TO-92 TO-202AB TO-218X GENERAL INFORMATION The Teccor Electronics line of thyristor SCR semi-conduc- tors are half-wave, unidirectional, gate-controlled rectifiers which complement Teccors line of sensitive SCRs. Teccor offers devices with ratings of 1-70 amps and 30-800 volts, with gate sensitivities from 10-50 milliamps. If gate currents in the 1-500 microamp ranges are required, please consult Teccor's sensitive SCR technical data sheets ELECTRICALLY ISOLATED PACKAGES Teccor's SCRs are available in a choice of nine different device packages. Four(of the eight) packages are offered in electrically isolated construction where the case or tab is internally isolated to allow the use of low-cost assembly and convenient packaging techniques. TO-218AC THERMOTAB TO-220AB ELECTRONICS, INC. A SIEBE COMPANY 1801 HURD DRIVE IRVING, TEXAS 75038-4385 PHONE 214/580-1515 FAX 214/550-1309 SCRs (1-70 Amps) The Teccor line of SCRs features glass passivated device junctions to ensure long term device reliability and parame- ter stability. Teccors glass offers a rugged, reliable barrier against junction contamination. Variations of devices covered in this data sheet are available for custom design applications. Please consult the factory for more information. Features . Electrically isolated packages High Voltage Capability 30-800 High Surge Capability up to 980 ar uy Glass Passivated Chip _ Teccor Electronics, Inc. SCRsElectrical Specifications Part Number kr Vor & ier lor & IRM Vim Ver Isolated Non-lsolated RRM Maximum Repetitive DC Gate Peak Off-State Peak On- | DC Gate- On-State Peak Trigger Forward & Reverse State Trigger amen Curent Off-State Current Current at Voltage at Voltage [2] (1) (2) Forward Vp = 12VDC Vorm & VRRM Max Vp = 12VDC & Reverse Ry =60Q (13) Rated Ri = 600 Voltage (4) RMS (8) TYPE | Current A K G Te = 28C; A Amps mAmps (3) Volts HRMS)} TAY) Te= | To= | Toe Tc= | To= TO-92 | TO-220AB | TO-202AB | TO-220AB Votts mAmps 25C | 100C | 125C) Volts | 25C | 125C For Package Dimensions & Variations, See Page 95 MAX MAX MIN MIN | MAX MAX MAX MAX | MIN SO61E 1.0 0.64 50 1 10 1 0.2 05 16 415 | 02 1.0 S101E 10 0.64 100 1 10 01 0.2 O5 16 15 | 0.2 Amp S201E 10 0.64 200 1 10 Of 02 05 18 15 | 0.2 S401E 4.0 0.64 | 40 4 10 Ot 02 Os 16 18 | 0.2 S601E 10 O64 600 4 10. |. OF 0.2 O05. 16 15 | 0.2 S0504F1 40 2.54 50 1 10 O01 | 02 0.5 16 15 0.2 4.0 $1004F1 4.0 2.54 100 1 10 .01 0.2 05 16 15 | 02 " ps $2004F1 40 2.54 200 1 10 01 0.2 05 1.6 15 | 02 $4004F1 40 2.54 400 1 10 01 0.2 05 1.6 15 | 02 S6004F1 40 2.54 600 1 10 01 0.2 05 1.6 15 | 02 SO506L SO506F1 60 38 50 i 18 Ot 0.2 05 16 18 | 0.2 6.0 S1006L S$1006F1 60 38 100 i 18 at 0.2 O05 16 15 | 0.2 Amps $20061. S2006F1 60 38 200 1 18 Ot 02 O05. 16 15 | 0.2 S4006L. S4006F1 60 58 Baily 1 16 Ot 0.2 0S 186 15 | 0.2 S6006L. S6006F1 8 38 600 1 16 Ot 82 05 16 15 | 0.2 Ss8006. 6O. | 38 800 1 18 Ot 0.2 05 1.6 15 | 02 $0508L S0508F1 S0508R 8.0 51 50 1 15 01 0.2 O5 1.6 15 | 02 8.0 $1008L S1008F1 $1008R 8.0 5.1 100 1 15 01 0.2 05 16 15 | 02 Amps $2008L S2008F1 $2008R 8.0 5.1 200 1 15 .01 0.2 05 1.6 1.5 | 0.2 $4008L S4008F1 $4008R 8.0 51 400 1 15 01 0.2 05 16 15 | 02 $6008L S6008F1 S6008R 8.0 5.1 600 1 15 01 0.2 O5 16 15 | 02 S8008L $8008R 8.0 5.1 800 1 15 01 0.2 05 16 15 0.2 Figure 1AMaximum Allowable Ambient Temperature vs RMS Figure 1BMaximum Allowable Ambient Temperature On-State Current vs Average On-State Current 120 ta a 120 + r 1 7 CURRENT WAVEFORM: Sinusoidal CURRENT WAVEFORM: Sinusoidal LOAD: Resistive or Inductive LOAD: Resistive or Inductive CONDUCTION ANGLE: 180 oO ~ CONDUCTION ANGLE: 180 100 FREE AIR RATING 4 7, 100 FREE AIR RATING 1 N\ o | a \ xy o aN! 3 E ax sk Yo. So \ YX $ @ 80 N SD > So = 5 80 ON Mo 83 INK! < =e A Ys + 25 1 AWM, gd ALN 3 E A) POW ES 60 % z Es 60 a Sy OS ge a\ Sf = 4 & > Sa Q a C BN ON D> 25 & } 25 \) AK 2 a 6 a . | @ 9 20 20 | 0 02 04 06 01 10 1214 16 18 20 22 oO 02 04 06 (08 8610 12014 RMS On-State Current [l7(_ms)l - Amps Average On-State Current Ir Av) - Amps Teccor Electronics, Inc. 52 SCRsSCRs hy lou Pom Poway) rsa dvidt Ft di/dt tgt ty DC Holding Peak Gate Peak Gate Average Peak One Critical Rate RMS Surge Maximum =| Gate Controlled Circuit Current Current Power Gate Power Cycle Surge: of Applied (Non- Rate-ofRise | Tum-On Time | Commutated Gate Open (11) Dissipation Dissipation Forward Forward Repetitive) of On-State Gate Pulse Tum-Off (5) (12) (11) Current Voltage On-State Current = 100mA Time (6) (10) Current Ig = 150mA Minimum (9) (10) for a Period with 0. 11s Width=15uS of 8.3 ms Rise Time with Rise for Fusing Time < 0.11S ! Amps Volts/uS (7) 60Hz SOHz Tco= Tc = 2 mAmps Amps Watts Watts 1 oorc ' oorc Amps*Sec Amps/uSec Sec pSec MAX MIN MIN MAX MAX a 18 18 0.3 x 25 40 30 a7 50 2.0 36 25 18 15 03 30 26 4 30 3.7 50 20 3 26 16 16 03 30 26 40 2 37 50 20 35 26 15 15 0.3 30 r::) 40 a 37 50 2.0 36 2) 16 15 0.3 30 r:) 40 30 37 50 2.0 6 2 15 15 0.3 30 25 40 30 37 50 2.0 36 25 15 15 0.3 30 25 40 30 37 50 2.0 35 25 1.8 15 0.3 30 25 40 30 37 50 2.0 35 25 15 15 0.3 30 26 36 25 37 50 2.0 35 25 15 15 0.3 30 25 3% 25 37 50 2.0 35 30 2.0 2 os 100 8&3 175 125 41 100 2.0 3 30 2.6 20 05 100 8&3 176 125 41 100 2.0 36 30 2.0 20 05 100 83 476 125 a 100 20 36 3 2.0 20 06 100 8 176 125 a1 100 2.0 36 30 2.0 20 3.) 100 83 160 110 1 100 2.0 36 30 2.0 20 05 100 &3 180 100 41 100 2.0 36 30 2.0 20 05 100 83 175 125 41 100 2.0 36 30 2.0 20 05 100 83 175 125 41 100 2.0 36 30 2.0 20 05 100 83 175 125 41 100 2.0 35 30 2.0 20 05 100 83 175 125 41 100 2.0 36 30 2.0 20 05 100 83 160 110 41 100 2.0 36 30 2.0 20 05 100 83 160 100 41 100 2.0 35 GENERAL NOTES All measurements are made at 60Hz with a resistive load at an ambient temperature of +25C unless otherwise specified. @ Operating temperature range (Ty) is -65C to +125C for TO-92 devices and -40C to +125C for all other packages. @ Storage temperature range (Ts) is -65C to +150C for TO-92 devices, -40C to +150C for TO-202 and TO-220 devices, -40C to +125C for all others. @ Lead solder temperature is a maximum of 230C for 10 seconds maxi- mum; 1/16" (1.59mm) from case. @ The case temperature (Tc) is measured as shown on dimensional outline drawings. See Package Dimensions section of catalog on Page 95. NOTES TO ELECTRICAL SPECIFICATIONS See Figures 3 and 4 for current rating at specified operating case temperature. See Figure 1 for free air current rating. See Figure 7 for instantaneous on-state current vs on-state (typical). See Figure 6 for ler vs Tc. See Figure 5 for In vs Te. For more than one full cycle rating, see Figure 10. See Figure 9 for tgt vs ler. See Figure 8 for Ver vs Te. Test conditions are as follows: It = 1A for <1.6A devices and 2A for 2 3A devices. Pulse duration = 50us, dv/dt = 20V/us, difdt = -10A/us for < 1.6A devices, and -30A/uS for > 3A. Igr = 200A at turn-on. 10 See Figure 3(A,B,C,D,E) for maximum allowable case temperatures at maximum rated current. 11 Pulse width < 10us. 12 Initial on-state current = 200nA(DC) for 1A to 20A devices; 400mA(DC) for 25 to 70A devices. 