The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
FDC20-48D05W Volgen / Kaga Electronics (USA) 20W DC/DC CONVERTR INPUT18-72VDC
IRFDC20PBF Vishay Siliconix Small Signal Field-Effect Transistor, 0.32A I(D), 600V, 1-Element, N-Channel, Silicon, Metal-oxide Semiconductor FET, ROHS COMPLIANT, HVMDIP-4
TA48S05AF(T6L1,Q) Toshiba America Electronic Components IC VREG 5 V FIXED POSITIVE LDO REGULATOR, 0.5 V DROPOUT, PSSO5, 1.27 MM PITCH, PLASTIC, SIP-5, Fixed Positive Single Output LDO Regulator
DPX6048S05 TDK Corporation of America CONV DC/DC SGL 5V 12A OUT 60W
AVO100-48S05PB-6L Artysen Embedded Technologies DC-DC Regulated Power Supply Module
ISC0348S05-TR XP Power DC DC CONVERTER 5V 3W

FDC20-48S05 datasheet (3)

Part Manufacturer Description Type PDF
FDC20-48S05 Astrodyne CostCutter Isolated and Regulated 20 WATT Modular DC/DC Converter Original PDF
FDC20-48S05 P-DUKE Input range:36-75 VDCoutput voltage:5 VDC output current:4000 mAinput current:543 mA 20 W DC-DC converter Original PDF
FDC20-48S05W P-DUKE Input range:18-75 VDCoutput voltage:5 VDC output current:4000 mAinput current:548 mA 20 W DC-DC converter Original PDF

FDC20-48S05 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2006 - Not Available

Abstract:
Text: -24T3315 FDC20-24T0512 FDC20-24T0515 FDC20-48S33 (W) FDC20-48S05 (W) FDC20-48S12 (W) FDC20-48S15 (W) FDC20 , FDC20-48S05 Derating Curve With HEAT-SINK (Note 6) 100 75 50 Nature convection 25 0 -40 -25 , ) FDC20-48S05 Derating Curve 100 75 50 Nature convection 25 0 -40 -25 -10 0 50 60 70 80 90 , EXTERNAL OUTPUT TRIMMING 8 7 0.40 (10.2) 0.70 (17.8) / FDC20-48S05 Efficiency VS Output load EFFICIENCY (%) EFFICIENCY (%) FDC20-48S05 Efficiency VS Input Voltage 5 6 Output


Original
PDF FDC20 FDC20-W 36-75VDC. 18-75VDC. FDC20 1600VDC EN60950-1
capacitor 3400uf 100Vdc

Abstract:
Text: VDC FDC20-48S33 (W) 36 ­ 75 (18 ­ 75) VDC 3.3 VDC FDC20-48S05 (W) 36 ­ 75 (18 ­ 75) VDC 5 VDC , 100 AMBIENT TEMPERATURE (ºC) FDC20-48S05 Derating Curve With HEAT-SINK (Note 6) OUTPUT POWER (%) OUTPUT POWER (%) FDC20-48S05 Derating Curve 100 75 50 25 Nature convection 0 , 75 74 FDC20-48S05 Efficiency VS Output load EFFICIENCY (%) EFFICIENCY (%) FDC20-48S05


Original
PDF FDC20 FDC20-W 36-75VDC. 18-75VDC. FDC20 1600VDC EN60950 capacitor 3400uf 100Vdc
2011 - Not Available

Abstract:
Text: -48S33 (W) FDC20-48S05 (W) FDC20-48S12 (W) FDC20-48S15 (W) FDC20-48D05 (W) FDC20-48D12 (W) FDC20 , not internally fused. An input line fuse must always be used. FDC20-48S05 Derating Curve 120 , 56.1 80 AMBIENT TEMPERATURE(℃) 100 120 120 FDC20-48S05 Derating Curve With , ) EFFICIENCY(%) FDC20-48S05 Efficiency VS Input Voltage 85% 83% 81% 79% 77% 75% 36 40 44 48 52 56 60 64 68 72 95 90 85 80 75 70 65 60 55 50 45 FDC20-48S05


