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Brockley
Michael Brockley, Oxford GB
| Patent application number | Description | Published |
|---|---|---|
| 20120098023 | NITRIDE SEMICONDUCTOR LIGHT-EMITTING DEVICE - A nitride semiconductor light-emitting device includes at least one n-type semiconductor layer, an active layer and at least one p-type semiconductor layer within a rectangle nitride semiconductor region on a substrate. The n-type semiconductor layer has a partial exposed area, a p-side branch electrode integral with a p-side electrode pad formed on a current diffusion layer formed on the p-type semiconductor layer, an n-side branch electrode integral with an n-side electrode pad formed on the partial exposed area of the n-type semiconductor layer, the p-side and n-side branch electrodes extend parallel to each other along two opposite sides of the semiconductor region, and conditions of 0.3| 04-26-2012 | |
Michael John Brockley, Oxford GB
| Patent application number | Description | Published |
|---|---|---|
| 20110147784 | Light emitting device with more uniform current spreading - A nitride light emitting device (LED) according to a non-limiting embodiment of the present invention may include a p-pad and an n-pad, wherein the p-pad and n-pad are disposed on opposite ends of the device. A first p-branch electrode and a second p-branch electrode may extend from the p-pad toward the n-pad, with the first p-branch electrode extending along a length of the device. The second p-branch electrode may have a bent portion so as to extend along a width and length of the device. An n-branch electrode may extend from the n-pad toward the p-pad, wherein a distal end of the n-branch electrode is angled toward the bent portion of the second p-branch electrode. Alternatively, the p-branch and n-branch electrodes may be configured such that a distance between the n-branch electrode and the first and second p-branch electrodes increases with proximity to the n-pad. As a result, the nitride-based LED according to example embodiments may exhibit improved current uniformity, lower forward operating voltage, and higher overall efficiency. | 06-23-2011 |
Richard Brockley, Dover, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20110086570 | Inflatable or spring loaded thumb and/or finger(s) - A novelty inflatable and/or spring loaded thumb and/or finger or fingers would be constructed in one of two (2) ways: 1) with an internally concealed air bladder or pouch, and elongated spring throughout the length of the thumb and/or finger(s), or 2) with just an internally concealed elongated spring. In both versions the air bladder/pouch and/or the spring would be molded within a soft, stretchable, rubber-like material comprising the thumb and/or finger(s). In the inflatable version, the thumb and/or finger(s) would be connected to a battery-operated mini air compressor that would fill the internal bladder to a limited pressure thereby extending the thumb and/or finger(s) to their maximum length and width. In the spring only version, the thumb and/or finger(s) would have a release button that would lock the compressed spring in place until the user presses it, thereby releasing the spring and projecting the thumb and/or finger(s) to their maximum height. In the inflatable version, the internal spring would be implemented to retract the thumb and/or finger(s) back to its/their original shape & length. In the spring released design, the spring would be directly opposite to the inflatable version, in that it would be in a compressed state so that it would project the thumb and/or finger(s) outward, to its/their maximum height, when released by the user. The thumb and/or finger(s) could be constructed in a variety of options such as the “thumbs up” version, the “flip the finger” version, the “number one” version, the “peace sign” version, and the “Texas Longhorns” version, among others. | 04-14-2011 |
| 20110086716 | Novelty eye patch with artificial eye or eyelid - A novelty eye patch with a retaining, elastic band connected to a gag, false eye, eyelid or other embodiment, concealed beneath the patch. The patch and false eye or lid will be adjoined by a small, hidden spring, built onto two (2) hard wire frames. The spring will compress the false eye or lid against the user's real eye while allowing the patch to be lifted, revealing the gaff eye or lid. The two (2) steel wire frames will be concealed, along with the adjoining spring. One wire frame will be sewn into the outer circumference of the eye patch while the other frame will be molded into the underlying gaff or falsetto eye, to conceal their identity while maintaining stability to the patch and the gaff. Opposing force, created by the hidden spring, will compress downward the false eye or lid firmly against the user's real-eyelid, while maintaining a constant upward force of pressure on the patch. The spring will include a locking clip to keep the patch lowered to the position of the user's eye until such time that the user elects to lift the patch to reveal the gaff. This pressure will make lifting the patch more simplistic, while conversely maintaining an opposing force against the gaff eye or lid thereby preserving firmness of the gaff onto the user's real eyelid. | 04-14-2011 |
Tod O. Brockley, Omaha, NE US
| Patent application number | Description | Published |
|---|---|---|
| 20090024508 | METHOD AND SYSTEM FOR HANDLING METHOD LEVEL PROCESSING IN CONNECTION WITH CARDHOLDER ACCOUNT PROCESSING - A method and system are provided for automatically adjusting individual components of account processing for credit card accounts or other financial accounts based on characteristics and behavior of individual account holders. A first data store holds account data for financial accounts, including the account processing methods and associated method overrides applied to each financial account as well as account history information. A second data store holds decision rules for determining whether to apply a method override to the financial account based on the account history information. A decision engine retrieves the decision rules from the second data store and the account history information from the first data store, then determines, based on the decision rules and the account history information, whether a method override should be applied to the financial account. The decision engine then applies the method override to the financial account. | 01-22-2009 |