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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LT1301CS8 Linear Technology LT1301 - Micropower High Efficiency 5V/12V Step-Up DC/DC Converter for Flash Memory; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1301CS8#TR Linear Technology LT1301 - Micropower High Efficiency 5V/12V Step-Up DC/DC Converter for Flash Memory; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1301IS8 Linear Technology LT1301 - Micropower High Efficiency 5V/12V Step-Up DC/DC Converter for Flash Memory; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1301CS8#PBF Linear Technology LT1301 - Micropower High Efficiency 5V/12V Step-Up DC/DC Converter for Flash Memory; Package: SO; Pins: 8; Temperature Range: 0°C to 70°C
LT1301IS8#TR Linear Technology LT1301 - Micropower High Efficiency 5V/12V Step-Up DC/DC Converter for Flash Memory; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C
LT1301IS8#TRPBF Linear Technology LT1301 - Micropower High Efficiency 5V/12V Step-Up DC/DC Converter for Flash Memory; Package: SO; Pins: 8; Temperature Range: -40°C to 85°C

Step-up 12V to 19V 1.5A Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
MAX734C/D

Abstract: No abstract text available
Text: to 12V %N 0.0035 %/mA Load Regulation ILOAD = 0mA to 100mA V+ = 5V, Iload = 100mA , by pulsing SHDN while supplying 12V to a small load. See General Description. 4-106 ✓H XI , ADVANCE INFORMATION All Information In this data sheet is prelim inary and subject to change. 7/92 + 12V , 120mA Flash M em ory Program m ing Supply _ G eneral D escription Features The M AX734 Is a + 12V -output, step-up, DC-DC sw itch­ m ode regulator. It delivers a


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PDF 120mA AX734 MAX734 500mA 500uA MAX734C/D
2000 - Step-up 12V to 19V 1.5A

Abstract: MAX1758 max1763 linear regulator for 240v ac to 3.3v voltage MAX1797 equivalent MAX1852 maxim, analog design guide, interface MAX1775 MAX1774 28-QSOP
Text: and reverse battery protection. INPUT 2.5V TO 12V 15 1 10x LOWER! 10 3 IN , 2.5V to 12V Inputs · Small 1µF Output Capacitors NEW 0 MAX1726 2µA MAX8880/MAX8881 , 2 1 INPUT UP TO 12V MULTICELL STACKS 3 MAX8881 4 0 1µF FB POK SHDN , %-Accurate Output Voltages · 2.5V to 12V Input Range · Small 1µF Output Capacitors OUT IN 5 ON , > 85% Peak Efficiency · 50mA Guaranteed Output Current · Fixed 1.8V or 1.9V Output Voltage · Up to


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PDF 25MHz MAX1774 MAX1774 Step-up 12V to 19V 1.5A MAX1758 max1763 linear regulator for 240v ac to 3.3v voltage MAX1797 equivalent MAX1852 maxim, analog design guide, interface MAX1775 28-QSOP
Step-up 12V to 19V 1.5A

Abstract: FP6797 simple 12v to 19v converter TSSOP-28
Text: CH1: VLOGIC CH3: VLOGIC VIN= 12V , VLOGIC=3.3V CO=22uFx2, FREQ=H IOUT =100mA to 1.3A CH2: VGL , VIN to 19V with external resistive divider. The other is step down converter using internal N-MOS to , Monitor TFT LCD Panels Description The FP6797 offers a compact power supply solution to provide all , a boost converter to provide the source voltage VS and a step-down converter to provide the logic , output voltages VGH and VGL to bias the TFT-LCD. Both step-up and step-down converters, as well as the


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PDF FP6797 FP6797 FP6797-Preliminary TSSOP-28 MO-153-F. Step-up 12V to 19V 1.5A simple 12v to 19v converter
2009 - tl2431

Abstract: led driver SOT23 6pin 1.5V 1.2V sp34063 mother board power soft start reset circuit diming Low Power PWM controller 6-pin Regulated Charge Pump for portable dvd china spx2431 PWM controller 6-pin led driver SOT23 6pin boost
Text: and minimal circuit board area. In an effort to respect the environment and reduce the use of , transition to green/halogen free devices is in progress. Exar power management products can be used as stand alone solutions but are designed to be used together to create a complete power management , Switching Controllers Supervisors Step-down, Step-up 1V to 5V System Monitors Linear LDOs & Regulators Power Switches Up to 5A, Single/Dual Single/Dual USB Switches LED LIGHTING Step-down


