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Craig R Kersten, 629912 Osprey Landing Dr, Orlando, FL 32832

Known as:
Craig L Kersten Kersten Craig

Craig Kersten Phones & Addresses

9912 Osprey Landing Dr, Orlando, FL 32832    574-2529075   

10654 Santa Laguna Dr, Boca Raton, FL 33428    561-9610480   

50907 Stonebridge Dr, Granger, IN 46530    574-2437441   

10681 N Rolling Valley Dr #D, Mooresville, IN 46158    317-8343912   

10681 Rolling Valley Dr, Mooresville, IN 46158    317-8343912   

Plainfield, IN   

Avon, IN   

Indianapolis, IN   

Waterford, MI   

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Craig Kersten resumes & CV records

Resumes

Craig Kersten Photo 14

Director Of Product Management And Pricing

Location:
Orlando, FL
Industry:
Building Materials
Work:
Carrier Enterprise 2017 - Jan 2019
Director New Products, Equiment, Parts and Supplies Carrier Enterprise 2017 - Jan 2019
Director of Product Management and Pricing Carrier Enterprise Jun 2014 - Jul 2017
Regional Product and New Business Development Manager Robert Bosch May 2011 - Jun 2014
International Product Management and Promoted To Manager Residential and Light Commercial Products North A Temperature Equipment Corporation Jan 2005 - Jul 2011
Territory Manager, Residential Marketing and Sales Engineer United Technologies Jan 2000 - Jan 2001
Senior Product Manager Ac and Hp United Technologies Jan 1997 - Jan 2000
Senior Product Manager-Indoor Air Quality United Technologies Jan 1996 - Jan 1997
Regional Sales Representative United Technologies Jan 1992 - Jan 1996
Product Engineer United Technologies Bryant and Carrier Michigan Behler Young Jan 1991 - Jan 1992
Customer Assurance Manager Bryant/Carrier Michigan Jan 1984 - Jan 1991
Manager, Field Customer Assurance Fire and Ice Hvac and Fire Protection Jan 1983 - Jan 1984
Sale and Installer and Service
Education:
Indiana University 1997
Kelly School of Business 1997 - 1997
Master of Business Administration, Masters Northwestern University 1996
Indiana Wesleyan University 1993 - 1996
Bachelors, Bachelor of Science Indiana University–Purdue University Indianapolis 1991 - 1993
University of Michigan 1984 - 1986
Schoolcraft College 1980 - 1983
Associates, Engineering, Mechanical Engineering
Skills:
Air Conditioning, Product Development, Hvac, Heating, Sales Operations, New Business Development, Sales, Pricing, Refrigeration, Manufacturing, Heat Pumps, Ventilation, Competitive Analysis, Product Management, Components, Engineering, Management, Market Planning, Leadership, Direct Sales, Business Strategy, Energy Conservation, Continuous Improvement, Strategy, Business Development, Marketing Strategy, Selling, Automobile, Hvac Controls, Cooling Water, Product Launch, Building Automation, Lean Manufacturing, Advertising, Advertising Sales, Interactive Advertising, Indoor Air Quality, Start Ups, Marketing
Craig Kersten Photo 15

Craig Kersten

Craig Kersten Photo 16

Craig Kersten

Publications & IP owners

Us Patents

Refrigerant Charge Adequacy Gauge

US Patent:
7712319, May 11, 2010
Filed:
Dec 27, 2004
Appl. No.:
11/025787
Inventors:
Pengju Kang - Hartford CT, US
Julio I. Concha - Rocky Hill CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Timothy P. Galante - West Hartford CT, US
Dong Luo - South Windsor CT, US
Craig Kersten - Mooresville IN, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 49/00
F25B 45/00
US Classification:
62126, 62 77, 62149
Abstract:
A method and apparatus for determining the sufficiency of refrigerant charge in an air conditioning system by the use of only two temperature measurements. The temperature of the liquid refrigerant leaving the condenser coil is sensed and the temperature of the condenser coil itself is sensed and the difference between these two measurements is calculated to provide an indication of the adequacy of refrigerant charge in the system. This process is refined by steps taken to eliminate measurements during transient operations and by filtering signals to eliminate undesirable noise. A permitted threshold of deviation is calculated by using probability theory.

Dual Thermochromic Liquid Crystal Temperature Sensing For Refrigerant Charge Indication

US Patent:
2006013, Jun 29, 2006
Filed:
Dec 27, 2004
Appl. No.:
11/025352
Inventors:
Timothy Galante - West Hartford CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Don Schuster - Lindale TX, US
Craig Kersten - Mooresville IN, US
Larry Burns - Avon IN, US
Assignee:
Carrier Corporation - Farmington CT
International Classification:
F25B 45/00
G01K 13/00
US Classification:
062149000, 062077000
Abstract:
The sufficiency of refrigerant charge in an air conditioning system is determined by a comparison of two sensed temperatures in the system, one being the liquid line temperature and the other being either the outdoor temperature or the condenser coil temperature. In one embodiment the two sensed temperatures are displayed on respective thermochromic strips which are so calibrated and juxtaposed as to provide a visual indication, by the relative positions of the two displayed sensed temperatures, as to whether the refrigerant charge is adequate. In another embodiment, the sensed liquid line temperature is displayed by way of a plurality of LEDs and the other temperature is displayed by way of a marker on a temperature scale. If the two displayed temperatures are aligned, then the refrigerant charge is optimized, and if they are not aligned, the system is undercharged or overcharged.

Braze-Free Connector

US Patent:
2006013, Jun 29, 2006
Filed:
Dec 27, 2004
Appl. No.:
11/025789
Inventors:
Timothy Galante - West Hartford CT, US
Sivakumar Gopalnarayanan - Simsbury CT, US
Don Schuster - Lindale TX, US
Craig Kersten - Mooresville IN, US
Larry Burns - Avon IN, US
Robert Dold - Agawam MA, US
Assignee:
Carrier Corporation - Syracuse NY
International Classification:
F16L 47/00
US Classification:
285249000
Abstract:
A braze-free connector for attaching a flow line to an operating unit of a flow system. The connector has a central passage into which the flow line is inserted through a tapered entranceway. The entranceway opens into a radially expanded cavity that surrounds a section of the flow line. The cavity is filled with a pressure activated adhesive. A ferrule is mounted in the entranceway and is rotatably mounted upon a threaded nut which mates with a male thread on the connector body. As the nut is advanced, the ferrule moves axially into the cavity to activate the adhesive, and at the same time, is forced radially into tight sealing contact with the flow line.

Possible Relatives

David D Kersten  Debra D Kersten  Daniel J Kersten  Dennis D Kersten  Donald E Kersten  Douglas H Kersten  Elizabeth C Kersten  Craig L Johnson  Craig Stamps  Craig T Standen 

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