1. TALHA TARIQ - Department of Electronic Engineering, Dawood University of Engineering & Technology, Pakistan.
2. NADIA MUSTAQIM ANSARI - Department of Electronic Engineering, Dawood University of Engineering & Technology, Pakistan.
3. SOHAIL RANA - Department of Electronic Engineering, Dawood University of Engineering & Technology, Pakistan.
4. MAQSOOD UR REHMAN - Department of Electronic Engineering, Dawood University of Engineering & Technology, Pakistan.
5. RIZWAN IQBAL - Department of Telecommunication Engineering, Dawood University of Engineering & Technology,
Pakistan.
6. ADNAN WAQAR - Department of Electronic Engineering, Dawood University of Engineering & Technology, Pakistan.
7. TAYYABA KHURSHID - Department of Telecommunication Engineering, Dawood University of Engineering & Technology,
Pakistan.
Load shedding due to a shortfall in electric power is a major issue in Pakistan. Power is continuously required to fulfill domestic and industrial users’ needs. Electric generators are a reliable backup source when the main supply fails. In the same way, generators are invaluable for power availability in remote areas. The purpose of this paper is to design an efficient and cost-effective real-power wireless transmitter connected with a user-friendly GUI which can be accessible all over the world. It aims to monitor the health parameters of a three-phase generator like power with the location of the mounting system in the form of latitude and longitude coordinates, the power of each phase, the power factor of each phase, temperature, oil level, and battery level which could be placed in a remote location. This helps to take rapid and effective actions could be taken for troubleshooting, fault tolerance, and preventive maintenance of the generator. Moreover, this system can store all the collected information on the main server for auto record management.
Three-phase generator, power, temperature, oil level, battery level.