Add to ORKGWe present the electro-thermo-mechanical constitutive relations, expanded up to the third order, for a BAW resonator. The relations obtained are implemented into a circuit model, which is validated with extensive linear and nonlinear measurements. The mathematical analysis, along with the modeling, allows us to identify the dominant terms, which are the material temperature derivatives and two intrinsic nonlinear terms, and explain, for the first time, all observable effects in a BAW resonator by use of a unified physical description. Moreover, the terms that are responsible for the second-harmonic generation and the frequency shift with dc voltage are shown to be the same.Peer Reviewe
Abstract:- The circuit models aimed to reproduce both the amplitude-frequency and the intermodulatio...
A model for tunable thin film bulk acoustic resonators (TFBARs) based on ferroelectric films is prop...
International audienceExcepted for the very short terms the frequency stability of ultra-stable osci...
This work presents a broadband characterization and modeling of the second harmonic nonlinear respon...
This work applies a comprehensive nonlinear characterization process of two Temperature Compensated ...
In this work, a model that uses several nonlinear parameters to predict harmonics and 3IMD distortio...
In this work we go beyond the usual temperature range for commercial applications and explore the fu...
International audienceThis paper deals with the temperature dependence of electrical and physical fe...
Electrodes are present in acoustic resonators to set electrical boundary conditions. Electrodes are ...
©2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
This paper evaluates the nonlinear effects occurring in a bulk acoustic wave (BAW) filter which incl...
This paper evaluates the nonlinear effects occurring in a bulk acoustic wave (BAW) filter which incl...
In this paper we demonstrate a method to extract the electric field dependence of first order piezoe...
We present a methodology to characterize BAW resonators both linearly and nonlinearly. The procedu...
This article discusses on the measured third-order intermodulation (IMD3) products and third harmoni...
Abstract:- The circuit models aimed to reproduce both the amplitude-frequency and the intermodulatio...
A model for tunable thin film bulk acoustic resonators (TFBARs) based on ferroelectric films is prop...
International audienceExcepted for the very short terms the frequency stability of ultra-stable osci...
This work presents a broadband characterization and modeling of the second harmonic nonlinear respon...
This work applies a comprehensive nonlinear characterization process of two Temperature Compensated ...
In this work, a model that uses several nonlinear parameters to predict harmonics and 3IMD distortio...
In this work we go beyond the usual temperature range for commercial applications and explore the fu...
International audienceThis paper deals with the temperature dependence of electrical and physical fe...
Electrodes are present in acoustic resonators to set electrical boundary conditions. Electrodes are ...
©2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
This paper evaluates the nonlinear effects occurring in a bulk acoustic wave (BAW) filter which incl...
This paper evaluates the nonlinear effects occurring in a bulk acoustic wave (BAW) filter which incl...
In this paper we demonstrate a method to extract the electric field dependence of first order piezoe...
We present a methodology to characterize BAW resonators both linearly and nonlinearly. The procedu...
This article discusses on the measured third-order intermodulation (IMD3) products and third harmoni...
Abstract:- The circuit models aimed to reproduce both the amplitude-frequency and the intermodulatio...
A model for tunable thin film bulk acoustic resonators (TFBARs) based on ferroelectric films is prop...
International audienceExcepted for the very short terms the frequency stability of ultra-stable osci...