Renesas SH2/7137 User's Manual
Contents
1. CH NO CO AJ C OO ho OO V R148 ERE EEBEEEBEEEE BS CA amp co te o ex Cn eo E R159 E 2216163 DIDO R169 ID Ix dul Be E 4 I c CAN wc LASINI S R176 R77 RUS R179 A 22 20 CA P A Figure 11 1 Component Placement Front view 33 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 from the web Site For information about the SH2 7137 series microcontrollers refer to the SH7137 Group hardware manual For information about the SH2 7137 assembly language refer to the SH2 Series Software Manual Online technical support and information is available at http www renesas com renesas starter kits Technical Contact Details America techsupport rta renesas com Europe tools support eu Q renesas com Japan csc Q renesas com General information on Renesas Microcontrollers can be found on the Renesas website at http www renesas com 34 Renesas Starter Kit for SH2 7137 User s Manual Publication Date Rev 1 00 14 02 2008 Published by Renesas Technology Europe Ltd Duke s Meadow Millboard Road Bourne End Buckinghamshire S2. Option Link Settings Reference Function Alternative Removed R54 Serial Port Connects serial port SCIO Tx to Disconnects serial port SCIO R53 Tx from D type connector SERIAL Disconnects serial port SCIO R54 Rx from D type connector SERIAL Serial Port Disables RS232 Serial Enables RS232 Serial R42 FORE NN _ Serial Port Enables RS232 Serial Disables RS232 Serial R47 x Rs o Serial Port Connects serial port SCI2 Tx to Disconnects serial port SCI2 R54 Tx from D type connector SERIAL R39 Serial Port Routes serial port SCI2 Rx to Disconnects serial port SCI2 Rx R25 R26 R30 from microcontroller pins R30 Serial Port Routes serial port SCI2 Tx to Disconnects serial port SCI2 Tx R25 R26 R32 from microcontroller pins R32 Serial Port Routes serial port to JA6 pins Disconnects serial port from R25 R26 R30 coe Configuration D type connector SERIAL R53 Serial Port Connects serial port SCIO Rx to Configuration D type connector SERIAL R47 R42 R53 Configuration D type connector SERIAL R36 Serial Port Routes serial port to JAG pins Disconnects serial port from R25 R26 R30 Sw nmm R25 Serial Port Connects microcontroller Disconnects microcontroller R26 R30 R32 Configuration programming pin PTRX to D type programming pin PTRX from R36 R39 connector SERIAL D type connector SERIAL R26 Serial Port Connects microcontroller Disconnects microcont
3. S yt 22 7 6 MIG URE XT CISION NOC uem 22 Chapter Pregrammind 6 eO etd toc ED u eke ee cated ns 23 gfe Or TI o dee osten uec tact S Edu 24 ANICKOGOMMOMNE TIC ACC IG Sita ua au Louis ob de Lad a oeil alana 24 9 2 16 6 AMOI gt uu ttt up toe tuor tne 27 Chapter 70 Code Developme as 31 Dose TU CERES 31 10 2 Compiler FOSTIGUON Iosue obe 31 LO SUI O IM EMEN EE EMI UM MU IM UU IM 31 u u NS EDS 31 Moo EE 32 Chapter dT GorpotienbPIaceme llt 41 9 2 deut cau cee iue ds cue tian o cart a A DH sayay 33 AQOMIORAL O eas 34 Chapter 1 Preface 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 Technology Europe Limited Trademarks All brand or product names used in this manual are trademarks or registered trademarks of their respective companies or organisations Copyright Renesas Technol
4. s e e qa momo pe m Table 9 3 J3 25 1 1 1 1 1 1 3 5 7 9 Circuit Net Name Circuit Net Name AN14 AN13 AN12 PIN84 PIN85 PIN86 ADPOT CON AVREF AN7 AN6 AN5 AN4 CON_AVSS AN3 AN2 CON_AVCC Table 9 4 J4 26 9 2 Application Headers Table 9 5 to Table 9 9 below show the standard application header connections Generic Header Name CPU board Device Generic Header Name CPU board Device Signal Name ram Name cw pow oro j one fs Je soos m _ me om omen _ ee mw v _ o m e o a os w h _ m m e mem e Table 9 5 JA1 Standard Generic Header 27 Generic Header Name CPU board Device Generic Header Name CPU board Device Signal Name Signal Name mm wm WDT_OVF WDT OVFn zr m ewm oo pw s sex o mm Jew mw a nl Joo e hw h pe mm w u e he he mm wmo mm h a nma me a e m e w mw wo ww p m wm p gt jw I Table 9 6 JA2 Standard Generic Header Generic Header Name CPU board Device Name Cam E 9 NM Lu sa Table 9 7 JA5 Standard Generic Header 28 Generic Header Name CPU board Device Generic Header Name CPU board Device Signal Name Signal Name mw F w om tar mar sa ofen w tex rura Cu LN CH m 2 CE
