论文信息 - Network analysis of fault-tolerant solar photovoltaic arrays

Network analysis of fault-tolerant solar photovoltaic arrays

Large solar photovoltaic array networks have been investigated to find a configuration that is comparatively less susceptible to electrical mismatches due to manufacturer's tolerances in solar cell characteristics and shadow problems. Three network configurations have been selected for comparison: series-parallel, total-crossed-tied and bridge-linked. Explicit mathematical analysis based on randomly generated parameters of solar cell characteristics is presented. Series resistance of the constituent cells has been taken into account. The computational schemes for the array configurations of arbitrary size have been developed and implemented in numerical algorithms and computer programs. The illustrative numerical computations have shown that the bridge-linked array interconnection network under most conditions is superior to and never worse than the total-cross-tied and significantly superior to the series-parallel network in its fault-tolerance due to shadow effects and manufacturer's tolerances in cell characteristics.

N. D. Kaushika | N. K. Gautam

[1] N. F. Shepard,et al. The integration of bypass diodes with terrestrial photovoltaic modules and arrays , 1984 .

[2] V. Quaschning,et al. Numerical simulation of current-voltage characteristics of photovoltaic systems with shaded solar cells , 1996 .

[3] F. C. Treble,et al. Generating electricity from the sun , 1991 .

[4] Martin A. Green,et al. Effect of shunt resistance and bypass diodes on the shadow tolerance of solar cell modules , 1982 .

[5] R. G. Ross. Reliability and Performance Experience with Flat-Plate Photovoltaic Modules , 1982 .

[6] Averill M. Law,et al. Simulation Modeling and Analysis , 1982 .

[7] C. Gonzalez,et al. Circuit design considerations for photovoltaic modules and systems , 1980 .

[8] H. Rauschenbach. Electrical output of shadowed solar arrays , 1971 .

[9] Mohamed Sayed,et al. Effect of shading on CdSCuxS solar cells and optimal solar array design , 1975 .

[10] R. G. Ross,et al. Photovoltaic module and array reliability , 1981 .

[11] S. Singer,et al. Characterization of PV array output using a small number of measured parameters , 1984 .

[12] J. W. Bishop. Computer simulation of the effects of electrical mismatches in photovoltaic cell interconnection circuits , 1988 .

[13] M. V. Valkenburg. Network Analysis , 1964 .

[14] Louis L. Bucciarelli,et al. Power loss in photovoltaic arrays due to mismatch in cell characteristics , 1979 .