Fault detection and location in DC systems from initial di/dt measurement

Research output: Contribution to conferencePaper

Abstract

The use of DC for primary power distribution has the potential to bring significant design, cost and efficiency benefits to a range of power transmission and distribution applications. The use of active converter technologies within these networks is a key enabler for these benefits to be realised, however their integration can lead to exceptionally demanding electrical fault protection requirements, both in terms of speed and fault discrimination. This paper describes a novel fault detection method which exceeds the capability of many current protection methods in order to meet these requirements. The method utilises fundamental characteristics of the converter filter capacitance’s response to electrical system faults to estimate fault location through a measurement of fault path inductance. Crucially, the method has the capability to detect and discriminate fault location within microseconds of the fault occurring, facilitating its rapid removal from the network.
LanguageEnglish
Publication statusPublished - Nov 2012
EventEuro Tech Con Conference - Manchester, United Kingdom
Duration: 1 Sep 2003 → …

Conference

ConferenceEuro Tech Con Conference
CountryUnited Kingdom
CityManchester
Period1/09/03 → …

Fingerprint

Electric fault location
Fault detection
Power transmission
Inductance
Capacitance
Costs

Keywords

  • DC systems
  • primary power distribution
  • electrical system faults

Cite this

Fletcher, S., Norman, P., Galloway, S., & Burt, G. (2012). Fault detection and location in DC systems from initial di/dt measurement. Paper presented at Euro Tech Con Conference, Manchester, United Kingdom.
Fletcher, Steven ; Norman, Patrick ; Galloway, Stuart ; Burt, Graeme. / Fault detection and location in DC systems from initial di/dt measurement. Paper presented at Euro Tech Con Conference, Manchester, United Kingdom.
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Fletcher, S, Norman, P, Galloway, S & Burt, G 2012, 'Fault detection and location in DC systems from initial di/dt measurement' Paper presented at Euro Tech Con Conference, Manchester, United Kingdom, 1/09/03, .

Fault detection and location in DC systems from initial di/dt measurement. / Fletcher, Steven; Norman, Patrick; Galloway, Stuart; Burt, Graeme.

2012. Paper presented at Euro Tech Con Conference, Manchester, United Kingdom.

Research output: Contribution to conferencePaper

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AU - Fletcher, Steven

AU - Norman, Patrick

AU - Galloway, Stuart

AU - Burt, Graeme

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N2 - The use of DC for primary power distribution has the potential to bring significant design, cost and efficiency benefits to a range of power transmission and distribution applications. The use of active converter technologies within these networks is a key enabler for these benefits to be realised, however their integration can lead to exceptionally demanding electrical fault protection requirements, both in terms of speed and fault discrimination. This paper describes a novel fault detection method which exceeds the capability of many current protection methods in order to meet these requirements. The method utilises fundamental characteristics of the converter filter capacitance’s response to electrical system faults to estimate fault location through a measurement of fault path inductance. Crucially, the method has the capability to detect and discriminate fault location within microseconds of the fault occurring, facilitating its rapid removal from the network.

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KW - DC systems

KW - primary power distribution

KW - electrical system faults

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M3 - Paper

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Fletcher S, Norman P, Galloway S, Burt G. Fault detection and location in DC systems from initial di/dt measurement. 2012. Paper presented at Euro Tech Con Conference, Manchester, United Kingdom.