Data Sheet No. PD-3.082 INTERNATIONAL RECTIFIER | [64R 2N1792, 2N1805, 2n1909, 2N2023 SERIES 110 Amp RMS SCRs Major Ratings and Characteristics thru 2N1936 792|2N1805| 2N2023 Description/Features For general purpose phase control applications thru thru thru Bi Forward and reverse voltage ratings up to 1200V High temperature series Hi High surge rating BW Standard 1/2 ~ 20 stud Mi Can be supplied as JAN and JAN-TX devices in accordance with M/L-S-19500/203 or MIL-S-19500/204, Am. YORM range to 1,200 *JEDEC registered values. 14.60 10574) at ie sa 2.07 (0475 a, Ja 000 oa CASE STYLE AND DIMENSIONS gamma 711 02801, i 6570260" Fao 10.350 Min ? F 190.50 7 $001 rt 173.59 5.50 te A Pre sco | 159.13 159.10 6255) Vi 68-86 (5 900 Refer to Page A.34 for flag terminal Case Style Al Dimensions in Mitmeters and {inchesi . i wax. fed wen peti Qe rated 1000V or higher. saat he | | A-13 (glass) for parts Beira below 1000V. pwwa7n mao) | Mean 20.25 tL St) wax ACROSS FLATS: JAN and/or JAN/TX fa rs tne types available, IR Casa Sty'e Av13- Canforms to JEDEC Outlise TO-2098C {TO-94} A-292N1792, 2N1805, 2N1909, 2N2023 Series INTERNATIONAL RECTIFIER VOLTAGE RATINGS (Applied gate voltaga zero or negative) Vas Max. Vere Max. Vorm Max. Non-Repetitive Peak Repetitive Peak Repetitive Peak Reverse Vo-tage Reverse Voltage Off- State Voltage tp <5ms Part Numbers (v} (Vy Vv) TO-208A0 TO-200AC TO-2094C = 49 6 = 40 : Case Case Case Ty 10C to 126C T= 40C to 125C Ty = 26C to 128C ~ 2N1909 2N2023 25 25 38 2N1792 2N1910 2n2024 50 50 79 2N1793 2N1911 2N2025 100 100* 150" 2N1794 2N1912 2N2026 160* 150* 225 2N1798 2N1913 2N2027 200 200 300 2N1796 2N1914 2N2028 250* 250* aso 2N1797 2N1915 2N2029 300 300 400" 2N1798 2N 1916 2N2030 400* 400" 500 2N1799 2N 1805 ~ 600 500 625" 21800 2N 1806 ~ 720 600* 75g" 2N1801 2N180? - Ba0* 700* i agar 2N1g02 - - 960* gao* 1000" 2N1803 - - 1080* 900* : 1130* 2N1804 - - 1200* 10900* | 1250* ELECTRICAL SPECIFICATIONS 2N1792 to 2N 1909-16 ; 2N1804 | 2N1B05-07 | 2N2023-30 | Units | Conditions ON-STATE (Trams; Max. RMS on-state current 110 10 110 A I Max. average on-state current 70 70* 70 A TIAN aMax. foe 180 half sine wave condition. 65 62" BB* C 'bsm Max. peak one cycle, non- 965 955 955 50 He half cycle sine wave Following any rated load condition, repetitive surge current A oF 6 ms rectangular pulse and with rated Va applied 1000 1000* 4000" 60 Hz half cycle sine wave {ollowing surge. SCR turned or 5 ms rectangular pulse tulty an. 4150 1180 1160 50 Ha half cycle sine wae Same conditions as above except A or 6 ms rectangular pulse with Vaan applied following 1200 1200 1200 60 Hz halt cytie sine wave surge = 0. or 5 ms rectangular pulse re Max. |? t capability, for fusing} 4550 4560 4550 at, LE 10 ms Rated Vay applied following surge, 4150 4150 4150 t=8.3ms_ initial T)= max. sated Pr Max, ?t capability, for 6450 6450 6450 T= 10 ms = 4 individual device fusing Als VaRM O following surge, $900 5900 5900 t=8.3ms_ initial Ty = max. rated POT Max, 1A/t capability, for @4 500 64 500 846500 | A%/s| 120.1 1010 ms, Vay following surge = 0. individual device fusing (2) initial Ty = max. rated VTM Max. peak on-state valtage 185 1.85" 19 v Ty= 25C, It yay) = 70A {220A peak) 2.0" - - Ty = 25C, Ipyayy = 70A (220A peak) 2N%803 & 2N1804 only by Typical holding current. 