The Spectrum Analyzer is one of the powerful frequency domain
measurement tools introduced in Unique Set of Analysis
Tools
and is available on all GHFLI instruments.
The Spectrum Analyzer provides frequency domain analysis of demodulator
data. Whenever the tab is closed or an additional one of the same type
is needed, clicking the following icon will open a new instance of the
tab.
Table 1: App icon and short description
Control/Tool
Option/Range
Description
Spectrum
Provides FFT functionality to all continuously streamed measurement data.
The Spectrum tab (see Figure 1) is divided into a display section
on the left and a configuration section on the right. The configuration
section is further divided into a number of sub-tabs.
Important
The Spectrum Analyzer allows for spectral analysis of all the
demodulator data by performing a fast Fourier transform (FFT) on the
complex demodulator data samples X+iY (where i is the imaginary unit).
The result of this FFT is a spectrum centered around the demodulation
frequency, whereas applying a FFT directly on the raw input data would
produce a spectrum centered around the channel frequency in RF or around
0 in Baseband. The latter procedure corresponds to the Frequency Domain
operation in the
Scope Tab.
The main difference between the two is that the Spectrum Analyzer tool
can acquire data for a much longer periods of time and therefore can
achieve a very high frequency resolution around the demodulation
frequency.
By default, the display section contains a line plot of the spectrum
together with a color waterfall plot of the last few acquired spectra.
The waterfall plot makes it easier to see the evolution of the spectrum
over time. The display layout as well as the number of rows in the color
plot can be configured in the Settings sub-tab.
Data shown in the Spectrum tab have passed through a low-pass filter
with a well-defined order and bandwidth. This is most clearly visible in
the shape of the noise floor. One has to take care that the selected
frequency span, which equals the demodulator sampling rate, is 5 to 10
times higher than the filter bandwidth in order to prevent measurement
errors due to aliasing. The Auto Bandwidth button
adjusts the sampling rate so that it suits the filter settings. The
Spectrum tab features FFT display of a selection of data available in
the Signal Type drop-down list in addition to the complex demodulator
samples X+iY. Looking at the FFT of polar demodulator values R and Theta
allows one to discriminate between phase noise components and amplitude
noise components in the signal. The FFT of the phase derivative dΘ/dt
provides a quantitative view of the spectrum of demodulator frequencies.
Set the frequency span of interest for the complex FFT. A FFT based on real input data will display half of the frequency span up to the Nyquist frequency.
Refresh Rate (Hz)
numeric value
Set the maximum plot refresh rate. The actual refresh rate also depends on other parameters such as FFT length. In overlapped mode the refresh rate defines the amount of overlapping.
Power
ON / OFF
Calculate and show the power value. To extract power spectral density (PSD) this button should be enabled together with spectral density.
Spectral Density
ON / OFF
Calculate and show the spectral density. If power is enabled the power spectral density value is calculated. The spectral density is used to analyze noise.
Filter Compensation
ON / OFF
Spectrum is corrected by demodulator filter transfer function. Allows for quantitative comparison of amplitudes of different parts of the spectrum.
FFT length
numeric value
The number of samples used for the FFT. Values entered that are not a binary power are truncated to the nearest power of 2.
Sampling Progress
0% to 100%
The percentage of the FFT buffer already acquired. The progress includes the number of rows and averages.
FFT Duration (s)
numeric value
Indicates the length in time of the samples used for a single FFT.
Window
Cosine squared (ring-down)
Several different FFT windows to choose from. Depending on the application it makes a huge difference which of the provided window function is used. Please check the literature to find out the best trade off for your needs.
Rectangular
Hann
Hamming
Blackman Harris
Flat Top
Exponential (ring-down)
Cosine (ring-down)
Resolution (Hz)
mHz to Hz
Spectral resolution defined by the reciprocal acquisition time (sample rate, number of samples recorded).
Rows
numeric value
Number of rows
Averages
numeric value
Number of FFT averaged for each row. Setting the value to 1 will disable any averaging.
Waterfall
ON / OFF
Enable to show the 2D plot in waterfall mode. It will always update the lowest line.
Overwrite
ON / OFF
Enable to overwrite the grid in continuous mode. History will not be collected. A history element will only be created when the analysis is stopped.
Plot Type
Select the plot type.
None
No plot displayed.
2D
Display defined number of grid rows as one 2D plot.
Row
Display only the trace of index defined in the Active Row field.
2D + Row
Display 2D and row plots.
Active Row
integer value
Set the row index to be displayed in the Row plot.
Track Active Row
ON / OFF
If enabled, the active row marker will track with the last recorded row. The active row control field is read-only if enabled.
Palette
Solar
Select the colormap for the current plot.
Viridis
Inferno
Balance
Turbo
Grey
Colorscale
ON / OFF
Enable/disable the colorscale bar display in the 2D plot.
Mapping
Mapping of colorscale.
Lin
Enable linear mapping.
Log
Enable logarithmic mapping.
dB
Enable logarithmic mapping in dB.
Scaling
Full Scale/Manual/Auto
Scaling of colorscale.
Clamp To Color
ON / OFF
When enabled, grid values that are outside of defined Min or Max region are painted with Min or Max color equivalents. When disabled, Grid values that are outside of defined Min or Max values are left transparent.