Integrated bypass battery for reverse-bias protection

Author

Landis, Geoffrey A.

Author_Institution

NASA John Glenn Res. Center, Cleveland, OH, USA

fYear

2002

fDate

19-24 May 2002

Firstpage

1539

Lastpage

1540

Abstract

When a single solar cell of a series-connect string is placed in shadow, the entire array current is forced through that cell in reverse bias. Reverse bias current can lead to "hot-spot" heating, where the power produced by the unshadowed cells is dissipated as heat in the shadowed cell. Since occasional shadows are unavoidable in most applications, most solar arrays include shadow protection to prevent damage. In current practice, shadow protection is done with a "bypass diode" on each cell, to shunt the reverse bias current if a cell is shadowed. A new method of reverse bias protection is to use an integral thin-film battery to provide voltage in the case of a shadowed cell. In this case, the shadowed cell continues to provide voltage during the transient shadow.

Keywords

cooling; protection; semiconductor diodes; solar cell arrays; solar cells; array current; bypass diode; heat dissipation; hot-spot heating; integral thin-film battery; integrated bypass battery; reverse bias current; reverse-bias protection; series-connect string; shadow protection; shadowed cell; solar arrays; solar cell; unshadowed cells; Batteries; Diodes; Heating; NASA; Photovoltaic cells; Protection; Technological innovation; Thin film circuits; Transistors; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Photovoltaic Specialists Conference, 2002. Conference Record of the Twenty-Ninth IEEE

ISSN

1060-8371

Print_ISBN

0-7803-7471-1

Type

conf

DOI

10.1109/PVSC.2002.1190905

Filename

1190905