汽车电子控制系统

  • 网络automotive electronic control systems
汽车电子控制系统汽车电子控制系统
  1. 针对汽车电子控制系统和车载多媒体系统,探讨了汽车总线系统通信协议的技术特点和发展趋势。

    As to automotive electronic control systems and on-board multi-media systems , the technical features and development trend of communication protocols of automotive bus line systems are discussed .

  2. 同时以嵌入式系统为主要形态的汽车电子控制系统在整车中所占的价值比重不断攀升,预示着汽车正在成为高度信息化的产品。

    Meanwhile , the values of Automotive Electronic Control Systems based on embedded systems have become more and more important in a whole automotive , which indicates that the automotives are becoming the products highly based on information technologies .

  3. 利用该方法,可以使用一个后备控制ECU(ElectronicControlingUnit)来完成整个汽车电子控制系统的后备控制。

    With the mode , only an ECU is needed to achieve the whole systemic standby control .

  4. 重点介绍汽车电子控制系统3个组成部分&传感器、ECU、执行器的故障识别。

    This paper introduces the fault identification of the three components of the auto electronic-controlled system , which are sensors , ECU and executors .

  5. 分析汽车电子控制系统中常用的几种控制理论,分析汽车无级变速传动装置(CVT)控制系统的要求和特点。

    This paper analyzes several control theories in automobile electronic control system and the demands and characteristics of the control system for car Continuously Variable Transmission ( CVT ) .

  6. 数字与网络技术在现代汽车电子控制系统中的应用

    Application of Digital and Net Techniques in Electronic Control System of Modern Automobile

  7. 汽车电子控制系统驱动保护电路的分析与设计

    Analysis and Design of Drive / Protection Circuit of Auto Electronic Control System

  8. 汽车电子控制系统的波形诊断方法

    Method to Diagnose Automobile Electronic Control System With Waveform

  9. 汽车电子控制系统的电磁兼容性研究

    Study on Electromagnetic Compatibility of Automotive Electronic Control System

  10. 汽车电子控制系统是嵌入式系统技术集中应用。

    Automotive Electronic Control Technology is the main application of the embedded system technology .

  11. 汽车电子控制系统中的故障自诊断

    Fault Self-diagnosis of Auto Electronic-controlled System

  12. 本文介绍了用于开发汽车电子控制系统的新技术,即计算机模拟及快速成形技术。

    New technology of developing vehicle electronic control system , computer module and rapid prototyping are introduced .

  13. 汽车电子控制系统是汽车车身控制、底盘控制和动力控制的关键核心。

    Automotive electronic control system is the critical core of automotive body control , chassis control and power control .

  14. 故障自诊断系统的作用是监视汽车电子控制系统的工作情况。

    The function of the fault self-diagnosis system is to monitor the working situation of the auto electronic controlled system .

  15. 汽车电子控制系统是现代汽车中技术含量最高部件之一。

    Electronic control system is one of the largest components in automobile which has the highest technical content and profit margin .

  16. 本文介绍了汽车电子控制系统驱动保护电路的设计,给出其各个组成模块的实例。

    The article mainly introduces the analysis and design of drive / protection cir-cuit of auto electronic control system . Examples of circuit modules are given .

  17. 论述汽车电子控制系统自诊断及传感器自诊断系统,就最新的汽车故障诊断技术的基本原理与特点作了比较深入的探讨。

    It discusses the self-diagnosis of the auto electronic controlled system and sensor . Fundamental and characteristic of fault diagnosis technologies of auto are rather deeply researched .

  18. 它广泛应用于汽车电子控制系统中,也是唯一一个成为国际标准的汽车局域网。

    This problem has been resolved by CAN bus , which has been using widely in automobile electronic control system and is an exclusive automobile LAN as international standard .

  19. 多能源动力总成控制器是混合动力汽车电子控制系统的重要组成部分,其结构、性能、通信方式直接影响到整车的控制策略和控制方式。

    Multi-energy powertrain controller is the kernel of hybrid electric vehicle electric control system . Its structure , performance , communication mode will directly affect the whole vehicle 's control strategy and control mode .

  20. 汽车电子控制系统越来越复杂,汽车应用软件的开发难度也与日俱增。

    With the continuous progress of automobile technology , the electronic components used in automotive controling are becoming more and more , which making the automotive electronic control systems more and more complex , and the automotive applications software development has become increasingly difficult .

  21. 汽车电子控制系统研究厂商众多,系统中用到的处理器也是千差万别,运行环境更是各有千秋,因此在开发汽车电控系统过程中的一个主要难题就是嵌入式软件的复用。

    The automobile manufactures were so many that the CPUs of automotive electronic control units ( ECU ) and run-time environment were dramatically different . Therefore a major problem in the development of automotive ECU is how to reuse the existing embedded software code .

  22. 本文在介绍丰田(TOYOTA)汽车电子控制转向系统组成、原理的基础上,着重讨论其正确的使用和检修方法。

    This paper stresses on the proper method of use and maintenance based on introduction of its composing and principle of the electronic-controlled power steering system on TOYOTA vehicle .

  23. 本文主要介绍ECU及其在燃油喷射、点火和废弃再循环等三个重要的汽车发动机电子控制系统中的作用。

    The article mainly introduces the ECU and its effects during the following three important auto engineer electronic control systems of the fuel jet , inflaming and waste-recycle .

  24. 汽车发动机电子控制系统故障自检方法

    Fault Self examining Methods of Electronic Control System on Automobile Engine

  25. 汽车电子控制悬架系统的原理及应用

    Principle and Application of Automobile Electronic Control Suspension System

  26. 现代汽车电子巡航控制系统的原理及实现

    The Principle and Implementation of Cruise Control System

  27. 汽车电子巡航控制系统(上)

    Auto Cruise Control System (ⅰ)

  28. 本文着重介绍了汽车电子巡航控制系统及其各主要部件的结构、原理。

    This paper introduces auto electronic cruise control system and the structure and principle of its key component .

  29. 概述了现代汽车安全电子控制系统,展望未来汽车安全电子控制技术的发展。

    This article summarizes the electronic control system for the safety of modern automobiles and prospects for the development of this technology .

  30. 研究汽车电子稳定性控制系统对爆胎汽车的控制作用。

    It has been studied that the control effects of the electronic vehicle stability control system on the vehicle after tire blow-out .