20 20 20 mA Te = 25C. anode supply = 22V, initial ty = 2A. *JEDEC registered values. @) Units may be broken over nor-repstitively without damage if di/dt does not excend 20 A/ys. G) Petor timety = At ty A-30INTERNATIONAL RECTIFIER 2N1792, 2N1805, 2N1909, 2N2023 Series ELECTRICAL SPECIFICATIONS (Continued) 2N1792 to 2N1909-16 2N1604 | 2N1805-07 | 2N2023-30 | Units Conditions BLOCKING av/dt. Min. critical rate-of-rise 200 200 50 Was [ Tys 12590 Exponential ta 100% rated VoRM of off-state voltage Gata open circuit, Ty = 150C for 2N2023-30. RAV} Max. average reverse and he off-state current 'biav) Vrrm & Yorm = 25Vto 150V 65 6.5" 65 = 200V 6.0" 6.8* 6.0" = 250V 55* 5.5* 55 = wov 5.0" 5,0* 5.0 Atrated V y t ec . 4 t rat a , Ty = max. rated, gate Open circuited. : 400 40 40" 40 ARM TORN * = 600Vte B00v 33 33 - = 700V to BDOV 30 3.0@ - = 900V to 1200 27D - - SWITCHING ty Typicai delay time t 1 1 To = 25C, Vinny = Fated Voy Ty = SOA de resistive HS | cireul : * = ty Typical rae time 15 1s 15 circuit. Gate pulse: 10V, 250 source, ty Gust, = O0.1us ty Typical turn-off time 40 Te # 128C, bry 2 SOA, commutating di/dt = ~5 A/us, min. 40 40 eos, 48 | Vag during tuvr-off interval = SOV, dv/dt = 20 V/us linear to 50 vated Vor: difdt Max, non-repetitive rate- To 7 125C, Voy = rated Von of-rise of turned-on current ityy = (2 x rated difdt) A Vorm Gote pulse: 20V, 150, = 26Vta G00V 190 100 100 / 2 Gas, tO. us = 700v w 1200y [= | 3 75 Alus | der JEDEC Standard AS-287, 5.22.8. TRIGGERING Pom Max. peak gate pawer | 5" 5 * Ww t, 5 ms max. Peay) Max. average gate power ase ost 05" +lem Max, paak pesitive gate 2 2 a A cutrent Vem Max. paak positive gate 10 10* 10" v voltage -Vom Max. peax negative gete 5 5 5 v voitage let Max. requited DC gate 730 130 150" @ Te 40C. Max. required gate trigger current is the lowest current ta trigger @ ~BEC value which will trigger all units with +6 anode-to-cathode. 70@ 70 70 mA | T= 25C 404) 40 - Ton 126C - - 36 To* 150C Typical DC gate current 35 6 35 Tg 26C 4+6V anodeto-cathode to trigger *JEDEC registered values. @ Varn 20% eater than Vp pays @ For 2N1803, 1804: [gy = 200 mA* @ -40C; 110mA @ 25C; 50 mA @ 125C, A:312N1792, 2N1805, 2N 1909, 2N2023 Series ELECTRICAL SPECIFICATIONS (Continued) INTERNATIONAL RECTIFIER 2N1792 to 2N1909-16 2N1804 | 2N1805-07 | 2N2023-30 | Units Conditions TRIGGERING (Cont) Vet Max, required OC gate voltage - - 3 To= 65C, Max. required gate trigger voitage is the lowest to trigger value which will trigger al! units with ~BY anode-to-cathade. 