Patents by Inventor Moshe Nazarathy
Moshe Nazarathy has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20080025733Abstract: Novel differential-phase shift keying optical receivers are taught based on multi-symbol differential phase shift keying detection (DPSK) aided by decision feedback (DF) from the decision bits in earlier symbol intervals. In accordance with the invention, the DF is directed to an optical front-end comprising multiple Delay Interferometers (DIs) with multiple delays T, 2T, . . . , where T is the DPSK symbol duration. In one embodiment, the DF bitstream is applied to electronically switch the polarity of DI outputs prior to additive combination and hard detection. In other embodiments the DF is applied to active phase-shifting electrodes incorporated in the DIs. In additional embodiments the DF is applied to modified DI devices which not of the conventional Mach-Zehnder asymmetric two-arms type, but rather comprise either three or more arms with appropriate couplings, or two arms, one of which comprises a recirculating delay line with delay T.Type: ApplicationFiled: June 25, 2007Publication date: January 31, 2008Applicant: Technion Research & Development Foundation Ltd.Inventors: Moshe NAZARATHY, Yoav YADIN
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Patent number: 6490727Abstract: In hybrid fiber coaxial cable networks such as used in cable television where two-way digital communications are desired, a distributed termination system is provided. In such a system the home terminals are digital terminals, such as digital set-top boxes or cable modems using bi-directional transmission standards. The functionality of the head end controller in a conventional system is in this system distributed between the head end and the fiber nodes which link the coaxial cable and optical fiber portions of the system. Thereby the upstream detection takes place in the fiber nodes rather than in the head end by placing upstream burst receivers in the fiber nodes. Further there is a distributed method to enable this by providing synchronization and calibration control between the head end and the fiber nodes. Also, the return path is a digital return path supported by having the burst receivers located in the fiber nodes.Type: GrantFiled: October 7, 1999Date of Patent: December 3, 2002Assignee: Harmonic, Inc.Inventors: Moshe Nazarathy, Adi Bonen, Ilan Kepten, David Piehler
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Patent number: 5453871Abstract: A temporal imaging system is presented consisting of a dispersive input path, a phase modulator producing a phase modulation substantially equal to A+Bt.sup.2, and an output dispersive path. This temporal imaging system can be combined with other temporal lenses to image input signals in the same manner that spatial lenses can be used to image light from spatial sources. In particular, this temporal imaging system can be used to expand, compress and or invert input temporal signals.Type: GrantFiled: June 14, 1989Date of Patent: September 26, 1995Assignee: Hewlett-Packard CompanyInventors: Brian H. Kolner, Moshe Nazarathy
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Patent number: 5424680Abstract: A generalized frequency dependent predistortion circuit for nonlinear optic devices such as semiconductor lasers and light emitting diodes includes a pre-filter and post-filter associated with a linearizer (distorter). A multi-channel sub-carrier electrical signal is input to a splitter which provides on a primary path a signal to a time delay and hence to a coupler to the secondary paths. In the first secondary path, a pre-filter provides a signal to a second order distorter. This signal is then subject to a post-filter and then to a variable attenuator. In the second secondary path, a third order distorter again has an associated pre-filter and post-filter with a variable attenuator downstream of the post-filter. The variable attenuators in each path provide frequency independent attenuation. In one version the distorters in both paths are nonlinear diode circuits. The second secondary path provides very low fundamental leak-through.Type: GrantFiled: November 30, 1993Date of Patent: June 13, 1995Assignee: Harmonic Lightwaves, Inc.Inventors: Moshe Nazarathy, Charles H. Gall, Chien-Yu Kuo
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Patent number: 5282072Abstract: This invention teaches new types of linearization circuits, exhibiting improved broadband suppression of nonlinear distortion. These realizations do not require the use of reactive elements such as capacitors, or of active elements such as transistors, eliminating the drawbacks of prior art realizations. The linearization circuits are particularly suitable for linearizing optical sources with odd wave voltage to light transfer characteristics, such as externally modulated CW lasers. The fundamental building blocks of the linearization circuits of this invention are novel nonlinear electrical one-ports with an expansive V-I characteristic, denoted as ENLOP (Expansive Nonlinear one-Ports). The ENLOP building blocks are further embedded in linear circuits.Type: GrantFiled: November 19, 1991Date of Patent: January 25, 1994Assignee: Harmonic Lightwaves, Inc.Inventors: Moshe Nazarathy, Anthony J. Ley, Hans C. Verhoeven
