Patent application number | Description | Published |
20080253086 | Thermal cooling of industrial electronic module by conductive structure - An electronic module and chassis/module installation and cooling method are disclosed. The installation comprises a chassis including a metallic heat input region. An electronic module including an electronic component is adapted to be connected to the chassis. An uninterrupted thermal pathway thermally connects the electronic component of the module to the heat input region of the chassis. The thermal pathway comprises a chimney, a heat channel thermally connected to the chimney, and a heat output block thermally connected to the heat channel. A first electrically insulative non-metallic layer thermally couples the chimney to the electronic component. A second electrically insulative non-metallic layer thermally couples the heat output block to the chassis heat input region. | 10-16-2008 |
20090008880 | INDUSTRIAL AUTOMATION INPUT OUTPUT MODULE WITH ELASTOMERIC SEALING - An industrial automation input output module is protected against ingress of water, oil, debris, dirt and other contaminants without use of a potting compound. An elastomeric main seal provides a fluid-tight connection between inter-fitted inner and outer housing members that define a housing of the module. The one-piece main seal includes an integral light pipe portion with at least one light pipe that communicates light from an LED or other light source to a visual indicator opening in the housing, and the light pipe portion is also sealed to the housing to prevent ingress of contaminants through the visual indicator opening. Connectors pass through a wall of the housing and connector seals are used to prevent ingress of contaminants between the connectors and the housing. The connectors are also secured against rotation relative to the housing. | 01-08-2009 |
20090125156 | ENERGY STORAGE MODULE - An industrial automation controller module includes a main module and an energy storage module (ESM) releasably connected to the main module. The ESM includes a back-up electrical power source such as a battery or a capacitor that is electrically connected to processor circuitry of the main module when the ESM is physically connected to the main module. In case of interruption of operating power to the processor circuitry of the main module, the back-up power source of the ESM supplies back-up power to the main module to allow for completion of an emergency save operation to save data to non-volatile memory in the main module. If the ESM includes a capacitor back-up power source, it is charged by the main module and the capacitor charge is dissipated if the ESM is separated from the main module. In all cases, the ESM can include one or more configuration parameters stored therein that allow the main module to validate (or not) the ESM for the requirements of the main module, with respect to type of back-up power source, product code or model, capacity of back-up power source, and the like. The main module can also initiate periodic testing of the back-up power source of the ESM. | 05-14-2009 |
20090152821 | INDUSTRIAL AUTOMATION INPUT OUTPUT MODULE WITH ELASTOMERIC SEALING - An industrial automation input output module is protected against ingress of water, oil, debris, dirt and other contaminants without use of a potting compound. An elastomeric main seal provides a fluid-tight connection between inter-fitted inner and outer housing members that define a housing of the module. The one-piece main seal includes an integral light pipe portion with at least one light pipe that communicates light from an LED or other light source to a visual indicator opening in the housing, and the light pipe portion is also sealed to the housing to prevent ingress of contaminants through the visual indicator opening. Connectors pass through a wall of the housing and connector seals are used to prevent ingress of contaminants between the connectors and the housing. The connectors are also secured against rotation relative to the housing. | 06-18-2009 |
20100314522 | INTEGRATED DIN RAIL ATTACHMENT FEATURE FOR SUPERIOR ATTACHMENT - An electronics module includes a base and a cover connected to the base. The base includes a recess adapted to receive an associated mounting rail. At least one fixed rail constraining tab is located adjacent a first edge of the recess and is adapted to engage a first flange of the associated mounting rail. First and/or second latch arms are located adjacent a second edge of the recess that is opposite the first edge of the recess. The first and second latch arms are connected to a fixed portion of the second edge and project outwardly relative to opposite lateral sides of the fixed portion. Each of the first and second latch arms includes a rail capture tab. The first and second latch arms are selectively movable resiliently to and from latched and unlatched positions, wherein the rail capture tabs of the first and second latch arms project beyond the fixed portion of the second edge and into the recess when the first and second latch arms are located in their respective latched positions, and wherein the rail capture tabs of the first and second latch arms are withdrawn relative to the fixed portion of the second edge when the first and second latch arms are located in their respective unlatched positions. The cover or other portion of the module defines first and second receiving locations that receive and retain portions of the first and second latch arms when the first and second latch arms are located in their respective latched positions. | 12-16-2010 |
