Data Sheet Data Sheet 100VAC Input/24VDC (600mA) Output 220VAC Input/5VDC (100mA) Output Non-Isolated AC/DC Converter Non-Isolated AC/DC Converter BP5068A24 BP5041A5 Absolute Maximum Ratings Absolute Maximum Ratings Dimensions (Unit : mm) Dimensions (Unit : mm) 32.5MAX. 11.5MAX. Parameter Symbol Limits Unit 34.5MAX. 11.3MAX. Parameter Symbol Limits Unit Input voltage Vi 190 V Input voltage Vi 390 V Output current Io 0.8 Apk Output current Io 100 mApk ESD endurance Vsurge kV 2 ESD endurance Vsurge 2 kV 1 3 5 7 10 1 3 5 7 8 10 12 Operating temperature range Topr 20 to +80 C Operating temperature range Topr 25 to +80 C 0.250.05 0.50.1 0.250.05 0.50.1 Storage temperature range Tstg 25 to +105 C 1.30.2 7.35MAX. Storage temperature range Tstg 25 to +105 C 4.75MAX. P=2.540.2 P=5.080.2 1.30.2 3.25MAX 3.25MAX. 2.5411=27.94 22.86 6.75MAX. 3.95MAX. Electrical Characteristics Electrical Characteristics Parameter Symbol Min. Typ. Max. Conditions Unit Derating Curve Derating Curve Parameter Symbol Min. Typ. Max. Unit Conditions V Input voltage range Vi 162 141 120 DC(85 to 115VAC) Derating Curve Input voltage range Vi 226 282 390 V DC(160 to 276VAC) Derating Curve V 1.0 Output voltage Vo 26.0 24.0 22.0 Vi=141V, Io=600mA 120 0.9 0.8 Output voltage Vo 4.7 5.0 5.3 V Vi=282V, Io=50mA 100 A Output current Io 0 0.6 Vi=141V 1 0.7 0.6 80 Output current Io 0 100 mA Vi=282V 1 Line regulation Vr 0.23 0.48 V Vi=120 to 162V, Io=600mA 0.5 60 0.4 Operation Range Operation Range Line regulation Vr 0.05 0.15 V Vi=226 to 390V, Io=50mA Load regulation Vl 0.55 0.75 V Vi=141V, Io=0 to 600mA 0.3 2 40 0.2 Load regulation Vl 0.05 0.15 V Vi=282V, Io=0 to 50mA 2 20 0.1 Output ripple voltage Vp 0.11 0.20 Vp-p Vi=141V, Io=600mA 0 0 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 Output ripple voltage Vp 0.05 0.15 Vp-p Vi=282V, Io=50mA Power conversion efficiency 82 88 % Vi=141V, Io=600mA -30 -20 -10 0 10 20 30 40 50 60 70 80 90 2 Ambient Temperature Ta(C) Ambient Temperature Ta (C) Power conversion efficiency 35 48 % Vi=282V, Io=100mA 2 1 Maximum output current varies depending on ambient temperature please refer to derating curve. 2 Please refer to Load regulation, Conversion efficiency. 1 Maximum output current varies depending on ambient temperature please refer to derating curve. Conversion Efficiency 2 Please refer to Load regulation, Conversion efficiency. Conversion Efficiency Conversion Efficiency Conversion Efficiency Application Circuit (Ta=25C, Vi=141V) (Ta=25C, Vi=282V) 100 Pin No. Function 100 90 BP5068A24 1 Output terminal Vo(24V) 80 80 2 Skip 70 Application Circuit 60 Please note that pin No.12 3 Coil connect Pin No. Function 60 50 side is input. 4 Skip 1 Output terminal Vo(5V) 40 40 BP5041A5 5 Coil Connect 30 2 Not used 6 Skip 20 3 N.C. 20 12 8 7 5 3 1 10 7 COMMON 4 Not used Please note that pin No.10 0 8 COMMON 0 FUSE 0 100 200 300 400 500 600 5 COMMON R1 side is input. D1 2A Output 0 20 40 60 80 100 9 Skip Output Current Io(mA) 6 Not used 2.21/4W 1SR35-400A 24V Output Current Io (mA) 10 N.C. 7 N.C. L1 11 Skip C2 C3 8 Not used Input ZNR C1 10 7 5 3 1 12 Input terminal Vi(141VDC) 9 Not used AC100V Load Regulation Load Regulation + D1 + 470F/50V 220V 0.1F FUSE 100F/200V 10 Input terminal Vi(282VDC) 50Hz/60Hz R1 0.5A Output Load Regulation Load Regulation D1 +5V (Ta=25C, Vi=141V) 101/4W (Ta=25C, Vi=282V) 30 5.3 Be sure to use fuse for safety. C2 C3 Input ZNR + + 25 C1 5.2 Please verify operation and characteristics in the customer s circuit before actual usage and ensure AC200V 100F/16V 20 0.1F that the load current does not exceed 0.6A. 4.7F/450V 5.1 50Hz/60Hz 15 5.0 External Component Specifications Be sure to use fuse for safety. 