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Kudelko
Conrad M. Kudelko, Livonia, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20080309103 | HYBRID ENERGY ABSORBER FOR AUTOMOBILE BUMPER - An automobile bumper system including an isolator disposed adjacent a cross beam of an automobile frame, and a bumper edge guard strip mounted adjacent upper and/or lower edges of the cross beam. The bumper edge guard strip may include an upper extension fixedly engaged with an upper surface of the cross beam and a lower extension fixedly engaged with a frontal surface of the cross beam, with the upper extension having a length greater than the lower extension for distributing impact energy in a predetermined manner. | 12-18-2008 |
| 20090039661 | HYBRID ENERGY ABSORBER FOR AUTOMOBILE BUMPER - An automobile bumper system including an isolator disposed adjacent a cross beam of an automobile frame, and a bumper edge guard strip mounted adjacent upper and/or lower edges of the cross beam. The bumper edge guard strip may include an upper extension fixedly engaged with an upper surface of the cross beam and a lower extension fixedly engaged with a frontal surface of the cross beam, with the upper extension having a length greater than the lower extension for distributing impact energy in a predetermined manner. | 02-12-2009 |
| 20090039662 | HYBRID ENERGY ABSORBER FOR AUTOMOBILE BUMPER - An automobile bumper system including an isolator disposed adjacent a cross beam of an automobile frame, and a bumper edge guard strip mounted adjacent upper and/or lower edges of the cross beam. The bumper edge guard strip may include an upper extension fixedly engaged with an upper surface of the cross beam and a lower extension fixedly engaged with a frontal surface of the cross beam, with the upper extension having a length greater than the lower extension for distributing impact energy in a predetermined manner. | 02-12-2009 |
Conrad Michael Kudelko, Livonia, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20090072556 | Non-Opaque Radiator Grilles for Automotive Vehicles - A non-opaque radiator grille is deployed on an automotive vehicle. The use of non-opaque materials enables the radiator grille to incorporate a variety of different features for styling distinctions, including low visibility illumination, frosting, graphics, ribbing, fluting or other texturing. The grille can be treated or textured on an interior surface of the material to provide the desired textured look, instead of on the exterior surface. The non-opaque grille can be liquid filled, sand blasted and/or incorporate luminescence or diffused lighting. A single grille configuration can be treated internally to provide different styling looks for model or series differentiations. The non-opaque nature of the grille material opens the grille for sensing technology to be incorporated directly into the grille. If secondary external treatment processes are still desired, the use of the non-opaque materials would not prevent the chroming or painting of the radiator grilles. | 03-19-2009 |
David J. Kudelko, Rockaway, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20090185771 | Tunable Dispersion Compensator with Minimum Differential Group Delay - In a method and system for providing dispersion compensation in an optical system, there is coupled into the optical system at least one pathway into which there is connected a tunable chirped fiber Bragg grating, each such grating providing a respective tunable amount of dispersion. At least one respective DGD element is connected into the respective pathway for each such grating. The set of all such respective DGD elements in a given pathway introduces a bias differential group delay DGD | 07-23-2009 |
| 20090262779 | Multi-Core Fiber Grating Sensor - A twin core fiber for sensor applications is developed. It is particularly useful in de-coupling the strain and temperature and thus obtaining both measurement parameters at the same time and location. It is also particularly useful for measuring the temperature in a high humidity environment. The twin core fiber has two cores and each of the cores having a different dopant regime. Also, each of the cores includes a grating having substantially the same grating period. | 10-22-2009 |
| 20110110619 | TUNABLE DISPERSION COMPENSATOR WITH MINIMUM DIFFERENTIAL GROUP DELAY - In a method and system for providing dispersion compensation in an optical system, there is coupled into the optical system at least one pathway into which there is connected a tunable chirped fiber Bragg grating, each such grating providing a respective tunable amount of dispersion. At least one respective DGD element is connected into the respective pathway for each such grating. The set of all such respective DGD elements in a given pathway introduces a bias differential group delay DGD | 05-12-2011 |