5 R7S72100 CPU board RTK772100BC00000BR SCHEMATICS (RZ/A1H, BGA324) A A TITLE PAGE Index CPU-main CPU-power & clock, Dip-SW NOR-flash, SDRAM Serial-flash, NAND, EEPROM, MOST Audio-codec, USB, LAN SD/MMC, SPDIF, CAN, LVDS Serial(RS-232C, USB), UDI Power, Reset, Push-SW Ext. Connector B Note: 1 2 3 4 5 6 7 8 9 10 Digital GND (GND) Analog GND (AVss) B Not mounted 12VCC = Digital 12V (System Power) 5VCC = Digital 5V 3VCC = Digital 3.3V PVcc = 3.3V for CPU I/O Vcc = 1.18V for CPU Core PLLVcc = Digital 1.18V for PLL USBAPVcc = Analog 3.3V for USB USBAVcc = Analog 1.18V for USB AVcc = Analog 3.3V AVref = 3.3V for ADC Voltage Reference AN3V = Analog 3.3V for Audio-codec, LAN C R RA C CE CP = = = = = C Fixed Resistors Resistor Array Ceramic Caps Tantalum Electrolytic Caps Decoupling Caps D D CHANGE Renesas Solutions Corp. DRAWN SCALE DATE 1 2 CHECKED DESIGNED INDEX ( 1 / 10 ) D-RTK772100BC00000BR_C-A-R03 13-12-19 3 APPROVED RTK772100BC00000BR 4 5 4 2.2kΩ 2.2kΩ 2.2kΩ 2.2kΩ 2.2kΩ 2.2kΩ 2.2kΩ 2.2kΩ P1_0 P1_1 P1_2 P1_3 P1_4 P1_5 P1_6 P1_7 [5,10] P9_[7:2] P9_2 P9_3 P9_4 P9_5 P9_6 P9_7 [5,6,10] P1_[15:0] AVcc P1[11:8] D1 RB520S-30 C P1_8 P18 R9 100Ω D2 RB520S-30 C1 0.1µF AVcc D3 RB520S-30 P1_9 ADC P1_0 P1_1 P1_2 P1_3 P1_4 P1_5 P1_6 P1_7 P1_12 P1_13 P1_14 P1_15 P18 P19 P110 P111 C8 A6 B6 C7 A5 B5 A19 C17 B18 A18 B17 C16 A17 B16 AB19 Y18 AA19 Y19 AA17 AB18 Y17 AA18 P19 R10 100Ω D4 RB520S-30 P11_0/DV0_DATA12/TIOC4A/SCK6/LCD0_DATA7/VIO_D12 P11_1/DV0_DATA13/TIOC4B/TxD6/LCD0_DATA6/VIO_D13 P11_2/DV0_DATA14/TIOC4C/RxD6/LCD0_DATA5/VIO_D14 P11_3/DV0_DATA15/TIOC4D/LCD0_DATA4/VIO_D15 P11_4/DV0_DATA16/SD_CD_0/SSISCK4/MMC_CD/LCD0_DATA3 P11_5/DV0_DATA17/SD_WP_0/SSIWS4/LCD0_DATA2 P11_6/DV0_DATA18/SD_D1_0/SSIDATA4/MMC_D1/LCD0_DATA1 P11_7/DV0_DATA19/SD_D0_0/CTS5/MMC_D0/LCD0_DATA0 P11_8/DV0_DATA20/SD_CLK_0/RTS5/MMC_CLK/LCD0_TCON6 P11_9/DV0_DATA21/SD_CMD_0/SCK5/MMC_CMD/LCD0_TCON5 P11_10/DV0_DATA22/SD_D3_0/TxD5/MMC_D3/LCD0_TCON4 P11_11/DV0_DATA23/SD_D2_0/RxD5/MMC_D2/LCD0_TCON3 P11_12/CRx1/RSPCK1/IRQ3/MMC_D4/LCD0_TCON2 P11_13/CTx1/SSL10/LCD0_TCON4/MMC_D5/LCD0_TCON1 P11_14/SPDIF_IN/MOSI1/LCD0_TCON5/MMC_D6/LCD0_TCON0 P11_15/SPDIF_OUT/MISO1/IRQ1/MMC_D7/LCD0_CLK P9_2/LCD1_DATA18/SPBCLK_0/LTXD0/SCK1/A0 P9_3/LCD1_DATA19/SPBSSL_0/TxD1 P9_4/LCD1_DATA20/SPBIO00_0/RxD1 P9_5/LCD1_DATA21/SPBIO10_0/SSISCK2/CTS1/CS4 P9_6/LCD1_DATA22/SPBIO20_0/SSIWS2/RTS1/CS5 P9_7/LCD1_DATA23/SPBIO30_0/SSIDATA2/TIOC1A P1_0/SCL0/DV0_DATA16/TCLKA/IRQ0/VIO_VD/DV0_VSYNC P1_1/SDA0/DV0_DATA17/TCLKC/IRQ1/VIO_HD/DV0_HSYNC P1_2/SCL1/DV0_DATA18/FRB/IRQ2/LCD1_EXTCLK P1_3/SDA1/DV0_DATA19/ET_COL/IRQ3/ADTRG P1_4/SCL2/DV0_CLK/CRx1/IRQ4/CAN_CLK P1_5/SDA2/DV1_CLK/CRx4/IRQ5/VIO_CLK/LCD1_EXTCLK P1_6/SCL3/DV1_VSYNC/IERxD/IRQ6/VIO_D12/DV0_DATA12 P1_7/SDA3/DV1_HSYNC/LRXD0/IRQ7/VIO_D13/DV0_DATA13 P1_12/AN4/DV0_VSYNC/VIO_FLD P1_13/AN5/DV0_HSYNC/WAIT P1_14/AN6/ET_COL P1_15/AN7 P1_8/AN0/IRQ2/DREQ0/VIO_D14/DV0_DATA14 P1_9/AN1/IRQ3/VIO_D15/DV0_DATA15 P1_10/AN2/IRQ4/TCLKB P1_11/AN3/IRQ5/TCLKD P6_0/D0/LCD1_DATA8/LRXD0/DV0_CLK/TIOC1A/IRQ5/RxD3/DV0_DATA16 P6_1/D1/LCD1_DATA9/LTXD0/IRQ4/TIOC1B/SSIDATA4/TxD3/DV0_DATA17 P6_2/D2/LCD1_DATA10/LRXD1/IRQ7/TCLKA/TIOC2A/RxD2/DV0_DATA18 P6_3/D3/LCD1_DATA11/LTXD1/IRQ2/CTS5/TIOC2B/TxD2/DV0_DATA19 P6_4/D4/LCD1_DATA12/CRx2/IRQ3/RTS5/RSPCK1/DV0_DATA20 P6_5/D5/LCD1_DATA13/CTx2/SCK5/SSL10/DV0_DATA21 P6_6/D6/LCD1_DATA14/LCD0_TCON5/TxD5/MOSI1/DV0_DATA22 P6_7/D7/LCD1_DATA15/LCD0_TCON6/RxD5/MISO1/DV0_DATA23 P6_8/D8/DV0_DATA12/CAN_CLK/SCK0/LCD0_DATA0/IRQ0 P6_9/D9/DV0_DATA13/TxD0/LCD0_DATA1/IRQ1 P6_10/D10/DV0_DATA14/LCD0_TCON5/RxD0/LCD0_DATA2/IRQ2 P6_11/D11/DV0_DATA15/LCD0_TCON6/SCK1/LCD0_DATA3/IRQ3 P6_12/D12/DV0_DATA20/TXD1/LCD0_DATA4/IRQ4 P6_13/D13/DV0_DATA21/SCK6/RXD1/LCD0_DATA5/IRQ5 P6_14/D14/DV0_DATA22/TxD6/LCD0_DATA6/IRQ6 P6_15/D15/DV0_DATA23/RxD6/LCD0_DATA7/IRQ7 C2 0.1µF AVcc D5 RB520S-30 P1_10 D6 RB520S-30 C3 0.1µF AVcc D7 RB520S-30 P111 R12 100Ω D8 RB520S-30 B A4 C6 B4 C5 L4 L1 M2 M3 T1 T2 T3 U3 G2 G1 H3 J4 P11_0 P11_1 P11_2 P11_3 P11_4 P11_5 P11_6 P11_7 P11_8 P11_9 P11_10 P11_11 P11_12 P11_13 P11_14 P11_15 B3 D6 C4 D5 A2 C1 D2 D1 E3 E2 E1 F3 G4 F2 F1 G3 P6_0 P6_1 P6_2 P6_3 P6_4 P6_5 P6_6 P6_7 P6_8 P6_9 P6_10 P6_11 P6_12 P6_13 P6_14 P6_15 AB6 Y7 Y4 V19 W20 T20 T21 T22 R22 R21 R20 AA6 Y5 AA4 AB3 P3_0 P3_2 P3_7 P3_8 P3_9 P3_10 P3_11 P3_12 P3_13 P3_14 P3_15 P33 P34 P35 P36 C4 0.1µF 3B2 4B1 4A P5[7:0] [7] P5_0/TXCLKOUTP [7] P5_1/TXCLKOUTM [7] P5_2/TXOUT2P [7] P5_3/TXOUT2M [7] P5_4/TXOUT1P [7] P5_5/TXOUT1M [7] P5_6/TXOUT0P [7] P5_7/TXOUT0M P5_0 R13 R14 0Ω 0Ω P50 P5_1 R15 R16 0Ω 0Ω P51 P5_2 R19 R17 0Ω 0Ω P52 P5_3 R18 R20 0Ω 0Ω P53 P5_4 R21 R22 0Ω 0Ω P54 P5_5 R23 R24 0Ω 0Ω P55 P5_6 R25 R26 0Ω 0Ω P56 P5_7 R27 R29 0Ω 0Ω P57 [7] P5_9/CRx1 [6] P5_9/MDC 1 P5_8 P5_9 P5_10 P50 P51 P52 P53 P54 P55 P56 P57 B8 A7 B7 A11 B11 A10 B10 C11 C10 A9 B9 P5_8/LCD0_EXTCLK/IRQ0/DV1_CLK/DV0_CLK/CS2 P5_9/WE2/DQMUL/ET_MDC/DV0_VSYNC/IRQ2/CRx1/IERxD/LCD1_DATA16 P5_10/WE3/DQMUU/AH/DV0_HSYNC/CTx1/IETxD/LCD1_DATA17 P5_0/TXCLKOUTP/LCD1_DATA0/LCD0_DATA16/DV1_DATA0/TxD4/TIOC0A/RSPCK3 P5_1/TXCLKOUTM/LCD1_DATA1/LCD0_DATA17/DV1_DATA1/RxD4/TIOC0B/SSL30 P5_2/TXOUT2P/LCD1_DATA2/LCD0_DATA18/DV1_DATA2/SCK3/TIOC1B/MOSI3 P5_3/TXOUT2M/LCD1_DATA3/LCD0_DATA19/DV1_DATA3/TxD3/TIOC3C/MISO3 P5_4/TXOUT1P/LCD1_DATA4/LCD0_DATA20/DV1_DATA4/RxD3/TIOC3D/DV0_DATA12 P5_5/TXOUT1M/LCD1_DATA5/LCD0_DATA21/DV1_DATA5/AUDIO_XOUT/TIOC0C/FCE/DV0_DATA13 P5_6/TXOUT0P/LCD1_DATA6/LCD0_DATA22/DV1_DATA6/TxD6/IRQ6/SPDIF_IN/DV0_DATA14 P5_7/TXOUT0M/LCD1_DATA7/LCD0_DATA23/DV1_DATA7/RxD6/TIOC0D/SPDIF_OUT/DV0_DATA15 P3_1/LCD0_TCON0/ET_TXER/IRQ6/TxD2/SCI_TXD1/AUDIO_CLK/PWM2B/SSL30 AA7 P11_[15:0] [10] 3VCC LED1 SML-311YT R28 1.5kΩ JP4 2 3 LED2 SML-311YT P5_9 R30 1.5kΩ OE GND P25 7 P26 9 P27 12 1B1 1A 1B2 