Page: 1 2 Next

Parts by Number for Step-up DC Voltage Converter Top

Part # Distributor Manufacturer Product Category Description
MCP1640 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided The MCP1640/40B/40C/40D is a compact, high-efficiency, fixed frequency, synchronous step-up DC-DC converter. It provides an easy-to-use power supply solution for applications powered by either one-cell, two-cell, or three-cell alkaline, NiCd, NiMH, one-cell Li-Ion or Li-Polymer batteries...
MCP16323 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided internal compensation, peak current limit, VOUT overvoltage protection and overtemperature protection. Minimal external components are necessary to develop a complete synchronous step-down DC-DC converter power supply. Up to 95% Typical Efficiency. Input Voltage Range: 6.0V to 18V. 3A Output Current. Fixed...
MCP16321 Microchip Technology, Inc. Microchip Technology, Inc. Not Provided internal compensation, peak current limit, VOUT overvoltage protection and overtemperature protection. Minimal external components are necessary to develop a complete synchronous step-down DC-DC converter power supply. Up to 95% Typical Efficiency. Input Voltage Range: 6.0V to 24V. 1A Output Current...
LTC3539EDCB-2#TRMPBF ASAP Semiconductor LINEAR Not Provided IC, SYNC STEP-UP DC/DC CONVERTER, DFN-8; Primary Input Voltage:1
LTC3539EDCB#TRMPBF ASAP Semiconductor LINEAR Not Provided DC DC CONVERTER, 2A, STEP UP, 8DFN; Primary Input Voltage:1.2V;
More >>

Conduct Research Top

  • Step-Up Switching Regulators
    When a low DC voltage source is used to power circuitry operating at high voltage levels, a step-up (boost) converter can be used. The input (lower voltage) is utilized to charge a passive component, such as a capacitor or inductor by the switching action of a transistor(s). Energy is stored
  • Inductor-Based Step-Up Switching Regulators
    Inductor-based, step-up switching regulators offer high efficiency, small size and lower cost than isolated switching regulators (DC/DC converters). They are used to amplify (step up) the voltage of a lower voltage source or battery. The inductor stores energy during the on time of the switching
  • Output Voltage Ripple in Step-Down and Step-Up Switching Regulators
    Output voltage ripple is always an important performance parameter with DC-DC converters. For inductor-based switching. regulators, several key factors can affect this important parameter, including switching frequency, duty cycle, and. output capacitor value. Step-down and step-up switching
  • Redundancy With Low Voltage, High Output Current DC/DC Converters
    to turn on one of the selected converters. ./89dc593f-6453-44cb-8a64-dae046306182 beta. Application Note DC-013. dyne. DC/DC CONVERTER. REDUNDANCY WITH LOW VOLTAGE, HIGH OUTPUT CURRENT DC/DC CONVERTERS. Redundancy using DC/DC converters is necessary. However, the use of ORing diodes is not recom
  • DC/DC Converters With Linear Regulators
    . ./e04f7338-f6a0-4872-9eb9-478ab956a8fa beta. Application Note DC-017. dyne. DC/DC CONVERTER. DC/DC Converters with Linear Regulators. Linear regulators (or voltage regulators) act as a series-. Figure 2 shows the converter from Figure 1 followed by a. variable power resistor when they are connected between
  • DC/DC Conversion
    converter goes by many names: 500 mA Continuous Output Current. voltage step-down converter, DC-to-DC converter, chopper. Under-Voltage Lock-Out Protection. converter, etc. No matter what the name, inductor based, buck. Over-Temperature Protection. derived, switch-mode converters account for 80% to 90%
  • 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

More Information on: Step-up DC Voltage Converter Top

Lock Indicates content that may require registration and/or purchase. Powered by IHS Goldfire