C1012-13 C1112-13 LOW AND MEDIUM - CURRENT STACKS C3912-13 Now, for the first time, from the originator of the Silicon Controlled Rectifier, packaged SCR building blocks, complete with SCRs, compatible rectifiers, heat sinks, interconnections, and all required hardware in one package. Requires only mounting bolts and electrical connections for power and triggering signal. Check the rest of these outstanding features: FLEXIBLE DESIGN ............ . Two fin sizes (3" x 3, 5 x 5) and 5 SCR types permit an optimum designed as- sembly for each application. Stacks can be mounted in either vertical or horizontal plane. An almost limitless number of circuit configurations possible. WIDE RANGE OF OPERATING AND STORAGE TEMPERATURE. . Will operate from 65C to + 150C Ambient. SHIELDED TRIGGERING SIGNAL. . Coaxial shielded leads from gate/cathode terminal board to the SCRs minimize the possibility of erroneous firing caused by extraneous transients or pick up from the power leads. PROVEN CONSTRUCTION....... General Electric's long years of experience in designing and supplying thousands of industrial rectifier stacks form the basis for this rugged construction. Painted fins yield high emissivity, providing optimum ratings without blowers or fans for forced air cooling. DEPENDABILITY................ Backed by a General Electric one year written warranty. 1046Lv01 CONDENSED ELECTRICAL RATINGS SCR STACKS" MAX. AVG. FORWARD CURRENT/CELL 25C AMB. FREE CONVECTION OPERATING COMPATIBLE MMM eeeeritive prvinee Ne ra 3 FIN 5 FIN FOR OTHER AMBIENTS PEAK ONE MAXIMUM TEMPERATURE SCR RECTIFIER PEAK REVERSE AN - - OR UNDER FORCED AIR| CYCLE SURGE Ver AND lar TYPE TYPE MINIMUM FORWARD (Non-Recurrent Single Three Single Three COND., SEE CHARTS CURRENT TO TRIGGER (25C RANGE BREAKOVER VOLTAGE <5 Millisec) Phase (180 | Phase (120 | D.C. | Phase (180 | Phase (120 | D.C. " R (25C) Cond. Angle) | Cond. Angle) Cond. Angle) | Cond. Angle) c35u 1N2154 25 35V F IN21S4 50 75 A IN2155 100 150 G 1N2156 150 228 65C B 1N2156 200 300 6.30A 5.80A 8.504 10.1A 9.50A 13.65A 1&2 150A 3V, 40 ma H 1N2157 250 350 c 1N2157 300 400 D 1N2158 400 500 E 1N2159 500 600 To cru INI34TA 25V 35 F INI341A 50 75 A 1N1342A 100 150 G 1N1343A 150 225 | 3R4 60A 2V,15 ma B 1N1344A 200 300 3.984 3.55A 5.80A 472A 4.434 7.00A H INT345A 250 350 +125C c IN1345A 300 400 D IN1346A 400 500 c10u INT341A 25v asv F TNI341A 50 75 65C A TN1342A 100 130 G INI343A 35! . 