Using the Oscilloscope

Introduction

Oscilloscopes are used to capture and analyze analog signals. This guide explains the use of the WaveForms'Oscilloscopeinstrument. This instrument is also referred to as theScopein WaveForms.


Prerequisites


Guide

1. Opening the Scope

1.1

Plug in the Test and Measurement Device, then start WaveForms and make sure the device is connected.

If no device is connected to the host computer when WaveForms launches, theDevice Managerwill be launched. Make sure that the device is plugged in and turned on, at which point it will appear in the Device Manager's device list (1). Click on the device in the list to select it, then click the Select button (2) to close the Device Manager.

Note:“DEMO” devices are also listed, which allow the user to use WaveForms and create projects without a physical device.

Note:The Device Manager can be opened by clicking on the “Connected Device” button in the bottom right corner of the screen (3), or by selecting “Device Manager” from the “Settings” menu at the top of the screen.


1.2

Once the Welcome page loads, in the instrument panel at the left side of the window, click on theScopebutton to open theOscilloscopeinstrument.


1.3

Once theScopeinstrument opens, the window contains the data plot (1.) showing captured data, the configuration panel (2.) to right of the plot, and the control toolbar (3.) at the top of the window.


2. Using the Scope

This section walks through setting up theOscilloscopeinstrument to capture and analyze a simple waveform.

Note:This guide can be followed using a “Demo” device selected in the WaveForms Device Manager. Doing so allows the user to follow along without having access to a real Test and Measurement device.

2.1 Hardware Setup

In order to measure a signal with theScopeinstrument, there must first be a signal to measure. To this end, this guide describes setting up a simple loopback circuit that connects the Test and Measurement device's Waveform Generator and Oscilloscope pins.


MTE Cables

If your Digilent Test and Measurement device supports MTE cables for analog input, open the dropdown below for instructions on setting up a loopback circuit with them.

MTE Cable Loopback

Connect the Test and Measurement device's Oscilloscope Channel 1 pin (orange wire/circle) to the device's Wavegen Channel 1 output pin (yellow wire/circle). For devices that use differential input channels, such as the Analog Discovery Studio with MTE cables, make sure to connect the Oscilloscope Channel 1 negative pin (orange wire with white stripes) to the ground pin associated with Wavegen Channel 1 (black wire).


BNC Oscilloscope Probes

If your Digilent Test and Measurement device supports BNC cables, then select your device below for instructions on setting up a loopback with them.

Analog Discovery Studio

Connect BNC cables to the Test and Measurement device's Oscilloscope Channel 1 BNC Connector and Wavegen Channel 1 BNC Connector. Connect the cables' probes to one another. Check the input probe's attenuation factor.

Note:While BNC Probes are single-ended (as is the Waveform Generator hardware), a connected circuit must still share a common ground with the device. No more than one ground should be connected, in order to avoid the creation of ground loops, which may damage your device.

Note:When using BNC Cables, make sure to take note of the probes' bandwidth. When probes are used with an oscilloscope, the achievable bandwidth is limited by both the probes and by the scope. For example, using 1MHzprobes will limit the bandwidth to 1MHz, even if that is below the Test and Measurement device's specified maximum.

Note:基于“增大化现实”技术模拟发现工作室的BNC连接器e DC coupled.

Make sure to flip the switch that selects between BNC and MTE input for Oscilloscope Channel 1 towards the BNC connector.

Analog Discovery 2 with BNC Adapter

Connect BNC cables to the Test and Measurement device's Oscilloscope Channel 1 BNC Connector and Wavegen Channel 1 BNC Connector. Connect the cables' probes to one another. Check the input probe's attenuation factor, as it will be used later to set up the software.

Note:While BNC Probes are single-ended (as is the Waveform Generator hardware), a connected circuit must still share a common ground with the device. No more than one ground should be connected, in order to avoid the creation of ground loops, which may damage your device.

Note:When using BNC Probes, make sure to take note of the probes' bandwidth. When probes are used with an oscilloscope, the achievable bandwidth is limited by both the probes and by the scope. For example, using 1MHzprobes will limit the bandwidth to 1MHz, even if that is below the Test and Measurement device's specified maximum.

