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50 IDE Drive Jumper Settings READ ME FIRST Important Information ............................. 51 Conner IDE Drives About Conner ...................................... 51 CFA170A 170MB CHS=332x16x63 ................... 52 CFA270A 270MB CHS=977x10x53 .................. 52 CFA340A 340MB CHS=665x16x63 ................... 52 CFA810A 810MB CHS=1572x16x63 .................. 52 CFA850A 850MB CHS=1652x16x63 .................. 52 CFA1080A 1.08GB CHS=2097x16x63 ................. 52 CFN170A 170MB CHS=326x16x63 .................. 52 CFN250A 250MB CHS=489x16x63 .................. 52 CFN340A 340MB CHS=667x16x63 .................. 52 CFS210A 210MB CHS=685x16x38 ................. 52 CFS420A 420MB CHS=826x16x63 ................... 52 CFS540A 540MB CHS=1050x16x63 .................. 52 CP2034 30MB CHS=411x4x38 ................... 52 CP2044PK 40MB CHS=980x5x17 ................... 53 CP2064 60MB CHS=823x4x38 ................... 53 CP2084 85MB CHS=548x8x38 ................... 53 CP2088 85MB CHS=548x8x38 ................... 53 CP2124 120MB CHS=762x8x39 ................ 53 CP3000 40MB CHS=980x5x17 ................... 53 CP3024 20MB CHS=615x4x17 .................... 53 CP3044 40MB CHS=980x5x17 .................... 53 CP3104 100MB CHS=776x8x33 .................... 53 CP3184 80MB CHS=832x6x33 .................... 53 CP3204F 200MB CHS=683x16x38 ................... 53 CP3304 340MB CHS=659x16x63 ................... 53 CP3364 360MB CHS=702x16x63 .................. 53 CP3504 510MB CHS=987x16x63 ................. 53 CP3544 340MB CHS=1023x16x63 ................. 54 CP30064 60MB CHS=762x4x39 .................. 54 CP30064H 60MB CHS=762x8x39 ................ 54 CP30084 80MB CHS=527x8x39 ................... 54 CP30084E 85MB CHS=332x16x63 ................. 54 CP30104 120MB CHS=762x8x39 ................... 54 CP30104H 120MB CHS=762x8x39 ................... 54 CP30124 120MB CHS=895x5x55 ................... 54 CP30174 170MB CHS=326x16x63 ................... 54 CP30174E 170MB CHS=903x18x46 .................. 54 CP30204 212MB CHS=683x16x38 ................... 54 CP30254 250MB CHS=895x10x55 ................. 54 CP30544 540MB CHS=1023x16x63 ................. 54 <<< Conner Figures ................................ 54 Figure CONNER-1 ................................... 55 Figure CONNER-2 ................................... 55 Figure CONNER-3 ................................... 55 Figure CONNER-4 ................................... 56 Figure CONNER-5 ................................... 56 Figure CONNER-6 ................................... 57 Figure CONNER-7 ................................... 57 Figure CONNER-8 ................................... 58 Figure CONNER-9 ................................... 58 Figure CONNER-10 .................................. 59 Figure CONNER-11 .................................. 59 Figure CONNER-12 .................................. 60 Figure CONNER-13 .................................. 60 Figure CONNER-14 .................................. 61 Fujitsu IDE Drives About Fujitsu ..................................... 61 M2611T 45MB CHS=667x4x33 .................... 61 M2612ET 90MB CHS=667x8x33 .................... 62 M2613ET 135MB CHS=667x12x33 ................... 62 M2614ET 180MB CHS=667x16x33 ................... 62 M2616ET 105MB CHS=771x8x33 .................... 62 M2622T 327MB CHS=1013x10x63 .................. 62 M2623T 420MB CHS=1002x13x63 .................. 62 M2624T 514MB CHS=995x16x63 ................... 62 M2617T 105MB CHS=725x6x47 .................... 62 M2618T 210MB CHS=717x12x47 ................... 62 M1603TA 544MB CHS=1055x16x63 .................. 62 M1606TA 1.08GB CHS=2111x16x63 .................. 62 <<< Fujitsu Figures ............................... 62 Figure Fujitsu-1 .................................. 62 Figure Fujitsu-2 .................................. 63 Figure Fujitsu-3 .................................. 63 Figure Fujitsu-4 .................................. 63 Hitachi IDE Drives About Hitachi ..................................... 63 DK212A-10 1.08GB CHS=2200x16x60 ................. 63 DK212A-81 811MB CHS=1650x16x60 .................. 63 DK222A-54 540MB CHS=1100x16x60 ................ 64 DK222A-27 270MB CHS=550x16x60 .................. 64 <<< Hitachi Figures ............................... 64 Figure HITACHI-1 .................................. 64 IBM IDE Drives About IBM ......................................... 64 0662-A10 1.05GB CHS=2037x15x63 ................. 65 DHA-2270 270MB CHS=524x16x63 .................. 65 DHA-2405 405MB CHS=785x16x63 ................. 65 DHA-2540 540MB CHS=1047x16x63 .................. 65 DSAA-3270 281MB CHS=954x16x36 .................. 65 DSAA-3360 365MB CHS=929x16x48 ................. 65 DSAA-3540 548MB CHS=1062x16x63 .................. 65 DSAA-3720 730MB CHS=1416x16x63 ................. 65 H2172-A2 172MB CHS=989x10x34 ................... 65 H2258-A3 258MB CHS=989x15x34 ................... 65 H2344-A4 344MB CHS=915x15x49 ................... 65 H3133-A2 133MB CHS=1023x15x17 .................. 65 H3171-A2 171MB CHS=984x10x34 ................... 65 H3256-A3 256MB CHS=872x16x36 ................... 65 H3342-A4 342MB CHS=872x16x48 .................. 66 <<< IBM Figures ................................... 66 Figure IBM-1 ...................................... 66 Figure IBM-2 ...................................... 66 Figure IBM-3 ...................................... 66 Maxtor IDE Drives About Maxtor ...................................... 66 2585A 81MB CHS=981x10x17 ................... 67 7040A 40MB CHS=981x5x17 .................... 67 7060A 62MB CHS=1024x7x17 .................. 67 7080A 81MB CHS=981x10x17 ................ 67 7120A 124MB CHS=1024x14x17 .................. 67 7131A 125MB CHS=1002x8x32 ................... 67 7135AV 135MB CHS=966x13x21 ................... 67 7170A 170MB CHS=984x10x34 ................... 67 7171A 171MB CHS=866x15x26 ................... 67 7213A 212MB CHS=683x16x38 ................... 68 7245A 245MB CHS=967x16x31 ................... 68 7270AV 270MB CHS=959x11x50 ................... 68 7273A 273MB CHS=1012x16x33 .................. 68 7345A 345MB CHS=790x15x57 ................... 68 7405AV 405MB CHS=989x16x50 ................... 68 7420A 420MB CHS=986x16x52 ................... 68 7425A 425MB CHS=1002x16x52 .................. 68 7540A 540MB CHS=1047x16x63 .................. 68 7546A 546MB CHS=1059x16x63 .................. 68 7850A 850MB CHS=1654x16x63 .................. 68 8051A 42MB CHS=981x5x17 .................... 68 25084A 80MB CHS=569x16x18 ................... 68 25128A 122MB CHS=981x10x17 ................... 68 25252A 240MB CHS=569x16x54 ................... 69 71050A 1.05GB CHS=2045x16x63 .................. 69 71260A 1.26GB CHS=2448x16x63 .................. 69 LXT-200A 200MB CHS=816x15x32 ................... 69 LXT-213A 213MB CHS=683x16x38 ................... 69 LXT-340A 340MB CHS=654x16x63 ................... 69 LXT-535A 528MB CHS=1024x16x63 .................. 69 MXT-540AL 540MB CHS=1059x16x63 .................. 69 <<< Maxtor Figures ................................ 69 Figure MAXTOR-1 ................................... 69 Figure MAXTOR-2 ................................... 70 Figure MAXTOR-3 ................................... 70 Figure MAXTOR-4 ................................... 71 Figure MAXTOR-5 ................................... 71 Figure MAXTOR-6 ................................... 72 Figure MAXTOR-7 ................................... 73 Micropolis IDE Drives About Micropolis .................................. 74 2105A 558MB CHS=1083x16x63 .................. 74 2112A 1.04GB CHS=2034x16x63 .................. 75 2205A 540MB CHS=1050x16x63 .................. 75 2210A 975MB CHS=1891x16x63 .................. 75 2217A 1.62GB CHS=3152x16x63 .................. 75 <<< Micropolis Figures ............................ 75 Figure MICROPOLIS-1 ............................... 75 Figure MICROPOLIS-2 ............................... 75 NEC IDE Drives D3735 45MB CHS=1084x2x41 ................... 76 D3755 105MB CHS=1250x4x41 .................. 76 D3741 45MB CHS=423x8x26 .................... 76 D3756 104MB CHS=1250x4x41 ................... 76 D3761 115MB CHS=915x7x35 .................... 76 D3781 425MB CHS=1464x9x63 ................... 76 <<< NEC Figures ................................... 76 Figure NEC-1 ...................................... 77 Figure NEC-2 ...................................... 77 Figure NEC-3 ...................................... 77 Quantum IDE Drives About Quantum ..................................... 77 120AT 120MB CHS=814x9x32 .................... 77 170AT 170MB CHS=968x10x34 ................... 77 210AT 210MB CHS=873x13x36 ................... 78 425AT 425MB CHS=1021x16x51 .................. 78 425IAT 425MB CHS=1021x16x51 .................. 78 ELS 42AT 42MB CHS=977x5x17 .................... 78 ELS 85AT 85MB CHS=977X10X17 ................... 78 ELS 127AT 127MB CHS=919x16x17 ................... 78 ELS 170AT 170MB CHS=1011x15x22 .................. 78 FB 540 544MB CHS=1056x16x63 .................. 78 FB 1080 1.08GB CHS=2122x16x63 .................. 78 LPS 52AT 50MB CHS=751x8x17 .................... 78 LPS 80AT 80MB CHS=616x16x17 ................... 78 LPS 105AT 105MB CHS=755x16x17 ................... 78 LPS 120AT 120MB CHS=901x5x53 .................... 78 LPS 170AT 170MB CHS=1011x15x22 .................. 78 LPS 210AT 210MB CHS=873x13x36 ................... 79 LPS 240AT 240MB CHS=723x13x51 ................... 79 LPS 270AT 270MB CHS=944x14x40 ................... 79 LPS 340AT 340MB CHS=1011x15x44 .................. 79 LPS 420AT 420MB CHS=1010x16x51 .................. 79 LPS 525AT 525MB CHS=1017x16x63 .................. 79 LPS 540AT 540MB CHS=1120x16x59 .................. 79 LT 365 365MB CHS=976x12x61 ................... 