Tungsten diselenide (WSe₂) has ambipolar conductivity characteristics, which can be adjusted by external doping or changing source/drain metals. It is a special type of two dimensional nanomaterials and is expected to replace silicon (Si) in integrated circuits in the future. In this paper, the theory and experiments were combined to systematically analyze the influence of the source/drain contact characteristics of WSe₂ field effect transistor on the conductivity type and carrier transport characteristics of the device. By preparing WSe₂ field effect transistors with different metals as the source/drain contact electrodes, it is found that the actual Schottky contact barrier height of the metal/WSe₂ contact greatly affects the on-state current of the transistor. The source/drain contact characteristics of the metal/WSe₂ depend on the ideal Fermi level difference before contact, and also they will be affected by the interface characteristics, especially the Fermi level pinning effect.