S810-CFW1 User`s Manual
Contents
1. Sunny Giken Inc 5 M16C 29 group User Prepared Target Board MCU Peripheral Circuit Vee SEL2 Ci GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 Leave No 2 and 3 pins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that a watch dog signals are needed to start MCU a probe for a watch dog output also needs to be connected 4 Connect ISO11898 compliant CAN driver to CTx CRx of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Isolate CE and RP pins from the MCU peripheral circuit in case the jumper analog switch three state etc are built in when onboard programming Isolation can be omitted when those signal statuses are output from the MCU peripheral circuit Resistance should be 4 7KQ or over when pull up is achieved to these signals When pull up is achieved to CE and RP pins no connection to CE and RP of CFW1 is required and the isolation alone can be conducted In case that these pins are not being used in the circuit it is also possible to fix CE and RP pins to H and L levels directly on the board respectively 7 Connect the MCU CNVss pin to the CNVss pin of the CFW1 unit by achieving pull up down with resistance of 10KQ In case that it is defined to H level by switching t2. 1 Outline 1 1 Precautions Thank you for purchasing our product 810 CFW1 the CAN Flash Microcomputer Programmer Please read this operation manual carefully to understand the function of this product for effective and stable operation Please beware that Sunny Giken Inc shall have no liability for any damage and or troubles caused by misuse or careless handling 1 General Caution Please follow the precautions mentioned below to avoid hazards such as fire burns electric shock and or injures e Make sure that the power switch of this product is turned OFF and your hands are clean and dry when an AC adapter is plugged in e Use this product under proper environment e Never place this product up side down or lateral side facing to table e Handle this product with care to avoid fall and or physical shock e Never take this product apart and or modify by yourself 2 Operating Environmental Condition e Unusable environment Dusty place Place in the presence of corrosive gasses Place exposed to direct sunlight Place surrounded by noise source equipment Place with severe mechanical shock and or constant mechanical vibration e Ambient temperature 0 C to 40 C Humidity below 80 non condensing e Prevention of electrostatic is recommended in operating this product and devices 3 Storage e Place this product into the packing box in which the product was delivered when you purchased Store it at shaded place with the ambient
3. re EEE O Basiai F llkbes User Rom Asa vik Send tame fee wl ef Pulse Output ous Settings user fo Lnnd mete BombProteet GheckSun Geck Dod Advanced Settings Lock B t State Gperation Block Lock Bit after Program Eesi F ol hire Moth Operaen Pre Sedie E Eresi rerai orii Device 1 Device Setting Device Sets device Device type can be selected by clicking the pull down button to display the device selection list The following device information will be displayed after setting User ROM Area Address area of the user ROM Block Number of the user ROM blocks Vec Power supply voltage Vpp Programming voltage 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 30 G Sunn y Giken Inc In addition if you click Detail the following dialog will be displayed Detailed information on devices such as address value and block numbers will be shown Click OK to close the dialog Device detail S810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 31 sunn y Giken Inc CAN 2 CAN Setting CAN Sets CAN communication If you click SET CAN the following dialog will be displayed and advanced setting will become available CAN Setting E Format IB ELD vic DY Di p P DE Da DEG Dr Pre SENGINE poo pooo P fo po po po po po po po Post sendhe d
4. 7 3 Connecting a Probe for a Watch dog Timer In case that a watch dog timer circuit is mounted on a user prepared target board for CAN programming it is possible to turn off the Reset of MCU even when CAN programming is being operated by using a probe for a watch dog timer of the CAN programming cable The output waveform of the probe can be set as the output waveform of 1ms 1000ms in the control program of the CFW1 See 2 CAN Setting CAN in 8 1 Main Programming Screens Example of Connecting a probe for a watch dog timer MCU Reset circuit with a built in watch dog timer Px Reset 1 Isolate the output pin of the watch dog timer from the MCU and input pin of the watch dog timer in the reset circuit Attach the probe for a watch dog timer of the CAN programming cable to the input pin of the watch dog timer Timing Chart of a Watch dog Timer Output RESET 10 10000ms l WDT Hi Z i lt lt l a 50 50 N i lms CAN programming is start CAN programming is completed Mode entry of CE EPM and WDT output stops when Reset is lms after mode entry Reset is canceled and CAN communication is started 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 29 sunn y Giken Inc 8 Operation by PC Control 8 1 Main Programming Screens Main programming screens are described as follows The following dialog appears when it is started GAN
5. 6 2 Pin Assienme nt uvante 20 TA Connection Circuit Examples e A A E AE 21 7 1 Onboard Programming CAN Input Output Mode sesrorvrvvvvereveveverersererereseseneveerereresesevererersesesesesesesesner 21 7 2 Network Programming CPU Rewriting Mode serestsrsrvrvrvrvveresevevererssresesesesesevevrereresesevererersesesesesesesvener 27 7 3 Connecting a Probe for a Watch dog Timer mrnrrnonvronernrenrenvrnvrnrenvrenennrensenesnrennennreresnrenssnrensennenesvsevssnrsns 29 8 Operation by PC Control rsnrrnrenvroronvrennrnrsnrenvennrerenvrenennrennennsenesnrensenesnsrnresnsenennrensenesnssssenesnsssnennseresnsevsenssnsenne 30 8 1 Main Programming Screens cccccccssecscsseessescessesscssesecsscsecssecssesecssesecasesecsacsasesscasssecssceeceaecaesecsaeenseaseaeenses 30 B22 Menu Bait aasasiraskesnaaunkovsnadaie drama AO 38 8 2 1 Project Menuaunudastaakekeskoamneknuekka tiean aneia rei A eas Ghent kanoer 38 8 22 Edit Mean E E A AE E ET E N AEAN 39 829 HM 42 8 3 Error Messages E EE A E EE ET E E EE E 43 9 Listof LED Status iis ccccctsscesdeecacseceuc cots asedeataccseseos sceivesa cea ccusecciveds antec a csaioass busidue tare KAANE ANENA EKE aa eabisass vad esas OE 45 10 Updating Pirin Ware sieeve 25 svah iescdhccanvelacndtch sbtede castesvase anccessassnedeaaunesecoacbesoanscnsuacasdecchabeceuuedaacnchdtonceanadoesteactendeateces 46 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 2 Sunny Giken Inc
6. F8000 FOFFF FOOOO FYFFF E0000 EFFFF DO000 DFFFF GOO00 GFFFF ma ON oO Lock v ET Lock v Operation Lock v Operation Lock v Operation Lock v Operation Lock Operation Lock v Operation All lock ALL unlock Cancel Effective current Lock bits Ignore current Lock bits Enables lock bit setting of programmed devices Executes each command targeting the unlocked blocks only when executing E P V ERASE and E P This will keep the values in locked blocks as they were Select this option if you do not wish to program to locked blocks Ignores the current lock bit setting When each of the E P V ERASE and E P commands is executed current locked status is ignored and each command will be executed Note that after executing E P V ERASE and E P commands with the Ignore Current Lock Bits setting blocks will be unlocked and set the after locking if necessary Select this option if you wish to program to locked blocks S810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 34 sunn y Giken Inc If you click the Read Lock bits button the current lock bit setting will be loaded Item Description Block Number Block i Block numbers are different depending on the device Address of Each Block Address Addresses responding to each block are listed Current Sta
