INTERNATIONAL RECTIFIER AT Ee - TIT TN WL SHAT TTS IS 5 INTERNATIONAL RECTIFIER | TE42R 855452 LNTERNATIONAL RECTIFIER 55C 04823 oO Data Sheet No. PD-3.082 T=2QS-17 2N1792, 2N1805, 2N1909, 2N2023 SERIES 110 Amp RMS SCRs Major Ratings and Characteristics 2N1909 thru 2N1916 2N1792| 2N1805|2N2023 thru thru thru 2N1804[2N1807; 2N2030|Units IT( RMS) 110 110 110 A IT(AV} 70 | 70 70 A @Tc 66 62 gs Sc ITsmM _@ 50 Hz 965 | 955 | 955 A @ 60 Hz 1,000* | 1,000 | 1,000 (2t @50 Hz 4,580 | 4.560 | 4,550 | 2, @ 60 Hz 4,150 | 4,150 | 4,150 lot 70 70 70 mA dv/dt 200 200 50 Vius di/dt 100 100 100 A/us T -65 to | -40* to! -65 to 4 125" | 125* | 150" | C VrRM. VorRMrange| 50 to [ 25 to | 25 to v 1,200* | 840 400 *JEDEC registered values CASE STYLE AND DIMENSIONS 159.13 | (6.265) MAX, | Case style (ceramic) A-11 furnished when part is rated 1000V ar higher. A-13 (glass) for parts below 1000V. JAN and/or JAN/TX types available, A-29 Description/Features @ For general purpose phase control applications Mi Forward and reverse voltage ratings up to 1200V Mi High temperature series BB High surge rating WM Standard 1/2" 20 stud Mi Can be supplied as JAN and JAN-TX devices in accordance with MIL-S-19500/203 or MIL-S-19500/204, *JEDEC registered values, 146010575) 381 (0 150) 20710475) 3 580.0) 71110 280) 189 $3 (6 265) 14986 (5 900} a9 (0.150) MAX. 2100(0327) 2025 (0 297) Feria 260)" | 8.89 (0350) MIN : J 20 44 (0.805) 19 05 {0 780) j Parner 7&2 {0.300} DIA. MAX (2 PLACES) 190 $0 (7 500} 173 $9 (6.850) REO LEAD tAUXELIARY CATHODE woe Refer to Page A-34 for flag terminal Case Style ACADSS FLATS All Dimensions in 12-20 UNF-2A Millimeters and (inches) IR Case Style A-13 Conforms to JEDEC Outline TO-208AC (TO-94) De uassuse Ooo4sea 5S _INTERNATIONAL RECTIFIER 2N1792, 2N1805, 2N1909, 2N2023 Series 4855452 INTERNATIONAL RECTIFIER 55 Def 4855452 0004824 55C 04824 D INTERNATIONAL RECTIFIER [TeR| VOLTAGE RATINGS (Applied gate voltage zero or negative) T-25-17 Vaso ~ Max. Verm Max. Vorm Max. Non-Repetitive Peak Repetitive Peak Repetitive Peak Reverse Voltage Reverse Voltage Off-State Voltage th <5oms Part Numbers (v) w@ (v) TO-208AD TO-208AC TO-208AC Ty=40C to 125C Ty =40C to 125C T= 25C to 126C Case Case Case - 2N1909 2N2023 25 25* 35* 2N1792 2N1910 2N2024 50? 50 70 2N1793 2N1914 2N2025 100 100 150* 2N1704 2N1912 2N2026 160 150* 226 2N1795 2N1913 2N2027 200 200* 300 i 2N1796 2N1974 2N2028 250 250 350* 2N1797 2N1915 2N2029 300 300 400* 2N1798 2N1916 2N2030 400 400 s00* 2N1799 2N 1805 - 600 500* 625 2N1800 2N 1806 - 720* 600* 750* 2N1801 2N1807 - 840* 700* g80* 2N1802 - - 960* got . 