Renesas M16C/6V User's Manual
Contents
1. E s AE io ti M A veco s Al FAZ 70 y VCCI gt S T A Pso s M nl pal 35 52 eae aera so P82 J5 53 H A e ag P83 35 54 H A BM B 35 55 Mi AS E L G J5 56 U AJO T L R 7 J5 57 ag Mo PSI Mu J5 58 N A12 P70 aa J5 59 po 971 ur 35 60 N D a7 DO 972 an 5 25 D DI P73 5 24 N D D2 PIA EH 35 23 STOM Di ra pi s P76 S D a Ds en PLL 5 20 N D DS our N D LJ p om 2 45 18 ps om paz gal a P82 R mM Bt M306V0 pas M CAU s 7 DIZ D D13 P Comer HE 1 0 EMULATE ar N D5 Pot SL 35 3 Ml SE paz ki Na SR OBE 1034 psa Hi UU s so 3 MI P34 J5 1 s LK co s HEL o RESET P10 EL 35 42 ab S plot Pia 54 BCL P102 P192 35 45 s A A CSP P103 103 35 46 BUE 8 gm P104 PIA 35 47 A E P105 2 35 48 ENSS P108 prag 4 13 XOUT 13 P107 4 12 s ROUT 20 1 S i di 42 IU Eo DMA DM 59 6 Do K TE L s NL A NTI c50 D T 3 o RODAT osci s Han Sl RL s MUIN S2 HN Jado o 7 7 he T ass N OSDOE 0502 aw TH HF 3 J5 15 5 14 5 36 45 38 HOLD 35 39 K 35 41 cas CWN IF Klin Je O1uF avec lt ACC 610 ASS lt lt AS 5 43 TVSET vaa Ur A vssi Control signal Figure B 1 Connection diagram of the M306VOT RPD E 1 2 45 48 pra yn EPI e sa Bri2. 1 U jo i t 1 L ES A i 1 1 1 T 1 1 1 1 1 lo t 1 1 1 Jo al 1 bd AD ALI Ah ALE A0 i LA y E6 I 1 pora 1 1 Ai l A 1 1 Wt l oil l i i EEN E Dai iY cun R a ee ca f 1 i I 11 dds RD AD 1 1 be lo i 1 1 1 a mt LL WA TT i E Al rou T roid 1 MBA a ye td AD RD y 1 pora i AR BCLAD y O i 5 el i l i i i l mE 1 HE l l 1d BCLK ALE thi BCLK ALE I 1 I 1 1 1 U l Write timing 1 i 1 1 1 1 l 1 1 1 1 td BCLK CS teye 1 1 AA ho O th we s p 1 1 l pa 1 gt i Si 1 bod 1 y 1 i 1 1 bod 1 1 poa 1 1 1 1 N Lo 1 1 LS ZA odk BCLK Da 1 O i pon i 1 1 1 i Ll 1 1 Mi y Th T T TV Di yy ECO AU ETS pol oy pon 1 N UA 1 i 1 i i 1 LC f ti 0 ALB mid 1 H pi Lo th RN 1 1 Ad BCLK A i a y AR BCER AD i N Z i S i i i gt i Koj rot 1 Lo 1 AA BCLK ALE 1 AW BCLK ALE OU Ld AD WR E us S i ZE i i pogo kma i a i li 1 t p ALE a i A Li _ A TT T 1 i f l u BCLK 4R i y bhi BCLK WR 1 EE 5 1 A l i ol L WR JE ME E WRH i i i 1 1 1 i i i Measurement Condition Vcc 5V e Input timing voltage Vi 0 8 V Vin 2 5 V e Output timing voltage Vo 0 8 V Von 2 0 V Figure 7 3 Memory expansion mode and microprocessor mode multiplex bus with wait 36 48 7 4 Timing Reguirements Table 7 4 and Figur
3. Inadeguate user s system or misuse of it Fires earthguakes and other unexpected disasters In the above cases contact your local distributor If your product is being leased consult the leasing company or the owner 9 3 Repair Provisions 1 Repair with extra charge The products elapsed more than one year after purchase can be repaired with extra charge 2 Replacement with extra charge If your product s fault falls in any of the following categories the fault will be corrected by replacing the entire product instead of repair or you will be advised to purchase new one depending on the severity of the fault Faulty or broken mechanical portions Flaw separation or rust in coated or plated portions Flaw or cracks in plastic portions Faults or breakage caused by improper use or unauthorized repair or modification Heavily damaged electric circuits due to overvoltage overcurrent or shorting of power supply Cracks in the printed circuit board or burnt down patterns Wide range of faults that makes replacement less expensive than repair Unlocatable or unidentified faults 3 Expiration of the repair period When a period of one year elapses after the model was dropped from production repairing products of the model may become impossible 4 Transportation fees at sending your product for repair Please send your product to us for repair at your expense 40 48 9 4 How to Reguest for Repair If your product
4. Rev 1 00 October 16 2003 REJ10J0380 0100Z ENESAS M306VOT RPD E Emulation Pod for M16C 6V Group M306V0 User s Manual Renesas Technology Www renesas conm IBM and PC AT are registered trademarks of International Business Machines Corporation Keep safety first in your circuit designs Renesas Technology Corporation and Renesas Solutions Corporation put the maximum effort into making semiconductor products better and more reliable but there is always the possibility that trouble may occur with them Trouble with semiconductors may lead to personal injury fire or property damage Remember to give due consideration to safety when making your circuit designs with appropriate measures such as i placement of substitutive auxiliary circuits ii use of nonflammable material or iii prevention against any malfunction or mishap Notes regarding these materials These materials are intended as a reference to assist our customers in the selection of the Renesas Technology product best suited to the customer s application they do not convey any license under any intellectual property rights or any other rights belonging to Renesas Technology Corporation Renesas Solutions Corporation or a third party Renesas Technology Corporation and Renesas Solutions Corporation assume no responsibility for any damage or infringement of any third party s rights originating in the use of any product data diagrams charts programs algorithms
5. IT IT Jn IM A Tr A 1 sko 1 7 8 LC E ai z Hi ai 7 4 a Y D a H U a 3 z E Bo gt S S 2 No o Me R LS SAF 2A Y Ss 48 a3 F El S s 8 Em 7 i e A dn sgl Si z zi ti 3 1 E T 4 24 8 a z sts a L Ei 8 3 H 5 ne e z l s S z 2 t 2 SH a8 pal E 3 E RA 3 3 a ut 3 o ym 2 3 z Z a o Ln gt lt 2A IE Sa gt 2 A a eal 2 s t gt H H _ ze kadi b se krati em RG asi Ka js SN EA SR siel ynn al A A AA H 1 moe E PS A TE A A A E HEFY H L H H L H 3 1 BCLK B ADi TE ALE D DB BCLK TT Mi TE ALE CS VRH DB Write timing Input timing voltage Vi 0 8 V Vin 2 5 V e Output timing voltage Vor 0 8 V Von 2 0 V Measurement Condition x NGC lt 5 V 31 48 Figure 7 1 Memory expansion mode and microprocessor mode separate bus no wait 7 2 Separate Bus with wait When Accessing to External Memory Area Table 7 2 and Figure 7 2 show bus timing when using the memory expansion mode and micropro cessor mode with wait when accessing to the external memory area Table 7 2 Memory expansion mode and microprocessor mode separate bus with wait td BCLK AD Parameter Address output delay time M306VOEEFP ns M306VOT RPD E ns Max Max th BCLK AD Address output hold time BCLK th RD AD Address output hold time RD th WR AD Address output hold tim
