OEwaves Awarded Contract to Develop Microwave Photonic Tunable Filters for Agile ReceiversCompany received contract to develop and demonstrate widely tunable miniature microwave photonic filters for receiver systems.
Pasadena, CA - Aug 21, 2008 --[ASDWire]-- OEwaves, Inc. has been awarded a contract to develop frequency agile band-pass and notch filters to support agile receiver systems for military and communication applications. The filter development builds upon OEwaves' proprietary photonics filter technology concept that provides wideband tunability.
Global Military Satellite Market 2014-2024
Such highly agile filters enhance receiver system performances and reduce the total volume and power required by stringent military applications. The tunable microwave photonic filters are based on the patented technology of ultra-high quality (Q) factor crystalline whispering gallery mode (WGM) optical resonators.
"The wide tuning range and high agility of OEwaves filters enhance performance and simplify receiver architectures," said Lute Maleki, President and CEO of OEwaves, Inc. "We are delighted to be providing this capability for military and communications systems."
The demand for a multi-pole widely tunable microwave photonic filter with similar performance parameters extends beyond miniature agile receiver system requirements and includes military and commercial microwave filter banks, radio emission detection, and other scientific instrumentation and test equipment.
About OEwaves, Inc.
OEwaves, Inc., headquartered in Pasadena, CA, is a leader in innovative microwave photonic products and solutions. OEwaves develops and offers state-of-the-art technologies and products in support of radar, communications, and test and measurement systems for military and commercial markets. OEwaves was founded in 2000 and has licensed the exclusive rights to over 20 patents and applications for the company's core technologies from the California Institute of Technology, which operates the Jet Propulsion Laboratory (JPL) for NASA. For additional information, please visit www.oewaves.com.
Source : OEwaves