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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC3610EWP#TRPBF Linear Technology LTC3610 - 24V, 12A Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C
LTC3610IWP#PBF Linear Technology LTC3610 - 24V, 12A Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C
LTC3610EWP#PBF Linear Technology LTC3610 - 24V, 12A Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C
LTC3610IWP#TRPBF Linear Technology LTC3610 - 24V, 12A Monolithic Synchronous Step-Down DC/DC Converter; Package: QFN; Pins: 64; Temperature Range: -40°C to 85°C
LTC1272-5CCSW Linear Technology LTC1272 - 12-Bit, 3µs, 250kHz Sampling A/D Converter; Package: SO; Pins: 24; Temperature: Commercial
LTC1272-5ACSW Linear Technology LTC1272 - 12-Bit, 3µs, 250kHz Sampling A/D Converter; Package: SO; Pins: 24; Temperature: Commercial

converter 24V to 5v Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2002 - Calex

Abstract: 8501 optocoupler 5v to 24V OPTOCOUPLER-NPN optocoupler NPN 5 volt dc motor high speed logic to logic optocoupler converter 24V to 5v power supply 24 volt 8 input 6 output 5v dc plc controller
Text: channel converter , 24V to 5V . Each channel requires 7mA into 2.5K ohms to provide a 5 mA MODEL 8501 TTL 5 VOLT LOGIC TO PLC 24 VOLT INPUT + 24V CALEX 8501 +5 VOLT LOGIC SUPPLY + C 3K , Models 8501, 8502 Two Channel TTL/ 24V & 24V /TTL Converters Model 8501 is a two channel converter , 5V to 24V . The two independent channels require 7mA into 382 ohms to provide a 7 mA output into the , configuration. The input frequency range is DC to 15KHz. sinking output to TTL 5 Volt Logic. The output is an


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PDF TTL/24V 15KHz. 20KHz. Calex 8501 optocoupler 5v to 24V OPTOCOUPLER-NPN optocoupler NPN 5 volt dc motor high speed logic to logic optocoupler converter 24V to 5v power supply 24 volt 8 input 6 output 5v dc plc controller
2011 - GRM31CB31C226ME15L

Abstract: toshiba shipping methods CRS20I40B 3.3v dc-dc converter toshiba diode marking code 15h
Text: (typ.) High efficiency: DC-DC Converter section = 86% (typ.) (@VIN1 = 24V , VOUT1 = 5V , IOUT1 = , 2V, VEN = 5V VIN1 = 24V , VIN2 = 6V, VOUT2 = 5V IOUT2 = 5mA to 800mA VIN1 = 24V , VIN2 = 6V VFB2 = 1V , exceeded, the inductor becomes saturated, leading to an unstable DC-DC converter operation. When VIN1 = 24V , IOUT1 (DC-DC Converter section) 100 VIN1 = 24V , VOUT1 = 5V L = 15H , COUT1 = 22F Ta = 25°C , LS , 1.8V (@ VIN1 = 24V ), the internal circuitry is allowed to operate and thus enable the switching


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PDF TB7110F TB7110F 800mA GRM31CB31C226ME15L toshiba shipping methods CRS20I40B 3.3v dc-dc converter toshiba diode marking code 15h
12V DC to 24V dC converter circuit diagram

Abstract: NTC 5D-9 THERMISTOR diagram Converter 24v to 12v ntc 5D-9 THERMISTOR NTC 5D-9 ac-dc converter mtbf 3.3V 1A 4W AC/DC 12V 15A convertors circuit diagrams 24v 12v 20A regulator 24V DC to 12V dC converter circuit diagram 5d-9 thermistor
Text: -10B24 5V /1000mA 9V/550mA 12V/420mA 15V/330mA 24V /230mA LH05-10A05 LH05-10A12 LH05-10A15 LH05-10A24 + 5V /500mA +12V/210mA +15V/160mA + 24V /100mA - 5V /500mA -12V/210mA -15V/160mA - 24V /100mA LH05 , -10A12 LH10-10A15 LH10-10A24 + 5V /1000mA +12V/450mA +15V/350mA + 24V /200mA - 5V /1000mA -12V/450mA -15V/350ma - 24V /200ma LH10-10C0505-04* LH10-10C0512-02 LH10-10C0515-02 LH10-10C0524-01* 5V , 15V/200mA 24V /200mA 55X45X21.0mm 10W 3.3V/2000mA 76 ± 5V /400mA ±12V/200mA ±15V/200mA


