Abstract
In this paper, we propose a compensation method for variations in the subthreshold slope (SS) and threshold voltage (Vth) of the low-temperature polycrystalline silicon thin-film transistors (LTPS TFTs) in an attempt to improve the image quality of the active matrix organic light-emitting diode (AMOLED) displays for mobile applications. The proposed compensation method provides a uniform voltage to the OLED according to the gray level without being affected by variations in the SS and Vth of the LTPS TFTs. To verify the performance of the proposed compensation method, a test pattern, including two pixel circuits designed for 5.7-inch quadruple high-definition AMOLED display was fabricated and measured. The measurement results showed that the proposed compensation method achieved an emission current error of the pixel circuit of only ±3.1 LSB at the 255th gray level. Therefore, the proposed compensation method is very suitable for AMOLED displays requiring high image quality.
Highlights
Active-matrix organic light-emitting diode (AMOLED) displays have been widely used for mobile applications
The proposed method significantly reduces the emission current error (ECE) caused by variations in the subthreshold slope (SS) and Vth of the low-temperature polycrystalline silicon (LTPS) thin-film transistors (TFTs) compared to the conventional diode-connection method
This paper proposes a compensation method for variations in the SS and Vth of the LTPS TFTs to improve the image quality of active-matrix organic light-emitting diode (AMOLED) displays for mobile applications
Summary
Active-matrix organic light-emitting diode (AMOLED) displays have been widely used for mobile applications. 5T1C PIXEL CIRCUIT USING PROPOSED COMPENSATION METHOD Fig. 1(a) and (b) respectively show the schematic and timing diagram of the 5T1C pixel circuit using the proposed compensation method for variations in the SS and Vth of the LTPS TFTs. The scan signal is applied to the gate nodes of T4 and T5, and the data signal (Vdata) is provided to the source node of T5.
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