Renesas Starter Kit2+ for SH7267 User`s Manual
Contents
1. HeaderPin CPU board Signal Name Device pin HeaderPin CPU board Signal Name Device pin 1 5VCC 2 3VCC 3 A22 43 4 PD15 131 5 A21 39 6 PD14 132 T A20 38 8 PD13 139 9 A19 37 10 PD12 140 11 A18 36 12 PD11 142 13 A17 35 14 PD10 144 15 A16 34 16 PD9 145 17 A15 26 18 PD8 146 19 GROUND 20 GROUND 21 A14 25 22 PD7 147 23 A13 24 24 PD6 148 25 A12 23 26 PD5 149 27 11 22 28 PD4 156 29 A10 20 30 PD3 157 31 A9 18 32 PD2 158 99 A8 16 34 PD1 159 35 AT 15 36 PDO 160 37 GROUND 38 GROUND 39 A6 14 40 50 161 41 5 13 42 PC1 RD 163 43 A4 8 44 PC2 RD WR 165 45 7 46 PC3 WE0 DQML 166 47 A2 6 48 PC4 WE1 DQMU 167 49 Al 4 50 PC5B RAS 168 51 NC 52 PC6B CAS 173 53 NC 54 PC7B CKE 174 55 NC 56 PC8B CS3 175 Table 9 1 JP15 microcontroller header Header CPU board Signal Name Device pin Header CPU board Signal Name Device pin Pin Pin 1 5VCC 2 3VCC 3 NC 4 PHO ANO 80 5 NC 6 PH1 AN1 81 7 GROUND 8 PH2 AN2 82 9 NC 10 PH3 AN3 83 11 NC 12 GROUND 13 NC 14 4 85 15 16 _ 5 87 17 18 44 19 NC 20 GROUND 21 22 23 NC 24 PJO CTXO IETXD 107 25 GROUND 26 PJ1 CRXO IERXD 106 27 PG21 RSPCK1 TIOCOA 103 28 PG24 MISO1 TIOCOD 97 29 PG22 SSL1 TIOCOB 101 30 NC 31 PG23 MOSI1 TIOCOC 99 32 GROUND Table 9 2 JP16 microcontroller header 9 2 Generic TFT LCD Header Generic TFT LCD header conn2. 12 6319 Optom de etim e He mde edd tl Add 13 6 14 Osclllator GOUrces iS 15 6 15 Reset Circuit teen ee Lc e as 16 Chapter 7 Modes 17 7 Bootmodes enel tn ederet 17 T2 6lock operating miodes see eere Re RR eat EON 17 Chapter 8 Programming nnen nnen 18 Chapter 9 Headers e ete o bibe t pe tid b LE 19 9 1 G nerlc Headers onini a Fee dcr FOE aea da ep ERA Top dd 19 9 2 Generic TFT LCD Header 0044222222 1 1 0 000001100000 010000 20 Chapter 10 Code 22 E 22 10 2 Compiler ees e ied e En Ee eas 22 10 3 BreakPoint SUpport dde eie dit edd dde aee atre e tieni dt 22 10 4 Memory Map sinet e too ced te 23 Chapter 11 Component 24 Chapter 12 Additional Information Cautions Chapter 1 Preface This document may be wholly or partially subject to change without notice All rights reserved Duplication of this document
3. Chapter 6 User Circu itry 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 RST SW18 When pressed the microcontroller is reset RES Pin 46 SW2 User Switch PHO ANO Pin 80 SW3 User Switch PHO ANO Pin 80 SWA4 User Switch PHO ANO Pin 80 SW5 User Switch PHO ANO Pin 80 SW6 User Switch PH1 AN1 Pin 81 SW7 User Switch PH1 AN1 Pin 81 SW8 User Switch PH1 AN1 Pin 81 SW9 User Switch PH1 AN1 Pin 81 SW10 User Switch PH2 AN2 Pin 82 5 11 User Switch PH2 AN2 Pin 82 SW12 User Switch PH2 AN2 Pin 82 5 13 User Switch PH2 AN2 Pin 82 SW14 User Switch Pin 83 SW15 User Switch PH3 AN3 Pin 83 SW16 User Switch PH3 AN3 Pin 83 SW17 User Switch PH3 AN3 Pin 83 Table 6 1 Switch Functions 6 2 LEDs There are 7 LEDs on the RSP board The green POWER LED LED8 lit when a 3 3V supply is connected to the power net 3VCC and blue POWER LED LED7 lights when the board is powered with 5V The four user LEDs are connected to an lO port and will lit when their corresponding port pin is set low An Orange LED D2 will light when Ethernet connection is established Table 6 2 below shows the LED pin references and their corresponding microcontrol
4. circuit circuit R53 Serial Flash Connects RESET pin of Serial Flashto Disconnects RESET pin of Serial Flash R54 Interface 3VCC from 3VCC R54 Serial Flash Connects RESET pin of Serial Flash Disconnects RESET pin of Serial Flash from R53 Interface to the CPU reset pin CPU reset pin R281 Serial Flash Connects the D pin of Serial Flash to Disconnects the D pin of Serial Flash from Interface pin 3 of J10 connector pin 3 of J10 connector R282 Serial Flash Connects the pin of Serial Flash to Disconnects the pin of Serial Flash from Interface pin 2 of J10 connector and MCU port pin 2 of J10 connector and MCU port pin PF2 pin PF2 R65 SDRAM Pull down resistor for CKE pin of the Disconnects CKE pin of MCU from the Interface MCU Pull down resistor R32 NAND Flash Connects the WP pin of NAND flash Disconnects the WP pin of NAND flash Interface memory to 3VCC memory from 3VCC R33 NOR Flash Connects an external address line A25 Disconnects the address line A25 of MCU R37 interface of MCU to pin 56 of NOR Flash memory from pin 56 of Nor Flash memory R34 NOR Flash Connects an external address line 24 Disconnects the address line A24 from R38 interface of MCU to pin 1 of NOR Flash memory pin 1 of Nor Flash memory R35 NOR Flash Connects an external address line A23 Disconnects the address line A23 from R39 interface of MCU to pin 2 of NOR Flash memory pin 2 of Nor Flash memory R36 NOR Flash Connects an external address line Disconnects the
