User’s Manual
SH7267 CPU Board
32 R0K572670C000BR
User's Manual Renesas 32-bit RISC Microcomputer TM SuperH RISC engine Family / SH7260 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.1.00 2010.11
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You should not use Renesas Electronics products or the 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. 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. 6. 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. 7. Renesas Electronics products are classified according to the following three quality grades: “Standard”, “High Quality”, and “Specific”. The recommended applications for each Renesas Electronics product depends on the product’s quality grade, as indicated below. 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 categorized as “Specific” without the prior written consent of Renesas Electronics. Further, you may not use any Renesas Electronics product for any application for which it is not intended without the prior written consent of Renesas Electronics. 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 an application categorized as “Specific” or for which the product is not intended where you have failed to obtain the prior written consent of Renesas Electronics. The quality grade of each Renesas Electronics product is “Standard” unless otherwise expressly specified in a Renesas Electronics data sheets or data books, etc. “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. “High Quality”: Transportation equipment (automobiles, trains, ships, etc.); traffic control systems; anti-disaster systems; anti- crime systems; safety equipment; and medical equipment not specifically designed for life support. “Specific”: Aircraft; aerospace equipment; submersible repeaters; nuclear reactor control systems; medical equipment or systems for life support (e.g. artificial life support devices or systems), surgical implantations, or healthcare intervention (e.g. excision, etc.), and any other applications or purposes that pose a direct threat to human life. 8. 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. 9. 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 system manufactured by you. 10. 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. 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(Note 1) “Renesas Electronics” as used in this document means Renesas Electronics Corporation and also includes its majority- owned subsidiaries. (Note 2) “Renesas Electronics product(s)” means any product developed or manufactured by or for Renesas Electronics.
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".
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Table of Contents
Chapter 1 Overview ...... 1-1
1.1 Introduction...... 1-2 1.1.1 SH7267 CPU board (Part number: R0K572670C000BR) ...... 1-2 1.1.2 Optional board for audio (Part number: M3A-HS64G01) ...... 1-2 1.1.3 Optional board for graphic display (Part number: M3A-HS64G02) ...... 1-2 1.2 R0K572670C000BR Configuration...... 1-3 1.3 R0K572670C000BR Board Specifications ...... 1-4 1.4 R0K572670C000BR Exterior...... 1-6 1.5 R0K572670C000BR Block Diagram...... 1-7 1.6 R0K572670C000BR Major Components...... 1-8 1.7 M3A-HS64G01 Configuration...... 1-11 1.8 M3A-HS64G01 Board Specifications ...... 1-12 1.9 M3A-HS64G01 Exterior...... 1-13 1.10 M3A-HS64G01 Block Diagram...... 1-14 1.11 M3A-HS64G01 Major Components...... 1-15 1.12 M3A-HS64G02 Configuration...... 1-18 1.13 M3A-HS64G02 Board Specifications ...... 1-19 1.14 M3A-HS64G02 Exterior...... 1-20 1.15 M3A-HS64G02 Block Diagram...... 1-21 1.16 M3A-HS64G02 Major Components...... 1-22 1.17 Memory Maps...... 1-25 1.18 Absolute Maximum Ratings...... 1-27 1.19 Operating Conditions...... 1-27 1.20 Usage Note ...... 1-28 1.20.1 Configuring Unused Pins...... 1-28
Chapter 2 R0K572670C000BR Functions...... 2-1
2.1 Overview of Functions...... 2-2 2.2 CPU...... 2-3 2.2.1 SH7267 Overview ...... 2-3 2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR...... 2-3 2.2.3 R0K572670C000BR Module Availability ...... 2-8 2.2.4 SH7267 Multiplex Pins Used on the R0K572670C000BR ...... 2-9 2.3 Memory ...... 2-11 2.3.1 SH7267 Internal RAM ...... 2-11 2.3.2 NOR Flash Memory Interface...... 2-11 2.3.3 External SDRAM Interface ...... 2-13 2.3.4 NAND Flash Memory Interface ...... 2-16 2.3.5 External Serial Flash Memory Interface ...... 2-18 2.3.6 External EEPROM Interface...... 2-19 2.4 USB Interface ...... 2-20 2.5 RS-232C Interface...... 2-21 2.6 I/O Ports ...... 2-22 2.7 Interrupt Switches...... 2-23 2.8 Clock Modules...... 2-24 2.9 Reset Module ...... 2-25
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2.10 Power Supply Module...... 2-26 2.11 E10A-USB Interface ...... 2-27
Chapter 3 M3A-HS64G01 Functions ...... 3-1
3.1 Overview of Functions...... 3-2 3.2 CPU...... 3-3 3.2.1 SH7267 Overview ...... 3-3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01 ...... 3-3 3.2.3 M3A-HS64G01 Module Availability ...... 3-9 3.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G01...... 3-10 3.3 LCD Module Interface...... 3-14 3.3.1 LCD Module Interface ...... 3-14 3.3.2 Character LCD Module with LED Backlight...... 3-15 3.4 Audio Modules...... 3-16 3.5 CD Deck Interface ...... 3-18 3.6 SD Card Interface...... 3-19 3.7 UART Interface...... 3-20 3.8 CAN Interface...... 3-21 3.9 IEBusTM Interface ...... 3-22 3.10 I/O Ports ...... 3-23 3.11 Clock Modules...... 3-24 3.12 Reset Module ...... 3-25 3.13 Power Supply Module...... 3-26
Chapter 4 M3A-HS64G02 Functions ...... 4-1
4.1 Overview of Functions...... 4-2 4.2 CPU...... 4-3 4.2.1 SH7267 Overview ...... 4-3 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02 ...... 4-3 4.2.3 M3A-HS64G02 Module Availability ...... 4-9 4.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G02...... 4-10 4.3 LCD Module Interface...... 4-14 4.3.1 LCD Module Interface ...... 4-14 4.3.2 Character LCD Module with LED Backlight...... 4-15 4.4 Audio Module ...... 4-16 4.5 Video Signal Input Module...... 4-18 4.6 SD Card Interface...... 4-19 4.7 UART Interface...... 4-20 4.8 CAN Interface...... 4-21 4.9 IEBusTM Interface ...... 4-22 4.10 PWM Interface...... 4-23 4.11 MTU2 Interface...... 4-24 4.12 I/O Ports ...... 4-25 4.13 Interrupt Switches...... 4-26 4.14 Clock Modules...... 4-27 4.15 Reset Module ...... 4-28 4.16 Power Supply Module...... 4-29
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Chapter 5 R0K572670C000BR Operating Specifications ...... 5-1
5.1 R0K572670C000BR Connectors...... 5-2 5.1.1 USB Connectors (J1 and J2)...... 5-4 5.1.2 H-UDI port connector (36-pin, J3) ...... 5-6 5.1.3 5 V Power Supply Connector (J4) ...... 5-7 5.1.4 5 V Input AC Adapter Jack (J6)...... 5-8 5.1.5 H-UDI port connector (14-pin, J7) ...... 5-9 5.1.6 RS-232C Connector (J10)...... 5-10 5.1.7 Expansion Connectors (CN1 to CN9) ...... 5-11 5.2 R0K572670C000BR Operating Components...... 5-18 5.2.1 Jumpers (JP1 to JP13)...... 5-19 5.2.2 Switches and LEDs ...... 5-21 5.3 R0K572670C000BR Dimensions ...... 5-23
Chapter 6 M3A-HS64G01 Operating Specifications...... 6-1
6.1 M3A-HS64G01 Connectors...... 6-2 6.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)...... 6-4 6.1.2 Character LCD Module Connector (J1)...... 6-8 6.1.3 SD Card Slot (J2) ...... 6-9 6.1.4 Line-out Pin Jacks (J3, J6, and J8) ...... 6-10 6.1.5 Microphone Input Pin Jack (J4)...... 6-11 6.1.6 Audio Optical Connectors (J5 and J7)...... 6-12 6.1.7 CD Deck Connector (J9) ...... 6-13 6.1.8 UART Connector (J10)...... 6-14 6.1.9 External IIC Connector (J11)...... 6-15 6.1.10 LCD Module Connectors (J12 to J14) ...... 6-16 6.1.11 IEBusTM Connector (J15) ...... 6-20 6.1.12 CAN Connectors (J16 and J17) ...... 6-21 6.1.13 12 V Power Supply Connector (J18) ...... 6-22 6.1.14 12 V Input AC Adapter Jack (J19)...... 6-23 6.2 M3A-HS64G01 Operating Components ...... 6-24 6.2.1 Jumpers (JP2 to JP12)...... 6-25 6.2.2 Switches and LED...... 6-27 6.3 M3A-HS64G01 Dimensions ...... 6-28
Chapter 7 M3A-HS64G02 Operating Specifications...... 7-1
7.1 M3A-HS64G02 Connectors...... 7-2 7.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)...... 7-4 7.1.2 UART Connector (J2)...... 7-8 7.1.3 External IIC Connector (J3)...... 7-9 7.1.4 SD Card Slot (J4) ...... 7-10 7.1.5 PWM Connector (J5)...... 7-11 7.1.6 Audio Optical Connector (J6) ...... 7-12 7.1.7 Line-out Pin Jack (J7) ...... 7-13 7.1.8 RCA Connector (J8)...... 7-14 7.1.9 S-Video Connector (J9)...... 7-15 7.1.10 LCD Module Connectors (J10 to J12) ...... 7-16 7.1.11 IEBusTM Connector (J13) ...... 7-20 7.1.12 CAN Connectors (J14 and J15) ...... 7-21 7.1.13 MTU2 Connector (J16)...... 7-22 7.1.14 12 V Power Supply Connector (J17) ...... 7-23 7.1.15 12 V Input AC Adapter Jack (J18)...... 7-24 7.2 M3A-HS64G02 Operating Components ...... 7-25 7.2.1 Jumpers (JP1 to JP12)...... 7-26
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7.2.2 Switches and LEDs ...... 7-28 7.3 M3A-HS64G02 Dimensions ...... 7-29
Appendix...... A-1
Schematics
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Chapter 1Overview Chapter 1 Overview
1-1 Overview 1 1.1 Introduction
1.1 Introduction
The SH7267 CPU board and its optional boards are designed for evaluating the features and performance of the SH7267 Group of Renesas Electronics original microcomputers (MCUs), as well as for developing and evaluating application software for these MCUs. Following are features of the SH7267 CPU board and optional boards.
1.1.1 SH7267 CPU board (Part number: R0K572670C000BR)
The R0K572670C000BR comes standard with 4-MB NOR flash memory (16-bit bus width), 16-MB SDRAM (16-bit bus width), 256-MB NAND flash memory and 2-MB serial flash memory as its external memory. The R0K572670C000BR has three boot options; • Boot from NOR flash memory • Boot from NAND flash memory • Boot from serial flash memory The R0K572670C000BR comes standard with an RS-232C connector and a USB connector as the SH7267 peripheral interfaces. The USB connector on the R0K572670C000BR is a Series-A receptacle. The wiring pattern on the R0K572670C000BR allows for connecting a Mini-B receptacle to evaluate the USB host and function modules. The SH7267 data bus, address bus and internal peripheral pins are connected to expansion connectors on the R0K572670C000BR to allow for timing evaluation with peripherals using measurement instruments, and the development of the optional board according to its application. The Renesas Electronics E10A-USB on-chip emulator (AUD trace enabled: 36-pin, AUB trace disabled: 14-pin) can be connected to the R0K572670C000BR.
1.1.2 Optional board for audio (Part number: M3A-HS64G01)
The M3A-HS64G01 is an evaluation board suitable for advance development of the audio system, which comes standard with an audio interface, CD deck interface and character LCD module connector. Also, it comes with two channels of a D/A converter for audio output, and one channel of a D/A converter and an A/D converter for audio input and output as its audio interfaces. It also comes standard with an LCD module interface connector, a UART interface connector, a CAN (Controller Area Network) connector, an IEBusTM connector, an IIC connector, and an SD card connector. Note: Some of the functions cannot be used with the R0K572670C000BR.
1.1.3 Optional board for graphic display (Part number: M3A-HS64G02)
The M3A-HS64G02 is an evaluation board, which comes standard with a video input interface, an audio interface and an LCD module interface for developing the video processing or music-playing applications. All PWM output pins and timer output pins are inserted into connectors to allow for developing the automotive meter or brightness-control applications. It comes standard with a CAN connector, an IEBusTM connector, an IIC connector and an SD card connector. Note: Some of the functions cannot be used with the R0K572670C000BR.
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Overview 1 1.2 R0K572670C000BR Configuration
1.2 R0K572670C000BR Configuration
The following figure shows an example of the system configuration using the R0K572670C000BR.
Optional board for audio (M3A-HS64G01) SH7267 CPU board 5 VDC output or regulated R0K572670C000BR (1) Optional board for graphic power supply (1.5 A min.) display (M3A-HS64G02) RS-232C Optional board can be connected USB SH7267
H-UDI port connector
High-performance Embedded Workshop (1) Debugger SuperH RISC engine C/C++ compiler package (1)
Host E10A-USB emulator (1) computer (1)
Note 1: These items are not included in this CPU board, and must be prepared by user.
Figure 1.2.1 R0K572670C000BR System Configuration Example
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Overview 1 1.3 R0K572670C000BR Board Specifications
1.3 R0K572670C000BR Board Specifications
Table 1.3.1 and Table 1.3.2 describe the board specifications of the R0K572670C000BR.
Table 1.3.1 Board Specifications (1/2) No. Item Description
• SH7267 Input (XIN) clock: 12 MHz Bus clock: 72 MHz at maximum CPU clock: 144 MHz at maximum Internal memory 1 CPU Hi-speed internal RAM: 64 KB Large-capacity internal RAM: 1.5 MB Instruction cache: 8 KB Operand cache: 8 KB Power supply voltage: internal - 1.25 V, I/O - 3.3 V 176-pin QFP, 0.5 mm pitch (package code: PLQP0176KB-A) • SDRAM: 16 MB EDS1216AATA-75E: 1 (Elpida) • NOR flash memory: 4 MB S29GL032N90TFI030: 1 (SPANSION) • NAND flash memory: 256 MB 2 External memory K9F2G08U0A-PCB0: 1 (Samsung) • Serial flash memory: 2 MB SST25VF016B-75: 1 (SST) • EEPROM: 16 KB R1EX24128ASA00A: 1 (Renesas) 3 USB • USB Series-A receptacle (Mini-B receptacle is optional) • H-UDI port connectors (36-pin and 14-pin) • RS-232C connector (D-sub 9-pin) • 20-pin MIL-spec connectors Connectors and SH7267 expansion connectors: 6 (Ports A, C to F, H, and J) 4 through-holes • 30-pin MIL-spec connectors SH7267 expansion connectors: 2 (Ports B and G) • 40-pin MIL-spec connector SH7267 expansion connector: 1 (Ports E, and F) • Power supply LED: 1 5 LEDs • User LEDs: 2 (connected to the SH7267 I/O pins)
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Overview 1 1.3 R0K572670C000BR Board Specifications
Table 1.3.2 Board Specifications (2/2) No. Item Description
• Reset switch: 1 • NMI switch: 1 • IRQ1 switch: 1 6 Switches • TEST switch: 1 • System setting DIP switches: 6/package • User DIP switches: 6/package
• Dimensions: 148 mm x 105 mm • Mounting form: 6 layers, double-sided 7 Board specifications • Board thickness: 1.6 mm • Number of boards: 1
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Overview 1 1.4 R0K572670C000BR Exterior
1.4 R0K572670C000BR Exterior
The following figure shows the exterior of the R0K572670C000BR.
Figure 1.4.1 SH7267 CPU board Exterior
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Overview 1 1.5 R0K572670C000BR Block Diagram
1.5 R0K572670C000BR Block Diagram
The following figure shows the system block diagram of the R0K572670C000BR.
H-UDI (36-/14-pin) RS-232C connector
H-UDI SCIF PIO Switches (Interrupt, DIP switches) INTC EEPROM EEPROM IIC3 (16(16 KB)KB) VBUS control USB SH7267 USB connector NAND NAND FLCTL (144 MHz) (256(256 MB) MB)
SerialSerial flashflash RSPI memory memory Peripheral (2(2 MB) MB) BSC I/O
16-bit
16-bit 16-bit
SDRAMSDRAM NORNOR 16-bit (16(16 MB) MB) (4(4 MB)MB)
Expansion connector
Figure 1.5.1 R0K572670C000BR System Block Diagram
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Overview 1 1.6 R0K572670C000BR Major Components
1.6 R0K572670C000BR Major Components
Figure 1.6.1 and Figure 1.6.2 show the R0K572670C000BR layout and locations of the major components (PCB drawing).
JP5 RxD0, CRx0/IERxD switch jumper JP8 J4 5 V supply power connector JP11 supply Power switch jumper J6 5V input AC jack adapter IRQ1/CRx1 switch jumper SW3 switch NMI SW4 IRQ1 switch SW7 switch TEST JP12 supply V power 3.3 jumper switch JP13 supply V power 1.2 jumper switch SW1 Power supply switch JP4 TxD0 ,CTx0/IETxD switch jumper X3 LED1 Oscillator socket (EXTAL) Power supply LED X5 Oscillator 48 MHz (USB) X6 Resonator 48 MHz (USB) J10 JP10 RS-232C connector USB VBUS power supply jumper X4 Resonator 32.768 kHz (RTC)
U1 J1 SH7267 USB Series-A receptacle JP3 U6 NOR flash memory J3 USB 1.2 V analog power supply jumper U9 SDRAM JP1 H-UDI port connector A/D converter analog power supply jumper (36-pin) JP2 J7 USB 3.3 V analog power supply jumper H-UDI port connector JP6, JP7 (14-pin) AN [5:0] pin pull-up jumper SW2 switch Reset LED2, LED3 LED2, User LEDs SW6 switches DIP User CN5 connector Expansion CN2 connector Expansion U10 memory Serial flash X1 5.33 Oscillator MHz (LCD) SW5 switches DIP setting System X7 MHz 11.2896 (Audio) Oscillator X8 MHz (Audio) 12.2880 Oscillator
JP9 jumper AUDIO_X1 frequency switch Figure 1.6.1 R0K572670C000BR Component Layout and Placement (Top View of the Component Side)
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Overview 1 1.6 R0K572670C000BR Major Components
CN6 CN4 Expansion connector Expansion connector
X2 Oscillator 12 MHz (EXTAL)
CN1 Expansion connector
CN8 Expansion connector U7 NAND flash memory
CN3 Expansion connector
CN7 CN9 U8 Expansion connector Expansion connector EEPROM
Figure 1.6.2 R0K572670C000BR Layout and Component Placement (Top View of the Solder Side)
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Overview 1 1.6 R0K572670C000BR Major Components
The following tables list the major components on the R0K572670C000BR.
Table 1.6.1 Major components on the R0K572670C000BR - ICs (1/3) Qty No. Name Part Number Manufacturer Name Remarks per board 1 MCU R5S72673P144FPU Renesas Main MCU 1 2 SDRAM EDS1216AATA-75E Elpida 16-bit bus, 16 MB 1 3 NOR Flash memory S29GL032N90TFI030 Spansion 16-bit bus, 4 MB 1 4 NAND Flash memory K9F2G08U0A-PCB0 Samsung 8-bit bus, 256 MB 1 5 Serial Flash memory SST25VF016B-75 SST 4-wire serial, 2 MB 1 6 EEPROM R1EX24128ASA00A Renesas 2-wire serial 16 KB 1 7 Reset IC RNA50C27AUS Renesas 1 8 RS-232C driver MAX3222ECUP MAXIM 1 9 Adjustable regulator LMS1587CSX-ADJ NS 3.3 V 1 10 Adjustable regulator R2A20101NP Renesas 1.25 V 1 11 Voltage reference LM4132AMF-3.3 NS Reference power supply for 1 ADC 12 Multiplexers SN74CB3Q3257DBQR TI Analog switch 6
Table 1.6.2 Major components on the R0K572670C000BR - Connectors (2/3) Qty No. Name Part Number Manufacturer Name Remarks per board 1 36-pin H-UDI port connector DX10M-36SE HRS 1 2 14-pin H-UDI port connector 7614-6002 3M 1 3 RS-232C connector XM2C-0942-132L OMRON D-sub 9-pin 1 4 20-pin expansion connectors XG4C-2031 OMRON 20-pin MIL-spec connector 6 5 30-pin expansion connectors XG4C-3031 OMRON 30-pin MIL-spec connector 2 6 40-pin expansion connector XG4C-4031 OMRON 40-pin MIL-spec connector 1 7 DIP switches (6/package) A6S-6104-H OMRON System setting and user DIP switches 2 8 USB Series-A receptacle UBA-4R-D14T-4D J.S.T DIP type 1 9 USB Mini-B receptacle 54819-0572 MOLEX Optional 0
Table1.6.3 Major components on the R0K572670C000BR -USB and peripherals (3/3) Qty No. Name Part Number Manufacturer Name Remarks per board 1 USB power distribution switch MIC-2025-2YM MICREL VBUS power control 1 2 Zener Diode HZN6.2Z4MFA Renesas Optional 0 3 Ferrite Beads BLM21PG600SN1 Murata Optional 0 4 Common mode choke DLW21HN900SQ2 Rohm Optional 0
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Overview 1 1.7 M3A-HS64G01 Configuration
1.7 M3A-HS64G01 Configuration
The following figure shows an example of the system configuration using the M3A-HS64G01 (optional board for audio).
IEBusTM UART (1) Optional board for audio M3A-HS64G01
CAN SD card (1) SH7267 CPU board R0K572670C000BR
12 VDC output AC adapter (3 A min.) (1) module Character LCD
RSPDIF (1)
IIC CD deck LCD module Microphone (1), speaker, optical connector
Note 1: These items cannot be used with the R0K572670C000BR.
Figure 1.7.1 M3A-HS64G01 System Configuration Example
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Overview 1 1.8 M3A-HS64G01 Board Specifications
1.8 M3A-HS64G01 Board Specifications
The following table describes the board specifications of the M3A-HS64G01.
Table 1.8.1 Board Specifications No. Item Description Comes with following connecters to control an LCD module by the SH7267 on-chip Video Display Controller 3 (VDC3) 1 LCD • Flexible connectors for LCD module: 2 • MIL-spec connector for LCD module: 1 (30-pin) Controls the character LCD module by the SH7267 on-chip general-purpose I/O ports 2 Character LCD Note: This module cannot used with the R0K572670C000BR. • 16 x 2 semi-transmissive character LCD module with LED backlight: 1 Comes with audio codecs for audio input (AK4353) and audio input/output (AK4524) by the SH7267 on-chip Serial Sound Interface with FIFO (SSIF) • AK4353 (Asahi Kasei EMD Corporation): 2 • 96 kHz 24-bit DAC, on-chip digital audio transmitter • Sampling frequency: 16 kHz to 96 kHz • Stereo pin jacks: 2 3 Audio • Optical connectors: 2 Note: One audio codec (AK4353) can be used with the R0K572670C000BR. • AK4524 (Asahi Kasei EMD Corporation): 1 • 24-bit stereo codec with microphone AMP • Sampling frequency: 32 kHz to 48 kHz Note: This module cannot be used with the R0K572670C000BR. Inputs PCM data using the SH7267 on-chip SSIF and controls the CD deck by the 4 CD deck Renesas Serial Peripheral Interface (RSPI) • Flexible connector for connecting a CD deck: 1 Accesses the SD card by the SH7267 on-chip SD host interface (SDHI) Note: This module cannot be used with the R0K572670C000BR. 5 SD card interface • SD card slot : 1 • Includes a card power control IC (Software control NOT allowed)
CAN (Controller Area Network) communication by the SH7267 on-chip CAN (RCAN-TL1) 6 CAN • HA13721FP (Renesas CAN driver IC), includes a voltage level shifter
IEBusTM communication by the SH7267 on-chip IEBus controller (IEB) 7 IEBusTM • HA12187FP (Renesas IEBus driver IC), includes a voltage level shifter
Connected to the SH7267 on-chip Serial Communication Interface with FIFO (SCIF) pin 8 UART interface Note: This module cannot be used with the R0K572670C000BR.
Connected to the SH7267 on-chip IIC bus interface (IIC3) pin 9 IIC • MIL-spec connector for connecting an external IIC interface: 1 (20-pin) Key input by the SH7267 on-chip A/D converter 10 Switches • Key input switches: 16 (4 switches x 4 inputs) • Specifications: 210 mm x 148 mm • Mounting form: 4 layers, double-sided 11 Board specifications • Board thickness: 1.6 mm • Number of boards: 1
REJ11J0042-0100 Rev.1.00 1-12 Nov.18.2010
Overview 1 1.9 M3A-HS64G01 Exterior
1.9 M3A-HS64G01 Exterior
The following figure shows the exterior of the M3A-HS64G01.
Figure 1.9.1 M3A-HS64G01 Exterior
REJ11J0042-0100 Rev.1.00 1-13 Nov.18.2010
Overview 1 1.10 M3A-HS64G01 Block Diagram
1.10 M3A-HS64G01 Block Diagram
The following figure shows the block diagram of the M3A-HS64G01.
Bluetooth
HCI Power control SD card HCI SCIF interface connector AK4524 SDHI MUX Line-out RSPI PIO Character DAC/ADC LCD Mic-in SSIF AK4353 Op tical connector IIC3 LCD module VDC3 DAC interface Line-out SSIF AK4353 Optical connector Expansion DAC Line-out SSIF connector HA13721 RCAN Level shifter CAN driver Connector CAN
Through-hole RSPDIF RCAN Level shifter CAN driver Connector CAN IEB IIC HA12187 interface IIC3 IEBus driver Connector IEBusTM
SSIF ADC Key 4×4 RSPI CD PIO 5V interface Power supply circuit 8V 12 V
: These items cannot be used with the R0K572670C000BR.
Figure 1.10.1 M3A-HS64G01 Block Diagram
REJ11J0042-0100 Rev.1.00 1-14 Nov.18.2010
Overview 1 1.11 M3A-HS64G01 Major Components
1.11 M3A-HS64G01 Major Components
Figure 1.11.1 and Figure 1.11.2 show the M3A-HS64G01 layout and locations of the major components (PCB drawing).
connector TM JP9 jumper switch IERxD/CRx0 JP5 IETxD/CTx0 switch jumper CN1 CPU boardconnector CN3 CPU boardconnector CN9 CPU boardconnector CN6 CPU boardconnector CN7 CPU boardconnector LED1 Powersupply LED (12 V) JP2 Character LCD/SDswitch jumper J15 IEBus J10 UART connector JP6, JP7 CAN (ch0) terminate jumpers J16 CAN connector 0
J17 CAN connector 1
JP10, JP11 CAN (ch1) terminate jumpers
JP4 CTx1 pin connect jumper SW18 JP8 Power supply switch CRx1 pin connect jumper
J18 12 V power supply connector
JP12 SW2 to SW17 Power supply switch jumper Key input switches J19 12 V input AC adapter jack 16 x 2 Character LCD Character J3 jack pin Line-out J6 jack pin Line-out J8 jack pin Line-out J9 CD deck connector J11 External IIC connector J14 LCD module connector J13 LCD module connector J12 LCD module connector J5 connector optical Audio J7 Audio opticalconnector JP3 Power supply jumper for plug-in power microphone J4 Microphoneinput pin jack SW1 LCD module connector (J12) power supply switch J1 Character LCD module connector
Figure 1.11.1 M3A-HS64G01 Layout and Component Placement (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 1-15 Nov.18.2010
Overview 1 1.11 M3A-HS64G01 Major Components
J2 SD card slot
Figure 1.11.2 M3A-HS64G01 Layout and Component Placement (Top View of the Solder Side)
REJ11J0042-0100 Rev.1.00 1-16 Nov.18.2010
Overview 1 1.11 M3A-HS64G01 Major Components
The following tables list the major components on the M3A-HS64G01.
Table 1.11.1 Major Components - ICs (1) Qty per No. Name Part Number Manufacturer Name Remarks board 1 Character LCD module SD1602H SUNLIKE 16 characters x 2 lines 1 2 Audio codec AK4524VF AKM 24-bit 96 kHz audio codec 1 3 D/A converters AK4353VF AKM 96 kHz 24-bit D/A converter 2 4 CAN drivers HA13721FP Renesas 2 5 IEBusTM driver HA12187FP Renesas 1 6 Adjustable regulator LTC3727EG LT 8 V/5 V 1 7 Multiplexers SN74CB3Q3257DBQR TI Analog switch 2
Table 1.11.2 Major Components -Connectors (2) Qty per No. Name Part Number Manufacturer Name Remarks board 1 20-pin expansion connectors XG4C-2031 OMRON 20-pin MIL-spec connector 3 2 30-pin expansion connector XG4C-3031 OMRON 30-pin MIL-spec connector 1 3 40-pin expansion connector XG4C-4031 OMRON 40-pin MIL-spec connector 1 4 SD card slot DM1B-DSF-PEJ HRS Reverse type 1 5 Audio optical connectors TOTX147PL TOSHIBA 2 6 CD deck connector IMSA-9617S-22 IRISO 1 mm pitch FFC 1 7 UART connector B7B-XH-A J.S.T TTL level 1 8 External IIC connector XG4C-2031 OMRON 20-pin MIL-spec connector 1 9 LCD module connector 1 (J12) IMSA-9639S-40D IRISO 0.5 mm pitch FFC, 1 for TX09D55VM1CDA only 10 LCD module connector 2 (J13) IMSA-9619S-40B IRISO 1 mm pitch FFC, 1 for TX09D14VM3CCA only 11 LCD module connector 3 (J14) XG4C-3031 OMRON 30-pin MIL-spec connector 1 General-purpose 12 IEBusTM connector B4B-XH-A J.S.T 2.5 mm pitch 1 13 CAN connectors B3B-XH-A J.S.T 2.5 mm pitch 2
REJ11J0042-0100 Rev.1.00 1-17 Nov.18.2010
Overview 1 1.12 M3A-HS64G02 Configuration
1.12 M3A-HS64G02 Configuration
The following figure shows an example of the system configuration using the M3A-HS64G02 (optional board for graphic display).
IEBusTM UART (1) Optional board for graphic display M3A-HS64G02
CAN SD card SH7267 CPU board R0K572670C000BR 12 VDC output (1) AC adapter PWM (3 A min.)
Timer output
RSPDIF (1)
IIC Speaker LCD module Vin Optical connector
Note 1: These items cannot be used with the R0K572670C000BR.
Figure 1.12.1 M3A-HS64G02 System Configuration Example
REJ11J0042-0100 Rev.1.00 1-18 Nov.18.2010
Overview 1 1.13 M3A-HS64G02 Board Specifications
1.13 M3A-HS64G02 Board Specifications
The following table describes the M3A-HS64G02 board specifications.
Table 1.13.1 Board Specifications No. Item Description Comes with following connectors to control an LCD module by the SH7267 on-chip VDC3 1 LCD • Flexible connectors for LCD module: 2 • MIL-spec connector for LCD module: 1 (30-pin) Inputs the video signal in the SH7267 on-chip VDC3 • AK8851 (Asahi Kasei EMD Corporation): 1 Decodes NTSC or PAL composite video signal and S-video signal digitally 2 Video signal input Includes two channels of a 10-bit ADC (Operates at 27 MHz) Composite video pin (RCA connector) S-video connector Comes with an audio codec for audio output by the SH7267 on-chip SSIF • AK4353 (Asahi Kasei EMD Corporation): 1 • 96 kHz 24-bit D/A converter, on-chip digital audio transmitter 3 Audio • Sampling frequency: 16 kHz to 96 kHz • Stereo pin jack: 1 • Optical connector: 1 Connected to the SH7267 on-chip Motor Control PWM timer pin 4 PWM Note: This module cannot be used with the R0K572670C000BR. • MIL-spec connector for PWM timer output: 1 (20-pin) Controls the LED brightness by the PWM mode in the SH7267 on-chip MTU2 5 Timer output • MIL-spec connector for timer output: 1 (20-pin) Accesses the SD card by the SH7267 on-chip SDHI 6 SD card interface • SD card slot: 1 • Includes a card power control IC (Software control NOT allowed) CAN communication by the SH7267 on-chip CAN (RCAN-TL1) 7 CAN • HA13721FP (Renesas CAN driver IC), includes a voltage level shifter IEBusTM communication by the SH7267 on-chip IEBus controller (IEB) 8 IEBusTM • HA12187FP (Renesas IEBus driver IC), includes a voltage level shifter Connected to the SH7267 on-chip IIC bus interface (IIC3) pin 9 IIC • MIL-spec connector for connecting an external IIC interface: 1 (20-pin) Key input by the SH7267 on-chip ADC 10 Switches • Key input switches: 16 (4 switches x 4 inputs) • Dimensions: 210 mm x 148 mm • Mounting form: 4 layers, double-sided 11 Board specifications • Board thickness: 1.6 mm • Number of boards: 1
REJ11J0042-0100 Rev.1.00 1-19 Nov.18.2010
Overview 1 1.14 M3A-HS64G02 Exterior
1.14 M3A-HS64G02 Exterior
The following figure shows the exterior of the M3A-HS64G02.
Figure 1.14.1 M3A-HS64G02 Exterior
REJ11J0042-0100 Rev.1.00 1-20 Nov.18.2010
Overview 1 1.15 M3A-HS64G02 Block Diagram
1.15 M3A-HS64G02 Block Diagram
The following figure shows the block diagram of the M3A-HS64G02.
UART Power control SD card interface SCIF connector SDHI MUX PWM PWM interface
AK4353 Optical connector IIC3 LCD module DAC interface Line-out SSIF VDC3 AK8851 Video Video In Expansion IIC3 decoder connector HA13721 RCAN Level shifter CAN driver Connector CAN
Through-hole RSPDIF RCAN Level shifter CAN driver Connector CAN IEB IIC I/F IIC3 HA12187 IEBus driver Connector IEBusTM
Brightness-control LED MTU2 ADC Key 4 × 4
Switches × 2 IRQ 5V Power supply circuit
12 V
: These items cannot be used with the R0K572670C000BR.
Figure 1.15.1 M3A-HS64G02 Block Diagram
REJ11J0042-0100 Rev.1.00 1-21 Nov.18.2010
Overview 1 1.16 M3A-HS64G02 Major Components
1.16 M3A-HS64G02 Major Components
The following figure shows the M3A-HS64G02 layout and locations of the major components (PCB drawing).
connector TM J2 UART connector JP5 switchIETxD/CTx0 jumper SW3 LCD moduleconnector (J10) powerswitch supply JP9 IERxD/CRx0 switch jumper CN1 CPU board connector CN3 CPU board connector CN9 CPU board connector CN6 Expansion connector CN7 CPU board connector J2 jumper switch PE3/SDA1 IRQ3, LED1 supplyPower LED (12 V) JP6, JP7 J13 IEBus CAN (ch0) terminate jumpers JP3 PWM, SD/SSIF/PORT J14 switch jumper CAN connector 0
J15 CAN connector 1 JP10, JP11 CAN (ch1) terminate jumpers
JP4 CTx1 pin connect jumper SW20 JP8 Power supply switch CRx1 pin connect jumper
J17 SW2 to SW17 12 V power supply connector Key input switches JP12 Power supply switch jumper J5 PWM connector J18 12 V input AC adapter jack J16 MTU2 connector SW1 IRQ2 switch SW2 IRQ3 switch J7 Line-out pin jack J8 RCA connector J9 S-Video connector X1 Oscillator 24.576 MHz (Video) J6 Audio opticalconnector J3 External IIC connector J12 LCD moduleconnector J11 LCD moduleconnector J10 LCD moduleconnector LED1 to LED14 to LED1 Brightness-control LEDs J1 IRQ2, PE2/SCL1switch jumper
Figure 1.16.1 M3A-HS64G02 Layout and Component Placement (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 1-22 Nov.18.2010
Overview 1 1.16 M3A-HS64G02 Major Components
J4 SD card slot
Figure 1.16.2 M3A-HS64G02 Layout and Component Placement (Top View of the Solder Side)
REJ11J0042-0100 Rev.1.00 1-23 Nov.18.2010
Overview 1 1.16 M3A-HS64G02 Major Components
Table 1.16.1 and Table 1.16.2 list the major components on the M3A-HS64G02.
Table 1.16.1 Major Components - ICs (1/2) Qty per No Name Part Number Manufacturer Name Remarks board 1 Character LCD module SD1602H SUNLIKE 16 characters x 2 lines 1 2 Video decoder AK8851VQ AKM Supports NTSC/PAL/SECAM 1 3 D/A converter AK4353VF AKM 96 kHz, 24-bit D/A converter 1 4 CAN drivers HA13721FP Renesas 2 5 IEBusTM driver HA12187FP Renesas 1 6 Adjustable regulator LTC3727EG LT 8 V/5 V 1 7 Multiplexers SN74CB3Q3257DBQR TI Analog switch 4
Table 1.16.2 Major Components -Connectors (2/2) Qty per No Name Part Number Manufacturer Name Remarks board 1 20-pin expansion connectors XG4C-2031 OMRON 20-pin MIL-spec connector 3 2 30-pin expansion connector XG4C-3031 OMRON 30-pin MIL-spec connector 1 3 40-pin expansion connector XG4C-4031 OMRON 40-pin MIL-spec connector 1 4 SD card slot DM1B-DSF-PEJ HRS Reverse type 1 5 Audio optical connector TOTX147PL TOSHIBA 1 6 UART connector B7B-XH-A J.S.T TTL level 1 7 External IIC connector XG4C-2031 OMRON 20-pin MIL-spec connector 1 8 LCD module connector 1 (J10) IMSA-9639S-40D IRISO 0.5 mm pitch FFC, 1 for TX09D55VM1CDA only 9 LCD module connector 2 (J11) IMSA-9619S-40B IRISO 1 mm pitch FFC, 1 for TX09D14VM3CCA only 10 LCD module connector 3 (J12) XG4C-3031 OMRON 30-pin MIL-spec connector 1 Multi-purpose 11 IEBusTM connector B4B-XH-A J.S.T 2.5 mm pitch 1 12 CAN connectors B3B-XH-A J.S.T 2.5 mm pitch 2 13 PWM connector XG4C-2031 OMRON 20-pin MIL-spec connector 1 14 MTU2 connector XG4C-2031 OMRON 20-pin MIL-spec connector 1
REJ11J0042-0100 Rev.1.00 1-24 Nov.18.2010
Overview 1 1.17 Memory Maps
1.17 Memory Maps
The following figure shows memory map examples of the SH7267 and the R0K572670C000BR.
R0K572670C000BR Logic address SH7267 logic space Memory Map H'0000 0000 Flash memory (4 MB)
16-bit bus
CS0 space: 64 MB H'0040 0000 User area
H'0400 0000 CS1 space: 64 MB User area
H'0800 0000 CS2 space: 64 MB User area
H'0C00 0000 SDRAM (16 MB)
16-bit bus
CS3 space: 64 MB H'0D00 0000 User area
H'1000 0000 CS4 space: 64 MB User area
H'1400 0000 CS5 space: 64 MB User area
H'1800 0000 CS6 space: 64 MB User area
H'1C00 0000 Large-capacity internal RAM: 1.5 MB
Others: 64 MB H'1C18 0000
H'2000 0000 CS0 to CS6 space and others CS0 to CS6 space and others
(Cache-disabled) (Cache-disabled)
H'4000 0000 Reserved Reserved
(Do not use) (Do not use)
H'8000 0000 Reserved Reserved
(Do not use) (Do not use)
H'FFF8 0000 High-speed internal RAM: 64 KB High-speed internal RAM: 64 KB
H'FFF9 0000 Internal RAM, Reserved Internal RAM, Reserved
(Do not use) (Do not use)
H'FFFC 0000 On-chip peripherals, Reserved On-chip peripherals, Reserved H'FFFF FFFF
Figure 1.17.1 SH7267 and the R0K572670C000BR Memory Map Example
REJ11J0042-0100 Rev.1.00 1-25 Nov.18.2010
Overview 1 1.18 Absolute Maximum Ratings
1.18 Absolute Maximum Ratings
Table 1.18.1 and Table 1.18.2 list the absolute maximum ratings of the R0K572670C000BR, and its optional boards.
Table 1.18.1 Absolute Maximum Ratings on the R0K572670C000BR Symbol Parameter Value Remarks VCC 5 V system power supply voltage -0.3 to 6.0 V Reference voltage: VSS 3VCC 3.3 V system power supply voltage -0.3 to 4.6 V Reference voltage: VSS 1.2VCC 1.25 V system power supply voltage -0.3 to 1.7 V Reference voltage: VSS Topr Operating ambient temperature -10 to 55°C Do not expose to condensation or corrosive gas Tstr Storage ambient temperature -20 to 60°C Do not expose to condensation or corrosive gas Note: Ambient temperature refers to the air temperature in the vicinity of the board.
Table 1.18.2 Absolute Maximum Ratings on the SH7267 Optional Boards Symbol Parameter Value Remarks 12VCC 12 V system power supply voltage -0.3 to 15.0 V Reference voltage: VSS 8VCC 8 V system power supply voltage -0.3 to 10.0 V Reference voltage: VSS 5VCC 5 V system power supply voltage -0.3 to 6.0 V Reference voltage: VSS 3VCC 3.3 V system power supply voltage -0.3 to 4.6 V Reference voltage: VSS Topr Operating ambient temperature -10°C to 55°C Do not expose to condensation or corrosive gas Tstr Storage ambient temperature -20°C to 60°C Do not expose to condensation or corrosive gas Note: Ambient temperature refers to the air temperature in the vicinity of the board.
1.19 Operating Conditions
Table 1.19.1 and Table 1.19.2 list the operating conditions of the R0K572670C000BR, and its optional boards.
Table 1.19.1 R0K572670C000BR Operating Conditions Symbol Parameter Value Remarks VCC 5 V system power supply voltage 4.75 to 5.25 V Reference voltage: VSS 3VCC 3.3 V system power supply voltage 3.0 to 3.6 V Reference voltage: VSS 1.2VCC 1.25 V system power supply voltage 1.15 to 1.35 V Reference voltage: VSS - Maximum current consumption 1.5 A max. Topr Operating ambient temperature 0°C to 40°C Do not expose to condensation or corrosive gas
Table 1.19.2 SH7267 Optional Boards Operating Conditions Symbol Parameter Value Remarks 12VCC 12 V system power supply voltage 11.4 to 12.6 V Reference voltage: VSS 8VCC 8 V system power supply voltage 7.6 to 8.4 V Reference voltage: VSS VCC 5 V system power supply voltage 4.75 to 5.25 V Reference voltage: VSS 3VCC 3.3 V system power supply voltage 3.0 to 3.6 V Reference voltage: VSS - Maximum current consumption 3 A max. Includes the R0K572670C000BR Topr Operating ambient temperature 0°C to 40°C Do not expose to condensation or corrosive gas
REJ11J0042-0100 Rev.1.00 1-26 Nov.18.2010
Overview 1 1.20 Usage Note
1.20 Usage Note This section describes usage note the SH7267 CPU board and optional boards.
1.20.1 Configuring Unused Pins Set the SH7267 unused (unconnected) multiplexed pins to output when not connecting the optional board with the SH7267 CPU board. Port H requires external resistors (R11 to R16) or must be set to an analog input.
REJ11J0042-0100 Rev.1.00 1-27 Nov.18.2010
Overview 1 1.20 Usage Note
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Chapter 2 R0K572670C000BR Functions Chapter 2 R0K572670C000BR Functions
2-1 R0K572670C000BR Functions 2 2.1 Overview of Functions
2.1 Overview of Functions
R0K572670C000BR includes the function modules listed in the following table.
Table 2.1.1 R0K572670C000BR Function Modules Section Function Description
2.2 CPU • SH7267 2.3 Memory • Connects the SH7267 external bus interface and an NOR flash memory - SH7267 Bus State Controller (BSC) recommended setting - Access timing example • Connects the SH7267 external bus interface and an SDRAM - SH7267 BSC recommended setting - Access timing example • Connects the SH7267 NAND flash memory controller (FLCTL) and NAND flash memory • Connects the SH7267 Renesas Serial Peripheral Interface (RSPI) and serial flash memory • Connects the SH7267 IIC bus interface 3 (IIC3) and an EEPROM 2.4 USB Interface • Connects the SH7267 USB 2.0 Host/function module and a USB connector 2.5 RS-232C Interface • Connects the SH7267 Serial Communication Interface with FIFO (SCIF) and an RS-232C connector 2.6 I/O Ports • Connect the SH7267 I/O ports, LEDs, and DIP switches 2.7 Interrupt Switches • Connects the SH7267 NMI pin, IRQ1 pin and push-button switches 2.8 Clock Modules • Controls the system clock • Controls the peripheral I/O clock 2.9 Reset Module • Resets devices on the R0K572670C000BR 2.10 Power Supply Module • Controls the R0K572670C000BR system power supply 2.11 E10A-USB Interface • Connects the SH7267 user debug interface and an H-UDI port connector - Operating Specifications • Connectors, switches, and LEDs Refer to Chapter 5 for details.
REJ11J0042-0100 Rev.1.00 2-2 Nov.18.2010
R0K572670C000BR Functions 2 2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR
2.2 CPU
2.2.1 SH7267 Overview
The R0K572670C000BR includes the SH7267, the 32-bit RISC MCU that operates with a maximum frequency of 144 MHz.
2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR
Table 2.2.1 to Table 2.2.5 list the SH7267 pin functions used on the R0K572670C000BR.
