#Dielectric resonator oscillator smith chart simulator
A method for designing a micromechanical system (MEMS) resonator, the method comprising: selecting a piezoelectric material and material for a top electrode and bottom electrode for a simulated MEMS resonator selecting an initial thickness and width for a guard ring placed on the top electrode, and selecting a space to a perimeter edge of the top electrode from the outside edge of the guard ring simulating operation of the simulated MEMS resonator using a three-dimensional finite element simulator and adjusting the thickness, width and space to the perimeter edge and repeating simulating operation of the simulated MEMS resonator.ġ9. The MEMS resonator of claim 11, further comprising another acoustic reflector attached to the second electrode.ġ8. The MEMS resonator of claim 11, further comprising an acoustic reflector attached to the first electrode.ġ7. The MEMS resonator of claim 11, wherein the MEMS resonator is a solidly mounted resonator.ġ6. The MEMS resonator of claim 11, wherein the MEMS resonator is a thin film bulk acoustic resonator.ġ5. The MEMS resonator of claim 11, wherein the first guard ring has a thickness and a width, and the second guard ring has a width that is different from the width of the first guard ring.ġ4. The MEMS resonator of claim 11, wherein the first guard ring has a thickness and a width, and the second guard ring has the same thickness and the same width as the first guard ring.ġ3. A micromechanical system (MEMS) resonator comprising: a base substrate a piezoelectric member mounted on the base substrate, the piezoelectric member having a first electrode attached to a first surface of the piezoelectric member and a second electrode attached to a second surface of the piezoelectric member opposite the first electrode, the second electrode being bounded by a perimeter edge a first guard ring positioned on the second electrode adjacent to the perimeter edge of the second electrode and a second guard ring positioned on the second electrode, wherein the second guard ring is concentric with and surrounded by the first guard ring and spaced periodically from the first guard ring.ġ2. The MEMS resonator of claim 1, wherein the first guard ring is a dielectric material.ġ1. The MEMS resonator of claim 2, wherein the first guard ring has a thickness and a width, and the second guard ring has width that is different from the width of the first guard ring.ġ0. The MEMS resonator of claim 2, wherein the first guard ring has a thickness and a width, and the second guard ring has the same thickness and the same width as the first guard ring.ĩ. The MEMS resonator of claim 1, wherein the guard ring has a width having a range of 5-7 um and wherein the guard ring is spaced apart from the perimeter edge of the second electrode by a space having a range of 1.6-2.4 um.Ĩ. The MEMS resonator of claim 5, further comprising another acoustic reflector attached to the second electrode.ħ.
The MEMS resonator of claim 1, further comprising an acoustic reflector attached to the first electrode.Ħ. The MEMS resonator of claim 1, wherein the MEMS resonator is a solidly mounted resonator.ĥ. The MEMS resonator of claim 1, wherein the MEMS resonator is a thin film bulk acoustic resonator.Ĥ. The MEMS resonator of claim 1, wherein the guard ring is a first guard ring, further comprising a second guard ring attached to the second electrode, wherein the second guard ring is concentric with and surrounded by the first guard ring and spaced periodically from the first guard ring.ģ.
A micromechanical system (MEMS) resonator comprising: a base substrate a piezoelectric member mounted on the base substrate, the piezoelectric member having a first electrode attached to a first surface of the piezoelectric member and a second electrode attached to a second surface of the piezoelectric member opposite the first electrode, the second electrode being bounded by a perimeter edge and a guard ring attached to the second electrode spaced apart from the perimeter edge of the second electrode.Ģ.