Dynamic resistance of solar cells and modules have been determined from a dark IV characteristic curve. In the determination, it is often assumed that series resistance R s is small and the shunt resistance R sh very large, their effects can be neglected. The resultant dynamic resistance can be called the external dynamic resistance R D . R D is normally taken to be the slope of the IV characteristic of a cell or a module. We present in this paper a new method to determine an internal dynamic resistance A d of a photovoltaic module based on one illuminated IV curve, taken into account finite series and shunt resistance. In the experiment, we measure illuminated and dark characteristics of a 4.5Wp commercial X-Si solar module (9 V, 500 mA) at 25-27 °C, and calculate Rd and R D . We see that R d and R D can be markedly different. Comparison is also made on the series resistance R s and shunt resistance R sh determined from single IV curve and two IV curve methods.
[1]
M. Bashahu,et al.
Review and test of methods for determination of the solar cell series resistance
,
1995
.
[2]
M. K. El-Adawi,et al.
A method to determine the solar cell series resistance from a single I–V. Characteristic curve considering its shunt resistance—new approach
,
2001
.
[3]
Krissanapong Kirtikara,et al.
On dynamic and static I-V characteristics of solar cell modules having low and high fill factors
,
2003,
3rd World Conference onPhotovoltaic Energy Conversion, 2003. Proceedings of.
[4]
Hans S. Rauschenbach,et al.
Solar Cell Array Design Handbook: The Principles and Technology of Photovoltaic Energy Conversion
,
1980
.