BCR16CM-12LA Triac Medium Power Use REJ03G0298-0300 Rev.3.00 Nov 30, 2007 Features • IT (RMS) : 16 A • VDRM : 600 V • IFGTI, IRGTI, IRGT III : 30 mA (20 mA)Note6 • Non-Insulated Type • Planar Passivation Type Outline RENESAS Package code: PRSS0004AA-A (Package name: TO-220) 4 2, 4 3 1 12 1. 2. 3. 4. T1 Terminal T2 Terminal Gate Terminal T2 Terminal 3 Applications Contactless AC switch, light dimmer, electronic flasher unit, control of household equipment such as TV sets, stereo systems, refrigerator, washing machine, infrared kotatsu, carpet, electric fan, solenoid driver, small motor control, copying machine, electric tool, electric heater control, and other general purpose control applications Maximum Ratings Parameter Symbol Repetitive peak off-state voltageNote1 Non-repetitive peak off-state voltageNote1 REJ03G0298-0300 Page 1 of 6 Rev.3.00 Nov 30, 2007 VDRM VDSM Voltage class 12 600 720 Unit V V BCR16CM-12LA Parameter RMS on-state current Symbol IT (RMS) Ratings 16 Unit A Surge on-state current ITSM 170 A I2 t 121 A2s PGM PG (AV) VGM IGM Tj Tstg — 5.0 0.5 10 2 – 40 to +125 – 40 to +125 2.0 W W V A °C °C g Symbol IDRM VTM Min. — — Typ. — — Max. 2.0 1.5 Unit mA V I2t for fusing Peak gate power dissipation Average gate power dissipation Peak gate voltage Peak gate current Junction temperature Storage temperature Mass Conditions Commercial frequency, sine full wave Note3 360°conduction, Tc = 100°C 60Hz sinewave 1 full cycle, peak value, non-repetitive Value corresponding to 1 cycle of half wave 60Hz, surge on-state current Typical value Notes: 1. Gate open. Electrical Characteristics Parameter Repetitive peak off-state current On-state voltage Test conditions Tj = 125°C, VDRM applied Tc = 25°C, ITM = 25 A, Instantaneous measurement Gate trigger voltageNote2 Ι ΙΙ ΙΙΙ VFGTΙ VRGTΙ VRGTΙΙΙ — — — — — — 1.5 1.5 1.5 V V V Tj = 25°C, VD = 6 V, RL = 6 Ω, RG = 330 Ω Gate trigger currentNote2 Ι ΙΙ ΙΙΙ IFGTΙ IRGTΙ IRGTΙΙΙ — — — — — — 30Note6 30Note6 30Note6 mA mA mA Tj = 25°C, VD = 6 V, RL = 6 Ω, RG = 330 Ω VGD Rth (j-c) 0.2 — — — — 1.4 V °C/W Tj = 125°C, VD = 1/2 VDRM Junction to caseNote3 Note4 (dv/dt)c 10 — — V/µs Tj = 125°C Gate non-trigger voltage Thermal resistance Critical-rate of rise of off-state Note5 commutating voltage Notes: 2. 3. 4. 5. 6. Measurement using the gate trigger characteristics measurement circuit. Case temperature is measured at the T2 tab 1.5 mm away from the molded case. The contact thermal resistance Rth (c-f) in case of greasing is 1.0°C/W. Test conditions of the critical-rate of rise of off-state commutating voltage is shown in the table below. High sensitivity (IGT ≤ 20 mA) is also available. (IGT item: 1) Test conditions 1. Junction temperature Tj = 125°C 2. Rate of decay of on-state commutating current (di/dt)c = – 8.0 A/ms 3. Peak off-state voltage VD = 400 V REJ03G0298-0300 Page 2 of 6 Rev.3.00 Nov 30, 2007 Commutating voltage and current waveforms (inductive load) Supply Voltage Time Main Current (di/dt)c Time Main Voltage (dv/dt)c Time VD BCR16CM-12LA Performance Curves 103 7 5 3 2 Rated Surge On-State Current 200 102 7 Tj = 125°C 5 3 2 Tj = 25°C 101 7 5 3 2 Surge On-State Current (A) On-State Current (A) Maximum On-State Characteristics 140 120 100 80 60 40 20 2 3 4 5 7 101 2 3 4 5 7 102 Conduction Time (Cycles at 60Hz) Gate Characteristics (I, II and III) Gate Trigger Current vs. Junction Temperature 3 2 VGM = 10V PG(AV) = 0.5W PGM = 5W 101 7 5 IGM = 2A 3 VGT = 1.5V 2 100 7 5 3 2 IFGT I, IRGT I, IRGT III VGD = 0.2V 10–1 7 5 101 2 3 5 7 102 2 3 5 7 103 2 3 5 7 104 103 7 5 4 3 2 102 7 5 4 3 2 Typical Example IRGT III IFGT I, IRGT I 101 –60 –40 –20 0 20 40 60 80 100120140 Gate Current (mA) Junction Temperature (°C) Gate Trigger Voltage vs. Junction Temperature Maximum Transient Thermal Impedance Characteristics (Junction to case) 103 7 5 4 3 2 Typical Example 102 7 5 4 3 2 101 –60 –40 –20 0 20 40 60 80 100120140 Junction Temperature (°C) REJ03G0298-0300 Page 3 of 6 Gate Trigger Current (Tj = t°C) × 100 (%) Gate Trigger Current (Tj = 25°C) On-State Voltage (V) Rev.3.00 Nov 30, 2007 Transient Thermal Impedance (°C/W) Gate Voltage (V) 160 0 100 100 0.4 0.8 1.2 1.6 2.0 2.4 2.8 3.2 3.6 4.0 4.4 Gate Trigger Voltage (Tj = t°C) × 100 (%) Gate Trigger Voltage (Tj = 25°C) 180 102 2 3 5 7 103 1.6 1.4 1.2 1.0 0.8 0.6 0.4 0.2 0 10–1 2 3 5 7 100 2 3 5 7 101 2 3 5 7 102 Conduction Time (Cycles at 60Hz) BCR16CM-12LA Allowable Case Temperature vs. RMS On-State