西门子负责的部分包括:列车控制及诊断系统、牵引逆变器、辅助逆变器、制动电阻、高压箱及受电弓,以及牵引电动机和齿轮箱。
Siemens' scope of supply includes: train control and diagnosis system, traction inverter, auxiliary inverter, brake resistor, HV box and Pantograph, as well as traction motor and gear box.
介绍了模糊控制理论与智能分析技术在阜阳车辆段研制的列车制动充风过程中以及在制动机故障分析中的应用情况。
Described are the application of the fuzzy control theory and intellectual analysis technology in the train brake charging process and in the analysis of the brake troubles in Fuyang Depot.
结果表明选用的控制器能够达到理想的制动效果,对磁悬浮列车制动系统的工程研究具有一定的参考价值。
The result shows that the ideal effect is achieved with the controller, and it is useful to engineering research of the brake system.
第四章讨论了磁浮列车紧急制动控制系统的设计,并给出了列车紧急制动仿真结果,仿真结果表明控制器的设计是有效的。
In the chapter four, I discussed the design of the maglev train braking control system and lay out the simulation results. The results show that the design is feasible.
因此,本文将从考虑传动系统及机电耦合的角度,对高速列车牵引制动控制及其动力学特性进行深入的研究。
Therefore, this article will study the dynamics and control strategy of vehicle traction and braking systematically by considering the transmission system and the electromechanical coupling relations.
不同的全制动距离阶段划分方式及其设备配置决定了高速客运专线信号控制及列车运行方式。
The signaling and operations of high-speed passenger trains depend on the braking stage design and relative equipment configuration to fulfill a complete braking process.
最后讨论了磁浮列车紧急制动控制系统的设计,用MATLAB仿真实现了模糊控制器下的紧急制动控制系统,并且在不同路况下验证了控制器的设计是有效的。
Furthermore, Fuzzy controller is designed for the emergent brake control system. The simulation of this controller is given in MATLAB with perfect performances in different road conditions.
列车的速度-间隔控制采用一次制动模式曲线方式并以速度分级模式曲线方式作为备用模式。
The speed-interval control of high-speed trains adopts the one-step braking curve mode, and multi-step braking curve is as a standby mode.
介绍HXD1型大功率交流电力机车用SIBAS32控制系统、TCN列车通讯网络及其CCU控制软件的结构,分析机车网侧部件控制、自动过分相控制、操作逻辑控制、牵引/制动控制等功能,给出了机车故障诊断和调试的方法。
Presented in this paper are the structure of SIBAS32 control system, TCN train communication network and its CCU control soft of type HXD1 high-power AC electric locomotive.
介绍HXD1型大功率交流电力机车用SIBAS32控制系统、TCN列车通讯网络及其CCU控制软件的结构,分析机车网侧部件控制、自动过分相控制、操作逻辑控制、牵引/制动控制等功能,给出了机车故障诊断和调试的方法。
Presented in this paper are the structure of SIBAS32 control system, TCN train communication network and its CCU control soft of type HXD1 high-power AC electric locomotive.
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