Silicon Controlled Rectifier PRODUCT FEATURES The Type C107 Silicon Controlled Rectifier (SCR) has the following outstanding features: LOW COST VERSATILE Designed for a variety of mount-down methodsprinted circuit, plug-in socket, screws, or point-to-point soldering RUGGED, COMPACT Uses a solid plastic encapsulant in rectangular shape for high density packaging TYPICAL APPLICATIONS MOTOR CONTROL Electric Model Trains Sewing Machines Movie Projectors Food Mixers Electric Fans Slot Racing Cars Flame Detectors Moving-Light Signs (Chasers) Driver for Computer Readout Lights Harbor Buoy Flashers Automotive Warning Systems Nixie & Neon Drivers Range Surface Unit (Hybrid) Chemical Processing (Photographic, etc.) Food Warmer Tray Bearing Temperature Sensor Electric Blanket Control Auto Oil Pressure Gage Hot Water Boiler Safety Monitor LIGHT TEMPERATURE PRESSURE TIME Photo Darkroom Exposure Oven Timer Vending Machine Logic Industrial Process Control Basement Sump Pump Automatic Coffee Maker Automatic Shutoff for Vending Machines LIQUID LEVEL Flat Pack Design Up to 600 Volts 4 Amperes ay) | Movi! C107 C107 TYPE 1 REMOTE CONTROL DRYNESS PROXIMITY COUNTING SWITCHING AMPLIFIERS IGNITION DETECTION 728 C107 TYPE 2 = C107 TYPE 4 | C107 a TYPE 3 | | (PULL SIZE) Armchair TV Control Master Switching Stations for Home Garage Door Openers Power Switch Clothes Dryness Sensor Burglar Alarm Touch Switch Electric Door Openers Low Speed Ring Counters Shift Registers Relay Replacement Solenoid Drivers Latching Relay Replacement Power Flip Flops Low Power Inverters Thyratron Tube Replacement Gate Amplifier for Larger SCRs, Triacs Blenders Hand Tools Small Gas Engines Gas Appliances Voltage (Battery Charger) Current (Crowbar)MAXIMUM ALLOWABLE RATINGS Repetitive Peak Off-State Working and Repetitive T Voltage, Viana Peak Reverse Voltage, ype R,. = 1000 Ohms Views 9d Viera T,. = 40C to + 110C Ti, = 40C to +110C 10701, C107Q2, C107Q3, C107Q4 15 Volts 15 Volts C1O7Y1, C107Y2, C1073, C1O7Y4 : 30 Volts 30 Volts C1lO7FL, C1O7N2, C107F3, C1O7E4 59 Volts SO Volts C107A1, C107A2, CLO7A3, CLOTA4 100 Volts 160 Volts C107B1, 107B2, C107B3, C107B4 200 Volts 200 Volts C107C1, C107C2, 107C3. C107C4 300 Volts 300 Volts C107D1, C107D2, C107D3, C1074 406 Volts 409 Volrs CLO7F I. C1O7E2, C107F3, C1O7E4 500 Volts S50C Volts C107M1, C107M2, C107M3, C1O07M4 600 Volts 600 Volts RMS On-State Current, Trans)... ee ene eee eee ene 4 Amperes Repetitive Peak On-State Current, Tppy. cee ee eee ees 75 Amperes | Critical Rate-Of-Rise of On-State Current, di/dt (see Chart 8)... 0... 00... c ce eee eee 50 Amperes/Microsecond Peak One Cycle Surge (non-rep) On-State Current, Inga... ee tee 15 Amperes It (for fusing), for times > 1.5 milliseconds. ... 2.0... 0.6 cece eee 0.5 Ampere? seconds Peak Gate Power Dissipation, Puy... 0... ete eet e ee 0.5 Watts Average Gate Power Dissipation, Puiayy... te eee eee ene 0.1 Watts Peak Positive Gate Current, Tuy... 0. te eee eee 0.2 Amperes Peak Negative Gate Voltage, Vay... 2.000 ne eee tee e ee 6 Volts Storage Temperature, Tgp 00 ee ee tenet eee 40C to +150C Operating Temperature, Ty... 0.0.00... cc te eet eens 40C to --110C {This rating applies for operation at 60 Hz, 75C marimum tab (or anode lead) temperature, switching from so volts peak, sinusoidal current pulse, width 10 sec. minimion, 15 usee, maronium, C107 | CHARACTERISTICS Test Symbol Min. Typ. Max. Units Test Conditions Peak Reverse IRRM - 0.1 10 LA Verm = Vorm = Rated Value. and Off-State or TL = 25C, Rex = 1000 Ohms Current IpbrRu (All Types) _ 10 100 LA Vermu = VorRmM= Rated Value. TL = 110C, Rex = 1060 Ohms. *DC Gate Trigger I6r ~ - 500 Adc Ty = 25C, Vp = 6 Vde, Ry = 100 Ohms. Current Rex = 1000 Ohms. DC Gate Trigger Vet 0.4 0.5 0.8 Volts Ty = 25C, Vp = 6 Vde, RL = 100 Ohms. Voltage DC Rex = 1000 Ohms. 0.2 - - Volts T, = 110C, Rated Vpam re R,_ = 3000 Ohms, Rex = 1000 Ohms. Peak On-State Vom - 2.2 2.5 Volts Ty = 25C, Itnq = 4 Amperes Peak, Voltage Single Half Sine Wave Pulse, 2 Millisec, Wide. Holding Current Ty 0.3 2.0 6.0 mAdc Ti = 25C, Anode Supply = 12 Vdc, Rox = 1000 Ohms. 0.14 1,2 4.0 mAdc T, = 110C, Anode Supply = 12 Vdc, Rg = 1000 Ohms. Latching Current IL 0.3 3.0 8.0 mAdc Ty = 25C, Anode Supply = 12 Vde, Rex = 1000 Ohms. Critical Rate of dv/dt 8 - Volts/ Ty = 110C, Rated Vonm Rise of Off-State Micro- Rex = 1000 Ohms. Voltage second Turn-On Time ty t ty - 1.2 - Micro- Ty. = 25C, Rated Vporam seconds It = 1 Ampere, Gate Pulse = 4 Volts, 300 Ohms, 5 Microseconds Wide. Circuit tg 40 100 Micro- TL= 110C, rectangular current waveform. Commutated seconds Rate of Rise of current <10 amps/Usec. Turn-Off Time Rate of reversal of current <5 amps/psec. Itm = | Amp (50 usec, pulse), Repetition Rate = 60 pps. Rated Varnm Vp = 15 Volts Minimum. Rated Vpogm Rate of Rise Reapplied Forward Blocking Voltage = 5 Volts/pisec. Gate Bias = 0 Volts, 100 Ohms (during turn-off time interval). The lead temperature (T 1) is measured in the center of the tab, 1 /16 inch from the body on Type I and Type 3 devices, and in the center of the anode lead, 1/16 inch from the body on Type 2 and Type 4 devices. Devices with an Ig7 max. of 1mA and 2mA are available as C107-X 1, or C107-X2 at reduced prices. 729HOLDING CURRENT-MILLIAMPERES 10 40 2.0 yo lo JUNCTION Ue LO TEMP = a 1lo%c = a (fe 25C = 04 | 5 02 aw x 3 Ol 2 Zz 0.04 ; 2 002 wi a Ww 9.01 z cg - 2 = 0004 . 05 10 LS 20 25 30 35 40 - oOo INSTANTANEOUS ON-STATE VOLTAGE - VOLTS 1. Maximum On-State Characteristics s 3 1 RESISTIVE LOAD, OOHz- 2. RATINGS DERIVED FOR 0.01 WATT AVERAGE GATE POWER DISSIPATION. 3. TEMPERATURES ARE MEASURED 1/16" FROM BODY ON EITHER TABOR ANODE LEAD AS 4. TAB o | TAB TEMP. (SEE ) en o a os MAXIMUM ALLOWABLE TEMPERATURE C* 8 4) 0 04 08 12 16 20 4 : 3.2 36 40 AVERAGE ON~STATE CURRENTAMPERES (HALF SINE WAVE ) 3. Maximum Allowable Temperatures for Half Sine Wave On-State Current 40 NOTES: (1) CURVES SHOWN ARE FOR VARIOUS JUNCTION TEMPERATURES. 20 (2) ANODE SUPPLY VOLTAGE = I2 VOLTS. >a MAXIMUM AT 25C | Woinct raring ooes HoT APTLY FOR SS hn 7A 19 _~. be 6 = 4 MAXIMUM AT 110C 2 pe o tend ppd 0.8 0.6 pee 0.4 d | hel MINIMUM AT 25C 0.2 | MINIMUM AT 110C TP Ll N 0. 4 woo = 2000.'s4.000_! g000 100 200 00 600 800 CO 00 GATE TO CATHODE RESISTANCE-OHMS 5. Maximum and Minimum Holding Current Variation with External Gate-to-Cathode Resistance 730 TRANSIENT THERMAL IMPEDANCE ~*c PER WATT AVERAGE ON-STATE POWER DISSIPATION WATTS 12 | NOTES: \.JUNCTION TEMPERATURE= li0C 2.RESISTIVE OR INDUCTIVE LOAD, 50 TO 400 Hz 3 r y HALF SINE WAVE ON~-STATE CURRENT LA 7 ee CURRENT a > ZO nN 0 0 Os 1.0 LS 20 2.5 3.0 3.5 40 AVERAGE OR DC ON-STATE CURRENT AMPERES 2. Maximum On-State Power Dissipation 20 ED 1/16" FROM BODY LEAD AS INDICATED. o o wn at o 9 wu o SEE - NOTES) MAXIMUM ALLOWABLE TEMPERATURE C 3 o 04 08 12 16 20 8024 28 32 36 40 DC ON-STATE CURRENT AMPERES . 