Full-Wave Simulation of Contact-Nonlinearity-Induced Passive Intermodulation Using a Nonlinear Interface Boundary Model
IEEE MICROWAVE AND WIRELESS TECHNOLOGY LETTERS(2024)
Abstract
Metal contact generates weak nonlinearity in the contact interface causing passive intermodulation (PIM) for microwave components. In this letter, we proposed a nonlinear interface boundary model to describe the metal contact nonlinearity and utilized the linearity-nonlinearity separation (LNS) finite-difference time-domain (FDTD) method to implement the full-wave PIM simulation. A PIM level of a rectangular waveguide was calculated, which is consistent with the analytical theory and the experimental results. Electromagnetic (EM)-field distribution of the PIM signal was also extracted, which visualizes the PIM signal propagation in the rectangular waveguide.
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Key words
Finite difference methods,Rectangular waveguides,Metals,Flanges,Mathematical models,Boundary conditions,Surface impedance,Contact nonlinearity,finite-difference time domain (FDTD),linearity nonlinearity separation (LNS),nonlinear interface boundary condition,passive intermodulation (PIM)
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