Synchronization
Synchronization
(OP)
Could someone provide some insight on the difference between active and passive synchronization.
I have a project with closed transition were everything was designed around "pasive" synchronization and the Generator vendor is stating that they cannot do that and they only do "active" synchronization.
What are the differences?
Are there standard ways to bridge the gap or to make this work.
I have a project with closed transition were everything was designed around "pasive" synchronization and the Generator vendor is stating that they cannot do that and they only do "active" synchronization.
What are the differences?
Are there standard ways to bridge the gap or to make this work.






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davidbeach, I received this input offline and this is a way he sees through this. I am sharing this info to hear your thoughts.
..."First I would set the generator system to run at slightly above 60 Hz; maybe 60.2 or 60.5 Hz. This would give you a natural slip between the two sources but not cause a problem for any equipment. I would then raise the nominal generator voltage to above 480V. If I could I would try to push the utility voltage down a bit, maybe 2.5% or so. Finally I would set the sync check relay window to about +/-5 degrees with a dwell of about .5 sec. You will want to do the transfer with no more than a one second overlap. This will result in a fast load of the utility but you should be able to make the re-transfer without going to active sync"....
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respectfully
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Active paralleling required a whole complement of generator paralleling synchronizer, protective relays, load share modules etc, and allows for extended period (more than 0.5 second) of paralleling time. This is much more sophisticated approach for larger installations.
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YOu need to clarify the situation a bit more. Is this a speciofication provided by a designer/engineer and a vendor is saying he cannot meet it? What is your role in this?
It sounds like the engineer who wrote the spec need to answer vendors questions.
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This is what I can summarize:
The specified and designed transfer system was intended to provide a closed transition from generator to utility power using a passive synchronization strategy. The concept, when the transfer controls determine a common voltage value for the two sources, the breakers are closed connecting the two sources in parallel. The utility source will dominate the generator source forcing that system into complete synchronization, and then the generator source can be disconnected without any interruption of power. In the unlikely event that the controls cannot find a common voltage point (which I think is generally at zero volts) within a set time limit, the control then defaults to an open transition.
Unfortunately,our project uses a Gen Set unit ( the green one as to avoid naming manufacturer) with a proprietary generator control system. This unit will not allow passive synchronization since it will see any attempt to connect to a source not already in complete synchronization as a reverse power flow into the generator and the generator system will trip the generator breaker.
This will then create an unintended loss of generator power and an undesired open transition.
The gen-set vendor has refused to allow any changes to their controls.
To allow for the proper closed transition back to utility power, additional components and revisions to the transfer controls will be required. In this case, we believe the proper strategy is to show the utility source as a generator, and to use the Gen Set system to actively synchronize to that “generator”. This active synchronization strategy uses standardized features of the Gen Set control system.
I hope this clarifies better were do I stand.
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Passive sync and transfer cannot be any longer than 0.5 seconds in the worst case. As I described before it usually is completed within 100ms (before two sources drift much further as they are always drifting). At 0.3s (300ms) the ATS (or breaker) would separate the sources and you need a compeltely independent watchdog timer for not exceeding 0.5s. All this will have to be approved by the utiltiy co.
This is no different than a "Closed transition" ATSs.
If still confused seek help of professionals with experience in this area.
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Are you the design engineer?
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All of the documentation even of the gen set brochures state Active Synchronization, not passive.
So what I am trying to get is an idea of the path we should follow to get this resolved.But I also do not want to get cornered with a "gold" plated design. It was nice when engineers use to stand up for their design and not just point out that "submittals" do not relieve a vendor or sub!!!!. When in particular I paid for a system design!!!
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Looks like you need opinion and help of other professionals and some re-design.
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If the genset does active synchronization then it should be a simple matter of setting the parameters of the proprietary gen-set control for active synchronization. This will avoid defaulting to an open transition anyway. If the set defaults to fast open transition, it may cause machine damage.
back to your original question, what is the difference between active and passive synchronization?
With active synchronization, the control adjusts the throttle setting to bring the set into sync with the bus as soon as possible.
Passive takes advantage of the fact that generator frequency is seldom exactly 60 Hz. If the set is running at 61 Hz. it will drift into sync once a second. The fast transfer is made at the moment that the set is in sync.
I doubt that the ATS can tell the difference between active and passive sync. Either way, when the generator is in sync, the ATS should recognize the synchronization and transfer.
Passive sync is often used on smaller residential and commercial sets with basic governors. The governors are usually running in droop mode and will drift into sync quite quickly.
If your vendor is supplying a set with an autogenous governor, and it is well set up, it may take so long to drift into sync that it defaults to open transition on virtually every transfer. If you have any large motors, you will probably eventually damage one, one day.
It may be that the vendor is trying to supply a "Cadillac" system and your engineer is desperately trying to get a "Volkswagen" system (at a Cadillac price).The engineer specifying passive sync. has probably copied someone else's spec. and is afraid to change it because he doesn't understand it. I have seen some expensive installations specified that way.
The challenge is to get the engineers to stop shouting "Active" "Passive" at each other and sit down and make the system work. As I suggested, if you let the set pull itself into sync when it wants to, the transfer switch will never know the difference.
If the gen-set has an active sync feature, you may have to run two or three wires to provide a grid reference voltage to the gen-set control. The gen-set controller may also need to send an inhibit signal to the transfer switch to delay transfer until the gen set is ready. That should not be a budget breaker.
Oh and by the way, if you are using motor operated breakers you definitely want active sync. With passive sync, the gen-set may be drifting too far out of sync. again before the motor completes closing the breaker. That's really bad, and that's an understatement.
respectfully
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Gunnar Englund
www.gke.org
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100 % recycled posting: Electrons, ideas, finger-tips have been used over and over again...
