“I worked directly with Steve to help build his competitive intelligence program at FLEXcon. After having done so with over 30 different organizations, I have undeniably learned the most from our work with Steve and FLEXcon. When it comes to executing, Steve gets it done. His ability to work with different departments, collaborate with his team members and break down silo's is nothing less than world-class. Steve has a certain creativity when it comes to leveraging information that is unmatched. Not to mention, he helped me immensely on a personal, professional level.”
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Hornady celebrates 75 years of American manufacturing. This company, born in Nebraska, is an icon of the firearm and ammunition industry. American…
Hornady celebrates 75 years of American manufacturing. This company, born in Nebraska, is an icon of the firearm and ammunition industry. American…
Liked by Stephen Tomas
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Super chuffed for Zara Hall on graduating from University of Strathclyde on Friday 21 June 2024 with a Master of Engineering in Product Design…
Super chuffed for Zara Hall on graduating from University of Strathclyde on Friday 21 June 2024 with a Master of Engineering in Product Design…
Liked by Stephen Tomas
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Flexcon Global today announced Ruben Harris as Vice President of Supply Chain. “Harris will drive our end-to-end global supply chain strategy for…
Flexcon Global today announced Ruben Harris as Vice President of Supply Chain. “Harris will drive our end-to-end global supply chain strategy for…
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Experience & Education
Licenses & Certifications
Patents
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Systems and methods for providing overcharge protections in capacitive coupled biomedical electrodes
Issued CN 107230513
An electrically conductive composite is disclosed that includes a dielectric material having a first side and a second side, conductive particles within the dielectric material layer, and a discontinuous layer of a conductive material on a first side of the dielectric layer. The conductive particles are aligned to form a plurality of conductive paths from the first side to the second side of the dielectric material, and each of the conductive paths is formed of at least a plurality of…
An electrically conductive composite is disclosed that includes a dielectric material having a first side and a second side, conductive particles within the dielectric material layer, and a discontinuous layer of a conductive material on a first side of the dielectric layer. The conductive particles are aligned to form a plurality of conductive paths from the first side to the second side of the dielectric material, and each of the conductive paths is formed of at least a plurality of conductive particles. The discontinuous layer includes a plurality of non-mutually connected portions that cover portions of, but not all of, the first side of the dielectric material such that exposed portions of the underlying first side of the dielectric material remain exposed through the discontinuous layer, yet the discontinuous layer facilitates the electronic coupling together of a plurality of the conductive paths from the first side to the second side of the dielectric material.
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Systems and methods for providing surface connectivity of oriented conductive channels
Issued US 10,499,498
An electrically conductive composite is disclosed that includes a dielectric material having a first side and a second side, conductive particles within the dielectric material layer, and a discontinuous layer of a conductive material on a first side of the dielectric layer. The conductive particles are aligned to form a plurality of conductive paths from the first side to the second side of the dielectric material, and each of the conductive paths is formed of at least a plurality of…
An electrically conductive composite is disclosed that includes a dielectric material having a first side and a second side, conductive particles within the dielectric material layer, and a discontinuous layer of a conductive material on a first side of the dielectric layer. The conductive particles are aligned to form a plurality of conductive paths from the first side to the second side of the dielectric material, and each of the conductive paths is formed of at least a plurality of conductive particles. The discontinuous layer includes a plurality of non-mutually connected portions that cover portions of, but not all of, the first side of the dielectric material such that exposed portions of the underlying first side of the dielectric material remain exposed through the discontinuous layer, yet the discontinuous layer facilitates the electronic coupling together of a plurality of the conductive paths from the first side to the second side of the dielectric material.
Other inventorsSee patent -
Systems and methods for providing overcharge protection in capacitive coupled biomedical electrodes
Issued US 9,8991,21
An alternating electric field responsive biomedical composite is disclosed that provides capacitive coupling through the composite. The biomedical composite includes a binder material, a polar material that is substantially dispersed within the binder material, and electrically conductive particles within the binder material. The polar material is responsive to the presence of an alternating electric field, and the electrically conductive particles are not of sufficient concentration to form a…
An alternating electric field responsive biomedical composite is disclosed that provides capacitive coupling through the composite. The biomedical composite includes a binder material, a polar material that is substantially dispersed within the binder material, and electrically conductive particles within the binder material. The polar material is responsive to the presence of an alternating electric field, and the electrically conductive particles are not of sufficient concentration to form a conductive network through the composite unless and until the composite becomes overcharged.
