INDUSTRY INSIGHTS
Oscillator drift remains one of the most critical threats to precision timing in high-performance communication systems. In tightly controlled lab environments, performance often appears ideal, but real-world conditions quickly expose hidden weaknesses. Factors like thermal shifts and electromagnetic interference can cause subtle frequency deviations that accumulate over time.
- Innovative Power & RF Solutions For Robotic Technology
- Can mmWave Radar Give Industrial Robotics Better Spatial Awareness?
- Why Q Factor And Capacitor ESR Matter In Power And RF Resonant Circuits
- Capacitance Range Extension: Class I Ceramic C0G Series
- How Safety Capacitors Help You Deliver Safe And Efficient Solar Power
LATEST HEADLINES
- VisionWave Holdings And SaverOne Announce Execution Of Strategic Exchange Agreement To Establish RF-Based Defense Platform
- Announcing The Launch Of The NEW Modelithics Library For SIMULIA CST Studio Suite
- NEC Develops New 5G Base Station Radio Unit For Enhanced Communication Throughput, Compactness, And Energy Efficiency
- Rocket Lab Delivers Mission Success On First Launch Of 2026 For New Customer: Open Cosmos
- Tomorrow.io Announces DeepSky, The World's First AI-Native Space-Based Weather-Sensing Constellation
FEATURED SOLUTIONS
-
![lna80002]( "10 MHz - 18.0 GHz, 20 dBm Solid State Medium Power Amplifier: LNA80002")
10 MHz - 18.0 GHz, 20 dBm Solid State Medium Power Amplifier: LNA80002The new bench-top RF amplifier is designed to meet the demanding requirements of EMI/RFI testing, laboratory experiments, CW/Pulse operation, and all communication applications.
-
![amp20175]( "4.0 - 8.0 GHz, 6.0 KW Solid State High Power Amplifier: AMP20175")
4.0 - 8.0 GHz, 6.0 KW Solid State High Power Amplifier: AMP20175The AMP20175 is a high-power, small form factor C-Band amplifier designed for EMI/RFI, lab, and HIRF/pulse applications.
-
![amp20085]( "1.0 - 10.0 GHz, 100 Watt Solid State High Power Amplifier: AMP20085")
1.0 - 10.0 GHz, 100 Watt Solid State High Power Amplifier: AMP20085The AMP20085 is a dual-band, small form factor rack-mounted amplifier designed for EMI/RFI, lab, CW/pulse, and communications applications.
-
![amp20090]( "1.0 - 2.5 GHz, 8.0 KW Solid State High Power Pulse Amplifier: AMP20090")
1.0 - 2.5 GHz, 8.0 KW Solid State High Power Pulse Amplifier: AMP20090The AMP20090 is a high-performance, small form factor rack-mounted amplifier designed for demanding EMI/RFI, lab, HIRF, and high-peak pulse applications.
-
![AMP40018]( "Solid State High Power Amplifier: AMP40018")
Solid State High Power Amplifier: AMP40018The 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.
FEATURED VIDEOS
-
![fswx]( "Introducing The FSWX Signal And Spectrum Analyzer")
Introducing The FSWX Signal And Spectrum AnalyzerDiscover the FSXW—the first signal and spectrum analyzer to feature multichannel spectrum analysis, cross-correlation (X-correlation), and I/Q preselection.
-
![UWB indoor outdoor wireframe 2nd - frame at 0m1s]( "Simulate Dynamic Wireless Mobility With Wireless InSite")
Simulate Dynamic Wireless Mobility With Wireless InSiteWireless 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.
-
![quantic ims 2025]( "Ceramic Capacitors")
Ceramic CapacitorsMark Simpson from Quantic Electronics discusses gap and ceramic capacitor technology at IMS 2025.
FEATURED WEBINARS
-
![knowles webinar]( "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.
-
![450x300 Remcom Time-Based Mobility of RF Systems in Wireless InSite]( "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.
-
![PedestrianBus_1 1200x627]( "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.
FROM THE EDITOR
RECENT NEWSLETTERS
- 02.03.26 -- From Double Ridge Guide Horn Antennas To High-Power PIN Switches: A Dozen Must-See Solutions
- 01.29.26 -- Why Shape Pulse Matters, The AI-Powered Future Of People Sensing, Weather Radar Products & More
- 01.27.26 -- Breaking Down The Barriers In High-Frequency RF Engineering, Where High Power And High Frequency Join Forces, VNA + High Frequency Precision Connectors & More
- 01.22.26 -- Amplifiers To Support SDRs, Advantages Of Tunable RF MMIC Filter Technology & More
- 01.20.26 -- From Digital Twins To mmWave: The Future Of Wireless Design Takes Shape
READERS' CHOICE
EDITOR'S CHOICE