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PDF LHXX-10XXX IEC61000 UL60950and IEC60950, 264VAC 50/60Hz 80VAC 75VAC 70VAC 65VAC 12V DC to 24V dC converter circuit diagram NTC 5D-9 THERMISTOR diagram Converter 24v to 12v ntc 5D-9 THERMISTOR NTC 5D-9 ac-dc converter mtbf 3.3V 1A 4W AC/DC 12V 15A convertors circuit diagrams 24v 12v 20A regulator 24V DC to 12V dC converter circuit diagram 5d-9 thermistor
2013 - Not Available

Abstract: No abstract text available
Text: VIN1 = 24V , VIN2 = 6V, VOUT2 = 5V IOUT2 = 5mA to 800mA VIN1 = 24V , VIN2 = 6V VFB2 = 1V , VOUT2 = , Converter section) 4 (A) 5 5 VOUT1 (V) 6 4 3 2 VIN1 = 24V VOUT1 = 5V L = 15Π, section IOUT2 = 800mA(max.) High efficiency: DC-DC Converter section η = 86% (typ.) (@VIN1 = 24V , VOUT1 = 5V , IOUT1 = 500mA) Operating input voltage range: VIN1 = 4.5V to 27V On-state resistance: RDS(ON , ) VIN1 = 24V ⎯ ⎯ 0.5 IIH(EN) VIN1 = 24V , VEN = 5V −5 ⎯ 5 IIL(EN


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PDF TB7110F TB7110F HSON8-P-0505-1 800mA
TDk 99340-E

Abstract: No abstract text available
Text: 100 Output current (%) Condition Ta : -40oC TRM: Short-circuited to -Vout. Vin=18V Vin= 24V , Output current (%) Condition Ta : 25oC TRM: Short-circuited to -Vout. Vin=18V Vin= 24V Vin , ) Condition Ta : 85oC TRM: Short-circuited to -Vout. Vin=18V Vin= 24V Vin=36V 6.18 Output , Iout : 100% TRM: Short-circuited to -Vout. Vin=18V Vin= 24V Vin=36V 6.18 Output voltage(V , (vs. load current) Condition Vin=18V Vin= 24V Ta : Vout : 25oC 5V Vin=36V 0.25


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PDF CC3-2405SS-E TRSC-1584-1 TDk 99340-E
Not Available

Abstract: No abstract text available
Text: €¢ High efficiency: DC-DC Converter section η = 86% (typ.) (@VIN1 = 24V , VOUT1 = 5V , IOUT1 = 500mA) â , , VIN2 = 6V, VOUT2 = 5V IOUT2 = 5mA to 800mA VIN1 = 24V , VIN2 = 6V VFB2 = 1V , VOUT2 = 4.5V VIN1 = , When VIN1 = 24V and VOUT1 = 5V , the required inductance can be calculated as follows. Be sure to select , EN When VEN ≥ 1.8V (@ VIN1 = 24V ), the internal circuitry is allowed to operate and thus enable , , VEN = 5V −5 ⎯ 5 IIL(EN) VIN1 = 24V , VEN = 0V ⎯ −3.5 ⎯ TSD VIN1


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PDF TB7110F TB7110F HSON8-P-0505-1 800mA
NTC 5D-9 THERMISTOR

