Patents by Inventor John Herslow
John Herslow 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: 9646234Abstract: A transaction card has a substructure consisting at least in part of a layer of fibrous material, such as carbon fiber strands or filaments, arranged in a pre-selected pattern, such as a weave pattern, that is at least partially enclosed by a transparent plastic film. A sheet is laminated on each of two opposing faces of the substructure to form a transaction card core. One or both of the sheets laminated on the opposing faces of the substructure is also made of a transparent material, and one or both of the two opposing faces of the transaction card core can be printed. An over-laminate film, such as a transparent polyvinyl chloride plastic film, can be laminated on each of two opposing faces of the transaction card core.Type: GrantFiled: August 16, 2016Date of Patent: May 9, 2017Assignee: Citicorp Credit Services, Inc. (USA)Inventors: Todd S. Thomson, John Herslow, Michele Logan
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Publication number: 20170098151Abstract: Cards made in accordance with the invention include a specially treated thin decorative layer attached to a thick core layer of metal or ceramic material, where the thin decorative layer is designed to provide selected color(s) and/or selected texture(s) to a surface of the metal cards. Decorative layers for use in practicing the invention include: (a) an anodized metal layer; or (b) a layer of material derived from plant or animal matter (e.g., wood, leather); or (c) an assortment of aggregate binder material (e.g., cement, mortar, epoxies) mixed with laser reactive materials (e.g., finely divided carbon); or (d) a ceramic layer; and (e) a layer of crystal fabric material. The cards may be dual interface smart cards which can be read in a contactless manner and/or via contacts.Type: ApplicationFiled: December 15, 2016Publication date: April 6, 2017Inventors: John HERSLOW, Adam LOWE, Luis DASILVA
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Publication number: 20170069581Abstract: Composite cards embodying the invention include a clear plastic core layer with an embossed metalized pattern formed on top of, or within, the core layer. A selected number N of clear plastic layers are formed on top of the embossed metalized pattern and a like number N of clear plastic buffer layers are formed below the clear plastic core layer. The metalized pattern is centrally located with layers above and below the pattern to protect the pattern and inhibit the unauthorized alteration of the embossed metalized pattern while enabling the embossed metalized pattern to be visible. Selected ones of the N clear plastic layers include selected information and a window is formed within the pattern to enable the selected information to be seen.Type: ApplicationFiled: November 19, 2016Publication date: March 9, 2017Inventor: JOHN HERSLOW
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Publication number: 20170069580Abstract: Composite cards formed in accordance with the invention include a security layer comprising a hologram or diffraction grating formed at or in the center, or core layer of the card. The hologram may be formed by embossing a designated area of the core layer with a diffraction pattern and depositing a thin layer of metal on the embossed layer. Additional layers may be selectively and symmetrically attached to the top and bottom surfaces of the core layer. A laser may be used to remove selected portions of the metal formed on the embossed layer, at selected stages of forming the card, to impart a selected pattern or information to the holographic region. The cards may be “lasered’ when the cards being processed are attached to, and part of, a large sheet of material, or after the sheets are die-cut into cards.Type: ApplicationFiled: November 17, 2016Publication date: March 9, 2017Inventor: JOHN HERSLOW
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Patent number: 9569718Abstract: A metal card or a hybrid metal-plastic includes an acrylic resin protective clear-coat layer and/or a “hard” nano-particle top-coat layer overlying any exposed metal surface in order to insulate the metal and reduce the likelihood of an electrostatic discharge (ESD) or a short circuit condition. In a particular embodiment the “hard” nano-particle top-coat layer overlies the clear coat layer. The dual stage protective layers which include a clear-coat layer and a top-coat ensure that the problem associated with an ESD and/or a short circuit condition is minimized. In addition, the dual stage protection imparted to a card by forming a clear-coat layer and a top-coat layer ensures that any card surface treatment or card decoration is protected over time from excessive wear or scratching due to use in conjunction with a POS device and/or handling.Type: GrantFiled: December 19, 2013Date of Patent: February 14, 2017Assignee: COMPOSECURE, LLCInventor: John Herslow
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Patent number: 9542635Abstract: Composite cards formed in accordance with the invention include a security layer comprising a hologram or diffraction grating formed at, or in, the center, or core layer, of the card. The hologram may be formed by embossing a designated area of the core layer with a diffraction pattern and depositing a thin layer of metal on the embossed layer. Additional layers may be selectively and symmetrically attached to the top and bottom surfaces of the core layer. A laser may be used to remove selected portions of the metal formed on the embossed layer, at selected stages of forming the card, to impart a selected pattern or information to the holographic region. The cards may be “lasered” when the cards being processed are attached to, and part of, a large sheet of material, whereby the “lasering” of all the cards on the sheet can be done at the same time and relatively inexpensively.Type: GrantFiled: December 31, 2007Date of Patent: January 10, 2017Assignee: COMPOSECURE, LLCInventor: John Herslow
