Energy harvesting platform with wireless microcontroller

Paul Boughton

Wireless microcontroller and module maker Jennic in Sheffield, UK,  has developed a  demonstration platform that allows its 32bit chips top operate and send signals without batteries. The platform harvests thermal, solar, radio frequency (RF) and vibrational energy to power wireless sensor networks based on the IEEE802.15.4 standard such as ZigBee PRO and 6LoWPAN, eliminate the potential maintenance overheads of conventional battery power by harvesting energy from sustainable sources.

For the platform, Jennic has worked with key technology vendors in the field of energy harvesting: Micropelt for thermogeneration, converting temperature gradients into electrical energy; Cymbet, an expert in energy storage and solar power conversion; AdaptivEnergy, for harvesting mechanical energy, such as impulse, shock, vibration and footfall, using piezo-based DC power supplies and Powercast, for RF energy harvesting.

By working closely with these partners, Jennic has developed an ultra low power sensor solution based on its JN5139 and JN5148 wireless microcontrollers, that interfaces to each harvesting source to obtain the power needed to make periodic sensor measurements and transmission of the same over the wireless network to a central controller.
Jennic’s wireless microcontrollers offer very low current operation, and with advanced software based monitoring and control of the energy source, they are able to achieve the extreme efficiency demanded by systems powered by sustainable energy sources.

“Harvesting energy from sustainable sources presents designers with the ultimate power challenge: the energy supplied is not necessarily continuous and is available at relatively low levels,” said Jimi Simpson, Jennic Product Marketing. “This means that every element of the design, from the sensor to the microcontroller, must be considered and managed to achieve the highest levels of power efficiency.”
The 32-bit RISC processor in Jennic’s wireless microcontrollers provides the processing capability to implement a software-controlled charge-and-fire energy management process, in which the microcontroller periodically wakes to measure energy levels, and then measures and transmits data when sufficient energy is available.

“The JN5148 wireless microcontroller undoubtedly sets the benchmark for ultra-low power IEEE802.15.4 based wireless in energy harvesting; featuring sleep current levels of <1µA, an active transmission current of 15mA and a receive current of 18mA,” said Simpson. “This ultra-low current consumption enables the JN5148 to use the smallest of energy stores including super capacitors and rechargeable cells to allow the lowest cost BOM.”

The range of energy harvesting technologies demonstrated in the solution caters for the diverse spectrum of application scenarios found in wireless sensor networking; including applications in Energy and Environmental Management, Building Management, Process Control, Condition Monitoring, Logistics and Asset Tracking.

For more information, visit www.jennic.com and harvesting@jennic.com