79 LT 540 540MB CHS=1120x16x59 .................. 79 LT 730 730MB CHS=1416x16x63 .................. 79 MV 270 270MB CHS=944x14x40 ................... 79 MV 540 540MB CHS=1059x16x63 .................. 79 TR 420 420MB CHS=1010x16x51 .................. 79 TR 850 850MB CHS=1647x16x63 .................. 79 <<< Quantum Figures ............................... 80 Figure QUANTUM-1 .................................. 80 Samsung IDE Drives About Samsung ..................................... 80 3062 121MB CHS=927x15x17 ................... 80 3122 251MB CHS=937x15x35 .................. 80 3171 178MB CHS=968x8x45 .................... 80 3172 356MB CHS=968x16x45 ................... 80 3211 213MB CHS=1002x8x52 ................... 80 3212 426MB CHS=1002x16x52 .................. 80 30280 280MB CHS=1024x8x63 ................... 80 30560 560MB CHS=1024x16x63 ................. 81 <<< Samsung Figures ............................... 81 Figure SAMSUNG-1 .................................. 81 Seagate IDE Drives About Seagate ..................................... 81 ST-125A 21MB CHS=404x4x26 .................... 81 ST-138A 32MB CHS=604x4x26 .................... 81 ST-157A 44MB CHS=560x6x26 .................... 82 ST-274A 63MB CHS=941x5x26 .................... 82 ST-280A 71MB CHS=516x10x17 ................... 82 ST-1057A 53MB CHS=1024x6x17 ................. 82 ST-1090A 79MB CHS=335x5x29 .................... 82 ST-1102A 89MB CHS=1024x10x17 .................. 82 ST-1111A 98MB CHS=536x10x36 ................... 82 ST-1126A 111MB CHS=469x16x29 ................... 82 ST-1133A 117MB CHS=636x10x36 ................... 82 ST-1144A 130MB CHS=1001x15x17 .................. 82 ST-1156A 138MB CHS=536x14x36 ................... 82 ST-1162A 143MB CHS=603x16x29 ................... 82 ST-1186A 164MB CHS=636x14x36 ................... 82 ST-1201A 177MB CHS=804x12x36 ................... 82 ST-1239A 211MB CHS=814x14x36 ................... 83 ST-2274A 241MB CHS=873x10x54 ................... 83 ST-2383A 338MB CHS=873x14x54 ................... 83 ST-3051A 43MB CHS=820x6x17 .................... 83 ST-3096A 89MB CHS=1024x10x17 .................. 83 ST-3120A 107MB CHS=1024x12x17 .................. 83 ST-3123A 106MB CHS=1024x12x17 ................. 83 ST-3144A 130MB CHS=1001x15x17 .................. 83 ST-3145A 130MB CHS=1001x15x17 .................. 83 ST-3195A 170MB 981x10x34 ....................... 83 ST-3243A 214MB CHS=1024x12x34 .................. 83 ST-3283A 245MB CHS=978x14x35 ................... 83 ST-3290A 261MB CHS=1001x15x34 .................. 83 ST-3385A 340MB CHS=767x14x62 ................... 83 ST-3491A 4281MB CHS=891x15x62 .................. 84 ST-3500A 525MB CHS=895x15x62 ................... 84 ST-3550A 452MB CHS=1018x14x62 .................. 84 ST-3655A 528MB CHS=1024x16x63 .................. 84 ST-3660A 545MB CHS=1057x16x63 .................. 84 ST-3780A 722MB CHS=1399x16x63 .................. 84 ST-31220A 1.08GB CHS=2099x16x63 .................. 84 ST-5660A 545MB CHS=1057x16x63 .................. 84 ST-5850A 854MB CHS=1656x16x63 .................. 84 ST-9051A 42MB CHS=820x6x17 .................... 84 ST-9052A 42MB CHS=980x5x17 .................... 84 ST-9077A 64MB CHS=669x11x17 ................... 84 ST-9080A 64MB CHS=823x4x38 .................... 84 ST-9096A 85MB CHS=980x10x17 ................... 84 ST-9140AG 127MB CHS=980x15x17 ................... 85 ST-9144A 130MB CHS=980x15x17 ................... 85 ST-9145AG 127MB CHS=980x15x17 ................... 85 ST-9150AG 131MB CHS=419x13x47 .................. 85 ST-9190AG 171MB CHS=873x16x24 ................... 85 ST-9235A 209MB CHS=985x13x32 ................... 85 ST-9550AG 455MB CHS=942x16x59 ................... 85 ST-9655AG 524MB CHS=1016x16x63 .................. 85 <<< Seagate Figures ............................... 85 Figure SEAGATE-1 .................................. 85 Figure SEAGATE-2 .................................. 86 Figure SEAGATE-3 .................................. 86 Figure SEAGATE-4 .................................. 86 Figure SEAGATE-5 .................................. 87 Figure SEAGATE-6 .................................. 87 Figure SEAGATE-7 .................................. 88 Figure SEAGATE-8 .................................. 88 Figure SEAGATE-9 .................................. 89 Figure SEAGATE-10 ................................. 90 Figure SEAGATE-11 ................................. 91 Figure SEAGATE-12 ................................. 91 Figure SEAGATE-13 ................................. 92 Figure SEAGATE-14 ................................. 93 Toshiba IDE Drives About Toshiba ..................................... 93 MK 1522FCV 126MB CHS=812x8x38 .................... 93 MK 1722FCV 131MB CHS=842x8x38 .................... 93 MK 1624FCV 213MB CHS=684x16x38 ................... 94 MK 1724FCV 262MB CHS=842x16x38 ................... 94 MK 1824FCV 353MB CHS=682x16x63 ................... 94 MK 2326FCH 340MB CHS=969x14x49 ................... 94 MK 2428FC 524MB CHS=1016x16x63 .................. 94 MK 2526FC 528MB CHS=1023x16x63 .................. 94 MK 2528FC 704MB CHS=1365x16x63 .................. 94 <<< Toshiba Figures ............................... 94 Figure TOSHIBA-1 .................................. 94 Western Digital IDE Drives About Western Digital ............................. 94 Detailed Jumper Installation ...................... 95 WD93024-A 21MB CHS=782x2x27 .................... 96 WD93028-A 21MB CHS=782x2x27 .................... 96 WD93044-A 43MB CHS=782x4x27 .................... 96 WD93048-A 43MB CHS=782x4x27 .................... 96 WD95024-A 21MB CHS=782x2x27 .................... 96 WD95028-A 21MB CHS=782x2x27 .................... 96 WD95044-A 43MB CHS=782x4x27 .................... 97 WD95048-A 43MB CHS=782x4x27 .................... 97 WDAC140 42MB CHS=980x5x17 .................... 97 WDAC160 62MB CHS=1024x7x17 ................... 97 WDAC260 62MB CHS=1024x7x17 ................... 97 WDAC280 85MB CHS=980x10x17 ................... 97 WDAC1170 170MB CHS=1010x6x55 ................... 97 WDAC1210 212MB CHS=989x12x35 ................... 97 WDAC1270 270MB CHS=917x12x48 ................... 97 WDAC1365 365MB CHS=708x16x63 ................... 97 WDAC1425 425MB CHS=827x16x63 ................... 97 WDAC1540 540MB CHS=1048x16x63 .................. 97 WDAC2120 125MB CHS=872x8x35 .................... 97 WDAC2170 170MB CHS=1010x6x55 ................... 97 WDAC2200 212MB CHS=989x12x35 ................... 98 WDAC2250 250MB CHS=1010x9x55 ................... 98 WDAC2340 340MB CHS=1010x12x55 .................. 98 WDAC2420 420MB CHS=989x15x56 ................... 98 WDAC2540 540MB CHS=1048x16x63 .................. 98 WDAC2700 730MB CHS=1416x16x63 .................. 98 WDAC2850 850MB CHS=1654x16x63 .................. 98 WDAC21000 1.0GB CHS=2100x16x63 .................. 98 WDAC31000 1.0GB CHS=2100x16x63 .................. 98 WDAC31200 1.2GB CHS=2484x16x63 .................. 98 WDAC31600 1.6GB CHS=3148x16x63 .................. 98 WDAH260 62MB CHS=1024x7x17 ................... 98 WDAH280 85MB CHS=980x10x17 ................... 98 WDAL2120 130MB CHS=1001x15x17 .................. 98 WDAL2170 170MB CHS=980x10x34 ................... 99 WDAL2200 200MB CHS=958x12x34 ................... 99 WDAP4200 200MB CHS=987x12x35 ................... 99 <<< Western Digital Figures ....................... 99 CONNER IDE DRIVES ABOUT CONNER Conner Peripherals, Inc (USA) Telephone: (408)456-4500 Technical Support: (800)4CONNER FAX: (408)456-4501 BBS: (408)456-4415 FAX Back: (408)456-4903 3081 Zanker Road San Jose California 95134 Conner Peripherals, UK Technical Support: +44-1-628-777277 FAX: +44-1-628-592801 BBS: +44-1-628-592857 FAX Back: +44-1-294-315265 107 King Street Maidenhead Berksire SL1 6DP United Kingdom Conner Peripherals reserves the right to change product specifications without prior notification. Page 51 CFA170A 170MB CHS=332X16X63 See Figure CONNER-1 for jumper setting information. CFA270A 270MB CHS=977X10X53 See Figure CONNER-1 for jumper setting information. CFA340A 340MB CHS=665X16X63 See Figure CONNER-1 for jumper setting information. CFA810A 810MB CHS=1572X16X63 See Figure CONNER-1 for jumper setting information. CFA850A 850MB CHS=1652X16X63 See Figure CONNER-1 for jumper setting information. CFA1080A 1.08GB CHS=2097X16X63 See Figure CONNER-1 for jumper setting information. CFN170A 170MB CHS=326X16X63 See Figure CONNER-2 for jumper setting information. CFN250A 250MB CHS=489X16X63 See Figure CONNER-2 for jumper setting information. CFN340A 340MB CHS=667X16X63 See Figure CONNER-2 for jumper setting information. CFS210A 210MB CHS=685X16X38 See Figure CONNER-1 for jumper setting information. CFS420A 420MB CHS=826X16X63 See Figure CONNER-1 for jumper setting information. CFS540A 540MB CHS=1050X16X63 See Figure CONNER-1 for jumper setting information. CP2034 30MB CHS=411X4X38 See Figure CONNER-3 for jumper setting information. CP2044PK 40MB CHS=980X5X17 See Figure CONNER-4 for jumper setting information. Page 52 CP2064 60MB CHS=823X4X38 See Figure CONNER-3 for jumper setting information. CP2084 85MB CHS=548X8X38 See Figure CONNER-4 for jumper setting information. CP2088 85MB CHS=548X8X38 See Figure CONNER-3 for jumper setting information. CP2124 120MB CHS=762X8X39 See Figure CONNER-4 for jumper setting information. CP3000 40MB CHS=980X5X17 See Figure CONNER-5 for jumper setting information. CP3024 20MB CHS=615X4X17 See Figure CONNER-5 for jumper setting information. CP3044 40MB CHS=980X5X17 See Figure CONNER-5 for jumper setting information. CP3104 100MB CHS=776X8X33 See Figure CONNER-11 for jumper setting information. CP3184 80MB CHS=832X6X33 See Figure CONNER-11 for jumper setting information. CP3204F 200MB CHS=683X16X38 See Figure CONNER-12 for jumper setting information. CP3304 340MB CHS=659X16X63 See