Table 2.2.1 SH7267 Pin Functions (1/5) Expansion No. Name Symbol Description Remarks connector 1 PVcc PG18/LCD_DE/TIOC2A/RxD3/ 2 – – CN9, pin 24 RTS1 3 Vss 4 PB1/A1/LCD_HSYNC A1 Address bus CN4, pin 1 5 Vcc 6 PB2/A2/LCD_VSYNC A2 Address bus CN4, pin 2 7 PB3/A3/LCD_DATA15 A3 Address bus CN4, pin 3 8 PB4/A4/TIOC0A/LCD_DATA14 A4 Address bus CN4, pin 4 PG9/LCD_DATA9/SSIRxD0/ 9 – – CN9, pin 11 TxD4/SIOFSYNC 10 PVcc PG8/LCD_DATA8/SSITxD0/ 11 – – CN9, pin 12 RxD4/SIOFSCK 12 Vss 13 PB5/A5/TIOC0B/LCD_DATA13 A5 Address bus CN4, pin 5 14 PB6/A6/TIOC0C/LCD_DATA12 A6 Address bus CN4, pin 6 15 PB7/A7/TIOC0D/LCD_DATA11 A7 Address bus CN4, pin 9 16 PB8/A8/TIOC1A/LCD_DATA10 A8 Address bus CN4, pin 10 17 PVcc 18 PB9/A9/TIOC1B/LCD_DATA9 A9 Address bus CN4, pin 11 19 Vss 20 PB10/A10/TIOC2A/LCD_DATA8 A10 Address bus CN4, pin 12 21 Vcc 22 PB11/A11/TIOC2B/LCD_DATA7 A11 Address bus CN4, pin 13 23 PB12/A12/TIOC3A/LCD_DATA6 A12 Address bus CN4, pin 14 24 PB13/A13/TIOC3B/LCD_DATA5 A13 Address bus CN4, pin 17 25 PB14/A14/TIOC3C/LCD_DATA4 A14 Address bus CN4, pin 18 26 PB15/A15/TIOC3D/LCD_DATA3 A15 Address bus CN4, pin19 PG7/LCD_DATA7/SD_CD/PINT7/ 27 – – CN9, pin 9 IRQ7 PG6/LCD_DATA6/SD_WP/PINT6/ 28 – – CN9, pin 7 IRQ6 29 PVcc PG5/LCD_DATA5/SD_D1/PINT5/ 30 – – CN9, pin 8 IRQ5 31 Vss PG4/LCD_DATA4/SD_D0/PINT4/ 32 – – CN9, pin 6 IRQ4 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 2-3 Nov.18.2010
R0K572670C000BR Functions 2 2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR
Table 2.2.2 SH7267 Pin Functions (2/5) Expansion No. Name Symbol Description Remarks connector 33 Vcc 34 PB16/A16/TIOC4A/LCD_DATA2 A16 Address bus CN4, pin 20 PB17/A17/TIOC4B/LCD_DATA1/ 35 A17 Address bus CN4, pin 21 SCK1 PB18/A18/TIOC4C/LCD_DATA0/ 36 A18 Address bus CN4, pin 22 TxD1 37 PB19/A19/TIOC4D/RxD1 A19 Address bus CN4, pin 25 38 PB20/A20/SPDIF_IN/SCK4 A20 Address bus CN4, pin 26 39 PB21/A21/SPDIF_OUT/TxD4 A21 Address bus CN4, pin 27 40 PVcc 41 CKIO CKIO Connected to the SDRAM CLK pin CN6, pin 20 42 Vss Low: MD 43 PB22/A22/CS4#/RxD4 PB22 Switches the system setting/user interface CN4, pin 28 High: IO 44 NMI NMI Non-maskable interrupt – 45 PLLVcc 46 RES# RES# Reset input CN7, pin 6 47 PLLVss PA0 Connected to LED2 as a user output port PB22: High 48 PA0/MD_CLK0 CN1, pin 10 MD_CLK0 Connected to SW5-1 as clock mode input 0 PB22: Low PA1 Connected to LED3 as a user output port PB22: High 49 PA1/MD_BOOT0 CN1, pin 9 MD_BOOT0 Connected to SW5-2 as boot mode input 0 PB22: Low 50 EXTAL EXTAL Connects system external clock to MCU – 12 MHz 51 XTAL XTAL Open – PG3/LCD_DATA3/SD_CLK/ 52 – – CN9, pin 3 PINT3 PG2/LCD_DATA2/SD_CMD/ 53 – – CN9, pin 4 PINT2 54 PG1/LCD_DATA1/SD_D3/PINT1 – – CN9, pin 1 55 PG0/LCD_DATA0/SD_D2/PINT0 – – CN9, pin 2 56 Vss 57 PVcc Connects the LCD module external clock to Default: 58 PG20/LCD_EXTCLK/SCK1 LCD_EXTCLK CN9, pin 26 MCU 5.33 MHz 59 Vss 60 RTC_X1 RTC_X1 Connects the real-time clock resonator to – 32.768 kHz 61 RTC_X2 RTC_X2 MCU – PA2 Connected to SW6-5 as a user input port CN1, pin 8 PB22: High 62 PA2/MD_BOOT1 MD_BOOT1 Connected to SW5-3 as boot mode input 1 – PB22: Low 63 USB_X1 USB_X1 Connects the USB external clock to MCU – 48 MHz 64 USB_X2 USB_X2 Open – 65 ASEMD# ASEMD# ASE mode select – H-UDI 66 USBDPVcc 67 USBDPVss 68 DM DM USB differential signal D− data – 69 DP DP USB differential signal D+ data – 70 VBUS VBUS VBUS input – 71 USBDVcc 72 USBDVss Connects a 5.6 kΩ 73 REFRIN REFRIN Reference input – ± 1% resistor 74 USBAPVss Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 2-4 Nov.18.2010
R0K572670C000BR Functions 2 2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR
Table 2.2.3 SH7267 Pin Functions (3/5) Expansion No. Name Symbol Description Remarks connector 75 USBAPVcc 76 USBAVcc 77 USBAVss 78 USBUVcc 79 USBUVss 80 PH0/AN0 – – CN3, pin 4 81 PH1/AN1 – – CN3, pin 3 82 PH2/AN2 – – CN3, pin 8 83 PH3/AN3 – – CN3, pin 7 84 AVss 85 PH4/AN4 – – CN1, pin 2 86 AVref 87 PH5/AN5 – – CN1, pin 4 88 AVcc 89 TRST# TRST# Initialize-signal input pin – H-UDI ASEBRKAK# Break mode acknowledge 90 ASEBRKAK#/ASEBRK# – H-UDI ASEBRK# Break request 91 TDO TDO Test data output – H-UDI 92 TDI TDI Test data input – H-UDI 93 TMS TMS Test mode select – H-UDI 94 TCK TCK Test clock – H-UDI 95 AUDIO_X2 AUDIO_X2 Open – 96 AUDIO_X1 AUDIO_X1 Connects the audio external clock to MCU – Switched by JP9 97 PG24/MISO1/TIOC0D – – CN6, pin 13 98 PVcc 99 PG23/MOSI1/TIOC0C – – CN6, pin 12 100 Vss 101 PG22/SSL10/TIOC0B – – CN9, pin 27 102 Vcc 103 PG21/RSPCK1/TIOC0A – – CN9, pin 28 PJ3/CRx1/CRx0/CRx1/IRQ1/ IRQ1 IRQ1 switch – JP8: 1-2 104 AUDIO_XOUT/WDTOVF# – – CN1, pin 17 JP8: 2-3 PJ2/CTx1/CTx0&CTx1/CS2#/ 105 – – CN1, pin 18 SCK0/LCD_M_DISP Connected to the RS-232C connector RxD0 – JP5: 1-2 106 PJ1/CRx0/IERxD/IRQ0/RxD0 (J10) – – CN1, pin 19 JP5: 2-3 Connected to the RS-232C connector PJ0/CTx0/IETxD/CS1#/TxD0/ TxD0 – JP4: 1-2 107 (J10) A0 – – CN1, pin 20 JP4: 2-3 PF8/CE2B#/SSIDATA2/DV_CLK/ – – CN7, pin 27 SW6-6: ON 108 SD_CD CN7, pin 15 SW6-6: OFF PF7/CE2A#/SSIWS2/DV_DATA7/ – – CN7, pin 28 SW6-6: ON 109 TCLKD/SD_WP CN7, pin 16 SW6-6: OFF 110 PVcc PF6/CS6#/CE1B#/SSISCK2/ CN7, pin 25 SW6-6: ON 111 – – DV_DATA6/TCLKB/SD_D1 CN7, pin 13 SW6-6: OFF 112 Vss Connected to the H-UDI port connector PF5/CS5#/CE1A#/SSIDATA1/ AUDATA3 AUD (J3) CN7, pin 23 113 DV_DATA5/TCLKC/SD_D0/ SW6-6: ON AUDATA3 – – CN7, pin 14 SW6-6: OFF 114 Vcc Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 2-5 Nov.18.2010
R0K572670C000BR Functions 2 2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR
Table 2.2.4 SH7267 Pin Functions (4/5) Expansion No. Name Symbol Description Remarks connector PF4/ICIOWR#/AH#/SSIWS1/ AUDATA2 Connected to the H-UDI port connector (J3) AUD CN7, pin 24 115 DV_DATA4/TxD3/SD_CLK/ SW6-6: ON – – AUDATA2 CN7, pin 3 SW6-6: OFF PF3/ICIORD#/SSISCK1/ AUDATA1 Connected to the H-UDI port connector (J3) AUD CN7, pin 22 116 DV_DATA3/RxD3/SD_CMD/ SW6-6:ON – – AUDATA1 CN7, pin 4 SW6-6:OFF AUDATA0 Connected to the H-UDI port connector (J3) AUD PF2/BACK#/DV_DATA2/TxD2/ CN7, pin 19 117 SW6-6: ON DACK0/SD_D3/AUDATA0 – – CN7, pin 1 SW6-6: OFF AUDSYNC# Connected to the H-UDI port connector (J3) AUD CN7, pin 20 PF1/BREQ#/DV_DATA1/RxD2/ 118 SW6-6: ON DREQ0/SD_D2/AUDSYNC# – – CN9, pin 29 CN7, pin 2 SW6-6: OFF AUDCK Connected to the H-UDI port connector (J3) AUD PF0/WAIT#/DV_DATA0/SCK2/ CN7, pin 17 119 TEND0/AUDCK – – CN7, pin 32 120 PVcc PG17/LCD_HSYNC/TIOC1B/ 121 – – CN9, pin 21 TxD1 122 Vss PG16/LCD_VSYNC/TIOC1A/ 123 – – CN9, pin 19 RxD1 MISO0 Connected to the serial flash memory SO pin PF12/BS#/MISO0/TIOC3D/ CN7, pin 33 SW5-6: OFF 124 SPDIF_OUT – – CN7, pin 38 SW5-6: ON MOSI0 Connected to the serial flash memory SI pin PF11/A25/SSIDATA3/MOSI0/ CN7, pin 31 SW5-6: OFF 125 – TIOC3C/SPDIF_IN – CN7, pin 37 SW5-6: ON 126 PVcc SW5-5: ON SSL00 Connected to the serial flash memory CS# pin – SW5-6: OFF PF10/A24/SSIWS3/SSL00/ 127 SW5-5: ON TIOC3B/FCE# – – CN7, pin 35 SW5-6: ON FCE# Connected to the NAND flash memory CE# pin – SW5-5: OFF 128 Vss SW5-5: ON RSPCK0 Connected to the serial flash memory SCK pin CN7, pin 30 SW5-6: OFF PF9/A23/SSISCK3/RSPCK0/ 129 TIOC3A/FRB – – SW5-5: ON CN7, pin 36 SW5-6: ON FRB Connected to the NAND flash memory R/B# pin – SW5-5: OFF 130 Vcc 131 PD15/D15/NAF7/PWM2H D15/NAF7 Data bus CN8, pin 19 132 PD14/D14/NAF6/PWM2G D14/NAF6 Data bus CN8, pin 17 133 PE5/SDA2/DV_HSYNC – – CN7, pin 12 134 PE4/SCL2/DV_VSYNC – – CN7, pin 9 SDA1 Connected to the EEPROM SDA pin JP10: 1-2 135 PE3/SDA1/IRQ3 CN7, pin 10 – – SCL1 Connected to the EEPROM SCL pin CN7, pin 7 JP9: 1-2 136 PE2/SCL1/IRQ2 – – PE1/SDA0/IOIS16#/IRQ1/TCLKA/ 137 – – CN7, pin 8 ADTRG#/LCD_EXTCLK 138 PE0/SCL0/AUDIO_CLK/IRQ0 – – CN7, pin 5 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 2-6 Nov.18.2010
R0K572670C000BR Functions 2 2.2.2 SH7267 Pin Functions Used on the R0K572670C000BR
Table 2.2.5 SH7267 Pin Functions (5/5) Expansion No. Name Symbol Description Remarks connector 139 PD13/D13/NAF5/PWM2F D13/NAF5 Data bus CN8, pin 14 140 PD12/D12/NAF4/PWM2E D12/NAF4 Data bus CN8, pin 12 141 PVcc 142 PD11/D11/NAF3/PWM2D D11/NAF3 Data bus CN8, pin 9 143 Vss 144 PD10/D10/NAF2/PWM2C D10/NAF2 Data bus CN8, pin 7 145 PD9/D9/NAF1/PWM2B D9/NAF1 Data bus CN8, pin 4 146 PD8/D8/NAF0/PWM2A D8/NAF0 Data bus CN8, pin 2 Connected to the data bus and the NAND flash 147 PD7/D7/FWE#/PWM1H D7/FWE# CN8, pin 18 Auto-switch memory WE# pin Connected to the data bus and the NAND flash 148 PD6/D6/FALE/PWM1G D6/FALE CN8, pin 16 Auto-switch memory ALE pin Connected to the data bus and the NAND flash 149 PD5/D5/FCLE/PWM1F D5/FCLE CN8, pin 13 Auto-switch memory CLE pin PG15/LCD_DATA15/TIOC0D/ 150 – – CN9, pin 20 TxD7 PG14/LCD_DATA14/TIOC0C/ 151 – – CN9, pin 17 RxD7 152 PVcc 153 Vss PG13/LCD_DATA13/TIOC0B/ 154 – – CN9, pin 18 TxD6 PG12/LCD_DATA12/TIOC0A/ 155 – – CN9, pin 16 RxD6 Connected to the data bus and the NAND flash 156 PD4/D4/FRE#/PWM1E D4/FRE# CN8, pin 11 Auto-switch memory RE# pin 157 PD3/D3/PWM1D D3 Data bus CN8, pin 8 158 PD2/D2/PWM1C D2 Data bus CN8, pin 6 159 PD1/D1/PWM1B D1 Data bus CN8, pin 3 160 PD0/D0/PWM1A D0 Data bus CN8, pin 1 161 PC0/CS0#/SSIWS0 CS0# Connected to the NOR flash memory CE# pin CN6, pin 5 162 PVcc 163 PC1/RD#/SSISCK0 RD# Connected to the NOR flash memory OE# pin CN6, pin 6 164 Vss 165 PC2/RD/WR#/SSIRxD0 RD/WR# Connected to the SDRAM WE# pin CN6, pin 7 WE0# Connected to the NOR flash memory WE# pin 166 PC3/WE0#/DQML/SSITxD0 CN6, pin 8 DQML Connected to the SDRAM DQML pin 167 PC4/WE1#/DQMU/WE# DQMU Connected to the SDRAM DQMU pin CN6, pin 9 RAS# Connected to the SDRAM RAS# pin – SW5-4: OFF 168 PC5/RAS#/TIOC4A/IRQ4 – – CN6, pin 14 SW5-4: ON PG11/LCD_DATA11/SSIWS0/ 169 – – CN9, pin 13 IRQ3/TxD5/SIOFTxD 170 PVcc PG10/LCD_DATA10/SSISCK0/ 171 – – CN9, pin 14 IRQ2/RxD5/SIOFRxD 172 Vss CAS# Connected to the SDRAM CAS# pin – SW5-4: OFF 173 PC6/CAS#/TIOC4B/IRQ5 – – CN6, pin 15 SW5-4: ON CKE Connected to the SDRAM CKE pin – SW5-4: OFF 174 PC7/CKE/TIOC4C/IRQ6 – – CN6, pin 16 SW5-4: ON CS3# Connected to the SDRAM CS# pin – SW5-4: OFF 175 PC8/CS3#/TIOC4D/IRQ7 – – CN6, pin 17 SW5-4: ON PG19/LCD_CLK/TIOC2B/TxD3/ 176 – – CN9, pin 23 CTS1 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 2-7 Nov.18.2010
R0K572670C000BR Functions 2 2.2.3 R0K572670C000BR Module Availability
2.2.3 R0K572670C000BR Module Availability
The following table shows which combination of modules can/cannot be used.
Table 2.2.6 R0K572670C000BR Module Availability R0K572670C000BR
SH7267 Component Module Name Peripherals No. NOR flash memory SDRAM memory flash NAND EEPROM Serial flash memory USB H-UDI (14-pin) H-UDI (36-pin) LED NMI switch IRQ1 switch switches DIP RS-232C BSC U6 NOR flash memory YYYYYYYYYYYY BSC U9 SDRAM Y YYYYYYYYYYY FLCTL U7 NAND flash memory Y Y Y (2) YYYYYYYY IIC3 U8 EEPROM Y Y Y Y Y Y Y Y Y Y Y Y RSPI U10 Serial flash memory Y Y (2) Y YYYYYYYY USB J1, J2 USB YYYYY YYYYYYY H-UDI J7 H-UDI (14-pin) YYYYYY YYYYYY H-UDI, AUDJ3 H-UDI (36-pin) YYYYYYY YYYYY I/O ports LED2, LED3LED YYYYYYYY YY(1) Y INTC SW3 NMI switch YYYYYYYYY YYY R0K572670C000BR INTC SW4 IRQ1 switch YYYYYYYYYY YY I/O ports SW5, SW6 DIP switches Y Y Y Y Y Y Y Y (1) YY Y SCIF J10 RS-232C YYYYYYYYYYYY Y: Yes Notes: 1: When using LED2, and LED3, SW5-1, SW5-2, and SW5-3 on the R0K572670C000BR cannot be used. 2: PF9,and PF10 are multiplexed pins. When setting SW5-5, and SW5-6, either serial or NAND can be used.
REJ11J0042-0100 Rev.1.00 2-8 Nov.18.2010
R0K572670C000BR Functions 2 2.2.4 SH7267 Multiplex Pins Used on the R0K572670C000BR
2.2.4 SH7267 Multiplex Pins Used on the R0K572670C000BR
Table 2.2.7 to Table 2.2.13 list SH7267 multiplex pin functions used on the R0K572670C000BR. These multiplex pins are set as port input pins by default. Set the MD bit in the port control register to use the SH7267 peripheral functions (except I/O ports).
Table 2.2.7 SH7267 Multiplex Pin Functions (BSC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name BSC CS0# PCCR0 PC0MD[1:0] = B'01 PC0/CS0#/SSIWS0 (1) CS3# PCCR2 PC8MD[1:0] = B'01 PC8/CS3#/TIOC4D/IRQ7 RD# PCCR0 PC1MD[1:0] = B'01 PC1/RD#/SSISCK0 (1) WE0#/DQML PCCR0 PC3MD[1:0] = B'01 PC3/WE0#/DQML/SSITxD0 WE1#/DQMU/WE# PCCR1 PC4MD0 = B'1 PC4/WE1#/DQMU/WE# RAS# PCCR1 PC5MD[1:0] = B'01 PC5/RAS#/TIOC4A/IRQ4 CAS# PCCR1 PC6MD[1:0] = B'01 PC6/CAS#/TIOC4B/IRQ5 CKE PCCR1 PC7MD[1:0] = B'01 PC7/CKE/TIOC4C/IRQ6 RD/WR# PCCR0 PC2MD[1:0] = B'01 PC2/RD/WR#/SSIRxD0 A21 PBCR5 PB21MD[2:0] = B'001 PB21/A21/SPDIF_OUT/TxD4 D15 PDCR3 PD15MD[1:0] = B'01 PD15/D15/NAF7/PWM2H (1) D14 PDCR3 PD14MD[1:0] = B'01 PD14/D14/NAF6/PWM2G (1) D13 PDCR3 PD13MD[1:0] = B'01 PD13/D13/NAF5/PWM2F (1) D12 PDCR3 PD12MD[1:0] = B'01 PD12/D12/NAF4/PWM2E (1) D11 PDCR2 PD11MD[1:0] = B'01 PD11/D11/NAF3/PWM2D (1) D10 PDCR2 PD10MD[1:0] = B'01 PD10/D10/NAF2/PWM2C (1) D9 PDCR2 PD9MD[1:0] = B'01 PD9/D9/NAF1/PWM2B (1) D8 PDCR2 PD8MD[1:0] = B'01 PD8/D8/NAF0/PWM2A (1) D7 PDCR1 PD7MD[1:0] = B'01 PD7/D7/FWE#/PWM1H (1) D6 PDCR1 PD6MD[1:0] = B'01 PD6/D6/FALE/PWM1G (1) D5 PDCR1 PD5MD[1:0] = B'01 PD5/D5/FCLE/PWM1F (1) D4 PDCR1 PD4MD[1:0] = B'01 PD4/D4/FRE#/PWM1E (1) D3 PDCR0 PD3MD[1:0] = B'01 PD3/D3/PWM1D (1) D2 PDCR0 PD2MD[1:0] = B'01 PD2/D2/PWM1C (1) D1 PDCR0 PD1MD[1:0] = B'01 PD1/D1/PWM1B (1) D0 PDCR0 PD0MD[1:0] = B'01 PD0/D0/PWM1A (1) Note 1: For boot modes 1 to 3 Table 2.2.8 SH7267 Multiplex Pin Functions (INTC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name INTC IRQ1 PJCR1 PJ3MD[2:0] = B'011 PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/WDTOVF#
Table 2.2.9 SH7267 Multiplex Pin Functions (SCIF) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name SCIF RxD0 PJCR0 PJ1MD[2:0] = B'100 PJ1/CRx0/IERxD/IRQ0/RxD0 TxD0 PJCR0 PJ0MD[2:0] = B'100 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 2.2.10 SH7267 Multiplex Pin Functions (IIC3) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name IIC3 SDA1 PECR0 PE3MD[1:0] = B'01 PE3/SDA1/IRQ3 SCL1 PECR0 PE2MD[1:0] = B'01 PE2/SCL1/IRQ2
REJ11J0042-0100 Rev.1.00 2-9 Nov.18.2010
R0K572670C000BR Functions 2 2.2.4 SH7267 Multiplex Pins Used on the R0K572670C000BR
Table 2.2.11 SH7267 Multiplex Pin Functions (FLCTL) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name FLCTL NAF7 PDCR3 PD15MD[1:0] = B'01 PD15/D15/NAF7/PWM2H NAF6 PDCR3 PD14MD[1:0] = B'01 PD14/D14/NAF6/PWM2G NAF5 PDCR3 PD13MD[1:0] = B'01 PD13/D13/NAF5/PWM2F NAF4 PDCR3 PD12MD[1:0] = B'01 PD12/D12/NAF4/PWM2E NAF3 PDCR2 PD11MD[1:0] = B'01 PD11/D11/NAF3/PWM2D NAF2 PDCR2 PD10MD[1:0] = B'01 PD10/D10/NAF2/PWM2C NAF1 PDCR2 PD9MD[1:0] = B'01 PD9/D9/NAF1/PWM2B NAF0 PDCR2 PD8MD[1:0] = B'01 PD8/D8/NAF0/PWM2A FWE# PDCR1 PD7MD[1:0] = B'01 PD7/D7/FWE#/PWM1H FALE PDCR1 PD6MD[1:0] = B'01 PD6/D6/FALE/PWM1G FCLE PDCR1 PD5MD[1:0] = B'01 PD5/D5/FCLE/PWM1F FRE# PDCR1 PD4MD[1:0] = B'01 PD4/D4/FRE#/PWM1E FCE# PFCR2 PF10MD[2:0] = B'101 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# FRB PFCR2 PF9MD[2:0] = B'101 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB
Table 2.2.12 SH7267 Multiplex Pin Functions (RSPI) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name RSPI MISO0 PFCR3 PF12MD[2:0] = B'011 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT MOSI0 PFCR2 PF11MD[2:0] = B'011 PF11/A25/SSIDATA3/MOSI0/TIOC3C/SPDIF_IN SSL00 PFCR2 PF10MD[2:0] = B'011 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# RSPCK0 PFCR2 PF9MD[2:0] = B'011 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB
Table 2.2.13 SH7267 Multiplex Pin Functions (PORT) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name PORT PB22 PBCR5 PB22MD[2:0] = B'000 PB22/A22/CS4#/RxD4
REJ11J0042-0100 Rev.1.00 2-10 Nov.18.2010
R0K572670C000BR Functions 2 2.3 Memory
2.3 Memory
The R0K572670C000BR includes the SH7267 internal RAM, an external flash memory, an external SDRAM, and an external EEPROM.
2.3.1 SH7267 Internal RAM
The SH7267 includes 64 KB high-speed internal RAM that allows high-speed access to MCU, and 1.5 MB large-capacity internal RAM of which 128 KB is used for data retention.
2.3.2 NOR Flash Memory Interface
The R0K572670C000BR comes standard with an NOR flash memory listed in the table below to store the user program. The NOR flash memory works at 16-bit mode, and 3.3 V-only single power supply. It is write-protected or write-enabled by system setting DIP switches. The figure below shows the NOR flash memory block diagram. Table 2.3.2 lists the DIP switches setting (SW6-1). Table 2.3.1 NOR Flash Memory Specifications Part Number Bus Size Capacity Access Time S29GL032N90TFI030 16-bit 4 MB (16-bit x 2 Mwords x 1) 90 ns
NAND flash memory S29GL032N90TFI Port 4 MB SH7267 (2 Mwords × 16-bit)
12-bit PD15 to PD4/D15 to D4 DQ15 to DQ4 4-bit PD3 to PD0/D3 to D0 DQ3 to DQ0
PB22/A22/CS4# NC (A21)
PB21/A21 A20 3.3 V 20-bit PB20 to PB1/A20 to A1 A19 to A0 3.3 V PC0/CS0# CE# 3.3 V PC1/RD# OE#
PC3/WE0#/DQML WE#
NC RY/BY#
RES# RESET# 3.3 V 3.3 V BYTE#
WP#/ACC DIP SW6-1 Note: Pin names in red indicate the function used.
Figure 2.3.1 NOR Flash Memory Block Diagram
REJ11J0042-0100 Rev.1.00 2-11 Nov.18.2010
R0K572670C000BR Functions 2 2.3.2 NOR Flash Memory Interface
Table 2.3.2 DIP Switches Setting (SW6-1) Number Function OFF (High) ON (Low) SW6-1 NOR flash memory is write-enabled (default) NOR flash memory is write-protected
The figure below shows the write and read access timing example of the NOR flash memory. The table below lists the bus state controller settings (write/read) when the SH7267 bus clock works at 72 MHz.
Write and read timing
Write1 Write2 Read1
Th T1 Tw 1 Tw 2 Tw 3 Tw 4 T2 Tf Taw 1 Taw 2 Th T1 Tw 1 Tw 2 Tw 3 Tw 4 T2 Tf Taw 1 Taw 2 Th T1 Tw 1 Tw 2 Tw 3 Tw 4 T2 Tf
CKIO
tWC tRC tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 A21-A1
tCSD1 tCSD1 tCSD1 tCSD1 tCSD1 tCSD1 CS0#
tRSD tRSD RD#
tWED1 tWED1 tWED1 tWED1 tCH tCH tCS tAH tAS tAH tAS tWP tWPH tWP tOEH WE0#
ta(OE) tDF(C tDS tDS ta(AD) tRDH1 tWDD1 tDH tWDH1 tWDD1 tDH tWDH1 tDF(CE) tRDS1 tDF(OE) D15-D0 DATA DATA DATA
Figure 2.3.2 NOR Flash Memory write/read Access Timing Example
Table 2.3.3 Bus State Controller Setting (Write and read the NOR flash memory) User area Target Device Setting CS0 S29GL032N90TFI030 CS0 Space Bus Control Register (CS0BCR): Initial value: H'36DB 0400 (MD = Low) Recommended value: H'1240 0400 • Idle Cycles between Write-Read Cycles and Write-Write Cycles IWW [2:0] = B'001; 1 idle cycle inserted • Idle Cycles for Another Space Read-Write IWRWD [2:0] = B'001; 1 idle cycle inserted • Idle Cycles for Read-Write in the Same Space IWRWS [2:0] = B'001; 1 idle cycle inserted • Data bus width BSZ [1:0] = B'10; 16-bit CS0 Space Wait Control Register (CS0WCR): Initial value: H'0000 0500 Recommended value: H'0000 0B41 • Number of Delay Cycles from address, CS0# Assertion to RD#, WEn# Assertion: SW [1:0] = B'01; 1.5 cycles • Number of Access Wait Cycles WR [3:0] = B'0110; 6 cycles • External WAIT Mask Specification WM = B'1; Ignore external WAIT input • Number of Delay Cycles from RD#, WEn# Negation to address, CS0# Negation HW [1:0] = B'00; 0.5 cycles
REJ11J0042-0100 Rev.1.00 2-12 Nov.18.2010
R0K572670C000BR Functions 2 2.3.3 External SDRAM Interface
2.3.3 External SDRAM Interface
The R0K572670C000BR comes standard with an SDRAM listed in the table below. The SDRAM is controlled by the SH7267 on-chip Bus State Controller (BSC). The R0K572670C000BR allows 16-bit bus access only. The figure below shows the SDRAM block diagram, and Table 2.3.5 lists the DIP switches setting (SW5-4).
Table 2.3.4 SDRAM Specifications Item Description Part number EDS1216AATA-75E Configuration 16 MB (Bus size: 16-bit) x 1 Capacity 16 MB Access time 7.5 ns CAS latency 2 (When the system clock works at 72 MHz) Refresh 4096 cycles every 64 ms Row address A11 to A0 Column address A8 to A0 Number of banks 4 (controlled by BA0, and BA1)
NAND flash memory EDS1216AATA 16 MB SH7267 (2 M × 16-bit × 4 banks)
12-bit PD15 to PD4/D15 to D4 DQ15 to DQ4 4-bit PD3 to PD0/D3 to D0 DQ3 to DQ0 2-bit PB14 to PB13/A14 to A13 BA1 to BA0 12-bit PB12 to PB1/A12 to A1 A11 to A0 3.3 V CKIO CLK 3.3 V PC2/RD/WR# WE# 3.3 V PC3/WE0#/DQML LDQM
PC4/WE1#/DQMU/WE# UDQM SDRAM or 3.3 V expansion connector S1A PC5/RAS#/TIOC4A/IRQ4 D1 S1B RAS# S2A 3.3 V PC6/CAS#/TIOC4B/IRQ5 D2 S2B CAS# S3A PC7/CKE/TIOC4C/IRQ6 D3 S3B CKE S4A PC8/CS3#/TIOC4D/IRQ7 D4 S4B CS# MUX EN# IN Expansion connector Note: Pin names in red indicate the function used. 3.3 V 4-bit NC (M3A-HS64G01) MTU2 output (M3A-HS64G02)
DIP SW5-4
Figure 2.3.3 External SDRAM Block Diagram
REJ11J0042-0100 Rev.1.00 2-13 Nov.18.2010
R0K572670C000BR Functions 2 2.3.3 External SDRAM Interface
Table 2.3.5 DIP Switches Setting (SW5-4) Number Function OFF(High) ON (Low)
SW5-4 Connected to the SDRAM (default) Connected to the expansion connector
The following figure shows the single read and write timing example of the SDRAM. Table 2.3.6 lists the bus state controller setting when the SH7267 bus clock works at 72 MHz.
SDRAM SINGLE READ SDRAM SINGLE WRITE tRC tRC tRAS tRP tRAS tRP tRCD tRCD tDPL tDAL ACT READA ACT WRITEA ACT Tr Trw Tc1 Tcw Td1 Tde Tap Tr Trw Tc1 Trw11 Trw12 Tap Tr CKIO
CKE
tSI tSI tHI tHI tCSD1 tCSD1 tCSD1 tCSD1 CS3#
tHI tSI tRASD1 tRASD1 tRASD1 tRASD1 RASL#
tHI tSI tCASD1 tCASD1 tCASD1 tCASD1 CASL#
tRWD1 tRWD1 RD/WR#
tDQMD1 tDQMD1 tDQMD1 tDQMD1 DQMUU-LL
tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 A11-A2(A9-A0)
tAD1 tAD1 tAD1 tAD1 tAD1 tAD1 A12(A10/AP)
tAD1 tAD1 tAD1 tAD1 tAD1 A15,A14(BA1,0)
tRDS2 tRDH2 tHI tLZ tOH tSI tAC tOHZ tWDH2 D0-31 Data Data
Figure 2.3.4 SDRAM Single Read/Write Timing Example
REJ11J0042-0100 Rev.1.00 2-14 Nov.18.2010
R0K572670C000BR Functions 2 2.3.3 External SDRAM Interface
Table 2.3.6 Bus State Controller Setting (Read and Write the SDRAM) User Area Target Device Setting CS3 EDS1216AATA-75E CS3 Space Bus Control Register (CS3BCR): Initial value: H'36DB 0400 Recommended value: H'0000 4400 • Memory TYPE [2:0] = B'100; SDRAM • Data bus width BSZ [1:0] = B'10; 16-bit CS3 Space Wait Control Register (CS3WCR): Initial value: H'0000 0500, Recommended value: H'0000 2892 • Number of Auto-Precharge Completion Wait Cycles: WTRP[1:0] = B'01; 1 cycle • Number of Wait Cycles between ACTV Command and READ (A)/WRIT(A) Command WTRCD [1:0] = B'10; 2 cycles • CAS Latency for Area 3 A3CL [1:0] = B'01; 2 cycles • Number of Auto-Precharge Startup Wait Cycles TRWL [1:0] = B'10; 2 cycles • Number of Idle Cycles from REF Command/Self-Refresh Release to ACTV/REF/MRS Command: WTRC [1:0] = B'10; 5 cycles SDRAM Control Register (SDCR): Initial value: H'0000 0000, Recommended value: H'0000 0809 • Refresh Control RFSH = B'1; SDRAM is refreshed • Refresh Control RMODE = B'0; Auto-refreshed • Bank Active Mode BACTV = B'0; Auto-precharge mode • Number of Bits of Row Address for Area 3 A3ROW [1:0] = B'01; 12 bits • Number of Bits of Column Address for Area 3 A3COL [1:0] = B'01; 9 bits Refresh Timer Control/Status Register (RTCSR): Initial value: H'0000 0000, Recommended value: H'A55A 0010 • Clock Select CKS [2:0] = B'010; BΦ/16 • Refresh Count RRC [2:0] = B'000; 1 time Refresh Time Constant Register (RTCOR): Initial value: H'0000 0000, Recommended value: H'A55A 0046 The refresh request interval when the clock select is set to BΦ/16 is as follows: 1 cycle: 222 nsec (72 MHz/16 = 4.5 MHz) Refresh request interval in this SDRAM: 15.625 μsec/time 15.625 μsec/222 nsec = 70 (0x46) cycles/refresh counts
REJ11J0042-0100 Rev.1.00 2-15 Nov.18.2010
R0K572670C000BR Functions 2 2.3.4 NAND Flash Memory Interface
2.3.4 NAND Flash Memory Interface
The R0K572670C000BR comes standard with an NAND flash memory listed in the table below. NAND flash memory works at 8-bit mode, and 3.3 V-only single power supply. It is write-protected or write-enabled by system setting DIP switches. The SH7267 NAND flash memory controller pin (FLCTL) is also used as the data bus (D15 to D4) and the channel 0 pin of the Renesas Serial Peripheral Interface (RSPI). When connecting it with NAND flash memory, set SW5-5 to OFF. The figure below shows the NAND flash memory block diagram. Table 2.3.8 lists the DIP switches setting (SW5-5, and SW6-2).
Table 2.3.7 NAND Flash Memory Specifications Part Number Bus Size Capacity Access Time 256 MB Random: 25 μs (max.) K9F2G08U0A-PCB0 8-bit (8-bit x 256 Mwords x 1) Page: 25 ns (min.)
K9F2G08U0A Data bus 256 MB SH7267 (256 Mwords × 8-bit)
3.3 V PD15 to PD8/D15 to D8/ 8-bit I/O7 to I/O0 NAF7 to NAF0
PD7/D7/FWE# WE#
PD6/D6/FALE ALE 3.3 V PD5/D5/FCLE CLE
PD4/D4/FRE# RE# 3.3 V
WP# DIP 3.3 V NAND or RSPI SW6-2
S1A 3.3 V PF9/SSISCK3/FRB D1 S1B R/B# S2A PF10/SSIWS3/FCE# D2 S2B CE# S3A PF11/MOSI0/SSIDATA3 D3 S3B S4A PF12/MISO0 D4 S4B MUX EN# IN
3.3 V 4-bit Serial flash memory Note: Pin names in red indicate Expansion connector the function used. DIP SW5-5
Figure 2.3.5 NAND Flash Memory Block Diagram
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R0K572670C000BR Functions 2 2.3.4 NAND Flash Memory Interface
Table 2.3.8 DIP Switches Setting (SW5-5, and SW6-2) Number Function OFF (High) ON (Low)
SW5-5 Connected to the NAND flash memory Connected to the device which is connected to RSPI/SSIF (default) SW6-2 NAND flash memory is write-enabled (default) NAND flash memory is write-protected
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R0K572670C000BR Functions 2 2.3.5 External Serial Flash Memory Interface
2.3.5 External Serial Flash Memory Interface
The R0K572670C000BR comes standard with a serial flash memory listed in the table below. The serial flash memory is controlled by the RSPI built in the SH7267. The SH7267 RSPI channel 0 pin is also used as the FLCTL pin. When connecting it with serial flash memory, set SW5-5 to ON, and SW5-6 to OFF. Serial flash memory is write-protected or write-enabled by the system setting DIP switches. The figure below shows the serial flash memory block diagram. Table 2.3.10 lists the DIP switch setting (SW5, and SW6).
Table 2.3.9 Serial Flash Memory Specifications
Part Number Interface Capacity Package SST25VF016B-75 4-wire serial (RSPI) 2 MB 8-pin, SOP
Expansion connector 4-bit 2-bit 3-bit NAND flash memory
3.3 V SST25VF016B SH7267 NAND or RSPI RSPI or SSIF 2 MB 3.3 V S1A S1A D1 D1 PF9/SSISCK3/RSPCK0/FRB S1B S1B 3.3 V SCK (Serial Clock) S2A S2A D2 D2 PF10/SSIWS3/SSL00/FCE# S2B S2B 3.3 V CS# (Chip Select) S3A S3A D3 PF11 D3 PF11/SSIDATA3/MOSI0 PF11 S3B S3B SI (Serial Data Input) S4A S4A D4 PF12 D4 PF12/MISO0 PF12 S4B S4B SO (Serial Data Output) MUX MUX EN# IN EN# IN
3.3 V HOLD# 3.3 V 3.3 V 3.3 V
WP# (Write Protect) DIP DIP DIP SW5-5 SW5-6 SW6-3 Note: Pin names in red indicate the function used.
Figure 2.3.6 Serial Flash Memory Interface Block Diagram
Table 2.3.10 DIP Switches Setting (SW5, and SW6) Number Function OFF (High) ON (Low)
SW5-5 Connected to the NAND flash memory Connected to the device which is connected to RSPI/SSIF (default) SW5-6 Connected to the serial flash memory/ Connected to the expansion connector (SSIF3) - default expansion connector (RSPI0) SW6-3 Serial flash memory is write-enabled (default) Serial flash memory is write-protected
REJ11J0042-0100 Rev.1.00 2-18 Nov.18.2010
R0K572670C000BR Functions 2 2.3.6 External EEPROM Interface
2.3.6 External EEPROM Interface
The R0K572670C000BR comes standard with an EEPROM listed in the table below. The EEPROM is controlled by the IIC bus interface 3 (IIC3) built in the SH7267. The EEPROM is write-protected or write-enabled by system setting DIP switches. The figure below shows the EEPROM Interface Block Diagram. Table 2.3.12 lists the DIP switches setting (SW6-4).
Table 2.3.11 EEPROM Specifications
Part Number Interface Capacity Package R1EX24128ASA00A 2-wire serial (IIC) 16 KB (16 Kwords x 8-bit) 8-pin, SOP
R1EX24128ASA00A 16 KB 3.3 V SH7267 (16 K words × 8-bit)
3.3 V R40 PE2/SCL1/IRQ2 SCL 3.3 V R43 PE3/SDA1/IRQ3 SDA
WP Chip address: 000 A2 to A0 DIP SW6-4
Note: Pin names in red indicate the function used. 2-bit D/A converter IIC pin (M3A-HS64G01) IRQ input switch (M3A-HS64G02)
Expansion connector
Figure 2.3.7 EEPROM Interface Block Diagram
Table 2.3.12 DIP Switches Setting (SW6-4) Number Function OFF (High) ON (Low) SW6-4 EEPROM is write-protected EEPROM is write-enabled (default)
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R0K572670C000BR Functions 2 2.4 USB Interface
2.4 USB Interface
The R0K572670C000BR comes standard with a USB Series-A receptacle. The wiring pattern on the R0K572670C000BR allows for connecting a Mini-B receptacle to evaluate the USB host and function modules. Remove the series-A receptacle to connect a USB mini-B receptacle. The figure below shows the USB interface block diagram. The table below lists the jumper settings (JP10).
Figure 2.4.1 USB Interface Block Diagram
Table 2.4.1 Jumper Setting (JP10) Number 1-2 None (Open) JP10 USB host mode (Supplies the VBUS power, default) USB function mode (Does not supply the VBUS power)
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R0K572670C000BR Functions 2 2.5 RS-232C Interface
2.5 RS-232C Interface
The SH7267 includes a serial communication interface with FIFO (SCIF). D-sub 9-pin connector on the R0K572670C000BR is connected to the SH7267 SCIF channel 0 pin via an RS-232C driver IC. The SH7267 SCIF channel 0 pin is also used as the channel 0 pin of the Controller Area Network (RCAN-TL1). The following figure shows the RS-232C interface block diagram. The table below lists the jumpers setting (JP4, and JP5).
3.3 V D-Sub 9-pin SH7267 RS-232C driver RS-232C connector JP4 3.3 V 1 TIN TOUT TXD PJ0/CTx0/IETxD/TxD0 2 3 3.3 V 1 2 ROUT RIN RXD PJ1/CRx0/IERxD/RxD0 3
JP5 RES# SHDN# DTR# DSR# RTS# CTS# Expansion connector
CAN、IEBusTM interface
Note: Pin names in red indicate the function used.
Figure 2.5.1 RS-232C Interface Block Diagram
Table 2.5.1 Jumpers Setting (JP4, and JP5) Number 1-2 2-3 JP4 Selects the TxD0 (SCIF) pin - default Selects the CTx0 (RCAN-TL1) /IETxD (IEB) pins JP5 Selects the RxD0 (SCIF) pin - default Selects the CRx0 (RCAN-TL1) /IERxD (IEB) pins
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R0K572670C000BR Functions 2 2.6 I/O Ports
2.6 I/O Ports
SH7267 I/O ports are connected to switches and LEDs on the R0K572670C000BR. Ports PH0 to PH5 can be used as analog input pins (AN0 to AN5). Remove JP7 to use PH4 and PH5 as an analog input pin. Port A can be used as a user interface by setting PB22 pin to output high level. The following figure shows the I/O ports block diagram. Table 2.6.1 lists the jumpers setting (JP6, and JP7). Table 2.6.2 shows Port A function switching.
Figure 2.6.1 I/O Ports Block Diagram
Table 2.6.1 Jumpers Setting (JP6, JP7) Number 1-2 None (Open) (1) JP6 Uses PH [3:0] as an input port (default) Uses PH [3:0] as an analog input pin (2) JP7 Uses PH [5:4] as an input port (default) Uses PH [5:4] as an analog input pin Notes: (1) Mount R11 to R14 when using PH [3:0] as an input port. (2) Remove R15 and R16 when using PH [5:4] as an analog input pin.
Table 2.6.2 Port A Function Switching Number High output Low output PB22 Uses Port A as a user interface Mode sampling (At power-up)
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R0K572670C000BR Functions 2 2.7 Interrupt Switches
2.7 Interrupt Switches
The R0K572670C000BR includes two push-button switches (NMI switch and IRQ1 switch) for the NMI and IRQ1 interrupt signals input from the SH7267, and a push-button switch (TEST switch) for test signals. The TEST switch is open to allow for connecting a desired pin. Set JP8 to use IRQ1 switch. The figure below shows the interrupt switch block diagram. The table below lists the jumper setting (JP8).
3.3V SH7267 SW3 NMI switch NMI +
3.3V
Expansion JP8 SW4 3 connector 2 IRQ1 switch 1 PJ3/CRx1/IRQ1 +
3.3V Note: Pin names in red indicate the function used. SW7 TP22 TEST switch +
Figure 2.7.1 Interrupt Switch Block Diagram
Table 2.7.1 Jumper Setting (JP8) Number 1-2 2-3 JP8 Uses PJ3 as the IRQ1 input pin (default) Uses PJ3 as the CRx1 input pin
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R0K572670C000BR Functions 2 2.8 Clock Modules
2.8 Clock Modules
Provide following clocks with the SH7267 on the R0K572670C000BR.
• SH7267 input clock: 12 MHz • SH7267 RTC clock: 32.768 kHz • SH7267 audio clock: 12.2880 MHz, and 11.2896 MHz (default) • SH7267 USB clock: 48.00 MHz • SH7267 LCD clock: 5.33 MHz (default)
¾ How to select the system clock frequency of AK4353 (D/A converter), and AK4524 (audio codec) SH7267 audio clock provides either 12.2880 MHz or 11.2896 MHz with AK4353 and AK4524 by switching JP9. The following figure shows the clock module block diagram. The table below lists the audio clock switching.
Expansion connector
Clock buffer AUDIO_XTAL 11.2896 MHz JP9 CLK1 SH7267 1 CLK2 CLK 2 3 REF CLK3 CLK CLK4 12.2880 MHz CLKOUT AUDIO_X1 AUDIO_CLK AUDIO_CLK (Socket) NC AUDIO_X2
3.3V
MD_CLK0 DIP SW5-1
RTC_X1 32.768 kHz RTC_X2
Socket CLK SDRAM PLL CLK EXTAL CKIO CLK 12 MHz NC XTAL
CLK USB_X1 48 MHz USB_X2 48 MHz
Socket CLK LCD_EXTCLK LCD_CLK 5.33 MHz
Figure 2.8.1 Clock Module Block Diagram
Table 2.8.1 Audio Clock Switching Number 1-2 2-3 JP9 Provides 11.2896 MHz with the AUDIO_X1 pin (default) Provides 12.2880 MHz with the AUDIO_X1 pin
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R0K572670C000BR Functions 2 2.9 Reset Module
2.9 Reset Module
A reset IC controls reset signals connected to the SH7267, flash memory and peripheral I/Os on the R0K572670C000BR. There are two system reset options; power-on reset, and reset by switch. The following figure shows the reset module block diagram.
Figure 2.9.1 Reset Module Block Diagram
REJ11J0042-0100 Rev.1.00 2-25 Nov.18.2010
R0K572670C000BR Functions 2 2.10 Power Supply Module
2.10 Power Supply Module
The R0K572670C000BR is supplied 5 V power supply, the voltage regulator on the R0K572670C000BR generates 3.3 V voltage, the reference voltage for the A/D converter (3.3 V), and 1.25 V. CPU 3.3 V and 1.25 V power can be externally-supplied. The following figure shows the power supply module block diagram.
Figure 2.10.1 Power Supply Module Block Diagram
REJ11J0042-0100 Rev.1.00 2-26 Nov.18.2010
R0K572670C000BR Functions 2 2.11 E10A-USB Interface
2.11 E10A-USB Interface
The R0K572670C000BR includes two H-UDI port connectors (14-pin and 36-pin) to connect to the E10A-USB emulator. The AUD pin is also used as SSIF (Serial Sound Interface with FIFO) pin, and VDC3 (Video Display Controller 3) pin. AUD function can be used when the R0K572670C000BR is used only. (Do not use the AUD function when connecting optional boards.) When using AUD function, set the AUDCK frequency to 40 MHz or lower. The following figure shows the E10A-USB interface block diagram.
3.3 V 3.3 V 3.3 V
36-pin H-UDI port connector SH7267 2 1 GND AUDCK PF0/DV_DATA0/SCK2/TEND/AUDCK 4 3 GND AUDATA0 PF2/DV_DATA2/TxD2/DACK0/SD_D3/AUDATA0 6 5 GND AUDATA1 PF3/SSISCK1/DV_DATA3/RxD3/SD_CMD/AUDATA1 8 7 GND AUDATA2 PF4/SSIWS1/DV_DATA4/TxD3/SD_CLK/AUDATA2 10 9 GND AUDATA3 PF5/SSIDATA1/DV_DATA5/TCLKC/SD_D0/AUDATA3 12 11 GND AUDSYNC# PF1/DV_DATA1/RxD2/DREQ0/SD_D2/AUDSYNC# 14 13 GND N.C. 16 15 GND N.C. 18 17 GND TCK TCK 20 19 GND TMS TMS 22 21 (GND)* TRST# TRST# 24 23 GND TDI TDI 26 25 GND TDO TDO 28 27 GND ASEBRKAK#/ASEBRK# ASEBRKAK# 30 29 GND UVCC 32 31 GND RES# RES# 34 33 GND GND 36 35 3.3 V GND N.C.
ASEMD#
14-pin H-UDI port connector Note: Pin names in red indicate the function used. 9 1 (GND)* TCK 10 2 *Refer to the E10A-USB emulator User’s manual GND TRST# for details on connecting pins with * (asterisk). 12 3 GND TDO 13 4 GND ASEBRKAK#/ASEBRK# 14 5 GND TMS 6 TDI 7 RES# 8 N.C. 11 UVCC RES#
Figure 2.11.1 E10A-USB Interface Block Diagram
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R0K572670C000BR Functions 2 2.11 E10A-USB Interface
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Chapter 3 M3A-HS64G01 Functions Chapter 3 M3A-HS64G01 Functions
3-1 M3A-HS64G01 Functions 3 3.1 Overview of Functions
3.1 Overview of Functions
M3A-HS64G01 includes the function modules listed in the following table.
Table 3.1.1 M3A-HS64G01 Function Modules Section Function Description
3.2 CPU • SH7267 3.3 LCD Module Interface • LCD module interface - Connects the SH7267 Video Display Controller 3 (VDC3) and LCD module connectors - Flexible connectors for LCD module are included • Character LCD module with LED backlight Note: This module cannot be used with the R0K572670C000BR. 3.4 Audio Modules • Connects the SH7267, D/A converters, and an audio codec - 96 kHz 24-bit D/A converters: 2 Note: One D/A converter can be used with the R0K572670C000BR. - 24-bit stereo codec with microphone AMP: 1 Note: This module cannot be used with the R0K572670C000BR. 3.5 CD Deck Interface • Connects RSPI, SSIF and a CD deck 3.6 SD Card Interface • Connects the SH7267 SD Host Interface (SDHI) and an SD card slot Note: This module cannot be used with the R0K572670C000BR. 3.7 UART Interface • Connects the SH7267 Serial Communication Interface with FIFO (SCIF) and a UART connector Note: This module cannot be used with the R0K572670C000BR. 3.8 CAN Interface • Connects the SH7267 Controller Area Network (RCAN-TL1) and a CAN connector 3.9 IEBusTM Interface • Connects the SH7267 IEBusTM controller (IEB) and IEBusTM connector 3.10 I/O Ports • Connect the SH7267 I/O ports, LEDs, and DIP switches 3.11 Clock Modules • Controls the system clock • Controls the peripheral I/O clock 3.12 Reset Module • Resets devices on the M3A-HS64G01 3.13 Power Supply Module • Controls the M3A-HS64G01 system power supply – Operating Specifications • Connectors, switches, and LEDs Refer to Chapter 6 for details.
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M3A-HS64G01 Functions 3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
3.2 CPU
3.2.1 SH7267 Overview
The R0K572670C000BR includes the SH7267, the 32-bit RISC MCU that operates with a maximum frequency of 144 MHz.
3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
Table 3.2.1 to Table 3.2.6 list the SH7267 pin functions used on the M3A-HS64G01.
