Patents by Inventor Richard Teltz
Richard Teltz 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: 8802991Abstract: A power adaptor for portable electronic devices is positionable in an operational position and a travel position. In an operational position, an AC power connector is exposed for mating with a wall power plug. A DC power cable is extended from a spool. In a closed position, the AC power connector is retracted or removed. The DC power cable is wound around a spool and a cap is positioned thereon to cover the spool and DC power cable. What results is a sleek, featureless, outer surface in a closed position that makes the power adaptor easily stowed and transported.Type: GrantFiled: June 2, 2010Date of Patent: August 12, 2014Assignee: Flextronics AP, LLCInventors: Fang Hua, Richard Teltz
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Patent number: 8732373Abstract: Systems and methods related to the user interface of docking portable electronic devices. A master device may be docked with a slave device to control operation of the slave device. The master device may be operable to display a user interface. The user interface of the master device may be adapted to be used with the slave device that may include different display and/or input devices than that of the master device. In one embodiment, the master device may be a handheld device such as a smart phone and the slave device may be a tablet device.Type: GrantFiled: October 3, 2011Date of Patent: May 20, 2014Assignee: Z124Inventors: Sanjiv Sirpal, Brian Reeves, Paul Reeves, Rodney Schrock, David Reeves, Richard Teltz, Kean Wing Kin Lam
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Patent number: 8683496Abstract: Cross-environment rendering and user interaction support provide a seamless computing experience in a multi-operating system computing environment. The multi-operating system computing environment may include a mobile operating system and a desktop operating system running concurrently and independently on a mobile computing device. Full user interaction support is provided for redirected and/or mirrored applications that are rendered using an extended graphics context. An extended input queue handles input events from virtual input devices for remotely displayed applications. Remotely displayed applications are mapped to separate motion spaces within the input queue. The mobile computing device may be a smartphone running the Android mobile operating system and a full desktop Linux distribution on a modified Android kernel.Type: GrantFiled: September 28, 2011Date of Patent: March 25, 2014Assignee: Z124Inventors: Brian Reeves, Paul E. Reeves, Richard Teltz, David Reeves, Sanjiv Sirpal, Chris Tyghe
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Publication number: 20130319032Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger, powered by a variety of power sources, adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: October 25, 2012Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, Michael J. Flynn, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319243Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. Fans, valves, and manifolds are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. The airflow within the chamber and/or each tray is altered depending upon the settings of configurable airflow manifolds. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: October 25, 2012Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, Michael J. Flynn, Richard Teltz, Gary Fong, Kean Wing Kin Lam
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Publication number: 20130319226Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A media material absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. The configuration of the media material enables maximal water extraction and is dynamically configurable. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: December 4, 2012Publication date: December 5, 2013Applicant: Z124Inventors: Charles Becze, James Ball, David Blatt, Michael J. Flynn, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319233Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. A heat source adds heat to the chamber before and/or during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: October 25, 2012Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, Michael J. Flynn, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319021Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to dynamically control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: October 25, 2012Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, Michael J. Flynn, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319246Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: October 25, 2012Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, Michael J. Flynn, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319245Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: October 25, 2012Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, Michael J. Flynn, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319022Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: December 4, 2012Publication date: December 5, 2013Applicant: Z124Inventors: Charles Becze, James Ball, David Blatt, Michael J. Flynn, Gary Fong, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319023Abstract: A method to recover water from the atmosphere is provided. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: December 13, 2012Publication date: December 5, 2013Applicant: Z124Inventors: Charles Becze, James Ball, David Blatt, Michael J. Flynn, Richard Teltz
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Publication number: 20130318790Abstract: A device recovers water from an ambient airstream. The device includes a chamber having a group of trays that hold respective amounts of liquid desiccant. A foam media element in each tray absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and control device operation. The desiccant trays may be selectively configurable in an array to best suit the intended installation. The trays may be arranged in column and row configurations, along with adjustable airflow patterns between each of the trays.Type: ApplicationFiled: December 20, 2012Publication date: December 5, 2013Applicant: Z124Inventors: Charles Becze, James Ball, David Blatt, Michael J. Flynn, Richard Teltz
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Publication number: 20130319244Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: June 3, 2013Publication date: December 5, 2013Applicant: Z124Inventors: James Ball, Charles Becze, David Blatt, Michael Flynn, Richard Teltz
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Publication number: 20130319033Abstract: A system and method recover water from an ambient airstream. Dehumidification of the airstream is also achieved by removal of the water. A device of the system includes a chamber having a group of trays that hold respective amounts of liquid desiccant in each tray, the concentration of the liquid desiccant may be dynamically changed based on changes within the system. A foam media absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. A controller is used to integrate and manage all system functions and input variables to achieve a high efficiency of operational energy use for water collection.Type: ApplicationFiled: December 4, 2012Publication date: December 5, 2013Applicant: Z124Inventors: Charles Becze, James Ball, David Blatt, Michael J. Flynn, Gary Fong, Kean Wing Kin Lam, Richard Teltz
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Publication number: 20130319250Abstract: A device recovers water from an ambient airstream. The device includes a chamber having a group of trays that hold respective amounts of liquid desiccant. A foam media element in each tray absorbs the desiccant to increase an exposed surface of the desiccant to the airstream. Fans and valves are used to control airflow through the device. A charge cycle circulates air through the device to remove water vapor from the airstream. A subsequent extraction cycle removes water collected in the liquid desiccant by a condenser communicating with the chamber. An integral heat exchanger adds heat to the chamber during the extraction cycle. A controller is used to integrate and control device operation. The desiccant trays may be selectively configurable in an array to best suit the intended installation. The trays may be arranged in column and row configurations, along with adjustable airflow patterns between each of the trays.Type: ApplicationFiled: December 13, 2012Publication date: December 5, 2013Applicant: Z124Inventors: Charles Becze, James Ball, David Blatt, Michael J. Flynn, Richard Teltz
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Publication number: 20130275642Abstract: A multi-display device can interface with two or more different types of docking stations. The device can determine the type of dock and change the pin outs for a connector to interface with that dock. Once docked, the device can determine a charge status for the device and the dock to present the status to the user. Further, the dock can enter one of several modes, including a call receipt mode and an entertainment mode. The modes allow for expanded functionality for the device while docked. Two particular docks, the laptop dock and the smart dock, provide special functionality with the device.Type: ApplicationFiled: March 15, 2013Publication date: October 17, 2013Inventor: Richard Teltz
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Publication number: 20130275643Abstract: A multi-display device can interface with two or more different types of docking stations. The device can determine the type of dock and change the pin outs for a connector to interface with that dock. Once docked, the device can determine a charge status for the device and the dock to present the status to the user. Further, the dock can enter one of several modes, including a call receipt mode and an entertainment mode. The modes allow for expanded functionality for the device while docked. Two particular docks, the laptop dock and the smart dock, provide special functionality with the device.Type: ApplicationFiled: March 15, 2013Publication date: October 17, 2013Inventor: Richard Teltz
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Patent number: D687858Type: GrantFiled: November 18, 2011Date of Patent: August 13, 2013Assignee: Z124Inventors: Brian Reeves, Richard Teltz
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Patent number: D697083Type: GrantFiled: November 18, 2011Date of Patent: January 7, 2014Assignee: Z124Inventors: Brian Reeves, Richard Teltz