The seminar report states that the distribution transformer is electrical equipment in a power system that distributes power to the users directly, and its operating condition is important to the distribution network operators. The operation of distribution transformers' underrated condition guarantees their long life. However, their life is significantly reduced if they are subjected to overloading, resulting in unexpected failures and loss of supply to a large number of customers thus affecting power system reliability. Overloading and insufficient cooling of transformers are the main causes of failure. The monitoring device systems which are presently used for monitoring distribution transformer exist some problems and deficiencies. Download the PDF seminar report on Real-Time Transformer Health Monitoring System for electrical engineering projects and seminars.
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Real Time Transformer Health Monitoring System Seminar Report
Download PDF Seminar Report on the topic Internet of Things Based Real-Time Transformer Health Monitoring System. The main aim of the seminar report is to acquire real-time data of transformers remotely over the internet falling under the category of the Internet of Things (IoT).
Seminar Report Abstract: Transformer is one of the important pieces of electrical equipment that is used in power systems. Monitoring transformers for the problem before they occur can prevent faults that are costly to repair and result in a loss of electricity. The main aim of the paper is to acquire real-time data of transformers remotely over the internet falling under the category of the Internet of Things (IoT). For this real-time aspect, we take one temperature sensor, one potential transformer, and one current transformer for monitoring T, V, I data of the transformer and then send them to a remote location. These three analog values are taken in multiplexing mode and connected to a programmable microcontroller of 8051 families through an ADC 0808. Then the values of all the sensors are sent sequentially as per the frequency of multiplexing of the ADC by the Microcontroller. They are then sent directly to a Wi-Fi module under TCP IP protocol to a dedicated IP that displays the data in real-time chart form in any web-connected PC / Laptop for display in 3 different charts. The real-time data is also seen at the sending end LCD display interfaced with the microcontroller.
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