The research in this thesis probes for a new way to model the AMB system.
轴承非线性特性的建模探索了一种新方法。
Based on the analysis of the AMB system, the one free-degree and five free-degree dynamic model is established.
本文在分析了主动磁悬浮轴承(amb)系统模型的基础上,建立了单自由度、五自由度amb的力学模型。
Discuss the controlling accuracy of displacement sensor used in AMB system. On the basis of this, a design program of differential conduct displacement sensor is given.
讨论了位移传感器对电磁轴承系统控制精度的影响,在此基础上提出一种差动电感式位移传感器的设计方案。
The air defence system will be consisting of Giraffe AMB radars, command stations, communications equipment, air defence missile equipment, Mistral-missiles and training equipment.
整个防空系统由“长颈鹿”(Giraffe)AMB雷达、指挥站、通信设备、防空导弹设备、Mistral导弹和训练设备组成。
Filter is used to process signal in frequency domain and able to improve the performance of AMB control system.
滤波器用于对信号进行频域上的变换处理,可用于改善磁力轴承控制系统性能。
The main content of this paper is about the design of digital control system of AMB based on DSP.
本文主要内容是以数字信号处理器(dsp)为核心设计主动磁轴承的数字控制系统。
In magnetically suspended control moment gyroscope (CMG), self-excited vibration of high-speed rotor is one of principal factor which effects stability of active magnetic bearing (AMB) system.
磁悬浮控制力矩陀螺(CMG)中转子一阶弹性模态自激振动是影响磁悬浮高速转子系统稳定性的关键因素之一。
The induction load of active magnetic bearing(AMB) can directly affect the anti-jamming ability of the high-speed bearing-rotor system.
电磁轴承的感性负载直接影响着高速轴承-转子系统抗干扰能力。
And then we build the inverter-fed three-pole AMB control system in SIMPLORER, the performance of the control system is verified by the simulation.
在SIMPLORER中搭建了逆变器供电式三极电磁轴承的磁悬浮控制系统,仿真结果验证了所设计的控制系统的正确性。
The working principle and the digital controller of an active magnetic bearing(AMB)are investigated, digital control system based on digital signal processor TMS320F240 is discussed.
研究了有源磁悬浮轴承(AMB)的工作原理及其数字控制器,讨论了以定点数字信号处理器TMS32 0F2 4 0为核心的数字控制系统。
The model of AMB rotor control system in industry can not manifest the gyro effect in CMG, so that it is inconvenient to design the control law against the rotor vortex.
以刚体的平动和转动为状态构造主动磁轴承(AMB)转子控制系统模型,可以清晰反映控制力矩(CMG)陀螺效应的影响。
The relations between stiffness and damping performances and structure parameters of an active magnetic bearing (AMB) system and frequency specificity of the control loop are analysed herein.
分析了电磁轴承系统的刚度阻尼特性与系统结构参数及其控制器频响特性之间的关系。
This paper studies on the control system of AMB with the machine tool in the background.
本文主要以机床为应用背景,对主动磁轴承的控制系统进行了研究。
Active magnetic bearing (AMB) system is a complex integrated system including mechanics, electronic and magnetism.
电磁轴承系统是一个复杂的机电磁综合系统。
Aiming at the characteristics of displacement measuring for active magnetic Bearings (AMB), designs a set five degree-of-freedom (5-dof) measuring system based on DSP.
针对磁悬浮轴承位移检测的特点,设计了一套以dsp为核心的五自由度位移测量系统。
The digital control system can be used as practical platform for developing and implementing real time control strategy, industrializing AMB products, and replacing existing analog ones.
这种数字控制系统可作为开发和实施实时控制策略、进行电磁轴承产品工程化的实用平台,也可以替代现有的模拟控制系统。
A new type catcher bearing with an elastic ring is proposed to enhance its working performance in active magnetic bearing (AMB) system.
提出在传统保护轴承外圈加弹性环来提高其在主动磁悬浮轴承(activemagneticbearing,AMB)系统中的工作性能。
Since AMB has the characteristics of non-liner, time-variable and complex couple, this paper proposed biotic intelligence PID control method and simulated the system with Simulink successfully.
针对这个问题 ,将仿人智能控制与模糊控制相结合 ,提出了一种仿人智能模糊控制器 ,给出了该控制器的基本结构、控制算法和仿真结果。
Since AMB has the characteristics of non-liner, time-variable and complex couple, this paper proposed biotic intelligence PID control method and simulated the system with Simulink successfully.
针对这个问题 ,将仿人智能控制与模糊控制相结合 ,提出了一种仿人智能模糊控制器 ,给出了该控制器的基本结构、控制算法和仿真结果。
应用推荐