INDUSTRY INSIGHTS
Discover compact satcom filter solutions delivering low loss, high rejection, precise frequency control, and space-ready performance for next-generation Ku- and Ka-band systems.
- How Qorvo Is Optimizing The X-Band Phased Array Radar System
- Design Needs And Challenges Of A 4 GHz Ultra-Low Phase Noise Clock Distribution Assembly
- Design Needs And Challenges Of RF Filters For Space Applications
- Design Needs And Challenges Of A 1.28 GHz Master Reference Oscillator (MRO)
- Design Needs And Challenges Of A Ku-Band TX/RX Module
LATEST HEADLINES
- Altum RF Showcases Products And Expertise At IMS 2026 In Boston, United States
- Powered By Silicon Labs, Comminent Ships 500,000 Wi-SUN Modules
- Northeastern University Demonstrates First Open-Source Prototype Of A Massive MIMO AI-RAN System
- Microelectronics Commons Strengthens Commitment To Sivers Semiconductors With Year 2 Funding
- AV Expands AV_Halo Platform With INSTINCT And DETECT To Enable Faster, Resilient Decision-Making At The Edge
FEATURED SOLUTIONS
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![db8064h]( "GaN Solid State Power Amplifier: dB-8064H")
GaN Solid State Power Amplifier: dB-8064HThe dB-8064H is a GaN Solid State Power Amplifier operating in the frequency range of 32 to 38 GHz providing up to 100 Watts.
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![db8064]( "GaN Solid State Power Amplifier: dB-8064")
GaN Solid State Power Amplifier: dB-8064The dB-8064 is a GaN Solid State Power Amplifier operating in the frequency range of 32 to 38 GHz providing up to 100 Watts.
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![db8063h]( "GaN Solid State Power Amplifier: dB-8063H")
GaN Solid State Power Amplifier: dB-8063HThe dB-8063H is a GaN Solid State Power Amplifier operating in the frequency range of 18 to 40 GHz providing up to 80 Watts.
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![db8063]( "GaN Solid State Power Amplifier: dB-8063")
GaN Solid State Power Amplifier: dB-8063The dB-8063 is a GaN Solid State Power Amplifier operating in the frequency range of 18 to 40 GHz providing up to 80 Watts.
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![db8062h]( "GaN Solid State Power Amplifier: dB-8062H")
GaN Solid State Power Amplifier: dB-8062HThe dB-8062H is a GaN Solid State Power Amplifier operating in the frequency range of 2 to 6 GHz providing up to 200 Watts.
FEATURED VIDEOS
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![The Need For High Performance RF Interconnectivity And How We Deliver It]( "The Need For High Performance RF Interconnectivity And How We Deliver It")
The Need For High Performance RF Interconnectivity And How We Deliver ItWhat separates reliable test infrastructure from costly failure? Frequency range, phase stability, and connector design all play critical roles in measurement accuracy.
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![High Density RF And Photonics Solutions For Modern Spacecrafts]( "High Density Rf And Photonics Solutions For Modern Spacecraft")
High Density Rf And Photonics Solutions For Modern SpacecraftShrinking spacecraft footprints and rising satellite density are reshaping interconnectivity requirements, demanding compact RF, DC, and fiber optic solutions that perform reliably from integration through launch.
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![Quick‑Lock Clamp Fast Deployment For Mobile Field Antennas]( "Quick Lock Clamp: Fast Deployment For Mobile Field Antennas")
Quick Lock Clamp: Fast Deployment For Mobile Field AntennasA quick-lock clamp enables fast, secure deployment of mobile field antennas, improving setup speed, stability, and reliability in demanding and time-critical operational environments.
FEATURED WEBINARS
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![knowles webinar 5-4]( "Inside the Modern Missile: How RF Passive Components Are Reshaping Guided Weapons")
Modern missiles rely on advanced RF passives, with AESA seekers and multimode systems driving increased component density across subsystems, enabling performance from VHF through 67 GHz.
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![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.
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![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.
