Patents by Inventor Craig Jay Coley
Craig Jay Coley 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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Patent number: 11014689Abstract: An aircraft control or interface unit with a programmable controller includes an isolated, non-volatile command memory containing the complete, fixed set of non-compiled, text-format commands used for every application programmed into an instance of the aircraft control or interface unit. A command interpreter automatically and sequentially interprets and executes the command set in a continuous loop, where the command set encompasses all commands necessary for the ability to activate, implement and disable all available input, output and processing capabilities within the hardware configuration of the aircraft control or interface unit.Type: GrantFiled: August 13, 2019Date of Patent: May 25, 2021Assignee: Applied Avionics, Inc.Inventors: Steven A. Edwards, Craig Jay Coley, Trang Tran Myers
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Publication number: 20200050455Abstract: An aircraft control or interface unit with a programmable controller includes an isolated, non-volatile command memory containing the complete, fixed set of non-compiled, text-format commands used for every application programmed into an instance of the aircraft control or interface unit. A command interpreter automatically and sequentially interprets and executes the command set in a continuous loop, where the command set encompasses all commands necessary for the ability to activate, implement and disable all available input, output and processing capabilities within the hardware configuration of the aircraft control or interface unit.Type: ApplicationFiled: August 13, 2019Publication date: February 13, 2020Inventors: Steven A. Edwards, Craig Jay Coley, Trang Tran Myers
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Patent number: 10388470Abstract: An aircraft annunciator (illuminated switch or indicator) includes, within a housing sized to fit in the panel cutout for a single pushbutton aviation switch, a bus converter to interface with a multiplexed ARINC serial data bus, in order to monitor a remote item of equipment such as an ADS-B transponder. The annunciator is coupled by selected pins to receive data words from the multiplexed ARINC serial data bus. A watchdog timer is continuously reset by valid messages from the transponder, logically ORed with the power supply as well as external analog fault signals in order to generate an output controlling illumination of an FAA-mandated “ADS-B FAIL” legend on the annunciator.Type: GrantFiled: August 11, 2017Date of Patent: August 20, 2019Assignee: Applied Avionics, Inc.Inventors: Morris Ray Humphreys, Steven A. Edwards, Craig Jay Coley
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Publication number: 20190019638Abstract: An aircraft annunciator (illuminated switch or indicator) includes, within a housing sized to fit in the panel cutout for a single pushbutton aviation switch, a bus converter to interface with a multiplexed ARINC serial data bus, in order to monitor a remote item of equipment such as an ADS-B transponder. The annunciator is coupled by selected pins to receive data words from the multiplexed ARINC serial data bus. A watchdog timer is continuously reset by valid messages from the transponder, logically ORed with the power supply as well as external analog fault signals in order to generate an output controlling illumination of an FAA-mandated “ADS-B FAIL” legend on the annunciator.Type: ApplicationFiled: August 11, 2017Publication date: January 17, 2019Inventors: Morris Ray Humphreys, Steven A. Edwards, Craig Jay Coley
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Patent number: 8350493Abstract: A discrete dimming luminance control circuit for light emitting diode illumination includes first and second control inputs, a first supply circuit between the first control input and an output, a second supply circuit between the second control input and the output, a first shunt circuit between the second control input and the output, and a second shunt circuit between the first control input and the output. The luminance control circuit delivers a first voltage to the output when a supply voltage is applied to the first control input and the second control input is left open, a second voltage when the supply voltage is applied to the second control input and the first control input is left open, a third voltage when the supply voltage is applied to the first control input and the second control input is grounded, and a fourth voltage when the supply voltage is applied to the second control input and the first control input is grounded.Type: GrantFiled: February 6, 2010Date of Patent: January 8, 2013Assignee: Aerospace Optics, Inc.Inventor: Craig Jay Coley
