Patents Assigned to Photonics Systems, Inc.
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Patent number: 9209840Abstract: A simultaneous transmit and receive (STAR) system includes a first bidirectional signal port coupled to an antenna, a second port coupled to a transmit signal path, and a third port coupled to receive signal path. A first switch is electrically connected between the first port and the second port, where a transmit signal propagating in the transmit signal path passes through the first switch when closed and then through the first bidirectional signal port to the antenna where the transmit signal is radiated by the antenna. A second switch is connected between the first port and the third port, where a receive signal is received by the antenna and passes through the bidirectional signal port and then through the second switch when closed to the receive signal path. A controller is electrically connected to a control input of each of the first and second switches.Type: GrantFiled: August 8, 2014Date of Patent: December 8, 2015Assignee: Photonic Systems, Inc.Inventor: Charles H. Cox
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Publication number: 20150348831Abstract: A method of selectively locating a barrier layer on a substrate includes forming a barrier layer on a surface of the substrate. The barrier layer comprises of a metal element and a non-metal element. The barrier layer may also be formed from a metal element and non-metal element. The method further includes forming an electrically conductive film layer on the barrier layer, and forming a metallic portion in the electrically conductive film layer. The method further includes selectively ablating portions of the barrier layer from the dielectric layer to selectively locate place the barrier layer on the substrate.Type: ApplicationFiled: May 28, 2014Publication date: December 3, 2015Applicants: International Business Machines Corporation, SUSS MicroTec Photonic Systems Inc.Inventors: Yuri M. Brovman, Brian M. Erwin, Nicholas A. Polomoff, Jennifer D. Schuler, Matthew E. Souter, Christopher L. Tessler
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Patent number: 9132511Abstract: Various techniques are disclosed for an apparatus and a method to remove a layer from a substrate having a pattern formed on the layer. In one example, the apparatus comprises a stage configured to receive and hold the substrate. The apparatus may further comprise an irradiating device comprising a projection lens and configured to irradiate the surface of the substrate with pulses of laser light having a selected fluence to remove an interstitial portion of the layer between the pattern without removing the pattern for corresponding irradiated areas of the substrate. The pulses of laser light may be focused through the projection lens, and the stage and the projection lens may be configured to move continuously relative each other to irradiate a plurality of areas of the substrate with the pulses of laser light.Type: GrantFiled: July 14, 2014Date of Patent: September 15, 2015Assignee: SUSS MICROTEC PHOTONIC SYSTEMS, INC.Inventor: Matthew E. Souter
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Publication number: 20150207537Abstract: A same-aperture any-frequency simultaneously transmit and receive (STAR) system includes a signal connector having a first port electrically coupled to an antenna, a second port electrically coupled to a transmit signal path, and a third port electrically coupled to receive signal path. The signal connector passes a transmit signal in the transmit signal path to the antenna and a receive signal in the receive signal path. A signal isolator is positioned in the transmit signal path to remove a residual portion of the receive signal from transmit signal path. An output of the signal isolator provides a portion of the transmit signal with the residual portion of the receive signal removed. A signal differencing device having a first input electrically coupled to the output of the signal isolator and a second input electrically coupled to the third port of the signal connector subtracts a portion of the transmit signal in the receive signal path thereby providing a more accurate receive signal.Type: ApplicationFiled: July 30, 2013Publication date: July 23, 2015Applicant: Photonic Systems, Inc.Inventors: Charles H. Cox, Edward I. Ackerman
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Publication number: 20140349595Abstract: A simultaneous transmit and receive (STAR) system includes a first bidirectional signal port coupled to an antenna, a second port coupled to a transmit signal path, and a third port coupled to receive signal path. A first switch is electrically connected between the first port and the second port, where a transmit signal propagating in the transmit signal path passes through the first switch when closed and then through the first bidirectional signal port to the antenna where the transmit signal is radiated by the antenna. A second switch is connected between the first port and the third port, where a receive signal is received by the antenna and passes through the bidirectional signal port and then through the second switch when closed to the receive signal path. A controller is electrically connected to a control input of each of the first and second switches.Type: ApplicationFiled: August 8, 2014Publication date: November 27, 2014Applicant: PHOTONIC SYSTEMS, INC.Inventor: Charles H. Cox
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Patent number: 8868006Abstract: A bi-directional signal interface includes a first waveguide that propagates a first traveling wave. The first waveguide has one end that is coupled to a RF input port that receives a RF transmission signal and another end that is coupled to a RF bi-directional port that receives a RF reception signal and that transmits the RF transmission signal. A second waveguide is positioned proximate to the first waveguide. The second waveguide has one end that is coupled to an output port that passes the received RF reception signal. A non-reciprocal coupler couples fields from the first waveguide to the second waveguide so that the RF reception signal from the bi-directional port couples from the first waveguide to the second waveguide in a substantially non-reciprocal manner and then passes through the output port, and the RF transmission signal from the RF input port passes through the first waveguide to the RF bi-directional port.Type: GrantFiled: May 22, 2009Date of Patent: October 21, 2014Assignee: Photonic Systems, Inc.Inventors: Charles Cox, Edward Ackerman
