Patents by Inventor Scott J. Cook
Scott J. Cook 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).
-
Patent number: 7642982Abstract: A relatively low cost, easy to install and aesthetically pleasing multi-band, multi-port digital video broadcast from satellite (DVBS) elliptical horn antenna designed as part of a reflector antenna system to simultaneously receive satellite television broadcast signals with circular polarity on two frequency channels. This type antenna may be implemented with a single antenna feed horn with multiple feed horns that may be arranged separately or in one or more integral feed horn blocks. The antennas may be designed to achieve acceptable circular polarity performance over broad and multiple frequency bands through the use of oppositely sloped differential phase differential sections.Type: GrantFiled: July 2, 2007Date of Patent: January 5, 2010Inventor: Scott J. Cook
-
Patent number: 7239285Abstract: A relatively low cost, easy to install and aesthetically pleasing digital video broadcast from satellite (DVBS) elliptical horn antenna designed as part of a reflector antenna system to receive satellite television broadcast signals with circular polarity. This type antenna may be implemented with a single antenna feed horn with multiple feed horns that may be arranged separately or in one or more integral feed horn blocks. The antennas may be designed to achieve acceptable circular polarity performance over broad and multiple frequency bands through the use of oppositely sloped differential phase differential sections.Type: GrantFiled: May 18, 2005Date of Patent: July 3, 2007Assignee: ProBrand International, Inc.Inventor: Scott J. Cook
-
Patent number: 7224320Abstract: A relatively low cost, easy to install and aesthetically pleasing digital video broadcast from satellite (DVBS) elliptical horn antenna designed to receive satellite television broadcast signals with circular polarity. This type antenna may be implemented as a multi-beam, multi-band antenna with closely spaced antenna feed horns operable for simultaneously receiving signals from multiple satellites that are closely spaced from the perspective of the antenna.Type: GrantFiled: May 18, 2005Date of Patent: May 29, 2007Assignee: ProBrand International, Inc.Inventor: Scott J. Cook
-
Patent number: 6600387Abstract: According to the present invention, a waveguide assembly is provided and includes a common input waveguide aligned along a first axis. The input waveguide supports two frequency bands and one or more polarities, namely high and low band signals of two polarities which are typically supplied using a feed horn which is coaxially aligned with the input waveguide. The waveguide assembly also includes an output waveguide for supporting and discharging the low band signal (one or more polarities). The output waveguide extends along a second axis which is parallel to the first axis containing the input waveguide but is displaced therefrom. In order to accomplish this the waveguide assembly has two or more waveguides connecting the input waveguide to the output waveguide.Type: GrantFiled: April 17, 2001Date of Patent: July 29, 2003Assignee: Channel Master LLCInventors: Scott J. Cook, Peter L. Gardner
-
Publication number: 20020153964Abstract: According to the present invention, a waveguide assembly is provided and includes a common input waveguide aligned along a first axis. The input waveguide supports two frequency bands and one or more polarities, namely high and low band signals of two polarities which are typically supplied using a feed horn which is coaxially aligned with the input waveguide. The waveguide assembly also includes an output waveguide for supporting and discharging the low band signal (one or more polarities). The output waveguide extends along a second axis which is parallel to the first axis containing the input waveguide but is displaced therefrom. In order to accomplish this the waveguide assembly has two or more waveguides connecting the input waveguide to the output waveguide.Type: ApplicationFiled: April 17, 2001Publication date: October 24, 2002Applicant: CHANNEL MASTER LLCInventors: Scott J. Cook, Peter L. Gardner
-
Patent number: 6323822Abstract: A modified offset parabolic antenna is disclosed which provides improved gain when receiving satellite broadcasts from geosynchronous transmission sources spaced substantially 10 degrees apart. The surface of the reflector is defined by a Zernike expansion mapped to a unit circle. The values of the parameters of the Zernike expansion are selected to provide a shaped reflector surface which focuses beams from the three separate sources onto three focal points such that the gain of the antenna is maximized. A peak beam gain for an offset beam of substantially 33.9 dBi has been achieved.Type: GrantFiled: February 5, 2001Date of Patent: November 27, 2001Assignee: Channel Master LLCInventors: Scott J. Cook, Bruce W. Barratt
-
