DHS BBC BROWN BOVERI BROWN, BOVERI & CIE AKTIENGESELLSCHAFT MANNHEIM Geschafisbereich Halbleiter und Stromrichter Tel. (06206) 503-1, Telex 04-65 727 Postfach 200, D-6840 Lampertheim Brochure Order No. 60625/3 E FiNC Silicon Controlled Rectifiers Series 40C 63 Amperes RMS 40 Amperes Average Data and Diagrams are related to 60 cycles Catalog Peak Voltage Number forward and reverse Repetitive Transient* 40C10B 100 200 40C20B 200 300 40C30B 300 400 40C40B 400 500 40C60B 600 720 40C80B 800 960 *Maximum nonrepetitive Electrical Characteristics Forward Conducting It avg Average forward current 40A Vtm Maximum peak forward voltage drop at 25C at 175 A peak, 180 conduction angle 1BV th Maximum holding current at 25C 200 MA Itsm Maximum peak one cycle surge current 1000 A rt l?t for fusing (for times = 1.5 milliseconds) 4100 ASec. Idm Maximum forward leakage current at 125C and recurrent peak voltage 5 MA t off Typical turn off time at 125C (refer to Note 2) 80p Sec. ton Typical turn on time at 25C (refer to Note 3) 5.0. Sec. tr Typical rise time 2.04 Sec. td Typical delay time 3.0p Sec. Reuc Maximum thermal impedance, junction to case (DC) 0.35C/W Tj Operating junction temperature 126C Tstg Storage temperature 40C to 150C Blocking trm Maximum reverse leakage current at 125C and recurrent peak voltage 5 MA dv/dt Minimum critical exponential rate of rise of forward blocking voltage at 125C 200 V/z Sec. Triggering / Vogt Maximum gate voltage to-trigger at 25C 3.0V Vgt Typical gate voltage to trigger at 25C 11V Vgd Maximum nontriggering gate voltage at 125C 0.25V igt Maximum gate current to trigger at 25C 100 MA Igt Typical gate current to trigger at 25C 50 MA Pgm Maximum peak gate power 10W Pg avg Average gate power 1.0W Igm Maximum peak gate current 3.0A Vgm Maximum peak gate voltage (forward) 20V Vgm Maximum peak gate voltage (reverse) 10V Mechanical Characteristics Base High strength, nickel-plated copper with 4-28 UNF 2A thread for through mounting on a heat sink Nickel plating produces low contact resistance and prevents corrosion Header Glass to metal construction, hermetically sealed to base Weight Approximately .635 ounces, 18.0 grams Mounting Torque 30 in. Ibs. maximum Note 2: Note 3: Ip = 504; VR = 50V, ip = 50A; Vgt = 12 V Open Circuit; widt = 20 di/dt = 5A Via Sec; 20 Ohms 0.1% Sec. Rise Time; /pe Sec.; VorM = Rated Vorm = RatedSilicon Controlled Rectifiers Series 40C 63 Amperes RMS / 40 Amperes Average Figure 1 Maximum case temperature, sinusoidal half wave 128 T T T 360 120 2 DY 4 a ae $ 112 N S PS Conduction 4 2 (ar 3 \ SN angle 3 N S 8 104 ROA ES E YN AS >< 9 N NN 96 5 NN E l z= 88 t T x *30 =*60 *90 *120 *180 *360 = 80 LI Ll I Li Ld 1 0 7 14 21 28 35 42 49 56 63 Average Forward CurrentAmperes Figure 2 Maximum case temperature, rectangular wave 128 + r 360 Zz. "7 O re SS ! : ' | J 1 12 NX RX *y oo | 5 N WN Conduction Fe XN \ Py. angle 8 104 PSP NY : YN D 96 . 