Patents by Inventor David William GILPIN
David William GILPIN 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: 10565488Abstract: A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.Type: GrantFiled: August 14, 2018Date of Patent: February 18, 2020Assignee: INTERMEC, INC.Inventors: Gregory Alan Raven, Jason Harrigan, Rene Martinez, Pavel Nikitin, Shashidhar Ramamurthy, David William Gilpin, Stephen Kelly
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Publication number: 20190005370Abstract: A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.Type: ApplicationFiled: August 14, 2018Publication date: January 3, 2019Applicant: INTERMEC, INC.Inventors: Gregory Alan RAVEN, Jason HARRIGAN, Rene MARTINEZ, Pavel NIKITIN, Shashidhar RAMAMURTHY, David William GILPIN, Stephen KELLY
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Patent number: 10062026Abstract: A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.Type: GrantFiled: January 6, 2017Date of Patent: August 28, 2018Assignee: INTERMEC, INC.Inventors: Gregory Alan Raven, Jason Harrigan, Rene Martinez, Pavel Nikitin, Shashidhar Ramamurthy, David William Gilpin, Stephen Kelly
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Publication number: 20170116506Abstract: A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.Type: ApplicationFiled: January 6, 2017Publication date: April 27, 2017Applicant: INTERMEC, INC.Inventors: Gregory Alan RAVEN, Jason HARRIGAN, Rene MARTINEZ, Pavel NIKITIN, Shashidhar RAMAMURTHY, David William GILPIN, Stephen KELLY
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Patent number: 9542637Abstract: A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.Type: GrantFiled: December 2, 2015Date of Patent: January 10, 2017Assignee: INTERMEC, INC.Inventors: Gregory A. Raven, Jason Harrigan, Rene Martinez, Pavel Nikitin, Shashidhar Ramamurthy, David William Gilpin, Stephen Kelly
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Publication number: 20160189022Abstract: A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.Type: ApplicationFiled: December 2, 2015Publication date: June 30, 2016Inventors: Gregory A. RAVEN, Jason HARRIGAN, Rene MARTINEZ, Pavel NIKITIN, Shashidhar RAMAMURTHY, David William GILPIN, Stephen KELLY