Patent application number | Description | Published |
20130194809 | LIGHTING ASSEMBLY WITH CORNUATE LIGHT GUIDE - A lighting assembly that includes a cornuate light guide and an annular light extracting and redirecting member. The light guide has a radial light input surface, an axial light input region, radial light output region and a flared region between input region and output region. Light input at the light input surface propagates to and within the light output region by total internal reflection at major surfaces of the light guide. The light extracting and redirecting member has a light extracting element in optical contact with an annular region of one of the major surfaces of the light output region, and a reflective light redirecting element to axially redirect the extracted light with a defined light ray angle distribution. | 08-01-2013 |
20130215122 | DISPLAY APPARATUS WITH LIGHT GUIDE BASED SOLAR CONCENTRATOR - A display apparatus includes a display, a primary light concentrator, a concentrator light guide, and a solar cell. The primary light concentrator is arranged in tandem with the display, and the primary light concentrator is configured to concentrate incident light into an array of output regions. The concentrator light guide receives light from the primary light concentrator. The concentrator light guide includes light redirecting elements aligned with the output regions of the primary light concentrator to redirect light from the primary light concentrator along the concentrator light guide toward an edge thereof. The solar cell is located adjacent the edge of the concentrator light guide. | 08-22-2013 |
20130322076 | LIGHT BULB WITH PLANAR LIGHT GUIDES - A light bulb includes light guides extending in a direction having a radial component with respect to a longitudinal axis, each light guide including a light input edge, opposed major surfaces, and light extracting elements at least one of the opposed major surfaces. In one embodiment, the light guides are disposed about an axial heat sink, and for each light guide, a respective light source is mounted to the axial heat sink to edge light the light guide such that light from the light source propagates in the light guide by total internal reflection. In another embodiment, a housing is at an end of the light guides, and for each light guide, a respective light source is mounted to the housing to edge light the light guide such that light from the light source propagates in the light guide by total internal reflection. | 12-05-2013 |
20140092580 | LED LAMP AND LED LIGHTING ASSEMBLY - An LED lamp or LED lighting assembly includes a light guide having opposed major surfaces configured to propagate light by total internal reflection and a light input edge extending between the major surfaces. A light source is adjacent to the light input edge and is configured to edge light the light guide. In some embodiments, the light source is moveable relative to the light input edge, and the spectrum of the light output from the light guide may be adjusted by movement of the light source relative to the light input edge. | 04-03-2014 |
20140092590 | LED FLASHLIGHT - A flashlight includes first and second solid-state light sources, a collimating optical element, and a light guide. Light output by the first light source interacts with the collimating optical element to output a light from the flashlight along an optical axis of the collimating optical element. The light guide includes an outer major surface, a first end, a second end, a longitudinal axis extending between the first end and the second end, and a light input edge at the first end. Light from the second light source is input to the light guide at the light input edge and propagates in the light guide by total internal reflection. The light guide additionally includes light extracting elements to extract light from the light guide with a radial component relative to the longitudinal axis and the optical axis. | 04-03-2014 |
20140153282 | LIGHTING ASSEMBLY WITH A LIGHT GUIDE HAVING LIGHT-REDIRECTING EDGE FEATURES - A lighting assembly includes a light source to emit on-axis light rays at smaller angles relative to an optical axis of the light source, and off-axis light rays at larger angles relative to the optical axis and spectrally different from the on-axis light rays. The lighting assembly additionally includes a light guide having a light input edge adjacent the light source and opposed major surfaces between which light from the light source propagates by total internal reflection. The light input edge has an edge feature aligned with the light source to receive light therefrom. The edge feature specularly redirects the on-axis light rays and the off-axis light rays differently to increase overlap between the on-axis light rays and the off-axis light rays within the light guide. The increased overlap reduces spatial color variation of light extracted from the light guide between locations at different angles from the optical axis. | 06-05-2014 |
Patent application number | Description | Published |
20100172372 | INDUSTRIAL ETHERNET COMMUNICATIONS ADAPTER - Communications adapters and methods are provided for interfacing communications for an EtherNet/Ip or other general purpose industrial network, a Fieldbus or other open protocol device network, and a PointBus or other proprietary network. The adapter may be integrated in a module of a backplane system with connections to the general purpose, proprietary, and open protocol device networks, and provides a bridging for communications across the networks to make devices on the proprietary and open protocol networks accessible as if they were on a single device network and with sequential addressing capabilities. | 07-08-2010 |