Figure CONNER-13 for jumper setting information. CP3364 360MB CHS=702X16X63 See Figure CONNER-14 for jumper setting information. CP3504 510MB CHS=987X16X63 See Figure CONNER-14 for jumper setting information. CP3544 340MB CHS=1023X16X63 Page 53 See Figure CONNER-14 for jumper setting information. CP30064 60MB CHS=762X4X39 See Figure CONNER-6 for jumper setting information. CP30064H 60MB CHS=762X8X39 See Figure CONNER-6 for jumper setting information. CP30084 80MB CHS=527X8X39 See Figure CONNER-6 for jumper setting information. CP30084E 85MB CHS=332X16X63 See Figure CONNER-7 for jumper setting information. CP30104 120MB CHS=762X8X39 See Figure CONNER-6 for jumper setting information. CP30104H 120MB CHS=762X8X39 See Figure CONNER-6 for jumper setting information. CP30124 120MB CHS=895X5X55 See Figure CONNER-8 for jumper setting information. CP30174 170MB CHS=326X16X63 See Figure CONNER-2 for jumper setting information. CP30174E 170MB CHS=903X18X46 See Figure CONNER-7 for jumper setting information. CP30204 212MB CHS=683X16X38 See Figure CONNER-9 for jumper setting information. CP30254 250MB CHS=895X10X55 See Figure CONNER-1 for jumper setting information. CP30544 540MB CHS=1023X16X63 See Figure CONNER-10 for jumper setting information. <<< CONNER FIGURES The following are drive jumpering figures for Conner Peripherals drives. Page 54 FIGURE CONNER-1 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ____Power____ __________________Data____________________ │ │ | | | . . . . . . . . . . . . . . . . . . . | │ │ | O O O O | | 1 . . . . . . . . . . . . . . . . . . . | │ │ \_____________/ | __________________ ____________________| │ │ +12 G G +5 | | ===== PCBA=========== │ │ red yellow Red stripe on ribbon cable is pin 1 │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x x Single Drive Master Slave x x x x x x x x -------------|--------|------- ==PCBA==== C A -Reserved-- C/D in C/D in C/D out D C ┌───┌─────────────────────────┐ A/C out when master slave │ I │ A/C== Jumpers with non-CFA/CFA Conner │ O │ C/D== drives (except CP30254 │ │ │ and CP30344). A/C in │ C │ PCBA │ with CFA/CFS and all │ o │ │ other drives. │ n │ │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-2 ┌────────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: _+5v Power │ │ | │ │ x x x x x x x x x x x x x x x x x x x x 5 x │ │ x x 1 x x x x x x x x x x x x x x x x x x 5 G │ │_pcba_ R R | | n │ │ s s Pin 1 | d │ │ v v |_+5v Power │ └───── d─d──────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x x Single Drive Master Slave x x x x x x x x -------------|--------|------- ==PCBA==== C A -Reserved-- C/D in C/D in C/D out D C ┌───┌─────────────────────────┐ │ I │ x x | │ O │ x x | │ │ A C │ │ C │ C D │ │ o │ │ │ n │ │ │ n │ PCBA │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-3 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTOR: │_+5V Power │ Page 55 │ X X X X X X X X X X X X X X X X X X X X X 5 X │ │ X X 1 X X X X X X X X X X X X X X X X X X X 5 G │ │ ==R R========PCBA===============================│=n=== │ │ s s │ │ d │ │ v v Pin 1 │ │ │ d d │_+5V Power │ └──────────────────────────────────────────────────────────────────────┘ Single Drive Master Slave -------------|--------|------- E1 in E1 in E1 out ┌───┌─────────────────────────┐ │ I │ | │ O │ | │ │ │ │ C │ PCBA │ │ o │ X X │ │ n │ X X │ │ n │ E E │ │ . │ 2 1 │ └───└─────────────────────────┘ FIGURE CONNER-4 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTOR: │_+5v Power │ │ X X X X X X X X X X X X X X X X X X X X X 5 X │ │ X X 1 X X X X X X X X X X X X X X X X X X X 5 G │ │ ==R R========PCBA================================│=n==== │ │ s s │ │ d │ │ v v Pin 1 │ │ │ d d │_+5v Power │ └──────────────────────────────────────────────────────────────────────┘ Single Drive Master Slave -------------|--------|------- MS in MS in MS out ┌───┌─────────────────────────┐ │ I │ │ │ O │ │ │ │ │ │ C │ C M PCBA │ │ o │ D S │ │ n │ x x │ │ n │ x x │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-5 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ _____Power______ Data │ │ │ │ x x x x x x x x x x x x x x x x x x x │ │ │ O O O O │ 1 x x x x x x x x x x x x x x x x x x x │ │ \______________/ =======PCBA==================== │ │ +12 G G +5 Red stripe on ribbon cable is pin 1 │ Page 56 │ red yellow │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x Single Drive Master Slave x x x x x x x -------------|-----------|------- ==PCBA==== L -Reserved-- C/D&ACT in C/D&DSP in None E D ┌───┌─────────────────────────┐ │ I │ │ │ O │ │ │ │ │ │ C │ ADCH PCBA │ │ o │ CSDS │ │ n │ TP P │ │ n │ xxxx │ │ . │ xxxx │ └───└─────────────────────────┘ FIGURE CONNER-6 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ _____Power____ Data │ │ │ │ x x x x x x x x x x x x x x x x x x x │ │ │ O O O O │ 1 x x x x x x x x x x x x x x x x x x x │ │ \____________/ ======PCBA===================== │ │ +12 G G +5 Red stripe on ribbon cable is pin 1 │ │ red yellow │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x Single Drive Master Slave x x x x x x x -------------|-----------|------- ==PCBA==== L -Reserved-- C/D in C/D&DSPin None E D ┌───┌─────────────────────────┐ │ I │ xxx │ │ O │ xxx │ │ │ ECD │ │ C │ PCBA 1DS │ │ o │ P │ │ n │ │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-7 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ____Power_____ Data │ │ │ │ x x x x x x x x x x x x x x x x x x x │ │ │ O O O O │ 1 x x x x x x x x x x x x x x x x x x x │ │ \______________/ ======PCBA===================== │ │ +12 G G +5 Red stripe on ribbon cable is pin 1 │ │ red yellow │ Page 57 └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x Single Drive Master Slave x x x x x x x -------------|--------|------- ==PCBA==== L -Reserved-- C/D in C/D in C/D out E D ┌───┌─────────────────────────┐ CAM out when master slave │ I │ x x CD │ with non-CFA/CFA Conner │ O │ x x E1 │ drives (except CP30254 │ │ x x CAM │ and CP30344). CAM in │ C │ │ with CFA/CFS and all │ o │ PCBA │ other drives. │ n │ │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-8 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ___Power______ Data │ │ | | x x x x x x x x x x x x x x x x x x x │ │ | O O O O | 1 x x x x x x x x x x x x x x x x x x x │ │ \_____________/ =====PCBA==================== │ │ +12 G G +5 Red stripe on ribbon cable is pin 1 │ │ red yellow │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x x Single Drive Master Slave x x x x x x x x -------------|--------|------- ==PCBA==== C L -Reserved-- C/D in C/D in C/D out D E D ┌───┌─────────────────────────┐ A/C out when master slave │ I │ A/C ==Jumpers with non-CFA/CFA Conner │ O │ C/D == drives (except CP30254 │ │ │ and CP30344). A/C in │ C │ PCBA │ with CFA/CFS and all │ o │ │ other drives. │ n │ │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-9 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ____Power_____ Data │ │ | | x x x x x x x x x x x x x x x x x x x │ │ | 0 0 0 0 | 1 x x x x x x x x x x x x x x x x x x x │ │ \_____________/ ======PCBA===================== │ │ +12 G G +5 Red stripe on ribbon cable is pin 1 │ │ red yellow │ └──────────────────────────────────────────────────────────────────────┘ Page 58 JUMPERS: x x x x x x x Single Drive Master Slave x x x x x x x x -------------|--------|------- ==PCBA==== S L -Reserved-- C/D in C/D in C/D out S E D ┌───┌─────────────────────────┐ │ I │ xxxx │ │ O │ xxxx │ │ │ CEEE │ │ C │ D123 │ │ o │ │ │ n │ │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-10 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ____Power_____ __________________Data____________________ │ │ | | | . . . . . . . . . . . . . . . . . . . | │ │ | O O O O | | 1 . . . . . . . . . . . . . . . . . . . | │ │ \______________/ |__________________ ___________________| │ │ +12 G G +5 | | ==== PCBA=========== │ │ red yellow Red stripe on ribbon cable is pin 1 │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x x x x Single Drive Master Slave x x x x x x x x x x -------------|--------|------- ==PCBA==== S L -Reserved-- A C C/D in C/D in C/D out S E C D D ┌───┌─────────────────────────┐ A/C out when master slave │ I │ xxxx | with non-CFA/CFA Conner │ O │ xxxx | drives (except CP30254 │ │ x │ and CP30344). A/C in │ C │ CAD PCBA │ with CFA/CFS and all │ o │ DCS │ other drives. │ n │ P │ │ n │ N │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-11 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ _____Power_____ │ │ │ │ Data │ │ │ O O O O │ x x x x x x x x x x x x x x x x x x x │ │ \______________/ 1 x x x x x x x x x x x x x x x x x x x │ │ +12 G G +5 ======PCBA===================== │ │ Red Yellow Red stripe on ribbon cable is pin 1 │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x Single Drive Master Slave Page 59 x x x x x x x -------------|----------|------- L --Reserved-- C/D&ACT in C/D&DSP in NONE E D ┌───┌─────────────────────────┐ │ I │ │ │ O │ PCBA │ │ │ │ │ C │ │ │ o │ x x HSP │ │ n │ x x C/D │ │ n │ x x DSP │ │ . │ x x ACT │ └───└─────────────────────────┘ FIGURE CONNER-12 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ____Power______ │ │ │ │ Data │ │ │ O O O O │ x x x x x x x x x x x x x x x x x x x │ │ \______________/ 1 x x x x x x x x x x x x x x x x x x x │ │ +12 G G +5 =======PCBA====================== │ │ Red yellow Red stripe on ribbon cable is pin 1 │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x Single Drive Master Slave x x x x x x x -------------|-----------|------- L --Reserved-- C/D in C/D&DSP in None E D ┌───┌─────────────────────────┐ │ I │ │ │ O │ │ │ │ │ │ C │ PCBA │ │ o │ │ │ n │ x x DSP │ │ n │ x x C/D │ │ . │ x x N/A │ └───└─────────────────────────┘ FIGURE CONNER-13 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ____Power_____ │ │ │ │ Data │ │ │ O O O O │ x x x x x x x x x x x x x x x x x x x │ │ \______________/ 1 x x x x x x x x x x x x x x x x x x x │ │ +12 G G +5 ====PCBA=================== │ │ Red Yellow Red stripe on ribbon cable is pin 1 │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x Single Drive Master Slave x x x x x x x -------------|--------|------- Page 60 L --Reserved-- C/D in C/D in C/D out E D ┌───┌─────────────────────────┐ │ I │ x x x x │ │ O │ x x x x │ │ │ C E E E │ │ C │ D 3 2 1 │ │ o │ │ │ n │ PCBA │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FIGURE CONNER-14 ┌──────────────────────────────────────────────────────────────────────┐ │ CONNECTORS: │ │ ______Power____ ___________________Data___________________ │ │ │ │ │ . . . . . . . . . . . . . . . . . . .