European Microwave Week Resource Center
RF and Microwave theory sits on the shoulders of Maxwell, and Hertz with the theoretical development of the connection between electricity and magnetism that started in the early 1800s. Today the use of RF and Microwave radios is ubiquitous, used by everyone every day, but still, the subject remains complex and takes many years to learn.
In this guide we will start with the fundamentals of wave propagation, understanding the difference in wave velocities through a vacuum vs cables of different types and lengths, frequency conversion, and synthesis.
Explore our advanced capabilities for closed-loop testing, featuring RF Arbitrary Waveform Generation, wideband streaming, and full scalability for various environments. Our experts will share valuable tips to enhance your electronic warfare and radar signal simulation projects. Don’t miss this opportunity to gain insights from industry leaders.
Creating and analyzing signals with our Proteus AWT and MATLAB takes a few simple steps. Learn how to generate and receive a WLAN beacon signal at 2.4GHz in the instruments’ first Nyquist Zone. The code can easily be modified to create a signal in the second Nyquist zone, all the way up to the WiFi-6 frequency extension of 7.125GHz. With a modulation bandwidth of over 1GHz and a range of frequency extenders up to 40GHz – Tabor can help accelerate your FR3 development.
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