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Summary of Contents for Renesas Starter Platform
- Page 1 YRSPSH7267-0103 Renesas Starter Platform for SH7267 User's Manual RENESAS SINGLE-CHIP MICROCOMPUTER SuperH RISC engine Rev.3.2 Renesas Electronics America Inc Revision date: www.renesas.com May. 23, 2012...
- Page 2 By using this Renesas Starter Platform (RSP), the user accepts the following terms. The RSP is not guaranteed to be error free, and the entire risk as to the results and performance of the RSP is assumed by the User. The RSP is provided by Renesas on an “as is” basis without warranty of any kind whether express or implied, including but not limited to the implied warranties of satisfactory quality, fitness for a particular purpose, title and non-infringement of intellectual property rights with regard to the RSP.
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Page 3: Table Of Contents
Table of Contents Chapter 1. Preface ..............................1 Chapter 2. Purpose ..............................2 Chapter 3. Power Supply ............................3 3.1. Requirements ............................... 3 3.2. Power–up Behaviour ............................ 3 Chapter 4. Board Layout ............................4 4.1. Component Layout ............................4 4.2. - Page 4 Chapter 12. Additional Information........................26...
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Page 5: Chapter 1. Preface
Chapter 1. Cautions This document may be, wholly or partially, subject to change without notice. All rights reserved. Duplication of this document, either in whole or part is prohibited without the written permission of Renesas Electronics America. Trademarks All brand or product names used in this manual are trademarks or registered trademarks of their respective companies or organisations. -
Page 6: Chapter 2. Purpose
Purpose Chapter 2. This RSP is an evaluation tool for Renesas microcontrollers. Features include: Renesas Microcontroller Programming. User Code Debugging. User Circuitry such as switches, LEDs and potentiometer(s). Sample Application. Sample peripheral device initialisation code. -
Page 7: Chapter 3. Power Supply
When the RSP is purchased the CPU board has the ‘Release’ or stand alone code from the example tutorial code pre-programmed into the Renesas microcontroller. On powering up the board, the user LEDs will start to flash. Pressing any switch will cause the LEDs to flash at a... -
Page 8: Chapter 4. Board Layout
Board Layout Chapter 4. 4.1. Component Layout The following diagram shows the top layer component layout of the board. Video Power Connector Connector Power LED’s Reset Switch Ethernet Jack TFT LCD Audio Jacks Panel User LEDs E10A Header Connector USB Host & Function(bottom) Debug LCD RS232 Serial... -
Page 9: Board Dimensions
4.2. Board Dimensions The following diagram gives the board dimensions and connector positions. Figure 4-2: Board Dimensions... -
Page 10: Chapter 5. Block Diagram
Block Diagram Chapter 5. Figure 5-1 shows the CPU board components and their connectivity. Power Jack QSPI 4MB SD Card Connector LCD Panel Connector NAND Video Decoder NOR 4MB SH7267 TFT Header RCAN Microcontroller SDRAM 64MB Connector Ethernet Connector RESET IC Reset In USB Host &... -
Page 11: Chapter 6. User Circuitry
User Circuitry Chapter 6. 6.1. Switches There are 16 user switches connected in matrix form on the board in addition to the reset switch. They are connected to 4 ADC input Pins of the MCU. The function of each switch and its connection are shown in Table 6-1 Switch Function Microcontroller... -
Page 12: Serial Port
6.4.Serial port The RS232 port is available at connector ‘CN1’ and uses microcontroller serial port SCIF0 for asynchronous serial communication. The board is designed to accept a straight-through RS-232 male-to-female cable. 6.5.Debug LCD Module The LCD module supplied with the RSP can be connected to the connector ‘J6’ for use with the tutorial code. Any module that conforms to the pin connections and has a KS0066u compatible controller can be used. -
Page 13: Rcan
6.6. RCAN The SH7267 on-chip RCAN module offers a flexible and sophisticated way to organize and control CAN frames, providing the compliance to CAN2.0B Active and ISO-11898-1. There are 2 CAN channels available on the microcontroller but only one transceiver is available on the board. -
Page 14: Ethernet
USB Socket-A (USB Host) USB Mini-B (USB Device / Function) JP1 (1-2) short JP1 (1-2) open Pin No Pin Name Circuit Net Device Pin Pin No Pin Name Circuit Net Device Pin Name Name VBUS VBUS VBUS VBUS GROUND USB_ID USB_SHLD GROUND USB_SHLD... -
Page 15: Ssi
PG17 LCD_CL1_HSYNC LCD_FLM_VSYNC PG16 PG19 LCD_CLK GROUND GROUND LCD0_B1 PG0 PG1 LCD1_B2 LCD2_B3 PG2 PG3 LCD3_B4 LCD4_B5 PG4 PG5 LCD5_G0 LCD6_G1 PG6 PG7 LCD7_G2 LCD8_G3 PG8 PG9 LCD9_G4 LCD10_G5 PG10 GROUND LCD11_R1 PG11 PG12 LCD12_R2 LCD13_R3 PG13 PG14 LCD14_R4 LCD15_R5 PG15 GROUND PG21/RSPCK1/TIOC0A PG23/MOSI1/TIOC0C... -
Page 16: Video Decoder
6.12.Video Decoder The video display controller provides video display function, video recording function, utility for overlaying graphics images on the input video, and function for outputting the control signals for the TFT-LCD panel. Note: The video display controller is not available in the RSP SH7267 default setting. To use the video display controller, fit the following optional resistors: R69, R70, R71, R72, R73, R74, R75, R76, R80, R82, and R83;... -
Page 17: Option Links
6.13. Option Links In this section, the default configuration is indicated by BOLD text. Table 6-12 describes the function of the option links associated with LCD configuration. LCD interface Settings R209 LCD Interface Connects Clock pin 26 of DAC to Disconnects Clock pin 26 of DAC from GROUND GROUND... - Page 18 R268 LCD Interface Connects PJ2 pin of MCU to Disconnects PJ2 pin of MCU from R269, R275 LCD_M_DISP pin of TFT LCD LCD_M_DISP pin of TFT LCD connector connector (JP12) (JP12) Table 6-12: LCD Configuration links Table 6-13 describes the function of miscellaneous option links. Option Link Settings Reference Function...
