Building health monitoring with LoRaWAN

In the fast-evolving world of IoT, companies like?AXTRID?are leading the way in creating innovative solutions to address pressing challenges.

This case study?showcases?how?AXTRID?successfully implemented Move-X’s?LoRaWAN?module (MAMWLE)?to develop a?wireless?sensor system for?monitoring?the health of a building. The project?demonstrated?the power of?LoRaWAN?technology in?providing?reliable and efficient?wireless communication solution for?embedded systems.?

Objectives?

AXTRID, a French company based in Guyancourt, aimed to create a comprehensive solution to monitor various aspects of building health, such as fire detection, air quality, and water leak detection in parking areas. The primary objective was to develop a wireless system, with at least 3 years of battery autonomy, capable of alerting managers or CEOs to potential issues even when nobody is present in the building.?

They required a microcontroller that offered low power consumption, abundant peripherals, and integrated LoRa stack and RF capabilities to optimize the PCB footprint and reduce costs. Initially, they utilized some competitors’ products, but encountered challenges such as high-power consumption during idle mode and transmission, and limited pin count. Considering these factors and the advantage of not needing to worry about RF design, the MAMWLE emerged as the clear winner for their project.?

System Components and Interfaces

To achieve the desired functionality, AXTRID integrated several external components with Move-X’s MAMWLE module. These components included a flash memory (16MB), BME680 sensor for air quality monitoring, SCT31 for CO2, and a microphone along with an analog circuit to detect fire alarm buzzers. The MAMWLE module served as the primary application microcontroller for the product.

Communication Protocol

The chosen communication protocol for this project was LoRaWAN. LoRaWAN’s long-range capabilities and low-power consumption made it a perfect fit for AXTRID’s wireless monitoring system, covering the extensive surface area of the building. The MAMWLE microcontroller, employed for the primary application, seamlessly integrates a fully configurable LoRa radio, tailored to meet the specific requirements.

Firmware Development

AXTRID utilized the STM32CubeIDE as the firmware development tool, leveraging its robust features and capabilities. Additionally, the team utilized the NRF Power Tool to optimize power consumption, ensuring extended battery life for the sensor system.?

Power Supply and Dimensions

To meet the requirement of at least 3 years of battery autonomy, AXTRID utilized a Battery Li-SOCI2?19Ah power supply. The compact dimensions of the final product were achieved with a PCB size of 44 mm and a case size of 10.5 x 9.5cm, ensuring seamless integration into the building infrastructure.?

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