The present invention relates to a human-like phantom for evaluating the performance of a human implantable medical device, and more particularly, to a phantom-like phantom having a structure composed of agarose, sodium chloride (NaCl), aluminum powder, A human-like phantom layer; And a signal measurement sensor layer provided on the human-like phantom layer for measuring the charging efficiency and the temperature change for evaluating the performance of the implantable medical device. The present invention relates to a method for manufacturing a human-like phantom for performance evaluation of a human implantable medical device, and more particularly, to a method for manufacturing a human-like phantom, which comprises (1) purifying water, agarose in liquid state, (Sodium Chloride, NaCl) is mixed and heated to dissolve; (2) stirring and cooling the dissolved liquid; (3) adding the aluminum powder when the dissolved liquid reaches a predetermined temperature, and cooling the gel to gel to produce a human-like phantom layer; And (4) fabricating a human-like phantom by stacking a signal measurement sensor layer for measuring charging efficiency and temperature change for evaluating the performance of the implantable medical device on the human-like phantom layer. . The present invention relates to a method for evaluating the performance of a human implantable medical device, and more particularly, to a method for evaluating the performance of a human implantable medical device, comprising the steps of: (a) And a signal measurement sensor layer provided on the human-like phantom layer and measuring a charging efficiency and a temperature change for evaluating the performance of the human-wearing medical instrument, the human-like phantom layer comprising aluminum powder and purified water, Placing a wireless power transmission pad under the human-like phantom configured; And (b) measuring a charge efficiency and a temperature change of the human-like phantom using a si