8 ~ 5 es | & *30 *60 *90 *120 *180 *360 = 80 LJ i lL f J J ft ul 0 8 16 24 32 40 48 56 64 72 Average Forward Current--Amperes Figure 3 Maximum power dissipation, sinusoidal half wave T 3e 0) 2 + le A & mr |G Yr ja 180 7 el / ard [+] Ms 120 7 56+- Conduction #90 va Ee angle OL CZ 2 a | 60 WY 8 1 7, sso WY 5 VLE = 28;- Oo a E 2 14 7 x oO = 0 0 7 14 21 28 35 42 49 56 63 Average Forward CurrentAmperes Figure 4 Maximum power dissipation, rectangular wave 96 t T 2 360 *360 g Pat = or A d co *180 weed bd = 64 + ras *120 4 o Conduction sane Cs D arigle 9, a 48 l *60 O/ QO I y Y 7 g *30 Y; a 32 }_+ a _ 5 16 x = 0 0) 8 16 24 32 40 48 56 64 72 Average Forward CurrentAmperesFigure 5 Maximum transient thermal impedance 0.7 0.6 a o n o wo 7 Z ra o a Transient Thermal Impedance Junction to Case (C/W) oO hw ok .001 01 0.1 1.0 10 100 Pulse Duration Seconds Figure 6 Maximum surge current (nonrepetitive) at rated load conditions 1100 1000 n 2 o 900 < & | 800 5 pa 5 700 = 3 F-~__| 5 600 5 u 500 x oO & 400 1 2 4 6 8 10 20 40 60 80100 Cycles at 60 Hertz Sinusoidal Figure 7 Maximum forward on-state characteristics 1000 100 10 Instantaneous Forward Current Amperes 1 0 10 20 30 40 50 60 7.0 Instantaneous On-state Voltage VoltsG H e Jet f- K le L M anode on stud Dim. Inches Millimeters ___ Notes Minimum Maximum Minimum Maximum A 57 58 14.48 14.73 B 67 68 17.02 17.27 Cc .24 .30 6.09 7.62 D 45 17 3.61 4.32 Dia. E 12 _ 3.05 F 12 14 3.05 3.56 G .05 06 1.27 1.52 H 1 J 48 51 12.19 12.95 K 79 86 20.07 21,84 L 41 44 10.41 11.18 M 1.19 1.25 30.27 31,76 Dimensions in accordance with JEDEC outline TO-65 Note: Furnished only on request: Hex Jam Nutnickel-plated steel Internal Tooth Lockwashernickel-plated steel! Mica Washer .005" (0.13mm) thick Flat Washernickel-plated steel Note 1: Ya-28 UNF-2A Terminal .040 (1.02 mm) thickcopper tin plated Teflon Bushing .054" (1.37mm) thick Klassifikations-Nr. 0701/542 HS 1976 E-I/2 (8.76.3) B 403-2765 PE Printed in the Federal Republic of GermanyBROWN BOVERI BROWN, BOVERI & CIE AKTIENGESELLSCHAFT MANNHEIM Geschaftsbereich Halbleiter und Stromrichter Tel. (06206) 503-1, Telex 04-65 727 Postfach 200, D-6840 Lampertheim Brochure Order No. D HS 60625/4 E FiIvIC Silicon Controlled Rectifiers Series 55C 86 Amperes RMS 5 Amperes Average Data and Diagrams are related to 60 cycles Catalog Peak Voltage Number forward and reverse - Lead type* Repetitive Transient** 55C10B 100 150 55C20B 200 00 55C30B 300 400 55C40B 400 500 55C60B 600 720 55C80B 800 960 55C100B 1000 1200 55C120B 1200 1440 *For insulated cathode lead add suffix IL to catalog number **Maximum nonrepetitive Electrical Characteristics Flag type 55C-BF on request (TO-83) Forward Conducting It avg Average forward current 55 A vim Maximum peak forward voltage drop at 25C at 220 A peak, 18( conducting angle 22V Ih Maximum hatding current at 125C 200 MA Itsm Maximum peak one cycle surge current 1200 A 1 lt for fusing (for times = 1.5 milliseconds) 6000 A?Sec. {dm Maximum forward leakage current at 125C 10 MA t off Typical turn off time at 125C (refer to Note 3) 100 Sec. ton Typical turn on time at 25C (refer to Note 4) 5.0u Sec. tr Typical rise time 2.0u Sec. td Typical delay time 3.0 Sec. Rese Maximum thermal impedance, junction to case (DC) 0.32C/W Ti Operating junction temperature 126C Tstg Storage temperature ~40 C to 150C Blocking Irm Maximum reverse leakage current at 125C 10 MA dv/dt Minimum critical exponential rate of rise of forward blocking voltage at 125C 200 Vis Sec. Triggering Vogt Maximum gate voltage to trigger at 25C 3.0V Vgt Typical