OUTLINE DRWING Dimensions in mm MX TYPE NME CLSS.±.. MIN. MX. MX.. φ.6±. 1.. 1.....6. IT (RMS)... DRM.../ IFGT!, IT!, IT #... m (m) 1 1 1T1 TERMINL T TERMINL GTE TERMINL T TERMINL TO- Measurement point of case temperature PPLICTION Contactless C switches, light drimmer, electric flasher unit, control of household equipment such as T sets stereo refrigerator washing machine infrared kotatsu carpet electric fan, solenoid drivers, small motor control, copying machine, electric tool, other general purpose control applications MXIMUM RTINGS DRM DSM Repetitive peak off-state voltage 1 Non-repetitive peak off-state voltage 1 oltage class Conditions Ratings IT (RMS) ITSM RMS on-state current Surge on-state current Commercial frequency, sine full wave conduction, Tc=9 C Hz sinewave 1 full cycle, peak value, non-repetitive I t I t for fusing alue corresponding to 1 cycle of half wave Hz, 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 Tj Junction temperature ~ + C Tstg Storage temperature Weight Typical value ~ +. C g 1. Gate open.
ELECTRICL CHRCTERISTICS Test conditions Min. Limits Typ. Max. IDRM TM FGT! T! T # IFGT! IT! IT # GD Rth (j-c) Repetitive peak off-state current On-state voltage Gate trigger voltage Gate trigger current Gate non-trigger voltage Thermal resistance! @ #! @ # Tj= C, DRM applied Tc= C, ITM=, Instantaneous measurement Tj= C, D=6, RL=, =Ω Tj= C, D=6, RL=, =Ω Tj= C, D=1/DRM Junction to case.. 1.6 1. 1. 1. 1. m m m m 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.. The contact thermal resistance Rth (c-f) in case of greasing is 1. C/W.. High sensitivity (IGT m) is also available. (IGT item 1) oltage class DRM () (dv/dt) c Min. Test conditions Commutating voltage and current waveforms (inductive load) R L R L /µs 1. Junction temperature Tj= C. Rate of decay of on-state commutating current (di/dt)c= 6/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 () 1 Tj = C Tj = C 1.6 1. 1. 1...6... SUE ON-STTE CURRENT () 1 1 ON-STTE () CONDUCTION (CYCLES T Hz)
GTE () 1 GTE CHRCTERISTICS GM = PG() =.W GT = 1. PGM = W IGM = 1 IT I IFGT I, IT III GD =. 1 (%) GTE TRIGGER CURRENT (Tj = t C) GTE TRIGGER CURRENT (Tj = C) GTE TRIGGER CURRENT S. JUNCTION TEMPERTURE IFGT I IT I, IT III TYPICL EXMPLE 1 GTE CURRENT (m) JUNCTION TEMPERTURE ( C) (%) GTE TRIGGER (Tj = t C) GTE TRIGGER (Tj = C) GTE TRIGGER S. JUNCTION TEMPERTURE TYPICL EXMPLE 1 TRNSIENT THERML IMPEDNCE ( C/W) MXIMUM TRNSIENT THERML IMPEDNCE CHRCTERISTICS (JUNCTION TO CSE)... 1. 1.6 1. 1. 1...6.. 1 1 JUNCTION TEMPERTURE ( C) CONDUCTION (CYCLES T Hz) ON-STTE POWER DISSIPTION (W) MXIMUM ON-STTE POWER DISSIPTION CONDUCTION RESISTIE, INDUCTIE LODS 6 1 CSE TEMPERTURE ( C) 1 LLOWBLE CSE TEMPERTURE S. RMS ON-STTE CURRENT CURES PPLY REGRDLESS OF CONDUCTION NGLE CONDUCTION RESISTIE, INDUCTIE LODS 6 1 RMS ON-STTE CURRENT () RMS ON-STTE CURRENT ()
MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 1 LL FINS RE BLCK PINTED LUMINUM ND GRESED CURES PPLY REGRDLESS OF CONDUCTION NGLE t. t. t. RESISTIE, INDUCTIE LODS NTURL CONECTION 6 1 MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 1 NTURL CONECTION NO FINS CURES PPLY REGRDLESS OF CONDUCTION NGLE RESISTIE, INDUCTIE LODS.. 1. 1.6.... RMS ON-STTE CURRENT () RMS ON-STTE CURRENT () (%) 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 (%) HOLDING CURRENT (Tj = t C) HOLDING CURRENT (Tj = C) HOLDING CURRENT S. JUNCTION TEMPERTURE TYPICL EXMPLE 1 JUNCTION TEMPERTURE ( C) JUNCTION TEMPERTURE ( C) LCHING CURRENT (m) LCHING CURRENT S. JUNCTION TEMPERTURE DISTRIBUTION T +, G TYPICL EXMPLE,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 1 + T, G + TYPICL T, G EXMPLE 1 (%) BREKOER (Tj = t C) BREKOER (Tj = C) 1 BREKOER S. JUNCTION TEMPERTURE TYPICL EXMPLE JUNCTION TEMPERTURE ( C) JUNCTION TEMPERTURE ( C)
(%) BREKOER (dv/dt = x/µs) BREKOER (dv/dt = 1/µs) 1 BREKOER S. RTE OF RISE OF OFF-STTE # 1 I QUDRNT TYPICL EXMPLE Tj = C # III QUDRNT 1 CRITICL RTE OF RISE OF OFF-STTE COMMUTTING (/µs) COMMUTTION CHRCTERISTICS TYPICL EXMPLE Tj = C IT = τ = µs D = f = Hz WEFORM t (dv/dt)c D CURRENT WEFORM (di/dt)c IT τ t 1 I QUDRNT MINIMUM CHRC- TERISTICS III QUDRNT LUE 1 RTE OF RISE OF OFF-STTE (/µs) RTE OF DECY OF ON-STTE COMMUTTING CURRENT (/ms) (%) GTE TRIGGER CURRENT (tw) GTE TRIGGER CURRENT (DC) GTE TRIGGER CURRENT S. GTE CURRENT PULSE WIDTH IFGT I IT I TYPICL EXMPLE IT III 1 1 GTE CURRENT PULSE WIDTH (µs) GTE TRIGGER CHRCTERISTICS TEST CIRCUITS 6 6 TEST PROCEDURE 1 TEST PROCEDURE 6 TEST PROCEDURE