Journal of Power Electronics and Devices

This study explains the operation and design of Landsman DC-DC converter employing maximum power point tracking (MPPT) controller for maximum power conversion in a solar Photovoltaic (PV) array. The output DC voltage of converter through inverter is fed to the induction motor based water pump. The above system is proposed by using a neutral point clamped (NPC) multilevel inverter for the DC to AC conversion. Incremental conductance algorithm is chosen to operate the PV array close to optimum operating point. The input voltage and current is sensed to achieve MPP. Output voltage is sensed to get required regulated output voltage. The controller is designed to obtain the regulated output at different load and irradiance conditions. The overall proposed system is simulated and the THD analysis is done for the output voltage of the inverter.

Steel, C., Fang, A., Weilong, S., et al. (October 2014), “Photovoltaic agricultural power generating unit”, Chinese Patent CN 203859717U, 1.

Karbakhsh, F., Amiri, M., Abootorabi Zarchi, H. (2017), “Two-switch flyback inverter employing a current sensorless MPPT and scalar control for low cost solar powered pumps”, IET Renew. Power Gener., Volume 11, Issue 5, pp. 669–677.

Chandel, S., Nagaraju Naik, M., Chandel, R. (2015), “Review of solar photovoltaic water pumping system technology for irrigation and community drinking water supplies”, Renew. Sustain. Energy Rev., Volume 49, pp. 1084–1099.

Kumar, R., Singh, B. (2017), “Single stage solar PV fed brushless DC motor driven water pump”, IEEE J. Emerging Sel. Top. Power Electron., Volume 5, Issue 3, pp. 1377–1385.

Taghvaee, M.H., Radzi, M.A.M., Moosavain, S.M., et al. (2013), “A current and future study on non-isolated DC–DC converters for photovoltaic applications”, Renew. Sustain. Energy Rev., Volume 17, pp. 216–227.

Surapaneni, R.K., Rathore, A.K.: ‘A single-stage CCM Zeta microinverter for solar photovoltaic AC module’, IEEE J. Emerging Sel. Top. Power Electron., 2015, 3, (4), pp. 892– 900

Chub, A., Vinnikov, D., Kosenko, R., et al.: ‘Wide input voltage range photovoltaic microconverter with reconfigurable buck–boo switching stage’, IEEE Trans. Ind. Electron., 2017, 64, (7), pp. 5974–5983

Saharia, B.J., Manas, M., Sen, S.: ‘Comparative study on buck and buckboost DC-DC converters for MPP tracking for photovoltaic power systems’. Proc. Second Int. Conf. on Computational Intelligence & Communication Technology (CICT), Ghaziabad, 2016, pp. 382– 387

de Brito, M.A.G., Galotto, L., Sampaio, L.P., et al.: ‘Evaluation of the main MPPT techniques for photovoltaic applications’, IEEE Trans. Ind. Electron., 2013, 60, (3), pp. 1156– 1167

Sundareswaran, K., Vignesh Kumar, V., Sankar, P., et al.: ‘Development of an improved P&O algorithm assisted through a colony of foraging ants for MPPT in PV system’, IEEE Trans. Ind. Inf., 2016, 12, (1), pp. 187–200

Hong, Y., Pham, S.N., Yoo, T., et al.: ‘Efficient maximum power point tracking for a distributed PV syste under rapidly changing environmental conditions’, IEEE Trans. Power Electron, 2015, 30, (8), pp. 4209–4218