Downloads

21. 0.5 - 6.0 GHz, 150 W Solid State High Power Amplifier: AMP20110 2/11/2026

    Covering an ultra-wide 0.5–6.0 GHz frequency range, this high-performance GaN power amplifier delivers reliable, broadband performance across P, L, and S bands for EMI/RFI testing, laboratory validation, and CW or pulsed communication applications.

22. 0.5 - 6.0 GHz, 150 W Solid State High Power Amplifier: AMP20110 Datasheet 2/11/2026

    Covering an ultra-wide 0.5–6.0 GHz frequency range, this high-performance GaN power amplifier delivers reliable, broadband performance across P, L, and S bands for EMI/RFI testing, laboratory validation, and CW or pulsed communication applications.

23. 0.8 - 3.2 GHz, 1000 W Solid State High Power Amplifier: AMP20114 Datasheet 2/11/2026

    Engineered for demanding EMI/RFI, EMC, EW, radar, and communications environments, this 0.8–3.2 GHz high-power amplifier delivers exceptional linearity, bandwidth, and reliability in a compact rack-mounted platform.

24. 0.8 - 3.2 GHz, 1000 W Solid State High Power Amplifier: AMP20114 2/11/2026

    Engineered for demanding EMI/RFI, EMC, EW, radar, and communications environments, this 0.8–3.2 GHz high-power amplifier delivers exceptional linearity, bandwidth, and reliability in a compact rack-mounted platform.

25. Typical EMC Related Formulas 1/30/2026

    A practical guide to RF and EMC unit conversions, explaining how power, voltage, field strength, and magnetic flux density relate using logarithmic forms of Ohm’s law.

26. Use Of LEO Satellites To Extend NB-IoT Coverage 1/23/2026

    In this talk, Remcom presents results of a study using its Wireless InSite® ray-tracing simulation software to predict how terrestrial 5G coverage could be supplemented with a LEO satellite link to improve NB-IoT coverage in rural areas.

27. 9 Real-World Variables That Destroy Oscillator Accuracy (And How to Measure Them) 1/20/2026

    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.

28. 10 MHz - 18.0 GHz, 20 dBm Solid State Medium Power Amplifier: LNA80002 1/15/2026

    The 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.

29. 10 MHz - 18.0 GHz, 20 dBm Solid State Medium Power Amplifier: LNA80002 Datasheet 1/15/2026

    The 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.

30. Sensing Beyond Limits: Transforming User Experience With UWB Radar 1/13/2026

    Ultra-Wideband radar sensing enables low-power, high-precision presence, motion, and vital-sign detection, unlocking smarter automotive, smart-home, and healthcare applications beyond traditional ranging.