5. flash Pressing any switch will cause the LEDs to flash at a rate controlled by the potentiometer Chapter 4 Layout 4 1 Component Layout The following diagram shows the top layer component layout of the board Video Connector Power Connector Power Reset PEE Switch Ethernet Jack TFT LCD 4 MCU gt Audio Jacks User LEDs 9 531 E10A 6660 lt Header Connector E 0000 USB Host amp d O Function bottom CAN D LCD RS232 Serial User Connector Switches Figure 4 1 Board Layout 4 2 Board Dimensions The following diagram gives the board dimensions and connector positions Figure 4 2 Board Dimensions Chapter 5 Block Diagram Figure 5 1 shows the CPU board components and their connectivity Power Jack SD Card Connector QSPI 4MB LCD Panel Connector Video Decoder A 1 TFT Header _ Microcontroller Connector Ethernet Connector Serial Sound Interface Connector 2 o 5 Serial Sound Interface Connector Application Header ADC Inputs for User Switches Analog In User Switches Debug Headers Option Serial Connectors Option Potentiometer Figure 5 1 Block Diagram Figure 5 2 shows E10A connections to the RSP board CPU Board Figure 5 2 E10A RSP Connections
6. voltage level standards Table 6 5 RCAN Connector For more details on SH7267 on chip RCAN module please refer to SH7267 Group Hardware Manual 6 7 USB The USB 2 0 host function module USB provides capabilities as a USB host and USB function It supports high speed and full speed transfers defined by USB 2 0 specification The Low speed mode is not supported This module has a USB transceiver and supports all of the transfer types defined by the USB specification The module has an 8 kbyte on chip buffer memory for data transfer providing a maximum of ten pipes Any endpoint numbers can be assigned to PIPE1 to PIPE9 based on the peripheral devices or user system for communication Table 6 6 below details the USB connectors available on this RSP board USB Socket A USB Host USB Mini B USB Device Function JP1 1 2 short JP1 1 2 open PinNo Pin Name Circuit Net Device Pin PinNo Pin Name Circuit Net Device Pin Name Name 1 VBUS VBUS 70 1 VBUS VBUS 70 2 D DM 68 2 D DM 68 3 D DP 69 3 D DP 69 4 GND GROUND 4 ID USB_ID NC 5 FG2 USB_SHLD 5 GND GROUND 6 FG1 USB_SHLD 6 FRAME USB_SHLD 7 FG1 USB_SHLD 8 FG2 USB_SHLD 9 FG3 USB_SHLD Table 6 6 USB For more details on SH7267 on chip USB module please refer to SH7267 Group Hardware Manual 6 8 ETHERNET The network functionality is provided by the SMSC LAN9218 a single chip 10 100 Ethernet controll
7. 0000 SDRAM 64MB H OFFFFFFF Lee H 10000000 Allocated to H FFF80000 Internal H FFFSF C00 STACK 0000 Internal 1 0 HFFFFFFFF REGISTERS Figure 10 1 RSPSH7267 Memory Map 23 Chapter 11 Component Placement EM e ser en i m PET amp HHHH m a 50 125 170 00 T75 20mm Figure 11 1 Component Placement Top Layer iti Bie BB B B i og ora onm b B x onm E gj Ea 83 Im 3 ee E H s o E di m B 2 di coon RITS e a iiu L J Figure 11 2 Component Placement Bottom Layer 25 Chapter 12 Additional Information For details on how to use High performance Embedded Workshop HEW refer to the HEW manual available on the CD or installed in the Manual Navigator For information about the SH7267 microcontrollers refer to the SH7267 Group Hardware Manual For information about the SH7267 assembly language refer to the SH2A SH2A FPU Software Manual 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 too
