Liquid Instruments Moku:Go Engineering Lab Solutions
Liquid Instruments Moku:Go Engineering Lab Solutions are complete engineering lab solutions for users to learn anything from circuits to senior design. Designed to travel, the 9.45" x 1.47" Moku:Go features eleven instruments and optional programmable power supplies. The device eliminates the need for bulky benchtop instruments and empowers users to learn on the go. Hardware features include a Wi-Fi Hotspot, high-quality integrated connectors with enhanced electrical protection, USB-C™ for data, and six color options. An intuitive user interface (UI) for Windows and Mac provides integrated API support for Python and MATLAB. Hardware components include integrated BNC connectors, integrated banana jack connectors for programmable power supplies, a high-grip rubberized base to prevent slippage, and robust electrical protection to ensure safety.
Features
- 11x instruments in one device
- 125MSa/s arbitrary waveform generator
- 2-channel data logger
- 20MHz frequency response analyzer
- Protocol analyzer (I2C/SPI/UART)
- 30MHz oscilloscope/voltmeter
- Multiple input/output PID controller
- 30MHz real-time spectrum analyzer
- 20MHz waveform generator
- Lock-in amp
- Digital filter box
- FIR filter builder
- Included accessories
- 2x oscilloscope probes
- DIO cabling
- Power adapter
- USB-C™ and Ethernet cables (depending on model)
- Power supply cables (depending on model)
- 3 models available
- M0 model
- 2x analog inputs, 2x analog outputs, and 16x DIO
- USB-C™, WiFi, software, and APIs
- M1 model
- All features of the M0 model
- Two-channel programmable power supply
- M2 model
- All features of the M0 model
- Ethernet
- Four-channel programmable power supply
- M0 model
- 6 standard colors or custom color upgrades are available
Applications
- 125MSa/s arbitrary waveform generator
- Random pattern generation
- System response simulation
- Additive manufacturing
- Instrument response function simulation
- 2-channel data logger
- Temperature monitoring
- Vibration analysis
- Environment monitoring
- Other sensor data recording
- 20Hz frequency response analyzer
- Impedance measurement
- Capacitance/inductance measurement
- Stability analysis
- Power supply analysis
- EMI filter characterization
- Protocol analyzer (I2C/SPI/UART)
- Signal simulation
- Digital circuit design
- Digital communication diagnosis
- Clock source
- 30MHz oscilloscope/voltmeter
- Signal monitoring and analysis
- Circuit design and characterization
- Photodetector alignment
- Automated system tests
- System test and debug
- Multiple input/output PID controller
- Feedback and control system design
- Laser frequency stabilization
- Temperature regulation
- Scan heads/sample stage positioning
- Pressure, force, flow rate, and other controls
- 30MHz real-time spectrum analyzer
- Frequency domain analysis
- System response characterization
- Noise measurement
- Spurious signal identification
- 20MHz waveform generator
- Signal simulation
- Circuit design and characterization
- System synchronization
- Clock source
- Op-amp characterization
- 20MHz lock-in amplifier
- Laser frequency stabilization
- RF demodulation
- Analog radio
- Digital filter box
- Impulse response simulation
- DSP system design
- Noise filtering
- Signal amplification
- FIR filter builder
- System design
- Closed-loop control
- Noise filtering
- Signal amplification
Specifications
- Programmable power supplies
- 2-channel option
- ±5V at 150mA
- 0 to 16V at 150mA
- 4-channel option
- ±5V at 150mA
- 0 to 16V at 150mA
- Dual 0.6V to 5V at 1A
- 2-channel option
- 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
- Support 3.3V (5V tolerant) logic level
- Programming environment
- API support for Python and MATLAB
- Windows or macOS
- MathWorks Live Scripting
Diagram
Application Notes
- Bit Growth via Oversampling - A Technique to Increase Effective Number of Bits for Digital Signal Processing
- Moku:Go Arbitrary Waveform Generator - Using MATLAB to Generate Modulated Arbitrary Waveforms
- Moku:Go's I-V Curve Tracing - Lab Experiment, Forward Bias Behavior of Diode
- Moku:Go's PID Controller Lab - Lab Experiment, PID Tuning Using the Ziegler-Nichols Method
- Moku:Go's Spectrum Analyzer - Lab Study of Amplitude Modulated Signal
- Moku Hardware and Remote Labs - Teaching Remote and In-Person Labs with Moku Hardware and MATLAB LiveScripts
- Overview of Butterworth Filter Lab - Moku:Go Deployed in Undergraduate Laboratory Experiment
- Sampling Theorem - Aliasing and Anti-Aliasing Measures on Moku Devices
Publicado: 2021-11-01
| Actualizado: 2023-04-17