太阳能蓄电池

美国科学家展示了一种大有可为的太阳能蓄电池设计，具有前所未有能量使用效率。

Unprecedented energy efficiencies using a very promising solar cell design have been demonstrated by scientists in the US .

基于DSP的离网太阳能电站蓄电池智能巡检系统

Storage Battery Intelligent Patrol System of Stand-alone PV Power Station Based on DSP

在广泛使用的太阳能阵列―蓄电池组电源系统中，采用双向DC-DC变换器以取代传统独立的蓄电池充、放电模块可以有效的提高电源系统的功率密度。

In the widely used solar arrays-battery power system , bi-directional DC-DC converters can effectively improve the power system power density by replacing the traditional independent battery charge and discharge modules .

太阳能控制器对蓄电池能够实现智能的充放电管理，对系统能够实现长期稳定的供电。

Solar controller can realize the intelligent management of battery charge and discharge .

这是由于这两国的离网太阳能使用铅酸蓄电池储存能量。

This is because off-grid solar power in both countries uses lead – acid batteries for storing energy .

警示器包括太阳能电池，蓄电池，以及在环境低照度和晚间用以发光元件选控的电路器件。

The warning marker includes solar cells , storage batteries and electrical circuit apparatus for selectively illuminating the light elements during low ambient light and nighttime conditions .

本文采用双向半桥DC/DC变换器控制蓄电池和超级电容的充放电。其次，根据太阳能电池、蓄电池组、超级电容组3个能量源的特点，提出了一种能量控制策略。

This paper used two-way half-bridge DC / DC converter to control the charging or discharging of the battery and super capacitor . Secondly , according to the characteristics of the solar cells , batteries and super capacitor bank brought an energy control strategy .

考虑到系统一般用在野外，没有交流电源提供，系统采用蓄电池供电，并由太阳能电池对蓄电池进行充电，使系统在野外也可以正常使用。

Consider the system is generally used in the field , alternating current source is not offered , the system adopts the battery to supply power , and charged by the solar energy panel , make the system can be used normally in the field too .

太阳能灯用铅酸蓄电池充电控制方法的探析

Exploration into the Ways to Control the Charging of a Lead-acid Battery in Solar Lights

光伏发电系统通常包括太阳能光伏阵列、蓄电池、逆变器等部分。

PV ( photovoltaic ) system consists of PV array , battery , inverter and other parts .

本文的研究对象是由太阳能电池阵列、蓄电池组和可控负载等组成的低压微型光伏直流微电网系统。

The object of this paper is a low-voltage miniature DC microgrid system with photovoltaic solar arrays , battery and controllable load .

“亚特兰迪斯号”航天飞机将于八月底携带一块太阳能电池板，蓄电池组和一批太空物资发射升空。

Space shuttle Atlantis is scheduled to launch in late August carrying a solar array , batteries and a truss segment of the station .

当蓄电池所储存的电能放完时，太阳能控制器要控制蓄电池不被过放电，保护蓄电池。

When the battery the stored power put up , the solar controller to control the battery will not be a discharge , protect the accumulator .

本文分析和研究了太阳能电池板和蓄电池的工作特性、太阳能光伏输出的最大功率点跟踪原理和逆变器工作原理。

This paper analyzed and researched the running characteristic of solar panels , the running characteristic of batteries , the principle of the maximum power point tracking and the working principle of inverter .

随着航天器高功率高电压的发展要求，航天器电源系统在近几年中经历了巨大的发展，其中太阳能电池阵&蓄电池电源系统是目前最常用的供电系统。

With the increasing requirements for high power and high voltage of the spacecraft , the power system of spacecraft has experienced great development in recent years , and the solar array-battery power supply system has been widely used by far .

灯系列：太阳能灯是利用太阳能板、蓄电池、光源、控制板等组成。

Solar Lamp Series : Zhongke Tiansheng Solar Lamp is made up by solar panel , storage battery , lamp-house , controller panel , and so on .

太阳能发电系统由太阳能电池组、太阳能控制器、蓄电池（组）组成。

Solar power system consists of solar batteries , solar controller , battery ( group ) composition .

为提高太阳能的转换效率，设计了角度跟踪电路，利用太阳能对蓄电池充电，为LED照明电路提供电源，并利用PID控制提高了系统工作稳定性。

The system works with an angle tracking circuit to increase the solar conversion efficiency , the solar energy charging up the battery and provides the power for lighting , PID control algorithm to increase stability .

在传统的太阳能路灯系统中，通常经过防电流倒灌二极管将太阳能板与蓄电池直接相连，这将导致太阳能板的利用效率低，同时容易使蓄电池长期处于欠充满状态，造成其使用寿命的缩减。

In conventional charging circuit of solar lighting system , the solar cell is often connected to battery by a blockading diode , which will cause poor efficiency of solar energy , and it will also make the battery lack of charging , thus shorten its life .

重点分析了基于太阳能的机器人能源自治系统组成，并分析了跟踪机构，太阳能光电转换，蓄电池充、放电等关键技术。

The power autonomy system of solar power robot and key techniques , including tracking machine , photoelectricity conversion of solar power , storage battery charging and discharging are analyzed in detail .