13 Te = Ty for test conditions in off-state. wr OOMOnNOAL Teccor Electronics, inc. 53 SCRsElectrical Specifications Part Number he Vor & ler loan & Iran Vw Ver Varm Isolated Non-Isolated A Maximum Repetitive DC Gate Peak Off-State Peak DC Gate On-State Peak Trigger Forward & OnState | Trigger Voltage Current Off-State Current Reverse Current Voltage at | Vp = 12VDC TYPE (1) Forward Vp = 12VDC at VpRM &VRRmM | Max Rated Ri = 600 & Reverse Ri = 602 (14) RMS (8) Voltage (4) Current S Amps mAmps To = 28C Volts : (3) HyRMs)| 'Tavy) Toe= | Te= | To= To= | Tc= TO-220AB TO-2024B TO-220AB Volts mAmps 25C | 100C | 125C} Volts 28C | 125C For Package Dimensions & Variations, see Page 95. MAX MAX MIN MIN MAX MAX MAX MAX | MIN S05101. S0S10F1 40 64 50 1 18 o1 | 02 | 05 18 15 | 02 ce St010L. S1010F1 10 64 100 1 16 61 | 02 | 08 16 18 | 02 | fo sae _S2010F 1 10 64 200 1 45 o | 02 | os 16 15 | 02 Seon. | S4010F1 : 10 64 400 1 15. o1 | 02 | 05 16 18 | 02 ea a ee 40 6A 600 1 46 o1 | 02 | 08 16 18 | 02 anes Se0t0L. re 10 | 6A 800 1 16 | 02 | 05 [10 | 16 | 15 | 02 SOSI0R 10 84 50 1 16 o1 | o2 | 10 1.6 15_| 02 S1010R 10 6A 400 1 16 o1 | 02 | 10 16 15 | 02 82010R 40 64 200 1 16 1 o2 | 10 16 418 | 02 S4010R 10 64 a0 1 16 1 | 02 | 10 16 15 | 02 S6010R 10 64 600 1 16 m | o2 | 10 16 45 | 02 S8010R 10 6A 800 4 18 o2 | 08 | 10 16 15 | 02 $0512R 12 76 50 1 20 o1 | 05 | 10 16 15 | 02 $1012R 12 76 100 1 20 o1 | 05 | 1.0 16 = 15 | 02 12.0 $2012R 12 7.6 200 1 20 01 | 05 | 1.0 1.6 15 | 0.2 Amps $4012R 12 76 400 1 20 o1 | 05 | 1.0 16 15 | 02 $6012R 12 76 600 1 20 o1 | 05 | 10 16 15 | 02 $8012R 12 76 800 1 20 02 | 05 | 10 16 15 | 02 $0515L | 15 95 50 1 30 01 | 05 | 10 16 15 | 02 St015L. 15 95 100 1 30 oO! o5 | 10 16 16 | 02 15.0 S2015L. 15 95 200 + 30 o1 | 05 | 1.0 18 16 | 02 Amps $4015. 18 95 400 1 30 o1 | 05 | 1.0 16 15 | 02 S6015L 15 95 600 1 30 o1 | 06 | 10 16 15 | 02 S8018L 15 95 800 1 30 o2 | 10 | 20 16 15 | 02 S0516R 16 10 50 1 30 o1 | 05 | 1.0 16 15 | 02 S1016R 16 10 100 1 30 o1 | 05 | 1.0 16 15 | 02 | 16.0 $2016R 16 10 200 1 30 01 | 05 | 1.0 1.6 15 | 0.2 Amps $4016R 16 10 400 1 30 o1 | 05 | 1.0 16 15 | 02 S6016R 16 10 600 1 30 o1 | 05 | 1.0 16 15 | 02 Sss01i6R_ 16 10 800 1 30 o2 | 10 | 20 16 15 | 02 GENERAL NOTES @ Allmeasurements are made at 60Hz with a resistive load at an amoient temperature of +25C unless otherwise specified. Operating temperature range (Ty) is -65C to +125C for TO-92 devices and -40C to +125C for all other packages. Storage temperature range (Ts) is -65C to +150C for TO-92 devices, heer to +150C for TO-202 and TO-220 devices, -40C to +125C for all others. Lead solder temperature is a maximum of 230C for 10 seconds maxi- mum; 1/16" (1.59mm) from case. The case temperature (Tc) is measured as shown on dimensional outline drawings. See Package Dimensions section of catalog on Page 95. Teccor Electronics, Inc. 54 SCRsSCRs ha IGM Pom Pasay) lyse dvidt t di/dt tyt ty DC Peak Peak Average Peak One Critical Rate- RMS Surge Maximum Gate Controlled Circuit Holding Gate Gate Gate Cycle Surge of-Applied (Non- Rate-of- Tum-On Time Commutated Current Current Power Power Forward Forward Voltage Repetitive) Change of Gate Pulse Tum-Off Gate Open (11) Dissipation Dissipation Current On-State On-State = 100mA Time (5) (12) (11) (6) (10) (13) Current Current Min. Width = 15ys (9) (10) for a Period of | leq = 150mA with Rise Time Amps VoltsiSec 8.3 ms for with 0.1ps < O.1ps a Fusing Rise Time a) , 6OHz | SOHz | Tr =100C | Tce =125C mAmps Amps Watts Watts Amps*Sec | mps/uSec Sec uSec MAX MIN MIN TYP MAX 30 20 20 05 100 83. 175 125 41 100 2.0 35 30 2.0 20 Os 100 83. 175 128 4 100 20 35 30 20 20 Os 100 83 175 125 41 100 2.0 35 30 20 20 05 100 83 175 125 41 100 20 3 30 2.0. 20 0.5 100 Cx 160 110 41 100 20 36 30 20 20 05 400. | 83 150 100 41 100 2.0 35 30 20 rs os 100 83 178 125 41 100 2.0 36 30 20 2 05 100 83. 176 126 4 100 20 35 30 2.0. 