7. a probe for a watch dog timer needs to be connected Note See 7 1 When On board Programming CAN Input Output Mode for circuit examples when using target boards produced by users 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 15 sunn y Giken Inc ii Remote Connection 3 In this method power needed for a target board is supplied by power source in network This method therefore is applicable when PC remote programming on target boards in CAN network A figure and procedures are shown below CAN programming cable USB connecting cable o eee 000000 CAN 1 CAN 2 Renesas CAN microcomputer Renesas CAN microcomputer User prepared target board User prepared target board lt Procedures gt 1 Connect PC and CFW1 by using USB cable 2 Attach CAN programming cable to the main unit of CFW1 3 Connect CAN and CAN in CAN network and CAN and CAN pins of CAN programming cable 1 Connector pins should be prepared by users See 6 Specifications of CAN Programming Cable for pin assignment of CAN programming cable 2 This method provides that CAN network is turned on If it is not turned on turn it on first and then follow the procedures described above Note See 7 2 When Network Programming CPU Rewriting Mode for circuit examples when using target boards produced by users 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 16 Ef Sunny Gik
8. 2 Power connector Pin No Signal Name Description Direction Vec Vcc Input Output a 2 GND Signal ground The direction can be different depending on a connection method 8 Probe for a watch dog timer Pin No Signal Name Description Direction WDT Pulse signal output for a watch dog timer Output The input output level for the CAN programming cable should be between 5V 5 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 20 Sunny Giken Inc 7 Connection Circuit Example 7 1 Onboard Programming CAN Input Output Mode Circuit examples for onboard programming under user oriented MCU circuit design are shown below 1 M16C 6NA 6NB User Prepared Target Board MCU Circuit A GJ TE 6 ee ee ic 4 RAR re Vee SEL2 CE GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 Leave No 2 and 3 pins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that watch dog signals are needed to start the MCU a probe for a watch dog output also needs to be connected 4 Connect IS011898 compliant CAN driver to CTx and CRx of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Isolate CE and EPM pins from the MCU peripheral circuit in case the jumper analog switch three state et
9. 3 5 6 7 8 and 9 pins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that watch dog signals are needed to start MCU a probe for a watch dog output also needs to be connected See 7 3 Connecting a Probe for a Watch dog Timer for a connecting method 4 Connect ISO11898 compliant CAN driver to CTXD CRXD of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Disconnect the CNVss jumper when network programming CNVss L 7 See Renesas Microcomputer Hardware Manuals and Renesas CAN Flash Library Start Guide for details of network programming CPU Rewriting Mode of each device and CAN flash library Tt is necessary to mount a control program on user programs by referring to the sample of Renesas CAN Flash Library in order to achieve network programming It is also necessary to set Send Frame in a control program of the CFW1 See 2 CAN Setting CAN in 8 1 Main Programming Screens for details of setting Send Frame Please contact csc renesas com for more information on CAN Flash Library 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 27 c Sunny Giken Inc 2 M32R ECU family User Prepared target board Jumper or Switch Jumper Reset circu
10. Sunny Giken Inc ii Standalone Connection 2 In this method power needed for CFW1 and a target board is supplied by DC power source for a target board This method is therefore applicable when standalone CAN programming on a target board prepared by users A figure and procedures are shown below DC power source 3 I wew ewe ee eee ee ee Renesas CAN microcomputer x s s p VENTET I CAN programming DC cable cable N User prepared 1 target board 2 lt Procedures gt 1 Connect the main unit of CFW1 and CAN programming cable 2 Connect the CAN programming cable and a target board Connect a power connector of the CAN programming cable and the 10 pin connector to the target board 3 Connect the target board and DC power source and turn it on 1 The power for CFW1 is supplied through Vcc pins by a target board prepared by users Connect a target directly to the Vcc pins However if the power capacity of the target board is not enough for CFW1 do not connect the target board and the power connector Connect a DC cable to CFW1 instead The maximum power consumption of the CFW1 is 300mA Note that Vcc pins for a target board should be used between 5V 5 Do not supply power to CFW1 by DC power source on a target board side and one connected by a DC cable at the same time Power should be supplied from only one side 2 In case that a watch dog signals are needed to start MCU a probe f
11. mot v Cancel Z A loaded file name is displayed in the User Rom File dialog when data load is successful ID number is displayed in the ID column e ROM Code Protect Check Function The following messages are displayed when the ROM code protection a protection from having ROM code read by a device is set when loading data to the user ROM area Click OK to execute loading or Cancel to cancel the operation Level 1 enabled ROM code protection is set to level 1 Level 2 enabled ROM code protection is set to level 2 Enabled ROM code protection is set Removed ROM code protection is released Checksum Display Value of checksum for the entire user ROM area is displayed when data is loaded to the User ROM Area The checksum is calculated as the low 2 bytes of the value that adds up data every 1 byte Data on the address which is not in the file is added as OFFH 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 33 sunn y Giken Inc 4 Advanced Setting Advanced setting Operation such as programming a device as a block is available Setting lock bits in order to avoid having programmed data deleted or rewritten is also available If you click the Set Blocks the following dialog will be displayed and advanced setting will become available Block Setting x Effective current Lock bits Ignore current Lock bits Read Lock bits After Lock FCOOO FFFFF FANOO FBFFF
12. temperature of 10 C to 40 C and below 80 of humidity non condensing for long term storage 4 Transportation e In case the product is needed to be relocated use the packing box in which the product was delivered when you purchased 5 Cleaning e Wipe the product with soft and clean fabric Do not use any sort of organic solvent such as benzine that may cause deterioration of this product 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 3 sunn y Giken Inc 1 2 System Configuration The entire system configuration of the CAN Flash Microcomputer Programmer hereinafter called CFW1 is illustrated below CD ROM Control Program Operation Manual Others Renesas CAN microcomputer U CAN programming cable DC cable User prepared target board AC adapter is not included as part of the product See 5 Setting Up for details of connection 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 4 sunn y Giken Inc 2 Specifications 2 1 General Specifications Main unit of the CFW1 Operating Ambient temperature 0 C to 40 C environment Humidity below 80 non condensing t en Ambient temperature 10 C to 40 C environment ee Approximately 85 W x 60 5 D x 18 H mm Projection not included dimensions Weight Approximately 75g only the main unit 2 2 Power Supply Specifications Using D