7.00A 5&6 60A 2V,15 ma + Moe B 1N1344A 200 300 4.724 3.95A 7.00A 4,72A 3.95A tv H IN1T345A 250 350 c INI345A 300 400 D IN1346A 400 500 For complete specifications covering both the SCRs and compatible rectifiers, see appropriate GE Spec Sheet. The compatible rectifier type, where ever used, has been chosen deliberately so that the SCR, in all cases, is the limiting component. $CRs can be successfully operated in series and parallel if necessary precautions are observed. Also, depending on the specific application SCRs and rectifiers may be subjected to transient overvoltage and overcurrent conditions for which protec- tive steps should be taken. For further details, on these application considerations, see GE Controlled Rectifier Manual, Chapter 3. EL-CLSED EL-ELLLO EL-ZLOLOC1012-13 C1112-13 140 FREE THE 3 FOLLOWING FACTORS OTHER AiR VELOCITIES C351 2-1 3 8 AIR VELOCITY | CORRECTION FT/MIN FACTOR '20 FREE " CONVECTION 100 o Q $ 300 1.38 ! ww 100 1900 (61 0 FOR CONVECTION. APPLY THE > z008 172 FOR OTHER AIR VELOCITIES. & 90 (2) MAXIMUM AVERAGE FORWARD CURRENT (00 NOT EXCEED \ AIR VELOCITY CORRECTION e 80 FT/MIN CTOR : FREE F 70 : CONVECTION 100 b y @ 60 5 2 & 2 50 1 (a) AVERAGE # NOT EXCEED ANT = 40 FULL WAVE 3 RECTIFIED 2 30* | 60| 90 | iz0*] 1S0 | 180 = - < 30 e = 20 a 3 10 z 2 9 2 4 6 8 10 24 6 18 20 2 FULL WAVE - =z RECTIFIED AVERAGE FORWARD CURRENT AMPERES 2. AMBIENT TEMP. VS. AVG. FORW. CURRENT CONDUCTION ANGLE '$0 5 FIN-C35 3 t 2 3 4 5 6 7 a 9 10 tt 12 AVERAGE FORWARD CURRENT- AMPERES 1. AMBIENT TEMP. VS. AVG. FORW. CURRENT 3 FIN-C35 180 T T T T T T T T "80 NOTES: (It cunves SHOWN ARE FOR FREE CONVECTION, apeiy THE FOLLOWWG NOTES: (1) ae ene Tes | CORRECTION FACTORS FOR OTMER AIR VELOGIT! AIR VELOCT 6o AIR VELOCITY | CORRECTION 160 | FT/MIN FACTOR | FREE 100 160 : CONVECTION 4 140 : 300 28 1000 154 120 2000 1.65 120 AVERAGE FORWARD CURRENT EXCEED UNDER ANY CONDITION) {2) MAXIMUM AVERAGE FORWARD CURRENT = ~ (eo NOT EXCEED eT ANY CONDITIOND CONDUCTION [ 20 [60 | 90 [:20" |i50*| 180" [seo"| oc Max aes ELL Per seas ele a7[ea Tro Sp (er ee olf bel . max omer |" Ex 65|32 [30 144/47 |e N Ys as 80 80 SS SS \ NS ~ 60 60 SN ~ N WS FULL WAVE. \ NY RECTIFIED 7 7 40 MAXIMUM AMBIENT TEMPERATURE - C MAXIMUM AMBIENT TEMPERATURE-C AVA TS |---| bum CONDUCTION CONDUCTION 20 ANGLE 20 FULL WAVE o RECTIFIEO | 30 sor | Toor SN [TRA S4ee ( I | | [!20" 1504 180 360 oO t 2 3 4 5 6 7 1 2 3 4 5 AVERAGE FORWARD CURRENT-AMPERES AVERAGE FORWARD CURRENT - AMPERES 3. AMBIENT TEMP. VS. AVG. FORW. CURRENT 4. AMBIENT TEMP. VS. AVG. FORW. CURRENT 3 FIN-C11l 5 FIN-C11 NOTES: (1 THE VELOCITIES. aR VELOCITIES AIR VELOCITY | CORRECTION 189 7 MIN FACTOR 100 160 (2) MAXIMUM AVERAGE, FORWARD CURRENT 0 NOT EXCEED UNDER ANY i fr [s0" [ser] s0- [ee ae ee ele eee (2) MAXIMUM CURRENT DO NOT 120} 150 oc MAXIMUM AMBIENT TEMPERATURE - *C. MAXIMUM AMBIENT TEMPERATURE - C CONDUCTION FULL WAVE 360 ANGLE RECTIFIED FULL WAVE RECTIFIED 86 i) 2 3 4 5 6 7? % 1 2 3 4 5 6 7 AVERAGE FORWARD CURRENT - AMPERES AVERAGE FORWARD CURRENT - AMPERES 5. AMBIENT TEMP. VS. AVG. FORW. CURRENT 6. AMBIENT TEMP. VS. AVG. FORW. CURRENT 3 FIN-C10 5 FIN-C10 1048MAXIMUM TRANSIENT THERMAL RESISTANCE C/WATT MAXIMUM TRANSIENT THERMAL RESISTANCE C/WATT FREE CONVECTION NOTE: TRANSIENT THERMAL RESISTANCE FROM JUNCTION TO AMBIENT 0.001 0.0! Ol Lo 10 100 {000 TIME IN SECONDS 10,000 *7, MAXIMUM TRANSIENT THERMAL RESISTANCE 3 FIN-C35 FREE CONVECTION "0 NOTE: TRANSIENT THERMAL RESISTANCE JUNCTION TO AMBIENT 0.0 9.0 300 FPM 8.0 7.0 [000 FPM 2000 FPM 60 5.0 40 30 20 lo 0 000! 0.001 Ol Ou Lo to too 1000 TIME IN SECONDS *9, MAXIMUM TRANSIENT THERMAL RESISTANCE 3 FIN-C10, 11 Note: * Charts 7, 8, 9, and 10 define the tempera- ture rise of the junction above the ambient for a single load pulse of duration t. The peak allowable dissipation in the con- trolled rectifier for time t, if starting from ambient temperature, equals the Maximum Junction Temperature of the SCR used 1049 C1012-13 C1112-13 C3512-13 MAXIMUM TRANSIENT THERMAL RESISTANCE C/ WATT ow Oo 0.00! 0.01 o 1o \o 100 1000 TIME IN SECONDS 10,000 *8. MAXIMUM TRANSIENT THERMAL RESISTANCE 5 FIN-C35 : TRANSIENT THERMAL RESISTANCE FROM JUNCTION TO AMBIENT CONVECTION 300 FPM 1000 FPM FPM MAXIMUM TRANSIENT THERMAL RESISTANCE-%C/ WATT o 0.001 0.01 Ol Lo ile) 100 1000 TIME IN SECONDS 10,000 *10, MAXIMUM TRANSIENT THERMAL RESISTANCE 5 FIN-C10, 11 minus the maximum ambient temperature, divided by the transient thermal resistance: Ty; max Tamp. Preax ee rr For optimum ratings and further informa- tion, see Publication 200.9 entitled Power Semiconductor Ratings under Transient and Intermittent Loads.MECHANICAL SPECIFICATIONS C1012-13 C1112-13 OUTLINE AND WEIGHT (5 INCH FINS) OUTLINE AND WEIGHT (3 INCH FINS) C3512, C4012, C1012, C1112 SERIES C3513, C4013, C1013, C1113 SERIES C3512-13 . on . FF w/in oi 07 144 DIA aH af * ts ~ 3.0008 NO OF . APPROX ~ APPROX, FINS LENGTH 1 WEIGHT INCHES 4050 Bo 2050 va T no oF ~ 400" 5.600 193 Wo TINS INCH 4000 7as _ wt 100 1 6.950 29s _ 7 800 397 9.200 448 10.050 35 . 10.850 602 10 11 700 653 _ " 12.080 7.08 _ 7 13.500 78s wm (ta. 340 235 RO 258 42060 TT Maximum number of fins/stack = 12 Maximum Hi-Pot Voltage to Mounting Brackets. . . . . . . 