HPR404C

HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC 0.75 Watt Miniature SIP DC/DC Converter SPECIFICATIONS, ALL MODELS Speci?cations are at T = +25?C nominal input voltage unless otherwise speci?ed. A PARAMETER CONDITIONS MIN TYP MAX UNITS INPUT Voltage Range 4.5 5 5.5 VDC 10.8 12 13.2 VDC 13.5 15 16.5 VDC 21.6 24 26.4 VDC OUTPUT Rated Power 750 mW Voltage Setpoint Accuracy Rated Load, Nominal V ?5 % IN Ripple & Noise BW = DC to 10MHz 150 200 mVp-p BW =10Hz to 2MHz 30 40 mVrms Voltage (Over Input Voltage Range) 1mA to Rated Current, V = 5V 4.75 7 VDC OUT 1mA to Rated Current, V = 12V 11.40 15 VDC OUT 1mA to Rated Current, V = 15V 14.25 18 VDC OUT Temperature Coef?cent .01 .05 %/?C REGULATION Load Regulation (All other modes) Rated Load to 1mA Load 3 % GENERAL ISOLATION Rated Voltage 1000 VDC Test Voltage 60 Hz, 60 Seconds 3000 Vpk Resistance 10 G? Capacitance 25 100 pF Leakage Current V = 240VAC, 60Hz 2 7 ?Arms ISO Switching Frequency 170 kHz Frequency Change Over Line and Load 24 % Package Weight 3 g MTTF per MIL-HDBK-217, Rev. F* Circuit Stress Method Ground Benign T = +25?C 7.9 MHr A TEMPERATURE Speci?cation -25 +25 +85 ?C Operation -40 +100 ?C Storage -40 +110 ?C SOLDERING INFORMATION The HPR4XXC devices are intended for wave soldering or manual soldering. They are not intended to be subject to surface mount processes under any circumstances. The normal wave soldering process can be used with these devices where the device is subjected to a maximum wave temperature of 260?C for a period of no more than 10 seconds. Within this time and temperature range, the integrity of the device?s plastic body will not be compromised and internal temperatures within the converter will not exceed 175?C. Care should be taken to control manual soldering limits identical to that of wave soldering. www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 2 of 4 GENERAL OUTPUT HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC 0.75 Watt Miniature SIP DC/DC Converter SPECIFICATIONS, ALL MODELS Speci?cations are at T = +25?C nominal input voltage unless otherwise speci?ed. A PARAMETER CONDITIONS MIN TYP MAX UNITS INPUT Voltage Range 4.5 5 5.5 VDC 10.8 12 13.2 VDC 13.5 15 16.5 VDC 21.6 24 26.4 VDC OUTPUT Rated Power 750 mW Voltage Setpoint Accuracy Rated Load, Nominal V ?5 % IN Ripple & Noise BW = DC to 10MHz 150 200 mVp-p BW =10Hz to 2MHz 30 40 mVrms Voltage (Over Input Voltage Range) 1mA to Rated Current, V = 5V 4.75 7 VDC OUT 1mA to Rated Current, V = 12V 11.40 15 VDC OUT 1mA to Rated Current, V = 15V 14.25 18 VDC OUT Temperature Coef?cent .01 .05 %/?C REGULATION Load Regulation (All other modes) Rated Load to 1mA Load 3 % GENERAL ISOLATION Rated Voltage 1000 VDC Test Voltage 60 Hz, 60 Seconds 3000 Vpk Resistance 10 G? Capacitance 25 100 pF Leakage Current V = 240VAC, 60Hz 2 7 ?Arms ISO Switching Frequency 170 kHz Frequency Change Over Line and Load 24 % Package Weight 3 g MTTF per MIL-HDBK-217, Rev. F* Circuit Stress Method Ground Benign T = +25?C 7.9 MHr A TEMPERATURE Speci?cation -25 +25 +85 ?C Operation -40 +100 ?C Storage -40 +110 ?C SOLDERING INFORMATION The HPR4XXC devices are intended for wave soldering or manual soldering. They are not intended to be subject to surface mount processes under any circumstances. The normal wave soldering process can be used with these devices where the device is subjected to a maximum wave temperature of 260?C for a period of no more than 10 seconds. Within this time and temperature range, the integrity of the device?s plastic body will not be compromised and internal temperatures within the converter will not exceed 175?C. Care should be taken to control manual soldering limits