Patents by Inventor Mark Ronay
Mark Ronay 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: 11955253Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: GrantFiled: December 15, 2021Date of Patent: April 9, 2024Assignee: Liquid Wire Inc.Inventor: Mark Ronay
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Publication number: 20230364884Abstract: A deformable assembly may include a first structural layer, a first bonding layer bonded to the structural layer, and a pattern of functional material entrapped between the first structural layer and first the bonding layer. The functional material has a viscous characteristic, an elastic characteristic and/or a viscoelastic characteristic. The assembly may further include a second structural layer bonded to the first bonding layer. The first structural layer may include a first piece of fabric, the second structural layer may include a second piece of fabric, and the functional material may be electrically conductive. The functional material may include a conductive gel. The assembly may further include a second bonding layer bonded to the first bonding layer and the first structural layer, and the pattern of functional material may be entrapped between the first and second bonding layers.Type: ApplicationFiled: March 17, 2023Publication date: November 16, 2023Inventor: Mark Ronay
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Publication number: 20230361445Abstract: A conductive assembly may include a deformable substrate disposed around an axis, and a deformable conductor arranged on the deformable substrate. The substrate may be arranged to form a channel along the axis, and the deformable conductor may be arranged on the deformable substrate to form a waveguide. The deformable substrate, the first deformable conductor, and a second deformable conductor may be arranged to form a microstrip or a coaxial transmission line. A deformable transmission line may include a deformable substrate arranged in a substantially enclosed channel around an axis, a first deformable conductor arranged in a trace along the axis of the deformable substrate, and a second deformable conductor arranged on the deformable substrate to form a reference conductor for the first deformable conductor. A method of fabricating a deformable conductive assembly may include forming a deformable conductor on a deformable substrate, and disposing the deformable substrate around an axis.Type: ApplicationFiled: April 12, 2023Publication date: November 9, 2023Inventors: Mark Ronay, Edward Godshalk
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Publication number: 20230349775Abstract: A sensor may include a deformable sensing element having a deformable conductor arranged to deform in response to deformation of the sensing element, wherein the deformation of the sensing element is selectively controlled. The sensing element may be selectively controlled by a restraining element. The restraining element may control the deformation of the sensing element by distributing forces applied to the sensing element. The sensing element may include a deformable body with the deformable conductor arranged to respond to elongation of the deformable body. The deformable conductor may include a conductive gel. A sensor may include a deformable body, a deformable conductor arranged to deform in response to deformation of the deformable body, and a restraining element arranged to selectively control the deformation of the deformable body.Type: ApplicationFiled: March 31, 2023Publication date: November 2, 2023Inventors: Mark Ronay, Jorge E. Carbo
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Patent number: 11664565Abstract: A conductive assembly may include a deformable substrate disposed around an axis, and a deformable conductor arranged on the deformable substrate. The substrate may be arranged to form a channel along the axis, and the deformable conductor may be arranged on the deformable substrate to form a waveguide. The deformable substrate, the first deformable conductor, and a second deformable conductor may be arranged to form a microstrip or a coaxial transmission line. A deformable transmission line may include a deformable substrate arranged in a substantially enclosed channel around an axis, a first deformable conductor arranged in a trace along the axis of the deformable substrate, and a second deformable conductor arranged on the deformable substrate to form a reference conductor for the first deformable conductor. A method of fabricating a deformable conductive assembly may include forming a deformable conductor on a deformable substrate, and disposing the deformable substrate around an axis.Type: GrantFiled: May 6, 2020Date of Patent: May 30, 2023Assignee: Liquid Wire Inc.Inventors: Mark Ronay, Edward Godshalk
