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。
Control unite USES extensive 8031 system, sensor system mainly include the Throttle Position sensor, Dissipating Heat Piece Temperature sensor and ignition signal sensor.
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。
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.
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。
The author analyzes common ways to inspect the air throttle position sensors of linear variable resistor 'switching and decoding.
如果你有一个节气门位置传感器,您应该能够访问从传感器从计算机或信号连接器本身。
If you have a throttle position sensor, you should be able to access the signal from the sensor itself or from the computer connector.
本文将电涡流技术和单片微型计算机技术相结合,研制出节气门位置智能电涡流传感器。
This paper introduced an intelligent eddy current sensor that combined the eddy current technology with the single chip micro-computer for throttle position detection.
采用标准四通道、四传感器的防抱死制动系统(abs)可通过制动和节气门控制来控制轮胎打滑。
Using the sensors and actuators of four-channel, four-sensor anti-lock brake system (ABS) USES both brake and throttle intervention to control wheel spin.
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。
This paper introduces the structure and working principles of the throttle position sensor (TPS), emphasizing on its function and inspection method.
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。
The author introduces the structure and working principle of this throttle and elaborates the initializing process of the throttle and the accelerator position sensor.
节气门体之间通常是位于空气滤清器箱和进气歧管,通常是位于大规模气流传感器。冷空气摄入量和它如何运作的。
The throttle body is usually located between the air filter box and the intake manifold, and it is usually located near the mass airflow sensor.
节气门位置传感器则把节气门的开度信号反馈给节气门控制单元,形成闭环的位置控制。
Throttle displacement sensor will deliver the throttle opening signal to throttle control unit, forms the displacement control in closed loop.
开发了基于扭矩的控制模型,包括传感器信号处理模型、扭矩模型、怠速模型、节气门模型、空气系统模型、起动控制模型等。
A control model based on torque was developed, including signal processing model, torque model, idle model, throttle model, airflow model, start control model and so on.
开发了基于扭矩的控制模型,包括传感器信号处理模型、扭矩模型、怠速模型、节气门模型、空气系统模型、起动控制模型等。
A control model based on torque was developed, including signal processing model, torque model, idle model, throttle model, airflow model, start control model and so on.
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