BCR5KM. APPLICATION Control of heater such as electric rice cooker, electric pot. BCR5KM OUTLINE DRAWING Dimensions in mm

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Transcription:

Refer to the page 6 as to the product guaranteed maximum junction temperature C OUTLINE DRWING Dimensions in mm ±..8 ±. 1 ±. ±. 6. ±. φ. ±. 1 ±..6 ±. 1.1 ±. 1.1 ±. E. ±.. ±.1. ±.. ±.1 IT (RMS)... DRM... IFGT!, IT!, IT #... 1m (m) UL Recognized: Yellow Card No.E6(N) File No. E1 ➁ ➀ ➀➁➂ ➂.6 ±.. ±. ➀ T1 TERMINL ➁ T TERMINL ➂GTE TERMINL TO-FN Measurement point of case temperature PPLICTION Control of heater such as electric rice cooker, electric pot MXIMUM RTINGS Symbol DRM DSM Parameter Repetitive peak off-state voltage 1 Non-repetitive peak off-state voltage 1 oltage class 1 Symbol IT (RMS) ITSM Parameter RMS on-state current Surge on-state current Conditions Commercial frequency, sine full wave conduction, Tc= C Hz sinewave 1 full cycle, peak value, non-repetitive Ratings I t I t for fusing alue corresponding to 1 cycle of half wave Hz, surge on-state current. s PGM Peak gate power dissipation PG () verage gate power dissipation GM Peak gate voltage IGM Peak gate current Tj Junction temperature Tstg Storage temperature Weight iso Isolation voltage 1. Gate open. Ta= C, C 1 minute, T1 T G terminal to case. ~ +1 ~ +1. W W C C g Mar.

Refer to the page 6 as to the product guaranteed maximum junction temperature C ELECTRICL CHRCTERISTICS Symbol Parameter Test conditions IDRM TM FGT! T! T # IFGT! IT! IT # GD Rth (j-c) Rth (j-a) Repetitive peak off-state current On-state voltage! Gate trigger voltage @ #! Gate trigger current @ # Gate non-trigger voltage Thermal resistance Thermal resistance. Measurement using the gate trigger characteristics measurement circuit.. High sensitivity (IGT m) is also available. (IGT item ➀). The contact thermal resistance Rth (c-f) in case of greasing is. C/W. Tj=1 C, DRM applied Tc= C, ITM=, Instantaneous measurement Tj= C, D=6, RL=, =Ω Tj= C, D=6, RL=, =Ω Tj=1 C, D=1/DRM Junction to case Junction to ambient Min.. Limits Typ. Max.. 1. 1. 1. 1. 1 1 1.8 m m m m C/W C/W PERFORMNCE CURES MXIMUM ON-STTE CHRCTERISTICS RTED SUE ON-STTE CURRENT ON-STTE CURRENT () 1 Tj = C 1.6 1. 1. 1.8..6...8 SUE ON-STTE CURRENT () 9 1 ON-STTE OLTGE () (CYCLES T Hz) Mar.

Refer to the page 6 as to the product guaranteed maximum junction temperature C GTE OLTGE () 1 GTE CHRCTERISTICS (Ι, ΙΙ ND ΙΙΙ) GM = GT = 1. Tj = C IGT = 1m PGM = W IGM = PGM =.W GD =. 1 1 (%) GTE TRIGGER CURRENT (Tj = t C) GTE TRIGGER CURRENT (Tj = C) IFGT I GTE TRIGGER CURRENT S. JUNCTION TEMPERTURE IT III TYPICL EXMPLE IT I 1 11 GTE CURRENT (m) JUNCTION TEMPERTURE ( C) (%) GTE TRIGGER OLTGE (Tj = t C) GTE TRIGGER OLTGE (Tj = C) GTE TRIGGER OLTGE S. JUNCTION TEMPERTURE TYPICL EXMPLE 1 1 1 TRNSIENT THERML IMPEDNCE ( C/W)..... 1. 1.. MXIMUM TRNSIENT THERML IMPEDNCE CHRCTERISTICS (JUNCTION TO CSE) 1 1 JUNCTION TEMPERTURE ( C) (CYCLES T Hz) TRNSIENT THERML IMPEDNCE ( C/W) 1 MXIMUM TRNSIENT THERML IMPEDNCE CHRCTERISTICS (JUNCTION TO MBIENT) ON-STTE POWER DISSIPTION (W) 9 8 6 1 MXIMUM ON-STTE POWER DISSIPTION CONDUCTION RESISTIE, INDUCTIE LODS 1 6 8 9 (CYCLES T Hz) RMS ON-STTE CURRENT () Mar.