4. Maximum Allowable Temperatures for DC On-State Current 1000 800 =m + { 600 400 | | mT NOTE: (1) TAB AND ANODE LEAD REFERENCE 200 POINTS ARE I/I6 INCH FROM DEVICE BODY. HUNTION TO AMBIENT 7 (2) THERMAL IMPEDANCE FROM JUNCTION TO TYPES 16 3~ loo AMBIENT FOR TYPES | AND 3 APPLY FOR i 80 MOUNTING WITH THE TAB IN 60 FREE AIR: FOR TYPE 2 AND 4 IN ANY a aot | | ! AIR y JUNCTION TO ANODE LEAD- 20 a ae TYPES 284 JUNCTION T0_TAB~ TYPES 183 a ale) 6 i 4 ma a 2 "| I 001 0.002 0004 OO 002 004 Ol a2 a4 t 2 4 to 20 a 100 TIME IN SECONDS 6. Maximum Transient Thermal Impedance100 80 15 60 va & VA 14 2 $40 13 a la z w ey, 50 NOTES : (1) 0 To 400 PRS. = @ 3 (2) JUNCTION TEMPERATURE = 10 ws IMMEDIATELY PRIOR TO TURN- e % ON =-40C TO+110C. wo Bo 10 (3) SWITCHING FROM RATED 5 8 4 VOLTAGE. 4 o 8 (4) GATE SUPPLY: 5 VOLT OPEN} 37 Z , / CIRCUIT, 300 OHM, [.5 SEC w SQUARE WAVE PULSE,RISE > NOTE: JUNCTION TEMPERATURE : z IMMEDIATELY PRIOR TO w y TIME = 0.) SEC MAXIMUM. w 5 SURGE = -40C TO +110C. s 4 4 { z a a | | a nn a, z INSTANTANEOUS VALUE OF ON-STATE CURRENT x 2|--. MUST NEVER EXCEED TURN-ONCURRENT LIMIT LINE ae SHOWN. a ) | | iI ' 2 4 6 810 20 40 60 on 0.2 04 06 08 | 2 a io CYCLES AT 60 Hz TIME FROM START OF CURRENT FLOW~MICROSECONDS 7. Maximum Allowable Peak Surge 8. Turn-On Current Limit On-State Current (Non-repetitive) [ctor conversions | 400 NOTE:1.GATE LEAD (S$ ADJACENT TO CHAMFER. INCHES MILLIMETERS} 400 2. ANODE. on] seo [* 3607) 3. CATHODE. cow | us 27 4. TABIS DIRECTLY CONNECTED To CENTER =| Se | 260 - By DIA, LEAD (ANODE) INTERNALLY. ee | ae 135 240 fT 026 oa | Tre 115 | 4 {b+ O19 | oe | 1778 .054 0s | 2667, SEE 095 2at + I NOTE H SEE > ane Sa6 am | oe 4 520 NOTE>4 po SEE ia | Time 520 aa | 3a 2385 320 480 2 see ag | a9 365 310 050 | B80 t 27 + je 280 as ame 4 = a r .030 t : 4 287 240 ate; {7 TI Te | te m5 fy | t o30) a s | | .070 X 45 REF. | 7 ma sae 429 NOTE ' CHAMFER i HI 76 400 1 1] NOTE! t .050 |! | 327 |} || -950 au -030 297 030 a7 SEE NOTE 2 . ] as Jo 368 105. ke = 105 i 095 095 _ | 190) r 360 095 054 170 ae aie C107 TYPE 1 C107 TYPE 2 C107 TYPE 3 C107 TYPE 4 731MOUNTING METHODS The C107, because of its unique package design, is capable of being mounted in a variety of methods; depending upon the heatsink requirements and the circuit packaging methods. The leads will bend easily, either perpendicular to the flat or to any angle, and may also be bent, if desired, immediately next to the plastic case. For sharp angle bends (90 or larger), a lead should be bent only once; since repeated bending will fatigue or break the lead. Bending in other directions may be performed as long as the lead is held firmly between the case and the bend, so that the strain on the lead is not transmitted to the plastic case. The mounting tab may also be bent or formed into any convenient shape so long as it is held firmly between the plastic case and the area to be formed or bent. Without this precaution, bending may fracture the plastic case and permanently damage the unit. As a service to its customers, the General Electric Company provides a lead and tab shaping capability. Any of the derived types shown in the following chart are available direct from the factory to original equipment manufacturers. DERIVED TYPES (The types shown below are derived from the basic types illustrated in the left-hand column.) PRINTED CIRCUIT BOARD MOUNTING RIVET OR SCREW MOUNTING TO FLAT SURFACE (Upright or Flat) 0 Ly : a aL C107 Type 1 07 Type 11 C107 Type 12 C1 ; a a 0 b= .332 REF. I if 4 C107 Type 2 C107 Type 21 O -f-] L a cr 160 a "120 be 465 REF BASIC TYPES C107 Type 3 C107 Type 32 ow 420 C107 CONVERSIONS -380 be 193 REF. INCHES MILLIMETERS INCHES MILLIMETERS -120 3.048 8 REF C 080 2.031 -332 REF. 433 REF. :160 4.064 420 10.668 4 120 3.047 380 9.651 ot jt .193 REF. 4.902 REF. 465 REF. 11.811 REF. C107 Type 4 C107 Type 41 732