The European radio regulations can be ambiguous when it comes to certifying and understanding LoRaWAN® network operation. Here we take a look at how an end device built with a LoRa® chipset should be certified for regulatory compliance, as well as the duty-cycle capacity we can expect from an end device deployed in a practical LoRaWAN network.
Amazon Sidewalk is enabling new services to help benefit everyone, from locating lost items to extending the range of smart devices and beyond by harnessing the limitless possibilities of developer and community innovation.
Would you like a free PCB design review from Semtech?
The Semtech PCB Design Review Service is designed to facilitate the development of LoRaWAN®-based hardware for the deployment of successful solutions.
Our engineers will review your schematic and PCB design to help you avoid common design pitfalls. We will even provide you with a list of suggestions to help you improve your design. Implementing our suggestions will help ensure that your devices meet regulatory requirements and that they will work in the field.
How do we increase the range of a radio link? Here we look at the constraints at work when building a real-world long range radio link. We’ll show how and why LoRa Technology is the right choice for designing a radio link where range matters.
Long Range and Low Consumption in the Real World
How do we maximize the range of a low power radio link in a practical application? Assuming that we do not want to incur the hardware and recurring operating costs together with the high energy consumption of a Cellular solution, this means finding a solution in the license-free ISM band.