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ex1200-3164 plug-in module
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1. TB TB Conn TB Conn Signal Ref Signal Ref Signal Pin Ref Signal Pin CH_5COM E2 T41 CH_36NO T81 CH_33COM 014 T121 CH 51COM A22 4COM D2 T42 CH_31COM Al4 T82 CH_32COM 14 T122 CH 56NO A23 10NO E3 T43 A13 83 38 C15 T123 46COM A20 9NO D3 T44 26 12 84 37 15 124 41COM 18 10COM E4 21 10 85 38 C16 125 46NO 19 9 D4 24 D10 T86 CH_37COM B16 972 36COM 16 15 5 25COM 10 T87 CH_43NO C17 T127 CH_41NO 17 14 D5 T48 28NO Cll T88 CH_42NO B17 T128 CH_79COM D32 CH_15COM E6 T49 27 Bll T89 CH_43COM C18 129 75 0 CH 14 D6 26 T90 42COM 18 130 74 D30 T11 CH 20NO 27 B12 T91 CH_48NO C19 131 75 29 2 19 D7 28 2 T
2. TB Conn Conn Conn Ref Signal Pin Ref Signal Pin Ref Signal Pin T52 8H 16 T103 CH2 27L 130 T154 CH2_41H 166 T53 I9L 88 50758 CH2 27H 131 T155 CH2 29L 134 T54 CHI 19H 87 105 2 39L 171 T156 CH2_29H 135 55 13 106 CH2 39H 170 T157 CH2 401 169 T56 CHI 7H 14 107 2 261 128 158 2 40 168 57 151 90 108 2 26 129 T159 CH2 28L 132 T58 CHI 18H 89 37L 175 160 CH2 28H 133 T59 6L 11 T110 CH2_37H 174 T161 CH2_12H 49 T60 CH1_6H 12 T111 CH2 25L 126 T162 CH2 121 48 T61 46L 182 T112 CH2 25H 127 163 2 241 53 T62 CHI 46H 181 CHI 48L 178 T164 CH2 24H 52 T63 CH1_34L 119 08018 CHI 48H 177 T165 CH2 COMH 50 T64 CHI 34H 120 36L 123 T166 CH2 COML 51 T65 CHI 45L 184 T116 36H 124 T167 CH2 23L 55 T66 45H 183 117 471 180 168 CH2 23H 54 T67 CH1_33L 117 CHI 47H 179 T169 CH2 111 46 T68 33H 118 119 35 121 T170 CH
3. OERR 30 Orientation FIGURE 4 35 1200 4260 FRONT PANEL FRONT VIEW EX1200 4260 Plug in Module 89 VTI Instruments Corp Row Row C Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 UNUSED 1 1 R2 1 R3 1 R4 2 2 CHI R5 2 CHI R6 2 CHI R7 2 R8 3 C2 3 R9 3 CHI R10 3 3 CHI R12 4 CHI C3 4 4 CHI R14 4 7 15 4 CHI R16 5 CHI C4 5 R17 5 8 5 19 5 CHI R20 6 UNUSED 6 R21 6 CHI R22 6 R23 6 R24 7 UNUSED 7 R25 7 CHI R26 7 R27 7 R28 8 UNUSED 8 CHI R29 8 CHI R30 8 CHI R31 8 R32 9 SHIELD 9 R33 9 CHI R34 9 R35 9 R36 10 SHIELD 10 R37 10 R38 10 CHI R39 10 CHI R40 11 SHIELD 11 11 CHI R42 11 R43 11 R44 12 SHIELD 12 R45 12 CHI R46 12 R47 12 R48 13 SHIELD 13 CHI R49 13 CHI R50 13 R51 13 CHI R52 14 SHIELD 14 R53 14 CHI R54 14
4. B1 B9 17 32 H2 C9 H2 C17 H2 E32 H2 DI Li CH1_MC1_4W D9 Li CH1_MC9_4W B24 LI CH2_MC1_4W D31 LI CH2_MC9_4W L2 E9 L2 D24 L2 E31 L2 C1 10 18 D30 B2 H2 C10 H2 C18 H2 E30 H2 Li CH1_MC2_4W D10 Li CH1_MC10_4W B26 Li CH2_MC2_4W D29 Li CH2_MC10_4W D2 L2 E10 L2 C26 L2 E29 L2 B3 Bll B19 28 C3 H2 C11 H2 C19 H2 E28 H2 D3 Li CH1_MC3_4W Dii Li CH1_MC11_4W B27 Li CH2_MC3_4W D27 Li 2 11 4 12 11 12 C27 L2 E27 L2 B4 H1 B12 H1 B20 H1 D26 H1 H2 C12 H2 C20 H2 E26 H2 D4 Li 4W D12 LI CH1_MC12_4W B28 LI CH2_MC4_4W D25 LI CH2_MC12_4W E4 L2 E12 L2 C28 L2 E25 L2 B5 H1 B13 H1 B21 H1 D24 H1 5 H2 C13 H2 C21 H2 E24 H2 Ds Li CH1_MC5_4W Li CH1_MC13_4W B29 Li CH2_MC5_4W D23 Li CH2_MC13_4W E5 L2 E13 L2 C29 L2 E23 L2 B6 14 B22 22 H2 C14 H2 C22 H2 E22 H2 D6 L1 MC6 4W D14 Li CH1_MC14_4W B30 Li CH2_MC6_4W D21 11 0727 10144 E6 L2 E14 L2 C30 L2 E21 L2 B7 H1 B15 B23 20 7 H2 C15 H2 C23 H2 E20 H2 D7 L1 4W 015 11 5 4 B31 L1 2 AW D19 Li CH2_MC15_4W E7 L2 E15 L2 C31 L2 E19 L2 B8 16 B32 D18 C8 H2
5. o 8 S S 5 5 m is 5 8 I E S 1442 a ME 22242212 5 2 3 5 sS s 3 3 5 4 5 5 28 8 x dB 2g ZE xo 8 E E lt 5 2 5 gt gt m z 5 S 8 P SUODO qe de 2 CH Rt Pin 1 0 60 60 09 CH R83 Pin E16 09 o CH R65 Pin C4 R97 Pin B15 amp G ge x x 127 12 41281612 1 69 09 CH R34 Pin D17 CH R66 Pin 9 69 s CH R98 Pin C15 4 694 e TO Te To qu Tu PP PP PS 49 16712212 40 P d CH Pin E1 CH R35 Pin 019 4 CH R67 Pin B5 4 CH R99 Pin A18 4 R99 T Tue ares d S TuS Tu Tus AT 4 4 ST R4 Pin D2 595959 R36 9 40 509500 200 CH R68 Pin C5 4 100 Pin B18 09 o e De pe pe d CH R5 Pin 69 09 09 09 CH R37 20 409 509 09 00 amp CH R69 Pin A6 4 CH R101 Pin C19 i 4 148 148 16 pE e pe P Les Pin D3 09 69 09 4 CH R38 Pin E20 59
6. Row A Row B Row C Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 UNUSED 1 CHI RI 1 CHI R2 1 CHI R3 1 CHI R4 2 2 CHI R5 2 CHI R6 2 CHI R7 2 CHI R8 3 C2 3 CHI R9 3 CHI R10 3 RII 3 CHI R12 4 CHI C3 4 4 CHI R14 4 CHI 5 4 CHI R16 5 CHI C4 5 CHI R17 5 CHI R18 5 CHI 19 5 CHI R20 6 UNUSED 6 CHI R21 6 CHI R22 6 R23 6 CHI R24 7 UNUSED 7 R25 7 CHI R26 7 CHI R27 7 CHI R28 8 UNUSED 8 CHI R29 8 R30 8 R31 8 R32 9 SHIELD 9 R33 9 CHI R34 9 R35 9 R36 10 SHIELD 10 R37 10 R38 10 CHI R39 10 CHI R40 11 SHIELD 11 11 CHI R42 11 CHI R43 11 CHI R44 12 SHIELD 12 R45 12 CHI R46 12 R47 12 CHI R48 13 SHIELD 13 CHI R49 13 CHI R50 13 CHI R51 13 CHI R52 14 SHIELD 14 R53 14 CHI R54 14 R55 14 CHI R56 15 SHIELD 15 R57 15 R58 15 CHI R59 15 R60 16 SHIELD 16 CH1_R61 16 CH1_R62 16 CH1_R63 16 CH1_R64 17 SHIELD 17 2 17 CH2 R2 17 2 R63 17 CH2 R64 18 SHIELD 18 CH2 R5 18 CH2 R6 18 CH2 Ro 18 CH2 R62 19 SHIELD 19 CH2 R9 19 CH2 RIO 19 CH2 R59 19 2 R60 20 SHIELD 20 CH2 20 CH2 14 20 CH2 R57 20 CH2 R58 21 SHIELD 21 CH2 R17 21 CH2 R18 21 CH2 R55 21 2 R56 22 SHIELD 22 CH2 R21 22 2 R22 22 2 R53 22 2 R54 23 SH
7. FIGURE 4 36 EX1200 4260 LOGICAL DIAGRAM EX1200 4260 Plug in Module 93 BPL_HI BPL_SHI BPL_LO BPL_SLO VTI Instruments Corp EX1200 4260 SPECIFICATIONS GENERAL SPECIFICATIONS CHANNEL COUNT Two 60 x 2 2 wire channels RELAY TYPE Electromechanically fail safe MAXIMUM SWITCHING VOLTAGE 220 V dc 250 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W 62 5 VA see the Figure 4 for more information MINIMUM CONTACT RATING 100 uV This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 Electrical 1 10 at full load SWITCHING TIME TYPICAL 10 ms PATH RESISTANCE 0 50 INSULATION RESISTANCE gt 10 Q MAXIMUM THERMAL OFFSET PER CHANNEL HI LO 1011 BANDWIDTH 3 dB gt 40 MHz CROSSTALK TYPICAL 1MHz 45 dB 10 MHz 30 dB ISOLATION TYPICAL 1MHz 60 dB 10 MHz 50 dB For mating connector crimp pins and other accessories please refer to Appendix B RELAY BREAKING CAPACITY 300 200 100 resistive load 1 1 50 40 30 DC Voltage Vdc 20 recommended application range 10 0102 05 1 2 10 20 DC curre
8. 7 RT 7 77 PE ent Sea 7 REM CH 16COM 1640 36 e 36NO 56 CH_56NO CH_76COM 76 8 iG Pin A7 Pin A16 m Pin A15 Pin A24 23 Pin A32 ic Pin A31 CH 17COM 1740 37COM 3740 57 CH 57 77COM 222 CH 77NO Pin B8 0 7 Pin B16 22 B15 Pin B24 B23 Pin B32 7a B31 18 CH 18NO 38COM 38NO 58COM CH 58NO 78COM 78 8 7 16 Pin C15 Pin C24 PinC23 Pin C32 07 PinC31 K18 K38 K58 K78 CH 19 0 2 2 e CH 9NO 39COM e CH 39NO 5 e CH 59NO CH 79COM ___ CH 79NO Pin D8 Pin D7 Pin D16 ics Pin D15 Pin D24 023 032 527 031 CH 20 CH 20NO 40COM CH 40 CH 60COM CH 60NO 08000 80NO Pin E8 PinE7 Pin E16 Pin E15 Pin E24 gt Pin E23 Pin E32 PinE31 FIGURE 4 42 EX1200 5001 LOGICAL DIAGRAM EX1200 5001 Plug in Module 103 VTI Instruments Corp
9. 208 8 8 88 4 5 5 3 3 EE 5 8 2 arar arar arar arar 1054 2 mux mux 4 8 vux 7 mux m or Pana 0 muxr L Y Pines Pn Pt por nn dit m m m o a cH 1 1 __ 7 muxe oen Pinas 22 1 m 2 9 5 2 woe 122 Pinta Pin fent 3 muxa MUXS CH maos 2 7 LE 1 i m _ 77 9 Pin 4j Pin 23 Pin 54 Pin 79 Pin 104 Pin 129 Pin 154 Pin 179 m K
10. Pin A28 Pin A29 Pin A30 Pin A31 www vtiinstruments com FIGURE 4 39 EX1200 4264 LOGICAL DIAGRAM A 9 F 9 9 9j 9 xr xx x R64 PinE16 CH2 1 Pin B17 CH2 R64 Pin E17 KA K R63 Pin 016 CH2_R2 Pin C17 CH2 R83 Pin 017 CH1 R62 Pin C16 CH2 Pin B25 CH2 R62 Pin E18 Ke1 CH1_R61 Pin B16 CH2_R4 Pin C25 ke CH2_R61 Pin D18 52 CH1_R60 Pin 15 2 R5 Pin B18 52 CH2 R60 Pin E19 2 0 SC R9 Pin 015 R6 Pin C18 C24 CH2 P59 Pin D19 CH1 R58 Pin C15 CH2 R7 Pin B26 gt CH2 R58 Pin E20 K K8 K57 K58 R57 Pin B15 Pin C26 Kn Ke CH2_R57 Pin 020 CH1_R56 Pin E14 CH2 R9 Pin B19 52 CH2 R56 Pin E21 22 02 lt RE5 Pin D14 10 19 425 403 R55 Pin D21 R54 Pin C14 CH2 R11 Pin B27 CH2 R54 Pin E22 Kit RA K54 CH1_R53 Pin B14 CH2 R12 Pin C27 G 2 R53 Pin 022 CH1_R52 PinE13 CH2 Pin B20 Z CH2_R52 Pin E23 KI KS R51 Pin 013 CH2 R14 Pin C20 ai Kis CH2 R51 Pin D23 R50 Pin C13 CH2 R15 Pin B28 59
11. O O O O O O O O O O O O O O O O H EX1200 2008H OERR 1U Orientation Pin D32 Pin E1 SL O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O 0 0 O O O O O O O O O O O O O O O Q CONNECTOR DETAIL Pin B32 Pin A1 O O O O O O O O O O O O 0 O O O O O O O O O OP O O O O O 0 O O O O O O O O O O OO O OOO OERR 30 Orientation FIGURE 4 8 1200 2008 FRONT PANEL FRONT VIEW 30 EX1200 2008 HPlug in Module www vtiinstruments com Row Row B Row C Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 SHIELD 2 1 1 CHI 2 2 UNUSED 1 3 SHIELD 4 3 3 CHI 4 4 UNUSED 3 SHIELD 5 SHIELD 6 5 5 CHI 6 6 UNUSED 5 SHIELD 7 SHIELD 8 CHI 7 7 CHI 8 8 UNUSED 7 SHIELD 9 SHIELD 10 CHI 9 9 10 10 UNUSED 9 SHIELD 11 SHIELD 12 CH2 1 11 CH2 2 12 UNUSED 11 CH2 COM 13 SHIELD 14 CH2 3 13 CH2 4 14 UNUSED 13 SHIELD 15 SHIELD 16 CH2 5 15 CH2 6 16 UNUSED 15 SHIELD 17 SHIELD 18 CH2 7 17 CH2 8 18 UNUSED 17 SHIELD 19 SHIELD 20 CH2 9 19 CH2 10 20 UNUSED 19 SHIELD 21 SHIELD 22 UNUSED 21 UNUSED 22 UNUSED 21 SHIELD 23 SHIELD 24 CH3 1 23 CH3 2 24 UN
12. Row A Row B Row C Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 CH INO 22 CH 2NO 43 CH 3NO 64 CH 4NO 85 5NO 2 23 2 44 3COM 65 4COM 86 5 3 CH INC 24 CH 2NC 45 CH 3NC 66 4 87 5 4 6 25 7 46 8 67 9 88 10 5 6 26 7 47 8 68 9 89 10 6 6NC 27 CH 7NC 48 CH 8NC 69 CH 9NC 90 CH 10 7 CH 11 28 CH 12NO 49 CH 13NO 70 14 91 15 8 11 29 12 50 13 71 14 92 15 9 11 30 12 51 13NC 72 14 93 15 10 16 31 17 52 18 73 19 94 20 11 16 32 17 53 18 74 19 95 20 12 16 33 17 54 18 75 19 96 20 13 21 34 22 55 23 76 24 97 25 14 21 35 22 56 23COM 77 24 98 25 15 CH NC 21 36 CH 22NC 57 CH 23NC 78 CH 24NC 99 CH 25NC 16 CH 26NO 37 CH 27NO 58 CH 28NO 79 CH 29NO 100 CH 30NO 17 CH 26COM 38 CH 27COM 59 CH 28COM 80 CH 29 101 30COM 18 CH 26NC 39 CH 27NC 60 CH 28NC 81 CH 29NC 102 30NC 19 CH 31NO 40 CH 32NO 61 SHIELD 82 SHIELD 103 GND C 20 CH 31COM 41 CH 32COM 62 SHIELD 83 SHIELD 104 GND C
13. CONNECTOR DETAIL Pin A32 Pin A1 9 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 1O09000000000000000000000000000000 ACCO OERR 3U Orientation of FIGURE 4 47 EX1200 5006 FRONT PANEL FRONT VIEW EX1200 5006 Plug in Module 115 VTI Instruments Corp Row A Row B Row Row D Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 CH INO 1 CH 2NO 1 CH 3NO 1 4 1 CH 5NO 2 2 2 2 3 2 4 2 5 3 6 3 CH 7NO 3 CH 8NO 3 CH 9NO 3 CH 10NO 4 6COM 4 CH 7COM 4 CH 8COM 4 CH 9COM 4 CH 10COM 5 CH 119 5 2 5 13 5 14 5 15 6 6 12 6 13COM 6 14 6 15 7 16 7 17NO 7 18NO 7 19 7 20 8 16 8 17 8 18 8 19 8 20 9 21 9 22NO 9 23 9 24 9 25 10 21 10 22 10 23 10 24 10 25 11 26NO 11 27 11 28 11
14. Signal Pin H L BI MCI Ds i 7 s 2 MC3 793 n CH2 19 zl L 8 T CH2 E CH2_MC20 2 1 41 4 ER H mco ER H PAEH CH2_MC21 cz MC4 cie MC20 6 CH2 MC6 CH2_MC22 EE CH ue H CH1_MC6 cu MC22 i CH2 MC8 EX CH2_MC24 i BI CH1_MC23 CH2 MC9 D CH2_MC25 c4 8 CH1_MC24 62 CH2 10 i MC26 z 5 MC9 CH1_MC25 822 CH2 11 5 MC27 cuoco woo Om MOS CHI BM MC27 D CH2_MC13 Dis i MC29 67 2 HE 020 __ MC30 Bs CH1_MC29 15 H CH1_MC14 L CH1_MC30 E H CH2 MC16 E 5 MCI CH2 17 MCI6 CH2 MC2 18 2 Wire Common and Backplane Signal Names Pin DMM Bus Line H L Signal Pin DMM Bus Line CH1_MC1_COM T t CH2 MCI COM H CHI MC2 COM H COM TO BOY BPL TO DCV 2WOHM TABLE 4 34 2 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS NOTES The H L column represents the and LO pins for the 2 wire sig
15. Muya nan einen Pin o 6 muxe 413 __ 7 CH CH 13 8 e muxe CH Pines ny Pin 68 m CH 14 cec Pin 18 Pin 40 Pin 65 Pin 90 Pin 115 Pin 140 Pin 165 Pin 190 Kno ve w woo 15 ch 15 5 CH 1 95 0415 15 15 is Pina p 2 ET m m CH 16 MUX2 CH 16 CH 16 CH 16 MUXS CH 16 MUXS CH 16 CH 16 CH 16 Pin 17 Pin 42 67 Pin 92 Pio 117 Pin 142 Pin 167 Pin 192 P woe Moya was cu i 17 muxa 0417 Pinta Pins Pres 1 Pin 68 23 E wa 7 02776 cH BS wan gp CH 18 u Mux 475 muxe cH Pinta Pina e Porti oy m m m m MUXI CH 19 MUX2 CH 19 MUXS CH 19 CH 19 MUXS CH 19 M
16. ADVANCED MEASUREMENT TECHNOLOGY 7 Instruments EX1200 SERIES SWITCH CARDS USER S MANUAL P N 82 0127 001 June 237 2015 VTI Instruments Corp 2031 Main Street Irvine CA 92614 6509 949 955 1894 VTI Instruments Corp TABLE OF CONTENTS INTRODUCTION S 6 Eire 6 Limitation of Watranty iiec tee 6 Restricted 115 6 Declaration of o E a oer EESE E EESE EEEE E Er 6 GENERAL SAFETY INSTRUCTIONS 7 Terms and Symbols ended mW 7 WATDBIB8S 7 SUPPORT RESOURCES ara Irene e aH Ree HR ra eot e Hs 9 SECTION 10 INTRODUCTION A cni riii e ete rey 10 05151655122 10 Plug m Module Installation 10 Microwave Module Installation eter eerte 11 Module Shielding Groundimng iet ee tee EHE EE 11 Scannilig iier ne pH OR RO De n OD T De OA a et trio iege 1
17. Pin C1 179 1H Pin C5 KIT _ cus Pin C9 K 1H Pin 013 CH1 1L Pin C2 LO 1L Pin C6 69 11 Pin C10 69 11 Pin C14 _ 2 Pin 01 4 2H Pin D5 4 1 408 2 Pin 09 156 2H Pin D13 w 2L Pin D2 _ CH2 21 Pin 69 21 Pin 010 ws CH4 2L Pin D14 Kn K19 127 K CH1 3H Pin E1 p CH2_3H Pin E5 Pin E9 Pin E13 CH1 3L Pin 9 3L Pin amp 3L Pin E10 _ Pin E14 Ki2 K20 128 CH1 Pin 8 1 4H Pin A7 CH3 Pin A11 CH4_4H Pin A15 69 CH1 4L Pin 4 69 4L Pin 69 4L Pin A12 69 4L Pin A16 K5 K21 K29 5H Pin B3 CH2_5H Pin B7 5 Pin B11 5H Pin B15 CH1 L Pin 69 5L Pin B8 LO 5L Pin B12 BL Pin B16 K6 K14 122 CH1_6H Pin CH2_6H Pin C7 6H Pin C11 6H Pin C15 6L Pin C4 09 2 6L Pin C8 09 Pin C12 LO _ Pin C16 K K15 K31 CH1_7H Pin D3 7H Pin D7 CH3 7H Pin 011 7H 015 09 7L Pin D4 09 CH2 7L Pin D8 09 7L Pin 012 09 7L Pin 016 Kt6 24 K32 CH1_8H Pin 2_ Pin E7
18. 1 2 2L 3 4 2 4 COML 5 6 CH1_COMH 6 6 7 8 8 8 9 4L 9 9 4H 10 40 CH2 IL 11 4 CH2 IH 12 CH2 2L 13 4 2 2 14 44 CH2 COML 15 6 2 16 46 CH2 3L 17 4 8 CH2 3H 18 48 9 2 4L 19 49 0 CH2 4H 20 UNUSED N A CH3 II 21 5L 22 5H 23 4 6L 24 6 CH1_6H 25 6 71 26 8 7 21 8 9 8L 28 9 8H 29 60 TABLE 4 10 EX1200 TB104 TERMINAL BLOCK TO EX1200 3048 PIN MAPPING 9L 30 9H 3l CH2 5L 32 CH2 5H 33 CH2 6L 34 CH2 6H 35 CH2 7L 36 CH2 7H 37 CH2 8L 38 CH2 8H 39 CH2 9L 40 CH2 9H 41 UNUSED N A CH3 IL 42 101 43 10H 44 11 45 46 12 47 2 48 131 49 13H 50 CHI 141 51 4 52 2 101 53 CH2 10H 54 CH2 111 55 CH2 56 2 121 57 2 2 58 131 59 CH2 13H 60 14 61 CH2 14H 62 UNUSED N A CH3 2I 63 151 64 15 65 CH1_16L 66 CH1_16H 67 CH1_17L 68 CH1_17H 69 CH1_18L 70 CH1_18H 71 UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A CH1_19L 72 CH1_19H 73 CH2_15L 74 CH2_15H 75 CH2 16L 76 CH2 16H TI CH2 I7L 78 CH2_17H 79
19. 5L Pin E13 CH2 5L Pin C9 K9 21 6H Pin 016 r _CH2_6H Pin B12 _ ____ _61 Pin E15 4 2 61 Pin C11 K10 22 1 7 CH1_7H Pin 018 4 1 2 7H Pin B14 7L Pin E17 CH2 7L Pin C13 23 575 8H Pin 020 4 7 CH2 8H Pin B16 6 2 8L Pin E19 4 8L Pin C15 K12 24 4 7 9H Pin 022 4 CH2 9H Pin B18 2 9L Pin E21 9L Pin C17 25 4 10H Pin E23 6 2 10H Pin B20 10L Pin 024 CH2 10L Pin C19 K14 26 Pin E25 ee CH2 11H Pin B22 11L Pin 026 CH2 111 Pin C21 15 27 12H Pin E27 Le 12H Pin B24 12L Pin 028 LL o 12L Pin C23 FIGURE 4 7 EX1200 2007A LOGICAL DIAGRAM 28 EX1200 2007A Plug in Module 1200 2007 SPECIFICATIONS www vtiinstruments com GENERAL SPECIFICATIONS CHANNEL COUNT 1 x 24 2 wire dual 1 x 12 2 wire or dual 1 x 24 1 wire RELAY TYPE Reed MAXIMUM SWITCHING VOLTAGE 1000 V dc 700 V ac rms MAXIMUM SWITCHING CURRENT 1A MAXIMUM CARRY CURRENT 2A MAXIMUM SWITCHING POWER 25 W resistive load RATED SWITCH OPERATIONS Mechanical 1x 10 Elec
20. 10 COMH Pin C21 CH11 COMH Pin B25 CH12 COMH Pin D31 CH13 Pin B31 CH14 COMH Pin A29 15 COMH Pin B23 CH16 Pin A19 k73 K74 K75 K76 K77 K78 K79 10 4L Pin E26 CH11 4L Pin B28 5 CH12 4L Pin A32 g CH13_4L Pin E28 0 CH14_4L Pin E24 CH15 4L Pin C20 6 16 4L Pin C16 gI CH10_4H Pin E25 4H Pin B27 7 712 4H Pin A31 76877 4H Pin E27 5 CH14 4H Pin E23 lt 4 CH15_4H Pin C19 CH16_4H Pin C15 CH10_3L Pin A28 CH11_3L Pin D30 5 CH12 3L Pin C32 wt CH13 3L Pin C28 wt CH14 3L Pin E30 wt CH15_3L Pin A26 621 16 3L Pin B20 ot CH10_SH Pin A27 CH11_3H Pin 029 gt CH12 Pin C81 2 4 CH13 Pin 027 0 77 CH14 Pin E29 1 5 Pin 25 5 1 Pin B19 CH10 2L Pin B22 CH11 2L Pin 028 g CH12 2L Pin B30 9 CH13 2L Pin E32 9 CH14 2L Pin C24 wl CH15 2L Pin E22 wt CH16_2L Pin E18 88 A CH10_2H Pin B21 CH11_2H Pin 027 23 CH12_2H Pin B29 7 CH13 2H Pin E31 CH14 2H Pin C23 17 CH15_2H Pin E21 J CH16_2H Pin E17 _ CH10_1L Pin D24 CH11_1L Pin C26 CH12 1L Pin C30 CH13 1L Pin D26 CH14 1L Pin 022 CH15 1L Pin E20 CH16 1L Pin D18 CH10 1H Pin 023 _ CH11_1H Pin C25 CH12_1H Pin C29 gt CH13 1H P
21. 124 17 Channel 1x2 Coaxial Switches 1L 3OHZ 124 Connector Pins and un o iie d Ee iit tem 124 Logical Dia Brann Roe Di ER RA Use 126 1200 6102 Specifications i eet 127 1200 01 PLUG IN tope 128 o Channel SPAT Coaxial CRDI o oie pite 128 Connector Pins and SIgn8 S4 128 Logical Diagram uie tette 85888585888 130 EX1200 6111 Specifications e OSEE GU RD ERI 131 EX1200 6216 PLUGIN MODULE 75575558558 132 Dual x 16 RF 1 GHz A L TTT 132 Connector Pins and Signals 52554 5 132 Logical Diagram x tette deu D ER EUR 134 1200 6216 5 1 8 ua ttt better rrt RR ERU EUER 135 EX 1200 6216HV PLUG IN MODULE HH TRE heap ON FR 136 Dual 1x16 500 V 250 MHz Multiplexers ooie niron i E eE 136 Connector Pins and 5190415 eter 136 Logical Diagram reti pe eer EN 138 EX1200 6216HV Specifications 2 04424040 01 0 00 139 1200 6301 140 4 EX1200 Switch Card Preface www vtiinstruments com
22. 200 K75 CH2_COMH Pin E17 200 2 COML Pin E16 FIGURE 4 19 EX1200 3072 LOGICAL DIAGRAM EX1200 3072 Plug in Module 55 VTI Instruments Corp CH2 IL 18 CH2 211 26 CHI IL E2 4 CHI 2IL CIO CHI 1H E3 CHI 21H 9 2 19 2 21 27 2L C4 4 221 10 9 2 21 018 2 221 24 2 5 44 22 11 84 2 2 19 CH2 22H E25 3L A2 4 231 12 8 CH2 3L C18 2 231 A24 6 CH1_23H D13 86 CH2 3H C19 6 CH2_23H A25 CHI 4L B2 4 CHI 241 10 8 CH2 4L D16 2 241 D28 4H B3 48 24H 88 CH2 4H 017 9 CH2 24H D29 CHI 5L 4 9 CHI 25L 10 89 2 51 16 9 CH2 25L B28 CHI 5H A5 25H 90 CH2 5H 017 2 25 29 6L B4 1 26L B8 9 CH2 6L D20 CH2 26L C26 CHI 6H B5 26H B9 9 CH2 6H D21 CH2 26H C27 CHI 7L D2 1 27L D8 9 2 20 CH2 271 26 4 7
23. 4 Pin 195 31H Pin 114 23H Pin 79 4 15H Pin 95 7H Pin 14 K46 K38 K30 K22 1014 CH1_46L Pin 182 38L Pin 198 1 71 301 Pin 111 lt gt CH1 Pin 82 7 141 Pin 98 7 Pin 11 46H Pin 181 lt 7 Pin 197 7 Pin 112 9 CH1_22H Pin 81 14H Pin 97 6H Pin 12 K45 K37 K29 K21 K5 CH1_45L Pin 184 4 37L Pin 200 ef 291 Pin 109 21L Pin84 P 131 Pin 100 7T BL Pin 9 45H Pin 183 CH1_37H Pin 199 lt lt 7 CH1_29H Pin 110 CH1_21H Pin 83 CH1_13H Pin 99 Pin 10 44 K36 K28 441 Pin 186 lt 4 36L Pin 123 28L Pin 107 lt 4 20L Pin 86 121 Pin 23 4 4 4L Pin 7 44H Pin 185 lt 7 36H Pin 124 lt 7 28H Pin 108 20H Pin 85 CH1 12H Pin 24 CH1 4H Pin 8 K35 K27 K19 Ka CH1_43L Pin 188 T 4 35L Pin 121 T CHI 271 Pin 105
24. DMM Bus BPL LO BPL HI BPL SLO BPL SHI LY Uld 10 8 CH R63 Pin 4 CH R64 Pin B4 Relay Detail FIGURE 4 34 EX1200 4128 LOGICAL DIAGRAM 86 EX1200 4128Plug in Module Signal CH R5 E2 CH R4 2 CH R7 E3 CH R6 D3 CH R9 E4 CH R8 4 CH RII E5 CH R10 D5 CH E6 T10 CH_R12 D6 T11 RI5 E7 T12 CH 4 D7 T13 CH R17 E8 T14 CH R16 D8 T15 CH R19 E9 16 CH 8 D9 T17 CH_R62 C3 T18 B3 19 UNUSED C2 T20 CH C4 B2 T21 CH R65 C4 T22 CH R64 B4 T23 CH R68 C5 T24 CH R67 B5 T25 CH R71 C6 T26 CH R70 B6 T27 CH R74 C7 T28 CH R73 B7 T29 CH R77 C8 T30 CH R76 B8 T31 CH R80 Co T32 CH R79 B9 T33 CH_R23 Ell T34 CH R22 DII T35 CH R24 12 36 CH R25 E12 T37 CH R26 D13 T38 CH_R27 E13 T39 CH_R28 D14 T40 CH_R29 14 Ref T41 T42 T43 T44 T45 46 T47 T48 T49 T50 T51 T52 T53 T54 T55 T56 T57 T58 T59 T60 T61 T62 T63 T64 T65 T66 T67 T68 T69 T70 T71 T72 T73 T74 T75 T76 T77 T78 T79 T80 Signal CH_R96 TB Ref T81 Signal CH_R95 Conn Pin C14 www vtiinstruments com TB Ref T121 T122 123 124 125 T126
25. 8 5 82 86 EX1200 4128 Specifications PR eS 88 EX1200 4260 PLUGIN MODULE 89 EX1200 Switch Card Preface 3 VTI Instruments Corp 2 60 2 Wire 89 Connector Pins and Signals 89 Logical RTT C ote DRE DR pen 93 1200 4260 5 entree eee D 94 Relay Breaking Capacity eer uere Deo UR DER ERROR E eR 94 FEX 1200 4264 PLUG N MODUE E 5 THERE ORE 95 DK OF 2 W Matrix isses cemeterio Deo UD RE Rer rtp ips 95 Connector Pins and Signals Dg en Seem re epe DH e 95 Logical RTT ncn iss 99 EX1200 4264 Specifications etre nee T a tret then 100 Relay Breaking Capacity babere ere eadein es 100 EX1200 5001 PLUG IN MODULE e a oap A 101 80 Channel 2 Amp Form A SPST Switch see 101 Connector Pins and Sigtials 1 2 Tee herede eee thee pere tele tert eere severed 101 Logical eet eite mien etae tees 103 1200 5001 Specifications oni eerte Tee ertet n there pere teen
26. T127 T128 T129 T130 T131 T132 T133 T134 T135 T136 T137 T138 T139 T140 T141 T142 T143 T144 T145 T146 T147 T148 T149 T150 T151 T152 T153 T154 T155 T156 T157 T158 T159 CH_R93 14 T82 CH R94 14 90 13 T83 CH_R98 C15 CH_R87 A12 T84 CH_R97 B15 CH_R81 A10 T85 SHIELD C16 CH_R20 D10 T86 SHIELD B16 CH_R21 E10 T87 SHIELD C17 CH_R86 T88 SHIELD B17 R85 Bll 89 SHIELD C18 CH_R84 All T90 CH_R100 B18 CH_R88 B12 T91 101 19 89 C12 T92 CH_R103 B19 91 13 93 104 C20 CH R92 C13 T94 106 20 78 9 95 GND C C32 R75 8 T96 CH R3 El CH R72 7 97 50 26 69 6 98 49 D26 R66 A5 T99 CH R46 E24 CH R63 4 100 45 D24 UNUSED A3 T101 UNUSED E27 CH_C2 A2 T102 51 D27 CH R82 10 103 UNUSED E28 CH R83 10 104 UNUSED D28 15 105 44 23 R30 D15 T106 CH_R43 D23 CH_R33 16 107 42 22 R32 16 108 7 41 D22 UNUSED E17 109 47 D25 CH R34 D17 T110 CH_R48 E25 UNUSED E18 T111 CH_R38 E20 U
27. ie C7L Pin 65 H2 C23L Pin 17 203 203 aX 20 aX 00 K87 K103 CH1 C8H Pin 12 H2 C24H Pin 40 S C8L Pin 11 H2 C24L Pin 41 KB K88 K104 2 8 Pin 7 H2 C25H Pin 101 CH1_C9L Pin 8 H2 C25L Pin 102 E 2 g K89 K105 CH1_C10H Pin 30 9 H2 C26H Pin 103 H2 C26L Pin 104 C10L Pin 31 K90 K106 5 C11H Pin 27 H2 C27H Pin 83 29 2 111 Pin 26 H2 C27L Pin 82 2 5 3 CH1 Pin 3 H2 C28H Pin 62 m 5 2 C12L Pin 4 H2 C28L Pin 61 gt N 2 5 CH1_C13H Pin 23 H2_C29H Pin 19 E M C13L Pin 22 H2 C29L Pin 20 2 K125 2 gt C14H Pin 44 H2 Pin 39 i 29 200 amp 200 add 8 8 8 8 8 8 8 S 2 8 5 0141 Pin 43 H2_C30L Pin 38 24 5 9 9 9 9 9 9 9 9 p p 9 9 9 9 9 9 9 9 9 9 p ppop K14 K110 K126 CH1_C15H Pin 85 v H2 C31H Pin 15 C15L Pin 86 t 2 2 H2 C31L Pin 16 Ke3 K15 K143 K111 K127 CH1_C16H Pin 25 H2 C32H Pin 34 2 XA 2 2 161 Pin 24 H2 C32L Pin 35
28. 2 Pin E1 I 60000000000000000000000000000090L OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO 000000000000000000000000000 000000000000000000000000000000 CONNECTOR DETAIL 2 1 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 1900000000000000000000000000000000 ACCO OERR 30 Orientation FIGURE 4 33 1200 4128 FRONT PANEL FRONT VIEW 82 EX1200 4128Plug in Module www vtiinstruments com Row A Row Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 1 CH C3 1 CH RI 1 CH R2 1 CH R3 2 CH C2 2 CH C4 2 UNUSED 2 CH R4 2 R5 3 UNUSED 3 CH_R61 3 CH_R62 3 CH_R6 3 CH_R7 4 CH_R63 4 CH_R64 4 CH_R65 4 CH_R8 4 CH_R9 5 CH_R66 S CH R67 S R68 S CH 10 5 CH RII 6 CH R69 6 CH R70 6 CH R71 6 2 6 CH 7 CH R72 7 CH R73 7 CH R74 7 CH 4 7 CH RI5 8 CH R75 8 CH R76 8 CH R77 8 R16 8 17 9 78 9 79 9 R80 9 18 9 19 10 R81 10 82 10 83 10 20 10 R21 11 84 11 85 11 CH R86 11 22 11 CH R23 12 CH R87 12 CH R88 12 CH R89 12 R24 12 CH R25 13 CH R90 13 R91 13 CH R92 13 C
29. 32NC CH 32NO Pin 33 Pin 31 Pin 54 Pin 52 Pin 75 Pin 73 Pin 96 Pin 94 Pin 15 Pin 13 Pin 36 Pin 34 Pin 57 Pin 55 Pin 78 Pin 76 Pin 99 Pin 97 Pin 18 Pin 16 Pin 39 Pin 37 Pin 60 Pin 58 Pin 81 Pin 79 Pin 102 Pin 100 Pin 21 Pin 19 Pin 42 Pin 40 EX1200 5002Plug in Module 40 CH INO 27 CH I8NO www vtiinstruments com CH NC 1 4 37 5 52 87 2 4 CH 27COM 38 8 18COM 53 10 88 CH INC 3 4 27NC 39 5 18NC 54 10 89 6 4 44 32 40 84 23 55 4 10 90 6 5 4 CH 32 41 5 23COM 56 15NO 91 6 6 46 32NC 42 86 23 57 6 15 92 11 7 4 UNUSED N A 8 28 58 15NC 93 11 8 48 UNUSED N A 88 28COM 59 8 SHIELD 83 CH 110 9 49 UNUSED N A 89 CH 28NC 60 9 20 94
30. J13 1 116 K26 CH4_2 17 318 325 2 K30 L 1 011 21 o 2 2 K22 a 3 114 K19 o 4 415 J19 27 o 4 120 NOTE Channels CHX COM and CHX X are terminated when they are in open condition FIGURE 4 62 EX1200 6301T LOGICAL DIAGRAM 144 EX1200 6301T Plug in Module WWW vtiinstruments com EX1200 6301T SPECIFICATIONS CHANNEL COUNT Four SP4T 50 RF multiplexers 3GHz with onboard self termination RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 30 VDC MAXIMUM SWITCHING CURRENT 0 5A MAXIMUM SWITCHING POWER 10 W RATED SWITCH OPERATIONS Mechanical 5 10 Electrical 1 x 10 Full Load SWITCHING TIME 5ms PATH RESISTANCE 10 INSULATION RESISTANCE Ix10 0 BANDWIDTH 3 dB 3GHz typical INSERTION LOSS TYPICAL 1GHz 0 5 dB 3 GHz 3 0 dB CROSSTALK TYPICAL 1GHz 60 dB 3 GHz 55 dB ISOLATION TYPICAL 1 GHz 65 dB 3 GHz 55 dB VSWR TYPICAL 1GHz 12 3 GHz 1 5 EX1200 6301T Plug in Module 145 VTI Instruments Corp EX1200 7100 PLUG IN MODULE DC 26 GHZ MICROWAVE SWITCH CARRIER AND RELAY DRIVER The EX1200 7100 is a high density microwave switch module carrier des
31. R59 PinD15 CH2 6 Pin 018 A 82820727959 Pin 019 R7 Pin D2 R58 Pin C15 CH2 R7 Pin B26 2 R58 Pin E20 CH1_R8 Pin E2 K K8 K57 K58 R57 Pin B15 CH2 Pin C26 Kn K72 121 122 CH2 R57 Pin 020 CH1 R9 Pin B3 R56 Pin E14 CH2 R9 Pin B19 2 R56 Pin E21 R10 Pin C3 S 2 55 Pin 014 2 R10 Pin C19 77 Ki20 CH2 R55 Pin D21 R11 Pin D3 CH1 R54 Pin C14 CH2 R11 Pin B27 2 R54 Pin E22 R12 Pin Kit 20 K54 CH1 R53 Pin B14 2 R12 Pin C27 CH2 R53 Pin 022 R13 Pin B4 CH1_R52 Pin E13 CH2_R13 Pin B20 R52 Pin E23 CH1_R14 Pin lt gt Pin 013 CH2_R14 Pin C20 1 1 Pin 023 R15 Pin D4 52 CH1 R50 Pin C13 CH2 R15 Pin B28 2 R50 Pin E24 CH1_R16 Pin 9 166 fke R49 Pin CH2 R16 Pin 28 fke 2 R49 Pin 024 R17 Pin B5 R48 Pin E12 R17 Pin B21 R48 Pin E25 R18 Pin C5 kit 47 012 CH2 R18 Pin C21 Ke Kio Ki CH2 R47 Pin D25 R19 Pin D5 59 R46 Pin C12 CH2 R19 Pin B29 CH2 R46 Pin E26 CH1_R20 Pin ES 9 K20 K45 K46 CH1_R45 Pin B12 CH2_R20 Pin 29 K84 R45 Pin 026 R21 Pin B6 CH1
32. 100 CH1_13L 150 SHIELD 200 CH1_37L TABLE 4 17 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 3096 incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 17 EX1200 3096 Plug in Module 59 VTI Instruments Corp The module also incorporates ground pins labeled GND C above These pins tie the module to chassis ground Note that the SHIELD pins are not tied to ground and have no electrical connections 60 EX1200 3096 Plug in Module www vtiinstruments com LOGICAL DIAGRAM K48 K32 K24 481 Pin 178 _ 77 40L Pin 194 7 321 Pin 115 24L Pin78 7 CHI 161 94 7 8L Pin 15 7 gt 48H Pin 177 CH1_40H Pin 193 CH1_32H Pin 116 24H Pin 77 CH1 16H Pin93 2 7 1 8H Pin 16 CH1_47L Pin 180 7 39L Pin 196 CH1_31L Pin 113 7 23L Pin 80 15L Pin 96 E M 7L Pin 13 T 47H Pin 179
33. 45COM E18 T111 CH 50 E20 T151 66COM A28 T32 CH_22NO B9 ISE 44COM D18 49COM D20 152 71NO 29 T33 30NO 11 T73 CH 50NO E19 CH 53COM C22 CH 71 A30 T34 CH 29NO 11 74 49 19 T114 CH_52COM B22 T154 76 1 35 29 12 75 53 21 115 58 C23 155 80 2 T3 30COM E12 T76 CH 52NO B21 T116 CH 57NO B23 T156 CH 2NO T37 CH_34NO D13 T77 CH_4NO D1 58COM 24 T157 CH 76COM A32 38 35 E13 78 51 21 CH 57COM B24 T158 CH INO 1 39 34 14 T79 54 D21 T119 56COM A24 T159 CH 77COM B32 T40 CH_35COM 14 T80 CH_55NO E21 T120 CH_61NO A25 T160 CH_3NO TABLE 4 40 EX1200 TB160SE TERMINAL BLOCK TO 1200 5001 PIN MAPPING 104 EX1200 5001 Plug in Module EX1200 5001 SPECIFICATIONS WWW vtiinstruments com GENERAL SPECIFICATIONS CHANNEL COUNT 80 SPST 40 DPST RELAY TYPE Electromechanically fail safe MAXIMUM SWITCHING VOLTAGE 300 V dc 300 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W de 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING 10 mV dc 10 pA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environm