10 4.9 FUSE: Fuse Use a quick-acting fuse (2A) 5 Please verify operation and characteristics in the customer s circuit before actual usage. 4.8 C1: Input capacitor Above 200V, 47 to 220F 0 Ensure that the load current does not exceed the maximum rating. 4.7 0 100 200 300 400 500 600 700 800 900 0 20 40 60 80 100 Ripple current 0.22Arms or greater Output Current Io(mA) Output Current Io (mA) C2: Noise reduction Above 200V, 0.1 to 0.22F capacitor Use a film or ceramic capacitor. Evaluate under actual operating External Component Specifications Surface Temperature Increase conditions. Temperature Increase Surface Temperature Increase FUSE: Fuse Use a quick-acting fuse of 0.5A C3: Output capacitor Above 50V, 330 to 1000F, low impedance (Ta=25C, Vi=141V) Temperature Increase ESR : 0.08 Max. 30 (Ta=25C, Vi=282V) C1: Input smoothing Capacitance : 3.3 to 22F Rated voltage : 450V or higher 30 Ripple current 1Arms or greater 25 capacitor Ripple current is 0.13Arms or greater. Capacitor impedance affects the output ripple voltage. 25 20 C2: Noise reduction Capacitance : 0.1 to 0.22F Rated voltage : 450V or higher 20 L1: Power inductor Inductance : 1.0mH, Rating current : above 1.2A 15 capacitor Use a film or ceramic capacitor. Evaluate under actual Select components that do not easily get magnetically saturated at high 15 10 temperature. operating conditions. 10 5 D1: Flywheel diode Above 400V, current : above 3A 5 C3: Output smoothing Capacitance : 100 to 470F Rated voltage : 16V or higher, 0 Fast recovery diode 0 100 200 300 400 500 600 capacitor ESR is 0.4 max. Ripple current is 0.15Arms or greater. 0 Output Current Io(mA) 0 20 40 60 80 100 Please note that both the switching and efficiency characteristics of the Evaluate under actual operating conditions. Output Current Io (mA) module are affected by this diode. D1: Rectifier diode In the absolute maximum ratings, the reverse peak voltage should be Recommended products : 31DF4 (Nihon Inter) or RU30 (Sanken) 800V or higher, the average rectifying current should be 0.5A or higher, D2: Rectifier diode Use a rectifying diode with a peak reverse voltage of 400V or higher, an and the peak surge current should be 20A or higher. average rectification current of 1A or larger and a peak surge current of (Full-wave rectification can be used.) 20A or larger. When using a large capacitance input capacitor, select a component that is strong against inrush current during power up. 10 to 22 1/4W R1: Noise reduction Full-wave rectification can be used. Determine the ideal value through actual testing. resistor 1.0 to 2.2, 1/4W R1: Noise reduction A varistor is required to protect against lightning surges and ZNR: Varistor Determine the ideal value through actual testing. resistor static electricity. ZNR: Varistor A varistor is required to protect against lightning surges and static 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(A) Output Voltage Vo(V) Temperature Rising T(C) Conversion Efficiency (%) 41.0 21.5MAX. Mark Side Output Current Io (mA) Output Voltage Vo (V) Conversion Efficiency (%) Surface Temperature T (C) 41.0 19.3MAX. Mark SideNot Recommended for New Designs