ELAN C41 User's Manual Power Supply Sockets
Contents
1. until getting the right information Confirm with ENTER B For the parallel interface Press RESET to get 2 beeps Display indicates the format Press twice RESET display indicates speed parity Increment by STEP gt or decrement by STEP lt to get on the display PARALLEL Confirm by pressing ENTER INPUT Allow RAMD loading through the serial RS232 line 1 Select the type of communication 2 Press INPUT a With the formats INTEL MOTOROLA TEK HEX display indicates 0 It may be necessary to introduce an OFFSET The RAM of the programmer is in the limit from 0000 to FFFF or 1FFF with the 128 Kbytes Option if start address is at C5000 ex With INTEL format after input select C The loading will done from address 5000 b With formats ASCII BINARY DEC BINARY BINARY HEADER BLOCK DUMP ASCII BNPF displays indicates 0000 And can be modified in the limits of the RAM capacity from 0 to FFFF 1FFFF if 128Kbytes Option c Press 0 or 1 or 2 or 3 on the keypad to select the address of the EPROM content in your program 0000 to F000 for 8 bits 0 1000 20 3 Confirm with ENTER OUTPUT After pressing OUTPUT display indicates 0000 If the start address of the RAM is OK then press ENTER Display indicates example end address of the RAM 3FFF If it is ok Press ENTER Otherwise enter the expected address and confirm with ENTER NOTA For the formats 1 32. et dg oe ee s e e emt O ep A mp mt eg mb der Gm 1040 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 1050 3A 23 40 27 3D 22 20 61 62 63 64 65 66 67 68 69 a abedefgh 1060 20 2D 20 20 20 20 2D 6A 6B 6C 6D GE 6F 70 FI 72 h mnopqr 1070 20 20 20 20 20 20 20 7E 73 74 75 76 17 78 79 FA Ktuvwxyz 1080 20 2D 20 2D 20 20 20 2D 20 20 20 20 20 20 20 20 1090 2D 20 2D 20 20 20 7B 41 42 43 44 45 46 47 48 49 ABCDEFGH
3. 2000003000000000000000000F0 1 0202005000000000000000000000000000000000000000500000004000000000000000009 10402007000000000000000000000000000000003A23402 430222061 62636465666 76869A5 1106072009 20202020 20 2D 2D6A6B6C6D6E 6F 7071 IZ 202020202020207E 737475767775 79 7AVA IW 080200B7070202020202020202020202020202020202020202078B4142434445464 14849AU 00000000 on Dm alt dg l pr arre rou d g ya r ll w re a geg KE KE 201000209220202089202020202093202020200000000200000300000000 Perier Errr OAS OPOGOSOA TORI ICAO TJ HI III TOS 3 201040000000000000000000000000000000003A23 402730222061 6263646566676869054D 320106020202 2020 2V 2VEAGB6C6V6E GF 7071 4220202020 2D 2020 7E 737475 76777879 FA0BIS elle FORMAT MOTOROLA que ay mm E O AE E A ep e e ee ee G A E ii S0090000454C414E 204571 812310002D092202D07089202020202093202D0202D0000000200000300000000000000000000 812310200000000000000000000000000000000000000005000000040000000000000000AS 1231040000000000000000000000000000000003A234027 302220616263646566676869AF 81231060 2D2D02D2020 20 2D6A6B6C6DG6E6F 7071 2202020 20202020 7E 7374 7576777879 7AE6 9123 0802020 20 20 2D 2D 2D 20 20 20 20 2D 2D 2D 20 2D 20 20 20 2D 20 20 7B4 1 4243444546474549 86 SI030000FC FORMAT DEC BINARY PASE eg gf g eee d ee J ee Ss e ei geb d ng mem gar des d gr it Gest Ger vs Get p G we ep Gm Binaire avec en t te FFFF BINARY BINAIRE eo ee S qr eee eee d wo ef