1000" - 2N1803 - - 1080* 90o* 1130* 2N1804 - - 1200* 1000* 1250* ELECTRICAL SPECIFICATIONS 2N1792 to 2N 1909-16 2N1804 2N1805-07 | 2N2023-30 | Units Conditions ON-STATE i It(Rms) Max. RMS on-state current 110 110 110 . i I Max. average on-state current 70 70* 70 | TIAV) @ Max. Ten 180 half sine wave condition. i 65* 62" 85 C ltsm Max, peak one cycle, non- 955 965 955 50 Hz half cycle sine wave Fojtowing any rated load condition, repetitive surge current A or 6 msrectangutar pulse and with rated Varn 2eplied 1000 1000* 1000" 60 Hz half cycle sine wave following surge. SCR turned or 5 ms rectangular pulse fully on. 1150 1160 1160 50 Hz half cycle sine wave same conditions as above except A or 6 msrectanguiar pulse with Vir applied following 4200 1200 1200 60 Hz half cycle sine wave #urge = 0. or 5 ms rectangular pulse rt Max. lt capability, for fusing} 4550 4550 4550 ats t= 10 ms Rated Varies 8pplied following surge, i 4150 4150 4150 t=8.3 ms_ initial Ty = max. rated i 121 Max. |?t capability, for 6450 6450 6450 t=40 ms i individual device fusing As Varm 9 following surge, 900 5900 5900 t=8.3 ms_ Initial Tj = max. rated A Max. 13,4 capability, for 64500 64 500 64 500 A2/s| 1=0,1 to 10 ms, Vag following surge = 0, individual device fusing @ initial Tj = max. rated i Vim Max. peak on-state voltage 1.85" 1.85* 1.9* Ty = 25C, Iy(ayy = 70A (220A peak} 2.0" - _ Ty = 28C, It(ay) = 70A (220A peak) 2N1803 & 2N1804 only ty Typical holding current, 20 20 20 mA Tg = 25C, anode supply = 22V, initial ly = 2A. *JEDEC registered values. Units may be broken over non-repetitively without damage if di/dt does not exceed 20 A/us. Gt for time theft Sty A-30eee INTERNATIONAL RECTIFIER 4855452 INTERNATIONAL RECTIFIER INTERNATIONAL RECTIFIER ELECTRICAL SPECIFICATIONS (Continued) 55 DE Pusssuse OOo4ees 49 i 55C 04825 D 2N1792, 2N1805, 2N1909, 2N2023 Series T-25-17 2N1792 to 2N1900-16 2N1804 2N1805-07 } 2N2023-30 | Units Conditions BLOCKING dv/dt Min, critical rate-of-rise 200 200 60 Vins | Ty = 126C Exponential to 100% rated Vor. of of f-state voltage Gate open circult. Ty = 150C for enz0da ay. ' Mox., average reverse and RIAVI off-state currant 'piavy = Yaam&Yorm = 25Vto 150V 6.5" 6.5* 6.5* = 200V 6.0* 6.5 6,0* = 250V 6.5" 5.5* 5.5" = S00V 5.0 5,0 5.0* At rated V, Vv t ted, oat freuited t rat . , Ty = max. rated, gata open circuited. * 400V 4.0* 4.0* 4.0" Raw YorM Ty gate op = 5O0V to 600V 3.a@ 33@ - = 7O0V to 800V 3.0@ 3.0@ - = Q00V to 1200V 2.7@ - - SWITCHING ty Typical delay time 1 1 1 Tg = 25C, Voy = rated Voi: Iu = BOA de resistive 8 i = = % Typical rise time 15 15 16 & circuit. Gate pulse: 10V, 2629 source, tp = Gus, ty 0.1 ys t Typical turn-off time 40 Te = 125C, Iyay = 50A, commutating di/dt = 5 A/us, min, q 40 40 (70 i i = i #8 | Vp during turn-off interval = BOV, dv/dt = 20 V/ys linear to 150C) ted V, a DRM: di/dt Max. non-repetitive rate- Te = 125C, Vw = rated VoRM of-rise of turned-on current IT 14 (2 x rated difdt) A Vprm Gate pulse: 20V, 15.2, = 25Vto 600V 100 100 100 A > Gas, t,=0.1 ns = 700V to 1200V 75 6 5 #8 | Per JEDEC Standard RS-297, 6.2.2.6. TRIGGERING Pom Max. peak gate power S* s* 5* Ww t = 6 ms max, PGIAV) Max, average gate power 0.5* 0.5* 0.57 W tigm Max. peak positive gate 2 2 2 A current *VGM Max. peak positive gate 10 10* 10 Vv voltage -Vem Max. peak negative gate 5 5* 5* v voltage let Max. required DC gate 430* 430* 150* @ To =40C, Max. required gate trigger current is the lowest current to trigger 65C value which will trigger all units with #6V enode-to-cathode. 