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Patent number: 8222771Abstract: Within an illuminating pushbutton switch, an electronic circuit replaces an electromagnetic holding coil for latching or releasing a state of the illuminated pushbutton switch, and further provides blinking functionality. The electronic circuit includes inputs receiving set, reset and toggle control signals, outputs delivering open, closed and blink control signals, latch logic controlled by the set and reset control signals and delivering signals maintaining the illuminated pushbutton switch in either an open or closed state, and a frequency divider and oscillator coupled together to deliver a blink control signal. The electronic circuit fits within the illuminated pushbutton switch housing in space sized to hold two snap action switching devices without increase in the length, weight or mounting depth of the illuminated pushbutton switch. The inputs and outputs are coupled to external pins from the illuminated pushbutton switch and may be remotely controlled.Type: GrantFiled: February 6, 2010Date of Patent: July 17, 2012Assignee: Aerospace Optics, Inc.Inventors: Craig Jay Coley, Steven A. Edwards
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Patent number: 7906915Abstract: Each driver circuit for a six-by-four array of light emitting diodes illuminating a pushbutton switch switches three pairs of the light emitting diodes between series connection and parallel connection based on changes to an applied input voltage. Driving six light emitting diodes instead of only four allows illumination of a larger area and improves power efficiency at higher applied input voltages, while retaining dimming compatibility at low voltage levels. Each driver circuit also includes a rectifier allow illumination of the pushbutton switch with direct current voltages of either polarity. The quiescent current limiting resistance is split into multiple resistors for further improved power efficiency. Each driver circuit also includes a bridge rectifier to allow illumination of the pushbutton switch with direct current voltages of either polarity or alternating current voltages.Type: GrantFiled: April 19, 2008Date of Patent: March 15, 2011Assignee: Aerospace Optics, Inc.Inventor: Craig Jay Coley
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Publication number: 20100327943Abstract: Within an illuminating pushbutton switch, an electronic circuit replaces an electromagnetic holding coil for latching or releasing a state of the illuminated pushbutton switch, and further provides blinking functionality. The electronic circuit includes inputs receiving set, reset and toggle control signals, outputs delivering open, closed and blink control signals, latch logic controlled by the set and reset control signals and delivering signals maintaining the illuminated pushbutton switch in either an open or closed state, and a frequency divider and oscillator coupled together to deliver a blink control signal. The electronic circuit fits within the illuminated pushbutton switch housing in space sized to hold two snap action switching devices without increase in the length, weight or mounting depth of the illuminated pushbutton switch. The inputs and outputs are coupled to external pins from the illuminated pushbutton switch and may be remotely controlled.Type: ApplicationFiled: February 6, 2010Publication date: December 30, 2010Applicant: AEROSPACE OPTICS, INC.Inventors: Craig Jay Coley, Steven A. Edwards
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Publication number: 20100295469Abstract: A discrete dimming luminance control circuit for light emitting diode illumination includes first and second control inputs, a first supply circuit between the first control input and an output, a second supply circuit between the second control input and the output, a first shunt circuit between the second control input and the output, and a second shunt circuit between the first control input and the output. The luminance control circuit delivers a first voltage to the output when a supply voltage is applied to the first control input and the second control input is left open, a second voltage when the supply voltage is applied to the second control input and the first control input is left open, a third voltage when the supply voltage is applied to the first control input and the second control input is grounded, and a fourth voltage when the supply voltage is applied to the second control input and the first control input is grounded.Type: ApplicationFiled: February 6, 2010Publication date: November 25, 2010Applicant: AEROSPACE OPTICS, INC.Inventor: Craig Jay Coley
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Publication number: 20090261745Abstract: Each driver circuit for a six-by-four array of light emitting diodes illuminating a pushbutton switch switches three pairs of the light emitting diodes between series connection and parallel connection based on changes to an applied input voltage. Driving six light emitting diodes instead of only four allows illumination of a larger area and improves power efficiency at higher applied input voltages, while retaining dimming compatibility at low voltage levels. Each driver circuit also includes a rectifier allow illumination of the pushbutton switch with direct current voltages of either polarity. The quiescent current limiting resistance is split into multiple resistors for further improved power efficiency. Each driver circuit also includes a bridge rectifier to allow illumination of the pushbutton switch with direct current voltages of either polarity or alternating current voltages.Type: ApplicationFiled: April 19, 2008Publication date: October 22, 2009Applicant: AEROSPACE OPTICS, INC.Inventor: Craig Jay Coley
