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Bhullar
Gurpreet Bhullar, Ottawa (formerly Nepean) CA
| Patent application number | Description | Published |
|---|---|---|
| 20110095796 | PROCESS, VOLTAGE, TEMPERATURE INDEPENDENT SWITCHED DELAY COMPENSATION SCHEME - A delay compensation circuit for a delay locked loop which includes a main delay line having a fine delay line comprising fine delay elements and a coarse delay line comprising coarse delay elements, the main delay line being controlled by a controller, the delay compensation circuit comprising: an adjustable fine delay for modeling a coarse delay element, a counter for controlling the adjustable fine delay to a value which is substantially the same as that of a coarse delay element, a circuit for applying a representation of the system clock to the delay compensation circuit, and a circuit for applying the fine delay count from the counter to the controller for adjusting the fine delay line of the main delay line to a value which is substantially the same as that of a coarse delay element of the main delay line. | 04-28-2011 |
Inderpreet Bhullar, Fremont, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110119652 | GENERATING OBJECT ANNOTATIONS - A computer-implemented method is disclosed for generating Dojo-conforming JavaScript Object Notation (JSON) objects for base objects of an object-oriented programming environment that have been annotated to denote which attribute declarations of the base object correspond to identified Dojo attributes. In a Java class, for example, annotations may be made to indicate which class attributes correspond to the identifier attribute of a Dojo JSON object and based on those annotations a Dojo-conforming JSON object may be generated. | 05-19-2011 |
Raghbir Bhullar, Brampton CA
| Patent application number | Description | Published |
|---|---|---|
| 20110083570 | PROCESS FOR REFURBISHING CYLINDER ROLLS AND BASES FOR PRINTING MACHINES - The present invention relates to a refurbished cylinder roller and a process for refurbishing cylinder rollers for use in printing machines. More particularly, the present invention also relates to a process for refurbishing metallic gravure cylinder rollers by replacing the worn outer plating layers with an extruded and thermally cured electrically conductive polymer material, and thereafter electroplating new outer plating layers thereon, the new plating layers including a new printing image formed therein. The present invention also relates to a refurbished gravure cylinder roller which includes a core member extending along an axial length, an image-carrying layer having a printing image formed therein and arranged circumferentially about the core member, and an electrically conductive intermediate polymer layer arranged between the core member and the image-carrying layer, where the intermediate polymer material has a conductivity selected to permit electro-plating of the image-carrying layer directly thereon. | 04-14-2011 |
Raghbir S. Bhullar, Indianapolis, IN US
| Patent application number | Description | Published |
|---|---|---|
| 20080314882 | METHOD OF MAKING A BIOSENSOR - The present invention relates to a method of forming a biosensor. The method includes providing a substrate coated with a electrically conductive material, ablating the electrically conductive material to form electrodes and a code pattern, wherein there is sufficient contrast between the conductive coating and the substrate such that the code pattern is discernible, and applying a reagent to at least one of the electrodes. | 12-25-2008 |
| 20090020502 | BIOSENSOR AND METHOD OF MAKING - An electrochemical biosensor with electrode elements that possess smooth, high-quality edges. These smooth edges define gaps between electrodes, electrode traces and contact pads. Due to the remarkable edge smoothness achieved with the present invention, the gaps can be quite small, which provides marked advantages in terms of test accuracy, speed and the number of different functionalities that can be packed into a single biosensor. Further, the present invention provides a novel biosensor production method in which entire electrode patterns for the inventive biosensors can be formed all at one, in nanoseconds—without regard to the complexity of the electrode patterns or the amount of conductive material that must be ablated to form them. | 01-22-2009 |
| 20090056120 | BIOSENSOR AND METHOD OF MAKING - An electrochemical biosensor with electrode elements that possess smooth, high-quality edges. These smooth edges define gaps between electrodes, electrode traces and contact pads. Due to the remarkable edge smoothness achieved with the present invention, the gaps can be quite small, which provides marked advantages in terms of test accuracy, speed and the number of different functionalities that can be packed into a single biosensor. Further, the present invention provides a novel biosensor production method in which entire electrode patterns for the inventive biosensors can be formed all at one, in nanoseconds—without regard to the complexity of the electrode patterns or the amount of conductive material that must be ablated to form them. | 03-05-2009 |
| 20100219071 | BIOSENSOR - The present invention relates to a biosensor. The biosensor includes a support substrate, an electrically conductive coating positioned on the support substrate, the coating being formed to define electrodes and a code pattern, wherein there is sufficient contrast between the conductive coating and the substrate such that the code pattern is discernible, and a cover cooperating with the support substrate to define a channel. At least a portion of the electrodes are positioned in the channel. | 09-02-2010 |
Raghbir Singh Bhullar, Indianapolis, IN US
| Patent application number | Description | Published |
|---|---|---|
| 20110000785 | ELECTRICAL PATTERNS FOR BIOSENSOR AND METHOD OF MAKING - The present invention provides an inventive biosensor that includes multiple regions in which the electrical pattern is formed from different electrically conductive materials. The present invention also provides an inventive method for mass producing biosensors as just described. In one embodiment of this method, first and second different electrically conductive materials are deposited side by side on a portion of an electrically insulating base material, and a plurality of electrical patterns is formed on the portion of the base material. Each electrical pattern includes a first region formed from the first electrically conductive material electrically connected to a second region formed from the second electrically conductive material. The electrically conductive materials can be deposited as layers on the base material and portions of the layers can be removed to form the electrical patterns, or, the electrical patterns can be formed by transferring the conductive material in the shape of the electrical pattern directly to the base material, such as by a laser direct transfer technique. | 01-06-2011 |
Rajinder P. Bhullar, Winnipeg CA
| Patent application number | Description | Published |
|---|---|---|
| 20090181091 | PRODUCT AND PROCESS TO REGULATE A GENE NETWORK INVOLVED IN CONSTITUTIVE INFLAMMATION AND EARLY CANCER PROGRESSION - A recombinant construct arranged for expression of a specific hairpin microRNA which disrupts crosstalk between the two inflammatory pathways is described for intervening in early cancer progression events. Accordingly, the construct can be used as a molecular therapeutic approach to prevent cancer of epithelial origin in mammals, which include but are by no means limited to cancers of the head and neck, lung, breast, ovarian, and prostate tissues. | 07-16-2009 |