资料介绍
摘要:笔记本电脑越来越多地需要复杂的电池充电算法和系统。本文提供的信息和背景上的锂离子(Li + ) ,镍镉(NiCd) ,镍金属氢化物(NiMH)电池及相关系统级开关模式和线性电池充电器。这些稳压器和电流调节器像8051或Microchip的PIC的外部微处理器控制,并与这些控制器提供的例子。一个常见的化学电池充电电池充电器IC采用Maxim概述的要求,一起讨论系统级的贸易利益和固件设计技巧,以及万维网工程的资源列表。
Maxim > Design support > App notes > Battery Management > APP 680
Maxim > Design support > App notes > Power-Supply Circuits > APP 680
Keywords: linear, switch-mode, battery charger, microcontroller, current source, switching dc-dc converter, notebook computer,
lithium-ion, Li+, lithium, 8051, NiCd, NiMH, Nickel Metal Hydride, Microchip PIC, voltage regulator, current regulators
Jul 22, 2002
APPLICATION NOTE 680
How to Design Battery Charger Applications that Require External
Microcontrollers and Related System-Level Issues
Abstract: Notebook computers increasingly require complex battery charging algorithms and systems. This article provides information
and backgroun
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