Design and Implementation Of Traction Inverter and its Examination

Design and Implementation Of Traction Inverter and its Examination

Traction inverter has an essential role in Hybrid Power for Electric Vehicles in terms of topological modulations and control patterns. Electric vehicle manufacturers have focused mainly on speed, battery lifetime, and fast charging. The proposed system has energized the most eco-friendly and effici...

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Bibliographic Details
Published in:2024 5th International Conference on Recent Trends in Computer Science and Technology (ICRTCST) pp. 444 - 448
Main Authors: Sumathy, R., V, Rajesh, Reddy, V. Adithya, Vamsi krishna, K., Harikrishna, CH, Kumar Raju, M. Manoj
Format: Conference Proceeding
Language:English
Published: IEEE 09-04-2024
Subjects:
and Electric vehicle (EV) performance improvement
Batteries
Inverters
Motors
Navigation
Performance evaluation
Speed analysis
Timing
Traction inverter evolution
Transforms
voltage analysis
Online Access:Get full text
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Summary:Traction inverter has an essential role in Hybrid Power for Electric Vehicles in terms of topological modulations and control patterns. Electric vehicle manufacturers have focused mainly on speed, battery lifetime, and fast charging. The proposed system has energized the most eco-friendly and efficient electric automobiles. The main role of the traction inverter is to transform the energy between battery and motor units particularly Electric vehicles. The traction inverter's performance is directly proportional to the vehicle's performance. The traction inverter's efficiency is the major challenge within the domain of electric automobiles. In the proposed system Traction inverter has been evaluated with the help of a propulsive embedded device in the combination of controller and sensor units. The various characteristics of the inverter have been analyzed and frequently emphasized. It has analyzed the speed, current, and voltage levels of the inverter. The Internet of Things is used to bootstrap the traction inverter's functions in electric vehicles.
DOI:10.1109/ICRTCST61793.2024.10578529