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Patent number: 11619554Abstract: A sensor may include a deformable sensing element having a deformable conductor arranged to deform in response to deformation of the sensing element, wherein the deformation of the sensing element is selectively controlled. The sensing element may be selectively controlled by a restraining element. The restraining element may control the deformation of the sensing element by distributing forces applied to the sensing element. The sensing element may include a deformable body with the deformable conductor arranged to respond to elongation of the deformable body. The deformable conductor may include a conductive gel. A sensor may include a deformable body, a deformable conductor arranged to deform in response to deformation of the deformable body, and a restraining element arranged to selectively control the deformation of the deformable body.Type: GrantFiled: June 4, 2020Date of Patent: April 4, 2023Assignee: Liquid Wire Inc.Inventors: Mark Ronay, Jorge E. Carbo
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Patent number: 11607863Abstract: A deformable assembly may include a first structural layer, a first bonding layer bonded to the structural layer, and a pattern of functional material entrapped between the first structural layer and first the bonding layer. The functional material has a viscous characteristic, an elastic characteristic and/or a viscoelastic characteristic. The assembly may further include a second structural layer bonded to the first bonding layer. The first structural layer may include a first piece of fabric, the second structural layer may include a second piece of fabric, and the functional material may be electrically conductive. The functional material may include a conductive gel. The assembly may further include a second bonding layer bonded to the first bonding layer and the first structural layer, and the pattern of functional material may be entrapped between the first and second bonding layers.Type: GrantFiled: March 26, 2020Date of Patent: March 21, 2023Assignee: Liquid Wire Inc.Inventor: Mark Ronay
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Patent number: 11585705Abstract: A sensor may include a bladder, and a deformable conductor disposed on the bladder such that deformation of the bladder causes deformation of the deformable conductor, wherein the bladder is constrained so as to enhance the deformation of the conductor in response to the deformation of the bladder. A method may include applying a stimulus to a bladder having a deformable conductor attached thereto, detecting a change in an electrical characteristic associated with the deformable conductor in response to the stimulus, and selectively constraining the bladder to amplify the change in electrical characteristic in response to the stimulus.Type: GrantFiled: October 25, 2021Date of Patent: February 21, 2023Assignee: Liquid Wire Inc.Inventor: Mark Ronay
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Publication number: 20220285043Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: ApplicationFiled: December 15, 2021Publication date: September 8, 2022Inventor: Mark Ronay
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Patent number: 11222735Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: GrantFiled: June 1, 2020Date of Patent: January 11, 2022Assignee: Liquid Wire Inc.Inventor: Mark Ronay
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Patent number: 11156509Abstract: A sensor may include a bladder, and a deformable conductor disposed on the bladder such that deformation of the bladder causes deformation of the deformable conductor, wherein the bladder is constrained so as to enhance the deformation of the conductor in response to the deformation of the bladder. A method may include applying a stimulus to a bladder having a deformable conductor attached thereto, detecting a change in an electrical characteristic associated with the deformable conductor in response to the stimulus, and selectively constraining the bladder to amplify the change in electrical characteristic in response to the stimulus.Type: GrantFiled: October 11, 2018Date of Patent: October 26, 2021Assignee: Liquid Wire Inc.Inventor: Mark Ronay
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Publication number: 20210272891Abstract: A structure may include a first material, a second material joined to the first material at a junction between the first and second materials, and one or more media extending across the junction to form a continuous interconnect between the first and second materials, wherein the first and second materials are heterogeneous. The structure may further include a transition at the junction between the first and second materials. The one or more media may include a functional material which may be electrically conductive. The structure may further include a third material joined to the second material at a second junction between the second and third materials, the media may extend across the second junction to form a continuous interconnect between the first, second, and third materials, and the second and third materials may be heterogeneous.Type: ApplicationFiled: May 18, 2021Publication date: September 2, 2021Inventors: Mark Ronay, Jorge E. Carbo, Trevor Spiegel Antonio Rivera, Charles Kinzel, Michael Adventure Hopkins, Sai Srinivas Desabathina
