With 2 GHz bandwidth, ultra-low noise, and parallel testing capabilities, a brand new check system is about to revolutionize quantum, aerospace, and semiconductor purposes.
Liquid Devices has unveiled its newest innovation in digital check techniques with the launch of the Moku:Delta — essentially the most superior member of its Moku platform household thus far. Designed for engineers and scientists working in cutting-edge fields equivalent to quantum computing, aerospace, protection, and semiconductor testing, Moku:Delta brings unmatched flexibility and efficiency to the lab bench.
The important thing specs embody:
- 2 GHz analog bandwidth for high-frequency sign evaluation
- 5 GSa/s sampling on 8 analog enter channels
- 10 GSa/s on 8 analog output channels for quick waveform technology
- Extremely-low noise ground:
- Excessive clock stability: 1 ppb with OCXO reference
- Ideally suited for capturing weak indicators with excessive precision
It’s a reconfigurable instrumentation platform that helps as much as eight devices operating concurrently, all inside a single 2U machine. Powered by a third-generation Xilinx RFSoC FPGA, the platform allows ultra-fast sign acquisition, real-time processing, waveform technology, and digital management — making it very best for high-performance and complicated check environments.
It helps 32 digital I/O channels, permitting customers to seize and drive logic-level indicators for synchronized and built-in testing. With the flexibility to reconfigure the FPGA in actual time, customers can change between or run a number of devices—as much as eight without delay—from a collection of 15 instruments together with oscilloscopes, spectrum analyzers, waveform mills, and extra.
Ideally suited for lowering setup instances and enabling speedy experimentation, this platform permits over 2 billion check configurations, catering to advanced setups with out the necessity for a number of devices. Whether or not it’s analyzing qubit conduct in a quantum lab or validating high-speed elements in aerospace techniques, it offers a robust, compact, and future-ready resolution for next-gen engineering challenges.
