QB-V850E2FX4H-PD In-Circuit Emulator User`s Manual
Contents
1. 35 4 1 20 specification of PICILI 35 4 2 Notes for Debugeling ee REG Re MEA Hea OS QURE Shae Ned 36 4 2 1 Dropping of Trace Results by Trace 36 4 2 2 Hardware Breaks in Internal RAM 36 4 2 3 Dropping of Traces When Power on Clear Circuit Is Reset 36 4 2 4 When High speed Internal Oscillator High speed IntOsc Is Stopped 36 4 2 5 Mask 36 4 2 6 During Breaks tees DR 36 CHAPTER 5 OPTIONAL PRODUCT 222 2 4 2 37 5 1 LONG TERM TRACE 0 7 27 37 5 1 1 General IUD MAX UOCE RARUS Rma aont sert dnd ues 37 5 1 2 SETUP PROCEDURE 2 38 R20UT0822bEJ0400 Rev 4 00 2014 09 16 Page 7 of 45 QB V850E2FX4H PD Contents APPENDIX A CHARACTERISTICS OF TARGET INTERFACE 39 R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENESAS Page 8 of 45 QB V850E2FX4H PD 1 GENERAL CH2. 2 1 POD Top View Bottom View 2 A a o a 2 2 Clock Socket 1 Connectors for EA 3 Connector for IE850 PCB in POD Figure 2 1 Names of parts of POD 1 Connector for EA This is the connector for connecting to the exchange adapter EA 2 Clock Socket This is the socket for the main clock setting A 4 MHz resonator is mounted upon shipment 3 Connectors for IE850 This is the connector for connecting to the IE850 main R20UTO822EJ0400 4 00 Page 20 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 2 NAMES AND FUNCTIONS OF HARDWARE 2 2 IE850 main 1 1 850 main 2 POD 3 STATUS LED 4 POD cable 6 Power switch 5 Power connector 8 Cooling fan 7 USB connector Figure 2 2 Names of parts of IE850 1 IE850 main IE850 main is unit that controls debugging IE850 main is sold separately 2 POD Please refer to 2 1 R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 21 of 45 QB V850E2FX4H PD 2 NAMES AND FUNCTIONS OF HARDWARE 3 Status LED The status LEDs turn on or blink according to specific causes as described in the table below If any LED does not turn on or not blink IE850 might be broken In this case contact a RENESAS Electronics sales representative or distributor SYSTEM This LED turns on when the power switch is turned on This LED blinks if the FPGA in IE850 is not running correct
3. D lt gt 5 lt 5 QB V850E2FX4H PD In Circuit Emulator User s Manual Target Devices V850E2 FG4 V850E2 FJ4 V850E2 FK4 V850E2 FL4 V850E2 FF4 M V850E2 FK4 H V850E2 FL4 H V850E2 FK4 G All information contained in these materials including products and product specifications represents information on the product at the time of publication and is subject to change by Renesas Electronics Corp without notice Please review the latest information published by Renesas Electronics Corp through various means including the Renesas Electronics Corp website http Awww renesas com Renesas Electronics www renesas com Rev 4 00 Sep 2014 10 11 12 Notice Descriptions of circuits software and other related information in this document are provided only to illustrate the operation of semiconductor products and application examples You are fully responsible for the incorporation of these circuits software and information in the design of your equipment Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from the use of these circuits software or information Renesas Electronics has used reasonable care in preparing the information included in this document but Renesas Electronics does not warrant that such information is error free Renesas Electronics assumes no liability whatsoever for any damages incurred by yo
4. 1 Exit the software tool 2 Turn off the target system 3 Turn off IE850 4 Disconnecting the system R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENESAS Page 32 of 45 QB V850E2FX4H PD 4 NOTES CHAPTER 4 NOTES This chapter explains the common notes of IE850 4 1 Notes for Differences between Actual Device and Emulator When connecting the emulator and target system for debugging the emulation duplicates the behavior of an actual device on the target system to the greatest extent possible but the following differences do exist between the behavior of the emulation and actual device We therefore urge you to perform an evaluation on the actual device as the final evaluation step before mass production It is your responsibility to ensure that the target system is suitable 4 1 1 Behavior after Target System Is Powered On After powering on the device on which the target system is implemented the program runs once the reset has been cleared The emulator however will not start the program until the debugger has downloaded the program and performed a start execution operation Also although the emulator is able to download and run an object before the initial variable values and other information have been ROMized the actual device will not function normally if the object is not ROMized 4 1 2 DBTRAP Instruction The DBTRAP instruction is not available in user programs because it is used for software breakpoints 4 1 3 On
5. 26 3 3 Connection of 5 26 3 3 1 Connection of Target Connector 0 27 3 3 2 Connection of Emulator Connector 28 3 3 3 Connection of Exchange Adater 29 3 3 4 Handling Precautions for 5 29 3 3 5 Connecting Pod and Target System 0 cece eens 30 3 3 6 Connecting USB cable AC 30 3 4 T nn ion 025 525 pa p Rus gute sp 31 20070822 0400 Rev 4 00 2014 09 16 Page 6 of 45 QB V850E2FX4H PD Contents 3 5 Turn on Target System sssssssseeeeeeeees teeter eens 31 3 6 Start the software 01 32 3 7 Shut down e Lie Rede bal cede eere rd heal Ede n Rd 32 CHAPTER 4 Jul 33 4 1 Notes for Differences between Actual Device and Emulator 33 4 1 1 Behavior after Target System Is Powered 0 33 4 1 2 DBTRAP Inst EUG E TOHl 2o etc ct ep Sr p eo E RU teu dac ee 33 4 1 3 On chip Debugging 33
6. sequence such as when an address has been executed after a variable was accessed 1 3 8 Peripheral break function When the break function has been used to stop program execution peripheral functions other than the watchdog timer continue to operate in general but some peripheral functions can be stopped by using the peripheral break function The following peripheral functions can be stopped Following functions always stopped upon a breakpoint hit Watch dog timer WDTA Following functions can be stopped or continue upon a breakpoint hit by user option Timers TAUA TAUB TAUC TAUJ ENCA RTCA CNTA OSTM TAPA Serial interfaces UARTE CSIG I2CB A D converter ADC 1 3 9 Mask function The mask function can be used to mask the following sources RESET terminal Internal reset For example watch dog timer R20UT0822bEJ0400 Rev 4 00 2014 09 16 RTENESAS Page 17 of 45 QB V850E2FX4H PD 1 4 System Specifications Parameter Internal ROM 1 GENERAL Specification Emulation memory capacity Same as target devices Internal RAM Same as target devices External memory None Program execution Real time execution function Available functions Non real time execution function Available Step execution Step execution in source level depends on debugger Event functions Break functions Trace functions Detection of execution Detection of access Pre executi