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Publication number: 20140242935Abstract: A signal canceller includes a dual-drive electro-optic modulator having separate first and second electrical inputs. The first electrical input is coupled to a first portion of a first signal and the second electrical input is coupled to a second signal and to a second portion of the first signal. A laser generates an optical beam that propagates from the optical input to an optical output of the electro-optic modulator. The dual-drive electro-optic modulator modulates the optical beam with the first and second portions of the first signal and with the second signal. The modulation cancels at least some the first signal and generates a modulation signal with reduced first signal modulation component.Type: ApplicationFiled: May 3, 2014Publication date: August 28, 2014Applicant: PHOTONIC SYSTEMS, INC.Inventors: Charles H. Cox, Kevin M. Cuomo
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Patent number: 8755750Abstract: A signal canceller includes a dual-drive electro-optic modulator having separate first and second electrical inputs. The first electrical input is coupled to a first portion of a first signal and the second electrical input is coupled to a second signal and to a second portion of the first signal. A laser generates an optical beam that propagates from the optical input to an optical output of the electro-optic modulator. The dual-drive electro-optic modulator modulates the optical beam with the first and second portions of the first signal and with the second signal. The modulation cancels at least some the first signal and generates a modulation signal with reduced first signal modulation component.Type: GrantFiled: May 22, 2010Date of Patent: June 17, 2014Assignee: Photonic Systems, Inc.Inventors: Charles H. Cox, Kevin M. Cuomo
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Publication number: 20140141712Abstract: An electromagnetic reflector includes an antenna that receives an incoming signal and that transmits an outgoing signal. A three-port device, such as a circulator, has a first port electromagnetically coupled to the antenna. An RF circuit has an input that is electromagnetically coupled to the second port of the three-port device and an output that is electromagnetically coupled to the third port of the three-port device. The RF circuit changes at least one of a gain and a phase of the incoming signal to generate a desired outgoing signal that passes through the three-port device to the antenna.Type: ApplicationFiled: January 27, 2014Publication date: May 22, 2014Applicant: Photonic Systems, Inc.Inventors: David Paul Maunder, Charles H. Cox, David Morgan Kettner, Kevin M. Cuomo
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Publication number: 20140128008Abstract: A same-aperture any-frequency simultaneously transmit and receive (STAR) system includes a signal connector having a first port electrically coupled to an antenna, a second port electrically coupled to a transmit signal path, and a third port electrically coupled to receive signal path. The signal connector passes a transmit signal in the transmit signal path to the antenna and a receive signal in the receive signal path. A signal isolator is positioned in the transmit signal path to remove a residual portion of the receive signal from transmit signal path. An output of the signal isolator provides a portion of the transmit signal with the residual portion of the receive signal removed. A signal differencing device having a first input electrically coupled to the output of the signal isolator and a second input electrically coupled to the third port of the signal connector subtracts a portion of the transmit signal in the receive signal path thereby providing a more accurate receive signal.Type: ApplicationFiled: March 15, 2013Publication date: May 8, 2014Applicant: Photonic Systems, Inc.Inventors: Charles H. Cox, Edward I. Ackerman
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Patent number: 8674870Abstract: An electromagnetic reflector includes an antenna that receives an incoming signal and that transmits an outgoing signal. A three-port device, such as a circulator, has a first port electromagnetically coupled to the antenna. An RF circuit has an input that is electromagnetically coupled to the second port of the three-port device and an output that is electromagnetically coupled to the third port of the three-port device. The RF circuit changes at least one of a gain and a phase of the incoming signal to generate a desired outgoing signal that passes through the three-port device to the antenna.Type: GrantFiled: January 19, 2011Date of Patent: March 18, 2014Assignee: Photonic Systems, Inc.Inventors: David Paul Maunder, Charles H. Cox, III, David Morgan Kettner, Kevin M. Cuomo
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Patent number: 8530907Abstract: A light source includes a hot electron source comprising a cathode that generates an electron beam and an anode comprising a germanium containing material positioned adjacent to the cathode. The anode is biased so that the electron beam accelerates towards the anode where some electrons are absorbed and then relax to both direct energy bands and indirect energy bands causing stimulation of low energy electrons from the indirect energy band to the direct energy band, thereby creating electroluminescence.Type: GrantFiled: June 29, 2011Date of Patent: September 10, 2013Assignee: Photonic Systems, Inc.Inventors: Jianxiao Chen, Charles H. Cox
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Patent number: 8433163Abstract: A bi-directional signal interface includes a carrier signal source that generates a carrier traveling wave at an output. A first traveling wave structure includes a first and a second waveguide having an input that is coupled to the output of the carrier signal source. The first and second waveguide propagate the carrier traveling wave. A second traveling wave structure includes an outgoing signal port that receives an outgoing signal and a bi-directional signal port that receives an incoming electrical signal and provides the outgoing signal. The first and second traveling wave structures have an electromagnetic interaction region with a geometry that is chosen for a desired outgoing-to-incoming signal isolation. A detector having an input coupled to the output of the first traveling wave structure generates an electrical signal related to the incoming electrical signal.Type: GrantFiled: April 21, 2008Date of Patent: April 30, 2013Assignee: Photonic Systems, IncInventors: Charles Cox, Edward I. Ackerman
