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Michael Chekal Phones & Addresses

  • Cape Coral, FL
  • 29812 Fox Grove Rd, Farmington Hills, MI 48334 (248) 626-6785
  • Farmington, MI
  • Westland, MI
  • Fort Bragg, NC

Work

Company: Bonsai consultingelectronic data systemshewlett-packard May 2006 Position: Manufacturing support

Education

School / High School: Western Governors University- Salt Lake City, UT May 2007 Specialities: Bachelor of Science in Information Technologies

Skills

Network Administration • Windows Server • Active Directory • Windows 7 • Network Security • System Administration • Servers • System Deployment • Hardware • Operating Systems • Windows Xp

Ranks

Certificate: Mcsa: Windows Server 2008

Industries

Computer Networking

Resumes

Resumes

Michael Chekal Photo 1

Software Application Support Engineer

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Location:
110 Castilian Dr, Goleta, CA 93117
Industry:
Computer Networking
Work:
Hewlett-Packard May 2006 - Mar 2013
Manufacturing Support

Control Point Corporation May 2006 - Mar 2013
Software Application Support Engineer

Intergraph Mar 1997 - May 2006
Field Support

Oakland County, Michigan Government 1999 - 2006
Field Service
Education:
Western Governors University 2007 - 2010
Bachelors, Bachelor of Science
North Farmington High School 1979 - 1982
Skills:
Network Administration
Windows Server
Active Directory
Windows 7
Network Security
System Administration
Servers
System Deployment
Hardware
Operating Systems
Windows Xp
Certifications:
Mcsa: Windows Server 2008
Michael Chekal Photo 2

Michael Chekal Farmington Hills, MI

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Work:
Bonsai ConsultingElectronic Data SystemsHewlett-Packard

May 2006 to 2000
Manufacturing Support

Intergraph Computer Corporation
Farmington Hills, MI
Mar 1997 to May 2006
Field Engineer

Century Computer Corporation
Detroit, MI
Oct 1992 to Mar 1997
Field Engineer

Allen Computer Services, Inc
Southfield, MI
Dec 1991 to Oct 1992
Service Technician

Education:
Western Governors University
Salt Lake City, UT
May 2007 to Mar 2011
Bachelor of Science in Information Technologies

Detroit Engineering Institute
Detroit, MI
Oct 1986 to Feb 1989
Certificate in Electronics Engineering

Business Records

Name / Title
Company / Classification
Phones & Addresses
Michael Chekal
Executive Assistant
Troy Design & Manufacturing Co
Mfg Automotive Stampings
12675 Berwyn, Detroit, MI 48239
(313) 592-2300

Publications

Us Patents

Replaceable Sieve Bed For Portable Oxygen Concentrator

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US Patent:
8388745, Mar 5, 2013
Filed:
Nov 9, 2010
Appl. No.:
12/942514
Inventors:
Dana G. Pelletier - Ortonville MI, US
Michael S. McClain - Ortonville MI, US
Michael P. Chekal - Brighton MI, US
Assignee:
Oxus America, Inc. - Rochester Hills MI
International Classification:
B01D 53/02
US Classification:
96108, 96134, 96147, 96151, 96152
Abstract:
A sieve module includes an impermeable housing and an adsorptive media bed. The impermeable housing is puncturable at a first puncture location to receive gas from an exterior of the impermeable housing. The impermeable housing is also puncturable at a second puncture location to expel gas to the exterior of the impermeable housing. The adsorptive media bed is disposed within the impermeable housing. The gas flows through the impermeable housing from the first puncture wound to the second puncture location by flowing through the adsorptive media bed.

Breath Detection System

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US Patent:
20080078392, Apr 3, 2008
Filed:
Sep 29, 2006
Appl. No.:
11/541497
Inventors:
Dana G. Pelletier - Ortonville MI, US
Michael P. Chekal - Brighton MI, US
International Classification:
A61M 16/00
US Classification:
12820423, 12820421
Abstract:
A breath detection system includes a conduit for gas delivery, e.g. oxygen. A pressure transducer is configured to: monitor a static gas pressure responsive to inhalation and exhalation, at a predetermined location of the conduit interior; and output a pressure signal related to the static gas pressure. A differentiator outputs a pressure change rate signal including a voltage level related to a time differential of the pressure signal. A comparator outputs a comparator signal including a comparator output voltage level related to a difference between the voltage level included in the pressure change rate signal and a detection threshold, where a predetermined comparator output voltage level range is indicative of the beginning of inhalation. A gas-providing apparatus provides a Mask signal feedback to temporarily reduce system sensitivity and also delivers a predetermined amount of the gas to the conduit in response to the comparator signal indicating that the voltage level is within the predetermined comparator output voltage level range.