│ │ │ │ O O O O │ │ 1 . . . . . . . . . . . . . . . . . . .│ │ │ \______________/ │_________________ ____________________│ │ │ +12 G G +5 │ │ ===== PCBA============ │ │ Red Yellow Red stripe on ribbon cable is pin 1 │ └──────────────────────────────────────────────────────────────────────┘ JUMPERS: x x x x x x x Single Drive Master Slave x x x x x x x x -------------|--------|------- S L --Reserved-- C/D in C/D in C/D out S E D ┌───┌─────────────────────────┐ │ I │ xxxx │ │ O │ xxxx │ │ │ CEEE │ │ C │ D321 │ │ o │ │ │ n │ PCBA │ │ n │ │ │ . │ │ └───└─────────────────────────┘ FUJITSU IDE DRIVES ABOUT FUJITSU Fujitsu Canada Telephone: (800)263-8716 (416)602-5454 FAX: (416)602-5457 M2611T 45MB CHS=667X4X33 See Figure FUJITSU-1 for switch setting information. Page 61 M2612ET 90MB CHS=667X8X33 See Figure FUJITSU-1 for switch setting information. M2613ET 135MB CHS=667X12X33 See Figure FUJITSU-1 for switch setting information. M2614ET 180MB CHS=667X16X33 See Figure FUJITSU-1 for switch setting information. M2616ET 105MB CHS=771X8X33 See Figure FUJITSU-1 for switch setting information. M2622T 327MB CHS=1013X10X63 See Figure FUJITSU-2 for switch setting information. M2623T 420MB CHS=1002X13X63 See Figure FUJITSU-2 for switch setting information. M2624T 514MB CHS=995X16X63 See Figure FUJITSU-2 for switch setting information. M2617T 105MB CHS=725X6X47 See Figure FUJITSU-3 for switch setting information. M2618T 210MB CHS=717X12X47 See Figure FUJITSU-3 for switch setting information. M1603TA 544MB CHS=1055X16X63 See Figure FUJITSU-4 for jumper setting information. M1606TA 1.08GB CHS=2111X16X63 See Figure FUJITSU-4 for jumper setting information. <<< FUJITSU FIGURES The following are drive jumper/switch setting figures for Fujitsu drives. FIGURE FUJITSU-1 o=on x=off 1234 123456 Single drive SW1 oxxo SW2 oxxxxx Master drive SW1 oxxo SW2 oxoxxx Page 62 Slave drive SW1 oxxo SW2 xooxxx FIGURE FUJITSU-2 o=on x=off 123456 Master/Single SW1 xxxxxx Slave drive SW1 xxxxox FIGURE FUJITSU-3 o=on x=off 123456 123456 Master/Single SW1 oxxoxx SW2 xxxxxx Slave Drive SW1 oxxoxx SW2 oxxxxx FIGURE FUJITSU-4 pins status function 1-2 jumper set drive to master open set drive as slave HITACHI IDE DRIVES ABOUT HITACHI Hitachi America Ltd Telephone: (408)653-0311 FAX: (408)653-0376 Hitachi America LTD Computer Division 3101 Tasman Drive Santa Clara, CA. 95054 Hitachi Europe Telephone: +44-1-628-585463 FAX: +44-1-628-585460 Whitebrook Park The Lower Cookham Road Maidenhead Berkshire United Kingdom DK212A-10 1.08GB CHS=2200X16X60 See Figure HITACHI-1 for jumper setting information. DK212A-81 811MB CHS=1650X16X60 See Figure HITACHI-1 for jumper setting information. Page 63 DK222A-54 540MB CHS=1100X16X60 See Figure HITACHI-1 for jumper setting information. DK222A-27 270MB CHS=550X16X60 See Figure HITACHI-1 for jumper setting information. <<< HITACHI FIGURES The following are drive jumpering figures for Hitachi drives. FIGURE HITACHI-1 1 C A _________________Data__________________________ │ . . . . . . . . . . . . . . . . . . . . . │ │ . . . . . . . . . . . . . . . . . . . . . . │ │_______________________________________________│ 2 D B Master Single Drive | Slave | CSEL -------------|-----------|------- A/B/C/D | A/B in | A/C in All open | | IBM IDE DRIVES ABOUT IBM IBM Europe Telephone: +44-1-705-486363 FAX: +44-1-705-498479 P.O. Box 6 Havant Hampshire PO91SA United Kingdom IBM United Kingdom Ltd Telephone: +44-1-256-343000 FAX: +44-1-256-817358 P.O. Box 117 Mountbatten House Basing View, Basingstoke Hampshire United Kingdom Page 64 0662-A10 1.05GB CHS=2037X15X63 See Figure IBM-3 for jumper setting information. DHA-2270 270MB CHS=524X16X63 See Figure IBM-1 for jumper setting information. DHA-2405 405MB CHS=785X16X63 See Figure IBM-1 for jumper setting information. DHA-2540 540MB CHS=1047X16X63 See Figure IBM-1 for jumper setting information. DSAA-3270 281MB CHS=954X16X36 See Figure IBM-2 for jumper setting information. DSAA-3360 365MB CHS=929X16X48 See Figure IBM-2 for jumper setting information. DSAA-3540 548MB CHS=1062X16X63 See Figure IBM-2 for jumper setting information. DSAA-3720 730MB CHS=1416X16X63 See Figure IBM-2 for jumper setting information. H2172-A2 172MB CHS=989X10X34 See Figure IBM-1 for jumper setting information. H2258-A3 258MB CHS=989X15X34 See Figure IBM-1 for jumper setting information. H2344-A4 344MB CHS=915X15X49 See Figure IBM-1 for jumper setting information. H3133-A2 133MB CHS=1023X15X17 See Figure IBM-2 for jumper setting information. H3171-A2 171MB CHS=984X10X34 See Figure IBM-2 for jumper setting information. H3256-A3 256MB CHS=872X16X36 See Figure IBM-2 for jumper setting information. Page 65 H3342-A4 342MB CHS=872X16X48 See Figure IBM-1 for jumper setting information. <<< IBM FIGURES The following are drive jumpering figures for IBM drives. FIGURE IBM-1 44-pin I/O Connector __ 49 47 │ o o ::::::::::::∙::::::::1 o o ══════════════╪══════════════════ │ 50 48 pin-20 removed for keying ───────────────┘ Drive is Master, no Slave drive present ────────────────── 47, 48 Drive is Master, Slave drive present ───────────────────── None Drive is set for Cable Selection ───────────────────────── 48, 50 Reserved Position (Duplex Mode) ────────────────────────── 49, 47 FIGURE IBM-2 Option Block (Top of drive near Power Connector) ┌─────┐ │ 0 0 │JP-1 ------- Master active │ 0 0 │JP-2 ------- Slave active │ 0 0 │JP-3 ------- Cable Select active │ 0 0 │JP-4 │ 0 0 │JP-5 ------- Write cache (disabled with jumper) │ 0 0 │JP-6 ------- Automatic re-allocation (disabled with jumper) │ 0 0 │JP-7 └─────┘ FIGURE IBM-3 Option Block (Located on top of drive) _________________________ ┌──┐_ | . . . . . . . . . . | │ │_ Jumper | . . . . . . . . . . | └──┘ |_______________________| │ │ │_____ Duplex │ │_______ Slave │_________ Master MAXTOR IDE DRIVES ABOUT MAXTOR Maxtor Corporation (USA) Telephone: (800)2MAXTOR (303)678-2045 FAX: (303)678-2260 Page 66 BBS: (303)678-2222 (2400 baud) (303)678-2020 (9600 baud) 211 River Oaks Parkway San Jose, CA. 95134-1913 Maxtor Europe Ltd Telephone: +44-1-483-747356 FAX: +44-1-483-751208 Unit 3, Woking Eight Forsyth Road Woking Surrey United Kingdom 2585A 81MB CHS=981X10X17 See Figure MAXTOR-2 for jumper setting information. 7040A 40MB CHS=981X5X17 See Figure MAXTOR-3 for jumper setting information. 7060A 62MB CHS=1024X7X17 See Figure MAXTOR-3 for jumper setting information. 7080A 81MB CHS=981X10X17 See Figure MAXTOR-3 for jumper setting information. 7120A 124MB CHS=1024X14X17 See Figure MAXTOR-3 for jumper setting information. 7131A 125MB CHS=1002X8X32 See Figure MAXTOR-4 for jumper setting information. 7135AV 135MB CHS=966X13X21 See Figure MAXTOR-4 for jumper setting information. 7170A 170MB CHS=984X10X34 See Figure MAXTOR-4 for jumper setting information. 7171A 171MB CHS=866X15X26 See Figure MAXTOR-4 for jumper setting information. Page 67 7213A 212MB CHS=683X16X38 See Figure MAXTOR-4 for jumper setting information. 7245A 245MB CHS=967X16X31 See Figure MAXTOR-4 for jumper setting information. 7270AV 270MB CHS=959X11X50 See Figure MAXTOR-4 for jumper setting information. 7273A 273MB CHS=1012X16X33 See Figure MAXTOR-4 for jumper setting information. 7345A 345MB CHS=790X15X57 See Figure MAXTOR-4 for jumper setting information. 7405AV 405MB CHS=989X16X50 See Figure MAXTOR-4 for jumper setting information. 7420A 420MB CHS=986X16X52 See Figure MAXTOR-4 for jumper setting information. 7425A 425MB CHS=1002X16X52 See Figure MAXTOR-4 for jumper setting information. 7540A 540MB CHS=1047X16X63 See Figure MAXTOR-4 for jumper setting information. 7546A 546MB CHS=1059X16X63 See Figure MAXTOR-4 for jumper setting information. 7850A 850MB CHS=1654X16X63 See Figure MAXTOR-4 for jumper setting information. 8051A 42MB CHS=981X5X17 See Figure MAXTOR-5 for jumper setting information. 25084A 80MB CHS=569X16X18 See Figure MAXTOR-1 for jumper setting information. 25128A 122MB CHS=981X10X17 See Figure MAXTOR-2 for jumper setting information. Page 68 25252A 240MB CHS=569X16X54 See Figure MAXTOR-1 for jumper setting information. 71050A 1.05GB CHS=2045X16X63 See Figure MAXTOR-4 for jumper setting information. 