Patents by Inventor Jonathan D. Anderson
Jonathan D. Anderson has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11947165Abstract: A multi-fiber cable assembly includes a pigtail segments spliced to a trunk segment using multiple mass fusion splices. The splices are disposed within an encapsulation at a common axial location. A flexible conduit extends from one end of the encapsulation to protect bare fibers of the trunk segment. A protective sheath extends from the opposite end of the encapsulation to protect the pigtail segments. The conduit and sheath are axially fixed to the encapsulation.Type: GrantFiled: July 8, 2020Date of Patent: April 2, 2024Assignee: COMMSCOPE TECHNOLOGIES LLCInventors: Cyle D. Petersen, John Paul Anderson, Thomas Marcouiller, Kenneth Allen Skluzacek, Jonathan R. Kaml
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Patent number: 8729498Abstract: High throughput UV curing systems for mass curing of a plurality of articles without compromising product quality. The systems comprise a plurality of UV banks, each bank comprising a plurality of fluorescent UV lamps, thereby creating a consistent blanket of UV energy. A plurality of coated articles are positioned between pairs of banks such that the UV exposure or dosage is evenly distributed for each article. The fluorescent UV lamps use proportionally lower energy per unit and generate less heat than standard UV lamps, while sufficiently curing the coating on each article. Throughput is increased compared to currently available systems because the systems are easier to maintain requiring less downtime, can cure significantly more articles per cycle, and reduce the number of rejected products.Type: GrantFiled: June 20, 2012Date of Patent: May 20, 2014Assignee: Harland Medical Systems, Inc.Inventors: Kevin A. Fleischhacker, Jonathan D. Anderson, Mark P. Toma
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Publication number: 20120319012Abstract: High throughput UV curing systems for mass curing of a plurality of articles without compromising product quality. The systems comprise a plurality of UV banks, each bank comprising a plurality of fluorescent UV lamps, thereby creating a consistent blanket of UV energy. A plurality of coated articles are positioned between pairs of banks such that the UV exposure or dosage is evenly distributed for each article. The fluorescent UV lamps use proportionally lower energy per unit and generate less heat than standard UV lamps, while sufficiently curing the coating on each article. Throughput is increased compared to currently available systems because the systems are easier to maintain requiring less downtime, can cure significantly more articles per cycle, and reduce the number of rejected products.Type: ApplicationFiled: June 20, 2012Publication date: December 20, 2012Applicant: HARLAND MEDICAL SYSTEMS, INC.Inventors: Kevin A. Fleischhacker, Jonathan D. Anderson, Mark P. Toma
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Patent number: 8247019Abstract: The present invention provides an apparatus and a method for modifying a structure such as a medical device through the selective application of a coating. A coating sleeve may comprise an elastomeric wall that may be permeable or impermeable to a coating material and may be porous so as to allow for patterned coating of the device. The coating sleeve may contain surface protrusions that facilitate manipulation by providing sites for grasping and pulling. In operation the coating sleeve may be fitted on the device prior to application of a coating and removed subsequent to application of the coating.Type: GrantFiled: April 25, 2008Date of Patent: August 21, 2012Assignee: Harland Medical Systems, Inc.Inventors: Jonathan D. Anderson, Dale L. Anderson, Aaron J. Anderson
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Patent number: 8133545Abstract: A coating apparatus and method for flimsy elongate members has at least one elongate funnel tube with an inlet, an outlet, and an intermediate portion, the inlet in a basin, a fluid circulating system suitable connecting the outlet to provide flow into the inlet. Each inlet receives an elongate flimsy component and utilizes the circulating fluid to pull the flimsy elongate member into the funnel tube whereby the coating of the flimsy elongate member is accomplished. The invention also includes the method for coating such a flimsy elongate member utilizing the coating apparatus.Type: GrantFiled: March 21, 2007Date of Patent: March 13, 2012Assignee: Harland Medical Systems, Inc.Inventors: Jonathan D. Anderson, Scott D. Schmidt
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Publication number: 20090298718Abstract: Methods and devices for producing an assembly, and the thus produced assembly, are provided. The assembly may be used in screening applications. In various embodiments, the assembly may comprise a first portion and a second portion. The first portion and second portion may be co-formed or may be separately formed. The assembly may be formed as a blank or may be formed with wells therein. The assembly may be further processed, for example via thermal processing, to form or modify wells in the assembly. In some embodiments, wells in the assembly may have custom volumes, custom shapes, or be arranged in a custom pattern.Type: ApplicationFiled: December 20, 2008Publication date: December 3, 2009Inventors: Paul Winfield Denman, Jonathan D. Anderson, Sven Gustafson
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Patent number: 7597937Abstract: A coating apparatus for batches of elongate flimsy members includes batch handling portion and a coating portion. The batch handling portion having an array support portion and an array alignment portion. The array support portion secures and vertically moves an array of elongate flimsy members to be lowered into an array of inlets of the coating portion, the inlets aligned in an array. The array alignment portion provides removable discrete position locating of the individual flimsy members by a guide portion that moves from an upwardly position downwardly to position each member of the array in alignment with the array of inlets. The support portion then lowers the flimsy members into the coating portion through the array.Type: GrantFiled: March 21, 2007Date of Patent: October 6, 2009Assignee: Harland Medical Systems, LLCInventors: Jonathan D. Anderson, Scott D. Schmidt
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Publication number: 20080292777Abstract: The present invention provides an apparatus and a method for modifying a structure such as a medical device through the selective application of a coating. A coating sleeve may comprise an elastomeric wall that may be permeable or impermeable to a coating material and may be porous so as to allow for patterned coating of the device. The coating sleeve may contain surface protrusions that facilitate manipulation by providing sites for grasping and pulling. In operation the coating sleeve may be fitted on the device prior to application of a coating and removed subsequent to application of the coating.Type: ApplicationFiled: April 25, 2008Publication date: November 27, 2008Applicant: HARLAND MEDICAL SYSTEMS, LLCInventors: Jonathan D. Anderson, Dale L. Anderson, Aaron J. Anderson
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Publication number: 20070222132Abstract: A coating apparatus for batches of elongate flimsy members includes batch handling portion and a coating portion. The batch handling portion having an array support portion and an array alignment portion. The array support portion secures and vertically moves an array of elongate flimsy members to be lowered into an array of inlets of the coating portion, the inlets aligned in an array. The array alignment portion provides removable discrete position locating of the individual flimsy members by a guide portion that moves from an upwardly position downwardly to position each member of the array in alignment with the array of inlets. The support portion then lowers the flimsy members into the coating portion through the array.Type: ApplicationFiled: March 21, 2007Publication date: September 27, 2007Inventors: Jonathan D. Anderson, Scott D. Schmidt
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Publication number: 20070221123Abstract: A coating apparatus and method for flimsy elongate members has at least one elongate funnel tube with an inlet, an outlet, and an intermediate portion, the inlet in a basin, a fluid circulating system suitable connecting the outlet to provide flow into the inlet. Each inlet receives an elongate flimsy component and utilizes the circulating fluid to pull the flimsy elongate member into the funnel tube whereby the coating of the flimsy elongate member is accomplished. The invention also includes the method for coating such a flimsy elongate member utilizing the coating apparatus.Type: ApplicationFiled: March 21, 2007Publication date: September 27, 2007Inventors: Jonathan D. Anderson, Scott D. Schmidt