2B1 2A 2B2 3B1 3A 3B2 4B1 4A 4B2 3VCC 10 14 P2_2 13 P2_3 P2_1/TXER [6] P2_2/TXEN [6] P2_3/CRS [6] 8 2 3 5 P2_4 6 11 P2_5 10 14 P2_6 13 P2_7 P2_4/TxD[0] [6] P2_5/TxD[1] [6] P2_6/TxD[2] [6] P2_7/TxD[3] [6] P2_8/RxD[0] [6] P2_9/RxD[1] [6] MUX 16 Vcc CP2 0.1µF GND 8 U13 SN74CB3Q3257 Texas Instruments 4 P28 7 P29 P6_[15:0] [4] Data P210 9 P211 12 1B1 1A 1B2 2B1 2A 2B2 3B1 3A 3B2 4B1 4A 4B2 3VCC 2 3 5 P2_8 6 11 P2_9 10 14 P2_10 13 P2_11 P2_10/RxD[2] [6] P2_11/RxD[3] [6] 16 Vcc CP3 0.1µF GND 8 P3_[15:0] [4,5,7,8,10] U14 SN74CB3Q3257 Texas Instruments P33 4 P34 7 9 P35 12 P36 1B1 1A 1B2 2B1 2A 2B2 3B1 3A 3B2 4B1 4A 4B2 3VCC 2 P3_3/MDIO [6] 3 5 P3_3 6 11 P3_4 10 14 P3_5 13 P3_6 P3_4/RXCLK [6] P3_5/RXER [6] P3_6/RXDV [6] MUX 16 Vcc 1 GND 8 B [3] SW2-1 P3_1 2 P3_1/IRQ6 [9] P4_[15:0] [5,6,7,10] U15 SN74CB3Q3257 Texas Instruments P4_0 P4_1 P4_2 P4_3 P4_8 P4_9 P4_10 P4_11 P4_12 P4_13 P4_14 P4_15 P44 P45 P46 P47 P44 4 P45 7 P46 9 P47 12 1B1 1A 1B2 2B1 2A 2B2 3B1 3A 3B2 4B1 4A 4B2 3VCC 2 P4_4/SSISCK0 3 5 P4_4 6 11 P4_5 10 14 P4_6 13 P4_7 P4_5/SSIWS0 [6] [6] P4_6/SSIRxD0 [6] P4_7/SSITxD0 [6] MUX 16 CP5 0.1µF P4_10 P4_10/SD_D1_0/(LED1) P4_11 P4_11/SD_D0_0/(LED2) Vcc GND 8 [3] SW2-2 HWP-3P-G A A CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR CPU-main ( 2 / 10 ) SCALE DATE 5 C MUX 1 P20 P22 P21 N22 K20 K21 J22 H19 H22 G21 G19 F22 M21 M20 L22 L20 P2_1 U12 SN74CB3Q3257 Texas Instruments 4 P4[7:4] P4_0/LCD0_DATA8/TIOC0A/FRE/RSPCK4/MMC_D4 P4_1/LCD0_DATA9/TIOC0B/FCLE/SCK2/SSL40/MMC_D5 P4_2/LCD0_DATA10/TIOC0C/FALE/CRx3/TxD2/MOSI4/MMC_D6 P4_3/LCD0_DATA11/TIOC0D/FWE/CTx3/RxD2/MISO4/MMC_D7 P4_8/LCD0_DATA16/LCD1_TCON3/SD_CD_0/MMC_CD/SSISCK5/CTx2/SCK0/IRQ0 P4_9/LCD0_DATA17/LCD1_TCON4/SD_WP_0/SSIWS5/CRx2/TxD0/IRQ1 P4_10/LCD0_DATA18/LCD1_TCON5/SD_D1_0/MMC_D1/SSIRxD5/RxD0/IRQ2 P4_11/LCD0_DATA19/LCD1_TCON6/SD_D0_0/MMC_D0/SSITxD5/CTx4/SCK1/IRQ3 P4_12/LCD0_DATA20/LCD1_CLK/SD_CLK_0/MMC_CLK/SPBIO10_1/SSISCK3/TxD1/IRQ4 P4_13/LCD0_DATA21/LCD1_TCON0/SD_CMD_0/MMC_CMD/SPBIO11_1/SSIWS3/RxD1/IRQ5 P4_14/LCD0_DATA22/LCD1_TCON1/SD_D3_0/MMC_D3/SPBIO21_1/SSIRxD3/TxD2/IRQ6 P4_15/LCD0_DATA23/LCD1_TCON2/SD_D2_0/MMC_D2/SPBIO31_1/SSITxD3/RxD2/IRQ7 P4_4/LCD0_DATA12/RSPCK1/TIOC4A/PWM2E/SSISCK0/DV0_DATA12 P4_5/LCD0_DATA13/SSL10/TIOC4B/PWM2F/SSIWS0/DV0_DATA13 P4_6/LCD0_DATA14/MOSI1/TIOC4C/PWM2G/SSIRxD0/DV0_DATA14 P4_7/LCD0_DATA15/MISO1/TIOC4D/PWM2H/SSITxD0/DV0_DATA15 6 11 15 1 CP1 0.1µF P24 JP3 HWP-3P-G 3 P5_[10:0] P2_0 D S Vcc CP4 0.1µF [4,5,7,8,10] 4B2 P2_0/TXCLK [6] 3 5 MUX 16 P3[6:3] P3_0/LCD0_CLK/ET_TXCLK/IRQ2/SCK2/SCI_SCK1/TxD2/PWM2A/RSPCK3 P3_2/LCD0_TCON1/ET_TXEN/RxD2/SCI_RXD1/TEND0/PWM2C/MOSI3 P3_7/LCD0_TCON6/SSITxD1/LCD1_EXTCLK/SCI_CTS0/RTS0/TIOC3D/CS1/WDTOVF P3_8/LCD0_DATA0/NAF0/TRACEDATA0/TIOC4A/SD_CD_1/MMC_CD P3_9/LCD0_DATA1/NAF1/TRACEDATA1/TIOC4B/SD_WP_1/IRQ6 P3_10/LCD0_DATA2/NAF2/TRACEDATA2/TIOC4C/SD_D1_1/MMC_D1 P3_11/LCD0_DATA3/NAF3/TRACEDATA3/TIOC4D/SD_D0_1/MMC_D0 P3_12/LCD0_DATA4/NAF4/SD_CLK_1/MMC_CLK P3_13/LCD0_DATA5/NAF5/AUDIO_XOUT/SD_CMD_1/MMC_CMD P3_14/LCD0_DATA6/NAF6/TRACECLK/SD_D3_1/MMC_D3 P3_15/LCD0_DATA7/NAF7/TRACECTRL/SD_D2_1/MMC_D2 P3_3/LCD0_TCON2/ET_MDIO/IRQ4/BS/SCI_CTS1/RTS1/DACK0/PWM2D/MISO3 P3_4/LCD0_TCON3/ET_RXCLK/SSISCK1/AUDIO_XOUT2/SCI_SCK0/TIOC3A/SCK3 P3_5/LCD0_TCON4/ET_RXER/SSIWS1/AUDIO_XOUT3/SCI_TXD0/TIOC3B/TxD3 P3_6/LCD0_TCON5/ET_RXDV/SSIRxD1/SCI_RXD0/TIOC3C/RxD3 P110 R11 100Ω P1_11 P10_0 P10_1 P10_2 P10_3 P10_4 P10_5 P10_6 P10_7 P10_8 P10_9 P10_10 P10_11 P10_12 P10_13 P10_14 P10_15 2B2 3B1 3A 3VCC P10_[15:0] [10] AB4 AA5 Y6 AB5 N19 N20 N21 M22 J21 J20 H21 H20 E21 F20 D22 D21 12 P23 2A OE R1 R2 R3 R4 R5 R6 R7 R8 9 1B2 2B1 OE 3VCC P22 1B1 1A OE [5] P8_12/SPBCLK_1 7 OE R41 22Ω 4 P21 15 A20 P10_0/DV0_CLK/TCLKA/PWM2A/ET_TXCLK/LCD0_DATA23/VIO_CLK P10_1/DV0_VSYNC/TCLKB/PWM2B/ET_TXER/LCD0_DATA22/VIO_VD P10_2/DV0_HSYNC/TCLKC/PWM2C/ET_TXEN/LCD0_DATA21/VIO_HD P10_3/TCLKD/PWM2D/ET_CRS/LCD0_DATA20/VIO_FLD P10_4/DV0_DATA0/TIOC0A/PWM2E/ET_TXD0/LCD0_DATA19/VIO_D0 P10_5/DV0_DATA1/TIOC0B/PWM2F/ET_TXD1/LCD0_DATA18/VIO_D1 P10_6/DV0_DATA2/TIOC0C/PWM2G/ET_TXD2/LCD0_DATA17/VIO_D2 P10_7/DV0_DATA3/TIOC0D/PWM2H/ET_TXD3/LCD0_DATA16/VIO_D3 P10_8/DV0_DATA4/TIOC1A/ET_RXD0/LCD0_DATA15/VIO_D4 P10_9/DV0_DATA5/TIOC1B/ET_RXD1/LCD0_DATA14/VIO_D5 P10_10/DV0_DATA6/TIOC2A/ET_RXD2/LCD0_DATA13/VIO_D6 P10_11/DV0_DATA7/TIOC2B/ET_RXD3/LCD0_DATA12/VIO_D7 P10_12/DV0_DATA8/SSISCK1/RSPCK0/LCD0_DATA11/VIO_D8 P10_13/DV0_DATA9/SSIWS1/SSL00/LCD0_DATA10/VIO_D9 P10_14/DV0_DATA10/SSIRxD1/MOSI0/LCD0_DATA9/VIO_D10 P10_15/DV0_DATA11/SSITxD1/MISO0/LCD0_DATA8/VIO_D11 P20 2 15 2 [7] P8_8/SPDIF_IN P7_9/A1/SSIWS3/ET_RXD0/CTx0/TIOC3B/IRQ0 P7_10/A2/SSIRxD3/ET_RXD1/CTx1/TIOC3C/IRQ2 P7_11/A3/SSITxD3/ET_RXD2/CRx1/TIOC3D/IRQ3 P7_12/A4/SSISCK4/ET_RXD3/TIOC4A/IRQ4 P7_13/A5/SSIWS4/ET_MDIO/TIOC4B/IRQ5 P7_14/A6/SSIDATA4/ET_CRS/TIOC4C/IRQ6 P7_15/A7/RSPCK0/ET_RXCLK/CTS5/SCI_TXD0/TIOC4D P8_0/A8/SSL00/ET_RXER/SCK5/SCI_SCK0 P8_1/A9/MOSI0/ET_RXDV/TXD5/SCI_RXD0 P8_2/A10/MISO0/RXD5/IRQ0 P8_3/A11/DV1_DATA0/RSPCK2/RTS5/IRQ1/SCK2 P8_4/A12/DV1_DATA1/SSL20/IERxD/RxD2 P8_5/A13/DV1_DATA2/MOSI2 P8_6/A14/DV1_DATA3/MISO2/IETxD/TxD2 P8_7/A15/DV1_DATA4/AUDIO_XOUT/IRQ5/ET_COL P8_9/A17/DV1_DATA6/SPBIO10_1/SPDIF_OUT/TIOC1B/PWM1B/RxD3/SSIWS5 P8_10/A18/DV1_DATA7/SPBIO20_1/TIOC3A/CTx4/PWM1C/SGOUT_0/SSITxD5 P8_11/A19/SPBIO30_1/TIOC3B/RxD5/PWM1D/SGOUT_1/DV0_CLK P8_13/A21/SPBSSL_1/TIOC3D/TXD5/PWM1F/SGOUT_3/SSIWS4 P8_14/A22/SPBIO01_0/SPBIO00_1/TIOC2A/RSPCK2/PWM1G/TxD4/SSIDATA4 P8_15/A23/SPBIO11_0/SPBIO10_1/TIOC2B/SSL20/PWM1H/RxD4 P9_0/A24/SPBIO21_0/CTx0/TCLKC/MOSI2 P9_1/A25/SPBIO31_0/CRx0/IRQ0/MISO2 P8_8/A16/DV1_DATA5/SPBIO00_1/SPDIF_IN/TIOC1A/PWM1A/TxD3/SSISCK5 P8_12/A20/SPBCLK_1/TIOC3C/SCK5/PWM1E/SGOUT_2/SSISCK4 U11 SN74CB3Q3257 Texas Instruments P2_12 P2_13 P2_14 