共查询到19条相似文献,搜索用时 508 毫秒
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根据混合动力汽车的特点,为解决汽车控制单元CAN通信干扰问题,运用ARM7系列LPC2119控制器和CTM1050T隔离CAN收发器,在分析混合动力汽车CAN总线应用层协议基础之上,组建了基于CAN总线多主分布式控制技术的控制网络。提出了一种基于ARM7内嵌式CAN控制器的混合动力汽车能源总成控制系统CAN通信的设计与实现方案,经试验证明,本系统工作正常、信号稳定及抗干扰能力强,成功实现了与整车CAN网络的通信。 相似文献
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J. H. Song J. X. Wang H. B. Tang X. J. Mao B. Zhuo 《International Journal of Automotive Technology》2009,10(4):523-528
A controller for a diesel hybrid electric vehicle based on a V-cycle development approach is investigated in this paper. The
hardware and infra program of the Hybrid Control Unit (HCU) are discussed in detail. The hardware system is designed based
on circuit simulation; while the infra system is written with assemble language. Time sharing mode, buffer sharing mode and
multi-task schedule method are used to ensure real-time communication in the infra program design. Based on multi-thread technology,
hardware in loop test system is also designed. The hardware in loop and bench tests show that the controller could meet the
requirements of the hybrid electric vehicle (HEV) and communicate in real-time. Circuit simulation, HCU, infra program and
hardware in loop test form the effective V-cycle development platform to design a hardware system for a diesel HEV controller. 相似文献
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C. -L. Wang C. -L. Yin T. Zhang L. Zhu 《International Journal of Automotive Technology》2009,10(5):589-596
The powertrain of an ultra-capacitor-based parallel hybrid electric vehicle (HEV) was developed. Innovations, such as the
engine management system, floating ISG (Integrated Starter and Generator), electronic-controlled double-clutch system and
dual-driven air conditioning system were realized. Hybrid control strategies to improve the fuel economy and reduce emissions
were analyzed briefly. In order to ensure the vehicle emission performance, the engine management system calibration was performed.
The vehicle emission test was also conducted, showing that the vehicle emission satisfied the EURO III standard and has great
potential for improvement. The hybrid start test was introduced in detail. We realized the hybrid function and start parameter
optimization of the engine and ISG. 相似文献
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This paper is a continuation of a previous paper titled ??Modeling and Model Predictive Control for Hybrid Vehicle?? published on IJAT/2011 describing a mathematical model and design for a model predictive controller for tracking speeds and simulations. The present paper further describes a fuzzy logic controller for the smooth and quick engagement of an automatic clutch. The described controller uses both fuzzy logic and slip control algorithms to enable automatic clutch engagement. Clutch engagement and comprehensive simulations for the hybrid vehicle are conducted in MATLAB R2009s. The research described herein offers theoretical solutions for how to better control clutch slip and engagement within realistic parameters used for hybrid vehicles. Algorithms and operations of this fuzzy logic controller can be implemented in electronic control units for automatic clutch engagements and gear-shifting processes. 相似文献
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Analysis of a regenerative braking system for Hybrid Electric Vehicles using an Electro-Mechanical Brake 总被引:3,自引:0,他引:3
J. K. Ahn K. H. Jung D. H. Kim H. B. Jin H. S. Kim S. H. Hwang 《International Journal of Automotive Technology》2009,10(2):229-234
The regenerative braking system of the Hybrid Electric Vehicle (HEV) is a key technology that can improve fuel efficiency
by 20∼50%, depending on motor size. In the regenerative braking system, the electronically controlled brake subsystem that
directs the braking forces into four wheels independently is indispensable. This technology is currently found in the Electronic
Stability Program (ESP) and in Vehicle Dynamic Control (VDC). As braking technologies progress toward brake-by-wire systems,
the development of Electro-Mechanical Brake (EMB) systems will be very important in the improvement of both fuel consumption
and vehicle safety. This paper investigates the modeling and simulation of EMB systems for HEVs. The HEV powertrain was modeled
to include the internal combustion engine, electric motor, battery and transmission. The performance simulation for the regenerative
braking system of the HEV was performed using MATLAB/Simulink. The control performance of the EMB system was evaluated via
the simulation of the regenerative braking of the HEV during various driving conditions. 相似文献