Title :
30 GHz HTS Receiver Front-End Based on Monolithic Josephson Mixer
Author :
Ting Zhang ; Jia Du ; Jia Wang ; Dandan Bai ; Guo, Yingjie Jay ; Yusheng He
Author_Institution :
CSIRO Digital Productivity & Services Flagship, Epping, NSW, Australia
Abstract :
A compact, high-gain, and low-noise Ka band HTS Josephson junction-based receiver front-end module for wireless communication is presented in this paper. The front-end module consists of biasing circuits, a semiconductor low-noise amplifier, and a monolithic HTS circuit consisting of an Josephson mixer, bandpass and lowpass filters. The semiconductor LNA in the first stage is applied to achieve a low noise figure of the whole front-end module. Integration of the Josephson mixer with a number of HTS passive components on a single chip improves the coupling efficiency and reduces the connection losses between the components. The total dimension of the packaged front-end module is below 25 mm × 20 mm × 15 mm, which is very compact. Measurement result shows that the front-end module has an overall conversion gain around 40 dB, and a low noise figure close to 0 dB with an LO driving power around -38 dBm at 40 K.
Keywords :
MMIC mixers; band-pass filters; low noise amplifiers; low-pass filters; radio receivers; radiocommunication; superconducting mixers; HTS receiver front-end; LNA; bandpass filters; biasing circuits; frequency 30 GHz; lowpass filters; monolithic HTS circuit; monolithic Josephson mixer; semiconductor low-noise amplifier; temperature 40 K; wireless communication; Band-pass filters; Gain; High-temperature superconductors; Mixers; Noise figure; Radio frequency; Receivers; High temperature superconductor; High temperature superconductor (HTS); Josephson mixer; low loss; low noise; monolithic; receiver front-end;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2379095