identical to that of wave soldering. www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 2 of 4 GENERAL OUTPUT HPR4XXC 0.75 Watt Miniature SIP DC/DC Converter TYPICAL PERFORMANCE CURVES Specifications are at T = +25?C nominal input voltage and nominal load. A VOUT VS LOAD VOUT VS LOAD VOUT VS LOAD (5Vout Models) (?5Vout Models) (12Vout Models) 12.5 5.7 5.4 12.4 5.5 5.2 12.3 5.3 5.0 12.2 12.1 5.1 4.8 12.0 4.6 4.9 11.9 040 80 120 160 020406080 020406080 Output Current (mA) Output Current each load (mA) Output Current each load (mA) VOUT VS LOAD VOUT VS LOAD VOUT VS LOAD (?12Vout Models) (15Vout Models) (?15Vout Models) 12.6 16.5 15.9 12.5 16.0 15.7 12.4 15.5 15.5 12.3 15.0 15.3 14.5 12.2 15.1 12.1 14.0 12.0 14.9 13.5 010203040 0204060800 0.2 0.4 0.6 0.8 1.0 Output Current each load (mA) Output Current each load (mA) Output Power each load (Watts) OSCILLATION FREQUENCY VS EFFICIENCY VS LOAD TEMPERATURE 90 220 75 200 60 45 180 30 160 15 0 140 60 0 20 40 80 100 -30 0306090 % of Rated Load (%) Temperature (?C) SAFE OPERATING AREA LOAD CAPACITANCE vs INPUT RISE TIME LOAD CAPACITANCE vs INPUT RISE TIME (5 Vout models) (15 Vout models) 600 60 50 500 400 40 30 300 SAFE OPERATING AREA SAFE OPERATING AREA 20 200 10 100 0 0 0 5 10 15 20 25 30 35 40 45 50 0 5 10 15 20 25 30 35 40 45 50 Rise Time of Input Voltage (mS) Rise Time of Input Voltage (mS) LOAD CAPACITANCE vs INPUT RISE TIME (12 Vout models) 90 NOTES: 80 1.) When operated within the SAFE OPERATING AREA as defined by the above curves, the 70 output voltage of HPR4XXC devices is guaranteed to be within 95% of its steady-state 60 value within 100 milliseconds after the input voltage has reached 95% of its steady- 50 state value. 40 SAFE OPERATING AREA 2.) For dual output models, total load capacitance is the sum of the capacitances on the 30 plus and minus outputs. 20 10 0 0 5 10 15 20 25 30 35 40 45 50 Rise Time of Input Voltage (mS) www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 3 of 4 Total Load Capacitance (uF) Total Load Capacitance (uF) Efficiency (%) Vout Vout Frequency (KHz) Vout Vout Total Load Capacitance (uF) Vout VoutHPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC 0.75 Watt Miniature SIP DC/DC Converter SPECIFICATIONS, ALL MODELS Speci?cations are at T = +25?C nominal input voltage unless otherwise speci?ed. A PARAMETER CONDITIONS MIN TYP MAX UNITS INPUT Voltage Range 4.5 5 5.5 VDC 10.8 12 13.2 VDC 13.5 15 16.5 VDC 21.6 24 26.4 VDC OUTPUT Rated Power 750 mW Voltage Setpoint Accuracy Rated Load, Nominal V ?5 % IN Ripple & Noise BW = DC to 10MHz 150 200 mVp-p BW =10Hz to 2MHz 30 40 mVrms Voltage (Over Input Voltage Range) 1mA to Rated Current, V = 5V 4.75 7 VDC OUT 1mA to Rated Current, V = 12V 11.40 15 VDC OUT 1mA to Rated Current, V = 15V 14.25 18 VDC OUT Temperature Coef?cent .01 .05 %/?C REGULATION Load Regulation (All other modes) Rated Load to 1mA Load 3 % GENERAL ISOLATION Rated Voltage 1000 VDC Test Voltage 60 Hz, 60 Seconds 3000 Vpk Resistance 10 G? Capacitance 25 100 pF Leakage Current V = 240VAC, 60Hz 2 7 ?Arms ISO Switching Frequency 170 kHz Frequency Change Over Line and Load 24 % Package Weight 3 g MTTF per MIL-HDBK-217, Rev. F* Circuit Stress Method Ground Benign T = +25?C 7.9 MHr A TEMPERATURE Speci?cation -25 +25 +85 ?C Operation -40 +100 ?C Storage -40 +110 ?C SOLDERING INFORMATION The HPR4XXC devices are intended for wave soldering or manual soldering. They are not intended to be subject to surface mount processes under any circumstances. The normal wave soldering process can be used with these devices where the device is subjected to a maximum wave temperature of 260?C for a period of no more than 10 seconds. Within this time and