7. 4 1 4 Downloaded Programs 33 4 1 5 Power Save Mode 33 4 1 6 Oscillator session Proche PER ga PUn Padres uio gt 34 4 1 7 Current e 34 4 1 8 Pin Characteristics and Pin 5 4 4 34 4 1 9 4525 sa aro ree eee eee 34 4 1 10 Reset Period of Power on Clear Circuit 34 4 1 11 spo e eee ee ee LE 34 4 1 12 Standby Mode Settings 35 4 1 13 specification of power supply 1 35 4 1 14 The specification of AOVREFP 1 35 4 1 15 specification of ATVREFP 35 4 1 16 specification of VSS 35 4 1 17 The specification of AOVREFM 1 35 4 1 18 specification of ATVREFM 35 4 1 19 caution about internal power supply 1
8. RENESAS QB V850E2FX4H PD 3 SETUP PROCUDURE 3 3 3 Connection of Exchange Adater EA Align the positions of the EA s 1 pin location of triangle A mark and the EC s 1 pin location of C cut then press in the EA When pressing in the EA hold down the EC with your finger so that force is not applied to the TC When removing the EA insert a precision screwdriver or other tool between the EC and EA and pry them apart slowly while rocking the screwdriver Take care with the step as rocking the screwdriver in the wrong direction could damage the connector Exchange Adapter lt gt Emulator Connector 3 3 4 Handling Precautions for Sockets This completes the socket connections Please follow the precautions below when handling the sockets When removing a socket from the case pull out the cushion first holding down the unit Handle the EC and SA pins with care as they are thin and bend easily Make sure that the pins are not bent before connecting to the TC When screwing down an EC soldered to a TC and board screw in each of the four screws partway and then tighten each of the screws in turn using a 0 or 1 Phillips head cross head precision screwdriver or torque screwdriver Lock the torque at 0 054 Nm MAX If only one screw is too tight then it could cause a bad contact The board that the EC is connected to must have component holes at the prescribed locations four locations with diameter of 2 3 or 3 3 m
9. The executed program can be stopped under various conditions by using the break functions 1 3 3 Break functions program execution stop The operation of only a function can be checked by executing a program because a program can be executed from any address 1 3 2 Step execution function non real time execution function The step execution function can be used to execute instructions one by one in assemble instruction units Only instructions to be executed purely in steps can be executed because interrupts are not acknowledged during step execution Caution Step execution to be performed at the C language level is performed by a debugger using the break function In this case interrupts are acknowledged in step execution Consequently if processing at the interrupt destination cannot be completed step execution may not be completed For handling such a case see the manual of the debugger 133 Break functions program execution stop The break functions are used to stop program execution With IE850 program execution can be stopped under the following various conditions See 1 to 5 for an overview of each break function An address has been executed Hardware break function Software break function A variable has been accessed Hardware break function A specific time has elapsed Timer overflow break function Variable values can be checked during a break and a program can be executed again by changing registe
10. V850E2FX4H PD 4 NOTES 4 2 Notes for Debugging When connecting the emulator and target system for debugging the emulation duplicates the behavior of an actual device on the target system to the greatest extent possible but the following differences do exist between the behavior of the emulation and actual device We therefore urge you to perform an evaluation on the actual device as the final evaluation step before mass production It is your responsibility to ensure that the target system is suitable 4 2 1 Dropping of Trace Results by Trace Function The trace function may drop some trace results Although dropped information cannot be recovered it is possible to detect that the drop has occurred Drops may occur during successive and frequent CPU data accesses 4 2 2 Hardware Breaks in Internal RAM Area If a hardware break is set in the embedded RAM area the break occurs on a match with the low order address As shown in the example below the break may occur at an unintended location Example When a break is set at OXOFED_COOOH breaks will occur at the following addresses Ox01ED OxO3ED OxOSED OxOZED 0 09 OxOBED 0xODED_CO00H 4 2 3 Dropping of Traces When Power on Clear Circuit POC ls Reset When the POC causes a reset trace data from before the POC reset may be dropped 4 2 4 When High speed Internal Oscillator High speed IntOsc Is Stopped If a bre
11. between starting and ending the function This function and the trace function 1 3 4 Trace function program execution history can be used together to find the source that has taken time Forced break function This function is used to forcibly stop a program when it is desired to be stopped Trace full break function This function is used to stop a program when the trace memory is full RENESAS Page 14 of 45 QB V850E2FX4H PD 1 GENERAL 1 3 4 Trace function program execution history The trace function can be used to check the CPU execution history trace Items 1 to 7 can be recorded in the execution history 1 Program counter PC of branch source and branch destination The PCs of a branch source and a branch destination can be recorded in the history Consequently practically all executed programs can be checked because programs executed between branch points also will be clarified The amount of trace memory used can be saved and more history items can be traced by that amount by recording only branch information The amount of traces that can be traced back depends on the number of branches 2 Access data access address Access addresses for memories and peripheral I O registers and access data can be recorded in the history Read and write operations can also be recorded in the history Caution Accesses to CPU program registers such as r1 and r2 and system registers such as PSW and EIPC cannot be recorded in t
12. detection in combination This is similar to being able to observe a signal waveform by assuming an edge as a trigger when using an oscilloscope to observe a signal For example the program execution histories before and after a write access has been performed for a variable can be viewed 1 3 5 Time measurement function This function is used to measure the execution time of a specific section The measurement start and end points can be set by using the event function 1 3 6 Event function specific CPU operation detection In addition the maximum minimum and average execution time and the number by which the measurement section has been passed can be measured 1 3 6 Event function specific CPU operation detection The event function is used to detect specific fetch and access operations by observing the CPU bus cycle CPU operations such as of an address being executed and a variable are being accessed can be detected Such specific CPU operations are called events Use the event function together with the following functions e Hardware break function e Trace function e Time measurement function The events that can be registered by using the event function are as follows 1 Pre execution event A pre execution event is detected when execution of an address is attempted It can be used only with the hardware break function Four pre execution event points can be specified Detection conditions that can be specified Exec