8. 11 SD Card SD card memory interface is provided in this controller Note The SD card memory interface is not available in the RSP SH7267 default setting To use the SD card memory interface fit the following optional resistors R286 R287 R288 R289 R290 R291 R26 R305 and R304 and remove the default resistors R133 R134 R135 R136 R301 and R302 Table 6 9 below details the SD Card header J1 Pin HeaderName Circuit Net Name DevicePin Pin HeaderName Circuit Net Name Device Pin 1 CD DAT3 SD_D3 117 2 CMD SD_CMD 116 3 VSS1 GROUND 4 VDD 3VCC_C 5 CLK SD_CLK 115 6 VSS2 GROUND 7 DATO SD 0 113 8 DAT1 SD D1 111 9 DAT2 SD D2 118 10 W Protect SD WP 109 11 Card Detect SD CD 108 12 COMMON GROUND Table 6 9 SD Card Header 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 7267 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 and remove the default resistors R133 R134 R135 R136 R301 and R302 Table 6 10 below details the Video Decoder header pin connections CN10 Pin Circuit Net Name
9. 24 NE SAS YRSPSH7267 0103 Everywhere you imagine RENESAS SINGLE CHIP MICROCOMPUTER TM SuperH RISC engine Rev 3 2 Renesas Electronics America Inc Revision date May 23 2012 www renesas com Disclaimer 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 Renesas expressly disclaims all such warranties Renesas or its affiliates shall in no event be liable for any loss of profit loss of data loss of contract loss of business damage to reputation or goodwill any economic loss any reprogramming or recall costs whether the foregoing losses are direct or indirect nor shall Renesas or its affiliates be liable for any other direct or indirect special incidental or consequential damages arising out of or in relation to the use of this RSP even if Renesas or its affiliates have been advised of the possibility of such damages Precautions This Renesas Starter Platform is only intended for use in a laboratory environment under ambient temperature and humidity conditions A s
10. Connects signal R2 of Video DAC to Disconnects signal R2 of Video DAC from ground ground R211 LCD Interface Connects signal R3 of Video DAC to Disconnects signal R3 of Video DAC from PG11 pin 169 of MCU PG11 pin169 of MCU R214 LCD Interface Connects signal R4 of Video DAC to Disconnects signal R4 of Video DAC from PG12 pin 155 of MCU PG12 pin155 of MCU R215 LCD Interface Connects signal R5 of Video DAC to Disconnects signal R5 of Video DAC from PG13 pin 154 of MCU PG13 pin154 of MCU R216 LCD Interface Connects signal R6 of Video DACto Disconnects signal R6 of Video DAC from PG14 pin 151 of MCU PG14 pin151 of MCU R217 LCD Interface Connects signal R7 of Video DAC to Disconnects signal R7 of Video DAC from PG15 pin 150 of MCU PG15 pin150 of MCU R218 LCD Interface Connects signal 60 of Video DAC to Disconnects signal GO of Video DAC from ground ground R219 LCD Interface Connects signal G1 of Video DAC to Disconnects signal G1 of Video DAC from ground ground R220 LCD Interface Connects signal G2 of Video DAC to Disconnects signal G2 of Video DAC from PG5 pin30 of MCU PG5 pin30 of MCU R221 LCD Interface Connects signal G3 of Video DAC to Disconnects signal G3 of Video DAC from PG6 pin28 of MCU PG6 pin28 of MCU R222 LCD Interface Connects signal G4 of Video DAC to Disconnects signal G4 of Video DAC from pin27 of MCU pin27 of MCU R224 LCD Interface Connects sign
11. DevicePin Pin Circuit Net Name Device Pin 1 PE5 DV HSYNC SDA2 133 2 46 3 PE4 DV_VSYNC SCL2 134 4 PE3 SDA1 135 5 PFO DV DATAO 119 6 PE2 SCL1 136 7 GROUND 8 3VCC 9 PF8 DV_CLK 108 10 PF4 DV_DATA4 115 11 PF1 DV_DATA1 118 12 PF5 DV_DATA5 113 13 PF2 DV DATA2 117 14 PF6 DV_DATA6 111 15 PF3 DV_DATA3 116 16 PF7 DV_DATA7 109 Table 6 10 Video Decoder Header CN10 Table 6 11 below details the VGA connector pin connections J9 Header Pin RSP board Signal Name HeaderPin RSP board Signal Name 1 crt red 2 crt green 3 crt blue 4 NC 5 GROUND 6 GROUND 7 GROUND 8 GROUND 9 NC 10 GROUND 11 NC 12 NC 13 LCD_CL1_HSYNC 14 LCD_FLM_VSYNC 15 NC Table 6 11 VGA Connector These CPU pins are connected through a NAND gate 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 R210 LCD Interface Connects signal RO of Video DAC to Disconnects signal RO of Video DAC from ground ground R212 LCD Interface Connects signal R1 of Video DAC to Disconnects signal R1 of Video DAC from ground ground R213 LCD Interface
