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Thermoelectric Generators convert waste heat into DC power.

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Thermoelectric Generators convert waste heat into DC power.
Thermoelectric Generators convert waste heat into DC power.
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November 30, 2012 - Able to harvest waste heat and convert into usable output DC power, eTEG Series is assembled with thin film semiconductor material, thermally conductive aluminum nitride ceramics, and gold-plated wire bondable pads. There are33, 90, and 130 mW models, which offer output voltages from 0.6–2.5 V. Sold-state reliability and maintenance-free operationmake units suitablefor replacing energy storage devices or providing power in remote places where access to power line does not exist.

Laird Technologies Releases New eTEG Series Thin Film Thermoelectric Module Product Line


(Archive News Story - Products mentioned in this Archive News Story may or may not be available from the manufacturer.)

Laird Technologies
16401 Swingley Ridge Rd., Suite 600
Chesterfield, MO, 63017
USA



Press release date: November 27, 2012

Thin Film Energy Harvesting Products Convert Waste Heat to Usable Output DC Power

St. Louis, Missouri, USA – Laird Technologies, Inc., a global leader in the design and supply of customized performance-critical components and systems for advanced electronics and wireless products, today announced the release of its new eTEG Series Thin Film Energy Harvesting product line.

The eTEG Series are thermoelectric power generators that harvest waste heat and convert it in to usable output DC power. Due to their micro scale size and higher output power density, these devices are especially suitable for use in wireless sensors, LED lighting and battery charging applications. There are three standard eTEG modules available:

PG09,14,F0,0102,GG 33 mW
PG24,48,F2,0202,GG 90 mW
PG37,72,F2,0203,GG 130 mW

“The eTEG Series are miniature energy harvesting devices that can be embedded into many types of applications requiring low output power.” said Andrew Dereka, Laird Technologies Product Manager. “Because of their sold state reliability and no maintenance requirements, they are suitable to replace energy storage devices or provide power in remote places where access to a power line does not exist. This reliability means maintenance technicians do not have to replace batteries on remotely installed wireless sensors that monitor temperature, flow rate or composition of gases and liquids.”

The Thin Film Energy Harvesters are assembled with thin film semiconductor material, thermally conductive aluminum nitride ceramics and gold plated wire bondable pads. The three models have output voltages from 0.6 to 2.5 volts in an open circuit at maximum temperature differentials.

As an industry leader in high-performance and cost-effective Thermal Management Solutions, Laird Technologies provides the knowledge, innovation, and resources to ensure exceptional thermal performance and customer satisfaction for applications in the medical, analytical, telecom, industrial, and consumer markets.

Contact Information
For additional information, visit http://www.lairdtech.com or contact us at:
Americas: +1-888-246-9050 option 2
Europe: +46-31-704-67-57
Asia: +86-755-2714-1166 x374
e-mail: CLV-customerservice@lairdtech.com

Translations
Translated versions of this press release are available in Simplified and Traditional Chinese, Japanese, Korean, and German languages.

About Laird Technologies, Inc.

Laird Technologies is a global technology company focused on providing components and solutions that protect electronic devices from electromagnetic interference and heat, and that enable connectivity through wireless applications and antenna systems.

Custom products are supplied to all sectors of the electronics industry including the handset, telecommunications, data transfer and information technology, automotive, aerospace, defense, consumer, medical, mining, railroad and industrial markets.

Laird Technologies, a unit of Laird PLC, employs over 9,000 employees in more than 46 facilities located in 16 countries.

Trademarks

2012 All rights reserved. Laird Technologies and its logo are trademarks of Laird Technologies, Inc. Other products, logos, and company names mentioned herein, may be trademarks of their respective owners.
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