News release

Date: 15th May 2012

Ubidyne’s new micro radio delivers scalable output power performance for small and macro cell active antennas

Ubidyne launches its latest active antenna system release 3.5 at LTE Summit

May 15th 2012 - Ubidyne, a leading developer of dynamic digital active antenna technology for wireless communications, is showcasing its unique chip-based power amplifier solution for active antenna design at the LTE Summit later this month in Barcelona. Ubidyne’s new P-Chip is at the heart of its latest micro radio transceiver and delivers scalable output power solutions for both small-cell and macro-cell active antennas. This means that radio equipment vendors and mobile network operators can benefit from economies of scale by using the same micro radio technology for any size of mobile operator cell array and network standard.

Based on the Doherty amplifier design, a single transceiver provides output power between 0.8W and 6.4W by parallel use of P-Chips. For example, an array with 16 micro radios can easily exceed the output power of 2x40W of today’s available remote radio heads. The P-Chip is the only fully integrated Doherty MMIC (monolithic microwave integrated circuit) power amplifier with more than 39 dBm peak output power. With high levels of integration and few external components, Ubidyne’s P-Chip provides low-cost transceiver solutions for the telecom equipment market across a wide range of mobile operator requirements.

Release 3.5 of Ubidyne’s Active Antenna System solution featuring the new P-Chip micro radio is being launched at the LTE Summit next week. All Ubidyne active antenna solutions feature one transceiver or micro radio per antenna radiator to deliver significant performance benefits. The uB700 supports 4G (LTE) in the 700MHz digital dividend band for broadband mobile networks, while the uB900 supports GSM, UMTS and LTE in the 900MHz frequency band to address mobile networks in Europe, Africa, Oceania, Asia and the Middle East. Ubidyne is also developing an 800MHz solution and in the near future will support high-band up to 2.6GHz as well as multi-band requirements.

Ubidyne's micro radio is the main building block of its active antenna architecture, comprising a complete transceiver that can be used multiple times in a macro antenna array. Each micro radio can be controlled completely digitally and independently by a central hub which enables advanced features like beamforming and electronic tilting as well as a self-healing capability that significantly reduces OPEX for mobile network operators .

“The P-Chip sets a new standard for micro radio design, delivering un-matched performance, flexibility and economies of scale for use in both macro and small cell active antenna solutions,” said Michael Fränkle, CEO of Ubidyne. “We are now able to offer radio equipment vendors a powerful, cost-effective solution that can be configured precisely to meet the needs of mobile operators for all standards and cell sizes.”

About Ubidyne
Ubidyne is a leading developer of dynamic digital active antenna technology for wireless communications. Ubidyne’s standards-agnostic micro radio technology can be integrated with wireless antennas and revolutionises the economics of mobile communications. These integrated active antenna systems are compatible with current and next generation standards, while the Ubidyne architecture enables radio equipment vendors to improve time to market and reduce development efforts by using its architecture, chipsets and algorithms. The Ubidyne technology significantly reduces energy consumption while improving radio performance, deployment flexibility, coverage and capacity of mobile communications networks globally.

Ubidyne has filed more than eighty patents in the US, China and Europe related to the company's Antenna Embedded Radio technology.

For more information, visit or visit Ubidyne at the LTE world summit at Barcelona, CCIB Conference Center, stand 90 between 23rd and 24th of May; or at CommunicAsia2012 in Singapore from 19th to 22th June.

For more information or to arrange an interview, please contact Peter Rennison or Allie Andrews at PRPR, Tel: + (0)44 1442 245030, pr[at]prpr[dot] / allie[at]prpr[dot]

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