Ultralow Voltage Step-Up Energy Harvester & Power Manager IC Extends Useful Life of Primary Batteries in WSNs

Milpitas, CA, (PresseBox) - Linear Technology announces the LTC3107, a highly integrated DC/DC converter designed to extend the life of a primary battery in low power wireless system networks (WSNs). The LTC3107 combines energy harvesting and power management capability with a primary battery cell to extend the battery's usable lifetime. The LTC3107 harvests energy from thermoelectric generators (TEGs) and thermopiles when these sources are available, storing excess power in a storage capacitor and seamlessly transitioning to the primary cell to power a wireless sensor node when harvested power is unavailable.

The LTC3107's internal boost converter, combined with a small step-up transformer, harvests energy from input voltages as low as 20mV, commonly found from sources such as TEGs and thermopiles, and delivers an output which tracks the battery voltage. An additional 2.2V LDO output  provides power to an external microprocessor. If harvested energy is not available, the system is powered directly from the battery, requiring only 6µA. The combination of a small step-up transformer, 3mm x 3mm package and minimal external components ensures a highly compact solution footprint.

The LTC3107 is designed to use the primary battery to start up the IC and power VOUT and the LDOwith or without any available power from the energy harvesting source. When the energy harvesting source is available, the LT3107 seamlessly transitions to run only from the energy harvesting source with only 80nA of quiescent current drawn from the primary battery. If the energy harvesting source goes away or if the load exceeds the energy harvested, the LT3017 transitions to the primary battery to supply the VOUT and VLDO loads. The BATT_OFF indicator can be used to track the battery usage. 

The LTC3107EDD is offered in a 3mm x 3mm 10-lead DFN package, priced starting at $2.95 each for 1,000-piece quantities. An industrial grade version, the LTC3107IDD,  is guaranteed to operate over the -40°C to 125°C operating junction temperature range and is priced starting at $3.45 each in 1,000-piece quantities. Both versions are available from stock. For more information, visit www.linear.com/product/LTC3107

Summary of Features: LTC3107

- Thermal Energy Harvesting Assisted Power Management System
- VOUT Tracks the Primary Battery Voltage
- 2.2V LDO Output
- Reserve Energy Output, Clamped to 4.3V
- Operates from Inputs as Low as 20mV
- Battery In-Use Indicator (BAT_OFF)
- IQ from Battery:
80nA When Energy Harvesting
6µA with No Energy Harvesting
- Standard Compact Step-Up Transformer
- Small, Thermally Enhanced 10-Lead 3mm × 3mm DFN Package

 

 

LINEAR TECHNOLOGY GmbH

Linear Technology Corporation, a member of the S&P 500, has been designing, manufacturing and marketing a broad line of high performance analog integrated circuits for major companies worldwide for over three decades. The Company's products provide an essential bridge between our analog world and the digital electronics in communications, networking, industrial, automotive, computer, medical, instrumentation, consumer, and military and aerospace systems. Linear Technology produces power management, data conversion, signal conditioning, RF and interface ICs, µModule[sup]®[/sup] subsystems, and wireless sensor network products. For more information, visit www.linear.com

LT, LTC, LTM, Linear Technology, the Linear logo and µModule are registered trademarks and VLDO is a trademark of Linear Technology Corp. All other trademarks are the property of their respective owners.

Press releases you might also be interested in

Subscribe for news

The subscribtion service of the PresseBox informs you about press information of a certain topic by your choice at a choosen time. Please enter your email address to receive the email with the press releases.

An error occurred!

Thank you! You will receive a confirmation email within a few minutes.


I want to subscribe to the gratis press mail and have read and accepted the conditions.