13. 1 3 5 Time measurement function 0 esos 16 1 3 6 Event function specific CPU operation 1 16 1 3 7 Event link function event 5 17 1 3 8 Peripheral break 17 1 3 9 Mask function au soo esas e eu Rr RR c Ede rtt Rd Salma RS ER ey ES iani 17 1 4 System 1 2 sss epe ibi lukas eb sedate 18 1 5 Block vervieW uns a et cond Photos Ea 19 1 6 Package Contents Hessenin nagane E epa dnd URS 19 CHAPTER 2 NAMES AND FUNCTIONS OF 20 2 1 TTC eee eee 20 2 2 E950 ila Wiese pn escasos acis pacis gastos qoe 21 CHAPTER 3 SETUP PROCUDURE 2 2 23 3 1 Installation Of Software 018 24 3 2 Setting up POD and Connecting 1 850 24 3 2 1 Removing POD Cover 2222 94 sxia brua iW hb ia dd Ra bi bade SOS ends laki bias 24 3 2 2 Glock 24 3 2 3 Connection to 1E850 sities ecce mp a a kraj Ree ARE Re MARAE
14. 4 G 5 1 1 General This option product cannot be used by the Integrated Development Environment for RENESAS microcontrollers Sep 12 2014 mu Tool nickname is changed from IECUBE2 to IE850 C 1 QB V850E2FX4H PD User s Manual Publication Date Rev 4 00 Sep 16 2014 Published by Renesas Electronics Corporation 2 NCS AS SALES OFFICES Renesas Electronics Corporation http www renesas com Refer to http www renesas com for the latest and detailed information Renesas Electronics America Inc 2801 Scott Boulevard Santa Clara CA 95050 2549 U S A Tel 1 408 588 6000 Fax 1 408 588 6130 Renesas Electronics Canada Limited 1101 Nicholson Road Newmarket Ontario L3Y 9C3 Canada Tel 1 905 898 5441 Fax 1 905 898 3220 Renesas Electronics Europe Limited Dukes Meadow Millboard Road Bourne End Buckinghamshire SL8 5FH U K Tel 44 1628 585 100 Fax 44 1628 585 900 Renesas Electronics Europe GmbH Arcadiastrasse 10 40472 D sseldorf Germany Tel 49 211 6503 0 Fax 49 211 6503 1327 Renesas Electronics China Co Ltd Room 1709 Quantum Plaza No 27 ZhiChunLu Haidian District Beijing 100191 P R China Tel 86 10 8235 1155 Fax 86 10 8235 7679 Renesas Electronics Shanghai Co Ltd Unit 301 Tower A Central Towers 555 Langao Road Putuo District Shanghai P R China 200333 Tel 86 21 2226 0888 Fax 86 21 2226 0999 Renesas Electronics Hong Kong Limited Unit 1601 1613 16 F To
15. 50E2FX4H PD side 55V Debug chip Analog SW 1 Internal power for Emulator 2 When the target system is not connected the power is changed the internal power Figure A 3 Equivalent Circuit C R20UTO822EJ0400 Rev 4 00 Page 39 of 45 2014 09 16 RENESAS QB V850E2FX4H PD APPENDIX A CHARACTERISTICS OF TARGET INTERFACE Target system side QB V850E2FX4H PD side 55V Debug chip AOVDD AOVREFP Analog SW 1 Internal power for Emulator 2 When the target system is not connected the power is changed the internal power Figure A 4 Equivalent Circuit D Target system side QB V850E2FX4H PD side 5 5V Debug chip O A1VREFP O Analog SW 1 Internal power for Emulator 2 When the target system is not connected the power is changed the internal power Figure A 5 Equivalent Circuit E Target system side QB V850E2FX4H PD side CVDD Power supply detector Figure A 6 Equivalent Circuit F Target system side QB V850E2FX4H PD side Emulation circuit PTCTL1 1 O 1 The connection is different by support devices Refer to 4 1 20 Figure A 7 Equivalent Circuit G R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENESAS Page 40 of 45 QB V850E2FX4H PD Target system side APPENDIX A CHARACTERISTICS OF TARGET INTERFACE QB V850E2FX4H PD side Emulation circuit Target system side RESET Figure A 8 Equivalent Circuit H QB V850E2FX4H PD side EMVDD EMVDD Emulation circuit Ana
16. APTER 1 GENERAL The QB V850E2FX4H PD POD is used together with the QB V850E2 IE850 main unit in order to emulate the V850E2 Fx4 microcontroller The IE850 can be used to debug hardware and software efficiently when developing systems using the target device R20UT0822bEJ0400 Rev 4 00 2014 09 16 157mm POD This product IE850 main Figure 1 1 Description of external dimension RENESAS Page 9 of 45 QB V850E2FX4H PD 1 1 Hardware Specification 1 GENERAL The following table describes hardware specifications of POD Table 1 1 POD Hardware Specifications Target device V850E2 FG4 V850E2 FJ4 V850E2 FK4 V850E2 FL4 V850E2 FF4 M V850E2 FK4 G V850E2 FK4 H V850E2 FL4 H Target system interface REGxVDD FVDDO 3 3V or 5 0V voltage ExVDD BOVDD AxVDD AxVREFP MLBOVDD Maximum operating frequency Capability of main clock oscillator Low speed internal oscillator High speed internal oscillator 3 0V to 3 6V 160MHz 4 to 20MHz The oscillator on POD is used 240kHz typ 8MHz typ Operating temperature range 0 to 40 C No condensation Storage temperature range 15 to 60 C No condensation Note The other terminals are connected to the internal power of IE850 R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENESAS Page 10 of 45 QB V850E2FX4H PD 1 GENERAL 1 2 System Overview The system configuration is described as below POD can not be used alon
17. D 3 SETUP PROCUDURE 3 1 Installation of Software Tools Install the necessary software tools before setting up the hardware See the documentation of the software tools for installation instructions 3 2 Setting up POD and Connecting IE850 Set up the clock on POD and connect IE850 3 2 1 Removing POD Cover Remove the POD cover as shown below 3 2 2 Clock Settings The main oscillator clock is generated by the oscillator on the POD as shown in the figure below R20UT0822EJ0400 Rev 4 00 2014 09 16 Page 24 of 45 2 lt QB V850E2FX4H PD 3 SETUP PROCUDURE The POD ships with an oscillation frequency of 4 MHz To generate an oscillation clock with a frequency other than 4 MHz replace the parts on the clock socket as shown below Caution This product does not support clock input from an oscillator on the target system A 32 768 KHz sub oscillator clock is generated on the POD Solder the resonator and capacitors in place 1 2 Capacitor 4 6 Resonator 8 9 Capacitor 3 5 7pins are opened To remove the socket use a tool such as a precision screwdriver Additional information If the POD cover is screwed shut you can open the lid on the top of the POD as shown in the figure below to set the clock Clock setting can be done with opening the POD cover R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 25 of 45 QB V850E2FX4H PD 3 SETUP PROCUDURE 3 2 3 Connection to IE850 Connect I
