Patents Assigned to Nistica, Inc.
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Patent number: 9019612Abstract: A wavelength selective switch for selectively switching optical wavelength components of an optical signal uses both LCoS and MEMs switching technologies to improve device performance. Specific performance improvements may include more ports, better spectral performance and isolation, improved dynamic crosstalk, more flexible attenuation options, integrated channel monitoring and compressed switch heights.Type: GrantFiled: November 25, 2013Date of Patent: April 28, 2015Assignee: Nistica, Inc.Inventor: Jefferson Wagener
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Publication number: 20140285867Abstract: An optical device in which crosstalk due to scattering is reduced includes an optical port array having at least one optical input for receiving an optical beam and at least one optical output. The input and outputs extend along a common axis. A dispersion element receives the optical beam from the optical input and spatially separates the optical beam into a plurality of wavelength components. A focusing element focuses the plurality of wavelength components and a programmable optical phase modulator receives the focused plurality of wavelength components. The modulator is configured to steer the wavelength components to a selected one of the optical outputs. The programmable optical phase modulator is oriented with respect to the optical port array so that an axis along which the optical beam is steered is non-coincident with the common axis along which the input and outputs extend.Type: ApplicationFiled: March 20, 2014Publication date: September 25, 2014Applicant: Nistica, Inc.Inventor: Jefferson L. Wagener
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Publication number: 20140146395Abstract: A wavelength selective switch for selectively switching optical wavelength components of an optical signal uses both LCoS and MEMs switching technologies to improve device performance. Specific performance improvements may include more ports, better spectral performance and isolation, improved dynamic crosstalk, more flexible attenuation options, integrated channel monitoring and compressed switch heights.Type: ApplicationFiled: November 25, 2013Publication date: May 29, 2014Applicant: Nistica, Inc.Inventor: Jefferson Wagener
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Patent number: 8693818Abstract: Provided is an optical processing device including: a beam emission portion which comprises a plurality of optical fibers; a plurality of collimating lenses to which a beam emitted from the optical fibers are incident; a dispersion element which disperses the beam emitted from one optical fiber among the plurality of optical fibers; and an optical path conversion optical system which converts an optical path of the beam passing through the dispersion element and allows the beam to be incident to another optical fiber among the plurality of optical fibers, wherein the plurality of collimating lenses is installed in series in the optical path direction of the beam emitted from the optical fiber, and wherein a distance between at least two collimating lenses are adjustable in the optical path direction.Type: GrantFiled: September 15, 2011Date of Patent: April 8, 2014Assignees: Nistica, Inc., Fujikura Ltd.Inventors: Jefferson Wagener, Susumu Nakaya, Takaaki Ishikawa
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Patent number: 8681422Abstract: An optical arrangement includes an actuatable optical element and a compensating optical element. The actuatable optical element is provided to receive an optical beam having a plurality of spatially separated wavelength components and diffract the plurality of wavelength components in a wavelength dependent manner. The compensating optical element directs the optical beam to the actuatable optical element. The compensating optical element compensates for the wavelength dependent manner in which the wavelength components are diffracted by the actuatable optical element.Type: GrantFiled: December 14, 2011Date of Patent: March 25, 2014Assignee: Nistica, Inc.Inventors: Mitchell E. Haller, Jefferson L. Wagener
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Patent number: 8531756Abstract: A method and apparatus is provided for processing an optical beam. The method includes spatially dispersing an optical beam received from an optical port into a plurality of wavelength components. The wavelength components are focused and at least one of the components is selectively directed to one of the optical ports by reflecting the focused wavelength component at least twice from a DMD before being directed to a selected one of the optical ports. A resolution of the focused wavelength component is optimized when it is reflected from the DMD a first or second time at the expense of the other time when it is reflected.Type: GrantFiled: September 15, 2011Date of Patent: September 10, 2013Assignees: Nistica, Inc., Fujikura Ltd.Inventors: Jefferson Wagener, Susumu Nakaya, Takaaki Ishikawa
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Publication number: 20130155512Abstract: An optical arrangement includes an actuatable optical element and a compensating optical element. The actuatable optical element is provided to receive an optical beam having a plurality of spatially separated wavelength components and diffract the plurality of wavelength components in a wavelength dependent manner. The compensating optical element directs the optical beam to the actuatable optical element. The compensating optical element compensates for the wavelength dependent manner in which the wavelength components are diffracted by the actuatable optical element.Type: ApplicationFiled: December 14, 2011Publication date: June 20, 2013Applicant: NISTICA, INC.Inventors: Mitchell E. Haller, Jefferson L. Wagener