Abstract: THERMISTOR NTC 5D-9 circuit diagram of 230vac to 12vdc converter LH25-10B12 LH05-10B12 LH15-10B48 LH20-10C0512-04 LH20-10D0512-06 LH10-10D0512-02 LH20-10B12
Text: /330mA 24V /230mA + 5V /500mA +12V/210mA +15V/160mA + 24V /100mA 5V /800mA 5V /600mA 5V /600mA 5V /600mA , (Vo2/Io2) - 5V /500mA -12V/210mA -15V/160mA - 24V /100mA ± 5V /100mA Ripple and Noise (Typ.) 50mV ±12V/100mA ±15V/80mA ± 24V /50mA 5V /100mA 12V/100mA 15V/100mA 24V /100mA 12V/900mA 15V/700mA 55X45X21.0mm 10W 24V /450mA + 5V /1000mA +12V/450mA +15V/350mA + 24V /200mA 5V /1200mA 5V , - 24V /200mA ± 5V /400mA ±12V/200mA ±15V/200mA ± 24V /100mA 5V /200mA 12V/200mA 15V/200mA 24V /200mA


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PDF IEC61000 UL60950 IEC60950, 264VAC 50/60Hz 80VAC 75VAC 70VAC 65VAC 60VAC NTC 5D-9 THERMISTOR THERMISTOR NTC 5D-9 circuit diagram of 230vac to 12vdc converter LH25-10B12 LH05-10B12 LH15-10B48 LH20-10C0512-04 LH20-10D0512-06 LH10-10D0512-02 LH20-10B12
2012 - AP Series Switch

Abstract: E55996 dc/dc converter 5v /2149f
Text: ) Current Ratings AP8: 5V DC/9mA, 12V DC/9mA, 24V DC/9mA, 12V AC/15mA, 24V AC/15mA AP1: 5V DC/9mA, 12V , /33mA, 12V DC/22mA, 24V DC/11mA Operating Temp. -20ºC to +55ºC Operating Humidity 45 to 85 , AP1 Series - Ø10mm Flat AP8M155-k AP8M111-k AP8M122-k 5V DC +/- 5% 12V AC/DC +/- 10% 24V AC/DC +/- 10% AP1M255-k AP1M211-k AP1M222-k 5V DC +/- 5% 12V AC/DC +/- 10% 24V AC/DC +/- 10 , AP6 w/ Adaptor or Converter AP2 Panel Thickness: 0.8 to 6 mm 7 11.5 Panel Cut-out


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PDF 8-16mm E55996 LR21451 24VDC 220/240VAC, 110VDC 800-262-IDEC AP Series Switch E55996 dc/dc converter 5v /2149f
2008 - ccd diode

Abstract: max8858 sdz-370n ccd
Text: = VPVSD = VPVZ = 2.4V , VPVM = 3.3V, VPVSU = VVSU = 5V , VEP = VGND = 0V, CREF = 0.22µF, TA = -40°C to , switching converter typically generates a 5V output voltage from a 1.5V to 4.2V battery input voltage, but , voltage. Low-voltage (down to 1V) synchronous-rectified step-down DC-DC converter (SD) with active , CCD imagers or negative LCD bias supplies. This converter can connect directly to two AA batteries , o Up to 85% Efficient, High-Voltage DC-DC Converters o Transformerless Inverting Converter with


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PDF MAX8858 T3255 MAX8858 ccd diode sdz-370n ccd
1998 - TTL 24v Level Converter

Abstract: UPL1V470MEH CTX100-2P UPL1C221MPH MIC4574BWM MIC4574BN MIC4574 MBRS130LT3 LM2574 1N5819
Text: 0.28 Figure 2. 8V­24V to 5V /0.5A Buck Converter Through Hole Figure 1. 6V­24V to 3.3V/0.5A Buck , Converter Through Hole April 1998 5 MIC4574 MIC4574 Micrel 5 6V to 24V SHDN SW , Figure 4. 6V­24V to 3.3V/0.5A Buck Converter Low-Profile Surface Mount 5 8V to 24V SHDN SW , Buck Converter Low-Profile Surface Mount 5 16V to 24V 10 C1 10µF 50V SHDN , DO3316P-104, DCR = 0.23 Figure 8. 8V­24V to 5V /0.5A Buck Converter Low-Cost Surface Mount 12V/0.5A