5. 3 2 Power Up Behaviour When the RSK is purchased the RSK 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 After 200 flashes or after pressing a switch the LEDs will flash at a rate controlled by the potentiometer Chapter 4 Board Layout 4 1 Component Layout The following diagram shows top layer component layout of the board Application board interface Reset switch 5 JA1 RS232 Serial LCD Display LCD J7 Power Power LED x M E8A Header gp Microcontroller J4 MCU headers d g Y E10A Header N Sse LED lt Boot LED m n y oplication board interface Potentiometer User switches Figure 4 1 Board Layout 4 2 Board Dimensions The following diagram gives the board dimensions and connector positions All through hole connectors are on acommon 0 1 grid for easy interfacing 120 00mm gt 115 00mm 4 gt 86 36 P Short Board 85 mm oard 4 4 80 mm gt 3mm radius 43 18 mm 35 56 mm 27 00mm E 5 E e O o 1 i E lt 2 5 o oo E E Y S Vv Y 45 00mm Y E E E E O LO Figure 4 2 Board D
6. SCICTX LN e 39 EN m LH LH EH a EN Table 9 8 JA6 Standard Generic Header 29 Generic Header Name CPU board Device Generic Header Name CPU board Device rw Name Signal Name Be 0 EN e m _ 18 fo sa ar E jw G a js s s hm m e pee m 8 _ m w m pw m wm m mm e w w a 9 m h e wm v m m w Bw jw mo jm e me mm mie e mime e e w w o wjn w me Table 9 9 JA3 Standard Generic Header 30 Chapter 10 Code Development 10 1 Overview Note For all code debugging using Renesas software tools the RSK board must be connected to a PC USB port via an E10A An E10A pod is supplied with the RSK product 10 2 Compiler Restrictions The compiler supplied with this RSK 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 need to purchase the full tools from your 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 Mode Support HEW connects to the Microcontroller and programs it via the E10A Mode support is handled transparently to the u
7. for RCAN communication Table 6 4 contains details of the signal descriptions and pin connections Description Microcontroller Pin Header Pins Number CTx0 Transmit data input J2 12 CRx0 Receive data output reads out data 41 J2 11 from the bus lines CAN_EN Enable control input J2 19 CAN_ERRn Error and power on indication output J3 13 CAN_STBn Standby control input J2 13 Table 6 4 CAN module settings 6 6 Debug LCD Module A debug LCD module is supplied to be connected to the connector LCD This should be fitted so that the debug LCD module lies over J3 Care should be taken to ensure the pins are inserted correctly into LCD The debug LCD module uses a 4 bit interface to reduce the pin allocation No contrast control is provided this is set by a resistor on the supplied display module The module supplied with the RSK only supports 5V operation Table 6 5 shows the pin allocation and signal names used on this connector r O Oo n 5 Circuit Net Name Device Pin 5V Only DLCDRS PD10 DLCDE 100k pull down to ground PD9 P Circuit Net Name Device a NN Noconneoion ooo B me om s 12 DLCDDS 1 4 DLCDD7 PE3 Table 6 5 Debug LCD Module Connections 11 6 7 Option Links Table 6 6 below describes the function of the option links contained on this RSK board and associated with Serial Port Configuration The default configuration is indicated by BOLD text
8. of application board Use CAN_EN for onboard RCAN fence ewe mam Application Use CAN_EN for onboard RCAN Use UD of application board mma mae Application Use 106 of application board Use A10 of application board fine wanes NE Application Use A10 of application board Use 106 of application board R74 me board interface interface Application Use 105 of application board Use A9 of application board board interface interface interface Application Use 104 of application board Use A8 of application board Application Use A8 of application board Use 104 of application board m s s sss Application Use ADTRGn of application board Use A7 IO3 of application R94 R96 Application Use A7 of application board Use ADTRGn 103 of R92 R96 application board interface me Application Use 103 of application board Use ADTRGn or A7 of R92 R94 application board interface m Application Use A6 of application board Use 102 of application board R89 eee RN R Application Use 102 of application board Use A6 of application board R91 ui board interface interface m mE i i Application Use A9 of application board Use 105 of application board R88 board interface interface interface a i D 89 Option Link Settings Reference R93 R95 R112 R105 R109 R101 R108 R111 R104 R115 R113 R114 R116 R117 R119 R120 Function __ Alternative Removed _ Relate
