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A Low-Power Complementary Metal-Oxide-Semiconductor Receiver with Quadrature Bandpass Continuous-Time Delta-Sigma Analog-to-Digital Converter for IoT Applications. [PDF]
Sensors (Basel)Kim NS.
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Research on dynamic modeling and control strategy of motor driven operating mechanism for 126 kV high voltage vacuum circuit breaker. [PDF]
Sci RepWang Y, Xu J, Li W, Liu J.
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Fault interruption scheme for HVDC systems using GaN-HEMT and VCB. [PDF]
J Power ElectronRaza A +5 more
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Advancing energy integration: renewable sources, ancillary services, and stability. [PDF]
PLoS OneGulraiz A +2 more
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2021 IEEE/IAS 57th Industrial and Commercial Power Systems Technical Conference (I&CPS), 2021
High voltage (HV) capacitor banks are constructed using combinations of series and parallel capacitor units to meet the required voltage and kvar requirements. These capacitor banks utilize protective relays which will trip the bank when problems are detected.
Namita Rani Panda, Santosh Pachpund
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High voltage (HV) capacitor banks are constructed using combinations of series and parallel capacitor units to meet the required voltage and kvar requirements. These capacitor banks utilize protective relays which will trip the bank when problems are detected.
Namita Rani Panda, Santosh Pachpund
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2007 IEEE 34th International Conference on Plasma Science (ICOPS), 2007
Summary form only given. High voltage capacitor banks may be required to deliver precise amounts of energy to the load. Various industrial and scientific systems including lasers, magnets and flash lamps may require precise and repeatable energy delivery. This paper discusses the design of capacitor banks to meet these requirements.
Andrew H. Bushnell +3 more
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Summary form only given. High voltage capacitor banks may be required to deliver precise amounts of energy to the load. Various industrial and scientific systems including lasers, magnets and flash lamps may require precise and repeatable energy delivery. This paper discusses the design of capacitor banks to meet these requirements.
Andrew H. Bushnell +3 more
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Reliability Calculations for Capacitor Banks
IEEE Power Engineering Review, 1983The reliability of high voltage power capacitor banks has been analyzed using a statistical model based on the failure intensity of the single capacitor element. The expected lifetime of the bank is obtained by computer simulation of element failure sequences leading to bank failure according to a preselected criterion.
Ake Danemar, Thomas Lovkvist
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IEEE Transactions on Power Delivery, 1992
A fuseless capacitor bank construction is described. Before the first fuseless capacitor bank, engineering tests were performed to ensure that the fuseless concept was sound. Testing of faulted units included: continuous current, capacitor switching, and capacitor losses (power factor).
P.H. Thiel, J.E. Harder, G.E. Taylor
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A fuseless capacitor bank construction is described. Before the first fuseless capacitor bank, engineering tests were performed to ensure that the fuseless concept was sound. Testing of faulted units included: continuous current, capacitor switching, and capacitor losses (power factor).
P.H. Thiel, J.E. Harder, G.E. Taylor
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Switching High-Voltage Shunt Capacitor Banks
Transactions of the American Institute of Electrical Engineers, 1951ONE OF THE first 34.5-kv capacitor banks in this country was installed recently on the Indianapolis Power and Light Company system. This capacitor bank, totaling 7,290 kva, was part of a system program of adding reactive generation close to reactive load in the most practical and economical manner. See Figures 1 and 2.
A. W. Funkhouser +2 more
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