I agree with marmite, line to gnd fault on the 20 kv line is probably the biggest concern. I assume that the line would have some kind of effective grounding, and an ungrounded source is introduced by connecting a generator through a transformer with delta primary. Your line protection should...
You can add new curves or create new devices in EDSA. Their user manual explains the procedure. EDSA adds new devices but you have to send them the curves and manuals. I do not use EDSA anymore but I believe they have ITEKTOR trip units in their data base. Try search under ABB and Cutler-Hammer...
Hi Fuselink,
No need to explain the through fault protection curve. Stevenal, dpc and DanDel have done it already.
Ideally you should plot the breaker curve and then make a decision on the fuse rating but since you have an old oil dashpot trip unit, I believe that the lowest possible fuse...
FuseLink,
What is the transformer winding arrangement? If it is delta-y with the neutral grounded you have to look at the ground fault on the secondary. The transformer curve has to be shifted by the factor of 0.58. Then you can look at the fuse curve.
When selecting the fuse on the...
I agree that transfer trip is the safest way to isolate the faulted feeder on both ends but it is costly. I know instances where the distributed generation was installed without the transfer trip capabilities. Since your load does not exceed the generator rating it makes sense to use sensitive...
Humble2000, I do not know what you mean by "transformer short time curve". My assumption is that you were dealing with a transformer through-fault protection curve. The reason why your curves are the same is that 1000, 1500 and 2000 KVA transformers (3-phase) are category II transformers and the...
The first thing you should check is the short circuit rating of the low voltage switchgear. It is very likely that it is not high enough to allow for the paralleling of the two transformers.
The software packages I have worked with always asked for the ct ratio. The only time the ct ratio was not required was when you use LV breakers. Since you mentioned LTP and 750 kV transformer, it appears that you are dealing with small distribution transformers. You will have to enter breaker...
Max. and min. fault current is very important in feeder protection. Whether you use reclosers or just overcurrent relays, you should have one element covering the entire feeder and one for close faults. The minimum fault current you would consider is the one calculated for the fault at the end...
I would check the slope of the differential relay. That may take care of the CT saturation problems if you have any. The currents during the external fault should be in the restraining region.
When it comes to 59N, neutral displacement relay, your time delay may be too short and you trip on the...
Hello everyone,
I am looking for Dominion Cutout fuse technical data, in particular interrupting rating of the fuse cat. #BPD34100-7. Can anybody point a direction for my search.
We recently tested a delta-delta transformer to find the reason for the voltage unbalance (about 4%). We did a TTR test and got perfect results. Then, when performing a winding resistance test, we found one primary winding "missing". TTR test would not show too much on a delta-delta...
We are looking for ground grid analysis software. So far we found that CYME and ETAP may suit our needs. I would appreciate any feedback from the users.
Try this link http://standards.ieee.org/colorbooks/sampler/Bluebook.pdf
It is an insert from IEEE Std 1015-1997 - IEEE Recommended Practice fo Applying Low Voltage Circuit Breakers Used in Industrial and Commercial Power Systems. You should find you answers there.