Realtime Spectrum Analyzers

165 Realtime Spectrum Analyzers from 21 Manufacturers meet your specification.

Realtime Spectrum Analyzers or signal analyzers are test instruments that are used to analyze the frequency spectrum within a specific frequency range. Realtime Spectrum Analyzers from the leading manufacturers are listed below. Use the parametric search tools to narrow down on products by type, frequency, configuration, bandwidth, application and various other parameters. View product details, download datasheets and get quotes on matching products.

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  • Realtime Analyzer: Yes
Description:Handheld Combination Analyzer from 3 kHz to 10 GHz
Application:
4G, 5G, Cable and Antenna Analysis
Configuration:
Cable and Antenna Analyzer, Power Meter, Vector Ne...
DANL:
104 dB
Equipment Type:
Handheld
Frequency:
3 kHz to 4/6.5/10 GHz
Interface:
USB
Real Time Bandwidth:
Up to 120 MHz
Realtime Analyzer:
Yes
Type:
Analyzer with Screen, USB / Computer Controlled
more info
Description:Real-Time Spectrum Analyzer from 60 to 90 GHz
Application:
Test & Measurement, Radar, Automated Test Equipmen...
Configuration:
Monitoring Receiver
DANL:
-170 dBm/Hz
Equipment Type:
Rackmount
Frequency:
60 to 90 GHz
Interface:
USB
Real Time Bandwidth:
60 MHz
Realtime Analyzer:
Yes
more info
Description:Microwave Spectrum Monitor Module from 9 kHz to 54 GHz
Configuration:
GPS Receiver
DANL:
-164 dBm
Frequency:
9 kHz to 54 GHz
Interface:
Ethernet, USBTMC (USB C port)
Realtime Analyzer:
Yes
Resolution Bandwidth:
1 Hz to 10 MHz
Spectrum Recording:
Yes
more info
Description:Portable, USB-Powered Real-time Spectrum Analyzer from 100 kHz to 14.5 GHz
Application:
Test & Measurement, GPS, Bluetooth, Satellite, Sur...
Configuration:
Monitoring Receiver
DANL:
-160 dBm
Equipment Type:
Portable
Frequency:
100 kHz to 14.5 GHz
Interface:
USB
Real Time Bandwidth:
40 MHz (Streaming Bandwidth)
Realtime Analyzer:
Yes
Resolution Bandwidth:
1 to 70 kHz
Type:
USB / Computer Controlled
more info
Description:Real-Time & Continuous Spectrum Intelligence Platform
Application:
4G, 5G
Realtime Analyzer:
Yes
more info
Description:9 kHz to 3.6 GHz Spectrum Analyzer
Configuration:
Tracking Generator
DANL:
150 dBm
Equipment Type:
Benchtop
Frequency:
9 kHz to 3.6 GHz
Interface:
USB, Ethernet
Realtime Analyzer:
Yes
Resolution Bandwidth:
10 Hz to 500 kHz, 1 MHz, 3 MHz
Type:
Analyzer with Screen
more info
Description:9 kHz to 3.2 GHz Spectrum Analyzer
Configuration:
Tracking Generator
DANL:
-141 to -100 dBm
Equipment Type:
Benchtop
Frequency:
9 kHz to 3.2 GHz
Interface:
USB, Ethernet
Realtime Analyzer:
Yes
Resolution Bandwidth:
1 Hz to 1 MHz
Type:
Analyzer with Screen
more info
Description:USB Controlled Mini Spectrum Analyzer from 1 MHz to 4.15 GHz
Application:
Automated Test Equipment, Wi-Fi, Bluetooth
Equipment Type:
Handheld
Frequency:
1 MHz to 4.15 GHz
Interface:
USB
Realtime Analyzer:
Yes
Resolution Bandwidth:
0.05 to 0.5 MHz
Type:
USB / Computer Controlled
more info
Description:4.4 GHz Handheld Spectrum Analyzer
DANL:
-134 to -130 dBm/Hz
Equipment Type:
Handheld
Frequency:
100 KHz - 4.4 GHz
Interface:
Storage (USB Port), LAN (RJ-45 Port)
Real Time Bandwidth:
0.1 Hz, 250 KHz, 5 MHz
Realtime Analyzer:
Yes
Type:
Analyzer with Screen
more info
Description:10 MHz to 6 GHz Vector Signal Analyzer
DANL:
-169 to -131 dBm
Equipment Type:
Benchtop
Frequency:
10 MHz to 6 GHz
Interface:
USB type C
Realtime Analyzer:
Yes
Resolution Bandwidth:
10 Hz to 5 MHz
Standards Supported:
GSM, WCDMA, LTE
Type:
USB / Computer Controlled
more info