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PDF MIC4574 200kHz MIC4574 52kHz LM2574. 14-Pin TTL 24v Level Converter UPL1V470MEH CTX100-2P UPL1C221MPH MIC4574BWM MIC4574BN MBRS130LT3 LM2574 1N5819
Not Available

Abstract: No abstract text available
Text: efficiency: DC-DC Converter section η = 95% (typ.) (@VIN1 = 24V , VOUT1 = 17V, IOUT1 = 300mA) â , EN When VEN ≥ 1.8V (@ VIN1 = 24V ), the internal circuitry is allowed to operate and thus enable , 5V −5 ⎯ 5 IIL(EN) VIN1 = 24V , VEN = 0V ⎯ −15 ⎯ TSD VIN1 = 24V , VEN = 5V ⎯ 155 ⎯ °C VIN1 = 24V , VEN = 5V ⎯ 10 ⎯ °C IIN1 , Symbol Detection temperature Hysteresis TSD VIN1 = 24V , VEN = 5V VFB1 = 2V VIN1 = 24V , VEN


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PDF TB7109F TB7109F HSON8-P-0505-1 500mA 400mA
2008 - Not Available

Abstract: No abstract text available
Text: Converter The SU step-up DC-DC switching converter typically generates a 5V output voltage from a 1.5V to , Up to 85% Efficient, High-Voltage DC-DC Converters o Transformerless Inverting Converter with , Converters Low-voltage (down to 1V) synchronous-rectified step-down DC-DC converter (SD) with active , imagers or negative LCD bias supplies. This converter can connect directly to two AA batteries. o All , CHARACTERISTICS (VPVBST = VPVINV = VPVSD = VPVZ = 2.4V , VPVM = 3.3V, VPVSU = VVSU = 5V , VEP = VGND = 0V, CREF =


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PDF MAX8858 T3255 MAX8858
1997 - 16CV470GX

Abstract: CTX100-2P C55Y5U1H106Z flyback converter 12v to 18v TTL - 24v Level Converter UPL1V470MEH MIC4574 MBR160 capacitor 220uF 16V UUX1H470MNT1GS
Text: 5V 4-94 1997 MIC4574 Micrel Block Diagrams +7V to + 24V VIN Shutdown Enable , 2. 6V­40V to 3.3V/0.5A Buck Converter Note 3 Through Hole 3 8V to 24V 5 C1 47µF 35V , % Figure 7. 6V­36V to 3.3V/0.5A Buck Converter Note 3 Low-Profile Surface Mount 5V /0.5A C2 220µF , Low-Profile Surface Mount Figure 3. 8V­24V to 5V /0.5A Buck Converter Through Hole 3 AVX AVX , 5V /0.5A Buck Converter Low-Profile Surface Mount Although the MIC457x family is functional to


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PDF MIC4574 200kHz MIC4574 52kHz LM2574. 16CV470GX CTX100-2P C55Y5U1H106Z flyback converter 12v to 18v TTL - 24v Level Converter UPL1V470MEH MBR160 capacitor 220uF 16V UUX1H470MNT1GS
2013 - Not Available

Abstract: No abstract text available
Text: IOUT2 = 400mA(max.) High efficiency: DC-DC Converter section η = 95% (typ.) (@VIN1 = 24V , VOUT1 = 17V , 24V ⎯ ⎯ 0.5 IIH(EN) VIN1 = 24V , VEN = 5V −5 ⎯ 5 IIL(EN) VIN1 = 24V , VEN = 0V ⎯ −15 ⎯ TSD VIN1 = 24V , VEN = 5V ⎯ 155 ⎯ °C Hysteresis ΔTSD VIN1 = 24V , VEN = 5V ⎯ 10 ⎯ °C Detection voltage VUV VEN = , Hysteresis ΔVUV VEN = 5V ⎯ 0.7 ⎯ V VIN1 = 24V , VEN = 5V , IOUT1 = 0A Measured


