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Tabor Electronics
Израиль
Добавлен 28 авг 2013
Established in 1971, Tabor Electronics has become a world-leading provider of high-end signal sources, featuring: pulse, function and arbitrary waveform generators, high-voltage amplifiers, waveform and modulation creation software. Tabor has earned global recognition for its highly skilled workforce and innovative engineering capabilities. In addition to offering a full range of self-branded instruments, Tabor is also a world-class OEM that private-labels a variety of products for industry leaders. Technologically advanced, featuring the highest levels of performance, reliability, and most importantly, price-competitive, Tabor's products are sought-after in a diverse array of applications.
RF DAC and ADC Technology for Radar and EW Applications
This is a recording of our LinkedIn Live-stream: Mastering Complex EW/Radar Scenarios: From Basics to Advanced Techniques.
Discover how to generate and acquire complex EW/Radar scenarios with Tabor's Proteus Arbitrary Waveform Transceiver. The stream starts with basic waveform generation and modulated pulses, then delves into advanced techniques like Digital up and Down conversion, Numerically Controlled Oscillators, and utilizing multiple Nyquist Zones. Finally, learn to create both simple and multi-emitter environments.
By the end of this video, you'll understand the pros and cons of direct digital conversion with RF DAC/ADC vs. analog methods.
Discover how to generate and acquire complex EW/Radar scenarios with Tabor's Proteus Arbitrary Waveform Transceiver. The stream starts with basic waveform generation and modulated pulses, then delves into advanced techniques like Digital up and Down conversion, Numerically Controlled Oscillators, and utilizing multiple Nyquist Zones. Finally, learn to create both simple and multi-emitter environments.
By the end of this video, you'll understand the pros and cons of direct digital conversion with RF DAC/ADC vs. analog methods.
Просмотров: 764
Видео
July 24 2024 Webinar Sneak Peak 2: How to use multiple niquisones to get higher frequencies
Просмотров 2003 месяца назад
Register Now: www.linkedin.com/events/masteringew-radarscenarioswithr7214334888408203264/theater/ In this Video, Mark discusses one of the topics in the LinkedIn Webinar - Mastering EW/Radar Scenarios with an RF DAC - and shows how to use multiple Nyquisones to produce a modulated radar emitter in the x-band.
July 24 2024 Webinar Sneak Peak 1: Creating Radar Signals using RF DACS
Просмотров 1653 месяца назад
www.linkedin.com/events/masteringew-radarscenarioswithr7214334888408203264/theater/ Register Now! In this Video, Mark discusses one of the topics in the LinkedIn Webinar - Mastering EW/Radar Scenarios with an RF DAC - and explains the principles of multiple niquisones operations, allowing the generation of emitter signals from DC to the X-band. Using multiple niquisones can considerably reduce ...
Emulating wifi signal using the Tabor P9484D Direct to RF AWG
Просмотров 953 месяца назад
In Tabor's latest How-2 Short, Mark explains how to emulate a wifi signal using the Tabor P9484D Direct to RF AWG.
Wideband SDR research platform we developed with Rutgers University w/ TMYTEK
Просмотров 1084 месяца назад
For our final day at IEEE MTT-S International Microwave Symposium (IMS), Mark Elo and Ethan Lin, co-founder of TMY Technology Inc. (TMYTEK) are talking about our wideband SDR research platform we developed with Rutgers University. Each node features the Proteus Arbitrary Waveform Transceiver, capable of generating wide bandwidth signals up to 2GHz. This is enhanced with TMYTEK frequency convert...
Advanced Radar and EW Wideband Software Defined Radio Demo
Просмотров 814 месяца назад
In this video Mark is demonstrating our radar and electronic warfare capability using our Tabor Proteus Software Defined Radio (SDR). In this demonstration, he is showing pulse-to-pulse frequency switching times of less than 1us, across a bandwidth of 2GHz. The Proteus SDR uses high-speed RF DAC/ADC technology and by utilizing multiple Nyquist zones can produce signals up to 10GHz.
How to generate 1ns pulse
Просмотров 1084 месяца назад
In this Tabor how-2 video short we explain that creating narrow pulses is both a function of an instrument bandwidth and sample rate.