20 Os 100 83 175 125 41 100 2.0 35 30 2.0 20 08 100 83 175 125 41 100 20 35 30 20 20 os 100 Ex] 160 110 41 100 2.0 3% 30 20 20 08 100 8 150 100 41 100 2.0 36 40 2.0 20 0.5 120 | 100 175 125 60 100 2.0 35 40 2.0 20 05 120 | 100 _ 175 125 60 100 2.0 35 40 2.0 20 0.5 120 | 100 175 125 __ 60 100 2.0 35 40 2.0 __ 20 0.5 120 | 100 175 125 _ 60 100 2.0 35 40 2.0 20 0.5 120 | 100 160 _ 110 60 100 2.0 35 40 2.0 20 05 120 | 100 150 100 60 100 2.0 35 40 3.0 30 06 225 | 188 250 175 210 125 2.0 35 40 3.0 30 06 225 | 188 250 176 210 125 2.0 35 40 3.0 30 0.6 225 | 188 250 175 210 126 2.0 35 4 3.0 30 06 225 | 188 250 175 210 125 2.0 35 40 3.0 30 06 226 | 188 220 160 210 125 2.0 35 40 3.0 30 06 225 | 188 200 180 210 18 2.0 35 40 __3.0 30 0.6 225 | 188 | 250 175 210 125 _ 2.0 35 40 3.0 30 06 225 | 188 250 175 210 125 2.0 35 40 3.0 30 0.6 225 | 188 _ 250 175 210 125 2.0 35 40 3.0 30 0.6 225 | 188 250 175 210 125 2.0 35 40 3.0 300 0.6 225 | 188 | 220 =| +160 210 125 2.0 35 40 3.0 30 0.6 225 | 188 200 150 210 125 2.0 35 NOTES TO ELECTRICAL SPECIFICATIONS 10 See Figure 3(A,B,C,D,E) for maximum allowable case temperatures wh OOnNanh See Figures 3 and 4 for current rating at specified operating case temperature. See Figure 1 for free air current rating. See Figure 7 for instantaneous on-state current vs on-state voltage (typical). See Figure 6 for Igt vs Tc. See Figure 5 for ly vs Tc. For more than one full cycle rating, see Figure 10. See Figure 9 for tgt vs Iat. See Figure 8 for Ver vs Tc. Test conditions are as follows: ir = 1A for < 1.6A devices and 2A for => 3A devices. Pulse duration = 50us, dv/dt = 20V/us, di/dt = -10A/us for < 1.6A devices, and -30A/us for 2 30A devices. Igr = 200mA at turn-on 14 15 maximum rated current. Pulse width < 10us. Initial on-state current = 200mA(DC) for 1 to 20A devices; 400mA(DC) for 25A ta 70A devices. The "R", "K" or "M" package rating is intended for high surge condition use only and not recommended for >50A(RMS) continuous current use since narrow pin lead temperature can exceed PCB solder melting temperature. Recommend for >50A(RMS) continuous current requirements, Teccors "J" or "W" package. See Figures 2A and B for Itm capability for various duration of an exponentially decaying current waveform, tw is defined as 5 time constants of an exponentialy decaying current pulse. Tc = Ty for test conditions in off-state. Teccor Electronics, Inc. 55 SCRsElectrical Specifications Part Number kr Vorm & lorm & lrrw Vim Ver VrRM Isolated Nor-lsolated Maximum Repetitive Peak Off-State Peak DC Gate _ . oS . oN, On-State Peak Forward & On-State | Trigger mom Current Off-State Reverse Curent Voltage at Voltage : = (1) (13) Forward at Vprm & Max Rated; Vp = 12VDC | G mG bg | Ou, Jat & Reverse VRRM RMS Ry = 30Q TYPE A K AG Koa Voltage (15) Current (8) To = 25C Amps mAmps (3) Volts To- TOo- | TO- | ToO- | To- | ToO- | Y(RMS) TAV) Te= | To= | To To= | To= 220AB -218X | 218AC | 220AB218X _218AC Volts 25C | 100C | 125C | Volts | 25C | 125C For Package Dimensions & Variations, See Page 96 MAX MIN MAX MAX MAX | MIN $0620L 20 128 50 1 30 01 05 1.0 16 15 0.2 20 $1020. 20 128 100 1 30 01 0.5 1.0 1.6 15 0.2 Am ps $2020L 20 128 200 1 30 01 0.5 1.0 1.6 1.5 0.2 $4020L 20 128 400 1 30 01 0.5 1.0 1.6 1.5 0.2 $6020L. a 12.8 600 1 30 01 0.6 1.0 1.6 15 0.2 $8020. 20 128 800 1 30 02 1.0 2.0 1.6 15 02 $0525. S0525R 25 50 1 35 01 1.0 2.0 16 15 0.2 25 | Stoz5L $1025R 26 100 1 | 35 | o1 | 10 | 20 16 15 | 02 Amps $2025L ; $2025R 25 200 1 35 01 1.0 2.0 1.6 15 | 02 Pp $4025L $4025R 25 400 1 36 01 1.0 2.0 1.6 16 | 0.2 $6025L $6025R 25 600 1 35 01 1.0 2.0 1.6 15 0.2 $8025L $8025R 25 800 1 35 02 15 3.0 1.6 15 0.2 $0535J | SO535K S0535W 35 22 : 50 5 40 01 1.0 20 18 1.5 0.2 35 $1035J | S1035K S1035W 35 22 100 5 40 01 1.0 2.0 18 15 0.2 Amps $2035J | $2035K S2035W 35 22 200 5 40 01 1.0 20 1.8 16 0.2 Pp $4035J | S4035K S4035W 35 2 400 5 40 01 1.0 2.0 1.8 15 0.2 $6035J | S6035K S6035W 35 22 600 5 40 O71 1.0 2.0 1.8 15 0.2 $8035) | S8035K S8035W 35 22 300 5 40 02 1.5 3.0 1.8 15 02 S0540R |. 