Patent number: 6297710Abstract: A slip joint polarizer including a stationary waveguide rotatably connected to a moveable waveguide, e.g. an ortho mode transducer, by a mating interface, such as a pair of rotatable mating flanges. The moveable waveguide is rotatable with respect to the stationary waveguide to adjust at least one of receive and transmit polarity. A probe extends axially in the moveable waveguide, passing through the mating interface and into the stationary waveguide. The probe may be attached to the moveable waveguide so that the two rotate simultaneously. Alternatively, the probe may rotate independent of the moveable waveguide to adjust for transmit polarity. During installation, the moveable waveguide is rotated with respect to the stationary waveguide in order to adjust receive and/or transmit polarity. Once properly adjusted, the rotatable mating flanges are locked together to prevent movement.Type: GrantFiled: September 2, 1999Date of Patent: October 2, 2001Assignee: Channel Master LLCInventors: Scott J. Cook, Dennis L. Cronin, Peter L. Gardner, John Michael Vezmar
-
Publication number: 20010024176Abstract: A modified offset parabolic antenna is disclosed which provides improved gain when receiving satellite broadcasts from geosynchronous transmission sources spaced substantially 10 degrees apart. The surface of the reflector is defined by a Zernike expansion mapped to a unit circle. The values of the parameters of the Zernike expansion are selected to provide a shaped reflector surface which focuses beams from the three separate sources onto three focal points such that the gain of the antenna is maximized. A peak beam gain for an offset beam of substantially 33.9 dBi has been achieved.Type: ApplicationFiled: February 5, 2001Publication date: September 27, 2001Applicant: CHANNEL MASTER LLCInventors: Scott J. Cook, Bruce W. Barratt
-
Patent number: 6222495Abstract: A shaped offset parabolic antenna is disclosed which provides improved gain when receiving satellite broadcasts from geosynchronous transmission sources spaced substantially 10 degrees apart. The surface of the reflector is defined by a Zernike expansion mapped to a unit circle. The values of the parameters of the Zernike expansion are selected to provide a shaped reflector surface which focuses beams from the three separate sources onto three focal points such that the gain of the antenna is maximized. A peak beam gain for an offset beam of substantially 33.9 dBi has been achieved.Type: GrantFiled: February 25, 2000Date of Patent: April 24, 2001Assignee: Channel Master LLCInventors: Scott J. Cook, Bruce W. Barratt
-
Patent number: 6087908Abstract: An ortho-mode transducer is disclosed having a common waveguide and two orthogonal port waveguides, each of which is also orthogonal to the common waveguide. Each port waveguide is coupled to the common waveguide with a coupling aperture which will pass signals having a particular polarity and cut off orthogonally polarized signals. The common waveguide is terminated in a shorting plane about one-quarter of the excepted signal wavelength from the vertical midpoint of the port waveguides. The short directs energy from the common waveguide into the port waveguides and directs energy from the port waveguides into the common waveguide.Type: GrantFiled: September 11, 1998Date of Patent: July 11, 2000Assignee: Channel Master LLCInventors: Nicolas Haller, Scott J. Cook
-
Patent number: 5892486Abstract: An improved dipole antenna array with high radiation directivity and broad bandwidth is disclosed. Each dipole antenna is driven by a balun structure composed of an unbalanced J-shaped transmission line placed over a pair of ground plane extensions that are separated by a channel. The dipole antenna arms are connected to an intermediate point on the ground plane extensions so that the balun structure extends beyond the dipole antenna. The length of the dipole arms, their position on the ground plane extensions, and the extent to which the balun extends beyond the dipole antenna can be chosen to determine the desired operating frequency range. The antennas are fabricated on ground and circuit planes separated by a dielectric material and composed of conducting material deposited on dielectric sheets. A planar array of dipole antennas is formed with the ground plane circumscribing each antenna in the array to improve directivity.Type: GrantFiled: October 11, 1996Date of Patent: April 6, 1999Assignee: Channel Master LLCInventors: Scott J. Cook, John Michael Vezmar
-
Patent number: 5552797Abstract: A corrugated horn having ridges disposed on the inner surface of the horn, such that the ridges are oriented parallel to the horn axis, is adapted to provide elliptical beams. When the corrugated horn is circular, the elliptical beam is produced by changing the step heights and/or ridge heights around the circumference of the horn, which in turn changes the semi-flare angle, defined as the angle made by the horn axis and a line joining the top surfaces of the ridges. Because corrugated horns constructed according to this invention have ridges oriented parallel to the horn axis, these corrugated horns are readily manufactured using conventional die casting methods or numerical machining techniques.Type: GrantFiled: December 2, 1994Date of Patent: September 3, 1996Assignee: Avnet, Inc.Inventor: Scott J. Cook
-
Patent number: D598905Type: GrantFiled: May 18, 2005Date of Patent: August 25, 2009Inventor: Scott J. Cook
-
Patent number: D431555Type: GrantFiled: October 22, 1999Date of Patent: October 3, 2000Assignee: Channel Master LLCInventors: Dennis L Cronin, Scott J Cook, Peter L Gardner, Richard Derrenbacher