18. E850 to POD as shown in the figure below IE850main After Connection The POD cover is closed at the end and completion Close the POD cover 3 3 Connection of System This section describes the connection of the system as a whole The following abbreviations are used for socket names EA Exchange Adapter EC Emulator Connector TC Target Connector SA Space Adapter MA Mount Adaptor R20UT0822EJ0400 4 00 Page 26 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 3 SETUP PROCUDURE 3 3 1 Connection of Target Connector TC This section describes the procedure for mounting the TC 1 Coat the tips of the four protrusions on the bottom of the TC with a two part epoxy adhesive hardening time of 30 minutes or more and fix the TC to the target system clean the surface of the target system with alcohol or other cleaner first If you have difficulty aligning the TC lead with the pad of the user board position the components in accordance with the instructions in 2 2 Push the positioning guide pin included with the TC NQGUIDE through the pin hole at the top of the TC and then positions it relative to the unit There are two or three 1 0 mm diameter non through component holes See the drawings for the individual TC for the hole locations 3 Solder the TC to the POD If there is a mount adapter MA solder the TC after attaching the MA This will prevent problems from flux solder or other ma
19. V850E2FX4H PD 3 SETUP PROCUDURE 3 4 Turn on IE850 Turn on IE850 At this time make sure that the target system is not on When the power is turned on the SYSTEM and POD LEDs turn on If these LEDs blink or remain off IE850 might be broken In this case contact an RENESAS Electronics sales representative or distributor Remark When the power is turned on for the first time Plug and Play starts and sets up the USB driver Continue setup according to the wizard Turnon switch N When the poweris turned on the SYSTEMand POD LEDs turn on 3 5 Turn on Target System Turn on the target system After the power is on the TARGET LED turns on If the LED remains off connectors might be connected poorly the emulation Pod cable might be broken or voltage might not be correctly applied to the power supply pins of the microcontroller such as VDD In this case contact an RENESAS Electronics sales representative or distributor After the power is on the TARGETLED turns on R20UTO822EJ0400 4 00 Page 31 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 3 SETUP PROCUDURE 3 6 Start the software tool After the above procedure the system starts up Start the software tool to perform debugging For details about debugging procedures see the document supplied with the software tool 3 7 Shut down procedure Shut down the system according to the procedure below Note that shutting down the system incorrectly might damage IE850
20. ak occurs while the high speed IntOsc is stopped the debugger may hang A reset must be performed in order to recover 4 2 5 Mask Function If Flash self programming is performed or a program is downloaded while resets are masked the debugger may hang Do not generate resets when performing these actions 4 2 6 During Breaks Do not generate a reset via a pin reset while the program is stopped during a break Doing so may cause the debugger to hang R20UT0822EJ0400 Rev 4 00 Page 36 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 5 OPTIONAL PRODUCT CHAPTER 5 OPTIONAL PRODUCT 5 1 LONG TERM TRACE OPTION This chapter explains an optional product QB V850E2 SP for extending the trace memory 5 1 1 General The QB V850E2 SP is a trace memory extension for IE850 This option product cannot be used by the Integrated Development Environment for RENESAS microcontrollers and it can be used by Integrated Development Environment Multi by U S Green Hills Software Please make sure the supported version of debugger software Figure 5 1 QB V850E2 SP R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 37 of 45 QB V850E2FX4H PD 5 OPTIONAL PRODUCT 5 1 2 SETUP PROCEDURE This section describes how to connect the QB V850E2 SP to the IE850 main 1 Remove the cover from the connector on the top side of the QB V850E2 SP module It might be necessary to loose the screw a little bit 2 Make sure that the IE850 is switched off and th
21. al shock if the product is used as described above in 1 Circumstances not covered by product guarantee e Please install without fail and use emulation POD cover How to Use This Manual Readers This manual is intended for users who wish to perform debugging using the QB V850E2FX4H PD generic name POD The readers of this manual are assumed to be familiar with the device functions and usage and to have knowledge of debuggers Purpose This manual is intended to give users an understanding of the basic specifications and correct usage of the POD Organization This manual is divided into the following sections General Names and functions of Hardware Setup procedure Notes Optional products How to Read This Manual It is assumed that the readers of this manual have general knowledge in the fields of electrical engineering logic circuits and microcontrollers This manual describes the basic setup procedures and how to set switches To understand the overall functions and usages of the IE850 Read this manual in the order of the CONTENTS To know the manipulations command functions and other software related settings of the IE850 See the user s manual of the debugger to be used Conventions Note Caution Remark Numeric representation Prefix indicating power of 2 address space memory capacity Footnote for item marked with Note in the text Information requiring particular attention Supp
22. chip Debugging The on chip debugging function is not available in emulations 4 1 4 Downloaded Programs User programs are downloaded to the Flash memory of a debugging chip mounted on POD the program is generally saved when the power is turned off In order to run the program successfully however you should always download the program before starting debugging 4 1 5 Power Save Mode When a break occurs HALT mode STOP mode and DEEPSTOP mode are all cleared STOP mode and DEEPSTOP mode may also be cleared during program execution when the following operations are performed 1 When the trace function emits a full stop or delay stop 2 When the settings of an event are changed during program execution 3 When the real time RAM monitoring function is used R20UT0822EJ0400 Rev 4 00 Page 33 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 4 NOTES 4 1 6 Oscillator The emulator does not support clock input from an oscillator on the target system The oscillator runs on POD For this reason the operation clock frequency may differ depending on whether the system is implemented on the target device or connected to the emulator 4 1 7 Current Consumption The current consumption of the emulator differs from that of the actual device 4 1 8 Pin Characteristics and Pin States Unlike when the target system is implemented on the target device the emulator acts as an intermediary between the connectors adapters and circuit board For th
