充放电电路系统是仪器中的核心技术之一,是仪器重要组成部分。
The system of boosting charge and impulsive discharge is an important part and one of the core technology of the device.
该电路由差动比较器、精确电流产生电路、充放电电路及其控制电路组成。
It is composed of a differential comparator, an accurate current generator, and a charge and discharge circuit with its control circuit.
先利用混沌充放电电路将输入模拟量采集成一组二进制序列,然后对其进行分析,得到输入量的准确估计值。
Chaos circuit charge an analog input into a group of binary sequences collection, then analysis and get the accurate measuring inputs.
对采用CMOS缓冲器组成电容充放电式长时间延时电路进行了研究。
How to use the CMOS buffer to make up the capacitance charge-discharge type long time delay circuits is studied.
该复合电源结构简单,利用两种电池固有的充放电特性,而不依靠控制电路实现自适应控制。
The hybrid power system is simple, it utilizes the intrinsic charging and discharging characteristics of the two batteries not relys on control circuit to implement adaptive control.
介绍了一种新型蓄电池充放电装置的系统结构和工作原理,并对其控制方法和控制电路进行了研究。
The system configure and operation principle of the novel storage battery charged and discharged device were introduced, and its control method and circuit were gived.
并介绍了铅酸蓄电池的充放电控制电路。
And the introduction of lead-acid battery charge and discharge control circuit.
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.
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.
将MAXIM公司生产的充电专用集成电路MAX713与单片机相结合,设计快速充放电设备,是现今充放电系统设计的主流。
Combining the specialized IC- MAX713 produced by MAXIM with MCU, to design quick charge & discharge device is the main trend of designing charge & discharge system.
通过集成电路各器件间的布线传递信号的过程,是将信号电荷向布线间形成的寄生电容充放电的过程。
Electricity charges and discharges from the multi-layer cabling's parasitic capacitance when signal is transferred among different parts of integrated circuit.
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.
从电路噪声的角度分析了直流充放电法和交流激励法电容测量技术的性能,得出交流法在增加电路复杂度极小的条件下,可获得较高的电容分辨率。
The DC charge based and ac based capacitance measurement technologies are analysised from the point of noise performance, which is the key factor to determine the resolution of measurement.
结果表明,纹波可以分为由电路非对称性产生的奇次谐波和电容器充放电产生的偶次谐波。
The results showed that the odd harmonics of the ripple was due to the circuit asymmetry and the even harmonics due to the charge-discharge process of capacitors.
论述充放电管理方法的总体思路,介绍无损均衡电路及电压、电流、温度的采样,给出充放电控制电路及MOSFET驱动电路等模块的设计。
The premise and background are introduced. It proposes the overall structure and non-dissipative equalization circuit of charging and discharging management method study.
论述充放电管理方法的总体思路,介绍无损均衡电路及电压、电流、温度的采样,给出充放电控制电路及MOSFET驱动电路等模块的设计。
The premise and background are introduced. It proposes the overall structure and non-dissipative equalization circuit of charging and discharging management method study.
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