13. the data is stored in the memory of the main unit of CFW1 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 38 sunn y Giken Inc 8 2 2 Edit Menu Loaded data to the User Rom Area can be viewed and updated in the Edit Menu In case that data is loaded from a device when Action Read operation is executed contents of the memory of the main unit of CFW1 can be loaded to a PC only when executing the first Edit This is to match the contents of the work memory of the PC and the memory of the main unit of CFW1 1 User ROM Area The edit dialog box of the User ROM Area is displayed Data display update deletion of specific data and data save to file can be achieved m Information Device Type M306NAFGTFP Program File E data sample mat Rom Area User Rom Address fOCO000 OF FFF Address Of 12 2 3 af sj ef 7 sf sf af ef cf of ef Fj ascrr ocoooo0 00 01 02 03 04 05 06 07 08 09 OA OB OC OD OE 10 OCOO10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 20 21 asssssssososs ocoo20 22 23 24 25 26 27 28 29 2A 2B 2C 2D 2E 30 31 32 MX OF4 012 OC0030 33 34 35 36 37 38 39 3A 3B 3C 3D 3E 40 41 42 43 3456789 5 lt gt BABC ocoo40 44 45 46 47 48 49 4A 4B 4C 40 4E 50 51 52 53 54 DEFGHIIKLMNPORST ocooso 55 56 57 58 59 SA SB SC 50 SE 60 61 62 63 64 65 UVWxYZ 4 abcde OC0060 66 67 68 69 GA 6B 6C 6D GE 70 71 72 73 74 75 76 fqhijklmnpgrstuv ocoo70 77 78 79 7A 7B 7C 7D 7E 80 81 82 83 84 85 86 87 wey
14. 0 CFW1 Communication error with CFW1 has been occurred Check if the USB connecting cable is connected Device definition file cfw1type tbl format error Format of the device definition file is incorrect Reinstall the system of CFW1 Different model Firmware is not programmed properly on CFW1 Contact our technical support desk at support sunnygiken co jp External Flash ROM write error External flash ROM programming error has been occurred Terminate the program and turn off the power of CFW1 Then connect it again File data is different Data difference is found between displayed file data and the one on the CFW1 unit Reload the file File format error Contents of the project file are damaged Check if you are selecting the right file File open error Firmware exec state error Flash ROM write error Access of displayed file failed Firmware of CFW1 is not functioning properly Flash ROM write error has been occurred Reload the file Contact our technical support desk at support sunnygiken co jp Terminate the program and turn off the power of CFW1 Then connect it again 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 43 sunn y Giken Inc Invalid ID number Invalid ID number specified has been Enter valid ID number Invalid initial load data Invalid initial load data h
15. 1000 me Baudrate Sets a CAN communication speed Sets baudrate and sample points Send Frame Checking Use Send Frame enables setting frames that are to be sent Pre Sending Sends when flash programming is started Post Sending Sends when flash programming is finished Note When you use this function refer to the Renesas CAN Flash Library When you use this function onboard programming CAN Input Output Mode cannot be operated If you need to operate onboard programming do not check the Use Send Frame Pulse Output Checking the Use Pulse Output enables pulse output to be used within a pulse length It is also possible to set pulse length within the range of 1 1000ms By clicking OK you can close the dialog while keeping the current setting valid By clicking Cancel you can cancel the setting and close the dialog By clicking Default the setting will be displayed as a default Default setting Baudrate 500kbps Sample Point 70 Send Frame Pulse Output No Use S810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 32 sunn y Giken Inc Settings 3 Data Load to the User Rom Area User Rom File A file list is displayed and data load to the User ROM Area work memory can be executed by clicking the Load button Note Padding is achieved to the entire User Rom Area by OFFH before data is loaded Look in data v l c Files of type Data file hex
16. C Cable Power supply DC 12V P mee 200mA maximum 50mA average consumption The polarity of this DC cable is illustrated below Wire color RED DC 12V rm O BLACK GND Using CAN Cable Power supply DC 5V 5 P MS 300mA maximum 100mA average consumption Using USB Cable Power supply DC 5V 5 P oe i 500mA maximum 100mA average consumption DC 5V 5 maximum of 500mA of power supply is needed to start CFW1 When using USB cable use PC or USB hub that bears minimum of 4 75V 500mA of power supply 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual sunn y Giken Inc 2 3 Function Specifications Programmable Renesas CAN Microcomputers MCU See cfwl1deve pdf in the attached CD ROM Operation Mode CAN programming mode PC remote CAN programming Program Mode Standalone CAN programming PC control All the operation can be achieved from your PC with easy to operate Software GUI Graphic User Interface Applicable to Windows98 2000 Me XP Interface USB Full Speed 12Mbps 2 4 Programmable Devices Programmable devices are the Renesas CAN Microcomputers Some of the devices are however still under evaluation or not yet programmable Refer to the attached file Programmable Device List in the attached CD ROM For the latest information contact Sunny Giken Inc 810 CFW1 CAN Flash Microcomputer Programmer Opera
17. CAN Flash Microcomputer Programmer 8 10 CFW1 Operation Manual GE Sunny Giken Inc sunn y Giken Inc This operation manual is described in accordance with the S810 CFW1 Ver1 10 CAN Flash Microcomputer Programmer 5810 CFW1 Contents of this manual may be revised without notice We Sunny Giken Inc shall not be responsible for any damages and or losses caused by using this product and or the software attached to this product claimed by users and or any intermediaries Specifications of this product and or the software attached to this product may be modified without notice due to product improvements Names of systems products and or services used in this manual are either registered trademarks or trademarks of each manufacturer In addition captions of the TM and R are not mentioned in this manual 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 1 sunn y Giken Inc EE DISET mi a EREA E T E A E T E E NE AEE EEEE A E 3 LT Precautions iecjecieresi sacs ieescelevacindescddceslagdaecaas E AR EEA EEEN estates EER E ER ia 3 12 System Conhsur tuoiuusae NS 4 Di Specihcatonsiaasksak REE 5 2 1 General Specifications u nangasinniasennirsdriirtalnduimi id jniiirsiidsidjnidtstvi 5 2 2 Power Supply Specifications ccccccccscssssssssssssesscsssssescsssssescssssesessessesecsssaesessessesecassseeecaesaesecaesaeeecaseaeessaseaees 5 20 Punction SpeciiCaAtONS ereat eien REE ha needed 6 2 4 Program
