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LOWNOISESPLITRAILNONISO-BOOST-REF Texas Instruments Low Noise Split Rail Non-Isolated Boost + - 12V Power Supply
LM3444BOOST-REF Texas Instruments LM3444 MR16 Boost Reference Design for Non-Dimming & Dimming LED Applications
430BOOST-CAPTOUCH1 Texas Instruments Capacitive Touch BoosterPack
TPS5430BUCKBOOST Texas Instruments TPS5430 Inverting Buck Boost, 15Vin, -5Vout at 2.25A
NCP1607BOOSTGEVB ON Semiconductor BOARD EVAL NCP1607 100W BOOST
NCP1608BOOSTGEVB ON Semiconductor BOARD EVAL NCP1608 100W BOOST

"10a" boost converter

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: 6.0 V Input Voltage Range Vs Output Voltage up to 18 V ­ 1%-Accurate Boost Converter With 4.5 A , not required, the CTRL pin can be tied high. L1 10uH Vin 2.5V to 6.0V Vs 15V/1.0A Boost , ADLY and GDLY. The device consists of a boost converter to provide the source voltage Vs operating at , includes safety features like overvoltage protection of the boost converter, short circuit protection of , = 1.5 V MAIN BOOST CONVERTER Vs Vs Output voltage range VFB Feedback regulation voltage Texas Instruments
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TPS65165 boost converter 24 v to 48v 1kw TFT LCD timing controller T-con SLUA271 DO3316P-103 330nF capacitor EFFECTIVE SLVS723A
Abstract: Vin 2.5V to 6.0V Vs 15V/1.0A Boost Converter C2P Positive Charge Pump x2 or x3 D , '¢ 2.5 V to 6.0 V Input Voltage Range Vs Output Voltage up to 18 V â'" 1%-Accurate Boost Converter With , selecting the capacitor values connected to ADLY and GDLY. The device consists of a boost converter to , boost converter, short circuit protection of VGH and VGL as well as thermal shutdown. ORDERING , package. ADLY 14 O Adjustable EN high-to-start-up delay of the main boost converter, negative Texas Instruments
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Abstract: Vin 2.5V to 6.0V Vs 15V/1.0A Boost Converter C2P Positive Charge Pump x2 or x3 D , '¢ 2.5 V to 6.0 V Input Voltage Range Vs Output Voltage up to 18 V â'" 1%-Accurate Boost Converter With , selecting the capacitor values connected to ADLY and GDLY. The device consists of a boost converter to , boost converter, short circuit protection of VGH and VGL as well as thermal shutdown. ORDERING , , IHVS = 100 ÂuA IRHVS RHVS leackage current HVS = low, VRHVS = 1.5 V MAIN BOOST CONVERTER Vs Texas Instruments
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ISO/TS16949
Abstract: Vin 2.5V to 6.0V Vs 15V/1.0A Boost Converter C2P Positive Charge Pump x2 or x3 D , '¢ 2.5 V to 6.0 V Input Voltage Range Vs Output Voltage up to 18 V â'" 1%-Accurate Boost Converter With , selecting the capacitor values connected to ADLY and GDLY. The device consists of a boost converter to , boost converter, short circuit protection of VGH and VGL as well as thermal shutdown. ORDERING , package. ADLY 14 O Adjustable EN high-to-start-up delay of the main boost converter, negative Texas Instruments
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Abstract: 6.0 V Input Voltage Range Vs Output Voltage up to 18 V ­ 1%-Accurate Boost Converter With 4.5 A , not required, the CTRL pin can be tied high. L1 10uH Vin 2.5V to 6.0V Vs 15V/1.0A Boost , ADLY and GDLY. The device consists of a boost converter to provide the source voltage Vs operating at , includes safety features like overvoltage protection of the boost converter, short circuit protection of , = 1.5 V MAIN BOOST CONVERTER Vs Vs Output voltage range VFB Feedback regulation voltage Texas Instruments
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TPS65165RSBR
Abstract: 6.0 V Input Voltage Range Vs Output Voltage up to 18 V ­ 1%-Accurate Boost Converter With 4.5 A , not required, the CTRL pin can be tied high. L1 10uH Vin 2.5V to 6.0V Vs 15V/1.0A Boost , ADLY and GDLY. The device consists of a boost converter to provide the source voltage Vs operating at , includes safety features like overvoltage protection of the boost converter, short circuit protection of , = 1.5 V MAIN BOOST CONVERTER Vs Vs Output voltage range VFB Feedback regulation voltage Texas Instruments
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lcd t-con price
Abstract: 6.0 V Input Voltage Range Vs Output Voltage up to 18 V ­ 1%-Accurate Boost Converter With 4.5 A , not required, the CTRL pin can be tied high. L1 10uH Vin 2.5V to 6.0V Vs 15V/1.0A Boost , ADLY and GDLY. The device consists of a boost converter to provide the source voltage Vs operating at , includes safety features like overvoltage protection of the boost converter, short circuit protection of , = 1.5 V MAIN BOOST CONVERTER Vs Vs Output voltage range VFB Feedback regulation voltage Texas Instruments
