Data Sheet Data Sheet 100VAC Input/12VDC (100mA) Output 100VAC Input/15VDC (80mA) Output Non-Isolated AC/DC Converter Non-Isolated AC/DC Converter BP5034D12 BP5034D15 Absolute Maximum Ratings Absolute Maximum Ratings Dimensions (Unit : mm) Dimensions (Unit : mm) 28.2MAX. 10.0MAX. 28.2MAX. 10.0MAX. Parameter Symbol Limits Unit Parameter Symbol Limits Unit Input voltage Vi V Input voltage Vi 195 V 195 Output current Output current Io 100 mApk Io 80 mApk ESD endurance Vsurge 2 kV ESD endurance Vsurge 2 kV 1 2 3 4 5 6 7 8 10 1 2 3 4 5 6 7 8 10 Operating temperature range Operating temperature range Topr C Topr 25 to +80 C 20 to +80 0.25 0.05 0.25 0.05 0.5 0.1 0.50.1 1.3 0.2 1.30.2 Storage temperature range Tstg 25 to +105 C Storage temperature range Tstg 30 to +85 C P=2.54 0.2 P=2.540.2 3.5MAX. 3.5MAX. 3.25MAX. 3.25MAX 6.5MAX. 6.5MAX. 2.549=22.86 2.549=22.86 Electrical Characteristics Electrical Characteristics Derating curve Derating Curve Parameter Symbol Min. Typ. Max. Parameter Symbol Min. Typ. Max. Conditions Unit Conditions Derating Curve Unit Derating Curve 120 90 V Input voltage range Vi 113 141 195 V DC(80 to 138VAC level) Input voltage range Vi 113 141 195 DC(80 to 138VAC) 100 80 70 80 V Output voltage Vo 11 12 12.8 V Vi=141V, Io=50mA Output voltage Vo 14.0 15.0 16.0 Vi=141V, Io=80mA 60 60 50 mA Output current Io 0 100 mA Vi=141V Output current Io 0 80 Vi=141V 1 1 Operation Range 40 40 Operation Range 30 V Line regulation Vr 0.02 0.1 V Vi=113 to 195V, Io=50mA Line regulation Vr 0.15 Vi=113 to 195V, Io=80mA 20 0.02 20 10 0 V Load regulation Vl 0.05 0.15 V Vi=141V, Io=0 to 50mA Load regulation Vl 0.15 Vi=141V, Io=0 to 80mA 2 0.05 2 0 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 Ambient Temperature Ta(C) Vp-p Output ripple voltage Vp 0.05 0.15 Vp-p Vi=141V, Io=50mA Output ripple voltage Vp 0.15 Vi=141V, Io=80mA 0.05 Ambient Temperature Ta(C) % Power conversion efficiency 60 68 % Vi=141V, Io=100mA Power conversion efficiency Vi=141V, Io=80mA 2 60 70 2 Switching Frequency 1 The max output is changed due to the ambient temperature. Please refer to note regarding derating curve. 1 Maximum output current varies depending on ambient temperature please refer to derating curve. Switching Frequency 2 Please refer to Conversion efficiency. Switching Frequency 2 Please refer to Load regulation, Conversion efficiency. Switching Frequency (Ta=25C, Vi=141V) (Ta=25C, Vi=141V) 100 120 90 80 100 70 60 80 Application Circuit Application Circuit 50 60 Pin No. Function Terminal definition 40 Pin No. 30 1 Output terminal Vo(15V) 40 1 Output terminal Vo(12V) BP5034D15 20 BP5034D12 2 N.C. N.C. 2 10 20 3 N.C. 3 N.C. 0 0 0 20 40 60 80 100 Please note that pin No.10 4 N.C. N.C. Please note that pin No.10 4 0 20 40 60 80 Output Current Io(mA) 5 COMMON 5 COMMON side is input. Output Current Io(mA) side is input. 6 COMMON COMMON 6 7 N.C. 7 N.C. 8 N.C. N.C. Conversion Efficiency 8 10 8 7 6 5 4 3 2 1 Conversion Efficiency 10 8 7 6 5 4 3 2 1 9 Not used 9 Skipping Pin Conversion Efficiency FUSE FUSE R1 10 Input terminal Vi(141VDC) 10 Input terminal Vi(141VDC) Conversion Efficiency R1 Output (Ta=25C, Vi=141V) D1 0.5A Output D1 0.5A 80 (Ta=25C, Vi=141V) 101/4W 1SR139400 +15V 101/4W 80 1SR35400A +12V 70 70 C2 Input C3 60 + + Input C2 C3 ZNR + + 60 ZNR 60% MinLine C1 C1 50 AC100V 60% MinLine AC100V 50 0.1F 100F/50V 100F/50V 220V 10F/250V 0.1F 220V 10F/250V 40 50Hz/60Hz 50Hz/60Hz 40 30 30 20 Be sure to use fuse for safety. Be sure to use fuse for safety. 