The AIR-AP3702I-UXK9 is a feature-rich wireless access point designed to deliver high-performance connectivity using 802.11ac technology. It boasts a 4x4:3 multiple-input and multiple-output (MIMO) configuration, which provides enhanced wireless capacity and reliability. This allows for more efficient data transmission and better performance, particularly in environments with high client density. The access point supports up to three spatial streams, offering increased data throughput for quicker wireless communication.
One of the standout features of this device is its CleanAir technology. CleanAir helps identify and mitigate interference caused by various sources in the wireless spectrum, ensuring a stable and high-quality wireless experience. It’s especially beneficial in environments with significant wireless congestion or interference. CleanAir-equipped access points continually monitor the radio spectrum and can automatically adjust to changing conditions to optimise performance.
The AIR-AP3702I-UXK9 includes integral antennas, which streamlines its installation and enhances its overall aesthetic by eliminating the need for external antenna connections. Additionally, the unit supports Universal regulatory domains, making it suitable for deployment across different regions, adding flexibility for global enterprises or organisations with diverse operational locations.
Along with all these advantages, this access point supports dual radio operation, enabling both 2.4 GHz and 5 GHz bands to work simultaneously. This dual-band functionality allows the device to support a wide array of wireless devices, from legacy models that utilise the 2.4 GHz band to newer clients that benefit from the 5 GHz band’s higher throughput and reduced interference.
EOL Technology Services provides expert support, professional maintenance services, and replacement parts for the AIR-AP3702I-UXK9. We help ensure your network infrastructure remains highly functional by offering reliable options for repairing or replacing critical hardware components as they become obsolete or unavailable through typical channels.