23. e IE850 AC adapter and sockets are needed to use These are sold separately R B USB Cable Host Machine IE850 main IE850 Sold separately POD This Product d Space Adapter Exchange Adapter height adjustment Sold Separately sold separately AC Adapter AC Adapter Sold separately for each country Refer to UM for IE850 main Emulator Connector gt Sold Separately Mount Adapter mounting target device sold separately Sockets Target Gonhector Refer to following table Sold Separately Target System Figure 1 2 System Configuration R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 11 of 45 QB V850E2FX4H PD The following table describes the corresponding sockets for the target device Socket Exchange Adapter Table 1 2 Sockets for the target device Target Device 1 GENERAL V850E2 FG4 QB 100GC EA 60T V850E2 FJ4 QB 144GJ EA 62T V850E2 FK4 QB 176GM EA 61T Emulator Connector QB 100GC YQ 01T QB 144GJ YQ 01T QB 176GM YQ 01T Target Connector QB 100GC NQ 01T QB 144GJ NQ 01T QB 176GM NQ 01T Space Adapter QB 100GC YS 01T QB 144GJ YS 01T QB 176GM YS 01T Mount Adapter Socket Exchange Adapter QB 100GC HQ 01T QB 144GJ HQ 01T Target Device QB 176GM HQ 01T V850E2 FF4 M QB 80GK EA 60T V850E2 FK4 H QB 176GM EA 62T V850E2 FK4 G QB 176GM EA 61T Emu
24. e USB cable and power supply adapter is not connected to the IE850 main module Then Remove the cover on the bottom side of the IE850 main module 3 Mount the IE850 main module on the QB V850E2 SP as shown in the picture Now connect the USB cable and power supply adapter to the IE850 and turn the IE850 on IE850 detects trace memory extension automatically when QB V850E2 SP is connected Configuration in hardware or debugger software is not necessary Please set the capacity of the trace memory with the software tool R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 38 of 45 QB V850E2FX4H PD APPENDIX A CHARACTERISTICS OF TARGET INTERFACE APPENDIX A CHARACTERISTICS OF TARGET INTERFACE The target interface signals connecting the in circuit emulator and target system operate in terms of function as if an actual device were connected The characteristics however may be different from those of the actual device Target system side QB V850E2FX4H PD side PO P1 P2 P3 P4 P10 P11 P12 P13 Debug chip P21 P24 P25 P27 JPo ADCAO VCPCOIN VCPC1IN Figure A 1 Equivalent Circuit A Target system side QB V850E2FX4H PD side 5 5V EMVDD 1 Debug chip REGOVDD REG1VDD FVDD OSCVDD Power suppl EOVDD PPly E1VDD detector 1 Internal power for Emulator 2 When the target system is not connected the power is changed the internal power Figure A 2 Equivalent Circuit B Target system side QB V8
25. er certain use conditions Further Renesas Electronics products are not subject to radiation resistance design Please be sure to implement safety measures to guard them against the possibility of physical injury and injury or damage caused by fire in the event of the failure of a Renesas Electronics product such as safety design for hardware and software including but not limited to redundancy fire control and malfunction prevention appropriate treatment for aging degradation or any other appropriate measures Because the evaluation of microcomputer software alone is very difficult please evaluate the safety of the final products or systems manufactured by you Please contact a Renesas Electronics sales office for details as to environmental matters such as the environmental compatibility of each Renesas Electronics product Please use Renesas Electronics products in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances including without limitation the EU RoHS Directive Renesas Electronics assumes no liability for damages or losses occurring as a result of your noncompliance with applicable laws and regulations Renesas Electronics products and technology may not be used for or incorporated into any products or systems whose manufacture use or sale is prohibited under any applicable domestic or foreign laws or regulations You should not use Renesas Electronics products or technology descr
26. ety equipment etc Renesas Electronics products are neither intended nor authorized for use in products or systems that may pose a direct threat to human life or bodily injury artificial life support devices or systems surgical implantations etc or may cause serious property damages nuclear reactor control systems military equipment etc You must check the quality grade of each Renesas Electronics product before using it in a particular application You may not use any Renesas Electronics product for any application for which it is not intended Renesas Electronics shall not be in any way liable for any damages or losses incurred by you or third parties arising from the use of any Renesas Electronics product for which the product is not intended by Renesas Electronics You should use the Renesas Electronics products described in this document within the range specified by Renesas Electronics especially with respect to the maximum rating operating supply voltage range movement power voltage range heat radiation characteristics installation and other product characteristics Renesas Electronics shall have no liability for malfunctions or damages arising out of the use of Renesas Electronics products beyond such specified ranges Although Renesas Electronics endeavors to improve the quality and reliability of its products semiconductor products have specific characteristics such as the occurrence of failure at a certain rate and malfunctions und
27. for Handling This Product Circumstances not covered by product guarantee e f the product was disassembled altered or repaired by the customer e lf it was dropped broken or given another strong shock e Use at overvoltage use outside guaranteed temperature range storing outside guaranteed temperature range e f power was turned on while the AC adapter USB interface cable or connection to the target System was in an unsatisfactory state e lf the cable of the AC adapter the USB interface cable the POD probe or the like was bent or pulled excessively e When using an AC adapter not supported in the region of use f the product got wet e If this product is connected to the target system when there is a potential difference between the GND of this product and GND of the target system e If the connectors or cables are plugged unplugged while this product is in the power on state e f excessive load is applied to the connectors or sockets e metal part of the power switch cooling fan or another such part comes in contact with an electrostatic charge e If the product is used or stored in an environment where it may likely be exposed to electrostatic discharge or electrical noise Safety precautions e f used for a long time the product may become hot 50 to 60 C Be careful of low temperature burns and other dangers due to the product becoming hot e Be careful of electrical shock There is a danger of electric
