108 PHASE CONTROL SCRs 63 TO 190 AMPERES GE TYPE c50, 52 C150, 152 C60, 62 JEDEC 2N1909-16 2N1792-98 2N2023-30 ELECTRICAL SPECIFICATIONS | VOLTAGE RANGE . FORWARD CONDUCTION Ir (RMS) Max. RMS on-state current (A) Max. average on-state current conduction (A) @ T Max. average on-state current for conduction (A) @ T Max. peak one cycle, non-rapetitive surge IT(Av) ITiAv) Itsm Max. !2t for fusing for 5 to 8.3 msec 12% A2 on-state voltage @ 1 conduction rated IT (av) {V) internal thermal resistance, dc, junction-to-case (C/W) tg Typical turn-off time ({sec) tad tr T di/dt Rate-of-rise turned-on current {A/jisec} turn-on time (jisec} Ty Junction operating temperature range (C} BLOCKING Min. critical rate-of-rise of off-stage dv/dt voltage, exponential @ max. rated Ty (V/Lsec) FIRING . Max. required gate current to trigger ist @-a0 @ 125C Max. required gate voltage to trigger Vat @40C Vert a noone gate voltage to trigger VOLTAGE TYPES Repetitive Peak Forward and Reverse Voltages 25 50 PACKAGE TYPE PACKAGE OUTLINE NO. 63 40 @ 102C 36 @ 101C 1000 4150 1.4 35 125 5 100 40 to 126C C147U C147F Ci47A C147G C147B C147H 147C C147D C147E C147M C1478 C147N C147T C147P C147PA C147PB 141 500-1300 i 500-1300 190 110 @ 90C 95 @ 85C 1600 10,600 2.0 2.5 3 135 100 125 8 8 200 200 ~40 to 125C 40 to 125C CONSULT FACTORY C1iS0E C152E C150M C152M C1508 C1628 C150N C152N c150T C152T C1S50P Cc152P C150PA C152PA C1S0PB C152PB C1S0PC C152PC % STUD C350E C350M C3508 C350N C350T C350P C350PA C3S50PB C350PC % PRESS PAK 109, 108 280SCR C60,2 The General Electric C60 (2N2023-2N2030) and C62 Series Silicon Con- trolled Rectifiers are designed for high-current operation at extreme tem- @ peratures. Rated as high as 110 amperes DCwith a maximum junction Y- temperature of 150Cthey are especially suited for applications where / high ambients or small heat sinks preclude the use of other controlled rectifiers at a required current level. The C60 (2N2023-2N2030) and C62 Series have guaranteed low tempera- C60 / ture limits of 65C. In all other respects they are identical and offer these features : bo a e Hard soldered joints e Thermal fatigue resistant e Welded seals e Silicone-rubber insulated leads e Guaranteed value of di/dt PEAK FORWARD BLOCKING |} REPETITIVE PEAK REVERSE (1) TRANSIENT PEAK REVERSE VOLTAGE VOLTAGE, Vprm (1) ; VOLTAGE, VrRM Vaso (1) oe a ce Tc = 65C to +145C To= 65C to +145C Tc = +145C C60U (2N2023) C2U 25 Volts 25 Volts 35 Volts C60F (2N2024) C62F 50 Volts 50 Volts 75 Volts C60A (2N2025) C62A 100 Volts 100 Volts 150 Volts C60G (2N2026) C62G 