电池模块可被迅速而方便地从扫描仪上取下,进行充电。
The Battery Module can be quickly and easily removed from the scanner for charging purposes.
本发明公开了一种透明型太阳能电池模块及其制造方法。
The invention discloses a transparent type solar cell module and a manufacturing method thereof.
每个电池模块单独配备一套电子管理系统来优化充电和放电的速度。
Each module is fitted with its own, personal electronic management system to optimise its charging and discharging rates.
本发明另提供一种包括多个所述太阳能电池组件的太阳能电池模块。
The invention also provides a solar cell module comprising a plurality of solar cell components.
一种智能充电电池模块,包括外壳和装于其内的蓄电池组以及充电电路板。
The utility model relates to an intelligent charged cell module, which comprises a casing, a storage battery arranged in the casing and a charging circuit board.
支护设计的热管理系统-设计所有的组件和子系统,使得电池模块是在适当的温度维持。
Support design of the thermal management system - design all components and sub-systems such that the battery modules are maintained at the proper temperature.
把手上以带肩螺栓的形式提供了安装点,以及夹持螺栓用于电池模块和电子模块,并可折叠一半便于运输。
The handle provides mounting points in the form of shoulder bolts and clamping bolts for the Battery Module and the Electronics Module and can be folded in half for transportation.
的状态的充电量(SOC),以作为模糊输入和模糊输出的参数的电池模块,模型的参数,通过模糊推理确定。
Taking the state of charge (SOC) as fuzzy input and the parameters of the battery module as fuzzy output, the parameters of the model are determined by fuzzy inference.
公司现拥有6项太阳能方面的技术专利,现有年产太阳能电池模块50MW的生产能力,预计2010年电池模块生产能力达到100 MW。
Now the company has 6 technical patents in solar energy, and its current production capability per year comes to 50mw and 100mw expected in 2010.
太阳能电池和模块的进口从2006年开始急速增长。
Imports of solar cells and modules have rapidly increased since 2006.
图1和图2使用的数据基于10位数的海关关税明细表,市面上可获得的最精确太阳能电池和模块(8541.40.6020&6030)测量数据。
The data used in FIGURE 1 and FIGURE 2 is based on the ten-digit Harmonized Tariff Schedule (HTS), the most precise measure of solar cell and module imports available (specifically 8541.40.6020&6030).
(这些数据包含了太阳能光伏电池和模块及其附加的电子元件。)
(These figures include solar related electrical components in addition to photovoltaic cells and modules.)
新的模块对电池的寿命提供了很大的改进(方法非常简单,将电池扩充为2倍大小)。
The new model did offer substantially improved battery life (through the simple expedient of making the battery twice as big).
通用汽车公司的工程师已经完成了超过10万英里,400万小时Volt电池组的测试,这些测试自2007年便开始。每个电池包有9个模块,288个单元。
GM engineers have completed more than one million miles and four million hours of validation testing of Volt battery packs since 2007, as well as each pack's nine modules and 288 cells.
为了不使其处于透明态,可以选择模块的背景颜色来加强或反衬出电池。
The module background colour can also be chosen to complement or contrast with the cell, or it may be left transparent.
因此,本文研究了电池管理系统的类型和基本功能,基于水平铅布电池设计了一种模块化的电池管理系统(BMS)。
So, this paper studies the types and basic functions of the BMS, designs a modular BMS based on the horizon lead-acid batteries.
光伏电池是由半导体材料和每个模块通常拥有约40个细胞。
PV cells are made from semiconducting material and each module usually holds about 40 cells.
晶圆的高价格(通常占最后模块的40- 50%的成本)使得工业寻找更加便宜的太阳能电池的材料。
The high cost of crystalline silicon wafers (they make up 40-50% of the cost of a finished module) has led the industry to look at cheaper materials to make solar cells.
最初的方案包括一个太阳能电池板方案、一个可以360度旋转的第二屏幕方案、以及一个可以连接键盘和游戏手柄的模块化设计。
Initial proposals have included a solar-panel case, a second screen that can rotate 360 degrees, and a modular design to connect with keyboards and games controllers.
然后,作者详细阐述了平衡重式蓄电池叉车CAD系统的框架结构、主要模块和工作流程。
And then, the author sets forth the frame of the CAD system of the Counterbalance Electric Forklift Truck, the main modules and the operation process.
在软件设计中编写了各个模块的程序,从而实现了电池管理系统的主要功能。
In the software design, programme of each module was compiled, to achieve the main function of the battery management system.
一个太阳能光伏模块包含一排内部串联的隔开的光伏电池,他们在同一个衬底上。
A solar photovoltaic module comprises of a row separated photovoltaic batteries connected in series on the same substrate.
定位于电池保护模块制造商,设备的精确的监测能力,提供安全的充电和放电,延长电池寿命,减少能量损失。
Targeted at the manufacturers of battery protection modules, the device's accurate monitoring capability delivers safe charging and discharging, prolonging cell lifetime and minimizing energy losses.
定位于电池保护模块制造商,设备的精确的监测能力,提供安全的充电和放电,延长电池寿命,减少能量损失。
Targeted at the manufacturers of battery protection modules, the device's accurate monitoring capability delivers safe charging and discharging, prolonging cell lifetime and minimizing energy losses.
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