P2_15 P20 P21 P22 P23 P24 P25 P26 P27 P28 P29 P210 P211 15 JP2 HWP-3P-G 3 K1 L3 L2 M1 N1 N2 N3 P1 P2 P3 R1 R2 R3 U2 U4 V3 W2 W3 V4 Y2 AA1 AB2 AA3 V2 Y1 A21 A20 C18 B19 L21 K22 F21 G20 F19 E22 E20 C22 D20 C21 B22 E19 15 1 A1 A2 A3 A4 A5 A6 A7 A8 A9 A10 A11 A12 A13 A14 A15 A17 A18 A19 A21 A22 A23 A24 A25 P2_12/D28/RSPCK0/DV0_DATA12/SPBIO01_0/CRx3/IRQ6/LCD1_DATA12/TIOC1B P2_13/D29/SSL00/DV0_DATA13/SPBIO11_0/CTx3/SCK0/LCD1_DATA13/IRQ7 P2_14/D30/MOSI0/DV0_DATA14/SPBIO21_0/CRx4/TxD0/LCD1_DATA14/IRQ0 P2_15/D31/MISO0/DV0_DATA15/SPBIO31_0/CAN_CLK/RxD0/LCD1_DATA15/IRQ1 P2_0/D16/ET_TXCLK/DV0_DATA0/SPBIO00_1/MLB_CLK/IRQ5/VIO_D0/LCD0_DATA16 P2_1/D17/ET_TXER/DV0_DATA1/SPBIO10_1/MLB_DAT/TIOC2A/VIO_D1/LCD0_DATA17 P2_2/D18/ET_TXEN/DV0_DATA2/SPBIO20_1/MLB_SIG/TIOC2B/VIO_D2/LCD0_DATA18 P2_3/D19/ET_CRS/DV0_DATA3/SPBIO30_1/IERxD/CTS1/VIO_D3/LCD0_DATA19 P2_4/D20/ET_TXD0/DV0_DATA4/SSISCK5/SPBCLK_1/SCK1/VIO_D4/LCD0_DATA20 P2_5/D21/ET_TXD1/DV0_DATA5/SSIWS5/SPBSSL_1/TxD1/VIO_D5/LCD0_DATA21 P2_6/D22/ET_TXD2/DV0_DATA6/SSIRxD5/RxD1/VIO_D6/LCD0_DATA22 P2_7/D23/ET_TXD3/DV0_DATA7/SSITxD5/IETxD/RTS1/VIO_D7/LCD0_DATA23 P2_8/D24/ET_RXD0/DV0_DATA8/SSISCK0/LCD0_TCON6/LCD1_DATA8/VIO_D8/RSPCK4 P2_9/D25/ET_RXD1/DV0_DATA9/SSIWS0/LRXD0/LCD1_DATA9/VIO_D9/SSL40 P2_10/D26/ET_RXD2/DV0_DATA10/SSIRxD0/LTXD0/LCD1_DATA10/VIO_D10/MOSI4 P2_11/D27/ET_RXD3/DV0_DATA11/SSITxD0/TIOC1A/LCD1_DATA11/VIO_D11/MISO4 S D P2_[15:0] [5,10] P2[11:0] P7_0/MD_BOOT2/CS0/DV0_DATA16/ET_MDC/SCK4/LTXD0/TIOC0A P7_1/CS3/DV0_DATA17/ET_TXCLK/TXD4/DV0_CLK/SSISCK1/TIOC0B P7_2/RAS/DV0_DATA18/ET_TXER/RXD4/CRx2/SSIWS1/TIOC0C P7_3/CAS/DV0_DATA19/ET_TXEN/SCK7/CTx2/SSIRxD1/TIOC0D P7_4/CKE/DV0_DATA20/ET_TXD0/TXD7/SSITxD1/TIOC1A P7_5/RD/WR/DV0_DATA21/ET_TXD1/RXD7/SSISCK2/TIOC1B P7_6/WE0/DQMLL/DV0_DATA22/ET_TXD2/CTS7/SSIWS2/TIOC2A P7_7/WE1/DQMLU/DV0_DATA23/ET_TXD3/RTS7/SSIDATA2/TIOC2B P7_8/RD/SSISCK3/CRx0/TIOC3A/IRQ1 1 A[25:1] H4 H2 H1 J3 J2 J1 K3 K2 K4 S HWP-2P-G P7_0 P7_1 P7_2 P7_3 P7_4 P7_5 P7_6 P7_7 P7_8 1 P7_2 [7] P7_2/CRx2 A16 1 S P7_[8:0] JP1 [4,5,7,10] 2 S [4,7,10] 3 U1A RZ/A1H_BGA324 Renesas 1 5 4 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 2 1 5 4 R31 18Ω C6 10pF VDAVcc CP23 0.1µF GND OE 1 GND OE XR2A-0811-N 1 R39 18Ω 8 4 AB15 AA15 R40 18Ω C63 8pF X8 SG-8002DC_22.5792MHz 5 VCC OUT GND OE USB_X1 USB_X2 VRP R55 1kΩ 1 U16 CY2305SC-1H Cypress 8 R51 REF CLKOUT 3 CLK1 2 R50 3VCC CLK2 5 22Ω CLK3 6 7 VDD CLK4 CP47 0.1µF VBUSIN0 DM_0 DP_0 VIDEO_X1 VIDEO_X2 VBUSIN1 DM_1 DP_1 REFRIN 1 GND 3VCC VIN1A VIN2A VIN1B VIN2B Y22 Y21 4 C62 8pF 2 X7 FA-128_27MHz 3 1 P0_4/RTC_X3 P0_5/RTC_X4 VRM REXT R48 1MΩ + CE7 4.7µF/10V R34 0Ω AB9 AA9 X5 SG-8002DC_48MHz 8 5 VCC OUT 4 22Ω W22 W21 AUDIO_X1 AUDIO_X2 TRST JP0_0/TDI JP0_1/TDO TMS TCK [10] AUDIO_XTAL1 [10] AUDIO_XTAL2 [6] WM8978/MCLK R59 R60 R61 [4] CKIO_SD1 [4] CKIO_SD2 [10] CKIO_CN 22Ω 22Ω 22Ω LVDSREFRIN V1 Vss69 Vss70 BSCANP CKIO B15 A15 C7 0.1µF B13 A13 C9 0.1µF C8 C10 C13 C14 Y12 AB12 AA12 Y11 AA11 AB11 AA13 V20 V21 U20 V22 U21 Y9 Y8 D11 C12 0.1µF C14 2.2µF 0.1µF 0.1µF VIN3 VIN4 C13 0.1µF D _22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ R32 R35 R33 R36 R37 R38 VIN[4:1] VIN1 VIN2 C11 0.1µF D14 12 11 10 9 8 7 J1 T5857 EMUDEN VIN1 1 3 VIN3 VIN2 2 4 VIN4 R47 22kΩ-1% VBUS0 [6] DM0 [6] DP0 [6] USB VBUS1 [6] DM1 [6] DP1 [6] R49 5.6kΩ-1% 3VCC TRST# [8] TDI [8] TDO [8] TMS [8] TCK [8] JTAG C NMI [9,10] RES# [4,5,6,8,10] Interrupt R58 5.6kΩ-1% Y10 C9 AA22 R63 R64 PVcc1 PVcc2 PVcc3 PVcc4 PVcc5 PVcc6 PVcc7 PVcc8 PVcc9 PVcc10 PVcc11 PVcc12 PVcc13 PVcc14 PVcc15 PVcc16 PVcc17 PVcc18 PVcc19 PVcc20 PVcc21 PVcc22 NMI RES R52 R53 R54 PVcc B20 C19 D7 D8 D16 D17 D18 L19 M19 N4 P4 W4 W5 W6 W12 W13 W19 Y3 Y20 AA2 AA21 AB1 [4] P7_0/MD_BOOT2 A16 A3 B12 C5 10pF X4 SG-8002CA_4MHz 3 VCC OUT 2 3VCC CP46 0.1µF 3VCC W17 AB20 B 22kΩ 22kΩ 22kΩ 22kΩ B Vss1 Vss2 Vss3 Vss4 Vss5 Vss6 Vss7 Vss8 Vss9 Vss10 Vss11 Vss12 Vss13 Vss14 Vss15 Vss16 Vss17 Vss18 Vss19 Vss20 Vss21 Vss22 Vss23 Vss24 Vss25 Vss26 Vss27 Vss28 Vss29 Vss30 Vss31 Vss32 Vss33 Vss34 Vss35 Vss36 Vss37 Vss38 Vss39 Vss40 Vss41 Vss42 Vss43 Vss44 Vss45 Vss46 Vss47 Vss48 Vss49 Vss50 Vss51 Vss52 Vss53 Vss54 Vss55 Vss56 Vss57 Vss58 Vss59 Vss60 Vss61 Vss62 Vss63 Vss64 Vss65 Vss66 Vss67 CP21 0.1µF P0_2/MD_CLK P0_3/MD_CLKS Vss68 4 C VDAVss B1 C2 D3 D13 E4 F4 J19 K19 M4 R4 R19 T4 T19 U19 W9 W10 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 A1 A8 A12 A22 B2 B21 C3 C15 C20 D4 D10 D15 D19 G22 J9 J10 J11 J12 J13 J14 K9 K10 K11 K12 K13 K14 L9 L10 L11 L12 L13 L14 M9 M10 M11 M12 M13 M14 N9 N10 N11 N12 N13 N14 P9 P10 P11 P12 P13 P14 P19 U1 U22 W1 W7 W8 W11 W15 W16 Y14 AA10 AA14 AB7 AB10 AB13 AB17 AB22 Vcc Vcc1 Vcc2 Vcc3 Vcc4 Vcc5 Vcc6 Vcc7 Vcc8 Vcc9 Vcc10 Vcc11 Vcc12 Vcc13 Vcc14 Vcc15 Vcc16 CP25 CP26 CP27 CP28 CP35 CP36 CP37 CP38 CP29 CP39 CP30 CP31 CP40 CP32 CP41 CP33 CP22 0.1µF A14 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 0.1µF/1005 22µF/10V 4 RTC_X1 RTC_X2 + CE8 4.7µF/10V CP48 CP67 CP49 CP50 CP51 CP52 CP53 CP68 CP54 CP55 CP56 CP57 CP69 CP58 CP70 CP71 CP59 CP60 CP61 CP62 CP63 CP72 + CE3 3VCC VDAVcc AVss1 AVss2 B14 AB8 AA8 X2 MC-306 32.768KHz 5 1 1 2 3 4 5 6 6 GND OE SW1 A6S-6104 OMRON Y15 Y16 _22kΩ _22kΩ 4 P0_0/MD_BOOT0 P0_1/MD_BOOT1 _0.33µF CP6 0.1µF EXTAL XTAL R56 R57 + CE6 4.7µF/10V U1B RZ/A1H_BGA324 C59 CP10 0.001µF AB16 AA16 0Ω 0Ω CP9 0.01µF X1 SG-8002DC_13.3333MHz 5 VCC OUT [2] SW2-1 [2] SW2-2 TP2 R65 R66 R67 R68 CP16 0.1µF 8 75Ω 75Ω 75Ω 75Ω 10µF/16V 3VCC R42 R43 R44 R45 + CE2 22µF/10V USBAPVcc 22Ω 22Ω 22Ω + CE5 LVDSAPVcc CP17 D LVDSPLLVcc W14 D9 C12 D12 0.1µF/1005 0.1µF/1005 USBAPVcc 3VCC PLLVcc CP13 CP14 PLLVcc LVDSPLLVcc LVDSAPVcc1 LVDSAPVcc2 AB14 1 AVcc 0.1µF/1005 CP8 0.001µF CP12 10µF/16V CP7 0.01µF AB21 W18 AA20 0.1µF/1005 22µF/10V CP15 