2600 V.R.M.S. @ 25C Amb., Sea Level MIL-STD-202A, Method 101A, 96 hrs. Salt Spray Humidity . MIL-STD-202A, Method 103A, 240 hrs. SCR STACK NOMENCLATURE C35 12 A H 1 A D 1 SCR CELL MODEL PARALLEL NUMBER CELLS/LEG C35, C10, C11 : C12 MINOR MECHANICAL MODIFICATIONS FIN SIZE: b-Standard 12 5 sq. 13 3 sq. , | MINOR ELECTRICAL SCR PEAK REVERSE VOLTAGE RATINGS MODIFICATIONS U 25V B 200 Polarity of Output, ete. F 50 H 250 A 100 , c 300 } G 150 D 400 M600 SERIES CELLS/LEG v CIRCUIT CONFIGURATION: (Many Additional Variations Are Available Upon Request.) + H Single Phase B< Single Phase Bridge BX Single Phase Bridge Halfwave (SCRs Common Cathode) {Fuliwave Rectified) ~ e F. Three Phase Fullwave Bridge o . : ser Common Cathode) A Back B< Single Phase Bridge @ G To {SCR Rect. Pp & xX Special > Back Common Cathode) "(Followed By + Arbitrary Number) *Note: Circuit description is necessary when ordering stacks to this circuit configuration, 1050C1012-13 B) controlled Rectifier FE" You may now quickly select and obtain the Low and Medium Current Combination SCR Stacks that fit your Controlled Rectifier applications. * Fast Selection - Rating Tables Cover More Than 300 Stack Models * Availability - Call Your Authorized G-E Semiconductor Distributor or Semiconductor Products District Sales Manager C10 MOUNTED ON A 3" FIN * Max Circuit Output Max Repetitive SCR/ Transient No. of Res. Load 25C Amb AC Input Cell PRV Fins/ Model Circuit Volts DC Amps DC Volts""RMS" PRV-VBO (Non-recurrent) Stack Number Single Phase Halfwave 7.0 4, 72(180) 17 25 35 1 C1013UHIAD1 15.0 35 50 715 FH1AD1 + 30.5 70 100 150 AHI1AD1 46.5 105 150 225 GH1AD1 62.0 140 200 300 BHiAD1 77.0 175 250 350 HHIAD1 - 93.5 210 300 400 CH1AD1 125.0 280 400 500 DH1AD1 Back to Back 15. O(RMS) 10. 50(RMS) 17 25 35 2 C1013UA1AD1 ~~ 33.0 35 50 75 FALAD1 68.0 70 100 150 AAILAD1 ro 103.0 105 150 225 GAI1AD1 Ac , 138.0 140 200 300 BAILAD1 nur & o- 173.0 175 250 350 HA1AD1 | 208.0 210 300 400 CA1AD1 278.0 280 400 500 DAIAD1 Single Phase Bridge 12.0 9. 44(360) 17 25 35 4 C1013UBiCD1 (SCR's Common 28.5 35 50 15 FBICD1 Cathode ) 60.0 10 100 150 ABICD1 91.5 105 150 225 GBICD1 r 123.0 140 200 300 BBICDi wage 154.5 175 250 350 HBICD1 186.0 210 300 400 CBICDi 249.0 280 400 500 DBICD1 Single Phase Bridge 12.0 9. 44(360) 17 25 35 4 Ci013UB1AD1 (SCR-Rect Common 28.5 35 50 15 FBIAD1 Cathode) 60.0 70 100 150 AB1AD1 91.5 105 150 225 GBLAD1 p 123.0 140 200 300 BBiAD1 hse 154.5 175 250 350 HBIAD1 186.0 210 300 400 CBIAD1 | 249.0 280 400 500 DBLIAD1 Single Phase Bridge 12.0 6. 