Network Analyzers

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PNA-X network analyzer, Streamline USB VNA, ENA, PXI VNA

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Whether you are testing active or passive components, the right mix of speed and performance gives you an edge. In research and development (R&D), Keysight vector network analyzers (VNAs) provide a level of measurement integrity that helps you transform deeper understanding into better designs. On the production line, our cost-effective vector network analyzers provide the throughput and repeatability you need to transform parts into competitive components. Every Keysight vector network analyzer is the ultimate expression of our expertise in linear and nonlinear device characterization. On the bench, in a rack or in the field, we can help you gain deeper confidence.

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Discover the fundamental principles behind phased array antenna design and testing, including measurement techniques and calibration. Learn how the Keysight phased array test solution integrates and synchronizes digital control of the PNA-X vector network analyzer, VXG-C vector signal generator, and a compact antenna test range (CATR) to deliver fast, fully automated measurements.

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Network Analyzer Featured Resources

Vector network analyzers (VNAs) are test instruments that measure electrical network parameters. They are essential for radio frequency (RF) and microwave component analysis of various passive and active devices, including filters, antennas, and power amplifiers. 

Network analyzers are the go-to instrument to conduct transmission, reflection, impedance measurements, as well as S-parameter measurements during design and production processes. 

For more information, check out: What is a Network Analyzer? 

Network analysis requires specialized hardware, but the accompanying software actually controls the measurements and analysis. We offer a range of software packages for controlling our vector network analyzers. These packages include features for calibration, measurement automation, data analysis, and reporting. Using this equipment, engineers conduct many different measurements, including:

  • Scattering parameters (S-parameters), which describe how well device under test (DUT) transmits an RF signal at a given frequency. S-parameters relate to familiar measurements such as gain, loss, and reflection coefficient.
  • Impedance measurements, including both real (resistance) and imaginary (reactance) components over various frequencies.
  • Smith Chart analysis that visualizes complex impedance measurement data graphically. 
  • Group delay measurements quantify the time delay experienced by a signal as it passes through the device or component.

For the complete list of network analyzer software, view our catalog.

While VNAs and spectrum analyzers overlap in certain measurement capabilities, engineers typically use each instrument for different test applications. Traditionally, VNAs specialized in 2-port component characterization and only offered limited spectrum analyzer capabilities. So, engineers typically use a dedicated spectrum analyzer for spectrum analysis, signal monitoring, and interference detection rather than a network analyzer.

However, advanced modern network analyzers often serve as an RF measurement multi-tool, offering more spectrum analysis integrations. Leveraging the built-in receivers, engineers can use a relatively modest 30 - 40 MHz intermediate frequency (IF) bandwidth to look at signal quality metrics like error vector magnitude (EVM), adjacent channel power ratio (ACPR), and spectrum emission mask (SEM).  Network analyzer software like 89600 VSA allows engineers to flexibly connect to VNA receivers, signal analyzers, oscilloscopes, logic analyzers, and digitizers. This unlocks the full suite of measurements across instruments and industries, ranging from 5G New Radio (NR) cellular technologies to pulse analysis for aerospace defense.

To learn more, check out this article: Network Analyzer vs. Spectrum Analyzer: What’s the Difference in Use & Specifications

There are three categories of network analyzers:

  • Vector network analyzers (VNA)
  • Scalar network analyzers (SNA)
  • Large-signal / nonlinear network analyzers (NVNA)

VNAs, the most common network analyzer on the market today, offer several benefits to test engineers, including simultaneously measuring all four S-parameters and supporting a wide range of frequencies.

A scalar network analyzer only measures the amplitude properties of the circuit, so no phase information gets captured.

Nonlinear network analyzers are less common than VNAs and SNAs, but they offer the advantage of measuring nonlinear circuits. While NVNAs are extremely accurate, they also pose significant operation complexity, often requiring specialized training to use.

Network analyzers come in handheld, benchtop, and modular form factors, including 2-port, 4-port, and 8-port options. Keysight offers five different types of vector network analyzer families ranging from high-end to compact: 

  • Our high-end PNA family provides unrivaled excellence in measurement integrity and repeatability. PNA-X maximizes measurement flexibility, replacing an entire rack of equipment.
  • Our midrange and economy ENA family reduces test cost while providing ​reliable measurements, an intuitive UI, and upgradable instruments. ENAs balance speed, performance, and budget. 
  • The handheld analyzer ​delivers benchtop precision in a rugged, highly integrated handheld unit. ​ 
  • Modular PXI VNAs drive down the lab space needed for multi-port testing. Customize the network analyzer's capabilities to only what you need and get fast, accurate multiport measurements.​ 
  • The Streamline USB VNA enables a compact​ form factor with zero compromises. Streamline USB VNAs offer all the performance of a benchtop instrument, but at a fraction of the size.

Selection criteria for a VNA varies based on the application or use case of interest. Typical selection criteria include frequency range, number of required ports from 2 up to 24 (multiport) or even 48 in a switch matrix, output power, and instrument class from economy to handheld to high-end.

Once you understand the combination of specifications and functions you need, start evaluating different models to see which fits your current and future needs best.

We recommend you consider these seven main network analyzer aspects before purchasing:

  • Frequency Range
  • Dynamic Range
  • Measurement speed
  • Trace noise
  • Number of test ports
  • Size
  • Input power

Beyond the box, evaluate the software capabilities offered, including an intuitive user interface and test automation features. Make sure to review compatibility with third-party software and programming languages as well.

Additionally, identify the types of measurements you need to perform, the complexity of your measurement setups, and the calibration methods you intend to use. Also, consider the availability of technical support, warranty, and maintenance options from the VNA manufacturer or distributor.

For more information, check out: Key Vector Network Analyzer Specifications 

Network analyzers include both signal sources and receivers. The receivers detect changes to the output signal from a device (or network) and compare that to the source signals input into that device. To assess the device’s effect on the current and voltage, a VNA measures both the amplitude and phase responses caused by the device.  The resulting transmission and reflection measurements, impedance, and S-parameters enable test engineers to characterize their DUT.

A vector network analyzer measures a variety of devices and networks with numerous measurements for many different use cases like spectrum analysis, pulse measurements, power amplifier (PA) characterization, and active device tests. The following guide describes how to set up network analyzer measurements, calibrate your measurement setup, and interpret results: Making Measurements with a Vector Network Analyzer.

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