设计了一种单节锂离子电池保护电路。
A single lithium-ion battery protective circuit is designed.
针对锂离子蓄电池在充放电过程中容易出现的过充、过放、过流、过温问题,设计了基于软硬件保护的锂离子蓄电池保护电路。
According to the problems in charging and discharging process of lithium-ion battery, a kind of protection circuit based on software and hardware was designed.
不要弄湿电池,更不能将电池投入水中,否则会造成电池内部保护电路功能丧失和发生不正常的化学反应,电池有可能发热、冒烟、变形或燃烧。
Do not dampen batteries, nor dispose of it in water or it will cause the loss of internal protection and abnormal chemical reaction, and the batteries may overheat, smoke, deform or burn.
锂电池的过放保护的电路设计。
The lithium battery has the circuit design of the protection.
电池内部具有保护机构和保护电路可以避免发生危险。不合适的拆装将会损坏保护功能,将会造成电池发热、冒烟、变形或燃烧。
The internal protection devices and circuit inside batteries can avoid possible dangers. Improper disassembly will damage the protection function and causes heating, smoking or burning.
同时给出了整流滤波电路、辅助源电路、过压保护电路、蓄电池的充放电控制电路的电原理图及其工作原理。
Schematic circuits of rectifier and filter, assistant power, over voltage protection, and charge control for storage battery are suggested , their working principle are also discussed.
高端智能充电器充电指示及电路电量保护设计,确保蓄电池稳定耐用。
High-end intelligent battery charger directives and circuit protection design, ensure the battery stable and durable.
本文主要根据锂电池的特性,设计了磷酸铁锂电池的充电电路和保护电路,并通过实验验证了本文设计的充电电路的正确性。
This paper designed the charge circuit and protection circuit of phosphoric acid iron battery, and verified the effectiveness of the charge circuit.
详细介绍了采用PIC16C74单片机为控制核心的锂离子电池(7串电池组)保护电路的硬件、软件设计。
This paper deals mainly with the hardware and software design of the protective circuit for lithium-ion batteries (7 in series), whose control center is PIC16C74.
电池中装有保护电路以避免各种意外情况发生。
There is a protective circuit inside the battery to prevent contingency.
文中着重地介绍了BMS子系统中电池均衡系统及其保护电路的设计方法,同时介绍了电压采集及温度控制等电路。
This article focuses on cell equalization and its protection circuits in the subsystem of BMS, and also circuits of voltage and temperature is recommended.
装电池的电路保护设计。
Wrong attire counter-attire battery's circuit protection design.
模拟结果表明,该电路实现了基本的电池保护功能并在功耗方面达到了设计的目标。
The results manifest that the circuit implements basic protection functions and achieves design goals on power consumption.
涉及电池材料、电池技术、电源、保护电路等各个领域。
Involved in battery materials, battery technology, power, protection circuits and other fields.
本文主要介绍了采用UCC3975的3/4节锂离子电池充电电路和有关保护电路的工作原理和锂离子电池充电的主要特性。
This paper has mainly introduced the UCC3975s application in 3/4 cell lithium-ion batteries in charging and its protection. Also has introduced the lithium-ion cells charge property.
本实用新型涉及一种单体电池或子电池组保护电路及电池组均衡放电控制装置。
The utility model relates to a single battery or a sub-battery protection circuit and the battery balanced discharge control device.
这种新型电压基准电路适用于锂电池保护芯片,提供检测基准电压。
The novel voltage reference source was applied to a Li-ion battery protection IC to provide various detection voltages.
该交通灯设计了对电池的充放电保护电路,当电池放电小于10.6V时,关闭所有灯。
The design of traffic lights on the battery charge and discharge protection circuit, when the battery discharge is less than 10.6v, close all the lights.
该交通灯设计了对电池的充放电保护电路,当电池放电小于10.6V时,关闭所有灯。
The design of traffic lights on the battery charge and discharge protection circuit, when the battery discharge is less than 10.6v, close all the lights.
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