12. address line A22 from pin R40 interface A22 to pin 15 of NOR Flash memory 15 of NOR Flash memory R86 Video Decoder Pull up resistor for the MCU pin CLKINV Disconnects the pull up from CLKINV pin R90 R90 Video Decoder Connects CLKINV pin of Video Disconnects CLKINV pin of Video Decoder R86 Decoder to ground from ground R1 Power Supply Connects 1 2VCC to PLL1 2V Disconnects 1 2VCC from PLL1 2V R252 Power Supply Connects 1 2VCC to UA1 2V Disconnects 1 2VCC from UA1 2V R251 Power Supply Connects 3VCC CPU to UA3V Disconnects CPU from UA3V R250 Power Supply Connects 3VCC CPU to AVcc Disconnects CPU from AVcc R253 Oscillator Connects X9 Crystal to EXTAL pin 57 Disconnects crystal X9 from EXTAL pin 57 of MCU of MCU R248 USB Parallel resistor for inductor L1 Parallel resistor removed R249 USB Parallel resistor for inductor L3 Parallel resistor removed R57 USB Connects 5V supply to the Supply Disconnects 5V supply from the supply pin of pin of power distribution switch MIC2025 U7 U7 R68 Video Decoder Connects bus address select pin Disconnects bus address select pin R78 73 of Video decoder to 3VCC 73 of Video decoder from pull up circuit R78 Video Decoder Connects IIC bus control pin 73 of Disconnects IIC bus control 73 of Video R68 Video decoder to ground decoder from ground R91 User Port Connects the con
13. afe separation distance should be used between this and any sensitive equipment Its use outside the laboratory classroom study area or similar such area invalidates conformity with the protection requirements of the Electromagnetic Compatibility Directive and could lead to prosecution The product generates uses and can radiate radio frequency energy and may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment causes harmful interference to radio or television reception which can be determined by turning the equipment off or on you are encouraged to try to corre ct the interference by one or more of the following measures e ensure attached cables do not lie across the equipment e reorient the receiving antenna e increase the distance between the equipment and the receiver e connect the equipment into an outlet on a circuit different from that which the receiver is connected e power down the equipment when not is use e consult the dealer an experienced radio TV technician for help NOTE It is recommended that wherever possible shielded interface cables are used The product is potentially susceptible to certain EMC phenomena To mitigate against them it is recommended that the following measures be undertaken e The user is advised that mobile phones should not be used within 10m of the product when in use e The us
14. al G5 of Video DACto Disconnects signal G5 of Video DAC from PG8 pin11 of MCU PG8 pin11 of MCU R225 LCD Interface Connects signal G6 of Video DACto Disconnects signal G6 of Video DAC from PG9 pin 9 of MCU PG9 pin9 of MCU R226 LCD Interface Connects signal G7 of Video DAC to Disconnects signal G7 of Video DAC from PG10 pin 171 of MCU PG10 pin171 of MCU R227 LCD Interface Connects signal B0 of Video DAC to Disconnects signal BO of Video DAC from ground ground R228 LCD Interface Connects signal B1 of Video DAC to Disconnects signal B1 of Video DAC from ground ground R229 LCD Interface Connects signal B2 of Video DAC to Disconnects signal B2 of Video DAC from ground ground R230 LCD Interface Connects signal B3 of Video DAC to Disconnects signal B3 of Video DAC from PGO pin55 of MCU 0 pin55 of MCU R231 LCD Interface Connects signal B4 of Video DACto Disconnects signal B4 of Video DAC from PG1 pin54 of MCU PG1 pin54 of MCU R232 LCD Interface Connects signal B5 of Video DACto Disconnects signal B5 of Video DAC from PG2 pin53 of MCU PG2 pin53 of MCU R233 LCD Interface Connects signal B6 of Video to Disconnects signal B6 of Video DAC from PG3 pin52 of MCU pin52 of MCU R238 LCD Interface Connects the BLANK pin of Video Disconnects the BLANK pin of Video DAC DAC to PG18 pin2 of MCU from PG18 pin2 of MCU R234 LCD Interface Connects signal B7 of Video DACto Discon