Table 3.2.1 SH7267 Pin Functions (1/6) Expansion No. Name Symbol Description Remarks connector 1 PVcc PG18/LCD_DE/TIOC2A/RxD3/ 2 LCD_DE Connected to the LCD module EN pin CN9, pin 24 RTS1 3 Vss 4 PB1/A1/LCD_HSYNC A1 Address bus CN4, pin 1 5 Vcc 6 PB2/A2/LCD_VSYNC A2 Address bus CN4, pin 2 7 PB3/A3/LCD_DATA15 A3 Address bus CN4, pin 3 8 PB4/A4/TIOC0A/LCD_DATA14 A4 Address bus CN4, pin 4 PG9/LCD_DATA9/SSIRxD0/ LCD_DATA 9 Connected to the LCD module D9 pin CN9, pin 11 G4 TxD4/SIOFSYNC 9 10 PVcc PG8/LCD_DATA8/SSITxD0/ LCD_DATA 11 Connected to the LCD module D8 pin CN9, pin 12 G3 RxD4/SIOFSCK 8 12 Vss 13 PB5/A5/TIOC0B/LCD_DATA13 A5 Address bus CN4, pin 5 14 PB6/A6/TIOC0C/LCD_DATA12 A6 Address bus CN4, pin 6 15 PB7/A7/TIOC0D/LCD_DATA11 A7 Address bus CN4, pin 9 16 PB8/A8/TIOC1A/LCD_DATA10 A8 Address bus CN4, pin 10 17 PVcc 18 PB9/A9/TIOC1B/LCD_DATA9 A9 Address bus CN4, pin 11 19 Vss 20 PB10/A10/TIOC2A/LCD_DATA8 A10 Address bus CN4, pin 12 21 Vcc 22 PB11/A11/TIOC2B/LCD_DATA7 A11 Address bus CN4, pin 13 23 PB12/A12/TIOC3A/LCD_DATA6 A12 Address bus CN4, pin 14 24 PB13/A13/TIOC3B/LCD_DATA5 A13 Address bus CN4, pin 17 25 PB14/A14/TIOC3C/LCD_DATA4 A14 Address bus CN4, pin 18 26 PB15/A15/TIOC3D/LCD_DATA3 A15 Address bus CN4, pin 19 PG7/LCD_DATA7/SD_CD/ LCD_DATA 27 Connected to the LCD module D7 pin CN9, pin 9 G2 PINT7/IRQ7 7 PG6/LCD_DATA6/SD_WP/ LCD_DATA 28 Connected to the LCD module D6 pin CN9, pin 7 G1 PINT6/IRQ6 6 29 PVcc PG5/LCD_DATA5/SD_D1/ LCD_DATA 30 Connected to the LCD module D5 pin CN9, pin 8 G0 PINT5/IRQ5 5 31 Vss PG4/LCD_DATA4/SD_D0/ LCD_DATA 32 Connected to the LCD module D4 pin CN9, pin 6 B5 PINT4/IRQ4 4 33 Vcc Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
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M3A-HS64G01 Functions 3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
Table 3.2.2 SH7267 Pin Functions (2/6) Expansion No. Name Symbol Description Remarks connector 34 PB16/A16/TIOC4A/LCD_DATA2 A16 Address bus CN4, pin 20 PB17/A17/TIOC4B/LCD_DATA1/ 35 A17 Address bus CN4, pin 21 SCK1 PB18/A18/TIOC4C/LCD_DATA0/ 36 A18 Address bus CN4, pin 22 TxD1 37 PB19/A19/TIOC4D/RxD1 A19 Address bus CN4, pin 25 38 PB20/A20/SPDIF_IN/SCK4 A20 Address bus CN4, pin 26 39 PB21/A21/SPDIF_OUT/TxD4 A21 Address bus CN4, pin 27 40 PVcc 41 CKIO CKIO Connected to the SDRAM CLK pin CN6, pin 20 42 Vss 43 PB22/A22/CS4#/RxD4 PB22 Switches the system setting/user interface CN4, pin 28 Low: MD Hi: IO 44 NMI NMI Non-maskable interrupt – 45 PLLVcc 46 RES# RES# Reset input CN7, pin 6 47 PLLVss PA0 Connected to LED2 as a user output port PB22: High 48 PA0/MD_CLK0 CN1, pin 10 MD_CLK0 Connected to SW5-1 as clock mode input 0 PB22: Low PA1 Connected to LED2 as a user output port PB22: High 49 PA1/MD_BOOT0 CN1, pin 9 MD_BOOT0 Connected to SW5-2 as boot mode input 0 PB22: Low Connects the system external clock to 50 EXTAL EXTAL – 12 MHz MCU 51 XTAL XTAL Open – PG3/LCD_DATA3/SD_CLK/ 52 LCD_DATA3 Connected to the LCD module D3 pin CN9, pin 3 B4 PINT3 PG2/LCD_DATA2/SD_CMD/ 53 LCD_DATA2 Connected to the LCD module D2 pin CN9, pin 4 B3 PINT2 54 PG1/LCD_DATA1/SD_D3/PINT1 LCD_DATA1 Connected to the LCD module D1 pin CN9, pin 1 B2 55 PG0/LCD_DATA0/SD_D2/PINT0 LCD_DATA0 Connected to the LCD module D0 pin CN9, pin 2 B1, B0 56 Vss 57 PVcc Connects the LCD module external clock to Default: 58 PG20/LCD_EXTCLK/SCK1 LCD_EXTCLK CN9, pin 26 MCU 5.33 MHz 59 Vss 60 RTC_X1 RTC_X1 Connects the real-time clock resonator to – 32.768 kHz 61 RTC_X2 RTC_X2 MCU – PA2 Connected to SW6-5 as a user input port PB22:”H” 62 PA2/MD_BOOT1 CN1, pin 8 MD_BOOT1 Connected to SW5-3 as boot mode input 1 PB22:”L” 63 USB_X1 USB_X1 Connects the USB external clock to MCU – 48 MHz 64 USB_X2 USB_X2 Open – 65 ASEMD# ASEMD# ASE mode select – H-UDI 66 USBDPVcc 67 USBDPVss 68 DM DM USB differential signal D− data – 69 DP DP USB differential signal D+ data – 70 VBUS VBUS VBUS input – 71 USBDVcc 72 USBDVss Connects a 73 REFRIN REFRIN Reference input – 5.6 kΩ ± 1% resistor 74 USBAPVss 75 USBAPVcc Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
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Nov.18.2010
M3A-HS64G01 Functions 3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
Table 3.2.3 SH7267 Pin Functions (3/6) Expansion No. Name Function Description Remarks connector 76 USBAVcc 77 USBAVss 78 USBUVcc 79 USBUVss Connected to the push-botton switch as key 80 PH0/AN0 AN0 CN3, pin 4 input Connected to the push-botton switch as key 81 PH1/AN1 AN1 CN3, pin 3 input Connected to the push-botton switch as key 82 PH2/AN2 AN2 CN3, pin 8 input Connected to the push-botton switch as key 83 PH3/AN3 AN3 CN3, pin 7 input 84 AVss 85 PH4/AN4 PH4 Connected to the CD deck TRANS pin CN1, pin 2 86 AVref 87 PH5/AN5 PH5 Connected to the CD deck FLAG6 pin CN1, pin 4 88 AVcc 89 TRST# TRST# Initialization-signal input pin – H-UDI ASEBRKAK# Break mode acknowledge H-UDI 90 ASEBRKAK#/ASEBRK# – ASEBRK# Break request 91 TDO TDO Test data output – H-UDI 92 TDI TDI Test data input – H-UDI 93 TMS TMS Test mode select – H-UDI 94 TCK TCK Test clock – H-UDI 95 AUDIO_X2 AUDIO_X2 Open – 96 AUDIO_X1 AUDIO_X1 Connects the audio external clock to MCU – Switched by JP9 97 PG24/MISO1/TIOC0D – Connected to the character LCD E pin CN6, pin 13 Not available 98 PVcc 99 PG23/MOSI1/TIOC0C – Connected to the character LCD RS pin CN6, pin 12 Not available 100 Vss 101 PG22/SSL10/TIOC0B – Connected to the AK4524 (U6) CS pin CN9, pin 27 Not available 102 Vcc 103 PG21/RSPCK1/TIOC0A – Connected to the AK4524 (U6) CCLKI pin CN9, pin 28 Not available PJ3/CRx1/CRx0/CRx1/IRQ1/ IRQ1 IRQ1 switch – JP8: 1-2 104 AUDIO_XOUT/WDTOVF# CRx1 Connected to the CAN driver IC (U16) CN1, pin 17 JP8: 2-3 PJ2/CTx1/CTx0&CTx1/ CTx1 Connected to the CAN driver IC (U16) 105 CN1, pin 18 CS2#/SCK0/LCD_M_DISP LCD_M_DISP LCD AC control signal RxD0 Connected to the RS-232C connector (J10) – JP5: 1-2 106 PJ1/CRx0/IERxD/IRQ0/RxD0 CRx0 Connected to the CAN driver IC (U14) CN1, pin 19 JP5: 2-3 IERxD Connected to the IEBusTM driver IC TxD0 Connected to the RS-232C connector (J10) – JP4: 1-2 PJ0/CTx0/IETxD/CS1#/ 107 CTx0 Connected to the CAN driver IC (U14) TxD0/A0 CN1, pin 20 JP4: 2-3 IETxD Connected to the IEBusTM driver IC SSIDATA2 Connected to the CD deck IIS_DATA pin CN7, pin 27 SW6-6: ON SW6-6: OFF PF8/CE2B#/SSIDATA2/ – Connected to the character LCD DB7 pin 108 JP2: 1-2 DV_CLK/SD_CD CN7, pin 15 SW6-6: OFF – Connected to the SD card slot CD pin JP2: 2-3 SSIWS2 Connected to the CD deck IIS_LRCK pin CN7, pin 28 SW6-6: ON SW6-6: OFF PF7/CE2A#/SSIWS2/ – Connected to the character LCD DB6 pin 109 JP2: 1-2 DV_DATA7/TCLKD/SD_WP CN7, pin 16 SW6-6: OFF – Connected to the SD card slot WP pin JP2: 2-3 110 PVcc Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 3-5
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
Table 3.2.4 SH7267 Pin Functions (4/6) Expansion No. Name Symbol Description Remarks connector SSISCK2 Connected to the CD deck IIS_BCK pin CN7, pin 25 SW6-6: ON SW6-6: OFF PF6/CS6#/CE1B#/SSISCK2/ – Connected to the character LCD DB5 pin 111 JP2: 1-2 DV_DATA6/TCLKB/SD_D1 CN7, pin 13 SW6-6: OFF – Connected to the SD card slot DAT1 pin JP2: 2-3 112 Vss AUDATA3 Connected to the H-UDI port connector (J3) AUD CN7, pin 23 SSIDATA1 Connected to the AK4353 (U12) SDTI pin SW6-6: ON PF5/CS5#/CE1A#/SSIDATA1/ SW6-6: OFF 113 DV_DATA5/TCLKC/SD_D0/ – Connected to the character LCD DB4 pin JP2: 1-2 AUDATA3 CN7, pin 14 SW6-6: OFF – Connected to the SD card slot DAT0 pin JP2: 2-3 114 Vcc AUDATA2 Connected to the H-UDI port connector (J3) AUD CN7, pin 24 SSIWS1 Connected to the AK4353 (U12) LRCK pin SW6-6: ON PF4/ICIOWR#/AH#/SSIWS1/ SW6-6: OFF 115 DV_DATA4/TxD3/SD_CLK/ – Connected to the character LCD DB3 pin JP2: 1-2 AUDATA2 CN7, pin 3 SW6-6: OFF – Connected to the SD card slot CLK pin JP2: 2-3 AUDATA1 Connected to the H-UDI port connector (J3) AUD CN7, pin 22 SSISCK1 Connected to the AK4353 (U12) BICKI pin SW6-6: ON PF3/ICIORD#/SSISCK1/ SW6-6: OFF 116 DV_DATA3/RxD3/SD_CMD/ – Connected to the character LCD DB2 pin JP2: 1-2 AUDATA1 CN7, pin 4 SW6-6: OFF – Connected to the SD card slot CMD pin JP2: 2-3 AUDATA0 Connected to the H-UDI port connector (J3) AUD CN7, pin 19 – Connected to the AK4353 (U11) SDTI pin SW6-6: ON PF2/BACK#/DV_DATA2/TxD2/ SW6-6: OFF 117 – Connected to the character LCD DB1 pin DACK0/SD_D3/AUDATA0 JP2: 1-2 CN7, pin 1 SW6-6: OFF – Connected to the SD card slot DAT3 pin JP2: 2-3 AUDSYNC# Connected to the H-UDI port connector (J3) AUD CN7, pin 20 – Connected to the AK4353 (U11) LRCKI pin SW6-6: ON Connected to the AK4524 and AK4353 PDN# PF1 CN9, pin 29 PF1/BREQ#/DV_DATA1/RxD2/ pin 118 DREQ0/SD_D2/AUDSYNC# SW6-6: OFF – Connected to the character LCD DB0 pin JP2: 1-2 CN7, pin 2 SW6-6: OFF – Connected to the SD card slot DAT2 pin JP2: 2-3 AUDCK Connected to the H-UDI port connector (J3) AUD PF0/WAIT#/DV_DATA0/SCK2/ CN7, pin 17 119 – Connected to the AK4353 (U11) BICKI pin TEND0/AUDCK PF0 Connected to the CD deck CDFS pin CN7, pin 32 120 PVcc PG17/LCD_HSYNC/TIOC1B/ 121 LCD_HSYNC Connected to the LCD module HSYNC pin CN9, pin 21 TxD1 122 Vss PG16/LCD_VSYNC/TIOC1A/ 123 LCD_VSYNC Connected to the LCD module VSYNC pin CN9, pin 19 RxD1 Connected to the serial flash memory SO pin PF12/BS#/MISO0/TIOC3D/ MISO0 CN7, pin 33 SW5-6: OFF 124 Connected to the CD deck CDSO pin SPDIF_OUT – Connected to the AK4524 (U6) SDTO pin CN7, pin 38 SW5-6: ON Connected to the serial flash memory SI pin PF11/A25/SSIDATA3/MOSI0/ MOSI0 CN7, pin 31 SW5-6: OFF 125 Connected to the CD deck CDSI pin TIOC3C/SPDIF_IN – Connected to the AK4524 (U6) SDTI pin CN7, pin 37 SW5-6: ON Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 3-6
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
Table 3.2.5 SH7267 Pin Functions (5/6) Expansion No. Name Symbol Description Remarks connector 126 PVcc Connected to the serial flash memory CS# SW5-5:ON SSL00 – pin SW5-6:OFF PF10/A24/SSIWS3/SSL00/ SW5-5:ON 127 – Connected to the AK4524 (U6) LRCK pin CN7, pin 35 TIOC3B/FCE# SW5-6:ON Connected to the NAND flash memory CE# FCE# – SW5-5:OFF pin 128 Vss Connected to the serial flash memory SCK SW5-5:ON RSPCK0 pin CN7, pin 30 SW5-6:OFF Connected to the CD deck CDCK pin PF9/A23/SSISCK3/RSPCK0/ 129 SW5-5: ON TIOC3A/FRB – Connected to the AK4524 (U6) BICK pin CN7, pin 36 SW5-6:ON Connected to the NAND flash memory R/B# FRB – SW5-5:OFF pin 130 Vcc 131 PD15/D15/NAF7/PWM2H D15/NAF7 Data bus CN8, pin 19 132 PD14/D14/NAF6/PWM2G D14/NAF6 Data bus CN8, pin 17 Connected to the external IIC connector 133 PE5/SDA2/DV_HSYNC SDA2 CN7, pin 12 (J11) Connected to the external IIC connector 134 PE4/SCL2/DV_VSYNC SCL2 CN7, pin 9 (J11) SDA1 Connected to the EEPROM SDA pin JP10:1-2 135 PE3/SDA1/IRQ3 Connected to the AK4353 (U11, U12) CN7, pin 10
SDA/CDTI pins SCL1 Connected to the EEPROM SCL pin JP9:1-2 136 PE2/SCL1/IRQ2 Connected to the AK4353 (U11, U12) CN7, pin 7
SCL/CCLKI pins PE1/SDA0/IOIS16#/IRQ1/TCLKA/ IRQ1 Connected to the CD deck BLKCK pin 137 CN7, pin 8 ADTRG#/LCD_EXTCLK TCLKA Connected to the through-hole (MH8) Connected to the external clock input socket 138 PE0/SCL0/AUDIO_CLK/IRQ0 AUDIO_CLK CN7, pin 5 (U8) 139 PD13/D13/NAF5/PWM2F D13/NAF5 Data bus CN8, pin 14 140 PD12/D12/NAF4/PWM2E D12/NAF4 Data bus CN8, pin 12 141 PVcc 142 PD11/D11/NAF3/PWM2D D11/NAF3 Data bus CN8, pin 9 143 Vss 144 PD10/D10/NAF2/PWM2C D10/NAF2 Data bus CN8, pin 7 145 PD9/D9/NAF1/PWM2B D9/NAF1 Data bus CN8, pin 4 146 PD8/D8/NAF0/PWM2A D8/NAF0 Data bus CN8, pin 2 Connected to the data bus and the NAND 147 PD7/D7/FWE#/PWM1H D7/FWE# CN8, pin 18 Auto-switch flash memory WE# pin Connected to the data bus and the NAND 148 PD6/D6/FALE/PWM1G D6/FALE CN8, pin 16 Auto-switch flash memory ALE pin Connected to the data bus and the NAND 149 PD5/D5/FCLE/PWM1F D5/FCLE CN8, pin 13 Auto-switch flash memory CLE pin PG15/LCD_DATA15/TIOC0D/ 150 LCD_DATA15 Connected to the LCD module D15 pin CN9, pin 20 R5 TxD7 PG14/LCD_DATA14/TIOC0C/ 151 LCD_DATA14 Connected to the LCD module D14 pin CN9, pin 17 R4 RxD7 152 PVcc 153 Vss Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 3-7
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.2 SH7267 Pin Functions Used on the M3A-HS64G01
Table 3.2.6 SH7267 Pin Functions (6/6) Expansion No. Name Symbol Description Remarks connector PG13/LCD_DATA13/TIOC0B/ 154 LCD_DATA13 Connected to the LCD module D13 pin CN9, pin 18 R3 TxD6 PG12/LCD_DATA12/TIOC0A/ 155 LCD_DATA12 Connected the LCD module D12 pin CN9, pin 16 R2 RxD6 Connected to the data bus and the NAND flash 156 PD4/D4/FRE#/PWM1E D4/FRE# CN8, pin 11 Auto-switch memory RE# pin 157 PD3/D3/PWM1D D3 Data bus CN8, pin 8 158 PD2/D2/PWM1C D2 Data bus CN8, pin 6 159 PD1/D1/PWM1B D1 Data bus CN8, pin 3 160 PD0/D0/PWM1A D0 Data bus CN8, pin 1 161 PC0/CS0#/SSIWS0 CS0# Connected to the NOR flash memory CE# pin CN6, pin 5 162 PVcc 163 PC1/RD#/SSISCK0 RD# Connected to the NOR flash memory OE# pin CN6, pin 6 164 Vss 165 PC2/RD/WR#/SSIRxD0 RD/WR# Connected to the SDRAM WE# pin CN6, pin 7 WE0# Connected to the NOR flash memory WE# pin 166 PC3/WE0#/DQML/SSITxD0 CN6, pin 8 DQML Connected to the SDRAM DQML pin 167 PC4/WE1#/DQMU/WE# DQMU Connected to the SDRAM DQMU pin CN6, pin 9 RAS# Connected to the SDRAM RAS# pin – SW5-4: OFF 168 PC5/RAS#/TIOC4A/IRQ4 – NC CN6, pin 14 SW5-4: ON PG11/LCD_DATA11/SSIWS0/ 169 LCD_DATA11 Connected to the LCD module D11 pin CN9, pin 13 R1, R0 IRQ3/TxD5/SIOFTxD 170 PVcc PG10/LCD_DATA10/SSISCK0/ 171 LCD_DATA10 Connected to the LCD module D10 pin CN9, pin 14 G5 IRQ2/RxD5/SIOFRxD 172 Vss CAS# Connected to the SDRAM CAS# pin – SW5-4: OFF 173 PC6/CAS#/TIOC4B/IRQ5 – NC CN6, pin 15 SW5-4: ON CKE Connected to the SDRAM CKE pin – SW5-4: OFF 174 PC7/CKE/TIOC4C/IRQ6 – NC CN6, pin 16 SW5-4: ON CS3# Connected to the SDRAM CS# pin – SW5-4: OFF 175 PC8/CS3#/TIOC4D/IRQ7 – NC CN6, pin 17 SW5-4: ON PG19/LCD_CLK/TIOC2B/TxD3/ 176 LCD_CLK Connected to the LCD module CLK pin CN9, pin 23 CTS1 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 3-8
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.3 M3A-HS64G01 Module Availability
3.2.3 M3A-HS64G01 Module Availability
The following table shows which combination of modules can/cannot be used.
Table 3.2.7 M3A-HS64G01 Module Availability R0K572670C000BR R0K572670C000BR+M3A-HS64G01
SH7267 Component Module Name Peripherals No. TM NOR flash memory SDRAM NAND flash memory EEPROM Serial flash memory USB (14-pin) H-UDI (36-pin) H-UDI LED switchNMI switch IRQ1 switches DIP RS-232C LCD Character SD card codec Audio D/A converter 1 D/A converter 2 CD deck UART IIC LCD IEBus CAN0 CAN1 switch input Key BSC U6 NOR flash memory YYYYYYYYYYYY––––YY–YYYYYY BSC U9 SDRAM Y YYYYYYYYYYY––––YY–YYYYYY FLCTL U7 NAND flash memory YY Y(2) YYYYYYYY––––Y(2) –YYYYYY IIC3 U8 EEPROM YYY YYYYYYYYY–––- YY–YYYYYY RSPI U10 Serial flash memory YY(2) Y YYYYYYYY––––Y(2) –YYYYYY USB J1, J2 USB YYYYY YYYYYYY––––YY–YYYYYY H-UDI J7 H-UDI (14-pin) YYYYYY YYYYYY––––YY–YYYYYY H-UDI, AUD J3 H-UDI (36-pin) YYYYYYY YYYYY––––×Y–YYYYYY I/O ports LED2, LED3 LED YYYYYYYY YY(1) Y––––YY–YYYYYY INTC SW3 NMI switch YYYYYYYYY YYY––––YY–YYYYYY R0K572670C000BR INTC SW4 IRQ1 switch YYYYYYYYYY YY––––YY–YYYY(5) Y I/O ports SW5, SW6 DIP switches YYYYYYYY(1) YY Y––––YY–YYYYYY SCIF J10 RS-232C YYYYYYYYYYYY ––––YY–YY(3) (3) YY 1 I/O ports J1 Character LCD ––––––––––––– –––YY–YYYYYY SDHI J2 SD card –––––––––––––– ––––––––––– SSIF, RSPI U6 Audio codec ––––––––––––––– –––––––––– SSIF, IIC3 U11 D/A converter 1 –––––––––––––––– ––––––––– SSIF, IIC3 U12 D/A converter 2 YYYYYYY×YYYYYY––– Y–YYYYYY ROMDEC J9 CD deck YY(2) Y (2) YYYYYYYYY–––Y –YYYYYY SCIF J10 UART ––––––––––––––––––– –––––– IIC3 J11 IIC YYYYYYYYYYYYYY–––YY– YYYYY VDC3 J12 to J14 LCD YYYYYYYYYYYYYY–––YY–Y YY(6) Y IEB J15 IEBusTM YYYYYYYYYYYY(3) Y–––YY–YY (4) YY RCAN J16 CAN0 YYYYYYYYYYYY(3) Y–––YY–YY(4) YY RCAN J17 CAN1 YYYYYYYYYY(5) YYY–––YY–Y(6) YY Y
R0K572670C000BR+M3A-HS64G0 I/O ports SW2 to SW17 Key input switch YYYYYYYYYYYYYY–––YY–YYYYY Y: Yes, -: N/A Notes: 1: When using LED2 and LED3, SW5-1, SW5-2, and SW5-3 on the R0K572670C000BR cannot be used. 2: PF9, and PF10 are multiplex pins. When setting SW5-5, and SW5-6, on the R0K572670C000BR, only one module can be used at these intersections. 3: When changing JP4, and JP5 settings on the R0K572670C000BR, only one module can be used at these intersections. 4: When changing JP5, and JP9 settings on the M3A-HS64G01, either CAN 0 or IEBus can be used. 5: When changing JP8 setting on the R0K572670C000BR, either CAN1 or IRQ1 switch can be used. 6: PJ2 is a multiplex pin. When using the signal LCD_M_DISP, CAN1 cannot be used. When using CAN1, the signal LCD_M_DISP cannot be used.
REJ11J0042-0100 Rev.1.00 3-9
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G01
3.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G01
Table 3.2.8 to Table 3.2.19 list SH7267 multiplex pin functions used on the M3A-HS64G01. These multiplex pins are set as port input pins by default. Set the MD bit in the port control register to use the SH7267 peripheral functions (except I/O ports).
Table 3.2.8 SH7267 Multiplex Pin Functions (BSC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name BSC CS0# PCCR0 PC0MD[1:0] = B'01 PC0/CS0#/SSIWS0 (1) CS3# PCCR2 PC8MD[1:0] = B'01 PC8/CS3#/TIOC4D/IRQ7 RD# PCCR0 PC1MD[1:0] = B'01 PC1/RD#/SSISCK0 (1) WE0#/DQML PCCR0 PC3MD[1:0] = B'01 PC3/WE0#/DQML/SSITxD0 WE1#/DQMU/WE# PCCR1 PC4MD0 = B'1 PC4/WE1#/DQMU/WE# RAS# PCCR1 PC5MD[1:0] = B'01 PC5/RAS#/TIOC4A/IRQ4 CAS# PCCR1 PC6MD[1:0] = B'01 PC6/CAS#/TIOC4B/IRQ5 CKE PCCR1 PC7MD[1:0] = B'01 PC7/CKE/TIOC4C/IRQ6 RD/WR# PCCR0 PC2MD[1:0] = B'01 PC2/RD/WR#/SSIRxD0 A21 PBCR5 PB21MD[2:0] = B'001 PB21/A21/SPDIF_OUT/TxD4 D15 PDCR3 PD15MD[1:0] = B'01 PD15/D15/NAF7/PWM2H (1) D14 PDCR3 PD14MD[1:0] = B'01 PD14/D14/NAF6/PWM2G (1) D13 PDCR3 PD13MD[1:0] = B'01 PD13/D13/NAF5/PWM2F (1) D12 PDCR3 PD12MD[1:0] = B'01 PD12/D12/NAF4/PWM2E (1) D11 PDCR2 PD11MD[1:0] = B'01 PD11/D11/NAF3/PWM2D (1) D10 PDCR2 PD10MD[1:0] = B'01 PD10/D10/NAF2/PWM2C (1) D9 PDCR2 PD9MD[1:0] = B'01 PD9/D9/NAF1/PWM2B (1) D8 PDCR2 PD8MD[1:0] = B'01 PD8/D8/NAF0/PWM2A (1) D7 PDCR1 PD7MD[1:0] = B'01 PD7/D7/FWE#/PWM1H (1) D6 PDCR1 PD6MD[1:0] = B'01 PD6/D6/FALE/PWM1G (1) D5 PDCR1 PD5MD[1:0] = B'01 PD5/D5/FCLE/PWM1F (1) D4 PDCR1 PD4MD[1:0] = B'01 PD4/D4/FRE#/PWM1E (1) D3 PDCR0 PD3MD[1:0] = B'01 PD3/D3/PWM1D (1) D2 PDCR0 PD2MD[1:0] = B'01 PD2/D2/PWM1C (1) D1 PDCR0 PD1MD[1:0] = B'01 PD1/D1/PWM1B (1) D0 PDCR0 PD0MD[1:0] = B'01 PD0/D0/PWM1A (1) Note 1: For boot modes 1 to 3
Table 3.2.9 SH7267 Multiplex Pin Functions (INTC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name INTC IRQ1 PJCR1 PJ3MD[2:0] = B'011 PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/WDTOVF# IRQ1 PECR0 PE1MD[2:0] = B'011 PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/LCD_EXTCLK
Table 3.2.10 SH7267 Multiplex Pin Functions (SCIF) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name SCIF RxD0 PJCR0 PJ1MD[2:0] = B'100 PJ1/CRx0/IERxD/IRQ0/RxD0 TxD0 PJCR0 PJ0MD[2:0] = B'100 PJ0/CTx0/IETxD/CS1#/TxD0/A0
REJ11J0042-0100 Rev.1.00 3-10
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G01
Table 3.2.11 SH7267 Multiplex Pin Functions (IIC3) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name IIC3 SDA2 PECR1 PE5MD[1:0] = B'01 PE5/SDA2/DV_HSYNC SCL2 PECR1 PE4MD[1:0] = B'01 PE4/SCL2/DV_VSYNC SDA1 PECR0 PE3MD[1:0] = B'01 PE3/SDA1/IRQ3 SCL1 PECR0 PE2MD[1:0] = B'01 PE2/SCL1/IRQ2
Table 3.2.12 SH7267 Multiplex Pin Functions (RCAN-TL1) Peripheral SH7267 Port Control Register SH7267 Pin Nname Function Register Name MD bit Setting Multiplex Pin Name RCAN- CRx1 PJCR1 PJ3MD[2:0] = B'001 PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/WDTOVF# TL1 CTx1 PJCR0 PJ2MD[2:0] = B'001 PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/LCD_M_DISP CRx0 PJCR0 PJ1MD[2:0] = B'001 PJ1/CRx0/IERxD/IRQ0/RxD0 CTx0 PJCR0 PJ0MD[2:0] = B'001 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 3.2.13 SH7267 Multiplex Pin Functions (IEB) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name IEB IERxD PJCR0 PJ1MD[2:0] = B'010 PJ1/CRx0/IERxD/IRQ0/RxD0 IETxD PJCR0 PJ0MD[2:0] = B'010 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 3.2.14 SH7267 Multiplex Pin Functions (FLCTL) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name FLCTL NAF7 PDCR3 PD15MD[1:0] = B'01 PD15/D15/NAF7/PWM2H NAF6 PDCR3 PD14MD[1:0] = B'01 PD14/D14/NAF6/PWM2G NAF5 PDCR3 PD13MD[1:0] = B'01 PD13/D13/NAF5/PWM2F NAF4 PDCR3 PD12MD[1:0] = B'01 PD12/D12/NAF4/PWM2E NAF3 PDCR2 PD11MD[1:0] = B'01 PD11/D11/NAF3/PWM2D NAF2 PDCR2 PD10MD[1:0] = B'01 PD10/D10/NAF2/PWM2C NAF1 PDCR2 PD9MD[1:0] = B'01 PD9/D9/NAF1/PWM2B NAF0 PDCR2 PD8MD[1:0] = B'01 PD8/D8/NAF0/PWM2A FWE# PDCR1 PD7MD[1:0] = B'01 PD7/D7/FWE#/PWM1H FALE PDCR1 PD6MD[1:0] = B'01 PD6/D6/FALE/PWM1G FCLE PDCR1 PD5MD[1:0] = B'01 PD5/D5/FCLE/PWM1F FRE# PDCR1 PD4MD[1:0] = B'01 PD4/D4/FRE#/PWM1E FCE# PFCR2 PF10MD[2:0] = B'101 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# FRB PFCR2 PF9MD[2:0] = B'101 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB
Table 3.2.15 SH7267 Multiplex Pin Functions (SDHI) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name RSPI MISO0 PFCR3 PF12MD[2:0] = B'011 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT MOSI0 PFCR2 PF11MD[2:0] = B'011 PF11/A25/SSIDATA3/MOSI0/TIOC3C/SPDIF_IN SSL00 PFCR2 PF10MD[2:0] = B'011 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# RSPCK0 PFCR2 PF9MD[2:0] = B'011 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB
REJ11J0042-0100 Rev.1.00 3-11
Nov.18.2010
M3A-HS64G01 Functions 3 3.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G01
Table 3.2.16 SH7267 Multiplex Pin Functions (SSIF) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name SSIF SSIDATA2 PFCR2 PF8MD[2:0] = B'010 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD SSIWS2 PFCR1 PF7MD[2:0] = B'010 PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/SD_WP SSISCK2 PFCR1 PF6MD[2:0] = B'010 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/TCLKB/SD_D1 SSIDATA1 PFCR1 PF5MD[2:0] = B'010 PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/TCLKC/SD_D0/ AUDATA3 SSIWS1 PFCR1 PF4MD[2:0] = B'010 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/TxD3/SD_CLK/ AUDATA2 SSISCK1 PFCR0 PF3MD[2:0] = B'010 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/SD_CMD/AUDATA1 AUDIO_CLK PECR0 PE0MD[1:0] = B'10 PE0/SCL0/AUDIO_CLK/IRQ0
Table 3.2.17 SH7267 Multiplex Pin Functions (ADC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name ADC AN3 PHCR0 PH3MD0 = B'1 PH3/AN3 AN2 PHCR0 PH2MD0 = B'1 PH2/AN2 AN1 PHCR0 PH1MD0 = B'1 PH1/AN1 AN0 PHCR0 PH0MD0 = B'1 PH0/AN0
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M3A-HS64G01 Functions 3 3.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G01
Table 3.2.18 SH7267 Multiplex Pin Functions (VDC3) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name VDC3 LCD_EXTCLK PGCR5 PG20MD[2:0] = B'001 PG20/LCD_EXTCLK/SCK1 LCD_CLK PGCR4 PG19MD[2:0] = B'001 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 LCD_DE PGCR4 PG18MD[2:0] = B'001 PG18/LCD_DE/TIOC2A/RxD3/RTS1 LCD_HSYNC PGCR4 PG17MD[2:0] = B'001 PG17/LCD_HSYNC/TIOC1B/TxD1 LCD_VSYNC PGCR4 PG16MD[2:0] = B'001 PG16/LCD_VSYNC/TIOC1A/RxD1 LCD_DATA15 PGCR3 PG15MD[2:0] = B'001 PG15/LCD_DATA15/TIOC0D/TxD7 LCD_DATA14 PGCR3 PG14MD[2:0] = B'001 PG14/LCD_DATA14/TIOC0C/RxD7 LCD_DATA13 PGCR3 PG13MD[2:0] = B'001 PG13/LCD_DATA13/TIOC0B/TxD6 LCD_DATA12 PGCR3 PG12MD[2:0] = B'001 PG12/LCD_DATA12/TIOC0A/RxD6 LCD_DATA11 PGCR2 PG11MD[2:0] = B'001 PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/SIOFTxD LCD_DATA10 PGCR2 PG10MD[2:0] = B'001 PG10/LCD_DATA10/SSISCK0/IRQ2/RxD5/SIOFRxD LCD_DATA9 PGCR2 PG9MD[2:0] = B'001 PG9/LCD_DATA9/SSIRxD0/TxD4/SIOFSYNC LCD_DATA8 PGCR2 PG8MD[2:0] = B'001 PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK LCD_DATA7 PGCR1 PG7MD[2:0] = B'001 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 LCD_DATA6 PGCR1 PG6MD[2:0] = B'001 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 LCD_DATA5 PGCR1 PG5MD[2:0] = B'001 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 LCD_DATA4 PGCR1 PG4MD[2:0] = B'001 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 LCD_DATA3 PGCR0 PG3MD[1:0] = B'01 PG3/LCD_DATA3/SD_CLK/PINT3 LCD_DATA2 PGCR0 PG2MD[1:0] = B'01 PG2/LCD_DATA2/SD_CMD/PINT2 LCD_DATA1 PGCR0 PG1MD[1:0] = B'01 PG1/LCD_DATA1/SD_D3/PINT1 LCD_DATA0 PGCR0 PG0MD[1:0] = B'01 PG0/LCD_DATA0/SD_D2/PINT0 LCD_M_DISP PJCR0 PJ2MD[2:0] = B'101 PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/LCD_M_DISP
Table 3.2.19 SH7267 Multiplex Pin Functions (PORT) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name PORT PH5 PHCR1 PH5MD0 = B'0 PH5/AN5 PH4 PHCR1 PH4MD0 = B'0 PH4/AN4 PF1 PFCR0 PF1MD[2:0] = B'000 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/SD_D2/ AUDSYNC# PF0 PFCR0 PF0MD[2:0] = B'000 PF0/WAIT#/DV_DATA0/SCK2/TEND0/AUDCK PB22 PBCR5 PB22MD[2:0] = B'000 PB22/A22/CS4#/RxD4
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M3A-HS64G01 Functions 3 3.3 LCD Module Interface
3.3 LCD Module Interface
3.3.1 LCD Module Interface
The M3A-HS64G01 includes two flexible connectors and one MIL-spec connector for connecting LCD modules. The SH7267 on-chip VDC3 controls the LCD modules. The following figure shows the LCD module interface block diagram.
Flexible connector for SH7267 TX09D14VM3CAA Expansion connector 3.3 V
PG15 to PG0/LCD_DATA15 to 16-bit R5 to R0, G5 to G0, VDD1 5V LCD_DATA0 B5 to B0
CLK PG20/LCD_EXTCLK PG19/LCD_CLK DCLK (6.67 MHz) VDD2 5.33 MHz 3.3 V 3.3 V Socket PG18/LCD_DE DTMG (Data Enable Signal) 3.3 V 3.3 V PG16/LCD_VSYNC NC VREV
PG17/LCD_HSYNC NC HREV 3.3 V PJ2/LCD_M_DISP/CTx1 NC TP1 DIM (Dimming Control Signal)
NC TMZ (Thermistor Output)
Note: Pin names in red indicate the Flexible connector for function used. TX09D55VM1CDA 3.3 V
R5 to R0, G5 to G0, VDD B5 to B0
DCLK (5.33 MHz)
DTMG (Display Timing Signal)
NC
HSYNC
3.3 V NC
1 kΩ Vctrl (Backlight Control Signal)
PCI (Power Control Signal)
MIL-spec connector
3.3 V LCD_DATA15 to LCD_DATA0 3.3 V
LCD_CLK VDD1 5V
LCD_DE VDD2
LCD_VSYNC GND
LCD_HSYNC
LCD_M_DISP (Jumper-less)
PWM
Figure 3.3.1 LCD Module Interface Block Diagram
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M3A-HS64G01 Functions 3 3.3.2 Character LCD Module with LED Backlight
3.3.2 Character LCD Module with LED Backlight
The M3A-HS64G01 includes a connector for 16 x 2 semi-transmissive character LCD module (SD1602H, SUNLIKE). This module cannot be used with the R0K572670C000BR.
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M3A-HS64G01 Functions 3 3.4 Audio Modules
3.4 Audio Modules
The M3A-HS64G01 includes two 96 kHz, 24-bit D/A converters with DIT (AK4353, Asahi Kasei EMD Corporation), and one 24-bit stereo codec with IPGA (AK4524). One D/A converter (AK4353, U12: D/A converter 2) can only be used with the R0K572670C000BR.
¾ AK4353, D/A Converter SH7267 IIC3, SSIF, and I/O ports control AK4353.
• SH7267 IIC3 (Channel 1): Accesses the AK4353 registers to initialize AK4353, format data, and configure the attenuator • SH7267 SSIF (Channel 1): Outputs the audio data • SH7267 I/O ports (PF1): Powers down AK4353 at low, powers up AK4353 at high
Note: R0K572670C000BR allows for selecting 12.2880 MHz or 11.2896 MHz as the AK4353 system clock.
Figure 3.4.1 shows the D/A converter block diagram, and Table 3.4.1 lists the jumper setting (JP9 on the R0K572670C000BR).
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M3A-HS64G01 Functions 3 3.4 Audio Modules
CD deck CDFS pin SH7267 D/A converter 1 (AK4353) Expansion connector This D/A converter PF1/DV_DATA1/SD_D2 PDN# cannot be used with the TX IN R0K572670C000BR. Common pin for AK4353×2, Optical connector AUDIO_XTAL and AK4524 (note) MCKI
PF0/DV_DATA0 BICK
LRCK VCOM + 3.3 V 0.1 µF 10 µF PF2/DV_DATA2/SD_D3 SDTI 3.3 V 10 µF I2C AOUTL 220 Ω 3.3 V CSN PE2/SCL1/IRQ2 SCL/CCLK 27 kΩ 3.3 V 10 µF PE3/SDA1/IRQ3 SDA/CDTI AOUTR 220 Ω
CAD0 27 kΩ CAD1 Chip address: 01
D/A converter 2 (AK4353)
PDN# TX IN Optical connector MCKI
PF3/SSISCK1/SD_CMD BICK
PF4/SSIWS1/SD_CLK LRCK VCOM + 3.3 V 0.1 µF 10 µF PF5/SSIDATA1/SD_D0 SDTI 10 µF I2C AOUTL CSN 220 Ω PE0/SCL0/AUDIO_CLK/IRQ0 SCL/CCLK 27 kΩ 11.2896 MHz JP9 3.3 V 1 10 µF CLK 2 AUDIO_X1 SDA/CDTI AOUTR CLK 220 Ω 3 12.2880 MHz (Socket) NC AUDIO_X2 CAD0 27 kΩ CAD1 Chip address: 11 R40 R43 2-bit EEPROM IIC pin (address: 000) Audio codec PDN# control pin
Note: Pin names in red indicate the function used.
Refer to 3.11 Clock Modules for details on the AUDIO_XTAL.
Figure 3.4.1 D/A Converter Block Diagram
Table 3.4.1 Jumper Setting (JP9 on the R0K572670C000BR) Number 1-2 2-3
JP9 Provides 11.2896 MHz with the AUDIO_X1 pin (default) Provides 12.2880 MHz with the AUDIO_X1 pin
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M3A-HS64G01 Functions 3 3.5 CD Deck Interface
3.5 CD Deck Interface
The M3A-HS64G01 includes a CD deck interface connector. The SH7267 on-chip SSIF (Serial Sound Interface with FIFO) and RSPI (Renesas Peripheral Interface) control the CD deck. The RSPI channel 0 pin is also used as the NAND flash memory controller (FLCTL) pin. When connecting it with the CD deck interface, set SW5-5 to ON, and SW5-6 to OFF. The following figure shows the CD deck interface block diagram. Table 3.5.1 lists the DIP switches setting (SW5-5, and SW5-6 on the R0K572670C000BR).
4-bit Serial flash memory
2-bit 4-bit Audio module NAND flash memory (This module cannot be used with theR0K572670C000BR) Expansion connector 3.3 V CD deck connector SH7267 NAND or RSPI RSPI or SSIF IMSA-9617S-22 3.3 V S1A S1A D1 D1 CDCK PF9/A23/RSPCK0/FRB S1B S1B 3.3 V S2A S2A D2 D2 CDFS PF10/A24/SSL00/FCE# S2B S2B S3A S3A D3 PF11 D3 CDSI PF11/MOSI0/RSPDIF_IN PF11 S3B S3B S4A S4A D4 PF12 D4 CDSO PF12/MISO0/RSPDIF_OUT PF12 S4B S4B MUX MUX EN# IN EN# IN
3.3 V 3.3 V
DIP DIP SW5-5 SW5-6 3.3 V PF0/DV_DATA0
PF6/SSISCK2/TCLKB IIS_BCK
PF7/SSIWS2/TCLKD IIS_LRCK 3.3 V PF8/SSIDATA2 IIS_DATA 8 V RES# CDRST 3.3 V PH5/AN5 FLAG6 8 VDC 3.3 V PH4/AN4 TRANS P3.3 V
PE1/SDA0/IRQ1/TCLKA BLKCK GND
3-bit Rotary encoder input Note: Pin names in red indicate the function used.
Figure 3.5.1 CD Deck Interface Block Diagram
Table 3.5.1 DIP Switches Setting (SW5 on the R0K572670C000BR) Number Function OFF (High) ON (Low) SW5-5 Connected to the NAND flash memory Connected to the device which is connected to RSPI/SSIF - default SW5-6 Connected to the serial flash memory Connected to the expansion connector (SSIF3) - default /CD deck (RSPI0) Note: This setting cannot be used with the R0K572670C000BR.
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M3A-HS64G01 Functions 3 3.6 SD Card Interface
3.6 SD Card Interface
The M3A-HS64G01 includes an SD card slot. The SD card slot is connected to the SD Host Interface (SDHI) and the SD card slot built in the SH7267. This module cannot be used with the R0K572670C000BR.
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M3A-HS64G01 Functions 3 3.7 UART Interface
3.7 UART Interface
The SH7267 has a Serial Communication Interface with FIFO (SCIF) and the M3A-HS64G01 includes a UART connector. This module cannot be used with the R0K572670C000BR.
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M3A-HS64G01 Functions 3 3.8 CAN Interface
3.8 CAN Interface
The SH7267 includes RCAN-TL1 (Renesas CAN Time Trigger Level 1), the controller area network. SH7267 RCAN-TL1 channels 0 and 1 are connected to the CAN connector (3-pin, 2.5 mm pitch) on the M3A-HS64G01 via the voltage level shifter and the CAN driver IC. The RCAN-TL1 channel 0 pin is also used as the SCIF channel 0 pin, and the IEBusTM controller (IEB) pin. The figure below shows the CAN interface block diagram. Table 3.8.1 lists the jumpers setting (JP4, JP5, and JP8 on the R0K572670C000BR). Table 3.8.2 and Table 3.8.3 list the jumpers setting (JP4, JP5, JP8, and JP9 on the M3A-HS64G01).
2-bit 2-bit RS-232C interface IEBusTM interface
Expansion connector 3.3 V 3 V to 5 V CAN driver CAN connector SH7267 Level shifter JP5 HA13721 B3B-XH JP4 1 1 CTx0 A0 B0 2 2 3 TxD CANH CANH PJ0/CTx0/IETxD/TxD0 3 CTx0 CTx1 A1 B1 RxD CANL CANL 1 JP4 2 3.3 V PJ1/CRx0/IERxD/RxD0 3 CRx0 JP6 JP7 5 V JP5 DIR G# PJ2/LCD_M_DISP/CTx1 CTx1 → VccA VccB 1 2 IRQ switch PJ3/CRx1/IRQ1 3 CRx1
JP8 5 V 5 V to 3V CAN driver CAN connector Note: Pin names in red indicate the Level shifter JP9 HA13721 B3B-XH function used. 1 JP10 JP11 CRx0 A0 B0 2 3 TxD CANH CANH CRx1 A1 B1 RxD CANL CANL JP8
3.3 V 5 V DIR ← G# VccA VccB
Figure 3.8.1 CAN Interface Block Diagram
Table 3.8.1 Jumpers Setting (JP4, JP5, and JP8 on the R0K572670C000BR) Number 1-2 2-3
JP4 Selects the TxD0 (SCIF) pin - default Selects the CTx0 (RCAN-TL1) / IETxD (IEB) pins JP5 Selects the RxD0 (SCIF) pin - default Selects the CRx0 (RCAN-TL1) / IERxD (IEB) pins JP8 Selects the IRQ1 switch – default Selects the CRx1 (RCAN-TL1) pin
Table 3.8.2 Jumpers Setting (JP5, and JP9 on the M3A-HS64G01) Number 1-2 2-3
JP5 Selects the IETxD (IEB) pin Selects the CTx0 (RCAN-TL1) pin - default JP9 Selects the IERxD (IEB) pin Selects the CRx0 (RCAN-TL1) pin - default
Table 3.8.3 Jumper Setting (JP4, and JP8 on the M3A-HS64G01) Number 1-2 None (Open)
JP4 Normal mode (Connects the CTx1 pin) - default Debug mode (Leaves the CTx1 pin disconnected) JP8 Normal mode (Connects the CRx1 pin) - default Debug mode (Leaves the CRx1 pin disconnected)
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M3A-HS64G01 Functions 3 3.9 IEBusTM Interface
3.9 IEBusTM Interface
The SH7267 includes an IEBusTM controller (IEB). The IEBusTM (Inter Equipment BusTM) is the bus for digital data transfer system on a small scale. The SH7267 IEB pin is connected to the IEBus connector (4-pin, 2.5 mm pitch) via the voltage level shifter and the IEBusTM driver IC on the M3A-HS64G01. The IEB pin is also used as the SCIF channel 0 pin and the RCAN-TL1 channel 0 pin. The figure below shows the IEBusTM interface block diagram. Table 3.9.1 lists the jumpers setting (JP4, and JP5 on the R0K572670C000BR). Table 3.9.2 lists the jumpers setting (JP5, and JP9 on the M3A-HS64G01).
2-bit 4-bit RS-232C interface CAN interface
Expansion connector 3.3 V TM TM 3 V to 5 V IEBus driver IEBus connector HA12187 B4B-XH SH7267 Level shifter 5 V JP5 JP4 1 S1 BUS- BUS- 1 IETxD A0 B0 2 2 3 PJ0/CTx0/IETxD/TxD0 3 IETxD Rout BUS+ BUS+ CTx1 A1 B1 1 2 3.3 V PJ1/CRx0/IERxD/RxD0 3 IERxD 5 V JP5 DIR G# PJ2/LCD_M_DISP/CTx1 CTx1 → VccA VccB 1 2 IRQ switch PJ3/CRx1/IRQ1 3 CRx1
JP8 5 V 5 V to 3 V Level shifter Note: Pin names in red indicate the JP9 1 function used. IERxD 2 A0 B0 3 CRx1 A1 B1
3.3 V 5 V DIR ← G# VccA VccB
Figure 3.9.1 IEBusTM Interface Block Diagram
Table 3.9.1 Jumpers Setting (JP4, and JP5 on the R0K572670C000BR) Number 1-2 2-3
JP4 Selects the TxD0 (SCIF) - default Selects the CTx0 (RCAN-TL1) / IETxD (IEB) pins JP5 Selects the RxD0 (SCIF) - default Selects the CRx0 (RCAN-TL1) / IERxD (IEB) pins
Table 3.9.2 Jumpers Setting (JP5, and JP9 on the M3A-HS64G01) Number 1-2 2-3
JP5 Selects the IETxD (IEB) pin Selects the CTx0 (RCAN-TL1) pin - default JP9 Selects the IERxD (IEB) pin Selects the CRx0 (RCAN-TL1) pin - default
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M3A-HS64G01 Functions 3 3.10 I/O Ports
3.10 I/O Ports
SH7267 I/O ports are connected to switches and LEDs on the M3A-HS64G01. To use ports PH0 to PH3 as key input switches (4 switches x 4 inputs) via an A/D converter (ADC), set the ports as analog input pins (AN0 to AN3). Port A can be used as a user interface by setting PB22 pin to high output. The figure below shows the I/O ports block diagram. Table 3.10.1 lists the jumper setting (JP6 on the R0K572670C000BR). Table 3.10.2 lists the port A function switching.
Figure 3.10.1 I/O Ports Block Diagram
Table 3.10.1 Jumper Setting (JP6 on the R0K572670C000BR) Number 1-2 None (Open)
(1) JP6 Uses PH[3:0] as an input port (default) Uses PH[3:0] as an analog input pin Note 1: Mount R11 to R14 when using PH [3:0] as an input port.
Table 3.10.2 Port A Function Switching Number High output Low output
PB22 Uses Port A as a user interface Mode sampling (At power-up)
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M3A-HS64G01 Functions 3 3.11 Clock Modules
3.11 Clock Modules
Provide following clocks with the SH7267 on the R0K572670C000BR.
• SH7267 input clock: 12 MHz • SH7267 RTC clock: 32.768 kHz • SH7267 audio clock: 12.2880 MHz, and 11.2896 MHz (default) • SH7267 USB clock: 48.00 MHz • SH7267 LCD clock: 5.33 MHz
¾ How to select the system clock frequency of AK4353 (D/A converter) SH7267 audio clock provides either 12.2880 MHz or 11.2896 MHz of the clock frequency with AK4353 by switching jumpers. The figure below shows the clock module block diagram of the R0K572670C000BR and M3A-HS64G01. Table 3.11.1 lists the audio clock switching (JP9 on the R0K572670C000BR).
4-bit
Clock buffer Expansion connector CLK1 CK1 CK2 Clock buffer CLK2 AUDIO_XTAL REF CLK3 CK3 D/A converter 1 CK4 11.2896 MHz JP9 CLK1 SH7267 CLK4 1 CLK2 CLKOUT CK1 MCKI CLK 2 3 REF CLK3 CLK CLK4 12.2880 MHz CLKOUT AUDIO_X1 AUDIO_CLK AUDIO_CLK D/A converter 2 (Socket) CK2 NC AUDIO_X2 MCKI
3.3 V Audio codec CK3 XTI MD_CLK0 DIP SW5-1 CK4 NC Socket
AUDIO_CLK RTC_X1 32.768 kHz RTC_X2
Socket CLK SDRAM PLL CLK EXTAL CKIO CLK 12 MHz NC XTAL
CLK USB_X1 48 MHz USB_X2 48 MHz
LCD Socket CLK LCD_EXTCLK LCD_CLK MCKI 5.33 MHz
Figure 3.11.1 Clock Module Block Diagram
Table 3.11.1 Audio Clock Switching (JP9 on the R0K572670C000BR) Number 1-2 2-3
JP9 Provides 11.2896 MHz with the AUDIO_X1 pin (default) Provides 12.2880 MHz with the AUDIO_X1 pin
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M3A-HS64G01 Functions 3 3.12 Reset Module
3.12 Reset Module
A reset IC controls reset signals connected to the SH7267, flash memory and peripheral I/Os on the R0K572670C000BR and M3A-HS64G01. There are two system reset options: power-on reset, and reset by switch. The following figure shows the reset module block diagram.
Figure 3.12.1 Reset Module Block Diagram
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M3A-HS64G01 Functions 3 3.13 Power Supply Module
3.13 Power Supply Module
The M3A-HS64G01 is supplied 12 V power and the voltage regulator on the M3A-HS64G01 generates 8 V, and 5 V voltage. 5 V is supplied to the R0K572670C000BR, and the voltage regulator on the R0K572670C000BR generates digital voltage (3.3 V, 3VCC) and analog voltage (3.3 V, AVcc). The following figure shows the power supply module block diagram.
Figure 3.13.1 Power Supply Module Block Diagram
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Chapter 4 M3A-HS64G02 Functions Chapter 4 M3A-HS64G02 Functions
4-1 M3A-HS64G02 Functions 4 4.1 Overview of Functions
4.1 Overview of Functions
M3A-HS64G02 includes the functional modules listed in the following table.
Table 4.1.1 M3A-HS64G02 Function Modules Section Function Description
4.2 CPU • SH7267 4.3 LCD Module Interface • LCD module interface - Connects the SH7267 Video Display Controller 3 (VDC3) and LCD module connectors - Flexible connectors for LCD module are included • Character LCD module with LED backlight 4.4 Audio Module • Connects the SH7267, and a D/A converter - 96 kHz 24-bit D/A converter: 1 4.5 Video Signal Input Module • Connects the SH7267 Video Display Controller (VDC3) and a video decoder IC 4.6 SD Card Interface • Connects the SH7267 SD Host Interface (SDHI), and an SD card slot 4.7 UART Interface • Connects the SH7267 Serial Communication Interface with FIFO (SCIF) and a UART connector Note: This module cannot be used with the R0K572670C000BR. 4.8 CAN Interface • Connects the SH7267 Controller Area Network (RCAN-TL1) and a CAN connector TM 4.9 IEBusTM Interface • Connects the SH7267 IEBus™ controller (IEB) and IEBus connector 4.10 PWM Interface • Connects the SH7267 Motor Control PWM Timer (PWM) and a 20-pin MIL-spec connector Note: This module cannot be used with the R0K572670C000BR. 4.11 MTU2 Interface • Connects the SH7267 Multi Function Timer Pulse Unit 2 (MTU2) and a 20-pin MIL-spec connector 4.12 I/O Ports • Connect the SH7267 I/O ports, LEDs, and DIP switches 4.13 Interrupt Switches • Connects the SH7267 IRQ2 pin, IRQ3 pin, and push-button switches 4.14 Clock Modules • Controls the system clock • Controls the peripheral I/O clock 4.15 Reset Module • Resets devices on the M3A-HS64G02 4.16 Power Supply Module • Controls the M3A-HS64G02 system power supply - Operating Specifications • Connectors, switches, and LEDs Refer to Chapter 7 for details.
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M3A-HS64G02 Functions 4 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
4.2 CPU
4.2.1 SH7267 Overview
The R0K572670C000BR includes the SH7267, the 32-bit RISC MCU that operates with a maximum frequency of 144 MHz.
4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
Table 4.2.1 to Table 4.2.6 list the SH7267 pin functions used on the M3A-HS64G02.
