Add to ORKGA micro-electromechanical resonator includes a resonator body having a semiconductor region therein doped with boron to a level greater than about 1 X 10¹⁸ cm⁻³ and even greater than about 1 X 10¹⁹ cm⁻³, in order to obtain reductions in the temperature coefficient of frequency (TCF) of the resonator over a relatively large temperature range. Still further improvements in TCF can be achieved by degenerately doping the resonator body with boron and/or by boron-assisted aluminum doping of the resonator body.Georgia Tech Research Corporatio
Extent: 13 p. Invited articleDielectric resonators are key elements in many applications in micro to...
With quality factors (Q) often exceeding 10,000, vibrating micromechanical res-onators have emerged ...
This dissertation reports very novel solutions for the trimming and compensation of various paramete...
A microelectromechanical resonator includes a resonator body having a semiconductor region therein t...
A micro-electromechanical resonator includes an electrically-trimmed resonator body having at least ...
The invention relates to a temperature compensated micromechanical resonator and method of manufactu...
The invention concerns microelectromechanical resonators. In particular, the invention provides a re...
A method of forming a micromechanical resonator includes forming a resonator body anchored to a subs...
This paper reports on passive temperature compensation techniques for high quality factor (Q) silico...
The invention relates to a microelectromechanical resonator device comprising a support structure an...
Embodiments of the present disclosure can include a method for frequency trimming a microelectromech...
This dissertation explores methods for eliminating one of the most important obstacles that hinders ...
Passive temperature compensation of silicon MEMS resonators based on heavy n- and p-type doping is s...
The invention provides a microelectromechanical resonator device comprising a support structure and ...
Disclosed are micromechanical resonators having features that compensate for process variations and ...
Extent: 13 p. Invited articleDielectric resonators are key elements in many applications in micro to...
With quality factors (Q) often exceeding 10,000, vibrating micromechanical res-onators have emerged ...
This dissertation reports very novel solutions for the trimming and compensation of various paramete...
A microelectromechanical resonator includes a resonator body having a semiconductor region therein t...
A micro-electromechanical resonator includes an electrically-trimmed resonator body having at least ...
The invention relates to a temperature compensated micromechanical resonator and method of manufactu...
The invention concerns microelectromechanical resonators. In particular, the invention provides a re...
A method of forming a micromechanical resonator includes forming a resonator body anchored to a subs...
This paper reports on passive temperature compensation techniques for high quality factor (Q) silico...
The invention relates to a microelectromechanical resonator device comprising a support structure an...
Embodiments of the present disclosure can include a method for frequency trimming a microelectromech...
This dissertation explores methods for eliminating one of the most important obstacles that hinders ...
Passive temperature compensation of silicon MEMS resonators based on heavy n- and p-type doping is s...
The invention provides a microelectromechanical resonator device comprising a support structure and ...
Disclosed are micromechanical resonators having features that compensate for process variations and ...
Extent: 13 p. Invited articleDielectric resonators are key elements in many applications in micro to...
With quality factors (Q) often exceeding 10,000, vibrating micromechanical res-onators have emerged ...
This dissertation reports very novel solutions for the trimming and compensation of various paramete...