Other inventors -
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Systems and methods for providing surface connectivity of oriented conductive channels
Issued US 9,775,235
An electrically conductive composite is disclosed that includes a dielectric material having a first side and a second side, conductive particles within the dielectric material layer, and a discontinuous layer of a conductive material on a first side of the dielectric layer. The conductive particles are aligned to form a plurality of conductive paths from the first side to the second side of the dielectric material, and each of the conductive paths is formed of at least a plurality of…
An electrically conductive composite is disclosed that includes a dielectric material having a first side and a second side, conductive particles within the dielectric material layer, and a discontinuous layer of a conductive material on a first side of the dielectric layer. The conductive particles are aligned to form a plurality of conductive paths from the first side to the second side of the dielectric material, and each of the conductive paths is formed of at least a plurality of conductive particles. The discontinuous layer includes a plurality of non-mutually connected portions that cover portions of, but not all of, the first side of the dielectric material such that exposed portions of the underlying first side of the dielectric material remain exposed through the discontinuous layer, yet the discontinuous layer facilitates the electronic coupling together of a plurality of the conductive paths from the first side to the second side of the dielectric material.
Other inventorsSee patent -
Systems and methods for providing overcharge protection in capacitive coupled biomedical electrodes
Issued US 8,673,184
An alternating electric field responsive biomedical composite is disclosed that provides capacitive coupling through the composite. The biomedical composite includes a binder material, a polar material that is substantially dispersed within the binder material, and electrically conductive particles within the binder material. The polar material is responsive to the presence of an alternating electric field, and the electrically conductive particles are not of sufficient concentration to form a…
An alternating electric field responsive biomedical composite is disclosed that provides capacitive coupling through the composite. The biomedical composite includes a binder material, a polar material that is substantially dispersed within the binder material, and electrically conductive particles within the binder material. The polar material is responsive to the presence of an alternating electric field, and the electrically conductive particles are not of sufficient concentration to form a conductive network through the composite unless and until the composite becomes overcharged.
Other inventors -
Courses
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Developing and Implementing an Outward Mindset - Arbinger Institute
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New Product Blueprinting - AIM Institute
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Principles of Leadership (EANE)
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WPI Project Management
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Languages
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English
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Organizations
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SGIA
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National Rifle Association
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“Someone that left $85 Billion dollars worth of military equipment including guns and ammo in Afghanistan for the Taliban to secure, gets zero time…
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I’m happy to share that I’m starting a new position as Production Supervisor at Flexcon!
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We’re thrilled to introduce Aimee Peacock as our Honorary Chair for the Women’s Initiative 7th Annual Power of the Purse fundraiser! 🎉 Embracing…
We’re thrilled to introduce Aimee Peacock as our Honorary Chair for the Women’s Initiative 7th Annual Power of the Purse fundraiser! 🎉 Embracing…
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Flexcon has been selected as one of the 2024 US Best Managed companies. Now in its fifth year, the award, sponsored by Deloitte Private and The Wall…
Flexcon has been selected as one of the 2024 US Best Managed companies. Now in its fifth year, the award, sponsored by Deloitte Private and The Wall…
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This week I had the opportunity to work alongside the most amazing people at Directions North America in San Diego. I want to give a huge thanks to…
This week I had the opportunity to work alongside the most amazing people at Directions North America in San Diego. I want to give a huge thanks to…
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27 Years ago, on this day, E Ink was founded. Here begins a 27-day bouillabaisse of said history. Mark Twain-GPT IV kicks it off.. E Ink…
27 Years ago, on this day, E Ink was founded. Here begins a 27-day bouillabaisse of said history. Mark Twain-GPT IV kicks it off.. E Ink…
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