Title |
A Low-luminance Compensation Current Driver for AMOLED Displays |
Authors |
(Seonwoo Yeom) ; (Minhyun Jin) ; (Donggun Lee) ; (Kyujin Kim) ; (Soo Youn Kim) |
DOI |
https://doi.org/10.5573/JSTS.2021.21.1.068 |
Keywords |
AMOLED displays; charge-transfer circuit; feedback trans-conductance current-mode driver; ultra-low compensation current |
Abstract |
A Feedback Trans-conductance (FB-Gm) current-mode driver with a charge-transfer circuit is proposed to achieve ultra-low current drivability (≤ 2 nA). By using an FB-Gm current-mode driver, both threshold-voltage and mobility variations can be compensated. In addition, an initialization technique that uses a charge-transfer circuit is proposed to handle an ultra-low current of approximately 2 nA with fast driving speed. The simulation results show that the proposed current-mode driver can compensate for 2 nA of current within 10 μs of one-row time with 10 μA/channel of static-current consumption. Here, 1.5 kΩ of series resistance and 25 pF of shunt capacitance, which represent double-wide ultra XGA (DWUXGA) AMOLED displays, are used for accurate simulation. |