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Sidney L Bennett

from Carpentersville, IL
Age ~52
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Also known as:
Sidney Lamont Bennett, Sydney L Bennett, Sidney L Bennet
Phone and address:
1613 Gleneagle Ct, Carpentersville, IL 60110
Related to:
Sidney L BennetAmanda ErvingTeresa BennettBenjamin Rice, 35
Connected to:
Adolph N Bennett, 65Adrienne L Bennett, 70Aidan Bennett, 32Ailsa P Bennett, 32Alexcia Bennett, 28Alicia Bennett, 47Allison Bennett, 52Alpha V Bennett, 87Alwed T Bennett, 100Amanda S Bennette, 38

Sidney Bennett Phones & Addresses

  • 1613 Gleneagle Ct, Carpentersville, IL 60110
  • 644 Bode Rd, Hoffman Estates, IL 60169
  • Algonquin, IL
  • Gilberts, IL
  • 11740 Blue Bayou Dr, Huntley, IL 60142
  • 15 N Victoria Ln #H, Streamwood, IL 60107
  • Hanover Park, IL
  • Rolling Meadows, IL
  • Algonquin, IL
  • Auburn, IL

Resumes

Resumes

Sidney Bennett Photo 1

Chief Executive Officer

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Industry:
Media Production
Work:
Star School Road Productions
Chief Executive Officer
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Sidney Bennett

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Location:
Chicago, IL
Industry:
Entertainment
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Sidney Bennett

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Sidney Bennett Photo 4

Sidney Bennett

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Sidney Bennett Photo 5

Sidney Bennett

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Skills:
Patient Care
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Sidney Bennett

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Sidney Bennett

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Publications

Us Patents

Segmented Coaxial Transmission Line

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US Patent:
48313467, May 16, 1989
Filed:
Mar 26, 1987
Appl. No.:
7/031098
Inventors:
Eric L. Brooker - Hinsdale IL
Sidney M. Bennett - Chicago IL
Assignee:
Andrew Corporation - Orland Park IL
International Classification:
H01P 104
H01P 306
US Classification:
333260
Abstract:
A flexible coaxial cable assembly that can be efficiently packaged and shipped in segments and installed and assembled in the field. The cable includes strain insulators spaced along the length of the region between the inner and outer conductors to transmit stresses such as differential thermal expansion and contraction between the conductors. The inner conductors of successive cable segments may be rigidly joined to each other to prevent relative movement between the inner conductors of adjacent cable segments. The inner and outer conductors can be corrugated.

Coil Mounting Arrangement For Fiber Optic Gyroscope

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US Patent:
54445345, Aug 22, 1995
Filed:
Dec 27, 1993
Appl. No.:
8/174184
Inventors:
Richard B. Dyott - Oak Lawn IL
Eric L. Brooker - Marietta GA
Sidney M. Bennett - Chicago IL
John D. Myhre - Western Springs IL
Assignee:
Andrew Corporation - Orland Park IL
International Classification:
G01C 1964
US Classification:
356350
Abstract:
The sensing coil of a fiber optic gyroscope is mounted by submerging the coil in a gel which surrounds and supports the coil. The components attached to the coil, such as the directional coupler(s) and polarizer, may also be submerged in the gel. The gel is contained by a rigid housing, in which the walls of the housing are spaced away from the coil. The intervening space between the coil and the innermost walls of the housing are filled with the gel, and the gel may be bonded to those innermost walls. The gel remains stiff enough to maintain the coil in a fixed position relative to the housing, and soft enough to avoid any significant effect on the h of the coil over the operating temperature range. In a modified form, the optical-fiber sensing coil is wound around a bobbin that has a layer of gel on the coil-supporting surface. A coating of adhesive is applied to the outside surfaces of the coil to hold the coil windings together in a stable configuration around the layer of gel.

Coil Mounting Arrangement For Fiber Optic Gyroscope Using A Gel Loaded With Particles

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US Patent:
54813581, Jan 2, 1996
Filed:
Apr 21, 1994
Appl. No.:
8/230763
Inventors:
Richard B. Dyott - Oak Lawn IL
Eric L. Brooker - Hinsdale IL
Sidney M. Bennett - Chicago IL
John D. Myhre - Western Springs IL
Assignee:
Andrew Corporation - Orland Park IL
International Classification:
G01C 1964
US Classification:
356350
Abstract:
The sensing coil of a fiber optic gyroscope is wholly or partially surrounded by a gel. The components attached to the coil, such as the directional coupler(s) and polarizer, may also be wholly or partially submerged in the gel. The gel is contained by a rigid housing, in which the inner walls of the housing form a cavity for the coil and the gel. The cavity is filled with the gel, and the gel may be bonded to the inner walls of the housing. The gel remains stiff enough to maintain the coil in a fixed position relative to the housing, and soft enough to avoid any significant effect on the h of the coil over the operating temperature range. Furthermore, the gel can be loaded with particles to adjust the specific gravity of the gel, to modify the thermal properties of the gel and to increase the viscosity of the gel for improved vibration damping. In a modified form, the optical-fiber sensing coil is positioned on a mounting surface and otherwise surrounded by the gel. Alternatively, the optical fiber sensing coil is wound around a form that has a layer of gel on the coil-supporting surface.
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Sidney L Bennett from Carpentersville, IL, age ~52 Get Report