71260A 1.26GB CHS=2448X16X63 See Figure MAXTOR-4 for jumper setting information. LXT-200A 200MB CHS=816X15X32 See Figure MAXTOR-6 for jumper setting information. LXT-213A 213MB CHS=683X16X38 See Figure MAXTOR-6 for jumper setting information. LXT-340A 340MB CHS=654X16X63 See Figure MAXTOR-6 for jumper setting information. LXT-535A 528MB CHS=1024X16X63 See Figure MAXTOR-6 for jumper setting information. MXT-540AL 540MB CHS=1059X16X63 See Figure MAXTOR-7 for jumper setting information. <<< MAXTOR FIGURES The following are drive jumpering figures for Maxtor drives. FIGURE MAXTOR-1 ┌──────────────┬─┬─────────────────────┬─┬────────────┐ │ └─┘ └─┘ ═╬══│ │ ═╬══│ │ ═╬══│ │ ═╬══│ │ ┌───┐ ═╬══│ │ │ │ ═╬══│ │ └───┘ ═╬══│ │ ┌──┐ ═╬══│ │ S301 │▀▀│ ═╬══│ │ S302 │00│ ═╬══│ │ S303 │00│ ═╬══│ │ S304 │▀▀│ ═╬══│ │ ┌─┐ └──┘ ═╬══│ └──────────────┴─┴─────────────────────┴─┴────────────┘ S301 S302 S303 S304 Page 69 ───────────────────────────────────────┬────┬────┬────┬────┐ Master/Slave │ │ │ │ │ Only Drive in single drive system* │ J │ │ │ │ Master in dual drive system │ J │ │ │ │ Slave in dual drive system │ O │ │ │ │ ───────────────────────────────────────┼────┼────┼────┼────┤ Reserved for factory │ │ │ │ │ Normal operation* │ │ │ O │ O │ Factory operation │ │ │ J │ J │ ───────────────────────────────────────┼────┼────┼────┼────┤ Idle Mode Latch │ │ │ │ │ Option Disabled │ │ O │ │ │ Option Enabled* │ │ J │ │ │ ────────────────────────────────────────┴────┴────┴────┴────┘ *=Default J=Jumped O=Open FIGURE MAXTOR-2 ┌──────────────┬─┬─────────────────────┬─┬────────────┐ │ └─┘ └─┘ ═╬══│ │ ═╬══│ │ ╔══════════════╗ ═╬══│ │ ║ ┌─────┐ ║ ═╬══│ │ ║ │ 0 0 │J304 ║ ┌───┐ ═╬══│ │ ║ │ 0 0 │J305 ║ │ │ ╠══│ │ ║ │ 0 0 │J306 ║ └───┘ ═╬══│ │ ║ │ ███ │J308 ║ ┌──┐ ═╬══│ │ ║ │ 0 0 │J309 ║ │::│ ═╬══│ │ ║ │ 0 0 │J307 ╟─────>│;;│ ═╬══│ │ ║ └─────┘ ║ │::│ ║ │ │ ╚══════════════╝ └──┘ ═╬══│ │ ┌─┐ ┌─┐ ═╬══│ └──────────────┴─┴─────────────────────┴─┴────────────┘ J306 J307 J308 J309 ───────────────────────────────────────┬────┬────┬────┬────┐ Master/Slave │ │ │ │ │ Only Drive in single drive system* │ │ │ J │ │ Master in dual drive system │ │ │ J │ │ Slave in dual drive system │ │ │ O │ │ ────────────────────────────────────────┴────┴────┴────┴────┘ *=Default J=Jumped O=Open J304 & J305 reserved for future use FIGURE MAXTOR-3 JUMPER DESIGNATION │J20│J19│J18│ ┌─────────────────────────────────────┼───┼───┼───┤ │ Master/Slave │ │ │ │ │ Only drive in single drive system* │ J │ J │ │ │ Master in dual drive system │ J │ O │ │ │ Slave in dual drive system │ O │ J │ │ ├─────────────────────────────────────┼───┼───┼───┤ J=Jumpered O=Open *=Default ┌───┐ │ Page 70 Note: A spare jumper is supplied │° °│J11 │ across J13 & J14 J20 J18 J16 │° °│J13 │ ┌─┼───┼───┼─┐ │° °│J14 │ │ █ █ █ █ ° │ │° °│J15 │ │ █ █ █ █ ° │ └───┘ │ └───┼───┼───┘ │ J19 J17 │ ───────────────────────────────┘ FIGURE MAXTOR-4 │J24│J23│J22│J20│J19│J18│J17│J16│ ┌─────────────────────────────────────┼───┼───┼───┼───┼───┼───┼───┼───┤ │ Cable Select │ │ │ │ │ │ │ │ │ │ Disabled* │ O │ │ │ │ │ │ │ │ │ Enabled │ J │ │ │ │ │ │ │ │ ├─────────────────────────────────────┼───┼───┼───┼───┼───┼───┼───┼───┤ │ Write Cache │ │ │ │ │ │ │ │ │ │ Enabled* │ │ O │ │ │ │ │ │ │ │ Disabled │ │ J │ │ │ │ │ │ │ ├─────────────────────────────────────┼───┼───┼───┼───┼───┼───┼───┼───┤ │ Drive Compatibility │ │ │ │ │ │ │ │ │ │ Disabled* │ │ │ O │ │ │ │ │ │ │ Enabled │ │ │ J │ │ │ │ │ │ ├─────────────────────────────────────┼───┼───┼───┼───┼───┼───┼───┼───┤ │ Master/Slave │ │ │ │ │ │ │ │ │ │ Only drive in single drive system │ │ │ │ J │ │ │ │ │ │ Master in dual drive system │ │ │ │ J │ │ │ │ │ │ Slave in dual drive system │ │ │ │ O │ │ │ │ │ ├─────────────────────────────────────┼───┼───┼───┼───┼───┼───┼───┼───┤ │ Spare Jumper+ │ │ │ │ │ │ │ │ │ │ <11/1/93 Provided │ │ │ │ │ J │ │ │ │ │ >11/1/93 Not Provided │ │ │ │ │ O │ │ │ │ └─────────────────────────────────────┴───┴───┴───┴───┴───┴───┴───┴───┘ J=Jumpered O=Open *=Default +=Manufacture Date FIGURE MAXTOR-5 MAXTOR 8051A IDE Drive 8051A DUAL DRIVE SUPPORT The 8051A operates in a MASTER SLAVE relationship. This enables the 8051A to be daisy-chained with another IDE drive (i.e. 7080A, 7040A, or another 8051A). 1: Jumpering J4.1 to J4.2 causes the 8051A to operate in the SLAVE role. 2: Jumpering J4.5 to J4.6 causes the 8051A to operate in the MASTER role. 3: Jumpering J4.3 to J4.4 This allows the 8051A to be compatable with some BIOS versions that cannot support 1:1 interleave. This jumper should not be installed under normal conditions. Page 71 4: Jumper J4.7 to J4.8 is not used and should not be installed. 5: Jumpering J4.9 to J4.10 enables the I/O ready signal onto the interface connector, pin 27. To operate the 8051A as the ONLY DRIVE in a system, J4.1 thru J4.10 should all be open (not jumpered) except as noted below. NOTE: The 8051A may be shipped with a jumper across J4.1 and J4.3 this jumper has no effect but provides you with a spare. FIGURE MAXTOR-6 LXT-xxxA PCB Layout ┌────┬─────────┐ ┌──┐ ┌──────────┐ ┌───┐ ┌─────────┐ ┌─┐ ┌──────────┐ │ │ └─┘ └──┘ └──┘ └────┘ └──┘ └──┘ │ │ J3 │ ╔══════════════════════╗ │ │ │ J6 ║ 9 7 5 3 1 ║ │ └───┬┘ ┌─────┐ ║ ┌────────────────┐ ║ ┌─┬─┼ ┌───┴┐ │:::|:│<────────╢ │ * * * █ * │ ║ │ ├─┼ │ ├ └─────┘ ║ │ * * * █ * │ ║ J5 │ ├─┼ │ ├ ║ └────────────────┘ ║ │ ├─┼ │ ├ ║ 10 8 6 4 2 ║ └─┴─┼ │ ├ ╚══════════════════════╝ ┌─┬─┼ │ ├ │ ├─┼ │ J1 ├ │ ├─┼ │ ├ J2 │ ├─┼ │ ├ │ ├─┼ │ ├ │ ├─┼ │ ├ │ ├─┼ │ ├ └─┴─┼ │ ├ ┌─┬─┼ └───┬┘ J4 │ ├─┼ │ ┌─┐ To attach an external LED, use pins 9-10───────> └─┴─┼ └──────┘ │ ┌──┘ ┌────────┘ └──┐ └──────────────────────────────────────────────────────────────────────┘ LXT-A Jumper Designations │1-2│3-4│5-6│7-8│9-10│ ┌───────────────────────────────────┼───┼───┼───┼───┼────┤ │ Master/Slave │ │ │ │ │ │ │ Only drive in single drive sys │ R │ │ │ │ │ │ Master in dual drive system │ R │ │ │ │ │ │ Slave in dual drive system │ J │ │ │ │ │ ├───────────────────────────────────┼───┼───┼───┼───┼────┤ │ Drive Active (System LED) │ │ J │ │ │ │ ├───────────────────────────────────┼───┼───┼───┼───┼────┤ │ Slave Present │ │ │ │ │ │ │ One drive in single drive sys │ │ │ R │ │ │ │ Master in dual drive system │ │ │ R │ │ │ │ Slave in dual drive system │ │ │ O │ │ │ ├───────────────────────────────────┼───┼───┼───┼───┼────┤ Page 72 │ Two Drive System │ │ │ │ │ │ │ One drive in single drive sys │ │ │ │ R │ │ │ Master in dual drive sys │ │ │ │ J │ │ │ Slave in dual drive sys │ │ │ │ R │ │ ├───────────────────────────────────┼───┼───┼───┼───┼────┤ │ Sync Spindle Pulse Source │ │ │ │ │ │ │ If receiving pulse │ │ │ │ │ R │ │ If transmitting pulse* │ │ │ │ │ J │ └───────────────────────────────────┴───┴───┴───┴───┴────┘ J=Jumpered R=Removed O=Optional *=This jumper may only be used only on one drive in an array FIGURE MAXTOR-7 ┌─────┬────────────────────────────────────────────────────────────────┐ │ .│ Pin 1 ═ J5 │ J3 │ 3 1 9 7 5 3 1 ═ │ │ ┌───────┐ ┌─────────────────┐ ═ │ │ JP1│ : : │ │ : █ : : : │ J6 │ ├─────┘ └───────┘ └─────────────────┘ │ ├─────┐ 4 2 10 8 6 4 2 ═ │ .│═ Pin 1 * ═ J2 │ │═ ═ │ │═ ═ │ │═ │ │ J1 │═ │ │ │═ ═ J4 │ │═ ┌──┐ ═ │ │═ │..│ ═ │ │═ │..│ │ └─────┘ │..│ │ ┌─────┐ │..│ │ │ J7 │═ █ │--│ │ │ │═ JP4 └──┘ │ │ .│═ Pin 1 JP5 │ └─────┘────────────────────────────────────────────────────────────────┘ * J6 pins 7-8 default setting Newer PCBs are different, they have JP5 (5 pair) instead of JP4 (1 pair) Jumper Block J6 ┌───────────────────────────────┬───────────┐ │ DESCRIPTION │ PINS │ ├───────────────────────────────┼───────────┤ │ Master = Open │ 1-2 │ │ Slave = Jumper │ │ │ Only Drive = Open │ │ ├───────────────────────────────┼───────────┤ │ Normal Self Test = Open │ 3-4 │ │ Extended Self Test = Jumper │ │ ├───────────────────────────────┼───────────┤ │ Disable Spindle Sync= Open │ 5-6 │ │ Enable Spindle Sync = Jumper │ │ ├───────────────────────────────┼───────────┤ │ Default Setting = Jumped │ 7-8 * │ This jumper can be used Page 73 ├───────────────────────────────┼───────────┤ for Slave configuration │ Termination Reference Pulse │ 9-10 │ on pins 1-2 │ Applied = Jumper │ │ │ Not Applied = Open │ │ └───────────────────────────────┴───────────┘ JP4 ┌──────────────────────────────────────┬──────┐ │ Write Protect Jumper │ │ ├──────────────────────────────────────┼──────┤ │ Enables Writing to Drive │ J* │ │ │ │ │ Disables Writing to Drive │ R │ └──────────────────────────────────────┴──────┘ or JP5 pins 9-10 ┌──────────────────────────────────────┬──────┐ │ Write Protect Jumper │ │ ├──────────────────────────────────────┼──────┤ │ Enables Writing to Drive │ J* │ │ │ │ │ Disables Writing to Drive │ R │ └──────────────────────────────────────┴──────┘ J = Jumped R = Removed * = Default Setting MICROPOLIS IDE DRIVES ABOUT MICROPOLIS Micrpoplis Corporation Telephone: (818)709-3300 Technical Support: (818)847-8153 FAX: (818)718-5352 BBS: (818)709-3310 21123 Nordhoff Street Chatsworth, Ca. 91311 Micropolis Ltd Telephone: +44-1-734-751315 FAX: +44-1-734-868168 4 Worton Drive Worton Grange Reading Berkshire United Kingdom 2105A 558MB CHS=1083X16X63 See Figure MICROPOLIS-1 for jumper setting details Page 74 2112A 1.04GB CHS=2034X16X63 See Figure MICROPOLIS-2 for jumper setting details 2205A 540MB CHS=1050X16X63 See Figure MICROPOLIS-1 for jumper setting details 2210A 975MB CHS=1891X16X63 See Figure MICROPOLIS-2 for jumper setting details 2217A 1.62GB CHS=3152X16X63 See Figure MICROPOLIS-2 for jumper setting details <<< MICROPOLIS FIGURES The following are jumpering figures for Micropolis drives. FIGURE MICROPOLIS-1 ____ _______________________ ________ | J2 | | J1 | | J3 | | |_|_______________________|_|________| | | | RESERVED | | | | | | | : : : : : | | | | | | W1 | | | W2 | | | | LED | |________||_______________________________| W1, W2 Jumpers (Master / Slave Selection) The interface allows up to two drives (a Master and one Slave) to be attached to the AT/IDE bus. The following table shows the configurations. W1 W2 Description +------+------+-------------------------------------------------------+ | OUT | IN | Drive is Master, Slave is present | +------+------+-------------------------------------------------------+ | IN | OUT | Drive Slave | +------+------+-------------------------------------------------------+ | OUT | OUT | Drive is Master | +------+------+-------------------------------------------------------+ FIGURE MICROPOLIS-2 ____ _______________________ ________ | J2 | | J1 | | J3 | | |_|_______________________|_|________| | | Page 75 | RESERVED | | | | | | | : : : : : | | | | | | W1 | | | W2 | | | | LED | |________||_______________________________| W1, W2 Jumpers (Master / Slave Selection) The interface allows up to two drives (a Master and one Slave) to be attached to the