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  • Design A Load Sharing System Power Path Management with Microchip's Stand-Alone Li-Ion Battery Charger
    AN1149 Designing A Li-Ion Battery Charger and Load Sharing System With Microchip's Stand-Alone Li-Ion Battery Charge Management Controller However, most of the time, batteries are designed to be Author: Brian Chu recharged while the devices are still in the operational Microchip Technology Inc
  • Li-ion Battery-Charger Solutions for JEITA Compliance (.pdf)
    Lithium-ion (Li-ion) batteries tend to become dangerous when they are overcharged at high temperatures. Safely charging these batteries has become one of the most important design specifications in battery-powered portable equipment.
  • Design A Load Sharing System Power Path Management with Microchip's Stand-Alone Li-Ion Battery Charger
    Batteries often serve as the main energy source for portable electronic devices. Although they depend on batteries, portable consumer electronic products, such as GPS and multi-media players, often consume energy directly from ac-dc wall adapter or accessory power adapter (or Auto Adapter) when
  • High-Speed Lithium Ion Battery Charger
    alternative to fixed-function linear battery chargers. This note discusses how to use the C8051F300 device in Li-Ion battery charger applications. The Li-Ion charging algorithms can be easily adapted to other battery chemistries.
  • Putting Safety into Li-ion Battery Packs
    The power FET is an essential safety function in a battery management system (BMS). The main purpose of the power FET is to isolate the battery pack from either a load or a charger in errant conditions. In a BMS, the power FETs are controlled by cell voltage, pack current, temperature, load
  • Designing a Multi-Chemistry Battery Charger (.pdf)
    >Designing a battery charger for nickel, lithium-ion (Li-ion) and lead-acid cells requires special considerations for proper charging and safety.
  • Designing Battery Charger using GAIA Converter 150W DC/DC Converter
    A battery charger is a device used to put energy. into a battery by forcing an electric current trhough. it. The charge current depends upon the. technology and capcity of the battery being. charged. There are 4 main battery technology types : * Lead Acid battery. * Nickel Cadmium (NiCd) battery
  • Convergent Designs Demand Smarter Battery Charging
    revered for its unique ability to combine high capacity, small size, light weight, and durability. Equally essential is the battery charger IC, a power electronic component which controls Li-Ion cell-charging conditions to minimize charging time while maximizing battery life, the number of charging

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