18. CAN Programming Cable for details of the pin assignment of the CAN programming cable 3 If power needs to be supplied through a DC cable DC power source should be prepared by users 12V of power should be supplied Note See 7 2 When Network Programming CPU Rewriting Mode for circuit examples when using target boards produced by users 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 19 sunn y Giken Inc 6 Specifications of CAN Programming Cable 6 1 Connector An external view of the CAN programming cable S810 CFW1 is shown below Note that this cable is IS011898 compliant See 6 2 Pin Assignment for details of pin assignment for each connector 500mm 6 2 Pin Assignment 1 10 pin connector 10 pin connector Power connector Probe for a watch dog timer Pin No Signal Name Description Direction 1 Vee MON Vee Monitor Input 2 SEL1 SEL1 signal output for CAN programming Output 3 SEL2 SEL2 signal output for CAN programming Output 4 CAN Receiving frame signal input for CAN programming 5 CE CE signal output for CAN programming Output 6 EPM EPM signal output for CAN programming Output 7 GND Signal ground 8 RESET RESET signal output for CAN programming Output 9 CNVss CNVss Vpp signal output for CAN programming Output 10 CAN Send frame for CAN programming
19. This device complies with part 15 of the FCC Rules Operation is subject to the following two conditions 1 This device may not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation CAN Flash Microcomputer Programmer S810 CFW1 Operation Manual Rev D Date of Issue Sep 2002 Revision Date Aug 2005 Editor SUNNY GIKEN INC Published by SUNNY GIKEN INC 1 9 Nishidai 3 Chome Itami City HYOGO JAPAN 664 0858 E mail info sunnygiken co jp
20. al ear EF verry NEMI Switch LED Function Switch START Executes command responding to LED which is turned on when the power supply switch is turned on POWER Turns ON when the power supply switch is turned on PASS Turns ON when CAN programming is successful ID ERR Turns ON when result of CAN programming is ID_ERR FAIL Turns ON when CAN programming is failed E P V Turns ON when E P V command is selected in the control program BLANK Turns ON when BLANK command is selected in the control program LED ERASE Turns ON when ERASE command is selected in the control program E P Turns ON when E P command is selected in the control program VERIFY Turns ON when VERIFY command is selected in the control program READ Turns ON when READ command is selected in the control program Tx Turns ON when CAN frame is sent from CFW1 Rx Turns ON when CAN frame is received from the target For further information on LED status see 10 List of LED Status 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 11 sunn y Giken Inc e Right hand side view Connector Function TARGET Connector for CAN programming cable e Left hand side view USB DC IN Connector Function USB Connector for USB cable mini B Plug DC IN Connector for DC cable 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 12 Sunny Giken Inc 5 Instructions fo
21. as been returned Click New in the Project menu to initialize the CFW1 Invalid address contained Data file to be loaded contains invalid address Specify proper data file for the device Invalid address Invalid address has been entered Enter valid address Invalid block number Invalid block number has been specified Enter valid block number Invalid data Invalid data has been specified Enter valid data Memory has Changed Do you want to save the file Contents of the memory have been changed Do you want to save the file If you want to save the file select Yes and if not select No Memory has Changed Do you want to upload the memory Contents of the memory have been changed Do you want to upload the memory If you want to upload it select Yes and if not select Nol No device definition file efwitype tbl found Device definition file does not exist Copy cfwltype tbl file to the same directory as that of the control program No firmware update file found Firmware update file cannot be found Reinstall the system of CFW1 No operation block Operation blocks are not selected in the Block setting dialog Select operation blocks Oversized full path The selected size for a full path of a file is over 256 bytes Try to load files with the size that is within 256 bytes Please input hex one byte code ID numb
22. c are built in when onboard programming Isolation can be omitted when those signal statuses are output from the MCU peripheral circuit Resistance should be 4 7KQ or over when pull up is achieved to these signals When pull up is achieved to CE pin and pull down is achieved to EPM pin no connection to CE and EPM of CFW1 is required and the isolation alone can be conducted In case that these pins are not being used in the circuit it is also possible to fix CE and EPM pins to H and L levels directly on the board respectively 7 Connect the MCU CNVss pin to the CNVss pin of the CFW1 unit by achieving pull up down with resistance of 10KQ In case that it is defined to H level by switching the jumper of the CNVss pin no connection to the CNVss pin of CFW1 is not required 8 Connect the reset pin of the user target board MCU to the RESET pin of the CFW1 directly when the reset circuit of the user target board is open collector output CR delay circuit or constant current load circuit is less than dozens of pA 9 See Renesas Microcomputer Hardware Manuals for details of onboard programming CAN Input Output Mode of each device 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 21 Sunny Giken Inc 2 M16C 6N4 6N5 6NK 6NL 6NM 6NN group User Prepared Target Board MCU CAN Peripheral Driver Circuit SEL2 CE GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 Leave No 2 and 3 p
23. ctions for CAN Programming gt 1 Connect CFW1 to a target board by following the optimum way for the target board and turn it on 2 Press START switch to execute processing which is selected in Action 1 3 When the processing is completed LED of the main unit will output the result 4 Turn it off and disconnect the CFW1 from the target board Start from the first step every time if you would like to repeat the operation 1 When loading programming data from internal memory contents of the memory are checked whether they are kept safely Checksum check If not FAIL LED will flash If this happens press START switch to stop LED flashing Then reload the data after formatting the main unit of the CFW1 by using CFW1 control program 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 13 sunn y Giken Inc 5 1 PC Remote CAN Programming Mode In PC Remote CAN Programming Mode there are mainly three connecting methods depending on the conditions 1 Remote Connection 1 In this method power needed for a target board is supplied from a CFW1 side A figure and procedures for the connection are shown below Note that the connection method shown below is applicable to our products S810 CHX3 CHX4 See Remote Connection 2 in the next page if you use a board produced by users CAN programming cable S810 CHX3 CHX4 1 lt Procedures gt 1 Connect PC and CFW1 by using USB cable 2 Attach CAN p
