MOTOROLA SC (DIODES/OPTO) eSE D MM 6367255 0041143 7 T-25-1S Gate Turn-Off Thyristors vGroisce The GTO is a family of asymmetric gate turn-off thyristors designed primarily for de power switching applications such as motor drives, switching power supplies, inverters, or wherever a need exists for high surge current capabilities and fas switching speeds. . GTOs @ Fast Turn-Off With Reverse Gate Pulse 18 AMPERES RMS High Voltage VoRxm = 1000 and 1200 Volts 1000 and 1200 VOLTS @ Momentary Forward Pulse For Turn-On @ Minimizes Drive Losses Interdigitated Emitter Geometry Aids Turn-On Current Spreading and Improves Turn-On di/dt - Clip and Current Spreading Ring for Reliable High Surge Capability Itsm = 200A : ANODE CATHODE CASE 221A-04 (TO-220AB) GATE STYLE 3 MAXIMUM RATINGS 7 Rating ; Symbol Value Unit Repetitive Peak Off-Stata Voltage VpRXM 1000 Volts {Ty = 40 to +125C, 1/2 Sine Wave 50 to 60 Hz) Note 1 1200 Repatitive Peak Reverse Voltage, Gate Open VRRM 15 Volts (Ty = -40 to +128C), Note 2 Repetitive Peak Reverse Gate Voltage, Note 3 VGRM 15 Volts On-State Current at Te = 65C (1/2 Cycle Sine Wave, 50 to 60 Hz) 'TIRMS) _ 18 Amps Peak Nonrepetitive Surge Current ITsM 200 Amps (8.3 ms Conduction, Half Sine Wave Te =.65C} - Circuit Fusing {t = 8.3 ms} 2 187 Ads Repetitive Controllable Qn-State Current, Note 4 - TCM 50. Amps Nonrepetitive Maximum Interruptable On-State Current, Note 5 ITCSM 70 Anips Peak Forward Gate Power _ PGFM 10 Watts Average Forward Gate Power PGFIAV) 3 Watts Peak Reverse Gate Power PGRM 400 Watts Average Reverse Gate Power ; PGR(AV) 5 Watts Operating Junction Temperature Range TJ --40 to +125 C Storaga Temperature Range Tstg 40 to +150 C Notes: 1. VoRxm for all types can be applied on a continuous basis without damage, Ratings apply for R = 39 9 or shorted gate conditions or negative voltage on the gate, Devices should nat be tested for blocking voltage such that the supply voltage exceeds the rating of the device, . This is an asymmetric anode shorted part with a blacking gate-cathode junction. The ability to support a reverse voltage depends on the gata-cathode terminal conditions. Gate-cathade raverse bias increases Van . Instantaneous voltage at turn-off may exceed rated Vaan provided Pag is not exceeded. . Vp Maximum Peak = Vorxny 300 V, Ty < 128C, Lg = 2 nH, VaR = 12 V {See Figure 2) Cg = 0.1 uF for MGTOT0C0 Cg = 0.05 uF for MGTO1200 5. Vp Maximum Peak = Vonxn 300 V, Ty < 126C, Lg = 2 nH, VaR = 12 V (See Figure 2) Cg = 0.2 uF for MGTO1000 : Cg = 0.1 pF for MGTO1200 n aa Lo Soe ees MOTOROLA THYRISTOR DEVICE DATA 3-302MOTOROLA SC (DIODES/OPTO) c2SE D MM 6367255 0081184 0 MGT0O1000 MGTO1200 or THERMAL CHARACTERISTICS Characteristic Symbol Value Unit Thermal Resistance, Junction to Case ; Reale 1 C Thermal Resistance, Junction to Ambisnt RA 60 C ELECTRICAL CHARACTERISTICS (Tj = 26C unless otherwise noted), Note 1 Characteristic - Symbol | Min Typ Max Unit Peak Forward Blocking Current ipRM _ - 5 mA (Vp = Rated Vppm. Rak = 39 2, Ty = 125C) Peak On-State Voltage VIM - 27 3.1 Volts (tm = 