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Timing controller T-con t-con tv lcd
Abstract: High Efficiency 2-Phase Boost Converter Minimizes Input and Output Current Ripple ­ Design Note , the input voltage is low, the switching currents can overwhelm a simple boost converter and generate , available on the input power supply rail. A simple DC/DC boost converter suffices when the power levels , straightforward boost converter become quickly apparent. Boost converters convert a low input voltage to a higher , Boost Converter Output Voltage Ripple Figure 1a. Single-Phase Boost Converter: Can be Used to Linear Technology
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LTC1871-7 UPS840 LT3782 boost converter mosfet dc to dc boost converter hat2165 50 to 12v 10A dc dc converter 24v 12v 10A converter dc 24v 12v 10a converter DN371 HAT2165 PB2020-153
Abstract: advertisement High Efficiency 2-Phase Boost Converter Minimizes Input and Output Current Ripple , require higher voltages than is available on the input power supply rail. A simple DC/DC boost converter , limitations of a straightforward boost converter become quickly apparent. Boost converters convert a low , DN371 F01b Figure 1b. Single-Phase Boost Converter Output Voltage Ripple Figure 1a. Single-Phase Boost Converter: Can be Used to Convert 12V Input to 24V, 10A Output Table 1. Dual-Phase Boost Linear Technology
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12v DC to 24v DC converter circuit MBRB2545 12v 10A dc dc converter Boost Converter automotive
Abstract: low as 1.5V. The LTC3713 combines a step-down controller with a boost converter all in one package , circuits where the boost converter generates a 5V output that powers the top and bottom MOSFET drivers , an input voltage of 1.5V, the minimum operating voltage of the boost converter section. The boost , external passive components for the boost converter consist of L2, D3, CVCC, CF4, RF3, RF4, and RF5. The , boost converter. The buck regulator portion within the LTC3713 is a synchronous, cur- CSS 0.1uF Linear Technology
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B340A T510X477K006AS design ideas EEFUEOD271R IRF7811 IRF7822
Abstract: LX1732 I N T E G R A T E D P R O D U C T S High Current PFM Boost Converter P RODUCTION D ATA , High Current PFM Boost Converter P RODUCTION D ATA S HEET ABSOLUTE MAXIMUM RATINGS PACKAGE PIN , LX1732 I N T E G R A T E D P R O D U C T S High Current PFM Boost Converter P RODUCTION D ATA S HEET , 4 LX1732 I N T E G R A T E D P R O D U C T S High Current PFM Boost Converter P RODUCTION D , A T E D P R O D U C T S High Current PFM Boost Converter P RODUCTION D ATA S HEET APPLICATION Microsemi
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Abstract: '¢ â'¢ 1 23 Class H Driver Integrated Boost Converter Bridge-tied Load Output Differential , quiescent power. The LM48580 is a single supply driver with an integrated boost converter which allows the , D1 4.7 PH CS VDD SW VBST CBST 1 PF BOOST CONVERTER PGND VAMP SHDN CIN , operation. C3 VDD Power Supply D1 VBST Boost Converter Output D2 SW Boost Converter Switching Node D3 PGND Boost Converter Ground These devices have limited built-in ESD Texas Instruments
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SNAS491 30VP-P 25VP-P
Abstract: LDESIGN IDEAS Ultralow Power Boost Converters Require Only 8.5uA of Standby by Xiaohua Su Quiescent Current Introduction Application Example Figure 1 details the LT8410 boost converter , 5V Figure 1. 2.5V­16V To 16V boost converter 100 10 VIN = 3.6V VIN = 12V VOUT , high efficiency boost converter is ideal for these systems, requiring only 8.5uA of quiescent current , inside the chip, allowing it to survive output shorts. Ultralow Quiescent Current Boost Converter Linear Technology
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LTC3605 LT8410/-1
Abstract: . U W TYPICAL PERFOR A CE CHARACTERISTICS Boost Converter Oscillator Frequency vs Temperature , . VFB2 (Pin 12): Boost Converter Feedback. The VFB2 pin is connected to INTVCC through a resistor , (Pin 13): Boost Converter Switch Pin. Connect inductor/diode for boost converter portion here , of CIN. VIN2 (Pin 15): Input Supply Pin for Boost Converter Portion of LTC3718. Must be locally , more to enable boost converter portion of the LTC3718. Ground to shut down. BOOST (Pin 24 Linear Technology