Table 4.2.1 SH7267 Pin Functions (1/6) Expansion No. Name Symbol Description Remarks connector 1 PVcc PG18/LCD_DE/TIOC2A/ 2 LCD_DE Connected to the LCD module EN pin CN9, pin 24 RxD3/RTS1 3 Vss 4 PB1/A1/LCD_HSYNC A1 Address bus CN4, pin 1 5 Vcc 6 PB2/A2/LCD_VSYNC A2 Address bus CN4, pin 2 7 PB3/A3/LCD_DATA15 A3 Address bus CN4, pin 3 8 PB4/A4/TIOC0A/LCD_DATA14 A4 Address bus CN4, pin 4 PG9/LCD_DATA9/SSIRxD0/ 9 LCD_DATA9 Connected to the LCD module D9 pin CN9, pin 11 G4 TxD4/SIOFSYNC 10 PVcc PG8/LCD_DATA8/SSITxD0/ 11 LCD_DATA8 Connected to the LCD module D8 pin CN9, pin 12 G3 RxD4/SIOFSCK 12 Vss 13 PB5/A5/TIOC0B/LCD_DATA13 A5 Address bus CN4, pin 5 14 PB6/A6/TIOC0C/LCD_DATA12 A6 Address bus CN4, pin 6 15 PB7/A7/TIOC0D/LCD_DATA11 A7 Address bus CN4, pin 9 16 PB8/A8/TIOC1A/LCD_DATA10 A8 Address bus CN4, pin 10 17 PVcc 18 PB9/A9/TIOC1B/LCD_DATA9 A9 Address bus CN4, pin 11 19 Vss 20 PB10/A10/TIOC2A/LCD_DATA8 A10 Address bus CN4, pin 12 21 Vcc 22 PB11/A11/TIOC2B/LCD_DATA7 A11 Address bus CN4, pin 13 23 PB12/A12/TIOC3A/LCD_DATA6 A12 Address bus CN4, pin 14 24 PB13/A13/TIOC3B/LCD_DATA5 A13 Address bus CN4, pin 17 25 PB14/A14/TIOC3C/LCD_DATA4 A14 Address bus CN4, pin 18 26 PB15/A15/TIOC3D/LCD_DATA3 A15 Address bus CN4, pin 19 PG7/LCD_DATA7/SD_CD/ 27 LCD_DATA7 Connected to the LCD module D7 pin CN9, pin 9 G2 PINT7/IRQ7 PG6/LCD_DATA6/SD_WP/ 28 LCD_DATA6 Connected to the LCD module D6 pin CN9, pin 7 G1 PINT6/IRQ6 29 PVcc PG5/LCD_DATA5/SD_D1/PINT5 30 LCD_DATA5 Connected to the LCD module D5 pin CN9, pin 8 G0 /IRQ5 31 Vss PG4/LCD_DATA4/SD_D0/PINT4 32 LCD_DATA4 Connected to the LCD module D4 pin CN9, pin 6 B5 /IRQ4 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 4-3 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
Table 4.2.2 SH7267 Pin Functions (2/6) Expansion No. Name Symbol Description Remarks connector 33 Vcc 34 PB16/A16/TIOC4A/LCD_DATA2 A16 Address bus CN4, pin 20 PB17/A17/TIOC4B/LCD_DATA1/ 35 A17 Address bus CN4, pin 21 SCK1 PB18/A18/TIOC4C/LCD_DATA0 36 A18 Address bus CN4, pin 22 /TxD1 37 PB19/A19/TIOC4D/RxD1 A19 Address bus CN4, pin 25 38 PB20/A20/SPDIF_IN/SCK4 A20 Address bus CN4, pin 26 39 PB21/A21/SPDIF_OUT/TxD4 A21 Address bus CN4, pin 27 40 PVcc 41 CKIO CKIO Connected to the SDRAM CLK pin CN6, pin 20 42 Vss Low: MD 43 PB22/A22/CS4#/RxD4 PB22 Switches the system setting/user interface CN4, pin 28 High: IO 44 NMI NMI Non-maskable interrupt – 45 PLLVcc 46 RES# RES# Reset input CN7, pin 6 47 PLLVss PA0 Connected to LED2 as a user output port PB22: High 48 PA0/MD_CLK0 CN1, pin 10 MD_CLK0 Connected to SW5-1 as clock mode input 0 PB22: Low PA1 Connected to LED3 as a user output port PB22: High 49 PA1/MD_BOOT0 CN1, pin 9 MD_BOOT0 Connected to SW5-2 as boot mode input 0 PB22: Low 50 EXTAL EXTAL Connects the system external clock to MCU – 12 MHz 51 XTAL XTAL Open – PG3/LCD_DATA3/SD_CLK/ 52 LCD_DATA3 Connected to the LCD module D3 pin CN9, pin 3 B4 PINT3 PG2/LCD_DATA2/SD_CMD/ 53 LCD_DATA2 Connected to the LCD module D2 pin CN9, pin 4 B3 PINT2 54 PG1/LCD_DATA1/SD_D3/PINT1 LCD_DATA1 Connected to the LCD module D1 pin CN9, pin 1 B2 55 PG0/LCD_DATA0/SD_D2/PINT0 LCD_DATA0 Connected to the LCD module D0 pin CN9, pin 2 B1, B0 56 Vss 57 PVcc Connects the LCD module external clock to Default: 58 PG20/LCD_EXTCLK/SCK1 LCD_EXTCLK CN9, pin 26 MCU 5.33 MHz 59 Vss 60 RTC_X1 RTC_X1 – Connects the real-time clock resonator to MCU 32.768 kHz 61 RTC_X2 RTC_X2 – PA2 Connected to SW6-5 as a user input port PB22: High 62 PA2/MD_BOOT1 CN1, pin 8 MD_BOOT1 Connected to SW5-3 as boot mode input 1 PB22: Low
63 USB_X1 USB_X1 Connects the USB external clock to MCU – 48 MHz
64 USB_X2 USB_X2 Open –
65 ASEMD# ASEMD# ASE mode select – H-UDI 66 USBDPVcc 67 USBDPVss
68 DM DM USB differential signal D− data –
69 DP DP USB differential signal D+ data –
70 VBUS VBUS VBUS input – 71 USBDVcc 72 USBDVss Connects 73 REFRIN REFRIN Reference input – 5.6 kΩ ± 1% resistor Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 4-4 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
Table 4.2.3 SH7267 Pin Functions (3/6) Expansion No. Name Symbol Description Remarks connector 74 USBAPVss 75 USBAPVcc 76 USBAVcc 77 USBAVss 78 USBUVcc 79 USBUVss 80 PH0/AN0 AN0 Connected to the push-button switch as key input CN3, pin 4 81 PH1/AN1 AN1 Connected to the push-button switch as key input CN3, pin 3 82 PH2/AN2 AN2 Connected to the push-button switch as key input CN3, pin 8 83 PH3/AN3 AN3 Connected to the push-button switch as key input CN3, pin 7 84 AVss – Connected to the PWM connector (J5) JP3: 1-2 85 PH4/AN4 CN1, pin 2 PH4 Connected to the test pin (TP3) JP3: 2-3 86 AVref – Connected to the PWM connector (J5) JP3: 1-2 87 PH5/AN5 CN1, pin 4 PH5 Connected to the test pin (TP2) JP3: 2-3 88 AVcc 89 TRST# TRST# Initialization-signal input pin – H-UDI ASEBRKAK# Break mode acknowledge 90 ASEBRKAK#/ASEBRK# – H-UDI ASEBRK# Break request 91 TDO TDO Test data output – H-UDI 92 TDI TDI Test data input – H-UDI 93 TMS TMS Test mode select – H-UDI 94 TCK TCK Test clock – H-UDI 95 AUDIO_X2 AUDIO_X2 Open – Switched by 96 AUDIO_X1 AUDIO_X1 Connects the audio external clock to MCU – JP9 97 PG24/MISO1/TIOC0D PG24 Connected to the character LCD E pin CN6, pin 13 98 PVcc 99 PG23/MOSI1/TIOC0C PG23 Connected to the character LCD RS pin CN6, pin 12 100 Vss 101 PG22/SSL10/TIOC0B TIOC0B Connected to the MTU2 connector (J16) CN9, pin 27 102 Vcc 103 PG21/RSPCK1/TIOC0A TIOC0A Connected to the MTU2 connector (J16) CN9, pin 28 PJ3/CRx1/CRx0/CRx1/IRQ1/ IRQ1 IRQ1 switch – JP8: 1-2 104 AUDIO_XOUT/WDTOVF# CRx1 Connected to the CAN driver IC (U16) CN1, pin 17 JP8: 2-3 PJ2/CTx1/CTx0&CTx1/CS2#/ CTx1 Connected to the CAN driver IC (U16) 105 CN1, pin 18 SCK0/LCD_M_DISP LCD_M_DISP LCD AC control signal RxD0 Connected to the RS-232C connector (J10) – JP5: 1-2 106 PJ1/CRx0/IERxD/IRQ0/RxD0 CRx0 Connected to the CAN driver IC (U14) CN1, pin 19 JP5: 2-3 IERxD Connected to the IEBusTM driver IC TxD0 Connected to the RS-232C connector (J10) – JP4: 1-2 PJ0/CTx0/IETxD/CS1#/TxD0/ 107 CTx0 Connected to the CAN driver IC (U14) A0 CN1, pin 20 JP4: 2-3 IETxD Connected to the IEBusTM driver IC DV_CLK Connected to the video decoder IC CLK_27MO pin CN7, pin 27 SW6-6: ON PF8 Connected to the character LCD DB7 pin SW6-6: OFF PF8/CE2B#/SSIDATA2/ 108 – Connected to the PWM connector (J5) JP3: 1-2 DV_CLK/SD_CD CN7, pin 15 SW6-6: OFF SD_CD Connected to the SD card slot CD pin JP3: 2-3 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 4-5 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
Table 4.2.4 SH7267 Pin Functions (4/6) Expansion No. Name Symbol Description Remarks connector DV_DATA7 Connected to the video decoder IC D7 pin CN7, pin 28 SW6-6: ON PF7 Connected to the character LCD DB6 pin SW6-6: OFF PF7/CE2A#/SSIWS2/ 109 – Connected to the PWM connector (J5) JP3: 1-2 DV_DATA7/TCLKD/SD_WP CN7, pin 16 SW6-6: OFF SD_WP Connected to the SD card slot WP pin JP3: 2-3 110 PVcc DV_DATA6 Connected to the video decoder IC D6 pin CN7, pin 25 SW6-6: ON PF6 Connected to the character LCD DB5 pin SW6-6: OFF PF6/CS6#/CE1B#/SSISCK2/ 111 – Connected to the PWM connector (J5) JP3: 1-2 DV_DATA6/TCLKB/SD_D1 CN7, pin 13 SW6-6: OFF SD_D1 Connected to the SD card slot DAT1 pin JP3: 2-3 112 Vss AUDATA3 Connected to the H-UDI port connector (J3) AUD CN7, pin 23 DV_DATA5 Connected to the video decoder IC D5 pin SW6-6: ON PF5/CS5#/CE1A#/SSIDATA1/ PF5 Connected to the character LCD DB4 pin SW6-6: OFF 113 DV_DATA5/TCLKC/SD_D0/ – Connected to the PWM connector (J5) JP3: 1-2 AUDATA3 CN7, pin 14 SW6-6: OFF SD_D0 Connected to the SD card slot DAT0 pin JP3: 2-3 114 Vcc AUDATA2 Connected to the H-UDI port connector (J3) AUD CN7, pin 24 DV_DATA4 Connected to the video decoder IC D4 pin SW6-6: ON PF4/ICIOWR#/AH#/SSIWS1/ PF4 Connected to the character LCD DB3 pin SW6-6: OFF 115 DV_DATA4/TxD3/SD_CLK/ – Connected to the PWM connector (J5) JP3: 1-2 AUDATA2 CN7, pin 3 SW6-6: OFF SD_CLK Connected to the SD card slot CLK pin JP3: 2-3 AUDATA1 Connected to the H-UDI port connector (J3) AUD CN7, pin 22 DV_DATA3 Connected to the video decoder IC D3 pin SW6-6: ON PF3/ICIORD#/SSISCK1/ PF3 Connected to the character LCD DB2 pin SW6-6: OFF 116 DV_DATA3/RxD3/SD_CMD/ – Connected to the PWM connector (J5) JP3: 1-2 AUDATA1 CN7, pin 4 SW6-6: OFF SD_CMD Connected to the SD card slot CMD pin JP3: 2-3 AUDATA0 Connected to the H-UDI port connector (J3) AUD CN7, pin 19 DV_DATA2 Connected to the video decoder IC D2 pin SW6-6: ON PF2/BACK#/DV_DATA2/TxD2/ PF2 Connected to the character LCD DB1 pin SW6-6: OFF 117 DACK0/SD_D3/AUDATA0 – Connected to the PWM connector (J5) JP3: 1-2 CN7, pin 1 SW6-6: OFF SD_D3 Connected to the SD card slot DAT3 pin JP3: 2-3 AUDSYNC# Connected to the H-UDI port connector (J3) AUD CN7, pin 20 DV_DATA1 Connected to the video decoder IC D1 pin SW6-6: ON – Connected to the MTU2 connector (J16) CN9, pin 29 PF1/BREQ#/DV_DATA1/RxD2/ SW6-6: OFF 118 PF1 Connected to the character LCD DB0 pin DREQ0/SD_D2/AUDSYNC# JP3: 1-2 – Connected to the PWM connector (J5) CN7, pin 2 SW6-6: OFF SD_D2 Connected to the SD card slot DAT2 pin JP3: 2-3 AUDCK Connected to the H-UDI port connector (J3) AUD PF0/WAIT#/DV_DATA0/SCK2/ CN7, pin 17 119 DV_DATA0 Connected to the video decoder IC D0 pin TEND0/AUDCK – Not connected CN7, pin 32 120 PVcc PG17/LCD_HSYNC/TIOC1B/ 121 LCD_HSYNC Connected to the LCD module HSYNC pin CN9, pin 21 TxD1 122 Vss PG16/LCD_VSYNC/TIOC1A/ 123 LCD_VSYNC Connected to the LCD module VSYNC pin CN9, pin 19 RxD1 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 4-6 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
Table 4.2.5 SH7267 Pin Functions (5/6) Expansion No. Name Symbol Description Remarks connector MISO0 Connected to the serial flash memory SO pin – Connected to the MTU2 connector (J16) CN7, pin 33 SW5-6: OFF – Connected to the through-hole (MH2) PF12/BS#/MISO0/TIOC3D/ 124 SW5-6: ON SPDIF_OUT PF12 Connected to the AK4353 PDN# pin JP3: 2-3 CN7, pin 38 SW5-6: ON – Connected to the PWM connector (J5) JP3: 1-2 MOSI0 Connected to the serial flash memory SI pin CN7, pin 31 SW5-6: OFF – Connected to the MTU2 connector (J16) PF11/A25/SSIDATA3/MOSI0/ SW5-6: ON 125 SSIDATA3 Connected to the AK4353 SDTI pin TIOC3C/SPDIF_IN JP3: 2-3 CN7, pin 37 SW5-6: ON – Connected to the PWM connector (J5) JP3: 1-2 126 PVcc SW5-5: ON SSL00 Connected to the serial flash memory CS# pin – SW5-6: OFF SW5-5: ON SSIWS3 Connected to the AK4353 LRCK pin SW5-6: ON PF10/A24/SSIWS3/SSL00/ 127 JP3: 2-3 TIOC3B/FCE# CN7, pin 35 SW5-5: ON – Connected to the PWM connector (J5) SW5-6: ON JP3: 1-2 FCE# Connected to the NAND flash memory CE# pin – SW5-5: OFF 128 Vss SW5-5: ON RSPCK0 Connected to the serial flash memory SCK pin CN7, pin 30 SW5-6: OFF SW5-5: ON SSISCK3 Connected to the AK4353 BICK pin SW5-6: ON PF9/A23/SSISCK3/RSPCK0/ 129 JP3: 2-3 TIOC3A/FRB CN7, pin 36 SW5-5: ON – Connected to the PWM connector (J5) SW5-6: ON JP3: 1-2 FRB Connected to the NAND flash memory R/B# pin – SW5-5: OFF 130 Vcc 131 PD15/D15/NAF7/PWM2H D15/NAF7 Data bus CN8, pin 19 132 PD14/D14/NAF6/PWM2G D14/NAF6 Data bus CN8, pin 17 133 PE5/SDA2/DV_HSYNC DV_HSYNC Connected to the video decoder IC HSYNC pin CN7, pin 12 134 PE4/SCL2/DV_VSYNC DV_VSYNC Connected to the video decoder IC VSYNC pin CN7, pin 9 Connected to the EEPROM SDA pin JP10: 1-2 SDA1 135 PE3/SDA1/IRQ3 Connected to the AK4353 SDA/CDTI pin CN7, pin 10 JP2: 1-2 IRQ3 IRQ3 switch JP2: 2-3 Connected to the EEPROM SCL pin JP9: 1-2 SCL1 136 PE2/SCL1/IRQ2 Connected to the AK4353 SCL/CCLKI pin CN7, pin 7 JP1: 1-2 IRQ2 IRQ2 switch JP1: 2-3 PE1/SDA0/IOIS16#/IRQ1/TCLKA/ Connected to the external IIC connector (J3) 137 SDA0 CN7, pin 8 ADTRG#/LCD_EXTCLK Connected to the video decoder IC SDA pin Connected to the external IIC connector (J3) 138 PE0/SCL0/AUDIO_CLK/IRQ0 SCL0 CN7, pin 5 Connected to the video decoder IC SCL pin 139 PD13/D13/NAF5/PWM2F D13/NAF5 Data bus CN8, pin 14 140 PD12/D12/NAF4/PWM2E D12/NAF4 Data bus CN8, pin 12 141 PVcc 142 PD11/D11/NAF3/PWM2D D11/NAF3 Data bus CN8, pin 9 143 Vss Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 4-7 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.2 SH7267 Pin Functions Used on the M3A-HS64G02
Table 4.2.6 SH7267 Pin Functions (6/6) Expansion No. Name Symbol Description Remarks connector 144 PD10/D10/NAF2/PWM2C D10/NAF2 Data bus CN8, pin 7 145 PD9/D9/NAF1/PWM2B D9/NAF1 Data bus CN8, pin 4 146 PD8/D8/NAF0/PWM2A D8/NAF0 Data bus CN8, pin 2 Connected to the data bus and the NAND flash 147 PD7/D7/FWE#/PWM1H D7/FWE# CN8, pin 18 Auto-switch memory WE# pin Connected to the data bus and the NAND flash 148 PD6/D6/FALE/PWM1G D6/FALE CN8, pin 16 Auto-switch memory ALE pin Connected to the data bus and the NAND flash 149 PD5/D5/FCLE/PWM1F D5/FCLE CN8, pin 13 Auto-switch memory CLE pin PG15/LCD_DATA15/TIOC0D/ 150 LCD_DATA15 Connected to the LCD module D15 pin CN9, pin 20 R5 TxD7 PG14/LCD_DATA14/TIOC0C/ 151 LCD_DATA14 Connected to the LCD module D14 pin CN9, pin 17 R4 RxD7 152 PVcc 153 Vss PG13/LCD_DATA13/TIOC0B/ 154 LCD_DATA13 Connected to the LCD module D13 pin CN9, pin 18 R3 TxD6 PG12/LCD_DATA12/TIOC0A/ 155 LCD_DATA12 Connected to the LCD module D12 pin CN9, pin 16 R2 RxD6 Connected to the data bus and the NAND flash 156 PD4/D4/FRE#/PWM1E D4/FRE# CN8, pin 11 Auto-switch memory RE# pin 157 PD3/D3/PWM1D D3 Data bus CN8, pin 8 158 PD2/D2/PWM1C D2 Data bus CN8, pin 6 159 PD1/D1/PWM1B D1 Data bus CN8, pin 3 160 PD0/D0/PWM1A D0 Data bus CN8, pin 1 161 PC0/CS0#/SSIWS0 CS0# Connected to the NOR flash memory CE# pin CN6, pin 5 162 PVcc 163 PC1/RD#/SSISCK0 RD# Connected to the NOR flash memory OE# pin CN6, pin 6 164 Vss 165 PC2/RD/WR#/SSIRxD0 RD/WR# Connected to the SDRAM WE# pin CN6, pin 7 WE0# Connected to the NOR flash memory WE# pin 166 PC3/WE0#/DQML/SSITxD0 CN6, pin 8 DQML Connected to the SDRAM DQML pin 167 PC4/WE1#/DQMU/WE# DQMU Connected to the SDRAM DQMU pin CN6, pin 9 RAS# Connected to the SDRAM RAS# pin – SW5-4: OFF 168 PC5/RAS#/TIOC4A/IRQ4 TIOC4A Connected to the MTU2 connector (J16) CN6, pin 14 SW5-4: ON PG11/LCD_DATA11/SSIWS0/ 169 LCD_DATA11 Connected to the LCD module D11 pin CN9, pin 13 R1, R0 IRQ3/TxD5/SIOFTxD 170 PVcc PG10/LCD_DATA10/SSISCK0 171 LCD_DATA10 Connected to the LCD module D10 pin CN9, pin 14 G5 /IRQ2/RxD5/SIOFRxD 172 Vss CAS# Connected to the SDRAM CAS# pin – SW5-4: OFF 173 PC6/CAS#/TIOC4B/IRQ5 TIOC4B Connected to the MTU2 connector (J16) CN6, pin 15 SW5-4: ON CKE Connected to the SDRAM CKE pin – SW5-4: OFF 174 PC7/CKE/TIOC4C/IRQ6 TIOC4C Connected to the MTU2 connector (J16) CN6, pin 16 SW5-4: ON CS3# Connected to the SDRAM CS# pin – SW5-4: OFF 175 PC8/CS3#/TIOC4D/IRQ7 TIOC4D Connected to the MTU2 connector (J16) CN6, pin 17 SW5-4: ON PG19/LCD_CLK/TIOC2B/ 176 LCD_CLK Connected to the LCD module CLK pin CN9, pin 23 TxD3/CTS1 Legend: : 3.3 V power supply, : 1.25 V power supply, : GND
REJ11J0042-0100 Rev.1.00 4-8 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.3 M3A-HS64G02 Module Availability
4.2.3 M3A-HS64G02 Module Availability
The following table shows which combination of modules can/cannot be used.
Table 4.2.7 M3A-HS64G02 Module Availability R0K572670C000BR R0K572670C000BR+M3A-HS64G02
SH7267 Component Module Name Peripherals No. TM NOR flashmemory SDRAM NAND flash memory EEPROM memory flash Serial USB H-UDI (14-pin) H-UDI (36-pin) LED NMI switch IRQ1 switch switches DIP RS-232C Character LCD SD card D/A converter UART IIC LCD IEBus CAN0 CAN1 switch input Key IRQ2 switch IRQ3 switch PWM Video decoder MTU2 BSC U6 NOR flash memory YYYYYYYYYYYYYYY–YYYYYYYY–YY BSC U9 SDRAM Y YYYYYYYYYYYYYY–YYYYYYYY–Y(9) FLCTL U7 NAND flash memory YY Y(2) YYYYYYYYYY(2) –YYYYYYYY–YY IIC3 U8 EEPROM YYY YYYYYYYYYYYY–YYYYYYYY–YY RSPI U10 Serial flash memory YY(2) Y YYYYYYYYYY(2) –YYYYYYYY–YY USB J1 and J2 USB YYYYY YYYYYYYYYY–YYYYYYYY–YY H-UDI J7 H-UDI (14-pin) YYYYYY YYYYYYYYY–YYYYYYYY–YY H-UDI, AUD J3 H-UDI (36-pin) YYYYYYY YYYYYYYY–YYYYYYYY–N Y I/O ports LED2 and LED3LED YYYYYYYY YY(1) YYYY–YYYYYYYY–YY INTC SW3 NMI switch YYYYYYYYY YYYYYY–YYYYYYYY–YY R0K572670C000BR INTC SW4 IRQ1 switch YYYYYYYYYY YYYYY–YYYY(5) YYY–YY I/O ports SW5 and SW6 DIP switches YYYYYYYY(1) YY YYYY–YYYYYYYY–YY SCIF J10 RS-232C YYYYYYYYYYYY YYY–YY(3) (3) YYYY–YY I/O ports J1 Character LCD YYYYYYYYYYYYY (6) Y–YYYYYYYY–(10) N SDHI J4 SD card YYYYYYYYYYYYY(6) Y–YYYYYYYY–(10) Y SSIF, IIC3 U10 D/A converter YY(2) Y (2) YYYYYYYYYY –YYYYYY(4) (4) –YY SCIF J2 UART –––––––––––––––– ––––––––––– IIC3 J3 IIC YYYYYYYYYYYYYYYY– YYYYYYY–YY VDC3 J10 to J12 LCD YYYYYYYYYYYYYYYY–Y YY(8) YYY–Y(11) IEBus J13 IEBusTM YYYYYYYYYYYY(3) YYY–YY (7) YYYY–YY RCAN J14 CAN0 YYYYYYYYYYYY(3) YYY–YY(7) YYYY–YY RCAN J15 CAN1 YYYYYYYYYY(5) YYYYY–Y(8) YY YYY–YY I/O ports SW4 to SW19 Key input switch YYYYYYYYYYYYYYYY–YYYYY YY–YY INTC SW1 IRQ2 switch YYYYYYYYYYYYYYY(4) –YYYYYY Y–YY INTC SW2 IRQ3 switch YYYYYYYYYYYYYYY(4) –YYYYYYY –YY PWM J5 PWM ––––––––––––––––––––––––– –– VDC3 U11 Video decoder YYYYYYYN YYYYY(10) (10) Y–YYYYYYYY– Y
R0K572670C000BR+M3A-HS64G02 MTU2 LED1 to LED14 MTU2 (12) Y (9) YYYYYYYYYYYN YY–Y(11) YYYYYY–Y Y: Yes, N: No, –: N/A Notes: 1: When using LED2 and LED3, SW5-1, SW5-2, and SW5-3 on the R0K572670C000BR cannot be used. 2: PF9 to PF12 are multiplex pins. When setting SW5-5, and SW5-6 on the R0K572670C000BR, only one module can be used at these intersections. 3: When changing JP4 and JP5 settings on the R0K572670C000BR, only one module can be used at these intersections. 4: When changing JP1 and JP2 settings on the M3A-HS64G02, only one module can be used at these intersections. 5: When changing JP8 setting on the R0K572670C000BR, either CAN1 or IRQ1 switch can be used. 6: When changing JP3 setting on the M3A-HS64G02, either character LCD or SD card can be used. 7: When changing JP5 and JP9 settings on the M3A-HS64G02, either IEBus or CAN0 can be used. 8: PJ2 is a multiplex pin. When using the signal LCD_M_DISP, CAN1 cannot be used. When using CAN1, the signal LCD_M_DISP cannot be used. 9: PC5 to PC8 are multiplex pins. When setting SW5-4 on the R0K572670C000BR, either MTU2 or SDRAM can be used. 10: PF1 to PF8 are multiplex pins. When setting SW6-6 on the R0K572670C000BR, only one module can be used at these intersections. 11: The PG21 pin is connected to both the LCD and MTU2 modules, Therefore, any operation to either module will result in both modules performing the same operation. 12: LED1, LED2, LED7, LED8, LED11 to LED14 can be used with the R0K572670C000BR (Other LEDs cannot be used).
REJ11J0042-0100 Rev.1.00 4-9 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G02
4.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G02
Table 4.2.8 to Table 4.2.20 list SH7267 multiplex pin functions used on the M3A-HS64G02. These multiplex pins are set as port input pins by default. Set the MD bit in the port control register to use the SH7267 peripheral functions (except I/O ports).
Table 4.2.8 SH7267 Multiplex Pin Functions (BSC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name BSC CS0# PCCR0 PC0MD[1:0] = B'01 PC0/CS0#/SSIWS0 (1) CS3# PCCR2 PC8MD[1:0] = B'01 PC8/CS3#/TIOC4D/IRQ7 RD# PCCR0 PC1MD[1:0] = B'01 PC1/RD#/SSISCK0 (1) WE0#/DQML PCCR0 PC3MD[1:0] = B'01 PC3/WE0#/DQML/SSITxD0 WE1#/DQMU/WE# PCCR1 PC4MD0 = B'1 PC4/WE1#/DQMU/WE# RAS# PCCR1 PC5MD[1:0] = B'01 PC5/RAS#/TIOC4A/IRQ4 CAS# PCCR1 PC6MD[1:0] = B'01 PC6/CAS#/TIOC4B/IRQ5 CKE PCCR1 PC7MD[1:0] = B'01 PC7/CKE/TIOC4C/IRQ6 RD/WR# PCCR0 PC2MD[1:0] = B'01 PC2/RD/WR#/SSIRxD0 A21 PBCR5 PB21MD[2:0] = B'001 PB21/A21/SPDIF_OUT/TxD4 D15 PDCR3 PD15MD[1:0] = B'01 PD15/D15/NAF7/PWM2H (1) D14 PDCR3 PD14MD[1:0] = B'01 PD14/D14/NAF6/PWM2G (1) D13 PDCR3 PD13MD[1:0] = B'01 PD13/D13/NAF5/PWM2F (1) D12 PDCR3 PD12MD[1:0] = B'01 PD12/D12/NAF4/PWM2E (1) D11 PDCR2 PD11MD[1:0] = B'01 PD11/D11/NAF3/PWM2D (1) D10 PDCR2 PD10MD[1:0] = B'01 PD10/D10/NAF2/PWM2C (1) D9 PDCR2 PD9MD[1:0] = B'01 PD9/D9/NAF1/PWM2B (1) D8 PDCR2 PD8MD[1:0] = B'01 PD8/D8/NAF0/PWM2A (1) D7 PDCR1 PD7MD[1:0] = B'01 PD7/D7/FWE#/PWM1H (1) D6 PDCR1 PD6MD[1:0] = B'01 PD6/D6/FALE/PWM1G (1) D5 PDCR1 PD5MD[1:0] = B'01 PD5/D5/FCLE/PWM1F (1) D4 PDCR1 PD4MD[1:0] = B'01 PD4/D4/FRE#/PWM1E (1) D3 PDCR0 PD3MD[1:0] = B'01 PD3/D3/PWM1D (1) D2 PDCR0 PD2MD[1:0] = B'01 PD2/D2/PWM1C (1) D1 PDCR0 PD1MD[1:0] = B'01 PD1/D1/PWM1B (1) D0 PDCR0 PD0MD[1:0] = B'01 PD0/D0/PWM1A (1) Note 1: For boot modes 1 to 3
Table 4.2.9 SH7267 Multiplex Pin Functions (INTC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name INTC IRQ3 PECR0 PE3MD[1:0] = B'11 PE3/SDA1/IRQ3 IRQ2 PECR0 PE2MD[1:0] = B'11 PE2/SCL1/IRQ2 IRQ1 PJCR1 PJ3MD[2:0] = B'011 PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/WDTOVF#
Table 4.2.10 SH7267 Multiplex Pin Functions (SCIF) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name SCIF RxD0 PJCR0 PJ1MD[2:0] = B’100 PJ1/CRx0/IERxD/IRQ0/RxD0 TxD0 PJCR0 PJ0MD[2:0] = B’100 PJ0/CTx0/IETxD/CS1#/TxD0/A0
REJ11J0042-0100 Rev.1.00 4-10 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G02
Table 4.2.11 SH7267 Multiplex Pin Functions (IIC3) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name IIC3 SDA1 PECR0 PE3MD[1:0] = B'01 PE3/SDA1/IRQ3 SCL1 PECR0 PE2MD[1:0] = B'01 PE2/SCL1/IRQ2 SDA0 PECR0 PE1MD[2:0] = B'001 PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/LCD_EXTCLK SCL0 PECR0 PE0MD[1:0] = B'01 PE0/SCL0/AUDIO_CLK/IRQ0
Table 4.2.12 SH7267 Multiplex Pin Functions (RCAN-TL1) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name RCAN- CRx1 PJCR1 PJ3MD[2:0] = B'001 PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/WDTOVF# TL1 CTx1 PJCR0 PJ2MD[2:0] = B'001 PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/LCD_M_DISP CRx0 PJCR0 PJ1MD[2:0] = B'001 PJ1/CRx0/IERxD/IRQ0/RxD0 CTx0 PJCR0 PJ0MD[2:0] = B'001 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 4.2.13 SH7267 Multiplex Pin Functions (IEB) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name IEB IERxD PJCR0 PJ1MD[2:0] = B'010 PJ1/CRx0/IERxD/IRQ0/RxD0 IETxD PJCR0 PJ0MD[2:0] = B'010 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 4.2.14 SH7267 Multiplex Pin Functions (FLCTL) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name FLCTL NAF7 PDCR3 PD15MD[1:0] = B'01 PD15/D15/NAF7/PWM2H NAF6 PDCR3 PD14MD[1:0] = B'01 PD14/D14/NAF6/PWM2G NAF5 PDCR3 PD13MD[1:0] = B'01 PD13/D13/NAF5/PWM2F NAF4 PDCR3 PD12MD[1:0] = B'01 PD12/D12/NAF4/PWM2E NAF3 PDCR2 PD11MD[1:0] = B'01 PD11/D11/NAF3/PWM2D NAF2 PDCR2 PD10MD[1:0] = B'01 PD10/D10/NAF2/PWM2C NAF1 PDCR2 PD9MD[1:0] = B'01 PD9/D9/NAF1/PWM2B NAF0 PDCR2 PD8MD[1:0] = B'01 PD8/D8/NAF0/PWM2A FWE# PDCR1 PD7MD[1:0] = B'01 PD7/D7/FWE#/PWM1H FALE PDCR1 PD6MD[1:0] = B'01 PD6/D6/FALE/PWM1G FCLE PDCR1 PD5MD[1:0] = B'01 PD5/D5/FCLE/PWM1F FRE# PDCR1 PD4MD[1:0] = B'01 PD4/D4/FRE#/PWM1E FCE# PFCR2 PF10MD[2:0] = B'101 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# FRB PFCR2 PF9MD[2:0] = B'101 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB
Table 4.2.15 SH7267 Multiplex Pin Functions (SDHI) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name SDHI SD_CD PFCR2 PF8MD[2:0] = B'110 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD SD_WP PFCR1 PF7MD[2:0] = B'110 PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/SD_WP SD_D1 PFCR1 PF6MD[2:0] = B'110 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/TCLKB/SD_D1 SD_D0 PFCR1 PF5MD[2:0] = B'110 PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/TCLKC/SD_D0/ AUDATA3 SD_CLK PFCR1 PF4MD[2:0] = B'110 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/TxD3/SD_CLK/ AUDATA2 SD_CMD PFCR0 PF3MD[2:0] = B'110 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/SD_CMD/ AUDATA1 SD_D3 PFCR0 PF2MD[2:0] = B'110 PF2/BACK#/DV_DATA2/TxD2/DACK0/SD_D3/AUDATA0 SD_D2 PFCR0 PF1MD[2:0] = B'110 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/SD_D2/AUDSYNC#
REJ11J0042-0100 Rev.1.00 4-11 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G02
Table 4.2.16 SH7267 Multiplex Pin Functions (MTU2) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name MTU2 TIOC4D PCCR2 PC8MD[1:0] = B'10 PC8/CS3#/TIOC4D/IRQ7 TIOC4C PCCR1 PC7MD[1:0] = B'10 PC7/CKE/TIOC4C/IRQ6 TIOC4B PCCR1 PC6MD[1:0] = B'10 PC6/CAS#/TIOC4B/IRQ5 TIOC4A PCCR1 PC5MD[1:0] = B'10 PC5/RAS#/TIOC4A/IRQ4 TIOC0B PGCR5 PG22MD[1:0] = B'10 PG22/SSL10/TIOC0B TIOC0A PGCR5 PG21MD[1:0] = B'10 PG21/RSPCK1/TIOC0A
Table 4.2.17 SH7267 Multiplex Pin Functions (SSIF) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name SSIF SSIDATA3 PFCR2 PF11MD[2:0] = B'010 PF11/A25/SSIDATA3/MOSI0/TIOC3C/SPDIF_IN SSIWS3 PFCR2 PF10MD[2:0] = B'010 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# SSISCK3 PFCR2 PF9MD[2:0] = B'010 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB
Table 4.2.18 SH7267 Multiplex Pin Functions (ADC) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name ADC AN3 PHCR0 PH3MD0 = B'1 PH3/AN3 AN2 PHCR0 PH2MD0 = B'1 PH2/AN2 AN1 PHCR0 PH1MD0 = B'1 PH1/AN1 AN0 PHCR0 PH0MD0 = B'1 PH0/AN0
REJ11J0042-0100 Rev.1.00 4-12 Nov.18.2010
M3A-HS64G02 Functions 4 4.2.4 SH7267 Multiplex Pins Used on the M3A-HS64G02
Table 4.2.19 SH7267 Multiplex Pin Functions (VDC3) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name VDC3 DV_CLK PFCR2 PF8MD[2:0] = B'011 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD DV_DATA7 PFCR1 PF7MD[2:0] = B'011 PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/SD_WP DV_DATA6 PFCR1 PF6MD[2:0] = B'011 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/TCLKB/SD_D1 DV_DATA5 PFCR1 PF5MD[2:0] = B'011 PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/TCLKC/SD_D0/ AUDATA3 DV_DATA4 PFCR1 PF4MD[2:0] = B'011 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/TxD3/SD_CLK/ AUDATA2 DV_DATA3 PFCR0 PF3MD[2:0] = B'011 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/SD_CMD/ AUDATA1 DV_DATA2 PFCR0 PF2MD[2:0] = B'011 PF2/BACK#/DV_DATA2/TxD2/DACK0/SD_D3/AUDATA0 DV_DATA1 PFCR0 PF1MD[2:0] = B'011 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/SD_D2/AUDSYNC# DV_DATA0 PFCR0 PF0MD[2:0] = B'011 PF0/WAIT#/DV_DATA0/SCK2/TEND0/AUDCK DV_HSYNC PECR1 PE5MD[1:0] = B'11 PE5/SDA2/DV_HSYNC DV_VSYNC PECR1 PE4MD[1:0] = B'11 PE4/SCL2/DV_VSYNC LCD_EXTCLK PGCR5 PG20MD[2:0] = B'001 PG20/LCD_EXTCLK/SCK1 LCD_CLK PGCR4 PG19MD[2:0] = B'001 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 LCD_DE PGCR4 PG18MD[2:0] = B'001 PG18/LCD_DE/TIOC2A/RxD3/RTS1 LCD_HSYNC PGCR4 PG17MD[2:0] = B'001 PG17/LCD_HSYNC/TIOC1B/TxD1 LCD_VSYNC PGCR4 PG16MD[2:0] = B'001 PG16/LCD_VSYNC/TIOC1A/RxD1 LCD_DATA15 PGCR3 PG15MD[2:0] = B'001 PG15/LCD_DATA15/TIOC0D/TxD7 LCD_DATA14 PGCR3 PG14MD[2:0] = B'001 PG14/LCD_DATA14/TIOC0C/RxD7 LCD_DATA13 PGCR3 PG13MD[2:0] = B'001 PG13/LCD_DATA13/TIOC0B/TxD6 LCD_DATA12 PGCR3 PG12MD[2:0] = B'001 PG12/LCD_DATA12/TIOC0A/RxD6 LCD_DATA11 PGCR2 PG11MD[2:0] = B'001 PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/SIOFTxD LCD_DATA10 PGCR2 PG10MD[2:0] = B'001 PG10/LCD_DATA10/SSISCK0/IRQ2/RxD5/SIOFRxD LCD_DATA9 PGCR2 PG9MD[2:0] = B'001 PG9/LCD_DATA9/SSIRxD0/TxD4/SIOFSYNC LCD_DATA8 PGCR2 PG8MD[2:0] = B'001 PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK LCD_DATA7 PGCR1 PG7MD[2:0] = B'001 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 LCD_DATA6 PGCR1 PG6MD[2:0] = B'001 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 LCD_DATA5 PGCR1 PG5MD[2:0] = B'001 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 LCD_DATA4 PGCR1 PG4MD[2:0] = B'001 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 LCD_DATA3 PGCR0 PG3MD[1:0] = B'01 PG3/LCD_DATA3/SD_CLK/PINT3 LCD_DATA2 PGCR0 PG2MD[1:0] = B'01 PG2/LCD_DATA2/SD_CMD/PINT2 LCD_DATA1 PGCR0 PG1MD[1:0] = B'01 PG1/LCD_DATA1/SD_D3/PINT1 LCD_DATA0 PGCR0 PG0MD[1:0] = B'01 PG0/LCD_DATA0/SD_D2/PINT0 LCD_M_DISP PJCR0 PJ2MD[2:0] = B'101 PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/LCD_M_DISP
Table 4.2.20 SH7267 Multiplex Pin Functions (PWM) Peripheral SH7267 Port Control Register SH7267 Pin Name Function Register Name MD bit Setting Multiplex Pin Name PORT PG24 PGCR6 PG24MD[1:0] = B'00 PG24/MISO1/TIOC0D PG23 PGCR5 PG23MD[1:0] = B'00 PG23/MOSI1/TIOC0C PF12 PFCR3 PF12MD[2:0] = B'000 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT PB22 PBCR5 PB22MD[2:0] = B'000 PB22/A22/CS4#/RxD4
REJ11J0042-0100 Rev.1.00 4-13 Nov.18.2010
M3A-HS64G02 Functions 4 4.3 LCD Module Interface
4.3 LCD Module Interface
4.3.1 LCD Module Interface
The M3A-HS64G02 includes two flexible connectors and one MIL-spec connector for connecting LCD modules. The SH7267 on-chip VDC3 controls the LCD modules. The following figure shows the LCD module interface block diagram.
Flexible connector for SH7267 TX09D14VM3CAA Expansion connector 3.3 V
PG15 to PG0/ 16-bit R5 to R0, G5 to G0, VDD1 5V LCD_DATA15 to LCD_DATA0 B5 to B0
CLK PG20/LCD_EXTCLK PG19/LCD_CLK DCLK (6.67 MHz) VDD2 5.33 MHz 3.3 V 3.3 V Socket PG18/LCD_DE DTMG (Data Enable Signal) 3.3 V 3.3 V PG16/LCD_VSYNC NC VREV
PG17/LCD_HSYNC NC HREV 3.3 V PJ2/LCD_M_DISP/CTx1 NC
PG21/RSPCK1/TIOC0A DIM (Dimming Control Signal)
NC TMZ (Thermistor Output)
Note: Pin names in red indicate the Flexible connector for function used. TX09D55VM1CDA 3.3 V
R5 to R0, G5 to G0, VDD B5 to B0
DCLK (5.33 MHz)
DTMG (Display Timing Signal)
NC
HSYNC
3.3 V NC
1 kΩ Vctrl (Backlight Control Signal)
PCI (Power Control Signal)
MIL-spec connector
3.3 V LCD_DATA15 to LCD_DATA0 3.3 V
LCD_CLK VDD3 5V
LCD_DE VDD5
LCD_VSYNC GND
LCD_HSYNC
LCD_M_DISP (Jumper-less)
PWM
Figure 4.3.1 LCD Module Interface Block Diagram
REJ11J0042-0100 Rev.1.00 4-14 Nov.18.2010
M3A-HS64G02 Functions 4 4.3.2 Character LCD Module with LED Backlight
4.3.2 Character LCD Module with LED Backlight
The M3A-HS64G02 includes a connector for 16 x 2 semi-transmissive character LCD module (SD1602H, SUNLIKE). The SH7267 general-purpose port output controls the character LCD module. The M3A-HS64G02 is intended only for writing from the SH7267 to the character LCD modules. Therefore, the character LCD module R/W signal is fixed low. The M3A-HS64G02 also includes a variable resister (VR1) for the LCD driver voltage adjustment to control the LCD contrast and a variable resister (VR2) for LCD backlight adjustment. SH7267 PF1 to PF8 pins are also used as the video display controller 3 (VDC3) and SDHI pins. When using the character LCD module, VDC3 and SDHI cannot be used. The figure below shows the character LCD module block diagram Table 4.3.1 the system-setting DIP switches setting (SW6-6 on the R0K572670C000BR). Table 4.3.2 lists the jumper setting (JP3 on the M3A-HS64G02).
8-bit SDHI Expansion connector 8-bit 8-bit PWM interface Video signal input module SH7267 Vin# or SD LCD or SD Character LCD 5 V S1A S1A DB0 D1 D1 PF1/DV_DATA1/SD_D2 S1B S1B DB0 DB0 Vo VR1 S2A S2A DB1 D2 D2 PF2/DV_DATA2/SD_D3 S2B S2B DB1 DB1 S3A S3A DB2 D3 D3 5 V PF3/DV_DATA3/SD_CMD S3B S3B DB2 DB2 S4A S4A DB3 D4 D4 A VR2 PF4/DV_DATA4/SD_CLK S4B S4B DB3 DB3 K MUX MUX DB4 EN# IN EN# IN DB4
DB5 DB5 Vin# or SD LCD or SD DB6 DB6 S1A S1A DB4 D1 D1 PF5/DV_DATA5/SD_D0 S1B S1B DB7 DB7 S2A S2A DB5 D2 D2 PF6/DV_DATA6/SD_D1 S2B S2B S3A S3A DB6 D3 D3 PF7/DV_DATA7/SD_WP S3B S3B S4A S4A DB7 D4 D4 PF8/DV_CLK/SD_CD S4B S4B MUX MUX 3.3 V EN# IN EN# IN
R/W#
PG23/TIOC0C RS 3.3 V 3.3 V PC24/TIOC0D E JP3 3 DIP 2 1 SW6-6 Note: Pin names in red indicate the function used.
Figure 4.3.2 Character LCD Module Block Diagram
Table 4.3.1 DIP Switches Setting (SW6 on the R0K572670C000BR) Number Function OFF (High) ON (Low) SW6-6 Connected to the SDHI/character LCD interface Connected to the VDC3 (default)
Table 4.3.2 Jumper Setting (JP3 on the M3A-HS64G02) Number 1-2 (Low) 2-3 (High) JP3 Connected to the character LCD interface Connected to the SDHI (default)
REJ11J0042-0100 Rev.1.00 4-15 Nov.18.2010
M3A-HS64G02 Functions 4 4.4 Audio Module
4.4 Audio Module
The M3A-HS64G02 includes a 96 kHz 24-bit D/A converter with DIT (AK4353, Asahi Kasei EMD Corporation).
¾ AK4353, D/A Converter SH7267 IIC3, SSIF, and I/O ports control AK4353.
• SH7267 IIC3 (Channel 1): Accesses the AK4353 registers to initialize AK4353, format data, and configure the attenuator • SH7267 SSIF (Channel 3): Outputs the audio data • SH7267 I/O ports (PF12): Powers down AK4353 at low, powers up AK4353 at high
Note: The R0K572670C000BR allows for selecting 12.2880 MHz or 11.2896 MHz as the AK4353 system clock.
The figure below shows the D/A converter block diagram. Table 4.4.1 lists the system-setting DIP switches setting (SW5 on the R0K572670C000BR). Table 4.4.2 lists the jumper setting (JP9 on the R0K572670C000BR). Table 4.4.3 lists the jumpers setting (JP1 to JP3 on the M3A-HS64G02).
2-bit 4-bit NAND flash memory Serial flash memory
Expansion connector 3.3 V SH7267 NAND or RSPI RSPI or SSIF PWM or SSIF D/A converter (AK4353)
S1A S1A S1A 3.3 V D1 D1 D1 PF9/SSISCK3/RSPCK0/FRB S1B S1B S1B BICK TX IN S2A S2A S2A D2 D2 D2 Optical connector PF10/SSIWS3/SSL00/FCE# S2B S2B S2B LRCK VCOM S3A S3A S3A 3.3 V + D3 PF11 D3 D3 0.1 µF 10 µF PF11/SSIDATA3/MOSI0 PF11 S3B S3B S3B PDN# S4A S4A S4A 3.3 V D4 PF12 D4 D4 10 µF PF12/MISO0 PF12 S4B S4B S4B SDTI AOUTL + 220 Ω MUX MUX MUX EN# IN EN# IN EN# IN I2C 27 kΩ CSN 10 µF CAD0 AOUTR + Chip address: 01 3.3 V CAD1 220 Ω
27 kΩ 11.2896 MHz JP9 3.3 V JP1 1 1 CLK 2 AUDIO_X1 PE2/SCL1/IRQ2 SCL/CCLK CLK 2 3 3.3 V JP2 12.2880 MHz 3 1 (Socket) NC AUDIO_X2 PE3/SDA1/IRQ3 SDA/CDTI 2 R40 R43 JP3 3 3 3.3 V 3.3 V 2 2-bit 1 8-bit EEPROM IIC pin: (address:000) PWM interface 2-bit DIP DIP IRQ input SW5-5 SW5-6 Note: Pin names in red indicate the function used.
Figure 4.4.1 D/A Converter Block Diagram
Table 4.4.1 DIP Switches Setting (SW5-5, and SW5-6 on the R0K572670C000BR) Number Function OFF (High) ON (Low)
SW5-5 Connected to the NAND flash memory Connected to the device which is connected to RSPI/ SSIF (default) SW5-6 Connected to the serial flash memory Connected to the audio module (default)
REJ11J0042-0100 Rev.1.00 4-16 Nov.18.2010
M3A-HS64G02 Functions 4 4.4 Audio Module
Table 4.4.2 Jumper Setting (JP9 on the R0K572670C000BR) Number 1-2 2-3 JP9 Provides 11.2896 MHz with the AUDIO_X1 pin Provides 12.2880 MHz with the AUDIO_X1 pin (default)
Table 4.4.3 Jumpers Setting (JP1 to JP3 on the M3A-HS64G02) Number 1-2 2-3 JP1 IIC3 mode (Sets the PE2 as the SCL1 output pin) IRQ mode (Sets the PE2 as the IRQ2 input pin, default) JP2 IIC3 mode (Sets the PE3 as the SDA1 I/O pin) IRQ mode (Sets the PE3 as the IRQ3 input pin, default) JP3 Connected to the PWM interface (Low, default) Connected to the SSIF (High) Note: This setting cannot be used with the R0K572670C000BR.
REJ11J0042-0100 Rev.1.00 4-17 Nov.18.2010
M3A-HS64G02 Functions 4 4.5 Video Signal Input Module
4.5 Video Signal Input Module
The M3A-HS64G02 includes a video decoder IC (AK8851, Asahi Kasei EMD Corporation). The M3A-HS64G02 also includes an RCA connector and an S-Video connector for NTSC and PAL video signal input as video signal input to input the digital signals to the SH7267 VDC3 module via the video decoder IC. The VDC3 pin is also used as the SDHI pins. The SH7267 on-chip IIC3 controls the video decoder. The following figure shows the video signal input module block diagram. Table 4.5.1 lists the system-setting DIP switches setting (SW6 on the R0K572670C000BR).
