Predicting Capacitor Reliability in a Module-Integrated Photovoltaic Inverter Using Stress Factors from an Environmental Usage Model Conference Paper

abstract

• In order for photovoltaic energy to achieve grid parity, the levelized cost of energy (the total lifetime cost) must be reduced. This is not possible by addressing only the solar cells since the inverter is a critical weak link in the system. It is well known that aluminum electrolytic capacitors, ubiquitous in power electronic converters, have end-of-life and failure modes that are sensitive to environmental conditions including temperature. In an Aepv system the inverter is mounted on the photovoltaic (PV) module which exposes the capacitors to potentially elevated temperatures which can increase their failure rate. Existing techniques of derating the capacitors increase the cost of the inverter, so they must be applied judiciously. This paper presents a technique to more accurately compute the MTBF of the capacitors used in a PV inverter by utilizing a thermal model of the PV module to predict operating temperature.

name of conference

• North American Power Symposium 2010

authors

• Balog, Robert
• Enjeti, Prasad

published proceedings

• North American Power Symposium 2010

author list (cited authors)

• Castillo, S. J., Balog, R. S., & Enjeti, P.

citation count

• 23

complete list of authors

• Castillo, Samantha J||Balog, Robert S||Enjeti, Prasad

publication date

• January 2010

publisher

• Institute of Electrical and Electronics Engineers (IEEE)  Publisher

keywords

• 7 Affordable And Clean Energy

Digital Object Identifier (DOI)

• 10.1109/naps.2010.5618955

International Standard Book Number (ISBN) 13

• 9781424480463

start page

• 1

end page

• 6

URL

• http%3A%2F%2Fdx.doi.org%2F10.1109%2Fnaps.2010.5618955

user-defined tag

• 7 Affordable and Clean Energy