34. MS K RAP Cue iS cc Qu e WP ON C gt gt CH 6COM CH 6NO 26 ge CH 26NO 46COM 4640 CH 66COM CH_66NO Pin 4 12 Be Pin A11 Pin A20 19 Pin A28 27 7 CH 7NO 27 a 27NO 47 4740 CH 67COM CH 67 4 Pin B3 Pin B12 11 20 i Pin B19 Pin B28 y Pin B27 7 27 47 67 8COM a CH 8NO CH 28COM 22 CH 28NO 48COM P CH 48NO 68COM 68NO Pin C4 Pin C12 Pin C11 Pin C20 C19 Pin C28 2 27 K48 K68 9COM CH 9NO 29COM Me CH 29NO 49COM CH 49NO 69COM CH 69NO Pin D4 PinD3 Pin D12 PinD11 Pin D20 Pin D19 Pin D28 027 K9 29 149 169 CH_10COM 285 CH 10NO 30COM CH 30NO CH 50COM CH 50NO 70COM 20 CH 70NO Pin 4 M Pin E12 m Pin E11 Pin E20 20 E19 28 E27 CH 11 0 CHINO 31COM CH 31NO CH 51 CH 51NO CH 71COM 22 CH 71NO Pin A6 5 Pin A14 13 22 Pin A21 Pin A30 ici Pin A29 7 nB 7 enim nee ins
35. 10 C30H 39 T70 R2L 67 R3L 90 C8L 11 CH2 C24H 40 T71 SHIELD 68 SHIELD 9 C8H 12 CH2_C24L 41 T72 SHIELD 69 SHIELD 92 CH2_C21L 13 UNUSED N A 73 C3L 70 SHIELD 93 2 C21H 14 SHIELD 42 T74 C3H 71 SHIELD 94 CH2 C31H 15 CIAL 43 75 UNUSED N A SHIELD 95 CH2_C31L 16 CH1_C14H 44 T76 UNUSED N A SHIELD 96 CH2_C23L 17 CH1_CSL 45 T77 UNUSED N A SHIELD 97 CH2_C23H 18 C5H 46 T78 UNUSED N A SHIELD 98 CH2_C29H 19 SHIELD 47 T79 UNUSED N A CH2_R8L 99 CH2_C29L 20 SHIELD 48 TRU UNUSED N A CH2_R8H 100 UNUSED N A SHIELD 49 T81 CH1_C2L 72 CH2_C25H 101 SHIELD 21 SHIELD 50 T82 CH1_C2H 73 CH2_C25L 102 CH1_C13L 22 CH2_C19H 51 T83 CH2 CI7L 74 CH2 C26H 103 C13H 23 CH2 CI9L 52 T84 CH2 CI7H 75 CH2 C26L 104 CH1_C16L 24 SHIELD 53 T85 CH2 R5H 76 UNUSED N A C16H 25 SHIELD 54 T86 R5L TT UNUSED N A 011 26 SHIELD 55 T87 CH2 R6H 78 UNUSED N A CH1_C11H 27 SHIELD 56 T88 CH2_R6L 79 UNUSED N A 28 2 22 57 T89 CH2_R7L 80 UNUSED N A CH1_R4L 29 CH2_C22L 58 T90 CH2_R7H 81 UNUSED N A TABLE 4 28 EX1200 TB104 TERMINAL BLOCK 1200 4003 PIN MAPPING The EX1200 4003 terminal block is a special case switch where although the terminal block has a thermistor it does not have access to the DMM backplane and cannot use the internal EX1200 DMM RTI can still be measured though with an external instrument Connect the instrument to 163 VS and T164
36. 13H 71 CHI 18H 92 23H 9 4L 30 9L 51 141 72 191 93 241 10 31 52 73 CHI 19H 94 24H 11 CH2 IL 32 CH2 5L 53 2 101 74 2 151 95 2 201 12 2 33 2 5 54 2 10 75 CH2 15H 96 CH2 20H 13 CH2 2L 34 CH2 6L 55 CH2 111 76 2 161 97 2 211 14 CH2 2H 35 CH2 6H 56 CH2 TI CH2 16H 98 CH2 21H 15 CH2 COML 36 CH2 7L 57 CH2 121 78 CH2 171 99 CH2 22L 16 CH2 COMH 37 CH2 7H 58 CH2 2 79 CH2 17 100 CH2 22H 17 CH2 3L 38 CH2 8L 59 131 80 CH2 18L 101 CH2 23L 18 CH2 3H 39 CH2 8H 60 CH2 13H 81 CH2 18H 102 CH2 23H 19 CH2 4L 40 CH2 9L 61 CH2 141 82 2 191 103 2 241 20 CH2 4H 41 CH2 9H 62 CH2 14H 83 CH2 19H 104 CH2 24H 21 SHIELD 42 SHIELD 63 GND C 84 GND C TABLE 4 11 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 3048S incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 11 The module also incorporates ground pins labeled GND C above These pins tie the module to chassis ground Note that the SHIELD pins are not tied to ground and have no electrical connections 1200 30485 Plug in Module 49 VTI Instrum
37. 9 2 51 Pin 32 __ K46 K38 K30 22H Pin 100 7 GHS 14H Pin 62 7 4 9 2 Pin 35 7 9 2 22L Pin 99 e 141 Pin 61 CH2 6L Pin 34 5 9 K39 K31 23H Pin 102 7 1 GHS 15H Pin 75 7 4 9 CH2 7H Pin 37 2 231 Pin 101 CH2 15L Pin74 e CH2 7L Pin 36 e K48 K40 K32 24H Pin 104 CH2 16H Pin 77 8H Pin 39 CH2 241 Pin 103 7 GHS 16L Pin 76 2 8L Pin 38 FIGURE 4 17 EX1200 3048S LOGICAL DIAGRAM 50 EX1200 3048S Plug in Module CHI IL 1 2 2L 3 4 2 4 COML 5 6 CH1_COMH 6 6 7 8 8 8 9 4L 9 9 4H 10 40 CH2 IL 11 4 CH2 IH 12 CH2 2L 13 4 2 2 14 44 CH2 COML 15 6 2 16 46 CH2 3L 17 4 8 CH2 3H 18 48 9 2 4L 19 49 0 CH2 4H 20 UNUSED N A SHIELD 21 5L 22 5H 23 4 6L 24 6 CH1_6H 25 6 71 26 8 7 21 8 9 8L 28 9 8H 29 60 TABLE 4 13 EX1200 TB104 TERMINAL BLOCK TO EX1200 3048S PIN MAPPING 9L 30 9H 3l CH2 5L 32 CH2 5H 33 CH2 6L 34 CH2 6H 35 CH2 7L 36
38. Pin Signal Pin Signal A CH 9NC A CH INC B 10 B CH 2NC CH 1 3NC D 120 D 4NC 9 F CH 10COM F CH 2COM H CH 11COM H 3 J CH 12COM J 4COM K CH 9NO K CH INO L CH 10NO L CH 2NO M CH_11NO M CH_3NO N CH_12NO N CH_4NO P CH_13NC CH 5NC R CH 14 R CH 6NC 5 15 5 CH 7NC T CH 16NC T CH 8NC U 13 U 5 V 14 V 6COM w CH_15COM w CH_7COM x 16 X CH 8COM Y CH 13NO Y CH 5NO Z CH 14 2 6 15 7 b CH 16NO b CH 8NO c CH 17 c CH 17NO d UNUSED d CH 17COM www vtiinstruments com EX1200 6102 Plug in Module 125 VTI Instruments Corp LOGICAL DIAGRAM 1 J100 Pin E CH 9NC J101 Pin A CH 1 J100 Pin E CH 9 J101 Pin E Ka O 1NO J100 Pin K K9 O 9NO J101 Pin 2NC J100 Pin B DEC CH 10NC J101 Pin B CH 2 9100 Pin 10COM J101 Pin O 2NO J100 Pin L O CH 10NO J101 Pin L K2 K10 1 9100 Pin 11NC J101 Pin C CH J100 Pin CH 11COM J101 Pin H J100 Pin Kit O 11 J101 Pin M cue s CH 4 J100 Pin D 12NC 7101 Pin D CH 4COM J100 Pin J CH 12 J101 Pin J O
39. 10 SHIELD Y CH 11 TABLE 4 1 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 20 EX1200 2001 Plug in Module LOGICAL DIAGRAM CH 1COM Pin B 2COM Pin D CH 3COM Pin F CH 4COM Pin J CH 5COM Pin L CH 6COM Pin N CH 7COM Pin R CH 8COM Pin T 9COM Pin V CH 10COM Pin X e c o K1 2 82200887 1 K3 K4 K5 K6 Q e K7 KB 9 6 gt K10 CH CH CH CH CH CH CH CH CH 1NO Pin 2NO Pin C Pin E Pin H 5NO Pin 6NO Pin 7 Pin P 8NO Pin S 9NO Pin U CH 100 Pin W CH 11COM Pin Z CH 12COM Pin b CH 13COM Pin d CH 14COM Pin f CH 15COM Pin CH 16COM Pin m CH 17COM Pin p 18 Pin s CH 19COM Pin u CH 20COM Pin w www vtiinstruments com K20 FIGURE 4 2 EX1200 2001 LOGICAL DIAGRAM CH 11 Pin Y CH 12NO Pin a CH 13NO Pin c CH 14NO Pin e CH 15NO Pin h CH 16NO Pin k CH 17 Pin n CH 18NO Pin r CH 19NO Pin t CH 20NO Pin v EX1200 2001 Plug in Module 21 VTI Instruments Corp EX1200 2001 SPECIFICATIONS CHANNEL COUNT 20 SPST RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHI
40. 21 EX1200 2001 Specifications nitet itr te cedet 22 Relay Breaking Capacity usasapa ect eie 22 EX 1200 2002 PLUG IN MODULE 23 12 Channel 16 Amp Form SPDT SWIC 23 Connector Pins and S19nals e RR oU ERU EUROS 23 cer cete utei te Utente 24 1200 2002 Specifications cet 25 1751200 7007 812776 01 26 48 Channel 1000 Multiplexer on nunakuy e 26 Connector Pins and Sipnals eei At bend te alae 26 Logical iet iet ip bet d o Host 28 1200 200 7 A Specifications 29 EX1200 2008H PLUGIN MODULE rettet entere yo tete eee Oe 30 2 EX1200 Switch Card Preface www vtiinstruments com 30 Channel 3 1 x 10 High Voltage Multiplexer 30 Connector Pins nd Signals sete Dp eR 30 Logical Dia pram enne ore D UHR GOD UR DIE RI ere pr RR 32 EX1200 2008H Specifications emere DIR 33 EX1200 3001 PLUG IN MODULE preme t RR RR h REN ED TR E GRE 34 1x04 22 Multiplexer ssc sie eee 34 Connector Pins and Signals ere ee Dre RHET DER TR ERR ED eter pret 34 Logical Diagram PROPRE 36 EX1200 3001 Sp cifications e
41. 29NO 11 30 12 26 12 27 12 28COM 12 29 12 30 13 13 32NO 13 33NO 13 34 13 35 14 3 14 32 14 33 14 34 14 35 15 36 15 37NO 15 38 15 39 15 40 16 36 16 37 16 38COM 16 39 16 40 17 UNUSED 17 UNUSED 17 UNUSED 17 UNUSED 17 UNUSED 18 UNUSED 18 UNUSED 18 UNUSED 18 UNUSED 18 UNUSED 19 UNUSED 19 UNUSED 19 UNUSED 19 UNUSED 19 UNUSED 20 UNUSED 20 UNUSED 20 UNUSED 20 UNUSED 20 UNUSED 21 UNUSED 21 UNUSED 21 UNUSED 21 UNUSED 21 UNUSED 22 UNUSED 22 UNUSED 22 UNUSED 22 UNUSED 22 UNUSED 23 UNUSED 23 UNUSED 23 UNUSED 23 UNUSED 23 UNUSED 24 UNUSED 24 UNUSED 24 UNUSED 24 UNUSED 24 UNUSED 25 UNUSED 25 UNUSED 25 UNUSED 25 UNUSED 25 UNUSED 26 UNUSED 26 UNUSED 26 UNUSED 26 UNUSED 26 UNUSED 27 UNUSED 27 UNUSED 27 UNUSED 27 UNUSED 27 UNUSED 28 UNUSED 28 UNUSED 28 UNUSED 28 UNUSED 28 UNUSED 29 UNUSED 29 UNUSED 29 UNUSED 29 UNUSED 29 UNUSED 30 UNUSED 30 UNUSED 30 UNUSED 30 UNUSED 30 UNUSED 31 UNUSED 31 UNUSED 31 UNUSED 31 UNUSED 31 UNUSED 32 UNUSED 32 UNUSED 32 UNUSED 32 UNUSED 32 UNUSED TABLE 4 44 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 116 EX1200 5006 Plug in Module LOGICAL DIAGRAM CH 1COM Pin A2 H 2COM Pin B2 H 3COM Pin C2 H 4COM Pin D2 H 5COM Pin E2
42. 72 CH2 14H 122 35 172 2 38 23 121 73 2 141 123 36L 173 CH2 38L 24 2 74 CH2 13H 124 36H 174 CH2 37H 25 CHI COML 75 CH2 131 125 GND C 175 CH2 37L 26 CH2 1 76 CHI COMH 126 CH2 25L 176 GND C 27 CH2 TI 24H 127 CH2 25H 177 48H 28 CH2 2L 78 24L 128 CH2 26L 178 CHI 481 29 CH2 2H 79 23H 129 CH2 26H 179 47H 30 CH2 3L 80 23L 130 CH2 27L 180 1 471 31 CH2 3H 81 22H 131 CH2 27H 181 1 46H 32 CH2 4L 82 22L 132 CH2 28L 182 46L 33 CH2 4H 83 21H 133 CH2 28H 183 CHI 45H 34 CH2 5L 84 1 21L 134 CH2 29L 184 CHI 45L 35 CH2 5H 85 20H 135 CH2 29H 185 44H 36 CH2 6L 86 CHI 20L 136 CH2 30L 186 441 37 CH2 6H 87 19H 137 CH2 30H 187 CHI 43H 38 CH2 7L 88 191 138 CH2 311 188 CHI 43L 39 CH2 7H 89 18H 139 CH2 31H 189 42H 40 CH2 8L 90 181 140 CH2 32L 190 42 41 2 8 91 17 141 2 32 191 41H 42 CH2 9L 92 171 142 331 192 411 43 CH2 9H 93 16H 143 CH2 33H 193 CHI 40H 44 CH2 101 94 16L 144 2 34L 194 401 45 CH2 10H 95 15H 145 CH2 34H 195 39H 46 CH2 111 96 151 146 2 351 196 39L 47 CH2 11 97 14 147 2 35 197 38 48 CH2 121 98 141 148 2 36L 198 381 49 2 12H 99 13H 149 CH2 36H 199 37H 50 2
43. 105 EX 1200 5002 PLUGIN MODULE iss tree etit 106 32 Channel 2 Amp Form SPDT Switch 106 Connector Pins and Signals eee retten 106 Logical Diagramm 108 EX1200 5002 Specifications iore vibe pee eite ide ttes 110 EX 200 5004 PLUGHIN MODULE usaq a edet tr epa e tobe eer eru 111 32 Channel 5 A SPDT Switch uae stone Me et be ha 111 Connector Pins and Signals aae ene hU eet teet Irt hua inu 111 Logical BTT 113 EX1200 5004 2 114 378 1200 5006 PLUG IN 115 40 Channel 2 Amp Form SPST 115 Connector Pins and Signals 115 To gical 1 117 EX1200 5006 Specifications a 119 EX1200 6101 MODULE 120 IO SPAT RE Multiplexers 13 GH anu ERU GIRO RUE PRI pendet 120 Connector Pins anid Signal Se Diti o in Ue ut RD t tiv tee cepe etre get 120 Logical siehe tete i EIER 122 EX1200 6 101 Specifications 123 EX1200 6102 PLUG IN MODULE aps rero oie eet
44. 1U Orientation 3U Orientation FIGURE 4 63 EX1200 7100 FRONT PANEL WITH TWO 7106 MODULES FRONT VIEW 146 EX1200 7100 Plug in Module www vtiinstruments com MICROWAVE SWITCH MODULES VTI provides four microwave switch modules that can be used with the EX1200 carrier Table 4 shows the models and their switching functionality 7102 Dual SPDT 7104 SP4T 7106 SP6T 7122 Transfer TABLE 4 53 EX1200 7100 PLUG IN MICROWAVE SWITCH MODULES These modules utilize a 4 bit ID that allows the user to change the location and type of relay in any given carrier slot as needed When the modules are inserted the EX1200 7100 carrier reads this ID and the information is automatically updated and reflected in the Soft Front Panel for more information on the EX1200 Series soft front panels please refer to the 1200 Series User s Manual P N 82 0127 000 The following information provides these module s logical diagrams as well as front and rear panel connector information 7102 Microwave Module OR RO 9 C2 NC s NOZ 200 Front View Rear View Rear Connector Detail FIGURE 4 64 7102 LOGICAL DIAGRAM SIGNALS AND SWITCH DETAILS EX1200 7100 Plug in Module 147 VTI Instruments Corp 7104 Microwave Module Front View Rear View Rear Connector Detail FIGURE 4 65 7104 LOGICAL DIAGRAM SIGNALS AND SWITCH DETAILS 7106 Microwave Module Connector Pin A P B
45. 2 10 U CH1_NO2 U CH2_NO2 V CHI_NO14 V CH2_NO14 w w CH2_NO5 x CH1_NO9 x CH2_NO9 Y NOI Y CH2 NOI Z NOI3 Z CH2_NO13 a 4 CH2 NO4 b NO8 b CH2 c CHI NC c CH2 NC d 12 d CH2 12 www vtiinstruments com EX1200 6216 Plug in Module 133 VTI Instruments Corp LOGICAL DIAGRAM CH1 NC PIN c PIN Y CH1 NO2 PIN U PIN P PIN PIN W 5 PIN PIN b 21 CH1 9 PIN X 10 PIN T 11 PIN 12 PIN 13 PIN Z NO14 PIN V CH1_NO15 R CH2 NC PIN c 2 PIN Y CH2 NO2 PIN U CH2 PIN P 2 PIN CH2 W CH2_NO6 5 2 CH2 COM PIN CH2 PIN b CH2 9 PIN X CH2 10 PIN T CH2_NO11 PIN CH2 12 PIN K3 CH2 NO 13 PIN Z K2 CH2_NO14 PIN V CH2_NO15 PIN R FIGURE 4 56 EX1200 6216 LOGICAL DIAGRAM 134 EX1200 6216 Plug in Module www vtiinstruments com EX1200 6216 SPECIFICATIONS CHANNEL COUNT Dual 1 16 50 RF multiplexers 1 GHz RELAY TYPE Electromechanical fail safe
46. 8 UNUSED N A UNUSED N A 0 UNUSED N A CH 23NO Co UNUSED N A UNUSED N A UNUSED N A CH 22NO B9 UNUSED N A UNUSED N A UNUSED N A 30NO 11 UNUSED N A UNUSED N A UNUSED N A 29 DII UNUSED N A 4 UNUSED N A 4 UNUSED N A 29 12 UNUSED N A UNUSED N A UNUSED N A CH 30COM E12 6 UNUSED N A 6 UNUSED N A 6 CH_2NO Bl CH_34NO D13 CH_4NO DI UNUSED N A UNUSED N A 8 35 E13 8 UNUSED N A 8 UNUSED N A 8 CH INO 1 9 _34 14 9 UNUSED N A 9 UNUSED N A 9 UNUSED N A 35 14 80 UNUSED N A 0 UNUSED N A 60 CH_3NO Cl TABLE 4 45 EX1200 TB160SE TERMINAL BLOCK 1200 5006 PIN MAPPING 118 EX1200 5006 Plug in Module WWW vtiinstruments com EX1200 5006 SPECIFICATIONS CHANNEL COUNT 40 SPST 20 DPST RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V dc 300 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING 10 mV dc 10 uA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 m
47. CH 6COM Pin A4 CH 7COM Pin B4 CH 8COM Pin C4 CH 9COM Pin D4 4 1COM Pin 6 2COM Pin 6 3COM Pin C6 4COM Pin D6 5COM Pin 6 6COM Pin A8 7COM Pin B8 8COM Pin C8 9COM Pin D8 20COM Pin E8 d CH 1NO Pin A1 2857 CH 2 1 CH_3NO Pin C1 I CH 4NO Pin D1 5 1 que 6 Pin A3 e CH 7 Pin B3 d CH 8NO Pin C3 d CH 9NO e 57 S CH St EN e e e o oe CHT or g e uo Cn a s te Pin D3 ONO Pin E3 1NO Pin 5 2NO Pin 5 3NO Pin C5 4NO Pin D5 5NO Pin E5 6NO Pin A7 7NO Pin B7 8NO Pin C7 9NO Pin D7 20 Pin E7 CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH 24COM Pin A10 22COM Pin B10 23COM Pin C10 24 Pin D10 25COM Pin E10 26COM Pin A12 27COM Pin B12 28COM Pin C12 29 Pin D12 30COM Pin E12 31COM Pin A14 32 Pin B14 33COM Pin C14 34 Pin D14 35 Pin E14 36 Pin A16
48. MAXIMUM SWITCHING VOLTAGE 220 V dc 250 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 50 W 62 5 RATED SWITCH OPERATIONS Mechanical 5 10 Electrical 1 x 10 at full load SWITCHING TIME 5ms PATH RESISTANCE lt 500 mQ INSULATION RESISTANCE gt 1x 100 BANDWIDTH 3 dB 1 GHz typical INSERTION LOSS TYPICAL 500 MHz lt 1 0 dB 1 GHz 3 0 dB CROSSTALK TYPICAL 500 MHz lt 75 dB 1 GHz lt 70 dB ISOLATION TYPICAL 500 MHz lt 75 dB 1 lt 70 dB VSWR TYPICAL 500 MHz 14 1 1 2 5 1 For mating connector crimp pins and other accessories please refer to Appendix B EX1200 6216 Plug in Module 135 VTI Instruments Corp EX1200 6216HV PLUG IN MODULE DUAL 1X16 500 V 250 MHZ MULTIPLEXERS The EX1200 6216HV is an RF switch module designed in a star configuration A star switch allows any channel to be connected to any other channel This configuration approach also allows for the creation of simple matrices i e 8 x 1 x 8 Additionally for applications that require the switching of high voltage probes or transient power supply signals the EX1200 6216HV provides the capability of switching up to 500 V and up to 250 MHz The EX1200 621HV can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver document
49. Pin 6 4 K19 19L Pin72 __ 7 111 Pin 45 807 re __l 4 vas 19H Pin 73 11H Pin 46 CH1 Pin 8 CH2 COMH Pin 16 I BPL_SHI K18 K10 2 Pin 15 BPL SLO 18L Pin70 101 Pin 43 7 2L Pin 3 T 4 4 E 1 L 7245 18H Pin 71 10H Pin 44 CH1_2H Pin 4 K17 K9 K1 i arg i i ee K56 T SERA anom B 17H 9H 1H Pin 2 CH1_COML Pin 5 i CH1_COMH Pin 6 1 4 K57 Chl COME Pin 5 T 2 16 I DAMPS n CH2 COML Pin 15 LO CH2 Pin 16 1 e COML Pin 15 T T Current Measurement Channels K33 K25 17H Pin 79 CH2 Pin 41 T 4 1H Pin 12 __ K61 CH2 17L Pin 78 CH2_9L Pin 40 CH2 1L Pin 11 21 Pin 63 K42 K34 K26 K62 18H Pin 81 lt 7 CH2 10 54 7 2H Pin 14 _ CH3 2L Pin 84 CH2_18L Pin 80 2 7 4 CH2_10L Pin 53 lt 5 2 21 Pin 13 K35 K27 w CH2_19H Pin 83 1 4 2 11 Pin 56 7 1 CH2 Pin 18 _ 97
50. Pin E11 Pin E15 69 CH1 8L Pin E4 09 8L Pin LO CH3 8L Pin E12 69 8L Pin E16 K73 K75 K76 1 09 1 1 09 i 69 CH1 COMH Pin B1 COMH Pin B5 COMH Pin B9 CH4_COMH Pin B13 CH1 Pin B2 1 CHS Pin B6 1 Pin B10 1 Pin B14 Kn NC a NC ae NC NC I J5 I J6 I 7 I 1 oo 1 O oo 1 0 9 2 1 CH5 1W CH6 1W 07714 aw Pin A17 o 200k2 87721 20 A25 200k2 Pin A28 o 4 S3 5 Pin 017 1H Pin C21 1H Pin C25 _ 1H Pin B29 LO CH5_1L Pin C18 w CH6_1L Pin C22 09 11 Pin C26 09 11 Pin B30 K34 K42 150 158 CH5 2H Pin D17 CH6_2H Pin 021 2H Pin 025 CH8_2H Pin C29 LO CH5 2L Pin D18 09 CH6_2L Pin 022 09 21 Pin 026 09 CH8 21 Pin C30 K35 K51 159 5 Pin E17 CH6_3H Pin E21 Pin E25 Pin 029 LO CH5 3L Pin E18 _ 3L Pin E22 09 CH7 3L Pin E26 O CH8_3L Pin 030 K36 152 _4 Pin A19 CH6_4H Pin A23 CH7_4H Pin 26 CH8_4H Pin E29 LO 5 4L Pin A20 4L Pin A24 CH7 4L Pin A27 69 4L Pin E30 K37 K45 K53 1 5 Pin B19 CH6 5H
51. The module also incorporates ground pins labeled GND C above These pins tie the module to chassis ground Note that the SHIELD pins are not tied to ground and have no electrical connections EX1200 4128 Plug in Module 83 VTI Instruments Corp Pin H L Signal Pin H L Signal Pin H L Signal Pin H L Signal 97 17160 CH33 2W H cH49 2W A 2 ae 1 2 L CH34 2W 1 2 H 2 2W cuss 2w 1412 cust 2w Ar H CH4_2W eu 20 2W e t CH36 2W M i CH52 2W E H 529 158 CH212W pow l4 H CH53 I Cus 2w 92 H 2W 15570 CH54 2w L 2 D L CH23 2W L L CH39 2W CHSS 2W E 2W 15 CH24 2W CH40 2W us CH56 2W ES L 826 L CH25 2W CH4l2W CHS7_2W i CH10 2W E 61110 ow H CH58 2 cHiL2W 932 H E cH43 aw CHS 2W E 2 2W CH28 2W A CH44 2W CH60 2W E H 2 93 H 2W NE 2W H 2 E H CH14 2W 9 H CH30 2W L CH46 2W H CH62_2w 5 CHI5 2W E
52. e at K137 10 EX1200 4264 Plug in Module 99 BPL HI BPL SHI BPL LO BPL SLO VTI Instruments Corp EX1200 4264 SPECIFICATIONS GENERAL SPECIFICATIONS CHANNEL COUNT Two 64x2 2 wire channels RELAY TYPE Electromechanically fail safe MAXIMUM SWITCHING VOLTAGE 220 V dc 250 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W 62 5 VA see the Figure 4 for more information MINIMUM CONTACT RATING 100 uV This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 Electrical 1 10 at full load SWITCHING TIME TYPICAL 10 ms PATH RESISTANCE 0 50 INSULATION RESISTANCE gt 10 Q MAXIMUM THERMAL OFFSET PER CHANNEL HI LO 1011 BANDWIDTH 3 dB gt 40 MHz CROSSTALK TYPICAL 1MHz 45 dB 10 MHz 30 dB ISOLATION TYPICAL 1MHz 60 dB 10 MHz 50 dB For mating connector crimp pins and other accessories please refer to Appendix B RELAY BREAKING CAPACITY 300 200 100 resistive load 1 1 50 40 30 DC Voltage Vdc 20 recommended application range 10 0102 05 1 2 5 10 20 DC current A FIGURE 4 40 RELAY BREAKING CAPACITY 100 EX1200 4264 Plug in
53. 0 5 Two Wire 58 Connector Pins and Signals te 58 Logical Diagran uie ROI ete REOR ERU ORDIN mU n enis 61 EX1200 3096 Specifications Re 63 EX1200 3164 i etr noo ER YE 64 16 1x4 2 ware 300 M lgpl xer t o Dt er e 64 Connector 515 18 25 t ri bte bietet 64 Logical BTT Ete Doom e eut pin ten Doe 66 1200 3164 Specifications orent RD 68 1200 3824 PEUG IN MODULE na stron RSEN 69 8 1 x 24 Solid State 100V 100mA 69 EX1200 3824 Standard Board oo e Deren in e Doe ettet etre 69 EX1200 3824 With Attenuatot Option I RP Dee RU iere eire 69 Connector Pins and Signals cse rit 70 Logical RTT M 72 EX1200 38TB rr ete nre Ete 8225 73 1200 5824 Specifications p he DH Gt 76 EX1200 4003 PLUG IN D e E HEP HE RE ore e 77 Dual 4 x 16 Two Wire Matrix 300 2 77 Logical RTT e MR 79 EX1200 4003 Specifications a 8 81 EX1200 4128 PLUG IN MODBUEE eire 82 4 x 128 One wire Matrix 150 V 0 5 A 82 Connector Pins and Signals
54. 16NO 10 UNUSED N A 90 UNUSED N A CH 20COM 95 CH 16COM 11 UNUSED N A 9 UNUSED N A CH 20NC 96 CH 16NC 12 UNUSED N A 9 UNUSED N A CH 25NO 97 CH 21NO 13 UNUSED N A 9 UNUSED N A CH 25COM 98 CH 21COM 14 4 UNUSED N A 94 UNUSED N A 4 CH 25NC 99 21 15 UNUSED N A 9 SHIELD 82 30 100 UNUSED N A 6 UNUSED N A 96 UNUSED N A 6 30 101 26NO 16 UNUSED N A 9 4 64 30NC 102 26 17 8 UNUSED N A 98 4COM 65 8 UNUSED N A CH 26NC 18 9 UNUSED N A 99 CH 4NC 66 9 UNUSED N A CH 31NO 19 60 UNUSED N A 00 CH 9NO 67 40 UNUSED N A CH 31COM 20 6 UNUSED N A 0 9 68 4 UNUSED N A CH31NC 21 6 UNUSED N A CH 9NC 69 4 UNUSED N A CH 2NO 22 6 UNUSED N A 0 14 70 4 UNUSED N A CH 2COM 23 64 UNUSED N A 04 14 71 27 UNUSED N A CH 2NC 24 6 3 43 0 14 72 4 UNUSED N A CH 7NO 25 66 3COM 44 06 19 73 46 UNUSED N A CH 7COM 26 6 45 CH 19COM 74 4 UNUSED N A CH 7NC 27 68 8 46 08 CH 19 75 48 UNUSED N A 12NO 28 T 8 47 09 24NO 76 49 UNUSED N A 12COM 29 CH 8NC 48 0 24 77 UNUSED N A CH 12 30 CH 13 49 CH 24NC 78 UNUSED N A UNUSED N A 13 50 UNUSED N A UNUSED N A SHIELD 61 CH 13NC 51 29 79 UNUSED N A UNUSED N A 4 UNUSED N A 4 29 80 4 UNUSED N A CH 17 31 UNUSED N A CH 29NC 81 SHIELD 63 84 CH 17COM 32 6 UNUSED N A 6 UNUSED N A 6 UNUSED N A CH 17 33 UNUSED N A UNUSED N A
55. 171 Pin 67 CH2_9L Pin 42 CH2 1L Pin 26 K90 K82 K74 K66 K58 K50 CH2 42H Pin 164 1 2 34H Pin 145 1 4 26H Pin 129 r 2 18H Pin 64 T t e CH2 10H Pin 45 gt 2H Pin 29 GHS 42L Pin 165 __ CH2 34L Pin 144 7 261 Pin 128 7 CH2 181 Pin 65 CH2 10L Pin44 2 7 4 CH2_2L Pin 28 K91 K83 K75 K67 K59 K51 CH2 43H Pin 162 1 CH2 35H Pin 147 __ 1 27H Pin 131 tT gt 2 19H Pin 62 2 11H Pin 47 1 Pin 31 T 2 43L Pin 163 7 4 CH2_35L Pin 146 2 7 4 2 271 Pin 130 4 2 191 Pin 63 5 9 111 Pin 46 2 7 4 2 3L Pin30 K84 K76 K68 K60 K52 44H Pin 160 2 Pin 149 1 CH2 28H Pin 133 2 20H Pin 60 7 4 2 12H Pin 49 7 4 CH2 4H Pin 33 CHS 441 Pin 161 CH2_36L Pin 148 CHS 28L Pin 132 2 201 Pin 61 t CH2_12L Pin 48 77 4L Pin 32 CH2_45H Pin 158 7 2 37H Pin 174 1 2 29H Pin 135 7 gt CH2 21H Pin 58 2 13H Pin 74 75 5H Pin 35 CH2 45L Pin 159 CH2 37L Pin 175 7 291 Pin 134 CH2 211 Pin 59 CH2
56. 2 2 3 2 4 2 5 3 6 3 CH 7NO 3 CH 8NO 3 CH 9NO 3 CH 10NO 4 6COM 4 CH 7COM 4 CH 8COM 4 CH 9COM 4 CH 10COM 5 CH 119 5 2 5 13 5 14 5 15 6 6 12 6 13COM 6 14 6 15 7 16 7 17NO 7 18NO 7 19 7 20 8 16 8 17 8 18 8 19 8 20 9 21 9 22NO 9 23 9 24 9 25 10 21 10 22 10 23 10 24 10 25 11 26NO 11 27 11 28 11 29NO 11 30 12 26 12 27 12 28COM 12 29 12 30 13 13 32NO 13 33NO 13 34 13 35 14 3 14 32 14 33COM 14 34 14 35 15 36 15 37NO 15 38 15 39NO 15 40 16 36 16 37 16 38 16 39 16 40 17 41 17 42NO 17 43 17 44 17 45 18 4 18 42 18 43 18 44 18 45 19 46 19 47 19 48 19 49 19 50 20 46 20 47 20 48 20 49 20 50 21 51NO 21 52NO 21 53 21 54 21 55 22 5
57. 4 191 88 __ ML Pin21 3L Pin 5 714 43H Pin 187 CH1 35H Pin 122 27H Pin 106 m 19H Pin 87 11H Pin 22 4 Pin 6 42 34 26 421 Pin 190 T 34L Pin 119 7 26L Pin 103 T 1 18L Pin 90 CH1_10L Pin 19 E CH1_2L Pin 3 CH1 42H Pin 189 4 Pin 120 C 26H Pin 104 pn 18H Pin89 5 4 CH1 10H Pin20 2H Pin 4 41 33 25 CH1 411 Pin 192 T e 1 33L Pin 117 7 25L Pin 101 7 4 17L Pin 92 ao a CH1_9L Pin 17 49 1 CHI 1L Pint 1 CH1 Pin 191 7 33H Pin 118 7 4 25H Pin 102 _ CH1 17H Pin 91 4 9H Pin 18 1H Pin 2 CH1 COMH Pin 76 1 4 CH1_COML Pin 25 CH2 COMH Pin 50 i CH2_COML Pin 51 K81 K73 65 K57 K49 CH2 41H Pin 166 2 33H Pin 143 1 4 25H Pin 127 2 17H Pin 66 7 1 2 Pin 43 7 4 1H Pin 27 41L Pin 167 7 9 331 Pin 142 251 Pin 126 7 4
58. 4 Channel SP4T RF Multiplexer 50 3 0010 140 Connector Pins and Signals eee retento Deme ped e rnt 140 LoeicaltDiagram nt tte DR h aaah 141 1200 6301 Specifications iere 142 EX1200 6301 E PEUG IN MODULE ee eie tee keene 143 4 Channel SP4T Self terminated RF Multiplexer 50 3 GHZ 143 Connector Pins and Signals inet rE E 143 Loeicalt Diagram 5 144 EX1200 6301T Specifications e Gn eter shes RR T DO RS OP RR DR He iter 145 1200 7100 PLUG IN MODULE 146 DC 26 GHz Microwave Switch Carrier and Relay 146 Front Panel Enclosures a a eer rrr 146 Microwave Switch Modules ccccccccccccecssssnccecececsessaececececsessnaeeecececeeseaueaecececeesesaaececcesesesaaecececsesensaaeeeeecs 147 7102 Microwave Modil l m u teste este Pa entes 147 7104 Microwave Module oe terere pner teret ge 148 71
59. 5 Pini 100 50 EE 1 am A ERR rK il 002 0222 Pin101 151 Pin 150 Pin 200 FIGURE 4 26 EX1200 3824 FRONT PANEL FRONT VIEW x bx x DO Dr Dad x L T 11 FIGURE 4 27 EX1200 3824 ATTENUATOR CONNECTOR 24 PIN 70 EX1200 3824 Plug in Module www vtiinstruments com Jumper Close 10 KHz LPF Jumper Open 400 KHz LPF FIGURE 4 28 EX1200 3824 LOW PASS FILTER CONFIGURATION CONNECTOR 2 PIN EX1200 3824 MUX CARD 200PIN CONNECTOR PINOUTS P1 PIN Desc PI PIN Desc P1 PIN Desc Desc 1 MUXI 1 51 MUX3 CH 101 MUXS 1 151 CH 2 MUXI CH 2 52 MUX3 CH 2 102 MUXS CH 2 152 MUX7 CH 2 3 MUXI CH 3 53 MUX3 CH 3 103 MUXS CH 3 153 MUX7 CH 3 4 MUXI CH 4 54 MUX3 104 MUXS CH 4 154 MUX7 CH 4 5 MUXI CH 5 55 MUX3 CH 5 105 MUXS CH 5 155 MUX7 CH 5 6 MUXI CH 6 56 MUX3 CH 6 106 MUXS CH 6 156 MUX7 7 MUXI CH 7 57 MUX3 CH 7 107 MUXS CH 7 157 MUX7 CH 7 8 MUXI CH 8 58 MUX3 8 108 MUXS CH 8 158 MUX7 CH 8 9 MUXI CH 9 59 MUX3 CH 9 109 MUXS CH 9 159 MUX7 CH 9 10 MUXI CH 10 60 MUX3 CH
60. 22 52 22 53COM 22 54 22 55 23 56 23 57 23 58 23 59 23 60NO 24 56 24 57 24 58 24 59 24 60COM 25 6 25 62NO 25 63 25 64NO 25 65 26 6 26 62 26 63 26 64 26 65 27 66NO 27 67NO 27 68 27 69NO 27 70 28 66 28 67 28 68 28 69 28 70 29 71 29 72NO 29 73 29 74 29 75 30 71 30 72 30 73 30 74 30 75 31 76 31 77NO 31 78 31 79 31 80 32 76 32 77 32 78 32 79 32 80 TABLE 4 39 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 102 EX1200 5001 Plug in Module www vtiinstruments com LOGICAL DIAGRAM CH_1COM CH 1 CH 21 21 41 CH 41NO CH 61COM CH_61NO Pin A2 s 1 10 ioi 9 18 ia 9 17 26 kei Pin 25 CH 2COM CH 2NO 22COM 282 22NO 42 222 42NO 62COM CH_62NO Pin B2 1 10 152 Pin B9 Pin B18 17 26 Ke2 Pin B25 m Wi
61. CH1_MC23 P CH2 026 CH2_MC23 c4 CH1_MC8 CHI MC24 Et CH2 8 3 CH2 24 z 5 CHI MC9 CH1_MC25 2 9 5 2 25 MCIO E E CH1_MC26 E 2 MCIO E CH2 26 MCII BM CH1_MC27 2 i CH2 27 MCI2 MC28 CH2 12 2 MC28 Bs MCI3 Dis CH1_MC29 Ee CH2 nis 2 29 H CH1_MC14 L CH1_MC30 ca H CH2_MC14 CH2_MC30 5 H 1 MCIS 18 H 16 16 MC32 i 2 MCI6 us CH2_MC32 2 Wire Common and Backplane Signal Names Pin DMM Bus Line Signal Pin DMM Bus Line H L CH1_MC1_COM T t CH2 MCI COM H CH1_MC2_COM H 2 COM TO BOY BPL TO DCV 2WOHM TABLE 4 37 2 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS NOTES The H L column represents the and LO pins for the 2 wire signal The BPL references are lines available on the EX1200 mainframe backplane that connect the plug in module to the on board DMM if installed For more information on these lines refer to the EX1200 Series User s Manual EX1200 4264 Plug in Module 97 VTI Instruments Corp
62. NOI P CH6 NOI R NOI R CH8 NOI 5 CH2 NOI 5 CH7 NOI T 4 NOI T CH9 NOI U NO2 CH6_NO2 V CH3 2 CH8_NO2 w CH2 NO2 w CH7 NO2 X 4 NO2 X CH9 NO2 Y 5 NC Y 10 NC Z 5 NOI Z 10 NOI a 5 NO2 a 10 NO2 b 5 b 10 NO3 c 5 COM c CH10 COM d UNUSED d UNUSED www vtiinstruments com EX1200 6101 Plug in Module 121 VTI Instruments Corp LOGICAL DIAGRAM 4101 4100 NC Pin CH9 NC Pin Pi Pi O CHA NO Pin T Ki 9 Pin COM Pin J 9 COM Pin J K18 Pin X K3 9 Pin X 107 CHA NOS Pin D 9 NOS Pin D CH3 NC Pin L CH8 NC Pin L 2777 CH3_NO1 Pin P 9 7 CH8 NO Pin Pin o 08 o 21 CH3_NO2 Pin V K6 CHS 2 Pin V K20 Pin B K5 CHB Pin CH2_NC Pin M CH7 Pin Pi Di 0 2 NO Pin S CHINO Pin S COM Pin H CH7 COM Pin H ca 24 o neges CH2 Pin W K9 D 7 Pin W Pi Pi CH2_NO3 Pin C 9777 CH7 NO3 Pin C CH1 NC Pin K CH6 NC Pin Pi Di CHINO Pin P CH6_NO1 Pin P COM
63. Relays to the EX1200 DMM Backplane Voltage and Resistance Measurements 4 Wire Resistance Current Measurements 2 A Max K80 CH1_COMH Pin K96 CH1 COMH Pin Bt eT K88 CH1_COMH Pin 81 CH1_COML Pin B2 K84 CH5 COMH Pin B17 5 COML Pin B18 CH1_COML Pin B2 5 Pin B17 sng WAG BPL_SHI 5 Pin B18 BPL SLO Pin B2 K92 CH5 COMH Pin B17 CH5 COML Pin B18 FIGURE 4 11 EX1200 3001 LOGICAL DIAGRAM BPL DAMPS BPL LO 36 EX1200 3001 Plug in Module www vtiinstruments com TB Conn TB TB Conn Signal Ref Signal Pin Ref Signal Ref Signal Pin CH1_7L D4 T41 CH7_7L D28 T81 CH7_5L 121 CH6 IW A21 CHI 7H D3 T42 CH7_7H D27 T82 CH7_5H B27 T122 SHIELD A22 CH2_2L D6 43 CH7 2
