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.
上述系统主要的问题是缺乏最大功率跟踪控制和蓄电池充放电控制的统一考虑。
The main problem in the existing system is that maximum power control is separate from charging and discharging control.
最后在分析光伏离网发电系统工况的基础上,基于单片机进行了太阳能充放电控制器的设计。
Finally, based on analyzing the working states of stand-alone PV generating systems, the design of the solar charging and discharging controller based on microcontroller has conducted.
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.
建立了电容电压模型,提出了一种新型运行策略,对系统中的能量进行吸收和释放,实现对电容电压进行充放电控制。
The capacitor voltage model is established and an operating strategy is proposed to control the capacitor voltage by absorbing and releasing the energy in converter.
电池管理系统作为电动汽车上不可缺少的一部分,在对电动车的电池管理,充放电控制,电池监控等方面有着很重要的作用。
As an indispensable part of electric vehicle, battery management system plays a critical role in battery management, charge-discharge control and battery monitoring, etc.
介绍了一种以微处理器PIC16F716为核心的户用型太阳能充放电控制器,阐述了控制器的整个设计过程,对充放电进行详细地分析。
The paper introduced a solar home system controller which took MPU PIC16F716, explained the whole design process of the controller, analyzed charge and discharge in detail.
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.
为了提高太阳能高压气体放电灯照明效率,延长照明时间,实现智能充放电控制、智能照明控制,提出一种新型太阳能高压气体放电灯照明控制系统。
An intelligent control system for photovoltaic lighting systems was developed to enhance the photovoltaic lighting system efficiency and prolonging the lighting time through intelligent control.
为了提高太阳能高压气体放电灯照明效率,延长照明时间,实现智能充放电控制、智能照明控制,提出一种新型太阳能高压气体放电灯照明控制系统。
An intelligent control system for photovoltaic lighting systems was developed to enhance the photovoltaic lighting system efficiency and prolonging the lighting time through intelligent control.
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