International Journal of Renewable Energy Research-IJRER

Renewable resources, particularly solar resources, are now regarded as predominant energy-generating resources in smart grids. Improving electricity quality is one of the most crucial concerns in smart grids. As a result, harmonics research is required. The paper proposes a hybrid combination of SPWM and PI controller along with a matrix converter to find the optimal speed and voltage, in a 1-phase IM supplied by a solar system. Further the proposed system hardware model is implemented and compared with the outcomes of simulation. The motor is powered by a PV module based multistage power conversion system, boost type converter, 1-Phase Matrix Converter, and 1-Phase Induction Motor. The THD of 1-? IM input voltage has been compared twice, once with a capacitor run type and once with a capacitor start and capacitor run type induction machine. In addition, the perturb and observe MPPT technique was used to maximize the power collected from the PV system, as well as the direct torque control (DTC) method with a matrix type power converter for changing the motor speed and managing the output voltage of inverters. From the simulation, it has been recognized that the proposed hybrid model with closed loop PI controller gives better THD i.e., 3.5 % as compared to the traditional method.

B. Bilgin and A. Emadi, “Electric motor industry and switched reluctance machines”, In Switched Reluctance Motor Drives, pp. 1-33. CRC Press, 2019.

M. Zand, M.A. Nasab, M. Khoobani, A. Jahangiri, S.H. Hosseinian and A.H. Kimiai, “Robust speed control for induction motor drives using STSM control”, In 2021 12th Power Electronics, Drive Systems, and Technologies Conference (PEDSTC), IEEE, pp.1-6, 2021.

R.D. Barnett, “Induction motors: Early development [History]”, IEEE Power and Energy Magazine, Vol.20, No.1, pp.90-98, 2022.

R. Palka, and K. Woronowicz, “Linear induction motors in transportation systems”, Energies, Vol.14, No.9, p.2549, 2021.

A. Pragati, B.P. Ganthia and B.P. Panigrahi, “Genetic algorithm optimized direct torque control of mathematically modeled induction motor drive using PI and sliding mode controller”, In Recent Advances in Power Electronics and Drives, Springer, Singapore, pp. 351-366. 2021.

N. El Ouanjli, A. Derouich, A. El Ghzizal, S. Motahhir, A. Chebabhi, Y. El Mourabit and M. Taoussi, “Modern improvement techniques of direct torque control for induction motor drives-a review”, Protection and Control of Modern Power Systems, Vol.4, No.1, pp.1-12, 2019.

S.D. Ho, P. Brandstetter, P. Palacky, M. Kuchar, B.H. Dinh and C.D. Tran, “Current sensorless method based on field-oriented control in induction motor drive”, Journal of Electrical Systems, Vol.17, No.1, pp.1-15, 2021.

A.K. Peter and J. Mathew, “Bus clamped Space Vector Pulse Width Modulated Direct Torque Control of Induction Motor”, In 2019 IEEE Region 10 Symposium (TENSYMP), IEEE, pp.508-513, 2019.

H. Hadla and F. Santos, “Performance Comparison of Field-oriented Control, Direct Torque Control, and Model-predictive Control for SynRMs”, Chinese Journal of Electrical Engineering, Vol.8, No.1, pp.24-37, 2022.

M. Elgbaily, F. Anayi and M.M. Alshbib, “A combined control scheme of direct torque control and field-oriented control algorithms for three-phase induction motor: experimental validation”, Mathematics, Vol.10, No.20, p.3842, 2022.

M. Elgbaily, F. Anayi and M. Packianather, “Genetic and particle swarm optimization algorithms based direct torque control for torque ripple attenuation of induction motor”, Materials Today: Proceedings, Vol.67, pp.577-590, 2022.

U.R. Muduli, R.K. Behera, K. Al Hosani and M.S. El Moursi, “Direct torque control with constant switching frequency for three-to-five phase direct matrix converter fed five-phase induction motor drive”, IEEE Transactions on Power Electronics, Vol.37, No.9, pp.11019-11033, 2022.

S. Kamera and J.K. Daida, “SensorLess Technique for Rotor Position Detection of An Permanent Magnet Synchronous Machine Using DirectTorque Control”, In 2022 IEEE 2nd International Conference on Sustainable Energy and Future Electric Transportation (SeFeT), IEEE, pp.1-6, 2022.

H. Dahmardeh, M. Ghanbari and S.M. Rakhtala, “A novel combined DTC method and SFOC system for three-phase induction machine drives with PWM switching method”, Journal of Operation and Automation in Power Engineering, Vol.11, No.2, pp.76-82, 2022.

S.K. Kakodia, D. Giribabu and R.K. Ravula, “Torque Ripple Minimization using an Artificial Neural Network based Speed Sensor less control of SVM-DTC fed PMSM Drive”, In 2022 IEEE Texas Power and Energy Conference (TPEC), IEEE, pp.1-6, 2022.

A. Mehrabani, and H.A. Aalami, “THD Analysis for a Single Phase Induction Motor Fed by PV System”, In 6thIranian Conference on Signal Processing and Intelligent Systems (ICSPIS), IEEE, pp.1-5, 2020.

D. Haji and N. Genc, "Fuzzy and P&O Based MPPT Controllers under Different Conditions," 2018 7th International Conference on Renewable Energy Research and Applications (ICRERA), Paris, France, 2018, pp. 649-655, doi: 10.1109/ICRERA.2018.8566943.

K. Amara, A. Fekik, D. Hocine, M.L. Bakir, E. Bourennane, T.A. Malek and A. Malek , "Improved Performance of a PV Solar Panel with Adaptive Neuro Fuzzy Inference System ANFIS based MPPT," 2018 7th International Conference on Renewable Energy Research and Applications (ICRERA), Paris, France, 2018, pp. 1098-1101, doi: 10.1109/ICRERA.2018.8566818.

J. Dey, N. Mohammad and M. T. Islam, "Analysis of a Microgrid having Solar System with Maximum Power Point Tracking and Battery Energy System," 2022 10th International Conference on Smart Grid (icSmartGrid), Istanbul, Turkey, 2022, pp. 179-184, doi: 10.1109/icSmartGrid55722.2022.9848553.