9. on option links please refer Port B pin 4 to Sec 6 6 Table 6 1 Switch Functions Refer to schematic for detailed connectivity information 6 2 LEDs There are six LEDs on the RSK board The green POWER LED lights when the board is powered The orange BOOT LED indicates the device is in BOOT mode when lit The four user LEDs are connected to an IO port and will light when their corresponding port pin is set low Table 6 2 below shows the LED pin references and their corresponding microcontroller port pin connections LED Reference As Colour Microcontroller Port Pin Microcontroller shown on silkscreen Pin Number m Table 6 2 LED Port LED3 6 3 Potentiometer A single turn potentiometer is connected to channel AN8 PF8 of the microcontroller This may be used to vary the input analogue voltage value to this pin between AVCC and Ground 6 4 Serial port Serial port SCI2 is connected to the standard RS232 header Serial port SCIO can optionally be connected to the RS232 header The connections to be fitted are listed in the Table 6 3 Description Microcontroller Remove for RS232 Port Pin sce sco sco SCI2 Default serial port LEN H39 H54 SCIO Spare Serial Port R30 SCIO Spare Serial Port LEN R54 R39 Table 6 3 Serial Port settings The SCI2 port is also available on J3 and JA6 The SCIO port is available on J3 and JA2 6 5 RCAN ET The RCAN module can be used
10. L8 5FH United Kingdom 2008 Renesas Technology Europe and Renesas Solutions Corp All Rights Reserved Renesas Starter Kit for SH2 7137 User s Manual tENESAS Renesas Technology Europe Ltd Duke s Meadow Millboard Road Bourne End Buckinghamshire SL8 5FH United Kingdom
11. d To Application Use TXD2 for onboard RS232 Use IO1 of application board R95 board interface module e Application Use 101 of application board Use TXD2 for onboard RS232 R93 en EN RN Application Use RXD2 for onboard RS232 Use WRLn WRn IO0 of R101 R105 application board interface Application Use WRLn of application board Use RXD2 for onboard RS232 R101 R109 board interface interface module or WRn 100 of R112 application board interface Application Use WRn of application board Use RXD2 for onboard RS232 R101 R105 board interface interface module or WRLn or 100 of R112 application board interface Application Use 100 of application board Use RXD2 for onboard RS232 R105 R109 board interface interface module or WRLn WRn of R112 application board interface Application Use IRQ3 of application board Use of CAN ERRn for onboard R104 R111 board interface interface RCAN module or A5 application board interface Application Use CAN ERRn for onboard RCAN Use IRQ3 or A5 of application R104 R108 me amm Application Use A5 of application board Use CAN ERRn for onboard R108 R111 board interface interface RCAN module or IRQ3 of application board interface Application Use PTTX of E8A debugger Use A4 of application board R113 amas ERN RN NN Application Use A4 of application board Use PTTX of E8A debugger H115 me mme ss Application Use PTRX
12. ently used to modify the mode pin states as required The mode pins should change state only while the reset signal is active to avoid possible device damage The reset is held in the active state for a fixed period via a resistor capacitor delay circuit Please check the reset requirements carefully to ensure the reset circuit on the user s board meets all the reset timing requirements 20 Chapter 7 Modes This RSK supports Boot mode User Boot mode User Program Mode and User mode Details of programming the FLASH memory is described in the SH2 7137 Group Hardware Manual 7 1 Boot mode The boot mode settings for this RSK are shown in Table 7 1 Boot Mode pin