64. The EX1200 3096 consists of dual 1x48 2 wire multiplexer banks Each bank can be interconnected within a module under program control via bussing relays and across modules via the EX1200 analog bus to configure larger multiplexers as required eliminating external wiring and helping reduce unterminated stubs Internal residual voltage discharge relays can be enabled to momentarily short out the measurement path when changing from one input channel to the next This dissipates any voltage held by the wiring and instrument input capacitance These relays protect sensitive devices such as CMOS circuits from residual voltages caused by previous high voltage measurements This feature can also be disabled in low voltage applications where maximum throughput speed is important The EX1200 3096 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details discussed in the VTEX Switch Driver Programmer 5 Manual P N 82 0117 000 Figure 4 21 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available optional terminal block provides locking slide termination points for external field wiring This terminal block also includes cold junction
65. 10 MUX4 COM P 11 MUX4 12 GND 13 5 COM P 14 MUXS5 15 GND 16 MUX6 COM P 17 MUX6 COM N 18 GND A 19 MUX7 COM P 20 7 COM 21 GND A 22 MUX8 COM P 23 MUX8 COM N 24 GND A www vtiinstruments com TABLE 4 23 EX1200 3824 ATTENUATOR OUTPUT 24 PIN MAPPING AND EX1200 38TB P10 amp P11 PIN MAPPING EX1200 38TB EX1200 38TB is the terminal box that can be used with EX1200 3824 it gets mounted on the front panel connecting to the 200 pin connector on the EX1200 3824 Board The 8 Banks of 1x24 can be accessed on the 8 Nos of 50 Pin connectors on the EX1200 38TB The 24 Pin connector on the EX1200 3824 for the Attenuator Output can also be brought out 1 1 using 24 Female Female IDC Cable For Pinouts of P2 P9 please refer to Table 4 26 for PIO amp P11 Pinouts refer to Table 4 23 PANEL Inetruments Corp tO 2014 TO ined FIGURE 4 30 EX1200 38TB TERMINAL BOARD FOR EX1200 3824 EX1200 3824 Plug in Module 73 VTI Instruments Corp P12 8 Pin Connector Pinouts TABLE 4 25 EX1200 38TB P13 PINOUTS P2 P9 50 PIN CONNECTOR PINOUTS on EX1200 38TB dle m je MUX1 CH 24 MUX2 CH 24 CH 24 MUXA CH 24 5 CH 24 MUX6 CH 24 MUX7 CH 24 MUXS8 CH 24 MUX1_GND MUX2_GND MUX3_GND MUX4_GND MUX5_GND MUX6_GND MUX7_GND MUX8_GND CH 23 MUX2 CH 23
66. 10 SHIELD 10 CH3 COML 10 CH3 IL 10 CH3 2L 10 CH3 3L 11 CH3 4H 11 CH3 5H 11 CH3 6H 11 CH3 7H 11 CH3 8H 12 CH3 4L 12 CH3 5L 12 CH3 6L 12 CH3 7L 12 CH3 8L 13 4 IW 13 4 COMH 13 CHA 13 CHA 2H 13 CHA 14 SHIELD 14 4 COML 14 CHA 11 14 2L 14 3L 15 CH4 4H 15 4 5H 15 4 6H 15 CHA 7H 15 8H 16 CHA 16 5L 16 6L 16 CHA 7L 16 8L 17 CH5 IW 17 5 COMH 17 CH5 17 CH5 2H 17 CH5 3H 18 SHIELD 18 5 COML 18 CH5 IL 18 CH5 2L 18 CH5 3L 19 CH5 4H 19 CH5 5H 19 CH5 6H 19 CH5 7H 19 CH5 8H 20 CH5 4L 20 CH5 5L 20 CH5 6L 20 CH5 7L 20 CH5 8L 21 CH6 IW 21 CH6 COMH 21 CH6 21 CH6 2H 21 CH6 3H 22 SHIELD 22 CHp COML 22 CH6 IL 22 CH6 2L 22 CH6 3L 23 CH6 4H 23 CH6 5H 23 CH6 6H 23 CH6 7H 23 CH6 8H 24 CH6 4L 24 CH6 5L 24 CH6 6L 24 CH6 7L 24 CH6 8L 25 CH7 IW 25 7 COMH 25 CH7 1H 25 CH7 2H 25 CH7 3H 26 CH7 4H 26 CH7 COML 26 CH7 1 26 CH7 2L 26 CH7 3L 27 CH7 4L 27 CH7 5H 27 CH7 6H 27 CH7 7H 27 CH7 8H 28 CH8 IW 28 CH7 5L 28 6L 28 CH7 7L 28 CH7 8L 29 CH8 COMH 29 8 29 8 2H 29 8 29 CH8 4H 30 CH8 COML 30 CH8 IL 30 8 2L 30 8 3L 30 CH8 4L 31 8 5H 31 CH8_6H 31 CH8_7H 31 CH8_8H 31 SHIELD 32 CH8 5L 32 CH8_6L 32 CH8_7L 32 CH8_8L 32 UNUSED TABLE 4 5 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 3001 incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channe
67. 119 Pin C25 6 69 Q 599 59 0 3 5 p 500 e e 48 Tr H CH R24 Pin D12 09 69 69 69 CH R56 Pin E31 4 CH R88 Pin B12 4 CH 120 Pin A26 69 9 s STETE Tes TE CH R25 Pin E12 4 5 57 Pin D30 Q 00 50 90 2 CH R89 Pin C12 4 n CH Ri21 Pin B26 Q0 0 00 g 7 167 127 148 e CH R26 Pin D13 4 CH R58 Pin E30 4 EO CH R90 Pin A13 4 CH R122 Pin C26 4 0 0 amp 7 128 142 le L CH R27 Pin E13 4 59 Pin 029 xQ Pin B13 CH R123 Pin A27 e FTP TS CH R28 Pin D14 CH R60 29 409 209 509 4 CH R92 Pin C13 CH R124 Pin B27 X 7 e Ter Te CH R29 Pin E14 4 61 Pin 3 9 559 0 9 amp Pin A14 4 CH R 25 Pin C27 2500 0 09 S C 128 G CH R30 Pin D15 R62 Pin C3 097 09 09509 CH R84 Pin B14 126 Pin 28 a e 1248 16 e CH R31 Pin E15 2 R63 Pin 4 09 09 CH R95 Pin C14 CH 127 Pin B28 z e P Te e Te Te Te CH R32 Pin 016 CH 64 Pin B4 Q9 69 69 4 CH R96 Pin A15 4 CH R128 Pin C28
68. 12 CH7 3L 12 CH2 4L 12 CH8 4L 12 CH2 IL 12 CH7 IL 13 CH2 3H 13 CHI 2H 13 COMH 13 CH8 2H 13 8 14 CH2 3L 14 2L 14 COML 14 8 2L 14 CH8 COML 15 CH8 15 CHI 4H 15 16 4H 15 CHI 15 CH8 16 CH8 3L 16 CHI 4L 16 16 41 16 IL 16 8 IL 17 3H 17 CH9 2H 17 CH9 COMH 17 6 17 16 2 18 3L 18 9 2L 18 CH9 COML 18 CHI6 IL 18 16 2L 19 CH16 COMH 19 16 3H 19 15 4H 19 CH9 IH 19 CHI5 20 16 COML 20 CHI16 20 15 4L 20 IL 20 CHI5 IL 21 CH9 4H 21 10 2H 21 CHIO COMH 21 14 21 15 2 22 9 4L 22 10 2L 22 10 COML 22 4 IL 22 15 21 23 CH9 3H 23 15 COMH 23 4 2H 23 CHIO 23 14 4H 24 CH9 3L 24 15 COML 24 14 2L 24 CHIO IL 24 14 4L 25 5 25 CH11_COMH 25 CH11_1H 25 CH13_1H 25 CH10_4H 26 15 3L 26 11 COML 26 CH11_1L 26 CHI3 IL 26 CHIO 4L 27 10 3H 27 11 4H 27 27 2H 27 13 4H 28 0 3L 28 11 41 28 3L 28 2L 28 13 4L 29 CHI4 COMH 29 CHI2 2H 29 CHI2 29 29 14 3H 30 14 COML 30 CHI2 2L 30 CHI2 IL 30 3L 30 14 3L 31 CHI2 31 CHI3 COMH 31 CHI2 3H 31 2 COMH 31 CHI3 32 12 4L 32 13 COML 32 CHI2 3L 32 CHI2 COML 32 CHI3 2L TABLE 4 20 CONNECTOR PINS amp SIGNAL ASSIGNMENTS EX1200 3164 Plug in Module 65 VTI Instruments Corp LOGICA
69. 13 SHIELD 14 CH2 7H 13 CH2 7L 14 5H 13 5L 15 SHIELD 16 2 8H 15 CH2 8L 16 CHI 6H 15 CHI 6L 17 SHIELD 18 CH2 9H 17 CH2 9L 18 7H 17 19 SHIELD 20 CH2 10H 19 2 101 20 8 19 CHI 8L 21 SHIELD 22 CH2 11H 21 2 111 22 CHI 9H 21 9L 23 SHIELD 24 CH2 12H 23 CH2 121 24 CHI 10L 23 10H 25 SHIELD 26 UNUSED 25 UNUSED 26 111 25 11H 27 SHIELD 28 UNUSED 27 UNUSED 28 121 27 CHI 12H 29 SHIELD 30 UNUSED 29 UNUSED 30 CH2 COMH 29 2 COML 31 SHIELD 32 GND C 31 UNUSED 32 UNUSED 31 CH2 IW TABLE 4 3 CONNECTOR PINS amp SIGNAL ASSIGNMENTS EX1200 2007A Plug in Module 27 VTI Instruments Corp LOGICAL DIAGRAM CH1_COML Pin E3 4 CH2 Pin E29 CH1 COMH Pin D4 CH2 COMH Pin 030 K1 K29 K3 K28 K2 v ve r CH 1W Pin E ER 1 P 2a 78 CH2 1W Pin E31 K4 16 4 CH2 1H Pin C1 4 1L Pin E5 CH2 1L Pin B2 K5 17 4 2H Pin 08 2H Pin C3 2L Pin E7 2L Pin B4 K6 18 3H Pin 010 CH2 Pin C5 4 3L Pin E9 3L Pin B6 K7 19 4H Pin 012 eT 2 4H Pin C7 Pin E11 4L Pin B8 K8 20 5H Pin 014 CH2 5H Pin B10
70. 37COM Pin B16 38COM Pin C16 39COM Pin D16 40COM Pin E16 FIGURE 4 48 EX1200 5006 LOGICAL DIAGRAM www vtiinstruments com CH_21NO Pin AQ CH_22NO Pin B9 CH_23NO Pin C9 CH_24NO Pin D9 CH_25NO Pin E9 CH_26NO Pin 11 CH_27NO Pin B11 CH_28NO Pin C11 CH_29NO Pin D11 CH_30NO Pin E11 CH_31NO Pin A13 CH_32NO Pin B13 CH_33NO Pin C13 CH 34NO Pin D13 35 13 36NO 15 37NO 15 38NO 15 39NO Pin 015 CH 40NO Pin E15 EX1200 5006 Plug in Module 117 VTI Instruments Corp 5COM E2 CH 36NO 15 33COM C14 UNUSED N A CH_4COM D2 4 31 14 3 CH 32COM 14 UNUSED N A CH 10 E3 CH 31NO A13 8 38 5 UNUSED N A 9NO D3
71. 9 169 CH2 38H Pin 831 2_ Pin B30 K70 2 Pin C29 7 1 2 34L Pin C28 K71 2 35H Pin E31 CH2_35L Pin E30 5 9 K72 CH2_36H Pin 031 Pin 030 55 19H Pin 025 eT ed CH2 191 Pin 024 2 7 4 56 20H Pin B27 CH2 201 Pin B26 4 K57 21H Pin E27 __ 7 2 211 Pin E26 K58 2_22 Pin E25 e CH2 221 Pin E24 K59 CH2_23H Pin 25 CH2 231 Pin A24 24H Pin 029 CH2 241 Pin 028 K61 CH2 25H Pin B29 2 251 Pin B28 K62 CH2_26H Pin C27 CH2_26L Pin C26 __ K63 CH2_27H Pin A27 7 2 27L Pin 26 __ Relays to the EX1200 DMM Backplane 10H Pin 023 7 2 101 Pin 022 ed K47 CH2_11H Pin A23 111 Pin A22 K48 GHS 12H Pin 23 4 2 121 Pin B22 2 13H Pin C21 1 e 2 131 Pin 20 2 7 9 K50 CH2 14H 21 2 7 1 4 14L Pin 20 5 9 K51 CH2 15H Pin C25 1 151 Pin C24 K52 GHS 16H Pin 825 7 161 Pin 824 K53 17H Pin 23 7
72. CH R70 Pin B6 4 R102 19 49 509 09 09 xf De 16712 CH R7 Pin 9 60 CH R39 Pin D21 4 CH R71 Pin C6 4 CH R103 Pin B19 295059 P e 709 09 59 e CH Pin D4 69 69 69 CH R40 Pin E21 4 CH R72 Pin A7 9 104 Pin C20 G9 6 569 20 509 5 59 7 G 128 Pin 4 0 0 CH R41 Pin D22 Pin E4 499 R41 Pin D22 50929 CH R73 Pin B7 CH 105 Pin A20 50029 CH R10 Pin D5 4 lt CH R42 Pin E22 69 5695 CH R74 Pin C7 lt CH 106 Pin B20 6 5 Pe Pe qe STS TE TE 2 e qu Tuo qut CH R1 Pin E5 6 o CH R43 Pin D23 0069509 50 lt CH R75 Pin A8 107 Pin C21 09509 o P qu Te lt 4 48 xS pe pe CH R12 Pin 06 CH R44 Pin E23 CH R76 Pin 88 4 CH R108 Pin A21 6 CTE lt T T Te E CH R13 409 09 09 R45 Pin 024 9 x CH R77 Pin C8 4 4 R109 Pin B21 4 Let R14 Pin D7 9 9 9 R14 Pin D7 TIFE CH R46 Pin E24 CH R78 Pin A9 CH 110 Pin C22 PO oP eB P CH R15 Pin
73. CH13_1L D26 T83 CH12_2L B30 CH13_1H D25 T84 CH12_2H B29 CH10_1L D24 T85 CH13_COML B32 CH10_1H D23 T86 13 B31 CH14_1L D22 T87 4 C2 4 D21 T88 _ COMH C1 CH16_3L B20 T89 CH6_4L C4 CH16_3H B19 T90 CH6_4H C3 CH5 COMH 1 T91 CH3 COML C6 5 COML A2 T92 CH3 COMH C5 CH5 3H A3 T93 CH7 4L C8 CH5 3L 4 T94 CH7 4H C7 CHA 5 T95 CH2 COML C10 CH4_3L 6 T96 CH2 COMH 9 CH6 3H AT T97 15 IL E20 CH6 3L 8 T98 CHI5 1H E19 11 COML B26 T99 8 IL E16 11 COMH B25 100 8 15 15 COML 24 T101 15 2L E22 15 B23 T102 15 2H E21 CHIO 2L B22 T103 14 4L E24 CHIO 2H B21 T104 14 23 3L D30 105 CHS COML 14 D29 106 8 13 12 COML 2 107 7 1L 12 12 COMH D31 T108 CH7_1H Ell CH5 4L E2 T109 CH7 COML E10 CH5 4H El T110 CH7_COMH E9 1L 4 CH6 1 E8 CH5 IH E3 T112 CH6 E7 CH6 COML E6 T113 8 4L C12 CH6_COMH ES 114 CH8 4H 1 16 2 E17 115 14 16 21 18 116 COMH 13 5 21 2 117 16 16 CH5 2H DI T118 16 15 21 B2 T119 CH9 3H A23 4 2H T120 CH9 3L 24 www vtiinstruments com TB Ref T121 T122 123 124 T125 T126 127 T128 T129 130 131 132 T133 T134 T135 T136 T137 T138 T139 T140 T14 T142 T143 T144 T145 T146 T147 T148 T149 T150 T151 T152 T153
74. D E H Front View Rear View Rear Connector Detail FIGURE 4 66 7106 LOGICAL DIAGRAM SIGNALS AND SWITCH DETAILS 148 EX1200 7100 Plug in Module www vtiinstruments com 7122 Microwave Module Connector Pin M B Front View Rear View Rear Connector Netail FIGURE 4 67 7122 LOGICAL DIAGRAM SIGNALS AND SWITCH DETAILS Installing a Switch Module Prior to a switch module into the EX1200 7100 enclosure ensure that has been removed from the mainframe If the enclosure is already installed into an EX1200 mainframe remove it from the mainframe to facilitate installation Next slide the module into the enclosure and carefully ensure that the guide pins on the enclosure mate with the pins on the module Once the guide pins are aligned firmly push the module into the mating connector until the module is seated flush in the enclosure Install the four socket head cap screw s to complete the installation N gt FIGURE 4 68 INSTALLING A SWITCH MODULE EX1200 7100 Plug in Module 149 VTI Instruments Corp EX1200 7100 CARRIER FRONT PANEL CONNECTORS The EX1200 7100 carrier provides six lines of control for external microwave switches Using a pass through adapter VTI P N 70 0146 026 external microwave switches can be connected to the three 14 pin connectors located inside the carrier The signals for the connector pins are shown in Table 4 2 Connector Pin Signal 24V RELAY 1 RELA
75. D3 4 CHI 27H D9 94 CH2 7H 21 4 2 27 27 CHI 8L C2 281 14 9 CH2 8L 18 2 281 C30 CHI 8H C3 6 CH1_28H B15 96 CH2 8H B19 6 CH2_28H C31 CHI 9L D4 CHI 29L 14 9 CH2 9L E18 CH2 29L D26 8 9H D5 8 29 C15 98 2 9 19 8 2 29 D27 9 CHI 101 6 9 CHI 30L C12 99 CH2_10L D22 9 2 301 28 CHI 10H 7 60 1 30H C13 00 CH2 10H D23 40 CH2_30H A29 CH1_11L E4 6 E12 CH2 111 22 4 311 A30 11H E5 6 E13 CH2 23 2 1 121 C8 321 16 CH2 I2L B22 4 CH2 321 E28 2 C9 64 CH1_32H B17 04 2 2 B23 4 2 32 29 131 C6 33L 16 2 C20 CH2 33L B30 13H C7 66 33H A17 06 CH2 13H C21 46 CH2 33H B31 CHI 141 8 6 341 14 CH2 141 B20 4 CH2_34L C28 8 14 9 68 34H E15 08 CH2 14H 21 48 2 34 C29 9 151 69 CHI 35L D14 09 CH2_15L C24 49 CH2_35L E30 15 7 35H DI5 2 15 25 0 CH2 35H 16L E8 CH1_36L 12 CH2 16L B24 CH2 36L D30 16H E9 36H A13 CH2 16H B25 CH2 36H D31 CH1_17L D6 CH1_COML Al4 CH2_17L C22 CH2_COML E16 4 17 D7 4 CHI COMH AI5 4 CH2_17H C23 4 CH2_COMH E17 181 E6 SHIELD E20 181 E22 SHIELD 2 18 E7 6 SHIELD E21 6 CH2_18H E23 6 SHIELD E32 CH1_19L B10 SHIELD El CH2_19L D24 SHIELD B32 8 19 B11 8 SHI
76. Pin B23 5H Pin B27 CH8 5H Pin A31 LO CH5_5L Pin B20 69 5L Pin B24 51 Pin B28 69 5L Pin A32 K38 K46 K54 K62 5 6H Pin C19 6H Pin C23 CH7 6H Pin C27 CH8_6H Pin B31 169 CH5 Pin C20 69 Pin C24 69 Pin 28 69 6L Pin B32 K39 K47 i K55 163 CH5 7H Pin 019 CH6_7H Pin 023 4 7H Pin D27 CH8_7H Pin C31 w CH5 7L Pin D20 169 CH6_7L Pin 024 7L Pin 028 CH8 7L Pin C32 K40 K48 K56 K64 5 Pin E19 8H Pin E23 Pin E27 CH8_8H Pin D31 69 CH5 8L Pin E20 CH6_8L Pin E24 69 8L Pin E28 69 CH8_8L Pin 032 K77 K78 K79 1 09 1 09 1 09 5 Pin B17 COMH Pin B21 CH7_COMH Pin B25 CH8_COMH Pin A29 5 Pin B18 1 Pin B22 L CH7 Pin 826 L Pin A30 Relays to the EX1200 DMM Backplane Voltage and Resistance Measurements 4 Wire Resistance Current Measurements 2 A Max K80 K96 K88 CH1 Pin B1 CH1_COMH Pin B1 CH1 Pin Bt 1 CH1 Pin Pin B2 CH1 Pin B2 K92 sng CH5 COMH Pin B17 CH5 COMH Pin B17 BPL SHI CH5 COMH Pin B17 BPL DAMPS
77. Pin E d CH6 COM Pin E 1527 ms Pin U K12 CHS Pin U Pi Pi CH1_NO3 Pin A CH6 NOS Pin A CH5_NC Pin Y CH10 NC Pin Y 2 7 5 1 Pin 2 9 CH 0 NO Pin Z 5 COM Pin 10 COM Pin K15 5 Pin a K30 4 CH10 NO2 Pin Pin b CH10_NO8 Pin b FIGURE 4 50 EX1200 6101 LOGICAL DIAGRAM 122 EX1200 6101 Plug in Module www vtiinstruments com EX1200 6101 SPECIFICATIONS CHANNEL COUNT 10 SP4T multiplexers RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 220 V dc 250 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 50 W 62 5 VA RATED SWITCH OPERATIONS Mechanical 5 10 Electrical 1 x 10 at full load SWITCHING TIME 5ms PATH RESISTANCE lt 0 2500 INSULATION RESISTANCE gt 1x10 Q BANDWIDTH 3 dB 1 3 GHz typical INSERTION LOSS TYPICAL 500 MHz 0 9 dB 1 3 GHz 3 0 dB CROSSTALK TYPICAL 500 MHz lt 70 dB 1 3 GHz 60 dB ISOLATION TYPICAL 500 MHz lt 70 dB 1 3 GHz 60 dB VSWR TYPICAL 500 MHz lt 1 11 1 1 3 GHz lt 2 92 1 For mating connector crimp pins and other accessories please refer to Appendix B EX120
78. R55 14 CHI R56 15 SHIELD 15 R57 15 R58 15 CHI R59 15 R60 16 SHIELD 16 UNUSED 16 UNUSED 16 UNUSED 16 UNUSED 17 SHIELD 17 CH2 RI 17 CH2 R2 17 UNUSED 17 UNUSED 18 SHIELD 18 CH2 R5 18 CH2 R6 18 UNUSED 18 UNUSED 19 SHIELD 19 CH2 R9 19 CH2 10 19 CH2 R59 19 2 R60 20 SHIELD 20 CH2 20 CH2 14 20 CH2 R57 20 CH2 R58 21 SHIELD 21 CH2 R17 21 CH2 R18 21 2 R55 21 2 R56 22 SHIELD 22 CH2 R21 22 2 R22 22 2 R53 22 2 R54 23 SHIELD 23 CH2 R25 23 CH2 R26 23 CH2 R51 23 2 R52 24 SHIELD 24 CH2 R31 24 CH2 R32 24 CH2 R49 24 CH2 R50 25 UNUSED 25 CH2 R3 25 CH2 R4 25 CH2 R47 25 CH2 R48 26 UNUSED 26 CH2 R7 26 CH2 R8 26 CH2 R45 26 2 R46 27 UNUSED 27 CH2 27 CH2 R12 27 2 R43 27 2 R44 28 CH2 CI 28 CH2 RI5 28 CH2 R16 28 CH2 R4I 28 2 R42 29 CH2 C2 29 CH2 R19 29 CH2 R20 29 CH2 R39 29 2 R40 30 CH2 C3 30 CH2 R23 30 CH2 R24 30 CH2 R37 30 CH2 R38 31 CH2 C4 31 CH2 R27 31 CH2 R28 31 CH2 R35 31 2 R36 32 UNUSED 32 CH2 R29 32 CH2 R30 32 CH2 R33 32 CH2 R34 TABLE 4 33 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 90 EX1200 4260 Plug in Module www vtiinstruments com
79. no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 mA resistive SWITCHING TIME 3ms PATH RESISTANCE lt 500 mQ INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO 311 CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 40 MHz typical CROSSTALK TYPICAL 1 MHz lt 70 dB 10 MHz lt 50 dB ISOLATION TYPICAL 1 MHz lt 55 dB 10 MHz 35 dB For mating connector crimp pins and other accessories please refer to Appendix B EX1200 3072 Plug in Module 57 VTI Instruments Corp EX1200 3096 PLUG IN MODULE 96 CHANNEL 100 V 0 5 A TWO WIRE MULTIPLEXER The EX1200 3096 high density multiplexer modules are designed for scanning of multiple points to a common bus in either 2 or 4 wire configurations either synchronously with the EX1200 system DMM scan function or asynchronously as a system switch to other devices through LXI LAN messages or the hardware trigger bus Up to 576 two wire or 288 four wire channels can be accommodated in 10 EX1200full rack mainframe for maximum density or mixed and matched with other EX1200 plug ins for flexibility Applications include cable harness testing semiconductor and PCB testing and those in which multiple points need to be switched to a common resource All relays also have individual control and each path allows for hot switching of up to 100 V and 1 A 30 W dc max
80. typical INSERTION LOSS TYPICAL 100 MHz lt 0 2 dB 500 lt 0 5 dB 1 3 GHz 2 0 dB CROSSTALK TYPICAL 10 MHz lt 70 dB 100 MHz 65 dB 500 MHz 60 dB 1 3 GHz lt 55 dB ISOLATION TYPICAL 10 MHz 80 dB 100 MHz lt 70 dB 500 MHz 65 dB 1 3 GHz 55 dB VSWR TYPICAL 100 MHz 12 1 3 GHz lt 1 5 1 For mating connector crimp pins and other accessories please refer to Appendix B EX1200 6102 Plug in Module 127 VTI Instruments Corp EX1200 6111 PLUG IN MODULE 5 CHANNEL SP4T COAXIAL SWITCH The EX1200 6111 is a high density RF switch module with ten individual SP4T coaxial trees that are isolated from each other and system ground to provide a high fidelity switch path for switching signals in excess of 1 3 GHz Excellent crosstalk and isolation is maintained by using very short low loss coaxial runs from the connector directly to the relays All modules are also configured to avoid any unterminated stub effects improving overall signal integrity and allowing for high frequency matrix designs and large multiplexer configurations while preserving bandwidth and maintaining low VSWR The front panel utilizes a high density 26 pin coaxial connectors designed for high reliability and low insertion loss Six of the modules can be accommodated in a 1U EX1200 full rack mainframe to provide a very flexible RF switch network For example a single module can be c
81. 131 Pin 75 2 7 4 BL Pin 34 K94 K86 K78 K70 K62 K54 CH2 46H Pin 156 2 38H Pin 172 Pin 137 2 22H Pin 56 7 2 14H Pin 72 75 CH2 6H Pin 37 T 2 461 Pin 157 381 Pin 173 CH2 301 Pin 136 2 221 Pin 57 75 9 141 Pin 73 2 7 4 61 Pin 36 K95 K87 K79 K71 K63 K55 CHS 47H Pin 154 2 39H Pin 170 1 2 Pin 139 2 23H Pin54 4 2 15H Pin 70 7 gt CHS 7H Pin 39 7 l CH2 47L Pin 155 CH2_39L Pin 171 5 4 31L Pin 138 4 CH2 23L Pin B5 5 9 151 71 CH2_7L Pin 38 K88 K80 K72 K64 K56 CH2 48H Pin 152 40H Pin 168 __ 32H Pin 141 2 1 GHS 24H Pin 52 CH2 16H Pin 68 T CH2_8H Pin 41 7 CH2_48L Pin 153 2 7 1 401 Pin 169 321 Pin 140 J CH2 241 53 5 CH2 161 Pin 69 8L Pin 40 Relays to the EX1200 DMM Backplane Discharge Resistor Relays Voltage and Resistance Measurements 4 Wire Resistance Current Measurements 2 A Max K98 K100 K102 K104 CH1 Pin 76 CH1 COMH Pin 76 CH1_COMH Pin 76 7 5 CH1 Pin 76 2 200 CH1_COML Pin 25 C
82. 21 CH 31NC 42 CH 32NC 63 SHIELD 84 SHIELD TABLE 4 41 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 5002 incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 141 The module also incorporates ground pins labeled GND C above These pins tie the module to chassis ground Note that the SHIELD pins are not tied to ground and have no electrical connections EX1200 5002 Plug in Module 107 VTI Instruments Corp LOGICAL DIAGRAM CH 1COM Pin 2 CH 2COM Pin 23 CH 3COM Pin 44 CH 4COM Pin 65 CH 5COM Pin 86 CH 6COM Pin 5 CH 7COM Pin 26 CH 8COM Pin 47 CH 9COM Pin 68 CH 10COM Pin 89 CH 11COM Pin 8 CH 12COM Pin 29 13 Pin 50 CH 14COM Pin 71 CH 15COM Pin 92 CH 16COM Pin 11 CH 1NC CH 1NO CH 2NC CH 2NO CH 3NC CH 3NO CH 4NC CH 4NO CH 5NC CH 5NO CH 6NC CH 6NO CH 7NC CH 7NO CH 8NC CH 8NO CH 9NC CH 9NO CH 10NC O 10NO CH 11NC 11NO 12 O 12NO CH 13NC O 13NO CH 14NC O 14NO EZ O 15NO Henc O 16N
83. 26COM 12 84 37 15 UNUSED N A 10 4 4 21 10 8 38 C16 UNUSED N A 9COM 4 46 24 10 86 37 16 6 UNUSED N A 15 5 25 E10 8 UNUSED N A UNUSED N A CH_14NO D5 48 28 88 UNUSED N A 8 UNUSED N A CH 15COM E6 49 CH 27NO 11 89 UNUSED N A 9 UNUSED N A CH 14COM D6 26NO 90 UNUSED N A UNUSED N A CH 20NO E7 CH 27COM 12 9 UNUSED N A UNUSED N A CH 19 D7 28COM C12 9 UNUSED N A UNUSED N A 20 E8 CH 32NO B13 9 UNUSED N A UNUSED N A 19 D8 4 CH_33NO C13 94 UNUSED N A 4 UNUSED N A CH 25NO E9 21NO 9 9 UNUSED N A UNUSED N A 24 D9 6 CH_16COM 8 96 5NO El 6 UNUSED N A CH_8NO C3 CH_16NO 7 9 UNUSED N A UNUSED N A 8 CH 7NO B3 AN 11COM A6 98 UNUSED N A 8 UNUSED N A 9 3COM C2 9 CH_11NO A5 99 UNUSED N A 9 UNUSED N A 2 B2 60 6 4 00 UNUSED N A 40 UNUSED N A CH 8COM C4 6 CH_6NO A3 UNUSED N A UNUSED N A CH 7COM B4 6 CH_1COM A2 UNUSED N A 4 UNUSED N A CH_13NO C5 6 CH_22COM B10 0 UNUSED N A 4 UNUSED N A 4 CH 12NO B5 23COM 10 04 UNUSED N A 4 UNUSED N A CH 13COM C6 6 CH_40NO E15 UNUSED N A 4 UNUSED N A 12 B6 66 CH 39NO 15 06 UNUSED N A 6 UNUSED N A CH_18NO C7 6 CH_40COM E16 UNUSED N A 4 UNUSED N A 8 CH_17NO B7 39COM 16 08 UNUSED N A 48 UNUSED N A 9 18 8 UNUSED N A 09 UNUSED N A 49 UNUSED N A 17
84. 29L 14 351 14 34L 15 15 28 15 CHI 29H 15 CHI 35H 15 CHI 34H 16 331 16 32L 16 CH2 5L 16 CH2 4L 16 CH2 COML 17 33H 17 CHI 32H 17 CH2 5H 17 CH2 4H 17 CH2 COMH 18 CH2 IL 18 CH2 8L 18 CH2 3L 18 CH2 2L 18 CH2 9L 19 CH2 IH 19 CH2 8H 19 CH2 3H 19 CH2 2 19 CH2 9H 20 CH2 7L 20 CH2 141 20 CH2 131 20 CH2 6L 20 SHIELD 21 CH2 7H 21 CH2 14H 21 CH2 13H 21 CH2 6H 21 SHIELD 22 CH2 22 CH2 121 22 CH2 171 22 CH2 101 22 CH2 18L 23 CH2 23 CH2 12 23 CH2 7 23 CH2 10H 23 CH2 18H 24 CH2 23L 24 CH2 16L 24 CH2 151 24 CH2 191 24 CH2 22L 25 CH2 23H 25 CH2 16H 25 CH2 15 25 CH2 19H 25 CH2 22H 26 CH2 27L 26 CH2 20L 26 CH2 26L 26 CH2 29L 26 CH2 211 27 CH2 27H 27 2 20H 27 2 26H 27 CH2 29H 27 CH2 21H 28 CH2 30L 28 2 251 28 2 341 28 CH2 241 28 CH2 321 29 2 29 2 25 29 2 34H 29 CH2 24H 29 CH2 32H 30 CH2 3IL 30 CH2 33L 30 CH2 28L 30 CH2 36L 30 CH2 35L 31 CH2 31H 31 CH2 33H 31 CH2 28H 31 CH2 36H 31 CH2 35H 32 UNUSED 32 SHIELD 32 SHIELD 32 SHIELD 32 SHIELD TABLE 4 14 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 3072 incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 14 54 EX1200 3072
85. 70 dB 10 MHz 60 dB For mating connector crimp pins and other accessories please refer to Appendix B 42 1200 300105 Plug in Module www vtiinstruments com EX1200 3048 PLUG IN MODULE 48 CHANNEL 300 V 2 A MULTIPLEXER EX1200 3048 high density multiplexer modules are designed for scanning multiple points to a common bus in either 2 or 4 wire configurations either synchronously with the EX1200 system DMM scan function or asynchronously as a system switch to other devices through LXI LAN messages or the hardware trigger bus Up to 288 two wire or 144 four wire channels can be accommodated in a 10 EX1200 mainframe for maximum density or mixed and matched with other EX1200 plug ins for flexibility Applications include cable harness testing semiconductor and PCB testing and in applications where multiple points need to be switched to a common resource All relays have individual control and each path allows for hot switching of up to 300 V and 2 A 60 W max EX1200 3048 also has the capability to directly measure up to 2 The EX1200 3048 consists of dual 1 x 24 2 wire multiplexer banks Each bank can be interconnected within a module under program control via bussing relays and across modules via the EX1200 analog bus to configure larger multiplexers as required This eliminates external wiring and helps reduce unterminated stubs The EX1200 3048 has internal residual voltage discharge relays w
86. 9 CH NO age CH 5NC CH 21NC CH 5 COM gt CH 21 01540 CH 6NC CH 22NC o 7 22 COM 9 CHeNO kop 0 22NO c CH 7 NC 0 28NC CH7COM o CH23COM o 9 0 CH 23NO CH 8NC CH 24NC CH8COM o ORAN aT 9 0 NC V CH 9 NC 25NC CH 9 COM CH 25 9 07990 kos 0 CH 25NO CH 10NC uoi CH 26NC CH 10 COM gt 26 9 07100 0 CHL26NO Se CH 11NC _ CH 27NC CH 11COM CH 27 COM oe ap CHLH NO 27 9 CH27NO 12NC __ CH 28NC CH12COM o CH 28 COM 2 CH12NO CH 28NO 102 c CH 13NC c CH 29NC CH 13 COM CH 29 ae 977 0 CH 29NO CH 14 a CH 30NC CH 14COM 30 COM CHINO kao CH NO 15 31NC CH 15 COM CH 31 COM 15 9 CHLISNO ap DHS NO 16 NC 32 NC 16 CH 32 COM 16 09160 0 CH 32NO FIGURE 4 46 1200 5004 LOGICAL DIAGRAM EX1200 5004 Plug in Module 113 VTI Instruments Corp EX1200 5004 SPECIFICATIONS CHANNEL COUNT 32 SPDT MAXIMUM SWITCHING VOLTAGE 250 V ac rms 110 V dc MAXIMUM SWITCHING CURRENT 5A MAXIMUM SWITCHING POWER 150 W dc 1250 VA per channel 18 kW per switch mod
87. A resistive or 125 V ac 0 3 A resistive SWITCHING TIME lt 3 ms PATH RESISTANCE lt 500 mQ INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt 7 CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 30 typical CROSSTALK TYPICAL 1MHz lt 70 dB 10 MHz 50 dB ISOLATION TYPICAL 1MHz 50 dB 10 MHz 35 dB For mating connector crimp pins and other accessories please refer to Appendix B EX1200 3096 Plug in Module 63 VTI Instruments Corp EX1200 3164 PLUG IN MODULE 16 1X4 2 WIRE 300 V 2 AMP MULTIPLEXER The EX1200 3164 high density multiplexer module is designed to provide a flexible switching multiplexing architecture with 16 individual 1 x 4 2 wire multiplexers Up to 96 1 x 4 two wire channels can be accommodated in a 1U EX1200 full rack mainframe for maximum density or mixed and matched with other EX1200 plug ins for flexibility Applications include cable harness testing semiconductor and PCB testing and those in which multiple points need to be switched to a common resource All relays also have individual control and each path allows for hot switching of up to 300 V and 2 60 W dc max Each bank can be interconnected within a module under program control via bussing relays to form larger 2 wire muxes up to a maximum of x 64 The EX1200 analog bus can be used to configure larger multiplexer
88. CH1 5L Pin B4 LO 2 5L Pin B8 169 5L Pin B12 LO 5L Pin B16 K6 K22 K30 CH1_6H Pin 6H Pin C7 CH3 6H Pin C11 CHA 6H Pin C15 was CH1_6L Pin LE CH2_6L Pin LE 6L Pin C12 w 6L Pin C16 K 5 K23 K31 CH1_7H Pin 03 7H Pin D7 7H Pin 011 7H Pin 015 09 7L Pin D4 LO CH2_7L Pin D8 LO _ 7L Pin 012 09 7L Pin D16 1424 K32 8H Pin CH2_8H Pin E7 CH3 Pin E11 8H Pin E15 09 CH1_8L Pin E4 LO CH2 8L Pin Pin E12 09 CH4 8L Pin E16 K73 K74 K75 K76 i 1 09 1 1 09 L 1_ Pin B1 2_ Pin B5 CH3_COMH Pin B9 CH4_COMH Pin B13 CH1_COML Pin B2 CH2_COML Pin B6 CH3_COML Pin B10 CH4_COML Pin B14 um I J5 I J6 I 7 I J8 o o o 9 CH5 1W 1W CH7 iW 1W Pin A17 5 Pin A21 B Pin A25 E Pin A28 5 gt e K393 1H PinC17 4 Pin C21 4 1H Pin C25 7 1H Pin B29 69 CHS 11 Pin C18 Le 11 Pin C22 09 1L Pin C26 09 1L Pin B30 K34 K50 K58 CH5 2H Pin 017 CH6_2H Pin D21 2H Pin 025 2H Pin C29 LO _ CHS 2L Pin 018 09 2
89. CH2 R50 Pin E24 K15 Ki6 K49 50 R49 Pin B13 R16 Pin C28 K80 TTS TA CH2 R49 Pin 024 R48 PinE12 CH2_R17 Pin B21 52 CH2 R48 Pin E25 O KOA RA7 PinD12 CH2_R18 Pin C21 C R47 Pin 025 R46 Pin 12 2 R19 Pin B29 CH2 R46 Pin E26 K19 K20 K45 CH1_R45 Pin B12 CH2_R20 Pin C29 eu R45 026 CH1 R44 Pin E11 R21 Pin B22 5 R44 Pin E27 koi ies CH1_R43 Pin 011 CH2 R22 Pin C22 gt ES CH2 R43 Pin D27 59 CH1_R42 Pin C11 CH2 R23 Pin B30 CH2 R42 Pin E28 K23 K24 Kat Ki Pin B11 CH2 R24 Pin K105 K106 CH2 R41 Pin D28 52 CH1_R40 Pin E10 CH2 R25 Pin B23 52 CH2 R40 Pin E29 8 024 R89 PinD10 CH2_R26 Pin C23 lt lt R39 Pin 029 R38 Pin C10 CH2 R27 Pin B31 59 CH2 R38 Pin E30 K27 K28 ks K38 CH1 R37 Pin B10 2 R28 Pin C31 102 2 R37 Pin 030 R36 Pin E9 CH2 R29 Pin B32 CH2 R36 Pin E31 O KO R35 Pin D9 CH2 R30 PinC32 lt gt K gt R35 Pin D31 52 52 R34 Pin C9 R31 Pin B24 52 R34 Pin E32 K31 K32 K33 K34 R33 Pin CH2 R32 Pin C24 Kos CH2 R33 D32 o 1029 K131 4 77 1035 385
90. CI5H 2 C6L 23 44 CHI CI4H 65 86 3 CI2H 24 0101 45 5 66 R2H 87 RIL 4 CI2L 25 C16H 46 5 67 R2L 88 S 26 47 SHIELD 68 SHIELD 89 R3H 6 27 48 SHIELD 69 SHIELD 90 R3L 7 CHI 28 49 SHIELD 70 C3L 91 SHIELD 8 C9L 29 50 SHIELD 71 CHI C3H 92 SHIELD 9 CHI CIL 30 51 CH2 CI9L 72 C2L 93 SHIELD 10 CHI CIH 31 010 52 CH2 19 73 CHI C2H 94 SHIELD 11 C8L 32 CH2 C20H 53 SHIELD 74 CH2 CI7L 95 SHIELD 12 33 CH2 C20L 54 SHIELD 75 2 96 SHIELD 13 CH2 C2IL 34 CH2 C32H 55 SHIELD 76 CH2 R5H 97 SHIELD 14 CH2 C21H 35 CH2 C22L 56 SHIELD TI CH2 R5L 98 SHIELD 15 CH2 C31H 36 SHIELD 57 CH2 C2H 78 CH2 R6H 99 R8L 16 CH2_C31L 37 SHIELD 58 CH2_C22L 79 CH2_R6L 100 CH2_R8H 17 CH2_C23L 38 CH2_C30L 59 CH2_C18L 80 CH2_R7L 101 CH2_C25H 18 CH2_C23H 39 CH2_C30H 60 CH2_C18H 81 CH2_R7H 102 CH2_C25L 19 CH2_C29H 40 CH2_C24H 61 CH2_C28L 82 CH2_C27L 103 CH2_C26H 20 CH2 C29L 41 CH2_C24L 62 CH2_C28H 83 CH2_C27H 104 CH2_C26L 21 SHIELD 42 SHIELD 63 UNUSED 84 UNUSED TABLE 4 27 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 4003 incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels
