In order to judge the stability of a power system, it is of great significance to establish an accurate model, among which the impedance model has become a common tool for judging system stability due to its simplicity and effectiveness. In the dq coordinate system, the small-signal modeling method based on averaging is adopted to complete the impedance modeling of line-commutated converter (LCC) which considers commutation overlap. Firstly, the nonlinear change process of each physical quantity in commutation overlap process is linearized by the small-signal method, and the transfer function between physical quantities is established. And then, the equivalent impedance model of DC side and AC side of LCC is obtained by introducing simplified model of AC network in AC side and considering the modeling of constant voltage control mode and phase-locked loop. Finally, by comparing PSCAD/EMTDC simulation results and model calculation results, the accuracy of the proposedimpedance model is proved.