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Patent number: 5278923Abstract: An optical modulation system having cascade-coupled electro-optic modulator stages in either dual tandem or split tandem configurations. An electrical splitter derives multiple electrical drives for the multiple stages from a single modulating input signal. The multiple drive signals are linearly related in magnitude and preferably induce simultaneous antiphase (180.degree. out-of-phase) optical modulation in the tandem stages. While a double Mach-Zehnder cascade configuration could be used, at least one modulator stage might instead be a balanced-bridge interfometer-type modulator having at least one directional coupler. At least one directional coupler in such a configuration may be a .DELTA..beta. coupler. Application of bias voltages to the interferometer sections and to coupler sections by means of a parametric feedback loop is done in order to simultaneously enhance the linear modulation coefficient, minimize odd order distortions and null the even order distortions that are associated with biased .Type: GrantFiled: September 2, 1992Date of Patent: January 11, 1994Assignee: Harmonic Lightwaves, Inc.Inventors: Moshe Nazarathy, Yishai Kagan, Yaron Simler
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Patent number: 5253309Abstract: A novel optical system is taught including an optical source, an optical modulator having at least one optical input port for receiving the optical signal from the optical source, a modulation port for receiving the optical signal from the optical source, a modulation port for receiving a modulating signal, and complementary output port signals. The complementary modulated output signals are applied to one or more optical receivers at the other end of an optical transmission link. In one embodiment, the two complementary signals are provided to two separate optical receivers, thereby allowing distribution of optically modulated signals, for example, in a cable television or other type distribution system. In another embodiment, the two complementary modulated signals are applied to a single balanced receiver, thereby providing information content to the complementary receiver twice the power level available on either one channel alone.Type: GrantFiled: June 23, 1989Date of Patent: October 12, 1993Assignee: Harmonic Lightwaves, Inc.Inventors: Moshe Nazarathy, Josef Berger
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Patent number: 5216729Abstract: A laser generates a beam which is actively steered into an optical element having a waveguide which receives and transmits the beam. The waveguide is coupled to an optical fiber which is also actively steered. Both the beam steering and fiber steering mechanisms seek to align the beam from the laser to the fiber for maximum output. The beam steering mechanism features a pair of planar mirrors pivoted at right angles to each other. A precision force transducer will cause desired amounts of pivoting to adjust the beam. The fiber steering mechanism features a pair of flexures, arranged with bending moments of the flexures being at right angles. Electrical signals control the extent of bending in each flexure. The amount of light in the fiber is sensed downstream from both steering mechanisms and compared to an expected amount.Type: GrantFiled: November 18, 1991Date of Patent: June 1, 1993Assignee: Harmonic Lightwaves, Inc.Inventors: Josef Berger, Yishai Kagan, Doron Mick, Moshe Nazarathy
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Patent number: 5161044Abstract: The invention discloses a general technique of taking advantage of the stability of the modulator transfer characteristic in order to correct for second and third order distortion. These objectives are achieved in a way compatible with the nature of the video distribution frequency formats. The method of this invention for linearizing the amplitude transfer characteristic of integrated optic devices for analog transmission is accomplished by injecting pilot signals, monitoring the harmonic and intermodulation distortion content of the optical output, and feeding back bias signals to parametrically tune the operating points of the integrated optic modulator and of a predistortion network. General principles for realizing suitable parametrically tunable predistortion networks are also presented.Type: GrantFiled: April 15, 1991Date of Patent: November 3, 1992Assignee: Harmonic Lightwaves, Inc.Inventors: Moshe Nazarathy, Josef Berger, Yishai Kagan