Expansion connector
3.3 V Video decoder (AK8851) SDHI SH7267
3.3 V CIN CLK27MO CLK PF8 PF8/DV_CLK 3.3 V VSYNC PE4/DV_VSYNC
YIN HSYNC PE5/DV_HSYNC
7-bit PF7 to PF1/ D7-D1 D[7:1] PF[7:1] DV_DATA7 to DV_DATA1
D0 PF0/DV_DATA0 3.3 V
CLK CLKIN Slave address: 0x88 SELA 24.576 MHz 3.3 V SCL PE0/SCL0/IRQ0
SDA PE1/SDA0/IRQ1/TCLKA
RESET# RES# Vin# or SD Note: Pin names in red indicate the D1 S1A 2-bit D1 PF1 function used. External IIC device (IIC address:1) S1B D2 S2A D2 PF2 S2B D3 S3A D3 PF3 S3B D4 S4A D4 PF4 S4B 3.3 V MUX IN EN#
DIP Vin# or SD SW6-6 D5 S1A D1 PF5 S1B D6 S2A D2 PF6 S2B D7 S3A D3 PF7 S3B CLK S4A D4 PF8 S4B MUX IN EN#
Figure 4.5.1 Video Signal Input Module Block Diagram
Table 4.5.1 DIP Switches Setting (SW6-6 on the R0K572670C000BR) Number Function OFF (High) ON (Low) SW6-6 Connected to the SDHI/character LCD interface Connected to the VDC3 (default)
REJ11J0042-0100 Rev.1.00 4-18 Nov.18.2010
M3A-HS64G02 Functions 4 4.6 SD Card Interface
4.6 SD Card Interface
The M3A-HS64G02 includes an SD card slot to interface the SH7267 built-in SD Host Interface (SDHI) with the SD card slot. The SDHI pin is also used as the Video Display Controller 3 (VDC3) and the character LCD module pins. When using the SDHI, the video signal input module and the character LCD module cannot be used. The figure below shows the SD card interface block diagram. Table 4.6.1 lists the system-setting DIP switches setting (SW6-6 on the R0K572670C000BR). Table 4.6.2 lists the jumper setting (JP3 on the M3A-HS64G02).
Figure 4.6.1 SD Card Interface Block Diagram
Table 4.6.1 DIP Switches Setting (SW6-6 on the R0K572670C000BR) Number Function OFF (High) ON (Low) SW6-6 Connected to the SDHI/character LCD interface VDC3 (default)
Table 4.6.2 Jumper Setting (JP3 on the M3A-HS64G02) Number 1-2 (Low) 2-3 (High) JP3 Connected to the PWM interface (default) Connected to the SDHI Note: This setting cannot be used with the R0K572670C000BR.
REJ11J0042-0100 Rev.1.00 4-19 Nov.18.2010
M3A-HS64G02 Functions 4 4.7 UART Interface
4.7 UART Interface
The SH7267 has a Serial Communication Interface with FIFO (SCIF) and the M3A-HS64G02 includes a UART connector. This module cannot be used with the R0K572670C000BR.
REJ11J0042-0100 Rev.1.00 4-20 Nov.18.2010
M3A-HS64G02 Functions 4 4.8 CAN Interface
4.8 CAN Interface
The SH7267 includes an RCAN-TL1 (Renesas CAN Time Trigger Level 1), the Controller Area Network. RCAN-TL1 channels 0 and 1 are connected to the CAN connector (3-pin, 2.5 mm pitch) on the M3A-HS64G02 via the voltage level shifter and the CAN driver IC. The RCAN-TL1 channel 0 pin is also used as the SCIF channel 0 pin, and the IEBusTM controller (IEB) pin. The figure below shows the CAN interface block diagram. Table 4.8.1 lists the jumpers setting (JP4, JP5, and JP8 on the R0K572670C000BR). Table 4.8.2 and Table 4.8.3 list jumpers setting (JP4, JP5, JP8, and JP9 on the M3A-HS64G02).
2-bit 2-bit RS-232C interface IEBusTM interface
Expansion connector 3.3 V 3 V to 5 V CAN driver CAN connector SH7267 Level shifter JP5 HA13721 B3B-XH JP4 1 1 CTx0 A0 B0 2 2 3 TxD CANH CANH PJ0/CTx0/IETxD/TxD0 3 CTx0 CTx1 A1 B1 RxD CANL CANL 1 JP4 2 3.3 V PJ1/CRx0/IERxD/RxD0 3 CRx0 JP6 JP7 5 V JP5 DIR G# PJ2/LCD_M_DISP/CTx1 CTx1 → VccA VccB 1 2 IRQ switch PJ3/CRx1/IRQ1 3 CRx1
JP8 5 V 5 V to 3 V CAN driver CAN connector Note: Pin names in red indicate the Level shifter JP9 HA13721 B3B-XH function used. 1 JP10 JP11 CRx0 A0 B0 2 3 TxD CANH CANH CRx1 A1 B1 RxD CANL CANL JP8
3.3 V 5 V DIR ← G# VccA VccB
Figure 4.8.1 CAN Interface Block Diagram
Table 4.8.1 Jumpers Setting (JP4, JP5, and JP8 on the R0K572670C000BR) Number 1-2 2-3 JP4 Selects the TxD0 (SCIF) pin - default Selects the CTx0 (RCAN-TL1) / IETxD (IEB) pins JP5 Selects the RxD0 (SCIF) pin - default Selects the CRx0 (RCAN-TL1) / IERxD (IEB) pins JP8 Selects the IRQ1 switch - default Selects the CRx1 (RCAN-TL1) pin
Table 4.8.2 Jumpers Setting (JP5, and JP9 on the M3A-HS64G02) Number 1-2 2-3 JP5 Selects the IETxD (IEB) pin Selects the CTx0 (RCAN-TL1) pin - default JP9 Selects the IERxD (IEB) pin Selects the CRx0 (RCAN-TL1) pin - default
Table 4.8.3 Jumpers Setting (JP4, and JP8 on the M3A-HS64G02) Number 1-2 None (Open) JP4 Normal mode (Connects the CTx1 pin) - default Debug mode (Leaves the CTx1 pin disconnected) JP8 Normal mode (Connects the CRx1 pin) - default Debug mode (Leaves the CRx1 pin disconnected)
REJ11J0042-0100 Rev.1.00 4-21 Nov.18.2010
M3A-HS64G02 Functions 4 4.9 IEBusTM Interface
4.9 IEBusTM Interface
The SH7267 includes an IEBusTM controller (IEB). IEBusTM (Inter Equipment BusTM) is the bus for digital data transfer system on a small scale. The SH7267 IEB pin is connected to the IEBus connector (4-pin, 2.5 mm) via the voltage level shifter and the IEBusTM driver IC on the M3A-HS64G02. The IEB pin is also used as the SCIF channel 0 pin and the RCAN-TL1 channel 0 pin. The figure below shows the IEBusTM interface block diagram. Table 4.9.1 lists the jumpers setting (JP4, and JP5 on the R0K572670C000BR). Table 4.9.2 lists the jumpers setting (JP5, and JP9 on the M3A-HS64G02).
2-bit 4-bit RS-232C interface CAN interface
Expansion connector 3.3 V TM TM 3 V to 5 V IEBus driver IEBus connector HA12187 B4B-XH SH7267 Level shifter 5 V JP5 JP4 1 S1 BUS- BUS- 1 IETxD A0 B0 2 2 3 PJ0/CTx0/IETxD/TxD0 3 IETxD Rout BUS+ BUS+ CTx1 A1 B1 1 2 3.3 V PJ1/CRx0/IERxD/RxD0 3 IERxD 5 V JP5 DIR G# PJ2/LCD_M_DISP/CTx1 CTx1 → VccA VccB 1 2 IRQ switch PJ3/CRx1/IRQ1 3 CRx1
JP8 5 V 5 V to 3 V Note: Pin names in red indicate the Level shifter JP9 function used. 1 IERxD 2 A0 B0 3 CRx1 A1 B1
3.3 V 5 V DIR ← G# VccA VccB
Figure 4.9.1 IEBusTM Interface Block Diagram
Table 4.9.1 Jumpers Setting (JP4, and JP5 on the R0K572670C000BR) Number 1-2 2-3 JP4 Selects the TxD0 (SCIF) pin - default Selects the CTx0 (RCAN-TL1) / IETxD (IEB) pins JP5 Selects the RxD0 (SCIF) pin - default Selects the CRx0 (RCAN-TL1) / IERxD (IEB) pins
Table 4.9.2 Jumpers Setting (JP5, and JP9 on the M3A-HS64G02) Number 1-2 2-3 JP5 Selects the IETxD (IEB) pin Selects the CTx0 (RCAN-TL1) pin - default JP9 Selects the IERxD (IEB) pin Selects the CRx0 (RCAN-TL1) pin - default
REJ11J0042-0100 Rev.1.00 4-22 Nov.18.2010
M3A-HS64G02 Functions 4 4.10 PWM Interface
4.10 PWM Interface
The SH7267 includes two channels of on-chip Motor Control Pulse Width Modulator (PWM) timer with a maximum of eight pulse outputs per channel. This module cannot be used with the R0K572670C000BR.
REJ11J0042-0100 Rev.1.00 4-23 Nov.18.2010
M3A-HS64G02 Functions 4 4.11 MTU2 Interface
4.11 MTU2 Interface
The SH7267 includes a Multi Function Timer Pulse Unit 2 (MTU2) consists of five channels of 16-bit timer counter. LEDs are connected to MTU2 pins to control LED brightness on the M3A-HS64G02. MTU2 pins are also used as SDRAM control pins and RSPI (Renesas Peripheral Interface) channel 0 pin. The figure below shows the MTU2 interface block diagram. Table 4.11.1 lists the DIP switches setting (SW5 on the R0K572670C000BR).
SH7267 Expansion connector 20-pin MIL-spec connector 0A 3C 0B 0C 0D 3D
3C 3D
4A 3.3 V 4B 4C 4D
SDRAM 4-bit SDRAM or MTU2 3.3 V S1A 4A PC5/RAS#/TIOC4A D1 S1B S2A 4B PC6/CAS#/TIOC4B D2 S2B S3A 4C 0A PC7/CKE/TIOC4C D3 0B S3B S4A 4D PC8/CS3#/TIOC4D D4 S4B 3.3 V MUX 3.3 V EN# IN
DIP SW5-4 0C PG21/RSPCK1/TIOC0A 0A 0D 5 V PG22/SSL10/TIOC0B 0B
PG23/MOSI1/TIOC0C 0C
PG24/MISO1/TIOC0D 0D
1A 3C 3D
1B 3.3 V
2A
2B
4A 4B 4C Note: Pin names in red indicate the function used. 4D
Figure 4.11.1 MTU2 Interface Block Diagram
Table 4.11.1 DIP Switches Setting (SW5 on the R0K572670C000BR)
Number Function OFF (High) ON (Low)
SW5-4 Connected to the SDRAM (default) Connected to the MTU2 interface
REJ11J0042-0100 Rev.1.00 4-24 Nov.18.2010
M3A-HS64G02 Functions 4 4.12 I/O Ports
4.12 I/O Ports
SH7267 I/O ports are connected to switches and LEDs on the M3A-HS64G02. To use ports PH0 to PH3 as key input switches (4 switches x 4 inputs) via an A/D converter (ADC), sets the ports as analog input pins (AN0 to AN3). Port A can be used as a user interface by setting PB22 pin to high output. The figure below shows the I/O ports block diagram. Table 4.12.1 lists the jumper setting (JP6 on the R0K572670C000BR). Table 4.12.2 lists the port A function switching.
3.3 V 3.3 V 3.3 V Expansion connector JP6 AVcc SH7267 MUX AVcc 1.5 kΩ 1.5 kΩ S1A CK0 4.7 kΩ D1 AN0 AN0 PH0/AN0 PA0/MD_CLK0 S1B BT0 S2A 3.3 V D2 14 kΩ 4.7 kΩ 1.58 kΩ 0 Ω PA1/MD_BOOT0 S2B User DIP switches BT1 S3A 3.3 V (SW6) AVcc D3 PA2/MD_BOOT1 S3B 5 S4A AN1 AVcc PH1/AN1 D4 S4B 6 MUX 3.3 V System setting DIP switches 4.7 kΩ AN1 EN# IN AVcc 3.3 V (SW5) CK0 1 AN2 14 kΩ 4.7 kΩ 1.58 kΩ 0 Ω PH2/AN2 3.3 V PB22/A22 BT0 2
BT1 3 AVcc AVcc
AN3 PH3/AN3 NOR flash memory 4.7 kΩ AN2
14 kΩ 4.7 kΩ 1.58 kΩ 0 Ω Note: Pin names in red indicate the function used.
AVcc
4.7 kΩ AN3
3.3 V x 14.0 KR / (14.0 KR + 4.7 KR) = 2.47 V 14 kΩ 4.7 kΩ 1.58 kΩ 0 Ω 3.3 V x 4.70 KR / (4.70 KR + 4.7 KR) = 1.65 V 3.3 V x 1.58 KR / (1.58 KR + 4.7 KR) = 0.83 V 3.3 V x 0.00 KR / (0.00 KR + 4.7K R) = 0 V
Figure 4.12.1 I/O Ports Block Diagram
Table 4.12.1 Jumper Setting (JP6 on the R0K572670C000BR) Number 1-2 None (Open) (1) JP6 Uses PH [3:0] as an input port (default) Uses PH [3:0] as an analog input pin Note 1: When using the PH [3:0] as the input port, mount R11 to R14.
Table 4.12.2 Port A Function Switching Number High output Low output PB22 Uses Port A as a user interface Mode sampling (At power-up)
REJ11J0042-0100 Rev.1.00 4-25 Nov.18.2010
M3A-HS64G02 Functions 4 4.13 Interrupt Switches
4.13 Interrupt Switches
The M3A-HS64G02 includes two push-button switches (IRQ2 switch and IRQ3 switch) for the IRQ2, and IRQ3 interrupt signals input from the SH7267. Set jumpers JP1, and JP2 on the M3A-HS64G02 to use these switches. Also, remove resistors R40 and R43 to avoid failure on EEPROM installed on the R0K572670C000BR. The figure below shows the interrupt switch block diagram. Table 4.13.1 lists the jumpers setting (JP1, and JP2 on the M3A-HS64G02).
Expansion connector 3.3 V 3.3 V SH7267
SW1 JP1 IRQ2 switch 3 PE2/SCL1/IRQ2 + 2 1
3.3 V 3.3 V
SW2 JP2 IRQ3 switch 3 PE3/SDA1/IRQ3 + 2 1
EEPROM 2-bit D/A converter IIC pin R40 SCL
SDA R43
Note: Pin names in red indicates the function used.
Figure 4.13.1 Interrupt Switch Block Diagram
Table 4.13.1 Jumpers Setting (JP1, and JP2 on the M3A-HS64G02) Number 1-2 2-3 JP1 IIC3 mode (Sets the PE2 as the SCL1 output pin) IRQ mode (Sets the PE2 as the IRQ2 input pin, default) JP2 IIC3 mode (Sets the PE3 as the SDA1 I/O pins) IRQ mode (Sets the PE3 as the IRQ3 input pin, default)
REJ11J0042-0100 Rev.1.00 4-26 Nov.18.2010
M3A-HS64G02 Functions 4 4.14 Clock Modules
4.14 Clock Modules
Provide following clocks with the SH7267 on the R0K572670C000BR.
• SH7267 input clock: 12 MHz • SH7267 RTC clock: 32.768 kHz • SH7267 audio clock: 12.2880 MHz, and 11.2896 MHz (default) • SH7267 USB clock: 48.00 MHz • SH7267 LCD clock : 5.33 MHz
¾ How to select the system clock frequency of AK4353 (D/A converter) SH7267 audio clock provides either 12.2880 MHz or 11.2896 MHz of the clock frequency with AK4353 by switching jumpers. The figure below shows the clock module block diagram of the R0K572670C000BR and M3A-HS64G02. Table 4.14.1 lists the audio clock switching (JP9 on the R0K572670C000BR).
Clock buffer D/A converter CK1 Expansion connector CLK1 MCKI Clock buffer CLK2 AUDIO_XTAL REF CLK3 11.2896 MHz JP9 CLK1 SH7267 CLK4 1 CLK2 CLKOUT CLK 2 3 REF CLK3 CLK CLK4 12.2880 MHz CLKOUT AUDIO_X1 (Socket) NC AUDIO_X2
3.3V
MD_CLK0 DIP SW5-1
RTC_X1 32.768 kHz RTC_X2 Video decoder
DV_CLK CLK27MO
CLK CLKIN Socket 24.576 MHz CLK SDRAM PLL CLK EXTAL CKIO CLK 12 MHz NC XTAL
CLK USB_X1 48 MHz USB_X2 48 MHz
LCD module Socket CLK LCD_EXTCLK LCD_CLK MCKI 5.33 MHz
Figure 4.14.1 Clock Module Block Diagram
Table 4.14.1 Audio Clock Switching (JP9 on the R0K572670C000BR) Number 1-2 2-3 JP9 Provides 11.2896 MHz with the AUDIO_X1 pin (default) Provides 12.2880 MHz with the AUDIO_X1 pin
REJ11J0042-0100 Rev.1.00 4-27 Nov.18.2010
M3A-HS64G02 Functions 4 4.15 Reset Module
4.15 Reset Module
A reset IC controls reset signals connected to the SH7267, flash memory and peripheral I/Os on the R0K572670C000BR and M3A-HS64G02. There are two system reset options: power-on reset, and reset by switch. The following figure shows the reset module block diagram.
Figure 4.15.1 Reset Module Block Diagram
REJ11J0042-0100 Rev.1.00 4-28 Nov.18.2010
M3A-HS64G02 Functions 4 4.16 Power Supply Module
4.16 Power Supply Module
The M3A-HS64G02 is supplied 12 V power and the voltage regulator on the M3A-HS64G02 generates 8 V, a nd 5 V voltage. 5 V voltage is supplied to the R0K572670C000BR, and the voltage regulator on the R0K572670C000BR generates digital voltage (3.3 V, 3VCC) and analog voltage (3.3 V, AVcc). The figure below shows the power supply module block diagram.
Figure 4.16.1 Power Supply Module Block Diagram
REJ11J0042-0100 Rev.1.00 4-29 Nov.18.2010
M3A-HS64G02 Functions 4 4.16 Power Supply Module
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REJ11J0042-0100 Rev.1.00 4-30 Nov.18.2010
Chapter 5R0K572670C000BR Operating Specifications Chapter 5 R0K572670C000BR Operating Specifications
5-1 R0K572670C000BR Operating Specifications 5 5.1 R0K572670C000BR Connectors
5.1 R0K572670C000BR Connectors
Figure 5.1.1 and Figure 5.1.2 show the connector assignments for the R0K572670C000BR.
J4 J4 supply 5 V power connector J6 5V input AC AC 5V input J6 jack adapter
J10 RS-232C connector
J1 USB Series-A receptacle
J3 H-UDI port connector (36-pin) J7 H-UDI port connector (14-pin) CN5 connector Expansion CN2 connector Expansion
Figure 5.1.1 R0K572670C000BR Connectors (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 5-2 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1 R0K572670C000BR Connectors
CN6 CN4 Expansion connector Expansion connector
CN1 Expansion connector
CN8 Expansion connector
CN3 Expansion connector
CN7 CN9 Expansion connector Expansion connector
Figure 5.1.2 R0K572670C000BR Connectors (Top View of the Solder Side)
REJ11J0042-0100 Rev.1.00 5-3 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.1 USB Connectors (J1 and J2)
5.1.1 USB Connectors (J1 and J2)
The R0K572670C000BR includes a USB Series-A receptacle (J1). Remove the series-A receptacle to connect a USB mini-B receptacle (J2). Refer to Table 1.6.2 in Chapter 1 for the USB mini-B receptacle allowed on the R0K572670C000BR. The following figure shows the pin assignments for J1.
Figure 5.1.3 J1 Pin Assignments
The following figure shows the pin assignments for J2.
1 2 3 4 5
Top view of the component side
J2
Side view
Figure 5.1.4 J2 Pin Assignments
REJ11J0042-0100 Rev.1.00 5-4 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.1 USB Connectors (J1 and J2)
The following table lists the pin descriptions for J1.
Table 5.1.1 J1 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 VBUS 3 DP 2 DM 4 GND
The following table lists the pin descriptions for J2.
Table 5.1.2 J2 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 VBUS 4 ID (Connected to a test pin) 2 DM 5 GND 3 DP –
REJ11J0042-0100 Rev.1.00 5-5 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.2 H-UDI port connector (36-pin, J3)
5.1.2 H-UDI port connector (36-pin, J3)
The R0K572670C000BR includes a 36-pin H-UDI port connector (J3) to connect the board to an E10A-USB emulator. The following figure shows the pin assignments for J3.
35 1 Top view of the 36 2 component side
J3
Side view
Figure 5.1.5 J3 Pin Assignments
The following table lists the pin descriptions for J3.
Table 5.1.3 J3 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 AUDCK 19 TMS 2 GND 20 GND 3 AUDATA0 21 TRST# 4 GND 22 ASEMD# 5 AUDATA1 23 TDI 6 GND 24 GND 7 AUDATA2 25 TDO 8 GND 26 GND 9 AUDATA3 27 ASEBRKAK#/ASEBRK# 10 GND 28 GND 11 AUDSYNC# 29 3.3 V 12 GND 30 GND 13 NC 31 RESET# 14 GND 32 GND 15 NC 33 GND 16 GND 34 GND 17 TCK 35 NC 18 GND 36 GND
REJ11J0042-0100 Rev.1.00 5-6 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.3 5 V Power Supply Connector (J4)
5.1.3 5 V Power Supply Connector (J4)
The R0K572670C000BR includes a system power supply connector. The following figure shows the pin assignments for J4.
12
Top view of the component side
J4
12
Side view
Figure 5.1.6 J4 Pin Assignments
The following table lists the pin descriptions for J4.
Table 5.1.4 J4 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 2 GND
REJ11J0042-0100 Rev.1.00 5-7 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.4 5 V Input AC Adapter Jack (J6)
5.1.4 5 V Input AC Adapter Jack (J6)
The R0K572670C000BR includes an AC adapter jack (J6) for 5 V DC input. The following figure shows the pin assignments for J6.
Top view of the J6 component side
2 - +
3
1
Figure 5.1.7 J6 Pin Assignments
The following table lists the pin descriptions for J6.
Table 5.1.5 J6 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 3 GND 2 GND –
REJ11J0042-0100 Rev.1.00 5-8 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.5 H-UDI port connector (14-pin, J7)
5.1.5 H-UDI port connector (14-pin, J7)
The R0K572670C000BR includes a 14-pin H-UDI port connector (J7) to connect the board to an E10A-USB emulator. The following figure shows the pin assignments for J7.
Top view of the component side 814 J7 1 7
Figure 5.1.8 J7 Pin Assignments
The following table lists the pin descriptions for J7.
Table 5.1.6 J7 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 TCK 8 NC 2 TRST# 9 ASEMD# 3 TDO 10 GND 4 ASEBRKAK#/ASEBRK# 11 3.3 V 5 TMS 12 GND 6 TDI 13 GND 7 RESET# 14 GND
REJ11J0042-0100 Rev.1.00 5-9 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.6 RS-232C Connector (J10)
5.1.6 RS-232C Connector (J10)
The R0K572670C000BR includes an RS-232C connector (J10). The following figure shows the pin assignments for J10.
1 5 6 9 Top view of the Board edge component side
J10
1 5 6 9 Board edge Side view
Figure 5.1.9 J10 Pin Assignments
The following table lists the pin descriptions for J10.
Table 5.1.7 J10 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC 6 DSR# 2 RXD (PJ1/CRx0/IERxD/IRQ0/RxD0) 7 RTS# 3 TXD (PJ0/CTx0/IETxD/CS1#/TxD0/A0) 8 CTS# 4 DTR# 9 NC 5 GND – Pins 4 to 6 and 7 to 8 are loopback-connected.
REJ11J0042-0100 Rev.1.00 5-10 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
5.1.7 Expansion Connectors (CN1 to CN9)
The R0K572670C000BR includes through-holes for mounting expansion connectors (CN1 to CN9). Figure 5.1.10 and Figure 5.1.11show the pin assignments for expansion connectors. Table 5.1.8 to Table 5.1.16 lists the pin descriptions.
2 CN5 20 2 CN2 20
1 19 1 19
Figure 5.1.10 Expansion Connectors Pin Assignments (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 5-11 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
2 CN6 20 2 CN4 30
1 19 1 29 1 2 CN1 1 2 19 20 CN8 19 20 1 2 CN3 19 20 2 CN7 40 2 CN9 30
1 39 1 29
Figure 5.1.11 Expansion Connectors Pin Assignments (Top View of the Solder Side)
REJ11J0042-0100 Rev.1.00 5-12 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
Table 5.1.8 CN1 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC 11 GND 2 PH4/AN4 12 NC 3 5 V 13 NC 4 PH5/AN5 14 NC 5 NC 15 NC 6 3.3 V 16 GND PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/ 7 NC 17 WDTOVF# PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/ 8 PA2/MD_BOOT1 18 LCD_M_DISP 9 PA1/MD_BOOT0 19 PJ1/CRx0/IERxD/IRQ0/RxD0 10 PA0/MD_CLK1 20 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 5.1.9 CN2 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 11 PE2/SCL1/IRQ2 PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/ 2 GND 12 LCD_EXTCLK 3 NC 13 PE0/SCL0/AUDIO_CLK/IRQ0 4 NC 14 5 V 5 NC 15 NC 6 NC 16 NC 7 3.3 V 17 NC 8 PE5/SDA2/DV_HSYNC 18 NC 9 PE4/SCL2/DV_VSYNC 19 GND 10 PE3/SDA1/IRQ3 20 GND
Table 5.1.10 CN3 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 AVref 11 NC 2 AVref 12 NC 3 PH1/AN1 13 AVcc 4 PH0/AN0 14 AVcc 5 AVref 15 NC 6 AVref 16 NC 7 PH3/AN3 17 AVss 8 PH2/AN2 18 AVss 9 AVcc 19 AVss 10 AVcc 20 AVss
REJ11J0042-0100 Rev.1.00 5-13 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
Table 5.1.11 Pin Descriptions (CN4) Pin Number Signal Name Pin Number Signal Name 1 PB1/A1/LCD_HSYNC 16 GND 2 PB2/A2/LCD_VSYNC 17 PB13/A13/TIOC3B/LCD_DATA5 3 PB3/A3/LCD_DATA15 18 PB14/A14/TIOC3C/LCD_DATA4 4 PB4/A4/TIOC0A/LCD_DATA14 19 PB15/A15/TIOC3D/LCD_DATA3 5 PB5/A5/TIOC0B/LCD_DATA13 20 PB16/A16/TIOC4A/LCD_DATA2 6 PB6/A6/TIOC0C/LCD_DATA12 21 PB17/A17/TIOC4B/LCD_DATA1/SCK1 7 GND 22 PB18/A18/TIOC4C/LCD_DATA0/TxD1 8 GND 23 3.3 V 9 PB7/A7/TIOC0D/LCD_DATA11 24 3.3 V 10 PB8/A8/TIOC1A/LCD_DATA10 25 PB19/A19/TIOC4D/RxD1 11 PB9/A9/TIOC1B/LCD_DATA9 26 PB20/A20/SPDIF_IN/SCK4 12 PB10/A10/TIOC2A/LCD_DATA8 27 PB21/A21/SPDIF_OUT/TxD4 13 PB11/A11/TIOC2B/LCD_DATA7 28 PB22/A22/CS4#/RxD4 14 PB12/A12/TIOC3A/LCD_DATA6 29 5 V 15 GND 30 5 V
Table 5.1.12 CN5 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC 11 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 2 NC 12 SD_WP PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 3 NC 13 TCLKB/SD_D1 4 NC 14 GND PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 5 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT 15 TCLKC/SD_D0/AUDATA3 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ 6 5 V 16 TxD3/SD_CLK/AUDATA2 PF11/A25/SSIDATA3/MOSI0/TIOC3C/ PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ 7 17 SPDIF_IN SD_CMD/AUDATA1 PF2/BACK#/DV_DATA2/TxD2/DACK0/ 8 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# 18 SD_D3/AUDATA0 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 9 GND 19 SD_D2/AUDSYNC# PF0/WAIT#/DV_DATA0/SCK2/TEND0/ 10 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB 20 AUDCK
REJ11J0042-0100 Rev.1.00 5-14 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
Table 5.1.13 CN6 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 11 3.3 V 2 5 V 12 PG23/MOSI1/TIOC0C 3 5 V 13 PG24/MISO1/TIOC0D 4 5 V 14 PC5/RAS#/TIOC4A/IRQ4 5 PC0/CS0#/SSIWS0 15 PC6/CAS#/TIOC4B/IRQ5 6 PC0/CS0#/SSIWS0 16 PC7/CKE/TIOC4C/IRQ6 7 PC2/RD/WR#/SSIRxD0 17 PC8/CS3#/TIOC4D/IRQ6 8 PC2/RD/WR#/SSIRxD0 18 GND 9 PC4/WE1#/DQMU/WE# 19 GND 10 3.3 V 20 CKIO
REJ11J0042-0100 Rev.1.00 5-15 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
Table 5.1.14 CN7 Pin Descriptions Pin Number Signal Name Pin Number Signal Name PF2/BACK#/DV_DATA2/TxD2/DACK0/ 1 21 GND SD_D3/AUDATA0 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ 2 22 SD_D2/AUDSYNC# SD_CMD/AUDATA1 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 3 23 TxD3/SD_CLK/AUDATA2 TCLKC/SD_D0/AUDATA3 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ 4 24 SD_CMD/AUDATA1 TxD3/SD_CLK/AUDATA2 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 5 PE0/SCL0/AUDIO_CLK/IRQ0 25 TCLKB/SD_D1 6 RES# 26 GND 7 PE2/SCL1/IRQ2 27 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD PE1/SDA0/IOIS16#/IRQ1/TCLKA/ PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 8 28 ADTRG#/LCD_EXTCLK SD_WP 9 PE4/SCL2/DV_VSYNC 29 GND 10 PE3/SDA1/IRQ3 30 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 11 3.3 V 31 SPDIF_IN 12 PE5/SDA2/DV_HSYNC 32 PF0/WAIT#/DV_DATA0/SCK2/TEND0/AUDCK PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 13 33 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT TCLKB/SD_D1 PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 14 34 GND TCLKC/SD_D0/AUDATA3 15 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD 35 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 16 36 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB SD_WP PF0/WAIT#/DV_DATA0/SCK2/TEND0/ PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 17 37 AUDCK SPDIF_IN 18 5 V 38 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT PF2/BACK#/DV_DATA2/TxD2/DACK0/ 19 39 GND SD_D3/AUDATA0 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 20 40 AUDIO_XTAL SD_D2/AUDSYNC#
REJ11J0042-0100 Rev.1.00 5-16 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.1.7 Expansion Connectors (CN1 to CN9)
Table 5.1.15 CN8 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 PD0/D0/PWM1A 11 PD4/D4/FRE#/PWM1E 2 PD8/D8/NAF0/PWM2A 12 PD12/D12/NAF4/PWM2E 3 PD1/D1/PWM1B 13 PD5/D5/FCLE/PWM1F 4 PD9/D9/NAF1/PWM2B 14 PD13/D13/NAF5/PWM2F 5 GND 15 3.3 V 6 PD2/D2/PWM1C 16 PD6/D6/FALE/PWM1G 7 PD10/D10/NAF2/PWM2C 17 PD14/D14/NAF6/PWM2G 8 PD3/D3/PWM1D 18 PD7/D7/FWE#/PWM1H 9 PD11/D11/NAF3/PWM2D 19 PD15/D15/NAF7/PWM2H 10 GND 20 5 V
Table 5.1.16 CN9 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 PG1/LCD_DATA1/SD_D3/PINT1 16 PG12/LCD_DATA12/TIOC0A/RxD6 2 PG0/LCD_DATA0/SD_D2/PINT0 17 PG14/LCD_DATA14/TIOC0C/RxD7 3 PG3/LCD_DATA3/SD_CLK/PINT3 18 PG13/LCD_DATA13/TIOC0B/TxD6 4 PG2/LCD_DATA2/SD_CMD/PINT2 19 PG16/LCD_VSYNC/TIOC1A/RxD1 5 GND 20 PG15/LCD_DATA15/TIOC0D/TxD7 6 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 21 PG17/LCD_HSYNC/TIOC1B/TxD1 7 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 22 5 V 8 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 23 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 9 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 24 PG18/LCD_DE/TIOC2A/RxD3/RTS1 10 GND 25 3.3 V 11 PG9/LCD_DATA9/SSIRxD0/TxD4/SIOFSYNC 26 PG20/LCD_EXTCLK/SCK1 12 PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK 27 PG22/SSL1/TIOC0B PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/ 13 28 PG21/RSPCK1/TIOC0A SIOFTxD PG10/LCD_DATA10/SSISCK0/IRQ2/ PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 14 29 RxD5/SIOFRxD SD_D2/AUDSYNC# NC (This pin must be pulled up by a 10-kΩ 15 GND 30 resistor)
REJ11J0042-0100 Rev.1.00 5-17 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.2 R0K572670C000BR Operating Components
5.2 R0K572670C000BR Operating Components
The following figure shows the assignments of the R0K572670C000BR operating components.
Figure 5.2.1 R0K572670C000BR Operating Component Assignments
REJ11J0042-0100 Rev.1.00 5-18 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.2.1 Jumpers (JP1 to JP13)
5.2.1 Jumpers (JP1 to JP13)
The R0K572670C000BR includes 13 jumpers. The figure below shows jumper assignments (JP1 to JP13) on the R0K572670C000BR.
Figure 5.2.2 R0K572670C000BR Jumper Assignments (JP1 to JP15)
Table 5.2.1 to Table 5.2.6 lists jumpers settings (JP1 to JP13).
Table 5.2.1 Analog Power Supply Jumpers Setting (JP1 to JP3) Number Setting Description
1 - 2 Supplies 3.3 V analog power for the A/D converter (AVcc) (1) JP1 Open Does not supply 3.3 V analog power for the A/D converter (AVcc) 1 - 2 Supplies 3.3 V analog power for USB (USBAPVcc) (1) JP2 Open Does not supply 3.3 V analog power for USB (USBAPVcc) 1 - 2 Supplies 1.25 V analog power for USB (USBAVcc) (1) JP3 Open Does not supply 1.25 V analog power for USB (USBAVcc) Notes: 1. Default setting 2. Do not change the jumper settings while the R0K572670C000BR is ON. Be sure to turn the power OFF before changing the settings.
REJ11J0042-0100 Rev.1.00 5-19 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.2.1 Jumpers (JP1 to JP13)
Table 5.2.2 Multiplexed Pin Switch Jumpers Setting (JP4, JP5, and JP8) Number Setting Description
JP4 1 - 2 Connects the RS-232C driver (U22) as the TxD0 OUT pin (1)
TxD0/CTx0/IETxD 2 - 3 Connects the expansion connector (CN1) as the CTx0/IETxD OUT pin JP5 1 - 2 Connects the RS-232C driver (U22) as the RxD0 IN pin (1)
RxD0/CRx0/IERxD 2 - 3 Connects the expansion connector (CN1) as the CRx0/IERxD IN pin JP8 1 - 2 Connects IRQ1 switch (SW4) as the IRQ1 IN pin (1)
IRQ1/CRx1 2 - 3 Connects the expansion connector (CN1) as the CRx1 IN pin Note 1: Default setting. Table 5.2.3 Pin Pull-up Jumpers Setting (JP6, and JP7) Number Setting Description
JP6 1 - 2 Pulls up PH/AN [0:3] pin (1) (2) PH/AN [0:3] None (Open) Does not pull up PH/AN [0:3] pin JP7 1 - 2 Pulls up PH/AN [4:5] pin (1) PH/AN [4:5] None (Open) Does not pull up PH/AN [4:5] pin Notes: 1: Default setting 2: Mount the resistors (R11 to R14) when using this setting.
Table 5.2.4 AUDIO_X1 Frequency Switch Jumper Setting (JP9) Number Setting Description
1 - 2 Inputs the clock of 11.2896 MHz to AUDIO_X1 pin (1) JP9 2 - 3 Inputs the clock of 12.2880 MHz to AUDIO_X1 pin Note 1: Default setting Table 5.2.5 USB VBUS Power Supply Jumper Setting (JP10) Number Setting Description
1 - 2 USB host mode (Supplies the power to VBUS) (1) JP10 None (Open) USB function mode (Does not supply the power to VBUS) Note 1: Default setting Table 5.2.6 Power Supply Switch Jumper Setting (JP11 to JP13) Number Setting Description
JP11 1 - 2 Supplies the system power from J4 (1) PWRSEL 2 - 3 Supplies the system power from J6 (AC adapter is used) JP12 1 - 2 Supplies 3.3 V power for the SH7267 from U14 (Internal power supply) (1) 3.3V PWRSEL 2 - 3 Supplies 3.3 V power for the SH7267 from J5 (External power supply) JP13 1 - 2 Supplies 1.25 V power for the SH7267 from U16 (Internal power supply) (1) 1.25V PWRSEL 2 - 3 Supplies 1.25 V power for the SH7267 from J8 (External power supply) Notes: 1: Default setting 2. Do not change the jumper settings while the R0K572670C000BR is ON. Be sure to turn the power OFF before changing the settings.
REJ11J0042-0100 Rev.1.00 5-20 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.2.2 Switches and LEDs
5.2.2 Switches and LEDs
The R0K572670C000BR includes seven switches and three LEDs. The figure below shows the assignments of switches and LEDs. Table 5.2.10 lists LEDs on the R0K572670C000BR.
SW3 SW4 SW7
SW1 LED1 NMI IRQ1 TEST
Top view of the component side
LED3 LED2
SW2 RESET SW5 SW6
Figure 5.2.3 R0K572670C000BR Switches and LEDs Assignments
The following table lists switches mounted on the board. Table 5.2.7 Switches Number Name Remarks SW1 Power supply switch - SW2 Reset switch Refer to Section 2.9 for details. SW3 NMI switch Refer to Section 2.7 for details. SW4 IRQ1 switch Refer to Section 2.7 for details. SW5 System setting DIP switches (6/package) Refer to Table 5.2.8 for details. SW6 User DIP switches (6/package) Refer to Table 5.2.9 for details. SW7 TEST switch Refer to Section 2.7 for details.
REJ11J0042-0100 Rev.1.00 5-21 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.2.2 Switches and LEDs
Table 5.2.8 System setting DIP switches Number Setting Description SW5-1 OFF MD_CLK0 = High Clock operating mode 1 MD_CLK0 ON MD_CLK0 = Low Clock operating mode 0 (1) SW5-2 OFF MD_BOOT0 = High Boot mode Boot options MD_BOOT0 ON MD_BOOT0 = Low (1) 0 NOR flash memory (1) SW5-3 OFF MD_BOOT1 = High 1, 3 Serial flash memory (1) MD_BOOT1 ON MD_BOOT1 = Low 2 NAND flash memory SW5-4 OFF SD_SEL = High Connected to the SDRAM (1) SD_SEL ON SD_SEL = Low Connected to the expansion connector (MTU2) SW5-5 OFF NAND_SEL = High Connected to the NAND flash memory NAND_SEL ON NAND_SEL = Low Connected to the device which is connected to the RSPI/SSIF (1) SW5-6 OFF RSPI_SEL = High Connected to the serial flash memory/ RSPI_SEL expansion connector (RSPI) ON RSPI_SEL = Low Connected to the expansion connector (SSIF) (1) Note 1: Default setting
Table 5.2.9 User DIP Switches Number Setting Description
SW6-1 OFF NOR_WP# = High NOR flash memory is write-enabled (1) NOR_WP# ON NOR_WP# = Low NOR flash memory is write-protected SW6-2 OFF NAND_WP# = High NAND flash memory is write-enabled (1) NAND_WP# ON NAND_WP# = Low NAND flash memory is write-protected SW6-3 OFF SF_WP# = High Serial flash memory is write-enabled (1) SF_WP# ON SF_WP# = Low Serial flash memory is write-protected SW6-4 OFF EEPROM_WP = High EEPROM is write-protected E2P_WP ON EEPROM_WP = Low EEPROM is write-enabled (1) SW6-5 OFF PA2 = High (1) PA2 ON PA2 = Low SW6-6 OFF VIN#/SD = High (1) Expansion connector (SDHI) (1) VIN#/SD ON VIN#/SD = Low Expansion connector (VDC3) Note 1: Default setting
The following table lists LEDs. Table 5.2.10 LEDs Number Color Description
LED1 Blue Power supply LED (LED1 is illuminated when 5 V power is supplied) LED2 Yellow User LED (LED2 is illuminated when PA0/MD_CLK0 outputs low) LED3 Yellow User LED (LED3 is illuminated when PA1/MD_BOOT0 outputs low)
REJ11J0042-0100 Rev.1.00 5-22 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.3 R0K572670C000BR Dimensions
5.3 R0K572670C000BR Dimensions Figure 5.3.1 and Figure 5.3.2 show the R0K572670C000BR dimensions.
Note: All measurements are in millimeters.
Figure 5.3.1 R0K572670C000BR Dimensions (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 5-23 Nov.18.2010
R0K572670C000BR Operating Specifications 5 5.3 R0K572670C000BR Dimensions
Note: All measurements are in millimeters.
Figure 5.3.2 R0K572670C000BR Dimensions (Transparent View of the Component Side)
REJ11J0042-0100 Rev.1.00 5-24 Nov.18.2010
Chapter 6M3A-HS64G01 Operating Specifications Chapter 6 M3A-HS64G01 Operating Specifications
6-1 M3A-HS64G01 Operating Specifications 6 6.1 M3A-HS64G01 Connectors
6.1 M3A-HS64G01 Connectors
Figure 6.1.1 and Figure 6.1.2 show the connector assignments for the M3A-HS64G01.
connector TM J15 IEBus J10 connectorUART CN1 CPU board connector CN3 CPU board connector CN9 CPU board connector CN6 CPU board connector CN7 CPU board connector
J16 CAN connector 0
J17 CAN connector 1
J18 12 V power supply connector
J19 12 V input AC adapter jack 16 x 2 16 x Character LCD Character J3 Line-out pin jack J8 Line-out pin jack J6 Line-out pinjack J9 CD deck connector J7 optical connector Audio J11 IIC connector External J14 LCD module connector J13 LCD module connector J12 LCD module connector J5 optical connector Audio J4 jack pin input Microphone J1 Character LCD module connector
Figure 6.1.1 M3A-HS64G01 Connectors (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 6-2 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1 M3A-HS64G01 Connectors
J2 SD card slot
Figure 6.1.2 M3A-HS64G01 Connectors (Top View of the Solder Side)
REJ11J0042-0100 Rev.1.00 6-3 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
6.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
The M3A-HS64G01 includes MIL-spec connectors (CN1, CN3, CN6, CN7, and CN9) for connecting the optional board to the R0K572670C000BR. The following figure shows the pin assignments for the CPU board connectors. Table 6.1.1 to Table 6.1.5 list the pin descriptions for the CPU board connectors.
20 CN6 2
19 1 2 1 CN1 20 19 2 1 CN3 20 19
30 CN9 2 40 CN7 2 M8 29 1 39 1
Figure 6.1.3 CPU Board Connectors Pin Assignments (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 6-4 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
Table 6.1.1 CN1 Pin Descriptions Pin Signal Name Pin Signal Name Number Number 1 Not connected with the R0K572670C000BR (NC) 11 GND 2 PH4/AN4 12 Not connected with the R0K572670C000BR (NC) 3 5 V 13 Not connected with the R0K572670C000BR (NC) 4 PH5/AN5 14 Not connected with the R0K572670C000BR (NC) 5 Not connected with the R0K572670C000BR (NC) 15 Not connected with the R0K572670C000BR (NC) 6 3.3 V 16 GND PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/ 7 Not connected with the R0K572670C000BR (NC) 17 WDTOVF# PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/ 8 PA2/MD_BOOT1 (NC) 18 LCD_M_DISP 9 PA1/MD_BOOT0 (NC) 19 PJ1/CRx0/IERxD/IRQ0/RxD0 10 PA0/MD_CLK1 (NC) 20 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 6.1.2 CN3 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 AVref (NC) 11 Not connected with the R0K572670C000BR (NC) 2 AVref (NC) 12 Not connected with the R0K572670C000BR (NC) 3 PH1/AN1 13 AVcc 4 PH0/AN0 14 AVcc 5 AVref (NC) 15 Not connected with the R0K572670C000BR (NC) 6 AVref (NC) 16 Not connected with the R0K572670C000BR (NC) 7 PH3/AN3 17 AVss 8 PH2/AN2 18 AVss 9 AVcc 19 AVss 10 AVcc 20 AVss
Table 6.1.3 CN6 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 11 3.3 V 2 5 V 12 PG23/MOSI1TIOC0C 3 5 V 13 PG24/MISO1/TIOC0D 4 5 V 14 PC5/RAS#/TIOC4A/IRQ4 (NC) 5 PC0/CS0#/SSIWS0 (NC) 15 PC6/CAS#/TIOC4B/IRQ5 (NC) 6 PC1/RD#/SSISCK0 (NC) 16 PC7/CKE/TIOC4C/IRQ6 (NC) 7 PC2/RD/WR#/SSIRxD0 (NC) 17 PC8/CS3#/TIOC4D/IRQ6 (NC) 8 PC3/WE0#/DQML/SSITcD0 (NC) 18 GND 9 PC4/WE1#/DQMU/WE# (NC) 19 GND 10 3.3 V 20 CKIO (NC)
REJ11J0042-0100 Rev.1.00 6-5 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
Table 6.1.4 CN7 Pin Descriptions Pin Number Signal Name Pin Number Signal Name PF2/BACK#/DV_DATA2/TxD2/DACK0/ 1 21 GND SD_D3/AUDATA0 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ 2 22 SD_D2/AUDSYNC# SD_CMD/AUDATA1 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 3 23 TxD3/SD_CLK/AUDATA2 TCLKC/SD_D0/AUDATA3 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ 4 24 SD_CMD/AUDATA1 TxD3/SD_CLK/AUDATA2 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 5 PE0/SCL0/AUDIO_CLK/IRQ0 25 TCLKB/SD_D1 6 RES# 26 GND 7 PE2/SCL1/IRQ2 27 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/ PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 8 28 LCD_EXTCLK SD_WP 9 PE4/SCL2/DV_VSYNC 29 GND 10 PE3/SDA1/IRQ3 30 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 11 3.3 V 31 SPDIF_IN PF0/WAIT#/DV_DATA0/SCK2/TEND0/ 12 PE5/SDA2/DV_HSYNC 32 AUDCK PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 13 33 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT TCLKB/SD_D1 PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 14 34 GND TCLKC/SD_D0/AUDATA3 15 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD 35 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 16 36 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB SD_WP PF0/WAIT#/DV_DATA0/SCK2/TEND0/ PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 17 37 AUDCK SPDIF_IN 18 5 V 38 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT PF2/BACK#/DV_DATA2/TxD2/DACK0/ 19 39 GND SD_D3/AUDATA0 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 20 40 AUDIO_XTAL SD_D2/AUDSYNC#
REJ11J0042-0100 Rev.1.00 6-6 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
Table 6.1.5 CN9 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 PG1/LCD_DATA1/SD_D3/PINT1 16 PG12/LCD_DATA12/TIOC0A/RxD6 2 PG0/LCD_DATA0/SD_D2/PINT0 17 PG14/LCD_DATA14/TIOC0C/RxD7 3 PG3/LCD_DATA3/SD_CLK/PINT3 18 PG13/LCD_DATA13/TIOC0B/TxD6 4 PG2/LCD_DATA2/SD_CMD/PINT2 19 PG16/LCD_VSYNC/TIOC1A/RxD1 5 GND 20 PG15/LCD_DATA15/TIOC0D/TxD7 6 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 21 PG17/LCD_HSYNC/TIOC1B/TxD1 7 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 22 5 V 8 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 23 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 9 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 24 PG18/LCD_DE/TIOC2A/RxD3/RTS1 10 GND 25 3.3 V PG9/LCD_DATA9/SSIRxD0/TxD4/ 11 26 PG20/LCD_EXTCLK/SCK1(NC) SIOFSYNC 12 PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK 27 PG22/SSL10/TIOC0B PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/ 13 28 PG21/RSPCK1/TIOC0A SIOFTxD PG10/LCD_DATA10/SSISCK0/IRQ2/RxD5/ PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 14 29 SIOFRxD SD_D2/AUDSYNC# Not connected with the R0K572670C000BR 15 GND 30 (NC)
REJ11J0042-0100 Rev.1.00 6-7 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.2 Character LCD Module Connector (J1)
6.1.2 Character LCD Module Connector (J1)
The M3A-HS64G01 includes a character LCD module connector (J1). This module cannot be used with the R0K572670C000BR. The following figure shows the pin assignments for J1.
Top view of the component side
Character LCD 16 x 2
14 2 16
13 1 15
Figure 6.1.4 J1 Pin Assignments
The following table lists the pin descriptions for J1.
Table 6.1.6 Pin Descriptions Pin Number Signal Name Pin Number Signal Name DB2 (PF3/ICIORD#/SSISCK1/DV_DATA3/ 1 GND 9 RxD3/SD_CMD/AUDATA1) DB3 2 5 V 10 (PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/TxD3/ SD_CLK/AUDATA2) Vo (Adjust 5 V by the voltage resistor DB4 (PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 3 11 VR1 to input) TCLKC/SD_D0/AUDATA3) DB5 (PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 4 RS (PG23/MOSI1/TIOC0C) 12 TCLKB/SD_D1) DB6 (PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 5 R/W# (GND) 13 SD_WP) 6 E (PG24/MISO1/TIOC0D) 14 DB7 (PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD) DB0 (PF1/BREQ#/DV_DATA1/RxD2/ 7 15 A (Adjust 5 V by the variable resistor VR2 to input) DREQ0/SD_D2/AUDSYNC#) DB1 (PF2/BACK#/DV_DATA2/TxD2/ 8 16 K (GND) DACK0/SD_D3/AUDATA0)
REJ11J0042-0100 Rev.1.00 6-8 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.3 SD Card Slot (J2)
6.1.3 SD Card Slot (J2)
The M3A-HS64G01 includes an SD card slot (J2). This module cannot be used with the R0K572670C000BR. The following table shows the pin assignments for J2.
9 1 234567811 12
Top view of the solder side
J2
Side view
Figure 6.1.5 J2 Pin Assignments
The following table lists the pin descriptions for J2.
Table 6.1.7 J2 Pin Descriptions Pin Signal Name Pin Signal Name Number Number DAT0 (PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 1 DAT3 (PK1/PWM1B/SD_D3) 7 TCLKC/SD_D0/AUDATA3) CMD (PF3/ICIORD#/SSISCK1/DV_DATA3/ DAT1 (PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 2 8 RxD3/SD_CMD/AUDATA1) TCLKB/SD_D1PK5/PWM1F/SD_D1) DAT2 (PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 3 GND 9 SD_D2/AUDSYNC#) WP (PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 4 3.3 V 10 SD_WP) CLK 5 (PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ 11 CD (PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD) TxD3/SD_CLK/AUDATA2) 6 GND 12 COMMON (GND)
REJ11J0042-0100 Rev.1.00 6-9 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.4 Line-out Pin Jacks (J3, J6, and J8)
6.1.4 Line-out Pin Jacks (J3, J6, and J8)
The M3A-HS64G01 includes line-out pin jacks (J3, J6, and J8). J8 can only be used with the R0K572670C000BR. The following figure shows the pin assignments for J3, J6 and J8.
4 4 4 2 2 2 Top view of the 3 3 3 component side 1 1 1
J3 J6 J8
Figure 6.1.6 Line-out Pin Jacks Pin Assignments (J3, J6, and J8)
The following table lists the pin descriptions for J3, J6, and J8.
Table 6.1.8 Line-out Pin Jacks Pin Descriptions (J3, J6, and J8) Pin Number Signal Name Pin Number Signal Name 1 GND 3 AOUTR (D/A converter analog output R pin) 2 AOUTL (D/A converter analog output L pin) 4 NC
REJ11J0042-0100 Rev.1.00 6-10 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.5 Microphone Input Pin Jack (J4)
6.1.5 Microphone Input Pin Jack (J4)
The M3A-HS64G01 includes a microphone input pin jack (J4). This module cannot be used with the R0K572670C000BR. The following figure shows the pin assignments for J4.