6. page 19 3 After setting the switches replace the cover by reversing the procedure for its removal 1 Replace the M306VOT RPD E cover 2 Replace the screws two on each side holding the M306VOT RPD E cover in place 4 6 Procedure for Writing MCU File You may need to change the contents of the MCU file depending on the MCU being developed The MCU file is in the same directory as the emulator debugger The file name is M30620 MCU for the M16C 6V group MCUs The MCU file contains the following information SFR area internal RAM area internal ROM area and firmware filename Set these according to the MCU being developed Use your editor to edit the MCU file 0 SFR area starting address 3FF SFR area ending address 2C00 Internal RAM starting address 3FFF Internal RAM ending address F0000 Internal ROM starting address FFFFFInternal ROM ending address M30620B Firmware filename Do not edit 25 48 Chapter 5 Method of Connection 5 1 Connecting Emulator Main Unit Use the FLX120 RPD 120 pin flexible cable to connect the emulator main unit and M306VOT RPD E Figure 5 1 shows how to connect the emulator main unit and FLX120 RPD Emulator main unit FLX120 RPD CN4 connector be Z ee FHDUDHTH TH HU T L FF H LLORIA FU FU lt 5 oa rw lt gt yy Figure 5 1 Connecting emulator main unit and FLX120 RPD 26 48 Connect FLX120 RPD with M306VOT RPD E Figure 5 2 shows
7. MS o gt T ws Es mS t 73 0 5 SAO T bay A Aa zi EP13 xa YDD L xe 4 8 L als xe GA i we xo OB 4 10 CA oc weit ce oa UR cc A cO GND 74HC4086FS FEF em EP27 1 4 14 MAL 7 t PS T Nae 2 PH AS usa En ul a k so ce L ARTO ws L 10 48 L ca 0 LA CTE Jst k 4 45 QFITS ss sei pn IPN T LE Y l 4 44 M 54 En Y da A v ear ese Jen NE Sw PORT 4 5 oso lt gt PC s gt Bu gt PS H TS T QS EP52 a s EPSO Paz P 4 17 SA 4 18 lt ET gt a lt o RH 1M ERES ET 32H ERESETS N BYTE PMT U T BYTE IST Y 15 lt r CNVSS k RX lt ACTAS EXNX k BONY INRECHI EL SW CNVSS 26 10K C320 sw E exouT 15 gt 5 5 s ot por gt sn TAV RO NA vv Figure B 2 Connection diagram of the M306VOT RPD E 2 2 46 48 M306VOT RPD E User s Manual Rev 1 00 October 16 2003 REJ10J0380 0100Z COPYRIGHT 2003 RENESAS TECHNOLOGY CORPORATION AND RENESAS SOLUTIONS CORPORATION ALL RIGHTS RESERVED ENESAS Renesas Technology Corp 2 6 2 Ote machi Chiyoda ku Tokyo 100 0004 Japan
8. breaks for areas for which the MAP setting is EXTERNAL 3 Using multiplex bus with the PC4701L emulator You can only use Fetch as a hardware break condition for the multiplex bus area 4 Using address match interrupts a Do not set a software break at the same address as you have set an address match interrupt b Do not set a hardware break within the 4 bytes leading up to the address at which an address match interrupt is invoked c When the address at which an address match interrupt occurs is achieved by one step execution the address match interrupt processing and the first command on return from the interrupt are executed simultaneously 5 Software resets Do not use software resets 6 Watchdog function If using the watchdog function you can only use program execution If you want to use debugger functions other than program execution disable the watchdog function 29 48 Chapter 7 Operation Timing Memory Expansion and Microprocessor Modes 7 1 Separate Bus no wait Table 7 1 and Figure 7 1 show bus timing when using the memory expansion mode and micropro cessor mode separate bus no wait Table 7 1 Memory expansion mode and microprocessor mode separate bus no wait td BCLK AD Parameter Address output delay time M306VOEEFP ns M306VOT RPD E ns Max Max th BCLK AD Address output hold time BCLK th RD AD Address output hold time RD th WR AD Address
9. is found faulty follow the procedure below to send your product for repair Customer Fill in the Repair Reguest Sheet included with this product then send it along with this product for repair to your local distributor Make sure that information in the Repair Reguest Sheet is written in as much detail V as possible to facilitate repair Distributor After checking the contents of fault the distributor should please send the faulty product along with the Repair Reguest Sheet to Renesas V Solutions Corp Renesas Solutions When the faulty product is repaired it will be returned to the customer at the earliest convenience N CAUTION Note on Transporting the Product o When sending your product for repair use the packing box and cushion material supplied with this product when delivered to you and specify handling caution for it to be handled as precision eguipment If packing of your product is not complete it may be damaged during transportation When you pack your product in a bag make sure to use conductive polyvinyl supplied with this product usually a blue bag When you use other bags they may cause a trouble on your product because of static electricity 41 48 Chapter 10 Troubleshooting 10 1 When M306VOT RPD E Does Not Work Properly 1 Emulator main unit cannot be powered up Check to see if the AC power cord is firmly plugged into the receptacle Check to see if the AC power 3P 2P conver
10. or circuit application examples contained in these materials All information contained in these materials including product data diagrams charts programs and algorithms represents information on products at the time of publication of these materials and are subject to change by Renesas Technology Corporation and Renesas Solutions Corporation without notice due to product improvements or other reasons It is therefore recommended that customers contact Renesas Technology Corporation Renesas Solutions Corporation or an authorized Renesas Technology product distributor for the latest product information before purchasing a product listed herein The information described here may contain technical inaccuracies or typographical errors Renesas Technology Corporation and Renesas Solutions Corporation assume no responsibility for any damage liability or other loss rising from these inaccuracies or errors Please also pay attention to information published by Renesas Technology Corporation and Renesas Solutions Corporation by various means including the Renesas home page http www renesas com When using any or all of the information contained in these materials including product data diagrams charts programs and algorithms please be sure to evaluate all information as a total system before making a final decision on the applicability of the information and products Renesas Technology Corporation and Renesas Solutions Corporation assume no responsibi
