Liquid Instruments Moku:Go Engineering Lab Solutions
Liquid Instruments Moku:Go Engineering Lab Solutions combines compact hardware designs with intuitive software to provide test essentials and tools for complex applications - all in a single, reconfigurable, FPGA-based device. From audio and power electronics to analog and digital design, use Moku:Go to explore and test concepts with flexibility and ease.
Offering optional programmable power supplies and a full suite of software-defined test instruments, from an Oscilloscope to a PID Controller, Moku:Go provides the right tools for user applications. Choose from three hardware models and two instrument bundles: the Base Bundle (includes 6 core instruments) and the Full-suite Bundle (includes all 14 instruments).
The easy-to-use GUI for Windows, macOS, and iPadOS helps simplify design, debugging, and data collection. Tackle more advanced applications with the ability to implement custom FPGA code and API support. Hardware features include a Wi-Fi Hotspot, high-quality integrated connectors with enhanced electrical protection, and USB-C™ for data. Hardware components include BNC connectors, banana jack connectors for programmable power supplies, and a high-grip rubberized base to prevent slippage.
Features
- Included instruments in the Base Bundle (White)
- Included instruments in the Full-suite Bundle (Storm Blue)
- Included accessories
- 2x oscilloscope probes
- DIO cabling
- Power adapter
- USB-C and Ethernet cables (depending on model)
- Power supply cables (depending on model)
- 2 hardware models available:
- M0 model:
- 2x analog inputs, 2x analog outputs, and 16x DIO
- USB-C™, WiFi, software, and APIs
- M2 model:
- All features of the M0 model
- Ethernet
- Four-channel programmable power supply
- M0 model:
Applications
- Signal monitoring and analysis
- Circuit design and response characterization
- Feedback and control system design
- Laser frequency stabilization (PDH technique)
- Interferometry
- Random pattern generation
- Additive manufacturing
- Sensor data recording
- Impedance measurements
- Higher education
Specifications
- Analog inputs
- 2x 12-bit, 125MSa/s input channels
- 30MHz analog bandwidth
- AC or DC coupling with 1MΩ impedance
- Input range up to ±25V
- Analog outputs
- 2x 12-bit, 125MSa/s output channels
- 20MHz analog bandwidth
- ±5V maximum output range
- Digital I/O
- 16-channel DIO at 62.5MSa/s
- Supports 3.3V (5V tolerant) logic level
- Programmable power supplies
- 4-channel option (M2 model)
- ±5V at 150mA
- 0V to 16V at 150mA
- Dual 0.6V to 5V at 1A
- 4-channel option (M2 model)
- Programming environment
- API support for Python, MATLAB, and LabVIEW
- Windows, macOS, iPadOS apps, and VisionOS apps
- Moku:Go Specifications document
Diagram
Application Notes
- Moku:Go Arbitrary Waveform Generator - Using MATLAB to Generate Modulated Arbitrary Waveforms
- Moku:Go PID Controller Lab - Lab Experiment, PID Tuning Using the Ziegler-Nichols Method
- Moku:Go Protocol Analyzer - Using the Logic Analyzer for UART Decoding
- Impedance Measurements with Moku:Go - Part 1: Resistance
- Impedance Measurements with Moku:Go - Part 2: Inductance
- Digital Filter Prototyping with Multi-instrument Mode
- Reducing Noise and Transients with Custom Real-Time Digital Filtering
- Bit Growth via Oversampling - A Technique to Increase Effective Number of Bits for Digital Signal Processing
- Using the Lock-in Amplifier to Build an AM Radio Receiver
Case Studies
- Enhancing Unmanned Aerial Vehicle Detection with FMCW Radar and Moku:Go
- Auto-Aligning Optical Cavity Systems with Moku:Go
- Search and Destroy: Preparing BattleBots for Combat with Moku:Go
- Automating the Future at Oregon State University Ecampus with Moku:Go
- Accelerating Microelectromechanical Systems (MEMS) Design at Oregon State University with Moku:Go
- Building a Sustainable, Competitive Solar Car with Moku:Go and the Chalmers Solar Team
- Vision-based Industrial Control with Moku:Go
Moku:Lab Bode Analysis
Liquid Instruments Moku:Lab Bode Analysis
Simplifies Bode analysis by measuring the frequency response of systems in both magnitude in phase.