15. at are fitted and alternative footprints provided on this CPU board 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 12MHz System Clock Oscillator OSC1 Fitted 13Mhz External DAC ADC Clock Crystal Y1 Fitted 25MHz Ethernet Clock Table 6 14 Oscillators Resonators 6 15 Reset Circuit The CPU Board includes a Reset IC 0 1819 Q9 to meet the minimum reset period of 200 msec The DS1819 monitor three vital conditions for a microprocessor power supply software execution and external override Please refer to the hardware manual for more information on the requirements of the reset circuit Please check the reset requirements carefully to ensure the reset circuit on the user s board meets all the reset timing requirements Chapter 7 Modes 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 BOOT1pin MD BOOTOpin 0 ON ON Boots the MCU from the 4MB NOR flash memory connected to the 0 space 1 ON OFF Boots the MCU through high speed communication from the 4 serial flash memory connec
16. d signal names used on this connector J6 For LCD Pin Circuit Net Name Device Pin Pin Circuit Net Name Device Pin 1 Ground 2 5VCC 3 No Connection 4 PE4 134 5 R W Wired to write only 6 PES 10k pull down 133 using 10K pull down to ground T No Connection 8 No Connection 9 No Connection 10 No Connection 11 PG20 58 12 PA B0 48 13 PA B1 49 14 PA B2 62 Table 6 3 Debug LCD Module Connections Note These pins are externally buffered 6 6 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 By default CANO is connected to the CAN transceiver Option links provide easy interface to connect CAN1 channel to the transceiver instead of CANO Table 6 4 details the required connections to connect either or CAN1 channel to the transceiver CAN channel Option Links Option Links R277 R278 R275 R276 CAN CA Note The default CAN setting on this RSP is indicated by BOLD text Table 6 4 CAN Channel Selection Table 6 5 details the CAN connectors available on this RSP board CANO Pi 05 CTX1 1 104 CRX1 The RCAN transceivers translate the voltage levels on CPU pin to meet RCAN
17. dio Interface Connects the analog output pin 21 of Disconnects the analog output pin 21 of audio driver to TP11 on board audio driver fromTP11 on board R137 MIC Connects the pin 1 of CN2 connector Disconnects the pin 1 of CN2 connector from to ground ground R146 Headphone Connects the pin 4 of CN4 connector Disconnects the pin 4 of CN4 connector from to GPIO2 pin of audio driver GPIO2 pin of audio driver R293 Ethemet Connects PB22 pin 43 of MCU to Disconnects PB22 pin 43 of MCU from chip R268 R275 Configuration Chip select pin of Ethernet select pin of Ethernet R283 Ethernet Connects pin FIFO_SEL of LAN89218 Disconnects pin FIFO_SEL of LAN89218 R179 Configuration to the external address A11 pin22 from the address pin A11 pin22 of the of the MCU MCU R284 Ethernet Connects the interrupt request pin of Disconnects the interrupt request pin of Configuration Ethernet controller to IRQ1 pin port Ethernet controller from IRQ1 pin137 of pin 137 of MCU MCU R265 Ethernet Connects endianess select pin of Disconnects endianess select pin of Configuration Ethernet controller to the address Ethernet controller from the address pin A19 pin A19 pin37 of MCU pin37 of MCU 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 th
18. ections are detailed in Table 9 3 JP12 Header Generic TFT LCD RSP board Signal DevicePin Header Generic TFT LCD RSP board Device Pin Pin Header Name Name Pin Header Name Signal Name 1 3VCC 2 3VCC S 3VCC 4 LCD15 R5 PG15 150 5 LCD14 R4 PG14 151 6 LCD13 R3 PG13 154 7 LCD12 R2 PG12 155 8 LCD11 R1 PG11 169 9 LCD10 G5 PG10 171 10 LCD9 G4 PG9 9 11 LCD8 G3 PG8 11 12 LCD7 G2 PG7 27 13 LCD6_G1 PG6 28 14 LCD5 G0 PG5 30 15 B5 4 32 16 LCD3 B4 PG3 52 17 LCD2 B3 PG2 53 18 LCD1 B2 PG1 54 19 LCDO B1 PGO 55 20 an GROUND 21 VLCD_CLK NC 22 LCD_CL1_HSYNC PG17 121 23 NC 24 NC 25 LCD_FLM_VSYNC PG16 123 26 LCD_DISP PG18 2 27 LCD_M_DISP LCD_M_DISP 105 28 GROUND 29 GROUND 30 GROUND Table 9 3 Generic TFT LCD Header 20 Generic SPDIF header connections are detailed in Table 9 4 J10 HeaderPin RSP board Signal Name DevicePin HeaderPin RSP board Signal Name Device Pin 1 3VCC 2 SPDIF OUT 124 3 SPDIF IN 125 4 GROUND Table 9 4 SPDIF Header 21 Chapter 10 Code Development 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 o