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Page 19: Oscillator Sources
Table 6-13: Miscellaneous Configuration links 6.14. Oscillator Sources Oscillators are fitted on the CPU board and used to supply various clock inputs to the Renesas microcontroller. Table 6-14 details the oscillators that are fitted and alternative footprints provided on this CPU board:... -
Page 20: Reset Circuit
Component Oscillator (X1) Not Fitted 25.175MHz LCD Clock Oscillator (X2) Not Fitted For Test Purposes Crystal (X4) Fitted 32.768KHz Real Time Clock Oscillator (X5) Not Fitted For Test Purposes Crystal (X6) Fitted 48 MHz USB Clock Oscillator (X7) Fitted 24.576MHz Video Decoder Clock Crystal (X9) Fitted... -
Page 21: Chapter 7. Modes
Modes Chapter 7. 7.1. Boot modes The boot modes supported by this RSP board are listed in. Note: Please ensure that SW1-6 is ON Table 7-1 Boot Mode SW1-2 SW1-3 Description (MD_BOOT1 pin) (MD_BOOT0 pin) Boots the MCU, from the 4MB NOR flash memory (connected to the CS0 space) Boots the MCU, through high-speed communication, from the 4MB serial flash memory (connected to channel 0 of SPI... -
Page 22: Chapter 8. Programming Methods
Programming Methods Chapter 8. The board is intended for use with HEW and the supplied E10A debugger. Refer to SH7267 Group Hardware Manual for details of programming/ debugging without using these tools. -
Page 23: Chapter 9. Headers
Headers Chapter 9. 9.1. Generic Headers Table 9-1 to Table 9-2 below show the standard generic header connections. Header Pin CPU board Signal Name Device pin Header Pin CPU board Signal Name Device pin 5VCC 3VCC PD15 PD14 PD13 PD12 PD11 PD10 GROUND... -
Page 24: Generic Tft Lcd Header
9.2. Generic TFT LCD Header Generic TFT LCD header connections are detailed in Table 9-3. JP12 Header Generic TFT LCD RSP board Signal Device Pin Header Generic TFT LCD RSP board Device Pin Header Name Name Header Name Signal Name 3VCC 3VCC 3VCC... - Page 25 Generic SPDIF header connections are detailed in Table 9-4. Header Pin RSP board Signal Name Device Pin Header Pin RSP board Signal Name Device Pin 3VCC SPDIF_OUT SPDIF_IN GROUND Table 9-4: SPDIF Header...
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Page 26: Chapter 10. Code Development
Chapter 10. 10.1. Overview Note: For all code debugging using Renesas software tools, the CPU board must be connected to a PC USB port via an E10A. An E10A is supplied with the RSP product. An E10A supplied with this Platform is an on-chip debugging emulator which supports the H-UDI interface of the target device. The H-UDI uses a 14-pin interface and marked as E10A on the RSPSH7267 board. -
Page 27: Memory Map
10.4. Memory Map The memory map shown in this section visually describes the memory areas of RSPSH7267. Figure 10-1: RSPSH7267 Memory Map... -
Page 28: Chapter 11. Component Placement
Component Placement Chapter 11. Figure 11-1: Component Placement (Top Layer) - Page 29 Figure 11-2: Component Placement (Bottom Layer)
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Page 30: Additional Information
For information about the E10A Emulator, please refer to the E10A-USB Emulator User’s Manual Online technical support and information is available at: www.renesas.com/renesas_starter_Platforms Technical Contact Details America: techsupport.rta@renesas.com Europe: tools.support.eu@renesas.com Japan: csc@renesas.com General information on Renesas Microcontrollers can be found on the Renesas website at: www.renesas.com... - Page 31 Renesas Starter Platform for SH7267 User's Manual Publication Date Rev.1.00 Published by: Renesas Electronics America Inc ©2012 Renesas Electronics America, All Rights Reserved.
- Page 32 Renesas Starter Platform Plus for SH7267 User's Manual Renesas Electronics America Inc...
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