50 A, Pulse Width < 200 ys, Duty Cycle < 2%, IgT = 300 mAde) Peak Gate Trigger Current IGTM 60 300 mA (Vp = 12 Vde, Ry = 1.4.0, Pulse Width > 10 ps) : ; Peak Gate Trigger Valtage : VGTM - 0.8 15 Volts (Vp = 12 Vde, RE = 1.4 9, Pulse Width 2 10 xs} Reverse Gate Leakage Current . IGRM _ -~ 5 mA (VGRM = 18 V, Ty = 125C) Latching Current IL -_ 1 -_ Adc (PW = 300 ps, f = 60 Hz, Gate Pulse = 1A, 10 ns, Vp = 12 Vde} Holding Current lq - 700 - mA (PW = 300 ps, f = 60 Hz, Gate Pulse = 1 A, 10 ps, Anode Pulse = 6 A, 100 us, Vp = 12 Vdc) SWITCHING CHARACTERISTICS (Ty = 25C unless otherwise noted) RESISTIVE TURN-ON SWITCHING Gate Turn-On Time Vp = 600 V, lr = 50A tot 1.5 - us " \G(pk) = GA, Cg = 0.1 BF ~~ _ Turn-On Delay Time | gf a dt > 7 Aus tdt 0.6 oe Rise Time See Figure 1 and Table 1(A) tri _ 09 - = INDUCTIVE TURN-OFF SWITCHING : Gate Tun-Off Time Vp(pk} = 700 V, It = 60 A, VgR = 12V toa _ 3 _ ps la(pk) = 6A _ - Storage Time Lg = 2nH, Cg = 0.1 pF Ts} 26 _ Fall Time See Figure 2 and Table 1(8) Th ~ 0.4 - GATE TURN-OFF CHARGE a Gate Charge Voipk) = 700 V, ly = 50A Oca - 35 -_ pec Peak Reverse Ver = 12V laa = 17 - Gate Current Lg = 2 #H, Cg = 0.1 wF Peak Tail Current See Table 1(B) ltup 5 A STATIC dv/dt Critical Exponent Vipk) = VpaM ~ 400 V dv/dt _ 10,000 = Vins of Rise Time RGk = 39.0, Ty = 125C Linear Waveform Note 1. This davice is rated for use in applications subject to high surge conditions. Care must be taken to Insure proper heat-sinking is used at sustained currents (see derating curves}. MOTOROLA THYRISTOR DEVICE DATA 3-303MOTOROLA SC (DIODES/OPTO) MGTO1000 e MGTO1200 25E D MM 6367255 0041185 2 @ T= aS = 157 TABLE 1 TERMS, SYMBOLS AND DEFINITIONS FOR SWITCHING WITH GTOS NOTE: The parameters ara shown on two separate graphs for clarity. Terms Symbols Definitions RESISTIVE TURN-ON SWITCHING / 0.9 IT \7 Turn-On Time tot S 3 o tr ug g - Oil | : Delay Time taj 4 are ri yl te. digg _ 28 !Gipk) : T ~ tHHIGF) 2 5 Rise Time ti o IGipk) 2 ig Plateau oO A ' tdi<> (A) bea tg ta] t INDUCTIVE TURN-OFF SWITCHING Gate Controlled Turn-Off Time tgq It 2 6 09 tr Current Storage Time tsi o a Ss > wo 3 2 Current Fall Time tej < * time g tao tri a 5 g Turn-Off Gate Charge OGao & $ 2 o oO Peak Tail Currant ITLp (B) tsi currant storage time 10% Iqp ta 90% It tf; current fall time 90% ly to I7_p inflection point tgq gate controlled turn-off time (tet + ti) tdi ~~ currant delay time. 10% Igp) ta 10% Ir tri current rise time. 10% IF to 90% Ir tgt turn-on time (taj + tri) MOTOROLA THYRISTOR DEVICE DATA 3-304MOTOROLA SC (DIODES/OPTO) 25E D Mm 6367255 O08116b 4 MGTO1000 e MGTO1200 ) T= AS-IS FIGURE 1 RESISTIVE SWITCHING TEST CIRCUIT (TURN-ON) ----- 33, 50 Watt r ! Pearson Model 411 Non-Inductive. tab | | L 1 MR RL ! Ss | 760 2 Non- { I Inductive | | Var = 12V | t ly = 50 A Peak | y IGipk) = 60A dig/dt = 7.0 Alus | | rel SEE 1 Vv GS = Ul BR ! { Cece = ce yf 600 V Vcc = Specified Value l SAN = PW = 150 ps ! Le | 125 ] f = 10Hz B | Adjust RL as required | for I7 peak. | | I - | | = Ver |! | + I Loner p= FIGURE 2 INDUCTIVE SWITCHING TEST