40(360) 17 25 35 5 C1013UB1FD1 (Fullwave Rectified) 28.0 35 50 vis) FBIFD1 59.7 70 100 150 ABIFD1 91.5 105 150 225 GBIFD1 ~ 123.0 140 200 300 BBIFDI1 AC 154.0 175 250 350 HBIFD1 INFUT 186.0 210 300 400 CBIFD1 boa} 249.0 280 400 500 DBIFD1 3 Phase Fullwave 20.0 11.85 17 25 35 6 C1013UF1AD1 Bridge (SCR'sCommon 44.0 35 50 15 FFIAD1 Cathode) 91.5 70 100 150 AF1AD1 TR 138.5 105 150 225 GF1AD1 rf 186.0 140 200 300 BF1AD1 P| |B 223.0 175 250 350 HFIADI ect jee Je 280.5 210 300 400 CF1AD1 Sent 375.0 280 400 500 DF1AD1 1051C1012-13 C1112-13 C3512-13 C10 MOUNTED ON A 5" FIN * Max Circuft Output Max Repetitive SCR/ Transient No. of Res. Load 350C Amb AC Input Cell PRV Fins/ Model Circuit Volts DC AmpsDC Volts "RMS" PRV-VBO (Non-recurrent) Stack Number Single Phase Halfwave 7.0 4,'72(180) 17 25 35 1 C1012UH1AD1 15.0 35 50 15 FHIAD1 . 30.5 70 100 150 AHIAD1 46.5 105 150 225 GH1AD1 62.0 140 200 300 BHLAD1 77.0 175 250 350 HHIAD1 ; 93.5 210 300 400 CHIAD1 125.0 280 400 500 DH1AD1 Back to Back 15. 0(RMS) 10. 50(RMS) 17 25 35 2 C1012UA1AD1 . ~~ 33.0 35 50 15 FALAD1 , 68.0 70 100 150 AALADI | 1. 103.0 105 150 225 GALAD1 - 138.0 140 200 300 BALAD1 Mir DA I8"9 175 250 350 HALAD1 Jo 208.0 210 300 400 CAIADI 278.0 | 280 400 500 DAIADI Single Phase Bridge 12.0 9. 44(360) 17 25 35 4 C1012UBiCD1 (SCR's Common 28.5 35 50 15 FBICD1 Cathode) 60.0 70 100 150 ABICDI1 9 91.5 105 150 225 GBICDi 123.0 140 200 300 BBICD1 154.5 175 250 350 HBICD1 186.0 210 300 400 CBICD1 249.0 1 280 400 500 DBICD1 Single Phase Bridge 12.0 9. 44(360) 17 25 35 4 C1012UB1AD1 (SCR-Rect Common 28.5 35 50 95 FBIADI1 Cathode) 60.0 70 100 150 ABLAD1 91.5 105 150 225 GBIAD1 123.0 140 200 300 BBIAD1 ac 154.5 175 250 350 HBLAD1 INFUT 186.0 210 300 400 CBIAD1 249.0 1 280 400 500 DBIAD1 Single Phase Bridge 12.0 6. 40(360) 17 25 35 5 C1012UBIFD1 (Fullwave Rectified) 28.0 35 50 75 FBIFD1 59.7 70 100 150 ABIFD1 91.5 105 150 225 GBIFDi 123.0 140 200 300 BBIFD1 ab 154.0 175 250 350 | HBIFD1 INPUT 186.0 210 300 400 CBIFD1 bom. 249.0 280 400 500 DBIFD1 3 Phase Fullwave 20.0 11.85 17 25 35 6 C1012UF1AD1 Bridge (SCR'sCommon 44.0 35 50 75 FFIAD1 Cathode) 91.5 70 100 150 AFIAD1 , 138.5 105 150 225 GF1AD1 ss 3 186.0 140 2.00 300 BFIAD1 2] A) |. 223.0 175 250 350 HF1AD1 24 of 280.5 210 300 400 CFLAD1 Ls 375.0 280 400 500 DF1AD1 1052C1012-13 C1112-13 C11 MOUNTED ON A 3" FIN * C3512-13 Max Circuit Output Max Repetitive SCR/ Transient No. of Res. Load 25C Amb AC Input Cell PRV Fins/ Model Circuit Volts DC Amps DC Volts "RMS" PRV-VBO (Non-recurrent) Stack Number Single Phase Halfwave 7.0 3. 98(180) 17 25 35 1 C1N3UHI1AD1 ~ 15.0 35 50 75 FHIAD1 30.5 70 100 150 AH1AD1 46.5 105 150 225 GH1AD1 62.0 140 200 300 BHIAD1 77.0 175 250 350 HHIAD1 - 93.5 210 300 400 CHIAD1 o 125.0 280 400 500 DHIAD1 156.5 350 500 600 EHLAD1 190.0 r 425 600 720 y MH1AD1 Back to Back 15. O(RMS) 8. 