A Highly Linear 10-Bit DAC of Data Driver IC Using Source Degeneration Load for Active Matrix Flat-Panel Displays

Abstract

This brief proposes a highly linear digital-to-analog converter (DAC) of the data driver IC for active matrix flat-panel displays (AMFPDs). The proposed 10-bit two-stage DAC is realized with an upper 6-bit decoder and a lower 4-bit DAC-embedded amplifier. The decoder in the first stage selects two adjacent voltages from among the reference voltages of the R-string according to the upper 6-bit. The DAC-embedded amplifier in the second stage employs a source degeneration load to have the output current proportional to the input voltage, thus achieving the consistent transconductance of the input differential pairs, resulting in a high linearity. To verify the performance of the proposed DAC, a data driver IC with the proposed 10-bit DAC was fabricated using an 80 nm standard CMOS process with 8 V high-voltage devices. The measurement results show that the worst differential nonlinearity and integral nonlinearity are x002B;0.26/x2212;0.31 LSB and x002B;0.57/x2212;0.58 LSB, respectively. The measured worst inter-channel deviation of voltage outputs is 1.65 mV. Therefore, the proposed highly linear DAC is suitable for data driver ICs in high image quality AMFPD applications.