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PDF TB7109F TB7109F HSON8-P-0505-1 500mA 400mA
Not Available

Abstract: No abstract text available
Text: - 24V to 5V /0.5A Buck Converter Through Hole Figure 1. 6V -2 4V to 3.3V/0.5A Buck Converter Through , - 24V to 5V /0.5A Buck Converter Low-Cost Surface Mount -o . R2 ►13.0k 1% C3 “ P 3 3 , 0.541 £2 Figure 5. 8V -2 4V to 5V /0.5A Buck Converter Low-Profile Surface Mount SHDN SW , Coilcraft Figure 9. 16V - 24V to 12V/0.5A Buck Converter Low-Cost Surface Mount 4-97 I Package , switch current • W ide 4V to 24V input voltage range • W ide 1.23V to 20V output voltage range â


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PDF MIC4574 200kHz MIC4574 52kHz LM2574. 14-Pin
2015 - Not Available

Abstract: No abstract text available
Text: DW30-□D05B3 DW30-□D09B3 DW30-□D12B3 DW30-□D15B3 DW30-□D24B3 5V (4.5~9V) 12V(9~18V) 24V (18~36V , 9V 12V 15V 24V 48V +3V3 + 5V +9V +12V +15V + 24V -3V3 - 5V -9V -12V -15V - 24V 4.5A , 3V3 5V 9V 12V 15V 24V 48V +3V3 + 5V +9V +12V +15V + 24V + 5V + 5V 9.0A 6.0A 3.3A 2.5A , 2.65A 1.65A 830mA 6.0A 4.0A 2.2A 1.65A 1.3A 830mA V 3V3 5V 9V 12V 15V 24V 48V +3V3 + 5V +9V +12V +15V + 24V -3V3 - 5V -9V -12V -15V - 24V 6.0A 4.0A 2.2A 1.65A 1.3A 830mA


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PDF DW-20W/30W 0W/30W DW30-â S05B3 S09B3 S12B3
1997 - 1A current to 0-5v voltage converter using LM358

Abstract: battery charger on LM358 24v to 5v 1A switching regulator 6v to 12v converter only dc charger by using buck boost regulator input 12v dc output -20 v to 20v dc 1A 5v input 5v output regulator LM358 internal block diagram 24V INPUT DC to 5V 1A OUTPUT DC buck converter 24v to 5V 1A SW regulator charger on LM358
Text: Through Hole Figure 5. 8V­24V to 5V /1A Buck Converter Low-Profile Surface Mount Figure 2. 8V­24V to 5V /1A Buck Converter Through Hole 5 16V to 24V 1 C1 68µF 63V SHDN SW , /1A Buck Converter Lower-Cost Surface Mount Figure 10. 8V­18V to ­ 5V /0.2A Buck-Boost Converter Through Hole Figure 9. 16V­24V to 12V/1A Buck Converter Lower-Cost Surface Mount Figure 11. 5V to ­ 5V , , and 5V fixed output versions or a 1.23V to 20V adjustable output version. Both versions are capable


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PDF MIC4575 200kHz MIC4575 52kHz LM2575. M9999-072909 1A current to 0-5v voltage converter using LM358 battery charger on LM358 24v to 5v 1A switching regulator 6v to 12v converter only dc charger by using buck boost regulator input 12v dc output -20 v to 20v dc 1A 5v input 5v output regulator LM358 internal block diagram 24V INPUT DC to 5V 1A OUTPUT DC buck converter 24v to 5V 1A SW regulator charger on LM358
2011 - SLF7055T-220M2R5-3PF

