What is an RF Network Analyzer

RF network analyzers can give some vital insights into the operation of RF networks: vector VNA & scalar analysers are available..


RF network analyzer includes:
RF network analyzer     Basic Concepts     Scalar analyzer     Vector analyzer    


RF network analyzers are vital items of test instrumentation for RF design laboratories as well as many manufacturing and service areas.

Although mainly focussed on research and development, RF network analyzers are able to provide vital insights into the operation and performance of RF networks of all types.

The RF network analyzer provides a stimulus for the network and then monitors the response. In this way the operation and performance can be seen and assessed for its suitability.

RF network analyzers can be used for all RF and microwave frequencies - some network analyzers can operate well into the microwave region.

Types of RF network analyzer

Within the broad scope of RF network analyzers, there are various types of instrument which can be bought and used. These types of RF network analyzer are very different, but they are all able to measure the parameters of RF components and devices but in different ways:

  • Scalar network analyzer (SNA):   The scalar network analyzer, SNA is a form of RF network analyzer that only measures the amplitude properties of the device under test - i.e. its scalar properties. In view of this it is the simpler of the various types of analyser.
  • Vector network analyzer (VNA):   The vector network analyzer, VNA is a more useful form of RF network analyzer than the SNA as it is able to measure more parameters about the device under test. Not only does it measure the amplitude response, but it also looks at the phase as well. As a result vector network analyzer, VNA may also be called a gain-phase meter or an Automatic Network Analyzer.
  • Large Signal Network Analyzer (LSNA):   The large signal network analyzer, LSNA is a highly specialised for of RF network analyser that is able to investigate the characteristics of devices under large signal conditions. It is able to look at the harmonics and non-linearities of a network under these conditions, providing a full analysis of its operation. A previous version of the Large Signal Network Analyser, LSNA was known as the Microwave Transition Analyzer, MTA.

Difference between RF network analyzers and spectrum analyzers

Although there are many similarities between network analyzers and spectrum analyzers, there are also several major differences, especially in the types of measurements that are made. In particular they make very different types of measurement. In the first instance a spectrum analyzer is intended for analysing the nature of signals that are fed into them. A network analyzer, on the other hand generates a signal and uses this to analyze a network or device.

RF Network analyzers are used to measure components, devices, circuits, and sub-assemblies. An RF network analyzer will contain both a source and multiple receivers. It will display amplitude and often phase information (frequency or power sweeps) and normally in a ratio format. An RF network analyzer looks for a known signal, i.e. a known frequency, at the output of the device under test, since it is a stimulus response system. With vector-error correction, network analyzers provide much higher measurement accuracy than spectrum analyzers.

By contrast to RF network analyzers, spectrum analyzers are normally used to measure the characteristics of a signal rather than a device. The parameters measured may include: signal or carrier level, sidebands, harmonics, phase noise, etc. They are most commonly configured as a single channel receiver, without a source. Because of the flexibility needed to analyze signals, spectrum analyzers generally have a much wider range of IF bandwidths available than most RF network analyzers.

Spectrum analyzers can be used for testing networks such as filters. To achieve this they need tracking generator. When used in this way, spectrum analyzers can be used for scalar component testing (magnitude versus frequency, but no phase measurements). With spectrum analyzers, it is easy to get a trace on the display, but interpreting the results can be much more difficult than with a network analyzer.


RF network analyzers can be very expensive items of test equipment. However they are invaluable in the design of RF networks - particularly filters and any other items where the RF performance of the item needs to be accurately assessed. In this way it is possible to fully understand what is happening and ensure that the overall design operates correctly.



More Test Topics:
Analogue Multimeter     Digital Multimeter     Oscilloscope     Signal generators     Spectrum analyzer     Frequency counter     LCR meter / bridge     Dip meter, GDO     Logic analyzer     Power meter (RF & microwave)     RF signal generator     Logic probe     Time domain reflectometer, TDR     LabVIEW     PXI     GPIB / IEEE 488     Boundary scan / JTAG    
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