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This paper proposes a different method of modeling Photovoltaic (PV) System in uniform irradiance conditions. It provides a simple and accurate method of modeling PV system using a single diode model by considering series and shunt resistance. This model computes five parameters and is having better accuracy than the existing models in literature. The accuracy of the proposed modeling technique is...
This paper proposes an effective technique to model photovoltaic characteristics under various environmental circumstances including non-shaded and partially shaded conditions. The technique has been developed based on experimental study. It provides a versatile model using PSCAD which can represent any form of PV array with any configuration of bypass diodes. The impact of various partially shaded...
This paper presents a methodology for determining the series resistance of (through-wafer interconnect) Vias directly from measured S-Parameters using an ultra-low impedance measurement known as the “S21-Shunt” technique. Data is acquired following on-wafer SOLT calibration using standard VNA / PNA hardware by characterizing “series-shunt” configured test structures. Measurement errors attributable...
RF non-quasi-static effect and interconnection delay effect are not considered in a conventional BSIM3v3 RF model. For modeling these effects, an improved RF SPICE model for 0.13 mum MOSFET is developed by including the scalable inductances and using the gate resistance scaling equation. This improved model is validated by finding better agreements with measured S-parameters up to 40 GHz at various...
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