Abstract: 7109f
Text: : DC-DC Converter section = 95% (typ.) (@VIN1 = 24V , VOUT1 = 17V, IOUT1 = 300mA) Housed in a small , 1.8V (@ VIN1 = 24V ), the internal circuitry is allowed to operate and thus enable the switching , limit ILIM2(2) VIN1 = 24V , VEN = 5V VIN1 = 24V , VIN2 = 17V VFB2 = 2V, VEN = 5V VIN1= 24V , VIN2=17V, VOUT2=15V IOUT2 = 5mA to 400mA VIN1 = 24V , VIN2 = 17V VFB2 = 1V , VOUT2 = 12.5V VIN1 = 24V , VIN2 = 17V , , VEN = 5V VIN1 = 24V , VEN = 5V , VFB1 = 2V -1 1.215 320 0.75 1.215 0.7 5 400 0.9 1 VIN1-3 10


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PDF TB7109F TB7109F 500mA 400mA SLF7055T-220M2R5-3PF 7109f
c4574

Abstract: No abstract text available
Text: , ESR = 0.160 1N5819 RCH875-101K, DCR = 0.280 Figure 3. 8V-24V to 5V /0.5A Buck Converter Through , , ESR = 0.160 MBR160 RCH875-101K, DCR = 0.280 Figure 4. 8V-40V to 5V /0.5A Buck Converter Note3 , 5V /0.5A Buck Converter Low-Profile Surface Mount Although the MIC457x family is functional to , D03316P-104, DCR = 0.230 Figure 14. 8V-36V to 5V /0.5A Buck Converter Note 3 Lower-Cost Surface Mount , DQ3316P-104, DCR = 0.230 Figure 13. 8V-24V to 5V /0.5A Buck Converter Lower-Cost Surface Mount


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PDF MIC4574 200kHz MIC4574 52kHz LM2574. V-24V c4574
2001 - 5r4 rectifier

Abstract: No abstract text available
Text: 19-1975; Rev 1; 4/01 24V , 600mA Internal Switch, 100% Duty Cycle, Step-Down Converter General , to VIN from supply voltages as high as 24V . An internal current-limited 0.4 MOSFET delivers load , step-down controllers, which drive an external P-channel MOSFET to deliver up to 20W. o Fixed 5V or Adjustable Output o +4.5V to + 24V Input Voltage Range o Up to 600mA Output Current o Internal 0.4 P-Channel , , Step-Down Converter MAX1776 ABSOLUTE MAXIMUM RATINGS IN, SHDN, ILIM, ILIM2 to GND


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PDF 600mA MAX1776 600mA. 240mV 600mA) 200kHz) MAX1776 5r4 rectifier
2003 - D75C-646CY-100M

Abstract: D75C-646CY-220M MAX1776 MAX1776EUA MAX1627 MAX1626 D75F D75C CDRH6D28-100NC 817Cy
Text: 19-1975; Rev 2; 7/03 24V , 600mA Internal Switch, 100% Duty Cycle, Step-Down Converter Features o Fixed 5V or Adjustable Output o 4.5V to 24V Input Voltage Range o Up to 600mA Output Current o , PC board space and component costs. INPUT 4.5V TO 24V L1 IN CIN OUTPUT 5V LX D1 , from 1.25V to VIN from supply voltages as high as 24V . An internal current-limited 0.4 MOSFET delivers , . MAX1776 24V , 600mA Internal Switch, 100% Duty Cycle, Step-Down Converter ABSOLUTE MAXIMUM RATINGS IN


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PDF 600mA MAX1776EUA MAX1776 D75C-646CY-100M D75C-646CY-220M MAX1776 MAX1776EUA MAX1627 MAX1626 D75F D75C CDRH6D28-100NC 817Cy
1997 - 1A current to 0-5v voltage converter using LM358