0.1µF AVref AVcc1 AVcc2 CP19 + CE1 2 AVref USBAVcc 0.1µF/1005 0.1µF/1005 + CE4 U1C RZ/A1H_BGA324 0.1µF/1005 Y13 CP18 CP11 USBAVcc 3 SW2 A6S-4104 OMRON 1 2 3 4 8 7 6 5 Vcc + CE9 + CE10 220µF/6.3V 220µF/6.3V A A CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR CPU-power & clock, Dip-SW ( 3 / 10 ) SCALE DATE 5 4 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 2 1 1 3 4 5 A[25:1] A[25:1] P5_[10:0] P5_[10:0] P7_[8:0] [2,7,10] P7_[8:0] D[15:0] [2] P6_[15:0] 1 2 3 4 MNR14_22kΩ RA5 8 7 6 5 P6_11 P6_10 P6_9 P6_8 1 2 3 4 MNR14_22Ω RA6 8 7 6 5 D11 D10 D9 D8 P6_12 P6_13 P6_14 P6_15 1 2 3 4 MNR14_22kΩ RA7 8 7 6 5 P6_15 P6_14 P6_13 P6_12 1 2 3 4 MNR14_22Ω RA8 8 7 6 5 D15 D14 D13 D12 3VCC MNR14_22Ω [3] P7_0/MD_BOOT2 P7_8/RD P7_6/WE0/DQMLL P7_8 P7_6 2 3 32 34 13 DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 RFU1 RFU2 RFU3 DNU RY/BY CE OE WE 51 49 47 45 42 40 38 36 50 48 46 44 41 39 37 35 D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 3VCC 27 30 53 28 17 RESET WP VCC A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 21 20 36 35 22 34 33 32 31 30 29 26 25 24 23 19 18 17 16 P5_8/CS2 P7_2/RAS/CRx2 P7_3/CAS/CTx2 P7_5/RDWR P5_8 P7_2 P7_3 P7_5 P7_7/DQMLU P7_6/WE0/DQMLL P7_7 P7_6 39 15 P7_4/CKE P7_4 37 38 R70 0Ω [3] CKIO_SD1 3VCC VIO 14 16 RES# U4 IS42S16320B ISSI NC(A25) A24 A23 A22 A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 29 43 33 52 [3,5,6,8,10] P7_0 R71 R72 JP5 HWP-3P-G 1 P7_0/MD_BOOT2/CS0 A25 A24 A23 A22 A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 55 56 1 2 15 12 11 18 19 54 3 4 5 6 7 8 9 10 20 21 22 23 24 25 26 31 BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 CS RAS CAS WE NC 53 51 50 48 47 45 44 42 13 11 10 8 7 5 4 2 A D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 40 3VCC DQMU DQML VDD VDD VDD CKE CLK VDDQ VDDQ VDDQ VDDQ 1 14 27 3VCC 3 9 43 49 B + CE12 4.7µF/10V 0.1µF 0.1µF 0.1µF 0.1µF D7 D6 D5 D4 SDRAM1 (64MB) U2 S29GL512S-56 Spansion 0.1µF 0.1µF 0.1µF P6_8 P6_9 P6_10 P6_11 MNR14_22kΩ 1 2 3 4 NOR-flash1 (64MB) CP79 CP80 CP81 CP82 1 2 3 4 P6_7 P6_6 P6_5 P6_4 MNR14_22Ω RA4 8 7 6 5 CP76 CP77 CP78 P6_4 P6_5 P6_6 P6_7 MNR14_22kΩ RA3 8 7 6 5 A D[15:0] [10] VSSQ VSSQ VSSQ VSSQ D3 D2 D1 D0 VSS VSS VSS 8 7 6 5 6 12 46 52 RA2 28 41 54 1 2 3 4 22kΩ P6_3 P6_2 P6_1 P6_0 R69 3VCC C16 8 7 6 5 0.1µF 0.1µF RA1 VSS VSS 1 2 3 4 22kΩ 22kΩ P6_0 P6_1 P6_2 P6_3 _18pF [2,5,7,10] [2,5,7,8,10] 2 + CE11 4.7µF/10V B SDRAM2 (64MB) U5 IS42S16320B ISSI 3VCC 8 CP94 0.1µF 4 X9 _SG-8002DC VCC OUT GND OE XR2A-0811-N 5 1 VIO VCC A25 A24 A23 A22 A21 A16 R89 R90 R91 R92 R93 R94 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ A20 R324 _22kΩ VDD VDD VDD CKE CLK 28 41 54 29 3VCC DQMU DQML VDDQ VDDQ VDDQ VDDQ 1 14 27 3VCC 3 9 43 49 R86 R87 C17 3VCC 40 0.1µF 0.1µF 0.1µF 0.1µF 22kΩ 17 NC D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 0.1µF 0.1µF 0.1µF 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 37 38 [3] CKIO_SD2 CS RAS CAS WE 53 51 50 48 47 45 44 42 13 11 10 8 7 5 4 2 CP88 CP90 CP89 CP91 27 30 53 28 _22kΩ _22kΩ _18pF RY/BY CE OE WE RESET WP 19 18 17 16 DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 VSSQ VSSQ VSSQ VSSQ _22kΩ R74 R75 R76 R77 R78 R79 0Ω R73 R80 39 15 RFU1 RFU2 RFU3 DNU C + CE13 4.7µF/10V 43 1 R88 18Ω P7_1 BA1 BA0 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 CP85 CP86 CP87 2 P3_7 P7_1/CS3 21 20 36 35 22 34 33 32 31 30 29 26 25 24 23 + CE14 4.7µF/10V CP92 CP93 P3_7/LCD1_EXTCLK/CS1 14 16 JP6 HWP-3P-G 3 3VCC R85 P3_[15:0] D15 D14 D13 D12 D11 D10 D9 D8 D7 D6 D5 D4 D3 D2 D1 D0 33 52 [2,5,7,8,10] 32 34 13 DQ15 DQ14 DQ13 DQ12 DQ11 DQ10 DQ9 DQ8 DQ7 DQ6 DQ5 DQ4 DQ3 DQ2 DQ1 DQ0 51 49 47 45 42 40 38 36 50 48 46 44 41 39 37 35 0.1µF 0.1µF C NC(A25) A24 A23 A22 A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 A0 VSS VSS R81 R82 R83 R84 22kΩ 22kΩ 22kΩ 22kΩ 3VCC A25 A24 A23 A22 A21 A20 A19 A18 A17 A16 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 55 56 1 2 15 12 11 18 19 54 3 4 5 6 7 8 9 10 20 21 22 23 24 25 26 31 A15 A14 A13 A12 A11 A10 A9 A8 A7 A6 A5 A4 A3 A2 A1 6 12 46 52 U3 S29GL512S-56 Spansion VSS VSS VSS CP83 CP84 NOR-flash2 (64MB) D D CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR NOR-flash, SDRAM ( 4 / 10 ) SCALE DATE 1 2 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 4 5 5 4 3 2 1 [2,10] P2_[15:0] R99 16 7 15 8 9 1 3 14 JP7 HWP-2P-G RES# SCK CS# SI/IO0 SO/IO1 WP#/IO2 HOLD#/IO3 RESET#/RFU VIO/RFU 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ NAND-flash (512MB) P5_[10:0] 3VCC VCC DNU1 DNU2 DNU3 DNU4 RFU NC VSS 2 4 5 11 12 6 13 10 P3_15/NAF7/MMC_D2 P3_14/NAF6/TRACECLK/MMC_D3 P3_13/NAF5/MMC_CMD P3_12/NAF4/MMC_CLK P3_11/NAF3/TRACEDATA3/MMC_D0 P3_10/NAF2/TRACEDATA2/MMC_D1 P3_9/NAF1/TRACEDATA1/SD_WP_1 P3_8/NAF0/TRACEDATA0/MMC_CD CP95 0.1µF 0Ω 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22Ω 3VCC P4_3/FWE/MMC_D7 P4_2/FALE/MOSI4/MMC_D6 P4_1/FCLE/SSL40/MMC_D5 P4_0/FRE/RSPCK4/MMC_D4 P4_3 P4_2 P4_1 P4_0 P1_2/SCL1/FRB P5_5/TXOUT1M/FCE P1_2 P5_5 R106 R107 R108 R109 R111 R112 R105 R319 P2_12/SPBIO01_0 P2_13/SPBIO11_0 P2_14/SPBIO21_0 P2_15/SPBIO31_0 16 7 15 8 9 1 3 14 P2_12 P2_13 P2_14 P2_15 SCK CS# SI/IO0 SO/IO1 WP#/IO2 HOLD#/IO3 RESET#/RFU VIO/RFU 2 4 5 11 12 6 13 10 A21 A22 A23 A18 A19 R322 JP8 22Ω U8 S25FL512S-16 Spansion R119 R120 P8_12/A20/SPBCLK_1 P8_13/A21/SPBSSL_1 P8_14/A22/SPBIO00_1 P8_15/A23/SPBIO10_1 P8_10/A18/SPBIO20_1 P8_11/A19/SPBIO30_1 16 7 15 8 9 1 3 14 HWP-2P-G SCK CS# SI/IO0 SO/IO1 WP#/IO2 HOLD#/IO3 RESET#/RFU VIO/RFU 0Ω 0Ω R115 R116 0Ω 0Ω 37 12 34 39 I/O7 I/O6 I/O5 I/O4 I/O3 I/O2 I/O1 I/O0 WE ALE CLE RE R/B CE WP 27 28 33 NC18 NC19 NC20 Vss1 Vss2 Vss3(ONFI) Vss4(ONFI) 35 38 NC22 NC23 40 45 46 47 NC25 NC26 NC27 NC28 0.1µF 0.1µF 0.1µF 0.1µF