temperature range, the integrity of the device?s plastic body will not be compromised and internal temperatures within the converter will not exceed 175?C. Care should be taken to control manual soldering limits identical to that of wave soldering. www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 2 of 4 GENERAL OUTPUT HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC www.murata-ps.com 0.75 Watt Miniature SIP DC/DC Converter PRODUCT OVERVIEW The HPR4XXC Series uses advanced circuit design degradation of reliable operation. In addition, the and packaging technology to realize superior high efficiency of the HPR4XXC Series means the reliability and performance. A 170kHz push-pull series is able to offer greater than 10 W/inch3 of oscillator is used in the input stage. The HPR4XXC output power density. Operation down to no load Series reduces beat-frequency oscillation problems will not impact the reliability of the series, although when used with high frequency isolation amplifiers. this product has a >1mA minimum load for Reduced parts count and high efficiency add to the specifications purposes. reliability of the HPR4XXC Series. The HPR4XXC Series provides high isolation in a very The high efficiency of the HPR4XXC Series means small package. The use of surface mounted devices less internal power dissipation, as low as 190mW. and manufacturing technologies makes it possible With less heat to dissipate the HPR4XXC Series to offer premium performance and low cost. can operate at higher temperatures with no FEATURES n High Isolation Voltage: 3000 VPK Test n High Output Power Density: 10 Watts/Inch3 n Single-In-Line Package (SIP) n Extended Temperature Range: -25?C to +85?C n Internal Input and Output n High Efficiency to 79% n Low Cost n RoHS Compliant n Non-Conductive Case As of October 2016, ONLY the following part numbers will be available: HPR400C; HPR404C; HPR417C PRODUCT SELECTION CHART Input Current Nominal Input Rated Output Rated Output Reflected Rated Load Efficiency Ripple Current Model Voltage Voltage Current No Load Recommended Alternatives Typ. Max. VDC VDC mA mA mAp-p % HPR400C 5 5 150 20 216 235 10 69 NMV0505SAC / MEV1S0505SC HPR402C 5 15 50 20 212 235 5 71 NMV0515SAC / MEV1S0515SC HPR403C 5 ?5 ?75 20 218 245 5 68 NMV0505SC / MEV1D0505SC HPR404C 5 ?12 ?30 20 212 235 5 68 NMV0512SC / MEV1D0512SC HPR405C 5 ?15 ?25 20 220 220 5 75 NMV0515SC / MEV1D0515SC HPR407C 12 12 62 10 81 90 5 77 NMV1212SAC / MEV1S1212SC HPR410C 12 ?12 ?30 10 81 90 5 74 NMV1212SC / MEV1D1212SC HPR411C 12 ?15 ?25 10 81 90 5 77 NMV1215SC / MEV1D1215SC HPR414C 15 15 50 8 72 80 5 69 NMV1515SAC / MEV1S1515SC HPR417C 15 ?15 ?25 8 63 66 5 79 NMV1515SC / MEV1D1515SC HPR418C 24 5 150 8 48 53 15 65 MEV1S2405SC HPR422C 24 ?12 ?30 8 45 50 15 67 MEV1D2412SC HPR423C 24 ?15 ?25 8 45 50 15 69 MEV1D2415SC HPR401C 5 12 62 20 212 235 5 70 NMV0512SAC / MEV1S0512SC HPR406C 12 5 150 10 90 100 5 69 NMV1205SAC / MEV1S1205SC HPR408C 12 15 50 10 81 90 5 77 NMV1215SAC / MEV1S1215SC HPR409C 12 ?5 ?75 10 88 98 5 71 NMV1205SC / MEV1D1205SC HPR412C 15 5 150 8 72 80 5 69 NMV1505SAC/ MEV1S1505SC HPR413C 15 12 62 8 72 80 5 69 NMV1512SAC / MEV1S1512SC HPR415C 15 ?5 ?75 8 72 80 5 69 NMV1505SC / MEV1D1505SC HPR416C 15 ?12 ?30 8 63 70 5 76 NMV1512SC / MEV1D1512SC HPR419C 24 12 62 8 48 53 15 65 MEV1S2412SC HPR420C 24 15 50 8 45 50 15 69 MEV1S2415SC HPR421C 24 ?5 ?75 8 45 50 15 69 MEV1D2405SC For full details go to www.murata-ps.com/rohs www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 1 of 4HPR4XXC 0.75 Watt Miniature SIP DC/DC Converter SPECIFICATIONS, ALL MODELS Speci?cations are at T = +25?C nominal input voltage unless otherwise speci?ed. A PARAMETER