The use of microelectromechanical (MEM) devices has been proposed to attain deeper degrees of miniaturization of radio frequency platforms with respect to what currently achieved through the use of Quartz and Surface Acoustic Wave (SAW) based devices. MEM devices are particularly appealing as they can be fabricated through CMOS compatible fabrication processes, hence enabling the integration of both electrical components and frequency selective elements on the same chip. This feature makes MEM devices essential in producing next generation integrated radio frequency (RF) platforms for mobile applications. However, as the performance currently attained by microwave MEM-based devices are worse than those attained by Quartz and SAW technology, the implementation of MEM-based RF front-ends has not yet become a commercial reality. In this work, we describe different techniques that have been developed to reduce the phase noise of Very High Frequency (VHF) aluminum nitride (AlN) contour mode oscillators. Oscillator circuits are key elements in both RF receivers (RX) and transmitters (TX).

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Cristian Cassella is an Associate Research Scientist in the Electrical and Computer Engineering department at Northeastern University, Boston (USA).On May 2015, he received his Ph.D. in Electrical and Computer Engineering at Carnegie Mellon University, Pittsburgh (USA). His research focuses on linear and nonlinear RF microsystems