Moku:Lab's

FIR Filter Builder

Design and create advanced filters, all from an intuitive iPad interface, or with Python and MATLAB (LabVIEW coming soon).

Ask Us Anything
MokuLab-SilverFront.png

Moku:Lab's

FIR Filter Builder

Design and create advanced filters, all from an intuitive iPad interface, or with Python and MATLAB (LabVIEW coming soon).

MokuLab-SilverFront.png
Ask Us Anything

FIR Filter Builder overview

One of twelve instruments included with every Moku:Lab

Features


  • Design filters in the time domain or in the frequency domain, choosing from common impulse responses and window functions
  • Load your own filter coefficients or enter an equation to create a customized impulse response
  • Visualize the filter's transfer function, impulse and step response, or group and phase delay
  • Easily save data and upload to the cloud

Specifications


  • 2 independent channels
  • Up to 15 MS/s sampling rate with 232 coefficients
  • Over 14,000 coefficients at 244 kS/s
  • Filter coefficient precision of up to 24 bits
  • Preset frequency response shapes: Lowpass, Highpass, Bandpass, Bandstop
  • Window functions: Bartlett, Hanning, Hamming, Blackman, Nuttall, Tukey, Kaiser, or None
  • AC / DC input coupling
  • 50 Ω / 1 MΩ input impedance

FIR Filter Builder overview

One of twelve instruments included
with every Moku:Lab

Features


  • Design filters in the time domain or in the frequency domain, choosing from common impulse responses and window functions
  • Load your own filter coefficients or enter an equation to create a customized impulse response
  • Visualize the filter's transfer function, impulse and step response, or group and phase delay
  • Easily save data and upload to the cloud

Specifications


  • 2 independent channels
  • Up to 15 MS/s sampling rate with 232 coefficients
  • Over 14,000 coefficients at 244 kS/s
  • Filter coefficient precision of up to 24 bits
  • Preset frequency response shapes: Lowpass, Highpass, Bandpass, Bandstop
  • Window functions: Bartlett, Hanning, Hamming, Blackman, Nuttall, Tukey, Kaiser, or None
  • AC / DC input coupling
  • 50 Ω / 1 MΩ input impedance
 

One flexible hardware platform.
Twelve powerful instruments.

Moku:Lab is a software-reconfigurable hardware platform that combines 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, in the field, or on the production line.

FIRFilterBuilder.jpg

  • 2 high-speed inputs (analog)

    • 500 MS/s, 12-bit ADCs
    • 200 MHz bandwidth (-3 dB, 50 Ω)
    • 50 Ω or 1 MΩ impedance
    • AC or DC coupling
    • 1 Vpp / 10 Vpp
    • < 30 nV/√Hz above 100 kHz at 1 Vpp input range


  • 2 high-bandwidth DC coupled outputs (analog)

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


  • Ultra-stable clocks and external triggering

    • Ultra-stable oscillator with better than 500 ppb accuracy
    • 10 MHz reference input
    • 10 MHz reference output
    • External trigger input


  • Convenient connectivity and storage

    • Connect to your Moku:Lab via Wi-Fi, Ethernet and USB
    • Control your Moku:Lab using iPad, Python, LabVIEW and MATLAB interfaces
    • Save data to Dropbox, email, SD card, or Moku:Lab’s internal RAM
    • Comes with a 16 GB SD card


One flexible hardware platform.
Twelve powerful instruments.

Moku:Lab is a software-reconfigurable hardware platform that combines 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, in the field, or on the production line.

FIRFilterBuilder.jpg

  • 2 high-speed inputs (analog)

    • 500 MS/s, 12-bit ADCs
    • 200 MHz bandwidth (-3 dB, 50 Ω)
    • 50 Ω or 1 MΩ impedance
    • AC or DC coupling
    • 1 Vpp / 10 Vpp
    • < 30 nV/√Hz above 100 kHz at 1 Vpp input range


  • 2 high-bandwidth DC coupled outputs (analog)

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


  • Ultra-stable clocks and external triggering

    • Ultra-stable oscillator with better than 500 ppb accuracy
    • 10 MHz reference input
    • 10 MHz reference output
    • External trigger input


  • Convenient connectivity and storage

    • Connect to your Moku:Lab via Wi-Fi, Ethernet and USB
    • Control your Moku:Lab using iPad, Python, LabVIEW and MATLAB interfaces
    • Save data to Dropbox, email, SD card, or Moku:Lab’s internal RAM
    • Comes with a 16 GB SD card


Want your own?

Contact Us
Buy Now

Want your own?

Contact Us
Buy Now