19. 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 Copyright 2012 Renesas Electronics America All rights reserved Website www renesas com Glossary ADC Analog to Digital Converter SCI CD Compact Disc SD CPU Central Processing Unit SDRAM DAC Digital to Analog Converter E10A E10A for Starter Platforms SPDIF SSI Debugger EMC Electromagnetic USB compatibility ESD Electrostatic Discharge HEW H UDI 1 0 LCD LED MCU PC RAM RCAN ROM High Performance Embedded Workshop Hitachi User Debug Interface Input Output Liquid Crystal Display Light Emitting Diode Microcontroller Unit Personal Computer Random Access Memory Renesas Controller Area Network Read Only Memory Serial Communication Interface Secure Digital Synchronous Dynamic Random Access Memory Sony Philips Digital Interface Serial Sound Interface Universal Serial Bus RSP Renesas Starter Platform plus 1 Chapter 2 rpose This RSP is an evaluation tool for Renesas microcontrollers Features include e Renesas Microcontroller Programming e User Code Debugging e Circuitry such as switches LEDs and potentiometer s e Sample Application e Sample peripheral device initialisation code The RSP board contains al
20. er is advised to take ESD precautions when handling the equipment The Renesas Starter Platform does not represent an ideal reference design for an end product and does not fulfil the regulatory standards for an end product Table of Contents Chapter Preface Lt pna e eU Ee Eee Ue Er eee a ede ev ee ERR Mee ie tera 1 Chapter 2 PUrpoSe e eto e p pb tea ie ae abet eda e eeu PU ee ve 2 Chapter 3 Power SUpply UBER ne Led rr e Ped pa FE ee e aped c nee 3 3 1 ne e din e nee i noe 3 3 2 Power up BN eer eden ded athe i dl ee ee n deed v eve 3 Chapter 4 Board Eayout iioii ita b d e Ed 4 4 1 ER 4 4 2 Board DIMeNSIONS cin die eI 5 Chapter 5 Block Diagram gee As 6 Chapter 6 User GIECUII icon oc re t e de eene eco te rre UR edt ete P e eae pie 7 SWICHES aic eee ane tt teta ee 7 O2 n LED teo E hd ME NEN M ues 7 6 3 Potentiomelter o A ed a eredi gr e o n nt 7 6 4 Serial tio et a E abet nb fS ttr acce at ad Des te ao ete 8 6 5 Deb g EGD Module 552 1 n A uic d Mpa AA c a dd ge 8 O Natera EUMD 9 USB a 9 6 8 ETHERNE Tot A o a 10 10 6 10 95 S E oct atiende ed det ud 11 6 11550 Card EE 11 6 12 Video Decoder e
21. er which incorporates essential protocol requirements for operating an Ethernet IEEE 802 3 10BASE T and 802 3u100BASE TX node The Ethernet controller is configured to use a 16 bit data bus It uses single 16 bit read and write strobes Byte accesses are not available for this device The chip select used for the network controller is CS4 The orange LED D2 lights when Full Duplex connection is established between the PHY device and any other connected Ethernet devices The embedded Ethernet connector green LED lights when there is a link with the other devices The yellow LED lights when there is a network activity Refer to the SMCS LAN9218 datasheet for more information on this peripheral Table 6 7 contains details of the signal descriptions and pin connections LED Reference Colour LAN89218 Port Pin LAN9218 Pin Number As shown on silkscreen DUPLEX Orange GPIO2 LED3 2 100 Ethernet connector LED K YELLOW Yellow GPIOO_LED1 98 Ethernet connector LED_K_GREEN Green GPIO1_LED2 99 Table 6 7 Ethernet module settings 6 9 LCD Interface Video Display Controller 3 in SH7267 supports TFT LCD panel Video Display Controller 3 uses the display and recording function to store the input data in the memory and then display the video on the panel NEC NL2432HC17 07B TFT LCD panel has been used on RSPSH7267 board This panel has a resolution of 240 x 320 pixels This panel is fitted at CN11 connector Table 6 8 bel
22. f the target device The H UDI uses a 14 pin interface and marked as E10A on the RSPSH7267 board Due to the continuous process of improvements undertaken by Renesas the user is recommended to review the information provided on the Renesas website at www renesas com to check for the latest updates to the Compiler and Debugger manuals 10 2 Compiler Restrictions The compiler supplied with this RSP is fully functional for a period of 60 days from first use After the first 60 days of use have expired the compiler will default to a maximum of 256k code and data To use the compiler with programs greater than this size you will need to purchase the full version tools from your Renesas distributor Warning