In this Application Note we show examples of how we solve some common problems, including use of common functions like Interrupts and PWM.

This application note describes what needs to be done to achieve the lowest possible power drain and which choices that can be made when it comes to performance vs power consumption.

In this application note, we will suggest some best practices for your product to succeed. You will also find examples of PCB layout in some of our reference designs posted on our website.

This document aims to give the user a basic overview of commissioning processes in general, such as network formation, service discovery, and device discovery.

This document describes some of the radio regulations in various parts of the world. In addition, this document shows how RIIM™ fits the aforementioned regulations.

A code bug means a wrong command or series of commands which cause the code to function erratically.

The document starts by briefly introducing RIIM™ and TSCH. Then different modes of TSCH are explained, along with design guidelines about how to use them and how to design reliable networks using TSCH

The Wireless M-Bus standard has been optimized for communication between a collector/concentrator and a consumption metering device.

This document will briefly introduce the new Battery Lifetime Estimator tool, created by Radiocrafts to help customers understand the various bits and pieces affecting power consumption in RIIM™

This application note demonstrates how to setup a RIIM™ network and how to integrate it with an easy-to-use IoT cloud service provider.

This document aims to clarify some of these concepts and also to present the results of RIIM range testing

This paper discusses the most common security challenges in mesh networks, and how RIIM™ addresses them in a way that provides strong security, while maintaining the crucial features of a low power wireless mesh network.

RIIoT is a global 2-way symmetric wireless IIoT network, supporting long range and very low power.

This application note aims to show how RIIM with its Time-Synchronized Channel Hopping (TSCH) enables battery-operated Mesh Routers.

The RIIoT system is optimized for low power, high throughput and quick response times, while the internet world is designed for interoperability between computers where power and bandwidth are almost unlimited.

This Application Note gives an overview of the M-Bus standard documents and summarizes the main changes in this new release of part -4.

This application note demonstrates how Radiocrafts’ Industrial IP Mesh (RIIM™ ) is perfectly suited for street lighting applications.

This application note examines the operation of RIIM™ as a wireless transparent UART channel.

Measuring the Power Consumption of RIIM™ Leaf nodes Operating in Sleep Mode

In this document, the mechanism of how this is achieved will be explained. Along with the advantages the user can benefit from when using it.