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Coleman, NC
Carleton Coleman, Durham, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20080231201 | LED LIGHTING FIXTURE - A light-emitting diode (LED) lighting fixture is provided as a potential solid state lighting (SSL) replacement fixture for a conventional HID lamp fixture. The LED lighting fixture includes a main housing having a bottom surface supporting an array of LEDs, a top surface and sides, and at least one driver provided in a side housing attached to a side of the main housing to drive the LED array. The thickness of the side housing is equal to or greater than the thickness of the main housing. A plurality of heat spreading fins is arranged on the top surface of the main housing. | 09-25-2008 |
| 20110069488 | LED LIGHTING FIXTURE - A light-emitting diode (LED) lighting fixture is provided as a potential solid state lighting (SSL) replacement fixture for a conventional HID lamp fixture. The LED lighting fixture includes a main housing having a bottom surface supporting an array of LEDs, a top surface and sides, and at least one driver provided in a side housing attached to a side of the main housing to drive the LED array. The thickness of the side housing is equal to or greater than the thickness of the main housing. A plurality of heat spreading fins is arranged on the top surface of the main housing. | 03-24-2011 |
Casey A. Coleman, Hickory, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20100054690 | Flame-retardant fiber optic assemblies - Disclosed are fiber optic cable assemblies having a composite covering disposed about a portion of a transition location for providing a fiber optic assembly suitable for indoor or indoor/outdoor applications. The composite covering provides a combination of an underlying heat dissipative structure, such as a metal foil along with a high temperature capable substrate, such as mica, thereby providing the desired characteristics for indoor or indoor/outdoor use that a single layer of either material is incapable of providing. The covering may also include an optional flame-retardant wrap as an outer portion for sealing and/or mechanical protection. | 03-04-2010 |
| 20100080516 | Retention Bodies for Fiber Optic Cable Assemblies - Retention bodies for securing a fiber optic cable thereto for optical connectorization are disclosed along with fiber optic cable assemblies. The fiber optic cable is inserted into a passage of the retention body and secured to the same using a bonding agent and/or a mechanical element. The rear end opening of the passage is configured for inserting and securing an end portion of the fiber optic cable having at least one strength component and a portion of a cable jacket. Additionally, the retention body has a buckling chamber disposed within the retention body passage for accommodating movement of optical fiber. | 04-01-2010 |
| 20100080525 | Retention Bodies for Fiber Optic Cable Assemblies - Retention bodies for securing a fiber optic cable therewith for optical connectorization are disclosed. The fiber optic cable is inserted into a passage of the retention body and secured to the same. In one embodiment, the retention body includes a buckling chamber for accommodating longitudinal movement of an optical fiber of a fiber optic cable, such as due to retraction of a ferrule. The buckling chamber may also facilitate alignment and/or centering of the optical fiber when inserted through the passage of the retention body for further insertion into a ferrule of a fiber optic connector sub-assembly or the like. | 04-01-2010 |
| 20110091172 | Fiber Optic Cable Assemblies and Securing Methods - Fiber optic cable assemblies and related components, securing methods, and fiber optic cable preparation methods for securing of a fiber optic cable to a retention body and/or fiber optic connector are disclosed. An end portion of the fiber optic cable is prepared and inserted into a retention body or the like for securing the cable to the same. In one embodiment, a partially exposed portion of a strength component and a portion of a cable jacket are secured to a retention body while another portion of the strength component remains secured to the cable jacket. In this manner, the fiber optic cable is secured to the retention body while the strength component and the cable jacket also remain secured to each other for providing strain relief. | 04-21-2011 |
Clayton Palmer Coleman, Durham, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20110055740 | DEFINING AND SHARING DISPLAY SPACE TEMPLATES - A computer-implemented method of customizing a user interface comprises receiving, by the computer, a user selection of a portion of content displayed by a user interface, and limiting, by the computer, future loading or updating of elements corresponding to the selected portion. Limiting future loading or updating of elements corresponding to the selected portion may comprise preventing future loading or updating of elements corresponding to the selected portion. Alternatively, limiting future loading or updating of elements corresponding to the selected portion may comprise reducing a frequency of future updating of elements corresponding to the selected portion. | 03-03-2011 |
Jerry D. Coleman, Wilmington, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20080236093 | PORTA JACK FOR FLOORING - An improved method and apparatus for urging a flooring strip into close or tight engagement with the adjacent flooring strip, which has already been fixed into position, and holding the flooring strip securely in position for nailing or otherwise fixing the flooring strip. The invented device has a base plate with having holes therein for attachment to a floor (subfloor), a rack and pinion gear arrangement where the rack has an angle iron style pusher-puller ram pusher at the end of the rack, the end of the base plate having a removable shoe, and a rack housing situated on the base plate with an associated pinion gear engaging the rack and operated by a levering handle for urging the flooring strip into position for installation. | 10-02-2008 |
