Fast and Offset-Leakage Insensitive Current-Mode Line Driver for Active Matrix Displays and Sensors

Fast and Offset-Leakage Insensitive Current-Mode Line Driver for Active Matrix Displays and Sensors

Current-programmed active matrix (AM) architectures that are independent of fabrication technology are attractive for display and sensor because of their ability to tolerate mismatches and nonuniformity caused by aging. However, the long settling time due to low current levels and large parasitic ca...

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Veröffentlicht in:Journal of display technology 2009-02, Vol.5 (2), p.72-79
Hauptverfasser: Chaji, G.R., Nathan, A.
Format: Artikel
Sprache:eng
Schlagworte:
Active matrix (AM) organic light-emitting diode (OLED)
Active matrix displays
Active matrix technology
Aging
Capacitance
Capacitance measurement
CMOS
CMOS technology
Current measurement
Displays
Drivers
Fabrication
Feedback
flat panel imager
hydrogenated amorphous silicon (A-Si:H)
Low currents
Nonuniformity
offset cancellation
Parasitic capacitance
Sensors
Settling
thin-film transistor (TFT)
threshold voltage shift
Time measurement
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Beschreibung
Zusammenfassung:Current-programmed active matrix (AM) architectures that are independent of fabrication technology are attractive for display and sensor because of their ability to tolerate mismatches and nonuniformity caused by aging. However, the long settling time due to low current levels and large parasitic capacitance can be a significant limitation. In this paper, we present a fast current-mode line driver based on positive feedback which controls the effect of parasitic capacitance. The driver was fabricated in 0.8-mum 20-V CMOS technology. While the measured settling time of a conventional current source is around 2 ms for a 100-nA input current and 200-pF parasitic capacitance, it is less than 4 mus for the driver presented here. Moreover, an offset-leakage cancellation technique is implemented for the fabricated driver to reduce the effect of leakage and offset currents to few nA.
ISSN:1551-319X
1558-9323
DOI:10.1109/JDT.2008.2010276