11. prevent injuries to you or other persons or damage to your properties The icons graphic images and meanings are given in Chapter 1 Precautions for Safety Be sure to read this chapter before using the product When using outside Japan and the emulation pod which meet local standards EMI standards are not met when o e When using in Europe the United States or Canada be sure to use both the emulator this product is used with the PC4700H or PC4700L emulator 3 48 Contents OS 6 Things to Check When Unpacking sss sees ene 7 Chapter 1 Precautions for Sale ssccsisc ccscessipsesaasstescstscdesacssassseiesavnsseosvessbsscoescapesteocdsabbsbescss 8 1 1 Safety Symbols and Meanings ocoocccccconccononanonnnononanonn ee serene eenn 8 1 2 Precautions for Safety nena 9 Warning for Installation ia Dd 9 Warning for Use Environment 9 Cautions to Be Taken for This Product sss esse 9 Caution for Installation onnnnnnnnnnnnnnionononcnnconnconocnncnnonononnonnn cnn nro non crono nn ccancnnos 9 Important Notes on PC4701 Emulators 20 0 ceeceseeseceseeeeceeeeeeceseeeeecseseaesseeaeenaes 10 Notes on Abnormal Operation sse sese ee ee eee 10 Notes on Target System 10 Notes on Connecting Target System esse eee eee eee eee 11 Note on Reset Input from Target System 0 0 ee ee eee eee 11 Note on HOLD Input from Target System oo ee eee eee 11 Note on Address 0 ACCESS crac eieaa rR Rea 11 Not
12. supplied Check that Target Status LED POWER is on Is the reset released Check that Target Status LED RESET is off 10 48 IMPORTANT Notes on Connecting Target System When connecting the FLX100 flexible cable and the converter board be careful not to forcibly press the connector top of the converter board The flexible cable and the converter board are guaranteed for only 20 insertion removal iterations Especially be careful not to insert the converter board in the wrong direction Note on Reset Input from Target System The reset input from the target system is accepted only during program execution while the RUN signal lamp on the PC4701 is lit Note on HOLD Input from Target System Input an L level signal into the HOLD pin only during program execution Doing so while the program is stopped or during run time debugging may cause the emulator to malfunction Note on Address 0 Access With M16C 6V group MCUs when a maskable interrupt is generated the interrupt data interrupt number and interrupt request level stored in address 0 is read out Also the interrupt request bit is cleared when address 0 is read out Consequently when the address O readout instruction is executed or when address 0 is read out in the cause of a program runaway a malfunction occurs in that the interrupt is not executed despite the interrupt reguest because the reguest bit of the highest priority interrupt factor ena
13. 1 DARO DAR1 DMA transfer counters O 1 TCRO TCR1 DMA control registers O 1 Note on Stack This product uses up to 8 bytes for stack 15 48 DMOCON DM1CON Chapter 2 Introduction M306VOT RPD E is used by being connected to the PC4701 emulator main unit Figure 2 1 shows the system configuration Host machine _ Emulator debugger RS 232 C serial interface Parallel interface LAN interface HER LEE FLX120 RPD flexible cable M306VOT RPD E emulation pod FLX100 flexible cable Emulator FLX 100LCC converter board Target system Figure 2 1 System configuration Following products 1 to 4 are attached to M306VOT RPD E 1 Emulation pod M306VOT RPD E This emulation pod contains emulation memory and debug functions 2 Flexible cable FLX120 RPD This 120 pin flexible cable connects the PC4701 and the emulation pod 3 Flexible cable FLX100 This 100 pin flexible cable connects the emulation pod and the target system 4 Converter board FLX 100LCC This board is connected to a socket for 100LCC on the target system 16 48 Chapter 3 Specifications Table 3 1 lists the specifications of the M306VOT RPD E Table 3 1 Specifications of the M306VOT RPD E Item Description Usable
14. 1 1 U i e th BCLK WR N e rad 1 1 U MIL i i A i i j NAH i 1d BCLK DB i th BCLK DB y h ZNE JN a Ce L 1 1 MM eu 1 I 1 U 1 i umi i 1 Measurement Condition x NGC lt 5 V Input timing voltage Vi 0 8 V Vin 2 5 V Output timing voltage Vor 0 8 V Vor 2 0 V Figure 7 2 Memory expansion mode and microprocessor mode separate bus with wait 33 48 7 3 Multiplex Bus with wait When Accessing to External Memory Area Table 7 3 and Figure 7 3 show bus timing when using the memory expansion mode and micropro cessor mode with wait when accessing to the external memory area Table 7 3 Memory expansion mode and microprocessor mode multiplex bus with wait M306VOEEFP M306VOT RPD E Parameter ns ns Max in Max td BCLK AD Address output delay time th BCLK AD Address output hold time BCLK th RD AD Address output hold time RD th WR AD Address output hold time WR td BCLK CS Chip select output delay time th BCLK CS Chip select output hold time BCLK th RD CS Chip select output hold time RD th WR CS Chip select output hold time WR td BCLK RD RD signal output delay time th BCLK RD RD signal output hold time td BCLK WR WR signal output delay time th BCLK WR WR signal output hold time td BCLK DB Data output delay time BCLK th BCLK DB Data output
15. al characteristics of 74HC4066FS P0o P52 Standard value Parameter H level control input voltage L level control input voltage On resistance On resistance difference between arbitrary 2 switches in a package Switch input output off leakage current Parameter Input voltage H level output voltage L level output voltage H level output current L level output current H level input current L level input current Off state H level output current Off state L level output current Input output terminal capacity 39 48 Chapter 9 Maintenance and Guarantee 9 1 Maintenance If dust or dirt collects on any eguipment of your emulation system wipe it off with a dry soft cloth Do not use thinner or other solvents because these chemicals can cause the eguipment s surface coating to separate 9 2 Guarantee If your product becomes faulty within one year after its purchase while being used under good conditions by observing Precautions for Safety described in Chapter 1 of this user s manual we will repair or replace your faulty product free of charge Note however that if your product s fault is raised by any one of the following causes we will repair it or replace it with new one with extra charge Misuse abuse or use under extraordinary conditions Unauthorized repair remodeling maintenance and so on
