Coaxial 1.0mm Broadband Amplifiers up to 115 GHz
The coaxial 1.0mm broadband amplifier series addresses the growing demand for compact, high-frequency amplification in millimeter-wave and sub-terahertz applications. These devices extend operational capabilities up to 115 GHz and integrate seamlessly into existing test infrastructure and communication systems through standardized 1.0mm coaxial connectors.
The amplifier lineup encompasses both low-noise amplifier (LNA) and power amplifier (HPA) configurations, engineered for consistent performance across extended frequency bands from 40 GHz to 115 GHz. The compact form factor enables dense integration in RF chains while maintaining cost efficiency and rapid delivery schedules.
Technical Specifications
- Frequency range: 40–115 GHz continuous bandwidth across multiple sub-bands
- Connector type: 1.0mm coaxial standardized interface
- Amplifier types: Broadband Low Noise Amplifiers (LNA) and Broadband Power Amplifiers (HPA)
- Maximum frequency: 115 GHz
- Form factor: Compact design for dense RF chain integration
- Performance: Optimized VSWR and gain characteristics across specified frequency ranges
Applications
- 5G/6G & Telecommunications: High-frequency signal amplification for next-generation wireless infrastructure
- SATCOM: Satellite communication uplink and downlink chain optimization
- Defense & Radar: Electronic warfare, target detection, and precision sensing in mmWave bands
- Automotive: Advanced driver assistance systems (ADAS) operating in millimeter-wave radar frequencies
- Test & Measurement: Laboratory-grade amplification for network analyzers and signal generators
The modular design allows engineers to select specific frequency bands tailored to application requirements, reducing component cost and integration complexity. AT Microwave's manufacturing expertise ensures consistent performance metrics across demanding operational environments.
As a European distributor, bq-microwave provides comprehensive support for application-specific amplifier selection and system integration. For detailed technical specifications, gain profiles, and noise figure data, please visit our contact page.