settings below MD 151 State after Reset End Table 7 1 Boot Mode pin settings The software supplied with this RSK supports debugging with E10A which does not need Boot mode To enter the Boot mode manually do not connect the E10A in this case Press and hold the SW1 BOOT The BOOT LED will be illuminated to indicate that the microcontroller is in boot mode 7 2 User Boot mode Refer to SH2 7137 Group Hardware Manual for details of User Boot Mode The user mode settings for this RSK are shown in Table 7 2 user Mode pin settings below FWE Mban LSI State after Reset End Table 7 2 User Boot Mode pin settings 7 3 User Program mode Refer to SH2 7137 Group Hardware Manual for details of User Program Mode The User Program M
13. imensions Chapter 5 Block Diagram Figure 5 1 shows the CPU board components and their connectivity Application Board Headers Microcontroller Pin Headers Debug Header Option Serial Connector Option Debug LCD RCAN Figure 5 2 shows the connections to the RSK Power Jack Option x Boot mode pins Microcontroller ADC Input Potentiometer Boot Circuitry RESET pin IRQ pin IRQ pin IRQ pin SWITCHES sw2 sw3 Soar RES OO O O LEDs Power Green Boot Orange User 4 LEDS 1Green 1Orange 2Red Figure 5 1 Block Diagram USB Cable E10A emulator i User Interface Cable e e Figure 5 2 RSK Connections Chapter 6 User Circuitry 6 1 Switches There are four switches located on the CPU board The function of each switch and its connection are shown in Table 6 1 Swih Faction Microcontroller When pressed the RSK microcontroller is reset RESn Pin 70 SW1 BOOT Connects to an IRQ input for user controls IRQO Pin 46 The switch is also used in conjunction with the RES switch to place the device in Port B pin 2 BOOT mode when not using the E10A debugger SW2 Connects to an IRQ line for user controls IRQ1 Pin 45 Port B pin 3 Connects to the ADC trigger input Option link allows connection to IRQ line IRQ2 Pin 44 The option is a pair of OR links For more details
14. ion Use DO of application board Use to connect to onboard Application Use CS1n of application board Use CRx0 for onboard RCAN Application Use CRx0 for onboard RCAN Use CS1n of application board Application Use CAN STBN for onboard Use A19 of application board Application Use A19 of application board Use CAN STBN for onboard Application Use IRQ2 for onboard SW3 Use A18 of application board P s Application Use A18 of application board Use IRQ2 for onboard SW3 R Use IRQ1 for onboard SW2 R67 R68 H R5 R5 R R R R R R R R R R 98 R98 R59 8 R58 9 61 R61 R76 75 R75 76 R77 78 R78 77 R62 63 R63 62 R65 64 R64 65 R79 80 80 79 R Application Use SDA of application board board interface interface A17 of application board interface R68 Application Use IRQ1 for onboard SW2 Use SDA A17 of application R66 R67 board interface board interface Option Link Settings Application Use A17 of application board Use SDA of application board R66 R68 board interface interface interface or IRQ1 for onboard SW2 Application Use SCL of application board Use IRQO for onboard SW1 R82 R83 board interface interface A16 of application board interface Application Use IRQO for onboard SW1 Use SCL or A16 of application R81 R82 emm o s Application Use A16 of application board Use SCL of application board R81 R83 interface or IRQO for onboard Application Use UD
15. itting jumper in Exten Mode R172 MCU Mode MCU User Boot Mode enabled also MCU User Boot mode disabled R150 R178 can be enabled by fitting jumper in U BOOT Table 6 13 MCU mode links Table 6 14 below describes the function of the option links associated with switches configuration The default configuration is indicated by BOLD text Option Link Settings R46 Switches SW3 can be used for ADTRGn SW3 can be used for R48 R48 Switches SW3 be used for IRQ2 SW3 can not be used for IRQ2 R46 mmm k Table 6 14 Switches configuration links 6 8 Oscillator Sources A crystal oscillator is fitted on the RSK and used to supply the main clock input to the Renesas microcontroller Table 6 15 details the oscillators that are fitted and alternative footprints provided on this RSK Crystal X1 10 MHz HC49 4H package Table 6 15 Oscillators Resonators 6 9 Reset Circuit The CPU Board includes a simple latch circuit that links the mode selection and reset circuit This provides an easy method for swapping the device between Boot Mode and User mode This circuit is not required on customer s boards as it is intended for providing easy evaluation of the operating modes of the device on the RSK Please refer to the hardware manual for more information on the requirements of the reset circuit The Reset circuit operates by latching the state of the boot switch on pressing the reset button This control is subsequ