16. ation of this eguipment in a residential area is likely to cause harmful interference in which case the user will be reguired to correct the interference at his own expense Warning This is a Class A product In a domestic environment this product may cause radio interference in which case the user may be reguired to take adeguate measures For inquiries about the contents of this document or product fill in the text file the installer of the emulator debugger generates in the following directory and email to your local distributor SUPPORT Product namelSUPPORT TXT Renesas Tools Homepage http www renesas com en tools 2 48 Preface The M306VOT RPD E is an emulation pod for the M16C 6V group of Renesas 16 bit MCUs The M306VOT RPD E is used by being connected to the PC4701 emulator PC4701HS PC4701L PC4700H or PC4700L and is controlled by the emulator debugger This manual mainly explains specifications and setting up of the M306VOT RPD E For detail information about the PC4701 emulator and the emulator debugger refer to each user s manual To check the components of this product refer to Things to Check When Unpacking in this manual If there is any question or doubt about this product contact your local distributor To use the product properly Precautions for Safety In both this user s manual and on the product itself several icons are used to insure proper handling of this product and also to
17. bled is cleared Therefore with M306VOT RPD E if address 0 is read out for anything other than interrupt processing the yellow LED lights up as a warning When this LED lights up there is the possibility of illegal access to address 0 therefore check the program This LED is extinguished from the emulator reset switch 11 48 IMPORTANT Notes on Differences between Actual MCU and Emulator Emulator operation differs from mask MCU operation as listed below 1 Reset condition 2 Initial values of internal resource data at power on 3 Internal RAM and ROM capacities etc 4 Ports POo to P57 Of the M306VOT RPD E s I O ports ports POo P57 are connected to the user s target system through the port emulation circuit inside M306VOT RPD E Table 1 1 gives the device which uses these ports Table 1 1 I O device used by each of the ports I O device PQo P57 M60074 0111FP 5 Writing into pullup control registers 0 and 1 addresses 03FC16 and 03FD16 respectively To write into pullup control registers 0 and 1 addresses 03FC16 and 03FD16 respectively it is necessary to write the word data from address 03FC16 This is an M306VOT RPD E restriction 6 Ports P50 P53 To enable pullup when setting bit 2 PUR 12 of the pullup register 1 to 1 in single chip mode be sure to set the bit 2 PMO02 and bit 7 PM07 of the processor mode register 0 to 0 This is an M306VOT RPD E restriction 7 BCLK output disab
18. cannot be correctly executed when these 4 bytes cannot be read or written to You must therefore take care using the MAP resetting procedure when the following condition 1 or condition 2 are true 1 When the 4 bytes from OFFFC16 to OFFFF 1 are set to EXTERNAL in a system shifting from single chip mode to memory expansion mode or microprocessor mode 2 When the 4 bytes from OFFFC16 to OFFFFis are set to EXTERNAL in a system started in microprocessor mode and there is no read write enabled memory in the external area Use the following MAP setting procedure when either of the above conditions 1 or 2 are true di 1 Set the 4 bytes from bytes from OFFFC i to OFFFFi6 to INTERNAL 2 Execute the M3T PD30 emulator debugger RESET command 3 Set the stack pointer Example RESET FCLRI LDC 480H SP lt stack pointer setting STOP the program after executing this command U 4 Set the 4 bytes from 0FFFCic to OFFFFi to EXTERNAL Note on Changing Data in OSD RAM Area When Program is not Executed To change data when a program is not executed write data when the map setting is in both INTERNAL and EXTERNALU Procedure 1 With INTERNAL specified change data in the OSD RAM area Change data in the MEMORY WINDOW Script Window etc 2 From the script window change the map setting of the OSD RAM area to EXTERNAL MAP 400 FFF EXT 3 With EXTERNAL specified change data in the OSD RAM area Change data
19. e No output High output fixed CS No output High output fixed No output High output fixed No output Low output fixed Output Output Output Internal RAM area Internal ROM area Previous status maintained Output Floating Floating No output High output fixed No output High output fixed CS No output High output fixed No output High output fixed ALE No output Low output fixed Output BHE No output Previous status maintained Output External area Address Output Output Data Output Inputs external data when reading Output Inputs external data when reading RD WR Output WR Low at write cycle RD Low at read cycle Output WR Low at write cycle RD Low at read cycle CS Output Output ALE Output Output BHE Output Output In STOP state Address Output Data Floating RD WR Output only for Read operations WR High output fixed CS Output Output 13 48 Output IMPORTANT Notes on MAP Settings and References For details on MAP settings and references refer to the M3T PD30 emulator debugger user s manual Always set the SFR area to EXTERNAL Set the OSD RAM area to INTERNAL e This pod uses the 4 bytes from OFFFCis to OFFFFis as a stack area for a RESET command The RESET command
20. e WR td BCLK CS Chip select output delay time th BCLK CS Chip select output hold time BCLK td BCLK ALE ALE signal output delay time th BCLK ALE ALE signal output hold time td BCLK RD RD signal output delay time th BCLK RD RD signal output hold time td BCLK WR WR signal output delay time th BCLK WR WR signal output hold time td BCLK DB Data output delay time BCLK th BCLK DB Data output hold time BCLK td DB WR Data output delay time WR th WR DB Data output hold time WR Note 1 Compute bus timing according to BCLK freguency Use the below formula td DB WR 10 40 ns f BCLK x2 Note 2 Compute bus timing according to BCLK freguency Use the below formula td DB WR 10 55 ns f BCLK x2 32 48 Vec 5V Memory expansion mode or microprocessor mode with wait when accessing to the external memory area Read timing BCLK i 1 td BCLK CS 1 1 1 th BCLK CS I 1 e 1 1 1 S I 1 1 I 1 i 1 1 1 T a h 1 teye UN S f Y 1 1 t i gt Sims i 1 Y IRB 1 Ak IBCLK An I i 1 1 O 1 1 1 1 I I 1 1 1 j l 1 I gz 1 1 l 1 1 1 1 1 i H t 1 DD rro Hi Z A A Kazada 4 A A a 1 1 Write timing BCLK l f 1 th BCLE CS i 1 1 1 1 al AT al i 1 1 1 D Smo 1 Ah BELK A J 1 A 1 1 T 14 E E E Ll EE 1 f
21. e 7 4 show timing reguirements when using the memory expansion mode and microprocessor mode Table 7 4 Timing reguirements Vcc 5 V M306VOEEFP M306VOT RPD E Parameter ns ns Min l Min tsu DB RD Data input setup time tsu RDY BCLK RDY input setup time tsu HOLD BCLK HOLD input setup time th RD DB Data input hold time th BCLK RDY RDY input hold time th BCLK HOLD HOLD input hold time th BCLK HLDA HLDA output delay time Note 1 tsu HOLD BCLK 10 x3 20 f BCLK x2 37 48 Memory expansion mode or microprocessor mode Vec lt B V BCLK separate bus WR WAL WRH separate bus RD multiplex bus WR WRL WRH multiplex bus Wy input i tsu EDY BCLK HOLD input HLDA output PO P1 P2 P3 P4 Po Pia actual MCU PO P1 P2 HR HR Note 1 PO to P52 will be high impedance status regardless of the input level of BYTE pin and ports P4o to P4s function selection bit PM06 of the processor mode register 0 Note 2 This product will be high impedance delaying by 0 5 cycles than an actual MCU Measurement Condition Vcc 5V e Input timing voltage Vi 1 0 V Vin 4 0 V e Output timing voltage Vo 2 5 V Von 2 5 V N Figure 7 4 Timing reguirements Vcc 5 V 38 48 Chapter 8 Electrical Characteristics Tables 8 1 and 8 2 show IC electrical characteristics of user s interface Table 8 1 Electric
