With demand for better user experience, performance of power saving on mobile phones has been a critical issue in recent years. In LTE-Advanced network, a Discontinuous Reception (DRX) mechanism is provided to support power saving functionality. It is clear that there is a trade-off between energy saving and quality of service (QoS). Unlike previous studies, which analyzed the average packet delay as QoS requirement, an analytical model for ratio of packet loss due to violation of delay bound requirement is proposed in this work and given DRX parameter values, equations for power consumption are also derived. Under the constraint that the packet loss ratio is no greater than a pre-defined threshold, an approach to maximizing average power saving is presented for selection of values for DRX parameters. The analytical model is verified with computer simulation and the result of analytical calculation matches that of simulation. Moreover, the power saving efficiency achieved by the proposed approach is close to that of optimum configuration. This work is expected to provide a fundamental analysis for packet loss probability and power saving efficiency under DRX mechanism.