VCC1 VCC2 VCC3(ONFI) VCC4(ONFI) D 1 2 3 4 5 6 10 11 14 15 20 21 22 23 24 26 NC1 NC2 NC3 NC4 NC5 NC6 NC7 NC8 NC9 NC10 NC11 NC12 NC13 NC14 NC15 NC16 + CP97 CP98 CP99 CP100 _22kΩ _22kΩ 22kΩ 22kΩ 22kΩ 22kΩ Serial-flash3(64MB) A[25:1] R117 R118 R121 R122 [2,4,7,10] R113 R114 13 36 25 48 CP96 0.1µF CE15 4.7µF/10V C 19 3VCC 3VCC [2] P8_12/SPBCLK_1 7 9 0Ω 3VCC VCC DNU1 DNU2 DNU3 DNU4 RFU NC VSS U9 _S34ML04G1 Spansion 44 43 42 41 32 31 30 29 18 17 16 8 R110 Serial-flash2(64MB) U7 S25FL512S-16 Spansion P3_15 P3_14 P3_13 P3_12 P3_11 P3_10 P3_9 P3_8 C 3VCC VCC DNU1 DNU2 DNU3 DNU4 RFU NC VSS 2 4 5 11 12 6 13 10 MOST50 3VCC P2_3/ET_CRS/(RESETB) P2_3 P1_4 P1_5 CP103 CP102 B P2_0 P2_0/MLB_CLK P2_2 P2_2/MLB_SIG P2_1 P2_1/MLB_DAT + CE16 4.7µF/10V B CP104 0.1µF 0.1µF P1_4/SCL2 P1_5/SDA2 3VCC J3 QSH-020-01-L-D-DP-A Samtec 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 FG FG 42 43 FG FG 44 CP101 0.1µF 47kΩ 47kΩ 47kΩ 22Ω U6 S25FL512S-16 Spansion [2,4,7,8,10] R123 R124 R125 R320 P4_[15:0] 0.1µF [3,4,6,8,10] P9_2 P9_3 P9_4 P9_5 P9_6 P9_7 R321 R95 R96 R97 R98 P9_2/SPBCLK_0 P9_3/SPBSSL_0 P9_4/SPBIO00_0 P9_5/SPBIO10_0 P9_6/SPBIO20_0 P9_7/SPBIO30_0 P3_[15:0] [2,6,7,10] [2,6,10] P1_[15:0] Serial-flash1(64MB) [2,10] P9_[7:2] D [2,4,7,8,10] R100 R101 R102 R103 R104 22kΩ 3VCC _22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 3VCC EEPROM(16KB) P1_4/SCL2 P1_4 R126 0Ω P1_5/SDA2 P1_5 R127 0Ω 7 3VCC TH1 TH2 P5_10/CTx1/(RESETB) P5_10 U10 R1EX24128ASA00A RENESAS 3 SCL A2 2 A1 1 5 SDA A0 6 TH8 2.54mm TH7 TH3 TH6 TH4 TH5 R128 22kΩ 4 3VCC WP VSS VCC 8 CP105 0.1µF P1_3 P1_3/SDA1 P1_2 P1_2/SCL1/FRB 3VCC CP106 0.1µF 15.24mm A A CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR S-falsh, NAND, MOST, EEPROM ( 5 / 10 ) SCALE DATE 5 4 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 2 1 5 4 3 2 1 5VCC _0Ω R130 0Ω U17 MIC-2026-2YM MICREL 3VCC C18 0.1µF C19 0.1µF C20 0.1µF C21 0.1µF TP3 2 TP4 3 4 47kΩ 220pF 47kΩ 220pF 47kΩ 220pF C25 R135 C23 R136 C22 R134 C24 R133 + 2.2kΩ 2.2kΩ R138 C27 1µF J5 UBA-4R-D14T-4D JST 1 2 3 4 CE23 47µF/10V 25 23 22 21 1 4 R145 220Ω R147 220Ω AN3V 5 ID 1 2 3 5 _HZM6.2Z4MFA D9 VBus DD+ GND FG3 FG2 FG1 FRAME 4 TP5 USB_ID 9 8 7 6 + L3 _L600 C 2 C 3VCC + FRAME 7 6 J7 _54819-0572 MOLEX J6 3 1 FG2 FG1 3 29 47µF/10V 5 CE22 1 30 VBus DD+ GND USB Mini-B [3] DP0 HSJ1456-010320 2 4 0.1µF 47kΩ 10µF/16V 47kΩ R143 CE25 R142 0.1µF 24 DGND AGND 12 CE26 4.7µF/10V OUT4 0.1µF C31 CP112 OUT3 28 + 33 PAD P4_[15:0] C30 0.1µF CSB/GPIO1 19 20 10µF/16V ROUT2 USB Socket-A _L600 L2 _DLW21HN900SQ2 CE24 LOUT2 VMID L1 100Ω [3] DM0 CP111 15 J4 0.1µF 27 HSJ1456-010320 2 4 CP110 JP10 ROUT1 JP9 HWP-3P-G R139 0.1µF LOUT1 R146 22kΩ R137 26 14 DBVDD SDIN HWP-2P-G [2,5,7,10] SPKVDD AUXR 5 CP107 + CE20 0.1µF 150µF/16V C26 1µF CP109 R144 P4_1 AUXL SCLK 3VCC C32 _18pF P4_1/FCLE/SSL40/MMC_D5 MODE OUTB + CE17 150µF/16V 6 20kΩ 17 ENB 7 6 D 3 1 220pF 16 P4_2 R2/GPIO3 GND [3] VBUS0 C29 1µF 4 C34 P4_0 P4_2/FALE/MOSI4/MMC_D6 RIP ADCDAT C28 1µF 5 20kΩ P4_0/FRE/RSPCK4/MMC_D4 RIN LRC 3 220pF 9 18 L2/GPIO2 DACDAT 1 R149 R141 22Ω BCLK 2 C33 TP9 7 LIP R148 TP8 [2] P4_6/SSIRxD0 _22kΩ 10 LIN 32 + TP7 MICBIAS IN FLGB 22µF/10V CE21 4.7µF/10V + [2] P4_7/SSITxD0 8 WM8978GEFL/V MCLK SPKGND 22kΩ R308 22Ω R309 22Ω R310 22Ω [2] P4_4/SSISCK0 [2] P4_5/SSIWS0 R140 TP6 DCVDD 4 U19 11 3VCC CE19 + + 22µF/10V CP108 0.1µF 13 CE18 8 31 VCC 47kΩ 3VCC CLR PR AVDD 22kΩ 6 22kΩ 7 GND R131 R132 D 220pF 3VCC FLGA 4 AN3V R307 22Ω 1 3 5 VBUS 2 Q Q OUTA 2 D CP ENA 3 2 1 [3] WM8978/MCLK Audio CODEC 8 2 1 U18 NL17SZ74 On Semiconductor 3 R129 1 JP11 HWP-2P-G 4 2 X10 SG-8002CA_25MHz 3 VCC OUT GND OE 1 25MHz : MII mode 50MHz : RMII mode XCLK0 XCLK1 R183 18Ω AVOUT15 VDDA15 VDDAPLL DVOUT15 VDD15 J8 UBA-4R-D14T-4D JST 1 2 3 4 2 1 0.01µF 0.01µF _10pF _10pF _10pF _10pF FRAME 7 6 5 3 ID 2 1 2 3 5 _HZM6.2Z4MFA D10 VBus DD+ GND FG3 FG2 FG1 FRAME 4 TP10 USB_ID 9 8 7 6 B 9 10 L6 _L600 C40 C42 C39 C41 C37 C38 4 5 1 TD+ TDTCT RD+ RDRCT N.C. FG GND FG FG2 FG1 J9 _54819-0572 MOLEX J10 TLA-6T718 TDK 1 2 3 4 5 6 7 8 VBus DD+ GND USB Mini-B 3 4 L5 _DLW21HN900SQ2 10Ω-1% 10Ω-1% R161 R162 49.9Ω-1/4W 49.9Ω-1/4W 330Ω R156 R159 R157 R160 49.9Ω-1/4W 49.9Ω-1/4W 330Ω R152 SML-310MT SML-310MT R153 LED5 19 31 38 AN3V 10 46 45 9 47 37 11 + + + 0.1µF 10µF/16V 3VCC CP121 0.1µF VDD33ESD VDDA33REG C36 1µF + CP120 CE30 PU PU PU PU PU PU PD PD RESETB USB Socket-A _L600 100Ω C35 1µF R172 0Ω VDDIO VDDIO VDDIO 0.1µF 0.1µF 10µF/16V : : : : : : : : [3] VBUS1 [3] DP1 6 7 3VCC P0TXCLK P0TXEN P0TXD0 P0TXD1 P0TXD2 / GPIO11 P0TXD3 / GPIO10 P0TXERR / GPIO9 L4 R150 B'0000 LinkA (GPIO0) FD (GPIO14) MUX 100BT/10BT (Not used) Activity (GPIO4) AN3V CP118 CP119 CE29 32 33 P0RXP P0RXN : : : : : [3] DM1 3 4 0.1µF 0.1µF 10µF/16V P2_11/RxD[3] P2_10/RxD[2] P3_4/RXCLK P3_5/RXER P2_0/TXCLK P2_3/CRS P2_8/RxD[0] P2_9/RxD[1] 40 R173 0Ω RES# P0TXP P0TXN 0.1µF 0.1µF 0.1µF 10µF/16V [3,4,5,8,10] 16 15 14 13 12 11 10 9 P0RXCLK / GPIO3 P0RXDV P0RXD0 P0RXD1 P0RXD2 / GPIO8 P0RXD3 / GPIO7 P0RXERR 12 15 34 CP113 CP114 CP115 CE27 1 2 3 4 5 6 7 8 30 25 26 27 28 29 35 _22kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 22Ω P0LINKLED / GPIO0 INT / GPIO4 GPIO14 P0AGND P0AGND GNDAREF GNDAPLL SW3 A6HF-8102 OMRON R174 R176 R175 R177 R178 R180 R181 R182 R171 R179 3VCC 16 23 22 21 18 17 24 GNDIO GNDIO [2] P2_0/TXCLK [2] P2_2/TXEN [2] P2_4/TxD[0] [2] P2_5/TxD[1] [2] P2_6/TxD[2] [2] P2_7/TxD[3] [2] P2_1/TXER 22Ω 22Ω 22Ω 22Ω 22Ω 22Ω 22Ω P0CRS / GPIO6 P0COLSD / GPIO19 5 8 43 48 B R164 R165 R166 R167 R168 R169 R170 MDC MDIO EXTRES ATP TEST REGOFFD [2] P3_4/RXCLK [2] P3_6/RXDV [2] P2_8/RxD[0] [2] P2_9/RxD[1] [2] P2_10/RxD[2] [2] P2_11/RxD[3] [2] P3_5/RXER 39 42 12.4kΩ, 1% 1 2 22kΩ 41 22kΩ 44 22kΩ P1_14 22Ω 22Ω 20 36 13 