22. emulator PC4701HS PC4701L Usable MCU M16C 6V Group MCUs Usable MCU modes 1 Single chip mode 2 Memory expansion mode 3 Microprocessor mode Evaluation MCU type M306VOEEFP Emulation pod clock Main clock Xin 10 000 MHz Sub clock Xcin 32 768 kHz Max operating frequency of emulation pod 10 MHz 0 wait Vcc 5 0 V Power supply range 4 5 to 5 5 V Emulation memory 1 MB Stack capacity used for emulator Up to 8 bytes Suspended cycles in run time debug 16 byte dump About 312 BCLK cycle 16 byte fill About 283 BCLK cycle Power supply to pod 1 Supplied from an emulator 2 The operating voltage of the emulation pod is determined by detecting the supply voltage of the target system When no target system is connected or when the supply voltage of the target system is more than 5 0 V the operating voltage is 5 0 V Connection with target system 100 pin LCC package via FLX 100LCC Operating temperature range 5 to 35 C no dew Storage temperature range 10 to 60 C Overseas standards 17 48 EMI standards FCC part15 Class A CE marking EN55022 EN50082 1 Chapter 4 Settings for Target Systems 4 1 Positions of Switches Figure 4 1 shows positions of switches on the M306VOT RPD E For Xcin For Xin BBH N Figure 4 1 Positions of switche
23. er before using this product 1 1 Safety Symbols and Meanings If the requirements shown in the WARNING AN WARNING sentences are ignored the equipment may cause serious personal injury or death If the requirements shown in the CAUTION AN CAUTION sentences are ignored the equipment may malfunction IMPORTANT UG important information on using this In addition to the three above the following are also used as appropriate Z means WARNING or CAUTION Example CAUTION AGAINST AN ELECTRIC SHOCK Q means PROHIBITION Example DISASSEMBLY PROHIBITED means A FORCIBLE ACTION Example UNPLUG THE POWER CABLE FROM THE RECEPTACLE The following pages describe the symbols WARNING CAUTION and IMPORTANT 8 48 1 2 Precautions for Safety NWARNING Warning for Installation e Do not set this product in water or areas of high humidity Spilling water or some other liquid into UN the main unit can cause an unrepairable damage Warning for Use Environment This equipment is to be used in an environment with a maximum ambient temperature of 35 C Care should be taken that this temperature is not exceeded NCAUTION Cautions to Be Taken for This Product e Do not disassemble or modify this product as personal Disassembling or modifying this product can cause damage Use caution when handling the main unit Be careful not to apply a mechanical shock Do not touch directly the connect
24. es on Differences between Actual MCU and Emulator 12 Notes on MAP Settings and References esse eee 14 Note on Changing Data in OSD RAM Area When Program is not Executed 14 Note on Reading MCU Internal Sources esse sees sees ene 15 Note on Stak eiu YG GAY Ad das cid a DA vabe das hd 15 Chapter 2 Introduction seeing zabita dri erea LOC GELL ELIN E FDIC Wi aie 16 Chapter 3 Specifications sairone Ir I EE teta 17 Chapter 4 Settings for Target Systems sese eee eee 18 4 7 Positions of S witCheS tii 18 4 2 SCUIMBS uu Gee Rea li lidad 19 4 3 Procedure for Setting Oscillation Frequency sees eee eee eee ee eee 20 4 4 Data Slicer I O Signals and OSD Clock I O Signal Circuits 23 4 5 Procedure for Setting Switches e ene 25 4 6 Procedure for Writing MCU File 25 4 48 Chapter 5 Method of Connection sees sees sese 26 5 1 Connecting Emulator Main Unit 26 5 2 Connecting Target System e nee 28 Chapter 6 Constraints uei reign gd keep sika ae dd I GE ba ji ik di ua iY 29 Chapter 7 Operation Timing Memory Expansion and Microprocessor Modes 30 1 1 Separate Bus no Walt iY GM Grey Fi 30 7 2 Separate Bus with wait When Accessing to External Memory Area 32 7 3 Multiplex Bus with wait When Accessing to External Memory Area 34 TA Timing Requirements iei eu my ywn eaer Gyd dT dynn ici 37 Chapter 8 E
25. g the microcomputer to be debugged 6 48 Things to Check When Unpacking The M306VOT RPD E consists of the following parts and manuals When unpacking check to see if your M306VOT RPD E package contains all of these items M306VOT RPD E Emulation pod FLX120 RPD Flexible cable for connecting PC4701 emulator Screws for connecting PC4701 emulator FLX100 Flexible cable for connecting target system already connected FLX 100LCC Converter board for 100LCC package OSC 2 Oscillator board M306VOT RPD E English user s manual this manual M306VOT RPD E Japanese user s manual If any of these items are missing or found faulty please contact your local distributor Also if there 1s any question or doubt about the packaged products contact your local distributor CAUTION Please keep the M306VOT RPD E s packing box and cushion material in your place for reuse at a later time when sending your product for repair or other purposes Always use these packing box and cushion material when transporting the M306VOT RPD E 7 48 Chapter 1 Precautions for Safety In both the user s manual and on the product itself several icons are used to insure proper handling of this product and also to prevent injuries to you or other persons or damage to your properties This chapter describes the precautions which should be taken in order to use this product safely and properly Be sure to read this chapt
26. hold time BCLK td DB WR Data output delay time WR th WR DB Data output hold time WR td BCLK ALE ALE signal output delay time BCLK th BCLK ALE ALE signal output hold time BCLK td AD ALE ALE signal output delay time ADDRESS th ALE AD ALE signal output hold time ADDRESS td AD RD ALE signal output hold time ADDRESS td AD WR ALE signal output hold time ADDRESS tdz RD AD ALE signal output hold time ADDRESS 34 48 Note 1 Compute bus timing according to BCLK freguency Use the below formula th RD AD 10 ns td DB WR 10 x3 f BCLK x2 f BCLK x2 th RW AD 10 ns thCWR DB 10 f BCLK x2 f BCLK x2 th RD CS 10 ns td DB WR 10 f BCLK x2 f BCLK x2 thCWR CS 10 ns f BCLK x2 Note 2 Compute bus timing according to BCLK frequency Use the below formula th RD AD 10 10 ns td DB WR 10 x3 f BCLK x2 f BCLK x2 th RW AD 10 10 ns thCWR DB 10 f BCLK x2 f BCLK x2 th RD CS 10 12 ns td DB WR 10 f BCLK x2 f BCLK x2 thCWR CS 10 12 ns f BCLK x2 35 48 40 25 24 35 35 ns ns ns ns ns ns Vec 5V Memory expansion mode or microprocessor mode with wait when accessing to the external memory area Read timing 1 j 1 i 1 I l 1 1 Ad BCLK CS 3 A 4 1 l th BCLK CS i i 1 I c y nam E5 I 1 1 f 1 ma 1 1 CSI
