Mohammed Al-Hitmi

TL;DR: In this article, the authors proposed a customized cost-effective solution that allows monitoring and predicting the performance of PV systems, fostering thus efficient planning and control strategies for network stability, and designed an in-house system featuring a buckboost converter enhanced with a maximum power point tracker (MPPT) serving as a PV load, sensors' system that collects climatic parameters including dust, wireless Radio, and a LabVIEW based monitoring and recording station.

TL;DR: The merits of proposed topology have been analyzed through various comparison parameters including component counts, voltage stresses, cost and efficiency with a maximum value of 98.3%, together with the integration of switched capacitors into the topology following recent development.

TL;DR: In this paper, the effects of the relevant environmental parameters, such as irradiance, relative humidity, ambient temperature, wind speed, PV surface temperature and accumulated dust on the output power of the PV panel was described.

TL;DR: A new low cost converter topology is proposed for sinusoidal position encoders that enables determination of the angle from the sine and cosine signals of the encoder without using LUT, A/D, and D/A converters.

TL;DR: In this paper, the authors investigated the sensitivity of various solar photovoltaic technologies to dust, temperature, and relative humidity for Doha's environment and found that amorphous PVs are more sensitive to temperature and humidity than monocrystalline PVs.