20110002100 | OVERMOLDED ELECTRONICS ENCLOSURE - An enclosure for electronics includes a body with a metal component and a polymeric component overmolded onto the metal component so as to be connected to the metal component without fasteners. The body defines a recess. A heat sink is defined in the metal component. A printed circuit board is located in the recess and includes a plurality of electronic components mounted thereon. The polymeric component includes at least one attachment feature that captures the printed circuit board at a select location in the recess such that: (i) at least a first one of the electronic components is electrically connected to a contact region of the metal component that is exposed through a portion of said polymeric component; (ii) at least a second one of the electronic components is electrically isolated from the metal component by an electrical isolation zone of the polymeric component; and (ii) at least a third one of the electronic components is located adjacent a thermal transfer region of the metal component that underlies the heat sink. The thermal transfer region is uncovered by the polymeric component so as to be exposed in the recess. | 01-06-2011 |
20110229124 | SERIAL OPTICAL DATA TRANSMISSION SYSTEM WITH DISPLACEABLE OPTICAL PATHWAY - A serial optical data transmission system is provided. The serial optical data transmission system includes a displaceable optical pathway disposed adjacent to a slot configured to receive a first monitoring and/or control module. The optical pathway is biased towards a serial optical data bus position for transmission of optical data to or from at least one second monitoring and/or control module when the first monitoring and/or control module is removed from the slot. Further, the optical pathway is displaced from the serial optical data bus position when the first monitoring and/or control module is in the slot. | 09-22-2011 |
20120043378 | Automation Control System Components with Electronic Keying Features - Systems and methods are provided for utilizing electronic keying features stored within one of the components (e.g., I/O modules, terminal blocks, bases, and so forth) of I/O devices, and which may be read or detected by electronic key identification circuitry in one of the other components of the I/O devices. More specifically, the electronic keying features may include unique identification keys that may be read or detected by the electronic key identification circuitry to determine whether the components (e.g., a paired I/O module and terminal block) are associated with each other and intended to operate together. For example, in certain embodiments, the electronic key feature may be disposed within a terminal block and the electronic key identification circuitry may be disposed within an I/O module, or vice versa. In addition, in certain embodiments, the electronic key feature and/or the electronic key identification circuitry may be removable from their respective component of the I/O device. | 02-23-2012 |
20120044082 | Input/Output Circuits and Devices Having Physically Corresponding Status Indicators - Systems and methods are provided for aligning status indicators on a terminal block of an I/O device by locating the status indicators directly adjacent to or integrated directly within their respective terminals on the terminal block. The status indicators are illuminated by LEDs or other light emitters disposed within a housing of the I/O device. Light from the LEDs are directed to the status indicators by light pipes disposed within the housing of the I/O device. LED activation circuitry disposed within the housing determines a manner in which to activate the LEDs to illuminate the status indicators based on inputs and outputs between the I/O device and a controlled process. In certain embodiments, the status indicators are disposed on a raised section of the I/O device, which may be part of a removable LED indication assembly including the LEDs, light pipes, and LED activation circuitry. | 02-23-2012 |
20120044083 | Input/Output Circuits and Devices Having Physically Corresponding Status Indicators - Systems and methods are provided for aligning status indicators on a terminal block of an I/O device by locating the status indicators directly adjacent to or integrated directly within their respective terminals on the terminal block. The status indicators are illuminated by LEDs or other light emitters disposed within a housing of the I/O device. Light from the LEDs are directed to the status indicators by light pipes disposed within the housing of the I/O device. LED activation circuitry disposed within the housing determines a manner in which to activate the LEDs to illuminate the status indicators based on inputs and outputs between the I/O device and a controlled process. In certain embodiments, the status indicators are disposed on a raised section of the I/O device, which may be part of a removable LED indication assembly including the LEDs, light pipes, and LED activation circuitry. | 02-23-2012 |
20120045913 | SYSTEMS AND METHODS FOR COUPLING INPUT/OUTPUT DEVICES - An input/output (I/O) device for an automation control system includes a base portion configured to communicatively connect the I/O device with at least one other I/O device, an I/O module physically and communicatively connected to the base portion and comprising I/O communication circuitry, a terminal block physically and communicatively connected to the base portion, and an ejection device configured to eject the I/O module or the terminal block from the base portion by pushing the I/O module or the terminal block out of engagement with the base portion when activated. | 02-23-2012 |