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Patent number: 8437642Abstract: A method and apparatus are provided for attenuating an optical beam. The method includes selecting a level of attenuation to be applied to the optical beam. A pattern of on-state and off-state pixels in a two dimensional spatial light modulator (SLM) is selected such that the pattern will modulate the optical beam to provide the selected level of attenuation. Finally, the optical beam is directed onto the SLM while tile pixels are arranged in the selected pattern. The pattern is periodic along a first axis and symmetric along a second axis along which an intensity distribution of die optical beam extends.Type: GrantFiled: August 15, 2008Date of Patent: May 7, 2013Assignee: Nistica, Inc.Inventors: Jefferson L. Wagener, Thomas Andrew Strasser
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Publication number: 20130070328Abstract: A method and apparatus is provided for processing an optical beam. The method includes spatially dispersing an optical beam received from an optical port into a plurality of wavelength components. The wavelength components are focused and at least one of the components is selectively directed to one of the optical ports by reflecting the focused wavelength component at least twice from a DMD before being directed to a selected one of the optical ports. A resolution of the focused wavelength component is optimized when it is reflected from the DMD a first or second time at the expense of the other time when it is reflected.Type: ApplicationFiled: September 15, 2011Publication date: March 21, 2013Applicants: NISTICA, INC.Inventors: Jefferson Wagener, Susumu Nakaya, Takaaki Ishikawa
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Publication number: 20130070337Abstract: Provided is an optical processing device including: a beam emission portion which comprises a plurality of optical fibers; a plurality of collimating lenses to which a beam emitted from the optical fibers are incident; a dispersion element which disperses the beam emitted from one optical fiber among the plurality of optical fibers; and an optical path conversion optical system which converts an optical path of the beam passing through the dispersion element and allows the beam to be incident to another optical fiber among the plurality of optical fibers, wherein the plurality of collimating lenses is installed in series in the optical path direction of the beam emitted from the optical fiber, and wherein a distance between at least two collimating lenses are adjustable in the optical path direction.Type: ApplicationFiled: September 15, 2011Publication date: March 21, 2013Applicants: NISTICA, INC.Inventors: Jefferson Wagener, Susumu Nakaya, Takaaki Ishikawa
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Publication number: 20130051726Abstract: An optical launch arrangement includes a fiber assembly for securing an array of optical fibers. The optical launch arrangement also includes an asymmetric lenslet array having a first surface with a pair of coupling lenses in registration with each optical fiber in the array of optical fibers and a second surface with a collimating lens in registration with each pair of coupling lenses.Type: ApplicationFiled: August 24, 2012Publication date: February 28, 2013Applicant: NISTICA, INC.Inventors: Jefferson L. Wagener, Mitchell E. Haller
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Patent number: 8368987Abstract: Provided is an optical processing device including: a beam emission portion which includes a plurality of optical fibers; a dispersion element which disperses a beam emitted from one optical fiber of the plurality of optical fibers; a condenser lens which concentrates the beam passing through the dispersion element; and an optical path conversion optical system which converts an optical path of the beam passing through the condenser lens so that the beam is incident to one of the other optical fibers of the plurality of optical fibers. An optical axis of the condenser lens is inclined with respect to an optical axis direction from the beam emission portion to the optical path conversion optical system. The inclination angle is set so that a maximum difference in focal depth of a plurality of beams having different wavelengths obtained by the dispersion element becomes smaller.Type: GrantFiled: September 15, 2011Date of Patent: February 5, 2013Assignees: Nistica, Inc., Fujikura, Ltd.Inventors: Seungbum Woo, Jefferson Wagener, Susumu Nakaya, Takaaki Ishikawa
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Patent number: 8351789Abstract: A programmable encoder is provided that includes at least one optical input for receiving a modulated broadband optical signal and at least one optical output. A dispersion element receives the optical signal from the optical input and spatially separates the optical signal into a plurality of wavelength components. A collimating element is provided for collimating the plurality of wavelength components. An actuatable optical arrangement receives the collimated plurality of wavelength components from the collimating element. The actuatable optical arrangement includes a digital micromirror device (DMD) from which a programmably selected subset of wavelength components are reflected at least twice before being directed to a selected one of optical outputs to thereby encode the CDMA signal.Type: GrantFiled: July 23, 2007Date of Patent: January 8, 2013Assignee: Nistica, Inc.Inventors: Jefferson L. Wagener, Thomas Andrew Strasser
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Patent number: 8086080Abstract: A multiwavelength switch is provided. The switch includes at least one optical input for receiving an optical beam and at least two optical outputs. A dispersion element receives the optical beam from the optical input and spatially separates the optical beam into a plurality of wavelength components. A collimating element is provided for collimating the plurality of wavelength components. An actuatable optical arrangement receives the collimated plurality of wavelength components from the collimating element. The actuatable optical arrangement includes a digital micromirror device (DMD) from which at least one wavelength component is reflected at least twice before being directed to a selected one of optical outputs.Type: GrantFiled: July 23, 2007Date of Patent: December 27, 2011Assignee: Nistica, Inc.Inventors: Jefferson L. Wagener, Thomas Andrew Strasser
