A MEMS apparatus has a substrate, an input node, an output node, and a MEMS switch between the input node and the output node. The switch selectively connects the input node and the output node, which are electrically isolated when the switch is open. The apparatus also has an input doped region in the substrate and an output doped region in the substrate. The input doped region and output doped region are electrically isolated through the substratei.e., the resistance between them inhibits non-negligible current flows between the two doped regions. The input doped region forms an input capacitance with the input node, while the output doped region forms an output capacitance with the output node.

After forming a microelectromechanical-system (MEMS) resonator within a silicon-on-insulator (SOI) wafer, a complementary metal oxide semiconductor (CMOS) cover wafer is bonded to the SOI wafer via one or more eutectic solder bonds that implement respective paths of electrical conductivity between the two wafers and hermetically seal the MEMS resonator within a chamber.

Multiple degenerately-doped silicon layers are implemented within resonant structures to control multiple orders of temperature coefficients of frequency.

A microelectromechanical system (MEMS) resonator includes a substrate having a substantially planar surface and a resonant member having sidewalls disposed in a nominally perpendicular orientation with respect to the planar surface. Impurity dopant is introduced via the sidewalls of the resonant member such that a non-uniform dopant concentration profile is established along axis extending between the sidewalls parallel to the substrate surface and exhibits a relative minimum concentration in a middle region of the axis.

Multiple degenerately-doped silicon layers are implemented within resonant structures to control multiple orders of temperature coefficients of frequency.

MEMS devices with co-packaged thermistors and methods of fabrication are described in which a support layer is patterned to include a lower cavity and a thermistor pattern spanning directly underneath the lower cavity. A device layer is bonded to the patterned support layer and includes a resonator element that is over the lower cavity. A cap layer bonded to the device layer.

A microelectromechanical system (MEMS) resonator includes a substrate having a substantially planar surface and a resonant member having sidewalls disposed in a nominally perpendicular orientation with respect to the planar surface. Impurity dopant is introduced via the sidewalls of the resonant member such that a non-uniform dopant concentration profile is established along axis extending between the sidewalls parallel to the substrate surface and exhibits a relative minimum concentration in a middle region of the axis.