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We developed models for Type-N coaxial vector network analyzer (VNA) calibration kits within the NIST Microwave Uncertainty Framework. First, we created physical models of commercially-available standards that support multiline thru-reflect-line (TRL) and open-short-load-thru (OSLT) calibrations, and included error mechanisms in each of the standards' constituent parameters that were utilized in the...
We developed physical models of commercially-available 2.4 mm and 3.5 mm coaxial calibration kits for vector network analyzers. These models support multiline thru-reflect-line (TRL) and open-short-load-thru (OSLT) calibrations, and include error mechanisms in each of the standards' constituent parameters that can be utilized in the NIST Microwave Uncertainty Framework to propagate uncertainties....
We characterize and provide uncertainties for a noninsertable, directional device over a frequency range of 90 to 100 GHz using the NIST Microwave Uncertainty Framework in conjunction with a commercial vector network analyzer. Our device consists of a chain of components, including a coaxial-to-waveguide adapter, a waveguide band-pass filter, a waveguide low-noise amplifier, a waveguide isolator,...
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