Liquid Instruments Moku:Lab Reconfigurable Hardware Platforms
Liquid Instruments Moku:Lab Reconfigurable Hardware Platforms combine the digital signal processing power of an FPGA with versatile, low-noise analog inputs/outputs for engineering and research applications. Simplify workflows with access to a full suite of high-performance instruments that enable users to make end-to-end product measurements with a single device. Whether verifying an early design prototype or making advanced optical measurements, Moku:Lab contains the instruments users need, available in an instant.
Consolidate old racks and stacks into one piece of powerful equipment that provides the instruments needed to optimize design and test. As the software evolves, get instant access to valuable emerging features sent directly to the Moku device - with no new hardware required. Choose from two instrument bundles: the Base Bundle (includes select instruments) and the Full-suite Bundle (includes all instruments).
Plus, with Multi-instrument Mode and Moku Cloud Compile, users are not limited to a single instrument. Daisy-chain two instruments together to build sophisticated signal processing pipelines and hot-swap instruments without interrupting those running in tandem. Develop and deploy personal bitstreams to maximize flexibility on a single device.
Features
- Included instruments in the Base Bundle
- Included instruments in the Full-suite Bundle
- All Base Bundle instruments
- Digital Filter Box
- FIR Filter Builder
- Frequency Response Analyzer
- Laser Lock Box
- Lock-In Amplifier
- Phasemeter
- PID Controller
- SD card included
Applications
- Pump-probe/ultrafast spectroscopy
- Laser frequency stabilization (Pound-Drever-Hall technique and more)
- Interferometry
- Quantum optics
- System response characterization
- Noise measurement
- Feedback and control system design
- Impedance measurements
- Data logging
Specifications
- Analog inputs
- Two channels
- 200MHz bandwidth (-3dB) into 50Ω, 500MSa/s per channel
- 12-bit resolution
- Better than 30nV/√Hz above 100kHz input voltage noise
- Analog outputs
- Two channels
- 300MHz bandwidth (-3dB), 1GSa/s per channel sampling rate
- 16-bit resolution
- 2Vpp into 50Ω
- Additional ports
- Dedicated trigger BNC input
- 10MHz reference clock in and out
- Ethernet
- Windows, macOS, and iPadOS app user interfaces
- API support for Python, MATLAB, and LabVIEW programming environments
- Moku:Lab Specifications
Diagram
Application Notes
- EMI Filter Insertion Loss - Measuring with Moku:Lab's Frequency Response Analyzer
- Impedance Measurements with Moku:Lab - Part 1: Resistance
- Impedance Measurements with Moku:Lab - Part 2: Inductance
- Laser Frequency Offset Locking
- S-Parameter Measurement with the Frequency Response Analyzer
- Moku:Lab Data Logging - Using the Data Logger to Capture High Speed Mechanical Impact
- Moku:Lab and MATLAB - Using the Arbitrary Waveform Generator with MATLAB
- Stimulated Raman Scattering Microscopy - Using Moku:Lab's Lock-in Amplifier