28. gers WUFMSKHO WUFMSKHO15 When setting only 1501 to power save mode clear the wake up triggers WUPMSKH1 WUPMSKH115 before setting power save mode 4 1 13 The specification of power supply emulation REGOVDD REG1VDD EOVDD E1VDD FVDD and OSCVDD are connected to the same power domain on the emulator system 4 1 14 The specification of AOVREFP emulation AOVREFP is connected to AOVDD on the emulator system 4 1 15 The specification of A1VREFP emulation A1VREFP is connected to A1VDD on the emulator system 4 1 16 The specification of VSS emulation The following VSS are connected to the common GND on the emulation POD CVSS 0 55 1 55 0 55 OSCVSS REGOVSS REG1VSS REG2VSS REG3VSS 0 55 A1VSS 4 1 17 The specification of AOVREFM emulation AOVREFM is connected to the common GND on the emulation POD 4 1 18 The specification of A1VREFM emulation A1VREFM is connected to the common GND on the emulation POD 4 1 19 The caution about internal power supply emulation 1500 1501 power supplies are not turned off with ICE mode during Deep Stop Mode and Terminal reset 4 1 20 The specification of PTCTL1 emulation The PTCTL1 pin is not emulated In case of V850E2 FL4 FK4 FJ4 FG4 FK4 G FF4 M M2 product This pin is connected with the GPIO pin same asM1 product it is an unspecified value In case of V850E2 FK4 H FL4 H product This pin is open R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 35 of 45 QB
29. he history 3 Time stamp The time elapsed from the trace start point can be added to each trace information The timer performance for time stamps is the same as that of the time measurement function 1 3 5 Time measurement function 4 DMA access address data status channel number transfer count When the DMA function of the target microcontroller is being used the DMA access can be recorded in the history Access address Access data Access status RAW DMA channel number Transfer count 5 History of specific sections section trace Only specific sections can be recorded in the history by using the event function 1 3 6 Event function specific CPU operation detection in combination For example the execution history of from the start to the end of a function can be recorded 6 History of specific phenomenon occurred qualify trace Only the occurrence of specific phenomena can be recorded in the history by using the event function 1 3 6 Event function specific CPU operation detection in combination For example a history of having accessed to only a variable can be recorded R20UTO0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 15 of 45 QB V850E2FX4H PD 1 GENERAL 7 Recording histories before and after specific phenomenon has occurred delay trigger trace The history after a specific phenomenon has occurred can be recorded by using the event function 1 3 6 Event function specific CPU operation
30. ibed in this document for any purpose relating to military applications or use by the military including but not limited to the development of weapons of mass destruction When exporting the Renesas Electronics products or technology described in this document you should comply with the applicable export control laws and regulations and follow the procedures required by such laws and regulations It is the responsibility of the buyer or distributor of Renesas Electronics products who distributes disposes of or otherwise places the product with a third party to notify such third party in advance of the contents and conditions set forth in this document Renesas Electronics assumes no responsibility for any losses incurred by you or third parties as a result of unauthorized use of Renesas Electronics products This document may not be reproduced or duplicated in any form in whole or in part without prior written consent of Renesas Electronics Please contact a Renesas Electronics sales office if you have any questions regarding the information contained in this document or Renesas Electronics products or if you have any other inquiries Note 1 Renesas Electronics as used in this document means Renesas Electronics Corporation and also includes its majority owned subsidiaries Note 2 Renesas Electronics product s means any product developed or manufactured by or for Renesas Electronics 2012 4 General Precautions
31. inning through end of program execution Start event through end event 1 section Approximately 1 minutes When CPU clock is 80 2 Minimum resolution Measurement results Depends on CPU clock Execution time Start through end of execution Maximum minimum average pass count between events Other Timer overflow break function 1 point Other functions R20UT0822EJ0400 Rev 4 00 2014 09 16 RTENESAS Peripheral break function mask function RESET internal reset Page 18 of 45 QB V850E2FX4H PD 1 GENERAL 1 5 Block Overview An internal block overview of the functions is described as below IE850 main POD System Control signals Signals for debug chip of target include trace device information Oscillator via sockets via cable of IE850 Figure 1 3 Internal Block Overview 1 6 Package Contents QB V850E2FX4H PD package includes the items below The list contains only items which are delivered commonly to all regions and that depending on region more items may be available Therefore confirm that the items in the attached packing list Products supplied with QB V850E2FX4H PD POD Table of Toxic and Hazardous Substance and Elements R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENES Page 19 of 45 QB V850E2FX4H PD 2 NAMES AND FUNCTIONS OF HARDWARE CHAPTER 2 NAMES AND FUNCTIONS OF HARDWARE The following shows the names of POD and IE850 hardware units and their features
32. is reason the pin characteristics are slightly different Note that the conversions results of the A D converter are particularly susceptible to impact from this The table below shows the differences in pin states from when the actual device is used Please take note of these differences State when IE850 is used Connection of target system and POD High level during external reset input Connected Connection of 4 7uF capacitor on POD Not connected Connection to IE850 internal power Not connected 4 1 9 PWGD Pin When the PWGD pin is not used lock it to H Even if option byte PWGDEN is 0 the PWGD pin is treated as at all times when not in use 4 1 10 Reset Period of Power on Clear Circuit POC When the POC causes a reset the internal registers on the debugging chip are re set which causes the reset period to be slightly longer than on the actual device 4 1 11 ECC Errors When a program is downloaded and executed IE850 uses Flash self programming and it initializes the internal RAM area to that an ECC error does not occur For this reason ECC errors cannot be emulated after downloading a program R20UTO822EJ0400 Rev 4 00 Page 34 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 4 NOTES 4 1 12 Standby Mode Settings When setting isolated area 0 1500 to power save mode mask all wake up triggers if Isolated area 1 Iso1 WUFMSKL1 WUFMSKM1 WUFMSKH1 are masked and then mask the 1500 wake up trig