Take note of the jumper that selects between AC and DC coupling on the BNC adapter. Either will work to measure the sine wave produced here, but some waveforms may find one setting or the other significantly more useful.

Analog Discovery Pro (ADP3450/ADP3250)

Connect a BNC oscilloscope probe to the Analog Discovery Pro's Oscilloscope Channel 1 connector and a set of BNC minigrabbers to its Wavegen Out Channel 1 connector. Connect these together, as pictured, to form a loopback circuit. Check the input probe's attenuation factor, as it will be used later to set up the software.

Note:While BNC Probes are single-ended (as is the Waveform Generator hardware), a connected circuit must still share a common ground with the device. No more than one ground should be connected, in order to avoid the creation of ground loops, which may damage your device.

Note:When using BNC Probes, make sure to take note of the probes' bandwidth. When probes are used with an oscilloscope, the achievable bandwidth is limited by both the probes and by the scope. For example, using 1MHzprobes will limit the bandwidth to 1MHz, even if that is below the Test and Measurement device's specified maximum.

wavegen_and_scope.jpg


2.2 Additional Software Setup

With the loopback circuit set up, a signal must now be applied to the analog output pins. WaveForms'Wavegeninstrument will be used to accomplish this.

From theScopeinstrument, opened in Step 1.2, return to WaveForms' Welcome page by clicking on its tab at the top of the screen. In the Welcome tab, open theWavegeninstrument, then click the Run button () in the control bar near the top of the window to begin outputting a signal. With default settings, a 1V amplitude (or 2V) 1 KHz sine wave is applied to the Wavegen Channel 1 output pin.

For more details on how to use theWavegeninstrument, please see theUsing the Waveform Generatorguide.

Return to theScopeinstrument by clicking on its tab in the bar at the top of the screen.


If using BNC cables with your Digilent Test and Measurement device, click the dropdown below.

Set the BNC Cable Attenuation Factor

Regardless of the device, if BNC cables are used, make sure that the attenuation factor setting in WaveForms for Oscilloscope Channel 1 (pictured to the right) matches the setting of the probe.


The Analog Discovery Pro (ADP3450/ADP3250) features the ability to increase the system's sample rate, which affects many instruments, from the default of 100MHzto 125MHz. Click the dropdown below to learn how to use this feature.

Modify the Analog Discovery Pro's (ADP3450/ADP3250) System Sample Rate

To access this setting, first open the Device Manager, which can be found in WaveForms' “Settings” menu.

The system sample rate itself can be changed by opening the Options dropdown while the Analog Discovery Pro device is selected in the list of devices. By changing the selection in the “Frequency” dropdown, the sample rate is changed. By increasing the system's sample rate in this way, the Waveform Generator, Oscilloscope, Logic Analyzer, Pattern Generator, and others, are made able to take in or put out samples at a rate of up to 125MHz.

Note:Changing the system sample rate changes the set of sample rates that can be achieved by the Analog Discovery Pro's Digital I/O pins. Achievable rates with either selection are integer divisions of the system sample rate. For example, a 62.5MS/ssample rate is achievable in the Logic Analyzer when the frequency is set to 125MHz, but not when the frequency is 100MHz.


The Analog Discovery Pro (ADP3450/ADP3250) features an additional 20MHzbandwidth filter that can optionally be enabled for each oscilloscope channel. Click the dropdown below to learn how to enable this filter.

Enable the Analog Discovery Pro's 20 MHz Hardware Filter

The Analog Discovery Pro's hardware filter can be enabled individually for each channel. Open the channel's settings through the gear icon (). The filter can be enabled or disabled for the channel by making a selection in theBandwidthdropdown, as in the screenshot to the right.


2.3 Begin Capturing Data

Click the Run button in the control bar near the top of the window to begin capturing data on the analog input channels. Captured data will appear in the plot pane as a set of colored lines. The yellow line (labeled 1 in the image to the right) corresponds to the signal captured on Oscilloscope Channel 1. The blue line (2) corresponds to the signal captured on Oscilloscope Channel 2.

