Add to ORKGTwo 2.2 GHz SAW oscillators using aluminum nitride on sapphire (AlN/Al2O3) delay lines were fabricated. The oscillators were electronically temperature compensated and characterized. One of the oscillators was used as the frequency reference for the Ku band source; the second oscillator is available for continued evaluation. A 15 GHz frequency source was designed and fabricated. The 15 GHz source consists of a Ku band FET oscillator which is phase locked to the frequency multiplied (X7) output of the 2.2 GHz SAW reference source. The Ku band source was built using microstrip circuit designs, which are hybrid compatible. Two wafer runs of 2.2 GHz TED devices were fabricated and evaluated. The devices were mounted on microstrip test substrate...
Additional contributors: Dr. Jong Noh, Yu Chen, Huan Li, Dr. Mo Li (faculty mentor)Surface acoustic ...
Surface acoustic wave sensors have been a focus of active research for many years. Its ability to re...
Surface acoustic wave (SAW) technology has been utilized in numerous research and commercial devices...
Results of aging experiments on 1.072 GHz SBAW oscillators are discussed as well as the design, fabr...
The results of the two part S- and Ku-band source development program are described. The S- and Ku-b...
Then: are principal advances in the field of application of surface acoustic wave (SAW) delay lines...
Techniques necessary to fabricate a high performance S-band microwave single source using state-of-t...
A number of 401.2 MHz surface acoustic wave (SAW) controlled oscillators were built and tested. The ...
Three experimental Surface Acoustic Wave Resonators (SAWR) are developed and evaluated. A desired ce...
Surface Acoustic Wave (SAW) devices featuring Aluminum Scandium Nitride (AlScN) on a 4H-Silicon Carb...
Wide application has been predicted for SAW oscillators because of their simple fabrication capabili...
Nanometer electrodes of the order of 0.085 μm width have been fabricated using direct electron beam...
This paper will present current efforts on wireless passive surface acoustic wave (SAW) sensor trans...
This paper will present current efforts on wireless passive surface acoustic wave (SAW) sensor trans...
International audienceSurface acoustic wave (SAW) devices are widely used as filter, resonator or de...
Additional contributors: Dr. Jong Noh, Yu Chen, Huan Li, Dr. Mo Li (faculty mentor)Surface acoustic ...
Surface acoustic wave sensors have been a focus of active research for many years. Its ability to re...
Surface acoustic wave (SAW) technology has been utilized in numerous research and commercial devices...
Results of aging experiments on 1.072 GHz SBAW oscillators are discussed as well as the design, fabr...
The results of the two part S- and Ku-band source development program are described. The S- and Ku-b...
Then: are principal advances in the field of application of surface acoustic wave (SAW) delay lines...
Techniques necessary to fabricate a high performance S-band microwave single source using state-of-t...
A number of 401.2 MHz surface acoustic wave (SAW) controlled oscillators were built and tested. The ...
Three experimental Surface Acoustic Wave Resonators (SAWR) are developed and evaluated. A desired ce...
Surface Acoustic Wave (SAW) devices featuring Aluminum Scandium Nitride (AlScN) on a 4H-Silicon Carb...
Wide application has been predicted for SAW oscillators because of their simple fabrication capabili...
Nanometer electrodes of the order of 0.085 μm width have been fabricated using direct electron beam...
This paper will present current efforts on wireless passive surface acoustic wave (SAW) sensor trans...
This paper will present current efforts on wireless passive surface acoustic wave (SAW) sensor trans...
International audienceSurface acoustic wave (SAW) devices are widely used as filter, resonator or de...
Additional contributors: Dr. Jong Noh, Yu Chen, Huan Li, Dr. Mo Li (faculty mentor)Surface acoustic ...
Surface acoustic wave sensors have been a focus of active research for many years. Its ability to re...
Surface acoustic wave (SAW) technology has been utilized in numerous research and commercial devices...