锂动力电池

锂动力电池锂动力电池
  1. 锂动力电池组智能充电、保护电路的研究

    The Research of Intelligent Charge & Protection Circuit for Lithium Power Battery

  2. 大容量锂动力电池化成电源全数字控制技术

    Research on digital control technique of large capacity Li traction battery formation power

  3. 锰酸锂动力电池体系研究

    Research on LiMn_2O_4-Based Power Battery System

  4. 磷酸铁锂动力电池工况循环性能研究

    Study on operating mode cycle performance of lithium ion power battery with natural graphite and LiFePO_4

  5. 实验表明该电源控制精度高、响应速度快,响应过程无冲击,组网能力强,可满足大容量锂动力电池化成的需求。

    Experiment shows that this power is accurate , fast , and easy to be controlled by net , which satisfies the requirement of large capacity Li traction battery formation .

  6. 本文以锂动力电池双层分布式结构为基础,设计基于电容的区域均衡与基于多层反激变压器的全局均衡的多层双向均衡电路。

    For this reason , a regional circuit based on capacitor and a multi-layered global circuit based on the fly-back transformer is proposed on the basis of the bi-layer structure in lithium battery .

  7. 在众多电池中,锂动力电池以容量大、能量密度高、循环使用寿命长、性价比高等优点成为动力电池的主流。

    Due to the reason of large capacity , high energy density , long cycle life , and cost performance , lithium battery has become the mainstream power battery in electric vehicles among numerous batteries .

  8. 一方面,当前的锂动力电池市场面临困境,突出表现在电池回收、电池维修、电池防盗这三个环节。

    On the one hand , the current lithium battery market is facing difficulties , the most prominent in the " Battery Recycling ", " battery maintenance ", " battery theft " of these three aspects .

  9. 磷酸铁锂动力电池以其高电压、循环寿命长、绿色环保等诸多优点,已经在电动汽车领域得到了广泛的应用。

    Power battery with its high-voltage , long cycle life , environmental protection and many other advantages has been widely used In the field of electric vehicles . Currently , the detection of lithium battery technology is not yet fully mature .

  10. 基于DSP的动力锂离子动力电池奇偶均衡充电电路

    Equalization Circuit with Odd and Even Module for Power Li-ion Series-connected Batteries Based on DSP Controller

  11. 基于SoC的智能锂离子动力电池管理系统设计

    Management System for Intelligence Lithium-ion Power Battery Based on SoC

  12. 因此本文以基于ERT的动力电池内部温度测量方法研究为题,提出将电阻层析成像(ElectricalResistanceTomography,ERT)方法应用到锂离子动力电池的内部温度检测中来。

    There-fore ," research on the internal temperature measurement method of power battery based onERT " as a topic , the electrical resistance tomography ( ERT ) internal temperature detec-tion method is applied to lithium ion power battery .

  13. 指出基于PCM的热管理方法是开发结构紧凑的高性能锂离子动力电池系统的重要发展方向,值得引起更多的关注。

    It points out that application of PCM based BTM for high performance battery such as lithium ion power battery will become an important trend in the future and is worth being paid more attention .

  14. 锂离子动力电池组智能检测系统设计与实现

    Design and realization of smart Li-ion power battery pack testing system

  15. 发展我国锂离子动力电池关键工艺设备思考

    Thinking about Development of Chinese Lithium-ion Power Battery Critical Process Equipment

  16. 嵌入式燃料电池车锂离子动力电池管理系统

    Embedded power lithium-ion battery management system used on fuel cell hybrid vehicle

  17. 锂离子动力电池燃烧机理及其防护措施

    A Research on Burning Mechanism and Protective Measures of Li ~ + Battery

  18. 电动汽车锂离子动力电池系统的研制

    Development of lithium-ion battery power system for electric vehicle

  19. 电动车用锂离子动力电池充放电特性

    Charge and discharge characteristics of Li-ion batteries for EV

  20. 锂离子动力电池充放电特性的试验研究

    An Experimental Study on the Charging and Discharging Characteristics of Li-Ion Traction Battery TESTING

  21. 为进入电动汽车用锂离子动力电池市场作好一切准备。

    For access to electric vehicles for Lithium-ion power battery market made all the preparations .

  22. 锂离子动力电池特性研究

    Study on the Characteristics of Li-Ion Batteries

  23. 在对锂离子动力电池容量和功率需求越来越高的今天,碳纳米管已成为导电剂发展的主要方向之一。

    Today , CNT has become one of the main developing directions of conductive additives .

  24. 均衡与控制是锂离子动力电池充电系统的2项关键技术,该文详细介绍了均衡与控制在充电系统中所起的作用,指出了其重要性。

    Proper control and charging equalization are two key technologies in Li-ion battery charging system .

  25. 利用双卡尔曼滤波算法估计电动汽车用锂离子动力电池的内部状态

    Estimation of Internal States of Power Lithium-ion Batteries Used on Electric Vehicles by Dual Extended Kalman Filter

  26. 锂离子动力电池检测系统上位机软件开发及电池成组算法研究

    Development of Host Computer Software of Li-ion Power Battery Testing System and Study on Classifying Algorithm of Li-ion Batteries

  27. 人工神经网络技术简单直观,是研究锂离子动力电池的有力工具。

    Artificial neural networks technique is simple and understandable , it 's a powerful tool to estimate Li-ion power batteries .

  28. 锂离子动力电池的比能量、比功率较高,但其热安全性仍然是制约新能源汽车产业化的一个重要因素,需要进一步的研究。

    Poor thermal safety of lithium ion , is an important factor , which still constrains the new energy automotive industry .

  29. 电动汽车的使用对锂离子动力电池组管理系统提出了更高的要求。

    With the use of electrical vehicle , higher and higher requirements for the Li-ion power batteries management system are brought forward .

  30. 锂离子动力电池是燃料电池汽车的辅助动力源,合理地对锂离子电池进行管理对燃料电池汽车起了至关重要的作用。

    Power Li-ion Batteries are the assistant power source for fuel cell hybrid vehicles , so a reasonable management to the Li-ion battery is vital to the vehicle .