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| MITSUBISHI SEMICONDUCTOR TRIAC BCR10PM MEDIUM POWER USE INSULATED TYPE, PLANAR PASSIVATION TYPE BCR10PM OUTLINE DRAWING 10.5 MAX 5.2 Dimensions in mm 2.8 17 5.0 1.2 TYPE NAME VOLTAGE CLASS 3.20.2 13.5 MIN 3.6 1.3 MAX 0.8 2.54 2.54 8.5 0.5 2.6 * * * * * IT (RMS) ...................................................................... 10A VDRM ..............................................................400V/600V IFGT !, IRGT !, IRGT # ......................... 30mA (20mA) V5 Viso ........................................................................ 1500V UL Recognized: File No. E80276 123 2 Measurement point of case temperature 1 1 T1 TERMINAL 2 T2 TERMINAL 3 3 GATE TERMINAL TO-220F APPLICATION Switching mode power supply, light dimmer, electric flasher unit, hair drier, control of household equipment such as TV sets * stereo * refrigerator * washing machine * infrared kotatsu * carpet, small motor control, copying machine, electric tool, solenoid drivers, other general purpose control applications MAXIMUM RATINGS Symbol VDRM VDSM Parameter Repetitive peak off-state voltage V1 Non-repetitive peak off-state voltage V1 Voltage class 8 400 500 12 600 720 Unit V V Symbol IT (RMS) ITSM I2t PGM PG (AV) VGM IGM Tj Tstg -- Viso Parameter RMS on-state current Surge on-state current I2t for fusing Conditions Commercial power frequency, sine full wave 360 conduction, Tc=85C 60Hz sinewave 1 full cycle, peak value, non-repetitive Value corresponding to 1 cycle of half wave 60Hz, surge on-state current 4.5 Ratings 10 100 41.6 5 0.5 10 2 -40 ~ +125 -40 ~ +125 Unit A A A2s W W V A C C g V Peak gate power dissipation Average gate power dissipation Peak gate voltage Peak gate current Junction temperature Storage temperature Weight Isolation voltage Typical value Ta=25C, AC 1 minute, T1 * T2 * G terminal to case 2.0 1500 V1. Gate open. Feb.1999 MITSUBISHI SEMICONDUCTOR TRIAC BCR10PM MEDIUM POWER USE INSULATED TYPE, PLANAR PASSIVATION TYPE ELECTRICAL CHARACTERISTICS Symbol IDRM VTM VFGT ! VRGT ! VRGT # IFGT ! IRGT ! IRGT # VGD Rth (j-c) (dv/dt)c Gate non-trigger voltage Thermal resistance Critical-rate of rise of off-state commutating voltage Gate trigger current V2 Gate trigger voltage V2 Parameter Repetitive peak off-state current On-state voltage ! @ # ! @ # Tj=125C, VD=1/2VDRM Junction to case V4 Tj=25C, VD=6V, RL=6, RG=330 Tj=25C, VD=6V, RL=6, RG=330 Test conditions Tj=125C, VDRM applied Tc=25C, ITM=15A, Instantaneous measurement Limits Min. -- -- -- -- -- -- -- -- 0.2 -- V3 Typ. -- -- -- -- -- -- -- -- -- -- -- Max. 2.0 1.5 1.5 1.5 1.5 30 V5 30 V5 30 V5 -- 3.5 -- Unit mA V V V V mA mA mA V C/ W V/s V2. Measurement using the gate trigger characteristics measurement circuit. V3. The critical-rate of rise of the