We're glad you enjoyed this video. To continue learning, check out how to configure the Moku Time & Frequency Analyzer for advanced interval analysis. ua-cam.com/video/2Toa3NHNbXQ/v-deo.html
We're lucky to have Jess on our team! Hear her explain how to configure the Moku Time & Frequency Analyzer for event counting, specifically for a Hanbury-Brown-Twiss (HBT) photon counting setup. ua-cam.com/video/sjLd0CCe2X0/v-deo.html
you-all need to do an architecture overview, although FPGA means that "architecture" is a 'loose' term. ; -) also, the terms like megavolts per time are a bit "other-worldly" to some folks. I bet that Jessica could do a good 10 minutes on just the sinewave setup...
For photon counting, oscillator characterization, FSOC, jitter analysis, pulse-width modulation decoding, and more, the Moku Time & Frequency Analyzer can do it all. Check it out: www.liquidinstruments.com/products/integrated-instruments/time-frequency-analyzer/
I'm generally working at audio rates with no extreme need for precision, and probably not in the target market. I have to ask though, are all of those decimals in the frequency configuration at 1:45 significant? And for curiosity's sake, how quickly can instrument configuration change?
You can indeed choose to get very precise with the frequency configuration, but the instruments are able to address a wide range of applications that may not need that level of granularity. The instrument configuration can change in just a few seconds, and up to a minute if you're using all four instruments simultaneously in Multi-instrument Mode. You can try the software for free without the hardware in demo mode from our website, but keep in mind configuration time will be slightly longer on actual hardware. Feel free to reach out to us with any more questions!
Thanks! With ultra-low timing jitter, an integrated Data Logger, and zero dead-time statistics and on-device histograms, the Moku Time & Frequency Analyzer accelerates experiment timelines and increases data interpretation efficiency. Check out our website to learn more: www.liquidinstruments.com/products/integrated-instruments/time-frequency-analyzer/
@@LiquidInstruments Yeah - I get it. That's why it's neato. You mashed cool things together. Going to mash more? I mean heck what other instrumentation can supplement this - it seems like that is kind of the idea.
Amazing customization. Thanks for the video.
We're glad you enjoyed this video. To continue learning, check out how to configure the Moku Time & Frequency Analyzer for advanced interval analysis.
ua-cam.com/video/2Toa3NHNbXQ/v-deo.html
Jessica, great job!
We're lucky to have Jess on our team! Hear her explain how to configure the Moku Time & Frequency Analyzer for event counting, specifically for a Hanbury-Brown-Twiss (HBT) photon counting setup.
ua-cam.com/video/sjLd0CCe2X0/v-deo.html
you-all need to do an architecture overview, although FPGA means that "architecture" is a 'loose' term. ; -)
also, the terms like megavolts per time are a bit "other-worldly" to some folks. I bet that Jessica could do a good 10 minutes on just the sinewave setup...
I have to agree that 1MV/s would be better communicated as 1V/us (us = microsec) or 1mV/ns.
Thanks for the request! We'll look into that and add to our list of video topics.
Sweet bit of kit. Better than what I had to use in the day.
For photon counting, oscillator characterization, FSOC, jitter analysis, pulse-width modulation decoding, and more, the Moku Time & Frequency Analyzer can do it all. Check it out:
www.liquidinstruments.com/products/integrated-instruments/time-frequency-analyzer/
I'm generally working at audio rates with no extreme need for precision, and probably not in the target market. I have to ask though, are all of those decimals in the frequency configuration at 1:45 significant? And for curiosity's sake, how quickly can instrument configuration change?
You can indeed choose to get very precise with the frequency configuration, but the instruments are able to address a wide range of applications that may not need that level of granularity. The instrument configuration can change in just a few seconds, and up to a minute if you're using all four instruments simultaneously in Multi-instrument Mode. You can try the software for free without the hardware in demo mode from our website, but keep in mind configuration time will be slightly longer on actual hardware. Feel free to reach out to us with any more questions!
Neato -
Thanks! With ultra-low timing jitter, an integrated Data Logger, and zero dead-time statistics and on-device histograms, the Moku Time & Frequency Analyzer accelerates experiment timelines and increases data interpretation efficiency.
Check out our website to learn more:
www.liquidinstruments.com/products/integrated-instruments/time-frequency-analyzer/
@@LiquidInstruments Yeah - I get it. That's why it's neato. You mashed cool things together. Going to mash more? I mean heck what other instrumentation can supplement this - it seems like that is kind of the idea.
Is that a native macOS (or iOS) app? Are you hiring Apple software devs?
We have apps for Windows, macOS, iPadOS, and visionOS - our software team develops these in our Canberra, Australia office.
Nerd brain melted. Wait... were there waveforms and tools and software as well? Could not notice.
Take it for a spin! You can download the software in demo mode here:
www.liquidinstruments.com/products/desktop-apps/