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Jon P Seubert, 552222 S Conklin Rd, Spokane Valley, WA 99037

Known as:
Jonathan Patrick Seubert John P Seubert John C Seubert Jon T
Related to:
Celeste M Sullivan

Jon Seubert Phones & Addresses

2222 S Conklin Rd, Spokane Vly, WA 99037    509-9264384   

Spokane Valley, WA   

Depoe Bay, OR   

2823 Indiana Ave, Caldwell, ID 83605    208-4598031   

Greenwich, CT   

Spokane, WA   

Lewiston, ID   

2222 S Conklin Rd, Spokane Valley, WA 99037   

Work

Position: Professional/Technical

Education

Degree: Associate degree or higher
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Mentions for Jon P Seubert

Resumes & CV records

Resumes

Jon Seubert Photo 16

Senior Metering Automation Engineer

Location:
2222 south Conklin Rd, Spokane Valley, WA 99037
Industry:
Utilities
Work:
Avista
Senior Metering Automation Engineer Avista Mar 2016 - Jan 2018
Project Manager Iii Avista Mar 2007 - Mar 2016
Metering Automation Engineer World Wide Packets Aug 2001 - May 2007
Senior Test and Manufacturing Engineer Extreme Networks Oct 2000 - Apr 2001
Senior Test Engineer Mcm Solutions (Uk) Aug 1999 - Sep 2000
Functional Test Engineer Mcm Solutions (Uk) May 1997 - Aug 1999
Manufacturing Engineer Mcm Solutions (Uk) Aug 1996 - May 1997
Process Engineer Potlatch Corporation Jun 1989 - Aug 1992
Summer Internship As Plant Engineering
Skills:
Project Planning, Project Management, Troubleshooting, Program Management, Microsoft Office, Leadership, Engineering, Energy, Analysis
Certifications:
Professional Engineer (Pe)
Jon Seubert Photo 17

Jon Seubert

Publications & IP owners

Us Patents

Preheating And Starting Circuit And Method For A Fluorescent Lamp

US Patent:
5736817, Apr 7, 1998
Filed:
Sep 19, 1995
Appl. No.:
8/530673
Inventors:
Dan E. Rothenbuhler - Meridian ID
Samuel A. Johnson - Eagle ID
Glenn A. Noble - Nampa ID
Jon P. Seubert - Caldwell ID
Assignee:
Beacon Light Products, Inc. - Meridian ID
International Classification:
H05R 3702
US Classification:
315106
Abstract:
The cathodes of a fluorescent lamp are preheating and the medium between the cathodes is ignited into a plasma by heating the cathodes for a predetermined warm-up time period by conducting current from a supply power source through the cathodes for a conductive time interval, and applying a relatively high voltage starting pulse to the cathodes at the end of the conductive time interval or alternatively suppressing the high voltage starting pulse during the predetermined warm-up time period. Suppressing the high voltage starting pulse during the warm-up time period, thereby preventing erosion the thermionic coating of the cathodes due to positive ion bombardment. A controllable semiconductor switch is connected to the cathodes to control the current flow through them. The high voltage starting pulse is derived from commutating the semiconductor switch into a nonconductive state when the applied current level drops to the characteristic holding current value of the switch. The high voltage starting pulse is suppressed by triggering the semiconductor switch at the time when it would otherwise be commutating to the nonconductive state.

Possible Relatives

David J Seubert  Daniel J Seubert  George C Seubert  Heather Seubert  John L Seubert  Mark Seubert  Mychael J Seubert  Jon A Johnson  Jon A Standerfer  Jon D Standridge 

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