off-state commutating voltage is shown in the table below. V4. The contact thermal resistance Rth (c-f) in case of greasing is 0.5C/W. V5. High sensitivity (IGT20mA) is also available. (IGT item 1) Voltage class VDRM (V) (dv/dt) c Symbol R Min. -- 1. Junction temperature Tj=125C L 10 V/s R -- 2. Rate of decay of on-state commutating current (di/dt)c=-5.0A/ms 3. Peak off-state voltage VD=400V L 10 Unit Test conditions Commutating voltage and current waveforms (inductive load) 8 400 SUPPLY VOLTAGE MAIN CURRENT MAIN VOLTAGE (dv/dt)c (di/dt)c TIME TIME TIME VD 12 600 PERFORMANCE CURVES MAXIMUM ON-STATE CHARACTERISTICS RATED SURGE ON-STATE CURRENT 100 SURGE ON-STATE CURRENT (A) ON-STATE CURRENT (A) 102 7 5 3 2 101 7 5 3 2 100 7 5 3 2 90 80 70 60 50 40 30 20 10 0 100 2 3 4 5 7 101 2 3 4 5 7 102 Tj = 125C Tj = 25C 10-1 0.6 1.0 1.4 1.8 2.2 2.6 3.0 3.4 3.8 ON-STATE VOLTAGE (V) CONDUCTION TIME (CYCLES AT 60Hz) Feb.1999 MITSUBISHI SEMICONDUCTOR TRIAC BCR10PM MEDIUM POWER USE INSULATED TYPE, PLANAR PASSIVATION TYPE GATE CHARACTERISTICS 100 (%) GATE TRIGGER CURRENT VS. JUNCTION TEMPERATURE 103 7 5 4 3 2 102 7 5 4 3 2 TYPICAL EXAMPLE GATE VOLTAGE (V) GATE TRIGGER CURRENT (Tj = tC) GATE TRIGGER CURRENT (Tj = 25C) 102 7 5 3 2 VGM = 10V 101 7 5 3 2 100 7 5 3 2 VGD = 0.2V IRGT I IFGT I, IRGT III 10-1 101 2 3 5 7 102 2 3 5 7 103 2 3 5 7 104 GATE CURRENT (mA) PGM = 5W PG(AV) = 0.5W VGT = 1.5V IGM = 2A IRGT I, IRGT III IFGT I 101 -60 -40 -20 0 20 40 60 80 100 120 140 JUNCTION TEMPERATURE (C) MAXIMUM TRANSIENT THERMAL IMPEDANCE CHARACTERISTICS (JUNCTION TO CASE) GATE TRIGGER VOLTAGE VS. JUNCTION TEMPERATURE 100 (%) GATE TRIGGER VOLTAGE (Tj = tC) GATE TRIGGER VOLTAGE (Tj = 25C) 103 7 5 4 3 2 102 7 5 4 3 2 TYPICAL EXAMPLE TRANSIENT THERMAL IMPEDANCE (C/W) 102 2 3 5 7 103 2 3 5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0 10-1 2 3 5 7 100 2 3 5 7 101 2 3 5 7 102 CONDUCTION TIME (CYCLES AT 60Hz) 101 -60 -40 -20 0 20 40 60 80 100 120 140 JUNCTION TEMPERATURE (C) MAXIMUM TRANSIENT THERMAL IMPEDANCE CHARACTERISTICS (JUNCTION TO AMBIENT) TRANSIENT THERMAL IMPEDANCE (C/W) 7 5 3 2 7 5 3 2 7 5 3 2 7 5 3 2 MAXIMUM ON-STATE POWER DISSIPATION ON-STATE POWER DISSIPATION (W) 103 NO FINS 16 14 12 360 CONDUCTION 10 RESISTIVE, INDUCTIVE 8 LOADS 6 4 2 0 0 2 4 6 8 10 12 14 16 102 101 100 10-1 101 2 3 5 7 102 2 3 5 7 103 2 3 5 7 104 2 3 5 7 105 CONDUCTION TIME (CYCLES AT 60Hz) RMS ON-STATE CURRENT (A) Feb.1999 MITSUBISHI SEMICONDUCTOR TRIAC BCR10PM MEDIUM POWER USE INSULATED TYPE, PLANAR PASSIVATION TYPE ALLOWABLE CASE TEMPERATURE VS. RMS ON-STATE CURRENT 160 CASE TEMPERATURE (C) 140 120 100 80 60 AMBIENT TEMPERATURE (C) CURVES APPLY REGARDLESS OF CONDUCTION ANGLE ALLOWABLE AMBIENT TEMPERATURE VS. RMS ON-STATE CURRENT 160 ALL FINS ARE BLACK PAINTED ALUMINUM AND GREASED 140 CURVES APPLY