33. lator Connector QB 80GK YQ 01T QB 176GM YQ 01T QB 176GM YQ 01T Target Connector QB 80GK NQ 01T QB 176GM NQ 01T QB 176GM NQ 01T Space Adapter QB 80GK YS 01T QB 176GM YS 01T QB 176GM YS 01T Mount Adapter Socket Exchange Adapter QB 80GK HQ 01T QB 176GM HQ 01T QB 176GM HQ 01T Target Device V850E2 FL4 V850E2 FL4 H Package P272F1 QB 272F1 EA 60T Package P FQFP208 QB 208GD EA 61T Package P272F1 QB 272F1 EA 61T Package P FQFP208 QB 208GD EA 62T Emulator Connector QB 208GD YQ 01T QB 208GD YQ 01T Target Connector QB 272F1 NQ 01T QB 208GD NQ 01T QB 272F1 NQ 01T QB 208GD NQ 01T Space Adapter QB 208GD YS 01T QB 208GD YS 01T Mount Adapter QB 208GD HQ 02T QB 208GD HQ 02T R20UT0822bEJ0400 Rev 4 00 2014 09 16 RTENESAS Page 12 of 45 QB V850E2FX4H PD 1 GENERAL 1 3 Functional Overview IE850 is provided with a wealth of debug functions to enable efficient program debugging in addition to being used to emulate the operation of a target device An overview of the functions is provided in this section Some functions are not supported depending on the debugger to be used See also the manual of the debugger to be used to confirm 1 3 1 Program execution function real time execution function The program execution function enables program execution equivalent to that of the target device
34. lementary information Binary xxxx or xxxxB Decimal xxxx Hexadecimal xxxxH kilo 2 1 024 M mega 22 1 024 Terminology The meanings of the terms used in this manual are described in the table below Target device This is the device to be emulated Target system This is the system to be debugged system provided by the user This includes the target program and the hardware provided by the user IE8509 Generic name for Renesas Electronics high performance compact in circuit emulator POD This is IE850 peripheral to interface with the target system Emulator This is the product to emulate the target device QB V850E2FX4H PD Contents Contents CHAPTER 1 GENERAL 12 2 2 iis tas MERI SEA AAA RA ER eda A E RM AERE 9 1 1 Hardware Specification esus siesto das si i swan besta is bukia su TT ou gad Rogue PENNE s 10 1 2 System UVervleW 1 1224 riuj bee obusi eR eri edad ie dh bed bd dined 11 1 3 Functional Verlierer Regem Keegan pgs Up Kupra 13 1 3 1 Program execution function real time execution 13 1 3 2 Step execution function non real time execution 13 1 3 3 Break functions program execution 13 1 3 4 Trace function program execution 15
35. log SW 1 Internal power for Emulator Refer to Figure 2 91KQ 2 Target system is connected OPEN Target system is not connected Pull down Figure A 9 Equivalent Circuit I Target system side QB V850E2FX4H PD side CVSS EOVSS E1VSS BOVSS OSCVSS REGOVSS REG1VSS REG2VSS REG3VSS AOVSS A1VSS AOVREFM A1VREFM Target syste Figure A 10 Equivalent Circuit J m side QB V850E2FX4H PD side X1 X2 O OPEN XT1 XT2 REGOC REG1C REG2C REGS3C REG2VDD REG3VDD IC R20UT0822EJ0400 Rev 4 00 2014 09 16 Figure A 11 Equivalent Circuit K RENESAS Page 41 of 45 Revision History REVISION HISTORY QB V850E2FX4H PD In circuit Emulator User s Manual Rev Date Description Page Summary 12 2011 First Edition issued 200 Mar 15 2012 Delete V850E2 FE4 M and V850E2 FG4 M Mar 15 2012 1 1 Hardware Specification Table1 1 Delete V850E2 FE4 M and V850E2 FG4 M for target device Table1 2 Delete V850E2 FE4 M and V850E2 FG4 M for target device Mar 15 2012 11 1 2 System Overview Table1 2 Change device package of V850E2 FL4 and V850E2 FL4 H P292F1 P272F1 May 30 2012 4 Notes 4 1 13 4 1 19 is added 4 1 8 is changed May 30 2012 39 41 Add APPENDIX A CHARACTERISTICS OF TARGET INTERFACE Jan 8 2013 EMT o e 1 Hardware FF rp MEME Table1 1 Add V850E2 FK4 G FF rp MEME device Table1 2 Add V850E2 FK4 G for target device Add V850E2 FK
36. ly In this case IE850 might be broken POD This LED turns on when communication with the emulation POD is established TARGET This LED turns on when the target system is turned on 4 POD cable This coaxial cable is used to connect the IE850 main unit and emulation POD The cable length is shown below Be careful notto excessively bend this cable because doing so might break the cable 5 Power connector This connector is for the power supply cable 6 Power switch This switch turns the power on and off Press the side to turn on the power or the O side to turn off the power 7 USB connector This connector is for a USB cable 8 Cooling fan This fan cools down the IE850 internal units Be careful not to obstruct the vents R20UT0822bEJ0400 Rev 4 00 2014 09 16 2 lt Page 22 of 45 QB V850E2FX4H PD 3 SETUP PROCUDURE CHAPTER 3 SETUP PROCUDURE This chapter explains the IE850 and the POD setup procedure Setup can be completed by performing installation setup in the order in which it appears in this chapter Perform setup along the lines of the following procedure To shut down the system refer to 3 7 Shut Down Procedure 1 Installation of Software tools 2 Setting up POD and Connecting IE850 3 Connection of System 4 Turn on IE850 5 Turn on Target system 6 Start the software tools R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENESAS Page 23 of 45 QB V850E2FX4H P
37. m Wiring is not permitted in the area of the screw heads 3 8 4 3 mm diam When pulling out or pressing in the EC do not twist or wiggle the EC as this could cause the EC s pins to bend or fall out Instead use a flat head screwdriver to pry off the EC from each of the four sides a little at a time Before connecting the EC and SA first screw together the TC and EC with the YQGUIDE included with EC using a flat head screwdriver Lock the torque at 0 054 Nm MAX If only one screw is too tight then it could cause a bad contact Do not clean with solvents as residue of the cleaning solution could remain in the contact Do not mount a combined TC and EC on a microcontroller Use the MA to do so Do not use sockets in environments subject to shocks or vibration R20UT0822EJ0400 Rev 4 00 2014 09 16 RENESAS Page 29 of 45 QB V850E2FX4H PD 3 SETUP PROCUDURE 3 3 5 Connecting Pod and Target System Connect the emulation Pod to the exchange adapter Be careful not to excessively bend the emulation Pod cable IE850main Pod gt Exchange adapter 3 3 6 Connecting USB cable AC adapter Connect the USB cable and power supply adapter as shown below At this time make sure that IE850 is not on Host machine ie USB cable o gw c E IE850main AC adapter Connect to AC adapter 8 20070822 0400 Rev 4 00 2014 09 16 RENESAS Page 30 of 45 QB
38. on 4 points only for break function Post execution 8 points 6 points Pass counter 12 bits Sequential 4 steps Modification when running Hardware break Available Available Software break Available Depends on debugger Other Trace data types Trace full break forced break timer overflow break delay trigger break Branch source PC branch destination PC access data access address R W status time stamp DMA access data DMA access address DMA R W status DMA transfer count DMA channel number Trace events Delay trigger section qualify Memory capacity 9M bytes 512K frames 2 25G bytes Approx 128M frames When using the long term trace option Other Trace full stop delay trigger stop Time measurement functions IE850 main supports Measurement clock 200 MHz Measurement objects Beginning through end of program execution Start event through end event 6 sections Maximum measurement time Minimum resolution Approximately 195 hours When using measurement dedicated clock divided by 16384 5 ns Measurement results Execution time Start through end of execution Maximum minimum average pass count between events Other Timer overflow break function 1 point Time measurement functions Debug chip supports Measurement clock CPU clock Measurement objects Maximum measurement time Beg