John D. Coleman, Hickory, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20100322554 | OPTICAL INTERCONNECTION METHODS FOR HIGH-SPEED DATA-RATE OPTICAL TRANSPORT SYSTEMS - Optical interconnection methods for high-speed data-rate optical transport systems are disclosed that optically interconnect active assemblies to a fiber optic cable in a polarization-preserving manner. The methods include defining active-assembly-wise connector ports that connect to active assembly transmit and receive ports, and defining or establishing a pairings method between the active-assembly-wise connector ports. In a first optical interconnection assembly, an active-assembly-wise port is optically connected to a cable-wise port. In the second optical interconnection assembly, the cable-wise port that corresponds to the connected cable-wise port in the first optical interconnection assembly is optically connected to a select active-assembly-wise port as defined by the pairings method. The optical connection process is then repeated from the second to the first optical interconnection assembly. The optical interconnection acts are repeated until all of the active-assembly-wise ports are connected. | 12-23-2010 |
| 20100322562 | Optical Interconnection Assemblies and Systems for High-Speed Data-Rate Optical Transport Systems - Fiber optic assemblies and systems for high-speed data-rate optical transport systems are disclosed that allow for optically interconnecting active assemblies to a trunk cable in a polarization-preserving manner. The fiber optic assembly includes at least first and second multifiber connectors each having respective pluralities of first and second ports that define respective pluralities of at least first and second groups of at least two ports each. The first and second multifiber connectors are capable of being disposed so that the at least first and second groups of ports are located on respective termination sides of each ferrule. The fiber optic assembly also has a plurality of optical fibers that connect the first and second ports according to a pairings method that maintains polarity between transmit and receive ports of respective active assemblies. At least one of the first and second groups are optically connected without flipping the fibers, and at least one of the first and second groups are optically connected by flipping the fibers. | 12-23-2010 |
Kent Coleman, Concord, NC US
Oita Kayonna Coleman, Apex, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20090007078 | Computer-Implemented Systems And Methods For Software Application Testing - Computer-implemented systems and methods for testing one or more software applications. For example, a system and method can be configured to perform a comparison between test data results and benchmark test data in order to determine test result differences between the received test data results and the retrieved benchmark test data. Testing criteria is applied to the determined test result differences in order to identify test deviations from the benchmark test data. | 01-01-2009 |
Thomas G. Coleman, Pittsboro, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20090161356 | LIGHTING DEVICE AND METHOD OF LIGHTING - There is provided a lighting device which emits light with an wall plug efficiency of at least 85 lumens per watt. The lighting device comprises at least one solid state light emitter, e.g., one or more light emitting diodes, and optionally further includes one or more luminescent material. In some embodiments, the output light is of a brightness of at least 300 lumens. In some embodiments, the output light has a CRI Ra of at least 90. Also, a method of lighting, comprising supplying electricity to a lighting device which emits light with a wall plug efficiency of at least 85 lumens per watt. | 06-25-2009 |
| 20110006330 | SEMICONDUCTOR LIGHT EMITTING DEVICES INCLUDING AN OPTICALLY TRANSMISSIVE ELEMENT AND METHODS FOR PACKAGING THE SAME - Methods of packaging a semiconductor light emitting device include dispensing a first quantity of encapsulant material into a cavity including the light emitting device. The first quantity of encapsulant material in the cavity is treated to form a hardened upper surface thereof having a shape. A luminescent conversion element is provided on the upper surface of the treated first quantity of encapsulant material. The luminescent conversion element includes a wavelength conversion material and has a thickness at a middle region of the cavity greater than proximate a sidewall of the cavity. | 01-13-2011 |
Thomas Goldthwaite Coleman, Pittsboro, NC US
| Patent application number | Description | Published |
|---|---|---|
| 20100101495 | Restricted Radiated Heating Assembly for High Temperature Processing - A vapor deposition reactor and associated method are disclosed that increase the lifetime and productivity of a filament-based resistive-heated vapor deposition system. The reactor and method provide for heating the filament while permitting the filament to move as it expands under the effect of increasing temperature while limiting the expanding movement of the filament to an amount that prevents the expanding movement of the filament from creating undesired contact with any portions of the reactor. | 04-29-2010 |