期刊
IEEE TRANSACTIONS ON ELECTRON DEVICES
卷 -, 期 -, 页码 -出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TED.2023.3264197
关键词
EM circuit; fine-tunable; low-temperature poly-Si thin-film transistor (LTPS TFT); organic light-emitting diode (OLED); tunable pulsewidth
AMOLED displays use compensation techniques to address luminance non-uniformity issues caused by variations in thin-film transistors' electrical characteristics. A proposed electromagnetic pulse generation circuit can generate pulse widths of any multiple of the line time by changing the phase of additional clock signals. This circuit reduces power consumption and eliminates coupling noises on the output pulses.
Active matrix organic light-emitting diode (AMOLED) displays have deployed the compensation techniques to cope with the luminance non-uniformity issues caused by variations on electrical characteristics of thin-film transistors (TFTs). While some compensation circuits require control signals of longer pulse widths than a line time, the luminance control as well as the higher bit depth representation have been also accomplished by adjusting the pulse widths. A proposed EM pulse generation circuit consists of 11 p-type low-temperature poly-Si (LTPS) TFTs and a one coupling capacitor. While previous tunable circuits could address pulse widths of either even or odd multiples of a line time, the proposed circuit can generate any multiples by changing phases of additional clock signals. In particular, the internal inverter is implemented with a load connected to the output of a previous stage's inverter to reduce the power consumption over pulse widths. The coupling capacitor is also connected between two adjacent stages through one TFT, eliminating coupling noises on the output pulses. The proposed EM circuit is simulated at a line time of 3.8 mu s for a 120 Hz 3840 x 2160 display. The results ensure that pulse widths from three to 2160 lines are generated successfully without coupling noises and the small variation on power consumption from 1.23 to 0.33 mW is achieved at 30 stages for the whole range of pulse widths, compared to the large range from 1.26 to 76.91 mW with the inverter of a diodeconnected load.
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