Spectrum Analysers

Spectrum analysers are widely used within the electronics industry for analysing the frequency spectrum of radio frequency, RF and audio signals. Looking at the spectrum of a signal they are able to reveal elements of the signal, and the performance of the circuit producing them. They are able to make a large variety of measurements and this means that they are an invaluable tool for the RF design development and test laboratories, as well as having many applications for specialist field service.


Spectrum analysers are an invaluable item of electronic test equipment used in the design, test and maintenance of radio frequency circuitry and equipment. They are used for observing signals in the frequency domain. Thus a spectrum analyser will display the amplitude of signals on the vertical scale, and the frequency of the signals on the horizontal scale.


Types of Spectrum Analysers


Swept spectrum analysers: Sweeping the frequency that is analysed across the required band to produce a view of the signals with their relative strengths. Type that is most widely used.


Fast Fourier Transform, FFT analysers: Converting the signals into a digital format for analysis digitally. More expensive and specialised.


Real-time analysers: Form of FFT analyser. Requiring much larger buffers and more powerful processing, these types are able to offer the top performance in signal analysis.


Audio spectrum analyser: Focussed on audio frequencies, this means that low frequency techniques can be adopted. This makes them much cheaper. It is even possible to run them on PCs with a relatively small amount of hardware.


Spectrum analysers tend to fall into 4 form factors:


  • Benchtop - can be plugged into AC power, which generally means in a lab environment or production/manufacturing area.
  • Portable – can be taken outside to make measurements or simply carried while in use.
  • Handheld - needs to be very light and small.
  • Networked - ability to connect the analyser to a network

Spectrum Analyser Tips


  • Beware input level: One major cause of damage is the input mixer being blown when the analyser is measuring high power circuits.
  • Determine if spurs are real
  • Wait for self-alignment: When first switched on, it goes through its software boot-up procedure and, undertakes a number of self-test and calibration routines.

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Description Price Bandwidth Number of Channels Wave Traces Sweep Modes Series Setting Modes Maximum Frequency Minimum Frequency Frequency Stability Display Type Screen Size Markers RF Input Interface Type
RS庫存編號 123-3568
BrandRS PRO
HK$7,154.16
單位
150 kHz → 3 GHz - - Continuous - Full Span, Last Span, Zero Span 3GHz 150 kHz - TFT LCD 5.6in Amplitude, Frequency N Connector RS232, USB, 9-Pin Female D-Sub Connector, 15-Pin Female D-Sub Connector
RS庫存編號 123-6443
BrandRS PRO
HK$14,960.96
單位
9 kHz → 2.1GHz 1 Reference Continuous, Single - Span, Zero Span 2.1GHz 9 kHz <0.5 (First Year)ppm TFT LCD - Single BNC RJ45, USB-A 2.0, USB-B 2.0
RS庫存編號 123-6444
BrandRS PRO
HK$27,845.36
單位
9 kHz → 3.2GHz 1 Reference Continuous, Single - Span, Zero Span 3.2GHz 9 kHz <0.5 (First Year)ppm TFT LCD - Single BNC RJ45, USB-A 2.0, USB-B 2.0
全新
RS庫存編號 180-4796
BrandRS PRO
HK$41,231.12
單位
9 kHz → 3 GHz - Average, Average (EMI), Blank, Clear & Write, Maximum Hold, Minimum Hold, Quasi-Peak (EMI), View Continuous, Single - Zero Span + Time Domain 3GHz 9 kHz 0.025ppm Built-in Spectrogram, Dual-View Display, Topographic - Frequency N-Type Female GPIB, LAN, MicroSD, RS232, USB
全新
RS庫存編號 180-4795
BrandRS PRO
HK$34,870.23
單位
9 kHz → 3 GHz - Average, Average (EMI), Blank, Clear & Write, Maximum Hold, Minimum Hold, Quasi-Peak (EMI), View Continuous, Single - Zero Span + Time Domain 3GHz 9 kHz 0.025ppm Built-in Spectrogram, Dual-View Display, Topographic - Frequency N-Type Female GPIB, LAN, MicroSD, RS232, USB