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  • Vector Network Analyzer Primer Application Note
    This application note provides a summary description of the operation and capabilities of a Vector Network. Analyzer (VNA), including general considerations of front panel operation and measurement methods. Included in this paper are discussions on the following topics: * System description
  • Primer on Vector Network Analysis
    Anritsu Vector Network Analyzers (VNAs) measure the magnitude and phase characteristics of networks that include passives (e.g., diplexers, cables, filters, antennas, SAW devices, balanced and unbalanced); Integrated amplifiers, ICs, LNAs; mixers; power amplifiers; and tower mounted amplifiers
  • Optimizing Your Millimeter Wave Test Capability
    This white paper discusses the challenges associated with millimeter-wave testing and how to optimize your Vector Network Analyzer (VNA) measurement capability to provide the confidence required to make performance/cost tradeoffs.
  • Mixer VNA Measurements Application Note
    Frequency translated devices are key components of any communication system, whether they are up-converters, down-converters or basic mixers. Since their input and output frequencies are different, they require special features and setups for Vector Network Analyzer (VNA) measurements
  • Reflectometer Measurements - Revisited
    . Today while scalars are still used, the Vector Network Analyzer (VNA) has also become common in both engineering and manufacturing environments. Many measurements are made and recorded with little attention given to the actual accuracy of the measurement. This Review will include some of the material
  • Measurement of Radar Cross Section Using the VNA Master Handheld VNA Application Note
    by the target. This application note describes how a. modern battery-powered / portable Microwave Vector Network Analyzer with Time Domain Gating can make it. easy to do RCS tests on the flight line or in the field.
  • Understanding Directivity Application Note
    and the coupler. This paper discusses the use and application of directional devices for impedance measurements and the factors that contribute to reflection measurement uncertainty. Additional information on Vector Network Analyzer (VNA) measurements can be obtained in other Anritsu Application Notes.
  • Techniques for VNA Measurements of Non-insertable Devices
    While the simplest coaxial two port device to measure on a vector network analyzer (VNA) would be insertable (i.e., one male and one female connector), these are often in a minority of the devices to be tested. As a result, adapters or some other techniques are required during the calibration
  • Typical Performance Results for 3 GHz Attenuator 41-180
    This application note provides some typical results for a 41-180 attenuator measured using an HP8752 3 GHz Vector Network Analyzer. All the results were obtained with the attenuator placed in a Pickering PXI chassis and connected to the HP8752 by standard quality coaxial leads approximately 350 mm
  • Three and Four Port S-parameter Measurements
    Calibrations are the critical first step to multiport vector network analyzer (VNA) measurements and there are many choices. A mixed-mode S-parameter representation for balanced devices is also increasingly important and relatively easy to understand. With the increasing use of multi-port
  • Measuring Frequency Conversion Devices
    This application note discusses frequency conversion device measurements with the Anritsu 37100A Vector Network Analyzer. The 37200B and 37300A VNAs will also make these measurements, in addition to full S-parameter measurements. Appendix F shows how to apply the material presented on the 37100A

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