Patents by Inventor Arthur Padget
Arthur Padget 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: 12625843Abstract: Apparatus and associated methods relate to configure a reconfigurable device. In an illustrative example, a device programming module (DPM) of the reconfigurable device may receive a user input indicating a model number of a legacy device. The DPM, for example, may identify the user-selected functions based on a first set of rules to determine predetermined functions of the legacy device. The DPM, for example, may generate a binary machine instruction code to configure the reconfigurable device to perform the identified predetermined device functions. The DPM may then transmit the binary machine instruction code to the reconfigurable device such that the reconfigurable device is configured to operate as the legacy device identified. Various embodiments may advantageously eliminate a need for studying the complete functionalities of the legacy device before programming the reconfigurable device, and a need for assigning unique part numbers to replacements of the legacy devices.Type: GrantFiled: August 5, 2022Date of Patent: May 12, 2026Assignee: Banner Engineering Corp.Inventors: Abdi Amaro, Robb Weidemann, Arthur Padget
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Publication number: 20250310427Abstract: Apparatus and associated methods relate to a stackable distributed communication and control hub (DCCH) configured to provide a wide viewing angle for instantly inspecting multiple connections when multiple DCCHs are stacked. In an illustrative example, a DCCH may include multiple connection ports distributed on one or more edge surfaces. An offset bracket, for example, may couple two DCCHs, each at a coupling surface of the corresponding DCCH. Upon coupling, the DCCHs are held at substantially parallel planes. For example, a first DCCH is offset from a second DCCH in two directions. In a first direction, respective planes are offset along a vertical axis by a predetermined first offset. In a second direction, the DCCHs are offset by a predetermined second offset, orthogonal to the first direction. Various embodiments may advantageously allow visual status of the connection ports visible in at least one viewing angle along the vertical axis.Type: ApplicationFiled: June 12, 2025Publication date: October 2, 2025Applicant: Banner Engineering Corp.Inventors: Robert T. Fayfield, Sabrina Kawalec, Mark Rue, Paul Fabian, Arthur Padget, Charles Dolezalek, Luke Karnas, William Theunissen, David Franke, Robert Schlosser, Kent Dahlen, Matthew Schmitt, Nick Olsen
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Publication number: 20250265222Abstract: Apparatus and associated methods relate to configure a reconfigurable device. In an illustrative example, a device programming module (DPM) of the reconfigurable device may receive a user input indicating a model number of a legacy device. The DPM, for example, may identify the user-selected functions based on a first set of rules to determine predetermined functions of the legacy device. The DPM, for example, may generate a binary machine instruction code to configure the reconfigurable device to perform the identified predetermined device functions. The DPM may then transmit the binary machine instruction code to the reconfigurable device such that the reconfigurable device is configured to operate as the legacy device identified. Various embodiments may advantageously eliminate a need for studying the complete functionalities of the legacy device before programming the reconfigurable device, and a need for assigning unique part numbers to replacements of the legacy devices.Type: ApplicationFiled: August 5, 2022Publication date: August 21, 2025Applicant: Banner Engineering Corp.Inventors: Abdi Amaro, Robb Weidemann, Arthur Padget
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Patent number: 12363208Abstract: Apparatus and associated methods relate to a stackable distributed communication and control hub (DCCH) configured to provide a wide viewing angle for instantly inspecting multiple connections when multiple DCCHs are stacked. In an illustrative example, a DCCH may include multiple connection ports distributed on one or more edge surfaces. An offset bracket, for example, may couple two DCCHs, each at a coupling surface of the corresponding DCCH. Upon coupling, the DCCHs are held at substantially parallel planes. For example, a first DCCH is offset from a second DCCH in two directions. In a first direction, respective planes are offset along a vertical axis by a predetermined first offset. In a second direction, the DCCHs are offset by a predetermined second offset, orthogonal to the first direction. Various embodiments may advantageously allow visual status of the connection ports visible in at least one viewing angle along the vertical axis.Type: GrantFiled: November 8, 2024Date of Patent: July 15, 2025Assignee: Banner Engineering Corp.Inventors: Robert T. Fayfield, Sabrina Kawalec, Mark Rue, Paul Fabian, Arthur Padget, Charles Dolezalek, Luke Karnas, William Theunissen, David Franke, Robert Schlosser, Kent Dahlen, Matthew Schmitt, Nick Olsen
