There are 2 generators that do parallel. Then feed individual breakers that in turn feed 4 ATS.
Kohler and I don't know the model. They are close transition.
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Generator synchronizing time?
- Thread starter MEP_PM
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There are 2 generators that do parallel. Then feed individual breakers that in turn feed 4 ATS.
Kohler and I don't know the model. They are close transition.
Generatorman
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Are you sure the slower ATS's are not in TDN (Time Delay to Normal)...They may not want to unload the gensets quickly therefore inducing a 3 or 5 minute time delay on re-transfer? You will typically see this on older systems that have had loads added to them since their initial install and are loaded beyond 65-75%...and a quick unload may cause a governor bounce thus causing a overspeed condition.....it may not be "sync" your waiting for it may actually be a retransfer Time Delay coupled with sync phase monitoring that makes it seem like an eternity.
If it's Kohler gear....if you can get me the numbers on the main logic board I can tell better what your dealing with - the numbers should be like "A-123456" it's a six digit number typically on a white sticker on the board with a leading letter (IE: A, B, C..up to E).
Just a quick one...on the "troublesome" ATS's do you see any external "boxes" hanging around? (Like a Woodward Sync module ect. ect.?)
If it's Kohler gear....if you can get me the numbers on the main logic board I can tell better what your dealing with - the numbers should be like "A-123456" it's a six digit number typically on a white sticker on the board with a leading letter (IE: A, B, C..up to E).
Just a quick one...on the "troublesome" ATS's do you see any external "boxes" hanging around? (Like a Woodward Sync module ect. ect.?)
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Cold Fusion
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Certainly - All open transition.Cold Fusion, in answer to your last post, I have seen older (30-40yrs) ATSs
(relay logic) without an in-phase monitor but these usually power life safety loads such as lighting, FA, etc., no motors.
cf
Cold Fusion
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There are 2 generators that do parallel. Then feed individual breakers that in turn feed 4 ATS.
Is this what you were describing?
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Cold Fusion
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Just curious:Kohler (ATS) and I don't know the model. They are close transition.
What size generators are we discussing here?
What size ATS?
cf
Yes with an additional breaker feeding out to the ATS. Gen, gear(breaker, bus, breaker), ATSIs this what you were describing?
Just curious:
What size generators are we discussing here?
What size ATS?
cf
2x750KW Gen. The ATS were from 800A to the smallest was 150A if I remember correctly.
Cold Fusion
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I'm not clear on this "additional breaker feeding out to the ATS". Perhaps you could post us a sketch of your one line.Yes with an additional breaker feeding out to the ATS. Gen, gear(breaker, bus, breaker), ATS.
cf
Cold Fusion
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MEP -Kohler and I don't know the model. They are close transition.
Once the first ATS closes in re-transfer, the gens and the utility are in sync - have to be, buses are connected together.
So, it appears you are telling us the ATSs are delayed as Generatorman suggested. This would mean, as soon as the sync gear pulls the two buses in sync, the first ATS closes in re-transfer (buses parallel), then opens it's gen cb. This allows the two buses to go out of sync.
Sync gear pulls the two buses in sync again, the second ATS closes in re-transfer (parallel again), then opens it's gen CB.
And so on for the rest of the ATSs.
Does this sound right? If so, what you are seeing is likely as good as you are going to get.
As the gens are step unloaded, and the buses pop in and out of sync, it would not be surprizing if the gens freq and voltage are drifting all over - maybe some overshoot and oscillation as generatorman described. At low gen loads, the VRs and Governors tend to get more sensitive. All contributes to make it harder for the sync gear to pull the two buses in sync for the nest transfer.
A description of operation and a one-line would really help. If you don't have a scanner, use my method - an inexpensive digital camera and take a picture of the sketch.
cf
You bring up a point that I had not included. 2 ATS are in one room 2 in another. So, when load testing there is a min or two of delay between commanding the ATS to test or go back to normal. So when the test is complete. You have to walk to each transfer switch and cancel the test to retransfer to normal. So you have 4 different 10min delay/count downs. So they may not all transfer the first time the bus and utility are parallel. However after the 10 min delay counter for the last ATS expires. All ATS should be capable of retransferring to normal. 2 ATS took more 3 min to sycn and retransfer (After the last delay had expired). And both show a fail to snyc alarm after 1min.At low gen loads, the VRs and Governors tend to get more sensitive. All contributes to make it harder for the sync gear to pull the two buses in sync for the nest transfer.
cf
These are the smaller ATS and do not have a lot of load. Low load could be the answer.
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