16. o MCU power supply Supply to MCU CPU current can be measured R161 Ground Connects Analog amp Digital Separates Analog amp Digital Bm B R33 R23 Power source 5V source signal willbe powered 5V source signal will not be R3 R10 R24 L i pem R24 Power source CON_5V source signal will be CON_5V source signal will not be R3 R10 R23 k i R10 Power source E8A VCC will be used as external VCC will not be used as R3 R10 R23 R3 Power source Enables external power to board Disable external power to board R10 R23 R24 Wi i sss Board_VCC 5V or J5 1 2 Board VCC 3V3 or J5 2 3 R24 R35 R24 Power source CON 3V3 source signal will be CON_3V3 source signal will not R29 R35 powered from E8A_VCC be powered from E8A_VCC R35 Power source Board_VCC or J5 2 3 Board_VCC 5V or J5 1 2 R24 R29 R40 Power source Board_VCC source signal willbe Board_VCC source signal will not powered from E8A_VCC be powered from E8A_VCC Table 6 9 Power configuration links Table 6 10 below describes the function of the option links associated with clock configuration The default configuration is indicated by BOLD text Option Link Settings Reference Function Alternative Removed Related To R123 Clock Oscillator External Clock Source On board Clock Source R126 R135 R138 R130 Clock Oscillator Parallel resistor for a crystal D R138 Clock Oscillat
17. ode settings for this RSK are shown in Table 7 3 User Program Mode pin settings below FWE MD MD LSI State after Reset End Table 7 3 User Program Mode pin settings 4 Single chip mode All ports can be used in this mode however the external address cannot be used The Single Chip Mode settings for this RSK are shown in Table 7 4 Single Chip Mode pin settings below MD MD ___ LS State after Reset End Table 7 4 Single Chip Mode pin settings 21 7 5 MCU extension mode 0 CS0 space becomes external memory spaces with 8 bit bus width in SH7137 The MCU Extension Mode 0 settings for this RSK are shown in Table 7 5 MCU Extension Mode 0 pin settings below FWE MD MDI LSI State after Reset End 0 90 O MCUEensonModeQ Table 7 5 MCU Extension Mode 0 pin settings 7 6 MCU extension mode 2 CS0 space becomes external memory spaces with 8 bit bus width in SH7137 The MCU Extension Mode 2 settings for this RSK are shown in Table 7 6 MCU Extension Mode 2 pin settings below FWE Mban LSI State after Reset End Table 7 6 MCU Extension Mode 2 pin settings 22 Chapter 8 Programming Methods The board is intended for use with HEW and the supplied E10A debugger Refer to SH2 7137 Group Hardware Manual for details of programming the microcontroller without using these tools 23 Chapter 9 Headers 9 1 Microcontroller Headers Table 9 1 to Table 9 4 show
18. of E8A debugger Use of application board H116 m eem s Application Use A3 of application board Use PTRX of application board R114 m me met Application Use SCKO of application board Use A2 of application board R119 ee Application Use A2 of application board Use SCKO of application board R117 meme Application Use TXD0 for onboard RS232 Use A1 of application board H118 Option Link Settings Reference Function Fitted Alternative Removed Related To R118 Application Use A1 of application board Use TXDO for onboard RS232 H120 board interface interface module Application Use RXDO for onboard RS232 Use A0 of application board H121 me Application Use A0 of application board Use RXDO for onboard RS232 H124 Table 6 7 Application board interface links Table 6 8 below describes the function of the option links associated with EBA and E10A debuggers The default configuration is indicated by BOLD text Reference Option Link Settings Fed Alternative Removed Related To R178 E8A If FWE or R178 is fitted the Flash is If both FWE and R178 are protected from writing removed writing to Flash is enabled Table 6 8 E8A and E10A debugger links Table 6 9 below describes the function of the option links associated with power source The default configuration is indicated by BOLD text Option Link Settings Reference Function Fitted Alternative Removed Related T
