Title :
Using simple calibration load models to improve accuracy of Vector Network Analyzer measurements
Author :
Ridler, Nick M. ; Nazoa, Nils
Author_Institution :
Nat. Phys. Lab., UK
Abstract :
A simple technique is presented that significantly improves the performance of some conventional. vector network analyzer (VNA) calibration routines. This, in turn, provides greater accuracy of measurement for the calibrated VNA. The technique relies on using `traceable¿ measurements at DC and high frequencies to characterize the VNA¿s load standard, used during calibration, in terms of polynomial fits to the measurement data. The method can be applied to calibration schemes that use a load (i.e. a `match¿) to provide an assumed known value of reflection during the calibration process (e.g. SOLT, TRM, LRM, etc). The method can be implemented in most types of commonly used transmission lines (e.g. coaxial line, co-planar waveguide, micro-strip, etc). The paper gives results illustrating the performance of the technique applied to a VNA operating to 3 GHz in coaxial line, calibrated using the SOLT technique.
Keywords :
calibration; coaxial cables; network analysers; polynomials; transmission lines; SOLT technique; VNA calibration process; VNA load standard characterization; calibration load model; coaxial transmission lines; frequency 3 GHz; polynomial fits; vector network analyzer measurement; Calibration; Coaxial components; Coplanar transmission lines; Frequency measurement; Load modeling; Measurement standards; Performance analysis; Polynomials; Reflection; Transmission line measurements; Vector network analysis; calibration and measurement; characterized standards; traceability to national standards; uncertainty of measurement;
Conference_Titel :
ARFTG Conference, 2006 67th
Conference_Location :
San Francisco, CA
Print_ISBN :
978-0-7803-9529-9
DOI :
10.1109/ARFTG.2006.4734353