40 25 50 5 | 40 | of | 10 | 20 18 15 | 0.2 40 $1040R 40 2 100 5 | 40 | 01 10 | 20 18 15 | 02 Amps $2040R - 40 25 200 5 | 40 | 01 | 10 | 20 18 15 | 0.2 Pp S4040R | 40 25 400 5 | 40 | O | 10 | 20 18 15 | 02 | ____ | seo40R 40 25 600 5 | 40 | 01 | 10 | 20 18 15 | 0.2 $8040R 40 25 800 5 40 02 1.5 3.0 18 1.5 0.2 SO555R | SO555W| SO555M 65 35 50 40 01 1.0 2.0 18 15 0.2 55 S1055R | S1055W | S1055M 5 35 100 5 40 01 1.0 2.0 1.8 15 0.2 Am ps $2055R | S2055W | S2055M 55 35 200 5 40 01 1.0 2.0 18 1.5 0.2 S4055R | S4055W | S4055M 55 35 400 40 01 1.0 2.0 1.8 1.5 0.2 S6055R | S6055W | S6055M 55 35 600 5 40 01 1.0 2.0 18 1.5 0.2 SS8055R | S8055W | S8055M 55 35 800 5 40 02 1.5 3.0 1.8 15 0.2 |_| $0565J | SO565K | 65 41 50 5 | 50: o2 | 145 | 3.0 18 20 | 02 65 $1065) | $1065K 65 41 100 5 50. 02 1.5 3.0 1.8 2.0 0.2 Amps $2065) | S2065K 6 =| lA 200 5 50 02 15 3.0 1.8 2.0 0.2 Pp $4065) _ S4065K 65 41 400 5 50 02 15 3.0 18 2.0 0.2 [ $6065 S6065K L 65 a1 600 CS SOiCi2sS|:saS | 3.0 18 20 | 02 $8065) S8065K 65 41 800 50 02 2.0 6.0 1.8 2.0 0.2 SO0570W 70 45 50 5 50 02 15 3.0 18 2.0 0.2 70 S1070W 70 45 100 5 50 02 1.5 3.0 18 2.0 0.2 Amps S2070W 70 45 200 50 02 15 3.0 18 2.0 0.2 S4070W 70 45 400 5 50 02 15 3.0 18 2.0 0.2 S6070W 70 45 600 50 02 15 3.0 18 2.0 0.2 S8070W 70 45 800 5 sO 02 20 0 1.8 2.0 0.2 See General Notes and Special Numbered Notes for electrical specifications on Page 54 and 55. Teccor Electronics, Inc. 56 SCRsSCRs IH Iom Pom Poiay) Irsm dv/dt Pt di/dt tot ty DC Peak Peak Average Peak One Critical Rate- RMS Surge Maximum Gate Circuit Holding Gate Gate Gate Cycle Surge of- Applied (Non- Rate-of- Controlled | Commutated Current Current Power Power Forward Current Forward Voltage Repetitive) Change of | Tum-OnTime| Tum-Off Gate (11) Dissipation Dissipation (6) (10) (14) On-State On-State = Gate Pulse Time Open (11) Current Current = 150mA (9) (10) (5) (12) fora Period | IgT=150mA | Min. Width of8.3msec | withO1uS i = 15uS with Amps VoltsuSec for Fusing Rise Time | Rise Time <0.1uS (7) 60 Hz 50 Hz Te = 100C | Te = 125C mAmps Amps Watts Watts Amps?Sec Amps/uSec i Sec pSec MAX MIN MIN TYP MAX 40 3.0 30 0.6 300 255 250 175 374 125 2.0 36 40 3.0 30 0.6 300 255 250 175 374 125 20 35 40 3.0 30 0.6 300 255 250 175 374 125 2.0 35 40 3.0 30 06 300 265 250 175 374 125 2.0 35 40 3.0 30 0.6 300 255 220 160 374 125 20 35 40 3.0 3 0.6 300 255 200 150 374 126 2.0 356 50 3.5 35 0.8 350 300 250 175 510 150 2.0 35 50 3.5 35 0.8 350 300 250 175 510 150 2.0 35 50 3.5 35 0.8 350 300 250 175 510 150 2.0 35 50 3.5 35. 0.8 350 300 250 175 510 150 : 2.0 35 50 3.5 36 0.8 350 300 220 160 510 150 : 2.0 35 50 3.5 35 0.8 350 300 200 150 510 150 2.0 35 50 35 36 08 500 425 250 175 1035 150 2.0 35 50 3.5 35 0.8 500 425 250 175 1035 150 2.0 35 50 36 35 0.8 500 425 250 175 1035 150 2.0 35 50 3.5 35 0.8 500 425 250 175 1035 150 2.0 35 50 3.5 36 0.8 500 425 220 160 1035 150 2.0 36 50 3.5 35 08 500 425 200 150 1035 150 2.0 35 60 3.5 35 0.8 520 430 425 300 1122 175 25 35 60 3.5 3 0.8 520 430 425 300 1122 175 25 35 | 60 3.5 35 0.8 520 430 425 300 1122 175 2.6 35 _ 60 3.5 35 0.8 | 520 20 | 425 300 _ 122 175 2.5 35 | 60 3.5 35 0.8 20 | 4&0 395 275 1122 175 2.5 35 J 60 3.5 35 08 520 430 375 250 1122 175 2.5 35 60 40 40 0.8 650 550 425 300 1750 175 25 35 60 4.0 40 0.8 650 550 425 300 1750 175 2.5 35 60 4.0 40 0.8 650 550 425 300 1750 175 25 35 60 40 40 0.8 650 550 425 300 1750 175 2.5 35 60 4.0 40 08 650 550 395 275 1750 175 2.5 35 60 40 40 0.8 650 550 375 250 1756 175 25 35 80 5.0 50 1.0 950 800 425 300 3745 200 25 35 80 5.0 50 1.0 950 800 425 300 3745 200 2.5 35 | 80 5.0 50 1.0 950 800 425 300 3745 200 25 35 80 5.0 50 1.0 950 800 425 _ 300 3745 200 2.5 35 80 5.0 50 1.0 950 800 395 _275 3745 200 25 35 80 5.0 50 1.0 950 800 375 250 3745 200 2.5 35 80 5.0 50 1.0 950 800 425 300 3745 200 2.5 35 80 50 50 1.0 950 800 425 300 3745 200 2.5 35 80 5.0 50 1.0 950 800 425 300 3745 200 2.5 35 80 5.0 50 1.0 950 800 425 300 3745 200 25 35 80 50 50 1.0 950 300 395 275 3745 200 2.5 35 