Conditions Commercial frequency, sine full wave 360 conduction, Tc=56 C 4 60Hz sinewave 1 full cycle, peak value, non-repetitive

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OUTLINE DRWING φ. MX. Dimensions in mm T TERMINL T TERMINL GTE TERMINL CLSS TYPE NME. MX. MIN CIRCUMSCRIBE CIRCLE φ... IT (RMS)... DRM... 6 IFGT!, IT!, IT #... m IFGT #...m JEDEC : TO-9..9 MX PPLICTION Contactless C switches, heating, refrigerator, washing machine, electric fan, vending machines, trigger circuit for low and medium triac, solid state relay, other general purpose control applications MXIMUM RTINGS DRM DSM Repetitive peak off-state voltage Non-repetitive peak off-state voltage oltage class 6 IT (RMS) ITSM RMS on-state current Surge on-state current Conditions Commercial frequency, sine full wave 6 conduction, Tc=6 C 6Hz sinewave full cycle, peak value, non-repetitive Ratings. I t I t for fusing alue corresponding to cycle of half wave 6Hz, surge on-state current. s PGM PG () Peak gate power dissipation verage gate power dissipation. W W GM IGM Peak gate voltage Peak gate current 6 Tj Junction temperature ~ + C Tstg Storage temperature Weight Typical value ~ +. C g. Gate open. Feb.999

ELECTRICL CHRCTERISTICS Test conditions Min. Limits Typ. Max. IDRM TM FGT! T! T # FGT # IFGT! IT! IT # IFGT # Repetitive peak off-state current On-state voltage Gate trigger voltage Gate trigger current! @ # $! @ # $ Tj= C, DRM applied Tc= C, ITM=., Instantaneous measurement Tj= C, D=6, RL=, =Ω Tj= C, D=6, RL=, =Ω..6.... m m m m m GD Rth (j-c) Gate non-trigger voltage Thermal resistance Tj= C, D=/DRM Junction to case. C/W (dv/dt)c Critical-rate of rise of off-state commutating voltage /µs. Measurement using the gate trigger characteristics measurement circuit.. The critical-rate of rise of the off-state commutating voltage is shown in the table below.. Case temperature is measured at the T terminal.mm away from the molded case. oltage class DRM () (dv/dt) c Min. Test conditions Commutating voltage and current waveforms (inductive load) 6 /µs. Junction temperature Tj= C. Rate of decay of on-state commutating current (di/dt)c=./ms. Peak off-state voltage D= SUPPLY MIN CURRENT MIN (dv/dt)c (di/dt)c D PERFORMNCE CURES MXIMUM ON-STTE CHRCTERISTICS RTED SUE ON-STTE CURRENT ON-STTE CURRENT () TC = C..8..6...8..6.. SUE ON-STTE CURRENT () 8 6 ON-STTE () CONDUCTION (CYCLES T 6Hz) Feb.999

GTE () IFGT I IT I IT III GTE CHRCTERISTICS GM = 6 IFGT III PGM = W PG() =.W IGM = GD =. (%) GTE TRIGGER CURRENT (Tj = t C) GTE TRIGGER CURRENT (Tj = C) GTE TRIGGER CURRENT S. JUNCTION TEMPERTURE TYPICL EXMPLE IT III, IFGT III IFGT I, IT I 6 6 8 GTE CURRENT (m) JUNCTION TEMPERTURE ( C) (%) GTE TRIGGER (Tj = t C) GTE TRIGGER (Tj = C) GTE TRIGGER S. JUNCTION TEMPERTURE TYPICL EXMPLE T III, FGT III FGT I, T I 6 6 8 TRNSIENT THERML IMPEDNCE ( C/W) MXIMUM TRNSIENT THERML IMPEDNCE CHRCTERISTICS JUNCTION TO MBIENT JUNCTION TO CSE JUNCTION TEMPERTURE ( C) CONDUCTION (CYCLES T 6Hz) ON-STTE POWER DISSIPTION (W)..6..8. MXIMUM ON-STTE POWER DISSIPTION 6 CONDUCTION RESISTIE, INDUCTIE LODS..8..6. CSE TEMPERTURE ( C) 6 8 6 LLOWBLE CSE TEMPERTURE S. RMS ON-STTE CURRENT CURES PPLY REGRDLESS OF CONDUCTION NGLE RESISTIE, INDUCTIE LODS 6 CONDUCTION...6.8....6 RMS ON-STTE CURRENT () RMS ON-STTE CURRENT () Feb.999

MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 6 CURES PPLY REGRDLESS OF CONDUCTION NGLE NTURL CONECTION NO FINS 8 6 RESISTIE, INDUCTIE LODS...6.8....6 (%) REPETITIE PEK OFF-STTE CURRENT (Tj = t C) REPETITIE PEK OFF-STTE CURRENT (Tj = C) REPETITIE PEK OFF-STTE CURRENT S. JUNCTION TEMPERTURE TYPICL EXMPLE 6 6 8 RMS ON-STTE CURRENT () JUNCTION TEMPERTURE ( C) (%) HOLDING CURRENT (Tj = t C) HOLDING CURRENT (Tj = C) HOLDING CURRENT S. JUNCTION TEMPERTURE TYPICL EXMPLE LCHING CURRENT (m) LCHING CURRENT S. JUNCTION TEMPERTURE,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, + T, G + T, G T, G + DISTRIBUTION TYPICL EXMPLE T +, G TYPICL EXMPLE 6 6 8 6 6 8 JUNCTION TEMPERTURE ( C) JUNCTION TEMPERTURE ( C) (%) 6 BREKOER S. JUNCTION TEMPERTURE TYPICL EXMPLE (%) 6 BREKOER S. RTE OF RISE OF OFF-STTE TYPICL EXMPLE Tj = C BREKOER (Tj = t C) BREKOER (Tj = C) 8 6 6 6 8 BREKOER (dv/dt = x/µs) BREKOER (dv/dt = /µs) I QUDRNT 8 6 III QUDRNT JUNCTION TEMPERTURE ( C) RTE OF RISE OF OFF-STTE (/µs) Feb.999

CRITICL RTE OF RISE OF OFF-STTE COMMUTTING (/µs) COMMUTTION CHRCTERISTICS TYPICL EXMPLE TC = C IT = τ = µs D = MINIMUM III QUDRNT CHRC- TERISTICS LUE I QUDRNT (%) GTE TRIGGER CURRENT (tw) GTE TRIGGER CURRENT (DC) GTE TRIGGER CURRENT S. GTE CURRENT PULSE WIDTH IFGT I IFGT III IT III IT I TYPICL EXMPLE RTE OF DECY OF ON-STTE COMMUTTING CURRENT (/ms) GTE CURRENT PULSE WIDTH (µs) GTE TRIGGER CHRCTERISTICS TEST CIRCUITS 6 6 TEST PROCEDURE TEST PROCEDURE 6 6 TEST PROCEDURE TEST PROCEDURE Feb.999

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