24. eas to be inspected Add New Hardware Wizard Windows will search for new drivers in its driver database on pour hard drive and in any of the following selected locations Click Next to start the search I Floppy disk kami mt me I CD ROM drive T Microsoft Windows Update IV Specify a location D AUSBDrv v Browse if lt Back Cancel 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 8 sunn y Giken Inc iv Sunny S810 CFW1 USB will be viewed Press Next Add New Hardware Wizard v Although the next dialog will appear because the area to be inspected is the CD ROM folder press the OK button Copying Files gr Er 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 9 sunn y Giken Inc vi The driver files will be automatically copied and then installation will be completed Add New Hardware Wizard 3 5 Disconnecting USB Cable from a PC Do not disconnect USB cable from a PC while the control program is being activated USB cable can be disconnected anytime as long as the control program is not being activated 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 10 Sunn y Giken Inc 4 Panel Description 4 1 810 CFW1 Unit External views of CFW1 are shown and its parts such as switches LEDs and connectors are also described below e Top view FOVEN EE DEAN A
25. en Inc 5 2 Standalone CAN Programming Mode In Standalone CAN Programming Mode there are mainly four connecting methods depending on the conditions 1 Standalone Connection 1 In this method power needed for a target board is supplied from a CFW1 side A figure and procedures for the connection are shown below Note that the connection method shown below is applicable to our products 810 CHX8 CHX4 See Standalone Connection 2 in the next page if you use a board produced by users DC power source CAN programming cable DC cable 810 CHX3 CHX4 1 lt Procedures gt 1 Connect the main unit of CFW1 and CAN programming cable 2 Connect the CAN programming cable and a target board S810 CHX3 CHX4 Connect the power connector of the CAN programming cable and the 10 pin connector to the target board Note that the probe for a watch dog timer is not to be used since our products S810 CHX3 CHX4 do not have a watch dog function 3 Connect DC cable and the main unit of CFW1 and then turn it on 4 Connect the DC cable and the main unit of CFW1 Supply 12V of power from the DC cable and turn it on 1 810 CHX3 Evaluation board for CAN Mounts CAN transceiver to enable evaluation of CAN communication S810 CHX4 IC socket type CAN writing board Enables programming a flash microcomputer before that is mounted on a board 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 17 Ef
26. er has not been entered properly in the Set ID dialog Input hexadecimal one byte code Read user file error Reading the user file failed Read the user file again S810 CFW1 already started S810 CFW1 has been tried to start although it has already started Activate the control program that has been already started S810 CFWI1 is disconnected Program will now terminate CFW1 is disconnected The program will terminate Connect CFW1 again and execute the program S810 CFW1 project file format error Contents of CFW1 project file are damaged Save the project file again System memory error Irregular memory contents are found in the CFW1 unit Click New in the Project menu to initialize CFW1 This file includes data addressing non ROM area of the selected device Do you want to continue The file includes data addressing non ROM area of the device that is being selected If you want to continue select Yes and if not select Nol Would you like to update firmware The version of the firmware does not match CFW1 If you want to update the firmware select Yes and if not select Nol 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 44 sunn y Giken Inc 9 List of LED Status LED status is listed as follows Conditioning LED Status When setting is achieved POWER is on and LED of the command that is by PC s
27. et and saved by the main unit of CFW1 for the Power on last time is on POWER is always on while the main unit of CFW1 is being supplied with power When setting by PC is not POWER is on Under execution PASS blinks Also Tx Rx are on while CAN ENN Each command is executed When ID error is occurred ID ERR is on When Project then PASS blinks Initializing is New in the menu of the executed control program are selected When system memory of FAIL blinks CFW1 the CFW1 is is malfunctioned malfunctioned Waiting When turned on while Each LED of PASS ID Err FAIL is on for updating START switch is being pressed 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 45 sunn y Giken Inc 10 Updating Firmware Checking firmware versions of the main unit of CFW1 is available If the version is not supported by the current control program it can be automatically updated The following dialog will be displayed Then click OK OF Wil AN Would you like to update firmware If you turn it on while pressing START switch of the main unit of CFW1 it will achieve waiting state for updating firmware While it is in the waiting state if you start the control program of the CFW1 updating firmware will be executed 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 46 c Sunny Giken Inc Revision Descriptions Revised Date Rev B Due to the transfer o
28. f CFW1 is required and the isolation alone can be conducted In case that these pins are not being used in the circuit it is also possible to fix CE and EPM pins to H and L levels directly on the board respectively 7 Connect the MCU CNVss pin to the CNVss pin of the CFW1 unit by achieving pull up down with resistance of 10KQ In case that it is defined to H level by switching the jumper of the CNVss pin no connection to the CNVss pin of CFW1 is not required 8 Connect the reset pin of the user target board MCU to the RESET pin of the CFW1 directly when the reset circuit of the user target board is open collector output CR delay circuit or constant current load circuit is less than dozens of pA 9 See Renesas Microcomputer Hardware Manuals for details of onboard programming CAN Input Output Mode of each device 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 23 Sunny Giken Inc 4 M16C 1N group User Prepared Target Board MCU CAN Peripheral Driver Circuit SEL2 Ci GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 Leave No 3 and 6 pins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that a watch dog signals are needed to start MCU a probe for a watch dog output als
29. f the CFW1 directly when the reset circuit of the user target board is open collector output CR delay circuit or constant current load circuit is less than dozens of pA 9 See Renesas Microcomputer Hardware Manuals for details of onboard programming CAN Input Output Mode of each device 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 22 Sunny Giken Inc 8 M32C 84 85 group User Prepared Target Board MCU Peripheral Circuit Vee SEL2 GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 Leave No 2 and 3 pins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that a watch dog signals are needed to start MCU a probe for a watch dog output also needs to be connected 4 Connect IS011898 compliant CAN driver to CTx CRx of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Isolate CE and EPM pins from the MCU peripheral circuit in case the jumper analog switch three state etc are built in when onboard programming Isolation can be omitted when those signal statuses are output from the MCU peripheral circuit Resistance should be 4 7KQ or over when pull up is achieved to these signals When pull up is achieved to CE and EPM pins no connection to CE and EPM o
