Journal of Research and Advancement in Electrical Engineering (e-ISSN: 3048-8303)

Single-stage squirrel-confine enlistment engines are extensively utilized in homegrown and fabricating gadgets, for the explanation that of their effortlessness, minimal expense, and roughness. Layered electrical steel sheets are subjected to die-casting procedures with numerous manufacturing parameters to form the induction motor's cage rotor. The between bar opposition of the squirrel-confine rotor was determined from the end-ring porosity rate. Limited component investigation (FEA) was utilized to gauge the impacts of porosity on the engine execution.

Lee K.S., Lee S.H., Park J.H. Experimental and Analytical Study of Single-Phase SquirrelCage Induction Motor Considering End-Ring Porosity Rate.

Kaviarasan M., TamilSelvan A., Venugopal E. Fault Diagnosis of Three Phase Squirrel Cage Induction Motor Due to Bearing by using Artificial Intelligence.

Shenoy T.P., Nirody J.S. Design & Development of a High Performance Electronic Starter for Single - Phase Induction Motors.

Vilhekar T.G., Raghavendra R., Ballal M.S. Detection of Winding Faults in Auxiliary and Main Windings of Single Phase Squirrel Cage Induction Motor by Monitoring Lissajous Patterns.

Sushma, S., Swathi, S., Bindusree, V., Kotamraju, S. I.,Kumar, A., Vijay, V., & Vallabhuni,R. R. (2021). QCA Based Universal Shift Register using 2 to 1 Mux and D flip- flop. 2021ICAC3. DOI:10.1109/icac353642.2021.9697308

Ajitha, D., Ahmed, S., Ahmad, F., & Rajini, G. K. (2021). Design of Area Efficient Shift Register and Scan Flip-Flop based on QCA Technology. 2021 International Conference on Emerging Smart Computing and Informatics (ESCI). DOI: 10.1109/esci50559.2021.9396977.

Chakrabarty, R., Mahato, D. K., Banerjee, A., Choudhuri, S., Dey, M., & Mandal, N. K. (2020). A novel design of flip- flop circuits using quantum dot cellular automata (QCA).

IEEE. DOI: 10.1109/ccwc.2018.8301775.

Chakrabarty, R., & Mandal, N. K. (2020). Design of Master Slave flip flop in Quantum Dot Cellular Automata (QCA). 4th International Conference on Electronics, Materials Engineering &Nano-Technology 2020. DOI: 10.1109/iementech51367.2020.9270068