Coplanar microwave phase shifter for InP-based MMICs

## Abstract This letter presents the design, fabrication, and measurement of a KTa1‐xNb~x~O~3~‐ (KTN‐) based phase shifter. This loaded‐line phase shifter has insertion losses of about 7.36 dB at zero bias and 10 GHz, a return loss greater than 12 dB over the frequency range 1–16 GHz and a relative

the reverse direction, and its pressure is larger than that of the second shock wave.

In this paper, a new approach to optimally design a phase shifter consisting of a periodic array of ferroelectric-based tunable planar interdigital capacitors (IDCs) is presented. Spiral slots in the proposed configuration reduces the overall size and improves the performance by 30%.

## Abstract The design and implementation of an X‐band phase shifter MMIC using the standard 0.18‐μm CMOS process is presented. A transformed doublet varactor load is analyzed and applied to a 3‐dB quadrature coupler to exhibit large phase shift tuning range and low insertion loss with minimal vari

InP-based

A linked static/microwave "nite element solver for the analysis of ferrite-loaded waveguides with arbitrary geometry and magnetization is described. The magnetostatic solution of the DC bias circuit and ferrite magnetization curve are used to construct the tensor permeability for the microwave solve