AT/IDE bus. The following table shows the configurations. W1 W2 Description +------+------+-------------------------------------------------------+ | IN | IN | Drive emulates *both* Master and Slave (DEFAULT) | +------+------+-------------------------------------------------------+ | OUT | IN | Drive is Master, Slave is present | +------+------+-------------------------------------------------------+ | IN | OUT | Drive Slave | +------+------+-------------------------------------------------------+ | OUT | OUT | Drive is Master | +------+------+-------------------------------------------------------+ NEC IDE DRIVES D3735 45MB CHS=1084X2X41 See Figure NEC-1 for jumper setting information D3755 105MB CHS=1250X4X41 See Figure NEC-1 for jumper setting information D3741 45MB CHS=423X8X26 See Figure NEC-2 for jumper setting information D3756 104MB CHS=1250X4X41 See Figure NEC-1 for jumper setting information D3761 115MB CHS=915X7X35 See Figure NEC-3 for jumper setting information D3781 425MB CHS=1464X9X63 See Figure NEC-3 for jumper setting information <<< NEC FIGURES The following are drive jumpering figures for NEC drives. Page 76 FIGURE NEC-1 JP12 JP13 Single drive open open Master drive closed open Slave drive closed closed FIGURE NEC-2 J1 jumper 2 jumper 3 Single drive open open Master drive closed open Slave drive closed closed FIGURE NEC-3 JP1 jumper 1 jumper 2 Single drive closed open Master drive closed open Slave drive open closed QUANTUM IDE DRIVES ABOUT QUANTUM Quantum Peripherals (USA) Technical Support: (800)826-8022 BBS: (408)894-3214 FAX Back: (800)4DISKFAX Quantum Peripherals Ltd Telephone: +44-1-344-865600 Technical Support: +44-1-344-865660 BBS: +49-69-950-76745 FAX Back: +49-69-950-76779 Quantum House Unit 5 Braknell Beeches Old Bracknell Lane West Bracknell United Kingdom 120AT 120MB CHS=814X9X32 See Figure QUANTUM-1 for jumper setting information. 170AT 170MB CHS=968X10X34 See Figure QUANTUM-1 for jumper setting information. Page 77 210AT 210MB CHS=873X13X36 See Figure QUANTUM-1 for jumper setting information. 425AT 425MB CHS=1021X16X51 See Figure QUANTUM-1 for jumper setting information. 425IAT 425MB CHS=1021X16X51 See Figure QUANTUM-1 for jumper setting information. ELS 42AT 42MB CHS=977X5X17 See Figure QUANTUM-1 for jumper setting information. ELS 85AT 85MB CHS=977X10X17 See Figure QUANTUM-1 for jumper setting information. ELS 127AT 127MB CHS=919X16X17 See Figure QUANTUM-1 for jumper setting information. ELS 170AT 170MB CHS=1011X15X22 See Figure QUANTUM-1 for jumper setting information. FB 540 544MB CHS=1056X16X63 See Figure QUANTUM-1 for jumper setting information. FB 1080 1.08GB CHS=2122X16X63 See Figure QUANTUM-1 for jumper setting information. LPS 52AT 50MB CHS=751X8X17 See Figure QUANTUM-1 for jumper setting information. LPS 80AT 80MB CHS=616X16X17 See Figure QUANTUM-1 for jumper setting information. LPS 105AT 105MB CHS=755X16X17 See Figure QUANTUM-1 for jumper setting information. LPS 120AT 120MB CHS=901X5X53 See Figure QUANTUM-1 for jumper setting information. LPS 170AT 170MB CHS=1011X15X22 See Figure QUANTUM-1 for jumper setting information. Page 78 LPS 210AT 210MB CHS=873X13X36 See Figure QUANTUM-1 for jumper setting information. LPS 240AT 240MB CHS=723X13X51 See Figure QUANTUM-1 for jumper setting information. LPS 270AT 270MB CHS=944X14X40 See Figure QUANTUM-1 for jumper setting information. LPS 340AT 340MB CHS=1011X15X44 See Figure QUANTUM-1 for jumper setting information. LPS 420AT 420MB CHS=1010X16X51 See Figure QUANTUM-1 for jumper setting information. LPS 525AT 525MB CHS=1017X16X63 See Figure QUANTUM-1 for jumper setting information. LPS 540AT 540MB CHS=1120X16X59 See Figure QUANTUM-1 for jumper setting information. LT 365 365MB CHS=976X12X61 See Figure QUANTUM-1 for jumper setting information. LT 540 540MB CHS=1120X16X59 See Figure QUANTUM-1 for jumper setting information. LT 730 730MB CHS=1416X16X63 See Figure QUANTUM-1 for jumper setting information. MV 270 270MB CHS=944X14X40 See Figure QUANTUM-1 for jumper setting information. MV 540 540MB CHS=1059X16X63 See Figure QUANTUM-1 for jumper setting information. TR 420 420MB CHS=1010X16X51 See Figure QUANTUM-1 for jumper setting information. TR 850 850MB CHS=1647X16X63 See Figure QUANTUM-1 for jumper setting information. Page 79 <<< QUANTUM FIGURES The following are drive jumpering figures for Quantum drives. FIGURE QUANTUM-1 Install jumpers on the jumper block as follows: Master / No slave present - DS Master / Slave present - DS or DS, SP Slave - None SAMSUNG IDE DRIVES ABOUT SAMSUNG Samsung (USA) Technical Support: (800)SAMSUNG Samsung (Canada) Technical Support: (201)691-6200 3062 121MB CHS=927X15X17 See Figure SAMSUNG-1 for jumper setting details 3122 251MB CHS=937X15X35 See Figure SAMSUNG-1 for jumper setting details 3171 178MB CHS=968X8X45 See Figure SAMSUNG-1 for jumper setting details 3172 356MB CHS=968X16X45 See Figure SAMSUNG-1 for jumper setting details 3211 213MB CHS=1002X8X52 See Figure SAMSUNG-1 for jumper setting details 3212 426MB CHS=1002X16X52 See Figure SAMSUNG-1 for jumper setting details 30280 280MB CHS=1024X8X63 See Figure SAMSUNG-1 for jumper setting details Page 80 30560 560MB CHS=1024X16X63 See Figure SAMSUNG-1 for jumper setting details <<< SAMSUNG FIGURES The following are drive jumpering figures for Samsung drives. FIGURE SAMSUNG-1 Master / No Slave present - CD Master / Slave present - CD, DSP Slave - None SEAGATE IDE DRIVES ABOUT SEAGATE Seagate Technology, Inc. (USA) Technical Support: (408)438-8222 BBS: (408)438-8771 FAX Back: (408)438-2620 TDD: (408)438-5382 920 Disc Drive Scotts Valley, CA 95066, U.S.A. Seagate Technology UK Telephone: +44-1-628-890656 BBS: +44-1-628-478011 FAX Back: +44-1-628-477080 Angler's Court Marlow Buckinghamshire SL71DB United Kingdom Other BBS's Germany: +49-89-140-9331 Singapore: +65-292-6973 Australia: +61-2-756-2359 ST-125A 21MB CHS=404X4X26 See Figure SEAGATE-3 for jumper setting details ST-138A 32MB CHS=604X4X26 Page 81 See Figure SEAGATE-3 for jumper setting details ST-157A 44MB CHS=560X6X26 See Figure SEAGATE-3 for jumper setting details ST-274A 63MB CHS=941X5X26 See Figure SEAGATE-5 for jumper setting details ST-280A 71MB CHS=516X10X17 See Figure SEAGATE-5 for jumper setting details ST-1057A 53MB CHS=1024X6X17 See Figure SEAGATE-12 for jumper setting details ST-1090A 79MB CHS=335X5X29 See Figure SEAGATE-2 for jumper setting details ST-1102A 89MB CHS=1024X10X17 See Figure SEAGATE-1 for jumper setting details ST-1111A 98MB CHS=536X10X36 See Figure SEAGATE-2 for jumper setting details ST-1126A 111MB CHS=469X16X29 See Figure SEAGATE-2 for jumper setting details ST-1133A 117MB CHS=636X10X36 See Figure SEAGATE-2 for jumper setting details ST-1144A 130MB CHS=1001X15X17 See Figure SEAGATE-1 for jumper setting details ST-1156A 138MB CHS=536X14X36 See Figure SEAGATE-2 for jumper setting details ST-1162A 143MB CHS=603X16X29 See Figure SEAGATE-2 for jumper setting details ST-1186A 164MB CHS=636X14X36 See Figure SEAGATE-2 for jumper setting details Page 82 ST-1201A 177MB CHS=804X12X36 See Figure SEAGATE-2 for jumper setting details ST-1239A 211MB CHS=814X14X36 See Figure SEAGATE-2 for jumper setting details ST-2274A 241MB CHS=873X10X54 See Figure SEAGATE-4 for jumper setting details ST-2383A 338MB CHS=873X14X54 See Figure SEAGATE-4 for jumper setting details ST-3051A 43MB CHS=820X6X17 See Figure SEAGATE-6 for jumper setting details ST-3096A 89MB CHS=1024X10X17 See Figure SEAGATE-6 for jumper setting details ST-3120A 107MB CHS=1024X12X17 See Figure SEAGATE-6 for jumper setting details ST-3123A 106MB CHS=1024X12X17 See Figure SEAGATE-7 for jumper setting details ST-3144A 130MB CHS=1001X15X17 See Figure SEAGATE-6 for jumper setting details ST-3145A 130MB CHS=1001X15X17 See Figure SEAGATE-7 for jumper setting details ST-3195A 170MB 981X10X34 See Figure SEAGATE-7 for jumper setting details ST-3243A 214MB CHS=1024X12X34 See Figure SEAGATE-7 for jumper setting details ST-3283A 245MB CHS=978X14X35 See Figure SEAGATE-8 for jumper setting details ST-3290A 261MB CHS=1001X15X34 See Figure SEAGATE-7 for jumper setting details Page 83 ST-3385A 340MB CHS=767X14X62 See Figure SEAGATE-8 for jumper setting details ST-3491A 4281MB CHS=891X15X62 See Figure SEAGATE-7 for jumper setting details ST-3500A 525MB CHS=895X15X62 See Figure SEAGATE-9 for jumper setting details ST-3550A 452MB CHS=1018X14X62 See Figure SEAGATE-8 for jumper setting details ST-3655A 528MB CHS=1024X16X63 See Figure SEAGATE-8 for jumper setting details ST-3660A 545MB CHS=1057X16X63 See Figure SEAGATE-7 for jumper setting details ST-3780A 722MB CHS=1399X16X63 See Figure SEAGATE-13 for jumper setting details ST-31220A 1.08GB CHS=2099X16X63 See Figure SEAGATE-13 for jumper setting details ST-5660A 545MB CHS=1057X16X63 See Figure SEAGATE-10 for jumper setting details ST-5850A 854MB CHS=1656X16X63 See Figure SEAGATE-14 for jumper setting details ST-9051A 42MB CHS=820X6X17 See Figure SEAGATE-11 for jumper setting details ST-9052A 42MB CHS=980X5X17 See Figure SEAGATE-11 for jumper setting details ST-9077A 64MB CHS=669X11X17 See Figure SEAGATE-11 for jumper setting details ST-9080A 64MB CHS=823X4X38 See Figure SEAGATE-11 for jumper setting details Page 84 ST-9096A 85MB CHS=980X10X17 See Figure SEAGATE-11 for jumper setting details ST-9140AG 127MB CHS=980X15X17 See Figure SEAGATE-11 for jumper setting details ST-9144A 130MB CHS=980X15X17 See Figure SEAGATE-11 for jumper setting details ST-9145AG 127MB CHS=980X15X17 See Figure SEAGATE-11 for jumper setting details ST-9150AG 131MB CHS=419X13X47 See Figure SEAGATE-11 for jumper setting details ST-9190AG 171MB CHS=873X16X24 See Figure SEAGATE-11 for jumper setting details ST-9235A 209MB CHS=985X13X32 See Figure SEAGATE-11 for jumper setting details ST-9550AG 455MB CHS=942X16X59 See Figure SEAGATE-11 for jumper setting details ST-9655AG 524MB CHS=1016X16X63 See Figure SEAGATE-11 for jumper setting details <<< SEAGATE FIGURES The following are drive jumpering figures for Seagate drives. FIGURE SEAGATE-1 ═══PWA═════════════════════════════════════════════════════ ┌....................