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Patent number: 5102222Abstract: Apparatus and method for determining dynamically the polarization vector direction, or polarization vector components and associated temporal phase angle, of a light beam. The apparatus includes a compact polarization beam splitter that receives a beam of light, separates the beam into two perpendicular polarization components and directs these components to a pair of optical detectors and associated circuits that form the sum and difference signals of the electrical signals produced by the optical detectors. This produces a projection of the polarization vector on a given direction. If the light is generally elliptically polarized, use of two such polarization beam splitters and four optical detectors allows reconstruction of the polarization ellipse for the light beam. Alternatively, use of one such polarization beam splitter, two optical detectors and a rotating wave plate in a multiplexed configuration allows reconstruction of the polarization ellipse.Type: GrantFiled: February 8, 1990Date of Patent: April 7, 1992Assignee: Harmonic Lightwaves, Inc.Inventors: Josef Berger, Yishai Kagan, Doron Mick, Moshe Nazarathy
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Patent number: 5000568Abstract: An optical time domain reflectometer that injects at least two complementary code sequences into an optical fiber and detects the return signal produced by each of these code sequences. These return signals are processed to extract the function h.sub.k that is equal to the response function for the fiber when a single pulse is injected into the fiber. This processing utilizes a correlation scheme that has no sidelobe distortion. Various combinations of Golay codes are suitable for use as the complementary codes.Type: GrantFiled: September 28, 1989Date of Patent: March 19, 1991Assignee: Hewlett-Packard CompanyInventors: William R. Trutna, Jr., Moshe Nazarathy, Steven A. Newton, Scott H. Foster
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Patent number: 4942583Abstract: A grating tuned laser system having an anamorphic optical section (72) that produces a line image on the grating (73). This system is insensitive to tilt of the grating (73) about an axis (T) perpendicular to the rulings (74) of the grating (73). An embodiment that utilizes a degenerate external cavity is also insensitive to small lateral misalignment of the optical elements.Type: GrantFiled: June 17, 1988Date of Patent: July 17, 1990Assignee: Hewlett-Packard CompanyInventors: Moshe Nazarathy, Paul Zorabedian, William Richard, Tirumala R. Ranganath
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Patent number: 4843586Abstract: A sampler that can be used to sample optical or electrical signals, having an improved sensitivity-resolution product compared to conventional samplers. A coded switched electrode modulator has electrodes that produce polarity reversals in an applied voltage signal in accordance with a pseudorandom code having small sidelobes. An optical signal is injected into an optical waveguide that is oriented parallel to the electrodes. When the optical signal is proportional to the coded electrode pattern, the device is used as an electrical sampler. When the applied voltage signal is proportional to the coded electrode pattern, the device is used as an optical sampler.Type: GrantFiled: April 28, 1987Date of Patent: June 27, 1989Assignee: Hewlett-Packard CompanyInventors: Moshe Nazarathy, David W. Dolfi, Brian H. Kolner
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Patent number: 4843350Abstract: A travelling wave modulator in which the phase velocity of a first wave is modulated by a second travelling wave. Means are provided to alter the polarity of the second wave in accordance with a pseudorandom code. Barker codes and Golay codes are particularly suitable for improving the bandwidth-to-voltage ratio of the modulator over a comparable conventional modulator.Type: GrantFiled: January 20, 1987Date of Patent: June 27, 1989Assignee: Hewlett-Packard CompanyInventors: Moshe Nazarathy, David W. Dolfi, Roger L. Jungerman
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Patent number: 4812038Abstract: A method of dynamically changing the measurement window and operating parameters of the instrument, based on intermediate results, in order to minimize the total time required to make a complete measurement. Also, a method of combining partial results from subwindows into a final result to be displayed that has not been corrupted by variation in system response due to time-varying operating parameters.Type: GrantFiled: January 21, 1987Date of Patent: March 14, 1989Assignee: Hewlett-Packard CompanyInventors: Moshe Nazarathy, Steven A. Newton, Scott H. Foster
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Patent number: 4747111Abstract: A quasi-planar monolithic unidirectional ring laser is disclosed including an Nd:YAG crystal shaped so that a ring formed therein has an out-of-plane angle of about 1.degree.. The reflection opposite the output-coupling point on the front face is off the rear face. This arrangement provides for a very low pumping threshold and reduced magnetic field requirements. The disclosed laser can be pumped with a semiconductor laser and yield single mode 1.319 .mu.m and 1.338 .mu.m outputs suitable for fiber optic communications.Type: GrantFiled: February 13, 1987Date of Patent: May 24, 1988Assignee: Hewlett-Packard CompanyInventors: William R. Trutna, Jr., Moshe Nazarathy