Adaptive Network Solutions Unveils Europe’s First Sub-1 GHz IEEE 802.15.4 / ZigBee


Nuremberg, Germany (PRWEB) March 5, 2010

Adaptive Network Solutions, a leading system design house, today unveiled its new Sub-1 GHz IEEE 802.15.4/ZigBee RF module at the Embedded World 2010 in Nuremberg, Germany. The new ultra-sensitive @ANY900-2 module is designed to operate in the ISM bands 915 MHz in the US, 868 MHz in Europe and 783 MHz in China. This is the first Sub-1 GHz ZigBee module to feature a built-in U.FL antenna connector that enables rapid design-in, using a different external antenna for every application and thus providing greater flexibility for the developers.

 

“We are proud to be the first in EMEA to introduce a Sub-1 GHz ZigBee module with U.FL connector,” said Mr. Thomas Lerm, CEO of Adaptive Network Solutions GmbH. “Our goal is to give our customers the ultimate flexibility in designing their wireless products and @ANY900-2 module’s U.FL connector further extends the design options. OEMs and system integrators can significantly reduce costs and time to market by using our RF modules, developer tools and professional services.”

 

The tiny @ANY900-2 module features an exceptional receiving sensitivity of -110 dBm and an optimal output power level, resulting in an extended operating range and very low power consumption. Containing all the digital and analog circuitry, @ANY900-2 RF module presents a fully integrated solution for the developers and eliminates the need for in-house RF expertise. @ANY900-2 module is designed to work with various wireless sensing and control applications, using IEEE 802.15.4-based standards, such as ZigBee

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Ibrar Ayyub

Ibrar Ayyub is an experienced technical writer with a Master's degree in computer science from BZU Multan University. He has written for various industries, mainly home automation, and engineering. He has a clear and simple writing style and is skilled in using infographics and diagrams. He is a great researcher and is able to present information in a well-organized and logical manner.

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