This paper presents the first MEMS fully compliant bistable device that only requires one actuator for switching between its two stable states using single driving voltage with the same actuation duration. Based on these characteristics, the device is in fact a mechanical flip-flop which is analogous to the flip-fop device in electronics. The proposed device employs a mechanically Push-On-Push-Off mechanism consisting of two curved beam structures. An integrated V-beam actuator is used as the only actuation component. The proposed device can be easily realized on an SOI wafer by using the ICP-RIE process with a single photomask. Preliminary measurement results show that a 62.5 pulse frequency of 12 V with 50% duty cycle applied to the V-beam actuator can continuously switch the device between the On state and the Off state. Transient displacement results measured by using a vibrometer are also provided. The bistability of a pre-shaped buckled beam with elastically constrained boundary conditions was also studied theoretically and experimentally. The buckled shape model, which characterizes the initial buckled deflection, is employed in this study. A systematic method of designing a bi-stable buckled beam has been developed and applied to the bistable switch mechanism and the torque rod mechanism. The method is validated with the results by FEM simulations. The proposed analytical models were also in good agreement with measured results.