91. F CH k CH 25NC H CH 8NO m CH 17NC H CH 21NC m 30COM J CH 2NC n CH 10COM J CH 17 n CH 22NC K CH 6NO 5 K CH 16COM p CH 19COM L CH 2COM r 15 L 15 28 8 8 13 M CH 23COM 8 24 7 t CH 13COM N CH 24NA t CH 22COM P CH 5NC u CH INO P CH 16NO u 32NO R CH 14 v CH 5COM R CH 28COM M CH 19 5 4 W 12 5 21 w 22 T 4COM x CH 26NC T CH 20COM 20 U 3NC y CH 8NC U CH 25COM y CH 23NO V CH 31NO 7 9NO 30NO z 20 w CH_7COM AA CH_12NO W CH 23NC AA 27 X BB 9COM X CH BB CH 19NO Y CH 9NC 14 Y CH 27NO 29 Z CH 18COM DD CH 16NC Z CH 28NC DD CH 21NO a CH 7NO EE CH 2NO a CH 26COM EE CH 32COM b CH 10NC FF UNUSED b CH 24NC FF UNUSED c 6 HH CH INC 25 32NC TABLE 4 43 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 112 EX1200 5004 Plug in Module www vtiinstruments com LOGICAL DIAGRAM CH 1 NC CH 17NC o CH 17COM o CHINO _ CH 2NC s CH 18NC CH2COM o CH 18 COM CH 2NO O 18NO CH 3NC CH 19NC CH3COM o CH1900M 0 077 9 07190 CH 4NC 2 CH 20NC CH 4 COM 20 o 0 07490
92. GND C 103 CH 22NO 34 8 UNUSED N A 8 UNUSED N A 8 UNUSED N A CH 22 0 35 9 UNUSED N A 9 5 85 9 GND C 104 22NC 36 80 SHIELD 62 0 5 86 60 UNUSED N A TABLE 4 42 EX1200 TB160SE TERMINAL BLOCK TO EX1200 5002 PIN MAPPING EX1200 5002 Plug in Module 109 VTI Instruments Corp EX1200 5002 SPECIFICATIONS CHANNEL COUNT 32 SPDT RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V dc 300 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING 10 mV dc 10 pA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 mA resistive SWITCHING TIME lt 3 ms PATH RESISTANCE lt 300 mQ INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt l uV CAPACITANCE Open channel lt 50 pF Channel mainframe lt 250 pF High low lt 120 pF BANDWIDTH 3 dB 30 typical CROSSTALK TYPICAL 100 kHz lt 80 dB 1 lt 60 ISOLATION TYPICAL 100 kHz 50 dB 1MHz 45 dB For mating co
93. MUX3 CH 23 MUX4_CH_23 MUX5 CH 23 MUX6_CH_23 MUX7 CH 23 MUX8_CH_23 MUX1 GND MUX2_GND MUX3_GND MUX4_GND MUX5_GND MUX6_GND MUX7_GND MUX8_GND 2 a Al LR 74 1200 3824 Plug in Module www vtiinstruments com 15 MUX1_CH_17 MUX2 17 MUX3 CH 17 CH 17 MUX5_CH_17_ CH 17 MUX7 CH 17 MUX8_CH_17 1 20 gt 13 24 MUX8_GND 12 26 11 GND 29 10 30 T MUX8 gt 3 cH GND 7 31 cH 6 GND p cH 5 40 4 2 cH GND is MUX8 2 4 E 1 P s TABLE 4 26 EX1200 38TB P2 P9 PINOUTS EX1200 3824 Plug in Module 75 VTI Instruments Corp EX1200 3824 SPECIFICATIONS SPECIFICATIONS FOR EX1200 3824 STANDARD BOARD CHANNEL COUNT 8 1x24 one wire multiplexers RELAY TYPE Solid State MAXIMUM SWITCHING VOLTAGE 70V DC 100V AC MAXIMUM SWITCHING CURRENT 100mA SWITCHING TIME 500us PATH RESISTANCE 10 Ohms CROSSTALK TYPICAL 100 KHz 70 dB 1MHz lt 55 dB 10 MHz 30 dB INSERTION LOSS 3 DB 225 MHz CHANNEL CO
94. Mechanical 5 10 Electrical 1 x 10 at full load SWITCHING TIME 5ms PATH RESISTANCE lt 0 2500 INSULATION RESISTANCE gt 1x10 Q BANDWIDTH 3 dB 1 3 GHz typical INSERTION LOSS TYPICAL 500 MHz 0 9 dB 1 3 GHz 3 0 dB CROSSTALK TYPICAL 500 MHz lt 70 dB 1 3 GHz 60 dB ISOLATION TYPICAL 500 MHz lt 70 dB 1 3 GHz 60 dB VSWR TYPICAL 500 MHz lt 1 11 1 1 3 GHz lt 2 92 1 For mating connector crimp pins and other accessories please refer to Appendix B EX1200 6111 Plug in Module 131 VTI Instruments Corp EX1200 6216 PLUG IN MODULE DUAL 1 16 RF 1 GHz SWITCH The EX1200 6216 is a high density RF switch module configured as dual 1 x 16 coaxial trees that are isolated from each other and system ground to provide a high fidelity switch path for switching signals in excess of 1 GHz in 50 Q environment On board jumpers can be added to connect all shields together or to system ground if desired Excellent crosstalk and isolation is maintained by using very short low loss coaxial runs from the connector directly to the relays All modules are also configured to avoid any unterminated stub effects This improves overall signal integrity and allows for high frequency matrix designs or large multiplexer configurations while preserving bandwidth and maintaining low VSWR The front panel utilizes two high density 26 pin coaxial connecto
95. Module www vtiinstruments com EX1200 5001 PLUG IN MODULE 80 CHANNEL 2 AMP A SPST SWITCH The EX1200 5001 is a high density general purpose 2 A switch modules designed for systems where individual relays can be used to route signals to from the units under test UUT or combined externally to form user defined configurations These relays are commonly used to create complex signal distribution networks that can be reconfigured through different wiring in test adapters Up to 480 SPST relays can be accommodated in a 1U full rack mainframe for maximum density The modules can also be configured with other EX1200 series switch modules as part of a flexible system switch design Since these modules may be used to switch power to the UUT or interface the digital input lines on the EX1200 series mainframes support the ability to force all relays automatically to their normally open state if a fault condition occurs This approach instantly removes all power to the UUT or interface These modules can be automatically configured in the setup phase at the beginning of each scan step to facilitate test sequencing and control The EX1200 5001 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 2 provides a logical diagram of the switch module and identifies the switches used by the
96. Plug in Module LOGICAL DIAGRAM Pin A15 CH1 COML Pin A14 CH2 Pin E17 COML Pin E16 K36 36L Pin A12 4 CH1_36H Pin K35 CH1 351 Pin 014 7 35H Pin 015 K34 341 Pin 14 CH1_34H Pin E15 K33 331 Pin A16 T e CH1_33H Pin 17 e K 321 Pin B16 oe uu 32H Pin B17 __ _ ___ K3 CH1_31L Pin E12 _ 4 Pin 513 4 K 30L Pin C12 i CH1_30H Pin C13 CH1_29L Pin C14 4 CH1 29 Pin 15 1 4 CH1 28L Pin B14 CH1_28H Pin B15 4 K27 27L Pin 08 __ _ 27H Pin D9 26 261 Pin B8 CH1 26H Pin B9 25 CH1 25L Pin 010 eT ed 25H Pin 011 K24 CH1 24L Pin CH1_24H Pin A11 CH1 231 Pin 012 T e CH1 23H Pin 013 Pin 7 CH1 22H Pin E11 2 7 4 21 211 Pin C10 7 21H Pin C11 K20 201 Pin B12 CH1_20H Pin CH1_19L Pin B10 4 4 CH1_19H Pin B11 gt K18 CH1_18L Pin E6 CH1_18H Pin E7 K17 CH1 171 Pin D6 17H Pin 07 K
97. T154 T155 T156 T157 T158 T159 T160 Signal Pin CH9 4H 21 9 4L 22 16 19 16 COML 20 3H A17 CHI 3L 18 8_3 15 8 3L 16 13 4L 28 13 4H E27 10 4L E26 10 25 14 0 14 29 CHI3 3L C28 13 3H C27 CHI2 IL C30 CHI2 C29 CHI1 C25 IL C26 14 2H C23 14 2L C24 CH9 COML C18 CH9 COMH C17 CH10_COMH C21 CH10_COML C22 CH15_4H C19 CH15_4L C20 CH15_3H A25 CH15_3L A26 CH10_3H A27 CH10_3L A28 CH14_COMH A29 CH14_COML A30 CH13_2H E31 CH13_2L E32 CH12_3H C31 CH12_3L C32 CH12_4H A31 CH12_4L A32 TABLE 4 21 EX1200 TB160 2 TERMINAL BLOCK TO EX1200 3164 PIN MAPPING be measured by the EX1200 DMM or may be measured using an external instrument If an external sensor is used it must be connected to T164 L_VS and T163 H_VS The user may also choose to use a sensor other than the on board thermistor To do so connect the sensor using T162 RL_I and T161 I Note that CH4_1L and CH4_1H T2 must be dedicated to making temperature measurements once P2 is configured EX1200 3164 Plug in Module 67 VTI Instruments Corp EX1200 3164 SPECIFICATIONS CHANNEL COUNT Configured as either 16 1x4 8 1x8 4 1x16 2 1x32 or 1 1x64
98. gt 171 Pin 022 K54 GHS 18H Pin E23 1 CH2_18L Pin E22 1 K37 1H Pin 19 CH2 1L Pin A18 K38 2H Pin 019 gt CH2 2L Pin 018 K39 Pin C19 T gt Pin C18 2 7 4 Pin 017 4L Pin 016 K41 CH2_5H Pin C17 51 Pin C16 e 142 6H 021 1 l 6L Pin D20 7H Pin A21 r CH2_7L Pin 20 5 9 K44 Pin B19 7 81 Pin 18 5 45 CH2 9H Pin E19 T CH2 9L Pin E18 Discharge Resistor Relays Voltage and Resistance Measurements K76 CH1 COMH Pin 15 T CH1 COML Pin A14 CH2 COMH Pin E17 COML Pin E16 4 77 sng WWG BPL_HI 2 Pin E17 BPL_LO 2 Pin E16 CH1 COMH Pin A15 CH1 COML Pin A14 4 Wire Resistance K78 K80 3 COMH Pin 15 1 CH1_COML Pin A14 COML Pin A14 K79 K81 I 5 BPL SHI 2 COMH Pin E17 5 BPL DAMPS ER BPL SLO 2 Pin E16 BPL LO Current Measurements 2 A Max K74 COMH Pin A15
99. ins for flexibility Typical applications include temperature and voltage data acquisition and data logging at up to 1000 scans per second The EX1200 3048S consists of dual 1x24 2 wire multiplexer banks Each bank can be interconnected within a module under program control via bussing relays and across modules via the EX1200 analog bus to configure larger multiplexers as required This eliminates external wiring and helps reduce unterminated stubs Internal residual voltage discharge relays can be enabled to momentarily short out the measurement path when changing from one input channel to the next This dissipates any voltage held by the wiring and instrument input capacitance These relays protect sensitive devices such as CMOS circuits from residual voltages caused by previous high voltage measurements This feature can also be disabled in low voltage applications where maximum throughput speed is important The EX1200 3048S can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 17 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver An optional terminal block provides screw termination points for external field wiring This terminal block also includes cold junction compen
100. isolation performance is achieved by using short low loss coaxial runs from the connector directly to the relays All modules are designed to avoid any unterminated stub effects improving overall signal integrity and enabling the construction of larger high frequency multiplexer configurations while maintaining bandwidth and VSWR Six of the modules can be accommodated in a single EX1200 full rack mainframe or combined with other switch modules to create a flexible switching configuration that can cover a wide range of applications CONNECTOR PINS AND SIGNALS 5 5 5 5 J3 J4 5 J J 33 4107 diz 4 455 Jn 48 49 4205 FIGURE 4 61 1200 6301 FRONT PANEL FRONT VIEW Signal 1 J2 CHI 2 J3 14 1 3 15 CHI 4 J6 CH2 1 J7 CH2 2 J8 2 COM J9 CH2 3 J10 CH2 4 CH3 1 J12 CH3 2 J13 CH3 COM J14 CH3 3 J15 CH3 4 J16 CHA 1 J17 2 18 4 J19 3 J20 CHA 4 TABLE 4 52 CONNECTOR PINS amp SIGNAL ASSIGNMENTS EX1200 6301T Plug in Module 143 VTI Instruments Corp LOGICAL DIAGRAM K4 K2 K5 Z COM 33 LE o Kl K6 77 K12 K10 K13 COM 48 16 o K9 K14 K11 K15 CH1 1 J1 CH1_2 J2 CH1 3 44 4 J5 CH2 1 J6 CH2 2 J7 CH2 29 CH2 4 J10
101. path allows for 2 A switching The EX1200 3001 consists of eight individual 1 x 8 2 wire multiplexers or eight 1 x 16 1 wire multiplexers that can be interconnected under program control via the bussing relays to configure larger multiplexers as required This eliminates external wiring and helps reduce unterminated stubs The card has internal relays that can be closed to connect directly to the EX1200 analog bus This feature allows the card and the internal EX1200 DMM to be tightly coupled dramatically reducing test execution times Access to the DMM also allows 4 wire measurements to be made providing more accurate resistance measurements that compensate for lead length The EX1200 3001 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 11 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver An optional terminal block provides screw termination points for external field wiring This terminal block also includes cold junction compensation reference for more precise temperature measurements CONNECTOR PINS AND SIGNALS O EX1200 3001 looooooooooooooooooooooooooooooool 00000000000000000000000000000000 00000000000000000000000000000000 0000000000
102. that can be interconnected under program control via bussing relays to configure larger multiplexers as required This reduces the need for external cabling and helps reduce unterminated stub effects When switching high voltages the need for signal shielding becomes critical The EX1200 2007A has been designed to include large shield planes that reduce crosstalk and voltage spikes to adjacent channels Up to 144 2 wire channels can be accommodated in a single EX1200 series mainframe for maximum density or combined with other EX1200 series modules to create a flexible system switch CONNECTOR PINS AND SIGNALS lt 5 a 1200 2007 x ES 1U Orientation 8 CONNECTOR DETAIL Pin B32 Pin A1 ACCO OERR 30 Orientation FIGURE 4 6 1200 2007 FRONT PANEL FRONT VIEW 26 1200 2007 Plug in Module www vtiinstruments com Row A Row B Row C Row D Row E 1 SHIELD 2 1 2 2 UNUSED 1 IW 3 SHIELD 4 CH2 2L 3 CH2 2H 4 COMH 3 COML 5 SHIELD 6 CH2 3L 5 CH2 3H 6 CHI 5 1L 7 SHIELD 8 CH2 4L 7 CH2 4H 8 2H 7 2L 9 SHIELD 10 CH2 5H 9 CH2 5L 10 3H 9 31 11 SHIELD 12 2 6H 11 CH2 6L 12 CHI 4H 11 CHI 4L
103. the user to select a power cord that meets any and all regulatory and statutory requirements for their industry and country Use Proper Power Source To avoid electrical overload electric shock or fire hazard do not use a power source that applies other than the specified voltage Power Consumption Prior to using the EX1200 series switch cards it is imperative that the power consumption of all cards that will be installed in the mainframe be calculated on all power supply rails Power consumption information is provided in Appendix A Information regarding power consumption calculations can be found in the EX1200 Series User s Manual P N 82 0127 000 Failure to do so may result in damaging the switch card and the mainframe EX1200 Switch Card Preface 7 VTI Instruments Corp WARNINGS CONT Avoid Electric Shock Ground the Product Operating Conditions Improper Use To avoid electric shock or fire hazard do not operate this product with the covers removed Do not connect or disconnect any cable probes test leads etc while they are connected to a voltage source Remove all power and unplug unit before performing any service Service should only be performed by qualified personnel This product is grounded through the grounding conductor of the power cord To avoid electric shock the grounding conductor must be connected to earth ground To avoid injury electric shock or fire hazard Do not operate in wet or da
104. thermocouple type can be selected here but Type K below a Set the DMM function to Temperature b Set the transducer type to Thermocouple c Set the thermocouple type to Type K d Set the reference type to External e Set the isReferenceJunction parameter to False Save and provide a name for the DMM configuration for the scanning purposes Setup the scanlist a Adda scan step with a sweep phase that scans 1 using the first saved configuration e g CH1_1 RefJunction b Add another scan step with a sweep phase that scans another channel e g 2 setup phase can be ignored for this example Initiate amp Read a Initiate the scan b Read back the data 18 EX1200 Series Terminal Blocks www vtiinstruments com SECTION 4 EX1200 2001 PLUG IN MODULE 20 CHANNEL 16 SPST SwITCH The EX1200 2001 and EX1200 2002 are the only switch modules in their class with the ability to switch up to 16 A Some applications include ac line power switching switching of dc or ac power supplies control or driving relays for industrial machines robotics numerical control machines automotive engine control and solenoid switching Since these modules typically switch power to the UUT or interface the digital input lines on the EX1200 series mainframes support the ability to force all relays automatically to their normally open state if a fault condition occurs This approach in
105. x 24 one wire multiplexers Upto 48 1 x 24 one wire channels can be accommodated in a 1U EX1200 full rack mainframe for maximum density or mixed and matched with other EX1200 plug ins for flexibility The solid state design delivers maximum switching speed and near infinite life The EX1200 3824 may be used in applications in which its inputs are connected to DUT capable of producing signals that approach 100 V with its commons being connected to high speed measurement devices In this type of applications the input signal will need to be attenuated For this very reason EX1200 3824 also has attenuator option this will consist of user configurable 10KHz Low Pass Filter or 400KHz Low Pass Filter refer to Figure 4 28 for configuring the LPF The EX1200 3824 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 29 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver EX1200 38TB the break out box BOB can be used along with the EX1200 3824 This EX1200 38TB can be mounted on the EX1200 3824 front panel mates with 200 Pin connector directly EX1200 3824 STANDARD BOARD Figure 4 24 explains the EX1200 3824 without Attenuator option For the standard configuration a 0 Ohm re
106. 0 3048 Plug in Module 43 VTI Instruments Corp Signal Pin Signal Signal 1 CHI IL 22 5L 43 101 64 151 85 CHI 201 2 23 5 44 CHI 10 65 CHI 15H 86 CHI 20H 3 2L 24 6L 45 66 161 87 21 4 CHI 2H 25 6H 46 67 CHI 16H 88 CHI 21H 5 CHI COML 26 47 CHI DL 68 171 89 CHI 221 6 CHI COMH 27 7H 48 12H 69 CHI 17H 90 CHI 22H 7 CHI 3L 28 8L 49 1 131 70 181 91 1 231 8 29 8H 50 CHI 13H 71 CHI 18H 92 CHI 23H 9 CHI 4L 30 9L 51 1 141 72 1 191 93 1 241 10 4H 31 CHI 9H 52 CHI 73 CHI 19H 94 24H 11 1 32 2 5L 53 2 101 74 2 151 95 2 201 12 2 33 2 5 54 CH2 10H 75 2 15 96 2 20 13 CH2 2L 34 6L 55 CH2_11L 76 2 161 97 211 14 CH2 2H 35 CH2 6H 56 CH2 11H 77 2 16 98 CH2 21H 15 CH2 COML 36 CH2 7L 57 CH2 DL 78 99 CH2 221 16 CH2 COMH 37 CH2 7H 58 CH2 12H 79 CH2 17H 100 CH2 22H 17 CH2 3L 38 8L 59 CH2 131 80 2 181 101 CH2 23L 18 CH2 3H 39 CH2 8H 60 CH2 13H 81 CH2 18H 102 23H 19 CH2 4L 40 CH2 9L 61 2 141 82 CH2 191 103 CH2 241 20 2 4H 41 2 9H 62 CH2 14H 83 CH2 19H 104 CH2 24H 21 CH3 11 42 63 CH3 2I 84 CH3
107. 0 6101 Plug in Module 123 VTI Instruments Corp EX1200 6102 PLUG IN MODULE 17 CHANNEL 1X2 COAXIAL SWITCHES 1 3GHZ The EX1200 6102 is a high density RF switch module designed for high fidelity RF switching applications up to 1 3 GHz Excellent crosstalk and isolation is maintained by using RF relays with bandwidths in excess of 2 0 GHz along with short low loss coaxial runs from connector directly to relays All modules are also configured to avoid any unterminated stub effects improving overall signal integrity and allowing for high frequency matrix designs and larger multiplexer configurations while maintaining bandwidth and VSWR The EX1200 6102 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available CONNECTOR PINS AND SIGNALS 1200 OOO L 2 CONNECTOR DETAIL 3U Orientation FIGURE 4 51 EX1200 6102 FRONT PANEL FRONT VIEW 124 EX1200 6102 Plug in Module TABLE 4 47 CONNECTOR PINS amp SIGNAL ASSIGNMENTS
108. 00 6101 EX1200 6102 EX1200 6111 and EX1200 6216 and EX1200 6216HV ACCESSORIES MATING CONNECTOR Description 26 pin connector and housing 2 required VTI Part Number 70 0150 000 Manufacturer Part Number Amp 201359 1 connector and 201845 1 strain relief FERRULE KIT Description 10 pin ferrule kit RG 316 50 Q VTI Part Number 70 0149 000 Manufacturer Part Number Amp 1 332056 0 ferrule and 226537 1 contact Description 10 pin ferrule kit RG 178 50 Q VTI Part Number 70 0149 001 Manufacturer Part Number Amp 1 332057 0 ferrule and 226537 2 contact CRIMP TOOL FOR RG316 COAX Description Crimp tool coax RG316 50 Q VTI Part Number 46 0018 000 Manufacturer Part Number Amp 69656 2 CRIMP TOOL FOR RG178 COAX Description Crimp tool coax RG178 50 Q VTI Part Number 46 0018 001 Manufacturer Part Number Amp 69656 EXTRACTION TOOL Description Tool pin extractor size 16 contact AMP M series VTI Part Number 46 0021 000 Manufacturer Part Number Amp 305183 Appendix B Switch Card Accessories 155 VTI Instruments Corp 41 pin Connector These accessories should be used with the EX1200 2001 and EX1200 2002 CONNECTOR KIT Description Connector kit includes 1 each connector and backshell plus 44 pins VTI Part Number 70 0190 001 CONNECTOR INFORMATION Description Connector power female with backshell insulated 41 PLC V
109. 000000 00000000000000000000000000000000 OERR 30 Orientation FIGURE 4 12 EX1200 3001DS FRONT PANEL FRONT VIEW EX1200 3001DS Plug in Module 39 VTI Instruments Corp Row A Row B Row Row Row Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 IW 1 CHI COMH 1 1 CHI 2H 1 CHI 3H 2 SHIELD 2 COML D IL D CHI 2L D CHI 3L 3 CHI 4H 3 CHI 5H 3 6H 3 CHI 7H 3 8H 4 CHI 4L 4 CHI 5L 4 6L 4 4 CHI 8L 5 CH2 IW 5 CH2 COMH 5 CH2 5 CH2 2H 5 CH2 3H 6 SHIELD 6 CH2 COML 6 CH2 IL 6 CH2 2L 6 CH2 3L 7 CH2 4H 7 CH2 5H 7 CH2 6H 7 CH2 7H 7 CH2 8H 8 CH2 4L 8 CH2 5L 8 CH2 6L 8 CH2 7L 8 CH2 8L 9 CH3 IW 9 CH3 COMH 9 CH3 9 CH3 2H 9 CH3 3H 10 SHIELD 10 CH3 COML 10 CH3 IL 10 CH3 2L 10 CH3 3L 11 CH3 4H 11 CH3 5H 11 CH3 6H 11 CH3 7H 11 CH3 8H 12 CH3 4L 12 CH3 5L 12 CH3 6L 12 CH3 7L 12 CH3 8L 13 4 IW 13 4 COMH 13 CHA 13 CHA 2H 13 CHA 14 SHIELD 14 4 COML 14 CHA 11 14 2L 14 3L 15 CH4 4H 15 4 5H 15 4 6H 15 CHA 7H 15 8H 16 CHA 16 5L 16 6L 16 CHA 7L 16 8L 17 CH5 IW 17 5 COMH 17 CH5 17 CH5 2H 17 CH5 3H 18 SHIELD 18 5 COML 18 CH5 IL 18 CH5 2L 18 CH5 3L 19 CH5 4H 19 CH5 5H 19 CH5 6H 19 CH5 7H 19 CH5 8H 20 CH5 4L 20 CH5 5L 20 CH5 6L 20 CH5 7L 20 CH5 8L 21 CH6 IW 21 CH6
110. 0000000000000000000000 00000000000000000000000000000000 1200 3001 OERR 1U Orientation Pin E32 Pin E1 1500000000000000000000000000000090L QOOOOOOOOOOOOOOOOOOOOOOOOOOOO0O00Q CONNECTOR DETAIL Pin A32 Pin A1 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 OERR 30 Orientation lof FIGURE 4 10 EX1200 3001 FRONT PANEL FRONT VIEW 34 EX1200 3001 Plug in Module www vtiinstruments com Row A Row B Row Row Row Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 IW 1 CHI COMH 1 1 CHI 2H 1 CHI 3H 2 SHIELD 2 COML D IL D CHI 2L D CHI 3L 3 CHI 4H 3 CHI 5H 3 6H 3 CHI 7H 3 8H 4 CHI 4L 4 CHI 5L 4 6L 4 4 CHI 8L 5 CH2 IW 5 CH2 COMH 5 CH2 5 CH2 2H 5 CH2 3H 6 SHIELD 6 CH2 COML 6 CH2 IL 6 CH2 2L 6 CH2 3L 7 CH2 4H 7 CH2 5H 7 CH2 6H 7 CH2 7H 7 CH2 8H 8 CH2 4L 8 CH2 5L 8 CH2 6L 8 CH2 7L 8 CH2 8L 9 CH3 IW 9 CH3 COMH 9 CH3 9 CH3 2H 9 CH3 3H
111. 06 Microwave Module ttt rr n M eee uer 955 5355585 148 7122 Microwave Module reete tete reine Ie terere 8 3 55555 T 149 Installing Switch Module eie ie et 149 EX1200 7100 Carrier Front Panel sese eee 150 EX1200 7100 Soft Front 150 EX1200 7100 Specifications iet ee eerte eti 152 APPENDIX O 153 POWER CONSUMPTION AND eee 153 Reference Tables n ei E ETERNI 153 ME PH 155 SWITCH GARD ACCESSORIES 50 155 AC CESSOLIES Suha Ld 155 26 pin ROT 155 41 pin Connector ette meo onem Enni oem e Dmm 42755 156 104 pim Connector 5 tte 156 160 pm e DO te 157 200 Connector i t ttt b bueno bm 8 157 20 Connector viene bee qais teat bie i eee eq id enit 157 EX1200 Switch Card Preface 5 VTI Instruments Corp CERTIFICATION VTI Instruments Corp VTI certifies that this product met its published specifications at the time of shi
112. 1 Application Environments 12 SECTION POA 13 SWITCHING OVERVIEW bt e RU UA E 13 General Purpose Switching iced etta ban Die tho o e EE icti 13 Power SWIHChIDg s eter etie p tu bet P edt iet e ene bored 13 5 itching oe bte e 13 14 SECTION Merc PL C M H 15 EX1200 SERIES TERMINAL BLOCKS itte 8588 15 Inttod ctiOn ecd rece eT e 15 Jumper Configuration Rer oon ORO RU eO Uim RD or Rds 16 161 1081131901615061551 52 17 Propsramming aeo bote bot uat E E pi untere tete ce ipee pedis 17 Measure Thermistor T emperat fe nasua niet ert x tees tut ure rip denne 17 Use Thermistor as a Reference Junction 18 E EE EE 19 1200 2001 PEUG IN MODUEE t EXE a EUR RETO 19 20 Channel 16 Amp SPST 5 nnne 19 Connector Pins and Signals 19 as a
113. 10 110 MUXS CH 10 160 MUX7 CH 10 11 MUXI CH 11 61 MUX3 CH 11 111 MUXS CH 11 161 MUX7 CH 11 12 MUXI CH 12 62 MUX3 CH 12 112 MUXS 12 162 MUX7 CH 12 13 COM GND 63 MUX3 COM GND 113 MUXS COM GND 163 COM GND 14 MUXI CH 13 64 MUX3 CH 13 114 MUXS CH 13 164 MUX7 13 15 MUXI CH 14 65 MUX3 CH 14 115 MUXS CH 14 165 MUX7 CH 14 16 MUXI CH 15 66 MUX3 CH 15 116 MUXS CH 15 166 CH 15 17 MUXI CH 16 67 MUX3 16 117 MUXS CH 16 167 CH 16 18 MUXI CH 17 68 MUX3 CH 17 118 MUXS CH 17 168 17 19 MUXI CH 18 69 MUX3 CH 18 119 MUXS CH 18 169 CH 18 20 MUXI CH 19 70 MUX3 19 120 MUXS 19 170 MUX7 19 21 MUXI CH 20 Wil MUX3_CH_20 121 MUXS CH 20 171 MUX7 CH 20 22 MUXI CH 21 00 MUX3 CH 21 122 MUXS CH 21 172 CH 21 23 MUXI CH 22 73 MUX3 CH 22 123 CH 22 173 MUX7 CH 22 24 MUXI CH 23 74 MUX3 CH 23 124 MUXS CH 23 174 MUX7 CH 23 25 MUXI CH 24 15 MUX3 CH 24 125 MUXS CH 24 175 MUX7 CH 24 26 MUX2 CH 1 76 1 126 6 1 176 8 27 MUX2 2 TI MUX4 CH 2 127 MUX6 CH 2 177 MUXS CH 2 28 MUX2 CH 3 78 3 128 6 CH 3 178 MUXS8 CH 3 29 MUX2 CH 4 79 4 CH 4 129 6 CH 4 179 8 CH 4 30 MUX2 CH 5 80 MUXA 5 130 6 5 180 MUXS8 5 31 MUX2 CH 6 81 MUX4 6 131 6 6 181 8 CH 32 MUX2 CH 7 82 MUXA 7 132 6 CH 7 182 MUXS8 CH 7 33 MUX2 CH 8 83 MUX4 8 133 6 8 183 8 8 34
114. 10 mV dc 10 pA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 107 no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 mA resistive SWITCHING TIME 3ms PATH RESISTANCE 0 50 INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt 1 CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 35 MHz typical CROSSTALK 100 kHz lt 55 dB 1 MHz lt 45 dB 10 MHz 30 dB For mating connector crimp pins and other accessories please refer to Appendix B EX1200 3048 Plug in Module 47 VTI Instruments Corp EX1200 3048S PLUG IN MODULE 48 CHANNEL TWO WIRE FET MULTIPLEXER The EX1200 3048S is a high density FET multiplexer module designed for scanning of multiple points to a common bus in either 2 or 4 wire configurations either synchronously with the EX1200 system DMM scan function or asynchronously as a system switch to other devices through LXI LAN messages or the hardware trigger bus The solid state design delivers maximum switching speed and near infinite life Up to 288 two wire or 144 four wire channels can be accommodated in a 10 EX1200 full rack mainframe for maximum density or mixed and matched with other EX1200 plug
115. 16 16L Pin EB 2 7 1 0 16H Pin E9 4 K15 CH1_15L Pin Be 7 CH1_15H Pin B7 4 104 CH1_14L Pin AB __ CH1 14H Pin A9 4 103 CH1_13L Pin C6 CH1_13H Pin C7 7 4 K12 CH1_12L Pin C8 1 e CH1 12H Pin C9 e 11L Pin E4 te CH1 11H Pin E5 5 4 K10 CH1 10L Pin t CH1_10H Pin A7 4 www vtiinstruments com K9 CH1_9L Pin D4 CH1_9H Pin D5 K8 CH1_8L Pin CH1_8H Pin C3 CH1 7L Pin D2 CH1_7H Pin D3 4 K6 6L Pin B4 CH1_6H Pin B5 K5 CH1_5L Pin A4 7 __l CH1_5H 7 9 K4 CH1_4L Pin B2 7 gt CH1_4H Pin K3 CH1_3L Pin A2 Pin K2 Pin C4 172 4 CH1_2H Pin C5 K1 CH1_1L Pin CH1_1H Pin 6 I i VA K73 4 K64 28H Pin C31 7 CH2 281 Pin C30 2 7 4 65 29H Pin 27 2 291 Pin 026 66 Pin A29 77 CH2_30L Pin A28 5 9 K67 31H Pin A31 1 e CH2_31L Pin A30 K68 32H Pin E29 1 1 e 2_32 Pin E28 2 7
116. 1_2H Pin 4 Pin 15 Ki7 K9 Wi CH1 17L Pin 68 9 91 Pin 30 7 1L Pin 1 0575882195 i a 54 1 17H Pin 69 5 9 9H Pin 31 CH1 1H Pin 2 COMH Pin 6 gt CH1_COMH Pin 6 1 CH1 COML Pin 5 4 4 K55 ry CH2_COMH Pin 16 I BPL_SHI COMH Pin 16 CH2_COML Pin 15 BPL SLO CH2 COML Pin 15 K41 K33 K25 17H Pin 79 GHS Pin 41 7 CH2 1H Pin 12 7 171 Pin 78 5 9 CH2 9L Pin 40 CH2 1L Pin 11 e K42 K34 K26 Discharge Resistor Relays 18H Pin 81 lt 7 2 10H Pin 54 CH2 2H Pin 14 181 Pin 80 e 101 Pin 53 CH2 2L Pin 13 e K50 K43 K35 K27 COMH Pin A15 GHS 19H Pin 83 CH2 11H Pin 56 7 CH2 Pin 18 4 200 191 Pin 82 2 111 Pin 55 7 9 CH2 Pin 17 7 9 CH1 COML Pin A14 144 K36 128 K51 CH2_20H Pin 96 2 12H Pin 58 2 4H Pin 20 1 e CHS COMH Pin E17 4 CH2 20L Pin 95 CH2 121 Pin 57 CH2 4L Pin 19 200 K45 K37 K29 2 COML Pin E16 21H Pin 98 lt 7 2 13H Pin 60 1 6 CH2 5H Pin 33 E 59 211 Pin 97 131 Pin 59