4. 7 8 the addresses scroll immediately after ENTER For the other formats it is necessary to press O for a target address 0000 APPENDIX A Continued X4 pages t PRGMR FAMILY ARRAY PIN PROGRAMMER CODE PIN OUT DEVICE SIZE TECH OUT SELECTION REMOTE REMOTE HITACHI HN480160 2k X 8 NMOS 24 18016 LA HN462716 2k X 8 NMOS 24 2716 01 1923 LING62716G o e si aj 01 1923 HNA62532 4k X 8 P e 2532 02 3125 HN462732 e d 2132 03 1924 HN482732A p e i 2732A 04 2124 HN482732AG di si d n pe tt HNAB2764 8k X 8 HMOS 28 2764 Int 07 7933 HN482764G g p i 07 7933 HN482764P e e d te d HN 7C64 j CMOS P o d HN 7C64G 8 at d d tt HN4827128 16k X 8 HMOS 27128 int OF 7951 HN4S827128G D e M ai e HN4827128P e d n pa pu HN27256 32k X 8 si e 21256 Int 12 9332 HN27256G e si n d d e IN 7C256 e CMOS ff e e HN27C2966 u H de i e INTEL 2758 lk X 8 MOS 24 2508 00 1922 2716 2k X 8 NMOS 8 2116 Ol 1923 2815 2k X 8 HMOS si 2815 18 8523 2816 a 8 d 2816 19 3723 2132 4k X NMOS i 2732 03 1924 213248 geff j e 2732A 04 2764 8k X 8 e 28 2764 Int 07 7933 2704A e si e 27644 OA 9333 2760064 s CMOS e 27C64 Int 26 or 27644 7C64 si R7C64 Int 28 21128 lok X 8 NMOS p 27128 Int OE 7951 27128A 8 l si 2171284 11 9351 27256 32k X 8 8 27256 Int Id 13 27512 64k X 8 n 27512 Int Id 16 27513 16k X 8 n sl 27513 int 24 APPENDIX A Continued t A 4 Q PROMR FAMILY ARRAY PIN PROGRAMMER CODE PIN OUT DEVICE SIZE TECH OUT
5. ELAN C41 User s Manual Power Supply Sockets Parameters Saved Function Keys Editing function Eproms Selection Guide Display Examples Memory type selection and access time Copy of a master eprom Number of Sockets Selection 2 copies of a Master Eprom Access time Automatic Verify Load and Program of 2 2764 eproms with 2 different contents Empty Verify RAM transfer from a memory RAM Editing Block Change Bloc transfer Automatic Search of 4 successive addresses Search and automatic modify of 4 successive addresses Contents Split Function Ckecksum of full or partial RAM Memory Parallel or Serial Interface Input Output Formats Power Supply The programmer has a built in Voltage Selector 240V 220V 120V 110V to Select Voltage See Picture I and SC em Da ei MA e e Zeus Lef Get Wa STE A i mise hors tension E F mis sous tension GC tirer pour a c der au SELECTEUR DE TENSION FUSIGLE FIGURE I The Power ratings are around 20 Watts Main Line frequency 50 60Hz Fuse T 500mA 5x20 if 240 220V use Fuse T 1A 5x20 if 110 120V use To power the programmer press the switch to the bottom ON Then an automatic test will begin and display the Memory Type a m tiroir d a s au fusible emplacement pour fusible de rechange s lecteur de tension FIGURE il Sockets The sockets are ZIF No voltage until Empty Verify and other functions Selected 28 pins Memories Pin N 1 is
6. SELECTION REMOTE REMOTE OKL MSM2758 Ik X 8 NMOS 24 2508 00 1922 MSM2716 Ak X 8 2716 01 1923 MSM2 532 Ak X 8 2532 02 3125 MSM2732 r j 2732 03 1924 MSM2732A n n 2732A 04 2724 MSM2764 8k X 8 28 2764 Int 07 7933 ROCKWELL INTERNATIONAL R87C32 Ak X 8 CMOS 24 2732A SEEQ TECHNOLOGY 5213 L ne K NMOS 24 2816 19 3723 5133 Ok X 8 n 28 2764 07 7933 5143 16kx8 27128 Int OE 7951 276256 32k X 8 CMOS 27256 Int 12 9332 SGS ATES Semiconductor Corporation M2716 2k X 8 NMOS 24 2716 01 1923 M2532 Ak XB o 2532 OL 3125 SIEMENS SAB2716 ak X 8 NMOS 24 2716 01 1923 SYNERTEK SY2716 dk X 8 NMOS 24 2716 01 1923 TEXAS INSTRUMENTS TMS2516 ak X8 NMOS 24 2716 01 1923 TMS2532 Ak X 8 re n 2532 02 3125 TMS2732 n 2732 03 1924 TMS2564 Bk X 8 2564 05 3130 1MS2764 2 n o n 2764 06 3533 APPENDIX A Continued t PRGMR FAMILY ARRAY PIN PROGRAMMER CODE PIN OUT DEVICE OLZE TECH OUT SELECTION REMOTE REMOTE THOMSON see EUROTECHUN IQUE TOSHIBA TMM3 23D 2k X 8 NMOS 24 2716 OL 1923 TMM 2 732 ak X 8 E u 2732 03 1924 TMM2 32D l A j s 03 1924 TMM2764 3 8BkX8 28 2764 Int 07 7951 TMM27128D 3 16k X 8 27128 Int OE 7951 TCS7256D 3 32k X 8 27256 Fuj 14 TMM27256 32k X 8 py a tl Can be programmed but cannot be chip erased in one operation x2 Use suppressed verify during programming for early versions of this device i e mode B 3 These devices may exhibit a noise problem n gang progra
