Data Sheet Data Sheet 220VAC Input/15VDC (80mA) Output 220VAC Input/15VDC (150mA) Output Non-Isolated AC/DC Converter Non-Isolated AC/DC Converter BP5041B15 BP5047B15 Absolute Maximum Ratings Absolute Maximum Ratings Dimensions (Unit : mm) Dimensions (Unit : mm) 32.5MAX. 10.1MAX. Parameter Symbol Limits Unit 11.5MAX. Parameter Symbol Limits Unit Remark 32.5MAX. Input voltage Vi V Vi1 430 V DC 390 Input voltage Vi2 Output current Io 80 mApk 550 V Plus 1mSMax. Operating temperature range ESD endurance Vsurge 2 kV Topr 20 to +80 C Refer to derating curve 1 3 5 7 10 Operating temperature range Storage temperature range Tstg 25 to +105 C Topr 25 to +80 C 0.5 0.1 0.25 0.05 Ambient temperature+ Case temperature TcMAX Storage temperature range Tstg 25 to +105 C 105 C 1.3 0.2 4.75MAX. The module self-heating Tcmax 1 3 5 7 10 P=5.08 0.2 0.250.05 3.25MAX IoMAX1 150 mA PEAK value of current (Vi=180 to 390V) 6.75MAX. 0.50.1 22.86 3.25MAX. Output current P=5.080.2 4.55MAX. PEAK value of current (Vi=390 to 430V) 1.30.2 IoMAX2 130 mA 2.549=22.86 Electrical Characteristics 5.55MAX. Parameter Symbol Min. Typ. Max. Conditions Unit Electrical Characteristics Derating Curve Input voltage range Vi 226 282 390 V DC(160 to 276VAC) Derating Curve Parameter Symbol Min. Typ. Max. Unit Conditions Derating Curve Output voltage Vo 14.0 15.0 16.0 V Vi=282V, Io=50mA 120 V Input voltage range Vi 180 311 430 DC Derating Curve 100 250 Output current Io 0 80 mA Vi=282V 1 80 Output voltage Vo 14.2 16.2 V Vi=311V, Io=100mA 15.2 200 Line regulation Vr 0.05 0.15 V Vi=226 to 390V, Io=50mA 60 Output current1 Io1 0 150 mA Vi=180 to 390V 150 Operation Range Load regulation Vl 0.05 0.15 V Vi=282V, Io=0 to 50mA 2 40 Output current2 lo2 0 130 mA Vi=390 to 430V 100 20 Output ripple voltage Vp 0.05 0.15 Vp-p Vi=282V, Io=50mA Operation Range 50 0 Line regulation Vr 0.20 0.20 V Vi=180 to 430V, Io=100mA 0.05 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 Power conversion efficiency 50 64 % Vi=282V, Io=80mA 2 0 Ambient Temperature Ta(C) Load regulation Vl 0.20 0.20 V Vi=311V, Io=0 to 100mA 0.05 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 1 Maximum output current varies depending on ambient temperature please refer to derating curve. Ambient Temperature Ta(C) 2 Please refer to Load regulation, Conversion efficiency. Output ripple voltage Vp 0.15 Vp-p Vi=311V, Io=100mA 0.07 Conversion Efficiency Power conversion efficiency 70 % Vi=311V, Io=100mA 75 Conversion Efficiency Conversion Efficiency (Ta=25C, Vi=282V) Application Circuit 100 Conversion Efficiency 90 (Ta=25C, Vi=311V) Pin No. Function Application Circuit 100 80 1 Output terminal Vo(15V) 90 70 BP5041B15 Pin No. Function 80 2 Not used 60 70 BP5047B15 1 Output terminal: Vo(+15VDC) 3 N.C. 50 60 40 2 Skip 4 Not used Please note that pin No.10 50 Be sure to use fuse for safety. 30 3 Power inductor terminal 5 COMMON 40 side is input. 20 4 Skip 6 Not used 30 10 5 Power inductor terminal 20 7 N.C. 0 10 7 5 3 1 10 0 10 20 30 40 50 60 70 80 6 Skip 8 Not used 0 10 7 5 3 1 Output Current Io(mA) 7 COMMON 9 Not used 0 20 40 60 80 100 120 140 160 FUSE FUSE 8 Skip 10 Input terminal Vi(282VDC) Output Current Io(mA) Output R1 0.5A Ii R1 Io 9 Skip D1 D1 101/4W +15V 10 Input terminal Vi(+311VDC) Load Regulation L1 + + Input C2 C3 ZNR + + C1 C3 C2 Load Regulation Load Regulation Vo C1 Vi AC200V (Ta=25C, Vi=282V) ZNR 100F/50V 4.7F/450V 0.1F 16.0 Load Regulation 50Hz/60Hz 15.8 (Ta=25C, Vi=311V) 16.4 15.6 Please verify operation and characteristics in the customer s circuit before actual usage. 