Journal of Current Trends in Electrical Engineering

Author: Kavita Sharma

Abstract: The transformer is a large and costly piece of high-intensity gear. It feeds the heap for 24 hours a day, seven days a week. Occasionally, the situation may arise where the transformer's heap has suddenly risen over its heap. When the load on the transformer is suddenly increased over its calculated limit, the situation may occur. When this happens, the transformer will be overloaded and overheated, causing damage to the transformer's protection and causing supply interference. Working a large number of transformers in parallel is the greatest way to keep a strategic distance from overburdening. It's similar to parallel operation transformers, in which a group of transformers splits the load across the framework. When the heap on the main transformer exceeds its estimated limit, the second transformer will share the heap, according to the proposed technique. Power disappointment is a temporary or long-term loss of electric capacity in an area caused by a short circuit, damage to an electric transmission line, overvoltage, difficulties at power plants, and, most commonly, over-burdening. The potential Losing power has an impact on damage regions. The broadcast quality of conventional power sharing and observation units is one of its inherent flaws. Because you must be physically near the alarm to hear it, you are unlikely to be warned to avoid overburdening. The smaller scale controller-based burden sharing and control framework is a device that manages overload on a generator by sharing power and cutting off supply when power usage exceeds the amount of intensity given.

Keywords: Load sharing, Circuit, Transformer, Power, electric capacity, scale