7.6 C
London
Wednesday, March 3, 2021

SunPower E20/327 Solar Panels Achieve Lowest Potential Induced Degradation

Popular Articles

SunPower Modules Much Less Susceptible To PID than Conventional Modules, As Confirmed By Third-Party Testing

SAN JOSE, Calif., Oct. 18, 2013 /PRNewswire/ — SunPower Corp. (NASDAQ: SPWR), a leading solar technology and energy services company, today announced that its high-efficiency SunPower® E20/327 Solar Panel recently underwent stringent third-party testing for potential induced degradation (PID) by PV Evolution Labs. Upon completion, the panels showed power loss of less than 0.2 percent, performing better than any of the others tested. The average degradation of modules that passed this test is approximately four to five percent.

PID is a phenomenon where leakage of electrical current from the solar cell to the panel frame drives ion migration, which modifies the electrical characteristics of the solar cell and degrades the panel’s power output. Temperature, humidity and voltage all accelerate this process.

SunPower earned certificates in all grounding configurations and, when compared against conventional panels that passed, its panels degraded at a rate 20 times lower. Only 50 percent of all panels tested successfully passed the program’s criteria. A conventional panel is approximately 240 watts, 15 percent efficient and approximately 1.6 square meters in size.

“This third-party testing program confirms that SunPower solar panels are virtually PID free in any grounding configuration and offer extreme resistance to degradation, with the results surpassing the nearest conventional panel,” said Tom Werner, SunPower president and CEO. “As a solar technology leader, we are committed to providing our customers with third-party validation, assuring them that they are buying the most reliable panels on the market today.”

Testing criteria developed by PV Evolution Labs includes subjecting the solar panels to 600 hours of damp heat conditioning, as defined in international testing standards, and maximum rated voltage stress. After 100 hours of testing, a panel must demonstrate less than five percent power loss and less than 10 percent after 600 hours to pass the test. Of the fifty percent that failed, power loss ranged from 18 percent to 87 percent.

During the testing period, visual inspections, flash testing and high-resolution electroluminescence images are taken to accurately evaluate and monitor the panel’s durability. The measured data is then compared to criteria developed to determine if the panel has passed or failed the PID program.

Headquartered in Berkeley, Calif., PV Evolution Labs is an independent testing facility that provides companies developing photovoltaic products and projects with secure, expert testing and performance validation services.

SunPower has received several third-party validations over the past several months that confirm the reliability of its solar panels, including:

  • Atlas Material Testing Technology, LLC issued an unprecedented reliability rating for the SunPower E20/327 Solar Panel, showing less than two percent power drop across all degradation tests performed
  • Fraunhofer announced that the SunPower E20/327 Solar Panel ranked first in its PV Durability Initiative testing, garnering top scores in all ten categories tested
  • In the Photon 2012 Module Yield Test, the SunPower E-Series Solar Panels placed first, second and third in highest performing solar panels out of 151 solar manufacturers participating

About SunPower

SunPower Corp. (NASDAQ: SPWR) designs, manufactures and delivers the highest efficiency, highest reliability solar panels and systems available today. Residential, business, government and utility customers rely on the company’s quarter century of experience and guaranteed performance to provide maximum return on investment throughout the life of the solar system. Headquartered in San Jose, Calif., SunPower has offices in North America, Europe, Australia, Africa and Asia. For more information, visit www.sunpower.com.

SunPower is a registered trademark of SunPower Corp. All other trademarks are the property of their respective owners.

SOURCE SunPower Corp.

Note to Readers: SunPower’s press releases, presentations and printed remarks and materials are included on this website for historical purposes only. The information contained in these documents should be considered accurate only as of the date of the relevant document. This information may change over time; therefore, visitors to this website should not assume that the information contained in these documents remains accurate at a later time. We do not have any current intention, and expressly disclaim any obligation, to supplement, update or revise any of the information in these documents.

This website may contain information considered to be forward-looking and reflects management’s current expectations. These forward-looking statements may be identified by terminology such as may, will, could, should and expect and the negative of these terms or other similar expressions. We remind you that these statements involve known and unknown risks, uncertainties and other factors that may cause our actual results, performance or achievements to be materially different from any future results, performance or achievements expressed or implied by the forward-looking statements. Such factors include, among others: our limited operating history and variability of operating results; our ability to identify and retain key customers; our ability to anticipate consumers’ desires and design new products that incorporate feature sets that are attractive to our customers; our ability to manage and maintain our suppliers; our dependence on key employees; changes in laws and regulations associated with solar power; risks associated with general economic uncertainty; and other risk factors. Please refer to our SEC filings for a more detailed description of some of these and other risks and uncertainties that could affect our performance or achievements. You should not place undue reliance on these forward-looking statements.

- Advertisement -

More articles

Latest articles

- Advertisement -