CONDITIONS MIN TYP MAX UNITS INPUT Voltage Range 4.5 5 5.5 VDC 10.8 12 13.2 VDC 13.5 15 16.5 VDC 21.6 24 26.4 VDC OUTPUT Rated Power 750 mW Voltage Setpoint Accuracy Rated Load, Nominal V ?5 % IN Ripple & Noise BW = DC to 10MHz 150 200 mVp-p BW =10Hz to 2MHz 30 40 mVrms Voltage (Over Input Voltage Range) 1mA to Rated Current, V = 5V 4.75 7 VDC OUT 1mA to Rated Current, V = 12V 11.40 15 VDC OUT 1mA to Rated Current, V = 15V 14.25 18 VDC OUT Temperature Coef?cent .01 .05 %/?C REGULATION Load Regulation (All other modes) Rated Load to 1mA Load 3 % GENERAL ISOLATION Rated Voltage 1000 VDC Test Voltage 60 Hz, 60 Seconds 3000 Vpk Resistance 10 G? Capacitance 25 100 pF Leakage Current V = 240VAC, 60Hz 2 7 ?Arms ISO Switching Frequency 170 kHz Frequency Change Over Line and Load 24 % Package Weight 3 g MTTF per MIL-HDBK-217, Rev. F* Circuit Stress Method Ground Benign T = +25?C 7.9 MHr A TEMPERATURE Speci?cation -25 +25 +85 ?C Operation -40 +100 ?C Storage -40 +110 ?C SOLDERING INFORMATION The HPR4XXC devices are intended for wave soldering or manual soldering. They are not intended to be subject to surface mount processes under any circumstances. The normal wave soldering process can be used with these devices where the device is subjected to a maximum wave temperature of 260?C for a period of no more than 10 seconds. Within this time and temperature range, the integrity of the device?s plastic body will not be compromised and internal temperatures within the converter will not exceed 175?C. Care should be taken to control manual soldering limits identical to that of wave soldering. www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 2 of 4 GENERAL OUTPUT HPR4XXC 0.75 Watt Miniature SIP DC/DC Converter TYPICAL PERFORMANCE CURVES Specifications are at T = +25?C nominal input voltage and nominal load. A VOUT VS LOAD VOUT VS LOAD VOUT VS LOAD (5Vout Models) (?5Vout Models) (12Vout Models) 12.5 5.7 5.4 12.4 5.5 5.2 12.3 5.3 5.0 12.2 12.1 5.1 4.8 12.0 4.6 4.9 11.9 040 80 120 160 020406080 020406080 Output Current (mA) Output Current each load (mA) Output Current each load (mA) VOUT VS LOAD VOUT VS LOAD VOUT VS LOAD (?12Vout Models) (15Vout Models) (?15Vout Models) 12.6 16.5 15.9 12.5 16.0 15.7 12.4 15.5 15.5 12.3 15.0 15.3 14.5 12.2 15.1 12.1 14.0 12.0 14.9 13.5 010203040 0204060800 0.2 0.4 0.6 0.8 1.0 Output Current each load (mA) Output Current each load (mA) Output Power each load (Watts) OSCILLATION FREQUENCY VS EFFICIENCY VS LOAD TEMPERATURE 90 220 75 200 60 45 180 30 160 15 0 140 60 0 20 40 80 100 -30 0306090 % of Rated Load (%) Temperature (?C) SAFE OPERATING AREA LOAD CAPACITANCE vs INPUT RISE TIME LOAD CAPACITANCE vs INPUT RISE TIME (5 Vout models) (15 Vout models) 600 60 50 500 400 40 30 300 SAFE OPERATING AREA SAFE OPERATING AREA 20 200 10 100 0 0 0 5 10 15 20 25 30 35 40 45 50 0 5 10 15 20 25 30 35 40 45 50 Rise Time of Input Voltage (mS) Rise Time of Input Voltage (mS) LOAD CAPACITANCE vs INPUT RISE TIME (12 Vout models) 90 NOTES: 80 1.) When operated within the SAFE OPERATING AREA as defined by the above curves, the 70 output voltage of HPR4XXC devices is guaranteed to be within 95% of its steady-state 60 value within 100 milliseconds after the input voltage has reached 95% of its steady- 50 state value. 40 SAFE OPERATING AREA 2.) For dual output models, total load capacitance is the sum of the capacitances on the 30 plus and minus outputs. 20 10 0 0 5 10 15 20 25 30 35 40 45 50 Rise Time of Input Voltage (mS) www.murata-ps.com/support 2017-04-19 TDC_HPR4xxC.F02 Page 3 of 4 Total Load Capacitance (uF) Total Load Capacitance (uF) Efficiency (%) Vout Vout Frequency (KHz) Vout Vout Total Load Capacitance (uF) Vout Vout