bdn2004
Electrical
- Jan 27, 2007
- 794
On a recent project an old 15 kV fused switchgear was replaced by new switchgear that uses HV vacuum circuit breakers and SEL-351S relays on the feeders that land on step-down transformers. Looking at the curves for the new feeder relays vs old E-rated fusing … the instantaneous setting for the new relays is set multiples from where the old fusing curves show. This drives the arc-flash up to Danger levels. But when questioning the engineer who made the settings, he constantly repeats the following that is typed out below. It sounds like something from the manufacturer. And he won’t adjust the instantaneous settings. Not sure I’m understanding what he’s saying here…. Can someone put this in layman’s terms and is he right?
CT Saturation Protection
The SEL-351S phase instantaneous overcurrent elements normally operate using the output of a cosine filter algorithm. During heavy fault currents when the relay-detects severe CT saturation, the overcurrent elements can operate the adaptive current algorithm.
The adaptive current algorithm is only used for phase instantaneous overcurrent elements if and only if the corresponding pickup setting is greater than eight times the nominal phase current. For example, if 50PI, 50A1, 50B1 and 50C1 = 45A (in a 5A nominal phase current relay), then 50PI, 50A1, 50B1, and 50 C1 elements operate on an adaptive current algorithm. However, if 50PIP = 35 A, then the 50P1, 50A1, 50B1, and 50C1 elements operate on the output of a cosine filter algorithm. No other overcurrent elements use the adaptive current algorithm.
Based on the level of a “harmonic distortion index”, the adaptive current is either the output of the cosine filter or the output of the bipolar peak detector. When the harmonic distortion index exceeds the fixed threshold that indicates severe CT saturation, the adaptive current in the output of the bipolar peak detector. When the harmonic distortion index is below the fixed threshold, the adaptive current in the output of the cosine filter.
The cosine filter provides excellent performance in removing dc offset and harmonics. However, the bipolar peak detector has the best performance in situations of severe CT saturation when the cosine filter magnitude estimation is degraded. Combining the two filters provides an elegant solution for ensuring dependable phase instantaneous overcurrent element operations.