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Publication number: 20200386630Abstract: A sensor may include a deformable sensing element having a deformable conductor arranged to deform in response to deformation of the sensing element, wherein the deformation of the sensing element is selectively controlled. The sensing element may be selectively controlled by a restraining element. The restraining element may control the deformation of the sensing element by distributing forces applied to the sensing element. The sensing element may include a deformable body with the deformable conductor arranged to respond to elongation of the deformable body. The deformable conductor may include a conductive gel. A sensor may include a deformable body, a deformable conductor arranged to deform in response to deformation of the deformable body, and a restraining element arranged to selectively control the deformation of the deformable body.Type: ApplicationFiled: June 4, 2020Publication date: December 10, 2020Applicant: Liquid Wire Inc.Inventors: Mark Ronay, Jorge E. Carbo
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Publication number: 20200381349Abstract: A structure may include a first material, a second material joined to the first material at a junction between the first and second materials, and one or more media extending across the junction to form a continuous interconnect between the first and second materials, wherein the first and second materials are heterogeneous. The structure may further include a transition at the junction between the first and second materials. The one or more media may include a functional material which may be electrically conductive. The structure may further include a third material joined to the second material at a second junction between the second and third materials, the media may extend across the second junction to form a continuous interconnect between the first, second, and third materials, and the second and third materials may be heterogeneous.Type: ApplicationFiled: May 28, 2020Publication date: December 3, 2020Applicant: Liquid Wire Inc.Inventors: Mark Ronay, Jorge E. Carbo, Trevor Spiegel Antonio Rivera, Charles Kinzel, Michael Adventure Hopkins, Sai Srinivas Desabathina
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Publication number: 20200365293Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: ApplicationFiled: June 1, 2020Publication date: November 19, 2020Applicant: Liquid Wire Inc.Inventor: Mark Ronay
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Patent number: 10672530Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: GrantFiled: April 6, 2018Date of Patent: June 2, 2020Assignee: Liquid Wire Inc.Inventor: Mark Ronay
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Publication number: 20200066628Abstract: A circuit assembly may include a substrate and a pattern of contact points formed from deformable conductive material supported by the substrate. The assembly may further include an electric component supported by the substrate and having terminals arranged in a pattern corresponding to the pattern of contacts points. The one or more of the terminals of the electric component may contact one or more of the corresponding contact points to form one or more electrical connections between the electric component and the contact points.Type: ApplicationFiled: August 22, 2019Publication date: February 27, 2020Applicant: Liquid Wire Inc.Inventors: Mark Ronay, Trevor Spiegel Antonio Rivera, Michael Adventure Hopkins, Edward Godshalk, Charles Kinzel
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Publication number: 20190056277Abstract: A sensor may include a bladder, and a deformable conductor disposed on the bladder such that deformation of the bladder causes deformation of the deformable conductor, wherein the bladder is constrained so as to enhance the deformation of the conductor in response to the deformation of the bladder. A method may include applying a stimulus to a bladder having a deformable conductor attached thereto, detecting a change in an electrical characteristic associated with the deformable conductor in response to the stimulus, and selectively constraining the bladder to amplify the change in electrical characteristic in response to the stimulus.Type: ApplicationFiled: October 11, 2018Publication date: February 21, 2019Applicant: Liquid Wire Inc.Inventor: Mark Ronay
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Publication number: 20180315518Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: ApplicationFiled: May 24, 2018Publication date: November 1, 2018Applicant: Liquid Wire Inc.Inventor: Mark Ronay
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Publication number: 20180247727Abstract: A conducting shear thinning gel composition and methods of making such a composition are disclosed. The conducting shear thinning gel composition includes a mixture of a eutectic gallium alloy and gallium oxide, wherein the mixture of eutectic gallium alloy and gallium oxide has a weight percentage (wt %) of between about 59.9% and about 99.9% eutectic gallium alloy, and a wt % of between about 0.1% and about 2.0% gallium oxide. Also disclosed are articles of manufacture, comprising the shear thinning gel composition, and methods of making article of manufacture having a shear thinning gel composition. Also disclosed are sensors and multiplexed systems utilizing deformable conductors.Type: ApplicationFiled: April 6, 2018Publication date: August 30, 2018Applicant: Liquid Wire Inc.Inventor: Mark Ronay