30. f the Mitsubishi Electric Semiconductor section to Renesas Technology all the descriptions with Mitsubishi were changed to Renesas or Renesas Technology 7 1 Onboard Programming An example diagram of M32R ECU family connection circuit has been added due to the compliance with the M32R ECU 7 1 Onboard Programming An example diagram of M16C 1N series has been added May 07 2003 Rev B2 7 2 Network Programming Circuit examples for network programming have been added due to the compliance with the M32R ECU Dec 12 2003 Rev C 7 1 Onboard Programming The example diagram of M16C 6N and M32C 85 group connection circuit has been separated into two an example diagram of M16C 6N4 6N5 6NS group connection circuit and an example diagram of M32C84 85 group connection circuit The example diagram of M16C 1N group connection circuit has been partially modified An example diagram of M16C 29 group connection circuit has been added Nov 5 2004 Rev D 7 1 Onboard Programming An example diagram of M16C 6NK 6NL 6NM and 6NN series have been added Notes of a connection circuit has been partially modified 7 2 Network Programming Notes of a connection circuit has been partially modified Aug 1 2005 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 47 Overseas Specifications e Obtaining the CE Mark EMI EN55011 Group1 Class A EMS EN61000 6 2 e FCC Compliance
31. he jumper of the CNVss pin no connection to the CNVss pin of CFW1 is not required 8 Connect the reset pin of the user target board MCU to the RESET pin of the CFW1 directly when the reset circuit of the user target board is open collector output CR delay circuit or constant current load circuit is less than dozens of pA 9 See Renesas Microcomputer Hardware Manuals for details of onboard programming CAN Input Output Mode of each device 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 25 Sunny Giken Inc 6 M32R ECU family User Prepared Target Board MCU CAN Peripheral Driver Circuit Vee SEL2 Ci GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 2 In case that a watch dog signals are needed to start MCU a probe for a watch dog output also needs to be connected 3 Connect IS011898 compliant CAN driver to CTx CRx of MCU 4 Attach a terminating resistance to CAN of the CAN bus 5 Isolate MODO MOD1 P84 and P87 pins from the MCU peripheral circuit in case the jumper analog switch three state etc are built in when onboard programming Isolation can be omitted when those signal statuses are output from the MCU peripheral circuit Resistance should be 4 7KQ or ove
32. heck function Read Loads data of a device to the memory of the main unit of CFW1 Select one of the above operations then click the Start button to start execution If the Pre Sending is selected frames that are set for Pre Sending are sent before executing the operation If Post Sending is selected frames that are set for Post Sending are sent after executing the action Results of operations are displayed in the result column 1 Pass Operation completed successfully Program Err Program error Erase Err Erase error Blank Err Blank error Read Err Read error Verify Err Verification error ID Err ID verification error Device Err Device error Results of operations are also displayed in the main unit of CFW1 See 8 5 List of LED Status for detailed description 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 36 sunn y Giken Inc 7 Read Version Device versions that are on a target board are displayed If you click Read Version the information of the version will be displayed CAN Flash Programer SELEPE I Project Edt Hap Device Type MODENAFGTFP Detail Boairste Eiler Leer Rom Area 0COOO0 FFFFF Block Fe Send frame Ho use mca vec BV vn BV pe ee Sann User om fe uonssacaM Load Dede O FomPrateet he Sum Check ID eode S Chack ID Lock Bit Stabs Operatior Block Lock B t after Program Effective D No
33. ins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that watch dog signals are needed to start the MCU a probe for a watch dog output also needs to be connected 4 Connect IS011898 compliant CAN driver to CTx and CRx of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Isolate CE and EPM pins from the MCU peripheral circuit in case the jumper analog switch three state etc are built in when onboard programming Isolation can be omitted when those signal statuses are output from the MCU peripheral circuit Resistance should be 4 7KQ or over when pull up is achieved to these signals When pull up is achieved to CE pin and pull down is achieved to EPM pin no connection to CE and EPM of CFW1 is required and the isolation alone can be conducted In case that these pins are not being used in the circuit it is also possible to fix CE and EPM pins to H and L levels directly on the board respectively 7 Connect the MCU CNVss pin to the CNVss pin of the CFW1 unit by achieving pull up down with resistance of 10KQ In case that it is defined to H level by switching the jumper of the CNVss pin no connection to the CNVss pin of CFW1 is not required 8 Connect the reset pin of the user target board MCU to the RESET pin o
34. it or Switch SEL CE GND CNVss EPM RESET CAN SEL1 CAN CFW1 Unit 1 Leave No 1 2 3 5 6 7 8 and 9 pins of the 10 pin connectors unconnected 2 The power connector can be connected or unconnected according to the conditions for CAN programming See 5 Instructions for Connection and Standalone Operation for details of the power connector 3 In case that watch dog signals are needed to start MCU a probe for a watch dog output also needs to be connected See 7 3 Connecting a Probe for a Watch dog Timer for a connecting method 4 Connect IS011898 compliant CAN driver to CTx CRx of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Set FP H and MODO T when network programming 7 See Renesas Microcomputer User s Manuals and Renesas CAN Flash Library User s Manuals for details of network programming CPU Rewriting Mode of each device and CAN flash library Tt is necessary to mount a control program on user programs by referring to the sample of Renesas CAN Flash Library in order to achieve network programming It is also necessary to set Send Frame in a control program of the CFW1 See 2 CAN Setting CAN in 8 1 Main Programming Screens for details of setting Send Frame Please contact csc renesas com for more information on CAN Flash Library 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 28 c Sunny Giken Inc
35. lash Microcomputer Programmer Operation Manual 41 sunn y Giken Inc 8 2 3 Help Menu 1 About CFW1 Versions of the control program and the firmware of the main unit of CFW1 can be viewed About 5810 GFWI e Control Program Version Aversion of the control program is displayed e Firmware Version Aversion of the programming control program for the main unit of CFW1 is displayed 2 Manual Operation manual of the CFW1 is displayed 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 42 sunn y Giken Inc 8 3 Error Messages The following is a list of error messages Error Message Error Cause Solution Checksum error Checksum error has been occurred Terminate the program and turn off the power of CFW1 Then connect it again Command error Command error has been occurred Terminate the program and turn off the power of CFW1 Then connect it again Command execution error Command execution error has been occurred Terminate the program and turn off the power of CFW1 Then connect it again Communication error from S810 CFW1 Communication from CFW1 failed Terminate the program and turn off the power of CFW1 Then connect it again Communication error to S810 CFWI1 Communication to CFW1 failed Terminate the program and turn off the power of CFWI Then connect it again Communication error Can t accept data from S81
