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Francis T Campos

from Centennial, CO
Age ~78
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Also known as:
Frank T Campos
Related to:
Debra Lynn Shiflett, 56Timothy Carroll, 46Susan Vangavree, 38William Cannon, 77Darrell Johnson, 52Diane M Williams, 74
Connected to:
Adelita V Campos, 65Alejandro Campos, 56Allen M Campos, 41Alyce M Campos, 65Amador D Campos, 57Ana Campos, 46Anastacia Campos, 60Andrade Campos, 63Angelita Campos, 66Anna W Campos, 50

Francis Campos Phones & Addresses

  • Centennial, CO
  • Palo Alto, CA
  • 2947 Stage Ct, Fort Collins, CO 80521
  • Daly City, CA
  • Englewood, CO
  • 6921 E Nichols Pl, Centennial, CO 80112 (719) 649-0157

Work

Company: Oracle 1996 Position: Manager product technology, recording head operations

Education

School / High School: University of Colorado Boulder 1990 to 1992

Skills

Product Management • Testing • Program Management • Product Development • Engineering Management • Storage • Oracle • R • Data Analysis • Integration • Engineering • Product Lifecycle Management

Emails

f***[email protected]

Industries

Computer Hardware

Resumes

Resumes

Francis Campos Photo 1

Francis Campos

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Location:
Denver, CO
Industry:
Computer Hardware
Work:
Oracle
Manager Product Technology, Recording Head Operations
Rocky Mountain Magnetics/Quantum 1993 - 1995
Vacuum Process Engineer
Education:
University of Colorado Boulder 1990 - 1992
Purdue University 1983 - 1990
Doctorates, Doctor of Philosophy, Physics Kalamazoo College 1979 - 1983
Bachelors, Bachelor of Arts, Chemistry
Skills:
Product Management
Testing
Program Management
Product Development
Engineering Management
Storage
Oracle
R
Data Analysis
Integration
Engineering
Product Lifecycle Management

Business Records

Name / Title
Company / Classification
Phones & Addresses
Francis M. Campos
Owner
Aerialshotz
Ground-Controlled Aerial Photography
33 Drakewood Ln, Novato, CA 94947
(415) 892-1573
Francis M. Campos
President
SONOMA COMPUTER INTEGRATORS
1804 Marion Ave, Novato, CA 94945

Publications

Us Patents

Method And Structure For Defining Track Width On A Recording Head

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US Patent:
6356410, Mar 12, 2002
Filed:
Jun 12, 2000
Appl. No.:
09/592593
Inventors:
Robert Chesnutt - Arvada CO
Charles Partee - Boulder CO
Pierre Asselin - Westminster CO
John Biesecker - Boulder CO
John Fleming - Boulder CO
Mike Jennison - Broomfield CO
Francis Campos - Louisville CO
Steve Sanders - Louisville CO
Assignee:
Matsushita-Kotobuki Electronics Industries, Ltd. - Saijo
International Classification:
G11B 5147
US Classification:
360126
Abstract:
A head structure for writing data on a magnetic media including a first pole having an upper surface and a write gap covering a portion of the upper surface. An upper pole tip formed on the write gap having a first width. A second pole having a second width greater than the first width and coupling to an upper surface of the upper pole tip. A conductive coil magnetically coupled to the first pole and the second pole to induce magnetic flux within the first and second pole in response to a current flowing in the coil.

Dual Stripe Read Head With Magnetic Support Structures Which Provide A Uniform Magnetic Field For Stabilization During Manufacture

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US Patent:
6842312, Jan 11, 2005
Filed:
Jun 25, 2002
Appl. No.:
10/179443
Inventors:
April Lynn Alstrin - Boulder CO, US
Steven Castle Sanders - Louisville CO, US
Francis Xavier Campos - Louisville CO, US
Assignee:
Storage Technology Corporation - Louisville CO
International Classification:
G11B 539
US Classification:
360315, 360316, 36032722
Abstract:
A method for stabilizing magnetic domains in dual stripe magnetic read heads is provided. This method first comprises providing a plurality of coupled magneto-resistive read elements in a spaced relationship. These read elements include top and bottom patterned magnetic shields on ceramic substrates, with two magneto-resistive (MR) sensor elements between the shields, all separated by insulating layers. Magnetic support structures are provided adjacent and separated from the coupled read elements, wherein the magnetic support structures provide a uniform magnetic field that stabilizes the magnetic domains of the MR sensors in the coupled read elements.

Thin-Film Read Element With Multiple Read Sensors

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US Patent:
7298586, Nov 20, 2007
Filed:
Sep 7, 2004
Appl. No.:
10/935048
Inventors:
Francis Campos - Louisville CO, US
Larry E. Daby - Erie CO, US
Hubert Hayworth - Fort Lupton CO, US
Assignee:
Storage Technology Corporation - Louisville CO
International Classification:
G11B 5/127
G11B 5/23
G11B 5/147
US Classification:
360125, 2960314
Abstract:
The present invention relates to a thin-film read element for use in reading magnetic signals from a device. The read element includes a first thin-film read sensor and a second thin-film read sensor that are each configured to convert the magnetic signals of the device to electrical signals.

