Stable RGBW AMOLED display with OLED degradation compensation using electrical feedback

We present an electronic monitoring and feedback scheme for an AMOLED display that substantially reduces the appearance of image degradation and increases useful lifetime. We describe the methodology and show results on a 32-inch 1080p OLED display that establishes the benefits. We further explain h...

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Hauptverfasser:	Chaji, G.R., Alexander, S., Dionne, J.M., Azizi, Y., Church, C., Hamer, J., Spindler, J., Nathan, A.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Active matrix organic light emitting diodes Aging Biomedical measurements Degradation Feedback Flat panel displays Monitoring Organic light emitting diodes Thin film transistors Voltage
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creator	Chaji, G.R. Alexander, S. Dionne, J.M. Azizi, Y. Church, C. Hamer, J. Spindler, J. Nathan, A.
description	We present an electronic monitoring and feedback scheme for an AMOLED display that substantially reduces the appearance of image degradation and increases useful lifetime. We describe the methodology and show results on a 32-inch 1080p OLED display that establishes the benefits. We further explain how the same technique can be used as a diagnostic tool to identify and discriminate among defects introduced during the manufacturing process.
doi_str_mv	10.1109/ISSCC.2010.5434027
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Active matrix organic light emitting diodes Aging Biomedical measurements Degradation Feedback Flat panel displays Monitoring Organic light emitting diodes Thin film transistors Voltage
title	Stable RGBW AMOLED display with OLED degradation compensation using electrical feedback
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