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Douglas Sward Phones & Addresses

  • 1076 7625, Midvale, UT 84047 (801) 565-8022
  • Woods Cross, UT
  • 107 Good St, Cambridge, IL 61238 (309) 937-5856
  • Salt Lake City, UT

Work

Company: Sward design, llc 2003 Position: Owner / senior mechnical engineer

Education

School / High School: BLACK HAWK COLLEGE- Moline, IL 1985 Specialities: Associate in Mechanical Technology

Professional Records

Medicine Doctors

Douglas Sward Photo 1

Douglas G. Sward

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Specialties:
Emergency Medicine
Work:
Maryland Emergency Medicine Network Of University Of Maryland
500 Upper Chesapeake Dr, Bel Air, MD 21014
(443) 643-2000 (phone), (443) 643-2119 (fax)

Shock Trauma Center Hyperbaric Medicine
22 S Greene St Ground Lvl, Baltimore, MD 21201
(410) 328-6152 (phone), (410) 328-3758 (fax)
Education:
Medical School
Virginia Commonwealth University SOM
Graduated: 2004
Languages:
English
Spanish
Description:
Dr. Sward graduated from the Virginia Commonwealth University SOM in 2004. He works in Baltimore, MD and 1 other location and specializes in Emergency Medicine. Dr. Sward is affiliated with University Of Maryland Medical Center and University Of Maryland Upper Chesapeake Medical Center.

Resumes

Resumes

Douglas Sward Photo 2

Douglas Sward

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Douglas Sward Photo 3

Douglas Sward Midvale, UT

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Work:
Sward Design, LLC

2003 to 2000
Owner / Senior Mechnical Engineer

VIA Motors, Inc. / Raser Technologies Inc.
Orem, UT
2004 to 2012
Mechanical Engineering Manager

KORR Medical Technologies
Salt Lake City, UT
2003 to 2003
Senior Mechanical Engineer

3Com Corporation

2000 to 2003
Senior Manufacturing Engineer

3Com Corporation
Salt Lake City, UT
1992 to 2003
Lead Mechanical Design Engineer

3Com Corporation

1999 to 2000
Lead Mechanical Design Engineer

3Com Corporation

1996 to 1999
Design for Manufacturability Engineer

3Com Corporation

1992 to 1996
Senior Printed Circuit Board Designer

Education:
BLACK HAWK COLLEGE
Moline, IL
1985
Associate in Mechanical Technology

Publications

Us Patents

Sliding Connector Interface With Non-Metallic Contacts

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US Patent:
6439900, Aug 27, 2002
Filed:
Oct 13, 2000
Appl. No.:
09/687178
Inventors:
Douglas Alan Sward - Midvale UT
Assignee:
3Com Corporation - Santa Clara CA
International Classification:
H01R 1344
US Classification:
439131, 439886, 439951, 174256
Abstract:
A communication module is provided having a movable electrically conductive interface. This module comprises a printed circuit board with a first slidably receiving contact surface for providing electrical connectivity to the movable electrically-conductive interface, a non-metallic sealant disposed about at least a portion of the first slidably receiving contact surface about which the movable electrically-conductive interface is formed, the sealant imposing negligible resistance to the movable electrically-conductive interface, and a second slidably receiving contact surface for traveling across the sealant disposed about the first slidably receiving contact surface thereby forming the movable electrically conductive interface. Also a method is provided for overlaying the non-metallic sealing element over the first slidably receiving contact surface.

Extendable Planar Diversity Antenna

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US Patent:
6545643, Apr 8, 2003
Filed:
Sep 8, 2000
Appl. No.:
09/658140
Inventors:
Douglas Alan Sward - Midvale UT
Brent Madsen - Providence UT
Carlos Rios - Los Gatos CA
Jeffrey Jones - Orem UT
Robert Yarbrough - San Diego CA
Nhan T. Nguyen - Brighton MA
Assignee:
3Com Corporation - Santa Clara CA
International Classification:
H01Q 138
US Classification:
343702, 343700 MS
Abstract:
The present invention is a retractable/extendable diversity antenna that provides the appropriate polarization in a horizontal orientation. The antenna structure is placed within a Type II PCMCIA PC card package and may be extended or retracted with one touch. The antenna structure is large enough to provide for the diversity antenna design and may optionally be housed within a PCMCIA Type II PC Card. At least one spring-loaded mechanism is used to extend the antenna structure beyond the PCMCIA PC Card package and to provide stability while the antenna structure is in the extended position. The diversity antenna configuration may consist of either two miniature, planar antenna modules or two etched printed circuit board contours that are spaced as far apart as possible with a minimum separation of a quarter wave length distance in order to provide mitigation to radio multipath fading effects. The antenna modules have orientations perpendicular to each other such that the polar nulls representative of their radiation patterns remain spatially orthogonal.

