English

Highly-Linear Magnet-Free Microelectromechanical Circulators

Applied Physics 2019-08-06 v1 Signal Processing

Abstract

This paper reports the first demonstration of a magnet-free, high performance microelectromechanical system (MEMS) based circulator. An innovative circuit based on the commutation of MEMS resonators with high quality (Q) factor using RF switches is designed and implemented. Thanks to the high Q factor, a much smaller modulation frequency can be achieved compared to the previous demonstrations, reducing the power consumption and enabling the use of high power-handling switches. Furthermore, the MEMS resonators greatly reduce the required inductance value, guaranteeing much smaller form factor compared to the previous LC demonstrations. The demonstrated circulator shows broad BW (15 dB-IX BW=34.7 MHz for an operational frequency around 2.5 GHz), low IL (4 dB), high IX (30 dB), high linearity (P1dB=28 dBm; IIP3=40 dBm) and at the same time low power consumption, addressing several of the current limitations hindering the full development of magnet-free circulators.

Keywords

Cite

@article{arxiv.1908.01576,
  title  = {Highly-Linear Magnet-Free Microelectromechanical Circulators},
  author = {Yao Yu and Giuseppe Michetti and Ahmed Kord and Michele Pirro and Dimitrios Sounas and Zhicheng Xiao and Cristian Cassella and Andrea Alu and Matteo Rinaldi},
  journal= {arXiv preprint arXiv:1908.01576},
  year   = {2019}
}
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