High Gain Single Ended Primary Inductor Converter With Ripple Free Input Current For Solar Powered Water Pumping System Utilizing Cost-effective Maximum Power Point Tracking Technique

High Gain Single Ended Primary Inductor Converter with Ripple Free Input Current for Solar Powered Water Pumping System Utilizing Cost-Effective Maximum Power Point Tracking Technique

Abstract:

 This paper presents a new configuration of high gain (HG) single ended primary inductor converter (SEPIC) with a ripple free input current to maximize the efficiency of the PV panel for standalone water pumping system (WPS). The ripple eliminating circuit combined with the HG SEPIC converter to achieve reduced ripples in photovoltaic (PV) current, is independent to the duty cycle control and hence, it can be easily integrated to the main power circuit of configuration. This circuit does not need any active switches, control or drive circuit for its execution. The ripple eliminating circuit yields a complete removal of the electrolytic capacitor connected across the PV array and significantly reduces the inductance of the HG SEPIC converter. It also improves the response and power density of the DC-DC converter. The large gain of DC-DC converter enables the use of low voltage PV panel and minimizes the partial shading and parasitic capacitance effects on PV array source. Due to the substantial compatibility between natural characteristics of switched reluctance motor (SRM) drive and WPS, a four-phase SRM drive is utilized in the proposed scheme. In addition, a single current sensor based maximum power point tracking (MPPT) technique is utilized in the proposed system, which helps to reduce the cost and improve the accuracy of the overall system. Analytical , simulated results of the developed system are presented to demonstrate the performance of the system.