20100293307 | PROGRAMMABLE ROUTING MODULE - A programmable routing module is disclosed for interconnecting field wiring with a control system. The routing module includes a field connection to connect field signals from a controlled process to the routing module, an I/O connection to connect I/O signals from the control system to the routing module, and a configurable interconnection system that selectively couples particular field and I/O signals with one another. | 11-18-2010 |
20110320028 | SIGHT-LINE NON CONTACT COUPLED WIRELESS TECHNOLOGY - Control systems and methods are disclosed for controlling operation of movable systems in an automated process with a stationary system having a first control system component and at least one movable system having a second control system component, in which optical or other non-contacting signaling between the stationary and movable systems is used to ascertain whether a movable system is proximate the stationary system, and wireless communications is used to transfer control data between the systems while the non-contacting signal link is maintained. | 12-29-2011 |
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 |
20120043830 | ADAPTABLE AUTOMATION CONTROL MODULE WITH INTEGRATED POWER BUS DISTRIBUTOR - Present embodiments include an adaptable automation control component that includes a base capable of communicatively coupling with a system bus and with a functional module that includes communication and control circuitry. The adaptable automation control component also includes a device power bus including electrical contacts that are capable of communicatively coupling the adaptable automation control component with a separate automation control component, and an activation mechanism including circuitry capable of continuing the device power bus when the activation mechanism is engaged, and capable of discontinuing the device power bus when the activation mechanism is disengaged. The adaptable automation control component facilitates functionality of the adaptable automation control component as an input/output module or a power distribution module depending on whether the activation mechanism is engaged or disengaged. | 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 |
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 |
20120047288 | Input/Output Devices Having Re-Configurable Functionality - Systems and methods provide re-configurable functionality within components of I/O devices without the need of disconnecting the components from each other. For example, in certain embodiments, when certain types of components are connected to each other, certain functionality sets within the components may be activated to provide combined functionality sets between the components. The combined functionality sets may, for example, be preferred functionality sets to be used when the particular types of components are connected to each other. Furthermore, in certain embodiments, functionality activation keys may be physically inserted into (or electronically communicated to) the components of the I/O device to activate certain functionality sets within the component into which the functionality activation key is inserted (or electronically communicated to), as well as within the other components of the I/O device to which the component is connected. | 02-23-2012 |
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 |
20150237759 | ADAPTABLE AUTOMATION CONTROL MODULE WITH INTEGRATED POWER BUS DISTRIBUTOR - Present embodiments include an adaptable automation control component that includes a base capable of communicatively coupling with a system bus and with a functional module that includes communication and control circuitry. The adaptable automation control component also includes a device power bus including electrical contacts that are capable of communicatively coupling the adaptable automation control component with a separate automation control component, and an activation mechanism including circuitry capable of continuing the device power bus when the activation mechanism is engaged, and capable of discontinuing the device power bus when the activation mechanism is disengaged. The adaptable automation control component facilitates functionality of the adaptable automation control component as an input/output module or a power distribution module depending on whether the activation mechanism is engaged or disengaged. | 08-20-2015 |
20150243153 | 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. | 08-27-2015 |
20150253754 | 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. | 09-10-2015 |
20150347161 | INPUT/OUTPUT DEVICES HAVING RECONFIGURABLE FUNCTIONALITY - Systems and methods provide re-configurable functionality within components of I/O devices without the need of disconnecting the components from each other. For example, in certain embodiments, when certain types of components are connected to each other, certain functionality sets within the components may be activated to provide combined functionality sets between the components. The combined functionality sets may, for example, be preferred functionality sets to be used when the particular types of components are connected to each other. Furthermore, in certain embodiments, functionality activation keys may be physically inserted into (or electronically communicated to) the components of the I/O device to activate certain functionality sets within the component into which the functionality activation key is inserted (or electronically communicated to), as well as within the other components of the I/O device to which the component is connected. | 12-03-2015 |