Abstract: current to voltage converter using LM358 diagram Converter 24v to 12v charger on LM358 battery charger on LM358 24v to 5v 1A switching regulator 5PIN BUCK LM3585 dc charger by using buck boost regulator input 12v dc output -20 v to 20v dc 24v charger
Text: . 6V­24V to 3.3V/1A Buck Converter Through Hole Figure 5. 8V­24V to 5V /1A Buck Converter Low-Profile Surface Mount Figure 2. 8V­24V to 5V /1A Buck Converter Through Hole 5 16V to 24V 1 C1 , . MIC4575 Figure 8. 8V­24V to 5V /1A Buck Converter Lower-Cost Surface Mount Figure 10. 8V­18V to ­ 5V , Surface Mount Figure 11. 5V to ­ 5V /0.3A Buck-Boost Converter Through Hole 5 VIN 8V to 18V 1 , , and 5V fixed output versions or a 1.23V to 20V adjustable output version. Both versions are capable


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PDF MIC4575 200kHz MIC4575 52kHz LM2575. M9999-010207 1A current to 0-5v voltage converter using LM358 current to voltage converter using LM358 diagram Converter 24v to 12v charger on LM358 battery charger on LM358 24v to 5v 1A switching regulator 5PIN BUCK LM3585 dc charger by using buck boost regulator input 12v dc output -20 v to 20v dc 24v charger
cc3-2403ss-e

Abstract: X02A
Text: 100 Output current (%) Condition Ta : -40oC TRM: Short-circuited to -Vout. Vin=18V Vin= 24V , Output current (%) Condition Ta : 25oC TRM: Short-circuited to -Vout. Vin=18V Vin= 24V Vin , ) Condition Ta : 85oC TRM: Short-circuited to -Vout. Vin=18V Vin= 24V Vin=36V 3.78 Output , Iout : 100% TRM: Short-circuited to -Vout. Vin=18V Vin= 24V Vin=36V 3.78 Output voltage(V , Vin : 24V Ta : 25oC TRM: Short-circuited to -Vout. Iout : 0% 0V Vout 0V Vin Vin10V


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PDF CC3-2403SS-E TRSC-1583-1 ----------------------C3-2403SS-E cc3-2403ss-e X02A
2001 - 646CY-100M

Abstract: toko mosfet switch MAX1776EUA MAX1776 MAX1627 MAX1626 D75F D75C CDRH6D28-100NC CDRH4D28-101
Text: 19-1975; Rev 1; 10/01 24V , 600mA Internal Switch, 100% Duty Cycle, Step-Down Converter Features Fixed 5V or Adjustable Output 4.5V to 24V Input Voltage Range Up to 600mA Output Current , PC board space and component costs. INPUT 4.5V TO 24V L1 IN CIN OUTPUT 5V LX D1 , from 1.25V to VIN from supply voltages as high as 24V . An internal current-limited 0.4 MOSFET delivers , . MAX1776 24V , 600mA Internal Switch, 100% Duty Cycle, Step-Down Converter ABSOLUTE MAXIMUM RATINGS IN


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PDF 600mA MAX1776EUA MAX1776 646CY-100M toko mosfet switch MAX1776EUA MAX1776 MAX1627 MAX1626 D75F D75C CDRH6D28-100NC CDRH4D28-101
2003 - Not Available

Abstract: No abstract text available
Text: minimize PC board space and component costs. INPUT 4.5V TO 24V L1 IN CIN OUTPUT 5V LX D1 , 19-1975; Rev 2; 7/03 24V , 600mA Internal Switch, 100% Duty Cycle, Step-Down Converter Features o Fixed 5V or Adjustable Output The MAX1776 has a low 15µA quiescent current to improve , 4.5V to 24V Input Voltage Range o Up to 600mA Output Current o Internal 0.4Ω P-Channel MOSFET o , MAX1776 high-efficiency step-down converter provides an adjustable output voltage from 1.25V to VIN from


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PDF 600mA MAX1776 200kHz) MAX1626/ MAX1627 MAX1776
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