REGARDLESS OF CONDUCTION ANGLE 120 120 120 t2.3 100 100 100 t2.3 80 60 60 t2.3 60 RESISTIVE, 40 INDUCTIVE LOADS 20 NATURAL CONVECTION 0 0 2 4 6 360 40 CONDUCTION RESISTIVE, 20 INDUCTIVE LOADS 0 0 2 4 6 8 10 12 14 16 8 10 12 14 16 RMS ON-STATE CURRENT (A) RMS ON-STATE CURRENT (A) REPETITIVE PEAK OFF-STATE CURRENT (Tj = tC) REPETITIVE PEAK OFF-STATE CURRENT (Tj = 25C) AMBIENT TEMPERATURE (C) ALLOWABLE AMBIENT TEMPERATURE VS. RMS ON-STATE CURRENT 160 NATURAL CONVECTION NO FINS 140 CURVES APPLY REGARDLESS OF CONDUCTION ANGLE 120 RESISTIVE, INDUCTIVE LOADS 100 80 60 40 20 0 0 0.4 0.8 1.2 1.6 2.0 2.4 2.8 3.2 RMS ON-STATE CURRENT (A) 100 (%) REPETITIVE PEAK OFF-STATE CURRENT VS. JUNCTION TEMPERATURE 105 7 TYPICAL EXAMPLE 5 3 2 104 7 5 3 2 103 7 5 3 2 102 -60 -40 -20 0 20 40 60 80 100 120 140 JUNCTION TEMPERATURE (C) HOLDING CURRENT VS. JUNCTION TEMPERATURE 103 7 5 4 3 2 102 7 5 4 3 2 101 -60 -40 -20 0 20 40 60 80 100 120 140 JUNCTION TEMPERATURE (C) TYPICAL EXAMPLE 103 7 5 3 2 102 7 5 3 2 101 7 5 3 2 LACHING CURRENT VS. JUNCTION TEMPERATURE 100 (%) HOLDING CURRENT (Tj = tC) HOLDING CURRENT (Tj = 25C) ,,,,,,,,,,, ,,,,,,,,,,, ,,,,,,,,,,, ,,,,,,,,,,, ,,,,,,,,,,, ,,,,,,,,,,, ,,,,,,,,,,, ,,,,,,,,,,, DISTRIBUTION + T2 , G+ TYPICAL - T2 , G- EXAMPLE LACHING CURRENT (mA) + T2 , G- TYPICAL EXAMPLE 100 -40 0 40 80 120 160 JUNCTION TEMPERATURE (C) Feb.1999 MITSUBISHI SEMICONDUCTOR TRIAC BCR10PM MEDIUM POWER USE INSULATED TYPE, PLANAR PASSIVATION TYPE 100 (%) BREAKOVER VOLTAGE VS. JUNCTION TEMPERATURE 100 (%) BREAKOVER VOLTAGE VS. RATE OF RISE OF OFF-STATE VOLTAGE 160 140 TYPICAL EXAMPLE Tj = 125C 160 TYPICAL EXAMPLE 140 BREAKOVER VOLTAGE (dv/dt = xV/s ) BREAKOVER VOLTAGE (dv/dt = 1V/s ) BREAKOVER VOLTAGE (Tj = tC) BREAKOVER VOLTAGE (Tj = 25C) 120 100 80 60 40 20 0 -60 -40 -20 0 20 40 60 80 100120 140 JUNCTION TEMPERATURE (C) 120 100 80 60 40 20 #1 I QUADRANT #2 III QUADRANT 0 101 2 3 5 7 102 2 3 5 7 103 2 3 5 7 104 RATE OF RISE OF OFF-STATE VOLTAGE (V/s) CRITICAL RATE OF RISE OF OFF-STATE COMMUTATING VOLTAGE (V/s) COMMUTATION CHARACTERISTICS 3 TYPICAL 2 EXAMPLE 102 Tj = 125C 7 IT = 4A 5 = 500s 3 VD = 200V 2 f = 3Hz VOLTAGE WAVEFORM GATE TRIGGER CURRENT VS. GATE CURRENT PULSE WIDTH 103 7 5 4 3 2 102 7 5 4 3 2 101 0 10 2 3 4 5 7 101 2 3 4 5 7 102 100 (%) TYPICAL EXAMPLE IFGT I IRGT I IRGT III (dv/dt)C IT t VD (di/dt)C t 101 I QUADRANT 7 5 3 MINIMUM 2 CHARACIII QUADRANT 100 TERISTICS 7 VALUE 5 100 2 3 5 7 101 2 3 5 7 102 2 3 5 7 103 RATE OF DECAY OF ON-STATE COMMUTATING CURRENT (A/ms) GATE TRIGGER CURRENT (tw) GATE TRIGGER CURRENT (DC) CURRENT WAVEFORM GATE CURRENT PULSE WIDTH (s) GATE TRIGGER CHARACTERISTICS TEST CIRCUITS 6 6 6V V A RG 6V V A RG TEST PROCEDURE 1 6 TEST PROCEDURE 2 6V V A RG TEST PROCEDURE 3 Feb.1999 |
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