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Daniel W Harrell

from Demorest, GA
Age ~67
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Also known as:
Daniel Wayne Harrell, Dan Harrell, Danice W Harrell, Daniel Herrell
Related to:
Julie Anne Ware, 58Ben HarrellScott Janneck, 38Tracy Koch, 41Michael Janneck, 72
Connected to:
Aaron Harrell, 48Alex A Harrell, 55Alexandra F Harrell, 34Alicin F Harrell, 41Allan E Harrell, 56Allison R Harrell, 46Anne Harrell, 56Annie M Harrell, 84Arlean N Harrell, 30Arthur L Harrell, 63

Daniel Harrell Phones & Addresses

  • Demorest, GA
  • Marana, AZ
  • Tucson, AZ
  • Orlando, FL
  • 2574 Lake Whatcom Blvd, Bellingham, WA 98225 (360) 715-3517
  • 1937 Lake Whatcom Blvd, Bellingham, WA 98226
  • Lynden, WA
  • Morgantown, WV

Professional Records

Medicine Doctors

Daniel Harrell Photo 1

Daniel B. Harrell

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Specialties:
Emergency Medicine
Work:
Emergency Medicine Consultants
6100 Harris Pkwy, Fort Worth, TX 76132
(817) 496-9700 (phone), (817) 496-9889 (fax)
Education:
Medical School
University of North Texas College of Osteopathic Medicine
Graduated: 2005
Languages:
English
Spanish
Description:
Dr. Harrell graduated from the University of North Texas College of Osteopathic Medicine in 2005. He works in Fort Worth, TX and specializes in Emergency Medicine. Dr. Harrell is affiliated with Texas Health Harris Methodist Hospital Southwest Fort Worth.

Business Records

Name / Title
Company / Classification
Phones & Addresses
Daniel W. Harrell
Director
BENJAMIN HARRELL INC
Benjamin Harrell, Morgantown, WV 26505
1937 Lk Whatcom Blvd, Bellingham, WA 98226

Publications

Us Patents

Planar Serpentine Slot Antenna

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US Patent:
6466169, Oct 15, 2002
Filed:
Dec 6, 2000
Appl. No.:
09/730712
Inventors:
Daniel W. Harrell - Bellingham WA, 98225
Pamela R. Wallace - Lost Creek WV, 26385
Denzil J. Parsons - Bridgeport WV, 26330
International Classification:
H01Q 138
US Classification:
343700MS, 343895, 343767
Abstract:
A planar surface antenna comprising two conducting etched patterns on an insulating substrate where the first conductor has a planar serpentine shape defining a plurality of parallel, spaced apart radiator elements. A second etched conductor pattern has comb-like portions interleaved within the radiator elements of the first conductor. A coaxial conductor provides the feed signal to the second conductor with its ground connection to the first conductor. The resonant frequency, impedance, and bandwidth of the antenna are controlled by total length of serpentine radiator element widths and lengths. The antenna forms a non directional radiating antenna. Two of these serpentine antennas can be combined into one antenna to form a directional radiating antenna. The feed signal is connected to the second conductor of a first antenna and the first conductor of a second antenna. The ground wire is connected to the first conductor of the first antenna and the second conductor of the second antenna, realizing a small directional antenna.

Dual Disk Active Antenna

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US Patent:
63205483, Nov 20, 2001
Filed:
Jan 26, 2001
Appl. No.:
9/771423
Inventors:
Daniel W. Harrell - Bellingham WA
Pamela R. Wallace - Lost Creek WV
Assignee:
Integral Technologies, Inc. - Bellingham WA
International Classification:
H01Q 138
US Classification:
343700MS
Abstract:
An antenna that can be used as an active receiving antenna and a transmitting antenna is formed by forming dual disk antenna elements. The dual disk antenna elements are formed by etching a pattern in a layer of conducting material, such as copper, formed on a substrate of dielectric material. One of the disks acts as the active antenna element and the other disk acts as a counterpoise antenna element. In one embodiment a RF amplifier chip is used to form an active receiving antenna. In another embodiment the RF amplifier chip is removed and the antenna can be used either as a receiving antenna or a transmitting antenna. In another embodiment a RF amplifier chip is used with an electronic switch to include the RF amplifier chip when the antenna is used as a receiving antenna and to switch the RF chip out of the circuit when the antenna is used as a transmitting antenna.

Planar Antenna Comprising Two Joined Conducting Regions With Coax

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US Patent:
6329950, Dec 11, 2001
Filed:
Dec 6, 2000
Appl. No.:
9/730711
Inventors:
Daniel W Harrell - Bellingham WA
Pamela R Wallace - Lost Creek WV
Assignee:
Integral Technologies, Inc. - Bellingham WA
International Classification:
H01Q 148
US Classification:
343700MS
Abstract:
An antenna is formed from two antenna elements, a first antenna element and a second antenna element, wherein the second antenna element surrounds the first antenna element. A shorting element electrically connects the inner antenna element to the outer antenna element. An insulating gap insulates the inner antenna element from the outer antenna element except for the region where the shorting element connects the two antenna elements. A coaxial cable connects the antenna to a transceiver. The inner conductor of the coaxial cable is connected to the first antenna element and the outer conductor of the coaxial cable is connected to the second antenna element. The length of the outer perimeter of the first antenna element is equal to an integral multiple of one quarter of the wavelength of the center frequency of the antenna. The inner antenna element can be rectangular, square, circular, oval, or any similar shape. More than one antenna can be formed on a single layer of dielectric material.
Control profile
Daniel W Harrell from Demorest, GA, age ~67 Get Report