Choosing Transformer Impedance
Choosing Transformer Impedance
(OP)
My company is currently considering changing our standard impedance of new 1000 kVA (4160/600) transformers from 6% to 8% to keep our fault levels low. However there are concerns about voltage regulation as we have a lot of connected motor loads. Is there any appropriate documentation that might provide direction of how to strike a balance between the two (or personal experience)?
Thanks.
Chad
Thanks.
Chad






RE: Choosing Transformer Impedance
Mike
RE: Choosing Transformer Impedance
Firstly, at 1000kVA, at 600V barely has 16000A fault current with 6% Z and 12000A with 8%Z. Equipment and breakers rated 18kA or above are not premium items at all, so what exactly your are saving/gaining? PLus you will end up with a special tranformer which may be expensive and in the future may have to be replaced by a similar unit if fails.
I am not sure how much voltage regulation is dependent on short circuit impedance, but some tranformer designer or mfr may answer that.
RE: Choosing Transformer Impedance
Thanks for you input.
Chad
RE: Choosing Transformer Impedance
RE: Choosing Transformer Impedance
RE: Choosing Transformer Impedance
Again,..be very careful about limiting the amount of fault current. Personally from the studies I've done, lower fault current levels can be a problem with molded case devices, and because of the limited ability to adjust them (magnetic only for example), you may not be able to get a sufficient clearing time to limit damage. Then with static switch devices, you can often have problems with downstream coordination, because the short time setting must be adjusted substantially lower than you might otherwise, to allow clearing on an arcing fault. If you're paralleling transformers, you just have to size the system based on that case, ie closed transition switching. Typically, that's not a big deal, since you may allow multiple OEM's to bid on the equipment, giving you a fair price.
Mike
RE: Choosing Transformer Impedance
For a 1000 kVA transformer, I would definitely stick with the nominal ANSI impedance.
RE: Choosing Transformer Impedance
RE: Choosing Transformer Impedance
Arc Fault studies are based on the 3 phase bolted fault condition. There is no consideration for fault impedance. Also, it's my understanding that the equations developed by IEEE are based off of empirical data. That's why they throw in the 80% fudge factor. What I mean by this is, according to the standard, you calculate the arcing fault current based off of the equations. Then you find the trip time. Then you take 80% of the arcing current just calculated, and calculate its trip time. Whichever value has the LONGEST trip time, you use this value to calculate the incident energy, as it will have a higher value.
Mike
RE: Choosing Transformer Impedance
RE: Choosing Transformer Impedance
All I can tell you is the IEEE 1584 standard uses time, based off of trip curves for devices, and then using the arcing fault value (calculated from the available 3 phase fault), you get an incident energy. The longer the trip time, the more incident energy. The energy equation is directly proportional to time and is proportional to the log of the arcing current. More often than not, the 80% of the arcing current initial, calculated value always has a longer trip time, and thus more energy available.
Mike
RE: Choosing Transformer Impedance
Because of the unpredictable nature of arcs, as shown by actual test data, IEEE-1584 first calculates an expected arcing current based on the 3-phase bolted fault current (and other factors). This current is used to determine the protective device clearing time as well as the arc-flash energy. To allow for variability, IEEE-1584 then requires a second energy calculation be done at 85% of the calculated arcing fault current - but only for systems below 1000V. The worst case arc ENERGY is then used. This is supposed to capture something like 95% of the arc energy levels taken from the test data.
It's certainly not perfect, and it will be changing as more testing is done, but that's the best guidance we have at this time. BTW, above 15 kV, the IEEE-1584 equations are purely theoretical and not based on actual test data at this point.
So, getting back to OP issue, I would still opt for standard impedance 480V transformer based on my experience doing arc-flash calcs.
RE: Choosing Transformer Impedance
Thanks. I stand corrected. It's not 80%, it's 85% as stated by you.
Mike
RE: Choosing Transformer Impedance
RE: Choosing Transformer Impedance
Thanks for all the replys.
RE: Choosing Transformer Impedance
Mike
RE: Choosing Transformer Impedance
I checked the standard. The first equation relates the log of the normalized incident energy to the log of the fault current. Second equation relates incident energy to the normalized energy along with clearing time and distance. Looks more like a direct relationship than the square that I claimed and the log relationship you claimed. A quick test with flux.exe showed doubling either the current or the time roughly doubled the incident energy.
RE: Choosing Transformer Impedance
I stand by my post. The incident energy equation is directly related to time, and the normalized energy (within the incident energy equation) is a log function related to the arcing current.
Mike
RE: Choosing Transformer Impedance