A novel high-speed column-line driving scheme having output buffer amplifiers embedded with polarity multiplexer switches is proposed for use in large-sized thin-film transistor liquid-crystal displays. The proposed driving scheme does not have explicit output-polarity switches, resulting in lower settling time. Experimental results in a 1.2 μm 13.5 V CMOS process indicated that using the proposed driving scheme the settling times to reach 99% of target voltages for the dot and column inversions were improved by up to 48.6%. This driving scheme can be applied to class AB-or class B-type amplifiers for liquid-crystal display column drivers and output buffers controlled by output switches.
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