7. bottom left 24 pins Memories Pin N 1 is in the third pin from top left Handing Cares Do not operate in non ESD environment Do not power the programmer with Eprom inserted Do not insert or remove memories when system is working progress fix the Memory in the right position inverting is detected in most cases Backuped parameters A battery included save the parameters of a 2Kx8 Ram saved in the previous Operation Parameters as memory types Access time Mode Number of Sockets Serial Line or Parallel connection parameters CLAVIER 16 CHANACIER LOO DISPLAY PRISE SECTEUR ler SUPPORT eme SUPPORT C 41 COMPACT PROGRAMMER MEMBRANE KEYPAD Function Keys FI unused reserved for future use READ Eprom Memory content sent to programmer s RAM from a selected Address PROG Allow programming of the memories inserted in sockets 1 and 2 from a particular address of the RAM ACCESS VERIFY automatic Access Time Verify BLANK Empty Verify VERIFY Compare the content of an Eprom in Socket 1 or 2 to the RAM content from a defined Address STEP decrement or increment of the memories type access times number of memories to copy addresses when editing memory content when RAM against Copy compare INPUT input RS 232 transfer to RAM RESET Access to different steps of the selection ENTER Confirm current operation OUTPUT transfer RAM content to the serial or parallel line Editing mode functi
8. e modified vvith the keypad Validate by pressing ENTER Ram transfer is executed and display indicates the checksum RAM Editing 1 pe 3 A 5 6 7 8 9 AMEND to see the content of an address and eventually modify this content BLOCK AMEND Place the same content between a start address and the end address to be defined COPY BLOCK Copy a block of data in a different zone of the RAM EXCHANGE STRING Search and modify 4 successive addresses Contents FIND STRING Search 4 successive addresses contents COMPARE RAM Compare Ram to memory Master SPLIT place the content of odd addresses in start of RAM and even addresses in end of RAM MERGE Opposite SPLIT Operation CHECK SUM Calculate the checksum in a RAM area EXAMPLE AMEND Replace the content of address 123 from 45 to 67 124 from A1 to A2 126 from C2 to 11 l Select 1 on the keypad 000 2 Enter 123 Press ENTER to confirm 123 3 Enter 67 Press STEP gt 123 45 67 4 Enter A2 Press STEP gt 124 Al A2 5 Enter 11 124 C2 11 6 Press STEP gt or press STEP lt to verify 7 Press ENTER 8 Press RESET BLOCK CHANGE Example put the same data in RAM zone 5 5 from 150 to 175 1 2 ee 4 5 6 e 8 Press 2 display indicates 0000 Enter 150 Validate with ENTER Enter 0175 Validate with ENTER display indicates FF Enter 55 Validate with ENTER Finished BLOCK Tran
9. mming which gives mis read or mis verify Select mode B and slow programming 2 64 or 27128 and reduce mumber of devices in gang to three f 1 RMATS EXEMPLES ee ee eee d mp eg me eee ee ee ep PE emp A a ae ak e zen eo A det em emm ge deet EE emm emm dm ep dm t A8 d n d m e I ASCII HEX SPACE a ee em e r pF dese om ee RR va web emm eet al Get a emm emm mei er em Gm GT ZA 23 40 27 30 22 20 61 62 63 64 65 66 67 68 69 20 20 20 20 20 2D 20 6A 6B 6C 6D GE 6F 70 TI 72 20 20 20 20 20 20 20 7E 13 74 75 76 17 78 79 TA 20 20 20 20 20 20 20 20 20 20 20 20 20 2D 20 2U a Caract re de d part Control A b Data space data space etc ol Caract re de fin control C E E ee qe H 2010000070922D0270208920202702020932D2020200000000200000300000000000000000004 201020000000000000000000000000000000000000000005000000040000000000000000A7 20104000000000000000000000000000000000003A234027 3022206162636465666768698B3 20106000 2D 2D 2D 202020 20 6AG6BOCOD6E 6F 70 1 2 2D 20 20 20 20 20 20 7E 73 747576777879 7ATA 901060002020 2020 2D 2D 2020 2D 20 20 20 20 20 20 20 20 20 20 20 20 20 7B41 4243444546474 8495A 00000001 FF 3 FORMAT OPTIONAL Binaire ee d m ng et t ep e Gm e Te ppr gmh qb emt mmm if A dem ed den E wg em ees 4 FORMAT TECKTRO est e a vg emt emt E E E ee ei d eel em emt dm emt em emp d s eme mr Gig e emm s Gem 100020032D09220202089 10202020209 3202020200000000
