汽车技术
汽車技術
기차기술
AUTOMABILE TECHNOLOGY
2013年
9期
40-44,60
,共6页
电动汽车%动力电池%安全管理
電動汽車%動力電池%安全管理
전동기차%동력전지%안전관리
Electric vehicle%Power battery%Safety management
根据电动汽车高压电力驱动系统的结构,参考电动汽车安全法规要求,设计了电动汽车高压电力安全管理系统;分析研究5种典型的高压电力系统故障、危害和对应的处理措施,重点研究了动力电池高压电安全管理系统的功能与设计。基于CAN总线技术对电动汽车高压电力驱动系统状态和关键电气参数进行实时监测,结果证明所设计的电动汽车高压电安全管理系统具有良好的准确性和鲁棒性。
根據電動汽車高壓電力驅動繫統的結構,參攷電動汽車安全法規要求,設計瞭電動汽車高壓電力安全管理繫統;分析研究5種典型的高壓電力繫統故障、危害和對應的處理措施,重點研究瞭動力電池高壓電安全管理繫統的功能與設計。基于CAN總線技術對電動汽車高壓電力驅動繫統狀態和關鍵電氣參數進行實時鑑測,結果證明所設計的電動汽車高壓電安全管理繫統具有良好的準確性和魯棒性。
근거전동기차고압전력구동계통적결구,삼고전동기차안전법규요구,설계료전동기차고압전력안전관리계통;분석연구5충전형적고압전력계통고장、위해화대응적처리조시,중점연구료동력전지고압전안전관리계통적공능여설계。기우CAN총선기술대전동기차고압전력구동계통상태화관건전기삼수진행실시감측,결과증명소설계적전동기차고압전안전관리계통구유량호적준학성화로봉성。
Based on the structure of the EV high-voltage electric drive system, a high-voltage electric safety management system which satisfied electric vehicles safety regulation was designed. Some typical high-voltage system failures, risks and corresponding disposal measures were analyzed, with focus on the research of function and design of power battery high-voltage power safety management system. A real time monitoring was designed to monitor the operating state and key electric parameters of the EV high-voltage electric drive system based on CAN bus technology. The test results indicate that this EV high-voltage safety system is steady and robust.