Paralleled Transformers: Why Overload & How to Prevent It?

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When transformers with identical turns ratios but varying kVA ratings are paralleled, the smaller transformer may become overloaded while the larger one remains underloaded due to differing impedances. This imbalance occurs because power and current distribution between the transformers does not align with their kVA ratings. To prevent overload, it is crucial to analyze the system using mathematical calculations or load-flow modeling software. Properly managing the impedance and ensuring balanced loading is essential for safe operation. Understanding these dynamics is vital for effective transformer management in parallel configurations.
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When transformers with the same turns ratio, but different kVA ratings are paralleled , it is possible for the smaller transformer to be overloaded and the larger transformer to be lightly loaded.Why is it so? Can anyone please show mathematical and theoretical explanation?And what can be done to stop the overloading of the transformer?
 
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The impedances will be different. Therefore, the sharing of power and current between the parallel branches will not necessarily be in proportion to their KVA ratings.

If you can't do the calculations by hand, any load-flow program modeling those transformers in parallel will calculate the splits in current and power.
 
Thanks
 
Nahian said:
When transformers with the same turns ratio, but different kVA ratings are paralleled
Then you are creating a loop - through transformer A and back through transformer B. Be very careful!
 

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