Refer to the page 6 as to the product guaranteed maximum junction temperature C CSE TEMPERTURE ( C) 1 1 1 LLOWBLE CSE TEMPERTURE S. RMS ON-STTE CURRENT CURES PPLY REGRDLESS OF CONDUCTION NGLE CONDUCTION RESISTIE, INDUCTIE LODS 1 6 8 MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 1 LL FINS RE BLCK PINTED 1 LUMINUM ND GRESED 1 1 1 t. t. t. CURES PPLY REGRDLESS OF CONDUCTION NGLE RESISTIE, INDUCTIE LODS NTURL CONECTION 1 6 8 RMS ON-STTE CURRENT () RMS ON-STTE CURRENT () MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 1 NTURL CONECTION 1 NO FINS CURES PPLY REGRDLESS 1 OF CONDUCTION NGLE RESISTIE, INDUCTIE LODS..8 1. 1.6...8. 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 11 JUNCTION TEMPERTURE ( C) (%) HOLDING CURRENT (Tj = t C) HOLDING CURRENT (Tj = C) 1 HOLDING CURRENT S. JUNCTION TEMPERTURE DISTRIBUTION TYPICL EXMPLE D = 1 11 LCHING CURRENT (m) 1 LCHING CURRENT S. JUNCTION TEMPERTURE DISTRIBUTION T +, G TYPICL EXMPLE + T, G + TYPICL T, G EXMPLE 11 JUNCTION TEMPERTURE ( C) JUNCTION TEMPERTURE ( C) Mar.

Refer to the page 6 as to the product guaranteed maximum junction temperature C (%) 1 1 BREKOER OLTGE S. JUNCTION TEMPERTURE TYPICL EXMPLE (%) 1 1 BREKOER OLTGE S. RTE OF RISE OF OFF-STTE OLTGE TYPICL EXMPLE Tj = 1 C BREKOER OLTGE (Tj = t C) BREKOER OLTGE (Tj = C) 1 11 BREKOER OLTGE (dv/dt = x/µs) BREKOER OLTGE (dv/dt = 1/µs) 1 III QUDRNT I QUDRNT 1 JUNCTION TEMPERTURE ( C) RTE OF RISE OF OFF-STTE OLTGE (/µs) (%) GTE TRIGGER CURRENT (tw) GTE TRIGGER CURRENT (DC) GTE TRIGGER CURRENT S. GTE CURRENT PULSE WIDTH IT I IFGT I IT III TYPICL EXMPLE 1 1 GTE TRIGGER PULSE WIDTH (µs) GTE TRIGGER CHRCTERISTICS TEST CIRCUITS 6 6 TEST PROCEDURE 1 TEST PROCEDURE 6 TEST PROCEDURE Mar.

The product guaranteed maximum junction temperature C (See warning.) OUTLINE DRWING Dimensions in mm ±..8 ±. 1 ±. ±. 6. ±. φ. ±. 1 ±..6 ±. 1.1 ±. 1.1 ±. E. ±.. ±.1. ±.. ±.1 IT (RMS)... DRM... IFGT!, IT!, IT #... 1m (m) UL Recognized: Yellow Card No.E6(N) File No. E1 ➁ ➀ ➀➁➂ ➂.6 ±.. ±. ➀ T1 TERMINL ➁ T TERMINL ➂GTE TERMINL TO-FN Measurement point of case temperature PPLICTION Control of heater such as electric rice cooker, electric pot (Warning) 1. Refer to the recommended circuit values around the triac before using.. Be sure to exchange the specification before using. If not exchanged, general triacs will be supplied. MXIMUM RTINGS Symbol DRM DSM Parameter Repetitive peak off-state voltage 1 Non-repetitive peak off-state voltage 1 oltage class 1 Symbol IT (RMS) ITSM Parameter RMS on-state current Surge on-state current Conditions Commercial frequency, sine full wave conduction, Tc=18 C Hz sinewave 1 full cycle, peak value, non-repetitive Ratings I t I t for fusing alue corresponding to 1 cycle of half wave Hz, surge on-state current. s PGM Peak gate power dissipation PG () verage gate power dissipation GM Peak gate voltage IGM Peak gate current Tj Junction temperature Tstg Storage temperature Weight iso Isolation voltage 1. Gate open. Ta= C, C 1 minute, T1 T G terminal to case. ~ + ~ +. W W C C g Mar.

The product guaranteed maximum junction temperature C (See warning.) ELECTRICL CHRCTERISTICS Symbol Parameter Test conditions IDRM TM FGT! T! T # IFGT! IT! IT # GD Rth (j-c) Rth (j-a) Repetitive peak off-state current On-state voltage! Gate trigger voltage @ #! Gate trigger current @ # Gate non-trigger voltage Thermal resistance Thermal resistance. Measurement using the gate trigger characteristics measurement circuit.. High sensitivity (IGT m) is also available. (IGT item ➀). The contact thermal resistance Rth (c-f) in case of greasing is. C/W. Tj= C, DRM applied Tc= C, ITM=, Instantaneous measurement Tj= C, D=6, RL=, =Ω Tj= C, D=6, RL=, =Ω Tj=1 C/ C, D=1/DRM Junction to case Junction to ambient Min../.1 Limits Typ. Max.. 1. 1. 1. 1. 1 1 1.8 m m m m C/W C/W PERFORMNCE CURES ON-STTE CURRENT () 1 1. MXIMUM ON-STTE CHRCTERISTICS Tj = C Tj = C 1. 1...... SUE ON-STTE CURRENT () 9 RTED SUE ON-STTE CURRENT 1 ON-STTE OLTGE () (CYCLES T Hz) Mar.