Current 40 160 35 140 Case Temperature (°C) On-State Power Dissipation (W) Maximum On-State Power Dissipation 30 360° Conduction Resistive, 25 inductive loads 20 15 10 5 0 0 2 4 6 8 10 12 14 16 18 20 100 80 60 40 360° Conduction 20 Resistive, inductive loads 0 0 2 4 6 8 10 12 14 16 18 20 RMS On-State Current (A) Allowable Ambient Temperature vs. RMS On-State Current Allowable Ambient Temperature vs. RMS On-State Current 160 100 × 100 × t2.3 100 60 × 60 × t2.3 80 60 40 20 0 2 4 6 Ambient Temperature (°C) All fins are black painted 140 aluminum and greased Natural convection 120 120 × 120 × t2.3 140 120 Natural convection No Fins Curves apply regardless of conduction angle Resistive, inductive loads 100 80 60 40 20 0 8 10 12 14 16 18 20 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 RMS On-State Current (A) RMS On-State Current (A) Repetitive Peak Off-State Current vs. Junction Temperature Holding 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 100120140 REJ03G0298-0300 Page 4 of 6 Junction Temperature (°C) Rev.3.00 Nov 30, 2007 Holding Current (Tj = t°C) × 100 (%) Holding Current (Tj = 25°C) Ambient Temperature (°C) Repetitive Peak Off-State Current (Tj = t°C) × 100 (%) Repetitive Peak Off-State Current (Tj = 25°C) 120 RMS On-State Current (A) 160 0 Curves apply regardless of conduction angle 103 7 5 4 3 2 Typical Example 102 7 5 4 3 2 101 –60 –40 –20 0 20 40 60 80 100120140 Junction Temperature (°C) 103 7 5 3 2 Distribution 102 7 5 3 2 101 7 5 3 2 T2+, G+ Typical Example T2–, G– 100 –40 Breakover Voltage (dv/dt = xV/µs) × 100 (%) Breakover Voltage (dv/dt = 1V/µs) T2+, G– Typical Example 0 40 80 120 160 Breakover Voltage vs. Junction Temperature 160 120 100 80 60 40 20 0 –60 –40 –20 0 20 40 60 80 100120140 Junction Temperature (°C) Breakover Voltage vs. Rate of Rise of Off-State Voltage Commutation Characteristics 160 Typical Example Tj = 125°C 140 120 100 III Quadrant 80 60 I Quadrant 40 20 0 101 2 3 5 7 102 2 3 5 7 103 2 3 5 7 104 7 Typical Example 5 Tj = 125°C 3 IT = 4A 2 τ = 500µs VD = 200V f = 3Hz 1 10 7 Minimum 5 3 2 Gate Trigger Current vs. Gate Current Pulse Width 103 7 5 4 3 2 Typical Example Time Main Voltage (dv/dt)c VD Main Current (di/dt)c IT τ Time III Quadrant Characteristics Value I Quadrant 100 7 0 10 Rate of Rise of Off-State Voltage (V/µs) Gate Trigger Current (tw) × 100 (%) Gate Trigger Current (DC) Typical Example 140 Junction Temperature (°C) Critical Rate of Rise of Off-State Commutating Voltage (V/µs) Latching Current (mA) Latching Current vs. Junction Temperature Breakover Voltage (Tj = t°C) × 100 (%) Breakover Voltage (Tj = 25°C) BCR16CM-12LA 2 3 5 7 101 5 7102 2 3 2 3 Rate of Decay of On-State Commutating Current (A/ms) Gate Trigger Characteristics Test Circuits 6Ω 6Ω IFGT I IRGT I IRGT III A 6V V 102 7 5 4 3 2 6Ω A 6V 2 3 4 5 7 101 2 3 4 5 7 102 Gate Current Pulse Width (µs) REJ03G0298-0300 Page 5 of 6 Rev.3.00 Nov 30, 2007 V V 330Ω Test Procedure II Test Procedure I 101 0 10 A 6V 330Ω 330Ω Test Procedure III BCR16CM-12LA Package Dimensions Package Name TO-220 JEITA Package Code SC-46 Previous Code RENESAS Code PRSS0004AA-A MASS[Typ.] 2.0g 10.5Max Unit: mm 4.5 φ3.6 3.8Max 12.5Min 16Max 7.0 3.2 1.3 1.0 0.8 0.5 2.54 2.6 4.5Max 2.54 Order Code Lead form Straight type Lead form Standard packing Vinyl sack Plastic Magazine (Tube) Quantity 100 50 Standard order code Type name Type name – Lead forming code Note : Please confirm the specification about the shipping in detail. REJ03G0298-0300 Page 6 of 6 Rev.3.00 Nov 30, 2007 Standard order code example BCR16CM-12LA BCR16CM-12LA-A8 Sales Strategic Planning Div. Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Notes: 1. This document is provided for reference purposes only so that Renesas customers may select the appropriate Renesas products for their use. Renesas neither makes warranties or representations with respect to the accuracy or completeness of the information contained in this document nor grants any license to any intellectual property rights or any other rights of Renesas or any third party with respect to the information in this document. 2. Renesas shall have no liability for damages or infringement of any intellectual property or other rights arising out of the use of any information in this document, including, but not limited to, product data, diagrams, charts, programs, algorithms, and application circuit examples. 3. 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