International Journal of Advances in Engineering & Scientific Research

International Journal of Advances in Engineering & Scientific Research

Print ISSN : 2349 –4824

Online ISSN : 2349 –3607

Frequency : Continuous

Current Issue : Volume 4 , Issue 1
2017

AUTOMATIC LOAD SHARING OF TRANSFORMERS USING MICROCONTROLLER

*Vidhun M, **Akshara Shanmughan, ***Liya Immanual, ****Sreelakshmi V G

*Assistant Professor, Dept. of Electrical and Electronics Engineering, IESCE Chittilappilly PO Thrissur Kerala, India,     **,***&****B.Tech Student  Dept. of Electrical and Electronics Engineering, IESCE Chittilappilly PO Thrissur Kerala, India

DOI : Page No : 57-64

Published Online : 2017-01-30

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Abstract:

 

The transformer is a static device, which converts power from one level to another level. The aim of the project is to protect the transformer under overload condition by load sharing. Due to overload on transformer, the efficiency drops and windings get overheated and may get burnt. Thus by sharing load on transformer, the transformer is protected. This will be done by connecting another transformer in parallel through a micro-controller. The micro controller compares the load on the first transformer with a reference value. When the load exceeds the reference value, the second transformer will share the extra load. Therefore, the two transformer work efficiently and damage is prevented. In this project three modules are used to control the load currents. The first module is a sensing unit, which is used to sense the current of the load and the second module is a control unit. The last module is micro-controller unit and it will read the analogue signal and perform some calculation and finally gives control signal to a relay. A GSM modem is also used to inform the control station about switching. The advantages of the project are transformer protection, uninterrupted power supply, and short circuit protection. When designing low-voltage power system to the supply large load currents, paralleled lower-current modules are often preferred over a single, large power converter for several reasons. These include the efficiency of designing and manufacturing standard modular converters which can be combined in any number necessary to meet a given load requirement and the enhanced reliability gained through redundancy.  

KEYWORDS: Capacity, Interruption, Load; System, Transformer, Microcontroller.