The product guaranteed maximum junction temperature C (See warning.) GTE OLTGE () GTE CHRCTERISTICS (Ι, ΙΙ ND ΙΙΙ) GM = 1 GT = 1. PGM = W IGM = Tj = C IGT = 1m PGM =.W 1 GD =.1 1 (%) GTE TRIGGER CURRENT (Tj = t C) GTE TRIGGER CURRENT (Tj = C) IFGT I 1 GTE TRIGGER CURRENT S. JUNCTION TEMPERTURE IT III IT I TYPICL EXMPLE 11 1 GTE CURRENT (m) JUNCTION TEMPERTURE ( C) (%) GTE TRIGGER OLTGE (Tj = t C) GTE TRIGGER OLTGE (Tj = C) GTE TRIGGER OLTGE S. JUNCTION TEMPERTURE TYPICL EXMPLE 1 11 1 TRNSIENT THERML IMPEDNCE ( C/W)..... 1. 1.. MXIMUM TRNSIENT THERML IMPEDNCE CHRCTERISTICS (JUNCTION TO CSE) 1 1 JUNCTION TEMPERTURE ( C) (CYCLES T Hz) TRNSIENT THERML IMPEDNCE ( C/W) 1 MXIMUM TRNSIENT THERML IMPEDNCE CHRCTERISTICS (JUNCTION TO MBIENT) ON-STTE POWER DISSIPTION (W) 9 8 6 1 MXIMUM ON-STTE POWER DISSIPTION CONDUCTION RESISTIE, INDUCTIE LODS 1 6 8 9 (CYCLES T Hz) RMS ON-STTE CURRENT () Mar.

The product guaranteed maximum junction temperature C (See warning.) CSE TEMPERTURE ( C) 1 1 1 LLOWBLE CSE TEMPERTURE S. RMS ON-STTE CURRENT CURES PPLY REGRDLESS OF CONDUCTION NGLE CONDUCTION RESISTIE, INDUCTIE LODS 1 6 8 MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 1 1 1 t. 1 t. 1 t. LL FINS RE BLCK PINTED LUMINUM ND GRESED CURES PPLY REGRDLESS OF CONDUCTION NGLE RESISTIE, INDUCTIE LODS NTURL CONECTION 1 6 8 RMS ON-STTE CURRENT () RMS ON-STTE CURRENT () MBIENT TEMPERTURE ( C) LLOWBLE MBIENT TEMPERTURE S. RMS ON-STTE CURRENT 1 NTURLCONECTION 1 NO FINS,CURES PPLY REGRDLESS 1 OF CONDUCTION NGLE RESISTIE, INDUCTIE LODS..8 1. 1.6...8. 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 6 TYPICL EXMPLE 11 1 JUNCTION TEMPERTURE ( C) (%) HOLDING CURRENT (Tj = t C) HOLDING CURRENT (Tj = C) 1 HOLDING CURRENT S. JUNCTION TEMPERTURE DISTRIBUTION TYPICL EXMPLE D = 1 111 LCHING CURRENT (m) LCHING CURRENT S. JUNCTION TEMPERTURE T +, G + T, G DISTRIBUTION TYPICL EXMPLE T +, G TYPICL EXMPLE 1 11 1 JUNCTION TEMPERTURE ( C) JUNCTION TEMPERTURE ( C) Mar.

The product guaranteed maximum junction temperature C (See warning.) (%) 1 1 BREKOER OLTGE S. JUNCTION TEMPERTURE TYPICL EXMPLE (%) 1 1 BREKOER OLTGE S. RTE OF RISE OF OFF-STTE OLTGE (Tj = 1 C) TYPICL EXMPLE Tj = 1 C BREKOER OLTGE (Tj = t C) BREKOER OLTGE (Tj = C) 1 BREKOER OLTGE (dv/dt = x/µs) BREKOER OLTGE (dv/dt = 1/µs) 11 1 1 1 I QUDRNT III QUDRNT JUNCTION TEMPERTURE ( C) RTE OF RISE OF OFF-STTE OLTGE (/µs) (%) BREKOER OLTGE (dv/dt = x/µs) BREKOER OLTGE (dv/dt = 1/µs) 1 1 1 BREKOER OLTGE S. RTE OF RISE OF OFF-STTE OLTGE (Tj = C) TYPICL EXMPLE I QUDRNT Tj = 1 C III QUDRNT 1 (%) GTE TRIGGER CURRENT (tw) GTE TRIGGER CURRENT (DC) GTE TRIGGER CURRENT S. GTE CURRENT PULSE WIDTH IT I IFGT I IT III TYPICL EXMPLE 1 1 RTE OF RISE OF OFF-STTE OLTGE (/µs) GTE TRIGGER PULSE WIDTH (µs) GTE TRIGGER CHRCTERISTICS TEST CIRCUITS RECOMMENDED CIRCUIT LUES ROUND THE TRIC LOD 6 6 C1 R1 C R TEST PROCEDURE 1 TEST PROCEDURE C1 =.1~.µF R1 = ~Ω C =.1µF R = Ω 6 TEST PROCEDURE Mar.

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