┐ /─────────\ ...................1 │ O O O O │ 1 o o 2 ────────┐ └ Cable Connector └─5─G─G─12┘ 3 o o 4 ──────┐ │ 5 o o 6 ────┐ │ │ 7 o o 8 ──┐ │ │ │ 9 o o 10 ┐ │ │ │ │ 1=closed 0=open │ │ │ │ └── Life-Test (Factory use) │ │ │ └──── Master on (Slave off) ──── 1 1 0 │ │ └────── Slave Present ──────────── 0 1 0 │ └──────── Reserved Page 85 └────────── Remote LED S M S i a l n s a g t v l e e e r FIGURE SEAGATE-2 ┌───\ │ O │ 5 │ O │ G ┌─┐ Some have │ O │ G AT (IDE) Cable │ ├─ these pins │ O │ 12 1┌........................┐ o o o o o(o o) 6 off └───/ ........................ o o o o o(o o) 7 off ═══════════════════════════════════════════════════════ 1 2 3 4 5 6 7 ON OFF │ │ │ │ │ └┬┘ 1 Slave Master ──┘ │ │ │ │ │ 2 5 Heads 7/9 Heads ────┘ │ │ │ │ 3 Slave installed Slave not inst. ──────┘ │ │ │ 4 7 byte ECC 4 byte ECC ────────┘ │ │ 5 Factory test Normal Oper. ──────────┘ │ 6/7 Some PWA's have these pins, factory use ───────┘ FIGURE SEAGATE-3 /───────\ 6-pin jumper version │O O O O│ └5─G─G─12 ═══════╤═════════════════════╤═══════════ o o o │::::::::::::::::::::1│ o o o ╘═════════════════════╛ │ │ │ │ 0 1 Single Drive 0=open │ 1 1 Dual-Drive Master 1=closed │ 1 0 Dual-Drive Slave │ └───── Optional External LED /───────\ 10-pin jumper version │O O O O│ └5─G─G─12 ═══════════╤═════════════════════╤═══════════ o o o o o │::::::::::::::::::::1│ o o o o o ╘═════════════════════╛ │ │ │ │ │ │ │ │ │ └ LT (Life Test, factory use only) │ │ 0 1 Single Drive 0=open │ │ 1 1 Dual-Drive Master 1=closed │ │ 0 0 Dual-Drive Slave │ └───── EWS (factory use only) Page 86 └─────── Active Busy (Optional External LED) FIGURE SEAGATE-4 ┌────────────────────┐ /───────\ ═══╡1::AT:(IDE):Cable:::╞══════════════════════════╡O O O O╞══ └────────────────────┘ o o o o o o o └───────┘ o o o o o o o 5 G G 12 G F E D C B A A B 0 0 Factory use only 0 1 Drive is Slave, motor start delay 20 sec from master start-up 1 0 Drive is Slave, no motor start delay 1 1 Drive is Master, motor starts at application of DC power C D 0 0 Physical mode 0 1 Translate (logical) mode, sparing scheme is one sector 1 0 Translate (logical) mode, no sparing space allocated 1 1 Factory use only E 0 Slave present, only meaningful on master 1 No Slave present F G x x Factory test, position G may or may not be present by PWA FIGURE SEAGATE-5 ┌──Master on /Slave off │ ┌─────────┐ │┌ Leave as is│ O O O O │ Power 1 J3 ││ 1 J2 \─────────/ :::AT:(IDE):Cable::::::::::::::: :: ::::::::: 12 G G 5 ═══════════════════════════════════════════════════════════ │ │ │ For "non-C" model, jumper, if present, │ │ must remain on. Drive will not operate └──┤ properly if jumper is removed (or added │ if not originally there). │ │ For "C" model, jumper on indicates No │ Slave Present; jumper off means Slave │ Drive Is Present. └──────────────────────── Note: There are two different revisions of the ST280A 1. If you have a 94204-xxC, then you can connect two different model drives on the same host adapter. (i.e. a 94204-xxC and a 94354-xxx drive) 2. If you do not have a "C" after the model number, then you can only connect two similar Wren 2 94204-xx model drives. FIGURE SEAGATE-6 4-pin DC Page 87 3-pin DC Power Power ╒══════════ ═════════╕/─4─3─2─1─\ ═╤═G═12═5╤╡::::::::::∙::::::::1╞│ 0 0 0 0 ╞═ │ 0 0 0 │╘══════════╤═════════╛└─5─G─G─12┘ ╘═3═2═1═╛ (pin-20 missing for keying purposes) User Configuration Block │ (located behind 3-pin DC) └───────┬────────────────── │ 1= On, 0= Off (back of drive) 2 o-o 1 ─── Life Test (do not use) 4 o-o 3 ─── Master on (Slave off)─── 1 1 0 6 o-o 5 ─── Slave Present ────────── 0 1 0 8 o-o 7 ─── Reserved (front of drive) 10 o-o 9 ─── Active LED S M S i a l n s a g t v l e e e r FIGURE SEAGATE-7 4-pin DC TOP Power ╒══════════ ═════════╕/─4─3─2─1─\ ═══════╡::::::::::∙::::::::1╞│ 0 0 0 0 ╞═ ╘══════════╤═════════╛└─5─G─G─12┘ (pin-20 missing for keying purposes) (back of drive) 2o-o1 ────────┐ o-o ──────┐ │ o-o ────┐ │ │ (Options jumper located on bottom) 8o-o7 ──┐ │ │ │ (front of drive) │ │ │ │ │ │ │ └── Master OFF, Slave ON ───── 0 0 1 │ │ └──── Slave Present ON ───────── 0 1 0 │ └────── Factory Test │ │ │ │ (do not use) S M S └──────── Reserved i a l n s a g t v l e e e r FIGURE SEAGATE-8 Rear View Mini Power ┌─ 40 pin AT Interface I/O connector Connector │ ┌─┴─┐ │ (TOP) DC power Page 88 │o o│ 5 G ╒══════════ ═════════╕ /─5─G─G─12\ ═╡o o╞╡0 0 0╞═╡::::::::::·::::::::1╞═╡ 0 0 0 0 ╞═ ...─┐ │ │ 12 ╘══════════│═════════╛ └─────────┘ │ │ │ (BOTTOM) └(pin 20 missing for (Factory test jumper │ │ keying purposes) block located at side) │ │ OFF OFF Drive is Master (single) OFF ON Drive is Master with Slave present (dual) ON OFF Drive is Slave (dual) ┌──────── Spindle Clock to I/O pin-28 Front View │ ┌────── Ext. Spindle Clock Synch 8 │ (see note below) (TOP) o o o o-o o o+ ════ o ═ o o o o o-══════════════════════════ (BOTTOM) 1└───┬─┘ │ │ │ │ │ │ └── Remote LED │ │ └──── Reserved │ └────── Clock Ground for Ext. SPSYNC │ ┌ Reserved └─────────┤ Reserved │ Reserved pin-3 removed for key └ Reserved Spindle Sync note: Enable pin-28 (SPSYNC-) of the AT interface connector by installing a jumper on pins 8 and 10 of the options jumper block. Connect a twisted pair to pins 9 and 10 of the options jumper block to transmit and receive SPSYNC-. FIGURE SEAGATE-9 J5 Drive ID Select and │ │ J6 (located on side Configuration Select Header│ │ near rear) ──────────────────────┬────┘ └──────────┬───────── │ o o o1 │ +5v ---o o o 40-pin I/O Cable Connector │ ════════ ╒════════════════════╕ o o o o o1 1 2 3 J1│::::::::::∙::::::::1│ /─────────\ o o o o o Remote LED├┘ │ └┤Reserved ═╧══════════╤═════════╧═│ 0 0 0 0 │═══════════ Connection┘ └──┤Jumper (pin 20 missing for └─5─G─G─12┘ (see below)─┐ └Position keying purposes) DC Power ┌────────┘ │ ┌─J5─────────────────┴────────────┐ │ ┌─┐ ┌─┐ ┌─┐ 1 │ │ │o│ o-C┤o├E┤o├G-o │ │ │o├B-o │o│ │o│ o │ │ └A┘ └D┘ └F┘ H │ │ ══════════════════════════ │ └──Defaults shown in solid lines──┘ J5 Jumper Funtion Description (* indicates default) ────────────────────────────────────────────────────── A B (A=vertical, pins 9 & 10; B=horizontal, pins 8 & 10) Page 89 OFF OFF Drive is the slave (Drive 1). OFF ON Drive is the master (Drive 0) with slave (Drive 1) present. ON* OFF Drive s the master (Drive 0). C (C=horizontal, pins 5 & 7) ON Slave (Drive 1) Present is connected to J1 pin 39. Jumpers "D" or "E" cannot be installed if jumper "C" is installed. D (D=vertical, pins 5 & 6) ON* DASP- is connected to J1 pin 39. Jumpers "C", "D", "F", or "G" cannot be installed if jumper "E" is installed. OFF REFSIG is not connected to J1 pin 39. E (E=horizontal, pins 3 & 5) ON REFSIG is connected to J1 pin 39. Jumpers "C", "D", "F", or "G" cannot be installed if jumper "E" is installed. OFF REFSIG is not connected to J1 pin 39. F (F=vertical, pins 3 & 4) ON* No external reference for REFSIG. Jumpers "E", "G", or "H" cannot be installed if jumper "F" is installed. OFF This location provides a port for external connection of the synchronized spindle reference signal (pin 3) and ground (pin 4). G (G=horizontal, pins 1 & 3) ON REFSIG is connected to J1 pin 28. Jumpers "E" or "F" cannot be installed if jumper "G" is installed. OFF REFSIG is not connected to J1 pin 28. H (H=vertical, pins 1 & 2) ON Drive implements "CSEL" (Cable Select line in I/O connector) feature. Implementation not defined yet. Jumpers A and B not used if jumper H is on. (This jumper is mutually exclusive with jumper "G"). OFF* Drive select is based on use of jumper A or B. J6 Jumper Funtion Description (2x3 jumper block) ------------------------------------------------- 1 Remote LED connection. Pin 6 is connected to +5v through a 147 ohm resistor. Pin 5 is the LED driver. 2 Reserved jumper position. 3 Reserved jumper position. FIGURE SEAGATE-10 ╔═══════════╗ ║ REAR VIEW ║ Page 90 ╚═══════════╝ 40 pin I/O Cable Connection │ J1 ╒═════════ ═════════╕ /─────────\ TOP (HDA) ══════╡::::::::::·::::::::1╞═│ 0 0 0 0 │══ ╘══════════│═════════╛ └─5─G─G─12┘ BOTTOM │ └─── pin-20 removed ╔══════════════╗ ║ Front View ║ ╚══════════════╝ ┌──────────────────── Slave drive (off for Master) │ ┌────────────────── Slave Present (used on Master) │ │ ┌──────────────── Cable Select │ │ │ ┌────────────── Ext. Spindle Clock Synch (TOP) │ │ │ │ ┌──────────── Remote LED │ │ │ │ │ ┌────────── Reserved │ │ │ │ │ │ ┌─pin-16 ┌34 J8 o o o o o o o o o o o o o o o o Option Block ═1o o o o o o o o o o o o o o o o o═══════PWA══════════ │ └──┬──────────────┘ (BOTTOM) │ │ pin-14 removed ──┘ │ Reserved ───────┘ Jumpers on 15-16, 21-22, 23-24 are spares. Cable Select also requires Slave and Slave Present jumpers ON. FIGURE SEAGATE-11 ┌─ 44-pin I/O Connector (* see below) │ o o ::::::::::::∙::::::::1 o o ═P═W═A═══════════╪══════════════════ │ │ │ pin-20 removed for keying ───────────────┘ │ │ │ │ │ │ Drive is Master, no Slave drive present ────────────────── 0 0 Drive is Master, Seagate Slave drive present ───────────── 1 0 Drive is Slave to another ST9xxxA/ST9xxxA Master ───────── 0 1 Reserved Position (Do Not Use) ─────────────────────────── 1 1 * Drive uses +5vdc power supplied to the drive via the interface connector. The drive does NOT make use of a +12vdc power line. pin-41 +5vdc (Logic) pin-42 +5vdc (Motor) pin-43 Ground pin-44 Reserved FIGURE SEAGATE-12 ═══PWA═════════════════════════════════════════════════════ ┌....................