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Publication number: 20120182176Abstract: An electromagnetic reflector includes an antenna that receives an incoming signal and that transmits an outgoing signal. A three-port device, such as a circulator, has a first port electromagnetically coupled to the antenna. An RF circuit has an input that is electromagnetically coupled to the second port of the three-port device and an output that is electromagnetically coupled to the third port of the three-port device. The RF circuit changes at least one of a gain and a phase of the incoming signal to generate a desired outgoing signal that passes through the three-port device to the antenna.Type: ApplicationFiled: January 19, 2011Publication date: July 19, 2012Applicant: PHOTONIC SYSTEMS, INC.Inventors: David Paul Maunder, Charles H. Cox, III, David Morgan Kettner, Kevin M. Cuomo
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Publication number: 20120001543Abstract: A light source includes a hot electron source comprising a cathode that generates an electron beam and an anode comprising a germanium containing material positioned adjacent to the cathode. The anode is biased so that the electron beam accelerates towards the anode where some electrons are absorbed and then relax to both direct energy bands and indirect energy bands causing stimulation of low energy electrons from the indirect energy band to the direct energy band, thereby creating electroluminescence.Type: ApplicationFiled: June 29, 2011Publication date: January 5, 2012Applicant: Photonic Systems, Inc.Inventors: Jianxiao Chen, Charles H. Cox
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Publication number: 20110287720Abstract: A signal canceller includes a dual-drive electro-optic modulator having separate first and second electrical inputs. The first electrical input is coupled to a first portion of a first signal and the second electrical input is coupled to a second signal and to a second portion of the first signal. A laser generates an optical beam that propagates from the optical input to an optical output of the electro-optic modulator. The dual-drive electro-optic modulator modulates the optical beam with the first and second portions of the first signal and with the second signal. The modulation cancels at least some the first signal and generates a modulation signal with reduced first signal modulation component.Type: ApplicationFiled: May 22, 2010Publication date: November 24, 2011Applicant: PHOTONIC SYSTEMS, INC.Inventors: Charles Cox, Kevin M. Cuomo
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Patent number: 7970241Abstract: A modulator includes an electro-optical substrate and a first and second waveguide formed of a doped semiconductor material positioned on a surface of an electro-optical substrate forming a slot therebetween. A doping level of the semiconductor material being chosen to make the first and second waveguide conductive. A dielectric material is positioned in the slot which increases confinement of both an optical field and an electrical field inside the slot. A refractive index of the semiconductor material and a refractive index of the dielectric material positioned in the slot being chosen to reduce the V?·L product of the modulator.Type: GrantFiled: September 9, 2008Date of Patent: June 28, 2011Assignee: Photonic Systems, Inc.Inventors: Jianxiao Chen, Charles Cox
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Patent number: 7826751Abstract: A bi-directional signal interface includes a first waveguide that propagates a first traveling wave. The first waveguide has one end that is coupled to a RF input port that receives a RF transmission signal and another end that is coupled to a RF bi-directional port that receives a RF reception signal and that transmits the RF transmission signal. A second waveguide is positioned proximate to the first waveguide. The second waveguide has one end that is coupled to an output port that passes the received RF reception signal. A non-reciprocal coupler couples fields from the first waveguide to the second waveguide so that the RF reception signal from the bi-directional port couples from the first waveguide to the second waveguide in a substantially non-reciprocal manner and then passes through the output port, and the RF transmission signal from the RF input port passes through the first waveguide to the RF bi-directional port.Type: GrantFiled: June 12, 2009Date of Patent: November 2, 2010Assignee: Photonic Systems, Inc.Inventors: Charles Cox, Edward Ackerman
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Patent number: 7809216Abstract: A signal interface includes a dual-drive device having a first and a second input port that receive an outgoing signal. One of the first and the second input ports also receive an incoming signal. The dual-drive device passes the incoming signal to an output port while isolating the outgoing signal from the incoming signal.Type: GrantFiled: March 16, 2007Date of Patent: October 5, 2010Assignee: Photonic Systems, Inc.Inventor: Charles H. Cox, III
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Patent number: 7760343Abstract: An apparatus for determining V? of an optical modulator includes an RF source that generates a variable power RF modulation signal for modulating an optical modulator. An optical detector detects a modulated optical signal generated by the optical modulator and generates an electrical detection signal in response to the detected modulated optical signal. An RF power meter measures an RF detection signal power to determine a minimum RF detection signal power, an RF modulation signal power corresponding to the minimum RF detection signal power being used to calculate V? of the optical modulator.Type: GrantFiled: April 4, 2007Date of Patent: July 20, 2010Assignee: Photonic Systems, Inc.Inventors: Harold V. Roussell, Edward I. Ackerman