19. of application board Use M2 Un of application board Use TCK of E10A debugger Use ASEBRKn of E10A debugger Use M2 Up of application board Use M2 Up of application board Use ASEBRKn of E10A Use TRIGb of application board Use A14 of application board Use A14 of application board Use TRIGb of application board Use TRIGa of application board Use A13 of application board Use A13 of application board Use TRIGa of application board Use TMR1 of application board Use A12 of application board Use A12 of application board Use TMR1 of application board Related To R151 R159 R147 R148 R136 R146 R133 R137 R132 R128 R125 R129 R106 R102 R103 R107 R97 Option Link Settings Reference Function Alternative Removed Related To EN NN H100 Application Use TMRO of application board Use A11 of application board Application Use A11 of application board Use TMRO of application board R100 Application Use to connect to onboard LED3 Use D3 of application board eme Application Use D3 of application board Use to connect to onboard Application Use to connect to onboard LED2 Use D2 of application board eme Application Use D2 of application board Use to connect to onboard Application Use to connect to onboard LED1 Use D1 of application board fine eee s Application Use D1 of application board Use to connect to onboard Application Use to connect to onboard LEDO Use DO of application board eme o Applicat
20. ogy Europe Ltd 2008 All rights reserved Renesas Technology Corporation 2008 All rights reserved Renesas Solutions Corporation 2008 All rights reserved Website http www eu renesas com Glossary CPU Central Processing Unit HEW High performance Embedded Workshop LED Light Emitting Diode RSK Renesas Starter Kit PC Program Counter E10A On chip debugger module for starter kits LCD Liquid Crystal Display RCAN Renesas Controller Area Network Chapter 2 Purpose This RSK is an evaluation tool for Renesas microcontrollers This manual describes the technical details of the RSK hardware The Quick Start Guide and Tutorial Manual provide details of the software installation and debugging environment Features include e Renesas Microcontroller Programming e User Code Debugging e User Circuitry such as Switches LEDs and potentiometer e User or Example Application e Sample peripheral device initialisation code The RSK board contains all the circuitry required for microcontroller operation Chapter 3 Power Supply 3 1 Requirements This RSK operates from a 5V power supply A diode provides reverse polarity protection only if a current limiting power supply is used All RSK boards are supplied with an E10A debugger All RSK boards have an optional centre positive supply connector using a 2 0mm barrel power jack Warning The RSK is neither under nor over voltage protected Use a centre positive supply for this board
21. or External Clock Source On board Clock Source R123 R126 INNEN E R135 Clock Oscillator On board clock source is used External clock source is used R123 R126 T R138 Table 6 10 Clock configuration links Table 6 11 below describes the function of the option links associated with reference voltage source The default configuration is indicated by BOLD text Option Link Settings R49 R50 Voltage Voltage Reference set to board Voltage Reference taken from Reference Vcc signal external connector JA1 pin 7 Source Voltage Voltage Reference is taken from Voltage Reference set to board Reference external connector JA1 pin 7 Vcc signal Source Table 6 11 Voltage reference links Table 6 12 below describes the function of the option links associated with analog power supply The default configuration is indicated by BOLD text Option Link Settings Analog Voltage Analog Ground from external na Ground from on board Analog Voltage Analog voltage source from external Analog voltage source from 71 Z Sam Z RN Analog Voltage Analog voltage source from Analog Voltage Source from R72 Table 6 12 Analog power supply links Table 6 13 below describes the function of the option links associated with MCU modes The default configuration is indicated by BOLD text Option Link Settings R150 LEER Mode MCU Extended Mode 0 enabled MCU Extended Mode 2 enabled R172 R178 also can be enabled by f
