RF Globalnet

INDUSTRY INSIGHTS

GettyImages-2156865390 Ultra wideband UWB

Empowering The Next Generation With Ultra-Wideband: A University's Hands-On Innovation Journey

At IUT Blagnac, France, UWB research meets real-world impact. Students and faculty, with Qorvo, transform localization technology into hands-on learning and human-centered applications.

LATEST HEADLINES

Broadcom Launches Unified Wi-Fi 8 Platform For Seamless AI Experiences In Homes
etherWhere Partners With AsiaRF On GNSS Modules To Target Wi-Fi 7 Access Points, Body-Worn Cameras, And Asset Tracking Tags
Ericsson's 4.5 GHz Massive MIMO AIR 3255 Wireless Device Is Officially Commercially Available In DOCOMO 5G Networks
World's First 802.15.4ab-UWB Chip Verified By Calterah And Rohde & Schwarz To Be Demoed At CES 2026
SaverOne Announces Strategic LOI With VisionWave To Develop RF Defense Platform

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FEATURED SOLUTIONS

4.0 - 8.0 GHz, 6.0 KW Solid State High Power Amplifier: AMP20175
The AMP20175 is a high-power, small form factor C-Band amplifier designed for EMI/RFI, lab, and HIRF/pulse applications.
1.0 - 6.0 GHz, 100 Watt Solid State High Power Amplifier: AMP20085
The AMP20085 is a dual-band, small form factor rack-mounted amplifier designed for EMI/RFI, lab, CW/pulse, and communications applications.
1.0 - 2.5 GHz, 8.0 KW Solid State High Power Pulse Amplifier: AMP20090
The AMP20090 is a high-performance, small form factor rack-mounted amplifier designed for demanding EMI/RFI, lab, HIRF, and high-peak pulse applications.
Solid State High Power Amplifier: AMP40018
The AMP40018 Solid State High Power Amplifier is a compact, rack-mounted solution engineered for demanding EMI/RFI, laboratory, communication, and CW/pulse environments across the challenging 18 to 40 GHz frequency range.
Solid State High Power Amplifier: AMP20191
The AMP20191 Solid-State High-Power Pulse Amplifier is purpose-built for demanding EMI/RFI, HIRF, and laboratory environments requiring exceptional pulse performance in a compact, rack-mounted form factor.

FEATURED VIDEOS

Introducing The FSWX Signal And Spectrum Analyzer
Discover the FSXW—the first signal and spectrum analyzer to feature multichannel spectrum analysis, cross-correlation (X-correlation), and I/Q preselection.
Simulate Dynamic Wireless Mobility With Wireless InSite
Wireless InSite enables engineers to simulate time-based mobility, lunar propagation, and wideband ray-tracing for analyzing moving devices, vehicles, radar coverage, and lunar RF systems.
Ceramic Capacitors
Mark Simpson from Quantic Electronics discusses gap and ceramic capacitor technology at IMS 2025.

FEATURED WEBINARS

Minimizing Outgassing & Multipaction Risks In RF Filters For Space

Explore how to mitigate outgassing and multipaction risks in space-grade RF filters through smart material choices, design strategies, and rigorous testing to ensure mission reliability and performance.
Model And Simulate Dynamic RF Scenarios Using Time-Based Mobility

Explore how to simulate dynamic RF environments, model antenna interactions with people and vehicles, and analyze performance metrics for advanced wireless applications.
Time-Based Mobility Of RF Systems In Wireless InSite Release 4.0

Learn how Wireless InSite 4.0 simulates dynamic RF environments with moving transceivers, on-body propagation, lunar terrain modeling, and time-based outputs for next-gen wireless systems.