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PDF XRPWRMGMTBRO-0309 tl2431 led driver SOT23 6pin 1.5V 1.2V sp34063 mother board power soft start reset circuit diming Low Power PWM controller 6-pin Regulated Charge Pump for portable dvd china spx2431 PWM controller 6-pin led driver SOT23 6pin boost
tl2431

Abstract: sp34063 XRP7657 TL243 Step-up 12V to 19V 5A SP6260 XRP7740 XRP29302 SP2525A SP6265
Text: instrumentations. From DC to DC general purpose point-of-load (PoL) power conversion to system controls and power , , Exar's power solutions are trusted everyday to provide an unprecedented combination of high efficiency , time to market. POWER MANAGEME NT PORTFOLIO POWER CONVERSION SYSTEM CONTROL S · Switching , Step-down · Linear LDOs and Voltage Regulators Up to 5A, Single/Dual LE D LIGHTING · Step Up/Down , Precise and Stable References · Supervisors 1V to 5V System Monitors · Power Switches Single/Dual USB


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PDF XRP7704 XRP7708 XRP7740 tl2431 sp34063 XRP7657 TL243 Step-up 12V to 19V 5A SP6260 XRP7740 XRP29302 SP2525A SP6265
2005 - Not Available

Abstract: No abstract text available
Text: V DCIN = 0 0.1 1 VBATT = 2V to 19V 300 500 5.3 5.4 5.5 V 70 150 , VBATT = 2V to 19V LDO Output Voltage No load LDO Undervoltage Lockout REFERENCE REFIN Input , MAX1870A accurately charges two to four lithiumion (Li+) series cells at greater than 4A. A programmable , MAX1870A provides analog outputs to monitor the current drawn from the AC adapter and charge current. A , ) package and is specified over the -40°C to +85°C extended temperature range. The MAX1870A evaluation


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PDF MAX1870A
2005 - Step-up 12V to 19V 5A

Abstract: SCHEMATIC DIAGRAM adapter 12v 5A Step-up 12V to 19V 1.5A MAX1870A NICD charger 18V datasheet MAX1870AETJ MAX1870AEVKIT "67A" 6pin package SCHEMATIC DIAGRAM adapter 12v 2a
Text: DCIN = 0 0.1 1 VBATT = 2V to 19V 300 500 5.3 5.4 5.5 V 70 150 mV , MAX1870A accurately charges two to four lithiumion (Li+) series cells at greater than 4A. A programmable , MAX1870A provides analog outputs to monitor the current drawn from the AC adapter and charge current. A , ) package and is specified over the -40°C to +85°C extended temperature range. The MAX1870A evaluation kit (MAX1870AEVKIT) is available to help reduce design time. Features Patented Step-Up


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PDF MAX1870A Step-up 12V to 19V 5A SCHEMATIC DIAGRAM adapter 12v 5A Step-up 12V to 19V 1.5A NICD charger 18V datasheet MAX1870AETJ MAX1870AEVKIT "67A" 6pin package SCHEMATIC DIAGRAM adapter 12v 2a
2005 - Step-up 12V to 19V 5A

Abstract: "67A" 6pin package Step-up 12V to 19V 1.5A MAX1870A MAX1870AETJ MAX1870AEVKIT CD3M1 marking codes fairchild SUPERSOT
Text: DCIN = 0 0.1 1 VBATT = 2V to 19V 300 500 5.3 5.4 5.5 V 70 150 mV , MAX1870A accurately charges two to four lithiumion (Li+) series cells at greater than 4A. A programmable , MAX1870A provides analog outputs to monitor the current drawn from the AC adapter and charge current. A , ) package and is specified over the -40°C to +85°C extended temperature range. The MAX1870A evaluation kit (MAX1870AEVKIT) is available to help reduce design time. Features Step-Up/Step-Down


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PDF MAX1870A Step-up 12V to 19V 5A "67A" 6pin package Step-up 12V to 19V 1.5A MAX1870AETJ MAX1870AEVKIT CD3M1 marking codes fairchild SUPERSOT
2004 - Step-up 12V to 19V 5A

