大规模MIMO系统的基站对信道状态信息获取程度决定了其下行信道预编码性能,从而影响了整个下行信道速率。本文研究I/Q不平衡对TDD模式下的大规模MIMO上下行信道互易性的影响,证明了当无法实现理想的I/Q不平衡校准,随着基站天线数的增加,若基站采用多晶振变频器,基站端的I/Q不平衡出现随机特性将会对链路I/Q不平衡进行补偿,使系统容量损失得以补偿。仿真结果验证了结论的可靠性。 The acquisition of channel state information by a base station in a large-scale MIMO system determines the precoding performance of the downlink channel, thereby affecting the entire downlink channel rate. This paper studies the impact of I / Q imbalance on the reciprocity of large-scale MIMO uplink and downlink channels in TDD mode, and proves that if the ideal I / Q imbalance calibration can not be achieved, as the number of base station antennas increases, Stochastic characteristics of the I / Q imbalance of the crystal oscillator inverter and the base station end will compensate the link I / Q imbalance and compensate for the system capacity loss. The simulation results verify the reliability of the conclusion.