CIRCUIT (TURN-OFF) : | 3 | aa ~ 33, 50 Watt r | Pearson Model 411 Non-Inductive Vor = 12V { [WAS ly = 50 A Peak I *La = 2.0 aH i = { - | Cg as specified | MR PW = 150 us I I F 760 58 wH f = 10Hz | | Adjust- Vcc for specified !7 | | 4 { Clamp ; | * *Lo: 1 Layer Air Core | { 2 3/4" OD 46 Turns No. 14 AWG t 4 J { Cs Voc | lg { 0-60 V ! | | Clamp: MOSORB Transient Suppressor | I Zener Series Stack, 1N68292 or { _ | Scope = Tek 7623A 1.5KE75 adjusted for | =Van | P6007 x 100 Probe spacified Vipk) oo ! priver = | = Loo These circuits are used to evaluate the GTO maximum ratings and switching characteristics MOSORB is a trademark of Motorola Inc. MOTOROLA THYRISTOR DEVICE DATA 3-305Lee ne MOTOROLA SC (DIODES/0OPTO) e5E D WH 6367255 0081187 & MGT01000 e MGTO1200 FIGURE 3 ~- 50-60 Hz HALF WAVE CURRENT DERATING RRR ot 5 5 6 4s 70 18 ARMS 18 A RNS 16 40 45 60 15 9.0 10.5 12 AVERAGE ON-STATE CURRENT (AMPS) NOTE: Sine wava and rectangular chopper curves allow estimation of heat sink requirements at low frequencies (50 or 60 Hz} whare switching losses aro low compared to conduction losses. Heat sink sizes shauid be based on conduction angles that include the worst case peak current as well as the Te, MAXIMUM ALLOWABLE CASE TEMPERATURE {C} Rm R o FIGURE 5 CURRENT DERATING 50-60 Hz RECTANGULAR WAVEFORM 425 119 113 107 401 Te, MAXIMUM ALLOWABLE CASE TEMPERATURE (C} R 9 30 60 9.0 12 18 18 at 24 AVERAGE ON-STATE CURRENT {AMPS} FIGURE 7 FULL WAVE 50~60 Hz POWER DISSIPATION & 190 de mR 8 B = a Piavj, AVERAGE POWER DISSIPATION (WATTS) 3 8 eo oa a= om 0 3.0 60 9.0 12 16 18 a 24 AVERAGE ON-STATE CURRENT (AMPS) MOTOROLA THYRISTOR DEVICE DATA 3-306 7-25-15 FIGURE 4 50-60 Hz FULL WAVE CURRENT DERATING ry a 119 = ar) 101 1.8 8 a =190 60 ~ = a a Te, MAXIMUM ALLOWABLE CASE TEMPERATURE (*C; & 3.0 60 $0 12 1 18 20 | 64 AVERAGE ON-STATE CURRENT (AMPS} fongest conduction time. Operation at high frequencies should also be aval- uated using the pulsed rating curves. Surge operation with high power pulses, may require determination of the pulse power, energy, and paak Ty risa to achieve safe turn-off. FIGURE 6 HALF WAVE 50-60 Hz POWER DISSIPATION ye PR w& = 4 5S o = = aon a AVERAGE POWER DISSIPATION (WATTS): => = S30 At 0 18 30 45 6.0 75 90 10512 AVERAGE ON-STATE CURRENT (AMPS} FIGURE & POWER DISSIPATION versus FORWARD CURRENT RECTANGULAR WAVEFORM 49 a 8S & 8 & Piay. AVERAGE POWER (WATTS) 3 a = ba 0 30 6.0 5.0 12 15 18 at 24 AVERAGE ON-STATE CURRENT (AMPS) oMOTOROLA SC (DIODES/OPTO) 2S5E D ME 367255 00461145 & MGTO1000 MGTO1200 Ta QS IS FIGURE 9 FIRING CHARACTERISTICS FIGURE 16 NONREPETITIVE. SURGE CHARACTERISTICS s PS) g Fiting circuit loadtine must fail outside box for chosen min Ty and inside the (, I) consteaints sat by the gate power, 10 = 0 zg 3 10 (2t, FUSING LIMIT {AMPS2 sec} INSTANTANEOUS GATE CURRENT {AMPS} (Tg. NONREPETITIVE ON-STATE CURRENT (AM 20 04 10 04 2 10 02 08 0810 3.0 6.0 0 20 VG, INSTANTANEOUS GATE VOLTAGE (VOLTS) PW, PULSE WIDTH (ms) FIGURE 11 MAXIMUM INTERRUPTABLE CURRENT FIGURE 12 MAXIMUM FORWARD VOLTAGE versus