83(RMS) 17 25 35 2 C1U3UAIAD1 33.0 35 50 715 FAIAD1 68.0 70 100 150 AAIADI Q 103.0 105 150 225 GAIAD1 L_. 138.0 140 200 300 BAIAD1 ac vr) 7 173.0 175 250 350 HAIADI1 Inu eo 208.0 210 300 400 CAIAD1 | 278.0 280 400 500 DAIAD1 348.0 | 350 500 600 EAIAD1 422.0 425 600 720 MAI1AD1 Single Phase Bridge 12.0 7. 96(360) 17 25 35 4 C1113U BICD1 (SCR's Common 28.5 35 50 v5) FBICD1 Cathode) _-60.0 70 100 150 ABICD1 91.5 105 150 225 GBICDt 123.0 140 200 300 BBICD1 vay % 154.5 175 250 350 HBICD1 ieut RTS 186.0 210 300 400 CBICD1 v 249.0 280 400 500 DBICD1 312.0 350 500 600 EBICDI1 376.0 425 600 120 MBICD1 Single Phase Bridge 12.0 7. 96(360) 17 25 35 4 C113UB1AD1 (SCR-Rect Common 28.5 35 50 75 FBLIAD1 Cathode) 60.0 70 100 150 ABIAD1 91.5 105 150 225 GBIAD1 123.0 140 200 300 BBIAD1 154.5 175 250 350 HB1AD1 186.0 210 300 400 CBIAD1 249.0 280 400 500 DBIAD1 312.0 350 500 600 EBLAD1 376.0 425 600 720 MBIAD1 Single Phase Bridge 12.0 5. 20(360) 17 25 35 5 C113UBIFD1 (Fullwave Rectified ) 28.5 35 50 15 FBIFD1 60.0 70 100 150 ABIFD1 91.5 105 150 225 GBIFD1 123.0 140 200 300 BB1FD1 154.5 175 250 350 HBIFD1 & \ 186.0 210 300 400 CBIFD1 INPUT 249.0 280 400 500 DBIFD1 - - 312.0 350 500 .600 EBIFD1 376.0 425 600 720 MBIFD1 3 Phase Fullwave 20.0 10. 65 17 25 35 6 C1113UF1AD1 Bridge (SCR'sCommon 44.0 35 50 75 FFIAD1 Cathode 91.5 70 100 150 AF1AD1 138.5 105 150 225 GF1AD1 . Fly , 186.0 140 200 300 BF1AD1 223.0 175 250 350 HF1AD1 ry) | + y 280.5 210 300 400 CF1AD1 . |. ~& 375.0 280 400 500 DF1AD1 469.5 350 500 600 EF1AD1 no INPUT 565.5 425 600 720 MFI1AD1 1053C1012-13 C1112-13 C3512-13 C11 MOUNTED ON A 5" FIN * Max Circuit Output Max Repetitive SCR/ Transient No. of Res. Load 25C Amb AC Input Celi PRV Fins/ Model Circuit Volts DC Amps DC Volts "RMS" PRV-VBO (Non-recurrent) Stack Number Single Phase Halfwave 7.0 4. 72(180) 17 25 35 1 C1U2UH1AD1 15.0 35 50 15 FHIAD1 30.5 70 100 150 AH1AD1 + 46.5 105 150 225 GH1AD1 62.0 140 200 300 BHIAD1 o 77.0 175 250 350 HH1AD1 93.5 210 300 400 CH1AD1 - 125.0 280 400 500 DH1AD1 156.5 350 500 600 EHLAD1 190.0 y 425 600 720 MH1AD1 Back to Back 15. (RMS) 10. 50(RMS) 17 25 35 2 C1N2UAIAD1 33.0 35 50 15 FALAD1 68.0 70 100 150 AAIAD1 103.0 105 150 25 GA1AD1 A re 138.0 140 200 300 BALADI Sr oO GT 1738.0 175 250 350 HALAD1 | o4 208.0 210 300 400 CA1AD1 278.0 280 400 500 DA1AD1 348.0 350 500 600 EAIAD1 422.0 f 425 600 7120 MALAD1 Single Phase Bridge 12.0 9. 44(360) 17 25 35 4 Cill2UBICD1 (SCR's Common 28.5 35 50 15 FBICD1 Cathode) 60.0 70 100 150 ABICD1 91.5 105 150 225 GBICD1 123.0 140 200 300 BBICD1 T 154.5 175 250 350 HBICD1 INPUT 186.0 210 300 400 CBICD1 249.0 280 400 500 DBICDi1 312.0 350 500 600 EBICD1 376.0 425 600 720 MBICD1 Single Phase Bridge 12.0 9. 