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Patent number: 6737814Abstract: Illumination sources, each including at least one light emitting diode, are connected either in series or in parallel by a switching circuit, depending upon an applied input voltage. The switching circuit switches the illumination sources from series- to parallel-connection, or vice versa, when the applied input voltage crosses a threshold value in traversing the operating range of applied input voltages. Because the light emitting diodes within the illumination sources are switched from series to parallel connection at a defined kickover point, the voltage-luminance characteristic changes on opposite sides of the kickover point. The resulting overall voltage-luminance characteristic has greater variability in luminance across the entire operating range of applied input voltages, and luminance-variance is not limited to only a portion of the operating range.Type: GrantFiled: September 7, 2001Date of Patent: May 18, 2004Assignee: Aerospace Optics, Inc.Inventors: Don W. Guthrie, Craig Jay Coley
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Patent number: 6670776Abstract: Illumination sources, each including at least one light emitting diode, are connected either in series or in parallel by a switching circuit, depending upon an applied input voltage. The switching circuit switches the illumination sources from series- to parallel-connection, or vice versa, when the applied input voltage crosses a threshold value in traversing the operating range of applied input voltages. Because the light emitting diodes within the illumination sources are switched from series to parallel connection at a defined kickover point, the voltage-luminance characteristic changes on opposite sides of the kickover point. The resulting overall voltage-luminance characteristic has greater variability in luminance across the entire operating range of applied input voltages, and luminance-variance is not limited to only a portion of the operating range.Type: GrantFiled: November 26, 2001Date of Patent: December 30, 2003Assignee: Aerospace Optics, Inc.Inventors: Don W. Guthrie, Craig Jay Coley
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Patent number: 6653798Abstract: Multi-color illumination for a single display is achieved by utilizing an array of white light emitting diodes to produce illumination optically filtered by separate filters to produce the two or more desired output illumination colors at a desired luminance when the full rated voltage is applied to the light emitting diodes. Since all of the light emitting diodes have the same bandgap, voltage-controlled dimming produces uniform luminance changes for all colors as the voltage is reduced. A single voltage-controlled dimming driver circuit design and a single control voltage may therefore be utilized to achieve desired and uniform dimming characteristics independent of output illumination color.Type: GrantFiled: September 7, 2001Date of Patent: November 25, 2003Assignee: Aerospace Optics, Inc.Inventors: Don W. Guthrie, Craig Jay Coley
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Patent number: 6650064Abstract: A zener diode is connected in parallel with sets of series-connected light emitting diodes with a reverse forward bias orientation. The threshold voltage of the zener diode is matched to equal, or be just slightly greater than, the forward voltage drops for the light emitting diodes at maximum current. During normal operation, therefore, the zener diode draws virtually no current. Upon failure of one of the light emitting diodes, the zener diode conducts without increase in the applied voltage, providing an alternate current path maintaining circuit integrity so that other sets of light emitting diodes connected in series within the circuit continue to illuminate.Type: GrantFiled: September 7, 2001Date of Patent: November 18, 2003Assignee: Aerospace Optics, Inc.Inventors: Don W. Guthrie, Craig Jay Coley
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Patent number: 6489728Abstract: To prevent inadvertent illumination of a light emitting diode (or set of light emitting diodes) by stray currents at extremely low levels, a quiescent current limiting resistive load is connected in parallel with the light emitting diode, sized to conduct a desired minimum current at the lowest forward voltage drop at which the light emitting diode is expected to properly illuminate. Rather than connecting the resistive load across the input/output ports of the driver circuit, in parallel with any biasing resistance and the light emitting diode, the load is connected directly in parallel with the light emitting diode. Additional current through the quiescent current limiting resistive load as the voltage across the input/output ports increase is thus effectively capped by the maximum forward voltage drop across the light emitting diodes.Type: GrantFiled: September 7, 2001Date of Patent: December 3, 2002Assignee: Aerospace Optics, Inc.Inventors: Don W. Guthrie, Craig Jay Coley