10. ode Tp 20 seconds Vpp 12 75V QP27256 ID Quick pulse INTEL mode Manufacturer Id Important 27C256 FUJ 21V only quick mode FUJI Tp 2mn Approx Vpp 21V 27256 FUJ NMOS Use INTEL Fast mode Vpp 12 5V 27512 INT Fast INTEL Mode Vpp 12 5V 27512 INT ID Fast INTEL mode Id Vpp 12 5V 27512 AMD ID Fast AMD mode Id 27512 INT 27513 INT ID 48016 E4 Adapter required 8741 E4 8742 E4 8748 E4 8748 H E4 8749 H E4 8755 A E4 E7 Adapter required 8751 E7 8752 ET ES Adapter required 68701 ES 68701U4 E5 3 Voltages memories E13 Adapter required 2704 E13 2708 E13 2716 E13 Display Examples ESE E EL Aa L EEEL r ii ce SzL ctzd chtt cas ele Humbe de L ples Ape ce arcarana Lida foo AR ole T NDE ie Sanar rmesuirerbi d cocker Str mra sur other nu har Coos Memory type Selection and Access time 1 Display indicates example 2 Press RESET display blinks 3 Keep key STEP or gt pressed until type you want to select 2732 4 Press RESET again system beeps and indicates access time that can be changed with STEP or gt keys between 100 to 450 ns 5 Press RESET for the 3 time display indicates number of sockets to will be used en modes used 1 SOCKET 6 Press RESET and select with STEP key mode B only for 2764 Texas mode A for all other types A COPY of an EPROM from a master Example 2732 1 After selecting with above procedure
11. ons O F hexadecimal keyboard simulating addresses Selection a value in RAM area block transfer Automatic change of the content of 4 successive addresses max Search of characters Compare parity addresses separate parity addresses compare even or odd addresses checksum A Complement RAM data CHOIDKARWNHK DS Guide of EPROMs selection Tp programming Access time Vpp programming Voltage 2508 2516 2716 27C16 2532 2132121C32 Vpp 25V 2732A Vpp 21V 2564 2764 normal Mode Tp 6mn 2764 INT fast INTEL Mode Tp 50 seconds approx Vpp 21V 2764 INT ID fast INTEL Mode manufacturer identification Vpp 21V 2764 FUJ Mode quick FUJI Tp 25 seconds approx Vpp 21V 2764A Fast INTEL Mode Vpp 12 5V QP2764A INT Quick pulse INTEL Mode Tp 4 seconds Approx Vpp 12 75V QP 2764A INT Quick pulse INTEL Mode manufacturer ID 27C64 INT 27C64 INT ID 87C64 Vpp 12 5V 87C64 INT ID QP87C64 Vpp 12 75V QP87C64 INT ID 68764 27128 normal Mode Tp 13 mn Approx 27128 INT Fast INTEL mode Tp 1 40 mn Approx Vpp 21V 27128 INT ID Fast INTEL mode Manufacturer Id 27128 FUJ Quick FUJI Mode Tp 50 seconds Vpp 21V 27128A Fast INTEL mode Vpp 12 5V QP27128A Quick Pulse INTEL Mode Tp 10 seconds Vpp 12 75V QP27128A INT ID Quick Pulse INTEL Mode Manufacturer Identification 27256 INT fast INTEL mode Tp 3 3mn Vpp 12 5V 27256 INT ID fast INTEL mode Manuf Id Vpp 12 5V QP27256 Quick pulse INTEL m