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Respectfully
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The difference between active and passive synchronizing is whether there is a controller causing the two sources to become syncronized (active) or not (passive). A system that is intended to operate passive doesn't have any idea if there is a controller attempting to bring the two sources into synchronism or not, it only checks to see if they are (using a synch check relay instead of a synchronizer (25 vs 25A)) and then transfers. This could be done cheaply with a Basler BE3-25.
I think it would also help you to know that most "active synch" systems in industry do rely on a synch check relay (which is the defining component of "passive synch" systems) as a protective device anyway.
Regards
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The lesson to be learned is to hire the right professionals for the job. I wonder what was the basis of selection of engineers for this project?
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I would agree with idea of copying specifications. I had a complete different impression of consulting engineers buisness before I joined it. Most of the specs are already done and the job of the engineers is to change ratings and then thay ran into trouble.
My post about "regenerative power" is also result of this misundersting but we still have not bought the generator and it is in the bidding process.So I still have options.
The orginality is some thing that is very rare.
Anyways, I have seen, written many generator specs but ofcouse from the existing ones:
When ever the question has arised about the automatic transfer switch:
Only two things arise:
Open transition and Closed transition:
and the justification behind selection is that, if the sytem has large motors where magnetic field is drained during open transition, It will lead to very high inrush current for transformers and motors , which eventually might trip the main breaker. So, It is advisale to use a closed transition switch.
Now what I understand that an ATS, has nothing to do with the specification of generator. But this post seems to be creating a relation about a generator control system with a Automatic Transfer switch.
That means, we should ask the generator manufacturer if his generator is eligible for a typical closed transition or we might have to provided some extra hardwired control as you discussed above.
I had never heard of active and passive, I guess it is by default considered that an ATS will be compatible with generator.
Could you kindly elaborate on this issue.
Thanks
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We installed a standby generator for a prison years ago. The spec was copied from another government installation which was off the grid. There were a few other mistakes. We installed a 500 KW when a 200 KW or 225 KW would have done the job.
I always recommend buying the transfer switch with the genset. The pricing is usually excellent. You also get compatibility most of the time.
The set I have just finished installing had the transfer switch bought with the set. It isn't directly compatible with the set. The drawing shows the ATS sending a start signal to the genset with a pair of volt-free contacts.
The genset has a voltage monitoring board which starts the set on the failure of the mains. It also monitors the genset voltage and sends an "OK to transfer" signal to the genset contactor in the ATS when the genset voltage stabilizes.
The drawing showed both these contacts connected together.
The mains voltage monitoring circuit in the genset controls was not wired.
The ATS had provision for the "OK to transfer" signal but as stated the drawing showed the wires connected to the wrong terminals.
The as soon as the genset control was put in automatic, it would start and run continuously. With the input to the voltage monitor not wired, it thought the power had failled.
When the power did fail, the ATS would not put the load on the genset because the "OK to transfer" circuit was wired to the "Start genset" circuit. Two sets of volt free contacts wired to each other.
I called the contractor and had an electrician install a small breaker and run two more conductors between the ATS and the genset. Ignored the manufacturers drawing and connected things properly and all is working well now.
What's the point?
Stuff happens, that's life. If you understand how your systems work and there is a problem or mistake, you deal with it (often quickly, easily and economically) and move on.
It's working well now.
I spec'ed a single phase set about two years ago. I got a quote from my favorite supplier and the customer got his own quote. Much lower than my price so he went with the set he found.
Came time to install the set and it was smaller then quoted. The salesman knew that a three phase set could be used for single phase, but didn't know that it had to be derated 1/3.
I had a few interesting conversations with the salesman and he referred me to the service manager who, the salesman said, would send me the proper circuit breaker to get the full output from the set. The service manager confirmed, by e-mail, that the set size was as I had said and the rating was as I had said. I gave the e-mail to the customer and he went back to the sales department. The vendor gave him a cash refund for the difference in price between the size of the set quoted and the size of the set supplied. The customer was happy, we arranged a couple of air conditioners to run only on the mains and not on the generator, and I considered the final installation as not perfect but pretty good.
My customer is happy with me and with the vendor and we will both be happy to deal with this vendor in the future.
respectfully
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Thanks for such an exhaustive description of events in real world. I would appreciate some comments on my this part of post:
"Should we ask the generator manufacturer if his generator is eligible for a typical closed transition or we might have to provided some extra hardwired control as you discussed above.
"
Thanks
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Do you have an Automatic Transfer Switch or will you be purchasing one? By all means ask the genset supplier for his comments. As strange as it may sound, a genset running at exactly the utility frequency is the most difficult for a passive transition. You have to change the frequency slightly to allow the set to drift into sync.
For large motor loads, I would suggest one of the following;
A slow open transition. The power would be off for long enough for the motor back EMF to decay or the motor starters to open for all large motors.
A closed transition.
A very fast open transition. This may not be available in large sizes. The only ones that I have seen were below 100 KVA and I don't know the upper limit of sizes available.
Note; Some standby sets come online in seconds and some motor installations take more seconds for the back EMF to decay. When going onto the standby set it is wise to survey your loads to insure that the generator power is not applied until the motors have had time to wind down or been disconnected. Be aware that during service work or trouble shooting, the generator may be running when an operator initiates a transfer to backup. Without transfer delay timers the transfer from utility to generator may be almost instantaneous. Because of the nature of standby sets and the need for starting time, closed transition is not used for going to backup.
By the way, I think you have a thread open on this. Let's continue in your thread or start a new one before you are taken to task for highjacking a thread.
respectfully