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Parts by Number for Boost Voltage Converter Top

Part # Distributor Manufacturer Product Category Description
TPS63000-Q1   Texas Instruments Analog Automotive and Transportation Voltage Regulators and discharge it down to 2.5 V or lower. The buck-boost converter is based on a fixed frequency, pulse-width-modulation (PWM) controller using synchronous rectification to obtain maximum efficiency. At low load currents, the converter enters Power Save mode to maintain high efficiency over a wide...
MSC60028/DP1S:VOLTAGE BOOST CONVERTER CONTR IG National Microchip Not Provided Not Provided Not Provided
Model 679 CE   SEC America, LLC Power Supplies Common methods often used to realize maximize transceiver output power, involve boosting the overall voltage of the host vehicle's electrical system. This approach impacts negatively on the life of lamps and other vehicle electrical components. Model 679 CE provides an excellent alternative. Model...
371122 1-Source Electronic Components Texas Instruments IC Power Supplies IC, BOOST CONVERTER, SON-6. Primary Input Voltage:6V. No. of Outputs:1. Output Voltage:28V. Output Current:90mA. No. of Pins:6. Operating Temperature Range:-40 °C to +85 °C. Filter Terminals:SMD. Supply Voltage Min:6V. RoHS Compliant: Yes
495432 1-Source Electronic Components Texas Instruments IC Power Supplies IC, BOOST CONVERTER, SON-6. Primary Input Voltage:18V. No. of Outputs:1. Output Voltage:38V. Output Current:1.2A. No. of Pins:6. Operating Temperature Range:-40 °C to +85 °C. Peak Reflow Compatible (260 C):Yes. Output Voltage Max:38V. RoHS Compliant: Yes
976014 1-Source Electronic Components Texas Instruments IC Power Supplies IC, BOOST CONVERTER, MSOP-10. Primary Input Voltage:1.8V. No. of Outputs:1. Output Voltage:1.8V. Output Current:100mA. No. of Pins:10. Operating Temperature Range:-40 °C to +85 °C. Peak Reflow Compatible (260 C):Yes. RoHS Compliant: Yes
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Conduct Research Top

  • Buck-boost Converters
    Buck-boost converters can be used for either step-up or step-down conversions. They can also be used to reverse or invert voltage polarity. With buck-boost converters, the inverting regulator converts a DC input voltage to a DC output voltage that is opposite in polarity to the input. The negative
  • Buck Boost vs. Buck Converter Battery Life for Portable 3.3V Micro Hard Disk Drive Applications
    drive voltage of. 3.3V, an obvious dilemma associated with this application is whether to use a low dropout DC/DC step-down. (buck) converter or a step-down/step-up (buck-boost) converter. A buck converter (Figure 1) provides the most efficient solution with the smallest external components
  • Buck-Boost LED Driver Using the PIC16F785 MCU
    or a boost converter. efficient solution for driving a high power LED. An. SMPS supply can buck or boost the input voltage to the. The PIC16F785 makes a great choice for this. correct level to provide the desired LED current. The. application because it combines a MCU with many on-. system input
  • Forward Converters
    Forward, buck, or step-down converters are used to convert a higher DC input voltage to a lower DC output voltage of the same polarity. Forward converters are similar to buck-boost converters, but use a transformer to store energy and provide isolation between the input and output. The difference
  • Make a White LED Torch Using a Buck Converter
    is closed to forward voltage. years and where a DC−DC boost or buck−boost converter. The White LED of interest selected for this demonstration. was required for a given illumination, you can now place a. is the CREE XP−G which delivers unprecedented levels of. DC−DC buck converter. light output
  • DC/DC Converter Controller Using a PICmicro Microcontroller
    In many applications, a DC/DC Converter is used to produce a regulated voltage or current, derived from an unregulated power supply, or from a battery. Examples of these applications include battery chargers, electronic air purifiers, emergency exit signs, and distributed power systems. In some
  • Generating High Voltage Using the PIC16C781/782
    displays and LCDs. However, for this technical brief, the Nixie tube serves as an excellent visual feedback of the PIC16C782 device's ability to generate high voltage from a low-voltage source. This technical brief introduces the boost converter topology operating in Discontinuous mode. As an example
  • Design Alternatives To The TC682 For Performing Inverting Voltage Doubler Functions
    . Assuming that a single-cell Li-Ion battery (with a nominal terminal voltage of 3.6V) is powering the system, a regulating DC/DC boost converter is needed to generate the +5V regulated input supply to the TC682. Design Alternatives to the TC682 for Performing Inverting Voltage Doubler Functions