700) 70 70 mA | Tg = 25C 40G) 40 - Te = 126C ~- - 36 Te = 160C Typical DC gate current 35 35 35 To = 26C +6V anodeto-cathode to trigger *JEDEC registered values. Vrnm 20% greater than Vp RM: @ For 2N1803, 1804: Igyt = 200 mA* 40C; 110mA @ 25C; 50 mA @ 126C. A-31INTERNATIONAL RECTIFIER 4855452 INTERNATIONAL RECTIFIER 55 DE Pf yassuse ooo4eeb o T 55C 04826 D 2N1792, 2N1805, 2N1909, 2N2023 Series INTERNATIONAL RECTIFIER(I@R| | - I 1 T-25-17 ELECTRICAL SPECIFICATIONS (Continued) 2N1792 to 2N1909-16 2N1804 2N1805-07 | 2N2023-30 | Units Conditions TRIGGERING (Cont.) Vet Max. required DC gate voltage - - 3 Te = 65C. Max. required gate trigger valtage is the lowest to trigger value which will trigger all units with +6V anode-to-cathode. 3 3 - Vv To= 40C 25 2.5 2.0 To = 25C Typical DC gate voltage 12 1.2 1.2 Te =25C +6V anode-to-cathode to trigger Veo Max. DC gate voltage not 0.25* 0.25" 0.26* @ Vv Tg = 125C. Max. gate voltage not to trigger is the maximum to trigger 1eOC value which will not trigger any unit with rated VorM anode-to-cathode. THERMAL-MECHANICAL SPECIFICATIONS * JEDEC registered values. @2N1803, 2N 1804: Ripsc = 0.35 deg. C/W. AVERAGE ONSTATE CURRENT.OVER FULL CYCLE (AMPERES) 55 65 75 85 95 105 iS 80 0 100 110 120 Ww 140 2N2024 SERIES MAXIMUM ALLOWABLE CASE TEMPERATURE (C) (BOTTOM SCALE} Fig. 1 On-State Current Vs. Case Temperature (Sinusoidal Current Waveform, 50 to 400 Hz) { Ty Operating function 65* to 40* to 65* to C q temperature range 125* 125 150* i T, Stora 40* 40* . ge temperature range to to 65* to c | sta 150" 125* 160" ? Rinse Max. internal thermal o4* 0.4* 0.4* deg. DC operation . resistance, junctlon-ta-case cw Rines Thermal resistance, 0,1 0.1 0.1 deg. Mounting surface smooth, flat and greased. case-to-sink cw T Mounting torque Min. 14,5 (125) Nem 7 Non-lubricated threads Max, 17 (150) (Ibfin) Max. torque on screw 1.4 (12} - = Nem Non-lubricated threads : in flagterminal Ubfein) | TO-208AD (TO-83) only t i wt Approximate weight 100 (3,5) g oz] i * Case style 21N1805-07; 2N1 909-16; 2N2023-30; TO-208AC (TO-94} {A-13) JEDEC U 2N1792-1804; TO-208AD (TO-83} (A-14) JEDEC 125 8 8 80 AVERAGE ON-STATE CURRENT OVER FULL CYCLE (AMPERES) Qo 85 65 6 85 85 105 115 125 80 ci 100 0 120 130 140 160 2N2023 SERIES MAXIMUM ALLOWABLE CASE TEMPERATURE (C) (BOTTOM SCALE) Fig. 2 On-State Current Vs, Case Temperature (Rectangular Current Waveform, 50 to 400 Hz) A-32 pee pemeerns mm cmt peteneertnttrentinteteaenaenereninneys ements |INTERNATIONAL RECTIFIER INTERNATIONAL RECTIFIER 160 190 1 130 RECTIFIER TURNED FULLY ON T1'= 180C, 2N2023 AVERAGE ON-STATE POWER LOSS OVER FULL CYCLE (WATTS) Ty = 125C, ALL OTHERS oO 20 40 60 a0 100 120 146 160 AVERAGE ON STATE CURRENT OVER FULL CYCLE (AMPERES) Fig. 3 Maximum Low-Level On-State Power Loss Vs. Current (Sinusoidal Current Waveform) Ty= 2N2023 Ty = 1250, ALL TURNED FULLY ON AVERAGE ON-STATE POWER LOSS. OVER FULL CYCLE (WATTS) osaezees5 288 8 o 20 40 60. 