39. r values because the CPU operates even during a break while the program is stopped Interrupts generated during the break are suspended because basically peripheral functions also operate during the break Use the peripheral break function 1 3 8 Peripheral break function to stop peripheral functions during the break R20UTO822EJ0400 Rev 4 00 Page 13 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 1 GENERAL 1 R20UT0822EJ0400 Rev 4 00 2014 09 16 Hardware break function The hardware break function is used to observe the CPU bus cycles and set a break for a specific fetch or access operation For example a break can be set by detecting a state where an address has been executed or a variable has been accessed For states that can be set see 1 3 6 Event function specific CPU operation detection Caution The address for which a break has been set is at a position ahead of the address where an actual access has occurred because the break set for the access write read is detected at an MEM stage or a WB stage on the CPU pipeline Software break function The software break function is used to set a break when a specific address has been executed fetched Timer overflow break function This function is used to set a break when a time set by using the time measurement function 1 3 5 Time measurement function has elapsed For example if the execution time of a function must be 2 ms a break can be set when at least 2 ms have elapsed
40. terial spattering and adhering to the TC s contact pins during soldering e Soldering conditions Reflow 260 degrees x 10 seconds or less Manual 350 degrees x 5 seconds or less 1 pin Caution Do not clean off flux by immersion steaming etc 4 If you used a guide pin or MA remove it R20UT0822EJ0400 Rev 4 00 Page 27 of 45 2014 09 16 RENESAS QB V850E2FX4H PD 3 SETUP PROCUDURE 332 Connection of Emulator Connector EC This section describes the procedure for connecting the emulator connector EC 1 Make sure that the EC s connector pins are not bent or broken then connect the EC to the TC and lock it in place with the included YQGUIDE see 2 for instructions on locking the EC in place If you will be connecting and disconnecting the EC repeatedly be sure to inspect the EC connector pins before connection If a pin is bent straighten it with a knife blade or other thin flat object 2 Lock the EC to the TC on the target system using the included YQGUIDE When doing so use the included flat head screwdriver or a torque wrench to tighten each of the four corners evenly in turn The tightening torque for the YQGUIDE is 0 054 Nm MAX If it is too tight it could cause a bad connection 4 4 YQGUuIDE mm ss IU Target System R20UT0822EJ0400 Rev 4 00 Page 28 of 45 2014 09 16
41. u resulting from errors in or omissions from the information included herein Renesas Electronics does not assume any liability for infringement of patents copyrights or other intellectual property rights of third parties by or arising from the use of Renesas Electronics products or technical information described in this document No license express implied or otherwise is granted hereby under any patents copyrights or other intellectual property rights of Renesas Electronics or others You should not alter modify copy or otherwise misappropriate any Renesas Electronics product whether in whole or in part Renesas Electronics assumes no responsibility for any losses incurred by you or third parties arising from such alteration modification copy or otherwise misappropriation of Renesas Electronics product Renesas Electronics products are classified according to the following two quality grades Standard and High Quality The recommended applications for each Renesas Electronics product depends on the product s quality grade as indicated below Standard Computers office equipment communications equipment test and measurement equipment audio and visual equipment home electronic appliances machine tools personal electronic equipment and industrial robots etc High Quality Transportation equipment automobiles trains ships etc traffic control systems anti disaster systems anti crime systems and saf
42. ution address 2 Post execution event A post execution event is detected when an address has been executed The address of a post execution event can be specified as a range Up to eight post execution event points can be specified but if the execution address has been specified as a range two points will be consumed When the execution address has been specified as a range for all events four event points can be specified Detection conditions that can be specified Execution address can be specified as a range R20UT0822bEJ0400 Rev 4 00 2014 09 16 RENES Page 16 of 45 QB V850E2FX4H PD 1 GENERAL 3 Access event An access event is detected when an address has been accessed read or written The following detection conditions can be specified for an access event Up to six accesses event points can be specified but if the access address has been specified as a range two points will be consumed When the access address has been specified as a range for all events three event points can be specified Detection conditions that can be specified Access address can be specified as a range Access data Access size Access status read write both read and write 1 3 7 Event link function event combinations The event link function is used to combine into one event events that have been registered by using the event function 1 3 6 Event function specific CPU operation detection li is used to detect a specific
43. wer 2 Grand Century Place 193 Prince Edward Road West Mongkok Kowloon Hong Kong Tel 852 2265 6688 Fax 852 2886 9022 9044 Renesas Electronics Taiwan Co Ltd 13F No 363 Fu Shing North Road Taipei 10543 Taiwan Tel 886 2 8175 9600 Fax 886 2 8175 9670 Renesas Electronics Singapore Pte Ltd 80 Bendemeer Road Unit 06 02 Hyflux Innovation Centre Singapore 339949 Tel 65 6213 0200 Fax 65 6213 0300 Renesas Electronics Malaysia Sdn Bhd Unit 906 Block Menara Amcorp Amcorp Trade Centre 18 Jin Persiaran Barat 46050 Petaling Jaya Selangor Darul Ehsan Malaysia Tel 60 3 7955 9390 Fax 60 3 7955 9510 Renesas Electronics Korea Co Ltd 12F 234 Teheran ro Gangnam Ku Seoul 135 920 Korea Tel 82 2 558 3737 Fax 82 2 558 5141 2014 Renesas Electronics Corporation and Renesas Solutions Corp Colophon 3 0 QB V850E2FX4H PD 2 NC SAS Renesas Electronics Corporation R20UT0822EJ0400
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