150 Volts 150 Volts 225 Volts C60B (2N2027) C62B 200 Volts 200 Volts 300 Volts C60H (2N2028) C62H 250 Volts 250 Volts 350 Volts C60C (2N2029) C62C 300 Volts 300 Volts 400 Volts C60D (2N2030) C62D 400 Volts 400 Volts 500 Volts C60E C62E 500 Volts 500 Volts 650 Volts (DHalf sinewave waveform, 1O0ms max duration. RMS Forward Current, On-State.....0.00000 0000 ee 110 amperes Average Forward Current, On-State..................... Depends on conduction angle (see Charts 2 and 3) Peak One-cycle Surge Forward Current,lggm iwiw i ee 1000 amperes (see Chart 7) Maximum Rate of Rise of Anode Current During Turn-On Interval... ddd dws ee (see Chart 9) It (for fusing). 2.000000 ee Up to 4000 ampere? seconds (see Chart 8) Peak Gate Power Dissipation, Poy .....2 00-20 ee 5 watts Average Gate Power Dissipation, Pgagav) .- 0-2 0.5 watts Peak Gate Current, Iopy oe 2 amperes Peak Forward Gate Voltage, VoTM.. es 20 volts Peak Reverse Gate Voltage, VorM... 2.000 ee 5 volts Storage Temperature, Tstg .. --65C to +150C Stud Torque... 0... 125 Lbs.-in. (min.), 150 Lbs.-in. (max.) 150 Kg.-em. (min.), 175 Kg.-cm. (max.)C60, C62 CHARACTERISTICS [ ceo, ce2 | TEST Symbol Min. Typ. Max. Units Test Conditions : Gate Trigger Current lor a 80 75 mAde | To = + 25C, Vi, = 6 Vde, Rt = 12 ohms, t, = 20 usec. veceenee 50 125 To = 65C, Vi, = 6 Vde, Ri = 12 ohms, t, = 20 usec. 15 25 Tc = 4+145C, V,, = 6 Vde, Ri. = 12 ohms, t, = 20 usec. Gate Trigger Voltage Vor Se 1.5 3.0 Vde To = 65C to +125C. V,, = 6 Vde, Ri = 12 ohms, tp = 20 usec. 1 en Tc = +145C, V,, = Rated, Ri = 1000 ohms, t, = 20 usec. Peak On-Voltage a 2.0 2.5 Vv Tom 25C, 1,,, = 1500A Peak, Duty cycle = .01% Holding Current The J 20 100 mAde | Te = + 25C, Anode supply == 24 Vde, Initial forward current = 2.5A Turn-On Time oe 5 woe usec To = + 25C, Ivy = 50 Ade, V, = rated, (Delay Time + Gate supply: 10 volt open circuit, 25 ohm, Rise Time) 0.1 usec. max. rise time Circuit Commutated tq 80 psec Tc = +125C, Im = 50A, inw = 5A min., Turn-Off Time Ve = 50 volts min., View (reapplied) = Rated, Rate of rise of reapplied forward blocking voltage = 20V/wsec linear. Gate bias: 0 volts, 100 ohms during turn-off interval, Duty cycle S .01% Effective Thermal - 3 4 4C/watt Resistance (DC) Peak Reverse and Tie mA Te = 145C Forward Blocking and Current Trew C60, C62U 7 13 15 Vin = Verw = 25 Volts peak C60, C62F . 