Oscilloscope

Sophisticated measurements with an intuitive iPad interface,
featuring integration with LabVIEW, python, and MATLAB.

Oscilloscope

Sophisticated measurements with an intuitive iPad interface, featuring integration with LabVIEW, python, and MATLAB.

Included with Moku:Lab

The Oscilloscope is one of eleven professional-grade instruments that come standard in our all-in-one test and measurement platform Moku:Lab

Oscilloscope with Moku:Lab

Included with Moku:Lab

The Oscilloscope is one of eleven professional-grade instruments that come standard in our all-in-one test and measurement platform Moku:Lab

Oscilloscope with Moku:Lab

Oscilloscope Overview

Wirelessly monitor signals and configure your Moku:Lab hardware from an intuitive iPad interface.

Oscilloscope

Features


  • Two analog inputs with 200 MHz analog bandwidth
  • Two 250 MHz analog outputs with internal measurement
  • TTL compatible external trigger
  • Visualization tools including measurement trends and histograms
  • Wireless or wired interface to iPad, Python, MATLAB and LabVIEW
  • Math channel with equation editor for arbitrary functions
  • Built in support for saving data saving to the Cloud or logging to SD card

Specifications


  • Vertical resolution of 12 bits at 500 MS/s up to 22 bits at 1 kS/s
  • Switchable AC/DC coupling and 50Ω, 1MΩ input impedance
  • <20 Measurements and up to 10 tracking cursors
  • Normal, precision and peak-detect (coming March 2018) acquisition modes
  • Linear, sinc, and guassian interpolation

Intutive Shortcuts


  • 2 analog input channels with 200 MHz bandwidth, and independent control of AC / DC coupling and 50Ω / 1 MΩ input impedance.
  • New multitouch interface allows you to intuitively adjust time and voltage levels. Warning: after 10 minutes with Moku:Oscilloscope, using a conventional oscilloscope may annoy you.

Even More


  • Histograms: Live, full frame rate histograms can be shown, which can be useful to diagnose sources of error such as electronic crosstalk.
  • Reference Trace: Live, full frame rate histograms can be shown, which can be useful to diagnose sources of error such as electronic crosstalk.
  • Interpolation: Live, full frame rate histograms can be shown, which can be useful to diagnose sources of error such as electronic crosstalk. The Settings side drawer gives you an old school way to configure your data acquisition. Adjust channel settings (scale, impedance, AC/DC coupling) in the Channel tab, including both input channels and math mode. When the waveform generator is enabled you can also switch to observe the output via an internal digital loop-back. Use the Time tab to access time base, triggering, averaging and persistence settings. The Oscilloscope supports normal and precision acquisition modes.

Oscilloscope Overview

Wirelessly monitor signals and configure your Moku:Lab hardware from an intuitive iPad interface.

Oscilloscope

Features


  • Two analog inputs with 200 MHz analog bandwidth
  • Two 250 MHz analog outputs with internal measurement
  • TTL compatible external trigger
  • Visualization tools including measurement trends and histograms
  • Wireless or wired interface to iPad, Python, MATLAB and LabVIEW
  • Math channel with equation editor for arbitrary functions
  • Built in support for saving data saving to the Cloud or logging to SD card

Specifications


  • Vertical resolution of 12 bits at 500 MS/s up to 22 bits at 1 kS/s
  • Switchable AC/DC coupling and 50Ω,1MΩ input impedance
  • <20 Measurements and up to 10 tracking cursors
  • Normal, precision and peak-detect (coming March 2018) acquisition modes
  • Linear, sinc, and guassian interpolation

Intutive Shortcuts


  • 2 analog input channels with 200 MHz bandwidth, and independent control of AC / DC coupling and 50Ω / 1 MΩ input impedance.
  • New multitouch interface allows you to intuitively adjust time and voltage levels. Warning: after 10 minutes with Moku:Oscilloscope, using a conventional oscilloscope may annoy you.

