一种具有固定特性阻抗的片上可变延迟传输线的分析与测量

2010 Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF) Pub Date : 2010-03-01 DOI:10.1109/SMIC.2010.5422949

W. Woods, H. Ding, Guoan Wang

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引用次数: 2

摘要

射频设计，如相控阵天线系统，利用片上的电子可控延迟元件。本文采用两种不同的技术，对具有固定特性阻抗的片上可变延迟传输线进行了仿真和测量。在130 nm BiCMOS技术上的EM模拟表明，在两种可能的延迟状态之间，新型传输线的特性阻抗与50 Ω目标的最大变化为3.7%，延迟变化为15.6%。45 nm SOI数字技术的测量结果表明，在25 GHz和35 GHz之间的ka频段10 GHz区域，最大延迟变化为16.0%，延迟状态之间的最大特性阻抗偏差为7.4%。

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Analysis and measurement of a novel on-chip variable delay transmission line with fixed characteristic impedance

RF designs such as phased array antenna systems make use of on-chip electronically controllable delay elements. This paper presents simulations and measurements of on-chip variable delay transmission lines with fixed characteristic impedance in two different technologies. EM simulations in a 130 nm BiCMOS technology show a delay change of 15.6 % is possible while the characteristic impedance of the novel transmission line varies a maximum of 3.7% from the 50 Ω target between two possible delay states. Measurement results from a 45 nm SOI digital technology reveal a maximum delay change of 16.0 % and a maximum characteristic impedance deviation between delay states of 7.4% in a 10 GHz region of the Ka-band between 25 GHz and 35 GHz.

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2010 Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF)

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