20120045940 | TORSIONAL CONTACT DEVICE AND METHOD FOR ELECTRONICS MODULE - A torsional electrical contact includes a body comprising a helix including N helical turns around a longitudinal axis, wherein N≧1. The body further includes first and second opposite ends that are spaced longitudinally from each other. First and second contact arms extend outwardly away from the helix at the opposite first and second ends of the body, respectively. The first and second contact arms include respective distal ends defined by a part of the contact arm that is located a maximum orthogonal distance from the longitudinal axis. The first and second arms define a contact angle α measured between a first reference plane in which the longitudinal axis lies and that intersects the distal end of the first contact arm and a second reference plane in which the longitudinal axis lies and that intersects the distal end of the second contact arm. At least one of the first and second contact arms is selectively resiliently movable toward the other of the first and second contact arms to reduce the contact angle α. One or more contacts are installed in a module and/or connected to an electronic component. A module including first and second contacts can be configured in a first condition in which the contacts are connected directly to each other or a second condition in which the contacts are engaged with respective parts of a circuit board or other component inserted into the housing. | 02-23-2012 |
20120045947 | INPUT/OUTPUT MODULE BUS CONTACT SYSTEM AND METHOD - Present embodiments include an automation control system that includes an input/output device module with a device bus therein. The input/output module also includes a first bus contact on a first side of the input/output device module and communicatively coupled with a first end of the device bus, and a second bus contact on a second side of the input/output device module and communicatively coupled with a second end of the device bus. The second side generally faces an opposite direction from the first side and the input/output device module is configured to be coupled with additional input/output device modules positioned on the first and second sides of the input/output device module via the first and second bus contacts. Further, the first and second bus contacts are positioned on non-lateral surfaces of the input/output device module, the first and second contacts include spring-loaded connectors, the first and second contacts include two-prong or three-prong forks, or the input/output device module is a terminal block. | 02-23-2012 |
20120083141 | CONTACT DEVICE AND METHOD FOR INSERTION AND REMOVAL OF DEVICE UNDER POWER WITHOUT INTERRUPTION - A contact device enables a contact method for RIUP operations relative to a backplane. The contact device includes first and second contact portions, each including first and second spaced-apart contact arms. The first and second contact portions are located relative to each other on the backplane such that when the contact device is in a first operative condition, the respective first contact arms abut each other and define a first electrical conduction path and the second contact arms are spaced from each other. The device is selectively movable to a second operative condition when an associated circuit board or other removable device is inserted into a slot defined between the second contact arms such that outer ends of the respective first contact arms of the first and second contact portions are moved apart and are separated by the removable device and the outer ends of the second contact arms are electrically connected through the associated removable device so that a second electrical conduction path is defined by the respective second contact arms. A contact method using the contact device and a backplane including the contact device are disclosed. | 04-05-2012 |
20120083165 | NOVEL CONTACT CONFIGURATION FOR ELECTRONICS TO BASE CONNECTION - An electronics circuit board includes a periphery defined by a plurality of edges. At least one power contact is located adjacent a first one of said edges and a plurality of data contacts are located adjacent a second one of said edges. The first and second edges are arranged transversely relative to each other. The circuit board is operatively installed on a base that includes a power connector and a data connector. At least one power contact of the circuit board is operably engaged with the power connector and the plurality of data contacts of the circuit board are operably engaged with said data connector. The power connector is located adjacent said first edge of the circuit board and the data connector is located adjacent a second edge of the circuit board. | 04-05-2012 |
20130087665 | DISPLAY MOUNTING TECHNIQUES - The disclosed subject matter comprises a display retention bracket (DRB) that can be attached to, and can retain and horizontally mount, a display using display retention components, without using fasteners, for insertion of the display in a bezel that does not support horizontal mounting; and includes: a cable retention component that enables the cable to withstand a specified pull-out force to maintain connection of the cable to the display; a cable guide to maintain cable wires in a desired position in relation to other components; alignment pins to align the DRB and display with a bezel housing; non-symmetrical tabs to ensure the display is oriented correctly; offset columns that desirably offset loads on the display when an adapter plate is applied onto the DRB and display, and fastened to the bezel to secure the display; and a ground clip to extend the ground path from the bezel to the display. | 04-11-2013 |
20140065863 | SYSTEMS AND METHODS FOR COUPLING INPUT/OUTPUT DEVICES - An input/output (I/O) device for an automation control system includes a base portion configured to communicatively connect the I/O device with at least one other I/O device, an I/O module physically and communicatively connected to the base portion and comprising I/O communication circuitry, a terminal block physically and communicatively connected to the base portion, and an ejection device configured to eject the I/O module or the terminal block from the base portion by pushing the I/O module or the terminal block out of engagement with the base portion when activated. | 03-06-2014 |