44(360) 17 25 35 4 C1U2UB1AD1 (SCR-Rect Common 28.5 35 50 75 FBLAD1 Cathode) 60.0 10 100 150 ABIAD1 91.5 105 150 225 GBIAD1 123.0 140 200 300 BBIAD1 154.5 175 250 350 HB1AD1 INPUT 186. 0 210 300 400 CBLIAD1 249.0 280 400 500 DBIAD1 312.0 350 500 600 EBIAD1 376.0 425 600 720 MB1AD1 Single Phase Bridge 12.0 6. 40(360) 17 25 35 5 C11l2UBIFD1 (Fullwave Rectified) 28.5 35 50 75 FBIFD1 60.0 70 100 150 ABIFD1 91.5 105 150 225 GB1FD1 123.0 140 200 300 BBIFD1 _ 154.5 175 250 350 HBIFD1 186.0 210 300 400 CBiFD1 INPUT 249.0 280 400 500 DBIFD1 --{6a5}-- 312.0 350 500 600 EBIFD1 376.0 425 600 120 Y MBIFDI1 3 Phase Fullwave 20.0 11.85 17 25 35 6 Cil12UF1AD1 Bridge (SCR's Common 44.0 35 50 15 FF1AD1 Cathode) 91.5 10 100 150 AFIAD1 138.5 105 150 225 GF1AD1 TY 186.0 140 200 300 BF1AD1 + - 223.0 175 250 350 HF1AD1 @ y , 280.5 210 300 400 CF1AD1 p) -& 375.0 280 400 500 DF1AD1 } 469.5 350 500 600 EF1AD1 See 565.5 425 600 720 MFIAD1 1054C1012-13 C1112-13 C35 MOUNTED ON A 3" FIN * C3512-13 Max Circuit Output Max Repetitive SCR/ Transient No. of Res. Load 25C Amb AC Input Cell PRV Fins/ Model Circuit Volts DC Amps DC Volts "RMS'' PRV-VBO (Non-recurrent) Stack Number Single Phase Halfwave 1.0 6. 3(180) 17 25 35 1 C3513UH1AD1 15.0 35 50 15 FHIAD1 30.5 10 100 150 AH1AD1 + 46.5 105 150 225 GH1AD1 62.0 140 200 300 BHIAD1 17.0 175 250 350 HH1AD1 93.5 210 300 400 CHIAD1 . 125.0 280 400 500 DH1AD1 156.5 350 500 600 EH1AD1 190.0 425 600 720 ! MH1AD1 Back to Back 15. o(RMS) 13. 9(RMS) 17 25 35 2 C3513UA1AD1 33.0 35 50 15 FALAD1 68.0 10 100 150 AAILADI 103.0 105 150 225 GALADI to 138.0 140 200 300 BA1AD1 AC +c 7 173.0 175 250 350 HALAD1 INPUT &) wo 208.0 210 300 400 CALAD1 | 278.0 280 400 500 DAILAD1 348.0 350 500 600 EALADI1 422.0 425 600 120 MAIAD1 Single Phase Bridge 12.0 12. 6(360) 17 25 35 4 C3513UB1CD1 (SCR's Common 28.5 35 50 15 FBICD1 Cathode) 60.0 70 100 150 ABICD1 91.5 105 150 225 GBICD1 123.0 140 200 300 BBICD1 154.5 175 250 350 HBICD1 186.0 210 300 400 CBICD1 249.0 280 400 500 DBICD1 312.0 350 500 600 EBICDI1 376.0 425 600 120 MBICD1 Single Phase Bridge 12.0 12. 6(360) 17 25 35 4 C3513UB1AD1 (SCR-Rect Common 28.5 35 50 q5 FBIAD1 Cathode) 60.0 70 100 150 AB1AD1 91.5 105 150 225 GB1AD1 123.0 140 200 300 BBIAD1 154.5 175 250 350 HB1AD1 186.0 210 300 400 CB1AD1 249.0 280 400 500 DBIAD1 312.0 350 500 600 EBIAD1 376.0 425 600 420 MB1AD1 Single Phase Bridge 12.0 7. 