In view of the broad application prospects of the VSC-HVDC technology in the transmission of long-distance and large-capacity offshore wind power, and the significant challenges brought by the high-speed development of wind power to the receiving power grid in absorbing new energy sources, it is necessary to evaluate the absorptive capacity of far offshore wind power through VSC-HVDC. Based on the steady-state mathematical model of VSC-HVDC considering the losses of converter stations, an evaluation model of a typical solar setting is established aiming at the maximum of wind power absorption considering the wind power and load's fluctuation, maximum and minimum technical output of units, voltage margin of nodes, etc. Finally, an example of IEEE-30 node system is given to verify the effectiveness of the proposed evaluation method.