20 10 10 Please verify operation and characteristics in the customer s circuit before actual usage. 0 Please verify operation and characteristics in the customer s circuit before actual usage and 0 0 20 40 60 80 100 Ensure that the load current does not exceed the maximum rating. 0 20 40 60 80 ensure that the load current does not exceed 0.1A. Output Current Io(mA) Output Current Io(mA) Load Regulation Load Regulation External Component Specifications External Component Specifications Load Regulation Load Regulation (Ta=25 C, Vi=141V) FUSE: Fuse Use a quick-acting fuse of 0.5A 13.0 (Ta=25C, Vi=141V) FUSE: Fuse Use a fuse of 0.5A 16.0 12.8 15.8 C1: Input smoothing Capacitance : 3.3 to 22F Rated voltage : 200V or higher 12.6 C1 : Input smoothing Capacitance : 3.3 to 22F Ripple current is 0.13Arms or above. 15.6 12.4 capacitor Ripple current is 0.13Arms or above. 15.4 capacitor Rated voltage : 200V or higher 12.2 15.2 12.0 Capacitance : 0.1 to 0.22F Rated voltage : 200V or higher 15.0 C2: Noise reduction Capacitance : 0.1 to 0.22F Rated voltage : 200V or higher 11.8 C2 : Noise reduction 14.8 11.6 Use a film or ceramic capacitor. Evaluate under actual operating capacitor Use a film or ceramic capacitor. Evaluate under actual operating conditions. 14.6 capacitor 11.4 14.4 conditions. 11.2 14.2 C3 : Output smoothing Capacitance : 100 to 470F Rated voltage : 25V or higher, low impedance 11.0 14.0 C3: Output smoothing Capacitance : 100 to 470F Rated voltage : 25V or higher, 0 20 40 60 80 100 capacitor Impedance is 0.39 max at high frequencies. 0 20 40 60 80 Output Current Io(mA) capacitor ESR is 0.39 max. Ripple current is 0.1Arms or above. Output Current Io(mA) Ripple current is 0.1Arms or above. Evaluate under actual conditions. Capacitance impedance affects the output ripple voltage. Surface Temperature Increase D1: Rectifier diode In the absolute maximum ratings, the reverse peak voltage should be D1 : Rectifier diode In the absolute maximum ratings, the reverse surge voltage should be Surface Temperature Increase 400V or higher, the average rectifying current should be 0.5A or higher, Surface Temperature Increase 400V or higher, the average rectifying current should be 0.5A or higher, Surface Temperature Increase, (Ta=25 C, Vi=141V) and the peak surge current should be 20A or higher. (Ta=25C, Vi=141V) 40 and the forward surge current should be 20A or higher. 40 (Full-wave rectification can be used.) 10 to 22 1/4W R1 : Noise reduction 30 30 10 to 22 1/4W R1: Noise reduction Determine the ideal value through actual testing. resistor Determine the ideal value through actual testing. 20 resistor 20 A varistor must be used to protect against lightning surges and static ZNR : Varistor A varistor must be used to protect against lightning surges and static ZNR: Varistor electricity. 10 10 electricity. 0 0 0 20 40 60 80 100 0 20 40 60 80 Output Current Io(mA) Output Current Io(mA) www.rohm.com 2010.01 - Rev.A 2010 ROHM Co., Ltd. All rights reserved. 1/1 Output Current Io(mA) Output Voltage Vo(V) Temperature Rising T( C) Switching Frequency fsw(kHz) Conversion Efficiency (%) 41.0 15.7MAX. Mark Side Output Current Io(mA) Output Voltage Vo(V) Temperature Rising T(C) Conversion Efficiency (%) Switching Frequency fsw(kHz) 41.0 15.7MAX. Mark Side