Original
PDF 2006/95/EC, 93/68/EEC 2004/108/EC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FDC20 FDC20W
2008 - Not Available

Abstract:
Text: OUTPUT FDC20-12S33 3.3 VDC FDC20-24S33 FDC20-48S33 FDC20-12S05 5 VDC FDC20-24S05 FDC20-48S05 FDC20 , (5.1) DIA. 0.04(1.0) 0.40 (10.2) fdc20 series OUTPUT DERATING CURVE FDC20-48S05 Derating , 6 0.40 (10.2) 0.50 (12.7) 5 FDC20-48S05 Efficiency VS Input Voltage EFFICIENCY (%) 0.22 (5.6 , 76 75 74 36 40 45 50 55 60 65 70 75 INPUT VOLTAGE (V) FDC20-48S05


Original
PDF fdc20 FDC20-12S33 FDC20-24S33 FDC20-48S33 FDC20-12S05 FDC20-24S05 FDC20-48S05 FDC20-12S12 FDC20-24S12 FDC20-48S12
FDC20

Abstract:
Text: FDC20-48S05 (W) 36 ­ 75 (18 ­ 75) VDC 5 VDC FDC20-48S12 (W) 36 ­ 75 (18 ­ 75) VDC 12 VDC FDC20 , 0 50 60 70 80 90 100 AMBIENT TEMPERATURE (ºC) FDC20-48S05 Derating Curve With HEAT-SINK (Note 6) OUTPUT POWER (%) OUTPUT POWER (%) FDC20-48S05 Derating Curve 100 75 50 Nature convection 25 0 -40 -25 -10 0 50 60 70 80 90 100 AMBIENT TEMPERATURE (ºC) FDC20-48S05 Efficiency VS Output load EFFICIENCY (%) EFFICIENCY (%) FDC20-48S05 Efficiency VS Input Voltage 84


Original
PDF FDC20 FDC20-W 36-75VDC. 18-75VDC. FDC20 1600VDC EN60950 FDC20-48T0515
FDC20-48S33

Abstract:
Text: SINGLE OUTPUT FDC20-12S33 3.3 VDC FDC20-24S33 FDC20-48S33 FDC20-12S05 5 VDC FDC20-24S05 FDC20-48S05 , ) 2.00 (50.8) 4 Bottom View FDC20-48S05 Derating Curve OUTPUT POWER (%) 1.60 (40.6) 0.60 , AMBIENT TEMPERATURE (ºC) 7 6 FDC20-48S05 Efficiency VS Input Voltage 5 0.40 (10.2) 0.40 , 50 55 60 65 70 75 3.5 4 INPUT VOLTAGE (V) FDC20-48S05 Efficiency VS Output


Original
PDF fdc20 FDC20-12S33 FDC20-24S33 FDC20-48S33 FDC20-12S05 FDC20-24S05 FDC20-48S05 FDC20-12S12 FDC20-24S12 FDC20-48S12 FDC20-48S33 FDC20-24T0512 FDC20-24S33 FDC20-24S15 FDC20-24S12 FDC20-24S05 FDC20-12S33 FDC20-12S15 FDC20-12S12 FDC20-12S05
2011 - Not Available

Abstract:
Text: OUTPUT FDC20-12S33 3.3 VDC FDC20-24S33 FDC20-48S33 FDC20-12S05 5 VDC FDC20-24S05 FDC20-48S05 FDC20 , ) OUTPUT DERATING CURVE FDC20 series FDC20-48S05 Derating Curve OUTPUT POWER (%) 100 75 50 25 , ) 5 FDC20-48S05 Efficiency VS Input Voltage EFFICIENCY (%) 0.22 (5.6) 0.70 (17.8) 1. All , 55 60 65 70 75 INPUT VOLTAGE (V) FDC20-48S05 Efficiency VS Output load EFFICIENCY (%