80 5.0 50 1.0 950 800 375 250 3746 200 2.5 35 See General Notes and Special Numbered Notes for electrical specifications on page 54 and 55. Teccor Electronics, inc. 57 SCRsElectrical Specifications THERMAL RESISTANCE (STEADY STATE) Rec [Real C (TYP) Type THERMOTAB Type 1 Type 2 Non-Isolated Isolated Non-Ilsolated Isolated Non-Isolated TO-92 TO-220AB TO-202 TO 202 TO-220AB TO-218X TO-218X TO-218AC TO-218AC 1.0 amp 50 [145} 4.0 amps 5.6 [45] 9.5 [70] 6.0 amps 4.0 [50] 43 _ 8.0 amps 3.4 3.9 2.1 [40] 10.0 amps 3.0 3.4 19 12.0 amps 1.7 15.0 amps 2.5 _ 16.0 amps 1.5 20.0 amps 24 l 25.0 amps 2.35 14 35.0 amps __ 70 70 40.0 amps 0.66 55.0 amps 0.58 53 53 65.0 amps , 86 86 70.0 amps i | ELECTRICAL ISOLATION Most Teccor isolated SCR packages will withstand a minimum high potential test of 2500VAC(RMS) from leads to mounting tab over the devices operating temperature range. See table for standard and optional isolation ratings. Electrical Isolation from Leads to Mounting Tab TYPE lsolated ** Isolated ** Isolated * TO-92 TO-220AB TO-218X TO-218AC VAC(RMS) 1600 Standard _ _ 2500 NA Standard Standard Standard 4000 NIA Optional * WA NWA * For 4000V Isolation, add V suffix to part number. ** UL Recognized File #E71639. Figure 2A Peak Capacitor Discharge Current Figure 2B Peak Capacitor Discharge Current Derating & 1000 < = 1.0 a = o = 300 | 08 t c | . e : s -~_] a 200 | e 06 ; _ S Pn, o g 3 B 100 B o4 2 tu FE ~ | 6 _=& % |w | 02 a tw = 5 times constants 0 20 ee . ~ a a 7 0.5 1.0 2.0 50 10 20 0 25 50 75 100 425 Pulse Current Duration (ty) - mSec. _ | Case Temperature (Tr) -C Teccor Electronics, Inc. 58 SCRsSCRs Figure 3AMaximum Allowable Case Temperature vs RMS On-State Current 130 1 T 1 CURRENT WAVEFORM: Sinusoidal LOAD: Resistive or Inductive 120 CONDUCTION ANGLE: 180 4 S | CASE TEMPERATURE: Measure as shown an dimensional drawin PT eo 110 LDN on a O \ om 44 SE 9. MES =~ i100 }7K Soe O25 2 ge % rs Yee qe a 7 &9 | 3% = 90 |@ IN z2 80 = 2 70 wo oO 60 50 0 1.0 2.0 3.0 4.0 RMS On-State Current [[T(AMs)] - Amps Figure 3BMaximum Allowable Case Temperature vs RMS On-State Current 130 120 & AMP TO-220 (NON-ISOLATED) 2 i10 ! SS \ 7 o- 12 AMP TO-220 23 6 AMP DEVICES SS rN 7 (ISOLATED) wk 100 | BS PS 4 20 | SS 2e < g 90 |_8 AMP TO-220 (ISOLATED) eo & 8 AMP TO-202 se | Ee 80 x oO T t = Ee CURRENT WAVEFORM: Sinuscidal g 7 LOAD: Resistiva or Inductive oO 0} CONDUCTION ANGLE: 180 oO CASE TEMPERATURE: Measure as shown on dimensional drawings 60 | | 50 i 0 2 4 6 8 10 12 RMS On-State Current [IT(AMs)l - Amps Figure 3CMaximum Allowable Case Temperatue vs RMS On-State Current 9390 , CURRENT WAVEFORM: i LOAD: Resistive or Inductive 120 CONDUCTION ANGLE: 180 D r ~ CASE TEMPERATURE: Measure as shown 9 fp, 09 dimensional drawings 140 Jo 20 | oo ; SE Fp, 20 AMP TO.229 =~ 100 (SOLATED) q ee => J tz "SaaS Jo Es t 34 8 EE 80 8 x Oo 3 2 'o e QP wm}. fo ne le 8 6o |. oe Lo pp 50 eed ob LL. 0 4 8 12 16 20 RMS On-State Current [lT(Ams)] - Amps Figure 3DMaximum Allowable Case Temperature vs RMS On-State Current 130 120 Se 35 AMP TO-218 SS (NON-ISOLATED) 110 . 70 | CURRENT WAVEFORM: LOAD: Resistive or Inductive 60 | CONDUCTION ANGLE: 180 CASE TEMPERATURE: Measure as shown on dimensional Grawings | i o ' ae a-, ~~ en a0 SS 35 AMP TO-218 ge 100 SNe (ISOLATED) 28 25 AMP TO-220 z go | (NON-ISOLATED) N RN D a 26 25 AMP TO-220 EE a9 (SOLATED) Mm x o ar i | NN = wh . o 50 o 4 #8 12 16 20 2 28 382 36 RMS On-State Current [7(RMs)] - Amps Figure 3EMaximum Allowable Case Temperature vs RMS On-State Current 130 oo CURRENT WAVEFORM: Sinusoidal LOAD: Resistive or Inductive 120 Sx CONDUCTION ANGLE: 180 4 CASE TEMPERATURE: Measure as oO shown on dimensional drawings 110 t - oe 6 0 BE 100 bo F3 2 55 AMP TO-218X z 2 90 NON ISOLATED) o 65 AMP TO-218X Za (ISOLATED) EE 80 ~ ae =o 70 \ a > ; 8 40 AMP TO-220 60 (NON-ISOLATED) | 50 . a ee 0 10 20 30 40 50 60 70 RMS On-State Current (tams)] - Amps Figure 3F-Maximum Allowable Case Temperature vs RMS On-State Current i CURRENT WAVEFORM: Sinusoidal LOAD: Resistive o inductive CONDUCTION ANGLE: 180 CASE TEMPERATURE: Measure as shown on dimensional drawings 65 AMPTO-218AC | "| (ISOLATED) i i 190 2 120 110 100 7 <7 BS AMP TO-218AC | S5AMP TO-220 (NON- ISOLATED) | (NON-ISOLATED) / | | pot pee Pr - of ! i a i ESTHE R, "Kor "Mt s | 80 | PACKAGE RATING To IS INTENDED FOR HIGH SURGE ! CONDITION USE ONLY AND (S NOT sd 70 | RECOMMENDED FOR >50 AMPS (RMS) >; CONTINUOUS CURRENT USE, SINCE I NARROW PIN LEAD TEMPERATURE ! 1 1 ' 6Q [CAN EXCEED PCB SOLDER MELTING. TEMPERATURE. "J" OR "W" PACKAGES ARE RECOMMEND FOR >50AMPS (RMS) 50 CONTINUOUS (CURRENT REQUIREMENTS, 0 1 2 9 40 50 60 7075 AMS On-State Current (jams)! - Amps Maximum Allowable Case Temperature (Tc) - C oOo oO Teccor Electronics, Inc. SCRsElectrical Specifications Figure 44Maximum Allowable Case Temperature vs Average On-State Current 80 70 60 Maximum Allowable Case Temperature (Tc) - C 8 er) | CURRENT WAVEFORM: Sinusoidal ip To. LOAD: Resistive or Inductive 202 CONDUCTION ANGLE: 180 rpg. CASE TEMPERATURE: Measure as MN ve 3) shown on dimensional drawings 7 1 Zo, rm } | S05 P. _ K 2 3 z) ' 2 i 0 5 1.0 15 20 26 3. Average On-State Current [avy] - Amps Oo Figure 4C--Maximum Allowable Case Temperature vs Average On-State Current 130 120 oO 110 2 -, ie 3 g@ 10 zs e 2& g & 23 x 70 60 50 LOAD: Resistive or inductive T~"- CONDUCTION ANGLE: 180 CURRENT WAVEFORM: Sinusoidal CASE TEMPERATURE: Measured as shown on dimensional drawings: Lar, Ce | 12 AMP TO-220-4 20 AMP TO-220 (NON-ISOLATED) PN RS (ISOLATED) / 10 AMP TO-220 {NON-ISOLATED) 15 AMP TO-220 (ISOLATED) 2 4 6 8 10 12 Average On-State Current Ut, Avy - Amps Figure 4EMaximum Allowable Case Temperature vs Average On-State Current Maximum Allowable Case Temperature (T) - C 130 120 _ a o 8 70 8 CURRENT WAVEFORM: Sinusoidal hee LOAD: Resistive or Inductive CONDUCTION ANGLE: 180 WN CASE TEMPERATURE: Measure as shown on dimensional drawings 55 AMP TO-218X (NON-ISOLATED) a NS __ 65 AMP TO-218X | (ISOLATED) i ' 40 AMP TO-220 | (NON-ISOLATED) Oo 10 20 30 40 Average On-State Current Ty Av)! - Amps = 70 AMP TO-218X \ MONSOLATED) Figure 4BMaximum Allowable Case Temperature vs Average On-State Current 130 poy roma 1 ' | CURRENT WAVEFORM: Sinusoidal | | LOAD: Resistive or Inductive { CONDUCTION ANGLE: 130 ; CASE TEMPERATURE: Measure as shown 120 on dimensional drawings mk SX | 12 AMP TO-22 | \ . NS (NON-ISOLATED) | wi. |. 410 AMP T0-220 fo? 6 AMP / DEVICES (ISOLATED) ~~ & 10 AMP TO-202 : 100 pe. ft | oo. # 8 AMP TO-220 (NON-ISOLATED) 10 AMP TO-220 -(NON-ISOLATED) o | 90 jf - 8 AMP TQ-220 (ISOLATED) 8 AMP TO-202 Maximum Allowable Case Temperature (Tp) - C Averaga On-State Current [lrayyl = Amps Figure 4DMaximum Allowable Case Temperature vs Average On-State Current T T CURRENT WAVEFORM: Sinusoidal LOAD: Resistive or Inductive rT -~- CONDUCTION ANGLE: 160 7 CASE TEMPERATURE: Measure as a shown on dime sional drawings 70 60 Maximum Allowable Case Temperature (Tc) - C 50 o 4 a 12 16 20 24 Average On-State Current (hyavyl - Amps Figure 4FMaximum Allowable Case Temperature vs Average On-State Current 130 CURRENT WAVEFORM: Sinusoidal LOAD: Resistive or Inductive 120 Ne ______.