What are Real Time Spectrum Analyzers?

Real-Time Spectrum Analyzers (RTSA) are a type of spectrum analyzers which provide instant (real-time) visualization of the RF signals in frequency domain (amplitude against frequency). RTSAs are becoming increasingly popular as RF spectrum congestion increases and new techniques – such as frequency hopping, spread spectrum or other pulsed techniques – are being introduced. These new signal processing techniques require transients to be accurately monitored as they provide further understanding of the operation of wireless channels and any underlying issues.

Spectrum analyzers can be categorized in two broad categories:

  1. Sweep/Superheterodyne Spectrum Analyzers (Analog)
  2. Real-Time Spectrum Analyzers (Digital)

Sweep spectrum analyzers are traditional analog analyzers which are based on either tuned-filter or superheterodyne principle. These analyzers measure/sweep signal strengths in a frequency band – determined by the resolution bandwidth (RBW) – at each step with hundreds of steps in a single sweep. They measure the signal strengths sequentially – from the lower to higher frequencies – and maps them to generate a plot of signal strength. Sweep spectrum analyzers can perform hundreds of such complete sweeps every second with high accuracy. However, sweep spectrum analyzers usually require a steady-state signal for best results and are not very effective at detecting transient signals.

This is where real-time spectrum analyzers (RTSAs) come in. RTSAs collect signal samples in the time domain and then convert them in frequency domain using the FFT (Fast Fourier Transform) algorithm. At any given time, FFT allows the conversion of the signal into the frequency domain and measure/visualize the signal strengths at any frequency in the RBW (theoretically FFT allows measurement at any frequency). These spectrum analyzers can measure signal strength in real-time and ensures that there is no blind time. This makes RTSAs extremely useful in measuring transient signals, which last for a very short duration of time (usually few ms/µs).

A real-time spectrum analyzer display showing measurements in frequency domain. Image Credits: Keysight

RTSAs have very high processing power to calculate hundreds of thousands of FFTs every second to provide a gap-free analysis of signals. One of the most crucial parameters of an RTSA is the “duration for 100% probability of intercept (POI)” which is the minimum amount of time for which a signal needs to be present for the guaranteed interception and capture of a signal for further analysis. Modern real-time signal analyzers can detect signals with 100% probability of intercept (POI) which last only for a few µs/ns, which falls in line with the general duration of transients in a system. This is achieved by the capability of RTSAs to perform extremely high-speed FFTs. 

Over the past few decades, there has been rapid advancements in wireless technology with usage of higher frequencies and introduction new modulation techniques. This has also led to increased importance and rapid improvements in spectrum analyzers. Real-time spectrum analyzers are now available in various form-factors apart from the traditional bench-top analyzers. RTSAs are now readily available in lightweight and portable enclosures which are USB-powered which are don’t cost as much with excellent functionalities and features. Remote-controlled, rack-mount RTSAs are also available which provide another option for engineers to perform their measurements on-the-go.

To keep pace with the growing requires of the test and measurement industry, RTSAs also include various additional features to assist engineers. Some RTSAs allow users to record the result of a spectrum analysis for further analysis in the future. The option to allow RF recording can be handy when analyzing the performance of radio equipment over time.

Real-time spectrum analyzers are used extensively to measure characteristics in a multitude of RF devices. They are used to ascertain bandwidths in telecommunications along with tracking sources of interference. These analyzers are used for pre-compliance testing in EMC. RTSAs are also useful in diagnosing wireless transmitters and whether or not they are operating as per defined standards.

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