117. 2 CH5 NO3 CH5 COM ale Ie xz Z UNUSED www vtiinstruments com EX1200 6111 Plug in Module 129 VTI Instruments Corp LOGICAL DIAGRAM COM Pin o 1618 CH3 Pin F M 121 2 COM Pin 24 CH1 COM Pin E t K27 5 Pin 15 H K16 LED O K17 5 H K19 9 o CH K20 2 0 K22 H K23 H K25 H K26 9 EE E H K13 K14 4 NC Pin 4 Pin 4 NO2 Pin X 4 Pin D 3 NC Pin L 31301 Pin 3 Pin V 3 Pin B 2 NC Pin M 2 NOT Pin S 2 Pin W 2 NOS Pin C 1 NC Pin 1 Pin P 1 Pin U 1 Pin A 5 NC Pin Y 5 Pin Z 5 Pin 5 Pin b FIGURE 4 54 EX1200 6111 LOGICAL DIAGRAM 130 EX1200 6111 Plug in Module www vtiinstruments com EX1200 6111 SPECIFICATIONS CHANNEL COUNT 5 SP4T multiplexers RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 220 V dc 250 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 50 W 62 5 VA RATED SWITCH OPERATIONS
118. 2 47 T69 44L 186 T120 35H 122 T171 CH2 221 57 T70 44H 185 T121 CH2 8L 40 172 CH2 22H 56 T71 321 115 T122 CH2 8H 4l 173 CH2 101 44 72 32H 116 T123 CH2 19L 63 T174 CH2 10H 45 T73 43L 188 59718 CH2 19H 62 T175 CH2_21L 59 T74 CH1_43H 187 T125 2 7L 38 176 CH2 21H 58 T75 3IL 113 T126 CH2 7H 39 177 CH2 9L 42 T76 CHI 31H 114 T127 CH2 18L 65 T178 CH2 9H 43 T77 421 190 T128 CH2 18H 64 T179 CH2 20L 61 78 CHI 42H 189 T129 CH2 6L 36 180 CH2 20H 60 T79 CHI 30L 111 T130 CH2 6H 37 T181 UNUSED N A T80 CH1_30H 112 T131 CH2_17L 67 T182 UNUSED N A T81 CH2 2L 28 132 2 17 66 T183 UNUSED N A T82 CH2_2H 29 T133 CH2_5L 34 T184 UNUSED N A T83 141 73 T134 CH2 5H 35 T185 CH2 48L 153 84 2 14 72 T135 CH2 16L 69 T186 CH2 48H 152 T85 CH2 3L 30 2 16H 68 T187 CH2_36L 148 T86 CH2_3H 31 137 CH2 4L 32 188 CH2 36H 149 87 CH2_13L 75 138 2 33 189 CH2 471 155 T88 CH2_13H 74 T139 CH2_15L 71 T190 CH2_47H 154 T89 CH2_1L 26 CH2 157 70 T191 CH2_35L 146 T90 CH2_1H 27 T141 CH2_44L 161 T192 CH2_35H 147 T91 COML 25 T142 CH2 44H 160 193 2 461 157 T92 COMH 76 143 CH2 321 140 194 CH2 46H 156 T93 CHI 24L 78 T144 CH2 32H 141 T195 CH2 34L 144 T94 CHI 24H 77 431 163 196 2 34H 145 T95 CH1_12L 23 072 43H 162 T197 CH2_45L 159 T96 CH1_12H 24 T147 CH2_31L 138 T198 CH2_45H 158 T97 CH1_23L 80 T148 CH2_31H 139 T1
119. 2 18 4W B19 H2 CH26_4W 9 L2 E21 L2 7 L2 C20 L2 4 D22 B7 20 D5 L1 E22 L1 C7 L1 B20 L1 ES H2 CH3 4W D23 H2 11 4W A8 H2 19 4W C21 H2 CH27 4W D6 L2 E23 L2 B8 L2 A21 L2 E6 24 C8 21 7 L1 E24 L1 A9 L1 C22 L1 E7 Hm CH4_4W D25 H2 12 4 B9 Hm CH20 4 A22 Hm CH28 4W D8 L2 E25 L2 C9 L2 B22 L2 E8 26 10 23 D9 26 10 23 E9 H2 5 4W D27 H2 4 10 H2 CH21 4 B23 H2 CH29 4W D10 L2 C29 L2 A11 L2 C24 L2 E10 32 B11 H1 24 Dil L1 E32 L1 C11 L1 B24 L1 Hm CH6 4W D31 H2 CH14_4W 12 Hm CH22 4 C25 H2 CH30_4W D12 L2 E31 L2 B12 L2 A26 L2 E12 D30 12 26 D13 L1 E30 L1 A13 L1 C26 L1 13 H2 CH7 4W D29 H2 15 4 H2 CH23 4 A27 H2 CH31 4W 014 L2 E29 L2 C13 L2 B27 L2 E14 B3 14 27 015 L1 L1 14 L1 A28 L1 15 H2 CHS 4W nd H2 16 4W H2 24 4 B28 H2 CH32 4W D16 L2 B4 L2 A15 L2 C28 L2 4 Wire Common and Backplane Signal Names Pin DMM Bus Line Pin DMM Bus Line Signal A2 1 L1 BPL LO L1 B2 H2 BPL SHI H2 B1 L2 BPL SLO L2 TABLE 4 31 4 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS EX1200 4128 Plug in Module 85 VTI Instruments Corp LOGICAL DIAGRAM
120. 2 wire multiplexers RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V dc 300 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased RATED SWITCH OPERATIONS Mechanical 1 x 10 no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 mA resistive MINIMUM CONTACT RATING 10 mV dc 10 pA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions SWITCHING TIME lt 3 ms PATH RESISTANCE lt 500 mQ INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 40 MHz typical CROSSTALK TYPICAL 1 MHz lt 70 dB 10 MHz lt 50 dB ISOLATION TYPICAL 1 MHz lt 55 dB 10 MHz lt 35 dB For mating connector crimp pins and other accessories please refer to Appendix B 68 EX1200 3164 Plug in Module www vtiinstruments com EX1200 3824 PLUG IN MODULE 8 1 x 24 SOLID STATE 100V 100MA MULTIPLEXER The EX1200 3824 is a high speed multiplexer designed to provide flexible switching multiplexing architecture with 8 banks of 1
121. 200 TBR ships with rubber feet for table top installations but may be fitted with rackmount ears for installation into a test rack P N 70 0367 010 To install a terminal block into the EX1200 TBR insert the flanges on the side of the terminal block into the guide rails of the desired slot Continue to push the terminal block into the receiver until it is SMUXred by the rear locking latch of the receiver To remove the terminal block from the EX1200 TBR hold the center thumbscrew on the terminal block then pull the terminal block from the receiver Rear locking latch Terminal Block Flange Cabling removed for clarity FIGURE 3 3 TERMINAL BLOCK INSTALLATION INTO THE EX1200 TBR PROGRAMMING OVERVIEW To measure the thermistor temperature first ensure that the P2 jumper has been configured properly see Jumper Configuration for more detail Next a scan list is developed which scans CH1_1 In the following programming overview a method for taking measurements using the on board thermistor will be provided Two scenarios will be provided one where only the thermistor temperature is measured and one where the is used as a reference junction and other channels make temperature measurements In the first example the user can only measure the thermistor temperature at 1 In the second example the user can measure the thermistor temperature at 1 and can also measure temperature on another cha
122. 2H PinD1 18 2 2H PinD5 22 4 2 Pin 26 4 2H PinD13 SO CH2 2L Pin B10 2L Pin B6 21 Pin B2 5 2L Pin D2 CH6 2L Pin 06 2L Pin 010 8 2L Pin 014 691 Pin A13 pin 9 3H PinA5 71015 5 3H PinA3 109 3H Pin A7 Pin A11 27 4 3H Pin A15 KSH e CH2 3L Pin A14 Pin A10 Pin 5 3L Pin 4 Pin 3L Pin A12 CH8 Pin A16 4H PinBi1 8 4 CH3 4H 7 121 4H Pins 7106 1 4H Pin 201 2 4H Pin C3 4H Pin C7 4 4H Pin 011 _ 32 4 CH2 4L Pin B12 4L Pin B8 CHA 41 Pin B4 5 4L Pin GHS 4L Pin C4 41 Pin CH8 4L Pin C12 K65 K66 K67 K68 K69 K70 K71 e 09 11 69 11 69 11 69 11 69 69 69 CH2 COMH Pin C9 CH3 COMH Pin C5 CH4 COMH Pin C1 GHS COMH Pin A1 CH6 Pin E5 7 COMH Pin E9 CH8 COMH Pin E13 CH2_COML Pin C10 CH3 COML Pin COML Pin C2 5 COML Pin A2 Pin COML PinE10 CH8_COML PinE14 R lt CH10_COML Pin 22 CH11 COML PinB26 CH12 032 CH13 Pin B32 14 Pin A30 CH15 COML PinB24J 16 Pin A20
123. 2L TABLE 4 8 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 44 EX1200 3048 Plug in Module www vtiinstruments com LOGICAL DIAGRAM K24 K16 K8 Relays to the EX1200 DMM Backplane CH1 241 Pin 93 4 16L Pin66 T 8L Pin 28 T ____ P 24H Pin 94 CH1_16H Pin 67 2 CH1 8H Pin 29 Voltage and Resistance Measurements 5 K52 231 Pin 91 7 _ CH1_15L Pin 64 lt 7 7L Pin 26 1 0 CH1_COMH Pin 6 CH1_23H Pin 92 5 9 CH1 15H Pin 65 7 27 2 7 4 CH1 COML Pin 5 _ z K22 K14 K6 221 Pin 89 Ta CH1_14L Pin 51 2 7 4 4 6L Pin 24 Ks CH1 22H Pin 90 14H Pin 52 4 6H Pin 25 e CH2 COMH Pin 16 I 2 21 K13 K5 CH2_COML Pin 15 211 Pin 87 7 Pin 49 T h 5L Pin 22 21H Pin 88 13H Pin 50 5H Pin 23 4 Wire Resistance K20 K12 K54 20L Pin85 L CH 12L Pin 47 T 4L Pin 9 e COMH Pin 6 54 20H Pin 86 12H Pin 48 4 4H Pin 10 _ 7
124. 3 mA per relay closure on 5 V EX1200 5006 0 140 A 0 005 A 0A 0 79 0 36 Add 28 mA per relay closure on 5 V EX1200 6101 0 140 A 0 005 A 0A 0 93 0 42 Add 28 mA per relay closure on 5 V EX1200 6111 0 140A 0 005 A 0A 0 74 0 34 Add 28 mA per relay closure on 5 V EX1200 6216 0 129 A 0 0041 OA 0 90 0 41 28 mA per relay closure 5 V EX1200 6216HV 0 140 A 0 005 A OA 0 94 0 43 67 mA per relay closure on 5 V EX1200 7100 0 131 A 0 0037 A OA 0 63 0 29 Values for carrier only 7102 plug in 0 131 0 0037 0 005 0 25 0 12 140 mA per relay closure on 24 V Appendix A Power Consumption and Weight 153 VTI Instruments Corp Weight Switch Module 433 5 V 424 V Ibs kg Notes 7104 plug in 0 131 A 0 0037 A 0 005A 0 25 0 12 140 mA per relay closure 24 V 7106 plug in 0 131 0 0037 0 005 0 25 0 12 140 mA per relay closure on 24 V 7122 plug in 0 131 A 0 0037 A 0 005A 0 25 0 12 Add 280 mA per relay closure on 24 V 154 Appendix A Power Consumption and Weight www vtiinstruments com APPENDIX B SWITCH CARD ACCESSORIES LIST OF ACCESSORIES The following tables provide mating connector strain relief crimp pin and other related accessories for the connectors used with the EX1200 series switch cards 26 pin Connector These accessories should be used with the EX12
125. 311911211 0 CH2 191 Pin 82 CH2 111 Pin 55 2 Pin 17 4 59 CH3 1L Pin 42 5 BPL LO 144 K36 K28 CH2_20H Pin 96 lt 7 1 CH2 12H Pin 58 7 1 CH2_4H Pin 20 CH2 20L Pin 95 CH2_12L Pin 57 5 CH2_4L Pin 19 K45 K37 29 2 21H Pin 98 T 1 e 13H Pin 60 7 4 2 5H Pin 33 T Discharge Resistor Relays 211 Pin 97 4 2 131 Pin 59 2 7 4 2 51 Pin 32 K46 K38 K30 50 22H 100 2 14H Pin 62 7 CH2_6H Pin 35 7 CH1_COMH Pin A15 2 22L Pin 99 CH2 14L Pin61 2 7 0 CH2_6L Pin 34 KA7 K39 K21 CH1 COML Pin A14 23H Pin 102 7 4 2 15H Pin 75 7 1 2 7H Pin 37 4 4 K51 CH2 23L Pin 101 2 7 46 CH2 151 Pin 74 CH2_7L Pin 36 5 9 CH2 COMH Pin E17 1 40 K32 24H Pin 104 CHS 16H Pin 77 T 2 8H Pin 39 1 CH2 COML Pin E16 CH2_24L Pin 103 7 CH2_16L Pin 76 8L Pin 38 FIGURE 4 15 EX1200 3048 LOGICAL DIAGRAM EX1200 3048 Plug in Module 45 VTI Instruments Corp CHI IL
126. 4 9100 Pin O 12NO J101 Pin K4 K12 e SER CH 5NC J100 Pin P 13NC J101 Pin P CH 5COM 9100 Pin 0 CH 13COM J101 Pin U O 5 J100 Pin Y O CH 13NO J101 Pin Y K5 K13 BNC J100 Pin R 14NC 7101 Pin 6 9100 Pin V CH_14COM J101 Pin V O 6NO J100 Pin Z O 14NO J101 Pin 2 K6 K14 LM CH 7NC J100 Pin S mS CH 15 J101 Pin S CH 7COM J100 Pin W 15COM J101 Pin W O 7NO J100 Pin a O 15 J101 Pin a K7 K15 CH BNC J100 Pin CH 16NC J101 Pin T 8COM 9100 Pin X CH 16COM J101 Pin X O 8 J100 Pin b 0 CH 16 4101 Pin b mE CH 17 J101 Pin CH 17COM J100 Pin d 1017 0 17 9100 Pin FIGURE 4 52 1200 6102 LOGICAL DIAGRAM 126 EX1200 6102 Plug in Module www vtiinstruments com EX1200 6102 SPECIFICATIONS CHANNEL COUNT 17 SPDT RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 30 V dc MAXIMUM SWITCHING CURRENT 05A MAXIMUM CARRY CURRENT 05A MAXIMUM SWITCHING POWER 10 W RATED SWITCH OPERATIONS Mechanical 5 x 10 Electrical 1 x 10 at full load SWITCHING TIME lt 5 ms PATH RESISTANCE 410 INSULATION RESISTANCE gt 1x10 Q BANDWIDTH 3 dB 1 3 GHz
127. 45 CH6 1H C21 26 CH3 5H 11 66 8 D29 CHA E13 T146 CH6_1L C22 27 14 T67 8 8L D32 CH3_8L E12 T147 CH5 6H C19 T28 CH4_COMH B13 T68 CH8_8H D31 CH3 8H 11 148 CH5 6L C20 T29 CHA 5L 16 69 1 3L E2 CH3 3L E10 149 CH7_1W A25 T30 CH4_5H B15 T70 El CH3 3H E9 T150 IW A28 T31 5 18 T71 8L E4 SL E8 T151 CH7_4H A26 T32 5 17 T72 8H E3 CH2 8H E7 T152 CH7 4L 27 T33 5 D20 73 2 3L 6L C12 T153 CH8_COMH A29 34 5 7 D19 T74 CH2 3H 5 6H 011 154 CHS COML 0 T35 CH3_1W 9 T75 CH5 3H E17 INTES IL 14 155 SHIELD E31 T36 SHIELD A10 T76 CH5 3L E18 CHA C13 T156 GND C E32 T37 CH3 4H All T77 21 2 CH4 6L C16 T157 8 7H 31 T38 CH3 4L A12 T78 2H CHA 6H 15 158 8 7L C32 T39 CH4_1W 13 79 B2 CHp 4H A23 T159 CH8 5H 1 T40 SHIELD 14 T80 B1 1 CH6_4L A24 T160 CH8_5L A32 TABLE 4 6 EX1200 TB160 3 TERMINAL BLOCK TO EX1200 3001 PIN MAPPING can be measured by the 1200 DMM or may be measured using an external instrument To use an external instrument connect it to T164 VS and T163 VS To use a sensor other than the onboard thermistor connect it using T162 I and T161 RH 1 Note that
128. 5 COML Pin B18 5 Pin B18 BPL SLO 5 COML Pin B18 BPL LO FIGURE 4 13 EX1200 3001DS LOGICAL DIAGRAM EX1200 3001DS Plug in Module 41 VTI Instruments Corp EX1200 3001DS SPECIFICATIONS CHANNEL COUNT Eight individual 1 x 8 2 wire or eight 1 x 16 1 wire RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V ac rms 300V dc MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING 10 mV dc 10 uA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 mA resistive SWITCHING TIME 3ms PATH RESISTANCE 0 50 INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt l uV CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 50 typical INSERTION LOSS 100 kHz 0 1 dB 1MHz 02 dB 10 MHz 0 5 dB CROSSTALK 100 kHz 90 dB 1MHz lt 70 dB 10 MHz 50 dB ISOLATION 100 kHz 90 dB 1MHz lt
129. 60 0 0 lt CH R47 Pin D25 s 0 o CH R79 Pin B9 4 CH 111 Pin A22 sQ 5 69 a ETE 16 uo us TE Te CH 16 Pin 08 69 6 6 CH R48 Pin E25 4 CH R80 Pin C9 4 CH 112 Pin B22 69 TE EDS 128 Tee Tee Tae CH R17 Pin E8 CH R49 Pin 026 4 CH R8 Pin A10 4 CH R113 Pin C23 4 CTO Te 169128 Cara R18 Pin D9 09 69 59 CH 50 Pin E26 CH R82 Pin B10 4 CH 114 Pin A23 9 09 09 Te Te T lt Te 128 Te Tus CH 19 Pin 909 09 CH 51 Pin D27 sQ CH R83 Pin C10 CH R115 Pin B23 Q 5 lt Te Te 9 Cac Te R20 Pin 010 69 Q R R52 Pin 29 699 CH 84 Pin A11 4 CH R116 Pin C24 00 0 a JE TETS 14 Te Tes qu CH R21 Pin 69 69 CH R53 Pin 032 CH R85 Pin B11 4 CH 117 Pin A24 9 569 5 09 4 4 lt 49 P At 52 CH R22 Pin 011 Q CH R54 Pin 2 CH 86 Pin C11 lt CH 118 Pin B24 6 9 128 148 12 CH R23 Pin E11 CH R55 Pin D31 4 CH Pin A12 4 CH
130. 64 H VS The user may also choose to use a sensor other than the on board thermistor To do so connect the sensor using T161 1 and T162 I Note that IL and T2 must be dedicated to making temperature measurements once P2 is configured 1200 30485 Plug in Module 51 VTI Instruments Corp EX1200 3048S SPECIFICATIONS CHANNEL COUNT 48 two wire or 24 four wire RELAY TYPE Opto isolated solid state MAXIMUM SWITCHING VOLTAGE 250 V MAXIMUM SWITCHING CURRENT 02 MAXIMUM SWITCHING POWER 6 W 4 2 VA RATED SWITCH OPERATIONS Unlimited solid state relays SWITCHING TIME lt 500 us PATH RESISTANCE 80 INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt 7 CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 10 MEz typical CROSSTALK TYPICAL 100 kHz 55 dB 1MHz 45 dB 10 MHz 30 dB ISOLATION TYPICAL 100 kHz 55 dB 1MHz 40 dB 10 MHz 25 dB For mating connector crimp pins and other accessories please refer to Appendix B Application Note Solid state relays are not ideally suited for low level resistance measurements 1 The relays have an internal resistance of approximately 13 mV which is significant under these circumstances A leakage current is also p
131. 71 and 7H T2 must be dedicated to making temperature measurements once P2 is configured EX1200 3001 Plug in Module 37 VTI Instruments Corp EX1200 3001 SPECIFICATIONS CHANNEL COUNT Eight individual 1 x 8 2 wire or eight 1 x 16 1 wire RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V ac rms 300 V dc MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING 10 mV dc 10 uA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 no load Electrical 1 x 10 50 V dc 0 1 A resistive or 10 V dc 10 mA resistive SWITCHING TIME 3ms PATH RESISTANCE 0 50 INSULATION RESISTANCE gt 1 10 0 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt l uV CAPACITANCE Open channel 50 pF Channel mainframe 20 pF High low 50 pF BANDWIDTH 3 dB 50 typical INSERTION LOSS 100 kHz 0 1 dB 1MHz 02 dB 10 MHz 0 5 dB CROSSTALK 100 kHz 90 dB 1MHz lt 70 dB 10 MHz 50 dB ISOLATION 100 kHz 90 dB 1MHz lt 70 dB 10 MHz 60 dB For mating connector cr
132. 92 47NO 19 132 74 D29 T13 20COM E8 T53 CH 32NO B13 T93 48COM C20 133 80 4 19 D8 T54 CH 33NO C13 T94 CH 47COM B20 134 79 D31 T15 CH 25NO E9 T55 CH 21NO A9 T95 78COM C32 T135 CH 73COM C30 T16 CH 24NO D9 16COM 8 96 5 El IKE 72COM B30 T17 8NO C3 T57 16NO AT T97 CH 65COM E26 T137 78NO C31 8 7 B3 58 11 A6 T98 CH 64COM D26 138 77 31 19 3COM C2 T59 11NO 5 99 6 24 139 72 29 T20 CH 2COM B2 T60 CH_6COM A4 T100 59 D24 140 73 29 T21 CH 8COM T61 6 T101 CH 70NO E27 T141 67 28 T22 7 B4 62 2 T102 CH 69NO D27 142 68COM 28 T23 13NO C5 T63 CH 22 10 103 70 28 143 63 25 24 12NO 5 64 23 10 104 69 D28 144 62 25 25 13COM C6 T65 CH 40NO E15 105 60NO 23 145 67 27 12 6 66 39NO 015 106 59 D23 T146 CH 68NO C27 T27 CH 18NO C7 40COM 16 SI 55COM 22 T147 62COM B26 T28 CH 17 B7 INE CH 39COM D16 CH 54COM D22 63COM C26 T29 1800 C8 T69 45NO E17 109 64 D25 T149 CH 61COM A26 T30 CH 17COM B8 T70 44ANO 17 T110 CH_65NO E25 T150 CH_66NO A27 31 23 C9
133. 99 CH2_33L 142 T98 CH1_23H 79 T149 CH2_42L 165 T200 CH2_33H 143 T99 111 21 150 2 42 164 201 SHIELD 150 T100 CHI 22 T151 CH2 30L 136 T202 SHIELD 151 T101 CH2 38L 173 T152 CH2_30H 137 T203 GND_C 125 T102 CH2_38H 172 T153 2 411 167 T204 GND C 176 TABLE 4 19 EX1200 TB200 TERMINAL BLOCK TO EX1200 3096 PIN MAPPING can be measured by the 1200 DMM or may be measured using an external instrument To use an external instrument connect it to T183 VS and T184 VS To use a sensor other than the onboard thermistor connect it using T181 I and T182 I Note that 1L and T2 must be dedicated to making temperature measurements once P2 is configured 62 EX1200 3096 Plug in Module www vtiinstruments com EX1200 3096 SPECIFICATIONS CHANNEL COUNT 1 x 96 2 wire dual 1 x 48 2 wire or 1 x 48 4 wire RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 220 V ac rms 240 V MAXIMUM SWITCHING CURRENT 1A MAXIMUM SWITCHING POWER 30 W dc resistive 37 5 VA resistive MINIMUM CONTACT RATING 10 mV dc 10 uA This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1x 107 Electrical x 10 30 V dc 1
134. A resistive SWITCHING TIME 3ms PATH RESISTANCE lt 300 mQ INSULATION RESISTANCE gt 1 100 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt CAPACITANCE Open channel 50 pF Channel mainframe 80 pF High low 50 pF BANDWIDTH 3 dB 80 MHz typical CROSSTALK TYPICAL 100 kHz 55 dB 1MHz 45 dB ISOLATION TYPICAL 100 kHz 50 dB 1MHz 35 dB EX1200 5006 Plug in Module 119 VTI Instruments Corp EX1200 6101 PLUG IN MODULE 10 SP4T RF MULTIPLEXERS 1 3 GHZ The EX1200 6101 is a high density RF switch module with ten individual SP4T coaxial trees that are isolated from each other and system ground to provide a high fidelity switch path for switching signals in excess of 1 3 GHz Excellent crosstalk and isolation is maintained by using very short low loss coaxial runs from the connector directly to the relays All modules are also configured to avoid any unterminated stub effects improving overall signal integrity and allowing for high frequency matrix designs and large multiplexer configurations while preserving bandwidth and maintaining low VSWR The front panel utilizes two high density 26 pin coaxial connectors designed for high reliability and low insertion loss Six of the modules can be accommodated in a 1U EX1200 full rack mainframe to provide a very flexible RF switch network For example a single module can be configured through external cabling to provide dual 1 x 16 multiplex
135. C16 H2 C32 H2 E18 H2 08 Li CH1_MC8_4W D16 Li CH1_MC16_4W B24 11 2 MCS AW 017 Ll CH2_MC16_4W E8 L2 E16 L2 C24 L2 E17 L2 4 Wire Common and Backplane Signal Names Pin DMM Bus Line Pin DMM Bus Line A4 H2 A30 H2 L1 4W 429 L1 2 MC 4W 5 L2 BPL HI H1 BPL SHI H2 BPL LO L1 BPL SLO L2 TABLE 4 38 4 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS NOTES The H L column represents the and LO pins for the 4 wire signal The BPL references are lines available on the EX1200 mainframe backplane that connect the plug in module to the on board DMM if installed For more information on these lines refer to the EX1200 Series User s Manual 98 EX1200 4264 Plug in Module LOGICAL DIAGRAM Pin B1 R2 Pin C1 CH1_R3 Pin 01 R4 Pin E1 R5 Pin B2 R6 Pin C2 R7 Pin D2 R8 Pin E2 CH1_R9 Pin R10 Pin R11 Pin D3 R12 Pin CH1_R13 Pin B4 R14 Pin C4 CH1_R15 Pin D4 CH1_R16 Pin E4 CH1_R17 Pin B5 R18 Pin C5 R19 Pin D5 R20 Pin E5 1_ 21 Pin R22 Pin C6 R23 Pin 06 R24 Pin E6 R25 Pin B7 R26 Pin C7 R27 Pin D7 R28 Pin E7 R29 Pin CH1 R30 Pin R81 Pin D8 R32 Pin E8 Pin A2 Pin A3 Pin A4 Pin A5
136. C23 H2 E20 H2 D6 Li CH1_MC6_4W D14 Li CH1_MC14_4W B31 Li CH2_MC7_4W D19 Li CH2_MC15_4W E6 L2 E14 L2 C31 L2 E19 L2 B7 15 B32 C7 H2 C15 H2 C32 H2 D7 11 4W D15 LI CH1_MC15_4W B24 LI CH2 MC8 4W E7 L2 E15 L2 C24 L2 B8 H1 B17 H1 D32 H1 8 2 17 H2 E32 H2 D8 11 MC8 4W B24 Li CH2_MC1_4W D31 Li CH2_MC9_4W E8 L2 D24 L2 E31 L2 4 Wire Common and B ackplane Signal Names Pin DMM Bus Line Pin DMM Bus Line A2 28 4 H2 A30 H2 Wi Li CH1_MC_COM_4W 130 2 4W 5 L2 A31 L2 BPL_HI BPL SHI H2 BPL LO L1 SNOUM BPL SLO L2 TABLE 4 35 4 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS NOTES The H L column represents the and LO pins for the 4 wire signal The BPL references are lines available on the EX1200 mainframe backplane that connect the plug in module to the on board DMM if installed For more information on these lines refer to the EX1200 Series User s Manual 92 EX1200 4260 Plug in Module LOGICAL DIAGRAM SETE EEEE S 5584 5555 5 5 58 R1 Pin B1 R1 Pin B17 R2 Pin ct R2 Pin C17 L Pin D1 CH2 Pin B25 R4 Pin E1 R4 Pin C25 Kes R5 Pin B2 R60 PinE15 2_ 5 Pin B18 CH2_R60 Pin E19 R6 Pin c2 2 2
137. CH2 7H 37 CH2 8L 38 CH2 8H 39 CH2 9L 40 CH2 9H 41 UNUSED N A SHIELD 42 101 43 10H 44 11 45 46 12 47 2 48 131 49 13H 50 CHI 141 51 4 52 2 101 53 CH2 10H 54 CH2 111 55 CH2 56 2 121 57 2 12H 58 131 59 CH2 13H 60 141 61 CH2 14H 62 UNUSED N A SHIELD 63 I5L 64 CHI 15 65 16L 66 16H 67 171 68 CH1_17H 69 CH1_18L 70 CH1_18H 71 UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A CH1_19L 72 CH1_19H 73 CH2_15L 74 CH2_15H 75 CH2 16L 76 CH2 16H TI CH2 I7L 78 CH2 17 79 181 80 2 18 81 www vtiinstruments com 191 82 2 19 83 UNUSED N A SHIELD 84 201 85 20H 86 CHI 211 87 CHI 21H 88 221 89 22H 90 CHI 23L 91 23H 92 241 93 24H 94 CH2 20L 95 CH2 20H 96 CH2 211 97 CH2 21H 98 CH2 22L 99 CH2 22H 100 CH2 23L 101 CH2 23H 102 CH2 24L 103 CH2 24H 104 UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A be measured by the EX1200 DMM or may be measured using an external instrument If an external sensor is used it must be connected to 163 1 VS and T1
138. CH2_18L 80 CH2_18H 81 CH2_19L 82 CH2_19H 83 UNUSED N A CH3_2L 84 CH1_20L 85 CH1_20H 86 CHI 2IL 87 21H 88 221 89 22H 90 CHI 23L 91 23H 92 241 93 24H 94 CH2 20L 95 CH2 20H 96 CH2 211 97 CH2 21H 98 CH2 22L 99 CH2 22H 100 CH2 23L 101 CH2 23H 102 CH2 24L 103 CH2 24H 104 UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A UNUSED N A be measured by the EX1200 DMM or may be measured using an external instrument If an external sensor is used it must be connected to T163 VS and T164 VS The user may also choose to use a sensor other than the on board thermistor To do so connect the sensor using T161 1 and T162 I Note that IL and T2 must be dedicated to making temperature measurements once P2 is configured 46 EX1200 3048 Plug in Module www vtiinstruments com EX1200 3048 SPECIFICATIONS GENERAL SPECIFICATIONS CHANNEL COUNT 48 two wire or 24 four wire RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V dc 300 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W de 125 VA Maximum switched power is at 30 V 2 dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING
139. COMH 21 CH6 21 CH6 2H 21 CH6 3H 22 SHIELD 22 CHp COML 22 CH6 IL 22 CH6 2L 22 CH6 3L 23 CH6 4H 23 CH6 5H 23 CH6 6H 23 CH6 7H 23 CH6 8H 24 CH6 4L 24 CH6 5L 24 CH6 6L 24 CH6 7L 24 CH6 8L 25 CH7 IW 25 7 COMH 25 CH7 1H 25 CH7 2H 25 CH7 3H 26 CH7 4H 26 CH7 COML 26 CH7 1 26 CH7 2L 26 CH7 3L 27 CH7 4L 27 CH7 5H 27 CH7 6H 27 CH7 7H 27 CH7 8H 28 CH8 IW 28 CH7 5L 28 6L 28 CH7 7L 28 CH7 8L 29 CH8 COMH 29 8 29 8 2H 29 8 29 CH8 4H 30 CH8 COML 30 CH8 IL 30 8 2L 30 8 3L 30 CH8 4L 31 8 5H 31 8 6H 31 8 7H 31 8 8H 31 SHIELD 32 CH8 5L 32 8 6L 32 CHS 32 8 8L 32 UNUSED TABLE 4 7 CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 3001DS incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 7 40 1200 300105 Plug in Module www vtiinstruments com LOGICAL DIAGRAM K65 K66 K67 NC NC _ NC NC i Ji J2 i J4 1W CH2 1W 1W 1W Pin A1 A5 20 AQ o 200k2 A13 o 20 0 12W
140. EL HI LO 1011 BANDWIDTH 3 dB 3 typical CROSSTALK 1MHz 55 dB 30 dB 10 MHz ISOLATION 1MHz 60 dB 10 MHz 30 dB For mating connector crimp pins and other accessories please refer to Appendix B 88 EX1200 4128Plug in Module www vtiinstruments com EX1200 4260 PLUG IN MODULE 2 60 2 WIRE MATRIX The 1200 4260 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 6 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS Q 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 1200 4260 ACCO OERR 10 Orientation CONNECTOR DETAIL Pin A32 Pin A1
141. ELD D1 8 2 19 D25 8 SHIELD C32 9 201 12 9 SHIELD CI 9 2 201 26 9 GND C AI 40 CHI 20H B13 80 SHIELD Bl 2 20 27 60 GND A32 TABLE 4 16 EX1200 TB160 1 TERMINAL BLOCK TO EX1200 3072 PIN MAPPING be measured by the EX1200 DMM or may be measured using an external instrument If an external sensor is used it must be connected to T164 1 VS and T163 VS The user may also choose to use a sensor other than the on board thermistor To do so connect the sensor using T162 D and T161 RH 1 Note that IL and T2 must be dedicated to making temperature measurements once P2 is configured 56 EX1200 3072 Plug in Module WWW vtiinstruments com EX1200 3072 SPECIFICATIONS CHANNEL COUNT 1 x 72 2 wire dual 1 x 36 2 wire or 1 x 36 4 wire RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 300 V ac rms 300 V dc MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 125 VA Maximum switched power is at 30 V 2 A dc Max switched power is derated non linearly as voltage is increased MINIMUM CONTACT RATING 10 mV dc 10 pA resistive This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10
142. H 2 HH H CH47 2W H CH63 2 aw LED 2w H 2W 2 Wire Common and Backplane Signal Names Pin DMM Bus Line H L 2 2WCOM 2WCOM UE 2 oae ILL H 2WOHM RENER n up n n p n us n p n p BPL LO L m m m m m m m m m N NN N HN NN NN NN NN NN NN TABLE 4 30 2 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS NOTES The H L column represents the HI and LO pins for the 2 wire signal The BPL references are lines available on the EX1200 mainframe backplane that connect the plug in module to the on board DMM if installed For more information on these lines refer to the EX1200 Series User s Manual 84 EX1200 4128Plug in Module www vtiinstruments com Signal H L Signal i in HIL Signal D5 16 15 D1 L1 D17 L1 A5 L1 C15 L1 EI H2 4W 019 H2 9 4W B5 H2 17 4W 218 H2 CH25 4W 2 12 19 12 5 12 18 L2 E2 20 6 19 D3 L1 E20 L1 B6 L1 A19 L1 A8 H2 CH2_4W D21 H2 10 4W C6 H
143. H R26 13 CH R27 14 CH R93 14 CH R94 14 R95 14 R28 14 CH R29 15 CH R96 15 CH R97 15 R98 15 CH R30 15 CH R31 16 SHIELD 16 SHIELD 16 SHIELD 16 CH R32 16 CH R33 17 SHIELD 17 SHIELD 17 SHIELD 17 CH R34 17 UNUSED 18 CH R99 18 CH R100 18 SHIELD 18 UNUSED 18 UNUSED 19 CH 102 19 CH R103 19 101 19 R35 19 CH R36 20 CH R105 20 CH R106 20 CH 7 104 20 R37 20 CH R38 21 108 21 109 21 107 21 39 21 CH R40 22 CH 111 22 CH 112 22 CH R110 22 R41 22 CH R42 23 CH 114 23 CH 115 23 CH R113 23 CH R43 23 CH R44 24 CH 117 24 CH 118 24 CH 116 24 CH R45 24 CH R46 25 UNUSED 25 UNUSED 25 CH 7 119 25 R47 25 CH R48 26 CH 120 26 121 26 122 26 R49 26 R50 27 123 27 R124 27 125 27 51 27 UNUSED 28 R126 28 CH 127 28 CH 128 28 UNUSED 28 UNUSED 29 UNUSED 29 UNUSED 29 CH R52 29 R59 29 CH R60 30 GND C 30 SHIELD 30 UNUSED 30 CH R57 30 CH R58 31 GND C 31 SHIELD 31 GND C 31 CH R55 31 CH R56 32 GND C 32 SHIELD 32 GND C 32 CH R53 32 CH R54 TABLE 4 29 1 WIRE CONNECTOR PINS amp SIGNAL ASSIGNMENTS The EX1200 4128 incorporates an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 9
