yes we can place auto transformer in place of original transformer
If this refers to a wire wound transformer, as it sounds then there is likely only two possibilities : the input voltage has dropped prier to entering the primary windings or there is a short in the windings some where within.The only other possibility I can think of is : This is a trick question and the transformer is a step down transformer.
Excitation current is the current necessary to "turn on" the transformer so it can be used. It's energy that is lost in the use of the transformer. Most of this loss I believe is associated with the hysterisis loop, although some will be lost as eddy currents.
Transformer engineering is its' own specialty. If you want a deep explanation, I suggest you peruse some books on transformer engineering - I like the one with said name by Kulkarni and Khaparde (not great english, but understandable).
A transformer that increases voltage is a step-up transformer.
on the botshot,s box
The transformer enclosure should isolate the transformer sufficiently from the environment. I believe OSHA specifies 2 feet, 1 inch as the minimum appoach distance to 13.8kV, so I suppose a transformer could be put this close to a building and still be safe. My guess is there are codes in place in your local area that prevent this and specify some greater distance.
These are the Class codes for CTs used for protection purposes.
Transformers Prime is a television show with the Transformer characters. There is a Beast Hunter version of the show. This is a television show and there are no cna codes for it.
An earthing transformer provides a neutral in a delta connected system.
A resistance furnace runs on electricity so it will be some type of electrical transformer.
From a purely technical perspective, yes. The transformer will work in either direction. However, in an electrical installation, you also must be concerned with the law and adopted codes. The transformer must be listed for the application you intend. Check with the manufacturer to be sure. See related links, I think this is great information on transformers.
The inductance of the transformer is much higher than the resistance of the transformer, resulting in very low real power losses (in watts), but some reactive power (vars).
There are normally only one set of primary windings in a transformer. Some may have multiple windings though so that they can cover a wider range of input voltages.
what are some meez codes for november?
a hole transformer
There are basically 4 major differences :- 1. The windings (both primary and secondary) of an ideal transformer are considered to have zero resistance, hence the transformer is lossless. 2. There is no leakage flux in an ideal transformer. 3. The permiability of the core material in ideal transformer is considered to be tending to infinity and hence the current needed to set up the flux in the transformer is negligible. 4. There is zero hysterisis and eddy current losses in an ideal transformer.