Smart parking, environment monitoring, smart agriculture, building automation, asset tracking, industrial control, smart metering and emergency service response are some of the use cases
Murata, in cooperation with technology partner Sentinum, has introduced a multistack development kit for low-power wide area network (LPWAN) implementations. The Yamori dev kit features an array of wireless modules from Murata’s portfolio to accelerate evaluation activity. This allows various IoT-related LPWAN application criteria to be addressed via a single multifaceted platform that is unique to the industry. The following RF and cellular protocols have been included: LoRa, NB-IoT, Cat M1 (LTE-M) and voice over LTE (VoLTE). In addition, NFC connectivity and GNSS functionality are also encompassed and Sigfox and MIOTY can be supported by a firmware upgrade.
Within a 63 mm x 29,30 mm x 40 mm form factor, Yamori houses an LBAA0QB1SJ LoRa module and an LBAD0XX1SC cellular module. A Murata CR3677X Lithium coin battery and CT04120 secondary battery have also been incorporated, along with printed antennas, in order, says Murata, to present engineers with a fully-integrated IoT development resource. Low power operation ensures that battery life is prolonged, with as low as 1.5μA (cellular mode) being drawn when in hibernation mode. By using the kit, designers can develop solutions that deliver elevated performance parameters, while taking up little space and consuming minimal power. Smart parking, environment monitoring, smart agriculture, building automation, asset tracking, industrial control, smart metering and emergency service response are just some of the diverse use cases that this kit can be used for
“By working with Sentinum, we have been able to bring a game-changing prototyping platform to market. It provides engineers with all the building blocks upon which innovative LPWAN solutions can be implemented,” states Koichi Sorada, Product Manager of the IoT Connectivity Europe team at Murata. “No time is wasted with the integration of peripheral elements, such as antennas or a power source, since these are already included. Consequently, it is possible to move through the prototyping phase within a much shorter timeframe. Furthermore, design concepts can be adapted, rather than having to start new projects from scratch.”
Related Articles
NXP: With Project CHIP, the future of Smart Home is getting a lot brighter
Project CHIP was officially announced in December 2019 and has since garnered broad-based support Sujata Neidig is currently Director of Marketing for Wireless Connectivity MCUs at NXP, focused on the Smart Home & Building market. This blog looks at the challenges...
TÜV SÜD joins Incisor.TV
Two companies combine experience across multiple tech sectorsIncisorTV is delighted to announce a new partnership with TÜV SÜD, a global provider of technical services in key areas including testing, certification, verification and knowledge transfer. In the UK, the...
Sensor advancements will be key to overcoming supply chain disruptions
The pandemic has wreaked havoc on retail and manufacturing supply chains, but innovative new sensors could save the day Supply chain and logistics have seen massive disruptions as a result of COVID-19, creating new challenges for retail and manufacturing operations...
Stay Up to Date With The Latest News & Updates
Our Sponsors
Incisor.TV partners with leading organisations in the technology sector.
Follow Us
And stay up to date with our news! We are active across the key social media platforms – please do follow us!
0 Comments