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Patent number: 9440481Abstract: A transaction card has a substructure consisting at least in part of a layer of fibrous material, such as carbon fiber strands or filaments, arranged in a pre-selected pattern, such as a weave pattern, that is at least partially enclosed by a transparent plastic film. A sheet is laminated on each of two opposing faces of the substructure to form a transaction card core. One or both of the sheets laminated on the opposing faces of the substructure is also made of a transparent material, and one or both of the two opposing faces of the transaction card core can be printed. An over-laminate film, such as a transparent polyvinyl chloride plastic film, can be laminated on each of two opposing faces of the transaction card core.Type: GrantFiled: April 4, 2008Date of Patent: September 13, 2016Assignee: Citicorp Credit Services, Inc.Inventors: John Herslow, Michele Logan
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Patent number: 9390366Abstract: A dual interface smart card having a metal layer includes an IC module, with contacts and RF capability, mounted on a plug, formed of non RF impeding material, between the top and bottom surfaces of the metal layer. The plug provides support for the IC module and a degree of electrical insulation and isolation from the metal layer. The resultant card can have contact and contactless operating capability and an entirely smooth external metal surface except for the contacts of the IC module.Type: GrantFiled: July 8, 2015Date of Patent: July 12, 2016Assignee: COMPOSECURE, LLCInventors: John Herslow, Adam Lowe, Luis Dasilva, Brian Nester
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Patent number: 9390363Abstract: A multi layered card embodying the invention includes an outer layer of an amorphous laser reactive copolymer material which is embossed with a selected pattern at a selected temperature which is above the glass transition temperature, Tg, of the copolymer and below its melting temperature, Tm. So embossed, the selected pattern is set in the copolymer layer, and its external shape cannot be changed from the embossed form to which it was set at the selected temperature, without destroying the selected pattern. The outer layer may be laminated with the other layers of the card and laser engraved before or after lamination.Type: GrantFiled: March 5, 2015Date of Patent: July 12, 2016Assignee: COMPOSECURE, LLCInventors: John Herslow, Adam Lowe, Luis Dasilva
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Publication number: 20160180212Abstract: Ferrite material utilized in a smart metal card as a shield between a metal layer and an antenna does not occupy a complete layer. Instead, only sufficient ferrite material is utilized to track and conform to the antenna.Type: ApplicationFiled: December 21, 2015Publication date: June 23, 2016Inventors: JOHN HERSLOW, ADAM LOWE, LUIS DASILVA
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Publication number: 20150339564Abstract: Cards made in accordance with the invention include a specially treated thin decorative layer attached to a thick core layer of metal or ceramic material, where the thin decorative layer is designed to provide selected color(s) and/or selected texture(s) to a surface of the metal cards. Decorative layers for use in practicing the invention include: (a) an anodized metal layer; or (b) a layer of material derived from plant or animal matter (e.g., wood, leather); or (c) an assortment of aggregate binder material (e.g., cement, mortar, epoxies) mixed with laser reactive materials (e.g., finely divided carbon); or (d) a ceramic layer; and (e) a layer of crystal fabric material. The cards may be dual interface smart cards which can be read in a contactless manner and/or via contacts.Type: ApplicationFiled: May 21, 2015Publication date: November 26, 2015Inventors: JOHN HERSLOW, Adam Lowe, Luis Dasilva
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Publication number: 20150206047Abstract: A smart card with a metal layer which can capture radio-frequency (RF) signals via an antenna system is made operable by modifying the metal layer to enable passage of RF signals through the metal layer and/or by introducing a ferrite layer to enhance the efficient reception/transmission of RF signals by the antenna system. In one embodiment apertures are formed in and through the metal layer to allow RF signals to pass through the metal layer without negatively impacting the decorative or esthetic and/or reflective nature of the metal layer. These modifications allow for dual interface and contactless smart card formats. In other embodiments of the invention, a ferrite layer is formed between the metal layer and the inductors/antennas mounted within the smart card to enhance the efficient reception/transmission of RF signals.Type: ApplicationFiled: January 20, 2014Publication date: July 23, 2015Inventors: John Herslow, Adam Lowe
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Publication number: 20150180229Abstract: A metal card or a hybrid metal-plastic includes an acrylic resin protective clear coat layer and/or a “hard” nano-particle top-coat layer overlying any exposed metal surface in order to insulate the metal and reduce the likelihood of an electrostatic discharge (ESD) or a short circuit condition. In a particular embodiment the “hard” nano-particle top-coat layer overlies the clear coat layer. The dual stage protective layers which include a clear-coat layer and a top-coat ensure that the problem associated with an ESD and/or a short circuit condition is minimized. In addition, the dual stage protection imparted to a card by forming a clear-coat layer and a top-coat layer ensures that any card surface treatment or card decoration is protected over time from excessive wear or scratching due to use in conjunction with a POS device and/or handling.Type: ApplicationFiled: December 19, 2013Publication date: June 25, 2015Inventor: John HERSLOW
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Publication number: 20150136856Abstract: In a smart card having an antenna structure and a metal layer, an insulator layer is formed between the antenna structure and the metal layer to compensate for the attenuation due to the metal layer. The thickness of the insulator layer affects the capacitive coupling between the antenna structure and the metal layer and is selected to have a value which optimizes the transmission/reception of signals between the card and a card reader.Type: ApplicationFiled: November 17, 2014Publication date: May 21, 2015Inventors: JOHN HERSLOW, MICHELE LOGAN, DAVID FINN