The protection software for the compiler will detect changes to the system clock Changes to the system clock back in time may cause the trial period to expire prematurely 10 3 Breakpoint Support Limited Event Conditions can be located in ROM code which is directly supported by E10A emulator To enable breakpoints in RAM following command needs to be included in the script SH2A SBSTK enable For more information on this please refer to the SuperH Family E10A USB Emulator Additional Document for User s Manual for SH7267 22 10 4 The memory map shown in this section visually describes the memory areas of RSPSH7267 H 00000000 Vector Table 000004 NOR FLASH AMB H O03FFFFF 0 00
23. l the circuitry required for microcontroller operation This manual describes the technical details of the RSPSH7267 hardware The Quick Start Guide and Tutorial Manual provide details of the software installation and debugging environment 3 1 Requirements Chapter 3 Power Supply This CPU board can operate from a 5V center positive power supply Table 3 1 and Table 3 2 below details the power supply connectors available on this RSP board CN7 Pin CPU board Signal Name Pin CPU board Signal Name 1 5VCC 2 5VCC 3 GROUND 4 GROUND Table 3 1 Power Supply Connector CN7 CN8 Pin CPU board Signal Name Pin CPU board Signal Name 1 5VCC 2 NC 3 GROUND Note The connector CN8 is underneath the board and is not normally installed Warning Care must be taken to ensure that an appropriate supply is used Failing to do this may cause permanent damage to the board Table 3 2 Power Supply Connector CN8 This RSP board is supplied with an E10A debugger This RSP boards have a centre positive supply connector using a 2 0mm barrel power jack Warning The CPU board is not over voltage protected Use a centre positive supply for this board 3 2 Power up Behavior 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
24. ler port pin connections LED Reference As Colour Microcontroller Port Microcontroller Pin Polarity shown on silkscreen Pin function Number LED1 Yellow PE4 134 Active Low LED2 Yellow PES 133 Active Low LED3 Yellow PG20 58 Active Low LED9 Yellow PA BO 48 external buffered Active Low Table 6 2 LED Port 6 3 Potentiometer A single turn potentiometer is connected to pin AN4 of the microcontroller This may be used to vary the input analog voltage value to this pin between AVCC and Ground Note The potentiometer is fitted to offer an easy way of supplying a variable analog input to the controller It does not necessarily reflect the accuracy of the controller s ADC Please see the device manual for details 6 4 Serial port The RS232 port is available at connector CN1 and uses microcontroller serial port SCIFO 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 The LCD module uses a 4bit interface to reduce the p in allocation No contrast control is provided this must be set on the display module The module supplied with the CPU board only supports 5V operation Table 6 3 shows the pin allocation an
25. ls support eu renesas com Japan csc renesas com General information on Renesas Microcontrollers can be found on the Renesas website at 26 www renesas com Renesas Starter Platform for SH7267 User s Manual Publication Date Rev 1 00 Published by Renesas Electronics America Inc 92012 Renesas Electronics America All Rights Reserved Renesas Starter Platform Plus for SH7267 User s Manual 44 NE SAS Renesas Electronics America Inc
26. nects signal B7 of Video DAC from 4 pin32 of MCU pin32 of MCU 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 Fitted Alternative Removed Related To R266 Touch Screen Connects ADGTRG pin to 3VCC Disconnects ADGTRG pin from 3VCC R267 R236 Configuration R267 Touch Screen Connects IRQO pin of the MCU to 3VCC Disconnects IRQO pin of the MCU from R266 R236 Configuration 3VCC R275 CAN Connects PJ2 pin of MCU to CTX1 pin Disconnects PJ2 pin of MCU from CTX1 R268 R269 Configuration of voltage translator circuit in CAN pin of voltage translator R276 module R276 CAN Connects IRQ1 pin of MCU to CXR1 pin Disconnects IRQ1 pin of MCU from CXR1 R275 Configuration of voltage translator in CAN module pin of voltage translator in CAN module R277 CAN Connects the CTX0 of MCU pin to Disconnects the of MCU pin from pin 1 Configuration pin 1 of HA13721 CAN Intf of HA13721 CAN Intf R278 CAN Connects the CRX0 of MCU to Disconnects the CRXO of MCU pin from pin Configuration pin 3 of voltage translator CAN of voltage translator in CAN
