SOC估计是电动汽车电池管理系统的重要功能。
SOC estimation was an important function of electric vehicle battery management system.
设计与开发智能电池管理系统,提高电池的管理效率。
It carries out design and development of intelligence battery management system to improve cell management efficiency.
该电池组的内部安装36v的12个系列电池管理系统。
The cell pack was internally installed 36v 12 series Battery Management System.
本文对蓄电池管理系统软硬件的设计与实现进行了详细说明。
This thesis makes explanations about the design and realization of the software and hardware of the battery management system in detail.
本文致力于电池管理系统设计及电池荷电状态(SOC)估算的研究。
This article dedicated to the research on the design of battery management system and battery state of charge (SOC) estimation.
最终实现了上级控制系统对设计的电池管理系统以上功能的检测与控制。
Finally, the detection and control of the above mentioned functions of the designed battery management system are realized through the superior control system.
一方面,采集的底层数据是后续电池管理系统中估计和校正的重要参数;
On the one hand, the collected bottom data is one of the essential parameters of estimating and proofreading in latter battery management system;
为了满足电池的不同应用需求,本文搭建一个灵活的电池管理系统平台。
In order to meet the different application requirements of battery, the thesis has built a flexible battery management system platform.
电动车电池管理系统的核心任务是对电池荷电状态(SOC)进行预测。
The state-of-charge(SOC) is an important parameter for the electrical vehicle.
因此研究专门的电池管理系统对电池的能量进行管理及维护是非常必要的。
Therefore, it is very necessary to research particular battery management system for managing and maintaining battery energy.
作为当前研究的热点,智能电池管理系统在各个行业中有着广泛的应用前景。
As a research hotspot, the management system of intellective battey has an extensive applied field.
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.
该方法包括确定电池组何时连接到一个装置,所述电池组包括电池管理系统。
The method includes enabling determining when a battery pack is coupled to a device, the battery pack including a battery management system.
介绍镍氢电池管理系统的软硬件构成,并阐述光电子技术在其中的应用和得出的结论。
The hardware constitution of nickel-hydrogen battery management system is reviewed in this paper, even the application of optoelectronics devices is explained.
介绍镍氢电池管理系统的软硬件构成,并阐述光电子技术在其中的应用和得出的结论。
The hardware constitution of nickel-hydrogen battery management system is reviewed in this paper, even the application of optoelectronics devices is explained. At last, important conclusion is given.
铅酸电池的荷电状态(SOC)的测量和估计,对电动汽车的电池管理系统极为重要。
It was very importance for the battery management system in electric vehicles to measure and estimate the state of charge (SOC) of lead-acid batteries.
本文深入地研究燃料电池电动汽车的动力电池管理系统,提出合理的系统设计思想与实现方法。
The paper has deeply studied the traction battery management system of fuel cell electrical vehicle, and the logical design thoughts and realized methods have been put forward.
在电池管理系统的基础上,开发电池数据记录仪,记录电池的状态参数用于理论分析和研究已迫在眉睫。
It is urgent to design a battery datalogger based on the battery management system to recorde the battery parameters.
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.
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.
本文在基于前人的基础上进行了进一步研究,对电池管理系统中的难点问题:动力电池剩余电量的估计,提出了一种新的预测方法。
Based on the achievement of predecessors, a further study on the difficult battery management system was given, proposed a new forecasting method for battery power remaining estimated.
这还不包含相关的零部件,如将电池片温度维持在可接受范围内和管理充放电的系统。
And that does not count related parts like the system that maintains the temperature of the cells within an acceptable range and manages the charging and discharging.
这些要消耗从电池到非常复杂的电力管理系统的一切能源。
These run the gamut from batteries to far more complex electricity-management systems.
管理再生制动系统的控制组件同样也管理着动力供应以及再次给电池充电的过程。
The same control module that manages the re-gen also manages the power supply and recharges the batteries.
由于昂贵和复杂热能管理系统,使锂电池技术实际上不能成为混合电动汽车(HEV)第一选择。
The need for expensive and complex thermal management systems has in fact kept the Li-ion technology from becoming the first choice for Hybrid Electric Vehicle (HEV) applications.
德国阳光蓄电池成为UPS供电系统的重要组成部分。而由于德国阳光蓄电池本身或者管理上的原因,目前有许多UPS故障是由德。
Germany sun battery become an important part of UPS power supply system. As Germany sun battery itself or management reasons, there are many UPS fault is made by Germany.
由于嵌入式系统中电池电量是有限的,而硬盘功耗比较大,驱动提供了硬盘电源管理的接口,用以降低系统的整体功耗。
Besides, as the battery in the embedded system is limited and the power consumption of hard disk is high, a simple power management strategy is presented to reduce the system power consumption.
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.
我公司针对此高性能电池配有专用灯头,并且配有升压及充电管理系统。
My company for this high-performance batteries with a dedicated lamp holder, and is equipped with step-up and charge management system.
我公司针对此高性能电池配有专用灯头,并且配有升压及充电管理系统。
My company for this high-performance batteries with a dedicated lamp holder, and is equipped with step-up and charge management system.
应用推荐