DR. THOMAS ALLYN JONES, M.D.
Urology at Hickory St, Escondido, CA

License number

California G51735

Professional information

Dr. Thomas A Jones, Escondido CA - MD (Doctor of Medicine)

Specialties:

Urology

Address:

Palomar Urology
1955 Citracado Pkwy STE 302, Escondido 92029
(760) 743-5111 (Phone), (858) 429-7934 (Fax)

Certifications:

Urology

Awards:

Healthgrades Honor Roll

Languages:

English

Hospitals:

Palomar Urology
1955 Citracado Pkwy STE 302, Escondido 92029
Palomar Medical Center
555 East Valley Pkwy, Escondido 92025
Pomerado Hospital
15615 Pomerado Rd, Poway 92064

Education:

Medical School
Loma Linda Univ Sch Of Med
Graduated: 1982
Wm Beaumont Amc
Graduated: 1983
Letterman Army Med Center
Graduated: 1989
Sb Hays Army Comm Hospital
Graduated: 1986

Thomas Allyn Jones, Escondido CA

Specialties:

Urologist

Address:

215 S Hickory St, Escondido, CA 92025
488 E Valley Pkwy, Escondido, CA 92025
1955 Citracado Pkwy., Escondido, CA 92029

Board certifications:

American Board of Urology Certification in Urology

Thomas A Jones, Escondido CA

Specialties:

Urologist

Address:

215 S Hickory St, Escondido, CA 92025
3400 Delta Fair Blvd, Antioch, CA 94509
3454 Hillcrest Ave, Antioch, CA 94531

Devices With Pneumatic, Hydraulic And Electrical Components

US Patent:

2011022, Sep 22, 2011

Filed:

Mar 11, 2011

Appl. No.:

13/046593

Inventors:

KEITH E. G. EMERY - San Diego CA, US
Thomas Jones - Escondido CA, US

International Classification:

H05K 1/00, H01B 7/00, H05K 3/36

US Classification:

361748, 174 151, 29830

Abstract:

Method and devices are provided that integrate various internal channels and inlet and outlet ports, configured to operate with air or fluidics, with electrical circuitry. The devices comprise internal channels and outlet/inlet ports that are integrated into multiple layers of printed circuit boards. A multi-layer printed circuit board assembly is produced by laminating the plurality of layers together. The multi-layer printed circuit board assembly can accommodate a variety of off-the-shelf components, as well as electrical circuits and electronic components.

Quasi-Static Design Approach For Low Q Factor Electrically Small Antennas

US Patent:

8121821, Feb 21, 2012

Filed:

Dec 19, 2007

Appl. No.:

11/959715

Inventors:

Thomas O. Jones - San Diego CA, US

Assignee:

The United States of America as represented by the Secretary of the Navy - Washington DC

International Classification:

G06F 17/50

US Classification:

703 1

Abstract:

Methods and apparatuses are described that enable the design of electrically small antennas in terms of their quality factor (Q) performance or other antenna parameter. A desired charge distribution is defined and thereafter the shape of the antenna is generated, based on the corresponding solution of a quasi-static field approximation. A degree of freedom in the shaping of the antenna is incorporated into the quasi-static field approximation, via a dimensional variable. This expression has a solution set containing the minimum Q factor. By selection of an appropriate value of the dimensional variable, antennas with minimum or otherwise tailored Q values can be quickly designed.

Layered Superconductor Device And Method

US Patent:

8649834, Feb 11, 2014

Filed:

Sep 13, 2012

Appl. No.:

13/613244

Inventors:

Thomas O. Jones - San Diego CA, US

Assignee:

The United States of America as represented by the Secretary of the Navy - Washington DC

International Classification:

H01L 39/22, H01L 39/24, H01L 29/00

US Classification:

505191, 505190, 505220, 427 62, 427 63

Abstract:

A layered superconductor device includes multiple layers of a single crystal superconducting material having intermittent layers of superconducting material dispersed in a pattern with a second material such that each layer of the multiple layers a single crystal superconducting material are interconnected via superconducting material, allowing for a continuous current path, and a thickness of the superconducting material never exceeds a first predetermined thickness.