Add to ORKGSilicon MEMS resonators have great potential for on-chip high frequency signal applications. This paper compares methods of sensing the temperature of an encapsulated silicon MEMS resonator and using this temperature measurement to stabilize the temperature, and hence the resonant frequency, of the resonator. The use of external Pt RTDs, integrated Si thermistors, and the use the Quality factor (Q) of the resonator are explored. Use of the Q as a temperature sensor is explored in detail as it is a nearly ideal temperature sensing method. Characterisations of the temperature sensors and preliminary temperature control results are presented. 1
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The thermal stability of the natural frequency of a double-ended tuning-fork MicroElectroMechanical ...
ISBN 978-1-4244-7026-6International audienceThis paper presents the study of an electromechanical re...
This paper deals with a single-crystal-silicon (SCS) MEMS resonator with improved temperature stabil...
With an increasing demand of higher and higher performance for several microelectromechanical system...
This paper reports the development of resonance-based temperature sensors using a wafer level vacuum...
We report a new silicon Microelectromechanical systems (MEMS) accelerometer based on differential fr...
The stability of resonant frequency for single wafer, thin film encapsulated silicon MEMS resonators...
Passive temperature compensation of silicon MEMS resonators based on heavy n- and p-type doping is s...
This study reports a temperature compensation method for a capacitive MEMS accelerometer by using a ...
The purpose of this paper is to assess the feasibility of MEMS-based real-time clocks (RTCs) using c...
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ISBN 978-1-4244-7026-6International audienceThis paper presents the study of an electromechanical re...
This paper deals with a single-crystal-silicon (SCS) MEMS resonator with improved temperature stabil...