Investigation of a Vacuum Encapsulated Si-to-Si Contact Microswitch Operated From −60 °C to 400 °C PROJECT TITLE :Investigation of a Vacuum Encapsulated Si-to-Si Contact Microswitch Operated From −60 °C to 400 °CABSTRACT:We report on characterization of Si-to-Si contact microswitches fabricated in an ultraclean encapsulation method. This 3-terminal microswitch depends on a curved beam (source) that actuates toward the contact terminal (drain) by charging the management terminal (gate). The operation range of this switch from −sixty °C to three hundred °C is investigated, which approximately yields a resistance drift of $- two hundred~Omega $ /K. Our experiments embody tests of the high-temperature lifetime throughout continuous ON–OFF cycles. By reducing Joule heating at the contact, preliminary results demonstrate at least $ten^mathrm mathbf 6$ cycles longer lifetime at 400 °C. Subsequently, the failure mode is investigated and reported. The study of ultraclean Si-to-Si contact-primarily based microswitches provides an important guideline to the field of mechanical and electrical failure mechanisms for harsh atmosphere applications. [2014–0373] Did you like this research project? To get this research project Guidelines, Training and Code... Click Here facebook twitter google+ linkedin stumble pinterest Selective Stiffening for Producing a Mass-Fabrication Compatible Motion Conversion Mechanism Constrained Metric Learning by Permutation Inducing Isometries