4 Top view of the 2 component side 3 1
J4
Figure 6.1.7 J4 Pin Assignments
The following table lists the pin descriptions for J4.
Table 6.1.9 J4 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 3 AINR (A/D converter analog input R pin) 2 AINL (A/D converter analog input L pin) 4 NC
REJ11J0042-0100 Rev.1.00 6-11 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.6 Audio Optical Connectors (J5 and J7)
6.1.6 Audio Optical Connectors (J5 and J7)
The M3A-HS64G01 includes audio optical connectors (J5 and J7). J7 can only be used with the R0K572670C000BR. The following figure shows the pin assignments for J5 and J7.
123 123
45 45
Top view of the component side
J5 J7
Figure 6.1.8 J5, J7 Pin Assignments
The following table lists the pin descriptions for J5 and J7.
Table 6.1.10 Pin Assignments for Optical Connectors (J5 and J7) Pin Number Signal Name Pin Number Signal Name 1 GND 4 NC 2 3.3 V 5 NC 3 TX (D/A converter optical output pin) –
REJ11J0042-0100 Rev.1.00 6-12 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.7 CD Deck Connector (J9)
6.1.7 CD Deck Connector (J9)
The M3A-HS64G01 includes a flexible connector (J9) for connecting a CD deck to the board. The following figure shows the pin assignments for J9.
Figure 6.1.9 J9 Pin Assignments
The following table lists the pin descriptions for J9.
Table 6.1.11 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 12 CDFS (PF0/WAIT#/DV_DATA0/SCK2/TEND0/AUDCK) 2 GND 13 CDSI (PF11/A25/SSIDATA3/MOSI0/TIOC3C/SPDIF_IN) 3 8 V 14 CDCK (PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB) 4 8 V 15 CDSO (PF12/BS#/MISO0/TIOC3D/SPDIF_OUT) 5 FLAG6 (PH5/AN5) 16 NC IIS_BCK (PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/TCLKB/ 6 NC 17 SD_D1) CDRST IIS_LRCK (PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 7 18 (Connects the reset IC output) SD_WP) 8 GND 19 IIS_DATA (PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD) BLKCK (PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/ 9 3.3 V 20 LCD_EXTCLK) 10 3.3 V 21 TRANS (PH4/AN4) 11 GND 22 NC
REJ11J0042-0100 Rev.1.00 6-13 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.8 UART Connector (J10)
6.1.8 UART Connector (J10)
The M3A-HS64G01 includes a UART connector (J10) with TTL-level flow control. This module cannot be used with the R0K572670C000BR. The following figure shows the pin assignments for J10.
Figure 6.1.10 J10 Pin Assignments
The following table lists the pin descriptions for J10.
Table 6.1.12 J10 Pin Descriptions Pin Signal Name Pin Signal Name Number Number CTS# 1 3.3 V 5 (Not connected with the R0K572670C000BR) RTS# 2 RXD (Not connected with the R0K572670C000BR) 6 (Not connected with the R0K572670C000BR) 3 TXD (Not connected with the R0K572670C000BR) 7 GND 4 SCK (Not connected with the R0K572670C000BR) –
REJ11J0042-0100 Rev.1.00 6-14 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.9 External IIC Connector (J11)
6.1.9 External IIC Connector (J11)
The M3A-HS64G01 includes a MIL-spec connector (J11) for connecting an external IIC interface to the board. The following figure shows the pin assignments for J11.
Figure 6.1.11 J11 Pin Assignments
Table 6.1.13 Pin Assignments for External IIC Connector (J11) Pin Number Signal Name Pin Number Signal Name 1 3.3 V 11 2 3.3 V 12 3 13 4 14 5 15 6 GND (1) 16 7 17 SCL (PE4/SCL2/DV_VSYNC) 8 18 SDA (PE5/SDA2/DV_HSYNC) 9 19 10 GND (1) 20 GND (1) Note 1: For compatibility with other CPU boards, this connector is connected with the board via a 0 Ω resistor.
REJ11J0042-0100 Rev.1.00 6-15 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.10 LCD Module Connectors (J12 to J14)
6.1.10 LCD Module Connectors (J12 to J14)
The M3A-HS64G01 includes two flexible connectors (J12 and J13) and one MIL-spec connector (J14) for connecting an LCD module to the board. The following figure shows the pin assignments for LCD module connectors.
Figure 6.1.12 LCD Module Connectors Pin Assignments (J12 to J14)
REJ11J0042-0100 Rev.1.00 6-16 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.10 LCD Module Connectors (J12 to J14)
The following table lists the pin descriptions for J12.
Table 6.1.14 J12 Pin Descriptions Pin Number Signal Name Pin Number Signal Name G4 (PG9/LCD_DATA9/SSIWS0/TxD4/ 1 3.3 V 21 SIOFSYNC) G3 2 3.3 V 22 (PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK) 3 3.3 V 23 GND DCLK 4 24 G2 (PG7/LCD_DATA7/SD_CD/PINT7/IRQ7) (PG19/LCD_CLK/TIOC2B/TxD3/CTS1) 5 GND 25 G1 (PG6/LCD_DATA6/SD_WP/PINT6/IRQ6) HSYNC 6 26 G0 (PG5/LCD_DATA5/SD_D1/PINT5/IRQ5) (PG17/LCD_HSYNC/TIOC1B/TxD1) 7 GND 27 GND DTMG 8 28 B5 (PG4/LCD_DATA4/SD_D0/PINT4/IRQ4) (PG18/LCD_DE/TIOC2A/RxD3/RTS1) 9 GND 29 B4 (PG3/LCD_DATA3/SD_CLK/PINT3) 10 NC 30 B3 (PG2/LCD_DATA2/SD_CMD/PINT2) 11 GND 31 GND 12 R5 (PG15/LCD_DATA15/TIOC0D/TxD7) 32 B2 (PG1/LCD_DATA1/SD_D3/PINT1) 13 R4 (PG14/LCD_DATA14/TIOC0C/RxD7) 33 B1 (PG0/LCD_DATA0/SD_D2/PINT0) 14 R3 (PG13/LCD_DATA13/TIOC0B/TxD6) 34 B0 (PG0/LCD_DATA0/SD_D2/PINT0) 15 GND 35 PCI (NC) 16 R2 (PG12/LCD_DATA12/TIOC0A/RxD6) 36 Vctrl (3.3 V) R1(PG11/LCD_DATA11/SSIWS0/IRQ3/ 17 37 NC TxD5/SIOFTxD) R0 (PG11/LCD_DATA11/SSIWS0/IRQ3/ 18 38 NC TxD5/SIOFTxD) 19 GND 39 NC G5 (PG10/LCD_DATA10/SSISCK0/IRQ2/ 20 40 NC RxD5/SIOFRxD)
REJ11J0042-0100 Rev.1.00 6-17 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.10 LCD Module Connectors (J12 to J14)
The following table lists the pin descriptions for J13.
Table 6.1.15 J13 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC 21 R3 (PG13/LCD_DATA13/TIOC0B/TxD6) DTMG 2 22 R2 (PG12/LCD_DATA12/TIOC0A/RxD6) (PG18/LCD_DE/TIOC2A/RxD3/RTS1) R1 (PG11/LCD_DATA11/SSIWS0/IRQ3/ 3 HREV (3.3 V) 23 TxD5/SIOFTxD) B5 R0 (PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/ 4 24 (PG4/LCD_DATA4/SD_D0/PINT4/IRQ4) SIOFTxD) 5 B4 (PG3/LCD_DATA3/SD_CLK/PINT3) 25 VREV (3.3 V) 6 B3 (PG2/LCD_DATA2/SD_CMD/PINT2) 26 NC 7 B2 (PG1/LCD_DATA1/SD_D3/PINT1) 27 NC 8 B1 (PG0/LCD_DATA0/SD_D2/PINT0) 28 GND 9 B0 (PG0/LCD_DATA0/SD_D2/PINT0) 29 DCLK (PG19/LCD_CLK/TIOC2B/TxD3/CTS1) 10 3.3 V 30 GND 11 3.3 V 31 GND G5 12 (PG10/LCD_DATA10/SSISCK0/IRQ2/ 32 GND RxD5/SIOFRxD) G4 (PG9/LCD_DATA9/SSIRxD0/TxD4/ 13 33 GND SIOFSYNC) G3 (PG8/LCD_DATA8/SSITxD0/RxD4/ 14 34 GND SIOFSCK) G2 TMZ 15 35 (PG7/LCD_DATA7/SD_CD/PINT7/IRQ7) (Not connected with the R0K572670C000BR) G1 16 36 GND (PG6/LCD_DATA6/SD_WP/PINT6/IRQ6) 17 G0 (PG5/LCD_DATA5/SD_D1/PINT5) 37 DIM (3.3 V) 18 GND 38 NC 19 R5 (PG15/LCD_DATA15/TIOC0D/TxD7) 39 5 V 20 R4 (PG14/LCD_DATA14/TIOC0C/RxD7) 40 5 V
REJ11J0042-0100 Rev.1.00 6-18 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.10 LCD Module Connectors (J12 to J14)
The following table lists the pin descriptions for J14.
Table 6.1.16 J14 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 3.3 V 16 PG3/LCD_DATA3/SD_CLK/PINT3 2 3.3 V 17 PG2/LCD_DATA2/SD_CMD/PINT2 3 3.3 V 18 PG1/LCD_DATA1/SD_D3/PINT1 4 PG15/LCD_DATA15/TIOC0D/TxD7 19 PG0/LCD_DATA0/SD_D2/PINT0 5 PG14/LCD_DATA14/TIOC0C/RxD7 20 GND 6 PG13/LCD_DATA13/TIOC0B/TxD6 21 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 7 PG12/LCD_DATA12/TIOC0A/RxD6 22 PG17/LCD_HSYNC/TIOC1B/TxD1 PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/ 8 23 NC(LCD_VCPWC) SIOFTxD PG10/LCD_DATA10/SSISCK0/IRQ2/ NC 9 24 RxD5/SIOFRxD (Allowed to supply 5 V through 0-Ω resistor) PG9/LCD_DATA9/SSIRxD0/TxD4/ 10 25 PG16/LCD_VSYNC/TIOC1A/RxD1 SIOFSYNC PG8/LCD_DATA8/SSISCK0/RxD4/ 11 26 PG18/LCD_DE/TIOC2A/RxD3/RTS1 SIOFSCK PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/ 12 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 27 LCD_M_DISP 13 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 28 GND 14 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 29 GND 15 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 30 GND
REJ11J0042-0100 Rev.1.00 6-19 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.11 IEBusTM Connector (J15)
6.1.11 IEBusTM Connector (J15)
The M3A-HS64G01 includes an IEBusTM connector (J15). The following figure shows the pin assignments for J15.
Figure 6.1.13 J15 Pin Assignments
The following table lists the pin descriptions for J15.
Table 6.1.17 J15 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 3 BUS+ 2 BUS− 4 GND
REJ11J0042-0100 Rev.1.00 6-20 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.12 CAN Connectors (J16 and J17)
6.1.12 CAN Connectors (J16 and J17)
The M3A-HS64G01 includes CAN connectors (J16 and J17). The following figure shows the pin assignments for J16 and J17.
J16 13 J17 13
Figure 6.1.14 J16, J17 Pin Assignments
The following table lists the pin descriptions for J16 and J17.
Table 6.1.18 J16, J17 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 CANH 3 GND 2 CANL – J16 and J17 are connected to channel 0 (CTx0/CRx0) and channel 1 (CTx1/CRx1), respectively.
REJ11J0042-0100 Rev.1.00 6-21 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.13 12 V Power Supply Connector (J18)
6.1.13 12 V Power Supply Connector (J18)
The M3A-HS64G01 includes a system power supply connector (J18). The number of pins of this connector differs from the power supply connector mounted on the R0K572670C000BR to prevent improper insertion. The following figure shows the pin assignments for J18.
Figure 6.1.15 J18 Pin Assignments
The following table lists the pin descriptions for J18.
Table 6.1.19 J18 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 12 V 3 GND 2 NC –
REJ11J0042-0100 Rev.1.00 6-22 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.1.14 12 V Input AC Adapter Jack (J19)
6.1.14 12 V Input AC Adapter Jack (J19)
The M3A-HS64G01 includes an AC adapter jack (J19) for 12 V DC input. The following figure shows the pin assignments for J19.
Top view of the J19 component side
3 - +
42
Figure 6.1.16 J19 Pin Assignments
The following table lists the pin descriptions for J19.
Table 6.1.20 J19 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC (No pins) 3 GND 2 12 V 4 GND
REJ11J0042-0100 Rev.1.00 6-23 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.2 M3A-HS64G01 Operating Components
6.2 M3A-HS64G01 Operating Components
The following figure shows the assignments of the M3A-HS64G01 operating components.
JP2
JP5 JP9
JP4 JP8 JP11 JP7 JP11 JP6 JP10
SW18
SW2 SW6 SW3 SW7 LED1 SW4 SW8 SW5 SW9 JP12
SW10 SW14 SW11 SW15 SW12 SW16 SW13 SW17
SW1 JP3
Figure 6.2.1 M3A-HS64G01 Operating Component Assignments (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 6-24 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.2.1 Jumpers (JP2 to JP12)
6.2.1 Jumpers (JP2 to JP12)
The M3A-HS64G01 includes 11 jumpers. The following figure shows jumper assignments (JP2 to JP12) on the M3A-HS64G01.
JP2 3 1 JP7 JP6 3 1 JP5 JP9 JP11 JP10 JP4 JP8
JP12 1 3
Top view of the component side JP3
Figure 6.2.2 M3A-HS64G01 Jumper Assignments (JP2 to JP12)
The following table lists the jumpers setting for JP2, JP5, and JP9.
Table 6.2.1 Multiplexed Pin Switch Jumpers Setting (JP2, JP5, and JP9) Number Setting Description
JP2 1 - 2 Connects the character LCD connector (J1) as the LCD data output pin (1) LCD/SD 2 - 3 Connects the SD card slot (J1) as the SDHI I/O pin JP5 1 - 2 Connects the IEBusTM driver (U37) as the IETxD output pin (1) IETxD/CTx0 2 - 3 Connects the CAN driver (U14) as the CTx0 output pin JP9 1 - 2 Connects the IEBusTM driver (U37) as the IERxD input pin (1) IERxD/CRx0 2 - 3 Connects the CAN driver (U14) as the CRx0 input pin Notes: 1. Default setting 2. Do not change the jumper settings while the M3A-HS64G01 is ON. Be sure to turn the power OFF before changing the settings.
REJ11J0042-0100 Rev.1.00 6-25 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.2.1 Jumpers (JP2 to JP12)
The following table lists the jumpers setting for JP3.
Table 6.2.2 Plug-in Power Microphone Jumper Setting (JP3) Number Setting Description
1 - 2 Supplies the power (Plug-in power microphone) JP3 Open Does not supply the power (Typical microphone) (1) Note 1: Default setting
The following table lists the jumpers setting for JP4, JP6, JP7, JP8, JP10, and JP11.
Table 6.2.3 CAN Evaluation Jumpers Setting (JP4, JP6, JP7, JP8, JP10, and JP11) Number Setting Description
JP4 1 - 2 Connects the CTx1 pin to the CAN driver (U16) (1) Connects CTx1 Open Leaves the CTx1 pin disconnected to the CAN driver (U16) JP8 1 - 2 Connects the CRx1 pin to the CAN driver (U16) (1)
Connects CRx1 Open Leaves the CRx1 pin disconnected to the CAN driver (U16) JP6 1 - 2 Terminates the CANL (ch0) pin (1) Terminates CANL Open Leaves the CANL (ch0) pin not terminated
(ch0) JP7 1 - 2 Terminates the CANH (ch0) pin (1) Terminates CANH Open Leaves the CANH (ch0) pin not terminated
(ch0) JP10 1 - 2 Terminates the CANL (ch1) pin
Terminates CANL Open Leaves the CANL (ch1) pin not terminated
(ch1) JP11 1 - 2 Terminates the CANH (ch1) pin (1) Terminates CANH Open Leaves the CANH (ch1) pin not terminated
(ch1) Note 1: Default setting
The following table lists the jumpers setting for JP12.
Table 6.2.4 Power Supply Switch Jumper Setting (JP12) Number Setting Description
JP12 1 - 2 Supplies the system power from J18 PWRSEL 2 - 3 Supplies the system power from J19 (AC adapter is used) (1) Notes: 1. Default setting 2. Do not change the jumper settings while the M3A-HS64G01 is ON. Be sure to turn the power OFF before changing the settings.
REJ11J0042-0100 Rev.1.00 6-26 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.2.2 Switches and LED
6.2.2 Switches and LED
The M3A-HS64G01 includes 18 switches and one LED. The following figure shows assignments for switches and the LED.
Top view of the component side
SW18
SW2 SW6 LED1 SW3 SW7 SW4 SW8 SW5 SW9 + SW10 SW14 SW1 SW11 SW15 SW12 SW16 SW13 SW17
Figure 6.2.3 M3A-HS64G01 Switches and LED Assignments
The following table lists the switches mounted on the board.
Table 6.2.5 Switches Number Name Remarks SW1 LCD module connector (J12) power supply switch Optional SW2 to SW17 Key input switches Refer to Section 3.10 for details SW18 Power supply switch -
The following table lists the LED mounted on the board.
Table 6.2.6 LED Number Color Description
LED1 Blue Power supply LED (LED1 is illuminated when 12 V power is supplied)
REJ11J0042-0100 Rev.1.00 6-27 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.3 M3A-HS64G01 Dimensions
6.3 M3A-HS64G01 Dimensions
Figure 6.3.1 and Figure 6.3.2 show the M3A-HS64G01 dimensions.
Note: All measurements are in millimeters.
Figure 6.3.1 M3A-HS64G01 Dimensions (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 6-28 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.3 M3A-HS64G01 Dimensions
Note: All measurements are in millimeters.
Figure 6.3.2 M3A-HS64G01 Dimensions (Transparent View of the Component Side)
REJ11J0042-0100 Rev.1.00 6-29 Nov.18.2010
M3A-HS64G01 Operating Specifications 6 6.3 M3A-HS64G01 Dimensions
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REJ11J0042-0100 Rev.1.00 6-30 Nov.18.2010
Chapter 7M3A-HS64G02 Operating Specifications Chapter 7 M3A-HS64G02 Operating Specifications
7-1 M3A-HS64G02 Operating Specifications 7 7.1 M3A-HS64G02 Connectors
7.1 M3A-HS64G02 Connectors
Figure 7.1.1 and Figure 7.1.2 show the M3A-HS64G02 connector assignments.
connector TM TM J2 UART connector J13 IEBus CN1 CPU board connector CN3 CPU board connector CN9 CPU board connector CN6 Expansion connector CN7 CPU board connector
J14 CAN connector 0
J15 CAN connector 1
J17 12 V power supply connector
J5 PWM connector J18 12 V input AC adapter jack J16 MTU2 connector J8 RCA connector J7 Line-out pin jack J9 S-Video connector J6 optical connectorAudio J3 External IIC connector J12 LCD module connector J11 LCD module connector J10 LCD module connector
Figure 7.1.1 M3A-HS64G02 Connectors (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 7-2 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1 M3A-HS64G02 Connectors
J4 SD card slot
Figure 7.1.2 M3A-HS64G02 Connectors (Top View of the Solder Side)
REJ11J0042-0100 Rev.1.00 7-3 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
7.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
The M3A-HS64G02 includes five MIL-spec connectors (CN1, CN3, CN6, CN7, and CN9) for connecting this optional board to the R0K572670C000BR. The following figure shows the pin assignments for the CPU board connectors. Table 7.1.1 to Table 7.1.5 lists the pin descriptions for the CPU board connectors.
20 CN6 2
19 1 2 1 CN1 20 19 2 1 CN3 20 19
30 CN9 2 40 CN7 2 M8 29 1 39 1
Figure 7.1.3 CPU Board Connectors Pin assignments (CN1, CN3, CN6, CN7, and CN9)
REJ11J0042-0100 Rev.1.00 7-4 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
Table 7.1.1 CN1 Pin Descriptions Pin Signal Name Pin Signal Name Number Number 1 Not connected with the R0K572670C000BR (NC) 11 GND
2 PH4/AN4 12 Not connected with the R0K572670C000BR (NC)
3 5 V 13 Not connected with the R0K572670C000BR (NC)
4 PH5/AN5 14 Not connected with the R0K572670C000BR (NC)
5 Not connected with the R0K572670C000BR (NC) 15 Not connected with the R0K572670C000BR (NC)
6 3.3 V 16 GND PJ3/CRx1/CRx0&CRx1/IRQ1/AUDIO_XOUT/ 7 Not connected with the R0K572670C000BR (NC) 17 WDTOVF# PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/ 8 PA2/MD_BOOT1 (NC) 18 LCD_M_DISP 9 PA1/MD_BOOT0 (NC) 19 PJ1/CRx0/IERxD/IRQ0/RxD0 10 PA0/MD_CLK1 (NC) 20 PJ0/CTx0/IETxD/CS1#/TxD0/A0
Table 7.1.2 CN3 Pin Descriptions Pin Signal Name Pin Number Signal Name Number 1 AVref (NC) 11 Not connected with the R0K572670C000BR (NC) 2 AVref (NC) 12 Not connected with the R0K572670C000BR (NC) 3 PH1/AN1 13 AVcc 4 PH0/AN0 14 AVcc 5 AVref (NC) 15 Not connected with the R0K572670C000BR (NC) 6 AVref (NC) 16 Not connected with the R0K572670C000BR (NC) 7 PH3/AN3 17 AVss 8 PH2/AN2 18 AVss 9 AVcc 19 AVss 10 AVcc 20 AVss
Table 7.1.3 CN6 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 11 3.3 V 2 5 V 12 PG23/MOSI1/TIOC0C 3 5 V 13 PG24/MISO1/TIOC0D 4 5 V 14 PC5/RAS#/TIOC4A/IRQ4 5 PC0/CS0#/SSIWS0 (NC) 15 PC6/CAS#/TIOC4B/IRQ5 6 PC1/RD#/SSISCK0 (NC) 16 PC7/CKE/TIOC4C/IRQ6 7 PC2/RD/WR#/SSIRxD0 (NC) 17 PC8/CS3#/TIOC4D/IRQ6 8 PC3/WE0#/DQML/SSITxD0 (NC) 18 GND 9 PC4/WE1#/DQMU/WE# (NC) 19 GND 10 3.3 V 20 CKIO (NC)
REJ11J0042-0100 Rev.1.00 7-5 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
Table 7.1.4 CN7 Pin Descriptions Pin Number Signal Name Pin Number Signal Name PF2/BACK#/DV_DATA2/TxD2/DACK0/ 1 21 GND SD_D3/AUDATA0 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ 2 PK0/PWM1A/SD_D2 22 SD_CMD/AUDATA1 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 3 23 TxD3/SD_CLK/AUDATA2 TCLKC/SD_D0/AUDATA3 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ 4 PK2/PWM1C/SD_CMD 24 TxD3/SD_CLK/AUDATA2 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 5 PE0/SCL0/AUDIO_CLK/IRQ0 25 TCLKB/SD_D1 6 RES# 26 GND 7 PE2/SCL1/IRQ2 27 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/ PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 8 28 LCD_EXTCLK SD_WP 9 PE4/SCL2/DV_VSYNC 29 GND PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB 10 PE3/SDA1/IRQ3 30 (NC) PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 11 3.3 V 31 SPDIF_IN PF0/WAIT#/DV_DATA0/SCK2/TEND0/AUDCK 12 PE5/SDA2/DV_HSYNC 32 (NC) PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 13 33 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT TCLKB/SD_D1 PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 14 34 GND TCLKC/SD_D0/AUDATA3 15 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD 35 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 16 36 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB SD_WP PF0/WAIT#/DV_DATA0/SCK2/TEND0/ PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 17 37 AUDCK SPDIF_IN 18 5 V 38 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT PF2/BACK#/DV_DATA2/TxD2/DACK0/ 19 39 GND SD_D3/AUDATA0 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 20 40 AUDIO_XTAL SD_D2/AUDSYNC#
REJ11J0042-0100 Rev.1.00 7-6 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.1 CPU Board Connectors (CN1, CN3, CN6, CN7 and CN9)
Table 7.1.5 CN9 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 PG1/LCD_DATA1/SD_D3/PINT1 16 PG12/LCD_DATA12/TIOC0A/RxD6 2 PG0/LCD_DATA0/SD_D2/PINT0 17 PG14/LCD_DATA14/TIOC0C/RxD7 3 PG3/LCD_DATA3/SD_CLK/PINT3 18 PG13/LCD_DATA13/TIOC0B/TxD6 4 PG2/LCD_DATA2/SD_CMD/PINT2 19 PG16/LCD_VSYNC/TIOC1A/RxD1 5 GND 20 PG15/LCD_DATA15/TIOC0D/TxD7 6 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 21 PG17/LCD_HSYNC/TIOC1B/TxD1 7 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 22 5 V 8 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 23 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 9 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 24 PG18/LCD_DE/TIOC2A/RxD3/RTS1 10 GND 25 3.3 V PG9/LCD_DATA9/SSIRxD0/TxD4/ 11 26 PG20/LCD_EXTCLK/SCK1 (NC) SIOFSYNC PG8/LCD_DATA8/SSITxD0/RxD4/ 12 27 PG22/SSL10/TIOC0B SIOFSCK PG11/LCD_DATA11/SSIWS0/IRQ3/ 13 28 PG21/RSPCK1/TIOC0A TxD5/SIOFTxD PG10/LCD_DATA10/SSISCK0/IRQ2/ PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 14 29 RxD5/SIOFRxD SD_D2/AUDSYNC# 15 GND 30 Not connected with the R0K572670C000BR (NC)
REJ11J0042-0100 Rev.1.00 7-7 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.2 UART Connector (J2)
7.1.2 UART Connector (J2)
The M3A-HS64G02 includes a UART connector (J2) with TTL-level flow control. This module cannot be used with the R0K572670C000BR. The following figure shows the pin assignments for J2.
Figure 7.1.4 J2 Pin Assignments
The following table lists the pin descriptions for J2.
Table 7.1.6 J2 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 3.3 V 5 NC 2 RXD (Not connected with the R0K572670C000BR) 6 NC 3 TXD (Not connected with the R0K572670C000BR) 7 GND 4 NC –
REJ11J0042-0100 Rev.1.00 7-8 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.3 External IIC Connector (J3)
7.1.3 External IIC Connector (J3)
The M3A-HS64G01 includes a MIL-spec connector (J3) for connecting an external IIC interface to this optional board. The following figure shows the pin assignments for J3.
Top view of the component side
2 J3 20
1 19
Figure 7.1.5 J3 Pin Assignments
The following table lists the pin descriptions for J3.
Table 7.1.7 J3 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 3.3 V 11 2 3.3 V 12 3 13 4 14 5 15 6 GND (1) 16 7 17 SCL (PE0/SCL0/AUDIO_CLK/IRQ0) 8 18 SDA (PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#) 9 19 10 GND (1) 20 GND (1) Note: For compatibility with other CPU boards, this connector is connected with the board via a 0 Ω resistor.
REJ11J0042-0100 Rev.1.00 7-9 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.4 SD Card Slot (J4)
7.1.4 SD Card Slot (J4)
The M3A-HS64G02 includes an SD card slot (J4). The following figure shows the pin assignments for J4.
9 1 23456781112
Top view of the solder side
J4
Side view
Figure 7.1.6 J4 Pin Assignments
The following table lists the pin descriptions for J4.
Table 7.1.8 J4 Pin Descriptions Pin Number Signal Name Pin Number Signal Name DAT3 DAT0 1 (PF2/BACK#/DV_DATA2/TxD2/DACK0/ 7 (PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ SD_D3/AUDATA0) TCLKC/SD_D0/AUDATA3) DAT1 CMD (PF3/ICIORD#/SSISCK1/DV_DATA3/ 2 8 (PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ RxD3/SD_CMD/AUDATA1) TCLKB/SD_D1) DAT2 3 GND 9 (PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ SD_D2/AUDSYNC#) WP 4 3.3 V 10 (PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ SD_WP) CLK 5 (PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ 11 CD (PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD) TxD3/SD_CLK/AUDATA2) 6 GND 12 COMMON (GND)
REJ11J0042-0100 Rev.1.00 7-10 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.5 PWM Connector (J5)
7.1.5 PWM Connector (J5)
The M3A-HS64G02 includes one MIL-spec connector (J5) for PWM output. This module cannot be used with the R0K572670C000BR. The following figure shows the pin assignments for J5.
20 19 J5 2 1
Figure 7.1.7 J5 Pin Assignments
The following table lists the pin descriptions for J5.
Table 7.1.9 J5 Pin Descriptions Pin Number Signal Name Pin Number Signal Name PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 1 11 PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB SD_D2/AUDSYNC# PF2/BACK#/DV_DATA2/TxD2/DACK0/ 2 12 PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# SD_D3/AUDATA0 PF3/ICIORD#/SSISCK1/DV_DATA3/RxD3/ 3 13 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT SD_CMD/AUDATA1 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/ PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 4 14 TxD3/SD_CLK/AUDATA2 SPDIF_IN PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/ 5 15 Not connected with the R0K572670C000BR TCLKC/SD_D0/AUDATA3 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/ 6 16 PH5/AN5 TCLKB/SD_D1 PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/ 7 17 PH4/AN4 SD_WP 8 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD 18 Not connected with the R0K572670C000BR 9 GND 19 5 V 10 GND 20 5 V
REJ11J0042-0100 Rev.1.00 7-11 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.6 Audio Optical Connector (J6)
7.1.6 Audio Optical Connector (J6)
The M3A-HS64G02 includes an audio optical connector (J6). The following figure shows the pin assignments for J6.
Figure 7.1.8 J6 Pin Assignments
The following table lists the pin descriptions for J6.
Table 7.1.10 J6 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 4 NC 2 3.3 V 5 NC 3 TX (D/A converter optical output pin) –
REJ11J0042-0100 Rev.1.00 7-12 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.7 Line-out Pin Jack (J7)
7.1.7 Line-out Pin Jack (J7)
The M3A-HS64G02 includes a line-out pin jack (J7). The following figure shows the pin assignments for J7.
Figure 7.1.9 J7 Pin Assignments
The following table lists the pin descriptions for J7.
Table 7.1.11 J7 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 3 AOUTR (D/A converter analog output R pin) 2 AOUTL (D/A converter analog output L pin) 4 NC
REJ11J0042-0100 Rev.1.00 7-13 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.8 RCA Connector (J8)
7.1.8 RCA Connector (J8)
The M3A-HS64G02 includes an RCA connector (J8). The following figure shows the pin assignments for J8.
Figure 7.1.10 J8 Pin Assignments
The following table lists the pin descriptions for J8.
Table 7.1.12 J8 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 2 AIN2 (Video decoder analog input pin)
REJ11J0042-0100 Rev.1.00 7-14 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.9 S-Video Connector (J9)
7.1.9 S-Video Connector (J9)
The M3A-HS64G02 includes an S-Video connector (J9). The following figure shows the pin assignments for J9.
Figure 7.1.11 J9 Pin Assignments
The following table lists the pin descriptions for J9.
Table 7.1.13 J9 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 GND 3 AIN2 (Video decoder analog input pin) 2 GND 4 AIN5 (Video decoder analog input pin)
REJ11J0042-0100 Rev.1.00 7-15 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.10 LCD Module Connectors (J10 to J12)
7.1.10 LCD Module Connectors (J10 to J12)
The M3A-HS64G02 includes two flexible connectors (J10 and J11), and one MIL-spec connector (J12) for connecting an LCD module to this optional board. The following figure shows the pin assignments for LCD module connectors.
Figure 7.1.12 LCD Module Connectors Pin Assignments (J10 to J12)
REJ11J0042-0100 Rev.1.00 7-16 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.10 LCD Module Connectors (J10 to J12)
The following table lists the pin descriptions for J10.
Table 7.1.14 J10 Pin Descriptions Pin Number Signal Name Pin Number Signal Name G4 (PG9/LCD_DATA9/SSIRxD0/TxD4/ 1 3.3 V 21 SIOFSYNC) G3 2 3.3 V 22 (PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK) 3 3.3 V 23 GND DCLK 4 24 G2 (PG7/LCD_DATA7/SD_CD/PINT7/IRQ7) (PG19/LCD_CLK/TIOC2B/TxD3/CTS1) 5 GND 25 G1 (PG6/LCD_DATA6/SD_WP/PINT6/IRQ6) HSYNC 6 26 G0 (PG5/LCD_DATA5/SD_D1/PINT5/IRQ5) (PG17/LCD_HSYNC/TIOC1B/TxD1) 7 GND 27 GND DTMG 8 28 B5 (PG4/LCD_DATA4/SD_D0/PINT4/IRQ4) (PG18/LCD_DE/TIOC2A/RxD3/RTS1) 9 GND 29 B4 (PG3/LCD_DATA3/SD_CLK/PINT3) 10 NC 30 B3 (PG2/LCD_DATA2/SD_CMD/PINT2) 11 GND 31 GND 12 R5 (PG15/LCD_DATA15/TIOC0D/TxD7) 32 B2 (PG1/LCD_DATA1/SD_D3/PINT1) 13 R4 (PG14/LCD_DATA14/TIOC0C/RxD7) 33 B1 (PG0/LCD_DATA0/SD_D2/PINT0) 14 R3 (PG13/LCD_DATA13/TIOC0B/TxD6) 34 B0 (PG0/LCD_DATA0/SD_D2/PINT0) 15 GND 35 PCI (NC) 16 R2 (PG12/LCD_DATA12/TIOC0A/RxD6) 36 Vctrl (3.3 V) R1 (PG11/LCD_DATA11/SSIWS0/IRQ3/ 17 37 NC TxD5/SIOFTxD) R0 (PG11/LCD_DATA11/SSIWS0/IRQ3/ 18 38 NC TxD5/SIOFTxD) 19 GND 39 NC G5 (PG10/LCD_DATA10/SSISCK0/IRQ2/ 20 40 NC RxD5/SIOFRxD)
REJ11J0042-0100 Rev.1.00 7-17 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.10 LCD Module Connectors (J10 to J12)
The following table lists the pin descriptions for J11.
Table 7.1.15 J11 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC 21 R3(PG13/LCD_DATA13/TIOC0B/TxD6) DTMG 2 22 R2(PG12/LCD_DATA12/TIOC0A/RxD6) (PG18/LCD_DE/TIOC2A/RxD3/RTS1) R1(PG11/LCD_DATA11/SSITxD0/IRQ3/ 3 HREV (3.3 V) 23 TxD5/SIOFTxD) R0 (PG11/LCD_DATA11/SSIWS0/IRQ3/ 4 B5 (PG4/LCD_DATA4/SD_D0/PINT4/IRQ4) 24 TxD5/SIOFTxD) 5 B4 (PG3/LCD_DATA3/SD_CLK/PINT3) 25 VREV (3.3 V) 6 B3 (PG2/LCD_DATA2/SD_CMD/PINT2) 26 NC 7 B2 (PG1/LCD_DATA1/SD_D3/PINT1) 27 NC 8 B1 (PG0/LCD_DATA0/SD_D2/PINT0) 28 GND 9 B0 (PG0/LCD_DATA0/SD_D2/PINT0) 29 DCLK (PG19/LCD_CLK/TIOC2B/TxD3/CTS1) 10 3.3 V 30 GND 11 3.3 V 31 GND G5 (PG10/LCD_DATA10/SSISCK0/IRQ2/ 12 32 GND RxD5/SIOFRxD) G4 (PG9/LCD_DATA9/SSIRxD0/TxD4/ 13 33 GND SIOFSYNC) G3 (PG8/LCD_DATA8/SSITxD0/RxD4/ 14 34 GND SIOFSCK) G2 TMZ 15 35 (PG7/LCD_DATA7/SD_CD/PINT7/IRQ7) (Not connected with the R0K572670C000BR) G1 16 36 GND (PG6/LCD_DATA6/SD_WP/PINT6/IRQ6) G0 17 37 DIM (3.3 V) (PG5/LCD_DATA5/SD_D1/PINT5/IRQ5) 18 GND 38 NC 19 R5(PG15/LCD_DATA15/TIOC0D/TxD7) 39 5 V 20 R4 (PG14/LCD_DATA14/TIOC0C/RxD7) 40 5 V
REJ11J0042-0100 Rev.1.00 7-18 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.10 LCD Module Connectors (J10 to J12)
The following table lists the pin descriptions for J12.
Table 7.1.16 J12 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 3.3 V 16 PG3/LCD_DATA3/SD_CLK/PINT3 2 3.3 V 17 PG2/LCD_DATA2/SD_CMD/PINT2 3 3.3 V 18 PG1/LCD_DATA1/SD_D3/PINT1 4 PG15/LCD_DATA15/TIOC0D/TxD7 19 PG0/LCD_DATA0/SD_D2/PINT0 5 PG14/LCD_DATA14/TIOC0C/RxD7 20 GND 6 PG13/LCD_DATA13/TIOC0B/TxD6 21 PG19/LCD_CLK/TIOC2B/TxD3/CTS1 7 PG12/LCD_DATA12/TIOC0A/RxD6 22 PG17/LCD_HSYNC/TIOC1B/TxD1 PG11/LCD_DATA11/SSIWS0/IRQ3/TxD5/ 8 23 NC (LCD_VCPWC) SIOFTxD PG10/LCD_DATA10/SSISCK0/IRQ2/RxD5/ NC (Allowed to supply 5 V through 0-Ω 9 24 SIOFRxD resistor) PG9/LCD_DATA9/SSIRxD0/TxD4/SIOFSYN 10 25 PG16/LCD_VSYNC/TIOC1A/RxD1 C 11 PG8/LCD_DATA8/SSITxD0/RxD4/SIOFSCK 26 PG18/LCD_DE/TIOC2A/RxD3/RTS1 PJ2/CTx1/CTx0&CTx1/CS2#/SCK0/ 12 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 27 LCD_M_DISP 13 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 28 GND 14 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 29 GND 15 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 30 GND
REJ11J0042-0100 Rev.1.00 7-19 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.11 IEBusTM Connector (J13)
7.1.11 IEBusTM Connector (J13)
The M3A-HS64G02 includes an IEBusTM connector (J13). The following figure shows the pin assignments for J13.
Figure 7.1.13 J13 Pin Assignments
The following table lists the pin descriptions for J13.
Table 7.1.17 J13 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 5 V 3 BUS+ 2 BUS− 4 GND
REJ11J0042-0100 Rev.1.00 7-20 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.12 CAN Connectors (J14 and J15)
7.1.12 CAN Connectors (J14 and J15)
The M3A-HS64G02 includes two CAN connectors (J14 and J15). The following figure shows the pin assignments for J14 and J15.
J14 13 J15 13
Figure 7.1.14 J14, J15 Pin Assignments
The following table lists the pin descriptions for J14 and J15.
Table 7.1.18 J14, J15 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 CANH 3 GND 2 CANL – J14 and J15 are connected to channel 0 (CTx0/CRx0) and channel 1 (CTx1/CRx1), respectively.
REJ11J0042-0100 Rev.1.00 7-21 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.13 MTU2 Connector (J16)
7.1.13 MTU2 Connector (J16)
The M3A-HS64G02 includes a MIL-spec connector (J16) for MTU2 output. Available pins are limited when using this module with the R0K572670C000BR. The following figure shows the pin assignments for J16.
20 19 J16 2 1
Figure 7.1.15 Pin Assignments for MTU2 Connector (J16)
The following table lists the pin descriptions for J16.
Table 7.1.19 J16 Pin Descriptions Pin Number Signal Name Pin Number Signal Name PF11/A25/SSIDATA3/MOSI0/TIOC3C/ 1 11 Not connected with the R0K572670C000BR SPDIF_IN (1) 2 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT (1) 12 Not connected with the R0K572670C000BR 3 GND 13 GND 4 GND 14 GND 5 PG22/SSL1/TIOC0B 15 PC7/CKE/TIOC4C/IRQ6 PF1/BREQ#/DV_DATA1/RxD2/DREQ0/ 6 16 PC8/CS3#/TIOC4D/IRQ6 SD_D2/AUDSYNC# 7 PG21/RSPCK1/TIOC0A 17 PC5/RAS#/TIOC4A/IRQ4 8 Not connected with the R0K572670C000BR 18 PC6/CAS#/TIOC4B/IRQ5 9 GND 19 PG23/MOSI1/TIOC0C 10 GND 20 PG24/MISO1/TIOC0D Note 1: As these pins are connected to the serial flash memory (U10) on the R0K572670C000BR, do not set the function as MTU2.
REJ11J0042-0100 Rev.1.00 7-22 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.14 12 V Power Supply Connector (J17)
7.1.14 12 V Power Supply Connector (J17)
The M3A-HS64G02 includes a system power supply connector (J17). The number of pins of this connector differs from the power supply connector mounted on the R0K572670C000BR to prevent improper insertion. The following figure shows the pin assignments for J17.
Figure 7.1.16 J17 Pin Assignments
The following table lists the pin descriptions for J17.
Table 7.1.20 J17 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 12 V 3 GND 2 NC –
REJ11J0042-0100 Rev.1.00 7-23 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.1.15 12 V Input AC Adapter Jack (J18)
7.1.15 12 V Input AC Adapter Jack (J18)
The M3A-HS64G02 includes an AC adapter jack (J18) for 12 V DC input. The following figure shows the pin assignments for J18.
Top view of the J18 component side
3 - +
42
Figure 7.1.17 J18 Pin Assignments
The following table lists the pin descriptions for J18.
Table 7.1.21 J18 Pin Descriptions Pin Number Signal Name Pin Number Signal Name 1 NC (No pins) 3 GND 2 12 V 4 GND
REJ11J0042-0100 Rev.1.00 7-24 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.2 M3A-HS64G02 Operating Components
7.2 M3A-HS64G02 Operating Components
The following figure shows the assignments of the M3A-HS64G02 operating components.
JP3
JP5 JP9
JP4 JP8 JP11 JP11 JP7 JP10 JP6
SW20
LED15 SW4 SW8 SW5 SW9 JP2 SW6 SW10 SW7 SW11 JP12
SW12 SW16 JP1 SW13 SW17 SW14 SW18 SW15 SW19
LED11 LED12 LED13 LED14 SW3 SW1 SW2 LED5 LED6 LED7 LED8 LED1 LED2 LED3 LED4 LED9 LED10
Figure 7.2.1 M3A-HS64G02 Operating Components (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 7-25 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.2.1 Jumpers (JP1 to JP12)
7.2.1 Jumpers (JP1 to JP12)
The M3A-HS64G02 includes 12 jumpers. The following figure shows jumper assignments (JP1 to JP12) on the M3A-HS64G02.
JP3 3 1 JP7 JP6 3 1 JP5 JP9 JP11 JP10 JP4 JP8
JP2 3 1 3 1 1 3 JP1 JP12
Top view of the component side
Figure 7.2.2 M3A-HS64G02 Jumper Assignments (JP1 to JP12)
The following table lists the jumpers setting for JP1, JP2, JP3, JP5, and JP9.
Table 7.2.1 Multi-function Pin Switch Jumpers Setting (JP1, JP2, JP3, JP5, and JP9) Number Setting Description
JP1 1 - 2 Connects the D/A converter (U10) as the SCL1 output pin (1) SCL1/IRQ2 2 - 3 Connects the push-button switch (SW1) as the IRQ2 input pin JP2 1 - 2 Connects the D/A converter (U10) as the SDA1 I/O pin (1) SDA1/IRQ3 2 - 3 Connects the push-button switch (SW2) as the IRQ3 input pin JP3 1 - 2 Connects the MIL-spec connector (J5) as the PWM data output pin (1) PWM/ Connects the SD card slot (J4), D/A converter (U10), and test pins (TP1 to TP4) as the SDHI, 2 - 3 (SD/SSIF/PORT) SSIF, and PORT I/O pins JP5 1 - 2 Connects the IEBusTM driver (U37) as the IETxD output pin (1) IETxD/CTx0 2 - 3 Connects the CAN driver (U13) as the CTx0 output pin JP9 1 - 2 Connects the IEBusTM driver (U37) as the IERxD input pin (1) IERxD/CRx0 2 - 3 Connects the CAN driver (U13) as the CRx0 input pin Note 1: Default setting
REJ11J0042-0100 Rev.1.00 7-26 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.2.1 Jumpers (JP1 to JP12)
Table 7.2.2 CAN Evaluation Jumper Setting (JP4, JP6, JP7, JP8, JP10, and JP11) Number Setting Description
JP4 1 - 2 Connects the CTx1 pin to the CAN driver (U16) (1) Connects CTx1 None (Open) Leaves the CTx1 pin disconnected to the CAN driver (U16) JP8 1 - 2 Connects the CRx1 pin to the CAN driver (U16) (1)
Connects CRx1 None (Open) Leaves the CRx1 pin disconnected to the CAN driver (U16) JP6 1 - 2 Terminates the CANL (ch0) pin (1) Terminates CANL (ch0) None (Open) Leaves the CANL (ch0) pin not terminated JP7 1 - 2 Terminates the CANH (ch0) pin (1) Terminates CANH (ch0) None (Open) Leaves the CANH (ch0) pin not terminated JP10 1 - 2 Terminates the CANL (ch1) pin (1) Terminates CANL (ch1) None (Open) Leaves the CANL (ch1) pin not terminated JP11 1 - 2 Terminates the CANH (ch1) pin (1) Terminates CANH (ch1) None (Open) Leaves the CANH (ch1) pin not terminated
Table 7.2.3 Power Supply Switch Jumper Setting (JP12) Number Setting Description
JP12 1 - 2 Supplies the system power from J17 PWRSEL 2 - 3 Supplies the system power from J18 (AC adapter is used) (1) Notes: 1. Default setting 2. Do not change the jumper settings while the M3A-HS64G02 is ON. Be sure to turn the power OFF before changing the settings.
REJ11J0042-0100 Rev.1.00 7-27 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.2.2 Switches and LEDs
7.2.2 Switches and LEDs
The M3A-HS64G02 includes 20 switches and 15 LEDs. The following figure shows assignments of switches and LEDs.
Top view of the component side
SW20
SW4 SW8 SW5 SW9 SW6 SW10 SW7 SW11 + LED15 SW12 SW16 SW13 SW17 SW14 SW18 SW15 SW19 SW3
LED11 LED12 LED13 LED14 LED5 LED6 LED7 LED8 SW1 SW2 LED1 LED2 LED3 LED4 LED9 LED10
Figure 7.2.3 M3A-HS64G02 Switches and LEDs Assignments
The following table lists switches mounted on the M3A-HS64G02. Table 7.2.4 M3A-HS64G02 Switches Number Name Remarks SW1 IRQ2 switch Refer to Section 4.13 for details. SW2 IRQ3 switch Refer to Section 4.13 for details. SW3 LCD module connector (J10) power supply switch Optional SW4 to SW19 Key input switches Refer to Section 4.12 for details. SW20 Power supply switch –
The following table lists LEDs mounted on the M3A-HS64G02. Table 7.2.5 M3A-HS64G02 LEDs Number Color Description LED1 to LED4 Green Brightness-control LEDs (MTU2 output pins: TIOC0A to 0D are connected) LED5 to LED8 Yellow Brightness-control LEDs (MTU2 output pins: TIOC1A, 1B, TIOC2A, and 2B are connected) LED9 and LED10 Blue Brightness-control LEDs (MTU2 output pins: TIOC3C and 3D are connected) LED11 to LED14 Orange Brightness-control LEDs (MTU2 output pins: TIOC4A to 4D are connected) LED15 Blue Power supply LED (LED15 is illuminated when 12 V power is supplied)
REJ11J0042-0100 Rev.1.00 7-28 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.3 M3A-HS64G02 Dimensions
7.3 M3A-HS64G02 Dimensions
Figure 7.3.1 and Figure 7.3.2 show the M3A-HS64G02 dimensions.
Note: All measurements are in millimeters.
Figure 7.3.1 M3A-HS64G02 Dimensions (Top View of the Component Side)
REJ11J0042-0100 Rev.1.00 7-29 Nov.18.2010
M3A-HS64G02 Operating Specifications 7 7.3 M3A-HS64G02 Dimensions
Note: All measurements are in millimeters.
