汽车工程
汽車工程
기차공정
AUTOMOTIVE ENGINEERING
2014年
10期
1278-1284
,共7页
电动汽车%机电控制无级变速器%变速策略%能量回收
電動汽車%機電控製無級變速器%變速策略%能量迴收
전동기차%궤전공제무급변속기%변속책략%능량회수
electric vehicle%EMCVT%shift strategy%energy recovery
基于对机电控制无级变速器工作原理的分析,提出电动汽车搭载机电控制无级变速器的结构方案,并相应地建立了电机数值模型、电池充电数学模型和机电控制无级变速器速比控制模型。综合考虑电机效率、机电控制无级变速器效率、电池荷电状态和整车特性,提出了再生制动时机电控制无级变速器的变速策略。在MAT-LAB/Simulink仿真平台上,搭建了系统再生制动性能仿真模型,并对搭载机电控制无级变速器的电动汽车再生制动性能进行了仿真。结果表明,采用所提出的变速策略与传统两挡变速策略相比,能更好地发挥电动汽车性能,提高再生制动过程中的能量回收率。通过台架试验,验证了仿真结果的有效性。
基于對機電控製無級變速器工作原理的分析,提齣電動汽車搭載機電控製無級變速器的結構方案,併相應地建立瞭電機數值模型、電池充電數學模型和機電控製無級變速器速比控製模型。綜閤攷慮電機效率、機電控製無級變速器效率、電池荷電狀態和整車特性,提齣瞭再生製動時機電控製無級變速器的變速策略。在MAT-LAB/Simulink倣真平檯上,搭建瞭繫統再生製動性能倣真模型,併對搭載機電控製無級變速器的電動汽車再生製動性能進行瞭倣真。結果錶明,採用所提齣的變速策略與傳統兩擋變速策略相比,能更好地髮揮電動汽車性能,提高再生製動過程中的能量迴收率。通過檯架試驗,驗證瞭倣真結果的有效性。
기우대궤전공제무급변속기공작원리적분석,제출전동기차탑재궤전공제무급변속기적결구방안,병상응지건립료전궤수치모형、전지충전수학모형화궤전공제무급변속기속비공제모형。종합고필전궤효솔、궤전공제무급변속기효솔、전지하전상태화정차특성,제출료재생제동시궤전공제무급변속기적변속책략。재MAT-LAB/Simulink방진평태상,탑건료계통재생제동성능방진모형,병대탑재궤전공제무급변속기적전동기차재생제동성능진행료방진。결과표명,채용소제출적변속책략여전통량당변속책략상비,능경호지발휘전동기차성능,제고재생제동과정중적능량회수솔。통과태가시험,험증료방진결과적유효성。
A configuration of electric vehicle equipped with electro-mechanical continuously variable trans-mission ( EMCVT) is put forward based on the analysis on the working principle of EMCVT, and the corresponding motor model, battery charging model and the speed ratio control model for EMCVT are established. With considera-tions of motor efficiency, EMCVT efficiency, battery SOC and vehicle characteristics, the shift strategy for EMCVT in regenerative braking is proposed. A simulation model is then built and a simulation on the regenerative braking performance of electric vehicle equipped with EMCVT is conducted with MATLAB/Simulink platform and its results are verified by bench tests. It is shown that compared with traditional two gear shift strategy, the shift strategy pro-posed can better give full play to the performance of electric vehicle and increase the energy recovery rate in regener-ative braking.