Original
PDF FDC20 FDC20-12S33 FDC20-24S33 FDC20-48S33 FDC20-12S05 FDC20-24S05 FDC20-48S05 FDC20-12S12 FDC20-24S12 FDC20-48S12
2008 - 450h

Abstract:
Text: -24D12 (W) FDC20-24D15 (W) FDC20-24T3312 FDC20-24T3315 FDC20-24T0512 FDC20-24T0515 FDC20-48S33 (W) FDC20-48S05 , approval pending. OUTPUT POWER (%) 1. FDC20-48S05 Derating Curve OUTPUT POWER(%) 120 100 80 60 40 20 0 -40 -20 0 20 40 60 56.1 80 100 120 120 100 80 60 40 20 0 FDC20-48S05 Derating Curve , AMBIENT TEMPERATURE() AMBIENT TEMPERATURE( ) 3 FDC20-48S05 Efficiency VS Output Load / 3 FDC20-48S05 Efficiency VS Input Voltage EFFICIENCY(%) 85% 83% 81% 79% 77% 75% 36 40 44 48


Original
PDF 2006/95/EC, 93/68/EEC 2004/108/EC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FDC20 FDC20-W 450h
PMT-048

Abstract:
Text: ) FDC20-24T3312 FDC20-24T3315 FDC20-24T0512 FDC20-24T0515 FDC20-48S33 (W) FDC20-48S05 (W) FDC20 , safety approval pending. FDC20-48S05 Derating Curve 120 OUTPUT POWER(%) OUTPUT POWER (%) 1 , 120 120 FDC20-48S05 Derating Curve With Heatsink (Note5 ) (Note 9) 100 80 60 40 20 0 , (%) FDC20-48S05 Efficiency VS Input Voltage EFFICIENCY(%) 85% 83% 81% 79% 77% 75% 36 , 80 90 100 FDC20-48S05 Efficiency VS Output Load 10 INPUT VOLTAGE (V) / 20 30


Original
PDF 2006/95/EC, 93/68/EEC 2004/108/EC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FDC20 FDC20-W PMT-048 max7780 60638 Nippon Chemi-Con 4700
2007 - Not Available

Abstract:
Text: ) FDC20-24D15 (W) FDC20-24T3312 FDC20-24T3315 FDC20-24T0512 FDC20-24T0515 FDC20-48S33 (W) FDC20-48S05 , 12. The FDC20-24D3305 and FDC20-48D3305 are safety approval pending. FDC20-48S05 Derating Curve FDC20-48S05 Derating Curve 120 OUTPUT POWER(%) OUTPUT POWER (%) 1. 2. 3. 4. 5. 6. 100 , 6063.8 80 AMBIENT TEMPERATURE(℃) 100 120 3 EFFICIENCY(%) FDC20-48S05 Efficiency , 60 64 68 72 95 90 85 80 75 70 65 60 55 50 45 FDC20-48S05 Efficiency VS


Original
PDF 2006/95/EC, 93/68/EEC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FDC20 FDC20-W
FDC20-48S33

Abstract:
Text: 9-18 VDC 18-36 VDC 36-72 VDC FDC20-12S05 FDC20-24S05 FDC20-48S05 $72 $72 $72 $68 $68


Original
PDF FDC20 FDC20-12S33 FDC20-24S33 FDC20-48S33 FDC20-12S05 FDC20-24S05 FDC20-48S05 FDC20-12S12 FDC20-24S12 FDC20-48S12 FDC20-48S33 FDC20-24S05 FDC20-24D15 FDC20-12S33 FDC20-12S15 FDC20-12S12 FDC20-12S05 fdc20-12d12 FDC20-12D05 FDC20
12s05

Abstract:
Text: 9-18 VDC 18-36 VDC 36-72 VDC FDC20-12S05 FDC20-24S05 FDC20-48S05 $69 $69 $69 $65 $65


Original
PDF FDC20 FDC20-12S33 FDC20-24S33 FDC20-48S33 FDC20-12S05 FDC20-24S05 FDC20-48S05 FDC20-12S12 FDC20-24S12 FDC20-48S12 12s05 FDC20-24S12 FDC20-24S05 FDC20-12S33 FDC20-12S15 FDC20-12S12 FDC20-12S05 FDC20-12D05 FDC20 FDC20-48S33
2004 - FDC20-24D12W

