Abstract: An electromagnetic interference (EMI) shielded device which includes an object to be shielded and an EMI shielding material encompassing the object. The EMI shielding material is made up of, but not limited to a broadband biopolymer or polymer dissolved in organic solvents, and metal and carbon-based nano-powders or nanoparticles. The specific makeup of the shielding material and fabrication procedure of the shielding material is also included herein.
Type:
Application
Filed:
February 25, 2019
Publication date:
June 20, 2019
Applicants:
Ipitek, Inc., Government of the United States, as Represented by the Secretary of the Air Force
Inventors:
De Yu Zang, Michael M. Salour, James G. Grote
Abstract: An electromagnetic interference (EMI) shielded device which includes an object to be shielded and an EMI shielding material encompassing the object. The EMI shielding material is made up of, but not limited to a broadband biopolymer or polymer dissolved in organic solvents, and metal and carbon-based nano-powders or nanoparticles. The specific makeup of the shielding material and fabrication procedure of the shielding material is also included herein.
Type:
Application
Filed:
June 29, 2016
Publication date:
January 19, 2017
Applicants:
Ipitek, Inc., Government of the United States, as Represented by the Secretary of the Air Force
Inventors:
De Yu Zang, Michael M. Salour, James G. Grote
Abstract: An electromagnetic interference (EMI) shielded device which includes an object to be shielded and an EMI shielding material encompassing the object. The EMI shielding material is made up of, but not limited to a broadband biopolymer or polymer dissolved in organic solvents, and metal and carbon-based nano-powders or nanoparticles. The specific makeup of the shielding material and fabrication procedure of the shielding material is also included herein.
Type:
Grant
Filed:
January 22, 2013
Date of Patent:
August 2, 2016
Assignees:
IPITEK, Inc., The United States of America, as Represented by the Secretary of the Air Force
Inventors:
De Yu Zang, Michael M. Salour, James G. Grote
Abstract: A photonic true time delay system for steering one or more radio frequency beams from an electronically scanned array antenna incorporates passive optical true time delay modules for the entire array based upon dense-wavelength-division multiplexed encoding of optical time delays. In addition, electronic selection of time delays allows for elimination of optical filter tuning and optical switching, and can function in either or both transmit and receive modes of the antenna array.
Abstract: A linear array fiber-optic temperature sensor based upon fluorescence-decay technology allows for optical cabling to employ multiple, individually optically addressed optical fibers with sensing tips located in a single sensing tube. The sensing tips are arranged with a pre-determined, fixed relative spacing to form a linear array of temperature measurement points. Multiple such linear array sensors may be further arranged.
Abstract: An imaging temperature sensing system having at least one imaging component and at least one temperature sensing component, thus providing means for implementing temperature sensing and imaging within a single device.
Abstract: A passive wavelength-division multiplexing fiber-optic temperature sensor, as well as a distributed fiber-optic temperature sensing system, incorporates at least one wavelength-division-multiplexing optical coupler, so that any given sensor interfaces optically by at least one designated optical wavelength, thus providing means for any given fiber-optic temperature sensor to be distinguished from other fiber-optic temperature sensors of similar design operating on the same optical fiber system.
Abstract: A semiconductor device provides a metal contact, a DNA layer, wherein the metal layer and the DNA layer are adapted to form a Schottky barrier junction there between, and a conductive contact with the DNA layer.
Type:
Grant
Filed:
May 12, 2008
Date of Patent:
August 16, 2011
Assignees:
IPITEK, Inc., United States of America, as represented by the Secretary of the Air Force
Abstract: This invention describes a simple method of producing optical singlesideband suppressed-carrier (SSB-SC) modulation. The SSB-SC transmitter is a Mach-Zehnder interferometric modulator followed by an optical filter. The modulator is biased for minimum transmission of the carrier.