CURRENT , 100 = 200 g 0 100 i Ty < 128C _% Z PW = 100 ps 2 5 wblg =20ut z kK =-2V 5 10 10.0 = a idtle) = = 60 a 6 3 20 s 2 | 2 , ; Pack = z 05 + 1.0 02 0 200 400 800 05 #10 #15 #20 25 30 35 40 45 50 55 VprM: PEAK ANODE TO CATHODE VOLTAGE {VOLTS} Vg, FORWARD VOLTAGE (VOLTS) NOTE: [n bridge inverter configurations the upper and lower snubber ca- , nat Cs . pacitors are in parallel, permitting 4 snubber > > when stray inductance is kapt low. Unsnubbed operation is not recommended althaugh high currents at low voltages can be switched, given well defined toad conditions. The use of a small snubber insures that the worst case dv/dt stress is known. FIGURE 13 TYPICAL GATE TRIGGER CURRENT FIGURE 14 TYPICAL GATE TRIGGER VOLTAGE 200 1.05 180 a 1.00 S 160 g 085 140 #090 = 120 3 0.85 oa 5 100 & 0.80 8 3 = 80 f 075 B E 070 5 8 20 0.60 0 0.88 4 = 9 -0 4 6 100 120 - -0 0 20 6 8 10 12 Ty, JUNCTION TEMPERATURE (C} : 1), JUNCTION TEMPERATURE {C} MOTOROLA THYRISTOR DEVICE DATA 3-307MOTOROLA SC (DIODES/OPTO) 25E D M@ 6367255 0081149 T MGTO1000 e MGTO1200 FIGURE 15 THERMAL RESPONSE Te Ash 10 07 g 05 g 03 aa 02 zo 0 = 0.07 BZ B z 0.04 F002 0.01 oi 02 03 05 4 610020 30 OsCidt(i CSCO HOOK OK ROK SCk 610k t, TIME (ms) FOU RE 16 REA LATCHING FIGURE 17 TYPICAL TURN-OFF DYNAMICS 40 70% 300 40 fatching and Current a oe 0 7 00 Vp = 120. g = = Gat Pulse Width = 10 ps = Oe 15 600 2 20 Anode Pulse Width = 300 ps Qo ww 5 z Ages iatnity. = 05 10 500 & Iatpk} = 1.04 fw w 3 z ws 50 mS 3 19 ww = yo 2205 0 300 = So = a Y = i Cg = 04 uF, Voy = BOOV, Ty = 125C 200 oo 3S = = 2.0 pH, Rg = 3.0,VGR = 12V 05 0 3 lg HH, Rg GR 100 04 ~ 0 49-2 0 2 4 60 8 100 120 obo o mo 8 6 70 8 Ty, JUNCTION TEMPERATURE (C) PEAK ANODE CURRENT (AMPS) FIGURE 18 TYPICAL TURN-OFF SWITCHING SPEED FIGURE 19 CONDUCTION ENERGY PER PULSE 45 200 100 40 Cs = 01 uf, = y, Ty = 25C 700 50 Lg = 2.0 nH, Rg = 3, Vgq = 12V _38 oo 20 x = oy 30 500 = 2 20 = aa i 400 10 2 4a ose & 20 300 Fe 5 50 = w 218 m= 30 E 2 = ly = Yelm 10 100 20g = 300mA > FIT 096 4 so Ts = 128C 10 20 2 4 50 6 70 PEAK ANODE CURRENT (AMPS) 0.001 10 10 0.01 0.1 PAY, PULSE. WIDTH (ms} MOTOROLA THYRISTOR DEVICE DATA 3-308MOTOROLA SC (DIODES/OPTO) FIGURE 20 ENERGY PER PULSE AT TURN-ON laFipk} =.8.0A, = 10 Ans 100 -Vp = 40 PEAK TUAN-ON CURRENT (AMPS) Ss 1.0 10 ENERGY {MILLUJOULES} FIGURE 22 MGTO1200, 1200M, TURN-OFF ENERGY {INDUCTIVE LOAD) 2 Vipk) = 900. = 12 10 lg = 2.0 nH. Rg = 302 PW = 100 3,0 < 2.0% J TURN-OFF ENERGY PER CYCLE (MILLIJOULES) 30 10 50 100 Ip, PEAK ANODE CURRENT (AMPS} ese Dd MGTO1000 MGTO1200 MOTOROLA THY ME G3b7255 0081190 b a T&S IS FIGURE 21 MGTO1000, 1000m TURN-OFF ENERGY {INDUCTIVE LOAD) 20 Vipk) = 700V, Ven = 12V, 10 L6G = 20 HH. Rg = 3.0.9 PW = 100 ps, D < 2.0% >* o TURN-OFF ENERGY PER CYCLE {MILLIJOULES) 02 3 40 &0 100 ip, PEAK ANODE CURRENT (AMPS) FIGURE 23 MGTO1400, 1400M, TURN-OFF ENERGY (INDUCTIVE LOAD} Vipk) = 1100, VgR = 12V Lg = 20 WH, Rg = 300 PW = 100 us, D < 2.0% 10 JURN-OFF ENERGY PER CYCLE (MILLISOULES} 3 10 100 fp. PEAK ANQDE CURRENT (AMPS) Ce oy ope eh es eee RiISTOR DEVICE DATA 3-309