文中简述了磁浮列车悬浮系统的基本结构和原理。
The structure and its principle of suspension system are given.
悬浮系统由车载电池馈电,因而与驱动系统无关。
The levitation system is supplied from on-board batteries and thus independent of the propulsion system.
针对悬浮系统的非线性特征,设计了一种非线性悬浮控制器。
Aiming at the nonlinearity of the magnetic suspension system, a nonlinear controller was designed.
总结出的结论为超导悬浮系统的分析和设计提供重要的参照。
These results deduced from the discussions can supply important references to analysis and design of similar superconducting suspension systems.
静电悬浮系统中通常采用高压放大器提供的高压产生静电力。
High voltage amplifiers are widely used for electrostatic force generation in high performance electrostatic levitation systems.
针对悬浮系统的非线性特征,设计了一种非线性悬浮控制器。
Finally the design of a non linear suspension controller was presen.
整个磁悬浮系统舒适性设计的目的就是实现旅客的乘坐舒适性。
The purpose of suspension system design of Maglev-train is to improve the passenger's comfortableness on the seat. The magnetic railway is generally supported.
磁悬浮系统依靠列车上电磁铁导向和铁磁定子之间的吸力工作。
The magnetic levitation system is based on the power of attracting between the electromagnets in the vehicle and the ferromagnetic stator packs in the guideway.
提出用有限元法及相似原理来分析、计算磁悬浮球的悬浮系统。
An analysis and calculation of the suspension system of maglev ball by finite element method (FEM) and similarity principle is presented.
本文着重分析了不同永磁体厚度可控永磁悬浮系统的特性曲线。
The characteristic curves of controlled-PMmaglev system with different thickness permanent magnets are mainly studied in this paper.
研究采用串级PID控制的奇异摄动磁悬浮系统参数稳定范围。
The stable range of singularly perturbed maglev system parameter was studied based on cascade PID controller.
磁悬浮系统作为一种新型系统,具有其它系统所不具备的特点。
Maglev system is a new kind of industry system with many peculiar advantages.
从理论上简要介绍了单轴式声悬浮系统的性质和谐振模式的概念。
The properties and resonant modes of single axis acoustic levitation system are presented.
本文介绍了磁悬浮系统的组成以及它的工作原理,建立了数学模型。
This paper deals with magnetic Suspension system and its operating principle and mathematic model set up.
胶体悬浮系统是指微小颗粒分散于溶剂中而形成的系统,是软物质的一种。
The colloidal suspension system which is formed by diffusing small particles in solvent, is a sort of soft matter.
单磁铁悬浮系统的分析和综合是磁悬浮列车等悬浮系统分析和控制的基础。
The analysis and synthesis of single Maglev(Magnetic Levitation) system is the basis of analyzing and controlling of the Maglev systems such as Maglev train, etc.
本文首先基于悬浮系统的确定性模型,运用双环控制思想设计其数字控制器。
This paper first utilizes the ideological design digital controler of double-loop control based on the magnetic definite model of system.
研究多分量胶体悬浮系统的反射理论,给出用反射理论推导转动扩散张量的方法。
This paper studies the reflection theory for multi-component colloidal suspension systems and presents the method of deriving the rotational diffusion tensor.
磁悬浮系统依靠车辆上的电磁铁和固定在轨道上的磁铁定子之间的引力实现运行。
The magnetic levitation system is based on the power of attraction between the electromagnets in the vehicle and the ferromagnetic stator packs in the guideway.
悬浮控制是磁悬浮系统的关键问题之一,其牵引系统必须在稳定悬浮的基础上设计。
The levitation control scheme is the key problem of the maglev system, and the propulsion system has to be designed on the base of stable levitation.
针对磁悬浮系统的非线性和不确定性,设计了基于反馈线性化的滑模变结构悬浮控制器。
Aimed at the nonlinearity and uncertainty of magnetic suspension system, a slide mode variable structure controller is designed based on feedback linearization.
研究电磁永磁混合悬浮系统中,利用CPLD产生两路互补、带死区的PWM波的方法。
In the system of hybrid suspension with electromagnets and permanent magnets, a method of producing two complementary PWM wave with dead-time using CPLD is proposed.
悬浮电磁铁的动态模型是悬浮系统的重要组成部分,是进行悬浮系统稳定性控制的基础。
The dynamic model of levitation electro-magnet is the important part of levitation system. It is also the basis of levitation system stability control.
控制器是磁悬浮系统中的重要环节,其性能与系统的稳定性及各项技术指标有着密切关系。
The controller is one of key parts in the magnetic suspension system. And its performance has close relations with the system stability and other various technical indicators.
悬浮系统是高速磁浮列车系统的关键和核心,而间隙传感器又是悬浮系统的重要组成部分。
The gap sensor plays an important role for electromagnetic suspensive system which is a critical component of HSMV.
经分析比较,提出了一种用高温超导线圈和常导线圈构成的混合式电磁吸力型悬浮系统方案。
This paper presents a new suspension system with hybrid electromagnets made of high temperature superconductor and normal conductor coil.
针对电磁-永磁混合磁悬浮系统零功率控制中的电流积分问题,开展电流积分负作用的研究。
In allusion to the current integral action in zero-power control of hybrid suspension system with electro and permanent magnets, the negative effect was researched.
悬浮系统是高速磁悬浮列车的关键,而其中的间隙传感器则是悬浮系统的重要组成部分之一。
In HSMV, the levitation system plays an important role, and the gap sensor is also critical.
悬浮系统是高速磁悬浮列车的关键,而其中的间隙传感器则是悬浮系统的重要组成部分之一。
In HSMV, the levitation system plays an important role, and the gap sensor is also critical.
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