A macroscopic mechanism is developed to verify a repulsive-force electrostatic actuator, which consists of an array of fixed finger electrodes and an array of moving finger electrodes. The actuator is able to generate an asymmetric electric field surrounding the top and bottom surfaces of each moving finger electrode to push the moving finger up and away from the fixed fingers. The macroscopic mechanism consists of a macro repulsive force actuator, a high voltage power supply, a z-stage, a high precision balance and a LCR meter. The force and capacitance characteristic curves of the actuator are obtained using the macro mechanism. The 3-stage force (repulsive, zero and attractive forces) of the actuator is verified, as well as the effects of the moving finger width on the actuator's performance. Experimental tests show that the macro repulsive-force actuator can generate a repulsive force of 3,000 lN with a maximum gap of 9.5 mm for generating a repulsive force.
The metal multi-user MEMS processes (MetalMUMPs) provide one nickel film, two silicon nitride films and one polysilicon film for constructing various nickel MEMS devices. The two silicon nitride films are either bonded together as a bi-layered structure or they sandwich the polysilicon film to form a tri-layered structure to support nickel structures. The residual stress difference of the two silicon nitride films causes undesired deformations of suspended MetalMUMPs devices. In this paper, the residual stress difference of the two MetalMUMPs silicon nitride thin films is calibrated and the result is 169 MPa. The Young's modulus of the MetalMUMPs nitride films is also measured, which is 209 GPa.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.