13 15 50 Volts peak C60, C62A a 13 15 100 Volts peak C60, C62G a 13 15 150 Volts peak C60,C62B fF | LL. 13 15 200 Volts peak C60, C62H coccaeee 13 15 250 Volts peak C60, C62C ee 13 15 300 Volts peak C60,C62D eee 10 12 400 Volts peak C60,C62E fo fy ww q 9 500 Volts peak 5000 2000 i000 g 500 a % 200 vce L Z 100 a efeoetee fe. ec = 50 o_o _ oO 1 / , + 2 s ANGLE 3 : z Lo & . ee) g 2 < OC, 1$,36,6 CI RCUITSRESISTI VE 10 3 OR INDUCTIVE LOAD,50 TO 400 Kz .05 To : TH 02 VOLT. Ol 1 2 3 4 5 6 7 8 9 to We 12 oO 10 20 . 30 40 50 60 70 80 30 100 1a 120 INSTANTANEOUS ON-STATE VOLTAGE - VOLTS AVERAGE FORWARD CURRENT ~ AMPERES 1. MAXIMUM ON-STATE VOLTAGE 2. MAXIMUM ALLOWABLE CASE TEMPERATURE FOR SINUSOIDAL CURRENT WAVEFORM 713@ 6 = Bp G oo 6 5 6 6 _ 3 w oo MAXIMUM ALLOWASLE STUO TEMPERATURE C - o o 3 oo 6 ~ o AVERAGE FORWARD POWER DISSIPATION-WATTS a OUTY CYCLE*|18.3% 1$,36,66 CIRCUITS, 50 TO 400 CPS. USE THIS CURVE ONLY FOR INDUCTIVE LOAD CIRCUITS WITH LOAD X,/R RATIO >10 10 20 30 40 50 60 70 80 90 AVERAGE FORWARD CURRENT AMPERES 3. MAXIMUM ALLOWABLE CASE TEMPERATURE FOR RECTANGULAR CURRENT WAVEFORM DUTY CYCLE= 8.3% JUNCTION TEMPERATURE =150C USE THIS CURVE ONLY FOR INDUCTIVE LOAD CIRCUITS WITH LOAD XL/R RATIO 210. FOR OTHER LOAD CONDITIONS SEE CURVE 4 0 10 20 30 40 60 60 70 80 AVERAGE FORWARD CURRENT, AMPERES 5. FORWARD POWER DISSIPATION FOR RECTANGULAR CURRENT WAVEFORM o wlooo ra | 2 < et z = 750] 2 o ec < 3 2 S00 ws > a x 3 JUNCTION TEMPERATURE -40 C TO 150C 250 5 a =x 3 i NOTE: (1) FOR SUB-CYCLE SURGE DURATION {LESS THAN I CYCLE ) USE CURVE 8 0 1 1 1 1 1 pot 2 3 4 5 6 7 810 20 30 40. 680 60 CYCLES AT 60 CPS 7. MAXIMUM ALLOWABLE SURGE CURRENT FOLLOWING RATED LOAD CONDITIONS 714 4 CONDUCTION CONOUCTION ANGLE= 30 INSTANTANEOUS GATE VOLTAGE - VOLTS JUNCTION TEMPERATURE =150 C 10 20 30 40 50 60 70 AVERAGE FORWARD CURRENT- AMPERES 4. FORWARD POWER DISSIPATION FOR SINUSOIDAL CURRENT WAVEFORM [ I Tes 40C TO+!45*C MINIMUM GATE CURRENT REQUIRED ~ TO TRIG. ALL UNITS AT tp 20pSEC + 150C - Vex * 6 Vde 425C " RU #12 OHMS atk MINIMUM VOLTAGE Ra REQO TO TRIGGER ALL ae UNITE: #3.0V ao > gu. z wu MAX. ALLOWABLE PEAK | 2 GATE VOLTAGE +100 VOLTS 37 L__ 4 cs DSP MAX.GATE VOLTAGE THAT WILL 2 |___NOT TRIG. ANY UNITS AT = +150C #025 VOLTS | oO 50 1090 180 200 INSTANTANEOUS GATE CURRENT MA SHADED AREAS REPRESENT LOCUS OF POSSIBLE TRIG. POINTS FROM -40C TO +150C t MAX. ALLOWABLE PEA | erent GATE CURRENT *2.0A +> s a4 08 12 16 20 INSTANTANEOUS GATE CURRENT-AMPERES 6. GATE TRIGGERING CHARACTERISTICS -20C TO +180%: YY (JUNCTION TEMPERATURE) a 1600 A 2 on NQ 8 ie NS z a ' 5 WN z z : | IN Lo o 2 e00 S 3 \ . 