HiSilicon and Nowi’s continued collaboration has led to a 2nd generation Energy Autonomous NB-IoT platform optimised for ease-of-use and form factor. New Internet of Things applications are now possible, where physical size is limited and ‘Plug & Forget’ indefinite operation is required.
HiSilicon (Shanghai) Ltd and Nowi Energy B.V. today showcased the 2nd generation of their Energy Autonomous NB-IoT platform. The device acts as a sensor hub that can transmit via NB-IoT while operating indefinitely through its energy harvesting capabilities. It is based on HiSilicon’s Hi2115 NB-IoT solution and Nowi’s leading NH2 energy harvesting power management IC. The solution removes the need for manual intervention (changing batteries) or cabling to supply power in applications that become zero maintenance.
Building upon the success of the 2019 collaboration (link), HiSilicon and Nowi have optimized the design to resolve customers’ challenges and satisfy new, stricter market requirements to broaden the variety of applications addressed. The platform combines connectivity and energy harvesting in the smallest size possible and offers an open slot on which various sensors can be placed depending on the application need. As such the platform can act as the backbone of countless connected sensor solutions.
HiSilicon and Nowi are offering the reference design and the corresponding schematics for others to build their solutions upon.
Charles Sturman, Senior Director Product Marketing at HiSilicon said
Many IoT applications require super long deployment lifecycles and direct power connectivity is often not possible. As such, energy autonomy is becoming an important factor. Our collaboration with Nowi addresses these demands as their next-generation NH2 device reaches efficiency and size targets which are changing the rule-book on Energy Harvesting. At HiSilicon, we aim towards a fully connected, intelligent world and such partnerships are crucial to achieve this vision.
Read more: HISILICON & NOWI INTRODUCE ENERGY AUTONOMOUS NB-IOT PLATFORM: A POWER-FREE SOLUTION IN THE SMALLEST SIZE POSSIBLE