How to Build a Quantum Computer - Tabor Electronics and FormFactor Webinar- May 23, 2024
Просмотров 2345 месяцев назад
Quantum computing is reaching an inflection point. Once a technology developed and operated in experimental labs, is now being manufactured by large-scale industrial companies. The commercialization of superconducting quantum processing units (QPUs), FPGA-based microwave synthesis electronics, and ultra-low-temperature refrigerators, has resulted in the realization of a commercial-off-the-shelf...
How to Upgrade or Repair your Varian NMR Spectrometer
Просмотров 2166 месяцев назад
Join us to review how to upgrade or repair your Varian NMR Spectrometer. On October 14, 2014, Agilent Technologies, formally Varian announced that it would close its NMR (Nuclear Magnetic Resonance) and MRI (Magnetic Resonance Imaging) businesses. Since then, the NMR/MRI community has is left with many Varian (Agilent) systems that have fallen out of support life and are having to face the expe...
Qubit Software Challenge
Просмотров 429Год назад
Tabor EureQa Qubit Characterization Software is built on an open-source platform, which is easily integrated and includes a plethora of support from a rapidly expanding community and Tabor’s own quantum physicists.
Tabor Partner with Bleximo Corp. Introducing Rubicon-V, Full Stack Quantum Computing System
Просмотров 2912 года назад
Bleximo Corp use Proteus Arbitrary Waveform Transceivers for the Rubicon-V Full Stack Quantum Computing System. Launched at the IEEE Quantum Week September, 2022. Proteus provides control electronics, combined with Belximo’s AGIS,Qryo, and Rubicon Software Framework. The system offers industry leading coherence times in a compact form factor.
The challenge of multi-channel RF and mW Vector Signal Generation and Analysis - Tabor Webinar
Просмотров 3392 года назад
The challenge of multi-channel RF and mW Vector Signal Generation and Analysis for Quantum Computing, Massive MIMO, and Phase-Array Radar control, emulation & test. In this presentation, you will learn about the new fully digital architecture for Vector Signal Generation and Analysis made possible by the latest generation of Arbitrary Waveform Transceivers (AWT). They can improve channel densit...
Quantum video APS2022
Просмотров 1242 года назад
As an experimentalist, you are trying to gain the most insight from the work you perform, such as a better understanding of electron spin behavior and maintaining coherence in the presence of noise across multiple devices. Iteratively changing the characteristics of the electromagnetic pulses being applied to the system is one of the techniques that can help you gain that insight. Changing puls...
Tabor Webinar High Speed Qubit Control
Просмотров 7142 года назад
Tabor Webinar High Speed Qubit Control
Tabor Quantum Solutions
Просмотров 8163 года назад
Tabor has introduced a family of products focused on Quantum Control and Readout. Our new Proteus Arbitrary Waveform Transceiver can create high performance shaped pulses and digitize the measurement result directly at microwave frequencies. Device fidelity can be maintained by using the instruments' built-in real-time FPGA signal processing environment.
Tabor Quantum Experiment Starter Pack
Просмотров 6753 года назад
Tabor Quantum Experiment Starter Pack
Real-Time Waveform Streaming using direct to RF Arbitrary Waveform Transceivers
Просмотров 6193 года назад
Real-Time Waveform Streaming using direct to RF Arbitrary Waveform Transceivers
High-Performance Multi-Tone Signal Generation with the Tabor Proteus Arbitrary waveform Transceiver
Просмотров 4663 года назад
High-Performance Multi-Tone Signal Generation with the Tabor Proteus Arbitrary waveform Transceiver
High-Quality WiFi-6 Signal Generation with the Tabor Proteus AWT
Просмотров 2953 года назад
High-Quality WiFi-6 Signal Generation with the Tabor Proteus AWT
Envelope-Tracking Test Signal Generation with the Tabor Proteus Arbitrary Waveform Generators
Просмотров 2973 года назад
Envelope-Tracking Test Signal Generation with the Tabor Proteus Arbitrary Waveform Generators
Generación Directa Avanzada de Señales RF para la Implementación de Computadores Cuánticos.
Просмотров 793 года назад
Generación Directa Avanzada de Señales RF para la Implementación de Computadores Cuánticos.