40C To - 20C 2 (JUNCTION TEMPERATURE) $ \ 4 2 4001 MAXIMUM ALLOWABLE SURGE CURRENT FOR SUB - CYCLE PULSE T WIOTHS FOR CALCULATING 121 RATINGS NOTE: SEE CHART 7 FOR PEAK CURRENT LIMITATION DURING TURN ON INTERVAL l__| | | | Lo 1s 2 3 4 6 63 PULSE TIME - MILLISECONDS 8. SUB-CYCLE SURGE RATING FOLLOWING RATED LOAD CONDITIONS 80MAXIMUM ALLOWABLE CURRENT - AMPERES 200 1,000] 7 400 LW i 100 yp _y* a) suppry } |) 4 40 VOLTAGE jz00,/ 4 ~~ / DC TO 409 PPS 10 400 LD Ty = 125C ~~ LZ 12. } 00 L THESE TURN-ON CURRENT LIMIT CURVES 40 \7 7 DEFINE THE MAXIMUM ALLOWABLE RATE 77] OF CURRENT BUILD-UP THOUGH THE SCR, THERMAL RESISTANCE, C PER WATT 0.2 0.7 C60, C62 Os TO HEAT SINK os (WITH UNIT ON 1/8" COPPER FIN, MEASURED TO POINT ON FIN 04 1/4" FROM CELL HEX. 03 800. FOR VARIOUS SUPPLY VOLTAGES. FOR FURTHER INFORMATION CONCERNING di/dt, SEE APPLICATION NOTE # 200.28 TITLED lu RATING OF SCR'S WHEN, SWITCHING NTO HIGH CURRENT] oO Ou 0.4 10 40 10 40 100 0.001 0.01 Ol ' 10 100 TIME FROM START OF CURRENT FLOW-ysec TIME IN SECONDS 10. TRANSIENT THERMAL IMPEDANCE (JUNCTION TO CASE) 9. CURRENT LIMIT FOR STEEP WAVEFORM OPERATION OUTLINE DRAWINGS C60 OUTLINE (Conforms to JEDEC TO-94 Outline) FLEXIBLE TABLE OF DIMENSIONS COPPER LEAD Conversion Table DIM INCHES MILLIMETERS T MIN MAX MIN MAX DIA. H Lobia. K A 797 827 20.243 21.005 | CATHODE\ 7, 5 = 080 = 2.032 | F 278 | .350 7.060 8.890 E D 874 [1.030 | 22.099 | 26.162 " E 1.049 | 1.062 | 26.644 | 26.975 | LEADS a N >| & 840 | 910 | 21.335 | 23.115 LIGHTLY -WHITE | G | 6.204 | 6.512 | 157.619 | 165.443 TWISTED oO} Pp Gi | 1750 | 44.450 TOGETHER Cc. Q je DIA Ss H 1.484 | 1.640 | 37.653 | 41.656 J 4.437 | 5.623 | 112.698 | 142.824 K 275 | .325 6.985 8.255 Oo Ki 445 | 485 | 11.302 | 12.319 al aia [Ky | L 251 | .261 6.375 7.137 M | L, DIA. R Lu isa | 212 | 5.029 | 5.385 | On CATHODE NOM N M 500 | .600 | 12.700 | 15.240 F S | l M, 385 | 415 9.778 | 10.541 I N 632 | .725 | 16.052 | 18.390 _ a Ni 590 | .640 | 14.985 | 16.256 | f 7.000 | 7.342 | 177.799 | 186.487 ANODE CATHODE oO: .312 Ref 7.925 Ref. Oat PL DIA. re eee thes 1 Ie GATE GATE a 250 Nem. 6.350 Nom. G R -290 Nom. 7.366 Nom. | s 065 | .095 1.651 2.413 31 058 | .070 1.473 1778 T 463 | .498 | 11.760 | 12.649 C62 OUTLINE NOTES . Complete stud threads (12-20 UNF 2A) to within 212 threads of head. Flexible lead covered with silicon rubber insulation (Class H), 600 volt ASTM standard wall. . One, 14-20 steel, cadmium plated nut and one cadmium plated spring washer supplied with each unit. With Hardware Without Hardware 1 2. 3. Orientation of cathode and gate terminals not defined. 4. 5. Approximate weights: Unit c60 C62 715 Ounces Grams Ounces Grams 4.25 120 3.50 99 3.50 99 2.75 78