27. how to connect M306VOT RPD E and FLX120 RPD M306VOT RPD E FLX120 RPD Figure 5 2 Connecting M306VOT RPD E and FLX120 RPD A CAUTION Note on Connecting the Cable Always shut OFF power before connecting the cable The power ON state could destroy internal circuits 27 48 5 2 Connecting Target System Figure 5 3 shows connections between emulator probes and target systems For more details refer to Renesas Tools Accessory Guide Emulator probe Emulator probe Emulator probe KN FL tn FLX100 R separately available Se separately available BA 6 NZ gt Y f gt FLX 100LCC i a DEJE LCC socket DUMMY100S DIRECT100S FLX 100NRB 100 pin LCC 100 pin QFP 100 pin QFP 100 pin QFP separately available separately available separately available separately available These three parts are in one package 0 No 1 pin Figure 5 3 Connection to target systems NCAUTION Notes on Connecting the Target Systems e Be sure to turn off the power before making connections Otherwise the internal circuits may be damaged The small connectors of the FLX100 and FLX 100LCC are guaranteed for only 20 insertion removal iterations 28 48 Chapter 6 Constraints 1 BRK instruction The BRK instruction cannot be used 2 Software and hardware breaks a Do not set simultaneous software and hardware breaks b Do not use software
28. in the MEMORY WINDOW Script Window etc 4 Change the map setting of the OSD RAM area to INTERNAL again MAP 400 FFF INT Example When changing the data in the OSD RAM area Address 410h to 55h set MemoryByte MB 410 55 MAP 400 FFF EXT set MemoryByte MB 410 55 MAP 400 FFF INT 14 48 IMPORTANT Note on Reading MCU Internal Sources When this product is configured with the emulator debugger the following results occur when reading the registers listed in Table 1 3 Data is not displayed correctly but internal data is not affected at all 1 Real time tracing Data values in the MCU internal source read cycle are not displayed correctly 2 Real time RAM monitoring Data is not displayed correctly This happens because data read from the MCU internal source is not output to an external point When data is written into an MCU internal source the data input from the external point is displayed correctly Table 1 3 Registers and signals Register Processor mode registers O 1 Signal PMO PM1 System clock control registers O 1 CMO CM1 Chip select control register CSR Address identity interrupt enable register AIER Protect register PRCR Supervisor timer start register WDTS Supervisor timer control register WDC Address identity interrupt registers O 1 RMADO RMAD1 DMA source pointers O 1 SARO SAR 1 DMA destination pointers O
29. le To disable the BCLK output it is necessary to set the BCLK output disable bit PM07 of processor mode register 0 address 000416 to 1 and to set bit 3 of the port P5 direction register address 03EB16 to 0 This is an M306VOT RPD E restriction 8 Hold control When an L level signal is input to the terminal HOLD and the terminal enters the hold state in actuality ports POo to P52 enter the hold state one half cycle later than the MCU see Chapter 7 Operation Timing 9 A D converter A D converter characteristics differ from actual MCU characteristics because the flexible cable and other elements are used between the emulation MCU and user s target 10 Status while the program is stopped In a system using the PC4701 the loop iteration at the address F800016 establishes and maintains the status during program stop Also when debug commands are issued to check or edit memory data addresses F800016 to F83FFis and addresses F600016 to F63FFis are used as work area For this reason when the CSO output is enabled in the microprocessor mode the CSO signal is output 12 48 IMPORTANT 11 Actual MCU output and emulator output Table 1 2 Actual MCU and emulator outputs Access area Address Actual MCU Output M306VOT RPD E Output Item with different outputs Data Output Floating during read operations Floating RD WR Output WR Low at write cycle RD Low at read cycl
30. lectrical Characteristics esse sees sees eee eee 39 Chapter 9 Maintenance and Guarantee eee 40 OM Maintenance aiii ide 40 9 2 Guarantee eiii iu Gr nee dd AE A dr FT YE dyd Us 40 9 3 Repalt PEOVISIONS arine iii 40 9 4 How to Request for Repair 41 Chapter 10 Troubleshooting i i epes au sone Gy std pe i pe re AE ipet A2 10 1 When M306VOT RPD E Does Not Work Properly sees sese eee A2 Appendix A External Dimensions sss see sees sees eee 43 A 1 External Dimensions of the M306VOT RPD E sese 43 A 2 External Dimensions of the FLX 100LCC sees eee 44 Appendix B Connection Diagram 45 5 48 Terminology Some specific words used in this User s Manual are defined as follows PC4701 This means the generic name of the PC4701HS PC4701L PC4700H and PC4700L emulators PC4701 system This means an emulator system built around a PC4701 emulator The PC4701 emulator system is configured with the emulator main unit an emulation pod an emulator debugger and a host machine Emulator debugger This means a software tool to control the emulator from the host machine through an interface Emulator debugger M3T PD30 V 3 00 Release 1 or later Host machine IBM PC AT or compatible OS Windows 95 or Windows NT 4 0 CPU 486DX4 100 MHz or Pentium 75 MHz or faster recommended Memory 16 MB or more Target MCU This means the microcomputer you are going to debug Target system This means a user s application system usin
31. lity for any damage liability or other loss resulting from the information contained herein Renesas Technology semiconductors are not designed or manufactured for use in a device or system that is used under circumstances in which human life is potentially at stake Please contact Renesas Technology Corporation Renesas Solutions Corporation or an authorized Renesas Technology product distributor when considering the use of a product contained herein for any specific purposes such as apparatus or systems for transportation vehicular medical aerospace nuclear or undersea repeater use The prior written approval of Renesas Technology Corporation and Renesas Solutions Corporation is necessary to reprint or reproduce in whole or in part these materials If these products or technologies are subject to the Japanese export control restrictions they must be exported under a license from the Japanese government and cannot be imported into a country other than the approved destination Any diversion or reexport contrary to the export control laws and regulations of Japan and or the country of destination is prohibited Please contact Renesas Technology Corporation or Renesas Solutions Corporation for further details on these materials or the products contained therein Precautions to be taken when using this product This product is a development supporting unit for use in your program development and evaluation stages I