144. H1_COML Pin 25 z Pin 25 CH1_COML Pin 25 K99 K101 K103 K105 CH2 Pin 50 CH2_COMH Pin 50 BPL HI CH2_COMH Pin 50 1 BPL SHI CH2 COMH Pin 50 f 5 BPL_DAMPS m CH2 Pin 51 4 BPL LO CH2 Pin E51 BPL SLO CH2_COML Pin 51 4 BPL LO COML Pin 51 FIGURE 4 21 EX1200 3096 LOGICAL DIAGRAM EX1200 3096 Plug in Module 61 VTI Instruments Corp Signal Conn Pin 1L 1 CHI 2 100 13H 99 CHI 2L 3 CHI 2H 4 141 98 14 97 3L 5 3H 6 151 96 15 95 7 CHI 4H 8 16L 94 16H 93 CHI 5L 9 CHI 5H 10 171 92 17 91 CHI 25L 101 25H 102 37L 200 37H 199 CHI 26L 103 26H 104 CHI 38L 198 38H 197 271 105 27H 106 39L 196 39H 195 CHI 28L 107 28H 108 CHI 40L 194 1 40H 193 CHI 29L 109 29H 110 411 192 41H 191 221 82 22H 81 101 19 10H 20 CHI 211 84 21H 83 CHI 9L 17 CH1_9H 18 CH1_20L 86 CH1_20H 85 CHI 8L 15
145. IELD 23 CH2 R25 23 CH2 R26 23 CH2 R51 23 2 R52 24 SHIELD 24 CH2 R31 24 CH2 R32 24 CH2 R49 24 CH2 R50 25 UNUSED 25 CH2 R3 25 CH2 R4 25 CH2 R47 25 CH2 R48 26 UNUSED 26 CH2 R7 26 CH2 R8 26 2 R45 26 2 R46 27 UNUSED 27 CH2 27 CH2 R12 27 CH2 R43 27 CH2 R44 28 CH2 CI 28 CH2 5 28 CH2 R16 28 CH2 R41 28 CH2 R42 29 CH2 C2 29 CH2 R19 29 CH2 R20 29 CH2 R39 29 2 R40 30 CH2 C3 30 2 R23 30 CH2 R24 30 CH2 R37 30 CH2 R38 31 CH2 C4 31 CH2 R27 31 CH2 R28 31 CH2 R35 31 2 R36 32 UNUSED 32 CH2 R29 32 CH2 R30 32 CH2 R33 32 CH2 R34 TABLE 4 36 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 96 EX1200 4264 Plug in Module www vtiinstruments com Signal Pin H L BI MCI Ds i MCI7 i CH2 MCI i CH2 17 zl CHI MC2 L 8 H CH2_MC2 H CH2_MC18 MC3 ze 19 CH2 MC3 95 2 19 KZ cie CH1_MC20 Es CH2 CH2 MC20 5 H H HAH H CH1_MC6 cu CHI MC22 CH2 MC6 CH2 MC22 i BI
146. L Pin 022 09 21 Pin 026 09 2L Pin C30 K35 K51 59 CH5 3H Pin E17 CH6_3H Pin E21 Pin E25 CH8_3H Pin D29 60 3L Pin E18 69 3L Pin E22 09 CH7 3L Pin E26 w Pin 030 K36 K44 152 5 4H Pin A19 CH6_4H Pin A23 CH7_4H Pin A26 8 Pin E29 CHS 4L Pin A20 69 4L Pin A24 LO CH7 4L Pin A27 LO CH8_4L Pin E30 K37 5 K53 K61 CHS 5H Pin B19 CH6_5H Pin B23 Pin B27 CH8_5H Pin A31 69 CH5 5L Pin B20 69 5L Pin B24 LO CH7_5L Pin B28 69 8 5L Pin A32 K38 K54 162 5 6H Pin C19 6H Pin C23 6H Pin C27 CH8_6H Pin B31 CH5 6L Pin C20 69 6L Pin C24 69 6L Pin C28 69 CH8 6L Pin B32 K39 K47 K55 5 7 Pin 019 CH6_7H Pin 023 CH7 7H Pin 027 CH8_7H Pin C31 CH5 7L Pin D20 69 71 Pin 024 69 71 Pin 028 69 71 Pin C32 K40 K56 164 5 Pin E19 lt 8H Pin E23 8H Pin E27 CH8_8H Pin D31 69 5 8L Pin E20 69 8L Pin E24 09 8L Pin E28 69 8 8L Pin 032 77 K78 K79 09 1 09 1 09 1 5 Pin 17 CH6_COMH Pin B21 CH7_COMH Pin B25 CH8_COMH Pin A29 5 COML Pin B18 CH6_COML Pin B22 CH7_COML Pin B26 CH8_COML Pin A30
147. L D26 T83 CH8_1L B30 T123 CH5 4H A19 CH2 2H D5 T44 CH7 2H D25 T84 CH8 B29 T124 5 4L A20 CH2 7L DS T45 CH6 7L D24 T85 CH8_6L B32 T125 CH5 IW A17 CH2 7H D7 T46 CH6 7H D23 86 CHS 6H B31 T126 SHIELD A18 CH3 2L 10 T47 CH6 2L D22 T87 IL C2 T127 CHA A15 CH3 2H D9 T48 CH6 2H D21 88 128 CHA A16 CH3 7L 12 49 5 5L B20 T89 CH1_6L C4 T129 CH7_8L E28 T10 CH3_7H Dil 5 5 19 T90 C3 T130 CH7 8H E27 T11 CHA 2L 14 51 IW 1 T91 11 C6 T131 CH7 3L E26 T12 2H D13 T52 SHIELD A2 T92 CH2 C5 132 CH7 3H E25 T13 CH4_7L D16 53 93 2 6L C8 T133 CH8 4L E30 T14 CHA 7H 15 T54 CH1_4L A4 T94 CH2_6H C7 T134 CH8_4H E29 T15 CH5_2L D18 T55 CH2 IW A5 T95 IL C10 T135 CH7 6L C28 T16 CH5 2H D17 T56 SHIELD A6 T96 CH3 C9 136 7 6 27 17 2 T57 CH2 4H AT T97 5 8L E20 T137 CH8 2L C30 T18 CH2 COMH B5 T58 CH2 4L 8 T98 5 8H E19 138 CH8 2H C29 19 CHI 5L B4 T59 CH7 COML B26 T99 CHA 8L E16 139 CH7 25 20 5H B3 T60 CH7_COMH B25 IUE CHA 8H E15 T140 CH7 1L C26 21 CH2 5L B8 T61 CH6 5L B24 3L 22 141 CH6 6H C23 T22 CH2 5H B7 T62 CH6 5H B23 21 T142 CH6 6L C24 T23 CH3 COML 10 T63 CH6_COML B22 076 SL 24 T143 CH5_1L C18 24 CH3 9 Tnd 6 21 UEM CH6 8H E23 T144 CH5 C17 T25 CH3_5L B12 T65 CH8_3L D30 50 28 CH4 3L 14 T1
148. L DIAGRAM CH1 1H Pin 015 1L Pin 016 CH1 2H Pin B13 CH1 2L Pin B14 Pin A17 3L Pin A18 4H Pin B15 4L Pin B16 CH1_COMH Pin C13 CH1 COML Pin C14 CH9 COML Pin C18 9 COMH Pin C17 CH9 4L Pin 22 9 Pin A21 CH9 Pin A24 9 3H Pin A23 2H Pin B17 CHO 1L Pin 020 Relay Detail 2H Pin B17 5 1H Pin 019 K34 K33 Voltage and Resistance Measurements CH1_COMH Pin C13 CH1_COML Pin C14 CH9_COMH Pin C17 K80 sng WAG CH9_COML Pin C18 4 Wire Resistance Measurements CH1_COMH Pin C13 CH1_COML Pin C14 CH9_COMH Pin C17 2 sng CH9 COML Pin C18 BPL_SHI FIGURE 4 23 EX1200 3164 LOGICAL DIAGRAM BPL SLO 17 K25 CH2 1H Pin D11 CH3 1 Pin D7 1 Pin D3 78 CHS 1H Pin CH6 1H Pin E7 7 7 1H Pin E11 51 CHB8 1H Pin E15 CH2 11 Pin 012 11 Pin 08 1L Pin D4 5 1L Pin E4 1L Pin E8 11 Pin E12 CH8 1L Pin E16 CH2_2H Pin 9 2 Pines 12 2
149. LS 9 EN S Z K16 K112 K128 2 e 2 Es m E K145 oT 8 8 T bi 146 1 ot C16H Pin 25 161 Pin 24 Relay Detail FIGURE 4 32 EX1200 4003 LOGICAL DIAGRAM EX1200 4003 Plug in Module 79 VTI Instruments Corp Conn TB Signal Pin Ref Signal CH1_C6H CH1_C10H T61 2 C27L C6L 2 CIOL 31 T62 CH2 18 60 CH2 C27H 83 CI2H 3 CH2 C20H 32 63 2 C28L 61 UNUSED N A CH1_C12L 4 CH2_C20L 33 T64 CH2_C28H 62 GND_C 84 CH1_C4H 5 CH2_C32H 34 T65 UNUSED N A CH1_C15H 85 CH1_C4L 6 CH2_C32L 35 T66 GND_C 63 CH1_C15L 86 CH1_C9L 7 SHIELD 36 T67 CH1_C7H 64 87 8 SHIELD 37 T68 65 88 CIL 9 2 C30L 38 T69 1 R2H 66 89
150. MUM SWITCHING CURRENT 1A MAXIMUM CARRY CURRENT 2A MAXIMUM SWITCHING POWER 25 W dc resistive load MINIMUM CONTACT RATING 5 Vdc 0 1 This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 100 x 10 Electrical 1 x 10 full load SWITCHING TIME lt 3 ms PATH RESISTANCE 0 50 INSULATION RESISTANCE gt 1 1070 BANDWIDTH 3 dB 55 MHz typical For mating connector crimp pins and other accessories please refer to Appendix B EX1200 2008H Plug in Module 33 VTI Instruments Corp EX1200 3001 PLUG IN MODULE 1 64 2 WIRE MULTIPLEXER The EX1200 3001 high density multiplexer module is designed for scanning of multiple points to a common bus in either 1 2 or 4 wire configurations either synchronously with the EX1200 system DMM scan function or asynchronously as a system switch to other devices through LXI LAN messages or the hardware trigger bus Up to 384 two wire or 192 four wire channels be accommodated in a 10 EX1200 mainframe for maximum density or mixed and matched with other EX1200 plug ins for flexibility Applications include cable harness testing semiconductor and PCB testing and applications where multiple points need to be switched to a common resource relays also have individual relay control and each
151. MUX2 CH 9 84 9 134 6 CH 9 184 MUXS CH 9 35 MUX2 CH 10 85 MUXA 10 135 6 10 185 MUXS 10 36 MUX2 11 86 11 136 6 CH 11 186 8 CH 11 37 MUX2 12 87 12 137 6 12 187 8 CH 12 38 MUX2_ COM GND 88 MUX4_ COM GND 138 MUX6_ COM GND 188 MUX8_ COM GND 39 MUX2_CH_13 89 MUX4_CH_13 139 MUX6_CH_13 189 MUX8_CH_13 40 MUX2_CH_14 90 MUX4 CH 14 140 MUX6_CH 14 190 8 CH 14 41 2 15 91 15 141 6 15 191 MUXS CH 15 42 MUX2 CH 16 92 16 142 6 16 192 MUXS 16 43 MUX2 17 93 17 143 6 CH 17 193 MUXS CH 17 44 MUX2 CH 18 94 18 144 6 18 194 MUXS 18 45 MUX2 19 95 MUXA 19 145 6 19 195 MUXS 19 46 2 CH 20 96 MUXA 20 146 6 20 196 MUXS CH 20 47 MUX2 CH 21 97 CH 21 147 MUX6 CH 21 197 MUXS CH 21 48 MUX2 CH 22 98 4 CH 22 148 MUX6 CH 22 198 MUXS8 CH 22 49 MUX2 23 99 MUXA CH 23 149 6 CH 23 199 MUXS CH 23 50 MUX2 CH 24 100 MUXA CH 24 150 MUX6 CH 24 200 MUXS CH 24 TABLE 4 22 EX1200 3824 MUX CARD 200PIN CONNECTOR PINS amp SIGNAL ASSIGNMENTS EX1200 3824 Plug in Module 71 VTI Instruments Corp LOGICAL DIAGRAM
152. NG VOLTAGE 250 V ac rms 125 V dc MAXIMUM SWITCHING CURRENT 16A MAXIMUM SWITCHING POWER 480 W dc 2000 VA per channel see the Figure 4 3 for more information MINIMUM CONTACT RATING 12 dc 0 1 This value is in reference to a resistive load Minimum capacity changes depending switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 5 10 Electrical 1 x 10 at full load SWITCHING TIME 10 ms PATH RESISTANCE 100 INSULATION RESISTANCE 21x10 Q MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt 50 CAPACITANCE Open channel 20 pF Channel mainframe 75 pF BANDWIDTH 3 dB 40 MHz typical INSERTION LOSS TYPICAL 100 kHz 0 2 dB 1MHz 0 5 dB 10 MHz lt 1 0 dB CROSSTALK TYPICAL 100 kHz lt 48 dB 1 MHz lt 33 dB 10 lt 194 For mating connector crimp pins and other accessories please refer to Appendix B RELAY BREAKING CAPACITY 1 Pole Contact Current 10 20 50 100 200300 DC Voltage FIGURE 4 3 RELAY BREAKING CAPACITY 22 EX1200 2001 Plug in Module www vtiinstruments com EX1200 2002 PLUG IN MODULE 12 CHANNEL 16 AMP FORM C SPDT SWITCH The EX1200 2001 and EX1200 2002 are the only switch modules in their class with the ability to switch up to 16 A Some applications include ac line power switching switching of or ac p
153. NUSED D18 T112 CH_R37 D20 CH_R36 E19 T113 CH_R110 C22 CH_R35 D19 T114 CH_R112 B22 CH_R107 C21 T115 CH_R113 C23 CH_R109 B21 T116 CH_R115 B23 CH_R2 D1 T117 CH_R116 C24 CH_R108 A21 T118 CH_R118 B24 CH_R39 D21 T119 CH_R117 A24 CH_R40 E21 T120 UNUSED A25 T160 TABLE 4 32 EX1200 TB160SE TERMINAL BLOCK TO EX1200 4128 PIN MAPPING EX1200 4128 Plug in Module Conn Signal Pin CH_R111 A22 CH_R114 A23 CH_R105 A20 CH_R99 A18 CH_R102 A19 SHIELD A16 SHIELD A17 CH_R53 D32 CH_R58 E30 CH_R57 D30 CH_R60 E29 CH_R59 D29 CH_R56 E31 CH_R55 D31 UNUSED C30 SHIELD B30 GND C C31 SHIELD B31 UNUSED B29 CH_R52 C29 CH_R127 B28 CH_R128 C28 19 25 UNUSED B25 R124 B27 R125 C27 21 B26 R122 C26 R120 A26 CH R123 27 R126 28 UNUSED A29 GND C A30 GND C 1 54 2 CH C3 Bl GND C A32 CH 1 SHIELD B32 87 VTI Instruments Corp EX1200 4128 SPECIFICATIONS CHANNEL COUNT 4 x 128 one wire cross point matrix RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 250 V AC 220 V DC MAXIMUM SWITCHING CURRENT 1A MAXIMUM SWITCHING POWER 60 dc 62 5 VA RATED SWITCH OPERATIONS Mechanical 1x 10 Electrical 1 x 10 at full load SWITCHING TIME 5 ms typical PATH RESISTANCE lt 1Q INSULATION RESISTANCE gt 1 100 MAXIMUM THERMAL OFFSET PER CHANN
154. O Pin 3 Pin 1 Pin 24 Pin 22 Pin 45 Pin 43 Pin 66 Pin 64 Pin 87 Pin 85 Pin 6 Pin 4 Pin 27 Pin 25 Pin 48 Pin 46 Pin 69 Pin 67 Pin 90 Pin 88 Pin 9 Pin 7 Pin 30 Pin 28 Pin 51 Pin 49 Pin 72 Pin 70 Pin 93 Pin 91 Pin 12 Pin 10 CH 17COM Pin 32 CH 18COM Pin 53 CH 19COM Pin 74 CH 20COM Pin 95 CH 21COM Pin 14 CH 22COM Pin 35 CH 23COM Pin 56 CH 24COM Pin 77 CH 25COM Pin 98 26COM Pin 17 CH 27COM Pin 38 CH 28COM Pin 59 CH 29COM Pin 80 CH 30COM Pin 101 CH 31COM Pin 20 CH 32COM Pin 41 K17 K18 EET E K19 K20 21 Lp uer K22 m K23 1 24 Lake v K25 2 22 1626 K27 K28 Ix T K29 M K30 M K31 S s K32 FIGURE 4 44 EX1200 5002 LOGICAL DIAGRAM CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH CH 17 17NO 18NC 18NO 19NC 19NO 20NC 20NO 21NC 21NO 22NC 22 0 23NC 23 0 24 24 0 25 25 26 26 27NC 27 28NC 28NO 29NC 29NO 31NO
155. OM CH INC b CH 8NC D CH 2NO 9NO 2 9 F CH 2NC e CH 9NC H CH 3NO f CH 10 J CH 3COM h CH 10COM K 1 10 L 4 k CH 11 M 4COM m CH 11COM N 4NC n 11 P 5NO 12 R CH 5COM r CH 12COM 5 5NC 8 12NC 6 t UNUSED U 6COM u UNUSED CH 6NC M UNUSED w 7 W UNUSED X CH 7COM X SHIELD Y NC F TABLE 4 2 CONNECTOR PINS amp SIGNAL ASSIGNMENTS LOGICAL DIAGRAM CH_1NC Pin C 7NC Pin Y 1 Pin T o CHINO Pin A O NO Pin W K1 K7 _ Pin P CH 8NC Pin b 2COM Pin E CH 8COM Ping o O 2NO Pin D O 8NO Pin Z 3NC Pin K CH 9NC Pin e Pin J 9 o O 3NO Pin H 9NO Pin c ANC Pin 10NC Pin CH 4COM Pin CH 10COM Pin h pue O 4NO Pin L O 10NO Pin f A CH BNC Pin S CH 11NC Pin n 5COM Pin R CH MCOM Pinm o H 5NO k5 O 5NO Pin P O 11NO Pin k BNC Pin V CH 12NC Pin s 6COM Pin U CH 12COM Pint o CH NO Pin T 9 CH T2NO Pin p FIGURE 4 5 EX1200 2002 LOGICAL DIAGRAM 24 EX1200 2002 Plug in Module www vtiinstrume
156. OOOOOOO CONNECTOR DETAIL Pin A32 Pin A1 30 Orientation 2 J FIGURE 4 22 EX1200 3164 FRONT PANEL FRONT VIEW 64 EX1200 3164 Plug in Module www vtiinstruments com Row A Row B Row C Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 CH5_COMH 1 CH4_2H 1 CH4_COMH 1 CH5_2H 1 CH5_4H 2 CH5_COML 2 CH4_2L 2 CH4_COML 2 5 21 2 CH5 4L 3 5 3H 3 4H 3 CH6 4H 3 4 3 CH5 IH 4 CH5 3L 4 4 6 41 4 CHA IL 4 CH5 IL 5 CHA S CH3 2H 5 CH3 5 6 2 5 6 6 CH4 3L 6 CH3 2L 6 CH3 COML 6 CH6 2L 6 CH6 COML 7 CH6 3H 7 CH3 4H 7 CH7 4H 7 CH3 7 6 8 CH6 3L 8 CH3 4L 8 CH7 4L 8 CH3 IL 8 CH6 IL 9 CH3 3H 9 CH2 2H 9 CH2 COMH 9 CH7 2H 9 CH7 COMH 10 CH3 3L 10 CH2 2L 10 CH2 COML 10 CH7 2L 10 7 COML 11 CH7 3H 11 2 4 11 CH8 4H 11 CH2 IH 11 CH7
157. OOOOOOOOOOOOOOOOOOOO0 QOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0Q CONNECTOR DETAIL Pin A32 Pin A1 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 199999999999999999999999999 999999 OERR 30 Orientation 8 J FIGURE 4 18 EX1200 3072 FRONT PANEL FRONT VIEW EX1200 3072 Plug in Module 53 VTI Instruments Corp Row A Row B Row C Row D Row E Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 UNUSED 1 SHIELD 1 SHIELD 1 SHIELD 1 SHIELD 2 CH1_3L 2 CHI 4L 2 CHI 8L 2 CHI 7L 2 IL 3 CHI 3 4H 3 8H 3 CHI 7H 3 CHI 4 5L 4 CHI 6L 4 2L 4 CHI 9L 4 5 5H S CHI 6H 5 CHI 2H 5 CHI 9H 5 CHI 6 CHI 10L 6 151 6 CHI 13L 6 CHI 171 6 181 7 CHI 10H 7 15 7 CHI 13H 7 CHI 17 7 CHI 18H 8 141 8 CHI 26L 8 121 8 271 8 CHI 161 9 CHI 9 CHI 26H 9 CHI 12H 9 CHI 27H 9 CHI 16H 10 10 191 10 21 10 251 10 221 11 24H 11 CHI 19 11 CHI 21H 11 CHI 25H 11 CHI 22H 12 CHI 36L 12 20L 12 30L 12 231 12 311 13 36H 13 20H 13 13 CHI 23H 13 14 COML 14 28L 14
158. R 29 18 13 1100 Pin 1100 Pin D K14 K30 1 14 1 14 1100 Pin H 100 Pin J K36 K15 K40 K31 CH1_15 CH2 15 ge 1 J100 Pin S gem 1 J100 Pin K32 16 CH2 16 J100 Pin J100 Pin CHASSIS 2 CHASSIS 1100 Pin AA 1100 Pin BB FIGURE 4 58 1200 6216 LOGICAL DIAGRAM 138 EX1200 6216HV Plug in Module www vtiinstruments com EX1200 6216HV SPECIFICATIONS CHANNEL COUNT Two 1 x 16 multiplexer channels RELAY TYPE Reed MAXIMUM SWITCHING VOLTAGE 500 V ac rms MAXIMUM SWITCHING CURRENT 05A MAXIMUM CARRYING CURRENT 20A MAXIMUM SWITCHING POWER 10 W RATED SWITCH OPERATIONS 1 V 10 100 x 10 SWITCHING TIME lt 1108 PATH RESISTANCE lt 500 mQ valid at 50 mV 10 mA load BANDWIDTH 3 dB 250 MHz typical INSERTION LOSS TYPICAL 100 MHz lt 1 0 dB 250 MHz lt 3 0 dB CROSSTALK TYPICAL 100 MHz lt 45 dB 250 MHz 35 dB ISOLATION TYPICAL 100 MHz 45 dB 250 MHz 35 dB VSWR TYPICAL 100 MHz 12 250 lt 1 5 1 EX1200 6216HV Plug in Module 139 VTI Instruments Corp EX1200 6301 PLUG IN MODULE 4 CHANNEL 5 MULTIPLEXER 50 GHZ The EX1200 6301 is designed with SMB male connectors for applicatio
159. TI Part Number 27 0087 041 Manufacturer Part Number Positronics GMCT41F0E100J0 CRIMP PIN Description Contact female crimp power connector 14 16 GA Order qty 44 per board VTI Part Number 27 0087 000 Manufacturer Part Number Positronics FC114N2 AA CRIMP TOOL INFORMATION Description Crimp tool and turret head VTI Part Number 46 0012 000 Manufacturer Part Number Positronics 9501 and 9502 1 INSERTION TOOL Description Tool contact insertion size 16 contact AMP M series VTI Part Number 46 0014 000 EXTRACTION TOOL Description Tool pin extractor power coaxial VTI Part Number 46 0015 000 UNTERMINATED CABLE ASSEMBLY Description 41 pin unterminated cable assembly 3 ft VTI Part Number 70 0363 506 104 pin Connector These accessories should be used with the EX1200 3048 EX1200 3048S EX1200 4003 and EX1200 5002 MATING CONNECTOR KIT Description 104 pin HD D sub mating connector and backshell with 3 ft unterminated 24 AWG wire VTI Part Number 70 0363 501 MATING CONNECTOR Description 104 pin HD D sub mating connector with hood and pins fixed contacts no crimp tool required VTI Part Number 27 0389 104 Manufacturer Part Number Positronics ODD104M210GEX MATING CONNECTOR Description 104 pin HD D sub mating connector backshell and pins crimp style VTI Part Number 27 0390 104 Manufacturer Part Number Positronics ODD104M10Y0X CRIMP TOOL Description Crimp tooling includes h
160. UNT 8 1x24 one wire multiplexers RELAY TYPE Solid State MAXIMUM SWITCHING VOLTAGE 70V DC 100V AC MAXIMUM SWITCHING CURRENT 100mA SWITCHING TIME lt 500us PATH RESISTANCE 10 Ohms FREQUENCY RESPONSE CUTOFF 10kHz 3dB 400kHz 3dB FREQUENCY RESPONSE FLATNESS 10kHz 0 1dB 400kHz 0 1dB CROSSTALK TYPICAL 10kHz lt 40dB 400kHz lt 30dB CMRR 400kHz 30dB DC OFFSET 1mV 76 1200 3824 Plug in Module www vtiinstruments com EX1200 4003 PLUG IN MODULE DUAL 4 x 16 Two WIRE MATRIX 300 V 2 A The EX1200 4003 high density matrix module allow the user to connect any input row to any output column with a DPST relay at every row column cross point This architecture provides the framework for flexible switch system designs where multiple test instruments need to be connected to common test points For example a digital multimeter counter timer and digitizers can be connected to the input rows and each of these devices can be connected to any of the output columns depending on the measurement function that is desired during the test The connections between rows and columns occur internal to the module which greatly reduces external cabling The smallest building block is a 4 x 16 2 wire matrix and rows and columns can easily be expanded to form larger matrices A 4 x 192 2 wire matrix can be accommodated in an EX1200 series full rack mainfr
161. USED 23 CH3 COM 25 SHIELD 26 CH3 3 25 CH3 4 26 UNUSED 25 SHIELD 27 SHIELD 28 CH3_5 27 CH3 6 28 UNUSED 217 SHIELD 29 OPEN 30 CH3 7 29 CH3 8 30 UNUSED 29 SHIELD 31 FP GND 32 CH3 9 31 CH3 10 32 UNUSED 31 SHIELD TABLE 4 4 CONNECTOR PINS amp SIGNAL ASSIGNMENTS EX1200 2008H Plug in Module 31 VTI Instruments Corp LOGICAL DIAGRAM CH1 COM 1 K1 e 2 Ct K3 K4 4 oe K5 eo K6 K7 KB K9 qoe K10 CH1 1 Pin B2 CH 2 Pin C1 3 Pin B4 4 Pin C3 5 Pin B6 6 Pin C5 7 Pin B8 8 Pin C7 9 Pin B10 10 Pin C9 CH2 COM 11 CH2 1 Pin B12 CH2 2 Pin C11 2 3 Pin B14 CH2 4 Pin C13 CH2 5 Pin B16 CH2 6 Pin C15 CH2 7 Pin B18 CH2 8 Pin C17 CH2 9 Pin B20 CH2 10 Pin C19 CH3 COM 226 CH3 1 Pin E23 es Pin B24 2 5 2 2 m 5 29 E CH3 10 C31 FIGURE 4 9 EX1200 2008H LOGICAL DIAGRAM 32 EX1200 2008 HPlug in Module WWW vtiinstruments com EX1200 2008H SPECIFICATIONS GENERAL SPECIFICATIONS CHANNEL COUNT Three 1 x 10 single wire channels RELAY TYPE High voltage reed relays MAXIMUM SWITCHING VOLTAGE 1000 V dc MAXI
162. UXS CH 19 CH 19 CH 19 e Pras e Pinas Pin 85 2 m m wn eus er muxe CH 20 mua CH 20 4 CH 20 CH 20 CH 20 w ous _ muxe CH 20 1 m m m CH 21 MUX2 CH 21 CH 21 CH 21 d MUXS CH 21 CH 21 CH 21 UA CH 21 22 47 72 Pin 97 Pin 122 Pin 147 e Pin 172 Pin 197 m Kus m 22 22 22 8 22 22 22 CH 22 Muya Pinas L T os E CH CH 23 mua CH 23 monas MUXS CH 23 CH 23 _ 7 CH 23 Pin 24 49 Pin 74 Pin 99 124 Pin 149 e Pin 174 Pin 199 m ve E pus Muya cH 8550 2 CH 24 Pin 25 Pin 50 Pin 75 Pin 100 Pin 125 Pin 150 Pin 1 Pin 200 va FIGURE 4 29 1200 3824 LOGICAL DIAGRAM 72 EX1200 3824 Plug in Module 1 MUXI COM P 2 MUX1 COM 3 GND A 4 MUX2 COM P 5 MUX2 6 GND 7 MUX3 COM P 8 MUX3 COM N 9 GND A
163. VS and then remove the jumper on pins and 4 of P2 80 EX1200 4003Plug in Module WWW vtiinstruments com EX1200 4003 SPECIFICATIONS CHANNEL COUNT Configurable as dual 4 x 16 or single 8 x 16 two wire matrices RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 220 V dc 250 V ac rms MAXIMUM SWITCHING CURRENT 2A MAXIMUM SWITCHING POWER 60 W dc 62 5 VA RATED SWITCH OPERATIONS Mechanical 1 x 10 Electrical 1 x 107 at full load SWITCHING TIME 5ms PATH RESISTANCE lt 500 mQ INSULATION RESISTANCE gt 1x10 Q MAXIMUM THERMAL OFFSET PER CHANNEL HI LO 1011 BANDWIDTH 3 dB 45 MHz typical 4 x 16 configuration CAPACITANCE Open channel 90 pF Channel mainframe 390 pF High low 170 pF CROSSTALK TYPICAL 1MHz 55 dB 10 MHz 45 dB ISOLATION TYPICAL 1MHz 60 dB 10 MHz 50 dB For mating connector crimp pins and other accessories please refer to Appendix B EX1200 4003 Plug in Module 81 VTI Instruments Corp EX1200 4128 PLUG IN MODULE 4x 128 ONE WIRE MATRIX 150 V 0 5 The EX1200 4128 is an ultra high density matrix module that allows the user to connect any input row to any output column with an SPST relay at every row column cross point This architecture provides the framework for flexible switch system designs where multiple test instrume
164. When programming switches to perform 2 wire and 4 wire measurements the 2 wire and 4 wire channel names must be used For standard matrix cards i e 2 banks of paired H L inputs the 2 and 4 wire name the 1 wire names is used as the base The convention is illustrated in Table 2 1 below 1 Wire Channel Name 2 Wire Channel Name 4 Wire Channel Name CH1_1L CH1_1H CHILI CH 1 CH2 IL CH2 CH2_1H CH1_2L 2 CH1_2H CH 2 CH2_2L 2 CH2_2H T TABLE 2 1 STANDARD 2 AND 4 WIRE NAMING CONVENTIONS For non standard matrix cards this convention cannot be used however For these switch cards the full 2 and 4 wire names are provided following the 1 wire discussion for those cards RF SwITCHING The EX1200 6xxx cards can be used for high bandwidth applications such as switching to from oscilloscopes and function generators These modules provide a maximum of 10 W of switching power and the stub effects are terminated to ensure maximum signal fidelity 14 EX1200 Switching Overview www vtiinstruments com SECTION 3 EX1200 SERIES TERMINAL BLOCKS INTRODUCTION VTI offers differential and single ended terminal blocks TBs for many of the EX1200 series switch cards The terminal blocks can be used to simplify cabling In addition to this the differential terminal blocks also provide users an on board thermistor for cold junction compensation CJC when making tempe
165. Y 2 RELAY 3 RELAY 4 RELAY 5 RELAY 6 Not Used Not Used Not Used IDO ID1 ID2 ID3 22 m ojala 9191910 TABLE 4 54 EX1200 7100 CONNECTOR PINS AND SIGNALS EX1200 7100 Sorr FRONT PANEL Although soft front panel SFP operation is detailed in the 1200 Series User s Manual the EX1200 7100 has a unique input output interface that is available when a pass through adapter is used When the SFP is initially viewed a PIOx y 1 2 in Figure 4 5 the slot is viewed From here the user can enter the value that will be input or output by the relay driver When 2 is clicked the slot expands to show the seven bits that are controlled when the input output is set 150 EX1200 7100 Plug in Module www vtiinstruments com M Panel Windows Gas x FIGURE 4 69 STANDARD LEFT AND EXPANDED RIGHT IMAGE FOR 1 2 PORT EX1200 7100 Plug in Module 151 VTI Instruments Corp EX1200 7100 SPECIFICATIONS Frequency GHz DC 4 4 8 8 12 12 18 18 26 VSWR 1 25 1 1 35 1 1 40 1 1 50 1 1 8 1 Insertion loss dB max 0 20 0 30 0 40 0 50 0 80 Isolation dB min 70 65 60 60 50 RF power CW 100 70 60 45 30 Maximum operating voltage 24 V dc Maximum current rating carrier lA Maximum current per switch 7102 7104 7106 140 mA nominal voltage and 25 C 7122 280 mA nominal voltage and 25 C Swit
166. _4 310 2 18 www vtiinstruments com CH3_1 J11 o CH3_2 J12 CH3_3 J14 4 315 COM 413 1 J16 K11 o CHA 2 J17 dme Du 419 o CHA 4 120 COM 318 410 FIGURE 4 60 1200 6301 LOGICAL DIAGRAM EX1200 6301 Plug in Module 141 VTI Instruments Corp EX1200 6301 SPECIFICATIONS CHANNEL COUNT Four 5 4 50 RF multiplexers 3GHz RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 30 VDC MAXIMUM SWITCHING CURRENT 0 5A MAXIMUM SWITCHING POWER 10 W RATED SWITCH OPERATIONS Mechanical 5 10 Electrical 1 x 10 Full Load SWITCHING TIME 5ms PATH RESISTANCE 10 INSULATION RESISTANCE Ix10 0 BANDWIDTH 3 dB 3GHz typical INSERTION LOSS TYPICAL 1GHz 0 5 dB 3 GHz 3 0 dB CROSSTALK TYPICAL 1GHz 60 dB 3 GHz 55 dB ISOLATION TYPICAL 1 GHz 65 dB 3 GHz 55 dB VSWR TYPICAL 1GHz 12 3 GHz 1 5 142 EX1200 6301 Plug in Module www vtiinstruments com EX1200 6301T PLUG IN MODULE 4 CHANNEL SP4T SELF TERMINATED RF MULTIPLEXER 50 GHz The EX1200 6301T is has on board self termination option and is designed with SMB male connectors for applications that require RF signal switching upto 3 GHz in a 50 Q environment Excellent crosstalk and
167. _R44 Pin E11 CH2_R21 Pin B22 CH2_R44 Pin E27 CH1_R22 Pin lt gt 2 CH1_R43 Pin D11 CH2_R22 Pin C22 lt gt gt KA R43 Pin 027 R23 Pin 42 Pin C11 CH2 R23 Pin B30 CH2_R42 Pin E28 CH1_R24 Pin E6 21 60 6 R41 Pin B11 R24 PinC30 A R41 028 R25 Pin B7 CH1 R40 Pin E10 CH2 R25 Pin B23 R40 Pin E29 Pin lt gt a l R89 PinD10 2 26 Pin C23 R39 Pin 029 CH1 R27 Pin D7 1 R38 Pin C10 CH2 R27 Pin B31 2 R38 Pin E30 R28 Pin E7 K27 K37 K38 R37 Pin B10 CH2 R28 Pin C31 ToT 2 CH2 R37 Pin 030 R29 Pin CH1 R36 Pin E9 CH2 R29 Pin B32 R36 Pin E31 Pin lt 4 R35 Pin 09 CH2_R30 Pin C32 14 CH2_R35 Pin 031 R81 Pin D8 59 4 Pin C9 CH2 R81 Pin B24 2 R34 Pin E32 CH1_R32 Pin K31 K32 K33 K34 R33 Pin B9 CH2 R32 Pin C24 K95 K96 K97 CH2 R33 Pin 032 _ _ 1129 SIS AK 4 135 7 2 ND k136 n 0 1 8 www vtiinstruments com
168. ainframe for maximum density The modules can also be configured with other EX1200 series switch modules as part of a flexible system switch design Since these modules may be used to switch power to the UUT or interface the digital input lines on the EX1200 series mainframes support the ability to force all relays automatically to their normally open state if a fault condition occurs This approach instantly removes all power to the UUT or interface These modules can be automatically configured in the setup phase at the beginning of each scan step to facilitate test sequencing and control The EX1200 5006 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 8 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS H ooooooooooooooooooooooooooooooool Q 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 EX1200 5006 ACCO OERR 1U Orientation Pin E32 Pin E1 I560000000000000000000000000000000L OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0O OOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0O00 00000000000000000000000000
169. ame The two banks of matrices can be connected under program control to further simplify field wiring Fail safe relays capable of switching up to 300 V and up to 2 A are used to maximize the range of application spaces that can be addressed with this module All relays are fail safe which ensures that no undesired signals are present at the user interface in the case of power interruption The EX1200 4003 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available 1200 21 Pin 1 Pin 42 Pin 22 0000000000000000000 0000000000000000000 Pin 63 900900000000000000094 43 900000000000000000 84 64 CONNECTOR DETAIL Pin 104 Pin 85 3U Orientation FIGURE 4 31 1200 4003 FRONT PANEL FRONT VIEW EX1200 4003 Plug in Module 77 VTI Instruments Corp Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 C6H 22 43 CI4L 64 85
170. andle and positioner 22 28 AWG VTI Part Number 70 0297 001 Manufacturer Part Number Positronics 9507 tool and 9502 4 0 0 positioner UNTERMINATED CABLE ASSEMBLY Description VTI Part Number 104 pin unterminated cable assembly 3 ft 70 0363 501 TERMINAL BLOCK 1200 3048 EX1200 3048S AND 1200 4003 ONLY Description EX1200 TB 104 differential module VTI Part Number 70 0367 001 TERMINAL BLOCK EX1200 5002 ONLY Description 1200 1045 single ended module VTI Part Number 70 0367 003 156 Appendix B Switch Card Accessories www vtiinstruments com 160 pin Connector These accessories should be used with the EX1200 2007A EX1200 2008H EX1200 3001 EX1200 3001DS EX1200 3072 EX1200 3164 EX1200 4128 EX1200 4260 EX1200 4264 EX1200 5001 and EX1200 5006 Because the EX1200 2007A and EX1200 2008H are 160 pin connectors that have been modified to have only 80 pins quantities should be adjusted accordingly STRAIN RELIEF BRACKET KIT INCLUDES CONNECTOR VTI Part Number 70 0363 504 recommended accessory STRAIN RELIEF BRACKET KIT WITHOUT CONNECTOR VTI Part Number 70 0363 503 CRIMP PIN VTI Part Number 52 0109 000 includes 100 crimp pins Manufacturer Part Number ERNI 234064 MATING CONNECTOR VTI Part Number 27 0088 160 one per board Manufacturer Part Number ERNI 024070 CRIMP TOOL DIN VTI Part Num