14 R158 R163 LED_MODE LED0 LED1 LED2 LED3 R184 R185 R186 R187 R154 P1_14/COL Green Orange Red Yellow U20 uPD60610 Renesas [2] P5_9/MDC [2] P3_3/MDIO [2] P2_3/CRS : : : : 22Ω Ethernet SML-310MT SML-310DT SML-310VT SML-310YT R155 1.5kΩ 3VCC LED4 P1_15 CP116 CP117 CE28 P1_15/(INT) LED3 [2,5,10] P1_[15:0] SML-310MT R151 330Ω 3VCC EXTRES : Must be connect to GND via 12.4Kohm resister REGOFFD : Regulator disable for digital, Hi: Regulator OFF, Low: ON ATP, TEST : Must be connect to GND A A CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR Audio-codec, LAN, USB ( 6 / 10 ) SCALE DATE 5 4 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 2 1 1 2 P4_[15:0] 22kΩ 22kΩ [2,5,6,10] [2,4,5,8,10] P4_12 1 2 3 4 5 6 7 8 9 A P4_11/SD_D0_0/(LED2) P4_10/SD_D1_0/(LED1) P4_15/SD_D2_0 P4_11 P4_10 P4_15 P4_9/SD_WP_0 P4_8/SD_CD_0 P4_9 P4_8 R199 R200 P5_[10:0] [2,4,10] 5 5VCC 3VCC P7_[8:0] J11 DM1AA-SF-PEJ HRS CVCC1 R194 R195 P4_12/SD_CLK_0 R189 R190 R191 R192 R193 P4_14 P4_13 R188 SD Card Slot P4_14/SD_D3_0 P4_13/SD_CMD_0 4 3VCC 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ P3_[15:0] _22kΩ CVCC1 [2,4,5,8,10] 3 10 11 12 22Ω 22Ω C43 0.1µF P5_10 P5_10/CTx1/(RESETB) CD/DAT3 CMD VSS1 VDD CLK VSS2 DAT0 DAT1 DAT2 R197 22kΩ R196 22kΩ 1 4 5 CAN1 U21 HA13721RPJE Renesas TxD VCC RxD NC GND MODE CANH CANL 13 14 15 16 PAD1 PAD2 PAD3 PAD4 W_Protect Card_Detect COMMON 5VCC 3 2 8 7 CP122 0.1µF 6 R198 120Ω-1/4W J12 1 2 3 B3P-SHF-1AA(LF)(SN) JST 3.3V<-5V U22 SN74LVC2T45DCT TI 3VCC 1 2 3 4 [2] P5_9/CRx1 [2] P7_2/CRx2 P7_2/RAS/CRx2 CP123 0.1µF VCCA A0 A1 GND VCCB B0 B1 DIR A 5VCC 8 7 6 5 CP124 0.1µF SD/MMC Card Power Control U23 LTC1471 LT 3VCC OUT Hi-Z 3.3V 5V Hi-Z + CP128 0.1µF 10kΩ 5 + WP CD 3 680Ω _22kΩ _22kΩ R208 R206 R207 100Ω-1% 100Ω-1% R318 100Ω-1% [2] P5_3/TXOUT2M [2] P5_2/TXOUT2P [2] P5_1/TXCLKOUTM [2] P5_0/TXCLKOUTP 16 17 PAD1 PAD2 R223 R224 C 3VCC LED Operation B data to A bus A data to B bus 1kΩ 3 7 R227 VCC1 VCC2 22kΩ 22kΩ 22kΩ 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF R228 R229 R230 CP135 CP136 CP137 CP138 CP139 6 TX RX J16 BM14B-SRSS-TB JST 1 2 3 4 5 6 7 8 9 10 11 12 13 14 CP133 CP134 DIR L H 21 FG 22 FG 12VCC 0.1µF 0.1µF 1.2kΩ 8 1 FG1 FG2 CP132 0.1µF A17 U26 TODX2951 Toshiba 2 4 5 CP131 0.1µF P8_9/A17/SPDIF_OUT P8_8/A16/SPDIF_IN 3.3V 3.3V GND GND Link0Link0+ GND Link1Link1+ GND Link2Link2+ GND CLKINCLKIN+ GND Link3Link3+ MODE (Low=6bit, Hi=8bit) SC (Low=Normal, Hi=Reverse) LVDS Backlight L7 VLCF4020T-470MR39 TDK SPDIF GND1 GND2 GND3 [2] P8_8/SPDIF_IN 5VCC 6 R203 120Ω-1/4W J13 1 2 3 5VCC 9 10 3VCC U25 SN74LVC1T45DCK TI 1 6 3 VCCA VCCB 4 B 5 2 A GND DIR R226 3.3V<-5V 0.1µF 0.1µF VSS 5VCC A[25:1] CP125 0.1µF CP129 CP130 DAT0 DAT1 DAT2 DAT3 DAT4 DAT5 DAT6 DAT7 C44 0.1µF C [2,4,5,10] 2 8 7 J14 DF14A-20P-1.25H HRS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 [2] P5_5/TXOUT1M [2] P5_4/TXOUT1P 4 620Ω VDD R317 100Ω-1% 15 14 NC GND MODE CANH LVDS 3VCC [2] P5_7/TXOUT0M [2] P5_6/TXOUT0P CVCC2 SCLK CMD R316 R315 22Ω 22Ω VCC RxD B 22kΩ 22kΩ R221 R222 TxD 5VCC 3 B3P-SHF-1AA(LF)(SN) 22kΩ 22kΩ P3_9 P3_8 7 8 9 1 10 11 12 13 U24 HA13721RPJE Renesas CANL R225 P3_9/NAF1/TRACEDATA1/SD_WP_1 P3_8/NAF0/TRACEDATA0/MMC_CD 5 2 1 CAN2 3VCC J15 7SDMM-X0-2211-B KINGCONN R219 R220 P3_11 P3_10 P3_15 P3_14 P4_0 P4_1 P4_2 P4_3 R209 R216 R210 R217 R211 R212 R213 R214 R218 P3_11/NAF3/TRACEDATA3/MMC_D0 P3_10/NAF2/TRACEDATA2/MMC_D1 P3_15/NAF7/MMC_D2 P3_14/NAF6/TRACECLK/MMC_D3 P4_0/FRE/RSPCK4/MMC_D4 P4_1/FCLE/SSL40/MMC_D5 P4_2/FALE/MOSI4/MMC_D6 P4_3/FWE/MMC_D7 R215 P3_12 P3_13 P7_3 4 MMC Card Slot P3_12/NAF4/MMC_CLK P3_13/NAF5/MMC_CMD R202 22kΩ R201 22kΩ R205 10kΩ A3VIN1 A3VIN2 B3VIN1 B3VIN2 A5VIN B5VIN EN1 0 1 0 1 P7_3/CAS/CTx2 1µF/16V BOUT1 BOUT2 EN0 0 0 1 1 3VCC 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ 22kΩ _22kΩ CVCC2 CP127 0.1µF 8 9 CE32 2 10 CP126 0.1µF B 5VCC CVCC2 1µF/16V 14 15 6 7 BEN1 BEN0 CVCC1 1 16 AOUT1 AOUT2 R204 11 12 AEN1 AEN0 CE31 3 4 GND GND 5VCC 5 13 3VCC 12V 12V 12V 12V 12V GND GND GND GND GND Vrmt (Backlight Control : 0-0.4V or Open=Disable, 2.5V-Vin=Enable) Vbr/Rbr (PWM Control : 2.5V=Min, 0V=Max) ADIM (ADIM Control : 2.5V=Min, 0V=Max) Vst (Status) 15 FG 16 FG D D CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR SD/MMC, SPDIF, CAN, LVDS ( 7 / 10 ) SCALE DATE 1 2 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 4 5 4 3 1 3VCC P3_[15:0] Dsub9 22kΩ 22kΩ HWP-3P-G 1 2 _22kΩ C46 0.1µF 4 5 3 3 R238 U37B HD74LV1GW17A 4 R325 22kΩ 19 GND 18 USB Mini-B U37C HD74LV1GW17A Renesas J19 54819-0572 VDD P137 / INTP0 P60 / SCLA0 P61 / SDAA0 P62 P31 / TI03 / TO03 / INTP4 / PCLBUZ0 P70 / PCLBUZ1 P30 / INTP3 / SCK00 / SCL00 / (TI03) / (TO03) / (PCLBUZ0) P17 / TI02 / TO02 P16 / TI01 / TO01 / INTP5 IC1 IC2 P40 / TOOL0 P24 / ANI4 P23 / ANI3 P22 / ANI2 P21 / ANI1 / AVREFM RESET# P20 / ANI0 / AVREFP P01 / ANI16 / TO00 / INTP9 / SCK01 / SCL01 / (SCLA0) P00 / ANI17 / TI00 / INTP8 / SI01 / SDA01 / (SDAA0) P120 / ANI19 / SO01 / (PCLBUZ1) VDD UVDD 22Ω R256 R257 R258 R259 R260 22Ω 22Ω 22Ω 22Ω 22Ω 2 TMS [3] TCK [3] TDO [3] TDI [3] P3_14 P3_8 P3_9 P3_10 P3_11 _10kΩ _10kΩ _10kΩ CP195 0.1µF 1 2 1 J20 _7614-5002-PL 3M 2 4 6 8 10 12 14 VDD GND RFU RESET_IN Vdd RESET_OUT GND GND R247 100kΩ CP142 0.1µF VDD CP143 0.1µF 8 21 + CE35 10µF/16V U36 HD74LV1G08A 2 ARM JTAG 20 J22 HIF3FC-20PA-2.54DSA HRS 2 NC 4 6 8 10 12 14 16 18 20 3VCC TRST# [3] R266 0Ω CP147 0.1µF CP148 0.1µF [9] R268 R269 R270 10kΩ 10kΩ 10kΩ RFU 1 RFU 3 TOOL0 5 RFU 7 EMVdd 9 RFU 11 RESET_OUT 13 3VCC 4 R263 R264 R265 R262 _10kΩ 3VCC R267 _22Ω C B R323 10kΩ VTref 1 nTRST 3 TDI 5 TMS/SWDIO 7 TCK/SWCLK 9 RTCK 11 TDO/SWO 13 nSRST 15 DBGRQ 17 DBGACK 19 4 9 8 7 6 P3_14/NAF6/TRACECLK/MMC_D3 P3_8/TRACEDATA0 P3_9/NAF1/TRACEDATA1/SD_WP_1 