Bode Analyzer

Wirelessly configure and monitor the magnitude and phase of your
system’s transfer function from an intuitive iPad interface.

Bode Analyzer

Wirelessly configure and monitor the magnitude and phase of your system’s transfer function from an intuitive iPad interface.

Included with Moku:Lab

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

Bode Analyzer with Moku:Lab

Included with Moku:Lab

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

Bode Analyzer with Moku:Lab

Bode Analyzer overview video

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WATCH OVERVIEW VIDEO

Bode Analyzer overview video

VideoPlayer-Light.png
WATCH OVERVIEW VIDEO

Quick info about the Bode Analyzer

Wirelessly configure and monitor the magnitude and phase of your system’s transfer function from an intuitive iPad interface.

Features


  • Linear or logarithmic swept sine output
  • Probe two systems simultaneously, or one system at two points
  • Math channel to add, subtract, multiply or divide response functions as they are acquired
  • Monitor the magnitude and phase on the interactive Bode plot
  • Use cursors and markers to measure exact values on the plots
  • Precisely adjust settling and averaging time to suit device under test
  • Save a calibration trace to compare systems or remove spurious cable shifts
  • Easily save data and upload to the cloud

Specifications


  • Frequency range: 10 mHz to 120 MHz
  • 50 Ω / 1 MΩ input impedance
  • Variable averaging time (1 μs - 10 s)
  • Variable settling time (1 μs - 10 s)
  • Linear/logarithmic sweep

Quick info about the Bode Analyzer

Wirelessly configure and monitor the magnitude and phase of your system’s transfer function from an intuitive iPad interface.

Features


  • Linear or logarithmic swept sine output
  • Probe two systems simultaneously, or one system at two points
  • Math channel to add, subtract, multiply or divide response functions as they are acquired
  • Monitor the magnitude and phase on the interactive Bode plot
  • Use cursors and markers to measure exact values on the plots
  • Precisely adjust settling and averaging time to suit device under test
  • Save a calibration trace to compare systems or remove spurious cable shifts
  • Easily save data and upload to the cloud

Specifications


  • Frequency range: 10 mHz to 120 MHz
  • 50 Ω / 1 MΩ input impedance
  • Variable averaging time (1 μs - 10 s)
  • Variable settling time (1 μs - 10 s)
  • Linear/logarithmic sweep

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

F.A.Q.


  • How can I plot the ratio of Input 1 and Input 2?

    By default, each channel shows the ratio of the input to the output, In / Out. This is useful for measuring the transfer function of a device under test. The math channel allows you to plot different combinations of Ch 1 and Ch 2. If the output amplitudes of both channels are set to the same value, then viewing the math channel as Ch 1 / Ch 2 will show the ratio In 1 / In 2, since the outputs are the same.


F.A.Q.


  • How can I plot the ratio of Input 1 and Input 2?

    By default, each channel shows the ratio of the input to the output, In / Out. This is useful for measuring the transfer function of a device under test. The math channel allows you to plot different combinations of Ch 1 and Ch 2. If the output amplitudes of both channels are set to the same value, then viewing the math channel as Ch 1 / Ch 2 will show the ratio In 1 / In 2, since the outputs are the same.


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!