__. CONDUCTION ANGLE: 180 CASE TEMPERATURE: Measure as shown Iw on dimensional drawings 110 | | | "55 AMP TO-218AC (NON-ISOLATED) 100 | 7 r 55 AMP TO-220 65 AMP TO-218AC (NON-ISOLATED) (ISOLATED) omaweadas\ od THE R, "kK", OR "M* PACKAGE My RATING IS INTENDED FOR HIGH SURGE CONDITION USE ONLY AND) * 79 |NOT RECOMMENDED FOR 32 AMPS |S (AV) CONTINUOUS CURRENT USE SINCE NARROW PIN LEAD TEMPERATURE 60 [CAN EXCEED PCB SOLDER MELTING TEMPERATURE. "J" OR "W" PACKAGES ARE RECOMMEND FOR >32 AMPS (AV) 50 [CONTINUOUS CURRENT REQUIREMENTS oO 10 20 30 a0 50 is Maximum Allowable Case Temperature (T>) - C Average On-State Current thy AN wl - Amps Teccor Electronics, Inc. 60 SCRsSCRs Figure 5Normalized DC Holding Current vs Case Temperature 2.0 ae TTT INITIAL ON-STATE MN CURRENT = 200 mA (DC)} Oo ! NX FOR 1-20 AMP DEVICES 15 |! AND 400 mA (DC) FOR a iT ON 25-70 AMP DEVICES zy LEN ee ie NN | = 1.0 ' : Ne! - OQ T 2 oN ae of I ' | 0 { ! _ -40 -15 +25 +65 +105 4125 Case Temperature (Tc) - C Figure 6Normalized DC Gate-Trigger Current vs Case Temperature 2.0 25C) lat lat (Tc = Ratio of -40 -15 +25 +65 +105 4125 Case Temperature (Tc) - C Figure 7Ainstantaneous On-State Current vs On-State Voltage (Typical) 90 a0 70 60 50. 15-20 AMP 40 12 AMP DEVICES. 30 6-10 20 \ 1-4 AMP Instantaneous On-State Current (i7) - Amps o 6 B 1.0 t2 14 16 | instantaneous On-State Voitage (vt) - Volts Figure 7Binstantaneous On-State Current vs On-State Voltage (Typical) 200 180 | | 160 Tg = 25C / 2 | / ny gg 140 | < 120 65 & 70 AMP DEVICES Se ne / LA. a= 100 |... ce Z 80 4 LO gS> L~ a6 55 AMP DEVICES J Le = 60 4 40 |. L 20 5 WA 35-40 AMP DEVICES 0 6 8 10 1.2 14 16 Instantaneous On-State Voltage (v7) - Volts Figure 8Normalized DC Gate-Trigger Voltage vs Case Temperature 15 \ ~ ( ~ 9 IN B10 | bE] \ oO I s|2 |} S& |} Mm > 1 | 5 1 3S : 2 ' SS 4 ia t 1 0 1 -40 15 +25 +65 +105 4125 Case Temperature (Tc) - C Figure 9Typical Turn-On Time vs Gate Trigger Current 7 an i 8-12 AMP DEVICES fe =25C . | I 5-36 AMP DEVICES gos a : = & 2 4 - 2 E 40-70 AMP DEVICES c 23 < NL E PS Pot 2 es ee | 1 me i | | | | 0 oe i! 10 20 go 40 50 60) BO 100 200 DC Gate Trigger Current (Iz) - mA Teccor Electronics, Inc. SCRsElectrical Specifications > SUPPLY FREQUENCY: 60 Hz Sinusoidal | - LOAD: Resistive : * RMS ON-STATE CURRENT: [IT(RMS)I: Mai | Rated Value at Specified Case Temperature: Figure 10Peak Surge Current vs urge Current Duration 1000 800 600 500 400 300 200 Q 100 . 80 ad 60 es! 50. Oo as 40 2H Fe 5 = 3 20 mr asa 50 5 10 DH 8 $s rr oO a 6 @ Y; GATE CONTROL MAY BE LOST as 5 DURING AND IMMEDIATELY 4 FOLLOWING SURGE URRENT g INTERVAL OVERLOAD MAY NO1 BE REPEATED UNTIL JUNCTION TEMPERATURE 2 > WAS RETURNED TO TEADY-STATE RATED VALUE 1 | 1 2 3. 4678 10 Sur ye Current Duration - Full Cycles 20 30 40 60 80100 200 300400 600 1000 Figure 11APower Dissipation (Typical) vs RMS On-State Current 40 _ I I T 1 CURRENT WAVEFOAN: Hall Sine Wave LOAD: Resistive or Inductive |" CONDUCTION ANGLE: 180 wo oO t i I } yf 4.0 AMP DEVICES ~ | | a 1.0 AMP DEVICES Y a yo oO Average On-State Power Dissipation [Pp(ayy] - Watts hp oa 0 1 2 3 4 RMS On-State Current (Rms)! - Amps Figure 11C-Power Dissipation (Typical) vs RMS On-State Current 32 _ T T T T T T w CURRENT WAVEFORM: Half Sine Wave | | = 28 |LOAD: Resistive or Inductive so = CONDUCTION ANGLE: 180 wT | SF 24 - ig 2s oe 8 < 2 | 96 f ca. ff) Oo 16 | 2s ~ 6G 9 sa a So xO {2 3 Ry oF 1 5 = 4 La fe. o a" 0 - Q 4 8 12 16 20 24 28 32 36 RMS On-State Current (lt(AMs)! - Amps Figure 11BPower Dissipation (Typical) vs RMS On-State Current CURRENT WAVEFORM: Half Sine Wave g LOAD: Resistive or Inductive 4 : CONDUCTION ANGLE: 180 A 14 { { fA 2S 2 15-20 AMP DEVICES V4 5s | Y ? oe 10 [12 AMP DEVICE 4 A] ot 6-10 AMP DEVICES as 8 | GO _ e3 G7 @ B 6 PA; OL en _ =v ~ : a4 - g 56 2 a : 0 a | - 0 2 4 6 8 10 12 14 16 18 20 RMS On-State Current [T(AMs)! - Amps Figure 110Power Dissipation (Typical) vs RMS On-State Current 60 i pe ce ee CURRENT WAVEFORM: Half Sine Wave LOAD: Resistive or Inductive 50 CONDUCTION ANGLE: 180 i S = 2 40 <x 2 8 5 = 30 im gs 8 o = z 3 20 a g = oS a 10 Oo 0 10 20 30 40 50 60 70 RMS On-State Current lyRMs)! - Amps Teccor Electronics, Inc. 62 SCRs