Measured and computed performance of a microstrip filter composed of semi-insulating GaAs on a fused quartz substrate

Abstract

The performance of a microstrip hammerhead filter that has been fabricated on an electrically thin layer of semiinsulating GaAs backed by a fused quartz substrate was measured and compared to results of a three-dimensional finite-difference time-domain (FD-TD) program used to calculate the response of the filter both with and without the GaAs layer. The program, presented by D.M. Sheen et al. (IEEE Trans. Microwave Theory and Techniques, vol.38, no.7, p.849-57, 1990), discretizes the entire structure and then simulates the propagation of a Gaussian pulse through the filter. The microstrip filter is intended for applications involving ultra-thin lifted-off or etched-back GaAs containing both active devices and passive microstrip circuitry backed by a much thicker mechanically rigid low-loss, low-dielectric-constant substrate. The low-pass characteristics of the hammerhead filter with the intermediate GaAs layer are compared with those of the same filter on quartz alone. Both the measured and computed data show a significant shift in cutoff frequency ( approximately=10% at the 3 dB points) for a GaAs layer that is 0.007 wavelengths thick at 4 GHz.