Abstract: Step-up 12V to 19V 1.5A SCHEMATIC DIAGRAM adapter 12v 5A MAX1870A MAX1870AETJ MAX1870AEVKIT
Text: 0 DCIN = 0 0.1 1 VBATT = 2V to 19V 300 500 LDO Output Voltage No load LDO , Point VREF falling 3.9 V 3.6 V BATT Input Bias Current VBATT = 2V to 19V LDO , MAX1870A accurately charges two to four lithiumion (Li+) series cells at greater than 4A. A programmable , MAX1870A provides analog outputs to monitor the current drawn from the AC adapter and charge current. A , ) package and is specified over the -40°C to +85°C extended temperature range. The MAX1870A evaluation kit


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PDF MAX1870A MO220, T2855-1, T2855-3 T2855-6. Step-up 12V to 19V 5A Step-up 12V to 19V 1.5A SCHEMATIC DIAGRAM adapter 12v 5A MAX1870AETJ MAX1870AEVKIT
1995 - 1E225ZY5U-C203

Abstract: Step-up 12V to 19V 1.5A DC053A CD43-4R7KC PM20 Package PTH hole diameter vs lead resistor PM20-1R0K MBRS130 LT1377 CR32-202J-T
Text: DEMO MANUAL DC053A NO-DESIGN DC053A DEMO MANUAL SWITCHER LT1372/LT1377 5V to 12V Step-Up , EQUIVALENT 4. PLACE C7 AT THE LOAD DC053A F01 Figure 1. Switching Regulator 5V to 12V , 0.25A; 500kHz , : Increase L1 to 10µH for VIN < 4.75V or to 15µH for VIN < 3.3V. Note 3: To reduce output ripple voltage, change C7 to a 2.2µF ceramic chip capacitor (Tokin 1E225ZY5U-C203). Note 4: Single inductor step-up converters have a direct path from the input supply to the output, and therefore draw some supply current


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PDF DC053A LT1372/LT1377 DC053A LT1377 PC401 1E225ZY5U-C203 Step-up 12V to 19V 1.5A CD43-4R7KC PM20 Package PTH hole diameter vs lead resistor PM20-1R0K MBRS130 LT1377 CR32-202J-T
2014 - XC6419

Abstract: XBP-101 XC9257
Text: 1.2V to 12V . High efficiency over a wide load range is achieved by scaling down the switching , lockout (UVLO) and soft start contribute to the safe operation of the application. A flag function is provided to allow monitoring of the switch state. The flag pin is an Nch open drain output which outputs , over current conditions on USB VBUS Enable/disable power to downstream ports Bus Powered Hubs , APPLICATION HOT-PLUG APPLICATIONS Hot-plug applications where modules or PCBs are required to be removed


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PDF XC8107/08/09 XCL213/14 XC9270/71 XCL211/12 XC9252 XCL101 XC9248 XC9306 XC9260/61 XC9131/35/36 XC6419 XBP-101 XC9257
8582

Abstract: No abstract text available
Text: ) 1.5MHz, 5V to ± 12V 4.7µH 4.7µF 215k SWA1 VIN1 SWB1 LT8582 10µF 6.49k 53.6k , Values Given Are Typical Values for a 1.5MHz, 5V to 12V Boost Each channel of the LT8582 can be , 19V VOUT 5V 1A(VIN > 12V ) LT8582 FBX CHx SHDN GATE VIN 100k RT 107K Choose VIN , Are Typical Values for a 700kHz, 3V - 19V to 5V SEPIC Topology Using Coupled Inductors Solve , Converter – The Component Values Given Are Typical Values for a 1.5MHz, 5V to – 12V Inverting Topology


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PDF LT8582 LT1935 LT1310 LT3436 800kHz, TSSOP-16E 8582f 8582
2012 - MSD1260-153

Abstract: XAL6060-472ML LT8582 lt8582 solder LT8582EDKD SC 8582 Schottky Diode 40V 15A dual ic fairchild LT8582E LT3479 8582
Text: ) 1.5MHz, 5V to ± 12V 4.7H 4.7F SWB1 SHDN1 PG1 90 6.04k 130k GATE1 LT8582 VC1 10F , to 12V Boost Each channel of the LT8582 can be configured as a boost converter as in Figure 5 , Converter Component Selection ­ Coupled or Uncoupled Inductors C1 2.2F L1 6.8H VIN 3V TO 19V , > 12V ) Step 2: DC Choose VIN, VOUT and fOSC to calculate equations below. DC L2 6.8H SWA , The Component Values Given Are Typical Values for a 700kHz, 3V - 19V to 5V SEPIC Topology Using