36. mable Devicesin enian eeina eiieeii siiani iai aderi a eiar iia 6 3 InstallatiOis encciddesdivhavtitiartiedi enavad aE N AERE N Aa a AANEEN ENE 7 3 1 Installing Sottware vccvsescsscisaiciacasancisctatactecvsaddiad Ari aE AEAEE TENA 7 32 Uninstalling Soltwaresiseacdic disiaciauicauiaviicneiisiavacaaiavliend aka vic sitavintdneidavinstacinss 7 3 3 Installing Acrobat Reader iscsi unner iaaa a a a i iii ieaiaia 7 3 4 Installing USB Driverinn E T A E A 7 3 5 Disconnecting USB Cable from a PC rrennrnronnonvenvrenenvrerernrenrennsnvenvennreresnrenseneensennensssvesnsevssnesnsenssnesnsensenssnn 10 4 Panel DeGSCHIPtON fi 654chedesiececesciccidcechcch eaves ibeleseadecdacsechectacdcacebsceselsbeleslssecsoskastacdehcchesanbesudeasessechesnscdeaeebaeensisbetoeeisse 11 4 1 S810 CFWI1 Unit uauegsasnedseadminkdssinesnedsevoinbgldadnne dekkenet amseGuduuides 11 5 Instructions for Connection and Standalone Operation mmenenvrenennrenrenvrnronrenvrevenvrennenrenrenrennseresvrennennsnvenssnrsns 13 5 1 PC Remote CAN Programming Mode rrrrorenvrenrnnrenrennreresnrenrenesnrenrennserennrenseneensensennssresnsenssnrensennsnvsnsenssneses 14 5 2 Standalone CAN Programming Mode enrrrenvrononnrenrenvennrrenvrennsnnenvennreresnrenneneensennensssvennsevssnesnsennsnesvsevssnesen 17 6 Specifications of CAN Programming Cable ronrononnrononnronnennenvrenenvrenernrenrennsnnrsrennreresnesnnennsnsrsrennserssrsevsenesnssnre 20 6 1 Connector E E E E E E A A A disease 20
37. o needs to be connected 4 Connect IS011898 compliant CAN driver to CTx CRx of MCU 5 Attach a terminating resistance to CAN of the CAN bus 6 Isolate CE and SEL pins from the MCU peripheral circuit in case the jumper analog switch three state etc are built in when onboard programming Isolation can be omitted when those signal statuses are output from the MCU peripheral circuit Resistance should be 4 7KQ or over when pull up is achieved to these signals When pull up is achieved to CE and SEL pins no connection to CE and SEL1 of CFW1 is required and the isolation alone can be conducted In case that these pins are not being used in the circuit it is also possible to fix CE and SEL pins to H and L levels directly on the board respectively 7 Connect the MCU CNVss pin to the CNVss pin of the CFW1 unit by achieving pull up down with resistance of 10KQ In case that it is defined to H level by switching the jumper of the CNVss pin no connection to the CNVss pin of CFW1 is not required 8 Connect the reset pin of the user target board MCU to the RESET pin of the CFW1 directly when the reset circuit of the user target board is open collector output CR delay circuit or constant current load circuit is less than dozens of pA 9 See Renesas Microcomputer Hardware Manuals for details of onboard programming CAN Input Output Mode of each device 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 24
38. on Data Input mm lk ae 3 Clear Button Memory can be initialized by OFFH by clicking the Clear button at the screen shown below Memory Clear Ea o e oOo S810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 40 sunn y Giken Inc 4 Save Button Memory contents can be saved to files at the screen shown below by clicking the Save button Both of the Intel HEX Format HEX and the Motorola S Format MOT file types are available by selecting the extension range of data to be saved can be specified by hexadecimal in the Save Address entry column Data of the entire area is to be saved if it is not specified Ex c0000 dffff Range of C0000 DFFFF is to be saved c0000 cfff ff000 fffff Range of C0000 CFFFF and ff000 fffff are to be saved Save in ad ss t is sS fen Al ci Save as type Data file hex mot v Cancel Save Address Z 5 OK Cancel Exits the Edit screen by clicking OK or Cancel If the memory contents have been modified by Modify or Clear click OK to keep modification effective and Cancel to cancel it Operating memory in the Edit screen is done only to the memory of the PC in order to save transfer time Therefore if you terminate it by clicking the OK button after making some modifications to the memory the data of the PC will be loaded to the memory of the main unit of CFW1 S810 CFW1 CAN F
39. or a watch dog output also needs to be connected 3 If power needs to be supplied through a DC cable DC power source should be prepared by users 12V of power should be supplied Note See 7 1 When Onboard Programming CAN Input Output Mode for circuit examples when using target boards produced by users 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 18 ce Sunny Giken Inc i Standalone Connection 3 This method is applicable when standalone CAN programming on a target board in CAN network A figure and procedures are shown below DC power source 3 CAN programming N CAN 2 pi CAN j Renesas CAN Renesas CAN microcomputer microcomputer User prepared target board User prepared target board lt Procedures gt 1 Connect DC cable and the main unit of CFW1 and then turn it on 2 Connect CAN programming cable to the main unit of CFW1 3 Connect CAN and CAN pins in CAN network and CAN and CAN pins of the CAN programming cable 1 If 5V 5 of DC power can be supplied from the signal line on CAN network through CAN programming cable CAN programming can be operated without connecting a DC power source Do not supply power to CFW1 by DC power source on a target board side and one connected by a DC cable at the same time Power should be supplied from only one side 2 Connector pins mentioned above should be prepared by users See 6 Specifications of
40. r Connection and Standalone Operation Connection instructions are illustrated below There are mainly two types of connection PC Remote CAN Programming Mode Connecting PC to CFW1 with USB enables CFW1 to achieve PC Remote CAN Programming Mode CAN programming is executed by using CFW1 control program in PC Remote CAN Programming Mode For directions for using CFW1 control program see 8 Operation by PC Control Program Standalone CAN Programming Mode Using CFW1 alone without connecting PC to CFW1 enables it to achieve Standalone CAN Programming Mode The main unit of CFW1 can automatically save set conditions and data by control program Therefore CFW1 can achieve CAN programming by itself as long as there is no change in the data Pressing START switch will complete the operation Since advanced setting is not necessary it is easy to program In addition LED of the main unit of CFW1 indicates set execution state For further information on the control program see 8 Operation by PC Control Program lt Instructions for Data Setting gt 1 Connect PC to CFW1 by using USB cable and start PC control program 2 Select MCU name and set baudrate and others 3 Load data for programming 4 Set lockbits and pulse output if necessary 5 Check command you would like to execute Erase Program Verify Blank and others 6 Select Project then Exit in the menu bar and close the control program lt Instru
