一种新型毫米波SIS混频器,包括串联结阵列和片上偏置- t

Wentao Wu, W. Shan
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引用次数: 1

摘要

本文介绍了一种基于串联结(SJ)阵列的超导体-绝缘体-超导体(SIS)混频电路。不像现有的SJ设计,其中每个结在相同的直流电流偏置。这种新设计通过一组片上偏置t使每个结在相同电压下具有直流偏置。由于这种并联直流偏置解决方案,该电路设计支持所谓的串联分布式结(SDJ)阵列设计,其中LO功率在振幅和相位上沿结阵列不均匀扩散。利用该SDJ阵列,可以实现射电天文观测所需的射频频带、中频频带15 ghz宽、高动态范围的毫米波SIS混频器。在此基础上对80-160GHz的SIS混频器设计进行了仿真,以支持我们的论点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel mm-wave SIS mixer comprising series-connected junction array and on-chip bias-T
In this paper, we introduce a novel Superconductor-Insulator-Superconductor (SIS) mixer circuitry based on a series-connected junction (SJ) array. Unlike existing SJ designs, in which each junction is biased at the same DC current. This new design enables each junction to be DC-biased at the same voltage via a set of on-chip bias-T's. Thanks to this parallel DC biasing solution, this circuit design supports a so-called series-connected distributed junction (SDJ) array design, in which LO power non-uniformly spreads along the junction array both in amplitude and in phase. Using this SDJ array, we can realize mm-wave SIS mixers with octave RF band, 15 GHz-wide IF band and high dynamic range required for radio astronomical observation. Simulations of an 80-160GHz SIS mixer design have been made based on this design to support our arguments.
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