80 100 120 140 160 AVERAGE ON STATE CURRENT OVER FULL CYCLE {AMPERES) Fig. 5 Maximum Low-Level On-State Power Loss Vs. Current (Rectangular Current Waveform) na ena a Ty7 125% Ty= 25C INSTANTANEOUS ON-STATE CURRENT (AMPERES) 0 1 2 3 4 5 6 7 INSTANTANEOUS ON STATE VOLTAGE {VOLTS) Fig. 7 Maximum Instantaneous On-State Voltage Vs. Current (2N1792, 2N 1805 and 2N1909 Series} A-33 4855452 INTERNATIONAL RECTIFIER 55 DE BJ usssuse Ooo04827 2 i 55C 04827 D 2N1792, 2N1805, 2N1 909, 2N2023 Series T-25-/7 % 03 CONTROLLED RECTIFIER AVERAGE ON-STATE POWER LOSS OVER FULL CYCLE (WATTS} - J* = 2N2023 Tye ALL 10 4 102 4 103 a 104 AVERAGE ON-STATE CURRENT OVER FULL CYCLE [AMPERES} Fig. 4 Maximum High-Level On-State Power Loss Vs, Current (Sinusoidal Current Waveform} to4 4 2 =B ze ud 4 Es 22N2023 c Fe ene 2 gsr oa = 126C, ALL OTHERS g5 Se 102 se eo t z 4 | CONDUCTION ' i i 10 } 10 4 102 4 103 4 104 AVERAGE ON STATE CURRENT OVER FULL CYCLE (AMPERES) ; Fig. 6 Maximum High-Levl On-State Power Loss Vs. Current (Rectangular Current Waveform) 10# na INSTANTANEOUS ON STATE CURRENT (AMPERES) N on 0 1 2 3 4 5 6 7 INSTANTANEOUS ON STATE VOLTAGE {VOLTS) Fig. 8 Maximum Instantaneous On-State Voltage Vs. Current (2N2023 Series)INTERNATIONAL RECTIFIER 4855452 [INTERNATIONAL RECTIFIER 2N1792, 2N1805, 2N1909, 2N2023 Series E e - = MAX POWER EB, : 3 DISSIPATION = 5 WATTS 3 : = to <5ms 2 E a oO S > w 1 3 a AREA OF CERTAIN 3 3 Q e & AREA OF ALL POSSIBLE TRIGGERING POINTS 5 =z 0 02 o4 D6 0.8 Lo 4.2 4 16 20 INSTANTANEOUS GATE CURRENT (AMPERES} Fig. 9 Gate Characteristics RATED LOAD AT ANO WITH RATED Vagm FOLLOWING 3 g 2N1792-1804 2N180-16. 2N1805-07 2N2023-30 & 8 TRANSIENT THERMAL IMPEDANCE (oc/w) PEAK HALF SINE WAVE ON-STATE CURRENT (AMPERES) 2 4 6 8 10 20 40 e NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES (N} Fig. 10 Maximum Non-Repetitive Surge Current Vs. Number of Current Pulses 5S Dey 4UBSS4S2 oo04828 4 Tt 55C 04828 D INTERNATIONAL RECTIFIER | TOaR Te 25-) Vg (VOLTS) Vg (VOLTS) . Fr Van {MAX.) = = VentMAX.) = 0 02 0 a1 02 ig (AMPERES) tg (AMPERES) Ig (AMPERES! 2N7803 & 2N1792, 2N2023 2N1804 2N1805, SERIES 2N1909 SERIES Fig. 94 Areas of All Possible Triggering Points Vs. Junction Temperature 105 4 104 4 103 4 4 1071 108 4 102 tot n nN 103 5 "04 STEADY ST. 5 LONG TIME 10-2 4 101 410 . 4 10 4 102 44 PULSE DURATION {SECONDS} Fig. 11 Transient Thermal Impedance, Junction to Case, Vs. Pulse Duration test MAX 4H 228 (ofan, SRO oun, ax Tt l 341 a oA 4 10.16 {0 456) 724 0915] DA 915 0300) MAX, T TT iaabe . 45.97 (1.81! 1,90 (0.075) aye iyi TBH om, t tT zw 1 20-44 10.005) | Lan 0.385 aE aie aa 57 i, Fara 20 eae ACROSS FLATS ma (07s LJ 4267 Sez on. 172.20 UNF 2A [+-29.26 (1 1581 REF. ACACSS CORNERS IR Case Style A-14 Conforms to JEDEC Outline TO-208AD (TO-83} Ali Dimensions in Millimeters and (Inches)" A-34 bien oe