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LTC1773 LTC1778 LTC1876 LTC3413 LTC3711 LTC3717
Abstract: RE46C317/18 Piezoelectric Horn Driver with Boost Converter Features: Description: â'¢ â , boost converter and a driver circuit suitable for driving a piezoelectric horn. 3V Operation Low Quiescent Current 10V Boost Converter Low Horn Driver On-Resistance Compatible with RE46C117 The , â'" â'" V FEED input; VO = 10V The boost converter in Boost mode (normal VO = 10V) can , boost converter cycle. In the above table, wherever a specific VO value is listed under test conditions Microchip Technology
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RE46C317 RE46C318 DS20002301B-
Abstract: RE46C317/18 Piezoelectric Horn Driver with Boost Converter Features Description â'¢ â'¢ â'¢ â'¢ â'¢ The RE46C317/18 are CMOS piezoelectric horn driver ICs with built-in boost converter , Current 10V Boost Converter Low Horn Driver On-resistance Compatible with RE46C117 The RE46C317/18 , 1 7 â'" â'" V FEED input; VO = 10V The boost converter in Boost mode (normal VO = , current over the boost converter cycle. In the above table, wherever a specific VO value is listed under Microchip Technology
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DS22301A-
Abstract: system components and the LCD display are not the same, a buck converter (+5V to +3.3V) or a boost , output current capability of 1.5A. Boost Solutions A boost converter steps-up the input voltage. The MIC3172 is a boost converter controller with a maximum output voltage of 60V. It features guaranteed , boost converter is used when the input power source is one or two cells and the output voltage will , between the minimum and maximum input voltage, a buck or boost converter cannot be used since these Micrel Semiconductor
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pwm schematic inverter uc3844 flyback uc3842 tl431 UC3843 Boost converter flyback uc3843 tl431 18V UC3843 application note buck schematic UC3843 buck converter application note MIC2177/78/79 MIC2177/78 MIC2179 MIC2177 MIC2178 SSOP20
Abstract: system components and the LCD display are not the same, a buck converter (+5V to +3.3V) or a boost , with a maximum output current capability of 1.5A. Boost Solutions A boost converter steps-up the input voltage. The MIC3172 is a boost converter controller with a maximum output voltage of 60V. It , discharged one. A boost converter is used when the input power source is one or two cells and the output , output boost converter. Contrast Adjustment Varying the voltage across the LCD display provides Micrel Semiconductor
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uc3845 sepic UC3842 design with TL431 UC3843 sepic step up converter 555 timer for boost converter uc3845 buck converter schematic uc3843 dc dc step down converter DIP-14 SO-14 UC3842 UC3843 UC3844 UC3845
Abstract: operates as a buck converter at input voltages above the output, as a boost converter at input voltages , capacitors. The resulting solution is as close to a plug-and-play buck-boost converter you can get in an , % efficiency in boost mode and 97.7% efficiency in buck mode. The LTM4605 has a 4.5V to 20V input range and , LTM4607, showing the two switching legs: the boost leg connected to the output, and the buck leg to the , mode waveforms Figure 4. Boost mode waveforms EFFICIENCY (%) cant design time as one part can Linear Technology
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12V 10A voltage regulators 12v 10A regulator 12V to 5V buck boost converter SCHEMATIC DIAGRAM POWER SUPPLY 12v 5A SCHEMATIC DIAGRAM POWER SUPPLY 12v 10A 50V 20A buck converter 36VIN LTC6081 LTC6082 LTM4605/07
Abstract: to static test. TYPICAL PERFOR A CE CHARACTERISTICS Boost Converter Oscillator Frequency vs , to 1V or more to enable boost converter portion of the LTC3718. Ground to shut down. VFB2 (Pin 12): Boost Converter Feedback. The VFB2 pin is connected to INTVCC through a resistor divider to set the , Converter Switch Pin. Connect inductor/diode for boost converter portion here. Minimize trace area at this , ): Input Supply Pin for Boost Converter Portion of LTC3718. Must be locally bypassed. VIN1 (Pin 16): Main Linear Technology
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MBR0520 4TPB470M D104C T495X336K025AS 7440DP SSOP-16
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