32. n mass producing your program you have finished developing be sure to make a judgment on your own risk that it can be put to practical use by performing integration test evaluation or some experiment else In no event shall Renesas Solutions Corporation be liable for any consequence arising from the use of this product Renesas Solutions Corporation strives to renovate or provide a workaround for product malfunction at some charge or without charge However this does not necessarily mean that Renesas Solutions Corporation guarantees the renovation or the provision under any circumstances This product has been developed by assuming its use for program development and evaluation in laboratories Therefore it does not fall under the application of Electrical Appliance and Material Safety Law and protection against electromagnetic interference when used in Japan Do not attempt to modify this eguipment If modified your authority to operate this eguipment might be voided by FCC Note This eguipment has been tested and found to comply with the limits for a Class A digital device pursuant to part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the eguipment is operated in a commercial environment This eguipment generates uses and can radiate radio freguency energy and if not installed and used in accordance with the user s manual may cause harmful interference to radio communications Oper
33. nd the circuit diagrams used for data slicing and the OSD clock circuits FLX100 1 C 4 Jodrooco a o RIA R SO w 0 LO C U Figure 4 7 Layout of parts 1 Figure 4 8 shows the part numbers and the constants of the parts of the signal CVIN R13 4700 46 0 luF CVIN Video signal R12 8 NIL IMO Figure 4 8 CVIN signal circuit 2 Figure 4 9 shows the part numbers and the constants of the parts of the signal HLF HLF 47 fup Figure 4 9 HLF signal circuit 23 48 3 Figure 4 10 shows the part numbers and the constants of the parts of the signal VHOLD VHOLD Figure 4 10 VHOLD signal circuit 4 Figure 4 11 shows the part numbers and the constants of the parts of the signal OSC1 OSC2 Rl4 0O C50 USLC 33pF Z ATpF g R15 Not mounted X1 or L1 e cl USLC 7 49 Figure 4 11 OSC1 OSC2 signal circuit 24 48 4 5 Procedure for Setting Switches 1 You mustremove the cover of the M306VOT RPD E in order to set the switches To do so remove the four screws holding the top cover There are two screws on each side see Figure 4 12 Be sure to turn OFF the power before attempting to change the switch settings If the power is ON you may damage the circuits Figure 4 12 Removing M306VOT RPD E cover 2 After removing the cover set the switches referring to Table 4 1
34. of trouble in the system In such case contact the place of purchase Please take note that self check should be executed under the following conditions 1 The target system is not connected 2 The Switch SW6 is set to L position SW7 to 16 see Chapter 4 If the emulator malfunctions due to external interference or some other causes follow the steps given below 1 Press the system reset switch located on the front panel of the emulator 2 If the emulator does not return to the normal operation despite the step 1 above turn off the power source of the emulator turn it on again Notes on Target System Because the emulation pod does not have the capacity to supply power to other devices design your system so that the emulator MCU is powered by the target system Make sure that the target s supply voltage is within the MCU specification and in the range of 4 5 to 5 5 V Do not change power supply voltage of the target system after activating the power Before turning on power to anything check the host machine emulator main unit emulation pod conversion board and user s target system are properly connected Activate power to units as explained here following 1 Turn on and off power to the target system and then the PC4701 continuously 2 After turning on power to the PC4701 check the Target Status LEDs on the emulator front panel to see if the M306VOT RPD E is ready to operate Is the power
35. or pins of the emulator main unit or the target MCU connector pins with your hand Do not pull the emulation pod main unit by the FLX120 RPD flexible cable or the FLX 100 flexible cable for connecting the target system The flexible cables FLX120 RPD and FLX100 are different from earlier models The slits make them more flexible However excessive flexing or force may break conductors Do not use inch size screws for this eguipment The screws used in this eguipment are all ISO meter size type screws When replacing screws use same type screws as used on the eguipment Cautions for Installation o e Do not place the main unit on its side when in use 9 48 IMPORTANT Notes on PC4701 Emulators The PC4700H emulators whose serial number ends with a number cannot be used with M306VOT RPD E Use only products whose serial number ends with a letter of the alphabet The serial number is on the bottom of the PC4700H Example 5KE100 Can NOT be used with M306VOT RPD E Reguires an upgrade Example 5LE123B Can be used with M306VOT RPD E s Do not turn off the power when downloading firmware If the emulator is powered off in the middle of the process it will become unable to start up normally In cases when the power is inadvertently shut off re execute downloading Notes on Abnormal Operation If the PC4701 system does not pass all self checks excluding when an target system error occurs there is the possibility
36. output hold time WR td BCLK CS Chip select output delay time th BCLK CS Chip select output hold time BCLK td BCLK ALE ALE signal output delay time th BCLK ALE ALE signal output hold time td BCLK RD RD signal output delay time th BCLK RD RD signal output hold time td BCLK WR WR signal output delay time th BCLK WR WR signal output hold time td BCLK DB Data output delay time BCLK th BCLK DB Data output hold time BCLK td DB WR Data output delay time WR th WR DB Data output hold time WR Note 1 Compute bus timing according to BCLK freguency Use the below formula td DB WR 10 40 ns f BCLK x2 Note 2 Compute bus timing according to BCLK frequency Use the below formula td DB WR 10 55 ns f BCLK x2 30 48 Memory expansion mode or microprocessor mode no wait Read timing T benane une 1 1 1 I 1 I H 1 1 I 1 t 1 I 1 l I 1 T 1 j i I I I 1 1 1 1 I 1 i 1 I 1 I 1 I 1 i 1 1 t i 1 H H H e EE ENA ec HT ur AD E A HHIHH RA rs dt TTT ET pa yn as s B 7 Z E E S s 2 l T Ed FS lt K T a U H E os U S ci a a 3 ge D pol 6 s T 3 Sa D 2 t 3 Ba pa S e 2 5 poz Z IA O 3 As ae 2 V8 y 8 z N EST mi s Te AF S e Ll e a T tE ES poi mee o kad Wa E E AAA FN hrn Tn E 4 one Lid IR A
