Abstract
We investigate the inaccuracy of resonant frequency (f0 ) estimation incurred by some common simplifications in electromagnetic (EM) simulation of mm-wave on-chip antennas. Using an 88 GHz patch antenna as a device under test (DUT), it is found that using a 2.5D planar EM solver produced highly inaccurate results. Including the bulk silicon and thin nitride in the model stack effected an improvement of 0.8% in estimating f0 , while replacing individually modelled via arrays with equivalent blocks, and accounting for the etch factor, marginally improved both the estimation of f0 and reflection coefficient |S11|. It is shown that, with the correct modelling choices, the error in f0 can be reduced to below 50 MHz at E-band, which is within the measurement variation of 880 MHz.
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