FFT - Revision history

Riemerg: /* Selecting Linear/Logarithmic axes */

2019-11-27T20:27:18Z

Selecting Linear/Logarithmic axes

← Older revision		Revision as of 20:27, 27 November 2019
Line 10:		Line 10:
	<li> In Voltages mode, the Y axis of the FFT graph corresponds to the voltage of the signal on the main graph. So if ChannelA has 1V/div, the main graph spans 8V in total; hence the Y axis of the FFT chart changes linearly from 0V to 8V.		<li> In Voltages mode, the Y axis of the FFT graph corresponds to the voltage of the signal on the main graph. So if ChannelA has 1V/div, the main graph spans 8V in total; hence the Y axis of the FFT chart changes linearly from 0V to 8V.
	<li> In Logarithmic mode, you have 0dB at the top and then every line indicates a halving of the signal amplitude (-3dB)		<li> In Logarithmic mode, you have 0dB at the top and then every line indicates a halving of the signal amplitude (-3dB)
	The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:		<br><br>The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:
	<br>[[File:FFTAxis.png]]		<br>[[File:FFTAxis.png]]

Riemerg: /* Selecting Linear/Logarithmic axes */

2019-11-27T20:27:03Z

Selecting Linear/Logarithmic axes

← Older revision		Revision as of 20:27, 27 November 2019
Line 7:		Line 7:
	Whenever FFT is enabled and the acquisition is running, a coarse FFT with 2048 bins will be calculated and shown in real-time. In case you want a more accurate FFT, stop the acquisition after which a more fine-grained result (up to 500.000 bins) will be calculated and shown.		Whenever FFT is enabled and the acquisition is running, a coarse FFT with 2048 bins will be calculated and shown in real-time. In case you want a more accurate FFT, stop the acquisition after which a more fine-grained result (up to 500.000 bins) will be calculated and shown.
	=Selecting Linear/Logarithmic axes=		=Selecting Linear/Logarithmic axes=
	Especially when working with frequenties, it is often desirable to use logarithmic axes. The SmartScope software allows you to select either linear or logarithmic axes for both the Voltage and Frequency axes individually. The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:		Especially when working with frequenties, it is often desirable to use logarithmic axes. The SmartScope software allows you to select either linear or logarithmic axes for both the Voltage and Frequency axes individually. You can select both modes:
			<li> In Voltages mode, the Y axis of the FFT graph corresponds to the voltage of the signal on the main graph. So if ChannelA has 1V/div, the main graph spans 8V in total; hence the Y axis of the FFT chart changes linearly from 0V to 8V.
			<li> In Logarithmic mode, you have 0dB at the top and then every line indicates a halving of the signal amplitude (-3dB)
			The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:
	<br>[[File:FFTAxis.png]]		<br>[[File:FFTAxis.png]]

	=Panning/zooming the FFT graph=		=Panning/zooming the FFT graph=
	As of version 0.10, you can now also zoom and pan the frequency axis of the FFT graph, both in Linear and Logarithmic axis.		As of version 0.10, you can now also zoom and pan the frequency axis of the FFT graph, both in Linear and Logarithmic axis.

Riemerg at 15:51, 16 November 2016

2016-11-16T15:51:01Z

← Older revision		Revision as of 15:51, 16 November 2016
Line 9:		Line 9:
	Especially when working with frequenties, it is often desirable to use logarithmic axes. The SmartScope software allows you to select either linear or logarithmic axes for both the Voltage and Frequency axes individually. The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:		Especially when working with frequenties, it is often desirable to use logarithmic axes. The SmartScope software allows you to select either linear or logarithmic axes for both the Voltage and Frequency axes individually. The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:
	<br>[[File:FFTAxis.png]]		<br>[[File:FFTAxis.png]]
			=Panning/zooming the FFT graph=
			As of version 0.10, you can now also zoom and pan the frequency axis of the FFT graph, both in Linear and Logarithmic axis.
			<br>To do so, simply pinch or drag on the graph. You can also zoom using the mousewheel, and pan by dragging the graph with the mouse.
			<br>[[File:ZoomFFT.png]]
	=Selecting windowing function=		=Selecting windowing function=
	In order to reduce spectral leakage, it is recommended to apply a Windowing function to your signal before taking the FFT. The windowing function can be selected by going to '''Main menu -> Analog mode -> FFT -> Window function -> [Window of your choice]'''. Select Uniform to turn off windowing.		In order to reduce spectral leakage, it is recommended to apply a Windowing function to your signal before taking the FFT. The windowing function can be selected by going to '''Main menu -> Analog mode -> FFT -> Window function -> [Window of your choice]'''. Select Uniform to turn off windowing.

Riemerg: Created page with "The SmartScope software comes with an integrated spectrum analyzer up to 50MHz.
File:FFT.png =Enabling FFT= Since FFT is done on the Analog input, first make sure you..."

2015-11-18T14:55:37Z

Created page with "The SmartScope software comes with an integrated spectrum analyzer up to 50MHz. File:FFT.png =Enabling FFT= Since FFT is done on the Analog input, first make sure you..."

New page

The SmartScope software comes with an integrated spectrum analyzer up to 50MHz.
 [[File:FFT.png]]
=Enabling FFT=
Since FFT is done on the Analog input, first make sure you're in Analog mode after which you can enable the FFT graph by opening the Main menu -> Analog mode -> FFT -> Enable, as shown in the image below.
 [[File:EnableFFT.png]]
=Difference between Real-Time and Fine mode=
Whenever FFT is enabled and the acquisition is running, a coarse FFT with 2048 bins will be calculated and shown in real-time. In case you want a more accurate FFT, stop the acquisition after which a more fine-grained result (up to 500.000 bins) will be calculated and shown.
=Selecting Linear/Logarithmic axes=
Especially when working with frequenties, it is often desirable to use logarithmic axes. The SmartScope software allows you to select either linear or logarithmic axes for both the Voltage and Frequency axes individually. The scale of an axis can be changed by going to the '''Main menu -> Analog mode -> FFT -> [Axis of your choice] -> [Scale of your choice]''', as shown in the image below:
 [[File:FFTAxis.png]]
=Selecting windowing function=
In order to reduce spectral leakage, it is recommended to apply a Windowing function to your signal before taking the FFT. The windowing function can be selected by going to '''Main menu -> Analog mode -> FFT -> Window function -> [Window of your choice]'''. Select Uniform to turn off windowing.
 [[File:FFTWindow.png]]
=Changing size of graphs=
In case you want to enlarge the size of either graph, simply drag the area between both graphs up or down as shown in the image below:
 [[File:FFTResize.png]]

FFT - Revision history

Riemerg: /* Selecting Linear/Logarithmic axes */

Riemerg: /* Selecting Linear/Logarithmic axes */

Riemerg at 15:51, 16 November 2016

Riemerg: Created page with "The SmartScope software comes with an integrated spectrum analyzer up to 50MHz. File:FFT.png =Enabling FFT= Since FFT is done on the Analog input, first make sure you..."

Riemerg: Created page with "The SmartScope software comes with an integrated spectrum analyzer up to 50MHz.
File:FFT.png =Enabling FFT= Since FFT is done on the Analog input, first make sure you..."