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PDF LT8582 270mV 24-Pin LT1935 LT1310 LT3436 800kHz, TSSOP-16E 8582f MSD1260-153 XAL6060-472ML LT8582 lt8582 solder LT8582EDKD SC 8582 Schottky Diode 40V 15A dual ic fairchild LT8582E LT3479 8582
SP6654

Abstract: SPX29152
Text: 18 How to Buy: Global , , networking equipment and medical and industrial instrumentation. From general purpose DC to DC power conversion to system controls and power monitoring solutions, Exar’s power management portfolio offers a , telemetry. These programmable power solutions include fully integrated modules to configurable universal , everyday to provide an unprecedented combination of high efficiency, high performance, board space


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mi809

Abstract: smd LDO SOT-25 0.9V - 1.5V led driver p-channel mosfet with diode sot89-5 smd transistor 6B SOD 23 5.6v XC6210B302 XC9226 3V REGULATOR SOT89 smd torex micro smd package regulator
Text: . 90% 1.2V ~ 5.0V - 1.2V to - 5.0V 310µA typ. 120kHz Standby current 2.0µA SOT26 , XC221A1200MR Rail to Rail CMOS Op Amp 550kHz 0.5V/uS 100µA typ. 1.2V ~ 10V (single cell) + , efficiency (Typ 92%) and a stable power supply with output currents of up to 500mA achievable using only a , capacitors can be used to minimise PCB area. and the XC9227 series can be manually be switched between , optimized. During standby, all circuits are shutdown to reduce current consumption to as low as 1.0µA or


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PDF 500mA XC9225/26/27 XC9228/29 XC9223/24 XC9116 XC9119 XCM504 XC6207 XC6210 mi809 smd LDO SOT-25 0.9V - 1.5V led driver p-channel mosfet with diode sot89-5 smd transistor 6B SOD 23 5.6v XC6210B302 XC9226 3V REGULATOR SOT89 smd torex micro smd package regulator
FR9889

Abstract: FR9887 FR9886 FR9801 FR9882 fr9888 fr9884 FR9723 FR9886D FP6861C
Text: Brightness Control Eff. (%) Max Freq.(Hz) OVP Package TO -252-5L SOP-8 (EP) SOP-8 SOP-16 SOP-16 (EP) SOP 16 , ADJ Upon MOSFET Power Serial up to Vin / 2 voltage Boost / Buck PWM or Linear 90 ADJ , 2.7~4.5 5 8 Charge Pump to fixed 5V Vout - 90 2M - Flashlight LED Driver Part , 2500 1 V V SOP-8 (EP) FR9888B HV Sync. 4.5~23 0.8~ 19V 3500 96 340 , Current (Max.) VIN (V) Control Volt. Output Offset Volt. Load Regulation Package TO -252-5 TO -263-5 SOP


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PDF 2012-Q3 FP6711 MSOP-10 OT-23-5 OT-23-3 FP6731 FP6733 25Ohm OT-23-6 FR9889 FR9887 FR9886 FR9801 FR9882 fr9888 fr9884 FR9723 FR9886D FP6861C
2007 - LTC3873-5

Abstract: isolated sepic converter CTX02-15242 BH510-1009 Step-up 12V to 19V 1.5A LTC3873I-5 LTC3873E-5 12015 "so8" 12v to 220 v transformer turns ratio dc to dc 12v to 19v converter circuit design
Text: amplifier compensation point. Nominal voltage range for this pin is 0.7V to 1.9V . VFB (Pin 3/Pin 2): This , the latch. The divided-down output voltage is compared to an internal 1.2V reference by the error , R2 VO = 1.2V · 1+ R1 VIN RB resistor (RSL) connecting the SW pin to the current sense , 38735 TA04 9V to 15V VIN, 12V VOUT SEPIC Converter T1 4.56H BH510-1009 BH ELECTRONICS 1 4 , , flyback or SEPIC DC/DC converters designed to drive an N-channel MOSFET for high input and output


