Title :
AMLCD flicker model considering the VT shift in a-Si:H TFT
Author :
Huang, Chung-Che ; Constable, James H. ; Yost, Boris ; Greene, Raymond G.
Author_Institution :
Photon Dynamics Inc., San Jose, CA, USA
Abstract :
The observed development of flicker with time in active matrix liquid crystal display (AMLCD) panels has been correlated to the threshold voltage shift of the thin film transistors (TFTs) used in panels. The effect of a threshold voltage shift on the panel flicker was calculated using a flicker model developed here. One set of AMLCD panels used for the flicker characterization employed top-gate TFTs, while a second set employed bottom-gate TFTs. Optical measurements to determine the flicker voltage as a function of aging were performed on both types of panels. Electrical characterization of the TFTs extracted the threshold voltage from the C-V measurement. Samples of the TFTs were available on the kerf strips for both panel types, and ensured that the optically characterized panels and the TFTs electrically characterized were manufactured in the same batch for each of the two panel types.
Keywords :
amorphous semiconductors; elemental semiconductors; flat panel displays; flicker noise; liquid crystal displays; liquid crystal on silicon; semiconductor device models; semiconductor device reliability; silicon; surface discharges; thin film transistors; time-varying networks; AMLCD flicker model; VT; active matrix liquid crystal display; aging function; bottom-gate TFTs; electrical characterization; flicker characterization; flicker voltage; kerf strips; liquid crystal displays; optical measurements; panel flicker; semiconductor device measurements; semiconductor device reliability; thin film transistors; threshold voltage shift; time-varying circuits; top-gate TFTs; Active matrix liquid crystal displays; Aging; Capacitance-voltage characteristics; Electric variables measurement; Optical films; Performance evaluation; Strips; Thin film transistors; Threshold voltage; Voltage fluctuations;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2003.817676
