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Author: danielle
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Liquid Instruments’ “Moku” transforms into multiple advanced scientific instruments with Xilinx’s adaptive SoCs
This Case Study was written by Xilinx and originally appeared on their website under Powered by Xilinx [xyz-ihs snippet=”CaseStudy-Liquid-Instruments-Moku-Transforms”] At a glance: Liquid Instruments was founded by a team of experimental physicists and engineers with expertise in precision measurement and gravitational wave detector instrumentation. The company provides technology that helps scientists, engineers, students, and professionals…
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Overview of Butterworth filter lab
Moku:Go combines 10+ lab instruments in one high-performance device. This application note discusses a typical undergraduate electronics lab exercise and how it can be effectively conducted using Moku:Go and its Windows or macOS app. Moku:Go’s programmable power supplies power the integrated circuit and the analog inputs and outputs can stimulate and characterize the circuit behavior.…
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Moku:Go’s Spectrum Analyzer
Moku:Go combines 10+ lab instruments in one high-performance device. This application note discusses Moku:Go’s Spectrum Analyzer and Waveform Generator and the advantages of a hybrid, swept signal spectrum analyzer. Moku:Go Moku:Go combines 10+ lab instruments in one high performance device complete with integrated power supplies. In this application note, we discuss the benefits of a…
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Liquid Instruments Introduces Moku:Go
Press Release Moku:Go offers a complete set of instruments and features designed to help science and engineering students push past the traditional boundaries of teaching labs and classrooms SAN DIEGO and CANBERRA, Australia – March 23, 2021 Today, Liquid Instruments, an innovator in precision software-defined instrumentation, launched Moku:Go, a complete, portable platform designed to bring…
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Moku hardware and remote labs
Moku:Go combines 8 lab instruments in one high-performance device with Windows and macOS apps. This application note discusses the real-world deployment of Moku hardware in an undergraduate teaching laboratory and the resulting benefits to students. Moku:Go Moku:Go combines 8 lab instruments in one high-performance device complete with integrated power supplies on M1 and M2 models.…
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Ultra-stable Free-Space Laser Links for a Global Network of Optical Atomic Clocks
Featuring: Moku:Lab, Frequency Response Analyzer Source: ScienceDirect Published: Feb 2021 Authors:Zejiang Deng, Yang Liu, Zhiwei Zhu, Daping Luo, ChenglinGu, Lian Zhou, Gehui Xie, Wenxue Li [liquid-button href=”https://doi.org/10.1016/j.optlastec.2020.106906″ target=”_blank” style=”outline blue”]Read full paper[/liquid-button]
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The Experiment Must Go On — Using Moku:Lab During Lockdown
At the onset of COVID-19 pandemic, Dr. Andrew Wade and Dr. Kirk McKenzie of the Center for Gravitational Astrophysics at the Australia National University (ANU) were warned that a full shutdown of their lab was imminent, and could last for months. They needed to quickly configure their setup and ensure long-term data collection was possible.…
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Texas A&M Students Independently Review Moku:Lab
Jefferson Pham, Alexa Woppman, Dr. Joseph Morgan, Professor Matthew Leonard Texas A&M University Electronic Systems Engineering Technology (ESET) Multidisciplinary Engineering Technology (MET) Overview During the height of COVID-19, Moku:Lab was shipped to two Texas A&M students for them to work with and evaluate. Working with the Oscilloscope, Waveform Generator, Frequency Response Analyzer, and Spectrum Analyzer,…