┐ /─────────\ Page 91 ...................1 │ O O O O │ 1 o o 2 ────────┐ └ Cable Connector └─5─G─G─12┘ 3 o o 4 ──────┐ │ 5 o o 6 ────┐ │ │ 7 o o 8 ──┐ │ │ │ 9 o o 10 ┐ │ │ │ │ │ │ │ │ └── Life-Test (Factory use) │ │ │ └──── Master * │ │ └────── Slave Present (on Master only) * │ └──────── Reserved └────────── Remote LED * No jumpers if unit is Slave FIGURE SEAGATE-13 ╔═══════════╗ ║ REAR VIEW ║ ╚═══════════╝ 40 pin I/O Cable Connection J1 2o o │ 1o o ╒═════════ ═════════╕ /─────────\ TOP (HDA) ═╪═╪══╡::::::::::·::::::::1╞═│ 0 0 0 0 │══ │ │ ╘══════════│═════════╛ └─5─G─G─12┘ BOTTOM │ │ │ │ │ └─── pin-20 removed │ │ OFF OFF -- One drive only ON OFF -- Drive is slave OFF ON -- Drive is Master with slave present ON ON -- Cable Select (must also jumper pins 6 and 8 on J8) SPARE -- stored on pins 1-3 ╔══════════════╗ ║ Front View ║ ╚══════════════╝ ┌───────────── Spare - as shipped │ ┌──────── Cable Select pins 6-8 (TOP) │ │ ┌──── Reserved │ │ │ ┌─ Remote LED 13-, 14+ │ │ ┌┴┐ │ J8 o o o┴o o o o14 Option Block ════════1o o o o o o ═══════════════════PWA══════════ │ (BOTTOM) └── pin 3 missing Cable Select also requires Slave and Slave Present jumpers ON. ╔═════════════════╗ ║ RIGHT SIDE VIEW ║ ╚═════════════════╝ ┌─── J6 Dual Drive emulation pins 1-2 AND pins 3-4 Page 92 │ (spare jumper stored on pins 1-3, as shipped) 2o o BACK ╒═╕ 1o o TOP (HDA) FRONT OF ╞══════════════════════P═W═A═══════════════════════ OF DRIVE ╘═╛ BOTTOM DRIVE Note: If the Dual Drive Emulation jumper is used, then TWO CMOS drive types will be required and only ONE drive per cable is allowed. FIGURE SEAGATE-14 ╔═══════════╗ ║ REAR VIEW ║ ╚═══════════╝ 40 pin I/O Cable Connection │ J1 ╒═════════ ═════════╕ /─────────\ TOP (HDA) ══════╡::::::::::·::::::::1╞═│ 0 0 0 0 │══ ╘══════════│═════════╛ └─5─G─G─12┘ BOTTOM │ └─── pin-20 removed ╔══════════════╗ ║ Front View ║ ╚══════════════╝ ┌──────────────────── Slave drive ON (OFF for Master) │ ┌────────────────── Slave Present (used on Master) │ │ ┌──────────────── Cable Select │ │ │ ┌────────────── Ext. Spindle Clock Synch (TOP) │ │ │ │ ┌──────────── Remote LED (9-, 10+) │ │ │ │ │ ┌────────── Reserved │ │ │ │ │ │ ┌─pin-16 ┌34 J8 o o o o o o o o o o o o o o o o Option Block ═1o o o o o o o o o o o o o o o o o═══════PWA══════════ │ │ └┬┘ └┬┘ └──┬────┘ (BOTTOM) │ │ │ │ │ pin-14 removed ──┘ │ │ │ └──── Reserved Spare Jumper ────┘ │ └────────── Spare Jumpers Dual-Drive Emulation ───────┘ (requires two jumpers) Jumpers on 15-16, 21-22, 23-24 are spares. Dual-Drive Emulation requires jumpers on both 17-18 and 19-20. Cable Select also requires Slave and Slave Present jumpers ON. TOSHIBA IDE DRIVES ABOUT TOSHIBA Toshiba (USA) Technical Support: (714)455-0407 MK 1522FCV 126MB CHS=812X8X38 Page 93 See Figure TOSHIBA-1 for jumper setting information. MK 1722FCV 131MB CHS=842X8X38 See Figure TOSHIBA-1 for jumper setting information. MK 1624FCV 213MB CHS=684X16X38 See Figure TOSHIBA-1 for jumper setting information. MK 1724FCV 262MB CHS=842X16X38 See Figure TOSHIBA-1 for jumper setting information. MK 1824FCV 353MB CHS=682X16X63 See Figure TOSHIBA-1 for jumper setting information. MK 2326FCH 340MB CHS=969X14X49 See Figure TOSHIBA-1 for jumper setting information. MK 2428FC 524MB CHS=1016X16X63 See Figure TOSHIBA-1 for jumper setting information. MK 2526FC 528MB CHS=1023X16X63 See Figure TOSHIBA-1 for jumper setting information. MK 2528FC 704MB CHS=1365X16X63 See Figure TOSHIBA-1 for jumper setting information. <<< TOSHIBA FIGURES The following are drive jumpering figures for Toshiba drives. FIGURE TOSHIBA-1 44-pin I/O Connector __ J2 J1 │ o o ::::::::::::∙::::::::1 o o ══════════════╪══════════════════ │ │ │ pin-20 removed for keying ───────────────┘ │ │ │ │ │ │ Drive is Master, no Slave drive present ────────────────── 0 0 Drive is Slave, Master drive present ────────────────── 1 0 Reserved Position (Do Not Use) ─────────────────────────── 0 1 WESTERN DIGITAL IDE DRIVES ABOUT WESTERN DIGITAL Page 94 Western Digital Corporation (USA) Telephone: (714)932-4900 Technical Support: (800)832-4778 BBS: (714)753-1234 8105 Irvine Center Drive Irvine, California 92718 Western Digital (UK) Ltd Telephone: +44-1-372-360389 FAX: +44-1-372-360391 Fairmount House Leatherhead Surrey Kent United Kingdom DETAILED JUMPER INSTALLATION INSTALLATION GUIDE The Caviar drive has a jumper block (J8) located next to the 40-pin connector on the drive. These jumpers define information about the hard drive. The Caviar drive is initially set for single drive installation. If you are installing the Caviar drive as the only intelligent drive in your system, you do not need to install the jumpers. This is considered a standard installation, and no jumpers are required. If you need to change this configuration, contact your distributor for jumper shunts, small plastic brackets that fit over two jumper pins. Using jumper shunts you can designate which drive in a dual installation is the primary (master) drive, and which drive is the secondary (slave) drive. o If you have a dual installation (two intelligent drives) you must designate one of the drives as the master and the other as the slave drive. The jumper pins on jumper J8 need to be configured for the dual installation. - To designate the intelligent drive as the master, place a jumper shunt on pins 5-6. - To designate the intelligent drive as the slave, place a jumper shunt on pins 3-4. o If your system is a PC/AT compatible computer not manufactured by IBM, and it contains a Conner CP342 or CP3022 drive, you can install the Caviar drive as a second drive. In this configuration, the Conner drive must be configured as the master, and the Caviar as the slave. To designate the Caviar drive as the slave to the Conner drive, place Page 95 jumper shunts on pins 1-2 and 3-4. Refer to the Conner manual to configure the Conner drive as the master. o If your system is an IBM PC/AT with a Conner CP342 or CP3022 drive, you cannot install the Caviar drive as a second drive. To install a jumper shunt on the J8 jumper pins: 1. Refer to the previous descriptions and Figure 1 to determine your configuration. 2. Using one of the jumper shunts, place the shunt over the two pins specified in Figure 1. 3. Push the shunt into place until it is flush against the base of the jumper block. J8 5 3 1 5 3 1 o o o Single o ▐ o Dual o o o (Standard Installation) o ▐ o (Slave) 6 4 2 6 4 2 5 3 1 5 3 1 ▐ o o Dual o ▐ ▐ Dual (Slave) ▐ o o (Master) o ▐ ▐ with Conner CP342 or CP3022 6 4 2 6 4 2 ┌─────┬────────────────┐ │ │ ▐ JUMPER ADDED │ │ KEY ├────────────────┤ │ │ o JUMPER │ │ │ o PINS │ └─────┴────────────────┘ Figure 1 WD93024-A 21MB CHS=782X2X27 See Figure WDC-1 for jumper setting information. WD93028-A 21MB CHS=782X2X27 See Figure WDC-1 for jumper setting information. WD93044-A 43MB CHS=782X4X27 See Figure WDC-1 for jumper setting information. WD93048-A 43MB CHS=782X4X27 See Figure WDC-1 for jumper setting information. WD95024-A 21MB CHS=782X2X27 Page 96 See Figure WDC-1 for jumper setting information. WD95028-A 21MB CHS=782X2X27 See Figure WDC-1 for jumper setting information. WD95044-A 43MB CHS=782X4X27 See Figure WDC-1 for jumper setting information. WD95048-A 43MB CHS=782X4X27 See Figure WDC-1 for jumper setting information. WDAC140 42MB CHS=980X5X17 See Figure WDC-1 for jumper setting information. WDAC160 62MB CHS=1024X7X17 See Figure WDC-1 for jumper setting information. WDAC260 62MB CHS=1024X7X17 See Figure WDC-1 for jumper setting information. WDAC280 85MB CHS=980X10X17 See Figure WDC-1 for jumper setting information. WDAC1170 170MB CHS=1010X6X55 See Figure WDC-1 for jumper setting information. WDAC1210 212MB CHS=989X12X35 See Figure WDC-1 for jumper setting information. WDAC1270 270MB CHS=917X12X48 See Figure WDC-1 for jumper setting information. WDAC1365 365MB CHS=708X16X63 See Figure WDC-1 for jumper setting information. WDAC1425 425MB CHS=827X16X63 See Figure WDC-1 for jumper setting information. WDAC1540 540MB CHS=1048X16X63 See Figure WDC-1 for jumper setting information. Page 97 WDAC2120 125MB CHS=872X8X35 See Figure WDC-1 for jumper setting information. WDAC2170 170MB CHS=1010X6X55 See Figure WDC-1 for jumper setting information. WDAC2200 212MB CHS=989X12X35 See Figure WDC-1 for jumper setting information. WDAC2250 250MB CHS=1010X9X55 See Figure WDC-1 for jumper setting information. WDAC2340 340MB CHS=1010X12X55 See Figure WDC-1 for jumper setting information. WDAC2420 420MB CHS=989X15X56 See Figure WDC-1 for jumper setting information. WDAC2540 540MB CHS=1048X16X63 See Figure WDC-1 for jumper setting information. WDAC2700 730MB CHS=1416X16X63 See Figure WDC-1 for jumper setting information. WDAC2850 850MB CHS=1654X16X63 See Figure WDC-1 for jumper setting information. WDAC21000 1.0GB CHS=2100X16X63 See Figure WDC-1 for jumper setting information. WDAC31000 1.0GB CHS=2100X16X63 See Figure WDC-1 for jumper setting information. WDAC31200 1.2GB CHS=2484X16X63 See Figure WDC-1 for jumper setting information. WDAC31600 1.6GB CHS=3148X16X63 See Figure WDC-1 for jumper setting information. WDAH260 62MB CHS=1024X7X17 See Figure WDC-1 for jumper setting information. Page 98 WDAH280 85MB CHS=980X10X17 See Figure WDC-1 for jumper setting information. WDAL2120 130MB CHS=1001X15X17 See Figure WDC-1 for jumper setting information. WDAL2170 170MB CHS=980X10X34 See Figure WDC-1 for jumper setting information. WDAL2200 200MB CHS=958X12X34 See Figure WDC-1 for jumper setting information. WDAP4200 200MB CHS=987X12X35 See Figure WDC-1 for jumper setting information. <<< WESTERN DIGITAL FIGURES The following are drive jumpering figures for Western Digital drives. FIGURE WDC-1 J8 5 3 1 5 3 1 o o o Single o ▐ o Dual o o o (Standard Installation) o ▐ o (Slave) 6 4 2 6 4 2 5 3 1 5 3 1 ▐ o o Dual o ▐ ▐ Dual (Slave) ▐ o o (Master) o ▐ ▐ with Conner CP342 or CP3022 6 4 2 6 4 2 ┌─────┬────────────────┐ │ │ ▐ JUMPER ADDED │ │ KEY ├────────────────┤ │ │ o JUMPER │ │ │ o PINS │ └─────┴────────────────┘ Figure 1