Understanding RF Digital to Analog Converters, DAC - creating signals up to 10GHz
Просмотров 2,9 тыс.3 года назад
Understanding RF Digital to Analog Converters, DAC - creating signals up to 10GHz
Understanding RF Analog to Digital Converters, ADC - digitizing signals up to 10GHz
Просмотров 2,4 тыс.3 года назад
Understanding RF Analog to Digital Converters, ADC - digitizing signals up to 10GHz
Understanding intermodulation performance of wide-bandwidth RF amplifiers -Webchat Tabor Electronics
Просмотров 4643 года назад
Understanding intermodulation performance of wide-bandwidth RF amplifiers -Webchat Tabor Electronics
Introduction for the Wave Design Studio (WDS )
Просмотров 3893 года назад
Introduction for the Wave Design Studio (WDS )
Arbitrary waveform transceivers simplify satellite payload testing
Просмотров 2063 года назад
Arbitrary waveform transceivers simplify satellite payload testing
The Proteus RF AWG, the new 20GHz Amplifier (A10200), and the new Boonton RTP5006/8.
Просмотров 2163 года назад
The Proteus RF AWG, the new 20GHz Amplifier (A10200), and the new Boonton RTP5006/8.
Experiment design considerations for real-time, closed-loop pulse streaming
Просмотров 7913 года назад
Experiment design considerations for real-time, closed-loop pulse streaming
Beam-forming with the Lucid Multi-channel signal generator
Просмотров 2753 года назад
Beam-forming with the Lucid Multi-channel signal generator
Thank you for sharing! Very interesting subject!
What the hell is a niquisone? It doesn't even google. Use industry standard terminology!
Just any normal freq.sq.wave upto a few kHz..,feed it into inputs of two different gates of 2 different logic families..eg. one an FCTLSttl...other an HCTLSttl or other..,their outputs gated either with ( AND/NOR/EX-OR) in anyone of these ,..one should see some nS wide pulse on output.. The difference in their timing & voltage thresholds can determine ones target pulse... No need for MHz/GHz clocks etc.
Great to see Joe Yeager again on the webinar today. Looking forward to seeing the cryogenic optical fiber implementations in the future 😁.
Can you share the Matlab code.
mgone low
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Nice one
Very nice gear
hi sometimes we have a rf signal that it's not repeatitive sampling this signals requires a very high samle rate analog to digital converters how can we downconvert this not repeatitive signals and use low sample rate analog to digital converters ? is there anyway?
Frequency Converters - convert your frequency(band) of interest down to something that your A/D converter can handle.
Finally a good video by Tabor electronics. Thanks! The other videos are practically useless :( Please make a video explaining more features of the proteus unit and remote control using SCPI commands.
"An electron halfway inbetween" Great example of an engineer who didn't understand the theory.
WELL EXPLAINED .
Nice view of the Bloch sphere, compared to the two axis diagram ('vector') The probability can be confusing as to the particular energy put in (exact) vs the description that suggests 'random', while it could be highlighted that the perceived 'random' part comes from the measurement. I.e. the difference between the coin while spinning in the air [exact energy/frequency input], and the coin after it has landed [been measured / observed]. There is some choice as to where the split is presented, because the middle bit is not observable for a single state transition.
nice and simple, practical presentation.
Excellent. Thank you Tabor Electronics
HELLO SIR WOULD YOU HELP ME SIR I HAVE A QUIESTION
Strange vector x matrix …
Shouldn't X be a row vector instead of a column?
understandable
best example .well said
Very Nice...JB
Mark, Quite an interesting presentation. In the first slide on Streaming Data - Understanding Memory Speed it has 1GS/s or a million bytes per second. I not sure how you got one million bytes per second if you are trying to generate 1Giga samples per second. If the sample resolution is 8bits you need to move 1 giga bytes per second not one million bytes per second. Trying to stream samples in real time from even a high-end desktop is a very nondeterministic operation. The given application need shown does point out the limits of a traditional AWG in regards to internal memory depth and its sequencing capabilities.
0:46 vom.gen.in
lol i understad better with this 130 views video than an 1.000.000 views video. Thanks
I want programmable pulse generator and the model no is 8500
Thanks for hosting the webinar in cooperation with us. We're looking forward for the next webinar in the beginning of 2021.
ruclips.net/video/gZbGso8dk60/видео.html
It’s yum
@Ryan Segui alright I was using my phone to translate though
Very interesting.
Thank you!! Your video helped me do my experiments.
Charles -- nice presentation -------------say hi to everyone