27. ow details the pin connections for CN11 connector available on this RSP board CN11 For NEC LCD Pin CPU board Signal Name Device Pin Pin CPU board Signal Name Device Pin 1 GROUND 2 GROUND 3 3VCC 4 3VCC 5 3VCC 6 3VCC 7 GROUND 8 RES 46 9 PG17 LCD CL1 HSYNC 121 10 LCD FLM VSYNC PG16 123 11 PG19 LCD CLK 176 12 GROUND 13 GROUND 14 LCDO B1 PGO 55 15 PG1 LCD1 B2 54 16 LCD2 B3 PG2 53 17 PG3 LCD3 B4 52 18 LCD4 B5 PG4 32 19 PG5 LCD5 60 30 20 LCD6 G1 PG6 28 21 LCD7 G2 27 22 LCD8 G3 PG8 11 23 PG9 LCD9 G4 9 24 LCD10 G5 PG10 171 25 GROUND 26 LCD11 R1 PG11 169 27 PG12 LCD12 R2 155 28 LCD13 R3 PG13 154 29 PG14 LCD14 R4 151 30 LCD15 R5 PG15 150 31 GROUND 32 PG21 RSPCK1 TIOCOA 103 33 PG23 MOSI1 TIOCOC 99 34 PG24 MISO1 TIOCOD 97 35 PG22 SSL1 TIOCOB 101 36 VCOM 37 NC 38 GROUND 39 X 40 Y 41 42 Y 43 GROUND 44 VLED 45 VLED Table 6 8 LCD Header CN11 6 10 SSI The serial sound interface SSI is a module designed to send or receive audio data interface with various devices offering Sony Philips Digital Interconnect Format S PDIF compatibility It also provides additional modes for other common formats as well as support for multi channel mode Both transmitter and receiver modules are embedded Audio Codec pins are available at header CN10 6
28. ted to channel 0 of SPI interface 2 OFF ON Boots the MCU from the 512 MB NAND flash memory connected to the NAND flash memory controller interface 3 OFF OFF Boots the MCU through low speed communication from the 4MB serial flash memory connected to channel 0 of SPI interface Note Please ensure that SW1 6 is ON Table 7 1 Boot Mode pin settings The default boot mode of this RSP is indicated by BOLD text For more information on the boot modes listed above please refer to the SH7267 group hardware manual 7 2 Clock operating modes This RSP supports following clock operating modes Mode SW1 1 Clock Source MD CLK pin 0 ON EXTAL or crystal resonator 1 OFF USB X1 or crystal resonator Note Please ensure that SW1 6 is ON Table 7 2 Boot Mode pin settings The default clock operating mode of this RSP is indicated by BOLD text For more information on the clock operating modes listed above please refer to the 7267 group hardware manual Chapter s Programming Methods The board is intended for use with HEW and the supplied E10A debugger Refer to 7267 Group Hardware Manual for details of programming debugging without using these tools 18 9 1 Generic Headers Chapter 9 H ers Table 9 1 to Table 9 2 below show the standard generic header connections
29. trol input pin 1 of Disconnects the control input pin 1 of R280 R92 multiplexer to the RES pin of MCU multiplexer from the RES pin of MCU R140 Audio Interface Connects Data input pin 17 of Audio Disconnects Data input pin 17 of Audio driver driver to port pin pin135 from port pin pin135 R141 Audio Interface Connects clock input pin 16 of Audio Disconnects clock input pin 16 of Audio driver to MCU port pin pin136 driver from MCU port pin pin 136 R133 Audio Interface Connects ADC and DAC sample rate Disconnects ADC and DAC sample rate clock pin 7 of audio driverto SSIWS1 clock pin 7 of audio driver from SSIWS1 pin115 of MCU pin115 of MCU R134 Audio Interface Connects digital audio clock pin 8 of Disconnects digital audio clock pin 8 of audio audio driver to SSISCK1 pin116 of driver from SSISCK1 pin 116 of the MCU the MCU R135 Audio Interface Connects ADC Data output pin 9 of Disconnects ADC Data output pin 9 of audio driver to SSIDATA1 pin113 of audio driver from SSIDATA1 pin113 of the the MCU MCU R136 Audio Interface Connects DAC data input pin 10 of Disconnects DAC data input pin 10 of audio audio driver toSSIDATA2 108 of driver from SSIDATA2 pin 108 of the MCU the MCU R143 Audio Interface Connects chip select pin of audio Disconnects chip select pin of audio driver driver to AUDIO X1 pin96 of the from AUDIO X1 pin96 of the MCU MCU R139 Au
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