题目/Title：DC offset calibration method for zero-IF receiver removing the PGA-gain-correlated offset residue

作者/Author：张凌炜,姜汉均,李福乐,董晶晶,崔健为,张春,王志华
                        Lingwei Zhang,Hanjun Jiang,Fule Li,Jingjing Dong,Jianwei Cui,Zhihua Wang

期刊/Journal：AEU-International Journal of Electronics and Communications

年份/Issue Date：2013Jul.

卷（期）及页码/Volume（No.）&pages：Vol.67, No.7, pp. 578 - 584

摘要/Abstract：
This paper presents a novel DC offset calibration method for the zero-IF (intermediate frequency) receiver that removes the PGA-gain-correlated offset residue. The conventional calibration method usually uses the classic input/output referred offset model, in which the receiver IF programmable gain amplifiers (PGAs) have offset sources that varies a lot with different gain settings. Consequently, the conventional calibration method needs to generate the calibration code at each gain step and requires a huge look up table (LUT) to store the calibration values. This paper presents a new DC offset model which is gain non-correlated, by analyzing two types of commonly used PGA. Based on the new model, a LUT-free single-step DC offset calibration method in together with the implementation circuit is designed. The proposed method has been verified on a practical zero-IF receiver circuit in a standard 0.18 um CMOS technology through the Monte Carlo (MC) simulation. The simulation results show that the receiver IF output offset residue after calibration using the proposed method is reduced to below 12 mV, in contrast to 200 mV by the conventional method.