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Patent number: 9016591Abstract: High density metal or mineral particles, sized to be less than 10 microns, are compounded into a base plastic layer to form a compounded composite layer used to form the core layer of the card, any layer of the card or the entire card. The amount of high density particles compounded into the plastic layer is controlled so the card: (a) is at least twice as heavy as any standard PVC card; (b) can be manufactured using standard current plastic card equipment and tooling. (c) is not brittle; and (d) is electrically non-conductive whereby it is not subject to electrostatic discharge properties. The card can include RFID functionality integrated into the card body. The compounded composite layer does not interfere with the integrity of the data communication between an RFID chip packaged in an antenna module and coupled with an embedded booster antenna, and a contactless reader or terminal.Type: GrantFiled: August 8, 2013Date of Patent: April 28, 2015Assignee: Composecure, LLCInventors: John Herslow, Bradley A. Paulson, David Finn
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Publication number: 20150041546Abstract: High density metal or mineral particles, sized to be less than 10 microns, are compounded into a base plastic layer to form a compounded composite layer used to form the core layer of the card, any layer of the card or the entire card. The amount of high density particles compounded into the plastic layer is controlled so the card: (a) is at least twice as heavy as any standard PVC card; (b) can be manufactured using standard current plastic card equipment and tooling. (c) is not brittle; and (d) is electrically non-conductive whereby it is not subject to electrostatic discharge properties. The card can include RFID functionality integrated into the card body. The compounded composite layer does not interfere with the integrity of the data communication between an RFID chip packaged in an antenna module and coupled with an embedded booster antenna, and a contactless reader or terminal.Type: ApplicationFiled: August 8, 2013Publication date: February 12, 2015Inventors: JOHN HERSLOW, Bradley A. Paulson, David Finn
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Publication number: 20140224881Abstract: Cards embodying the invention include a core subassembly whose elements define the functionality of the card and a hard coat subassembly attached to the top and/or bottom sides of the core subassembly to protect the core subassembly from wear and tear and being scratched. The core subassembly may be formed solely of plastic layers or of different combinations of plastic and metal layers and may include all the elements of a smart card enabling contactless RF communication and/or direct contact communication. The hard coat subassembly includes a hard coat layer, which typically includes nanoparticles, and a buffer or primer layer formed so as to be attached between the hard coat layer and the core subassembly for enabling the lasering of the core subassembly without negatively impacting the hard coat layer and/or for imparting color to the card.Type: ApplicationFiled: February 12, 2014Publication date: August 14, 2014Inventor: JOHN HERSLOW
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Publication number: 20140166762Abstract: Composite cards formed in accordance with the invention include a security layer comprising a hologram or diffraction grating formed at, or in, the center, or core layer, of the card. The hologram may be formed by embossing a designated area of the core layer with a diffraction pattern and depositing a thin layer of metal on the embossed layer. Additional layers may be selectively and symmetrically attached to the top and bottom surfaces of the core layer. A laser may be used to remove selected portions of the metal formed on the embossed layer, at selected stages of forming the card, to impart a selected pattern or information to the holographic region. The cards may be ‘lasered’ when the cards being processed are attached to, and part of, a large sheet of material, whereby the “lasering” of all the cards on the sheet can be done at the same time and relatively inexpensively.Type: ApplicationFiled: February 19, 2014Publication date: June 19, 2014Inventor: JOHN HERSLOW
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Patent number: 8672232Abstract: A card formed in accordance with the invention includes a first assembly comprised of multiple plastic layers attached via an adhesive to a metal layer. The multiple plastic layers forming the first assembly are laminated under a first selected temperature and pressure conditions to preshrink the multiple plastic layers, stress relieve the first assembly and render the first assembly dimensionally stable. The laminated first assembly is then attached to a metal layer via an adhesive layer to form a second assembly which is then laminated at a temperature below the first selected temperature to form a card which is not subjected to warpage and delamination.Type: GrantFiled: June 27, 2011Date of Patent: March 18, 2014Assignee: Composecure, LLCInventor: John Herslow
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Publication number: 20120325914Abstract: A card formed in accordance with the invention includes a first assembly comprised of multiple plastic layers attached via an adhesive to a metal layer. The multiple plastic layers forming the first assembly are laminated under a first selected temperature and pressure conditions to preshrink the multiple plastic layers, stress relieve the first assembly and render the first assembly dimensionally stable. The laminated first assembly is then attached to a metal layer via an adhesive layer to form a second assembly which is then laminated at a temperature below the first selected temperature to form a card which is not subjected to warpage and delamination.Type: ApplicationFiled: June 27, 2011Publication date: December 27, 2012Inventor: John Herslow