This paper introduces a network formulation of bilateral teleoperation systems with admittance-type master interfaces to improve their stability range with Time Domain Passivity Approach (TDPA). Since traditional network representation of admittance-type teleoperation was not enough to detect the active energy, a new representation of admittance-type teleoperation system is formulated, using dependent effort/flow concepts. The proposed method, allows choosing small values of inertia in admittance model, which provides high transparency in free space interaction. Using the conventional mechanical-electrical analogy, the teleoperation system is modeled in an electrical network domain. Then, passivity of admittance-type teleoperation is analyzed and the TDPA is applied to passivate the system. Experimental results verified the effectiveness of the proposed approach.