POWEREX INC 39E D MM 729462] CO05316 7? MPRX POWEREX Store, atte ; 2N1770-78, 2N2619 Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (412) 925-7272 Phase Control Powerex Europe, .A., 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 Ss C PR 4.7 Amperes/25-600 Volts Description k soo] Powerex Silicon Controlled Rectifiers (SCR) are reverse blocking triode TERM, | - oT . 1 . (GATE) q EE 8 thyristor semiconductor devices LAL - designed for power switching and 1 | TERM? | phase control applications. They are T= Oe all-diffused devices backed by years ott , ; i B | 5 of design and field experience. f | i , 8 Features: r Et iy. O Low Gate Trigger Current seaTine MU | Tee 1 Low On-State Volt PLANE gw ANODE) Ow On-otale Voilage m0 + O Hermetic Packaging ) Low Thermal impedance O Thermal Fatigue Resistant O Excellent Surge Ratings rd oan a on od ow al eee Po ad al od ed =e Applications: Cho O Phase Control C11, 2N1770-2N1778, 2N2619 Low Power Switching C11, 2N1770-2N1778, 2N2619 Phase Control SCR Outline Drawing 4.7 Amperes/25-600 Volts Ordering Information Example: Select the complete 6 digit part number you desire from the table i.e. 2N1778 is a 500 Volt, 4.7 Am- Dimension ain Ma. Min. Metre ae pere Phase Control SCR. A 300.400 7.62 10.16 Voltage Product BO 080 186 2.03 3.45 Type Von! Van Code Family @@ 424 1077 2N1770 25 C11U D,@ @ 400 10.16 _ 2N1771 50 C1iF E 424 437 10.77 11,10 2N1772 100 CIA e 013 330 2N1773 150 C1iG 61 060 1.52 _ 2N1774 200 CiiB F 060 175. 162 4465 2N1775 250 C11H J 700 855 17.78 21.72 2N1776 300 CiiC $M 163.189 4.14 4.80 2N1777 400 C11D 2N1778 500 C1iE N 400 6.453 610.16 11.51 2N2619 600 CiiM Ny - .078 ~ 1.98 oT 040.075 1.02 1.91 ew .1658 1697 4.212 4,310 Notes: 1. Contour and orientation of fixed terminal tugs are op- tional, The outline contour (with exception of hexagon) is optionat within zone defined by 4D and J. . Minimum diameter of seating plane. . A chamfer (or undercut) on one or both ends of hex- agonal portion Is optional. . Minimum difference In termina! lengths to establish datum line tor numbering terminals. . Pitch diameter thread 10-32 NF-2A (Coated). Reference (Screw Thread Standards for Federal Services 1957) Handbook 1957 H28. 7. Minimum spacing between terminals. naa bBo ND 65POWEREX INC 35E ) MM 7294621 0005317 9 MIPRX OWEREX Tas18 Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (412) 925-7272 Powerex Europe, S.A., 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 C11, 2N1770-2N1778, 2N2619 Phase Control SCR 4.7 Amperes/25-600 Volts Absolute Maximum Ratings, (T)=125C unless otherwise specified) c11U CliF CIIA C11G C11B Ratings Symbol 2N1770) = 2NU774 2N1772)2N1773)-2N 1774 Units Repetitive peak off-state voltage Vorm 25 50 700 150 200 Volts Repetitive peak reverse voltage VearRM 25 50 100 150 200 Volts Non-repetitive peak reverse voltage Vaso 40 75 150 225 300 Volts CtiH C11 C11D CHE C1iM QN1775 = 2N1776. 2N1777, ss 2N1778 =-2N2619 Repetitive peak off-state voltage Vorm 250 300 400 500 600 Volts Repetitive peak reverse voltage VarM 250 300 400 500 600 Volts Non-repetitive peak reverse voltage Vrsm 350 400 500 600 720 Volts C11, 2N1770-2N1778, 2N2618 RMS On-State Current ItAMs) 7.4 Amperes Average On-State Current (Nominal, See Graphs) Tp = 60C hay 47 Amperes Peak One-Cycle Surge (Non-Repetitive) On-State Current (60 Hz) hsm 60 Amperes Peak One-Cycle Surge (Non-Repetitive) On-State Current (50 Hz) ltsm 52 Amperes Critical Rate-of-Rise of On-State Current (Repetitive) di/dt 40 Alps [2t (for Fusing), 8.3 ms lt 15 Asec Peak Gate Power Dissipation Pem 5 Watts Average Gate Power Dissipation Perey 0.5 Watts Peak Forward