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PDF LTC3873-5 200kHz LTC3805 LT3825 LT3837 LTC3873 38735fb LTC3873-5 isolated sepic converter CTX02-15242 BH510-1009 Step-up 12V to 19V 1.5A LTC3873I-5 LTC3873E-5 12015 "so8" 12v to 220 v transformer turns ratio dc to dc 12v to 19v converter circuit design
12v 5v converter

Abstract: d 1047 IRDCIP1206-B IRF C20 AN-1028 AN-1030 TP10
Text: graphs, thermal images, and waveforms. Figures 25­35, and Table 1 are provided to engineers as design , based on operation at an input voltage of 12V and at a switching frequency of 300 kHz. Changes from , filters in order to meet the user's specific application requirements. Refer to the iP1206 datasheet User , Guide Initial Settings: VOUT1 is set to 2.5V, but can be adjusted from 0.8V to 5.5V by changing the values of R5 and R6 according to the following formula: R5 = R6 = (10.0k * 0.8) / (VOUT - 0.8) VOUT2


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PDF IRDCiP1206-B IRDCiP1206-B: iP1206 200LFM iP1206 AN-1047: 12v 5v converter d 1047 IRDCIP1206-B IRF C20 AN-1028 AN-1030 TP10
1999 - 24v 12v 10A regulator

Abstract: 24v 12v 20A regulator CD4047 100KHZ CIRCUITS Step-up 12V to 36V 300mA cd4047 ic IC CD4047 CD4047 equivalent ic IRFZ44 "pin compatible" alternator dual voltage 12V 24V 24V to 12V REGULATOR IC
Text: to Low Voltage s Head Lamps Neon Lighting s Always-On TO 3V, 5V, 12V , ETC. LTC1149 , ALTERNATOR 28V OR 42V STARTER LARGE DC/DC & CHARGER 14V 28V/42V TO 14V LT1339 12V STEP-UP , Collis icropowe ation Syste 4 Batte V to 18V ms ry to Co Conversio nstan t 12V n M lators , ZTX749 20 RSENSE 1500µF 63V ×4 EFFICIENCY (%) 1N914 12V 42V to 5V Efficiency Curve , (0.300"), T = TO -220, 3 Automotive 12V , 24V and 42V Systems DC/DC Conversion Solutions ­ InfoCard


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PDF 4V/36V LTC1149 LT1074HV/LT1076HV LT1676/LT1776 LT1680 LT1070/71/72 LT1170/71/72 LT1080 LT1161 LT1170/1/2 24v 12v 10A regulator 24v 12v 20A regulator CD4047 100KHZ CIRCUITS Step-up 12V to 36V 300mA cd4047 ic IC CD4047 CD4047 equivalent ic IRFZ44 "pin compatible" alternator dual voltage 12V 24V 24V to 12V REGULATOR IC
2007 - 8805 VOLTAGE REGULATOR

Abstract: MP3410 8810 MOSFET MP3410DJ-LF
Text: internal 1.2V reference to generate the error voltage. The current-mode regulator compares the error , divider ratio. The voltage divider drops the output voltage to the 1.2V feedback voltage. Use a 100k , the 1.2V feedback voltage and R2=100k. Selecting the Input Capacitor An input capacitor is required to , with output to input disconnect, inrush current limiting and internal soft-start. It includes an error , greatly improves efficiency). The output disconnect feature allows the output to be completely isolated


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PDF MP3410 500KHz MP3410 MO-193, 8805 VOLTAGE REGULATOR 8810 MOSFET MP3410DJ-LF
2006 - Not Available

Abstract: No abstract text available
Text: LX2 to GND2 .-0.3V to + 19V DRVN, LX1, GATE , VSUPP = 12V , VOUT1 = +3.3V, VSRC = 28V, GND1 = GND2 = GNDP = GND = 0, IREF = 0, TA = 0°C to +85°C. , VINL = VSUPP = 12V , VOUT1 = +3.3V, VSRC = 28V, GND1 = GND2 = GNDP = GND = 0, IREF = 0, TA = 0°C to , VINL = VSUPP = 12V , VOUT1 = +3.3V, VSRC = 28V, GND1 = GND2 = GNDP = GND = 0, IREF = 0, TA = 0°C to , = VSUPP = 12V , VOUT1 = +3.3V, VSRC = 28V, GND1 = GND2 = GNDP = GND = 0, IREF = 0, TA = 0°C to


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PDF MAX8728 MAX8728
1998 - isolated converter using SG3524

