Mingle
Jack Mingle, Sicklerville, NJ US
Patent application number | Description | Published |
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20110024509 | SECURITY LABELS WITH REINFORCED WINDOWS AND METHODS OF MAKING THE SAME - Security labels and tags including elements and methods of making them are disclosed. The elements are in the form of an oriented polymer layer, conductive traces clad to the polymer layer to form an open loop forming a window in the interior of the loop and an open support framework extending into the window to support the polymer layer in the window. In some embodiments the open support framework is in the form of parallel, interleaved linear extensions from the conductive traces which extend into the window. In other embodiments the open support framework is in a pattern of intersecting sections (e.g., a fishbone pattern) located in the window. | 02-03-2011 |
John B. Mingle, Sicklerville, NJ US
Patent application number | Description | Published |
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20130193215 | PERMANENTLY DEACTIVATABLE SECURITY TAG - A permanently deactivatable security tag and method to create a permanently deactivatable security tag to eliminate tag pollution caused by reactivated tags reentering a store premises and setting off false alarms. The security tag includes a frangible conductive portion that fractures due to stress applied on the frangible conductive portion from a hardened substrate located on the tag. The hardened substrate induces stress to the frangible conductive portion located adjacent to the edge of the hardened substrate as the tag is flexed and bent. The fracture of the frangible conductive portion of the tag results in a shifting and/or disabling of the predetermined frequency of the security tag. | 08-01-2013 |
Moses Mingle, Forest Hill, MD US
Patent application number | Description | Published |
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20160110164 | Semiconductor-Junction-Derived Random Number Generation with Triggering Mechanism - Various embodiments are described that relate to random number generation. When a desire arises for a random number a circuit can be completed with a reverse biased semiconductor junction element. When the circuit is completed an analog voltage spike can be produced that is random due to properties of the reverse biased semiconductor-junction element. This analog voltage spike can be converted into a digital value that serves as the random number. The digital value can be outputted and used as the random number. | 04-21-2016 |