Add to ORKGAbstract—This paper reports on the first demonstration of a 1.05 GHz microelectromechanical (MEMS) oscillator based on lateral-field-excited (LFE) piezoelectric Aluminum Nitride (AlN) contour-mode resonators. The oscillator shows a phase noise level of –81 dBc/Hz at 1 kHz offset frequency and a phase noise floor of –146 dBc/Hz, which satisfies the GSM requirements of Ultra High Frequency (UHF) local oscillators (LO). The circuit was fabricated in the AMIS 0.5 μm CMOS process, with the oscillator core consuming only 3.5 mW static power. A simple two-mask process was used to fabricate the LFE AlN resonators from 843 MHz to 1.64 GHz with high Q (up to 2,200) and kt2 (up to 1.2%). This process further relaxes manufacturing tolerances and improv...
To ultimately realize efficient spectral utilization, low power consumption and high level integrati...
This paper reports on the design and experimental verification of a new class of thin-film (250 nm) ...
For the first time, this work demonstrates a switch-less dual-frequency (472-MHz and 1.94-GHz) recon...
This paper reports on the first demonstration of a 1.05 GHz microelectromechanical (MEMS) oscillator...
This paper reports on the first demonstration of a 1.05 GHz microelectromechanical (MEMS) oscillator...
This paper reports on the first demonstration of a 1.05-GHz microelectromechanical (MEMS) oscillator...
Abstract – This paper reports on the first demonstration of a 1.5 GHz CMOS oscillator based on thick...
Abstract – This paper reports on the first demonstration of a 1.5 GHz CMOS oscillator based on thick...
Abstract – This paper reports on the first demonstration of a 1.5 GHz CMOS oscillator based on thick...
This paper reports on the first demonstration of the 1.5 GHz CMOS oscillator based on thickness-fiel...
This paper reports on the first demonstration of the 1.5 GHz CMOS oscillator based on thickness-fiel...
This paper reports on the first demonstration of multi-frequency (176, 222, 307, and 482 MHz) oscill...
This paper reports on the first demonstration of multi-frequency (176, 222, 307, and 482 MHz) oscill...
Abstract—For the first time, this work demonstrates a switch-less dual-frequency (472 MHz and 1.94 G...
To ultimately realize efficient spectral utilization, low power consumption and high level integrati...
To ultimately realize efficient spectral utilization, low power consumption and high level integrati...
This paper reports on the design and experimental verification of a new class of thin-film (250 nm) ...
For the first time, this work demonstrates a switch-less dual-frequency (472-MHz and 1.94-GHz) recon...
This paper reports on the first demonstration of a 1.05 GHz microelectromechanical (MEMS) oscillator...
This paper reports on the first demonstration of a 1.05 GHz microelectromechanical (MEMS) oscillator...
This paper reports on the first demonstration of a 1.05-GHz microelectromechanical (MEMS) oscillator...
Abstract – This paper reports on the first demonstration of a 1.5 GHz CMOS oscillator based on thick...
Abstract – This paper reports on the first demonstration of a 1.5 GHz CMOS oscillator based on thick...
Abstract – This paper reports on the first demonstration of a 1.5 GHz CMOS oscillator based on thick...
This paper reports on the first demonstration of the 1.5 GHz CMOS oscillator based on thickness-fiel...
This paper reports on the first demonstration of the 1.5 GHz CMOS oscillator based on thickness-fiel...
This paper reports on the first demonstration of multi-frequency (176, 222, 307, and 482 MHz) oscill...
This paper reports on the first demonstration of multi-frequency (176, 222, 307, and 482 MHz) oscill...
Abstract—For the first time, this work demonstrates a switch-less dual-frequency (472 MHz and 1.94 G...
To ultimately realize efficient spectral utilization, low power consumption and high level integrati...
To ultimately realize efficient spectral utilization, low power consumption and high level integrati...
This paper reports on the design and experimental verification of a new class of thin-film (250 nm) ...
For the first time, this work demonstrates a switch-less dual-frequency (472-MHz and 1.94-GHz) recon...