The switching operation between the two cam lobes is controlled by the ECU which takes account of engine oil pressure, engine temperature, vehicle speed, engine speed and throttle position.
两个凸轮凸角之间的切换系统,是通过ECU对引擎的油压、温度、行驶速度、引擎转速和节油门位置的综合计算,而实现对其的控制的。
The results show that the error of estimated value of both throttle position sensor and manifold pressure sensor are less than 10%, and the strategy put forward in this paper is valid.
结果显示,大部分工况下进气压力传感器和节气门位置传感器的信号重构误差可控制在10%以内,表明了所提出的调节策略是切实有效的。
Control unite USES extensive 8031 system, sensor system mainly include the Throttle Position sensor, Dissipating Heat Piece Temperature sensor and ignition signal sensor.
控制单元采用扩展的8031系统,传感器主要有节气门传感器、散热片温度传感器和点火信号发生器。
The author introduces the structure and working principle of this throttle and elaborates the initializing process of the throttle and the accelerator position sensor.
本文介绍电子节气门系统的结构和工作原理,并对电子节气门和加速踏板位置传感器的初始化过程进行说明。
This paper introduces the structure and working principles of the throttle position sensor (TPS), emphasizing on its function and inspection method.
阐述节气门位置传感器(TPS)的结构和工作原理,重点介绍节气门位置传感器的功能和检测方法。
The author analyzes common ways to inspect the air throttle position sensors of linear variable resistor 'switching and decoding.
对线性可变电阻型、开关型、编码型节气门位置传感器常用的检修方法进行分析和探讨。
Next is software design of the system, including overall system flow chart, throttle position detection map and the step motor commutation and the point of sub-flow chart.
系统的设计除了硬件还需要软件来支撑,软件设计包括系统整体流程图、油门位置检测图和步进电机换相及角度细分流程图。
A return switch (RS) is responsive to the motor throttle body, and a pressure sensitive switch (PSS) is responsive to the accelerator pedal position.
返回开关(RS)是顺应电机油门身体,压力感应开关(PSS)的回应是由于油门踏板的位置。
You can see at any moment in a lap speed, throttle / brake position, steering angle and track position.
可以通过微调油门来使重量转移到车头,帮助增加前轮的牵引力,使转向能力增强,修正转向不足。
The result shows that the control system of electronic throttle had good following characteristic and realizes position control of electronic throttle. The system will benefit the automotive...
实验结果表明,该电子节气门控制系统具有良好的跟随特性,实现了节气门系统的位置控制,为提高汽车的动力性、经济性、排放性打下了基础。
Analyzing various inputs, such as vehicle speed, engine RPM, throttle position, etc., the TCM decides which gear to shift to and when.
TCM通过分析各种输入信号,例如车速、发动机转速、节气门位置等,来决定何时换入何挡。
Analyzing various inputs, such as vehicle speed, engine RPM, throttle position, etc., the TCM decides which gear to shift to and when.
TCM通过分析各种输入信号,例如车速、发动机转速、节气门位置等,来决定何时换入何挡。
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