First Responders & Public Safety
High performance fleet solutions for First Responder network connectivity
Our innovative connectivity products and technologies enable high performance networking through wireless modules, advanced antenna systems, and integrated wireless systems
Comprehensive product offerings designed to maximize performance
Our breakthrough new platform, AirgainConnect, built for FirstNet MegaRange™ the high power user equipment (HPUE) solution available on Band 14, is available to public safety agencies and organizations on FirstNet, Built with AT&T. This innovative solution provides a dramatic increase in range and maximizes coverage, building penetration, and throughput for critical communications applications.
Airgain builds products for demanding high performance video and data throughput applications, including:
High performance fleet solutions for First Responder network connectivity
Single and multi-band designs for mobile fleet and fixed M2M asset applications
Embedded cellular modems and asset tracking solutions for IIoT applications
Unique design methodologies for improving the connectivity of connected home CPEs
Indoor and outdoor carrier class products for multi-band enterprise devices
Airgain is at the forefront of new developments in wireless technology and industry requirements
AirgainConnect provides HPUE enabled rugged vehicle antenna-modems for substantially increased performance for public safety communications
5G NR customizable solutions match the needs of a wide range of equipment use cases for C- Band, mmWave, and more
We offer the latest LTE technologies for embedded modems to connect to the cellular network, including LTE-M and NB-IoT
Our Wi-Fi 6E antenna solutions help conquer embedded device implementation to ensure ultimate performance of custom designed devices
Our 5G sub-6GHz high performance antenna products include embedded and external CBRS low gain and high gain designs
We enable the expansion of IoT into long-range low power applications through innovative antenna system design