16.2 15.4 Be sure to use fuse for safety. 16.0 Ensure that the load current does not exceed the maximum rating. 15.2 15.8 15.0 Please verify operation and characteristics in the customer s circuit before actual usage. 15.6 14.8 15.4 Ensure that the load current does not exceed the maximum rating. 14.6 External Component Specifications 15.2 14.4 15.0 14.2 FUSE: Fuse Use a quick-acting fuse (1A) 14.8 14.0 14.6 0 10 20 30 40 50 60 70 80 C1: Input Capacitor above 450V, 3.3 to 33F External Component Specifications 14.4 Output Current Io(mA) Ripple current 0.13Arms or greater 14.2 0 20 40 60 80 100 120 140 160 FUSE: FUSE Use a fuse of 0.5A Output Current Io(mA) above 35V, 100 to 470F, low impedance C2: Output Capacitor Surface Temperature Increase C1: Input smoothing Capacitance : 3.3 to 22F ESR : 0.4 Max. Surface Temperature Increase capacitor Rated voltage : 450V or higher Surface Temperature Increase Ripple current 0.25Arms or greater (Ta=25C,Vi=282V) Ripple current 0.13Arms or greater 25 Capacitor impedance affects the output ripple voltage. Surface Temperature Increase (Ta=25C, Vi=311V) 50 C2: Noise reduction Capacitance : 0.1 to 0.22F 20 C3: Noise reduction capacitor above 450V, 0.1 to 0.22F 45 capacitor Rated voltage : 450V or higher 40 15 Use a film or ceramic capacitor. Evaluate under actual 35 Use a film or ceramic capacitor. Evaluate under actual operating operating conditions. 30 10 25 conditions. L1: Power inductor Inductance : 1mH, Rating current: above 400mA 20 5 C3: Output smoothing Capacitance : 100 to 470F 15 Select components that do not easily get magnetically saturated at 10 0 capacitor Rated voltage : 25V or higher, low impedance part high temperature. 0 10 20 30 40 50 60 70 80 5 0 Impedance is 0.39 max. at high frequencies Output Current Io(mA) Recommended part : C10-FR 1.0mH(MITSUMI) 0 50 100 150 Ripple current 0.1Arms above. Output Current Io(mA) D1: Rectifier diode Use a rectifying diode with a peak reverse voltage of 800V or higher, Capacitor impedance affects the output ripple voltage. an average rectification current of 1A or larger and a peak surge D1: Rectifier diode In the absolute maximum ratings, the reverse surge voltage should be current of 20A or larger. When using a large capacitance input capacitor, 800V or higher, the average rectifying current should be 0.5A or higher, select a component that is strong against inrush current during power up. and the forward surge current should be 20A or higher. Full-wave rectification can be used. 10 to 22 1/4W R1: Noise reduction R1: Noise reduction resistor 10 to 22 1/4W resistor Determine the ideal value through actual testing. Determine the ideal value through actual testing. ZNR: Varistor A varistor is required to protect against lightning surges and static ZNR: Varistor A varistor is required to protect against lightning surges and static electricity. electricity. www.rohm.com 2010.01 - Rev.A 2010 ROHM Co., Ltd. All rights reserved. 1/1 Not Recommended for New Designs Output Current Io(mA) Output Voltage Vo(V) Temperature Rising T(C) Conversion Efficiency (%) 41.0 19.3MAX. Mark Side 41.0 19.1MAX. Output Current Io(mA) Output Voltage Vo(V) Temperature Rising T(C) Conversion Efficiency (%) Mark SideNot Recommended for New Designs