TMR-M,-H TMR-M,-H PPLICTION DC motor control, NC equipment, Inverters, Servo drives, contactless switches, electric furnace temperature control, light dimmers OUTLINE DRWING & CIRCUIT DIGRM 1 4.6 K1 K G1 8. 1 6 4 M4 Tab#1, t=0. φ. 1 18 IT () verage on-state current... IF () verage forward current... RRM Repetitive peak reverse voltage... 0/0 DRM Repetitive peak off-state voltage... 0/0 MIX DOUBLE RMS Insulated Type UL Recognized Yellow Card No. E6 (N) File No. E1 11 LBEL.0 16. 4. G1 CR 1 Dimensions in mm K1 K SR
TMR-M,-H BSOLUTE MXIMUM RTINGS RRM RSM R (DC) DRM DSM D (DC) IT (RMS), IF (RMS) IT (), IF () ITSM, IFSM I t di/dt PGM PG () FGM RGM IFGM Tj Tstg iso Repetitive peak reverse voltage Non-repetitive peak reverse voltage DC reverse voltage Repetitive peak off-state voltage Non-repetitive peak off-state voltage DC off-state voltage RMS current verage current Surge (non-repetitive) current I t for fusing Critical rate of rise of on-state current Peak gate power dissipation verage gate power dissipation Peak gate forward voltage Peak gate reverse voltage Peak gate forward current M 0 4 0 4 Conditions Single-phase, half-wave 1 conduction, TC=8 C One half cycle at Hz, peak value alue for one cycle of surge current D=1/DRM, IG=0., Tj=1 C Charged part to case Main terminal screw M4 Mounting screw M Typical value H 0 9 6 0 9 6 Ratings 0 6. Junction temperature ~1 Storage temperature ~1 Isolation voltage Mounting torque Weight ELECTRICL CHRCTERISTICS IRRM IDRM TM, FM dv/dt GT GD oltage class 0.0 0..0.0 0.98~1.4 ~1 1.4~.4 IGT Gate trigger current Tj= C, D=6, RL=Ω Rth (j-c) Rth (c-f) Repetitive peak reverse current Repetitive peak off-state current Foward voltage Critical rate of rise of off-state voltage Gate trigger voltage Gate non-trigger voltage Thermal resistance Contact thermal resistance Insulation resistance Tj=1 C, RRM applied Tj=1 C, DRM applied Test conditions Tj=1 C, ITM=IFM=, instantaneous meas. Tj=1 C, D=/DRM Tj= C, D=6, RL=Ω Tj=1 C, D=1/DRM Junction to case (per 1/ module) 1~ Limits Case to fin, conductive grease applied (per 1/ module) Measured with a 0 megohmmeter between main terminal and case Note: s of the above table applies to the part and the part as circled in the following tables. Min. 0 0. Typ. Max. 4.0 4.0 1.8.0 1.0 0. s /µs W W C C N m kg cm N m kg cm g m m /µs m C/W C/W MΩ
TMR-M,-H MXIMUM RTINGS 1 0 0. 4 RRM RSM R (DC) DRM PGM PG () ELECTRICL CHRCTERISTICS IRRM IDRM PERFORMNCE CURES CURRENT () GTE OLTGE () Tj=1 C 1... 4. FORWRD OLTGE () FGM= FGM 1 PGM=.0W GT=.0 PG()= 0.W 0 IGT= m Tj= C 1 GD=0. 4 1 4 GTE CURRENT (m) TM FM IFGM dv/dt MXIMUM FORWRD CHRCTERISTIC GTE CHRCTERISTICS IFGM=.0 DSM Tj GT D (DC) Tstg GD SURGE (NON-REPETITIE) CURRENT () TRNSIENT THERML IMPEDNCE ( C/W) 0 0 0 0 0 0 1 0 MXIMUM TRNSIENT THERML IMPEDNCE (JUNCTION TO CSE) 0 1 1.0 0.8 0.6 0.4 0. IT (RMS) IF (RMS) IGT IT () IF () Rth (j-c) ITSM IFSM Rth (c-f) 0 1 0 TIME (s) I t RTED SURGE (NON-REPETITIE) CURRENT CONDUCTION TIME (CYCLE T Hz) di/dt
TMR-M,-H ERGE POWER DISSIPTION (W) ERGE POWER DISSIPTION (W) ERGE POWER DISSIPTION (W) 1 0 0 1 ERGE CURRENT () 1 = = 1 1 1 1 RESISTIE, INDUCTIE DC RESISTIE, INDUCTIE 0 0 1 ERGE CURRENT () MXIMUM ERGE POWER DISSIPTION (REERSE-PRLLEL CONNECTION, THREE-PHSE THREE-LINE CONNECTION) =1 RESISTIE, INDUCTIE PER SINGLE MODULE MXIMUM ERGE POWER DISSIPTION (SINGLE PHSE HLFWE) MXIMUM ERGE POWER DISSIPTION (RECTNGULR WE) LIMITING LUE OF THE ERGE CURRENT (SINGLE PHSE HLFWE) 1 1 1 0 = 1 1 0 1 ERGE CURRENT () 1 1 1 0 RESISTIE, INDUCTIE LIMITING LUE OF THE ERGE CURRENT (RECTNGULR WE) RESISTIE, INDUCTIE PER SINGLE ELEMENT 1 = 1 DC 0 1 ERGE CURRENT () LIMITING LUE OF THE RMS CURRENT (REERSE-PRLLEL CONNECTION, THREE-PHSE THREE-LINE CONNECTION) 1 1 1 11 = 1, 1 0 9 RESISTIE, INDUCTIE 8 PER SINGLE MODULE 0 0 RMS CURRENT () 0 RMS CURRENT ()
TMR-M,-H POWER DISSIPTION (W) POWER DISSIPTION (W) = 1 1 RESISTIE, INDUCTIE 0 0 1 DC OUTPUT CURRENT () (PER TWO MODULES) MXIMUM POWER DISSIPTION (SINGLE PHSE FULLWE RECTIFIED) MXIMUM POWER DISSIPTION (THREE-PHSE FULLWE RECTIFIED) = 1 RESISTIE, INDUCTIE 0 0 DC OUTPUT CURRENT () (PER THREE MODULES) LIMITING LUE OF THE DC OUTPUT CURRENT (SINGLE PHSE FULLWE RECTIFIED) 1 1 1 0 RESISTIE, INDUCTIE = 1 1 0 1 DC OUTPUT CURRENT () (PER TWO MODULES) LIMITING LUE OF THE DC OUTPUT CURRENT (THREE-PHSE FULLWE RECTIFIED) 1 1 1 0 RESISTIE, INDUCTIE = 1 0 DC OUTPUT CURRENT () (PER THREE MODULES)