This paper describes an experimental system developed in the photovoltaic laboratory at the University of Málaga (Spain) to measure the current-voltage curve of photovoltaic modules under outdoor conditions. The measurement is performed in an automated way by employing commercial instruments controlled by a computer using the GPIB standard. Several modules, selected sequentially through a set of relays, are biased by a four-quadrant power supply while a function generator synchronizes two multimeters in order to acquire voltage and current values. The measurement uncertainties were also estimated. The proposed method for synchronizing the voltage and current measurements ensures that these measurements are performed simultaneously; this mea...
A versatile measurement system for systematic testing and measurement of the evolution of the I-V ch...
We present a new measurement methodology for accurate, high-frequency outdoor I-V characterization o...
Photovoltaic (PV) technology turns to be an evolving technique worldwide. This paper describes the t...
This paper describes an experimental system developed in the photovoltaic laboratory at the Universi...
In recent years, solar photovoltaic energy is becoming very important in the generation of green ele...
A software platform has been developed in order to unify the different measurements obtained from di...
The rapid growth of the market for the use of renewable energy has increased the use of solar energy...
In this paper a measurement equipment designed to trace the I-V characteristics curves of a photovol...
This article describes a complete characterization system for photovoltaic devices designed to acqui...
The development of solar energy has led to the construction of multiple many MW photovoltaic systems...
A versatile measurement system for systematic testing and measurement of the evolution of the I-V ch...
A versatile measurement system for systematic testing and measurement of the evolution of the I-V ch...
We present a new measurement methodology for accurate, high-frequency outdoor I-V characterization o...
Photovoltaic (PV) technology turns to be an evolving technique worldwide. This paper describes the t...
This paper describes an experimental system developed in the photovoltaic laboratory at the Universi...
In recent years, solar photovoltaic energy is becoming very important in the generation of green ele...
A software platform has been developed in order to unify the different measurements obtained from di...
The rapid growth of the market for the use of renewable energy has increased the use of solar energy...
In this paper a measurement equipment designed to trace the I-V characteristics curves of a photovol...
This article describes a complete characterization system for photovoltaic devices designed to acqui...
The development of solar energy has led to the construction of multiple many MW photovoltaic systems...
A versatile measurement system for systematic testing and measurement of the evolution of the I-V ch...
A versatile measurement system for systematic testing and measurement of the evolution of the I-V ch...
We present a new measurement methodology for accurate, high-frequency outdoor I-V characterization o...
Photovoltaic (PV) technology turns to be an evolving technique worldwide. This paper describes the t...