P3_10/NAF2/TRACEDATA2/MMC_D1 P3_11/NAF3/TRACEDATA3/MMC_D0 R261 _0Ω 3VCC FG3 FG2 FG1 FRAME CP145 CP144 R255 VBus DD+ GND VDD R246 1kΩ 1µF _22Ω ID 1 2 3 5 E1 VDD C54 R248 R249 R250 R251 R252 R253 R311 R254 100Ω VDD 6 7 CP196 0.1µF 5 CP146 0.1µF TMS/SWDIO TCK/SWCLK TDO/SWO TDI nSRST RTCK/TraceClk SWO/TraceD0 nTRST/TraceD1 DBGRQ/TraceD2 DBGACK/TraceD3 R242 22 23 24 1µF UVBUS UDM0 UDP0 3 B VTref 1 GND 3 GND 5 KEY 7 GND 9 NC 11 NC 13 GND 15 GND 17 GND 19 J21 FTSH-110-01 Samtec 2 4 6 8 10 12 14 16 18 20 10 11 3VCC CoreSight 20 3VCC FG CP140 + CE34 0.1µF 4.7µF/10V P121 / X1 P122 / X2 / EXCLK 25 26 27 28 29 30 31 32 5 5 VDD 2 0.1µF P51 / INTP2 / SO00 / TXD0 / TOOLTXD / (TI01) / (TO01) P50 / INTP1 / SI00 / RXD0 / TOOLRXD / SDA00 / (TI02) / (TO02) 9 10 11 12 13 14 17 18 19 20 R245 22kΩ CP197 0.1µF 10kΩ 10kΩ 10kΩ 10kΩ 10kΩ 10kΩ 10kΩ EN SHDN 3 R244 560Ω R326 22kΩ 3VCC VCC 1 20 C51 8pF U38C HD74LV1GW17A Renesas C47 C2- 5 4 U38B HD74LV1GW17A 3 4 3VCC 7 U28 RL78/G1C-S Renesas C50 8pF [3,4,5,6,10] 0.1µF 10kΩ RES# C45 D R312 4 2 V- RxD0 3 C1C2+ 16 15 X11 DSX321G_12MHz U39 HD74LV1G08A V+ TxD0 REGC VSS 5 0Ω R243 1MΩ 3VCC 1 nSRST C1+ 16 9 17 8 _0.1µF R240 R1IN R2IN T1OUT T2OUT 1µF _22kΩ CP198 0.1µF C [9] 2 C48 0.1µF 6 P5_4/TXOUT1P P5_0/TXCLKOUTP NC RST R239 _0Ω R1OUT R2OUT T1IN T2IN 3 3VCC P5_4 P5_0 C58 _1µF 15 10 13 12 C52 JP13 3 5 9 4 8 3 7 2 6 1 U27 MAX3222E MAXIM TTL RS-232 C49 CP141 _0.1µF 2 R328 22kΩ J18 _HIF3B-10PA-2.54DSA HRS 2 4 6 8 10 P3_0 R327 22kΩ R241 _10kΩ 1 3 5 7 9 P3_2 P3_0/TxD2 U37A HD74LV1GW17A 6 1 P5_1 P5_3 P5_2 P3_2/RxD2 HWP-3P-G 1 U38A HD74LV1GW17A 1 6 R233 R234 R235 3VCC P5_1/TXCLKOUTM P5_3/TXOUT2M P5_2/TXOUT2P DBI VCC JP12 R237 _10kΩ 3VCC _10kΩ _10kΩ _10kΩ 3VCC R231 R232 P5_[10:0] R236 [2,4,5,7,10] D J17 XM2C-0942-132L OMRON C53 [2,4,5,7,10] 2 0.33µF 0.1µF 5 nTRST A A CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR Serial (RS-232C, USB), UDI ( 8 / 10 ) SCALE DATE 5 4 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 2 1 CP153 22µF/50V VIN1 VIN2 VIN3 VIN4 EN BOOT FB VCC PGOOD CP154 0.1µF CP155 22µF/50V J27 ExAVcc ExAVcc AN3V 1 2 1 3 4 + CE40 4.7µF/10V 150mΩ R282 ExVcc C57 R283 ExVcc 1.18V 1 2 1 CP152 0.1µF JP21 HWP-3P-G CE47 10µF/16V 2 AVcc TP20 AVcc JP22 A2-2PA-2.54DSA 2 R290 10Ω 10kΩ CP163 0.22µF 1 2 VIND1 VIND2 VINC EN C60 _0.47µF R291 10.2kΩ 5 FB U29C HD74LV1GW17A Renesas U31C HD74LV1GW17A Renesas CP160 0.1µF 3VCC R285 U31A R284 HD74LV1GW17A 10kΩ 1 6 R286 220Ω 0Ω TP22 TEST + CE46 2.2µF/10V SW8 B3S-1000 Vcc LVDSPLLVcc L10 BLM21PG300SN1D TP23 Vcc B TP15 LVDSPLLVcc CP151 0.1µF 3VCC Reset SWITCH PLLVcc CP150 0.1µF R299 + CE49 47µF/10V Board fixed hole. 220µF/6.3V CP159 0.1µF + CE44 CP199 0.1µF U31B R289 HD74LV1GW17A 10kΩ 3 4 R329 220Ω TP21 USBAVcc 3VCC 1 0Ω U40 HD74LV1G08A 4 2 SW9 B3S-1000 USBAVcc L14 BLM21PG300SN1D + CE45 D11 CMS06 Toshiba 3VCC 3VCC TEST SWITCH TP14 PLLVcc R294 2.26kΩ P3_1/IRQ6 [2] TP12 VDAVcc TP24 3.3V CP162 0.047µF 0Ω + CE41 2.2µF/10V VDAVcc 3VCC 7 8 SW1 SW2 SGND NC PGND DAP R292 R293 L15 LTF5022T-1R2N4R2 TDK 3 4 6 11 CP161 22µF/50V L8 BLM21PG300SN1D + CE48 4.7µF/10V 47mΩ SW7 FT1D-2M-Z L9 BLM21PG300SN1D U32 LM2833X TI 9 10 USBAPVcc CP149 0.1µF 5V -> 3.3V 5VCC SW6 B3S-1000 CP156 0.1µF Vcc 1 U29A R276 HD74LV1GW17A 10kΩ 1 6 R278 220Ω CP157 0.1µF + CE43 4.7µF/10V 300mΩ R277 TP19 USBAPVcc AVcc 3 + _A2-2PA-2.54DSA JST JP20 A2-2PA-2.54DSA 2 TP17 LVDSAPVcc /* 1.18V-1A */ R = ((3.2*1.18V)/(100*(1.18V*1A)))*0.95 = 30.4mR -> 47mR (Min.) Vf = 47mR * 1A = 47mV 1.18V External J28 1 3 CE42 10µF/16V _A2-2PA-2.54DSA JST CP158 1µF JP19 HWP-3P-G 2 + 0.0068µF L11 BLM21PG300SN1D TP16 PVcc IRQ6 SWITCH LVDSAPVcc /* 3.3V-100mA */ R = ((3.2*3.3V)/(100*(3.3V*100mA)))*0.95 = 304mR -> 300mR Vf = 300mR * 100mA = 30mV A3.3V External R314 11.8kΩ 18 3 C56 0.0068µF R287 R288 B R280 62kΩ R279 PVcc L13 BLM21PG300SN1D TP18 5V 17 2 1 4 4.75kΩ-1% 20 102kΩ-1% 9 10 11 12 21 19 SS/TRK COMP RT GND1 GND2 GND3 AGND EP R281 _10kΩ SW1 SW2 SW3 SW4 7 8 13 14 JP17 A2-2PA-2.54DSA 2 3 CE39 10µF/16V 3VCC PVcc 1 + CE38 2.2µF/10V 5 2 NMI [3,10] A 5V 49.9kΩ 5 6 15 16 L12 SLF10145T-150M2R2 TDK JP18 HWP-3P-G 0Ω 2 1 + U30 LM20343 TI SW5 B3S-1000 5 ExPVcc 3VCC 1 2 _A2-2PA-2.54DSA JST 12V -> 5V + CE37 10µF/16V 47mΩ U29B R271 HD74LV1GW17A 10kΩ 3 4 R273 220Ω 2 ExPVcc 12VCC R272 /* 3.3V-200mA */ R = ((3.2*3.3V)/(100*(3.3V*200mA)))*0.95 = 152mR -> 150mR Vf = 150mR * 200mA = 30mV 3.3V External J26 R275 TP13 5VCC 5 CE36 10µF/16V LED6 UB1111C STANLEY BLUE J25 LGP6531-0700 2 4 3 2 3 + _A2-2PA-2.54DSA JST JP16 A2-2PA-2.54DSA 1 2 3 4 A 1 3VCC NMI SWITCH 5VCC 1 2 AC Adaptor R274 5.1kΩ 1 2 JP15 HWP-3P-G 3 4 C55 22µF/50V J24 5V 1 2 TP11 12V Ex5V 3 4 2 3 Ex5V + CE53 2.2µF/10V nSRST [8] 1 2 1 5V External 12VCC SW4 MS-12AAH1 1 2 3 1 2 JP14 XG8V-0334 5 3 Power Switch J23 S3B-XH-A 1 +12V 2 NC 3 GND 4 1 Power Connector 3 5V-3A R = ((3.2*5V)/(100*(5V*3A)))*0.95 = 10.13mR -> 47mR Vf = 47mR * 3A = 141mV 3 2 2 1 220µF/6.3V MH1 Power On Reset 3VCC for Corner x 4 (M3) HOLE HOLE TP25 AN3V 2 MH3 AGND-DGND CP165 0.1µF C R295 HOLE MH4 5V -> 1.18V U34 LM2830Z TI + CE50 10µF/16V R301 10kΩ 4 L17 LTF5022T-2R2N3R2 TDK VIN SW GND 5 EN FB 2 5VCC C61 _0.47µF R302 9.53kΩ 3 R300 10kΩ 0Ω 1.18V HOLE TP26 GND TP27 1.18V 1 + CE51 10µF/16V + CE52 220µF/6.3V R297 4.7kΩ 8 7 R296 15kΩ GND VCC NC NC NC CP164 0.1µF AN3V OUT IN 4 L16 BLM21PG300SN1D Cd 6 R298 0Ω 5 nTRST [8] 1 3 MH2 3VCC U33 RNA51957BFP C CP166 0.1µF J29 XG8S-0331 OMRON 1 2 3 MH5 for MOST I/F Connector (M2.5) HOLE D12 CMS06 Toshiba R303 10kΩ Anti-resonant Capacitor 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF CQ35 CQ36 CQ37 CQ38 CQ39 CQ40 CQ41 CQ42 CQ43 CQ44 CQ45 CQ46 CQ47 CQ48 CQ49 CQ50 CQ51 CQ52 CQ53 CQ54 CQ55 1 5VCC CQ29 CQ30 CQ31 CQ32 CQ33 