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Publication number: 20250071193Abstract: Apparatus and associated methods relate to a stackable distributed communication and control hub (DCCH) configured to provide a wide viewing angle for instantly inspecting multiple connections when multiple DCCHs are stacked. In an illustrative example, a DCCH may include multiple connection ports distributed on one or more edge surfaces. An offset bracket, for example, may couple two DCCHs, each at a coupling surface of the corresponding DCCH. Upon coupling, the DCCHs are held at substantially parallel planes. For example, a first DCCH is offset from a second DCCH in two directions. In a first direction, respective planes are offset along a vertical axis by a predetermined first offset. In a second direction, the DCCHs are offset by a predetermined second offset, orthogonal to the first direction. Various embodiments may advantageously allow visual status of the connection ports visible in at least one viewing angle along the vertical axis.Type: ApplicationFiled: November 8, 2024Publication date: February 27, 2025Inventors: Robert T. Fayfield, Sabrina Kawalec, Mark Rue, Paul Fabian, Arthur Padget, Charles Dolezalek, Luke Karnas, William Theunissen, David Franke, Robert Schlosser, Kent Dahlen, Matthew Schmitt, Nick Olsen
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Patent number: 12184750Abstract: Apparatus and associated methods relate to a stackable distributed communication and control hub (DCCH) configured to provide a wide viewing angle for instantly inspecting multiple connections when multiple DCCHs are stacked. In an illustrative example, a DCCH may include multiple connection ports distributed on one or more edge surfaces. An offset bracket, for example, may couple two DCCHs, each at a coupling surface of the corresponding DCCH. Upon coupling, the DCCHs are held at substantially parallel planes. For example, a first DCCH is offset from a second DCCH in two directions. In a first direction, respective planes are offset along a vertical axis by a predetermined first offset. In a second direction, the DCCHs are offset by a predetermined second offset, orthogonal to the first direction. Various embodiments may advantageously allow visual status of the connection ports visible in at least one viewing angle along the vertical axis.Type: GrantFiled: October 21, 2022Date of Patent: December 31, 2024Assignee: Banner Engineering Corp.Inventors: Robert T. Fayfield, Sabrina Kawalec, Mark Rue, Paul Fabian, Arthur Padget, Charles Dolezalek, Luke Karnas, William Theunissen, David Franke, Robert Schlosser, Kent Dahlen, Matthew Schmitt, Nick Olsen
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Publication number: 20240340361Abstract: Apparatus and associated methods relate to a dynamically reconfigurable distributed communication and control hub (DCCH) configured to identify and configure its multiple connection ports independently and automatically. In an illustrative example, the DCCH may include a controller circuit and multiple independent reconfigurable connection ports (IRCPs). For example, the DCCH may be connected to multiple edge devices and controllers at the IRCPs. The edge devices and controllers may use different communication protocols. Upon receiving a signal at a IRCP, for example, the control circuit may retrieve a first predetermined set of rules to determine whether the IRCP is to be operated as a master port, a slave port, or a pass-through port. Based on a second set of rules, for example, the control circuit may determine a communication protocol of the IRCP. Various embodiments may advantageously avoid human intervention in setting up each of the multiple IRCPs of the DCCH.Type: ApplicationFiled: October 21, 2022Publication date: October 10, 2024Applicant: Banner Engineering Corp.Inventors: Robert T. Fayfield, Sabrina Kawalec, Mark Rue, Paul Fabian, Arthur Padget, Charles Dolezalek, Luke Karnas, William Theunissen, David Franke, Robert Schlosser, Kent Dahlen, Matthew Schmitt, Nick Olsen
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Publication number: 20230064350Abstract: Apparatus and associated methods relate to detection systems with chatter-mitigated output indication. In an illustrative example, a sensor may generate a detection signal as a function of a physical relationship of a target to the sensor. A control circuit may, for example, generate a control signal in response to the detection signal and as a function of a predetermined indication response profile defining a transition threshold for each of multiple nominal transition points. A light-emitting indicator array may, for example, generate spatially distributed indication in response to the control signal. The indication may, for example, change from a first spatial distribution to a second spatial distribution in response to the detection signal crossing a first nominal transition point by at least a corresponding transition threshold (?1i). Various embodiments may, for example, advantageously prevent the visual indication from responding to perturbations in the detection signal.Type: ApplicationFiled: August 30, 2022Publication date: March 2, 2023Applicant: Banner Engineering Corp.Inventors: Chunmei Kang, Amanda Nelson, Brad Ragozzino, William Theunissen, Arthur Padget, Robb Weidemann