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相关概念视频

The Maximum Power Transfer Theorem01:20

The Maximum Power Transfer Theorem

603
Consider a linear AC Thevenin equivalent circuit connected to a load impedance.
The load connected draws the current, and the circuit delivers the power to the load. The alternating current flowing through the load is determined using the rectangular form of voltages, currents, network impedance, and load impedance. The average power delivered to the load is obtained from the product of the square of current and load resistance.
603
Mesh Analysis for AC Circuits01:12

Mesh Analysis for AC Circuits

370
In the domain of radio communication, the significance of impedance matching must be considered. It is crucial to ensure the efficient transmission of signals between radio transmitters and receivers. Achieving this balance involves using impedance-matching circuits, with one fundamental configuration comprising a resistor, capacitor, and inductor.
The process of harmonizing these impedances begins with a clear understanding of the input and output signals. Once these signals are known, the...
370
Maximum Power Transfer01:16

Maximum Power Transfer

253
Numerous practical applications within engineering disciplines, such as telecommunications, necessitate optimizing power delivery to a connected load. This pursuit, however, entails inherent internal losses, which can either equal or exceed the power supplied to the load. The Thevenin equivalent circuit is helpful in finding the maximum power a linear circuit can deliver to a load. It is assumed in this context that the load resistance can be adjusted.
By substituting the entire circuit with...
253
Reducing Line Loss01:18

Reducing Line Loss

151
In a three-phase circuit, line loss is an indicator of energy dissipated as heat due to the resistance of transmission lines. To address this, incorporating transformers into the system—a step-up transformer at the source and a step-down transformer at the load—is a strategic solution. Two three-phase transformers are introduced to improve this.
With a step-up transformer at the source, the voltage is increased, thereby reducing the current in the transmission lines since power loss...
151
Power Factor Correction01:20

Power Factor Correction

172
The power transmission to a factory involves the transfer of apparent power, a combination of active and reactive power. The power factor measures how effectively electrical power is converted into useful work output. The ratio of the real power (KW) that does the work to the apparent power (KVA) supplied to the circuit.
172
MOSFET: Enhancement Mode01:22

MOSFET: Enhancement Mode

328
Enhancement-mode MOSFETs are pivotal components in electronics, distinguished by their capacity to act as highly efficient switches. They are part of the larger family of metal-oxide Semiconductor Field-Effect Transistors (MOSFETs). They are available in two types: p-channel and n-channel, each tailored to specific polarity operations.
In their basic form, enhancement-mode MOSFETs are typically non-conductive when the gate-source voltage (Vgs) is zero. This default 'off' state means no...
328

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Updated: Jun 26, 2025

Design and Characterization Methodology for Efficient Wide Range Tunable MEMS Filters
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Design and Characterization Methodology for Efficient Wide Range Tunable MEMS Filters

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基于全电流模式阻抗匹配的无线电力传输效率优化跟踪方法

Yuanzhong Xu1, Yuxuan Zhang1, Tiezhou Wu1

  • 1Hubei Key Laboratory for High-Efficiency Utilization of Solar Energy and Operation Control of Energy Storage System, Hubei University of Technology, Wuhan 430063, China.

Sensors (Basel, Switzerland)
|May 11, 2024
PubMed
概括
此摘要是机器生成的。

本研究引入了一种新的跟踪方法,用于优化使用全电流模式阻抗匹配的无线电力传输效率. 该方法增强了系统检测能力,并确保无线能源应用中的峰值性能.

关键词:
这是一个 MATLAB 模拟.检测效率 检测效率 检测效率 检测效率效率跟踪 效率跟踪 效率跟踪全电流模式的全电流模式.无线电力传输是无线电力传输.

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科学领域:

  • 电气工程 电气工程
  • 电力电子 电力电子 电力电子
  • 无线通信无线通信

背景情况:

  • 无线电力传输 (WPT) 对于智能家居,物联网和电动汽车等现代应用至关重要.
  • 优化WPT系统的效率是一个重要的研究挑战.
  • 目前的WPT系统需要改进效率跟踪和模式切换功能.

研究的目的:

  • 提出和验证一种新的跟踪方法,以优化无线电力传输效率.
  • 提高WPT系统的检测能力.
  • 为了使连续和不连续的导电模式之间无切换.

主要方法:

  • 开发了一种基于全电流模式阻抗匹配的跟踪方法.
  • 拟议的方法是使用MATLAB.模拟的.
  • 通过模拟验证了系统的可行性和有效性.

主要成果:

  • 提出的方法可以在无线电力传输系统中实现最佳效率跟踪.
  • 它成功地实现了连续和不连续导电模式之间的无切换.
  • 该方法扩大了WPT系统的检测能力.

结论:

  • 开发的全电流模式阻抗匹配方法为优化WPT效率提供了实际价值.
  • 该方法显示了在各种无线能源传输场景中广泛应用的潜力.
  • 模拟结果证实了该方法在提高WPT系统性能方面的有效性.