CQ34 5 AVcc 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF NC 3VCC 0.1µF Vref AN3V CQ18 CQ19 CQ20 CQ21 CQ22 CQ23 CQ24 CQ25 CQ26 CQ27 EN PVcc CQ17 Vin A grade : 0.05%, 10 ppm B grade : 0.1%, 20 ppm CP168 0.1µF 2 3 GND 4 CP167 0.1µF AVref 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF U35 LM4132 NS 5VCC CQ1 CQ2 CQ3 CQ4 CQ5 CQ6 CQ7 CQ8 CQ9 CQ10 CQ11 CQ12 CQ13 CQ14 CQ15 CQ16 CQ28 12VCC ADC Voltage Reference D D CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR Power, Reset, SW ( 9 / 10 ) SCALE DATE 1 2 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 4 5 1 2 3 4 5 [2,5,6] P1_[15:0] [2,4,5,7,8] [2] P11_[15:0] [2] P10_[15:0] [2,4,7] P7_[8:0] [2,4,5,7,8] P3_[15:0] [2,5,6,7] P5_[10:0] P4_[15:0] [2,5] P2_[15:0] [2,5] P9_[7:2] P3_9 P3_11 0.1µF CN8 3VCC HIF3FC-20PA-2.54DSA HRS 2 4 6 8 10 12 14 16 18 20 0.1µF 0.1µF 0.1µF 0.1µF 1 3 5 7 9 11 13 15 17 19 A 5VCC P3_8 P3_10 P3_12 P3_14 3VCC P4_0 P4_2 P3_4 P3_6 P10_4 P10_6 P2_13 P2_15 P4_4 P4_6 P1_1 P1_3 P1_5 P1_7 P3_3 P3_5 P2_12 P2_14 P1_0 P1_2 P1_4 P1_6 B CP192 P10_9 P10_11 P10_13 P10_15 P4_9 P4_11 P4_13 P4_15 P2_1 R304 P2_3 P2_5 P2_7 P2_9 P2_11 0Ω 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 CN7 HTSS-117-01-L-DV Samtec 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 0.1µF P11_0 P11_2 CP190 P9_2 P9_4 P9_6 0.1µF P5_9 [3] AUDIO_XTAL1 CP191 P1_9 CP189 P11_1 P11_3 0.1µF P9_3 P9_5 P9_7 0.1µF 0.1µF P5_10 P4_5 P4_7 CP185 P5_8 P10_5 P10_7 P5_0 P5_2 P5_4 P5_6 CP183 CP184 B 3VCC 3VCC 0.1µF 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 P5_1 P5_3 P5_5 P5_7 P1_11 CP169 CP170 CP171 CP172 5VCC 3VCC P4_1 P4_3 CN9 HTSS-115-01-L-DV Samtec 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 CN6 HTSS-115-01-L-DV Samtec 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 P1_13 P10_2 P10_0 0.1µF P10_3 P10_1 P1_15 P3_4 P3_6 CP175 CP176 CP177 CP178 P11_14 P11_12 P7_8 P7_6 P7_4 P7_2 P7_0 P3_0 P3_2 CP174 P3_5 P3_7 CN5 AVcc VBUS 12VCC HIF3FC-20PA-2.54DSA HRS 2 4 6 8 P1_14 10 12 P1_12 14 16 P1_10 18 20 P1_8 0.1µF P3_1 P3_3 P11_6 P11_4 1 3 5 7 9 11 13 15 17 19 12VCC VBUS AVcc RES# [3,4,5,6,8] 0.1µF 0.1µF 0.1µF 0.1µF P11_10 P11_8 P3_13 P3_15 3VCC CN4 HIF3FC-20PA-2.54DSA HRS 2 4 6 8 10 12 14 16 18 20 CP173 [3,9] NMI CP181 CP182 CP179 CP180 0.1µF 0.1µF P7_7 P7_5 P7_3 P7_1 [3] 0.1µF 0.1µF P11_15 P11_13 CKIO_CN 0.1µF P11_7 P11_5 1 3 5 7 9 11 13 15 17 19 3VCC CP187 CP188 P11_11 P11_9 CN2 HIF3FC-30PA-2.54DSA HRS 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 0.1µF 0.1µF 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 CP186 3VCC A AUDIO_XTAL2 [3] P10_8 P10_10 P10_12 P10_14 P4_8 P4_10 P4_12 P4_14 R305 R306 0Ω 0Ω P2_0 P2_2 P2_4 P2_6 P2_8 P2_10 C C [4] D[15:0] [2,4,5,7] A[25:1] Data (P6) 5VCC 1 3 5 7 9 11 13 15 17 19 D14 D12 D11 D9 0.1µF 0.1µF CP193 CP194 D6 D4 D3 D1 Address CN1 3VCC _HIF3FC-20PA-2.54DSA HRS 2 D15 4 D13 6 8 D10 10 D8 12 D7 14 D5 16 18 D2 20 D0 A25 A24 A22 A20 A18 A15 A13 A11 A9 A8 A6 A4 A2 1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 CN3 _HIF3FC-30PA-2.54DSA HRS 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 A23 A21 A19 A17 A16 A14 A12 A10 A7 A5 A3 A1 D D CHANGE Renesas Solutions Corp. DRAWN CHECKED DESIGNED APPROVED RTK772100BC00000BR Ext. Connector ( 10 / 10 ) SCALE DATE 1 2 D-RTK772100BC00000BR_C-A-R03 13-12-19 3 4 5 REVISION HISTORY R7S72100 CPU board RTK772100BC00000BR User's Manual Rev. Date Description 0.01 Jul. 6, 2012 - First edition 0.02 Jul. 31, 2012 - Review specifications. 0.03 Dec. 12, 2012 - 0.04 Apr. 26, 2013 - 0.05 May. 21, 2013 - Correct the erroneous descriptions. 0.06 Jun. 6, 2013 - Add a general name "GENMAI" for the board. 0.07 Oct. 18, 2013 - Correct the erroneous descriptions. 0.08 Dec. 19, 2013 2-36 Page Summary Correct the erroneous descriptions. Revise the items pointed out when deciding the details. Correct the erroneous descriptions. Review the pin names and part structures. Correct the erroneous descriptions. Correct the erroneous descriptions. Update the schematics. Figure2.10.1 Error correction (5V channel and R7S72100 power supply section were reviewed.) Appendix 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.com SALES OFFICES Refer 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: +1-408-588-6130 Renesas Electronics Canada Limited 1101 Nicholson Road, Newmarket, Ontario L3Y 9C3, Canada Tel: +1-905-898-5441, Fax: +1-905-898-3220 Renesas Electronics Europe Limited Dukes Meadow, Millboard Road, Bourne End, Buckinghamshire, SL8 5FH, U.K Tel: +44-1628-651-700, Fax: +44-1628-651-804 Renesas Electronics Europe GmbH Arcadiastrasse 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: +86-10-8235-7679 Renesas 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 Limited Unit 1601-1613, 16/F., Tower 2, Grand Century Place, 193 Prince Edward Road West, Mongkok, Kowloon, Hong Kong Tel: +852-2886-9318, Fax: +852 2886-9022/9044 Renesas Electronics Taiwan Co., Ltd. 13F, No. 363, Fu Shing North Road, Taipei, Taiwan Tel: +886-2-8175-9600, Fax: +886 2-8175-9670 Renesas Electronics Singapore Pte. Ltd. 80 Bendemeer Road, Unit #06-02 Hyflux Innovation Centre Singapore 339949 Tel: +65-6213-0200, Fax: +65-6213-0300 Renesas Electronics Malaysia Sdn.Bhd. Unit 906, Block B, Menara Amcorp, Amcorp Trade Centre, No. 18, Jln Persiaran Barat, 46050 Petaling Jaya, Selangor Darul Ehsan, Malaysia Tel: +60-3-7955-9390, Fax: +60-3-7955-9510 Renesas Electronics Korea Co., Ltd. 11F., Samik Lavied' or Bldg., 720-2 Yeoksam-Dong, Kangnam-Ku, Seoul 135-080, Korea Tel: +82-2-558-3737, Fax: +82-2-558-5141 © 2013 Renesas Electronics Corporation. All rights reserved. Colophon 1.3 16 R7S72100 CPU board RTK772100BC00000BR (GENMAI) User's Manual R20UT2596EJ0008