41. r when pull up is achieved to these signals When pull up is achieved to MODO and pull down is achieved to MOD1 P84 and P87 no connection to CE EPM SEL1 and SEL2 is required and the isolation alone can be conducted In case that these pins are not being used in the circuit it is also possible to fix MODO to H level and MOD1 P84 and P87 to L levels directly on the board respectively 6 Connect the MCU CNVss pin to the CNVss pin of the CFW1 unit by achieving pull up down with resistance of 10KQ In case that it is defined to H level by switching the jumper of the CNVss pin no connection to the CNVss pin of CFW1 is not required 7 Connect the reset pin of the user target board MCU to the RESET pin of the CFW1 directly when the reset circuit of the user target board is open collector output CR delay circuit or constant current load circuit is less than dozens of pA 8 See Renesas Microcomputer Hardware Manuals for details of onboard programming CAN Input Output Mode of each device 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 26 c Sunny Giken Inc 7 2 Network Programming CPU Rewriting Mode Circuit examples for network programming under user oriented MCU circuit design are shown below 1 M16C M32C family User Prepared target board Jumper aa or Reset circuit Switch Vee SEL2 CE GND CNVss SEL1 CAN EPM RESET CAN CFW1 Unit 1 Leave No 1 2
42. rogramming cable to the main unit of CFW1 3 Connect CAN programming cable and a target board S810 CHX3 CHX4 Connect the power connector of the CAN programming cable and 10 pin connector to the target board Note that a probe for a watch dog timer is not to be used since our products S810 CHX3 CHX4 have no watch dog timer function 1 810 CHX3 Evaluation board for CAN Mounted with CAN transceiver to enable evaluation of CAN communication S810 CHX4 IC socket type CAN writing board Enables programming flash micro computers before they are mounted in the board 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 14 sunn y Giken Inc i Remote Connection 2 In this method power needed for a target board is supplied by DC power source This method is therefore applicable when PC remote CAN programming on a target board prepared by users A figure and procedures are shown below DC power source Renesas CAN microcomputer USB connecting cable CAN programming cable User prepared 1 target board lt Procedures gt 1 Connect PC and CFW1 by using USB cable 2 Attach CAN programming cable to the main unit of CFW1 3 Connect the 10 pin connector of the CAN programming cable to the target board Do not connect the power connector since it may cause damage 4 Connect DC power source and a target board Then turn it on 1 Ifa watch dog signal is needed to start MCU
43. rthing Sel Blocks Operation IT Fre Beardie F P S re E Frasen Process hi Fly Blark C Pae Po Erme Poean i Ve Til EP Rasd Start Execution Med pr EE Version information 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 37 Sunny Giken Inc 8 2 Menu Bar 8 2 1 Project Menu Contents of setting data that is to be programmed to a device can be saved Save As and loaded Open as project files in order to avoid human errors or the trouble of reset 1 New Initializing dialog is displayed by clicking New in the Project menu When initializing is completed a new setting screen will appear 2 Open A file list of project files can be viewed by clicking the Open button in the Project menu The extension of project files is CFP Project files means files in which data that is defined by the CFW1 such as device type data files Operation Block Lock Bit and so on are saved 3 Save As A list of project files can be saved by clicking the Save button in the Project menu The extension of a project file CFP can be omitted 4 Exit Terminates the control program Before disconnecting the CFW1 from PC or turning off the power of the main unit of CFW1 terminate the program Termination is required when programming all the data that has been defined by PC to the memory of the main unit of CFW1 The data is never deleted when the power is OFF since
44. te of Lock bits ud Locked Current Lock Unlocked Selecting Blocks to be Locked After Executing a Command After Lock Locks blocks which are checked Selecting Blocks for Operation Operation Block i Executes a command targeting the blocks which are checked All lock All unlock Clicking AI lock is to select all items for After Lock Clicking All unlock is to cancel all items of After Lock OK Makes the setting effective and closes the dialog Cancel Cancels the setting and closes the dialog 5 ID Setting Set ID ID setting for verification of a device ID can be defined The setting should be specified in a hexadecimal form See the following dialog ID1 1D2 1D3 1D4 IDS 106 ID Cancel Specification of A to F is case independence ID of loaded data is displayed when data is loaded to the User ROM Area S810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 35 Sunny Giken Inc Operation 6 Operation Operation Either operating or not operating Pre Sending and Post Sending should be selected The following 6 types of operations to a desired block of a device are available to be executed Erase Program Verify Executes erase program and verify check functions in order Blank Executes blank check function Erase Executes erase function Erase Program Executes erase and program functions in order Verify Executes verify c
45. tion Manual sunn y Giken Inc 3 Installation 3 1 Installing Software Start Setup exe in the S810 CFW1 folder in the attached CD ROM Follow the messages of the installer 3 2 Uninstalling Software Execute Add Remove Programs in the control panel and select S810 CFW1 in the Change Remove Press the Change Remove button to execute uninstallation 3 3 Installing Acrobat Reader You need Acrobat Reader in order to refer to the Manual of the Help If Acrobat Reader is not installed on your PC start AR405ENG EXE in ACROBAT folder in the attached CD ROM 3 4 Installing USB Driver When CFW1 is connected by USB for the first time Windows automatically inspects the new hardware and creates driver information database The procedure for installing USB Driver is described below i Add New Hardware Wizard Dialog will be displayed Press Next Add New Hardware Wizard 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 7 sunn y Giken Inc ii Select Search for the best driver for your device Recommended and press Next Add New Hardware Wizard What do you want Windows to do gocossscosososoesessescoossesecosessesososooscsoesssosooessssssesesescsossesesossssescosssessssesss p O Display a list of all the drivers in a specific location so you can select the driver you want ones iii Specify USBDrv folder in the attached CD ROM for ar
46. z l OCO080 88 89 SA 8B 8C 8D SE 90 91 92 93 94 95 96 97 98 vevennvunnnnuner OCO090 99 9A 9 9C 90 SE AD AL AZ AS AF A5 AG AT AB AO wee eee ween eee OCOOAD AA AB AC AD AE BO BL B2 B3 B4 BS BE BF BS B9 BA a rsssvussvuuser OCO0BO BB BC BD BE CO C1 C2 C3 C4 CS CB CF CB C9 CA CB svevesvvvsunvuner na ocooco ec cD CE DO DL D2 D3 D4 D5 D D DS D9 DA DB DC cane eunecnneees OCOODO DD DE EO EL E2 E3 E4 ES E6 EF ES E9 EA EB EC ED avssssvusuuuuser A a OcOOEO EE 00 01 02 03 04 05 06 07 08 09 OA OB OC OD OE aasevssvuunuuner y OCOOFO 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 20 assssssssssesse oco100 21 22 23 24 25 26 27 28 29 2A 2B 2C 20 2E 30 31 xe O 01 vw OCO110 32 33 34 35 36 37 38 39 3A 3B 3C 3D 3E 40 41 42 23456789 7 lt EAB y i gt Modify Clear Gave OK Cancel Memory dump addresses can be switched by clicking arrow buttons in the right hand side of the screen Up arrows reverse address numbers and down arrows forward addresses One arrow buttons jump by 100H double arrow buttons for 1000H and triple arrow buttons for 10000H 810 CFW1 CAN Flash Microcomputer Programmer Operation Manual 39 sunn y Giken Inc 1 Address Button An address number that is to be dumped can be specified directly at the screen shown below by clicking the Address button Address Input 2 Modify Button Data of a specified address can be modified at the screen shown below by clicking the Modify butt
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