Vacuum interrupter

In electrical engineering, a vacuum interrupter is a switch which uses electrical contacts in a vacuum. It is the core component of medium-voltage circuit-breakers, generator circuit-breakers, and high-voltage circuit-breakers. Separation of the electrical contacts results in a metal vapour arc, which is quickly extinguished. Vacuum interrupters are widely used in utility power transmission systems, power generation unit, and power-distribution systems for railways, arc furnace applications, and industrial plants. Since the arc is contained within the interrupter, switchgear using vacuum interrupters are very compact compared with switchgear using air, SF6 or oil as arc-suppression medium. Vacuum interrupters can be used for circuit-breakers and load switches. Circuit-breaker vacuum interrupters are used primarily in the power sector in substation and power-generation facilities, and load-switching vacuum interrupters are used for power-grid end users. The use of a vacuum for switching electrical currents was motivated by the observation that a one-centimeter gap in an X-ray tube could withstand tens of thousands of volts. Although some vacuum switching devices were patented during the 19th century, they were not commercially available. In 1926, a group led by Royal Sorensen at the California Institute of Technology investigated vacuum switching and tested several devices; fundamental aspects of arc interruption in a vacuum were investigated. Sorenson presented the results at an AIEE meeting that year, and predicted the switches' commercial use. In 1927, General Electric purchased the patent rights and began commercial development. The Great Depression and the development of oil-filled switchgear caused the company to reduce development work, and little commercially important work was done on vacuum power switchgear until the 1950s. In 1956, H. Cross revolutionized the high-frequency-circuit vacuum switch and produced a vacuum switch with a rating of 15 kV at 200 A. Five years later, Thomas H.

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Disjoncteur

thumb|upright=1.2|Un disjoncteur bipolaire monté sur rail. Les deux contacteurs solidaires sont en parallèle, mais il existe aussi des disjoncteurs bipoles en monocontacteur. Un disjoncteur est un interrupteur électrique à commande automatique conçu pour laisser circuler le courant électrique, et, protéger un circuit électrique contre les dommages causés par un courant excessif provenant d'une surcharge, d'un court-circuit ou d'une fuite à la terre (disjoncteur différentiel).

Poste électrique

vignette|Tour de transformateur à Mönchengladbach (Rhénanie du Nord). Un poste électrique est un élément du réseau électrique servant à la fois à la transmission et à la distribution d'électricité. Il permet d'élever la tension électrique pour sa transmission, puis de la redescendre en vue de sa consommation par les utilisateurs (particuliers ou industriels). Les postes électriques se trouvent donc aux extrémités des lignes de transmission ou de distribution. On parle aussi de sous-station, entre autres dans les chemins de fer.

Vacuum Circuit Breaker Closing Time Key Moments Detection via Vibration Monitoring: A Run-to-Failure Study

Olga Fink, Gaëtan Michel Frusque

Circuit breakers (CBs) play an important role in modern society because they make the power transmission and distribution systems reliable and resilient. Therefore, it is important to maintain their reliability and to monitor their operation. A key to ensu ...

2022

Breakerless Protection for Voltage Source Converter-Based Marine DC Power Supply Systems

Drazen Dujic, Seongil Kim

DC power supply systems utilising voltage source converters offer several advantages compared with their counterparts in marine low-voltage DC power distribution networks. In case of a two-level voltage source converter fed by a synchronous generator which ...

IEEE2021

Vacuum circuit breaker modelling for the assessment of transient recovery voltages: Application to various network configurations

Mario Paolone, Carlo Alberto Nucci

Vacuum circuit breakers (VCBs) are widely used for medium voltage applications when low maintenance, long operating life, and large number of allowable switching cycles are required. The accurate estimation of the transient recovery voltages (TRVs) associa ...

Elsevier2018

Stabilité transitoire dans les systèmes de puissance EE-470: Power systems dynamics

Explore la stabilité transitoire dans les systèmes d'alimentation, en mettant l'accent sur les paramètres et les méthodes critiques pour améliorer la stabilité du système.