Abstract: apple ccfl inverter dc 12v sg3524 battery charger S325 regulator Full-bridge SG3524 sg3524 PWM dc to dc boost regulator Adjustable resistance ST-5 sg3524 PWM MOTOR mosfet FET SOT MARKING CODE S5 15 AMP ADJUSTABLE REGULATOR
Text: Works Down to 1V Input, Adjustable & Fixed 5V, 12V Outputs 2A Step-Down Switching Regulator 2A , Down to 2V Input, Adjustable & Fixed 5V, 12V Outputs Micropower Switching Regulator Adjustable Output µPower DC/DC Converter Works Down to 2V Input, Adjustable & Fixed 5V, 12V Outputs µPower DC/DC , Switching Frequency, Adjustable & Fixed 5V, 12V Outputs µPower DC/DC Converter Works Down to 1V Input, Adjustable & Fixed 5V, 12V Outputs µPower Switching Regulator Works Down to 2V Input, Adjustable & Fixed 5V


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PDF LTC1340C LTC1422C LTC1422I LTC1473C LTC1473I LTC1479C LTC1479I LTC1555C LTC1555I LTC1556C isolated converter using SG3524 apple ccfl inverter dc 12v sg3524 battery charger S325 regulator Full-bridge SG3524 sg3524 PWM dc to dc boost regulator Adjustable resistance ST-5 sg3524 PWM MOTOR mosfet FET SOT MARKING CODE S5 15 AMP ADJUSTABLE REGULATOR
2006 - MP1543

Abstract: 500KHZ EV1543DJ-01A MP1543DJ TSOT23-5 8810 MOSFET
Text: the internal 1.2V reference to generate the error voltage. The current-mode regulator compares the , voltage divider drops the output voltage to the 1.2V feedback voltage. Use a 100k resistor for R2 of the , frequency, current-mode step-up converter with output to input disconnect, inrush current limiting and , allows the output to be completely isolated from the input in shutdown mode. · · · · · · · · , voltage up to 6V and provides up to 400mA from a 2-cell AA with a 3.3V output. Over 90% Efficiency


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PDF MP1543 500KHz MP1543 MO193 EV1543DJ-01A MP1543DJ TSOT23-5 8810 MOSFET
2004 - max 628 application sheet buck boost converter

Abstract: CDRH6D38NP-100 LT1941 LT1941EFE SIMPLE SWITCHER 3A Step-up negative Voltage Reg Dropping Diode 200A 16V
Text: V VC1 to Switch Current Gain 5 Switch 1 Current Limit (Note 3) VIN = 12V , VBOOST1 , SEPIC converter and has a 1.5A power switch. All three converters are synchronized to a 1.1MHz , Wide Input Range: 3.5V to 25V Three Switching Regulators with Internal Power Switches: 3A Step-Down , advantages by permitting the use of small inductors and ceramic capacitors, leading to a very small triple , , result in low, predictable output ripple. With its wide input voltage range of 3.5V to 25V, the LT1941


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PDF LT1941 LT3463 250mA DFN10 LT3464 1941fb max 628 application sheet buck boost converter CDRH6D38NP-100 LT1941 LT1941EFE SIMPLE SWITCHER 3A Step-up negative Voltage Reg Dropping Diode 200A 16V
2004 - transistor a 1941

Abstract: CR43-3R3 panasonic inverter vf 200 CD73-100 LT1941 LT1941EFE SIMPLE SWITCHER 3A Step-up negative Voltage Reg MMSD914LT CD73
Text: V VC2 to Switch Current Gain 3.6 A/V Switch 2 Current Limit (Note 3) VIN = 12V , limits the maximum input voltage to ~14V with VOUT = 1.8V and ~ 19V with VOUT = 2.5. Note that this is a , SEPIC converter and has a 1.5A power switch. All three converters are synchronized to a 1.1MHz , Input Range: 3.5V to 25V Three Switching Regulators with Internal Power Switches: 3A Step-Down, 2A , use of small inductors and ceramic capacitors, leading to a very small triple output solution. The


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PDF LT1941 LT3463 250mA DFN10 LT3464 1941fa transistor a 1941 CR43-3R3 panasonic inverter vf 200 CD73-100 LT1941 LT1941EFE SIMPLE SWITCHER 3A Step-up negative Voltage Reg MMSD914LT CD73
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