12. s better to realize this function during programming to take advance 2 SKT 18 BIT SET Checksum Calculation of all or part of the RAM 1 Press 9 2 Enter start address of the RAM zone by pressing ENTER 3 Enter end address by pressing ENTER Serial and Parallel Interfaces Important Before selecting input or output of the RAM content by the serial and parallel interfaces proceed as follow A For RS232 Select 1 Format 2 Speed 3 Parity number of bits number of stop bits Note the corresponding references and requested values on the hereafter table FORMAT VITESSE PARITE AFFICHAGE LABEL Printing 50 ASCII Hex Space I PAIRE EV PAR INTEL std 3086 110 IMPAIRE OD PAR BINARY no header 135 NO NO PAR Tek Hex 150 bata Bits Mos Tech 200 Db Motorola 5 Rec 300 3 8 Db Dec Binary 600 Stop Bits Binary header 1200 1 1 5t Block Dump 1800 d d St RCA Cosmac 2400 Exemple PPX 4800 8 Dh 2 St nofpar Texas Tags 600 8 Data bits 2 stop bits No parity ASCII BNPF 19200 Press RESET key until hearing 2 beeps Display is blinking and indicates for example INTEL STD X 8086 a increment or decrement by STEP or gt to select the format When required format is ok press RESET b Display blinks and indicates for example BAUD RATE 9600 Press STEP or gt When requested Speed is selected press RESET Display indicates for example 8 DB 2 ST NO PARITY Press STEP or gt
13. sfer Example transfer the content of the previous example 55 from 150 to 175 1 Press 3 display indicates 0000 2 Enter start address 150 3 Enter end address 175 4 Enter target address 200 5 Confirm with ENTER That s finished Automatic Search of content of 4 successive addresses Example enter 41 then 42 then 43 then 44 from address 100 1 Select 5 display indicates 0000 2 Set start address of the search zone 0000 Validate with ENTER 3 Define end address of the search zone Display blinks and indicates 1FFF 4 Enter successively 41 42 43 44 If it exists in RAM the same content the system will indicate the first address of it To know if it exists other similar content press ENTER On the other hand it is not necessary to enter the full data of the 4 addresses you can enter 42 43 44 ENTER ENTER Search and automatic change of the content of 4 successive addresses Example Replace all contents 41 42 43 44 by 41 42 44 45 1 Press 4 Validate start address of the search 2 Validate the end address 13FFF 3 Enter 41 42 43 44 display blinks 4 Enter 41 42 44 45 change is done everywhere the content is found Split Function Press 7 display appear and disappear when operation is finished This function set the data of odd addresses in start of ram from address 0 and the content of even addresses in middle of the RAM area which is 8000 depending of the base model capacity It i
14. the parameters 2732 350 select master memory on the left socket 2 To transfer the master content into RAM press READ display indicates start address of RAM loading Press ENTER to confirm display indicates the Checksum 3 Replace master memory with empty EPROM 4 Press PROG displays indicates Validate by ENTER Programming is done from Start Address 0000 RAM to the copy The end of operation is confirmed by 8 beeps and display indicates END XXYY XXYY is the Checksum AFI I Came 1 Sockol O MG ATT psacr 2 Ske 0 Bit Sell Eat ile grad Lu bloe de donm s ponr mig an MIR CU Ltd Hoke 16 MET 2 IDENTICAL COPIES FROM A MASTER Example 2 x 2732 Follow the steps partl and 2 of the above last example 3 Place 2 empty memories on the sockets 4 Modify the selection of the number of sockets by pressing 3 times the RESET key and increment by the STEP key until display indicates 2 SOCKETS GANG 5 Press PROG displays indicates 0000 The end of operation is signalled by 8 beeps end display indicates END XX YY Automatic Access time Verify Place the memory and transfer its contents into RAM Press RESET Press ACCES VERIFY Validate with ENTER Display indicates for example ACC TIME 250 1 RAM transfer Content into Memory 1 2 3 Select the type and place the EPROM in socket Press READ Display indicates start address for loading into RAM that can b
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