171. ation for additional details Figure 4 8 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available CONNECTOR PINS AND SIGNALS EX1200 6216HV CONNECTOR DETAIL 3U Orientation FIGURE 4 57 EX1200 6216HV FRONT PANEL FRONT VIEW NOTE This module is for use in the 3U EX1200 series mainframes only This module contains position sensitive mercury switches This module must be installed in an upright position and this position must be maintained in order for these switches to function properly 136 EX1200 6216HV Plug in Module Signal Pin Signal A 1 9 B CH2 1 B CH2 9 5 13 D 2 5 D 2 13 CHI 2 CHI 10 F CH2 2 F CH2 10 H 6 H CHI 14 J CH2 6 J CH2 14 K 3 K 11 L CH2 3 L CH2 11 M 7 M CHI 15 N CH2 7 N CH2 15 P CHI 4 P CHI 12 R CH2 4 R CH2 12 5 8 5 16 2 8 2 16 U UNUSED U UNUSED V UNUSED UNUSED w UNUSED w UNUSED x UNUSED x UNUSED Y UNUSED Y UNUSED Z UNUSED 2 UNUSED AA UNUSED AA CHASSIS BB UNUSED BB CH2 CHASSIS COM UNUSED DD CH2 COM DD UNUSED TABLE 4 50 CONNECTOR PINS amp SIGNAL ASSIGNMENTS
172. ber 46 0010 000 Manufacturer Part Number ERNI 014374 EXTRACTION TOOL DIN VTI Part Number 46 001 1 000 Manufacturer Part Number ERNI 471555 UNTERMINATED CABLE ASSEMBLY ALL 160 PIN CONNECTORS Description 160 pin unterminated cable assembly 3 ft VTI Part Number 70 0363 505 UNTERMINATED CABLE ASSEMBLY ALL 80 PIN CONNECTORS HIGH VOLTAGE Description 160 pin to 80 pin unterminated cable assembly 3 ft VTI Part Number 70 0363 507 TERMINAL BLOCK INFORMATION EX1200 3072 ONLY Description 1200 160 1 differential module VTI Part Number 70 0367 002 TERMINAL BLOCK INFORMATION EX1200 3164 ONLY Description 1200 160 2 differential module VTI Part Number 70 0367 008 TERMINAL BLOCK INFORMATION EX1200 3001 ONLY Description EX1200 TB 160 3 differential module VTI Part Number 70 0367 009 TERMINAL BLOCK INFORMATION EX1200 4128 EX1200 5001 EX1200 7500 ONLY Description 1200 1605 single ended module VTI Part Number 70 0367 005 200 pin Connector These accessories should be used with the EX 1200 3096 STRAIN RELIEF BRACKET VTI Part Number 41 0472 034 MATING CONNECTOR Description 200 pin mating connector VTI Part Number 27 0388 200 Manufacturer Part Number Molex 0717193000 CRIMP PIN VTI Part Number 27 0391 050 Manufacturer Part Number Molex 0717154002 TERMINAL BLOCK Description EX1200 TB200 differential module VTI Part Number 70 0367 004 50 pin Connector Thes
173. ching time 20 ms maximum Operating mode 7102 7104 Failsafe 7106 Normally open 7122 Transfer failsafe Switching sequence Break Before Make Operating life 2 000 000 cycles per position minimum 152 EX1200 7100 Plug in Module www vtiinstruments com APPENDIX A POWER CONSUMPTION AND WEIGHT REFERENCE TABLES The following reference table provides power consumption and weight information for the EX1200 series card The EX1200 mainframe power specifications are also provided to assist in determining available power AVAILABLE POWER EX1202 06 62 66 120 W EX1208 68 120 W per segment The EX12x8 mainframe is powered by four power supplies and each power supply is used for a finite number of mainframe slots For more information see Appendix B of the EX1200 Series User s Manual MAXIMUM CURRENT PER 3 3 V 24 V EX1202 EX1206 6 00 13 420 A 3 320 A EX1262 EX1266 6 00 A 13 410A 3 074 EX1208 68 Slots 1 5 14 99 13 582 A 2 950 EX1208 68 Slots 6 10 14 99 13 362 2 950 EX1208 68 Slots 11 16 14 99 13 355 2 950 Note For more information on calculating power consumption please refer to the Power Consumption discussion in Appendix B of the EX1200 Series User s Manual Note These values indicate the maximum current provided by the power supply This value is limited by the carrying capacity for that rail See the Maximum Current Carrying Capacity per S
174. compensation reference for more precise temperature measurements CONNECTOR PINS AND SIGNALS 1U Orientation CONNECTOR DETAIL 3U Orientation FIGURE 4 20 EX1200 3096 FRONT PANEL FRONT VIEW 58 EX1200 3096 Plug in Module www vtiinstruments com Row A Row Row Row D Signal Pin Signal Pin Signal Pin Signal 1 1 51 2 101 251 151 SHIELD 2 52 CH2_24H 102 CH1_25H 152 CH2_48H 3 CHI 2L 53 CH2 24L 103 CHI 26L 153 CH2 48L 4 2H 54 CH2 23H 104 26H 154 CH2 47H 5 CHI 3L 55 CH2 23L 105 27L 155 471 6 3H 56 CH2 22H 106 27H 156 CH2 46H 7 CHI 4L 57 CH2 22L 107 CHI 28L 157 CH2 46L 8 4H 58 CH2 21H 108 CHI 28H 158 CH2 45H 9 5L 59 CH2 2IL 109 CHI 29L 159 CH2 45L 10 5H 60 CH2 20H 110 29H 160 CH2 44H 11 6L 61 CH2 20L 111 301 161 CH2 44L 12 6H 62 CH2 19H 112 30H 162 CH2 43H 13 CHI 7L 63 CH2 191 113 311 163 CH2 43L 14 CHI 7H 64 CH2 18H 114 164 CH2 42H 15 CHI 8L 65 CH2 181 115 32L 165 CH2 42L 16 8H 66 CH2 17H 116 32H 166 41 17 CHI 9L 67 CH2 171 117 33L 167 CH2 411 18 9H 68 CH2 16H 118 33H 168 CH2 40H 19 101 69 2 161 119 34L 169 CH2 40L 20 10H 70 CH2 15 120 34H 170 CH2 39H 21 111 71 CH2 151 121 351 171 2 391 22
175. e accessories should be used with the EX 1200 5004 Appendix B Switch Card Accessories 157 VTI Instruments Corp CONNECTOR KIT Description Connector kit includes two 50 pin connector two backshells and 104 crimp pins VTI Part Number 52 0195 000 MATING CONNECTOR Description 50 pin mating connector and backshells two required VTI Part Number 52 0196 000 Manufacturer Part Number Positronic HAND CRIMP TOOL VTI Part Number 46 0024 000 Manufacturer Part Number Positronic 9507 CONTACT INSERTION TOOL VTI Part Number 46 0037 000 Manufacturer Part Number Positronic 9099 1 CONTACT EXTRACTION TOOL VTI Part Number Manufacturer Part Number 46 0036 000 Positronic 9081 1 TURRET HEAD POSITIONER TOOL VTI Part Number Manufacturer Part Number 46 0025 000 Positronic 9502 12 158 Appendix B Switch Card Accessories
176. e external sensor should be connected to T1 and T2 or T161 and T162 when in this configuration For the TB200 the external sensor can be connected T1 and T2 or T181 and T182 when in this configuration TB104 TB160 P2 Configurations Default configuration External instrument used to measure 2 5 2 6 Ce to make CJC measurements 1 Internal thermistor will be used 2 E OG External sensor will be used for temperature measurements 2 OOE jumper 115 H 7119 N 1120 7121 H 1122 H 7123 7124 N 7125 N 7126 H 7127 7128 H 2 Connectivity 1H 8 3 2 1 RH I S Lvs 4 5 6 RL I CH1 1L Internal To External Thermistor Sensor 16 EX1200 Series Terminal Blocks www vtiinstruments com TERMINAL BLOCK RECEIVER The EX1200 TBR chassis is a 1U receiver capable of housing six terminal blocks The EX1
177. e to accommodate both the voltage current and total power that will be switched and all of these specifications should be checked before making a selection The minimum contact rating and switching time specifications are important in systems where relays will be opened and closed many times throughout the test The faster the switch performs the faster the test will finish The bandwidth specification indicates the frequencies the switch is able to switch Interchannel isolation and crosstalk are also affected by the frequency of the signals being switched POWER SWITCHING The EX1200 200x high power switch cards provide high power switching in a small form factor The EX1200 2001 and the EX1200 2002 are the only switch modules in their class with the ability to switch up to 16 A As such the high power cards are an ideal solution for applications such as ac line power switching switching of dc or power supplies controlling or driving relays for industrial machines robotics numerical control machines automotive engine control and solenoid switching These switch cards also include a front panel interrupt line which will open all relays in the module to provide safety They can also be used in the setup phase of a scanlist to switch power to and from a DUT before reading data into a multiplexer to the DMM MATRIX MULTIPLEXER SWITCHING Matrix and multiplexer cards allow the user the ability to combine multiple in the same chassis to create
178. ental conditions RATED SWITCH OPERATIONS Mechanical 1 x 10 no load Electrical 1 x 10 50 Vdc 0 1 A resistive or 10 V dc 10 mA resistive SWITCHING TIME lt 3 ms PATH RESISTANCE lt 300 mQ INSULATION RESISTANCE gt 1 100 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt CAPACITANCE Open channel 50 pF Channel mainframe 80 pF High low 50 pF BANDWIDTH 3 dB 80 MHz typical CROSSTALK TYPICAL 100 kHz 55 dB 1MHz 45 dB ISOLATION TYPICAL 100 kHz 50 dB 1MHz 35 dB For mating connector crimp pins and other accessories please refer to Appendix B EX1200 5001 Plug in Module 105 VTI Instruments Corp EX1200 5002 PLUG IN MODULE 32 CHANNEL 2 AMP FORM C SPDT SWITCH The EX1200 5002 is a high density general purpose 2 A switch module designed for systems where individual relays can be used to route signals to from the units under test UUT or combined externally to form user defined configurations These relays are commonly used to create complex signal distribution networks that can be reconfigured through different wiring in test adapters For example three relays on a 5002 module can be configured as a 5 tree and seven relays can be configured as a SP8T tree Up to 192 individual SPDT or 384 SPST relays can be accommodated 10 EX1200 mainframe for maximum density The modules can also be con
179. ents Corp LOGICAL DIAGRAM 24 K16 K8 CH1_24L Pin 93 lt 161 Pin 66 75 8L Pin 28 4 24H Pin 94 CH1 16H Pin 67 CH1 8H Pin 29 K15 CH1 231 Pin 91 151 Pin 64 _ _7 7L Pin 26 4 CH1 23H Pin 92 5 9 15H Pin 65 7H Pin 27 K14 K6 CH1 22L Pin89 7 14L Pin 51 CH 6L Pin 24 _ _7 22H Pin 90 14H Pin 52 es CH1_6H Pin 25 21 K13 K5 CH1_21L Pin 87 13L Pin49 lt 7 9 CH1_5L Pin 22 21H Pin 88 2 7 4 13H Pin 50 _ _ 5H Pin 23 Relays to the EX1200 DMM Backplane 20 2 K4 CH1 201 Pin 85 lt 121 Pin 47 9 Voltage and Resistance Measurements 5 E Er s 52 20H Pin 86 m CH1 12H Pin 48 E CH1_4H Pin 10 iom COMH Pin 6 CH1 191 Pin 72 9 CHI 111 Pin 45 3L Pin 7 19H Pin 73 7 9 CH1 11H Pin 46 e CH1 Pin 8 gt K18 K10 K2 2 COMH Pin 16 5 CH1_18L Pin 70 CH1_10L Pin 43 T 21 Pin 3 CH1 18H Pin 71 CH1 10H Pin 44 CH
180. ers into two channels of a scope or as a single 4 x 4 RF matrix The modules can also be combined with other EX1200 switch cards to configure a general purpose subsystem to switch dc to gt 1 3 GHz The EX1200 6101 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 0 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available CONNECTOR PINS AND SIGNALS EX1200 6101 0 1 OO Y X JOO OO Y DODOO OO X OO Y X QOO OOC OO Q X ja CONNECTOR DETAIL 3U Orientation FIGURE 4 49 EX1200 6101 FRONT PANEL FRONT VIEW 120 EX1200 6101 Plug in Module TABLE 4 46 CONNECTOR PINS amp SIGNAL ASSIGNMENTS Pin Signal Pin Signal A CH6 B CH3 B CH8 CH2 NO3 7 4 9 NO3 CH6 CH3 8 H 2 H 7 J 4 COM J CH9 COM K NC K CH6 NC L NC L CHR NC M CH2 NC M CH7 NC N NC N CH9 NC P
181. figured with other EX1200 series switch modules as part of a flexible system switch design Since these modules may be used to switch power to the UUT or interface the digital input lines on the EX1200 series mainframes support the ability to force all relays automatically to their normally open state if a fault condition occurs This approach instantly removes all power to the UUT or interface These modules can be automatically configured in the setup phase at the beginning of each scan step to facilitate test sequencing and control The EX1200 5002 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 4 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS Ex1200 Pin 1 3 SS i 11189296 22 55 21 42 555 63 Pin43 1 20899 84 Pin64 59502 CONNECTOR DETAIL leSe9o Pin85 69996 Pin 104 4 E 3U Orientation FIGURE 4 43 EX1200 5002 FRONT PANEL FRONT VIEW 106 EX1200 5002Plug in Module www vtiinstruments com
182. hich can be enabled to momentarily short out the measurement path when changing from one input channel to the next This dissipates any voltage held by the wiring and instrument input capacitance These relays protect sensitive devices such as CMOS circuits from residual voltages caused by previous high voltage measurements This feature can also be disabled in low voltage applications where maximum throughput speed is important The EX1200 3048 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 15 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver An optional terminal block provides screw termination points for external field wiring This terminal block also includes cold junction compensation reference for more precise temperature measurements CONNECTOR PINS AND SIGNALS 3048 V00000000000000000000 lt EX1200 77777 Oacc Pin 21 Pin 1 Pin 42 Pin 22 0000000000000000000 0000000000000000000 Pin 63 0000000000000000000 43 000000000000000000 84 64 CONNECTOR DETAIL Pin 104 85 3U Orientation FIGURE 4 14 EX1200 3048 FRONT PANEL FRONT VIEW EX120
183. igned for use with EX1200 mainframes extending the platforms switching capabilities to the 26 GHz range Each carrier can accommodate three miniature microwave switch modules to provide added system flexibility Each microwave switch can be removed replaced or relocated in the carrier by the user allowing for easy configuration and maintenance In addition to using the four specially designed switch modules the carrier can also be used as a relay driver to control external microwave relays that are not compatible with the EX1200 7100 carrier Each carrier provides six control lines compatible with 24 V logic The EX1200 7100 module occupies two plug in modules slot space and can be mixed and matched with other EX1200 plug in modules to configure high density customized switching solutions Approximately 54 switch points can be switched within a 1U rack space providing exceptional density without signal integrity degradation The EX1200 7100 series has been priced to help reduce the cost of microwave switching by at least 20 over existing solutions Switches are competitively priced to satisfy the lower frequency cellular switching market needs The EX1200 7100 can be controlled programmatically using IviSwtch compliant calls Refer to the host driver documentation for additional details Logical diagrams are provided for each switch module which identify how the front connector and rear connector pins FRONT PANEL ENCLOSURE EX1200 7100
184. imp pins and other accessories please refer to Appendix B 38 EX1200 3001 Plug in Module www vtiinstruments com EX1200 3001DS PLUG IN MODULE 1 64 2 WIRE MULTIPLEXER WITH DISCHARGE CIRCUIT The EX1200 3001DS high density multiplexer module is designed for scanning of multiple points to acommon bus in either 1 2 or 4 wire configurations either synchronously with the EX1200 system DMM scan function or asynchronously as a system switch to other devices through LXI LAN messages or the hardware trigger bus Up to 384 two wire or 192 four wire channels can be accommodated in a 1U EX1200 mainframe for maximum density or mixed and matched with other EX1200 plug ins for flexibility Applications include cable harness testing semiconductor and PCB testing and applications where multiple points need to be switched to a common resource All relays also have individual relay control and each path allows for 2 A switching Along with all having all the features of the EX1200 3001 the EX1200 3001DS has internal residual voltage discharge relays which can be enabled to momentarily short out the measurement path when changing from one input channel to the next This dissipates any voltage held by the wiring and instrument input capacitance These relays protect sensitive devices such as CMOS circuits from residual voltages caused by previous high voltage measurements This feature can also be disabled in low voltage applications where
185. in 025 1 CH14 1H Pin 021 CH15 1H Pin E19 7 16 1H Pin 017 66 EX1200 3164 Plug in Module Signal CHA IL D4 D3 CH6 2L D6 CH6 2H D5 CH3 IL D8 CH3_1H D7 CH7_2L D10 CH7_2H D9 CH2_1L D12 T10 CH2_1H T11 CH8_2L D14 T12 CH8_2H D13 T13 IL 16 14 15 15 16 11 D18 T16 CH16_1H D17 T17 CH3_2L B6 T18 CH3_2H B5 T19 CH4_4L B4 T20 CH4_4H B3 T21 CH3_4L B8 T22 CH3_4H B7 T23 CH2_2L B10 T24 CH2_2H B9 T25 CH2_4L B12 T26 CH2_4H B11 T27 CH1_2L B14 T28 CH1_2H B13 T29 CH1_4L B16 T30 CH1_4H B15 T31 CH9_2L B18 T32 CH9_2H B17 T33 CH9_1L D20 T34 CH9_1H D19 T35 CH3_3H A9 T36 CH3_3L A10 T37 CH7_3H T38 7 3L 12 39 2 13 T40 CH2 3L 14 Ref T41 T42 T43 T44 T45 T46 T47 T48 T49 T50 T51 T52 T53 T54 T55 T56 T57 T58 T59 T60 T61 T62 T63 T64 T65 66 T67 T68 T69 T70 71 72 T73 T74 T75 T76 T77 T78 79 T80 Signal CH11_2L TB Ref T81 Signal CH11_4L CH11_2H D27 T82 CH11_4H B27
186. ion or service of this product Failure to comply with these precautions or with specific warnings elsewhere in this manual violates safety standards of design manufacture and intended use of the product Service should only be performed by qualified personnel TERMS AND SYMBOLS WARNINGS These terms may appear in this manual WARNING Indicates that a procedure or condition may cause bodily injury or death CAUTION Indicates that a procedure or condition could possibly cause damage to equipment or loss of data These symbols may appear on the product ATTENTION Important safety instructions Frame or chassis ground Indicates that the product was manufactured after August 13 2005 This mark is placed in accordance with EN 50419 Marking of electrical and electronic equipment in accordance with Article 11 2 of Directive 2002 96 EC WEEE End of life product can be returned to VTI by obtaining an RMA number Fees for take_2ack and recycling will apply if not prohibited by national law 15 lt gt Follow these precautions to avoid injury or damage to the product Use Proper Power Cord The power cable provided with this instrument meets the required regulatory and statutory safety standards as indicated by this product s declaration of conformity VTI recommends that the power cord provided be used with the instrument that it is provided with If a different power cord is must to be used however it is the responsibility of
187. larger switching systems For matrix cards multiple cards can be combined by connecting either rows or columns of the relay together For example by placing six EX1200 4128 s in a chassis and connecting all four rows of each module to the EX1200 backplane a 4 x 768 can be formed is a 1U rack with no external wiring To improve bandwidth specifications it is important to utilize the stub breaking relays that are incorporated into most matrix and multiplexer cards These relays typically separate banks of relays from each other or isolate the switch card from the DMM backplane By keeping these relays open the length a signal must travel and the amount of resistance it will encounter can be reduced increasing the path s bandwidth Examples of these relays are shown in Figure 2 1 EX1200 Switching Overview 13 VTI Instruments Corp 5 6L Pin C20 CH6 6L Pin C24 K80 BN CH5 7H Pin 019 e 7H Pin 023 COMH Pin B1 7 CH5 7L Pin 020 09 7L Pin 024 L G CH1_COML Pin B2 g 5 8H Pin E19 CH6 Pin E23 5 Lo 5 8L Pin E20 09 8L Pin E24 4 __ 2 COMH Pi B17 BPL HI 4 KARG Pin B18 BPL_LO CH6_COML Pin B22 5 COML Pin Stub Breaking Relays from EX1200 3001 FIGURE 2 1 STUB BREAKING RELAYS
188. lot specification of the EX1200 Series User s Manual for more information Weight Switch Module 433 5 V 424 V Ibs kg Notes EX1200 2001 0 131 A 0 0037 A 0A 1 47 0 67 Add 75 mA per relay closure on 5 V EX1200 2002 0 131 0 0037 A 0A 0 49 0 23 Add 75 mA per relay closure on 5 V EX1200 2007A 0 135 A 0 0041 A 0A 1 05 0 48 Add 40 mA per relay closure on 5 V EX1200 2008H 0 140A 0 005 A 0A 0 76 0 35 Add 17 mA per relay closure on 5 V EX1200 3001 0 135 A 0 0041 A 0A 1 01 0 46 Add 26 mA per relay closure on 5 V EX1200 3048 0 129 A 0 0041 A OA 0 39 0 18 23 mA per relay closure on 5 V EX1200 3048S 0 131 0 0041 A 0A 0 28 0 13 N A EX1200 3072 0 129 A 0 0041 A OA 0 35 0 16 Add 23 mA per relay closure on 5 V EX1200 3096 0 140 A 0 005 A OA 0 83 0 38 Add 28 mA per relay closure on 5 V EX1200 3164 0 129 A 0 0041 A 0A 0 44 0 20 23 mA per relay closure 5 V EX1200 4003 0 137 A 0 0040 A 0A 0 40 0 18 Add 25 mA per relay closure on 5 V EX1200 4128 0 129 0 0041 A 0A 0 69 0 32 Add 28 mA per relay closure on 5 V EX1200 4260 0 014 0 005 Unavailable Add 28 mA per relay closure on 5 V EX1200 4264 0 014 A 0 005 A 0A Unavailable Add 28 mA per relay closure on 5 V EX1200 5001 0 129 0 0041 A 0A 0 41 0 19 Add 23 mA per relay closure on 5 V EX1200 5002 0 129 A 0 0041 A OA 0 33 0 15 Add 2
189. ls modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 5 EX1200 3001 Plug in Module 35 VTI Instruments Corp LOGICAL DIAGRAM ee NC E NC E NC NC 2 i Ja I 24 1W CH2 1W 1W Pin A1 Pin H Pin A9 Pin A13 a 1H Pin C1 _ 1H Pin C5 1H Pin C9 2 5 1H Pin C13 ws CH1_1L Pin C2 11 Pin C6 LO CH3_1L Pin C10 69 1L Pin 14 K2 K10 K18 K26 CH1_2H Pin 01 CH2_2H Pin D5 CH3_2H Pin D9 CH4_2H Pin D13 69 CH1 2L Pin D2 ws CH2 2L Pin D6 69 2L Pin 010 _ 2L Pin 014 K3 3H Pin E1 aH Pin E5 103 _ Pin E9 7 _ aH Pin E13 69 3L Pin E2 69 CH2 31 Pin E6 69 3L Pin LO Pin E14 2 K20 K28 4H Pin 2 Pin A7 CH3_4H Pin A11 CH4_4H Pin A15 LO _ 4L Pin A4 69 4L Pin 4L Pin A12 69 CH4 4L Pin A16 K5 Kei K29 5H Pin B3 2_ Pin B7 CH3_5H Pin B11 CH4 5H Pin B15 69
190. mail support vtiinstruments com Visit http www vtiinstruments com for worldwide support sites and service plan information EX1200 Switch Card Preface 9 VTI Instruments Corp SECTION 1 INTRODUCTION OVERVIEW Signal switching is at the heart of every automated test system It is responsible for routing signals of interest between test system instruments and the device under test DUT The purpose of the testing is to improve product quality The switch distributes instrument I O which can reduce overall system cost Since switching is effectively an extension of the instrument it should be transparent to the overall system EX1200 switching products employ extensive signal shielding and high quality relays to ensure that the test system is minimally aware of the switch s presence PLUG IN MODULE INSTALLATION All EX1200 series switch cards must be installed into an EX1200 series mainframe to be used The mainframe operates on 90 V to 250 V at 50 Hz 60 Hz which is used to supply the cards the dc voltages required for the cards to function properly Before installing a plug in module into an EX1200 series mainframe make sure that the mainframe is powered down Insert the module into the base unit by orienting the module so that the circuit board of the module can be inserted into the slot of the base unit Position the cover so that it fits into the module s slot groove Once the module is properly aligned pu
191. maximum throughput speed is important The EX1200 3001DS can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 13 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver An optional terminal block provides screw termination points for external field wiring This terminal block also includes cold junction compensation reference for more precise temperature measurements 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 CONNECTOR PINS AND SIGNALS JO EX1200 3001DS EX1200 3001DS ACCO OERR 1U Orientation Pin E32 Pin E1 150000000000000000000000000000000L OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0O OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0O0 OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OO00000000000000000000000000000 CONNECTOR DETAIL Pin A32 Pin 1 1O09000000000000000000000000000000 9 00000000000000000000000000
192. module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS 00000000000000000000000000000000 1200 5001 1200 5001 ACCO OERR 10 Orientation 2 Pin E1 1500000000000000000000000000000 OOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0 CONNECTOR DETAIL Pin A32 Pin A1 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 OERR 3U Orientation lof FIGURE 4 41 EX1200 5001 FRONT PANEL FRONT VIEW EX1200 5001 Plug in Module 101 VTI Instruments Corp Row A Row B Row Row D Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 CH INO 1 CH 2NO 1 CH 3NO 1 4 1 CH 5NO 2 2
193. modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground These pins are identified as SHIELD in Table 4 Note that SHIELD pins not tied to ground and have no electrical connections 78 EX1200 4003Plug in Module www vtiinstruments com 9 9 x 9 X 9 2923s d qe a 2 2 2 2 2 D D D D DQ gt N a P F B X S F ZP s 9 3327323223537 2 5 2 2 2 iy 2 3 o o 8 9 9 2309 23 CH1 Pin 10 v H2 C17H Pin 75 CH1_C1L Pin 9 7 H2 C17L Pin 74 K1 K81 K113 2 m CH1 C2H Pin 73 149 H2 C18H Pin 60 C2L Pin 72 H2 C18L Pin 59 Y 8 K2 9 CH1 C3H Pin 71 H2 C19H Pin 52 5 CH1 C3L Pin 70 2 C19L Pin 51 Pin 5 H2 C20H Pin 32 20 CAL Pin 6 H2 C20L Pin 33 E 2 2 El 8 5 Pin 46 2 21 14 x C5L Pin 45 9 H2 C21L Pin 13 a 2 8 CH1 C6H Pin 1 H2 C22H Pin 57 H2 C22L Pin 58 K6 K86 K102 5 w Pin 64 CH1_C6L Pin 2 H2_C23H Pin 18
194. mp conditions Do not operate in an explosive atmosphere Operate or store only in specified temperature range Provide proper clearance for product ventilation to prevent overheating DO NOT operate if any damage to this product is suspected Product should be inspected or serviced only by qualified personnel The operator of this instrument is advised that if the equipment is used in a manner not specified in this manual the protection provided by the equipment may be impaired Conformity is checked by inspection EX1200 Switch Card Preface www vtiinstruments com SUPPORT RESOURCES Support resources for this product are available on the Internet and at VTI Instruments customer support centers VTI Instruments Corp World Headquarters VTI Instruments Corp 2031 Main Street Irvine CA 92614 6509 Phone 949 955 1894 n stru Im nts Fax 949 955 3041 VTI Instruments Cleveland Instrument Division 5425 Warner Road Suite 13 Valley View OH 44125 Phone 216 447 8950 Fax 216 447 8951 VTI Instruments Lake Stevens Instrument Division 3216 Wetmore Avenue Suite 1 Everett WA 98201 Phone 949 955 1894 Fax 949 955 3041 VTI Instruments Pvt Ltd Bangalore Instrument Division 74 75 Millers Road Bangalore 560 052 India Phone 491 80 4040 7900 Phone 491 80 4162 0200 Fax 91 80 4170 0200 Technical Support Phone 949 955 1894 Fax 949 955 3041 E
195. nal The BPL references are lines available on the EX1200 mainframe backplane that connect the plug in module to the on board DMM if installed For more information on these lines refer to the EX1200 Series User s Manual EX1200 4260 Plug in Module 91 VTI Instruments Corp B1 H1 B9 H1 B18 H1 D30 H1 C1 H2 2 18 2 0 2 Di Li CH1_MC1_4W D9 Li CH1_MC9_4W B26 Li CH2_MC2_4W D29 Li CH2_MC10_4W 1 L2 9 L2 C26 L2 E29 L2 C1 H1 B10 H1 B19 H1 D28 H1 B2 H2 C10 H2 C19 H2 E28 H2 El Li CH1_MC2_4W D10 Li CH1_MC10_4W B27 Li CH2_MC3_4W D27 Li CH2 11 4W D2 L2 E10 L2 C27 L2 E27 L2 B3 H1 B11 H1 B20 H1 D26 H1 C3 H2 C11 H2 C20 H2 E26 H2 D3 Li MC3 4W Dii 11 CH1_MC11_4W B28 Li CH2_MC4_4W D25 Li CH2_MC12_4W E3 L2 11 L2 C28 L2 E25 L2 B4 H1 B12 H1 B21 H1 D24 H1 C4 H2 C12 H2 C21 H2 E24 H2 D4 Li CH1_MC4_4W D12 Li CH1_MC12_4W B29 L1 CH2 MC5 4W D23 Li CH2_MC13_4W 4 L2 E12 L2 C29 L2 E23 L2 5 22 22 C5 H2 C13 H2 C22 H2 E22 H2 D5 11 5 4W D13 11 4W 30 Li CH2_MC6_4W D21 L1 CH2 14 4W E5 L2 E13 L2 C30 L2 E21 L2 B6 H1 B14 H1 B23 H1 D20 H1 C6 H2 C14 H2