Even More


  • Histograms: Live, full frame rate histograms can be shown, which can be useful to diagnose sources of error such as electronic crosstalk.
  • Reference Trace: Live, full frame rate histograms can be shown, which can be useful to diagnose sources of error such as electronic crosstalk.
  • Interpolation: Live, full frame rate histograms can be shown, which can be useful to diagnose sources of error such as electronic crosstalk. The Settings side drawer gives you an old school way to configure your data acquisition. Adjust channel settings (scale, impedance, AC/DC coupling) in the Channel tab, including both input channels and math mode. When the waveform generator is enabled you can also switch to observe the output via an internal digital loop-back. Use the Time tab to access time base, triggering, averaging and persistence settings. The Oscilloscope supports normal and precision acquisition modes.

Moku:Lab Overview

Moku:Lab couples the signal processing power of an FPGA with high-speed analog inputs and outputs to bring you a new level of flexibility in the lab.

Moku:Lab

2 Channel Analog Inputs


  • 500 MS/s, 12-bit ADCs
  • 200 MHz bandwidth (-3 dB, 50 Ω)
  • 50 Ω / 1 MΩ impedance
  • AC / DC coupling
  • 1 Vpp / 10 Vpp

2 Channel Analog Outputs


  • 1 GS/s, 16-bit DACs
  • >300 MHz bandwidth (-3dB)
  • 50 Ω impedance
  • DC coupled

Clocks & Triggering


  • Ultra-stable oscillator (<500 ppb accuracy)
  • 10 MHz reference input
  • 10 MHz reference output
  • External trigger input (TTL)

Connectivity & Storage


  • Wi-Fi, Ethernet and USB
  • Python, MATLAB, LabVIEW and iPad
  • Save data to Dropbox or email
  • 8 GB SD card included

Moku:Lab Overview

Moku:Lab couples the signal processing power of an FPGA with high-speed analog inputs and outputs to bring you a new level of flexibility in the lab.

Moku:Lab

2 Channel Analog Inputs


  • 500 MS/s, 12-bit ADCs
  • 200 MHz bandwidth (-3 dB, 50 Ω)
  • 50 Ω / 1 MΩ impedance
  • AC / DC coupling
  • 1 Vpp / 10 Vpp

2 Channel Analog Outputs


  • 1 GS/s, 16-bit DACs
  • >300 MHz bandwidth (-3dB)
  • 50 Ω impedance
  • DC coupled

Clocks


  • Ultra-stable oscillator (<500 ppb accuracy)
  • 10 MHz reference input
  • 10 MHz reference output
  • External trigger input (TTL)

Connectivity & Storage


  • Wi-Fi, Ethernet and USB
  • Python, MATLAB, LabVIEW and iPad
  • Save data to Dropbox or email
  • 8 GB SD card included

Oscilloscope F.A.Q.

Oscilloscope F.A.Q.

+ Can I set the channel offset in screen divisions while zooming?

To zoom in and out while keeping the channel offset fixed on the screen, simply pan up or down with two fingers held together. This 'rapid zooming' technique works horizontally and on other instruments as well!

+ What is the difference between "Normal" and "Precision" acquisition modes?

Moku:Lab records samples from the analog inputs at a rate of 500 MS/s. When looking at long time spans, the data's sample rate is reduced to display the trace on the screen. In "Normal" acquisition mode, the input is simply downsampled; that is, only every Mth sample is taken. This can cause aliasing of high frequency signals: for example, a high frequency sine wave may appear as a lower frequency sine wave when the oscilloscope timebase is zoomed out. In "Precision" mode, the input is lowpass filtered (averaged) before downsampling. This reduces aliasing artifacts and increases the resolution of the trace. Note that in this mode, high frequency signals can be filtered out, so the oscilloscope trace may appear to be zero even if a high frequency signal is present at the input.

Multiple instruments, one platform

Moku:Lab comes with 11 professional-grade instruments,
with more on the way through software updates.

Multiple instruments, one platform

Moku:Lab comes with 11 professional-grade instruments, with more on the way through software updates.

Want to know more?

We’d love to hear more about your unique application
and area of research. Let’s talk!

Want to know more?

We’d love to hear more about your unique application and area of research. Let’s talk!