• DocumentCode
    1755855
  • Title

    LED Junction Temperature Measurement Using Generated Photocurrent

  • Author

    Lock, D.A. ; Hall, S.R.G. ; Prins, A.D. ; Crutchley, Benjamin G. ; Kynaston, S. ; Sweeney, S.J.

  • Author_Institution
    Adv. Technol. Inst., Univ. of Surrey, Guildford, UK
  • Volume
    9
  • Issue
    5
  • fYear
    2013
  • fDate
    41395
  • Firstpage
    396
  • Lastpage
    401
  • Abstract
    LED-based lamps that are currently on the market are expensive due to the complex packaging required to dissipate the heat generated. This also limits their performance and lifetime due to the degradation of the phosphor or individual LED chips, in the case of RGB sources. There is a strong commercial imperative to develop in situ technology to measure and ultimately compensate for the thermal environment of a luminaire. Utilizing the large Stoke´s shift in InGaN green and blue emitting LEDs, a blue LED emitter pump can induce a photocurrent within devices which emit in either the blue or green region. Measurements have shown that green and blue emitters may be excited on the absorption edge in an effect which results in a rise in the open circuit voltage with increasing temperature. From these measurements the junction temperature of a device operating in quasi-cw mode at 80 mA is shown to result in a junction temperature of 86 (±2) °C which agrees well with a junction temperature of 87 (±2) °C measured using the more conventional forward voltage technique. This paper describes the technique utilized and the results achieved in driving a green emitting LED with a blue emitting pump LED and furthermore it discusses some of the benefits and issues associated with this technique for determining the junction temperature.
  • Keywords
    LED lamps; cooling; electronics packaging; indium compounds; phosphors; photoconductivity; photoemission; temperature measurement; InGaN; LED junction temperature measurement; LED-based lamp; RGB source; Stoke shift; absorption edge; blue LED emitter pump; complex packaging; current 80 mA; forward voltage technique; green emitting LED; heat dissipation; heat generation; luminaire; open circuit voltage; phosphor; photocurrent generation; quasiCW mode operation; temperature -2 degC; temperature 2 degC; temperature 86 degC; temperature 87 degC; thermal environment; Green products; Light emitting diodes; Photoconductivity; Semiconductor device measurement; Temperature measurement; Voltage measurement; GaN; Stoke shift; junction temperature; light-emitting diode (LED); luminaires; solid-state lighting;
  • fLanguage
    English
  • Journal_Title
    Display Technology, Journal of
  • Publisher
    ieee
  • ISSN
    1551-319X
  • Type

    jour

  • DOI
    10.1109/JDT.2013.2251607
  • Filename
    6478815