Giant Magneto-Resistive (Gmr) Transducer Having Separation Structure Separating Gmr Sensor From Head-Tape Interface

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US Patent:
7352540, Apr 1, 2008
Filed:
Dec 20, 2004
Appl. No.:
11/017170
Inventors:
Mark Lee Watson - Louisville CO, US
Francis Campos - Louisville CO, US
April Lynn Alstrin - Boulder CO, US
Assignee:
Storage Technology Corporation - Louisville CO
International Classification:
G11B 5/39
G11B 5/31
US Classification:
360321
Abstract:
A giant magneto-resistive (GMR) transducer for reading data signals magnetically recorded on tape includes a GMR sensor and a separation structure formed on a front edge of the GMR sensor. The GMR sensor reads data signals magnetically recorded on a tape located at a head-tape interface. The separation structure physically separates the GMR sensor from the head-tape interface. The separation structure includes at least one film formed of at least one of non-magnetic and ferromagnetic materials such that the separation structure isolates the GMR sensor from physical contact with the tape at the head-tape interface while maintaining the ability of the GMR sensor to read data signals magnetically recorded on the tape even though the GMR sensor is physically separated from the tape at the head-tape interface. The separation structure may include an under-layer film and an isolation film. The GMR transducer is fabricated by a series of fabrication steps.

Magnetic Head Having Amr Reader, Writer, And Gmr Reader

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US Patent:
7382585, Jun 3, 2008
Filed:
Sep 30, 2005
Appl. No.:
11/241343
Inventors:
John P. Nibarger - Superior CO, US
Francis X. Campos - Louisville CO, US
Larry E. Daby - Erie CO, US
Assignee:
Storage Technology Corporation - Louisville CO
International Classification:
G11B 5/33
US Classification:
360316
Abstract:
A magnetic head for writing data to and reading data from a magnetic recording medium includes an inductive-type writer, an anisotropic magneto-resistive (AMR) reader, and a giant magneto-resistive (GMR) reader. The AMR reader is used to read data from “high magnetic flux” recording mediums which have been recorded for use with AMR sensors. The GMR reader is used to read data from “low magnetic flux” recording mediums which have been recorded for use with GMR sensors. As such, the magnetic head provides for backward compatibility between the previously prevalent “high magnetic flux” recording mediums and the expected future prevalent “low magnetic flux” recording mediums. The magnetic head may be configured such that the writer and the AMR and GMR readers share sensor shields in various configurations in order to carry out their writing and reading functions.

Magnetic Head Having A Pair Of Magneto-Resistive (Mr) Readers Of The Same Type With Each Reader Being Tuned Differently

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US Patent:
7453671, Nov 18, 2008
Filed:
Oct 31, 2005
Appl. No.:
11/262700
Inventors:
John P. Nibarger - Superior CO, US
Francis X. Campos - Louisville CO, US
Assignee:
Stoarge Technology Corporation - Louisville CO
International Classification:
G11B 5/39
G11B 5/265
US Classification:
360316, 360317
Abstract:
A magnetic head comprising for reading data from magnetic media includes a first magneto-resistive (MR) reader and a second MR reader. Both of the MR readers are either anisotropic magneto-resistive (AMR) readers or giant magneto-resistive (GMR) readers. The MR readers are tuned to sense magnetic flux differently such that the magnetic head is capable of reading two different types of magnetic media. The magnetic head may be configured such that the readers share sensor shields in various configurations in order to carry out their reading functions. The magnetic head may further include a writer. In this case, the magnetic head may be configured such that the writer and the readers share sensor shields in various configurations in order to carry out their writing and reading functions.

Bi-Directional Magnetic Recording Head Built On A Common Substrate

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US Patent:
7656610, Feb 2, 2010
Filed:
Mar 27, 2006
Appl. No.:
11/389901
Inventors:
Francis Campos - Louisville CO, US
Kevin Dale McKinstry - Denver CO, US
Assignee:
Storage Technology Corporation - Louisville CO
International Classification:
G11B 5/29
G11B 5/31
G11B 5/39
US Classification:
360121, 360316, 360317
Abstract:
The aspects of the present invention provide a magnetic recording head, a method for manufacturing a magnetic recording head, and a magnetic recording head drive. The magnetic recording head includes a substrate and a first magnetic device connected to the substrate. The magnetic recording head also includes a second magnetic device connected to the first magnetic device. The first magnetic device is aligned with the second magnetic device. The first and second magnetic devices are supported by the same side of the substrate.

Multi-Level, Multi-Track Magnetic Recording Head

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US Patent:
7751148, Jul 6, 2010
Filed:
Mar 27, 2006
Appl. No.:
11/389842
Inventors:
April L. Alstrin - Boulder CO, US
Francis Campos - Louisville CO, US
Carl Anthony Helms - Lafayette CO, US
Kevin Dale McKinstry - Denver CO, US
Assignee:
Oracle America, Inc. - Redwood City CA
International Classification:
G11B 5/29
G11B 5/127
US Classification:
3602411, 360121, 360316
Abstract:
In at least one embodiment, a magnetic recording head comprising first and second linear levels of magnetic recording devices is provided. Each device in the first linear level is aligned adjacently in a row and is spaced apart from another device in the first linear level. The first linear level is perpendicular to a comparative direction of a recording media travel. The second linear level of magnetic recording devices being connected to the first linear level of magnetic recording devices. Each device in the second linear level is aligned adjacently in a row and is spaced apart from another device in the second linear level. Each device in the second linear level is aligned with an insulating gap between the each device in the first linear level.
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Francis T Campos from Centennial, CO, age ~78 Get Report