The increasing need for data has pushed the telecommunications industry to explore higher frequency bands, known as mmWave spectrum, to accommodate escalating traffic demands. While mmWave technology can support higher data rates and faster connectivity, building mmWave systems presents unique challenges.
Traditionally, complex and expensive phased array antennas have been used in the defense and aerospace markets to overcome the high path loss associated with mmWave bands. As the market has grown into commercial applications, symmetric implementations of phased array antennas with silicon quad beamforming architectures in a printed circuit medium, with high volume/low-cost scalability have become the preferred technology to enable a system that meets performance and cost points.
This article delves into the core concepts of active antenna beamforming and explores various beamforming architectures used in different applications, including 5G networks, SATCOM Flat Panel Arrays, and Defense and Aerospace systems.
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What's Inside:
- mmWave Spectrum and Active Antennas for Ubiquitous Connectivity
- Active Antenna Basics
- Beamforming Principles
- Active Antenna Beamforming Considerations
- Optimal mmWave Solutions