Since Oscilloscope Channel 2 was left “floating” (not connected) while making connections in Step 2.1, it can be disabled by clicking theChannel 2checkbox (3) in the configuration panel at the right side of the window.

For devices that support 4 channels, channels 3 and 4 also appear, colored purple and green respectively. They are also given their own configuration options and can be individually enabled and disabled.


2.4 Plot Pane Axes

By default, the plot has a vertical range of -2.5V to 2.5V, and a horizontal range of -5ms to 5ms (with respect to the trigger configuration, which is described inSection 3.2.

To re-scale the horizontal axis of the plot to show only two periods of the sine wave, change theBasevalue in the drop-down menu located in the Time box at the top of the configuration panel on the right side (labeled “1” in the image to the right) to “200 us/div”. This value can be set by either selecting a new value from the drop-down (the arrow next to the field), or by clicking into the time base field and manually typing it in (including units and an SI prefix). This specific value represents one hundred microseconds per division (vertical line) on the plot.

To re-scale the vertical axis of the plot, as before, change theRangevalue in the “Channel 1” box in the configuration panel (labeled “2” in the image to the right). A value of “200 mV/div” will make the sine wave fill the entire plot pane.


2.5 Quick Measure Cursors

To take a quick measurement of the period and frequency of the sine wave, click the Quick Measure: Pulse icon() at the top right side of the plot pane. Move the cursor over the sine wave in the plot pane, and observe the values displayed. If the values change too quickly to make out, the capturing of data can be stopped by clicking on the Stop button () in the control bar near the top of the window.


2.6 Measurements

To view calculated values for period, frequency, amplitude, and various others, that may not be available through the Quick Measure cursors, click on the “View” menu in the toolbar just above the Run/Stop button. In the drop-down menu, click onMeasurements. This opens a new Measurements pane to the right of the Plot pane.

When opened, the measurements pane does not contain any values. Click on the Add button (), then “Defined Measurement”, to add a new measurement to the list.

In the popup window, make sure that “Channel 1” is selected in the first list. The second list contains a wide variety of different measurements that can be calculated from data captured from the selected Channel. Expand the “Horizontal” selection, then click on “Frequency” and click the “Add” button at the bottom of the popup window. Under “Vertical”, click on “Peak2Peak”, and then “Add” again. Click “Close”.

Each measurement selected will now be displayed in the Measurements pane. As can be seen, the list of measurements now contains estimates of the frequency and peak-to-peak voltage of the captured signal. As expected, these measurements will be listed as approximately 1 KHz and 2V, respectively.


Note: Using Multiple Instruments

TheOscilloscopeinstrument can be used with other WaveForms instruments simultaneously. This is helpful in a wide variety of situations. One example would be to use theWaveform Generatorto stimulate a circuit under test, thePower Suppliesto provide power to the circuit, and view the response with theOscilloscope, all at the same time. More information on how instruments can be operated together can be found in theUsing Cross Triggeringguide.

It should be noted that the analog input channels cannot be shared by multiple instruments. When theOscilloscopeis enabled, any other instruments using the analog input channels are disabled. Other instruments that use the analog input channels include theVoltmeter,Data Logger,Spectrum Analyzer,Network Analyzer, andImpedance Analyzer.


3. Scope User Interface Overview

This section walks through the wide variety of controls and features present in theScopeinstrument

3.1 Control Buttons

As seen in Section 2, the control bar near the top of the window can be used to stop and start the capturing of data from the analog input pins.

In addition to the Run/Stop button, described above, the Single button can be used to capture a buffer of data based around the first occurrence of a pre-defined trigger. The size of the buffer and when the buffer is captured relative to the trigger event are defined inSection 3.3.

控制栏还包含触发器configuration options, described in the next section.


3.2 Triggers

Immediately next to the Single button are a set of options that can be used to configure oscilloscope triggers. When taking repeated measurements, the plot pane stays centered on these trigger events. As seen above, when the Single button is pressed, a set of data centered on the next trigger event is captured and plotted.

TheModedrop-down allows the user to select what will happen when the Run button is pressed. For descriptions of the available settings, please see the WaveForms reference manual, available through the Help menu in WaveForms, in the menu bar at the top of the screen. The reference manual is also hosted on the Digilent Wiki at this link:WaveForms Reference Manual.

