Welcome to the embe.tech Blog, your ultimate destination for comprehensive insights and technical explorations of our cutting-edge wireless communication solutions. Here, we explore the intricacies of embe.tech’s technology, covering everything from essential features like Time-Slotted Channel Hopping (TSCH) to its powerful applications across diverse industries.
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What makes a wireless protocol industrial-grade?
In industrial IoT and wireless systems, not every communication protocol is fit for purpose. In environments like manufacturing, utilities, or critical infrastructure, wireless communication must be reliable, predictable, and resilient. In this article, we break down the features that make a wireless protocol truly industrial-grade. Key requirements for industrial wireless communication Examples of industrial-grade wireless […]

Zigbee limitations in practice – and how embeNET solves them
When mesh networks meet the real world Zigbee is one of the best-known wireless mesh standards. It has powered many smart home products and small-scale IoT systems. But in industrial and infrastructure use cases, it often shows its limits. embeNET was built to go further. It answers the challenges that Zigbee struggles with – especially […]

What is RPL and why does it matter for wireless IoT networks?
RPL explained in simple terms RPL stands for Routing Protocol for Low-power and Lossy Networks. It was created to solve one big problem: how to route data in wireless networks that are not always reliable. In wireless IoT networks, devices send information through radio links. But those links can fail. They can be blocked, weak […]

RPL vs traditional routing protocols: what makes it different?
Why IoT needs a new kind of routing Traditional internet protocols like OSPF, RIP or BGP were created for fast, stable networks. They expect devices to have a lot of memory, strong connections and unlimited power. In wireless IoT networks, things are very different. Devices are often battery-powered. Links are weak and change over time. […]