3 yr - vo Tp=-40"e 25 25 20 Te = 25C Typical DC yate voltage 1.2 1.2 12 Ty = 25C +6V anode-to-cathode To trigger Veo Max, DC gate voltage not 0.25" 0.25 0.25" @ vo Tg = 125C. Max. gate voltage not to trigger is the maximum to trigger 150C value which will not trigger any unit with rated V5 py 1 anode-to-cathode. THERMAL-MECHANICAL SPECIFICATIONS Ty Operating junction -65* to 40* to ~65* to c temperature range 125" 125" 150" _ Tstg Storage temperature range 40* to 40 to ~65* to C 150 125* 150* Rene Max. :nternal thermal 0.4" oat 0.4* deg. | DC operation resistance, junction-to-case : CW Rincs Thermal resistance, oO Ot 8.1 | deg Mounting surface smooth, flat and greased. case-to-sink i i CW T Mounting torque | ! Min. 14.6 (125) Nom ; Non-lubi threads Max. 17 (180) IIbfsin) Max, torque on screw 1.4412} - = Nem Non-lubricated threads in tlagterminal (Ibfin) | TO-20BAD (TO-83) only wt Approximate weight 700 (a.5) oTeeT Case style 21N 1805-07; 2 1909-16; 2N2023-30; TO-208AC (T0.94) (4.13) JEDEC 2N1792-1804; TO-208AD TOea) TATA JEDEC *JEDEC registered values, 2N1803, 2N1B8O4: Ry, = 0.35 deg. CW. FUL ( CCLE (AMPERES) AVERAGE ON STATE CURRENT OVER 45 140 75 cd 105 100 120 130 MAXIMUM ALLOWABLE CASE TEMPERATURE (SC) BS 110 262023 SERIES. (BOT7OM SCALE] Fig. 1 On-State Current Vs, Case Temperature (Sinusoidal Current Waveform, 50 to 400 Hz) 125 AVERAGE ON-STATE CURAENT OVER FULL CYCLE IAMPERES) 138 10 116. tag a5 98 105, 100 110, 1% 130 2N2023 SERIES MAXIMUM ALLOWABLE CASE TEMPERATURE (C! (BOTTOM SCA. e} Fig, 2 On-State Current Vs. Case Temperature {Rectangular Current Waveform, 50 to 400 Hz) A-32INTERNATIONAL RECTIFIER 2N1792, 2N1805, 2N1909, 2N2023 Series 3 CONTROLLED RECTIFIER CONTROLLED RECTIFIER TURNED FULLY ON T1= 189C, 2N2023 AVEHAGE ON-STA1E POWER LOSS OVER FULL CYCLE (WATTS) AVERAGE ON.STATE POWER LOSS, OVER FULL CYCLE IWATTS} > Ty= 15000 T y= 125C, ALL OTHERS Ty = 125C, ALL OTHERS 5 2 40 6 1D 1201408 10 4 10? 4 108 4 of AVERAGE ON STATE CURHENT OVER ULL CYCLE IAMPERES) AVERAGE ON STATE CURRENT OVER FULL CYCLE (AMPERES! Fig. 3 Maximum Low-Level On-State Power Loss Fig. 4 Maximum High-Level On-State Power Loss Vs, Currant (Sinusoidal Currant Waveform) Vs. Current (Sinusoidal Current Waveform} TURNED ga@8 8 % "= 15000, 202029 Ty = 125C. ALL OTHERS & = 7 > Ty= 126C, ALL OTHERS 8 TURNEO FULLY ON 3 AVERAGE ON-STATE POWEH LUSY OVER FULL CYCLE (WATTS) 3 OVEA FULL CYCLE (WATTS) AVERAGE ON STATE POWE I LOSS. B 56388 CONDUCTION 8B o 0 4 6 8 I 1202 140 160 10 4 102 4 103 4 104 AVERAGE ON-STATE CURRENT OVER FULL CYCLE !AMPERES) AVERAGE ON-STATE CURRENT OVER FULL CYCLE (AMPERES? Fig. 5 Maximum Low-Level On-State Power Loss Fig. 6 Maximum High-Level On-State Power Loss Vs. Current (Rectangular Currant Waveform) Vs. Current (Rectangular Current Waveform) a 2 a = g S193 = = a s = = = 5 2 z aa 5 10 & 3 5 ~ s 3 z b 2 < 2 & 5 4 z 3 : 2 s 2 z 3 z = 1259 z 3 Ty = 128C, 2 Ty = 28C 5 z z 2 5 Zo5 2 2 at 0 1 z 3 4 5 6 t INSTANTANEQUS ON STATE VOLTAGE (VOLTS) INSTANTANEOUS ON-STATE VOLTAGE (VOLTS! Fig. 7 Maximum Instantaneous On-State Voltage Fig. 8 Maximum Instantaneous On-State Voltage Vs, Current (2N1792, 2N 1805 and 2N1909 Sarias) Vs. Current (2N2023 Series)2N1792, 2N1805, 2N 1909, 2N2023 Series MAX PEAK GATE POWER 10 DISSIPATION = 5 WATTS