Gate Voltage Vem 10 Volts Peak Forward Gate Current Irom 2 Amperes Peak Reverse Gate Voltage Vram 10 Volts Storage Temperature Tsta ~65 to 150 - Operating Temperature Tj -65 to 125 C Mounting Torque _ 16 in--lb. Mounting Torque 17.5 kg-cm @ Consult recommended mounting procedures; do not exceed maximums.POWEREX INC TAFMEREX 39 D MM 7294621 0005318 O BPRX T-A2SE-/3 Powerex, Inc., Hillis Street, Youngwood, Pennsylvania 15697 (412) 925-7272 Powerex Europe, S.A., 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 C11, 2N1770-2N1778, 2N2619 Phase Control SCR 4,7 Amperes/25-600 Volts Electrical Characteristics CuU CHF CIA 6CliG C11B Characteristles Symbo! Test Conditions QN1770 2N1771 2N1772 2N1773 2N1774 = Units VoltageBlocking State Maximums Forward Leakage, Peak lbrM Tj= 125C, Vp=Vonm 90 90 9.0 6.0 mA Reverse Leakage, Peak ln Ty= 125C, Va=Varm 90 90 9.0 6.0 mA Cth CtIC6c11D C1iM 2N1775 2N1776 2N1777 2NI778 2N2619 VoltageBlocking State Maximums Forward Leakage, Peak lon Tj= 125C, Vp=Vprm 0 40 2.0 2.0 mA Reverse Leakage, Peak IRM T= 125C, Vp=Vaam 50 40 2.0 2.0 mA C11, 2N1770-2N1778, 2N2619 Min. Typ. Max, CurrentConducting State Holding Current ly Vp =6V, T)=265C 8.0 Amperes Peak On-State Voltage Vim Ty= 25C, Iyy=15A _ 1.6 1.85 Volts Switching Turn-Off Time ty T= 125C _ 16 _ ps Reapplied dv/dt=20V/us Turn-On Time ton Gate supply: 7V, 20 - 1.0 _ us 0.1ns Rise Time Typical Critical dv/dt exponential to Vpry dv/dt _ _ 20 - Vins Thermat Maximum Thermal Resistance, - Junction to Case Ring-o) - 1.5 3.1 C/Watt Gate Maximum Parameters Vp =12V, RL=2500, T.=-65C 9 20 30 mA Gate Current to Trigger lar Vp =12V, Ri =2500, _ 4 8 mA Vp= 12V, R, =2502, 10 15 mA Gate Voltage to Trigger Vet Vp=12V, R_=2500, T}=25C 3= 1.3 2.0 Volts Non-Triggering Gate Voltage Vap Vo=Vprm: RL =2500, T)=125 0.3 0.7 ~POWEREX INC LOIWEREX 39E D MM 72594bel 0005319 2 MEPRX T-Q5-)3 Powerex, Inc., Hillls Street, Youngwood, Pennsylvania 15697 (412) 925-7272 Powerex Europe, S.A., 428 Avenue G, Durand, BP107, 72003 Le Mans, France (43) 41.14.14 C11, 2N1770-2N1778, 2N2619 Phase Control SCR 4,7 Amperes/25-600 Volts MAXIMUM ON-STATE CHARACTERISTICS ~ o oe [Cm wmmes Tom 125C Ld a ad = INSTANTANEOUS ON-STATE VOLTAGE, Vr, (VOLTS) oo _ a a i) 1071 10 10! 10? INSTANTANEOUS ON-STATE CURRENT, It, (AMPERES) MAXIMUM ALLOWABLE AMBIENT TEMPERATURE FOR VARIOUS SINK(FIN) SIZES C) = to So _ o =] oa oO 60 40 20 MAXIMUM ALLOWABLE AMBIENT TEMPERATURE, Ta, 0 0 1 2 3 4 5 AVERAGE ON-STATE CURRENT, Inan, (AMPERES) MINIMUM GATE CURRENT REQUIRED TO TRIGGER ALL DEVICES 3.0 2.5 2.0 1.5 1.0 GATE VOLTAGE, Va, (VOLTS) 0.5 0 0 5 10 15 20 25 30 35 40 GATE CURRENT, fa, (mA) Maximum Gate Vottage that will not Trigger Any Units at 125C = 0.3 V INSTANTANEOUS ON-STATE VOLTAGE, Vr, (VOLTS) MAXIMUM ALLOWABLE CASE TEMPERATURE, Te, (C) MAXIMUM ON-STATE CHARACTERISTICS (HIGH LEVEL) 14 cm enw |C = 12 ne Tom 126C 10 i 8 Ta a 6 4 vy 44 4 . 457 2 0 10! 102 103 INSTANTANEOUS ON-STATE CURRENT, Ir, (AMPERES) MAXIMUM ALLOWABLE CASE TEMPERATURE (SINUSOIDAL WAVEFORM) 160 140 120 100 80 60 40 20 }- Angle oO 0 1 2 3 4 5 66 AVERAGE ON-STATE CURRENT, law, (AMPERES) GATE CHARACTERISTICS 16 TTT Maximum Gate Voltage that will not 44, > Trigger Any Unis at 125C = 0.3 V @ 12 Max, Voz = 10V 5 g | | 3 10 | a % Max. Allowable Instantaneous g 8 * Gate Power Dissipation = 7 2 6 > ef 4 ela 2 Ver = 2A 0 1 0 04 08 12 16 20 24 GATE CURRENT, 's, (AMPERES) MAXIMUM ON-STATE POWER DISSIPATION (SINUSOIDAL WAVEFORM) | naucton t 4290 180 Aj Angle ; 90 7 oo a I), LL aw JY / Lh yr MAXIMUM POWER DISSIPATION, (WATTS) ont ft Oo hk or DW N 0 1 2 3 4 5 6 AVERAGE ON-STATE CURRENT, Ian, (AMPERES)