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Michael A Redwine, Age 7611338 N Jefferson Rd, Madison, IN 47250

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Known as:
Michael Alan Redwine Michael H Redwine Michael Darmak Redwine Michael K Redwine Michael Rewine Michael Redwine Michael
Related to:
Dorothy Anne Link

Michael Redwine Phones & Addresses

773 Main St, N Myrtle Bch, SC 29582 (843) 267-1393

North Myrtle Beach, SC

Madison, IN

9468 Red Bud Trl, Berrien Sprgs, MI 49103

Berrien Springs, MI

Van Wert, OH

Murrells Inlet, SC

Myrtle Beach, SC

Fort Wayne, IN

Muskegon, MI

Littleton, CO

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Mentions for Michael A Redwine

Michael Redwine resumes & CV records

Resumes

Michael Redwine Photo 36

Manufacturing Science & Technology Consultancy

Location:
Myrtle Beach, South Carolina Area
Industry:
Industrial Automation
Michael Redwine Photo 37

Manufacturing Science And Technology Consultancy

Location:
11338 north Jefferson Rd, Madison, IN 47250
Industry:
Industrial Automation
Work:
AATS, LLC since Sep 1994
Manufacturing Science and Technology Consultancy
Education:
Rose-Hulman Institute of Technology 1967 - 1970
Skills:
Technology, Network Security, Security, Automation, Industrial Automation
Michael Redwine Photo 38

Michael M Redwine

Michael Redwine Photo 39

Michael Redwine

Michael Redwine Photo 40

Michael Redwine

Michael Redwine Photo 41

Michael Redwine

Michael Redwine Photo 42

Michael Redwine

Michael Redwine Photo 43

General Superintendent At Hensel Phelps Construction Co.

Location:
United States

Publications & IP owners

Us Patents

Systems, Apparatuses, And Methods For Generating Electric Power Via Conversion Of Water To Hydrogen And Oxygen

US Patent:
2018006, Mar 1, 2018
Filed:
Aug 31, 2017
Appl. No.:
15/692331
Inventors:
- Johnson City TN, US
Michael A. Redwine - Madison IN, US
International Classification:
H01M 8/0656
C25B 1/04
C25B 11/04
C25B 11/02
Abstract:
Systems, apparatuses, and methods for generating electric power via conversion of water to hydrogen and oxygen. According to an aspect, a method includes applying super-heated steam across a catalyst surface within a catalyst chamber to generate ionized steam plasma. The method further includes forming an anode and a cathode between molecules of the ionized steam plasma. The method also includes using the anode and the cathode to generate electricity.

Sheet Light Source Using Laser Diode

US Patent:
2016025, Sep 1, 2016
Filed:
May 10, 2016
Appl. No.:
15/150526
Inventors:
- Madison IN, US
Michael Redwine - Madison IN, US
Assignee:
Grote Industries, LLC - Madison IN
International Classification:
F21K 99/00
A61N 5/06
H01S 5/022
Abstract:
A sheet light source is described that has a width in a front-to-back “x” direction, a length in a left-to-right “y” direction, and a height in a bottom-to-top “z” direction. The sheet light source includes a bottom conductive surface, a laser diode, a transparent conductive sheet, and an adhesive material portion. The laser diode is mounted on the conductive surface in the “z” direction. The transparent conductive sheet is laminated onto the laser diode and the conductive surface in the “z” direction. The adhesive material portion is located between the conductive sheet and the conductive surface, and binds the transparent conductive sheet to the laser diode and the conductive surface. The adhesive material portion further enables photons, emitted substantially in the “x” direction from the laser diode, to propagate therein to an edge and be output.

Sheet Light Source Using Laser Diode

US Patent:
2015037, Dec 24, 2015
Filed:
Jun 20, 2014
Appl. No.:
14/310713
Inventors:
- Madison IN, US
Michael Redwine - Madison IN, US
International Classification:
F21V 8/00
F21K 99/00
A61N 5/06
F21V 33/00
Abstract:
A sheet light source is described that has a width in a front-to-back “x” direction, a length in a left-to-right “y” direction, and a height in a bottom-to-top “z” direction. The sheet light source includes a bottom conductive surface, a laser diode, a transparent conductive sheet, and an adhesive material portion. The laser diode is mounted on the conductive surface in the “z” direction. The transparent conductive sheet is laminated onto the laser diode and the conductive surface in the “z” direction. The adhesive material portion is located between the conductive sheet and the conductive surface, and binds the transparent conductive sheet to the laser diode and the conductive surface. The adhesive material portion further enables photons, emitted substantially in the “x” direction from the laser diode, to propagate therein to an edge and be output.

Possible Relatives

David R Redwine  Debbie R Redwine  Dennis L Redwine  Frank J Redwine  Gary N Redwine  Grace B Redwine  Joe A Redwine  Michael A Last  Michael D Stanaland  Michael Stanberry 

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