This is an Open Access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0) (http://creativecommons.org/licenses/by/4.0)
Ikhlaq Ahmad , Krishna Tomar
Position control of motors is widely used in many aspects of life, including commercial, household, and industrial settings. More than seventy percent of electrical demand is projected to be motor load. The motors in this vast part are utilized for a variety of functions, pulling loads, spinning equipment, and trajectory tracking are only a few examples. Inkjet printing head a printer employs position control, lift motors use position control, and Spot motors are used in 3D printers, Machinery, and even more complex robotic surgical tools. for interfacing with the world. Controlling the position is commonly referred to as a movement having a movement encoder, other than a resistant bit stream, which also supplies linear motion with processor, controller which modulates energy given to the rotor leveraging a controlled circuit, such as a Direct Current regulated. This paper proposes a unique high gain enhanced DC/DC Boost converters. The provided topology's boosting performance is enhanced as opposed to normal topologies. Thyristors, diodes, and power applications are subjected to less voltage stress. The suggested exchanger incorporates an electromagnetic flipping network that allows for the use of smaller inductors. The postulated converter's solid working is carefully examined. Finally, the simulations and laboratory trial findings have both confirmed the practicality of the suggested topology.
M. Tech Scholar, Department of Electrical Engineering, RIMT University, Mandi Gobingarh, Punjab, India
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