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相关概念视频

Line Protection with Impedance Relays01:27

Line Protection with Impedance Relays

109
Coordinating time-delay overcurrent relays in complex radial systems and directional overcurrent relays in multi-source transmission loops can be challenging. Impedance relays address these issues by responding to the voltage-to-current ratio, specifically measuring the apparent impedance of a line. These relays become more sensitive during faults as current increases and voltage decreases, thereby reducing the apparent impedance.
Under normal conditions, low load currents keep the measured...
109
Differential Relays01:20

Differential Relays

188
Differential relays are used to protect generators, buses, and transformers by comparing electrical quantities at different points. When a fault occurs, the difference in current between the two points triggers the relay to operate, opening the circuit breaker. Under normal conditions, the current entering (i1) and leaving (i2) a generator are equal. When a fault occurs, however, these currents become unequal, and the difference current flows in the relay operating coil, causing the relay to...
188
Pilot and Numeric Relaying01:21

Pilot and Numeric Relaying

107
Pilot relaying is a type of differential protection used in power systems. It compares electrical quantities at the terminals of equipment via a communication channel instead of direct relay interconnection. This method is essential for transmission lines where the terminals are far apart, typically up to 80 km for lines with 69 to 115 kV ratings. Four types of communication channels are used for pilot relaying:
107
Directional Relays01:25

Directional Relays

150
Directional relays, essential for managing unidirectional fault currents, enhance the safety and efficiency of power systems. On power lines equipped with directional relays, faults downstream (to the right) of the current transformer typically cause the fault current to lag the bus voltage by approximately 90 degrees, known as the forward direction. In contrast, upstream (left-side) faults may result in the fault current leading the bus voltage by nearly 90 degrees, termed the reverse...
150
Overcurrent Relays01:26

Overcurrent Relays

124
Overcurrent relays, crucial for circuit protection, are connected to the secondary current of a current transformer. There are two primary types of overcurrent relays: instantaneous and time-delay.
Instantaneous overcurrent relays activate immediately when the input current exceeds a predetermined value, known as the pickup current, instantly energizing the circuit breaker trip coil. This rapid response is vital for addressing severe faults quickly.
Time-delay overcurrent relays, on the other...
124
Reclosers and Fuses01:26

Reclosers and Fuses

136
Automatic circuit reclosers enhance the protection of distribution circuits by interrupting and auto-reclosing an AC circuit according to a preset sequence. They effectively manage temporary faults on overhead distribution lines, often caused by tree limbs or wildlife, by briefly disrupting service to improve overall reliability. However, contact with reclosers or energized broken conductors on the ground can pose serious hazards.
A comprehensive protection scheme for radial distribution...
136

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相关实验视频

Updated: Jul 26, 2025

Large Scale Energy Efficient Sensor Network Routing Using a Quantum Processor Unit
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继电器辅助异质网络中的半双流和全双流干扰缓解.

Moubachir Madani Fadoul1, Chee-Onn Chow1

  • 1Department of Electrical Engineering, Faculty of Engineering, University of Malaya, Kuala Lumpur, Malaysia.

PloS one
|June 20, 2023
PubMed
概括

这项研究消除了使用混合光束成形和功率分配在多细胞中继网络中的干扰. 拟议的方法显著提高了系统性能,提高了ergodic容量并降低了中断概率.

科学领域:

  • 无线通信网络是无线通信网络.
  • 电信中的信号处理.

背景情况:

  • 具有半双流 (HD) 和全双流 (FD) 继电器的多细胞环境面临干扰挑战,如继电器间干扰 (IRI),继电器残留干扰 (RSI) 和继电器到目的地干扰 (RDI).
  • 这些干扰会降低系统性能,导致更低的ergodic容量和更高的中断概率,特别是当子不完美对齐时.

研究的目的:

  • 提出一种新的方案,在多细胞继电器环境中有效消除IRI,RSI和RDI.
  • 通过对继电器和目的地的联合电力分配来优化系统容量.

主要方法:

  • 实现一种混合的零强迫和奇数值分解 (ZF-SVD) 束形技术,使用虚空间投影.
  • 应用联合电力分配 (联合PA) 策略用于中继和目的地.

主要成果:

  • 拟议的混合ZF-SVD光束成型成功消除了IRI,RSI和RDI,解决了先前研究的局限性.
  • 联合电力分配优化了容量,进一步提高了系统性能.

结论:

  • 与基线方法相比,开发的方案在 ergodic 容量和中断概率方面表现出优越的性能.
  • 这项研究为先进的无线中继系统的干扰缓解提供了有效的解决方案.

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