Nine professional-grade instruments in one integrated platform.
For the most demanding research and engineering applications
Moku:Pro features a suite of nine instruments
Multiple instruments in a single platform.
Lock-in Amplifier
Arbitrary Waveform Generator
Oscilloscope
Frequency Response Analyzer
Waveform Generator
PID Controller
Phasemeter
Data Logger
Spectrum Analyzer
Flexible research, faster development, scalable in an instant
Welcome to the next generation of test. Moku:Pro delivers both performance and flexibility through sophisticated FPGA-based architecture, a high-bandwidth, low noise analog front end, and robust networking and storage. All of the instruments you need are available in an instant without compromising performance for flexibility. An innovative hybrid front-end design performs frequency-dependent signal blending from multiple ADCs, delivering exceptional noise performance from acoustic to radio frequencies. With 9 instruments on one hardware platform, engineers and researchers can streamline their test benches or even bring the lab home with them.
4 Analog Inputs
Up to 600 MHz, 5 GSa/s
4 Analog Outputs
Up to 500 MHz, 1.25 GSa/s
High-Speed Onboard Storage
120 GB SSD
Noise Floor
30 nV/√Hz
Clock Stability
0.3 ppm
Input to Output Latency
< 650 ns
Modern Connectivity
WiFi, Ethernet, and USB
FPGA Powered
Xilinx Ultrascale+
Moku:Pro Technical Specifications
Analog I/O
Analog inputs
Channels
2
Bandwidth
600 MHz (up to 2 channels). 300 MHz (up to 4 channels)
Sampling rate
5 GSa/s (1 channel), 1.25 GSa/s (4 channels)
Resolution
10-bit and 18-bit ADCs with automatic blending
Maximum voltage range
40 Vpp
Input impedance
50 Ω or 1 MΩ
Input coupling
AC or DC
AC coupling corner
16 kHz into 50 Ω, 1.6 Hz into 1 MΩ
Input voltage noise
30 nV√Hz at 100 Hz
Input referred noise
500 μV RMS
Analog outputs
Channels
4
Bandwidth
500 MHz (± 1 V), 100 MHz (± 5 V)
Sampling rate
1.25 GSa/s
Resolution
16-bit
Voltage range
10 Vpp into 50 Ω
Output impedance
50 Ω
Output coupling
DC
Features & Accessories
User Interface
iPad App
Windows and Mac Apps
Programming Environment
Python
MATLAB
Additional Ports
Ethernet
USB-C
10 MHz reference clock in and
out
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External trigger
Trigger waveform
TTL compatible
Trigger bandwidth
DC to 5 MHz
Trigger impedance
Hi-Z
Min trigger level
1.8 V
Max trigger level
5 V
Connector
BNC
Clock reference
On-board clock
Frequency
10 MHz
Stability
< 500 ppb
10 MHz reference input
Expected waveforms
Sine / square
Frequency
10 MHz ± 250 kHz
Input range
-6 dBm to +10 dBm
Connector
BNC
10 MHz reference output
Waveform type
Square
Output frequency
10 MHz
Output level
6 dBm
Connector
BNC
Input voltage noise
Input voltage noise describes the noise floor of the analog inputs and is represented as an amplitude spectral density (magnitude of input voltage noise at different frequencies normalized to a 1 Hz bandwidth). Input voltage noise is a key specification for a variety of instruments including lock-in amplifiers, spectrum analyzers, and oscilloscopes as it can limit the signal-to-noise ration (SNR) in weak-signal applications.
In this figure, you can see the noise of 30 nV√Hz at 100 Hz and it remains low across the entire frequency range.
Blended ADCs
Our FPGA algorithms automatically and intelligently blend the high-speed and low-speed signals from the 10-bit and 18-bit ADCs to optimize noise performance across the entire frequency range.
Rather than simply focusing on minimizing overall noise, the filtering network is designed in a way that preserves a unity-gain frequency response for the signal.
