Three-phase voltage regulation based on Synchronous generators and controllers
1. Nazish Hameed, Scientist, Lahore University of Management Sciences, Lahore, Pakistan
We depend on a wide variety of technology to meet our needs and make our daily lives easier and more fun. All electronics need some kind of battery or power supply in order to work. In addition, it is vital that there be no disruptions in the power store in order for the device to function to its maximum capacity. That is, it must provide both AC and DC at a consistent voltage. This, however, is not always doable. There might be a variety of reasons for voltage fluctuations in the supply. No one wants the equipment to malfunction or be harmed due to fluctuations in the power supply. To this end, voltage control should be emphasized. This is the objective we've set for ourselves here. Throughout the duration of this project, the load will be supplied with a stable 240 Volt AC power supply. In our project, we regulate the voltage of a 3 in the morning using an SCR. In order to provide a constant energy to the load, SCR may control voltage by altering the firing angle to it. Because of this, voltage may be controlled. A lower voltage is provided across the load by following these steps and sending the data to Analogue-To-Digital Automation. When an analogue signal is input to an ADC, a digital signal that is a precise representation of the analogue signal is produced.
Therefore, we developed an apparatus that is sensitive to variations in the mains supply's input.
We constructed the hardware that maintains a constant voltage using an SCR Bridge. This bridge monitors the voltage that crosses the load to detect fluctuations in the particular source and then cancels them out.
To keep the dc current across the load stable regardless of fluctuations in the supply, our technology regulates the solitary source of power to dc. This protects the load devices from unsafe mains fluctuations.
The author confirms sole responsibility for the following: study conception and design, data collection, analysis and interpretation of results, and manuscript preparation.
The authors did not receive any specific grants from funding agencies in the public, commercial, or non-profit sectors for the research, authorship, and/or publication of this article.
All authors declare that they have no conflicts of interest.
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I thank the following individuals for their expertise and assistance in all aspects of our study and for their help in writing the manuscript. I am also grateful for the insightful comments given by anonymous peer reviewers. Everyone's generosity and expertise have improved this study in myriad ways and saved me from many errors.
Lahore University of Management Sciences, Lahore, Scientist, Pakistan
Copyright: ©2024 Corresponding Author. This is an open access article distributed under the terms of the Creative Commons Attribution License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Hameed, Nazish. “Three-phase voltage regulation based on Synchronous generators and controllers.” Scientific Research Journal of Science, Engineering and Technology, vol. 1, no. 1, 2022, pp. 30-34, https://isrdo.org/journal/SRJSET/currentissue/three-phase-voltage-regulation-based-on-synchronous-generators-and-controllers
Hameed, N. (2022). Three-phase voltage regulation based on Synchronous generators and controllers. Scientific Research Journal of Science, Engineering and Technology, 1(1), 30-34. https://isrdo.org/journal/SRJSET/currentissue/three-phase-voltage-regulation-based-on-synchronous-generators-and-controllers
Hameed Nazish, Three-phase voltage regulation based on Synchronous generators and controllers, Scientific Research Journal of Science, Engineering and Technology 1, no. 1(2022): 30-34, https://isrdo.org/journal/SRJSET/currentissue/three-phase-voltage-regulation-based-on-synchronous-generators-and-controllers
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