Abstract:
Text: FDC20-48S05W 18-72VDC 5VDC 4000mA 80 FDC20-48S12W 18-72VDC 12VDC 1670mA 81


Original
PDF FDC20-W 20MHz 100mV 2000mA FDC20-24D12W 9-36VDC 12VDC 833mA FDC20-24D15W FDC20-24D12W FDC20-24S12W FDC20-24S05W FDC20-48S05W FDC20-48D12W FDC20-24S15W 24S12W FDC20-24D15W FDC20-24D05W FDC20-48S12W
2009 - Not Available

Abstract:
Text: 48Vdc Input, 5Vdc@30A Output Quarter-brick DC-DC Converter AGQ150- 48S05 Description The AGQ150- 48S05 , temperature protection Document NO. 31020960 January 16, 2009 Rev 1.1 2/13 AGQ150- 48S05 DC-DC , ://www.emersonnetworkpower.com.cn 3/13 AGQ150- 48S05 DC-DC Converter Parameter Min. Total output voltage range 4.90 , ://www.emersonnetworkpower.com.cn 4/13 AGQ150- 48S05 DC-DC Converter Parameter Min. Typ. Max. Unit Notes & , ://www.emersonnetworkpower.com.cn 5/13 AGQ150- 48S05 DC-DC Converter Characteristic Curves 95 Effiency (%) 90 85


Original
PDF 48Vdc AGQ150-48S05 AGQ150-48S05 SJ/T11363-2006
2008 - DC100-24S24

Abstract:
Text: -24S12 DC100-24S15 DC100-24S24 DC100-24S28 DC100-24S48 DC100- 48S05 DC100-48S12 DC100-48S15 DC100-48S24 DC100 , screw bolts to ground. DERATING CURVES AND EFFICIENCY GRAPHS DC100- 48S05 Curve HAE100- 48S05 Derating , convection (20LFM) 100LFM 200LFM 300LFM 400LFM 500LFM HAE100- 48S05 Derating Curve DC100- 48S05 Derating , HAE100- 48S05 Derating Curve DC100- 48S05 Derating Curve Heat-sink (Note 11 11) ) With 0.45" 0.45 , 200LFM 300LFM 400LFM 500LFM AMBIENT TEMPERATURE () HAE100- 48S05 DC100- 48S05 Efficiency VS Input


Original
PDF DC100 7G-0023A-F 7G-0023A-F 7G-0021A-F 7G-0021A-F 7G-0022A-F 7G-0024A-F 7G-0022A-F DC100-24S24
TNV1

Abstract:
Text: 3.3V CXA10- 48S05 18-75VDC 5.0 CXA10-48S12 18-75VDC 12V CXA10-48D05 18-75VDC , on request. The results summarised in Table 4 show CXA10- 48S05 meeting the class A radiated limit , 23.5 176.28 29.43 Table 4 - Radiated Emissions on CXA10- 48S05 (class A limit = 40dBµV/m). No , . The results in Table 5 show the CXA10- 48S05 passing the class B radiated limit of 40dBµV/m with , 24.55 Table 7 - Radiated emission on a CXA10- 48S05 with ground plane, 4.7µF capacitor and metal


Original
PDF CXA10 100lse TNV1 CXA10-48D05 IPC-D-275 EMC for PCB Layout NFC10 CXA10-48S3V3 CXA10-48S12 CXA10-48S05 CXA10-48D12
IPC-D-275

Abstract:
Text: Output Voltage CXA10-48S3V3 18-75VDC 3.3V CXA10- 48S05 18-75VDC 5.0 CXA10 , report is available on request. The results summarised in Table 4 show CXA10- 48S05 meeting the class A , 116.47 23.5 176.28 29.43 Table 4 - Radiated Emissions on CXA10- 48S05 (class A limit = 40dBµV , the converter. The results in Table 5 show the CXA10- 48S05 passing the class B radiated limit of , 21.50 143.33 24.55 Table 7 - Radiated emission on a CXA10- 48S05 with ground plane, 4.7µF


