Monolithic HTS microwave phase shifter and other devices

This analysis provides the possibility of developing microwave phase shifters based on the dielectric substrate nonlinearity, with the conducting surfaces made of a superconductor. The displacement vector, the dipole moment, polarization, polarizability, susceptibility and relative permittivity conc

## Abstract This paper deals with a design technique for an integrated planar phase shifter on GaAs substrate at millimetre‐wave frequencies for optical transmission applications at 40 Gb/s. We numerically show how an amplifier can be adequately associated with a nonconstant magnitude phase shifter

## Abstract An L‐band 360° broad‐bandwidth analog phase shifter is designed using varactor. New design equations for expanding bandwidth and improving linear phase‐shift are derived and applied to performances optimization in one circuit. The analog phase shifter is fabricated using MIC and SMT tec

A 6 GHz quadrature acti¨e microwa¨e phase shifter employing single-gate packaged MESFETs is practically e¨aluated. A continuous phase change o¨er the range of 50Њ and 3 dB gain with "0.7 dB ¨ariation are demonstrated. The circuit is simple, and its performance makes it ideal for feedforward systems

## 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