POWMEREX 2N1909-2N1792 Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 Phase Control SCR 70 Amperes Average (110 RMS) 600 Volts K DIA. HOLE ri H DIA. HOLE - CATHODE POTENTIAL REO GATE WHITE fo CASE NUMBER T5! NOMINAL OIMENSIONS -500-20 UNF 1.055 4 26.80 MM ACROSS FLATS STRIKE DISTANCE = 17 INCH 7 4.3 MM MIN, CREEPAGC OISTANCT = .i7 INCH / 4.9 MM MIN. MARKING - 2A THO. Scale = 2" SYM. A B Cc Oo E F G H J K INCHES Bl 34 98 i.53 -80 6.04 48 266 7.38 146 MM 20.6 8.6 249 38.9 22.9 153.4 12.2 6.76 | 1B7.4 | 3.71 ALL DIMENSIONS ARE REFERENCE 2N1909-2N1792 (Outline Drawing) Ordering Information: Select the complete six digit part number you desire from the table, i.e. 2N1800 is a 600 Volt, 70 Ampere Phase Control SCR. Voltage Current VprM Type VRRM tav) 2N1909 25 70 2N1910 2N1792 50 2N1911 2N1793 100 2N1912 2N1794 150 2N1913 2N1795 200 2N1914 2N1796 250 2N1915 2N1797 300 2N1916 2N1798 400 2N1805 2N1799 500 2N1806 2N1800 600 2N1909-2N1792 Phase Control SCR 70 Amperes Average (110 RMS), 600 Volts Features: Center Fired, di/namic Gate All Diffused Design Low Gate Current Compression Bonded Encapsulation O OOOO Low VT Applications: [] Phase Control [] Power Supplies [] Motor Control [] Light DimmersPOWEREX Oe Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14,14 2N1909-2N1792 Phase Control SCR 70 Amperes Average (110 RMS), 600 Volts Absolute Maximum Ratings Characteristics Symbol 2N1909 - 2N1792 Units RMS Forward Current IT(rms) 110 Amperes Average Forward Current It(av) 70 Amperes One-half Cycle Surge Current ITSM 1000 Amperes Minimum Rate of Rise of On-State Current (Non-Repetitive) di/dt 800 A/usec @t (for Fusing), 28.3 milliseconds it 4000 A2sec Storage Temperature Tstg -40 to +150 C Operating Temperature Tj -40 to +125 C Mounting Torque (Lubricated) 130 in-IbPowerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 2N1909-2N1792 Phase Control SCR 70 Amperes Average (110 RMS), 600 Volis Electrical and Thermal Characteristics 3 52 52 52 &8 2 EB 52 22 28 Characteristics Symbol z z z z z z z z z z z = z z z = z = = Units Current - Conducting State Maximums, Tj = 125C Forward Voltage Drop at IT,xq = 500A Average, VTNy 2.3 (All Types) Voits qj = 25C Voltage - Blocking State Maximums Repetitive Peak Forward Blocking Voltage VorRM 25 50 100 150 200 250 300 400 500 600 Volts Repetitive Peak Reverse Voltage VraRm 29 50 100 150 200 250 300 400 500 600 Volts Non-rep. Trans. Peak Rev. Voltage Vasm 35 75 150 225 300 350 400 500 600 700 Volts Forward Leakage Current lonm 20 20 20 20 18 16 14 12 10 10 mA Reverse Leakage Current InRum = 20 20 20 20 18 16 14 12 10 10 mA Switching Typical Turn-off Time, !7 = 50A, dip/dt = 5 A/sec, tq 100 (All Types) psec reapplied dv/dt = 20V/usec linear to 0.8 Vorny, Tj = 125C Typical Turn-on Time, !7 = 100A, Vp = 100V ton 4 (All Types) psec Minimum Critical dv/dt Exponential to Vorny dv/dt 300 (All Types) Viusec Tj = 125C Therma! Maximum Resistance, Junction to Case Reij-c) 0.40 (All Types) CWatt Maximum Resistance, Case to Sink (Lubricated) Rgic-s) 0.12 (All Types) C/Watt Gate - Maximim Parameters Gate Current to Trigger, T; = 25C, Vp = 12V let 70 (All Types) mA Gate Voltage to Trigger, Tj = 28C, Vp = 12V VGT 3 (All Types) Volts Non-Triggering Gate Voltage, Tj = 125C, VGpM 0.25 (All Types) Volts Vopr = Rated Peak Forward Gate Current IGTM 4 (All Types) Amperes Peak Reverse Gate Voltage VGRM 5 (All Types) Volts P-13POWEREX NEE Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (412) 925-7272 Powerex, Europe, S.A. 428 Avenue G. Durand, BP107, 72003 Le Mans, France (43) 41.14.14 2N1909-2N1792 Phase Control SCR 70 Amperes Average (110 RMS), 600 Volts Maximum Forward Voltage VS. Forward Current Transient Thermal Impedance VS. Time 7 50 3 > 6 3 = S40 5 Ts = 126C e 5 a 3 & / 5 30 4 53 3 8 > A z3 3 s ag .20 ; / Es 2 f a = a Eo 2 ra a. 3 ' on rs 10 7 = an SS QO ; fe) ee 2 10 20 50 100 200 500 1K 2k 5K 10K 0001 001 01 d 1 10 100 1000 Forward Current, ITM, Peak Amperes Time, t, Seconds 180 Maximum Power Dissipation VS. Forward Current Maximum Case Temperature VS. Forward Current 140 | d-c seol z | | 2 H a f 140). a Lf 120 : ) | 5 ee 180 JL. | 9 Conducta | & 120 120 f las al a WA J HK 5 400 N DN 5 100 60 WY / 5 \ \ 5 a 80 30 / 3 \ : / LL 7 Lf) r E 80 30 N \ SS E 60 of 2 \ 3 y 3 60 go 2 A co = 60 120. 480 N 20 d-c 0 2 40 iO a0 40 : 7 0 0 6 100 120 9 20 40 60 Bo. -:100 120. +140 Average Forward Current. Amperes Average Forward Current, Amperes Maximum Power Dissipation VS. Forward Current 140 Maximum Case Temperature VS. Forward Current 780 140 120 120 L z poe ee A 120 = 60 = 100} FG ; ae VAT y SY Ss ae % 80 AA f. Lf. 100 ~ 3 i i 3 NX NQ = 60 L E i AA 2 80 IN Ne 8 IN E i 60 IN 3 60 120 = 20 180 10 20 30 40 50 40 60 70 80 : 10 20 30 40 50 <0 = a Average Forward Current, Amperes Average Forward Current, Amperes