Original
PDF CXA10 IPC-D-275 CXA10-48D05 BXA10 PIN CONFIGURATION 74ls22 NFC10 CXA10-48S3V3 CXA10-48S12 CXA10-48S05 CXA10-48D12
BXA10

Abstract:
Text: 3.3V CXA10- 48S05 18-75VDC 5.0 CXA10-48S12 18-75VDC 12V CXA10-48D05 18-75VDC , in Table 4 show CXA10- 48S05 meeting the class A radiated limit of 40dBµV/m. Frequency (MHz , Radiated Emissions on CXA10- 48S05 (class A limit = 40dBµV/m). No ground plane A 4.7µF capacitor was placed across the voltage input pins, right next to the converter. The results in Table 5 show the CXA10- 48S05 , (MHz) 25.40 19.00 130.13 21.50 143.33 24.55 Table 7 - Radiated emission on a CXA10- 48S05


Original
PDF CXA10 BXA10 CXA10-48D05 CXA10-48D12 CXA10-48S05 CXA10-48S12 CXA10-48S3V3 IPC-D-275 NFC10
2008 - RU86

Abstract:
Text: NUMBER PMJ60-24S3P3 PMJ60-24S05 PMJ60-24S12 PMJ60-24S15 PMJ60-48S3P3 PMJ60- 48S05 PMJ60-48S12 PMJ60 , -Vin. To order negative logic ON/OFF control add the suffix-N (Ex: PMJ60- 48S05 -N). 8. Test condition , chemi-con KY series, 220µF/100V, ESR 48m. PMJ60- 48S05 DERATING CURVE OUTPUT POWER (%) OUTPUT POWER (%) PMJ60- 48S05 DERATING CURVE with heatsink 120 100 80 60 40 20 0 -40 -20 0 20 40 60 80 100 120 120 100 , °) PMJ60- 48S05 Efficiency VS Input voltage 92 91 95 90 EFFICIENCY(%) PMJ60- 48S05 Efficiency VS


Original
PDF 2002/95/EC 100mS 18-36VDC 36-75VDC ETS300 50VDC 100VDC PMJ6048xxxW F/100V RU86
2007 - 48S05

Abstract:
Text: ) FDC05-24S15 (W) FDC05-24D05 (W) FDC05-24D12 (W) FDC05-24D15 (W) FDC05-48S33 (W) FDC05- 48S05 (W , 290uF 188uF ± 850uF ± 140uF ± 47uF 3700uF 1700uF 290uF 188uF ± 850uF ± 140uF ± 47uF FDC05- 48S05 Derating Curve OUTPUT POWER (%) 8. 9. FDC05- 48S05 Derating Curve 8) With Heatsink (Note 5 , 0.400 0.400 To order positive logic ON/OFF control add the suffix-P (Ex: FDC05- 48S05 -P) (10.16) (10.16) To order negative logic ON/OFF control add the suffix-N (Ex: FDC05- 48S05 -N) M1 version is more


Original
PDF 1000mA 2006/95/EC, 93/68/EEC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FDC05 FDC05-W 48S05
2011 - Not Available

Abstract:
Text: -24S05 FEC15-24S12 FEC15-24S15 FEC15-24D05 FEC15-24D12 FEC15-24D15 FEC15-48S33 FEC15- 48S05 FEC15 , fused. An input line fuse must always be used. FEC15- 48S05 Derating Curve 120 OUTPUT POWER(% , „ƒ) FEC15- 48S05 Efficiency VS Output Load FEC15- 48S05 Efficiency VS Input Voltage 86 EFFICIENCY(% , FEC15- 48S05 Derating Curve FEC15- 48S05 Derating Curve With Heat-sink (Note 8) With Heatsink (Note 8 , Drawing: FEC15- 48S05 Efficiency VS Output load 83 82 81 80 79 78 77 76 70 65 50 0.5 1


