Vantron Technology announced a strategic partnership with Morse Micro. This collaboration is set to leverage both companies’ strengths, driving innovation and excellence in the application of Wi-Fi HaLow, further revolutionizing IoT connectivity.
Through the partnership, the two companies will work together to provide robust and energy-efficient connectivity solutions that meet the growing IoT demands of various industries. This includes the launch of a new line of Wi-Fi HaLow-enabled products including three modules, two access points and an innovative IP camera.
All of the products leverage Morse Micro’s MM6108 single-chip SoC and have been designed to deliver superior connectivity, longer reach, better penetration and lower power consumption for a wide range of IoT applications. Wi-Fi HaLow enables Vantron’s new products to operate in the sub-1GHz frequency band, providing extended transmission ranges and enhanced wall penetration capabilities. Designed with low-power consumption in mind, these devices are a game changer for smart homes, industrial applications and remote installations requiring reliable, long-distance wireless communication.
This partnership is expected to drive innovation and enable Wi-Fi HaLow connectivity across the complete IoT ecosystem.
Michael De Nil, CEO of Morse Micro, commented, “Our partnership with Vantron reflects our mutual commitment to advancing IoT innovation and providing industries with the tools they need for more reliable, efficient wireless communication. We’re excited to collaborate with Vantron on this new range, setting a new standard for scalable, secure IoT connectivity in both industrial and consumer applications.”
Bo Wei, CEO of Vantron, said, “We’re proud to bring this new line of Wi-Fi HaLow-enabled products to market. With these modules, access points and camera, we are delivering solutions that allow customers to unlock the full potential of IoT applications, providing long-range connectivity, enhanced security and ultra-low power consumption. These products address the growing need for reliable, long-distance, low-power wireless communication, particularly in industrial and remote settings.”