6(360) 17 25 35 5 C3513UB1FD1 (Fullwave Rectified) 28.5 35 50 15 FBIFD1 60.0 70 100 150 ABIFDI 91.5 105 150 225 GBIFD1 123.0 140 200 300 BBIFD1 154.5 175 250 350 HBIFD1 186.0 210 300 400 CB1FD1 INPUT 249.0 280 400 500 DBIFD1 312.0 350 500 600 EBIFD1 376.0 425 600 720 MBIFDI 3 Phase Fullwave 20.0 17.4 17 25 35 6 C3513UF1AD1 Bridge (SCR'sCommon 44.0 35 50 q5 FFIAD1 Cathode) 91.5 70 100 150 AF1AD1 2 138.5 105 150 225 GF1AD1 x y 186.0 140 200 300 BFIAD1 r] 223.0 175 250 350 HF1AD1 ~2|.@|.G| 280.5 210 300 400 CF1AD1 a 375.0 280 400 500 DF1AD1 ty 469.5 350 500 600 EF1AD1 AC INPUT 565.5 425 600 120 MFIAD1 1055C1012-13 C1112-13 C3512-13 C35 MOUNTED ON A 5" FIN * Max Circuit Output Max Repetitive SCR/ Transient No. of Res. Load 25C Amb AC Input Cell PRV Fins/ Model Circuit Volts DC Amps DC Volts "RMS" PRV-VBO (Non-recurrent) Stack Number Single Phase Halfwave 17.0 10.1(180) 17 25 35 1 C3512UH1AD1 15.0 35 50 15 FH1AD1 $0.5 70 100 150 AH1AD1 46.5 105 150 225 GH1AD1 . 62.0 140 200 300 BH1AD1 77.0 175 250 350 HHiAD1 93.5 210 300 400 CHIAD1 125.0 280 400 500 DH1AD1 - 156.5 350 500 600 EH1AD1 190.0 425 600 720 MHI1AD1 Back to Back 15. 0(RMS)22. 4(RMS) 17 25 35 2 C3512UA1AD1 ~ 33.0 35 50 75 FALAD1 68.0 70 100 150 AALAD1 103.0 105 150 225 GAJAD1 |, 138.0 140 200 300 BA1AD1 173.0 175 250 350 HAIAD1 iNeUT ~~ o 208.0 210 300 400 CALADI | 4 278.0 280 400 500 DALAD1 348.0 350 500 600 EALAD1 422.0 425 600 720 MAILAD1 Single Phase Bridge 12.0 20. 2{ 360) 17 25 35 4 C3512UB1CD1 (SCR's Common 28.5 35 50 75 FBICDi Cathode) 60.0 70 100 150 ABICD1 27 105 150 225 GBICD1 123.0 140 200 300 BBICD1 Q 154.5 175 250 350 HBICD1 bore 186.0 210 300 400 CBICD1 249.0 280 400 500 DBiCD1 312.0 350 500 600 EBICD1 376.0 425 600 720 MBICD1 Single Phase Bridge 12.0 20. 2(360) 17 25 35 4 C3512UBLAD1 (SCR-Rect Common 28.5 35 50 15 FBIAD1 Cathode) 60.0 70 100 150 ABLAD1 01.5 105 150 225 GBIAD1 123.0 140 200 300 BBLAD1 154.5 175 250 350 HB1AD1 186. 0 210 300 400 CB1AD1 249.0 280 400 500 DBIAD1 312.0 350 500 600 EBLAD1 376.0 425 600 720 MBIAD1 Single Phase Bridge 12.0 12(360) 17 25 35 5 C3512UB1FD1 (Fullwave Rectified) 28.5 35 50 15 FBIFD1 OO 60.0 70 100 150 ABIFD1 01.5 105 150 225 GBLFD1 123.0 140 200 300 BBIFD1 154.5 175 250 350 HBIFD1 186. 0 210 300 400 CBIFD1 Wir 249. 0 280 400 500 DBIFD1 312.0 350 500 600 EBI1FD1 tag) 376.0 425 600 720 { MB1FD1 3 Phase Fullwave 20.0 28.5 17 25 35 6 C3512UF1AD1 Bridge (SCR'sCommon 44.0 35 50 15 FF1AD1 Cathode ) 91.5 70 100 150 AF1AD1 138.5 105 150 225 GF1AD1 Jy Ft Ld ~~ 186.0 140 200 300 BF1AD1 1 FS 223.0 175 250 350 HF1AD1 P| @| @! 280.5 210 300 400 CF1AD1 . 2) - ) 375. 0 280 400 500 DF1AD1 took 469.5 350 500 600 EF1AD1 Sao wpur 565. 5 425 600 720 MF1AD1 1056