Original
PDF 2006/95/EC 93/68/EEC 2004/108/EC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FEC15
2001 - double sided pcb FR4

Abstract:
Text: . Model 18-75VDC 3.3V CXA10- 48S05 Radiated . . . . . . . . . . . . . . . . . . . . . . . . . , copy of the report is available on request. The results summarised in Table 4 show CXA10- 48S05 , requirements of the safety standards. 87.51 116.47 29.43 Table 4 - Radiated Emissions on CXA10- 48S05 , pins, right next to the converter. The results in Table 5 show the CXA10- 48S05 passing the class B , on CXA10- 48S05 with 4.7µF across input (class B limit = 30dBµV/m). No ground plane. A ground


Original
PDF CXA10 EN60950, UL1950, NFC10 BXA10 double sided pcb FR4 IPC-D-275 EMC PCB Layout 74LS266 pin configuration CXA10-48S3V3 TNV1 CXA10-48S05 CXA10-48D05 cxa10 artesyn
2011 - Not Available

Abstract:
Text: -24S15 PMJ60-48S3P3 PMJ60- 48S05 PMJ60-48S12 PMJ60-48S15 INPUT RANGE 18 - 36 VDC 18 - 36 VDC , add the suffix-N (Ex: PMJ60- 48S05 -N). 8. Test condition with vertical direction by natural , , ESR 48mΩ. Derating Curve PMJ60- 48S05 DERATING CURVE with heatsink -40 -20 0 20 40 60 80 100 OUTPUT POWER (%) OUTPUT POWER (%) PMJ60- 48S05 DERATING CURVE 120 100 80 , 60 80 100 120 90 100 AMBIENT TEMPERATURE (C°) PMJ60- 48S05 Efficiency VS Input


Original
PDF 18-36VDC 36-75VDC ETS300 50VDC 100mS 100VDC PMT-053 EN55022
2009 - 1812mlcc

Abstract:
Text: -24S3P3 FEC60-24S05 FEC60-24S12 FEC60-24S15 FEC60-48S3P3 FEC60- 48S05 FEC60-48S12 FEC60-48S15 18 ­ 36 , ­Vin. To order negative logic ON/OFF control add the suffix-N (Ex: FEC60- 48S05 -N). 8. Test condition , suggest: Nippon chemi-con KY series, 220F/100V, ESR 48m. FEC60- 48S05 DERATING CURVE WITH HEATSINK (Note 59) (Note ) OUTPUT POWER(%) OUTPUT POWER (%) FEC60- 48S05 DERATING CURVE 120 100 80 60 , -40 -20 FEC60- 48S05 Efficiency VS Input voltage EFFICIENCY(%) 95 92 EFFICIENCY(%


Original
PDF 2006/95/EC, 93/68/EEC 2004/108/EC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FEC60 FEC6024xxx 1812mlcc PMT-053 PMT-048 fec60-24s05 ky capacitor nippon Nippon Chemi-Con fec60-24s12 capacitor 6kv
2011 - Not Available

Abstract:
Text: -24D05 (W) FDC05-24D12 (W) FDC05-24D15 (W) FDC05-48S33 (W) FDC05- 48S05 (W) FDC05-48S12 (W) FDC05 , voltage is referenced to -INPUT To order positive logic ON/OFF control add the suffix-P (Ex: FDC05- 48S05 -P) To order negative logic ON/OFF control add the suffix-N (Ex: FDC05- 48S05 -N) 7. M1 version is more , line fuse must always be used. FDC05- 48S05 Derating Curve 81 -40 -25 -10 5 20 35 50 65 80 95 110 , ±0.01(0.25) 3. Pin dimension tolerance ±0.004 (0.1) AMBIENT TEMPERATURE(℃) FDC05- 48S05 Efficiency


Original
PDF 1000mA 2006/95/EC, 93/68/EEC 2004/108/EC UL60950-1, EN60950-1 IEC60950-1 ISO9001 2002/95/EC FDC05
Supplyframe Tracking Pixel