TheSourcedrop-down allows the user to trigger the oscilloscope based on events in other instruments. For more information, please seeUsing Cross Triggering.

TheConditionandLeveldrop-downs allow the user to describe what type of event to trigger on. For example, the configurationCondition = RisingandLevel = 1Vwill generate a trigger event whenever the captured data rises above 1V.

Additional trigger configuration options can be found by clicking on the green down arrow to the right of the level field. Please use the WaveForms Help menu for more information.

By default, the trigger event is centered in the plot. Data captured before and after the trigger can be viewed by modifying Time configuration settings, described in the next section of this guide.


3.3 Time Configuration Group

By default, the Time group in the Configuration panel contains the “Position” and “Base” fields. The Position field centers the plot on the selected time, measured from the trigger. This can be used to view data captured before and after the trigger event. The Base field configures the scale used for the horizontal axis of the plot. Using these two settings can be thought of as “panning” and “zooming” the plot. The time base and position can also be changed with the mouse wheel, and by clicking and dragging the plot pane, respectively.

The Gear button () in the Time group can be used to change the units used in the position and division fields.

Additional time and sampling configuration options can be found by clicking the green down arrow at the bottom of the Time group. For instance, the sample count and rate used when capturing data can be manually configured - it should be noted that doing so also automatically changes the position and base settings. More information on these options can be found through the WaveForms Help menu.


3.4 Channel Configuration Groups

Each input channel of the Test and Measurement Device can be configured via the associated Channel # group in the Configuration panel. By default, each of these groups containsOffsetandRangefields. TheOffsetfield is used to set the vertical position of the captured signal in the plot. TheRange字段是用于设置规模用于变性al axis of the plot for that channel. The checkbox next to the channel name can be used to enable or disable that channel, as seen in Step 2.3 of this guide.

Additional options for each channel can be found by clicking on that channel's Gear button. These options can be used to select the units used for theOffsetandRangefields, show or hide the signal's noise band in the chart, modify the channel's attenuation, sampling, and coupling, and others. More information on these options can be found through the WaveForms Help Menu.


3.5 Other Channels

Other types of channels can be added to the plot and Configuration pane through the Add Channel button ().

Mathchannels can be used to display signals passed through some function. For example, high/low/band pass filters can be applied to signals captured on the analog input channels, and displayed on the plot. Custom functions can be defined using JavaScript syntax.

Referencechannels can be used to display custom signals or previously-captured signals (imported from a file) in the plot.

Digitalchannels can be used to display data captured on the digital input/output channels in a separate pane which appears below the plot. This can be used to view both analog and digital signals at the same time.Digital渠道也可以用作输入自定义数学channels in order to display them in the main plot pane. For more information on how digital data can be viewed and used, refer to theUsing the Logic Analyzerguide.


3.6 Additional Configuration Options

TheOptionsdrop-down above the channel groups contains a set of options that apply to multiple channels at once. For instance, the rate at which the plot is updated can be changed from this menu. For more information on the options available in this menu, please refer to the WaveForms Help menu.


3.7 Chart Pane

The Chart pane displays data captured on the analog input channels. The horizontal axis of the plot represents time before and after the trigger event that initiated the capture. The vertical axis represents the voltage level (or other selected unit, for math and reference channels). Each channel has its own vertical scale, which can be selected by clicking on their identifiers in the top left corner of the plot pane (C1, C2, etc.).

获取状态信息可以找到th旁边e channel select buttons, including a state string (Stop / Config / Trig'd). Information about the capture being displayed can be found to the right of the channel select buttons, including the number of samples, sample rate, and a time stamp for when the capture was taken.

