Morse Micro Selects Gateworks as First Global Design House Partner
Morse Micro announced that Gateworks has been selected as the first official partner for its Design House Partner Program. This is a significant step towards expanding the global ecosystem for production-ready Wi-Fi HaLow solutions and accelerating commercialization in the IoT market.
📋 Article Processing Timeline
- 📰 Published: May 8, 2026 at 18:00
- 🔍 Collected: May 8, 2026 at 09:31
- 🤖 AI Analyzed: May 9, 2026 at 03:50 (18h 18m after Collected)
May 8, 2026
<>
Morse Micro PTY. LTD.
Morse Micro PTY. LTD. (headquartered in New South Wales, Australia), the global leader in Wi-Fi HaLow chip solutions, today announced the selection of Gateworks as the first official partner for its "Design House Partner Program." This marks a significant step in expanding the global ecosystem for production-ready Wi-Fi HaLow solutions.
Launched earlier this year, Morse Micro's Design House Partner Program is a global initiative aimed at accelerating the commercialization of Wi-Fi HaLow by formalizing collaborations with selected design houses, system integrators, and developer groups. Gateworks, a leading supplier of American-made embedded solutions, was chosen as the inaugural partner for its strong industrial design capabilities, proven track record in robust connected systems, and early leadership in deploying Wi-Fi HaLow in real-world industrial environments.
As the IoT market enters a new phase in terms of scale and maturity, customers are increasingly seeking solutions that feature long-range connectivity, low power consumption, enterprise-grade security, and directly integrated IP networks, without the complexities of gateways, protocol conversions, or fragmented architectures. The Design House Partner Program was launched to meet these needs by helping customers move more quickly from concept to deployment.
Michael De Nil, Co-founder and CEO of Morse Micro, stated: "Gateworks is exactly the right partner for the spirit of this program's launch. Their team understands what it takes to translate high-performance semiconductors into real-world industrial solutions. As our first Design House Partner, Gateworks strengthens our ability to help customers accelerate development and deploy Wi-Fi HaLow in demanding real-world environments."
Gateworks plays a crucial role in the Wi-Fi HaLow ecosystem through its industrial-grade "GW16167 Wi-Fi HaLow M.2 card" and "GW11048-7 development kit." These American-made tools provide developers with the means to rapidly evaluate and prototype Wi-Fi HaLow solutions for industrial automation, remote monitoring, smart transportation, smart energy, and other infrastructure-intensive use cases.
Kelly Peralta, Vice President of Sales and Business Development at Gateworks, commented: "Joining Morse Micro's Design House Partner Program is a natural next step for us. We have already witnessed the power of Wi-Fi HaLow in industrial and infrastructure applications where communication range, transparency, and reliability are paramount. This program provides an even stronger framework to help customers build production-ready solutions more quickly and confidently."
Morse Micro's Design House Partner Program complements its Certified Module Partner Program and represents a significant step towards accelerating the adoption of Wi-Fi HaLow in industrial IoT, smart infrastructure, security, agriculture, utilities, and large-scale commercial deployments.
About Morse Micro
Morse Micro is a fabless semiconductor company leading the Wi-Fi HaLow field, revolutionizing IoT connectivity with its award-winning technology. Headquartered in Sydney, with global offices in the US, Taiwan, China, India, Japan, and the UK, Morse Micro is driving the proliferation of next-generation long-range, low-power Wi-Fi HaLow solutions. Our first-generation MM6108 and recently announced MM8108 chips are among the fastest, smallest, lowest power, and longest-range Wi-Fi HaLow connectivity chips on the market.
Morse Micro's Wi-Fi HaLow technology is gaining global momentum, enabling connected devices to extend their communication range by 10 times and expand coverage area by 100 times compared to traditional Wi-Fi networks.