2013 IEEE Power &Amp; Energy Society General Meeting 2013
DOI: 10.1109/pesmg.2013.6672122
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A new control strategy to mitigate the impact of inverter-based DGs on protection system

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Cited by 20 publications
(28 citation statements)
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“…Results show that when TD is set as 0.45 for ground recloser fast curve, the ground recloser always operate first in fast mode during the faults, then followed by the fuses and the ground recloser slow mode. In this way, fuse-ground recloser coordination without PV system is verified with the defined ground recloser fast and slow curve TCC equations as listed in (5)(6).…”
Section: Fuse-recloser Coordinationmentioning
confidence: 92%
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“…Results show that when TD is set as 0.45 for ground recloser fast curve, the ground recloser always operate first in fast mode during the faults, then followed by the fuses and the ground recloser slow mode. In this way, fuse-ground recloser coordination without PV system is verified with the defined ground recloser fast and slow curve TCC equations as listed in (5)(6).…”
Section: Fuse-recloser Coordinationmentioning
confidence: 92%
“…In [3][4], the possible loss of fuse-fuse coordination and fuserecloser coordination under the impact of distributed generation (DG) is discussed. In order to mitigate the impact of DG on protection coordination, [5] developed a classification technique for recloser-fuse coordination to find the best DG location with proper recloser settings, [6] proposed a new control strategy to limit the DG output current during faults, and [7] utilized the grounding reactance to reduce the residual fault current from DG.…”
Section: Introductionmentioning
confidence: 99%
“…between the recloser location and the fuse, for a fault downstream of the fuse), could act to increase fault current (or cause fault current to persist) for a fault beyond the fuse, resulting in fuse blowing, and potentially resulting in slower recloser operation due to reduced upstream fault current. These coordination problems are discussed further in [22], [23].…”
Section: F Recloser and Fuse Coordination Issuesmentioning
confidence: 99%
“…Some methods of this group use extra PDs such as recloser, breaker, and sectionalizer. This group increases the cost of the protection system. (v)Control of output current of DGs during the fault condition is proposed in Yazdanpanahi et al, Ebrahimi et al, and Fani et al This method reduces the fault current contribution of DGs; however, if the voltage drop across the DG inverter is high, this method leads to the significant reduction of injected power of DG unit (similar to group i). (vi)Adaptive protection is proposed in Shah and Bhalja . In this method, by multiplying the time dial setting (TDS) by the ratio of the current of recloser to the current of the fuse, TDS of recloser fast operation curve is modified.…”
Section: Introductionmentioning
confidence: 99%