196. nging from one input channel to the next This dissipates any voltage held by the wiring and instrument input capacitance These relays protect sensitive devices such as CMOS circuits from residual voltages caused by previous high voltage measurements This feature can also be disabled in low voltage applications where maximum throughput speed is important The EX1200 3072 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 19 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available An optional terminal block provides locking slide termination points for external field wiring This terminal block also includes cold junction compensation reference for more precise temperature measurements CONNECTOR PINS AND SIGNALS O EX1200 3072 lIooooooooooooooooooooooooooooooool 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 00000000000000000000000000000000 1200 3072 OERR 10 Orientation 2 Pin E1 150000000000000000000000000000000L OOOOOOOOOOOOOOOOOOOOOOOOOOOO0O0O000 OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO0 OOOOOOOOOOOO
197. nnector crimp pins and other accessories please refer to Appendix B 110 EX1200 5002Plug in Module www vtiinstruments com EX1200 5004 PLUG IN MODULE 32 CHANNEL 5 A SPDT SWITCH The EX1200 5004 is a high density 5 A switch module designed for switching applications such as process control appliance pass fail testing and on off control Up to 192 individual SPDT relays can be accommodated in a 1U full rack mainframe for maximum density The modules can also be configured with other EX1200 series switch modules as part of a flexible system switch design CONNECTOR PINS AND SIGNALS 1U Orientation PinB Pin HH Pin D Pin EE aeaa aaaeeeaa 6 N DETAIL Pin C 006 006069990000 31 Orientation FIGURE 4 45 EX1200 5004 FRONT PANEL FRONT VIEW EX1200 5004 Plug in Module 111 VTI Instruments Corp J100 J101 Pin Signal Pin Signal Pin Signal Pin Signal A UNUSED d CH_31NC A UNUSED d CH_30NC B CH_3NO e 14 B CH 18NC e CH 27NC 10 f 4 15 f CH 1INC D CH 31COM h CH 2 D CH 29NC h CH 26NO E 6COM j CH 18NO E CH 17COM j CH 29COM F CH k 13NC
198. nnel which uses the CH1_1 as a reference junction Note that in these examples it is assumed that the EX1200 DMM is being used and that the P2 jumper has been configured appropriately Measure Thermistor Temperature Either the VTEXScanner driver the scanner soft front panel can be used to perform this sequence 1 Setthe DMM to measure temperature using the thermistor a Setthe DMM function to Temperature b Setthe transducer type to Thermistor c Setthe thermistor resistance to 10000 the thermistor is 10 EX1200 Series Terminal Blocks 17 VTI Instruments Corp 2 3 4 Save and provide a name for the DMM configuration for the scanning purposes here TEMP 18 used Setup the scanlist Add a scan step with a sweep phase that scans 1 using the previously saved configuration e g 12 TEMP b The setup phase can be ignored for this example Initiate amp Read a Initiate the scan b Read back the data Use Thermistor as a Reference Junction 1 2 3 4 5 6 Set the DMM to measure temperature using the thermistor a Set the DMM function to Temperature b Set the transducer type to Thermistor Set the thermistor resistance to 10000 the thermistor is 10 d Set the isReferenceJunction parameter to True Save and provide a name for the DMM configuration for the scanning purposes Set the DMM to measure temperature using a Type K thermocouple any
199. ns that require RF signal switching upto 3 GHz in a 50 Q environment Excellent crosstalk and isolation performance is achieved by using short low loss coaxial runs from the connector directly to the relays modules are designed to avoid any unterminated stub effects improving overall signal integrity and enabling the construction of larger high frequency multiplexer configurations while maintaining bandwidth and VSWR Six of the modules can be accommodated in a single EX1200 full rack mainframe or combined with other switch modules to create a flexible switching configuration that can cover a wide range of applications CONNECTOR PINS AND SIGNALS 000 OF 5 5 5 5 J3 J4 5 J J 33 4107 diz 455 Jn 48 49 4205 FIGURE 4 59 EX1200 6301 FRONT PANEL FRONT VIEW Pin Signal 1 J2 CHI 2 J3 14 1 3 15 4 J6 CH2 1 J7 CH2 2 J8 2 COM J9 CH2 3 CH2 4 CH3 1 J12 CH3 2 J13 CH3 COM J14 CH3 3 J15 CH3 4 J16 CHA 1 J17 2 J18 4 COM J19 3 J20 CHA 4 TABLE 4 51 CONNECTOR PINS amp SIGNAL ASSIGNMENTS 140 EX1200 6301 Plug in Module LOGICAL DIAGRAM CH1_1 J1 K2 1 2 J2 53 CH1 3 J4 1 4 45 CH2_1 J6 K5 o CH2_2 J7 CH2_3 J9 o CH2
200. nt A FIGURE 4 37 RELAY BREAKING CAPACITY 94 EX1200 4260 Plug in Module www vtiinstruments com EX1200 4264 PLUG IN MODULE 2 X 64 2 WIRE MATRIX The EX1200 4264 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 9 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS Jooooooooooooooooooooooooooooooool 00000000000000000000000000000000 00000000000000000000000000000000 1200 4264 ACCO OERR 10 Orientation OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO CONNECTOR DETAIL Pin A32 Pin A1 T 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 00000 30 Orientation FIGURE 4 38 1200 4264 FRONT PANEL FRONT VIEW EX1200 4264 Plug in Module 95 VTI Instruments Corp
201. nts com EX1200 2002 SPECIFICATIONS CHANNEL COUNT 12 SPDT RELAY TYPE Electromechanical fail safe MAXIMUM SWITCHING VOLTAGE 250 V rms 125 V dc MAXIMUM SWITCHING CURRENT 16A MAXIMUM SWITCHING POWER 480 W dc 2000 VA per channel MINIMUM CONTACT RATING 12 dc 0 1 This value is in reference to resistive load Minimum capacity changes depending on switching frequency environmental conditions RATED SWITCH OPERATIONS Mechanical 5 10 Electrical 1 x 10 at full load SWITCHING TIME 10 ms PATH RESISTANCE 100 INSULATION RESISTANCE 21x10 Q MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt 50 CAPACITANCE Open channel 20 pF Channel mainframe 75 pF BANDWIDTH 3 dB 40 MHz typical INSERTION LOSS TYPICAL 100 kHz lt 0 2 dB 1 lt 0 5 10 lt 1 0 dB CROSSTALK TYPICAL 100 kHz lt 48 dB 1 MHz lt 33 dB 10 19 dB For mating connector crimp pins and other accessories please refer to Appendix B EX1200 2002 Plug in Module 25 VTI Instruments Corp EX1200 2007A PLUG IN MODULE 48 CHANNEL 1000 V MULTIPLEXER The EX1200 2007A is designed for scanning multiple high voltage points to a common bus in either 1 or 2 wire configurations It consists of two individual 1 x 12 2 wire multiplexers or dual 1 x 24 1 wire multiplexers
202. nts need to be connected to common test points The one wire architecture allows for any of the 128 row inputs to be connected to any of the four column outputs The four output columns can be routed to the EX1200 series internal analog backplane to build large matrices or to connect to the optional 6 5 digit DMM which also limits the amount of external cabling required A 4 x 512 1 wire matrix can be accommodated in only four slots of an EX1200 series mainframe as an example Stub breaking relays can remove a matrix module from the backplane to increase signal integrity of measurements being made on other modules All relays are fail safe which ensures that no undesired signals are present at the user interface in the case of power interruption The EX1200 4128 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 34 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS looooooooooooooooooooooooooooooool x Q O 8 OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO 13 5 ERIZO0 4458 S 00000000000000000000000000000000 00000000000000000000000000000000 01 8 10 Orientation
203. odules also incorporate ground pins labeled GND C or simply GND These pins tie the module to chassis ground Note that the SHIELD pins are not tied to ground and have no electrical connections The EX1200 switch cards provide scanlist functionality to maximize measurement throughput The scanlist allows the relay state to be advanced by a hardware trigger rather than requiring the state of the relay to be updated manually during program execution Doing this eliminates the need to wait on the controller to wait for a state to be settled and send the command to update relays providing maximum throughput performance EX1200 Switch Card Introduction 11 VTI Instruments Corp APPLICATION ENVIRONMENTS The EX1200 switching platform supports a wide variety of application environments The switches can be manually controlled through the embedded web based soft front panel or programmatically on a Windows based PC through the provided IVI VTEXSwitch driver controlled on most platforms through the C driver The EX1200 also allows for integration into NI s Switch Executive for high level configuration and control 12 EX1200 Switch Card Introduction www vtiinstruments com SECTION 2 SWITCHING OVERVIEW GENERAL PURPOSE SWITCHING When selecting switch cards for a test system the following should be taken into consideration Power Specifications Minimum Contact Rating Switching Time Bandwidth The relay must be abl
204. onfigured through external cabling to provide dual 1 x 16 multiplexers into two channels of a scope or as a single 4 x 4 RF matrix The modules can also be combined with other EX1200 switch cards to configure a general purpose subsystem to switch dc to gt 1 3 GHz The EX1200 6111 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 4 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available CONNECTOR PINS AND SIGNALS EX1200 6111 Y A 9 XO OO OO Y OO OOOO Y X QQ A v CONNECTOR DETAIL 30 Orientation FIGURE 4 53 1200 6111 FRONT PANEL FRONT VIEW 128 EX1200 6111 Plug in Module TABLE 4 48 CONNECTOR PINS amp SIGNAL ASSIGNMENTS Signal CH1_NO3 CH3_NO3 CH2 NO3 4 NO3 COM CH3 COM CH2 COM 4 NC CH3 NC CH2 NC CH4 NC NOI CH3 NOI CH2 NOI CHA NOI NO2 CH3 NO2 CH2 NO2 4 NO2 CH5 NC CH5 NOI CH5 NO
205. ower supplies control or driving relays for industrial machines robotics numerical control machines automotive engine control and solenoid switching Since these modules typically switch power to the UUT or interface the digital input lines on the EX1200 series mainframes support the ability to force all relays automatically to their normally open state if a fault condition occurs This approach instantly removes all power to the UUT or interface These modules can be automatically configured in the setup phase at the beginning of each scan step to facilitate test sequencing and control The EX1200 2002 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 5 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS Ex1200 00000000000000 7 2002 0522020 10 Orientation tp f 2 LHDA CONNECTOR DETAIL 3U Orientation FIGURE 4 4 EX1200 2002 FRONT PANEL FRONT VIEW EX1200 2002 Plug in Module 23 VTI Instruments Corp Pin Signal Pin Signal A CH_INO Z CH_8NO B CH_1COM a CH_8C
206. pment from the factory VTI further certifies that its calibration measurements are traceable to the United States National Institute of Standards and Technology formerly National Bureau of Standards to the extent allowed by that organization s calibration facility and to the calibration facilities of other International Standards Organization members Note that the contents of this document are subject to change without notice WARRANTY The product referred to herein is warranted against defects in material and workmanship for a period of one year from the receipt date of the product at customer s facility The sole and exclusive remedy for breach of any warranty concerning these goods shall be repair or replacement of defective parts or a refund of the purchase price to be determined at the option of VTI For warranty service or repair this product must be returned to a VTI Instruments authorized service center The product shall be shipped prepaid to VTI and VTI shall prepay all returns of the product to the buyer However the buyer shall pay all shipping charges duties and taxes for products returned to VTI from another country VTI warrants that its software and firmware designated by VTI for use with a product will executeits programming when properly installed on that product VTI does not however warrant that the operation of the product or software or firmware will be uninterrupted or error free LIMITATION OF WARRANTY The war
207. ranty shall not apply to defects resulting from improper or inadequate maintenance by the buyer buyer supplied products or interfacing unauthorized modification or misuse operation outside the environmental specifications for the product or improper site preparation or maintenance VTI Instruments Corp shall not be liable for injury to property other than the goods themselves Other than the limited warranty stated above VTI Instruments Corp makes no other warranties express or implied with respect to the quality of product beyond the description of the goods on the face of the contract VTI specifically disclaims the implied warranties of merchantability and fitness for a particular purpose RESTRICTED RIGHTS LEGEND Use duplication or disclosure by the Government is subject to restrictions as set forth in subdivision b 3 ii of the Rights in Technical Data and Computer Software clause in DFARS 252 227 7013 DECLARATION OF CONFORMITY The declaration of conformity for the EX1200 Series Mainframe applies to all of its available plug in modules and options For specifics refer to the EX1200 Series Mainframe User s Manual VTI Instruments Corp 2031 Main Street Irvine CA 92614 6509 U S A 6 EX1200 Switch Card Preface www vtiinstruments com GENERAL SAFETY INSTRUCTIONS Review the following safety precautions to avoid bodily injury and or damage to the product These precautions must be observed during all phases of operat
208. rature measurements Signal pin mapping is provided for the terminal blocks with its associated switch card Mating Connector for EX1200 Series Switch Card FIGURE 3 1 EX1200 TB200 EX1200 Series Terminal Blocks 15 VTI Instruments Corp JUMPER CONFIGURATION Differential TBs have the ability to use an on board 10 thermistor to connect to an instrument when temperature measurements are being made Before doing so the P2 header must be configured correctly The function of this header is to make a connection between the T1 and T2 terminals on the terminal block CJC sensor and two other TB terminals In the default position pin 1 is shorted to pin 6 and pins 3 and 4 are shorted see Figure 3 2 on P2 This configuration allows T1 and T2 to be used in any type of measurement When configured to one of the other two configurations the channels associated with these terminals are dedicated to making temperature measurements and cannot be used in any other manner To use RTI for CJC measurements short pin 2 to pin 3 and pin 4 to pin 5 This will join T1 and T2 to VS and VS The terminal numbers for VS and VS differ between TB modules and are documented with the terminal block pin mapping information for each switch card To use an external sensor for temperature measurements short pin 1 to pin 2 and pins 5 and 6 on P2 This joins and T2 to I and RH I For the TB104 and 160 th
209. resent in solid state relays which varies dramatically with temperature affecting low level resistance measurements 52 EX1200 3048S Plug in Module www vtiinstruments com EX1200 3072 PLUG IN MODULE 72 CHANNEL 300 V 2 A MULTIPLEXER The EX1200 3072 high density multiplexer modules are designed for scanning of multiple points to a common bus in either 2 or 4 wire configurations either synchronously with the EX1200 system DMM scan function or asynchronously as a system switch to other devices through LXI LAN messages or the hardware trigger bus Up to 432 two wire or 216 four wire channels can be accommodated in a 10 EX1200 full rack mainframe for maximum density or mixed matched with other EX1200 plug ins for flexibility Applications include cable harness testing semiconductor and PCB testing and those in which multiple points need to be switched to a common resource All relays also have individual control and each path allows for hot switching of up to 300 V and 2 A 60 W dc max The EX1200 3072 consists of dual 1 x 36 multiplexer banks Each bank can be interconnected within a module under program control via bussing relays and across modules via the EX1200 analog bus to configure larger multiplexers as required This eliminates external wiring and helps reduce unterminated stubs It also has internal residual voltage discharge relays which can be enabled to momentarily short out the measurement path when cha
210. rs designed for high reliability and low insertion loss Six of the modules can be accommodated in a 1U EX1200 full rack mainframe to provide a very flexible RF switch network The modules can also be combined with other EX1200 switch cards to configure a general purpose subsystem to switch dc to gt 1 GHz The EX1200 6216 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 6 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver Both single wire and two wire programming modes are available CONNECTOR PINS AND SIGNALS EX1200 CONNECTOR DETAIL 3U Orientation FIGURE 4 55 EX1200 6216 FRONT PANEL FRONT VIEW 132 EX1200 6216 Plug in Module TABLE 4 49 CONNECTOR PINS amp SIGNAL ASSIGNMENTS Pin Signal Pin Signal A UNUSED A UNUSED B COM B CH2 COM UNUSED UNUSED D UNUSED D UNUSED E UNUSED E UNUSED F UNUSED F UNUSED H UNUSED H UNUSED J UNUSED J UNUSED K UNUSED K UNUSED L UNUSED L UNUSED M NO7 M CH2 NO7 N 11 N CH2 NOII P 2 R NOI5 R CH2 15 5 NO6 5 2 NO6 10
211. s across modules as required to eliminate external wiring and helps reduce unterminated stubs effects The analog bus can also be routed directly to the optional EX1200 series 6 5 digit DMM for direct measurements across the backplane further reduce external wiring Stub breaking relays remove the module from the analog bus to minimize a module s effect on measurements being made through other modules An optional terminal block provides screw termination points for external field wiring This terminal block also includes cold junction compensation reference for more precise temperature measurements The EX1200 3164 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 23 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS Q 00000000000000000000000000000000 00000000000000000000000000000000 EXISTE 00000000000000000000000000000000 00000000000000000000000000000000 EX1200 3164 OERR 1U Orientation Pin E32 Pin E1 1 50000000000000000000000000000000L OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOOOOOOOOO OOOOOOOOOOOOOOOOOOOOOOOOO
212. sation reference for more precise temperature measurements CONNECTOR PINS AND SIGNALS 000000000000000000000 amp 1200 22209000900000000000009 30485 22272272272 m g m 5n 10 Orientation 2 5 1 60020 i ES Pin 21 Pin 1 1 e8ege 2 Pin 42 Pin22 7 0000000000000000000 3 55555 00900000000000000090 1 90509 63 0000000000000000000 Pin 43 1 000000000000000000 Pin 84 Pinc4 i 99869 CONNECTOR DETAIL 3 1 86868 104 Pin85 1 68989 i 1 egege gt 30 Orientation FIGURE 4 16 EX1200 3048S FRONT PANEL FRONT VIEW 48 EX1200 3048S Plug in Module www vtiinstruments com Pin Signal Pin Signal Pin Signal Pin Signal Pin Signal 1 IL 22 5L 43 101 64 151 85 201 2 CHI 23 5 44 CHI 10 65 15 86 20H 3 2L 24 6L 45 11 66 161 87 211 4 2H 25 6H 46 11H 67 16H 88 21 5 26 47 121 68 171 89 221 6 27 7H 48 2 69 CHI 177 90 CHI 22H 7 3L 28 8L 49 70 1 181 91 231 8 29 8H 50
213. sh the module back and firmly insert it into the backplane connector 10 EX1200 Switch Card Introduction www vtiinstruments com MICROWAVE MODULE INSTALLATION For the EX1200 7100 Plug in Module microwave switch modules can be installed Before installing a switch module into the EX1200 7100 carrier ensure that the mainframe is powered down Insert the switch module into the desired slot of the carrier Slide the module into the mating connector at the rear of the carrier using the two guide pins to ensure proper orientation Once the guide pins are aligned push the module firmly mating connector The module is then sMUXred to the front panel of the carrier using four socket head cap screws FIGURE 1 2 MICROWAVE SWITCH INSTALLATION MODULE SHIELDING GROUNDING SCANNING Most EX1200 modules incorporate an integral shield into the design of the PCB that attenuates noise and crosstalk between adjacent channels modules To properly utilize this feature tie the appropriate front panel connector pins to the mating cable s common shield and or ground If this feature is present on a module the pins are identified in the module appendix in the Connector Pins and Signals table and the signal is noted as SHIELD Leaving the SHIELD pins unconnected may have detrimental effects on signal crosstalk and isolation If no cable shield connection is available chassis ground may be used to attach the SHIELD pins Many plug in m
214. sistor bypasses the attenuator circuit bringing out the 8 commons to the 200 pin front panel This functions as a multiplexer module of 8 banks 1 x 24 Comman 1 1 of 8 E 24 mux inputs 1 of 8 4 24 1 200 FIGURE 4 24 I O IMPLEMENTATION STANDARD EX1200 3824 BOARD EX1200 3824 WITH ATTENUATOR OPTION Figure 4 25 exlains the EX1200 3824 with Attenuator option the 0 Ohm resistor is removed and the Mux outputs are fed through the attenuator circuit The 8 common pins in the standard board will be treated as Ground Pins for connecting the DUT Ground pins are dedicated to each bank contributing a total of 8 ground pins at the Front Panel Connector Attenuator Section comprises of two different user selectable low pass frequency options 10 Khz and 400Khz Jumpers are provided to select the frequencies 10Khz LPF is selected if jumper is connected 400 Khz LPF is selected if jumper is not connected Refer Figure 4 28 EX1200 3824 Plug in Module 69 VTI Instruments Corp Implementation 24 Pin Connector 8 Pin Connector GND 10 1 Attenuator 2 Test Point 1 of 8 10f8 0 Ohm resistor remove when attenuator option is installed 200 Pin Connector FIGURE 4 25 I O IMPLEMENTATION EX1200 3824 BOARD WITH ATTENUATOR OPTION CONNECTOR PINS AND SIGNALS EX1200 3824
215. stantly removes all power to the UUT or interface These modules can be automatically configured in the setup phase at the beginning of each scan step to facilitate test sequencing and control The EX1200 2001 can be controlled programmatically using IviSwtch compliant calls Both path level programming and individual relay control are available Refer to the host driver documentation for additional details Figure 4 2 provides a logical diagram of the switch module and identifies the switches used by the module This information can be used for individual relay control through the driver CONNECTOR PINS AND SIGNALS 1200 2001 wt pk f c ZWTP LH DA CONNECTOR DETAIL 3U Orientation FIGURE 4 1 EX1200 2001 FRONT PANEL FRONT VIEW EX1200 2001 Plug in Module 19 VTI Instruments Corp Pin Signal Pin Signal A 2 11 B CH a 12 2 b CH 12COM D CH 2COM c CH 13NO E CH 3NO d CH 13COM F CH 3COM e 14 4 f CH 14COM J CH 4COM h 15 K 5 1 15 5 k CH 16NO M CH 6NO m CH 16COM N CH 6COM n 17 P 7 17 R CH 7COM r CH 18NO 5 8 5 18 8 19 U 9NO 19 9 Y 20 10 W 20 X
216. tit eue perm tre Do RR e Re RUE D Cette 38 EX1200 3001DS PLUG IN MODULE esee 39 1 64 2 wire Multiplexer with Discharge Circuit sees sees eee 39 Connector Pins and Sigrials 39 Logical ine et perte teta tete 41 EX1200 3001DS 2 0 4222201010 42 EX1200 3048 PLUGIN TTT 43 48 Channel 300 V 2 A 43 Connector Pins and T 43 Logical Diagram een den ein ee ee A ek 45 1200 5048 Specifications nio peor ete e RE dirette mie eee the eects eae ederent 47 EX1200 30485 PEUG IN MODULE 48 48 Channel Two Wire FET eee 48 Connector Pins and SISBQ S et esce b e eo eripe e 48 Logical 50 EX1200 30488 Specifications de 52 EX1200 3072 PEUG IN MODULE 53 72 Channel 300 V 2 00000000000 53 Connector Pins and Signals cea itera neo eed ete ERI huu iqi asa 53 Logical Dia Brain 5 tone Rea eee iet RI 55 EX1200 3072 Specifications ineo 57 EX1200 3096 PEUG IN MODULE 5 ie iit tree tette ote 58 96 Channel 100
217. trical 1 109 full load SWITCHING TIME lt l ms PATH RESISTANCE 190 INSULATION RESISTANCE gt 1x10 0 BANDWIDTH 3 dB 65 MHz typical For mating connector crimp pins and other accessories please refer to Appendix B Application Note The EX1200 2007A is intended to be used as a multiplexer only and not as a splitter i e split a single input signal into multiple paths Use of the EX1200 20074 as a splitter may cause damage to its circuitry EX1200 2007A Plug in Module 29 VTI Instruments Corp EX1200 2008H PLUG IN MODULE 30 CHANNEL 3 1 10 HIGH VOLTAGE MULTIPLEXER The EX1200 2008H high voltage 1 A single pole single throw relay multiplexer with three banks containing ten channels each All relays are independently controllable It is the highest density module in its class capable of switching signals to 1000 V The EX1200 2008 can be mixed and matched with other EX1200 series plug in modules in a single mainframe to construct a flexible mixed signal switching subsystem The EX1200 2008H has been designed for applications requiring high voltage signal switching When switching high voltages the need for signal shielding becomes critical This module has been designed to include large shield planes to reduce crosstalk and voltage spikes to adjacent channels CONNECTOR PINS AND SIGNALS 0 OU
218. ua cu s Mo ch s ch s 5 oH s s cH s Pas Pei Pina os Pin t E m maos _ muxe cH cH 5 CH CH 6 CH 8 Pin 58 Pina ve va TT Ch T 7 Mux Pins v E maos a o cHe muxa w eus _ Pos 25 1 Pin 58 Pin 2 kn CH CH 9 CH 9 CH 9 c MUXS CH CH 9 CH 9 CH 9 Pin 9j Pin 34 Pin 59 ka Pin 84 109 Pin 134 gt Pin 159 Pin 184 2 i 2 CH 10 eu _ mua P muxa CH 10 CH 10 CH 10 aua 0227 cH Paii Pine eines 1 Pin 60 m muxe cH 411 __ 7 n er Poi Pines Paim 2 Pin a m woe cH 12 woo cH 12 oH 12
219. ule MINIMUM CONTACT RATING 10 mA 5 V dc This value is in reference to a resistive load Minimum capacity changes depending on switching frequency and environmental conditions RATED SWITCH OPERATIONS Mechanical 1 x 107 Electrical 5x10 SWITCHING TIME 3ms PATH RESISTANCE 0 150 INSULATION RESISTANCE gt 1 100 MAXIMUM THERMAL OFFSET PER CHANNEL HI LO lt 7 CAPACITANCE Open channel 50 pF Channel mainframe 80 pF BANDWIDTH 3 DB 50 MHz typical CROSSTALK TYPICAL 100 kHz 80 dB 1MHz 60 dB 10 MHz 40 dB ISOLATION TYPICAL 100 kHz 50 dB 1MHz 45 dB 10 MHz 40 dB INSERTION LOSS TYPICAL 100 kHz 0 1 dB 1MHz lt 0 2 dB 10 lt 1 0 dB For mating connector crimp pins and other accessories please refer to Appendix B 114 EX1200 5004 Plug in Module www vtiinstruments com EX1200 5006 PLUG IN MODULE 40 CHANNEL 2 AMP A SPST SWITCH The EX1200 5006 is a high density general purpose 2 A switch modules designed for systems where individual relays can be used to route signals to from the units under test UUT or combined externally to form user defined configurations These relays are commonly used to create complex signal distribution networks that can be reconfigured through different wiring in test adapters Up to 240 SPST relays can be accommodated in a 1U full rack m
220. www vtiinstruments com EX1200 6216HV Plug in Module 137 VTI Instruments Corp LOGICAL DIAGRAM Ki K17 50127 J101 Pin J101 Pin B hd K2 K18 2 CH2 2 J101 Pin E 1 J101 Pin K33 K37 K19 CH 3 CH2 3 1 J101 Pin 1 J101 Pin L La hd hd K20 2 4 J101 Pin P J101 Pin K5 K21 5 5 J101 Pin C J101 Pin D K6 K22 1 1 2 6 J101 Pin J101 Pin J K34 K38 K23 CH1 7 CH2 7 1 J101 Pin T 1 0101 Pin 2 J101 Pin S J101 Pin T COM 7 E 1 2 T K5 7 J101 Pin J101 Pin DD 1_9 2 9 0100 Pin 0100 Pin K26 10 CH2 10 1 2100 Pin E 1 2100 Pin F K35 kn K39 K27 CH1_11 CH2 11 T 1100 Pin T 1100 Pin L K12 K28 12 CH2 12 J100 Pin P J100 Pin
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