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Publication number: 20020047605Abstract: Illumination sources, each including at least one light emitting diode, are connected either in series or in parallel by a switching circuit, depending upon an applied input voltage. The switching circuit switches the illumination sources from series- to parallel-connection, or vice versa, when the applied input voltage crosses a threshold value in traversing the operating range of applied input voltages. Because the light emitting diodes within the illumination sources are switched from series to parallel connection at a defined kickover point, the voltage-luminance characteristic changes on opposite sides of the kickover point. The resulting overall voltage-luminance characteristic has greater variability in luminance across the entire operating range of applied input voltages, and luminance-variance is not limited to only a portion of the operating range.Type: ApplicationFiled: September 7, 2001Publication date: April 25, 2002Inventors: Don W. Guthrie, Craig Jay Coley
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Publication number: 20020047596Abstract: A zener diode is connected in parallel with sets of series-connected light emitting diodes with a reverse forward bias orientation. The threshold voltage of the zener diode is matched to equal, or be just slightly greater than, the forward voltage drops for the light emitting diodes at maximum current. During normal operation, therefore, the zener diode draws virtually no current. Upon failure of one of the light emitting diodes, the zener diode conducts without increase in the applied voltage, providing an alternate current path maintaining circuit integrity so that other sets of light emitting diodes connected in series within the circuit continue to illuminate.Type: ApplicationFiled: September 7, 2001Publication date: April 25, 2002Inventors: Don W. Guthrie, Craig Jay Coley
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Publication number: 20020047576Abstract: Multi-color illumination for a single display is achieved by utilizing an array of white light emitting diodes to produce illumination optically filtered by separate filters to produce the two or more desired output illumination colors at a desired luminance when the full rated voltage is applied to the light emitting diodes. Since all of the light emitting diodes have the same bandgap, voltage-controlled dimming produces uniform luminance changes for all colors as the voltage is reduced. A single voltage-controlled dimming driver circuit design and a single control voltage may therefore be utilized to achieve desired and uniform dimming characteristics independent of output illumination color.Type: ApplicationFiled: September 7, 2001Publication date: April 25, 2002Applicant: AEROSPACE OPTICS, INC.Inventors: Don W. Gurthrie, Craig Jay Coley
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Publication number: 20020047606Abstract: To prevent inadvertent illumination of a light emitting diode (or set of light emitting diodes) by stray currents at extremely low levels, a quiescent current limiting resistive load is connected in parallel with the light emitting diode, sized to conduct a desired minimum current at the lowest forward voltage drop at which the light emitting diode is expected to properly illuminate. Rather than connecting the resistive load across the input/output ports of the driver circuit, in parallel with any biasing resistance and the light emitting diode, the load is connected directly in parallel with the light emitting diode. Additional current through the quiescent current limiting resistive load as the voltage across the input/output ports increase is thus effectively capped by the maximum forward voltage drop across the light emitting diodes.Type: ApplicationFiled: September 7, 2001Publication date: April 25, 2002Applicant: AEROSPACE OPTICS, INC.Inventors: Don W. Guthrie, Craig Jay Coley
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Publication number: 20020047593Abstract: Illumination sources, each including at least one light emitting diode, are connected either in series or in parallel by a switching circuit, depending upon an applied input voltage. The switching circuit switches the illumination sources from series- to parallel-connection, or vice versa, when the applied input voltage crosses a threshold value in traversing the operating range of applied input voltages. Because the light emitting diodes within the illumination sources are switched from series to parallel connection at a defined kickover point, the voltage-luminance characteristic changes on opposite sides of the kickover point. The resulting overall voltage-luminance characteristic has greater variability in luminance across the entire operating range of applied input voltages, and luminance-variance is not limited to only a portion of the operating range.Type: ApplicationFiled: November 26, 2001Publication date: April 25, 2002Inventors: Don W. Guthrie, Craig Jay Coley