gate voltage to trigger at 25C 13V Vgd Maximum nontriggering gate voltage at 125C 0.25 V Igt Maximum gate current to trigger at 25C 100 MA Igt Typical gate current to trigger at 25C 50 MA Pgm Maximum peak gate power 15.0 W Pg avg Average gate power 3.0 W Igm Maximum peak gate current 4.0A Vgm Maximum peak gate voltage (forward) 20V Vgm Maximum peak gate voltage (reverse) 10V Mechanical Characteristics Base High strength, nickel plated copper with Ye-20 UNF 2A thread for through mounting on a heat sink Nickel plating produces low contact resistance and prevents corrosion Header Ceramic to metal construction, hermetically sealec| to base Weight Approximately 3.6 ounces, 102.0 grams Mounting Torque 150 in. tbs. maximum Note 3: Note 4: Ip = 50A; VR = 50 V: Ip = 50A; Vgt = 12 V Open Circuit; dv/dt = 20 Viz Sec.; 20 Ohms 0.14 Sec. Rise Time; di/dt = 5 A/p Sec.; Vorm = Rated Vorm = RatedSilicon Controlled Rectifiers Series 55C and 55C-F 86 Amperes RMS / 55 Amperes Average Figure 1 Figure 3 Maximum case temperature, sinusoidal half wave Maximum power dissipation, sinusoidal half wave 130 | 180 | T 420 360 360 D \D 2 150;- le D Yy~* 110 \ SS Phe MS = bh *180 SA a So ee 3 @ WNS N Conduction c 120 Conduction #12014 3 100 NY Iw angle = angle | wif : JAXX 3 | seo J & 90 \ N Pe g 90 *30 LS Bot LV AANA ON TM : \ \ \ N z 6 Ay oO Oo 2 7 \ Y E 60 ~* / a *30| *60| *90 *120 *180 = *360 5 = 50 L Ld Ll | 1 i = QO 0 12 24 36 48 60 72 84 0 10 20 30 40 50 60 70 80 90 Average Forward CurrentAmperes Average Forward CurrentAmperes Figure 2 Figure 4 Maximum case temperature, rectangular wave Maximum power dissipation, rectangular wave 130 180 T T 2602 360 se 120 on Cal LZ. 9 110 So. 8 pA A 180 | * S thet bo 120 /| @ Ss PN drop SC *90 Z| 7" 5 100 NJ ~~ Conduction 2 Conduction sco / A BEINN: FL ome PZ a 90 a 90 *30 : AXA SS ME " 80 yNN LZ YA 1 O 70 a. 30 60 a *30}| *60]| *90 *120 *180 *360 a = 50 et u S 0 0 12 24 36 48 60 72 84 96 0 10 20 30 40 50 60 70 80 90 Average Forward CurrentAmperes Average Forward CurrentAmperesFigure 5 Maximum transient thermal impedance 0.4 LL 03 ' A ( & || Os ra 8S 0.2 Eo Lt go L) Es B 2 o1 4 eo LA G6 Ler a= BS 9 ro "001 01 0.1 1.0 10.0 100 Pulse DurationSeconds Figure 6 Maximum surge current (nonrepetitive) at rated load conditions 1200 1100 1000 900 800 ~ 700 Peak Forward CurrentAmperes 600 4 2 4 6 8 10 20 40 60 80 100 Cycles At 60 Hertz Sinusoidal Figure 7 Maximum forward on-state characteristics 10000 1000 100 Instantaneous Forward CurrentAmperes i 0 10 20 30 40 50 60 7.0 Instantaneous On-State VoltageVoltsDim. Inches Millimeters Notes Minimum Maximum Minimum Maximum A 1 B 1.05 1.06 26.72 26.87 2 Cc 78 81 19.86 20.62 D 28 35 7.14 8.79 E 1.04 1.06 26,42 26.97 F 1.61 1.75 40.89 44.45 G 83 89 21.08 22.61 Dia. H 7.13 7.62 18098 193.68 Dia J 6.00 6.50 162.40 165.10 K 32 38 8.26 9.60 L 14 15 3.56 3.81 M 45 55 11.43 13.97 N 25 28 6.38 7.14 Pp 14 15 3.56 3.81 Dimensions in accordance with JEDEC outiine TO-94 anode on stud Note: One nickel-plated hex nut and one internal tooth lockwasher are furnished with each silicon controlled rectifier Note 1: Note 2: Ya-20 UNF-2A Across flats Klassifitations-Nr. 0701/542 Printed in the Federal Republic of Germany HS 1977 E-1/2 (8.76.3) B 404-2765 PE