Another set of buttons can be found in the upper right corner of the plot panel:

  • The Thumbnail button () displays a small version of the entire buffer of data, including indicators for what part of the signal the main plot is currently viewing.
  • The three “Quick Measure” tools:
    • Free () measures the distance between two mouse clicks, expressed in time and frequency. It also displays the vertical value and difference of the clicked positions.
    • Vertical () is similar to Free mode but the cursor sticks to signal transitions. The vertical measurement is performed on signal values for each channel.
    • Pulse ()一个垂直光标显示时间的地方position and the waveform's level at the intersections with the vertical cursor. If the mouse is placed between two peaks of a signal, it measures the pulse-width, period, frequency, and duty cycle of a signal.
  • The Show Entire Capture button () zooms the plot all of the way out.

The Gear button next to the previous five buttons can be used to change how the plot is displayed, including adding labels, changing the background between light and dark, displaying all channel scales at once, and others. For more information on these options, refer to the WaveForms Help menu.

The “Y” button and drop-down next to the previous Gear button can be used to add horizontal cursors to the plot. Vertical cursors can be added to the plot using the “X” button and drop-down in the lower-left corner of the plot pane.


3.8 File Menu

TheFilemenu at the top of the window provides the ability to create anotherScopeinstrument, as well as to save and load acquisitions and projects.

Saving an acquisition allows the user to load captured data back into WaveForms later. Acquisitions can be loaded into other instruments, as, for example, a signal to be generated by theWavegeninstrument.

Saving a project (with or without any acquisitions) allows the user to close WaveForms without losing any configurations. In addition to this, projects can be shared with others to aid in group projects and guided learning.

Exporting data as an image allows the user to produce a screenshot of the entireScopetool. Alternatively, captured data can be exported in a variety of different file formats, including CSV, TXT, and TDMS.


3.9 Control Menu

TheControlmenu at the top of the window provides the same functionality as the Single/Stop/Run buttons and lists hotkeys that can be used for each.


3.10 View Menu

A wide variety of different view panes can be added to the user interface using theViewmenu in the toolbar above the Single/Run/Stop buttons. Each pane, once opened, can be closed by clicking the “X” button in the top right corner of its pane. A description of each view in the menu is listed below:

  • Add Zoom:Creates an additional plot that can be used to zoom in on particular regions of interest in the signal.
  • Add XY:Creates an additional plot with configurable X and Y axes. For instance, two channels can be plotted against one another to create an IV curve diagram.
  • Add XYZ 3D:Creates a 3D plot where the axes can be sources from any three channels. Note that a device with three or more channels is required.
  • FFT:Creates plot to display a Fast Fourier Transform diagram of the captured signals.
  • Spectrogram:Creates a spectrogram plot, showing how the frequency components of captured signals change over time.
  • Spectrogram 3D:Creates a spectrogram plot, plotting data in three dimensions.
  • Histogram:Creates a plot that displays the percentage of time spent by the signal at each voltage level.
  • Persistence:Creates a plot that places multiple signal captures on the same plot, with color indicating how often a voltage level is detected at a certain time.
  • Data:Creates a chart that exposes raw capture data in a spreadsheet.
  • Measurements:As seen in Step 2.6 of this guide, can be used to create a list of characteristics of captured signals.
  • Logging:Allows the user to log captured data directly to a file, over multiple acquisitions. Includes a scripting interface (JavaScript) with examples.
  • Audio:Allows the user to playback captured signals as sound through the host computer's audio output.
  • X/Y Cursors:Lists all cursors that have been added to the plot.
  • Notes:Creates a text editor pane that can be used to document configuration choices, or whatever other information could be useful
  • Digital:Exposes some functionality of theLogic Analyzerinstrument within theScopeinstrument, allowing the user to capture and view data from the digital input/output channels. For more information on capturing and viewing digital signals, please see theUsing the Logic Analyzerguide.
  • Digital Measurements:Creates a list that can contain features of captured digital signals (frequency, duty cycle, pulse width, etc.).

to remember.


Note that, in the newest versions of WaveForms, all of these options are also now available through the toolbar above the control panel, as seen to the right.


Next Steps

For more guides on how to use the Digilent Test and Measurement device, return to the device's Resource Center, linked from theTest and Measurementpage of this wiki.

If voltage values seen in theScopeare significantly different from expected, please calibrate the device by following theCalibration Guide.

For more information on WaveForms, visit theWaveForms Reference Manual.

For technical support, please visit theTest and Measurementsection of the Digilent Forums.