Pasternack Debuts New Input Protected Low Noise Amplifiers
b'IRVINE, Calif., May 11, 2021 /PRNewswire/ --Pasternack, an Infinite Electronics brand and a leading provider of RF, microwave and millimeter wave products, has just launched a new series of Low Noise Amplifiers that are perfect for use in Electronic Warfare, ECM, Microwave Radio, VSAT, SATCOM, Radar, Space Systems, R&D, Prototype/Proof of Concept, and test & measurement Applications.\nPasternack\'s new series of input protected low noise amplifiers feature Gallium Nitride (GaN) semiconductor technology which provides robust input power protection.
- b'IRVINE, Calif., May 11, 2021 /PRNewswire/ --Pasternack, an Infinite Electronics brand and a leading provider of RF, microwave and millimeter wave products, has just launched a new series of Low Noise Amplifiers that are perfect for use in Electronic Warfare, ECM, Microwave Radio, VSAT, SATCOM, Radar, Space Systems, R&D, Prototype/Proof of Concept, and test & measurement Applications.\nPasternack\'s new series of input protected low noise amplifiers feature Gallium Nitride (GaN) semiconductor technology which provides robust input power protection.
- These amplifiers offer excellent thermal properties and a significantly higher breakdown voltage that results in tolerating higher RF input power signal levels while maintaining excellent low noise figure performance.
- This is done without the need of an input protective limiter circuit that is required for other semiconductor technologies and could contribute to higher noise figure levels.\nThese new input protected low noise amplifiers cover desirable microwave and mm-wave frequency bands that complement Pasternack\'s existing portfolio of input protected LNA\'s that cover lower RF frequencies.
- Additionally, these LNAs boast a rugged, mil-grade compact coaxial designs and SMA connectors.\n"Our new, innovative line of input protected low noise amplifiers offer the desirable benefit of rugged GaN semiconductor technology to withstand higher RF input power handling without incurring damage.