Evaluation of Maxim Module-Integrated Electronics at the DOE Regional Test Centers: Preprint

Christopher Deline, William Sekulic, Josh Stein, Stephen Barkaszi, Jeff Yang, Seth Kahn

Research output: Contribution to conferencePaper


Module-embedded power electronics developed by Maxim Integrated are under evaluation through a partnership with the Department of Energy's Regional Test Center (RTC) program. Field deployments of both conventional modules and electronics-enhanced modules are designed to quantify the performance advantage of Maxim's products under different amounts of inter-row shading, and their ability to bedeployed at a greater ground-coverage-ratio than conventional modules. Simulations in PVSYST have quantified the predicted performance difference between conventional modules and Maxim's modules from inter-row shading. Initial performance results have identified diffuse irradiance losses at tighter row spacing for both the Maxim and conventional modules. Comparisons with published models showgood agreement with models predicting the greatest diffuse irradiance losses. At tighter row spacing, all of the strings equipped with embedded power electronics outperformed their conventional peers. An even greater performance advantage is predicted to occur in the winter months when the amount of inter-row shading mismatch is at a maximum.
Original languageAmerican English
Number of pages8
StatePublished - 2014
Event40th IEEE Photovoltaic Specialists Conference (PVSC-40) - Denver, Colorado
Duration: 8 Jun 201413 Jun 2014


Conference40th IEEE Photovoltaic Specialists Conference (PVSC-40)
CityDenver, Colorado

NREL Publication Number

  • NREL/CP-5J00-62024


  • diffuse view factor
  • embedded power electronics
  • Maxim
  • MLPE
  • partial shading
  • PV system performance


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