Figure 7.3.2 M3A-HS64G02 Dimensions (Transparent View of the Component Side)
REJ11J0042-0100 Rev.1.00 7-30 Nov.18.2010
Appendix Schematics
A-1 This page intentionally left blank
A-2 1 2 3 4 5
SH7267 CPU board R0K572670C000BR SCHEMATICS
A A
TITLE PAGE Note: INDEX 1 Digital GND (GND) CPU SH7267/Clock 2 Analog GND (AVss) B Memory/USB 3 B (NOR/SDRAM/NAND/EEPROM/Serial-flash) USB Analog GND (USB_AVSS) Ext. Connector 4 Not mounted H-UDI/Reset/Power 5 Push Switch/User Port/UART 6 5VCC = Digital 5V 3VCC = Digital 3.3V 3VCC_CPU = 3.3V for CPU 1.2VCC = 1.25V PLL1.2V = 1.25V for PLL UA3V = Analog 3.3V for USB C UA1.2V = Analog 1.25V for USB C AVcc = Analog 3.3V AVref = 3.3V for ADC Voltage Reference
R = Fixed Resistors RA = Resistor Array C = Ceramic Caps CE = Tantalum Electrolytic Caps CP = Decoupling Caps
D D Renesas Solutions Corp. R0K572670C000BR INDEX DRAWN CHECKED DESIGNED SCALE APPROVED ( 16/) CHANGECHANGECHANGE Ver.1.00A DATE 10-10-22 DK30825 1 2 3 4 5 1 2 3 4 5
3VCC_CPU AVcc 3VCC_CPU 1.2VCC AVcc AVref PLL1.2V UA3V UA1.2V JP1 HWP-2P-G TP1 U1 D[0:15] 1 2 1 [3,4,6] A[1:22] PD[0:15] [3,4] AVcc SH7267 5 21 33 102 114 130 88 86 1 10 17 29 40 57 98 110 120 126 141 152 162 170 45 76 71 78 75 UA3V RENESAS 66 RA3 3VCC RA1 JP2 A1 4 160 D0 D0 1 8 D3 1 8 PD3 HWP-2P-G A2 PB1/A1/LCD_HSYNC PD0/D0/PWM1A D1 D1 D2 PD2 6 PB2/A2/LCD_VSYNC PD1/D1/PWM1B 159 2 7 2 7
TP4 A3 VCC1 VCC2 VCC3 VCC4 VCC5 VCC6 D2 D2 D1 PD1 1 2 1 7 AVCC 158 3 6 3 6 AVREF UA3V A4 PB3/A3/LCD_DATA15 PVCC1 PVCC2 PVCC3 PVCC4 PVCC5 PVCC6 PVCC7 PVCC8 PVCC9 PD2/D2/PWM1C D3 D3 D0 PD0 8 PB4/A4/TIOC0A/LCD_DATA14 PVCC10 PVCC11 PVCC12 PVCC13 PVCC14 PLLVCC PD3/D3/PWM1D 157 4 5 4 5 USBAVCC A5 13 USBDVCC USBUVCC 156 D4 USBAPVCC
PB5/A5/TIOC0B/LCD_DATA13 USBDPVCC PD4/D4/FRE#/PWM1E A6 14 149 D5 MNR14_4.7KΩ MNR14_22Ω 1.2VCC UA1.2V A7 PB6/A6/TIOC0C/LCD_DATA12 PD5/D5/FCLE/PWM1F D6 RA4 RA2 15 PB7/A7/TIOC0D/LCD_DATA11 PD6/D6/FALE/PWM1G 148 JP3 A8 16 147 D7 D4 1 8 D7 1 8 PD7 HWP-2P-G A9 PB8/A8/TIOC1A/LCD_DATA10 PD7/D7/FWE#/PWM1H D8 D5 D6 PD6 18 PB9/A9/TIOC1B/LCD_DATA9 PD8/D8/NAF0/PWM2A 146 2 7 2 7 1 2 1 TP2 A10 20 145 D9 D6 3 6 D5 3 6 PD5 UA1.2V A11 PB10/A10/TIOC2A/LCD_DATA8 PD9/D9/NAF1/PWM2B D10 D7 D4 PD4 22 PB11/A11/TIOC2B/LCD_DATA7 PD10/D10/NAF2/PWM2C 144 4 5 4 5 + CE1 A12 23 142 D11 A PLL1.2V 220µF A13 PB12/A12/TIOC3A/LCD_DATA6 PD11/D11/NAF3/PWM2D D12 MNR14_4.7KΩ MNR14_22Ω A 24 PB13/A13/TIOC3B/LCD_DATA5 PD12/D12/NAF4/PWM2E 140 A14 25 139 D13 RA9 RA5 L1 A15 PB14/A14/TIOC3C/LCD_DATA4 PD13/D13/NAF5/PWM2F D14 D8 D11 PD11 MUX Control(PB22) 26 PB15/A15/TIOC3D/LCD_DATA3 PD14/D14/NAF6/PWM2G 132 1 8 1 8 1 TP3 Low:Boot Seq. A16 34 131 D15 D9 2 7 D10 2 7 PD10 L300 PLL1.2V A17 PB16/A16/TIOC4A/LCD_DATA2 PD15/D15/NAF7/PWM2H D10 D9 PD9 35 PB17/A17/TIOC4B/LCD_DATA1/SCK1 3 6 3 6 CP1 + CE2 High:User Port A18 D11 D8 PD8 36 PB18/A18/TIOC4C/LCD_DATA0/TXD1 Data bus 4 5 4 5 0.1µF 220µF A19 37 A22 A20 PB19/A19/TIOC4D/RXD1 MNR14_4.7KΩ MNR14_22Ω R1 [3,4,6] PB22/A22 38 PB20/A20/SPDIF_IN/SCK4 A21 39 RA10 RA6 _0Ω A22 PB21/A21/SPDIF_OUT/TXD4 D12 D15 PD15 PD15 [4,6] PA[0:2] 43 1 8 1 8 PDO15 [3] PB22/A22/CS4#/RXD4 D13 D14 PD14 PD14 2 7 2 7 PDO14 [3] D14 3 6 D13 3 6 PD13 PA0 D15 D12 PD12 R2 48 PA0/MD_CLK0 4 5 4 5 PA1 49 _0Ω PA2 PA1/MD_BOOT0 MNR14_4.7KΩ MNR14_22Ω [3,4] PE[0:5] 62 3VCC PA2/MD_BOOT1 ROHM
R3 4.7KΩ PE0 PE0 138 PE2 R4 4.7KΩ PE1 PE1 PE0/SCL0/AUDIO_CLK/IRQ0 [3,4] PE2/SCL1 137 PE3 R5 4.7KΩ PE2 PE2 R6 10Ω PE1/SDA0/IOIS16#/IRQ1/TCLKA/ADTRG#/LCD_EXTCLK [3,4] PE3/SDA1 136 PJ[0:3] [4] R7 4.7KΩ PE3 PE3 R8 10Ω PE2/SCL1/IRQ2 135 PE3/SDA1/IRQ3 R9 4.7KΩ PE4 PE4 134 JP4 HWP-3P-G R10 4.7KΩ PE5 PE5 PE4/SCL2/DV_VSYNC PJ2 133 PE5/SDA2/DV_HSYNC PJ2/CTX1/CTX0&CTX1/CS2#/SCK0/LCD_M_DISP 105 1 PJ0/TXD0 [6] 2 PJ0 [4] AN[0:5] 3 COM JP5 HWP-3P-G 3VCC R11 _4.7KΩ AN0 AN0 80 1 PJ1/RXD0 [6] JP6 R12 _4.7KΩ AN1 AN1 PH0/AN0 81 PH1/AN1 2 HWP-2P-G R13 _4.7KΩ AN2 AN2 82 3 PJ1 R14 _4.7KΩ AN3 AN3 PH2/AN2 1 2 83 PH3/AN3 AN4 85 JP8 HWP-3P-G R15 4.7KΩ AN4 AN5 PH4/AN4 87 107 1 PJ3/IRQ1 [6] R16 4.7KΩ AN5 PH5/AN5 PJ0/CTX0/IETXD/CS1#/TXD0/A0 Interrupt 1 2 PJ1/CRX0/IERXD/IRQ0/RXD0 106 2 104 3 PJ3 JP7 PJ3/CRX1/CRX0/CRX1/IRQ1/AUDIO_XOUT/WDTOVF# [4] PG[0:24] PC[0:8] [3,4] HWP-2P-G B PCD[5:8] U2 SN74CB3Q3257 B PG0 PC0 Texas Instruments 55 PG0/LCD_DATA0/SD_D2/PINT0 PC0/CS0#/SSIWS0 161 PG1 54 163 PC1 2 PC5 PG2 PG1/LCD_DATA1/SD_D3/PINT1 PC1/RD#/SSISCK0 R17 22Ω PC2 PCD5 1B1 LCD 53 PG2/LCD_DATA2/SD_CMD/PINT2 PC2/RD/WR#/SSIRXD0 165 4 1A PC5B/RAS# [3] R154 PG3 52 166 R18 22Ω PC3 3 PG22 PG4 PG3/LCD_DATA3/SD_CLK/PINT3 PC3/WE0#/DQML/SSITXD0 R19 22Ω PC4 1B2 PC6 [3] PGO22 32 167 5 PG5 PG4/LCD_DATA4/SD_D0/PINT4/IRQ4 PC4/WE1#/DQMU/WE# PCD6 2B1 30 7 PC6B/CAS# [3] _18Ω PG6 PG5/LCD_DATA5/SD_D1/PINT5/IRQ5 2A 28 PG6/LCD_DATA6/SD_WP/PINT6/IRQ6 2B2 6 3VCC X1 PG7 27 11 PC7 SG-8002DC_5.33MHz R20 PG8 PG7/LCD_DATA7/SD_CD/PINT7/IRQ7 PCD5 PCD7 3B1 11 168 9 PC7B/CKE [3] PG20 PG9 PG8/LCD_DATA8/SSITXD0/RXD4/SIOFSCK PC5/RAS#/TIOC4A/IRQ4 PCD6 3A 8 VCC OUT 5 9 PG9/LCD_DATA9/SSIRXD0/TXD4/SIOFSYNC PC6/CAS#/TIOC4B/IRQ5 173 3B2 10 CP2 PG10 171 174 PCD7 14 PC8 NOR-flash 0.1µF 18Ω PG11 PG10/LCD_DATA10/SSISCK0/IRQ2/RXD5/SIOFRXD PC7/CKE/TIOC4C/IRQ6 PCD8 PCD8 4B1 4 1 169 175 12 PC8B/CS3# [3] SDRAM GND OE PG12 PG11/LCD_DATA11/SSIWS0/IRQ3/TXD5/SIOFTXD PC8/CS3#/TIOC4D/IRQ7 4A 155 PG12/LCD_DATA12/TIOC0A/RXD6 4B2 13 PG13 154 3VCC PG14 PG13/LCD_DATA13/TIOC0B/TXD6 MUX PC0 151 44 NMI [6] PC0/CS0# [3,4] PG15 PG14/LCD_DATA14/TIOC0C/RXD7 NMI PC1 150 46 RES# [3,4,5,6] Interrupt 16 8 PC1/RD# [3,4] 3VCC X2 PG16 R21 10Ω PG15/LCD_DATA15/TIOC0D/TXD7 RES# Vcc S OE GND PC2 123 PG16/LCD_VSYNC/TIOC1A/RXD1 PC2/RD/WR# [3,4] SG-8002CA_12MHzXR2A-0811-N R22 PG17 R23 10Ω 121 65 CP3 PC3 PG17/LCD_HSYNC/TIOC1B/TXD1 ASEMD# ASEMD# [5] 1 PC3/WE0#/DQML [3,4] PG18 0.1µF 15 PC4 4 3 2 89 TRST# [5] PC4/WE1#/DQMU [3,4] CP4 VCC OUT PG19 R24 10Ω PG18/LCD_DE/TIOC2A/RXD3/RTS1 TRST# 176 90 ASEBRKAK# [5] 0.1µF 18Ω PG20 PG19/LCD_CLK/TIOC2B/TXD3/CTS1 ASEBRKAK#/ASEBRK# 2 1 58 91 TDO [5] [6] SD_SEL GND OE PG21 PG20/LCD_EXTCLK/SCK1 TDO H-UDI 103 92 TDI [5] PG22 PG21/RSPCK1/TIOC0A TDI LED 101 93 TMS [5] PG23 PG22/SSL10/TIOC0B TMS 99 94 TCK [5] PF[0:12] [4,5] 3VCC X3 PG24 PG23/MOSI1/TIOC0C TCK Char- 97 PG24/MISO1/TIOC0D _SG-8002DC_10MHz R25 LCD PFD[9:12] U3 SN74CB3Q3257 8 5 50 119 PF0 Texas Instruments CP5 VCC OUT EXTAL PF0/WAIT#/DV_DATA0/SCK2/TEND0/AUDCK PF1 S1 51 XTAL PF1/BREQ#/DV_DATA1/RXD2/DREQ0/SD_D2/AUDSYNC# 118 1B1 2 0.1µF 4 1 18Ω 117 PF2 PFD9 4 GND OE X4 PF2/BACK#/DV_DATA2/TXD2/DACK0/SD_D3/AUDATA0 PF3 1A 60 116 3 PF9B/FRB [3] XR2A-0811-N MC-306 32.768KHz RTC_X1 PF3/ICIORD#/SSISCK1/DV_DATA3/RXD3/SD_CMD/AUDATA1 PF4 1B2 S2 61 RTC_X2 PF4/ICIOWR#/AH#/SSIWS1/DV_DATA4/TXD3/SD_CLK/AUDATA2 115 2B1 5 113 PF5 PFD10 7 NAND PF5/CS5#/CE1A#/SSIDATA1/DV_DATA5/TCLKC/SD_D0/AUDATA3 PF6 2A 111 6 PF10B/FCE# [3] C1 C2 PF6/CS6#/CE1B#/SSISCK2/DV_DATA6/TCLKB/SD_D1 PF7 2B2 PF7/CE2A#/SSIWS2/DV_DATA7/TCLKD/SD_WP 109 3B1 11 10pF 10pF 108 PF8 9 3VCC X5 PF8/CE2B#/SSIDATA2/DV_CLK/SD_CD PFD9 3A PF9/A23/SSISCK3/RSPCK0/TIOC3A/FRB 129 3B2 10 SG-8002JF_48MHz R26 127 PFD10 14 C PF10/A24/SSIWS3/SSL00/TIOC3B/FCE# 4B1 C 4 3 63 125 PFD11 12 CP6 VCC OUT R27 USB_X1 PF11/A25/SSIDATA3/MOSI0/TIOC3C/SPDIF_IN PFD12 4A 64 USB_X2 PF12/BS#/MISO0/TIOC3D/SPDIF_OUT 124 4B2 13 0.1µF 2 1 18Ω _1MΩ 3VCC GND OE X6 R28 MUX 96 68 DM [3] _DSX321G_48MHz _560Ω AUDIO_X1 DM 95 69 DP [3] 16 8 AUDIO_X2 DP Vcc S OE GND VBUS 70 VBUS [3] USB 41 73 CP7 1 VSS14 VSS15 CKIO AVSS USBAVSS USBAPVSS USBDPVSS USBDVSS USBUVSS PLLVSS VSS1 VSS2 VSS3 VSS4 VSS5 VSS6 VSS7 VSS8 VSS9 VSS10 VSS11 VSS12 VSS13 REFRIN C3 C4 0.1µF 15 _8pF _8pF R29 3
3VCC X7 84 77 74 67 72 79 47 12 19 31 42 56 59 5.6KΩ-1% 3VCC 164 172 100 112 122 128 143 153 [6] NAND_SEL SG-8002JF_11.2896MHz Decoupling Caps 4 3 S[1:2] CP8 VCC OUT JP9 U4 3VCC_CPU for Digital 3.3V R31 0.1µF R30 HWP-3P-G CY2305SC-1H _4.7KΩ U5 SN74CB3Q3257 2 GND OE 1 18Ω 1 Cypress Texas Instruments 2 1 8 2 PF9 REF CLKOUT CP9 CP10 CP11 CP12 CP13 CP14 CP15 CP16 CP17 CP18 CP19 CP20 CP21 CP22 CE3 C5 S1 1B1 3 3 + 4 PF9AB/RSPCK0 [3,4] 3VCC X8 3VCC CLK1 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 4.7µF _18pF 1A CLK2 2 1B2 3 SG-8002DC_12.2880MHz 5 5 PF10 CLK3 S2 2B1 8 5 6 7 7 PF10AB/SSL0 [3] CP23 VCC OUT CP24 VDD GND CLK4 2A 2B2 6 Serial- 0.1µF 4 1 R32 0.1µF 1.2VCC PLL1.2V AVcc AVref 11 PF11 4 for Digital 1.25V GND OE 18Ω PFD11 3B1 flash/CD 9 3A PF11B/MOSI0 [3,4] XR2A-0811-N 10 3B2 PF12 [4] AUDIO_XTAL 14 CP25 CP26 CP27 CP28 CP29 CP30 CE4 CP31 CP32 CP33 PFD12 4B1 + 12 PF12B/MISO0 [3,4] R33 22Ω 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 4.7µF 0.1µF 0.1µF 0.1µF 4A [3] CKIO_SD 13 R34 22Ω 3VCC 4B2 [4] CKIO_CN MUX PF0 16 8 PF0/AUDCK [4,5] UA3V UA1.2V 3VCC_CPU 1.2VCC 1.2VCC Vcc S OE GND PF1 for USBDPVcc(3.3V) for USBUVcc(1.25V) PF1/AUDSYNC# [4,5] for USB Analog 3.3V for USB Analog 1.25V for USBDVcc(1.25V) CP34 PF2 1 PF2/AUDATA0 [4,5] 0.1µF 15 PF3 PF3/AUDATA1 [4,5] H-UDI PF4 PF4/AUDATA2 [4,5] CP35 CP36 CP37 CE5 CE6 CP38 CP39 CP40 CE7 CE8 CP41 CP42 CP43 CE9 CE10 CP44 CP45 CP46 CE11 CE12 CP47 CP48 CP49 CE13 CE14 PF5 + + + + + + + + + + [6] RSPI_SEL PF5/AUDATA3 [4,5] 0.001µF 0.01µF 0.1µF 10µF 22µF 0.001µF 0.01µF 0.1µF 10µF 22µF 0.001µF 0.01µF 0.1µF 10µF 22µF 0.001µF 0.01µF 0.1µF 10µF 22µF 0.001µF 0.01µF 0.1µF 10µF 22µF
D D Renesas Solutions Corp. R0K572670C000BR CPU SH7267, Clock, MUX DRAWN CHECKED DESIGNED APPROVED ( 26 / ) SCALE CHANGECHANGECHANGE Ver.1.00A DATE 10-10-22 DK30825 1 2 3 4 5 1 2 3 4 5
3VCC
[2,4] PD[0:15] R35 R36 R37 R38 [2,4,6] A[1:22] NOR-flash (4MB) 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ NAND-flash (256MB) EEPROM(16KB) AA[22:22] U6 U7 U8 S29GL032N-48 K9F2G08U0A R1EX24128ASA00A Spansion SAMSUNG RENESAS A22 R39 _0Ω AA22 AA22 PD15 PD15/NAF7 PD15 R40 13 NC(A21) DQ15/A-1 45 44 I/O7 NC1 1 [2,4] PE2/SCL1 6 SCL A2 3 A21 10 43 PD14 PD14/NAF6 PD14 43 2 0Ω 2 A20 A20 DQ14 PD13 PD13/NAF5 PD13 I/O6 NC2 R43 A1 9 A19 DQ13 41 42 I/O5 NC3 3 [2,4] PE3/SDA1 5 SDA A0 1 A19 16 39 PD12 PD12/NAF4 PD12 41 4 0Ω R41 4.7KΩ AA22 A18 A18 DQ12 PD11 PD11/NAF3 PD11 I/O4 NC4 3VCC 17 36 32 5 [6] E2P_WP 7 R42 4.7KΩ A21 A17 A17 DQ11 PD10 PD10/NAF2 PD10 I/O3 NC5 WP 48 A16 DQ10 34 PD9/NAF1 31 I/O2 NC6 6 A16 1 32 PD9 PD8/NAF0 PD9 30 10 4 8 A15 A15 DQ9 PD8 PD8 I/O1 NC7 VSS VCC 2 A14 DQ8 30 29 I/O0 NC8 11 A14 3 44 PD7 PD7/FWE# 14 CP50 A A13 A13 DQ7 PD6 PD7 NC9 0.1µF A 4 A12 DQ6 42 PD6/FALE 18 WE NC10 15 A12 PD5 PD5/FCLE PD6 5 A11 DQ5 40 17 ALE NC11 20 A11 6 38 PD4 PD4/FRE# PD5 16 21 3VCC A10 A10 DQ4 PD3 PD4 CLE NC12 TH1 TH8 7 A9 DQ3 35 8 RE NC13 22 A9 8 33 PD2 23 1 1 A8 A8 DQ2 PD1 NC14 1 1 18 31 [2] PF9B/FRB 7 24 A7 A7 DQ1 PD0 R/B NC15 19 A6 DQ0 29 [2] PF10B/FCE# 9 CE NC16 25 3VCC A6 20 26 2.54mm A5 A5 NC17 TH2 TH7 21 [6] NAND_WP# 19 27 A4 A4 WP NC18 22 A3 NC19 28 1 1 1 1 A3 23 33 R44 R45 R46 R47 A2 A2 NC20 24 A1 NC21 34 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ A1 25 15 3VCC 3VCC 35 A0 RY/BY NC22 TH3 TH6 NC23 38 47 13 39 [2] PGO22 1 1 BYTE R48 R49 Vss NC24 1 1 [2,4] PC0/CS0# 26 H2 36 40 CE 0Ω H1 0Ω Vss NC25 [2,4] PC1/RD# 28 45 OE NC26 3VCC [2,4] PC3/WE0#/DQML 11 WE 1 1 NC27 46 37 47 TH4 TH5 FVDD VCC NC28 [2,4,5,6] RES# 12 RESET NVDD 12 VCC NC29 48 1 1 1 1 [6] NOR_WP# 14 37 WP/ACC VSS VSS VCC + CE16 CP51 CP53 CP54 CP52 + CE15 4.7µF 0.1µF 0.1µF 0.1µF
27 46 0.1µF 4.7µF 15.24mm
3VCC Serial-flash(2MB) R50 R51 R52 R53 R54 U10 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ AT26DF161A ATMEL B SDRAM (16MB) [2] PF10AB/SSL0 1 4 B U9 CS GND [2,4] PF9AB/RSPCK0 6 EDS1216AHTA SCK [2,4] PF11B/MOSI0 5 ELPIDA SI [2,4] PF12B/MISO0 2 A14 PD15 SO 21 BA1 DQ15 53 [6] SF_WP# A13 20 51 PD14 3 3VCC BA0 DQ14 PD13 R55 _0Ω WP 50 [2] PDO14 A12 DQ13 PD12 R56 _0Ω 35 48 [2] PDO15 7 8 A11 A11 DQ12 PD11 HOLD VCC 22 A10 DQ11 47 A10 34 45 PD10 CP55 A9 A9 DQ10 PD9 0.1µF 33 A8 DQ9 44 A8 32 42 PD8 A7 A7 DQ8 PD7 31 A6 DQ7 13 3VCC A6 30 11 PD6 A5 A5 DQ6 PD5 29 A4 DQ5 10 A4 26 8 PD4 A3 A3 DQ4 PD3 25 A2 DQ3 7 R57 R58 R59 R60 R61 R62 A2 24 5 PD2 3VCC 3VCC 5VCC _4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ A1 A1 DQ2 PD1 23 A0 DQ1 4 2 PD0 DQ0 3VCC R63 R64 U11 R65 [2] PC8B/CS3# 19 CS _4.7KΩ 4.7KΩ MIC-2025-2YM 0Ω [2] PC5B/RAS# 18 40 RAS NC1 MICREL [2] PC6B/CAS# 17 36 CAS NC2 R66 TP5 [2,4] PC2/RD/WR# 16 1 8 WE 0Ω H3 3VCC EN OUT2 39 TP6 2 7 [2,4] PC4/WE1#/DQMU DQMU 1 FLG IN 2 15 DQML VDD 1 1-2 USB Host Mode 14 SVDD R67 3 6 JP10 VDD 0Ω H4 R68 GND OUT1 HWP-2P-G None USB Function Mode [2] PC7B/CKE 37 CKE VDD 27 38 4.7KΩ 4 5 + CE17 [2] CKIO_SD 1 CLK 1 NC1 NC2 CP56 150µF VDDQ 3 9 SVDDQ 0.1µF TP7 R69 R70 R71 CP57 VDDQ VBUS VDDQ 43 4.7KΩ _4.7KΩ _4.7KΩ _18pF 49
VSS VSS VSS VSSQ VSSQ VSSQ VSSQ VDDQ CP58 CP59 CP60 CP61 CP62 CP63 CP64 + CE18 6
28 41 54 12 46 52 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 4.7µF L2 C R72 C [2] VBUS _L600 100Ω USB Socket-A C6 C7 J1 JST 1µF 1µF UBA-4R-D14T-4D
1 VBus FG2 7 [2] DM 2 D- FG1 6 3 1 2 D+ 4 5 L3 GND FRAME _DLW21HN900SQ2 4 3 [2] DP USB MOLEXMini-B J2 _54819-0572
4 TP8 1 2 D1 ID USB_ID _HZM6.2Z4MFA 1 VBus FG3 9 2 D- FG2 8 3 D+ FG1 7 5 GND FRAME 6 5 4 3
L4 _L600
D D Renesas Solutions Corp. R0K572670C000BR Memory, USB DRAWN CHECKED DESIGNED APPROVED ( 36 / ) SCALE CHANGECHANGECHANGE Ver.1.00A DATE 10-10-22 DK30825 1 2 3 4 5 1 2 3 4 5
PH[0:5] [6] VIN#/SD PE[0:5] [2,3] PE[0:5] PF[0:12] [2,5] PF[0:12] PG[0:24] [2] PG[0:24] PFB[1:8] [2] PJ[0:3] PFA[1:8] [2,6] PA[0:2] PA, PJ, PH PE PH
5VCC 3VCC 3VCC 5VCC AVcc AVref AVref AVcc
A CN1 CN2 CN3 A 1 2 PH4 1 2 1 2 3 4 PH5 3 4 PH1 3 4 PH0 5 6 5 6 5 6 7 8 PA2 7 8 PE5 PH3 7 8 PH2 PA1 9 10 PA0 PE4 9 10 PE3 9 10 11 12 PE2 11 12 PE1 11 12 13 14 U12 SN74CB3Q3257 PE0 13 14 13 14 15 16 Texas Instruments 15 16 15 16 PJ3 PJ2 PFA1 17 18 1B1 2 17 18 17 18 PJ1 19 20 PJ0 PF1 4 C10 19 20 19 20 C8 C9 1A PFB1 0.1µF C11 C12 C13 C14 C15 1B2 3 0.1µF XG4C-2031 0.1µF 5 PFA2 _XG4C-2031 0.1µF 0.1µF 0.1µF XG4C-2031 0.1µF 0.1µF OMRON PF2 2B1 OMRON OMRON 7 2A 6 PFB2 2B2 PFA3 3B1 11 PF3 9 3A PFB3 3B2 10 14 PFA4 PF4 4B1 [2,3,6] A[1:22] 12 4A 13 PFB4 3VCC 4B2 PB (PB[1:22] = A[1:22]) MUX PF AVcc 16 8 5VCC 3VCC 3VCC 5VCC Vcc S OE GND 5VCC AN[0:5] [2] CP65 D2 CN4 1 CN5 A1 1 2 A2 0.1µF 15 1 2 RB520S-30 A3 3 4 A4 3 4 A5 5 6 A6 PF12 5 6 PH0 R73 AN0 7 8 PF11 7 8 PF10 100Ω A7 9 10 A8 9 10 PF9 D3 C16 A9 11 12 A10 U13 SN74CB3Q3257 PF8 11 12 PF7 RB520S-30 0.1µF A11 13 14 A12 Texas Instruments PF6 13 14 PFA5 PF5 PF4 15 16 1B1 2 15 16 A13 17 18 A14 PF5 4 PF3 17 18 PF2 AVcc A15 A16 1A PFB5 PF1 PF0 19 20 1B2 3 19 20 A17 21 22 A18 5 PFA6 C17 PF6 2B1 _XG4C-2031 0.1µF D4 23 24 7 2A B A19 25 26 A20 6 PFB6 OMRON RB520S-30 B A21 A22 2B2 PFA7 27 28 3B1 11 29 30 PF7 9 PH1 R74 AN1 C18 C19 C20 C22 3A PFB7 100Ω 3B2 10 0.1µF 0.1µF _XG4C-3031 0.1µF 0.1µF 14 PFA8 D5 C21 OMRON PF8 4B1 RB520S-30 0.1µF 12 4A 13 PFB8 3VCC 4B2 MUX AVcc 16 8
Vcc S OE GND CP66 D6 [2,3] PC[0:8] 1 PC, PG, CKIO, 5Vin, 3Vout 0.1µF 15 RB520S-30 PE, PF, AUDIO RES# [2,3,5,6] PH2 R75 AN2 Low:A-B1, Hi:A-B2 100Ω 5VCC 3VCC 3VCC 5VCC 3VCC 3VCC 5VCC D7 C23 PFB2 RB520S-30 0.1µF CN6 CN7 1 2 R76 10KΩ PFA1 PFB4 1 2 PFB1 3 4 3VCC R80 10KΩ PFA2 3 4 PFB3 3VCC PC0 5 6 PC1 R77 10KΩ PFA3 PE0 5 6 PE1 AVcc PC2 7 8 PC3 R81 10KΩ PFA4 PE2 7 8 PE3 PC4 9 10 PG23 R78 R79 10KΩ PFA5 PE4 9 10 PE5 R82 PG24 11 12 _10KΩ PFB6 11 12 D8 _10KΩ 13 14 PC5 PFB8 13 14 PFB5 RB520S-30 PC6 15 16 PC7 15 16 PFB7 PC8 17 18 PF0 17 18 PH3 R83 AN3 C25 C26 19 20 CKIO_CN [2] PFA2 19 20 PFA1 100Ω 0.1µF 0.1µF C27 C28 21 22 PFA3 D9 C24 XG4C-2031 0.1µF 0.1µF PFA5 23 24 PFA4 RB520S-30 0.1µF OMRON PFA6 25 26 PFA8 27 28 PFA7 [2,3] PF11B/MOSI0 29 30 AVcc [2,3] PF12B/MISO0 31 32 PF0 33 34 3VCC PF10 35 36 PF9 D10 PF11 37 38 PF12 RB520S-30 R84 10KΩ PF9 39 40 C R85 10KΩ PF10 C29 C30 PH4 R86 AN4 C R87 10KΩ PF11 0.1µF XG4C-4031 0.1µF 100Ω OMRON D11 C31 RB520S-30 0.1µF
AVcc PF9AB/RSPCK0 [2,3] [2,3] PD[0:15] AUDIO_XTAL [2] D12 PD PG(LCD Panel) RB520S-30 PH5 R88 AN5 3VCC 5VCC 3VCC 5VCC 100Ω CN8 CN9 D13 C32 PD0 1 2 PD8 PG1 1 2 PG0 RB520S-30 0.1µF PD1 3 4 PD9 PG3 3 4 PG2 ROHM 5 6 PD2 5 6 PG4 PD10 7 8 PD3 PG6 7 8 PG5 PD11 9 10 PG7 9 10 PD4 11 12 PD12 PG9 11 12 PG8 PD5 13 14 PD13 PG11 13 14 PG10 15 16 PD6 15 16 PG12 PD14 17 18 PD7 PG14 17 18 PG13 PD15 19 20 PG16 19 20 PG15 C33 C34 PG17 21 22 0.1µF _XG4C-2031 0.1µF PG19 23 24 PG18 3VCC OMRON 25 26 PG20 PG22 27 28 PG21 R89 PFA1 29 30 _10KΩ C35 C36 R90 0.1µF XG4C-3031 0.1µF 10KΩ OMRON
D D Renesas Solutions Corp. R0K572670C000BR Ext. Connector, AD Protection DRAWN CHECKED DESIGNED APPROVED ( 46 / ) SCALE CHANGECHANGECHANGE Ver.1.00A DATE 10-10-22 DK30825 1 2 3 4 5 1 2 3 4 5
H-UDI Interface
3VCC 3VCC 5V To 3.3V Linear Regulator
1-2 Power On 8 7 6 5 8 7 6 5 2-3 Power Off R91 RA7 R92 R93 RA8 _4.7KΩ MNR14_4.7KΩ _4.7KΩ 4.7KΩ MNR14_4.7KΩ 3VCC J3 Power 29 15 1 2 3 4 1 2 3 4 UVCC NC Switch 13 Vin 5VCC U14 3VCC R98 0Ω NC LMS1587CS-ADJ TP9 [2,4] PF0/AUDCK ROHM 1 35 A R94 0Ω AUDCK NC J4 JP11 SW1 3.3V External A [2,4] PF2/AUDATA0 3 R95 0Ω AUDATA0 [2,4] PF3/AUDATA1 5 2 1 3 2 R96 0Ω AUDATA1 GND 1 1 VIN VOUT 3VCC_EX [2,4] PF4/AUDATA2 7 4 2 3.3V R97 0Ω AUDATA2 GND 3VCC 2 2 J5 [2,4] PF5/AUDATA3 9 AUDATA3 GND 6 3 3 NS 8 S2B-XH-A 4 1 R100 0Ω GND XG8V-0334 MS-12AAH1 ADJ TAB R99 [2,4] PF1/AUDSYNC# 11 _AUDSYNC GND 10 2 12 110Ω + GND 1 R101 + CE19 + CE20 + CE21 _B2B-XH-A CE22 [2] TCK 17 TCK GND 14 Power 19 16 4.7KΩ JST 10µF 22µF 22µF 10µF [2] TMS TMS GND OMRON NIKKAI [2] TRST# 21 _TRST GND 18 Connector 23 20 [2] TDI TDI GND JST [2] TDO 25 TDO ASEMD 22 ASEMD# [2] [2] ASEBRKAK# 27 24 _ASEBRAK GND J6 R102 31 _RES GND 26 28 1 180Ω(1/8W) R103 R104 GND 1-2 Fixed 3.3V GND 30 3 1KΩ 1KΩ 32 2 2-3 External 3.3V GND HEC0470-01-630 GND 33 37 FRAME GND 34 38 36 FRAME GND HOSHIDEN 3VCC_EX 3VCC 3VCC_CPU DX10M-36SE JP12 HWP-3P-G 1 HRS 2 3VCC 3 J7 ADC Voltage Reference + CE23 11 8 4.7µF UVCC NC U15 5VCC LM4132 AVref NS 1 TCK 2 _TRST ASEMD 9 4 Vin Vref 5 3 10 TDO GND CP67 CP68 4 _ASEBRAK GND 12 5 13 0.1µF 3 1 0.1µF
TMS GND EN GND NC 6 TDI GND 14 7 _RES 2 B B
7614-6002 3M 5V TO 1.25V STEP DOWN REGULATOR 1.25V EXTERNAL
5VCC 1.2VCC_IN 1.2VCC_EX L5 J8 3VCC MIPW3226D2R2M 1 CE24 + U16 FDK 2 4.7µF/16V + 10 VIN1 LX1 11 R105 21 20 _B2B-XH-A JSTCE25 U17C R106 _4.7KΩ VIN2 LX2 10µF 3 5 22 15 CP69 R109 + CE26 + CE27 ON/OFF PGND1 R108 47pF 499KΩ 220µF 23 PWGD PGND2 16 4.7µF HD74LV2G14A 0Ω R107 2 17 68KΩ _4.7KΩ EAO PGND3 5 VREF Power On Reset 9 CP70 CRFB 1-2 Fixed 1.25V VFB 8 3VCC _0.1µF 4 2-3 External 1.25V 3VCC AGND FIN 25 RENESAS R111 R112 U18 R110 R2A20101NP 100KΩ 332KΩ 1 5 4.7KΩ 1.2VCC_EX 1.2VCC_IN 1.2VCC VDD33 SWG U19 JP13 CP71 R113 6 2 1 U17A U17B HWP-3P-G 0.1µF 330KΩ VDD18 RESP RESN 3 4 1 7 6 2 RES# [2,3,4,6] 1 7 R114 220Ω 2 2 CREXT TOSHIBA HD74LV2G14A HD74LV2G14A RENESAS8 MR GND 4 3 TC7S08 + CE28 RNA50C27AUS C37 OMRON 4.7µF 0.1µF SW2 3VCC B3SN-3012 + CE29 3VCC C 2.2µF C
8 U17D
CP72 CP73 RENESAS 0.1µF 0.1µF HD74LV2G14A td= 33ms[0.1uF * 330KΩ] 4 Power LED POWER TEST PIN AGND-DGND Board fixed hole. Decoupling Caps for TC7S08FU for Corner(M3) 5VCC 5VCC 1.2VCC 3VCC MH1 1 TP10 TP11 TP12 TP13 R116 R117 1 HOLE R115 1KΩ 5V 1.25V + CE30 3.3V GND 0Ω 0Ω MH2 STANLEY 220µF 1 TP14 TP15 TP16 1 LED1 HOLE UB1111C J9 5V 3.3V GND 1 OMRON MH3 BLUE R118 2 1 1 TP17 _100KΩ TP18 3 HOLE XG8S-0331 1.25V + CE31 GND MH4 220µF R119 1 _100KΩ 1 HOLE
D D Renesas Solutions Corp. R0K572670C000BR H-UDI,Power, Reset, Hole, TP DRAWN CHECKED DESIGNED APPROVED ( 56 / ) SCALE CHANGECHANGECHANGE Ver.1.00A DATE 10-10-22 DK30825 1 2 3 4 5 5 4 3 2 1
3VCC NMI SWITCH CIRCUIT User Port R120 R121 1.5KΩ 1.5KΩ 3VCC PA_B[0:2] LED2 LED3 PA0 SML-311YT SML-311YT PA1 PA_A[0:2] TP19 TP20 ROHM R122 U21 SN74CB3Q3257 PA0B PA1B [2,4] PA[0:2] 10KΩ Texas Instruments PA_A0 1B1 2 PA0/MD_CLK0 PA0 4 PA_B0 R123 0Ω R124 220Ω R125 0Ω 1A PA_B0 1 2 3 4 NMI [2] 1B2 3 5 PA_A1 PA_B1 R126 0Ω PA1/MD_BOOT0 PA1 2B1 7 2A 6 PA_B1 D 2B2 D + CE32 U20A U20B PA_A2 NMI PA2/MD_BOOT1 3B1 11 SW3 2.2µF SN74LVC14_3 SN74LVC14_3 PA2 9 B3SN-3012 3A PA_B2 SWITCH 3B2 10 Decoupling Caps 4B1 14 12 4A 3VCC 13 3VCC 4B2 MUX CP74 16 8 0.1µF Vcc S OE GND CP75 1
0.1µF 15
R127 [2,3,4] PB22/A22 0Ω IRQ SWITCH CIRCUIT R128 4.7KΩ 3VCC
ON:Low, OFF:Hi R129 System Switch 3VCC 10KΩ
R130 220Ω R131 0Ω SW5 R132 R133 R134 R135 R136 R137 5 6 9 8 PJ3/IRQ1 [2] A6S-6104 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ OMRON 1 12 PA_A0 + CE33 U20C U20D 2 11 PA_A1 SW4 2.2µF SN74LVC14_3 SN74LVC14_3 3 10 PA_A2 B3SN-3012 IRQ1 4 9 SD_SEL [2] SWITCH 5 8 NAND_SEL [2] 6 7 RSPI_SEL [2]
ON:Low, OFF:Hi C C
User Switch 3VCC
SW6 R138 R139 R140 R141 R142 R143 TEST SWITCH CIRCUIT A6S-6104 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 4.7KΩ 3VCC OMRON NOR_WP# [3] 1 12 NAND_WP# [3] 2 11 SF_WP# [3] 3 10 E2P_WP [3] R144 4 9 10KΩ 5 8 PA_B2 6 7 VIN#/SD [4] R145 220Ω 11 10 13 12 R146 0Ω TP21 TEST
+ CE34 U20E U20F SW7 2.2µF SN74LVC14_3 SN74LVC14_3 B3SN-3012 TEST SWITCH
OMRON
for Noise Control Serial Port Connector(COM)MAXIM B B 3VCC J10 5VCC 3VCC_CPU 1.2VCC XM2C-0942-132L
U22 5 CQ1 CQ2 CQ3 CQ24 CQ25 CQ26 CQ4 CQ5 CQ6 CQ7 R147 R148 MAX3222E 9 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 4.7KΩ _4.7KΩ 4 TTL RS-232 8 RXD0 R149 0Ω [2] PJ1/RXD0 15 R1OUT R1IN 16 TxD0 3 10 9 7 TXD0 R150 0Ω R2OUT R2IN RxD0 [2] PJ0/TXD0 13 17 2 3VCC R151 0Ω T1IN T1OUT 12 T2IN T2OUT 8 6 10 1 FG 11 2 3 C38 0.1µF CQ10 CQ11 CQ12 CQ13 CQ14 CQ19 CQ20 CQ21 CQ22 CQ23 C1+ V+ 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF C39 7 C40 0.1µF 0.1µF V- 4 C1- 5 3VCC C2+ 3VCC C41 19 AVcc Vin 0.1µF VCC 6 C2- R152 CP76 + CE35 R153 _4.7KΩ 1 0.1µF 4.7µF CQ8 CQ9 CQ15 CQ16 CQ17 CQ18 EN [2,3,4,5] RES# 20 18 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF 0.1µF SHDN GND 0Ω C42 _0.1µF
A A Renesas Solutions Corp. R0K572670C000BR Switch, User Port, UART DRAWN CHECKED DESIGNED APPROVED ( 66 / ) SCALE CHANGECHANGECHANGE Ver.1.00A DATE 10-10-22 DK30825 5 4 3 2 1 5 4 3 2 1
SH7264/62 Optional board M3A-HS64G01 SCHEMATICS
D D
TITLE PAGE Note: INDEX 1 Digital GND (GND) CPU Board Stack Connector 2 C Character LCD/SD Card Slot 3 Analog GND (AVSS) C Audio CODEC 4 Analog GND (AGND) Audio D/A Converter 5 CD/UART/IIC/RSPDIF/Rotary Encoder 6 Not mounted LCD Module Connector 7 CAN/IEBus 8 12VCC = Digital 12V Power in Key Input 9 8VCC = Digital 8V for CD Power Generate 10 5VCC = Digital 5V 5AVCC = Analog 5V for Audio CODEC 3VCC = Digital 3.3V
B 3AVCC = Analog 3.3V for Audio DAC B AVcc = Analog 3.3V for Key Input MCVCC = Digital 3.3V / 5V for SD
R = Fixed Resistors C = Ceramic Caps CP = Decoupling Caps CE = Electrolytic Caps (Tantal / Electric)
A A Renesas Solutions Corp. M3A-HS64G01
DRAWN CHECKED DESIGNED APPROVED INDEX ( 110 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
M3A-HS64/HS62 CPU Board Stack Connector
D D 3VCC 5VCC 3VCC 5VCC
C1 + CE1 C2 + CE2 C3 + CE3 C4 + CE4 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V
3VCC 5VCC 3VCC 5VCC
CN1 CN6 1 1 [6] PJ10 2 2 3 3 [6] PJ9 4 4 [6] PJ8/RTS3# 5 5 6 6 PJ11 7 7 8 8 9 9 10 10 11 11 PC0 PC1 [6] PJ7/CTS3# 12 [3] PC9 12 PA3 13 13 PC2 [6] PJ6/SCK3 PA2 [3] PC10 PC3 14 14 [6] PJ5/TxD3 PA1 PC4 [6] PJ4/RxD3 PA0 15 15 16 16 [8] PJ3/CRx1 17 17 [7,8] PJ2/CTx1/LCD_M_DISP 18 18 [8] PJ1/CRx0/IERxD 19 19 PC5 PC6 [8] PJ0/CTx0/IETxD 20 20 PC7 XG4H-20 PC8XG4H-20 C C CKIO
3VCC 5VCC 3VCC 5VCC AVcc
C5 + CE5 C6 + CE6 C7 + CE7 C8 + CE8 C9 + CE9 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V
AVss 3VCC 5VCC 3VCC 5VCC AVcc [7] LCD_DATA[0:15] CN7 CN9 CN3 LCD_DATA1 [3] PK1/SD_D3 1 1 1 LCD_DATA0 [3] PK0/SD_D2 2 2 2 LCD_DATA3 [3] PK3/SD_CLK 3 3 [9] PH1/AN1 3 AVREF LCD_DATA2 [3] PK2/SD_CMD 4 4 [9] PH0/AN0 4 AVREF [4] PE0/AUDIO_CLK 5 5 5 LCD_DATA4 [6] RES# 6 6 6 LCD_DATA6 [5] PE2/SCL1 7 7 [9] PH3/AN3 7 AVREF LCD_DATA5 [6] PE1/IRQ1/TCLKA 8 8 [9] PH2/AN2 8 AVREF LCD_DATA7 [6] PE4/SCL2 9 9 9 [5] PE3/SDA1 10 10 10 11 LCD_DATA9 11 11 LCD_DATA8 [6] PE5/SDA2 12 12 12 LCD_DATA11 PH5 [3] PK5/SD_D1 13 13 13 B LCD_DATA10 PH4 B [3] PK4/SD_D0 14 14 14 [3] PK7/SD_CD 15 15 [7] PH7/AN7 15 LCD_DATA12 [3] PK6/SD_WP 16 16 16 R1 0Ω LCD_DATA14 [5] PF0/SSISCK1 17 17 17 PH6 18 LCD_DATA13 18 18 R2 0Ω [5] PF2/SSIDATA1 19 19 19 LCD_DATA15 [5] PF1/SSIWS1 20 20 20 21 [7] PG16/LCD_VSYNC 21 XG4H-20 R3 0Ω [5] PF3/SSISCK2 22 [7] PG17/LCD_HSYNC 22 R4 0Ω [5,6] PF5/SSIDATA2/TCLKC 23 [7] PG19/LCD_CLK 23 [5] PF4/SSIWS2 24 [7] PG18/LCD_DE 24 AVss [6] PF6/SSISCK3/TCLKB 25 25 26 26 PG20 [6] PF8/SSIDATA3 27 [4] PG22/SSL1 27 [6] PF7/SSIWS3/TCLKD 28 [4] PG21/RSPCK1 28 29 [4,5] PG24 29 [6] PF9/RSPCK0 30 [4] PG23/MOSI1 30 [6] PF11/MOSI0/SPDIF_IN 31 XG4H-30 [6] PF10/SSL0 32 [6] PF12/MISO0/SPDIF_OUT 33 34 [4] PK9/SSIWS0 35 [4] PK8/SSISCK0 36 [4] PK11/SSITxD0 37 [4] PK10/SSIRxD0 38 39 [4] AUDIO_XTAL 40 XG4H-40
A A Renesas Solutions Corp. M3A-HS64G01 CPU Board Stack Connector DRAWN CHECKED DESIGNED APPROVED ( 210 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
Character Type LCD Connector D D 3VCC 5VCC 5VCC
R5 R6 R7 _10kΩ 3.9kΩ 47Ω 1 3
2 2
R8 VR1 VR2 0Ω 10KΩB 1kΩB 5VCC 3 1 J1 1 GND 2 VCC 3 Vo 4 HS62 [PG15] → [2] PC9 RS 5 R/W [2] PC10 6 E HS62 [PG16] → LCD_D0 7 LCD_D1 DB0 8 DB1 LCD_D2 9 LCD_D3 DB2 LCD/SD Selector 10 DB3 LCD_D4 11 LCD_D5 DB4 12 DB5 3VCC 3VCC LCD_D6 13 LCD_D7 DB6 14 DB7 15 CP1 A 16 K 0.1µF/25V C69 PM-61-16P U1 16 0.1µF/25V
C 4 2 LCD_D0 C
[2] PK0/SD_D2 D1 VDD S1A 3 SD_D2 S1B LCD_D1 [2] PK1/SD_D3 7 D2 S2A 5 6 SD_D3 S2B LCD_D2 [2] PK2/SD_CMD 9 D3 S3A 11 10 SD_CMD S3B LCD_D3 [2] PK3/SD_CLK 12 14 D4 S4A SD_CLK S4B 13 8 GND EN IN ADG794 1 15
3VCC SD Card Slot When SD is selected, the SD signal of PG0-PG7 is used in HS62. 3VCC 3VCC MCVCC R9 R10 R11 R12 R13 R14 R15 R16 10kΩ 10kΩ _10kΩ 10kΩ 10kΩ 10kΩ 10kΩ 10kΩ CP2 J2 SD_D3 1 CD/DAT3 0.1µF/25V SD_CMD 2 U2 16 CMD 3 VSS1 4 VDD 4 2 LCD_D4 5
[2] PK4/SD_D0 D1 VDD S1A CLK 3 SD_D0 6 S1B LCD_D5 SD_D0 VSS2 [2] PK5/SD_D1 7 D2 S2A 5 7 DAT0 6 SD_D1 SD_D1 8 S2B LCD_D6 SD_D2 DAT1 [2] PK6/SD_WP 9 D3 S3A 11 9 DAT2 10 SD_WP S3B LCD_D7 R17 22Ω [2] PK7/SD_CD 12 14 10 D4 S4A SD_CD R18 22Ω W_Protect S4B 13 11 Card_Detect 8 12 GND C10 COMMON
EN IN DM1B-DSF-PEJ 3VCC ADG794 0.1µF/25V B 1 B 15 5VCC 3VCC MCVCC
R19 U3 4.7KΩ 3 EN1 OUT 1 4 8 JP2 EN0 OUT 3 6 3VIN 2 7 3VIN + CE10 R20 1 2 1µF/16V 10KΩ HW-3P 5VIN LTC1470CS8 CP3 CP4 1-2 LCD 0.1µF/25V 0.1µF/25V 2-3 SD
SD Card Power Control
A A Renesas Solutions Corp. M3A-HS64G01 Character LCD/SD Card Slot DRAWN CHECKED DESIGNED APPROVED ( 310 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1 Audio Interface
C11 Audio CODEC 180pF 3VCC 5AVCC 5AVCC R21 Head Phone Out R22 5Ω 4.7kΩ R23 U4A + CE11 CP5 CP6 + CE12 4.7kΩ AGND 4 NJM2732M U5A 8 HP 10µF/16V 0.1µF/25V 0.1µF/25V 10µF/16V 2 NJM4556AM - 1 3 + + 3 1 ++ 2 D + D CE13 2 4 22 23 - CK3 U6 AGND AGND R24 4.7µF/16V R25 CE14 C14 8 4.7kΩ R26 C13 5AVCC R27 10Ω 470µF/10V 0.022µF/50V 3 4 VT C12 VD 4.7kΩ 180pF 47KΩ 1 _18pF 7 25 J3 TEST AOUTL- AGND HSJ1636-010522 9 XTI 10 26 AGND AGND AGND XTALE AOUTL+ GREEN HS62 [PG20] -> [2,5] PG24 19 PD# R28 [2] PK9/SSIWS0 11 27 HS62 [PG9] -> R29 22Ω LRCK AOUTR- 10kΩ [2] PK8/SSISCK0 12 HS62 [PG8] -> R30 22Ω BICK [2] PK11/SSITxD0 14 28 HS62 [PG11] -> R31 22Ω SDTI AOUTR+ [2] PK10/SSIRxD0 13 SDTO HS62 [PG10] -> 20 M/S# R32 C15 C16 1KΩ 180pF 150pF 18 CIF [2] PG22/SSL1 17 HS62 [PG18] -> R33 22Ω CS R35 [2] PG21/RSPCK1 16 HS62 [PG17] -> R34 22Ω CCLK 5AVCC CE15 330Ω [2] PG23/MOSI1 15 + HS62 [PG19] -> CDTI 47µF/16V 8 4 R36 XTO VREF 21 CLKO VA 6 4.7kΩ C17 + CE16 MICR 2 0.1µF/25V 10µF/16V AGND AGND 5AVCC AINR C18 180pF MICL AGND AGND 3 AINL VCOM 1 + CE17 R37 47µF/16V CP7 C19 + CE18 4.7kΩ 0.1µF/25V AK4524VF AGND DGND 0.1µF/25V 10µF/16V R38 U4B 4.7kΩ AGND 4 NJM2732M U5B 5 8 24 6 NJM4556AM AGND - 7 5 + + 5 + 7 ++ CE19 6 - C AGND AGND AGND R39 5AVCC 4.7µF/16V R40 CE20 C20 C 4.7kΩ R41 C21 8 10Ω 470µF/10V 0.022µF/50V 4 4.7kΩ 180pF
+ CE21 AGND 47µF/16V CP8 R42 AGND 0.1µF/25V 47KΩ AGND
5AVCC C22 C23 AGND R43 22pF 47pF 10kΩ
R45 R44 LPF 4.7kΩ 82kΩ R46 R47 C24 C25 JP3 1.5kΩ 1KΩ 180pF 150pF 2 1 C26 U7A R49 0.47µF/25V AGND 4 NJM2732M U7B + CE22 330Ω HW-2P 2 AGND 4 NJM2732M 47µF/16V - 1 ++ 6 - R48 ++ MICL 3 + 7 R51 10kΩ CE23 R50 1-2 Plug In Power 5 + 22kΩ 10µF/16V 1.5kΩ CE24 R52 AGND AGND 8 5AVCC 2.2µF/25V 470Ω C27 5AVCC 8 2200pF
AGND + CE25 CP9 AGND 47µF/16V 0.1µF/25V
3VCC SG-8002DB-XXM AGND U8 R53 B C28 C29 0Ω B 14 11 PE0/AUDIO_CLK [2] 22pF 47pF 3VCC VCC OUT2 Mic In OUT1 8 R54 CP10 S 82kΩ R55 7 1.5kΩ 0.1µF/25V GND2 2 1 OE GND1 4 4 C30 U9A 4 RED 0.47µF/25V AGND NJM2732M U9B 4 IC140-14 3 2 AGND NJM2732M - 1 1 ++ 6 - R57 R56 ++ MICR 3 + 7 J4 22kΩ 10kΩ CE26 R58 5 + HSJ1636-010521 10µF/16V 1.5kΩ CE27 R59 8 5AVCC 5AVCC 2.2µF/25V 470Ω C31 8 2200pF
AGND + CE28 CP11 AGND 47µF/16V 0.1µF/25V 3VCC AUDIO_CLOCK Driver 5AVCC
CP12
R60 AGND 0.1µF/25V 3VCC 1kΩ U10 BIAS R61 0Ω 6 8 CK1 [5] VCC CLK1 R62 0Ω [2] AUDIO_XTAL 1 3 CK2 [5] REF CLK2 R63 0Ω CK3 CLK3 2 +CE29 C32 R64 4 GND CLK4 5 0.1µF/25V 1kΩ 7 100µF/25V(N) CLKOUT CY2305SC-1H
AGND A A Renesas Solutions Corp. M3A-HS64G01 Audio CODEC DRAWN CHECKED DESIGNED APPROVED ( 410 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
Audio DAC 3VCC 3AVCC
+ CE30 CP13 CP14 + CE31 D 10µF/16V 0.1µF/25V 0.1µF/25V 10µF/16V D
AGND AGND HOLE [4] CK1 MH1 C33 3VCC 3VCC 22 3 _18pF U11 1 1
R65 R66 3VCC 3VCC AVDD DVDD 4.7kΩ 4.7kΩ J5 5 MCKI MCKO 1 R67 1 0Ω GND HS62 [PG20] -> [2,4] PG24 9 PDN# DZF 24 2 VCC 2 3 TX TX CP15 [2] PF1/SSIWS1 8 23 4 LRCK DAC1 NC NC 0.1µF/25V [2] PF0/SSISCK1 6 BICK 5 NC [2] PF2/SSIDATA1 7 SDTI VCOM 20 TOTX147PL 10 C34 + CE32 CSN 0.1µF/25V 10µF/16V [2] PE2/SCL1 11 SCL/CCLK CE33 [2] PE3/SDA1 12 SDA/CDTI 10µF/25V AGND AGND SPK1 14 19 2 3VCC TTL AOUTL 15 I2C ++ 4 R69 16 R70 R68 4.7KΩ CAD0 27KΩ 220Ω 17 CAD1 3 13 CE34 1 TST 10µF/25V AGND 18 J6 AOUTR HSJ1636-010520 ++ R71 R72 220Ω AGND BLACK 27KΩ
C AK4353VF DVSS AVSS AGND C 4 21
AGND
3VCC 3AVCC
+ CE35 CP16 CP17 + CE36 10µF/16V 0.1µF/25V 0.1µF/25V 10µF/16V
AGND AGND HOLE [4] CK2 MH2 3VCC 3VCC 22 3 C35 U12 1 _18pF 1
R74 R73 3VCC 3VCC AVDD DVDD 4.7kΩ 4.7kΩ 5 1 J7 MCKI MCKO R75 1 GND 9 24 0Ω 2 B PDN# DZF VCC B 2 3 CP18 DAC2 TX TX 0.1µF/25V [2] PF4/SSIWS2 8 LRCK NC 23 4 NC [2] PF3/SSISCK2 6 BICK 5 NC [2,6] PF5/SSIDATA2/TCLKC 7 SDTI VCOM 20 TOTX147PL 10 C36 + CE37 CSN 0.1µF/25V 10µF/16V 11 SCL/CCLK 12 CE38 SDA/CDTI 10µF/25V AGND AGND SPK2 14 19 2 3VCC TTL AOUTL 15 I2C ++ 4 16 R77 R76 CAD0 27KΩ 220Ω 17 CAD1 3 13 CE39 1 BLACK TST 10µF/25V AGND 18 J8 AOUTR HSJ1636-010520 ++ R78 R79 220Ω AGND 27KΩ
AK4353VF DVSS AVSS AGND 4 21
AGND
A A Renesas Solutions Corp. M3A-HS64G01
DRAWN CHECKED DESIGNED APPROVED Audio D/A Converter ( 510 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
CD deck Interface
8VCC 3VCC 3VCC
R80 R81 0Ω 0Ω J9 D D 1 GND R82 R83 R84 R85 R86 2 RSPDIF Through Hole. 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ _4.7kΩ GND 3 DC8V 4 DC8V R87 22Ω 5 HS62 [PG12] -> [2] PJ9 FLAG6 3VCC 6 NC [2] RES# 7 CDRST MH3 8 GND 9 P3.3V 1 1 10 P3.3V HOLE 11 GND [2] PF10/SSL0 12 CDFS [2] PF11/MOSI0/SPDIF_IN 13 CDSI MH4 [2] PF9/RSPCK0 14 R88 22Ω CDCK PF11/MOSI0/SPDIF_IN [2] PF12/MISO0/SPDIF_OUT 15 CDSO 1 1 16 R89 22Ω NC HOLE [2] PF6/SSISCK3/TCLKB 17 R90 22Ω IIS_BCK [2] PF7/SSIWS3/TCLKD 18 R91 22Ω IIS_LRCK [2] PF8/SSIDATA3 19 R92 22Ω IIS_DATA MH5 [2] PE1/IRQ1/TCLKA 20 R93 22Ω BLKCK PF12/MISO0/SPDIF_OUT [2] PJ10 21 TRANS 1 1 HS62 [PG13] -> 22 NC HOLE 2.5mm pich IMSA-9617S-22 C37 C38 0.1µF/25V 0.1µF/25V MH6 1 1 HOLE
C UART Interface C Rotary Encoder Through Hole. 3VCC
J10 3VCC 1 VCC MH7 [2] PJ4/RxD3 2 RxD [2] PJ5/TxD3 3 TxD 1 1 [2] PJ6/SCK3 4 SCK HOLE [2] PJ7/CTS3# 5 CTS [2] PJ8/RTS3# 6 RTS 7 GND MH8 C70 B7B-XH PE1/IRQ1/TCLKA 1 0.1µF/25V 1 HOLE
MH9 PF6/SSISCK3/TCLKB 1 1 HOLE 2.5mm pich MH10 [2,5] PF5/SSIDATA2/TCLKC 1 1 HOLE
IIC Interface MH11 PF7/SSIWS3/TCLKD 1 1 HOLE
B 3VCC MH12 B 1 J11 1 1 HOLE 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 [2] PE4/SCL2 17 [2] PE5/SDA2 18 19 20 XG4C-20
R94 R95 R96 0Ω 0Ω 0Ω
A A Renesas Solutions Corp. M3A-HS64G01 CD/UART/IIC/RSPDIF/Rotary Enc. DRAWN CHECKED DESIGNED APPROVED ( 610 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
D D
TFT LCD Module Interface
[2] LCD_DATA[0:15]
3VCC 5VCC 3VCC
C39 + CE40 C40 + CE41 C41 + CE42 0.1µF/25V 10µF/16V 3VCC 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V
3VCC R97 10KΩ 5VCC 3VCC R98 R99 3VCC 5VCC 3VCC C 4.7kΩ 4.7kΩ C J12 J13 R101 1 _10KΩ PG16/LCD_VSYNC R102 _0Ω 1 C67 + CE46 C42 + CE43 VDD PG18/LCD_DE NC 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 2 VDD 2 DTMG 3 3 PG19/LCD_CLK VDD LCD_DATA4 HREV [2] PG19/LCD_CLK 4 DCLK 4 B5 5 LCD_DATA3 5 PG17/LCD_HSYNC GND LCD_DATA2 B4 [2] PG17/LCD_HSYNC 6 HSYNC 6 B3 7 LCD_DATA1 7 PG18/LCD_DE GND LCD_DATA0 B2 3VCC [2] PG18/LCD_DE 8 DTMG 8 B1 9 R103 0Ω 9 PG16/LCD_VSYNC R100 _0Ω GND B0 J14 [2] PG16/LCD_VSYNC 10 NC 10 VDD1 11 11 LCD_DATA15 GND LCD_DATA10 VDD1 12 R5 12 G5 1 VDD LCD_DATA14 13 LCD_DATA9 13 2 R104 LCD_DATA13 R4 LCD_DATA8 G4 VDD 14 R3 14 G3 3 VDD 4.7kΩ 3VCC 15 LCD_DATA7 15 LCD_DATA15 4 LCD_DATA12 GND LCD_DATA6 G2 LCD_DATA14 LCD_DATA15 16 R2 16 G1 5 LCD_DATA14 LCD_DATA11 17 LCD_DATA5 17 LCD_DATA13 6 R106 0Ω R1 3VCC G0 LCD_DATA12 LCD_DATA13 18 R0 18 GND 7 LCD_DATA12 R105 SW1 19 LCD_DATA15 19 LCD_DATA11 8 1kΩ _G3T_12AB LCD_DATA10 GND LCD_DATA14 R5 LCD_DATA10 LCD_DATA11 20 G5 20 R4 9 LCD_DATA10 LCD_DATA9 21 LCD_DATA13 21 LCD_DATA9 10 LCD_DATA8 G4 R107 LCD_DATA12 R3 LCD_DATA8 LCD_DATA9 4 22 G3 22 R2 11 LCD_DATA8 5 23 10KΩ LCD_DATA11 23 LCD_DATA7 12 LCD_DATA7 GND R108 0Ω R1 LCD_DATA6 LCD_DATA7 6 24 G2 24 R0 13 LCD_DATA6 LCD_DATA6 25 25 3VCC LCD_DATA5 14 LCD_DATA5 G1 PG17/LCD_HSYNC R109 _0Ω VREV LCD_DATA4 LCD_DATA5 26 G0 26 NC 15 LCD_DATA4 3VCC R110 27 LCD_M_DISP R111 _0Ω 27 LCD_DATA3 16 1kΩ LCD_DATA4 GND R112 NC LCD_DATA2 LCD_DATA3 28 B5 28 GND 17 LCD_DATA2 LCD_DATA3 29 _10KΩ PG19/LCD_CLK 29 R166 5VCC LCD_DATA1 18 LCD_DATA2 B4 DCLK _4.7kΩ LCD_DATA0 LCD_DATA1 30 B3 30 GND 19 LCD_DATA0 31 31 20 R113 LCD_DATA1 GND GND PG19/LCD_CLK GND 32 B2 32 GND 21 LCD_CLK 4.7kΩ LCD_DATA0 33 33 PG17/LCD_HSYNC 22 R114 0Ω B1 GND PWM R115 _0Ω LCD_HSYNC 34 B0 34 GND 23 NC TP1 35 35 24 B PCI TMZ NC B 1 PWM 36 36 PG16/LCD_VSYNC R165 _0Ω 25 LCD_M_DISP R116 _0Ω Vctrl PWM GND PG18/LCD_DE LCD_VSYNC [2,8] PJ2/CTx1/LCD_M_DISP 37 NC 37 DIM 26 LCD_DE 38 38 LCD_M_DISP 27 R169 NC NC LCD_M_DISP 39 NC 39 VDD2 28 GND 0Ω 40 40 C68 29 NC VDD2 _18pF GND 30 GND IMSA-9639S-40D(LCD) IMSA-9619S-40(LCD)
XG4C-30 Industrial use Vehicle use
[2] PH7/AN7
A A Renesas Solutions Corp. M3A-HS64G01 LCD Module Connector DRAWN CHECKED DESIGNED APPROVED ( 710 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
D D
IEBus Driver 5VCC
5VCC U37 IEBus 5VCC VCC 7 R170 8 _0Ω STB# CP25 0.1µF/25V J15 GND 4 1 IETxD VCC 1 S1 BUS- 5 2 BUS- 3 R171 3 S2 68Ω BUS+ 4 GND IERx0 B4B-XH 2 Rout BUS+ 6 CP26 R172 R173 20pF _4.7KΩ 0Ω HA12187FP Voltage Level Shifter 3V<->5V
3VCC
TP2 TP3 JP4 3V->5V HW-2P C C R117 R118 CP19 3VCC 5VCC CP20 3VCC 1 1 JP5 1-2 CTx1 On 4.7KΩ 4.7KΩ 0.1µF/25V 0.1µF/25V HW-3P 1 2 5VCC U13 1 U14 2 1 8 CTx0 1 3 VCCA VCCB 3 TxD VCC CP21 [2] PJ0/CTx0/IETxD 2 7 A0 B0 CTx1 0.1µF/25V [2,7] PJ2/CTx1/LCD_M_DISP 3 A1 B1 6 4 RxD 4 GND DIR 5 GND 2 CAN0 8 SN74LVC2T45DCT MODE JP6 JP7 1-2 IETxD 5 NC 7 2-3 CTx0 CANH 1-2 RCAN0 Terminate J16 CANL 6 1 HA13721 CANH 2 CANL 3 GND B3B-XH
JP6 JP7 1 1 2 2 HW-2P HW-2P 5VCC TP4 TP5 JP8 3V<-5V HW-2P R119 CP22 3VCC 5VCC CP23 1 1 JP9 1-2 CRx1 On 0.1µF/25V 0.1µF/25V R121 R120 HW-3P 120Ω 47KΩ 47KΩ 1 2 5VCC U15 1 U16 2 1 8 CRx0 1 3 JP10 JP11 VCCA VCCB 3 TxD VCC CP24 [2] PJ1/CRx0/IERxD 2 7 1 1 A0 B0 CRx1 0.1µF/25V [2] PJ3/CRx1 3 A1 B1 6 4 RxD 2 2 4 5 2 GND DIR GND HW-2P HW-2P MODE 8 CAN1 SN74LVC2T45DCT 5 B 1-2 IERxD NC B 7 2-3 CRx0 CANH J17 CANL 6 1 HA13721 CANH 2 CANL 3 GND JP10 JP11 B3B-XH 1-2 RCAN1 Terminate
A A Renesas Solutions Corp. M3A-HS64G01 CAN/IEBus DRAWN CHECKED DESIGNED APPROVED ( 810 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
D D
AVcc Key Input
R122 4.7kΩ
PH0/AN0 [2]
R123 R124 R125 R126 14kΩ 4.7kΩ 1.58kΩ 0Ω Board fixed hole. SW2 SW3 SW4 SW5 B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012
Avss Avss Avss Avss AVcc
MH13 1 R127 1 4.7kΩ HOLE
MH14 PH1/AN1 [2] C C 1 1 R128 R129 R130 R131 HOLE 14kΩ 4.7kΩ 1.58kΩ 0Ω MH15 1 1 SW6 SW7 SW8 SW9 HOLE B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012 MH16 1 1 HOLE Avss Avss Avss Avss AVcc MH17 1 1 HOLE R132 4.7kΩ MH18 1 1 PH2/AN2 [2] HOLE
R133 R134 R135 R136 MH19 14kΩ 4.7kΩ 1.58kΩ 0Ω 1 1 HOLE
SW10 SW11 SW12 SW13 MH20 B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012 1 1 HOLE
MH21 Avss Avss Avss Avss 1 AVcc 1 HOLE B B MH22 R137 1 4.7kΩ 1 HOLE PH3/AN3 [2] MH23 1 R138 R139 R140 R141 1 14kΩ 4.7kΩ 1.58kΩ 0Ω HOLE
MH24 1 SW14 SW15 SW16 SW17 1 B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012 HOLE
Avss Avss Avss Avss
A A Renesas Solutions Corp. M3A-HS64G01 Key Input DRAWN CHECKED DESIGNED APPROVED ( 910 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
1-2 Power On 2-3 Power Off Power Power Connector Switch 12VCC SW18 J18 JP12 12VCC +12V 1 1 1 NC 2 2 2 3 3 3VCC 3AVCC D GND 3 FB1 D S3B-XH-A XG8V-0334 MS-12AAH1 R142 1 2 5.1kΩ 1-2 PWR C43 2-3 ADP 22µF/50V POWER AC 5VCC 5AVCC FB2 Adaptor 1 2 J19 LED1 2 UB1111C 4 3 BLUE LGP6531-0700
Please make AGND and one point of GND connection.
