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相关概念视频

Torque On A Current Loop In A Magnetic Field01:13

Torque On A Current Loop In A Magnetic Field

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The most common application of magnetic force on current-carrying wires is in electric motors. These consist of loops of wire, which are placed between the magnets with a magnetic field. When current flows through the loops, the magnetic field applies torque, which causes the shaft to rotate, thus converting electrical energy to mechanical energy.
Consider a rectangular current-carrying loop containing N turns of wire, placed in a uniform magnetic field. The net force on a current-carrying loop...
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Three-Phase Short Circuit—Unloaded Synchronous Machine01:21

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Conducting a three-phase short circuit test on an unloaded synchronous machine helps understand its impact on the system. The AC fault current's oscillogram, with the DC offset removed, reveals that the waveform amplitude decreases from an initially high value to a steady-state level for one phase of the machine.
This behavior occurs due to the magnetic flux produced by the short-circuit armature currents. Initially, these currents follow high-reluctance paths but eventually shift to...
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Sequence Networks of Rotating Machines01:24

Sequence Networks of Rotating Machines

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A Y-connected synchronous generator, grounded through a neutral impedance, is designed to produce balanced internal phase voltages with only positive-sequence components. The generator's sequence networks include a source voltage that is exclusively in the positive-sequence network. The sequence components of line-to-ground voltages at the generator terminals illustrate this configuration.
Zero-sequence current induces a voltage drop across the generator's neutral impedance and other...
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Generator Voltage Control01:21

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Generator voltage control is crucial for maintaining the stable operation of synchronous generators and wind turbines. In older models, a DC generator driven by the rotor delivers DC power to the rotor's field winding, and the power is transferred through slip rings and brushes. In the latest models, static or brushless exciters are used. Static exciters rectify AC power from the generator terminals and then transfer the DC power directly to the rotor. Brushless exciters, on the other hand, use...
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Simplified Synchronous Machine Model01:30

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The Synchronous Machine Model is a fundamental tool in analyzing and ensuring the transient stability of power systems. This model simplifies the representation of a synchronous machine under balanced three-phase positive-sequence conditions, assuming constant excitation and ignoring losses and saturation. The model is pivotal for understanding the behavior of synchronous generators connected to a power grid, particularly during transient events.
In this model, each generator is connected to a...
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Generation of Three-Phase Voltage01:21

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A three-phase AC generator has a rotor with a rotating magnet placed within the stator mounted with the stationary three-phase winding to generate three-phase voltages via mutual induction. These windings are evenly distributed around the inner circumference of the stator and are arranged 120 electrical degrees apart. Three-phase stator windings consist of three separate coils or groups of coils, known as phases, each connected in Y (star) configuration or Delta configuration.
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Updated: Jan 13, 2026

Design and Application of a Fault Detection Method Based on Adaptive Filters and Rotational Speed Estimation for an Electro-Hydrostatic Actuator
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一种基于高频正方形波电压信号注入的永久同步电机的无传感器转子位置检测方法.

Anran Song1,2, Zilong Feng2,3, Bo Huang2,3

  • 1School of Mechanical and Electrical Engineering, Suqian University, Suqian 223800, China.

Sensors (Basel, Switzerland)
|January 10, 2026
PubMed
概括
此摘要是机器生成的。

本研究介绍了一种使用第六阶准比例共振 (QPR) 控制器的和电压补偿策略,以减少内部永磁同步电机 (IPMSM) 无传感器控制中的扭矩波动和转速波动.

关键词:
这就是IPMSM的意思.和电压补偿的和电压补偿高频正方形波注入高频正方形波注入多个坐标系是多个坐标系.第六阶准比例共振的共振.

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科学领域:

  • 电气工程 电气工程
  • 控制系统 控制系统
  • 电机驱动器 电机驱动器

背景情况:

  • 内部永磁同步电机 (IPMSM) 的无传感器控制面临着来自低级定子电流波的挑战.
  • 扭矩波动和转速波动是IPMSM控制系统中的重要问题.

研究的目的:

  • 建议和验证IPMSM无传感器控制的波电压补偿策略.
  • 为了抑制第五和第七定子电流波,导致性能降低.

主要方法:

  • 建议使用第六阶准比例共振 (QPR) 控制器进行波电压补偿.
  • 使用多个同步参考框架转换的波电流提取.
  • 有针对性的补偿电压生成和与PI控制器并行连接.

主要成果:

  • 显著抑制了定子电流的扭曲.
  • 有效地减少扭矩和转速波动.
  • 在旋翼位置估计准确度的实质性改进.

结论:

  • 拟议的波电压补偿策略提高了IPMSM无传感器控制性能.
  • 第六级QPR控制器有效地减轻了波干扰.
  • 与传统方法相比,这种新的策略提供了更高的性能.