T-Mobile and Inseego have introduced the Wavemaker FX4100 router, an innovative device aimed at business users. This cutting-edge router stands out as it supports 5G Standalone (SA) technology, allowing for enhanced capabilities. The Wavemaker FX4100 offers fixed wireless access to 5G indoors, making it particularly beneficial for enterprises that require robust connectivity.
What sets the 5G SA network apart is its ability to utilize network slicing, which allows for the creation of multiple virtual networks tailored for specific use cases. By employing a 5G radio access network (RAN) and a 5G core, this technology is designed to deliver faster speeds and increased capacity, catering to the needs of modern businesses more effectively than traditional networks. Unlike T-Mobile’s earlier 5G gateways that predominantly relied on 5G Non-Standalone (NSA) technology, the Wavemaker FX4100 represents a significant advancement.
Included with the router is a companion Wi-Fi mesh node, enabling small businesses to expand their coverage area by connecting additional mesh nodes. This Wi-Fi 7 capability ensures that users can enjoy strong and reliable internet service over larger spaces. Steve Harmon, Inseego’s Chief Commercial Officer, highlighted that the router’s design simplifies troubleshooting, allowing users to see important information on the display screen when connecting with T-Mobile customer support.
Furthermore, the device is equipped with advanced features, including three carrier aggregation for downlink and two for uplink, which boosts speed and improves online conferencing experiences. It also supports multiple spectrum bands, enhancing performance reliability. This exclusive device will only be available through T-Mobile until the end of the year, providing an appealing option for enterprise customers seeking high-speed and future-proof solutions.
With T-Mobile being the only carrier that supports 5G SA nationwide, the Wavemaker FX4100 could encourage businesses to transition to this carrier for superior connectivity.