22. roller R25 R30 R32 R36 R39 Configuration programming pin PTTX to D type programming pin PTTX from connector SERIAL D type connector SERIAL Table 6 6 Serial port configuration links Table 6 7 below describes the function of the option links associated with application board interface The default configuration is indicated by BOLD text Option Link Settings Reference T Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Application board interface Alternative Removed EN NN Use TRSTn of E10A debugger Use M2 Wn of application board Use 2 Wn of application board Use TRSTn of E10A debugger Use TMS of E10A debugger Use M2 Vn of application board Use M2 Vn of application board Use TMS of E10A debugger Use TDO of E10A debugger Use M2 Whp of application board Use 2 of application board Use TDO of E10A debugger Use TDI of E10A debugger Use M2 Vp of application board Use M2 Vp of application board Use TDI of E10A debugger Use TCK of E10A debugger Use 2 Un
23. sCENESAS REG10J0109 0100 Everywhere you imagine Renesas Starter Kit for SH2 7137 Users Manual RENESAS SINGLE CHIP MICROCOMPUTER SH2 FAMILY Rev 1 00 Renesas Technology Europe Ltd Revision date 14 FEB 2008 www renesas com Table of Contents T d Ous E ene ee 3 Oo PDO EE IMEEM MEE UM MEI EM MEUM MEE 4 Chapter 9 OWEN SUDDIV oe sees u te E ost am AUI chats eu bue 5 sua tO AI ed 5 Ore wi OWEN SUD IDC NAVIOUM lade abu tos atl Lou a does tebe 5 pO OU E 6 4 Ve COMP OME MM EaVOUbess uuu nanman UU Eta oo e OI ESE ESSERE 6 Do DIAY IOS 7 BEIM en eee seer re ene clan T OO OD mE 8 DS Oi e cr 9 NEC T P E 9 DO DES uh icc IL ML dp xl LEE 9 sio POCONO TREES 9 D DOR ME EIL UM ULM am 9 0 o RCAN ET REREAD 10 60 Deb d ECD foo VER ERE E E ES RC ER 10 o Op IN E DD C a TO NEL 12 SCION SOU NCO mec 20 6 ROSE EET 20 Gi T 21 TES PS 21 Trey A SOM BOO MOUE a aE 21 To USEF amn OR NUN ID 21 x S UMS 21 mr a
24. ser 10 4 Breakpoint Support HEW supports breakpoints on the user code both in RAM and ROM Double clicking in the breakpoint column in the code sets the breakpoint Breakpoints will remain unless they are double clicked to remove them 31 10 5 Memory Map H 00000000 H 0003FFFF H 00040000 H FFFF7FFF H FFFF8000 H FFFFBFFF H FFFFCOO0 H FFFFFFFF Mode 3 Single chip mode On chip ROM 256 Kbytes Heserved On chip RAM 16 Kbytes On chip peripheral registers Figure 10 1 Memory Map 32 Chapter 11 Placement di AMENS CMS II No Dea POWER R amp LEDD m 7 LEDI R 6 LEDE R 5 EEDB R 4 Boor C 223 lo R22 82 1182011619 18I R 1 7 IR 16 R15 R14 R13 R12 IR1 1 P R26 R25 R27 Ad SCIT calle 5 R28 z eris R38 CN R46 R48 lt OO C Nl AO 9 2 A w Ho E V Ne c gel CBHI 8H 644 g LLY 9g e AJ R87 C2 C2 NO O R97 eO lt Cn yoo o Nol j ds oj AJ c AJ D Un
25. the microcontroller pin headers and their corresponding microcontroller connections The header pins connect directly to the microcontroller pin unless otherwise stated Device Pin Circuit Net Name GROUND UC VCC TDO M2 Wp TCK M2 Un M1 Wn UC VCC M1 Vp M1 Un M1 Up A15 21 A13 TRIGa 29 A11 TMRO 25 DLCDD6 27 DLCDD4 29 DLCDE TRSTn M2 Wn TMS M2 Vn TDI M2 Vp Circuit Net Name Device Pin N o ae m p O Table 9 1 J1 O N O 5 7 13 15 17 19 20 21 22 23 24 25 26 27 28 30 0 8 ee 5 mw 6 _ 1 KM 0 UD MEN Ho MW fafa B Am 25 PLD 27 PID _ DICE 0 e 29 24 c lt NO Device Pin Circuit Net Name UC Pin GROUND A19 CAN STBn 17 SDA 6 M2 TRISTR UD CAN 4 s ewe mio _ Table 9 2 J2 Circuit Net Name ENS 31 33 35 37 39 41 43 45 47 9 Circuit Net Device Pin A10 106 A8 104 A6 102 TXD2 101 WRLn WRn RXD2 100 RDn 8 LN La LN _ e o GROUND m 6 _ 6 mo 2 LE LEN 5 5 5 5 I N 4 6 8 0 2 A3_PTRX A1 TXDO RESn CON_EXTAL FWE ASEMDOn AN15 90 I Pin 2 4 6 8 62 70 72 74 76 78 s e _ __ __ er e s
Download Pdf Manuals
Related Search