一种用于移动有源矩阵lcd的5.6mV无失配开关电容插补通道间DVO 10b列驱动IC

Hyunsik Kim, Junhyeok Yang, Sang-Hui Park, S. Ryu, G. Cho
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引用次数: 13

摘要

为了在移动有源矩阵lcd中实现高图像质量,在列驱动ic中需要更高的DAC分辨率和良好的通道均匀性。在传统的柱驱动ic中,电阻- dac (R-DAC)架构由于其统一的特性而被普遍使用,因为驱动通道中的每个R-DAC共享一个用于伽马参考电压产生的公共电阻串。此外,非线性伽玛校正可以很容易地实现使用非线性电阻串,具有反向传递曲线的液晶(LC)响应。然而,lcd颜色深度的增加会导致较大的芯片尺寸开销,从而暴露了R-DAC架构的局限性。为了克服这个问题,已经报道了几种由主6b R-DAC和具有各种插值方案的4b子DAC组成的混合DAC架构[1-5]。他们的线性插值方案减少了驱动器通道的大小。同时,它们的线性4b插值导致非线性校正的有效位分辨率的损失。此外,各个子dac之间不可避免的不匹配对列驱动IC的通道到通道均匀性能有重大影响。在本文中,我们提出了一种10b列驱动IC,该IC具有无不匹配的开关电容(SC)插值方案,用于移动amlcd。所提出的无失配插值方案进一步减小了驱动器尺寸、良好的线性度、高度均匀的通道性能和更有效的位分辨率。
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A 5.6mV inter-channel DVO 10b column-driver IC with mismatch-free switched-capacitor interpolation for mobile active-matrix LCDs
To achieve high image quality in mobile active-matrix LCDs, higher DAC resolution and good channel-to-channel uniformity are required in column-driver ICs. In conventional column-driver ICs, the resistor-DAC (R-DAC) architecture has been generally used due to its uniform characteristic, because each R-DAC in driver channels shares a common resistor string for gamma reference-voltage generation. Furthermore, nonlinear gamma correction can be easily implemented using a nonlinear resistor-string that has an inverse transfer curve to the liquid crystal (LC) response. However, the increase in color depth for LCDs results in a large chip-size overhead, thus disclosing the limitation of the R-DAC architecture. To overcome this issue, several hybrid DAC architectures composed of a main 6b R-DAC and a 4b sub-DAC with various interpolation schemes have been reported [1-5]. Their linear interpolation schemes reduce the driver channel size. Meanwhile, their linear 4b interpolation leads to the loss of effective bit resolution for nonlinear gamma correction. In addition, the inevitable mismatch between respective sub-DACs has a significant influence on the channel-to-channel uniform performance of a column-driver IC. In this paper, we present a 10b column-driver IC with a mismatch-free switched-capacitor (SC) interpolation scheme for mobile AMLCDs. The proposed mismatch-free interpolation scheme provides further reduction of the driver size, good linearity, highly uniform channel performance, and more effective bit resolution.
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