Oxygen Delivery System

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US Patent:
20080110462, May 15, 2008
Filed:
Nov 10, 2006
Appl. No.:
11/595375
Inventors:
Michael P. Chekal - Brighton MI, US
Michael S. McClain - Ortonville MI, US
Dana G. Pelletier - Ortonville MI, US
International Classification:
A61M 16/00
US Classification:
12820426, 12820529
Abstract:
An oxygen delivery system includes first and second sieve beds configured to selectively receive a supply fluid and separate a substantially oxygen-rich fluid therefrom. A patient conduit having a patient outlet is in alternate selective fluid communication with the sieve beds. The system includes a breath-detection device in fluid communication with the patient conduit, configured to calculate a rate of breathing and to trigger, in response to a breath detection, an output of a predetermined volume of the substantially oxygen-rich fluid alternately from a respective one of the sieve beds. The system also includes a device configured to measure the output flow rate at predetermined intervals. The output, having a target flow rate and a flow rate, occurs during a respective dynamically adjusted patient oxygen delivery phase, which is dependent upon the target flow rate, the output flow rate, and/or the breathing rate.

Method And Apparatus For Customizing Delivery Of An Oxygen-Enriched Gas To A User

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US Patent:
20090188499, Jul 30, 2009
Filed:
Jan 30, 2008
Appl. No.:
12/011889
Inventors:
Michael P. Chekal - Brighton MI, US
Roger Horton - Longmont CO, US
International Classification:
A61M 16/00
US Classification:
12820325
Abstract:
A method of customizing delivery of an oxygen-enriched gas to a user includes calibrating an oxygen delivery device such that it is configured to deliver oxygen-enriched gas to the user in an amount specific to the user's predicted need, which need is correlated with the user's then-current activity. An apparatus for achieving this method is also disclosed herein.

Oxygen Generating System With Self-Contained Electronic Diagnostics And Fault-Tolerant Operation

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US Patent:
20090212962, Aug 27, 2009
Filed:
Feb 23, 2009
Appl. No.:
12/390786
Inventors:
Michael P. Chekal - Brighton MI, US
Dana G. Pelletier - Ortonville MI, US
Assignee:
DELPHI TECHNOLOGIES, INC. - Troy MI
International Classification:
G08B 17/10
G01N 1/00
US Classification:
340632, 422119
Abstract:
A monitoring system for a portable oxygen generating system is provided. The system includes a system monitoring module that monitors an operational status of one or more components of the portable oxygen generating system. An alarm prioritization module determines an alarm priority level based on the operational status. An alarm system control module generates one or more alarm signals based on the alarm priority level.

Method Of Generating An Oxygen-Enriched Gas For A User

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US Patent:
20090214393, Aug 27, 2009
Filed:
Feb 22, 2008
Appl. No.:
12/070975
Inventors:
Michael P. Chekal - Brighton MI, US
Michael S. McClain - Ortonville MI, US
Dana G. Pelletier - Ortonville MI, US
Andrew M. Voto - Brighton MI, US
International Classification:
A62B 7/00
A61M 16/00
US Classification:
422120, 12820426
Abstract:
A method of generating an oxygen-enriched gas for a user via an oxygen generating system is disclosed herein. The oxygen generating system includes at least one sieve bed having a nitrogen-adsorption material disposed therein, the nitrogen-adsorption material being configured to adsorb nitrogen from a feed gas introduced thereto, thereby generating the oxygen-enriched gas therefrom. The at least one sieve bed has an internal gas pressure within a volume defined by the at least one sieve bed. The method includes measuring the internal sieve bed pressure, measuring an ambient atmospheric parameter, and detecting inhalation of the user. The method further includes selectively controlling, substantially in real time, delivery of the oxygen-enriched gas to the user based on at least one of the internal sieve bed gas pressure measurement, the ambient atmospheric parameter measurement, the inhalation detection, or combinations thereof.

System For Generating An Oxygen-Enriched Gas

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US Patent:
20090229460, Sep 17, 2009
Filed:
Mar 13, 2008
Appl. No.:
12/047867
Inventors:
Michael S. McClain - Ortonville MI, US
Dana G. Pelletier - Ortonville MI, US
Michael P. Chekal - Brighton MI, US
International Classification:
B03C 3/00
B01D 53/047
US Classification:
95 96, 96108
Abstract:
A system for generating oxygen includes a compression means configured to compress a feed gas including at least nitrogen and oxygen, and at least one sieve bed configured to generate an oxygen-enriched gas from the compressed feed gas. The sieve bed(s), having an internal gas pressure ranging from about 1 psi to about 10 psi, include a housing and a nitrogen-adsorption material operatively disposed in the housing. The nitrogen-adsorption material is configured to adsorb at least nitrogen from the compressed feed gas during a pressure swing adsorption process, thereby generating an oxygen-enriched gas for a user.
Michael A Chekal from Cape Coral, FL, age ~85 Get Report