SHAPE1
AGND
5VCC C C
CDRH1OD48MNNP-18ON 5VCC L1 0.027Ω/0.5W TP6 R143 R144 R145 R168 R146 1 2 R147 3A 1 1MΩ 0Ω 0Ω 10KΩ 1MΩ TP11 5.0V Out C44 PGOOD 1 1000pF C45 C46 + CE44 + CE47 R167 _0Ω U17 1 100µF/25V(P) 100µF/25V(P) _22µF/25V _22µF/25V C47 0.1µF/25V 1 28 2 SP8K3/SO RUN/SS1 PGOOD Q1A R148 20kΩ/F C49 27pF 2 27 C50 0.1µF/25V 12VCC SENSE1+ TG1 7 8 TP7 R149 _0Ω R150 105kΩ/F 3 SENSE1- SW1 26 3A 1 D1 RSX051VA-30 12V In C48 _1000pF 4 25 VOSENSE1 BOOST1 5 6 C52 C53 C51 _0.01µF/50V 5 24 R152 10Ω R151 _10KΩ R153 0Ω PLLFLTR VIN Q1B 22µF/50V 22µF/50V R154 _0Ω 6 23 4 SP8K3/SO PLLIN BG1 SHORT1 TP8 R155 15KΩ C54 220pF C71 1µF/25V C55 4.7µF/25V C56 0.1µF/25V 3 7 22 1 GND R156 0Ω FCB EXTVCC C57 33pF 8 ITH1 INTVCC 21 TP9 9 SGND PGND 20 1 GND_PWR 1 R157 _0Ω 10 19 3.3VOUT BG2 2 SP8K3/SO C58 33pF 11 18 Q2A ITH2 BOOST2 D2 RSX051VA-30 5 6 B B 12 17 7 8 R158 15KΩ C59 220pF VOSENSE2 SW2 Q2B CE45 CE48 R159 180kΩ/F 4 SP8K3/SO 100µF/25V(P) 100µF/25V(P)
13 SENSE2- TG2 16
+ + + C63 C60 + R160 20kΩ/F C61 27pF 14 15 C62 0.1µF/25V 3 SENSE2+ RUN/SS2 _22µF/25V _22µF/25V LTC3727EG C65 R161 _0Ω 8VCC C64 0.1µF/25V L2 TP108.0V Out R162 0.039Ω/0.5W 1000pF 1 2 2A 1
R163 R164 CDRH1OD48MNNP-18ON 0Ω 0Ω C66 _0.1µF/25V
A A Renesas Solutions Corp. M3A-HS64G01
DRAWN CHECKED DESIGNED APPROVED Power Generate ( 10 / 10 ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30759 5 4 3 2 1 5 4 3 2 1
SH7264 Optional board M3A-HS64G02 SCHEMATICS
D D
TITLE PAGE Note:
INDEX 1 Digital GND (GND)
C CPU Board Stack Connector 2 C Character LCD/UART/IIC/RSPDIF/IRQ 3 Analog GND (AVSS) SD Card Slot/PWM 4 Analog GND (AGND1,AGND2) Audio D/A Converter 5 Video Decoder 6 Not mounted LCD Module Connector 7 CAN/IEBus 8 12VCC = Digital 12V Power in LED/Key Input 9 8VCC = Digital 8V for CD Power Generate 10 5VCC = Digital 5V 3VCC = Digital 3.3V 3AVCC1 = Analog 3.3V for Audio DAC B 3AVCC2 = Analog 3.3V for Video Decoder B AVcc = Analog 3.3V for Key Input MCVCC = Digital 3.3V / 5V for SD
R = Fixed Resistors C = Ceramic Caps CP = Decoupling Caps CE = Electrolytic Caps (Tantal / Electric)
A A Renesas Solutions Corp. M3A-HS64G02 INDEX DRAWN CHECKED DESIGNED APPROVED ( 110 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
SH7264 Extension Connector
D D 3VCC 5VCC 3VCC 5VCC
C1 + CE1 C2 + CE2 C3 + CE3 C4 + CE4 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V
3VCC 5VCC 3VCC 5VCC
CN1 CN6 [4] PJ11/PWM2H 1 1 [4] PJ10/PWM2G 2 2 3 3 [4] PJ9/PWM2F 4 4 [4] PJ8/PWM2E 5 5 6 6 7 7 8 8 9 9 10 10 PC0 11 11 PC1 [9] PJ7/TIOC1B PA3 12 [3,9] PC9/TIOC2A 12 PC2 [9] PJ6/TIOC1A PA2 13 [3,9] PC10/TIOC2B 13 PC3 [3] PJ5/TxD3 PA1 14 [9] PC5/TIOC4A 14 PC4 [3] PJ4/RxD3 PA0 15 [9] PC6/TIOC4B 15 16 [9] PC7/TIOC4C 16 [8] PJ3/CRx1 17 [9] PC8/TIOC4D 17 [7,8] PJ2/CTx1/LCD_M_DISP 18 18 [8] PJ1/CRx0/IERxD 19 19 [8] PJ0/CTx0/IETxD 20 20 XG4H-2031 XG4H-2031
C C CKIO
3VCC 5VCC 3VCC 5VCC AVcc
C5 + CE5 C6 + CE6 C7 + CE7 C8 + CE8 C9 + CE9 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V
AVss 3VCC 5VCC 3VCC 5VCC AVcc [7] LCD_DATA[0:15] 1-2 IIC SCL CN7 CN9 CN3 2-3 IRQ2 LCD_DATA1 [4] PK1/PWM1B/SD_D3 1 1 1 LCD_DATA0 [4] PK0/PWM1A/SD_D2 2 2 2 LCD_DATA3 [4] PK3/PWM1D/SD_CLK 3 3 [9] PH1/AN1 3 AVREF LCD_DATA2 [4] PK2/PWM1C/SD_CMD 4 4 [9] PH0/AN0 4 AVREF JP1 [3,6] PE0/SCL0 5 5 5 LCD_DATA4 [5] PE2/SCL1 6 6 6 1 [6] RES# LCD_DATA6 7 7 [9] PH3/AN3 7 AVREF 2 LCD_DATA5 [3] IRQ2 [3,6] PE1/SDA0 8 8 [9] PH2/AN2 8 AVREF 3 LCD_DATA7 [6] PE4/DV_VSYNC/SCL2 9 9 9 HWP-3P-G 10 10 10 11 LCD_DATA9 11 11 JP2 LCD_DATA8 [6] PE5/DV_HSYNC/SDA2 12 12 12 LCD_DATA11 PH5 [5] PE3/SDA1 [4] PK5/PWM1F/SD_D1 13 13 13 PH4 1 LCD_DATA10 2 [4] PK4/PWM1E/SD_D0 14 14 14 [3] IRQ3 [4] PK7/PWM1H/SD_CD 15 15 [7] PH7/AN7 15 B 3 LCD_DATA12 B [4] PK6/PWM1G/SD_WP 16 16 16 HWP-3P-G LCD_DATA14 [6] PF0/DV_DATA0 17 17 17 PH6 18 LCD_DATA13 18 18 [6] PF2/DV_DATA2 19 19 19 LCD_DATA15 1-2 IIC SDA [6] PF1/DV_DATA1 20 20 20 2-3 IRQ3 21 [7] PG16/LCD_VSYNC 21 XG4H-2031 [6] PF3/DV_DATA3 22 [7] PG17/LCD_HSYNC 22 [6] PF5/DV_DATA5 23 [7] PG19/LCD_CLK 23 [6] PF4/DV_DATA4 24 [7] PG18/LCD_DE 24 AVss [6] PF6/DV_DATA6 25 25 26 26 PG20 [6] PF8/DV_CLK 27 [9] PG22/TIOC0B 27 [6] PF7/DV_DATA7 28 [7,9] PG21/TIOC0A 28 29 [9] PG24/TIOC0D 29 PF9 30 [9] PG23/TIOC0C 30 [9] PF11/TIOC3C 31 XG4H-3031 R1 0Ω PF10 [9] PF12/TIOC3D 32 [3] PF12/SPDIF_OUT 33 34 [4] PK9/PWM2B/SSIWS0 35 [4] PK8/PWM2A/SSISCK0 36 [4] PK11/PWM2D/SSITxD0 37 [4] PK10/PWM2C/SSIRxD0 38 39 [5] AUDIO_XTAL 40 XG4H-4031-1
A A Renesas Solutions Corp. M3A-HS64G02 CPU Board Stack Connector DRAWN CHECKED DESIGNED APPROVED ( 210 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
Character Type LCD Connector
3VCC 5VCC 5VCC
R2 _10kΩ R3 R4 3.9kΩ 47Ω D RSPDIF Through Hole. D 1 3
2 VR2 2 3VCC R5 VR1 1KΩB 0Ω 10KΩB MH1 5VCC 1 3 1 J1 1 HOLE 1 GND 2 VCC 3 Vo 4 MH2 HS62 [PG15] → [2,9] PC9/TIOC2A RS 5 R/W [2] PF12/SPDIF_OUT 1 1 6 HS62 [PG16] → [2,9] PC10/TIOC2B E HOLE 2.5mm pich [4] PWM1A/LCD_D0 7 DB0 [4] PWM1B/LCD_D1 8 DB1 [4] PWM1C/LCD_D2 9 DB2 MH3 [4] PWM1D/LCD_D3 10 DB3 [4] PWM1E/LCD_D4 11 DB4 1 1 12 [4] PWM1F/LCD_D5 DB5 HOLE [4] PWM1G/LCD_D6 13 DB6 [4] PWM1H/LCD_D7 14 DB7 15 A 16 K C62 PM-61-16P 0.1µF/25V
C UART Interface IRQ2 SWITCH CIRCUIT C
3VCC 3VCC
J2 1 VCC R6 [2] PJ4/RxD3 2 RxD 10KΩ [2] PJ5/TxD3 3 TxD 4 NC1 5 NC2 R7 220Ω 6 NC3 1 2 3 4 IRQ2 [2] C63 7 0.1µF/25V GND B7B-XH-A(DB) SW1 + CE10 U1A U1B B3SN-3012 IRQ2 2.2µF/16V SN74LVC14APWR SN74LVC14APWR SWITCH
IRQ3 SWITCH CIRCUIT 3VCC IIC Interface 3VCC R8 10KΩ J3 1 R9 220Ω 2 5 6 9 8 IRQ3 [2] 3 4 B B 5 6 SW2 + CE11 U1C U1D 7 B3SN-3012 IRQ3 2.2µF/16V SN74LVC14APWR SN74LVC14APWR 8 SWITCH 9 10 3VCC 11 12 13 CP1 14 15 0.1µF/25V 16 [2,6] PE0/SCL0 17 [2,6] PE1/SDA0 18 Free GATE 19 20 XG4C-2031 11 10
R10 R11 R12 0Ω 0Ω 0Ω U1E SN74LVC14APWR
13 12
U1F SN74LVC14APWR
A A Renesas Solutions Corp. M3A-HS64G02 Character LCD/UART/IIC/IRQ DRAWN CHECKED DESIGNED APPROVED ( 310 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
3VCC
CP2 0.1µF/25V 3VCC
U2 16 3VCC 4 2 PWM1A/LCD_D0
[2] PK0/PWM1A/SD_D2 VDD PWM1A/LCD_D0 [3] D1 S1A SD_D2 S1B 3 7 5 PWM1B/LCD_D1 D [2] PK1/PWM1B/SD_D3 D2 S2A PWM1B/LCD_D1 [3] D 6 SD_D3 SD Card Slot S2B PWM1C/LCD_D2 R13 R14 R15 R16 R17 R18 R19 R20 MCVCC [2] PK2/PWM1C/SD_CMD 9 D3 S3A 11 PWM1C/LCD_D2 [3] 10 SD_CMD 10kΩ 10kΩ _10kΩ 10kΩ 10kΩ 10kΩ 10kΩ 10kΩ S3B PWM1D/LCD_D3 [2] PK3/PWM1D/SD_CLK 12 D4 S4A 14 PWM1D/LCD_D3 [3] 13 SD_CLK J4 S4B SD_D3 8 GND 1 CD/DAT3 SD_CMD 2
EN IN CMD 3 VSS1 ADG774 4 1 VDD 15 SD_CLK 5 CLK 6 SD_D0 VSS2 7 DAT0 SD_D1 8 3VCC SD_D2 DAT1 When SD is selected, the SD signal of 9 DAT2 PG0-PG7 is used in HS62. CP3 SD_WP R21 22Ω 10 3VCC 0.1µF/25V SD_CD R22 22Ω W_Protect 11 Card_Detect 12 COMMON C10 DM1B-DSF-PEJ 5VCC 3VCC MCVCC U3 16 0.1µF/25V
4 2 PWM1E/LCD_D4 U4
[2] PK4/PWM1E/SD_D0 D1 VDD S1A PWM1E/LCD_D4 [3] 3 SD_D0 3 1 S1B PWM1F/LCD_D5 SD_CD EN1 OUT [2] PK5/PWM1F/SD_D1 7 D2 S2A 5 PWM1F/LCD_D5 [3] 4 EN0 OUT 8 6 SD_D1 S2B PWM1G/LCD_D6 [2] PK6/PWM1G/SD_WP 9 D3 S3A 11 PWM1G/LCD_D6 [3] 6 3VIN 10 SD_WP 7 S3B PWM1H/LCD_D7 3VIN CE12 R23 [2] PK7/PWM1H/SD_CD 12 14 PWM1H/LCD_D7 [3] + D4 S4A SD_CD 1µF/16V 10KΩ S4B 13 2 5VIN 8 GND LTC1470CS8
EN IN CP4 CP5 ADG774 0.1µF/25V 0.1µF/25V 1 15
C C SD Card Power Control 3VCC
CP6 3VCC 0.1µF/25V 3VCC
U5 16 R24 R25 R26 R27 R28 R29 R30 R31 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ U6 4 2 PWM2A
[2] PK8/PWM2A/SSISCK0 VDD D1 S1A PWM1A/LCD_D0 PWM1A_OUT 3 SSISCK0 [5] 3 22 S1B PWM2B PWM1B/LCD_D1 A0 B0 PWM1B_OUT [2] PK9/PWM2B/SSIWS0 7 5 4 21 D2 S2A PWM1C/LCD_D2 A1 B1 PWM1C_OUT 6 SSIWS0 [5] 5 20 S2B PWM2C PWM1D/LCD_D3 A2 B2 PWM1D_OUT [2] PK10/PWM2C/SSIRxD0 9 11 6 19 D3 S3A PWM1E/LCD_D4 A3 B3 PWM1E_OUT 10 PK10 [5] 7 18 S3B PWM2D PWM1F/LCD_D5 A4 B4 PWM1F_OUT [2] PK11/PWM2D/SSITxD0 12 14 8 17 D4 S4A PWM1G/LCD_D6 A5 B5 PWM1G_OUT 13 SSITxD0 [5] 9 16 S4B PWM1H/LCD_D7 A6 B6 PWM1H_OUT 8 GND 10 A7 B7 15 11 14 5VCC EN IN 3VCC 3VCC A8 B8 5VCC 5VCC J5 ADG774 2 1 DIR G 23 1 15 1 VCCA VCCB 24 2 CP7 CP8 3 0.1µF/25V 0.1µF/25V 12 GND GND 13 4 5 HD151015 6 7 8 3VCC 9 10 3VCC CP9 11 0.1µF/25V 12 13 TP1 TP2 TP3 TP4 3VCC 14 B B 15 U7 16 16 1 1 1 1 17 4 2 PWM2E 18
[2] PJ8/PWM2E D1 VDD S1A 3 R32 R33 R34 R35 R36 R37 R38 R39 19 S1B PWM2F 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ 4.7kΩ U8 [2] PJ9/PWM2F 7 D2 S2A 5 20 6 XG4C-2031 S2B PWM2G PWM2A PWM2A_OUT [2] PJ10/PWM2G 9 D3 S3A 11 3 A0 B0 22 10 PWM2B 4 21 PWM2B_OUT C11 S3B PWM2H PWM2C A1 B1 PWM2C_OUT 0.1µF/25V [2] PJ11/PWM2H 12 D4 S4A 14 5 A2 B2 20 13 PWM2D 6 19 PWM2D_OUT S4B PWM2E A3 B3 PWM2E_OUT 8 GND 7 A4 B4 18 PWM2F 8 17 PWM2F_OUT
EN IN A5 B5 3VCC PWM2G 9 16 PWM2G_OUT ADG774 A6 B6 PWM2H 10 15 PWM2H_OUT 1 A7 B7 15 11 14 3VCC 3VCC A8 B8 5VCC 5VCC R40 2 DIR G 23 4.7KΩ 1 24 CP10 VCCA VCCB CP11 JP3 0.1µF/25V 0.1µF/25V 12 GND GND 13 3 2 HD151015 1 HWP-3P-G
1-2 PWM 2-3 SD/SSIF/PORT
A A Renesas Solutions Corp. M3A-HS64G02 SD Card Slot/PWM DRAWN CHECKED DESIGNED APPROVED ( 410 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
D D
Audio Interface
AUDIO_CLOCK Driver 3VCC 3AVCC1 3VCC FB1 3AVCC1 R41 _0Ω 1 2 C 3VCC C + CE13 CP12 CP13 + CE14 U9 10µF/16V 0.1µF/25V 0.1µF/25V 10µF/16V SHORT1 R42 0Ω 6 VCC CLK1 8 [2] AUDIO_XTAL 1 REF CLK2 3 CLK3 2 4 5 AGND1 AGND1 3VCC GND CLK4 3VCC AGND1 CLKOUT 7 CY2305SXC-1H 3VCC 3VCC 3VCC Please make AGND1 and one point of GND connection. 22 CP14 U10 3 R43 0.1µF/25V 4.7kΩ R45 R44 R75 3VCC 3VCC AVDD DVDD 4.7kΩ 4.7kΩ 4.7kΩ J6 5 MCKI MCKO 1 R46 1 0Ω GND [4] PK10 9 PDN# DZF 24 2 VCC 2 3 TX TX CP15 [4] SSIWS0 8 23 4 LRCK DAC NC NC 0.1µF/25V [4] SSISCK0 6 BICK 5 NC [4] SSITxD0 7 SDTI VCOM 20 TOTX147PL 10 C12 + CE15 CSN 0.1µF/25V 10µF/16V [2] PE2/SCL1 11 SCL/CCLK CE16 [2] PE3/SDA1 12 SDA/CDTI 10µF/25V(S) AGND1 AGND1 3VCC 14 TTL AOUTL 19 2 15 I2C ++ 4 R48 C13 16 R49 R47 4.7KΩ _18pF CAD0 27KΩ 220Ω 17 CAD1 3 13 CE17 1 TST 10µF/25V(S) AGND1 18 J7 AOUTR HSJ1636-010520 ++ R51 R50 27KΩ 220Ω AGND1 BLACK
B B AGND1 AK4353VF DVSS AVSS 4 21
AGND1
A A Renesas Solutions Corp. M3A-HS64G02 Audio D/A Converter DRAWN CHECKED DESIGNED APPROVED ( 510 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
Video Decoder 3VCC D D
CP16 CP17 CP18 CP19 CP20 CP21 + CE25 10µF/16V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V
3VCC 3VCC 3AVCC2 FB2 1 2
CP31 CP32 CP33 CP34 CP35 CP36 CP37 CP38
0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V SHORT2
3VCC 3VCC 3AVCC2 AGND2 Please make AGND2 and one point of GND connection. R52 _10KΩ 75 65 64 5 82 89 94 U11 15 21 22 30 36 40 43 46 53 57 60 63 68 70
[2] RES# 78 RESET# N.C3 N.C2 N.C1 C14 0.1µF/25V AVDD AVDD AVDD AVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD DVDD AIN1 96 72 97 [2,3] PE1/SDA0 1 SDA AGND J8 [2,3] PE0/SCL0 74 SCL Video Input AGND2 2 JPJ2545-01-540 C15 0.1µF/25V 73 SELA AIN2 98 Composite C C 1 100 C32 0.1µF/25V R57 22Ω AIN3 [2] PF0/DV_DATA0 27 R53 22Ω D0 [2] PF1/DV_DATA1 28 99 R54 22Ω D1 AGND [2] PF2/DV_DATA2 31 R55 22Ω D2 AGND2 [2] PF3/DV_DATA3 32 R56 22Ω D3 C16 0.1µF/25V [2] PF4/DV_DATA4 33 7 R58 22Ω D4 AIN4 [2] PF5/DV_DATA5 34 R59 22Ω D5 TP5 [2] PF6/DV_DATA6 37 6 R74 22Ω D6 AGND NLV25T2R2JPF NLV25T2R2JPF J9 [2] PF7/DV_DATA7 38 D7 R61 L1 L2 TCS7548-01-201 1 41 9 C17 0.1µF/25V 4 3 R60 EXDATA0 AIN5 42 EXDATA1 0Ω 47 10 39Ω 2 1 EXDATA2 AGND C18 C19 C20 48 EXDATA3 49 C21 R62 180pF 680pF 180pF Video Input EXDATA4 0.1µF/25V 39Ω 50 EXDATA5 AIN6 11 54 Separate EXDATA6 AK8851 5 55 EXDATA7 AGND 12 R63 22Ω TP6 AGND2 AGND2 [2] PF8/DV_CLK 59 CLK27MO R64 NLV25T2R2JPF 58 HALFCKO 1 C22 0.1µF/25V L3 L4 VRP 1 18 FIELD 19 2 C23 0.1µF/25V NLV25T2R2JPF R67 22Ω CSYNC VRN 39Ω [2] PE5/DV_HSYNC/SDA2 24 R65 22Ω HSYNC C24 0.1µF/25V R66 C25 C26 C27 C28 [2] PE4/DV_VSYNC/SCL2 25 VSYNC VCOM 3 3VCC 3VCC 17 39Ω 180pF 180pF 470pF 180pF DVALID C29 0.1µF/25V VREFOUT 88 80 EXTCLP 90 R70 12kΩ R68 R69 IREFR1 16 NSIG _10KΩ 4.7KΩ 91 R71 4.7kΩ IREFR2 AGND2 79 PD# 3VCC 3VCC 77 95 C30 0.1µF/25V X1 CLKINV CLPCAP1 4 3 R72 22Ω 69 8 C31 0.1µF/25V CP22 VCC OUT CLKIN CLPCAP2 B B 2 1 3AVCC2 0.1µF/25V GND OE SG-8002JF_24.576MHz R73 0Ω DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND DGND AGND AGND AGND AGND AGND AGND AGND AGND AGND AGND AGND CP23 CP24 CP39 CP40 CE26 + 4 14 20 23 26 29 35 44 45 51 52 56 61 62 66 67 71 76 13 39 81 83 84 85 86 87 92 93 0.1µF/25V 0.1µF/25V 0.1µF/25V 0.1µF/25V 10µF/16V
AGND2 AGND2 AGND2
A A Renesas Solutions Corp. M3A-HS64G02 Video Decoder DRAWN CHECKED DESIGNED APPROVED ( 610 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
D D
TFT LCD Module Interface
[2] LCD_DATA[0:15]
3VCC 5VCC 3VCC
C33 + CE18 C34 + CE19 C35 + CE20 0.1µF/25V 10µF/16V 3VCC 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V
3VCC
R76 10KΩ 5VCC 3VCC R77 R78 3VCC 5VCC 3VCC 4.7kΩ 4.7kΩ J10 J11 R80 C61 + CE24 C36 + CE21 1 _10KΩ PG16/LCD_VSYNC R81 _0Ω 1 0.1µF/25V 10µF/16V 0.1µF/25V 10µF/16V VDD PG18/LCD_DE NC 2 VDD 2 DTMG C 3 3 C PG19/LCD_CLK VDD LCD_DATA4 HREV [2] PG19/LCD_CLK 4 DCLK 4 B5 5 LCD_DATA3 5 PG17/LCD_HSYNC GND LCD_DATA2 B4 [2] PG17/LCD_HSYNC 6 HSYNC 6 B3 7 LCD_DATA1 7 PG18/LCD_DE GND LCD_DATA0 B2 3VCC [2] PG18/LCD_DE 8 DTMG 8 B1 9 R82 0Ω 9 PG16/LCD_VSYNC R79 _0Ω GND B0 J12 [2] PG16/LCD_VSYNC 10 NC 10 VDD1 11 11 LCD_DATA15 GND LCD_DATA10 VDD1 12 R5 12 G5 1 VDD LCD_DATA14 13 LCD_DATA9 13 2 R84 3VCC LCD_DATA13 R4 LCD_DATA8 G4 VDD 14 R3 14 G3 3 VDD 4.7kΩ 15 LCD_DATA7 15 LCD_DATA15 4 LCD_DATA12 GND LCD_DATA6 G2 LCD_DATA14 LCD_DATA15 16 R2 16 G1 5 LCD_DATA14 LCD_DATA11 17 LCD_DATA5 17 LCD_DATA13 6 R85 R83 0Ω R1 3VCC 3VCC G0 LCD_DATA12 LCD_DATA13 18 R0 18 GND 7 LCD_DATA12 1kΩ 19 LCD_DATA15 19 LCD_DATA11 8 LCD_DATA10 GND LCD_DATA14 R5 LCD_DATA10 LCD_DATA11 20 G5 20 R4 9 LCD_DATA10 SW3 LCD_DATA9 21 LCD_DATA13 21 LCD_DATA9 10 _G3T_12AB LCD_DATA8 G4 R86 R161 LCD_DATA12 R3 LCD_DATA8 LCD_DATA9 4 22 G3 22 R2 11 LCD_DATA8 5 23 10KΩ _4.7kΩ LCD_DATA11 23 LCD_DATA7 12 LCD_DATA7 GND R87 0Ω R1 LCD_DATA6 LCD_DATA7 6 24 G2 24 R0 13 LCD_DATA6 LCD_DATA6 25 25 3VCC LCD_DATA5 14 LCD_DATA5 G1 PG17/LCD_HSYNC R88 _0Ω VREV LCD_DATA4 LCD_DATA5 26 G0 26 NC 15 LCD_DATA4 R89 3VCC 27 LCD_M_DISP R90 _0Ω 27 LCD_DATA3 16 1kΩ LCD_DATA4 GND R91 NC LCD_DATA2 LCD_DATA3 28 B5 28 GND 17 LCD_DATA2 LCD_DATA3 29 _10KΩ PG19/LCD_CLK 29 R167 5VCC LCD_DATA1 18 LCD_DATA2 B4 DCLK _4.7kΩ LCD_DATA0 LCD_DATA1 30 B3 30 GND 19 LCD_DATA0 31 31 20 R92 LCD_DATA1 GND GND PG19/LCD_CLK GND 32 B2 32 GND 21 LCD_CLK 4.7kΩ LCD_DATA0 33 33 PG17/LCD_HSYNC 22 R93 0Ω B1 GND PG21/TIOC0A R94 _0Ω LCD_HSYNC 34 B0 34 GND 23 NC 35 35 24 PG21/TIOC0A R160 0Ω PCI TMZ PG16/LCD_VSYNC R159 _0Ω NC [2,9] PG21/TIOC0A 36 36 25 LCD_M_DISP R95 _0Ω Vctrl PG21/TIOC0A GND PG18/LCD_DE LCD_VSYNC [2,8] PJ2/CTx1/LCD_M_DISP 37 37 26 R162 0Ω NC DIM LCD_M_DISP LCD_DE 38 NC 38 NC 27 LCD_M_DISP 39 NC 39 VDD2 28 GND 40 40 C64 29 B NC VDD2 GND B _18pF 30 IMSA-9639S-40D-TR(LCD) IMSA-9619S-40B-T(LCD) GND XG4C-3031 Industrial use Vehicle use
[2] PH7/AN7
A A Renesas Solutions Corp. M3A-HS64G02 LCD Module Connector DRAWN CHECKED DESIGNED APPROVED ( 710 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
D D
IEBus Driver 5VCC
5VCC U37 5VCC VCC 7 8 R163 STB# CP41 _0Ω 0.1µF/25V J13 GND 4 1 IETxD VCC 1 S1 BUS- 5 2 BUS- 3 S2 3 BUS+ R164 4 68Ω GND IERx0 B4B-XH-A 2 Rout BUS+ 6 CP42 R165 R166 20pF _4.7KΩ 0Ω HA12187FP Voltage Level Shifter 3V<->5V
3VCC
TP7 TP8 JP4 3V->5V HWP-2P-G C C R96 R97 CP25 3VCC 5VCC CP26 3VCC 1 1 JP5 1-2 CTx1 On 4.7KΩ 4.7KΩ 0.1µF/25V 0.1µF/25V HWP-3P-G 1 2 5VCC U12 1 U13 2 1 8 CTx0 1 3 VCCA VCCB 3 TxD VCC CP27 [2] PJ0/CTx0/IETxD 2 7 A0 B0 CTx1 0.1µF/25V [2,7] PJ2/CTx1/LCD_M_DISP 3 A1 B1 6 4 RxD 4 GND DIR 5 GND 2 CAN0 8 SN74LVC2T45DCT MODE JP6 JP7 1-2 IETxD 5 NC 7 2-3 CTx0 CANH 1-2 RCAN0 Terminate J14 CANL 6 1 HA13721FPK CANH 2 CANL 3 GND B3B-XH-A
JP6 JP7 1 1 2 2 HWP-2P-G HWP-2P-G 5VCC TP9 TP10 JP8 3V<-5V HWP-2P-G R98 CP29 3VCC 5VCC CP28 1 1 JP9 1-2 CRx1 On 0.1µF/25V 0.1µF/25V R99 R100 HWP-3P-G 120Ω 47KΩ 47KΩ 1 2 5VCC U14 1 U15 2 1 8 CRx0 1 3 JP10 JP11 VCCA VCCB 3 TxD VCC CP30 [2] PJ1/CRx0/IERxD 2 7 1 1 A0 B0 CRx1 0.1µF/25V [2] PJ3/CRx1 3 A1 B1 6 4 RxD 2 2 4 5 2 GND DIR GND HWP-2P-G HWP-2P-G MODE 8 CAN1 SN74LVC2T45DCT 5 B 1-2 IERxD NC B 7 2-3 CRx0 CANH J15 CANL 6 1 HA13721FPK CANH 2 CANL 3 GND JP10 JP11 B3B-XH-A 1-2 RCAN1 Terminate
A A Renesas Solutions Corp. M3A-HS64G02 CAN/IEBus DRAWN CHECKED DESIGNED APPROVED ( 810 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
LED Key Input
GREEN 3VCC
D D
R101 R102 R103 R104 AVcc 910Ω 910Ω 910Ω 910Ω
R105 4.7kΩ
PH0/AN0 [2] LED1 LED2 LED3 LED4 SML-310MT SML-310MT SML-310MT SML-310MT R106 R107 R108 R109 14kΩ 4.7kΩ 1.58kΩ 0Ω [2,7] PG21/TIOC0A [2] PG22/TIOC0B [2] PG23/TIOC0C SW4 SW5 SW6 SW7 [2] PG24/TIOC0D B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012
YELLOW 3VCC AVss AVss AVss AVss AVcc
MTU2 R114 R110 R111 R112 R113 4.7kΩ 910Ω 910Ω 910Ω 910Ω J16 Board fixed hole. 1 PH1/AN1 [2] 2 3 4 R115 R116 R117 R118 5 14kΩ 4.7kΩ 1.58kΩ 0Ω MH4 C C 6 1 1 LED5 LED6 LED7 LED8 7 SML-310YT SML-310YT SML-310YT SML-310YT 8 HOLE 9 SW8 SW9 SW10 SW11 10 B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012 MH5 [2] PJ6/TIOC1A 11 1 1 12 [2] PJ7/TIOC1B HOLE [2,3] PC9/TIOC2A 13 [2,3] PC10/TIOC2B 14 15 AVss AVss AVss AVss MH6 AVcc 16 1 1 17 BLUE 18 HOLE 5VCC 19 20 R119 MH7 4.7kΩ XG4C-2031 1 1 HOLE PH2/AN2 [2] R120 R121 MH8 910Ω 910Ω R122 R123 R124 R125 1 14kΩ 4.7kΩ 1.58kΩ 0Ω 1 HOLE
MH9 SW12 SW13 SW14 SW15 1 B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012 1 LED9 LED10 HOLE SML310BAT SML310BAT MH10 1 AVss AVss AVss AVss 1 [2] PF11/TIOC3C AVcc HOLE [2] PF12/TIOC3D MH11 1 R126 1 4.7kΩ HOLE B B MH12 PH3/AN3 [2] ORANGE 1 3VCC 1 R127 R128 R129 R130 HOLE 14kΩ 4.7kΩ 1.58kΩ 0Ω MH13 1 1 R131 R132 R133 R134 SW16 SW17 SW18 SW19 HOLE 910Ω 910Ω 910Ω 910Ω B3SN-3012 B3SN-3012 B3SN-3012 B3SN-3012 MH14 1 1 HOLE AVss AVss AVss AVss MH15 LED11 LED12 LED13 LED14 1 SML-310DT SML-310DT SML-310DT SML-310DT 1 HOLE
[2] PC5/TIOC4A [2] PC6/TIOC4B [2] PC7/TIOC4C [2] PC8/TIOC4D
A A Renesas Solutions Corp. M3A-HS64G02 LED/Key Input DRAWN CHECKED DESIGNED APPROVED ( 910 / ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1 5 4 3 2 1
1-2 Power On 2-3 Power Off
Power Power Connector Switch 12VCC
J17 JP12 SW20 12VCC D D +12V 1 1 1 NC 2 2 2 GND 3 3 3 S3B-XH-A XG8V-0334 MS-12AAH1 R135 5.1KΩ 1-2 PWR 2-3 ADP C37 POWER AC 22µF/50V Adaptor J18 LED15 2 UB1111C 4 3 BLUE LGP6531-0700
5VCC
C C
CDRH125NP-180MC 5VCC L5 0.027Ω/0.5W TP11 R136 R137 R138 R168 R139 1 2 R140 3A 1 1MΩ 0Ω 0Ω 10KΩ 1MΩ TP16 5.0V Out C38 PGOOD 1 1000pF C39 C43 + CE22 + CE27 R141 _0Ω U16 1 _22µF/25V _22µF/25V 100µF/25V(P) 100µF/25V(P) C40 0.1µF/25V 1 28 2 SP8K3/SO RUN/SS1 PGOOD Q1A R142 20kΩ/F C41 27pF 2 27 C42 0.1µF/25V 12VCC SENSE1+ TG1 7 8 TP12 R143 _0Ω R144 105kΩ/F 3 SENSE1- SW1 26 3A 1 D1 RSX051VA-30 12V In C44 _1000pF 4 25 VOSENSE1 BOOST1 5 6 C46 C47 5 24 R146 10Ω R145 _10KΩ C45 _0.01µF/25V R147 0Ω PLLFLTR VIN Q1B 22µF/50V 22µF/50V R148 _0Ω 6 23 4 SP8K3/SO PLLIN BG1 SHORT3 TP13 R149 15KΩ C48 220pF C65 1µF C49 4.7µF/25V C50 0.1µF/25V 3 7 22 1 GND R150 0Ω FCB EXTVCC C51 33pF 8 ITH1 INTVCC 21 TP14 9 SGND PGND 20 1 GND_PWR 1 R151 _0Ω 10 19 3.3VOUT BG2 2 SP8K3/SO C52 33pF 11 18 Q2A ITH2 BOOST2 D2 RSX051VA-30 5 6 12 17 7 8 B R152 15KΩ C53 220pF VOSENSE2 SW2 Q2B B R153 180kΩ/F 4 SP8K3/SO 100µF/25V(P) 100µF/25V(P)
13 SENSE2- TG2 16
+ + + C56 C57 + R154 20kΩ/F C54 27pF 14 15 C55 0.1µF/25V 3 CE23 CE28 SENSE2+ RUN/SS2 _22µF/25V _22µF/25V LTC3727EG C58 R155 _0Ω 8VCC C59 0.1µF/25V L6 8.0VTP15 Out R156 0.039Ω/0.5W 1000pF 1 2 2A 1
R157 R158 CDRH125NP-180MC 0Ω 0Ω C60 _0.1µF/25V
A A Renesas Solutions Corp. M3A-HS64G02 Power Generate DRAWN CHECKED DESIGNED APPROVED ( 10 / 10 ) SCALE CHANGECHANGECHANGE Ver. 1.00B DATE 09-03-02 DK30762 5 4 3 2 1
Revision History SH7267 CPU Board R0K572670C000BR User's Manual
Rev. Date Description Page Summary 1.00 Nov. 18, 2010 - First edition issued
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SH7267 CPU Board User's Manual R0K572670C000BR
Publication Date Nov. 18, 2010 Rev. 1.00
Published by Renesas Electronics Corporation
SH7267 CPU Board R0K572670C000BR User's Manual
REJ11J0042-0100