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Patent number: 7965911Abstract: An optical wavelength routing device utilizes a free space optical beam propagating therethrough is provided. The device includes at least one optical fiber input, at least one optical fiber output, an optical element having an actuator with at least one tilt axis and a diffraction element having a surface thereon. The device also includes an optical beam-splitting element having spatially varying optical properties. An optical beam transfer arrangement is positioned between the optical element and the diffraction element such that tilt actuation of the optical element elicits a proportional change in an angle of incidence of the optical beam onto the diffraction element, wherein the center of rotation for the angular change is the surface of the diffraction element. Optical routing between the fiber input and the fiber output can be configured by the positioning of the optical element.Type: GrantFiled: July 19, 2007Date of Patent: June 21, 2011Assignee: Nistica, Inc.Inventors: Thomas Andrew Strasser, Jefferson L. Wagener, Christopher S. Koeppen
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Publication number: 20100046944Abstract: A method of monitoring a WDM optical signal is provided. The method includes: receiving a WDM optical signal having a plurality of channels; detecting the optical signal after filtering the WDM optical signal with a tunable filter; and reconfiguring at least the center wavelength and bandwidth of the tunable filter optical transfer function to determine a signal performance parameter of the WDM optical signal.Type: ApplicationFiled: August 21, 2009Publication date: February 25, 2010Applicant: NISTICA, INC.Inventors: Jefferson L. Wagener, Thomas Andrew Strasser
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Publication number: 20100039694Abstract: A method and apparatus are provided for attenuating an optical beam. The method includes selecting a level of attenuation to be applied to the optical beam. A pattern of on-state and off-state pixels in a two dimensional spatial light modulator (SLM) is selected such that the pattern will modulate the optical beam to provide the selected level of attenuation. Finally, the optical beam is directed onto the SLM while tile pixels are arranged in the selected pattern. The pattern is periodic along a first axis and symmetric along a second axis along which an intensity distribution of die optical beam extends.Type: ApplicationFiled: August 15, 2008Publication date: February 18, 2010Applicant: NISTICA, INC.Inventors: Jefferson L. Wagener, Thomas Andrew Strasser
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Patent number: 7639906Abstract: An optical wavelength routing device utilizes a free space optical beam propagating therethrough is provided. The device includes at least one optical fiber input, at least one optical fiber output, an optical element having an actuator with at least one tilt axis and a diffraction element having a surface thereon. The device also includes an optical beam-splitting element having spatially varying optical properties. An optical beam transfer arrangement is positioned between the optical element and the diffraction element such that tilt actuation of the optical element elicits a proportional change in an angle of incidence of the optical beam onto the diffraction element, wherein the center of rotation for the angular change is the surface of the diffraction element. Optical routing between the fiber input and the fiber output can be configured by the positioning of the optical element.Type: GrantFiled: July 19, 2007Date of Patent: December 29, 2009Assignee: Nistica, Inc.Inventors: Thomas Andrew Strasser, Jefferson L. Wagener, Christopher S. Koeppen
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Patent number: 7408639Abstract: An optical spectral detection device utilizing free space optical beam propagation is provided. The device includes at least one optical fiber input, at least one opto-electronic detection device, an optical element having an actuator with at least one tilt axis, and a diffraction element having a surface thereon. The device also includes an optical beam transfer arrangement positioned between the optical element and the diffraction element such that tilt actuation of the optical element elicits a proportional change in an angle of incidence of the optical beam onto the diffraction element, wherein the center of rotation for the angular change is the surface of the diffraction element. The spectral properties of the optical beam that are detected are selected by selectively positioning the optical element about at least one of the tilt axes.Type: GrantFiled: April 25, 2005Date of Patent: August 5, 2008Assignee: Nistica, Inc.Inventors: Thomas Andrew Strasser, Jefferson L. Wagener, Christopher S. Koeppen
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Patent number: 7257288Abstract: An optical wavelength routing device utilizes a free space optical beam propagating therethrough is provided. The device includes at least one optical fiber input, at least one optical fiber output, an optical element having an actuator with at least one tilt axis and a diffraction element having a surface thereon. The device also includes an optical beam-splitting element having spatially varying optical properties. An optical beam transfer arrangement is positioned between the optical element and the diffraction element such that tilt actuation of the optical element elicits a proportional change in an angle of incidence of the optical beam onto the diffraction element, wherein the center of rotation for the angular change is the surface of the diffraction element. Optical routing between the fiber input and the fiber output can be configured by the positioning of the optical element.Type: GrantFiled: April 25, 2005Date of Patent: August 14, 2007Assignee: Nistica, Inc.Inventors: Thomas Andrew Strasser, Jefferson L. Wagener, Christopher S. Koeppen