上海理工大学学报
上海理工大學學報
상해리공대학학보
Journal of University of Shanghai for Science and Technology
2015年
4期
362-367
,共6页
摩托车发动机%燃油喷射%电子点火%控制参数标定
摩託車髮動機%燃油噴射%電子點火%控製參數標定
마탁차발동궤%연유분사%전자점화%공제삼수표정
motorcycle engine%fuel injection%electronic ignition%control parameters calibration
为实现摩托车发动机从化油器技术向电控燃油喷射技术转变,满足日益严格的排放法规,在某型号摩托车单缸化油器式发动机的基础上,对原机型进气系统、点火系统以及喷油系统进行了改进,通过自行设计的摩托车发动机电子控制系统实现了发动机工作过程的电子控制。控制系统采用MC9S12XS128单片机作为主控芯片,运用模块化软件控制程序实现了传感器信号的采集与处理,对点火和喷油等执行机构进行精确控制,并利用该电子控制系统对点火时刻及空燃比参数进行了标定和优化。实验表明,采用电子控制系统后,发动机在不同工况下的动力性和经济性得到显著提高。
為實現摩託車髮動機從化油器技術嚮電控燃油噴射技術轉變,滿足日益嚴格的排放法規,在某型號摩託車單缸化油器式髮動機的基礎上,對原機型進氣繫統、點火繫統以及噴油繫統進行瞭改進,通過自行設計的摩託車髮動機電子控製繫統實現瞭髮動機工作過程的電子控製。控製繫統採用MC9S12XS128單片機作為主控芯片,運用模塊化軟件控製程序實現瞭傳感器信號的採集與處理,對點火和噴油等執行機構進行精確控製,併利用該電子控製繫統對點火時刻及空燃比參數進行瞭標定和優化。實驗錶明,採用電子控製繫統後,髮動機在不同工況下的動力性和經濟性得到顯著提高。
위실현마탁차발동궤종화유기기술향전공연유분사기술전변,만족일익엄격적배방법규,재모형호마탁차단항화유기식발동궤적기출상,대원궤형진기계통、점화계통이급분유계통진행료개진,통과자행설계적마탁차발동궤전자공제계통실현료발동궤공작과정적전자공제。공제계통채용MC9S12XS128단편궤작위주공심편,운용모괴화연건공제정서실현료전감기신호적채집여처리,대점화화분유등집행궤구진행정학공제,병이용해전자공제계통대점화시각급공연비삼수진행료표정화우화。실험표명,채용전자공제계통후,발동궤재불동공황하적동력성화경제성득도현저제고。
The technology transformation from carburetor technology to electronic fuel injection (EFI)is an effective way to meet the increasingly stringent emissions regulations.On a certain type single cylinder carbureted motorcycle engine,the intake system,ignition system and fuel injection systems were improved,and the electronic control of engine operation was achieved through a self-designed motorcycle engine electronic control system.The control system selects MC9S12XS128 microcontroller as a master chip,and the acquisition and processing of sensor signals were realized through modularized software control program.The ignition and fuel injection actuators were precisely controlled.The ignition timing and air-fuel ratio were calibrated and optimized by the use of electronic control system.The experimental results show that using the electronic control system,the engine power and economy are improved significantly.