Extendable Planar Diversity Antenna

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US Patent:
6933896, Aug 23, 2005
Filed:
Apr 7, 2003
Appl. No.:
10/408394
Inventors:
Douglas Alan Sward - Midvale UT, US
Brent Madsen - Providence UT, US
Carlos Rios - Los Gatos UT, US
Jeffrey Jones - Orem UT, US
Robert Yarbrough - San Diego CA, US
Nhan T. Nguyen - Brighton MA, US
Assignee:
3Com Corporation - Marlborough MA
International Classification:
H01Q001/24
H01Q001/42
US Classification:
343702, 343872, 343795, 343700 MS
Abstract:
The present invention is a retractable/extendable diversity antenna that provides the appropriate polarization in a horizontal orientation. The antenna structure is placed within a Type II PCMCIA PC card package and may be extended or retracted with one touch. The antenna structure is large enough to provide for the diversity antenna design and may optionally be housed within a PCMCIA Type II PC Card. At least one spring-loaded mechanism is used to extend the antenna structure beyond the PCMCIA PC Card package and to provide stability while the antenna structure is in the extended position. The diversity antenna configuration may consist of either two miniature, planar antenna modules or two etched printed circuit board contours that are spaced as far apart as possible with a minimum separation of a quarter wave length distance in order to provide mitigation to radio multipath fading effects. The antenna modules have orientations perpendicular to each other such that the polar nulls representative of their radiation patterns remain spatially orthogonal.

Generator With Ferromagnetic Bobbin

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US Patent:
20080122309, May 29, 2008
Filed:
Nov 29, 2006
Appl. No.:
11/607076
Inventors:
Sergei Kolomeitsev - Rochester MI, US
Douglas Alan Sward - Midvale UT, US
Glen Carlson - Sandy UT, US
Assignee:
RT Patent Company - Wilmington DE
International Classification:
H02K 3/04
US Classification:
310194
Abstract:
An electromechanical machine includes a stator. A rotor is configured to rotate relative to the stator about a rotational axis. A coil extends about the axis and is wound on a bobbin. The bobbin surrounds the axis and has a circumferentially extending pocket in which the coil is located. The bobbin further has a circumferentially-extending overhang section that extends directly over at least a portion of the coil.

Pcmcia Card With Extendable Antenna

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US Patent:
D4515013, Dec 4, 2001
Filed:
Oct 10, 2000
Appl. No.:
D/130851
Inventors:
Douglas Alan Sward - Midvale UT
Brent Madsen - Providence UT
Ryan Kunz - Roy UT
Assignee:
3Com Corporation - Santa Clara CA
International Classification:
1401
US Classification:
D14242

High-Density Electrical Connector

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US Patent:
20190334297, Oct 31, 2019
Filed:
Apr 30, 2019
Appl. No.:
16/399392
Inventors:
- Springville UT, US
Braden Ta'ala - Spanish Fork UT, US
Douglas Sward - Midvale UT, US
International Classification:
H01R 24/40
H01R 13/627
H01R 13/11
H01R 13/631
H01R 13/502
Abstract:
Disclosed herein is an electrical connector, comprising a plug and a receptacle. The plug comprises first electrical contacts electrically isolated from each other and arranged into a first outer contact annulus and a first inner contact annulus concentric with and radially spaced apart from each other. The receptacle comprises second electrical contacts electrically isolated from each other and arranged into a second outer contact annulus and a second inner contact annulus concentric with and radially spaced apart from each other. The plug is selectively connectable with the receptacle. When the plug is selectively connected with the receptacle, each of the first electrical contacts of the first outer contact annulus is in physical contact with a corresponding one of the second electrical contacts of the second outer contact annulus and each of the first electrical contacts of the first inner contact annulus is in physical contact with a corresponding one of the second electrical contacts of the second inner contact annulus.
Douglas Alan Sward from Midvale, UT, age ~65 Get Report