37. rget system is not connected The Switch SW6 is set to L position SW7 to 16 See Chapter 4 When the condition does not improve even if you check the items above troubles described below are considered Trouble of the evaluation MCU Trouble of the M306VOT RPD E Trouble of the PC4701 emulator main unit 42 48 Appendix A External Dimensions A 1 External Dimensions of the M306V0T RPD E 515 M336V0T RPD E Unit mm Figure A 1 External dimensions of the M306VOT RPD E 43 48 A 2 External Dimensions of the FLX 100LCC 420 DoOD0000000000000 ul a JB io 9900999009 8999999999 NV AVT NI 30VN JI 1001 X 14 VAJ3 a 100 oooooo0o0o0000000 Unit mm Figure A 2 External dimensions of the FLX 100LCC 44 48 Appendix B Connection Diagrams Figures B 1 and B 2 show the connection diagrams of the M306VOT RPD E These connection diagrams mainly show the interface section with a target system and the circuits which are not connected to the target system such as the emulator s control system are omitted
38. s 18 48 4 2 Settings Table 4 1 gives a list of switch settings Table 4 1 Switch SW settings PORT OSD P57 To use port P57 PORT OSD P57 PORT Factory setting Setting To use OSD function DOT P87 XCIN To use port P87 P87 gt XCIN P87 Factory setting To use XCIN terminal P87 HA XCIN XCIN P8s XCOUT To use port P8s P86 XCOUT P86 Factory setting To leave unconnected P86 E XCOUT To use XCOUT terminal P86 E XCOUT XCOUT To open OPEN XOUT PEN Factory setting To connect XOUT terminal OPEN XOUT XOUT P5s HOLD P57 RDY With pullup resistor HOLD RDY H OPEN H Factory setting Without pullup resistor H o XOUT OPEN To pull down 33 kQ d L Factory setting To leave unconnected Lo h To pull up 33 kQ L H H To pull down 33 kQ sih 16 Factory setting To leave unconnected ey 8 To pull up 33 k 2 8 P70 71 With pullup resistor H T OPEN H Leave the SWl in the PORT position IMPORTANT Note on Switch Settings Without pullup resistor H o OPEN OPEN Factory setting e Be sure to turn off the power before setting the switches Otherwise the internal circuits may be damaged 19 48 4 3 Procedure for Setting Oscillation Freguency If you are using the emulation pod s internal oscillator see 1 below If you are using the target system s oscilla
39. the oscillator board in place b Lift the board directly up and out of the product c Plug the J1 connector of the new oscillator board into the J7 connector on the M306VOT RPD E board d Lock the board to the M306VOT RPD E board with the screw F Oscillator board Oscillator board J1 connector gt J7 connector gt M306VOT PRT Figure 4 4 Replacing oscillator board 21 48 2 Using target system s oscillator a To operate the emulator with an external clock construct the oscillation circuit shown in Figure 4 5 in the target system and input the oscillation output at 40 609e duty within the operating range of the emulator s MCU into the Xin Xcin pin b Make note of the fact that in the oscillation circuit shown in Figure 4 6 where a resonator is connected between the Xin Xcin and Xout Xcout pins oscillation does not occur because a flexible cable buffer IC and other devices are used between the evaluation MCU and the target system c Use the M3T PD30 emulator debugger to set CLK to EXT For details see the M3T PD30 emulator debugger user s manual Evaluation MCU Oscillator Oscillation output circuit Figure 4 5 External oscillator circuit Evaluation MCU Figure 4 6 Circuit for no oscillation in this pod 22 48 4 4 Data Slicer I O Signals and OSD Clock I O Signal Circuits Figure 4 7 shows the layout of the parts on the board a
40. ting connector is firmly connected 2 The M306VOT RPD E does not start up when the target system is connected with the PC4701 system The Error LED of the emulator main unit lights up Check 1 described above Check whether the emulator main unit and the FLX120 RPD are firmly connected Check whether the FLX120 RPD and the M306VOT RPD E are firmly connected Check whether the M306VOT RPD E and the target system are firmly connected Check whether the power and GND are supplied to the target system Check whether switches of the M306VOT RPD E are firmly set Refer to Chapter 4 for setting switches Check whether the RESET pin and NMI pin are held HIGH when the target system is connected Check whether the HOLD pin and RDY pin are held HIGH when in the microprocessor or memory expansion mode Check whether the oscillator circuit of the target system is oscillating correctly when using a target s oscillator Check whether correct firmware is downloaded in the emulator main unit Refer to the user s manual of the emulator debugger about how to download firmware 3 If the PC4701 system does not pass all self checks excluding when an target system error occurs there is the possibility of trouble in the system In such case contact the place of purchase Please take note that self check should be executed under the following conditions The ta
41. tor see 2 on page 22 1 Using emulation pod s oscillator M306VOT RPD E is available with two types of internal oscillator circuits OSC 3 oscillator board preinstalled in M306VOT RPD E 10 MHz OSC 2 oscillator board bare board a OSC 3 oscillator board M306V0T RPD E is equipped with a 10MHz internal oscillator board If you are running M306VOT RPD E at 10 MHz you can use the OSC 3 oscillator board shipped with b OSC 2 oscillator board M306VOT RPD E is supplied with an oscillator circuit bare board connector pin mounting If you are using M306VOT RPD E with internal oscillation freguencies other than those permitted by the standard OSC 3 oscillator board create the desired oscillator circuit on the OSC 2 bare board and replace the OSC 3 board with the OSC 2 board Figure 4 2 shows the external dimensions and connector pin layout of the OSC 2 oscillator board Figure 4 3 shows the OSC 2 circuit Use the circuit constants recommended by the maker of the oscillator circuit J1 4 GND J1 3 Oscillator output J1 2 GND J1 1 VCC Figure 4 2 External view of oscillator bare board OSC 2 and connector pin assignments 20 48 m X1 5 08 mm pitch 2 pin oscillator IC1 Inverter Unbuffer X2 2 54 mm pitch 2 pin oscillator X3 2 54 mm pitch 3 pin oscillator Figure 4 3 Circuit of oscillator board OSC 2 Figure 4 4 shows how to replace the oscillator board a Remove the screw locking
Download Pdf Manuals
Related Search