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James C Wainerdi

from Plano, TX
Age ~64
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Also known as:
James B Wainerdi, James Wainerdi Cooper, James I
Phone and address:
716 Shallow Creek Ln, Plano, TX 75025
(972) 517-6807
Related to:
Ryan Wainerdi, 26
Connected to:
Michael H Wainess, 81Victor F Waingeh, 50Spencer Wainger, 40William K Wainger, 67Michael L Waingold, 71Diane A Waingrow, 66Samuel B Wainhaus, 59Mary A Wainhouse, 91Bonnie J Wainio, 78Steven Wainio, 42

James Wainerdi Phones & Addresses

  • 716 Shallow Creek Ln, Plano, TX 75025 (972) 517-6807
  • Richardson, TX
  • Portland, OR
  • 716 Shallow Creek Ln, Plano, TX 75025 (972) 814-3257

Work

Position: Service Occupations

Resumes

Resumes

James Wainerdi Photo 1

Program Manager At Texas Instruments

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Location:
Dallas/Fort Worth Area
Industry:
Semiconductors
Experience:
Texas Instruments (Public Company; Semiconductors industry): Program Manager,  (-) 
James Wainerdi Photo 2

James Wainerdi

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Publications

Us Patents

Packaged Electronic Device Having Metal Comprising Self-Healing Die Attach Material

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US Patent:
7972905, Jul 5, 2011
Filed:
Apr 16, 2009
Appl. No.:
12/425059
Inventors:
James C. Wainerdi - Plano TX, US
John P. Tellkamp - Rockwall TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H01L 21/00
US Classification:
438119, 257783, 257E2301
Abstract:
A method of assembling an electronic device and electronic packages therefrom. A die attach adhesive precursor is placed between a top surface of a workpiece and an IC die. The die attach adhesive precursor includes metal particles, a first plurality of first microcapsules having a polymerizable material inside, and a second plurality of second microcapsules having a polymerization agent inside to form a first polymer upon rupture of first and second microcapsules. A force sufficient to rupture at least a portion of the first plurality of first microcapsules and at least a portion of the second plurality of second microcapsules is applied to form a self-healing die attach adhesive wherein the first polymer binds the plurality of metal particles and the remaining microcapsules and secures the IC die to the top surface of the workpiece. The self-healing die attach adhesive generally includes at least 90 vol. % metal.

Packaged Electronic Device Having Metal Comprising Self-Healing Die Attach Material

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US Patent:
8378506, Feb 19, 2013
Filed:
May 27, 2011
Appl. No.:
13/117853
Inventors:
James C Wainerdi - Plano TX, US
John P Tellkamp - Rockwall TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H01L 23/48
H01L 23/52
H01L 29/40
US Classification:
257783, 257E2301, 438119
Abstract:
A method of assembling an electronic device and electronic packages therefrom. A die attach adhesive precursor is placed between a top surface of a workpiece and an IC die. The die attach adhesive precursor includes metal particles, a first plurality of first microcapsules having a polymerizable material inside, and a second plurality of second microcapsules having a polymerization agent inside to form a first polymer upon rupture of first and second microcapsules. A force sufficient to rupture at least a portion of the first plurality of first microcapsules and at least a portion of the second plurality of second microcapsules is applied to form a self-healing die attach adhesive wherein the first polymer binds the plurality of metal particles and the remaining microcapsules and secures the IC die to the top surface of the workpiece. The self-healing die attach adhesive generally includes at least 90 vol. % metal.

Method And Apparatus For Sorting Carbon Nanotubes

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US Patent:
20110132810, Jun 9, 2011
Filed:
Dec 9, 2010
Appl. No.:
12/964567
Inventors:
James Cooper Wainerdi - Plano TX, US
Robert Reid Doering - Garland TX, US
Luigi Colombo - Dallas TX, US
Assignee:
TEXAS INSTRUMENTS INCORPORATED - Dallas TX
International Classification:
B03C 1/00
B03C 1/005
B03C 1/025
US Classification:
209 8, 977845
Abstract:
A process of sorting metallic single wall carbon nanotubes (SWNTs) from semiconducting types by disposing the SWNTs in a dilute fluid, exposing the SWNTs to a dipole-inducing magnetic field which induces magnetic dipoles in the SWNTs so that a strength of a dipole depends on a conductivity of the SWNT containing the dipole, orienting the metallic SWNTs, and exposing the SWNTs to a magnetic field with a spatial gradient so that the oriented metallic SWNTs drift in the magnetic field gradient and thereby becomes spatially separated from the semiconducting SWNTs. An apparatus for the process of sorting SWNTs is disclosed.

Method And Apparatus For Sorting Carbon Nanotubes

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US Patent:
20110132811, Jun 9, 2011
Filed:
Dec 14, 2010
Appl. No.:
12/967637
Inventors:
James Cooper Wainerdi - Plano TX, US
Robert Reid Doering - Garland TX, US
Luigi Colombo - Dallas TX, US
Assignee:
TEXAS INSTRUMENTS INCORPORATED - Dallas TX
International Classification:
B03C 1/00
B03C 1/005
B03C 1/02
B03C 1/025
US Classification:
209 8
Abstract:
A process of sorting metallic single wall carbon nanotubes (SWNTs) from semiconducting types by disposing the SWNTs in a dilute fluid, exposing the SWNTs to a dipole-inducing magnetic field which induces magnetic dipoles in the SWNTs so that a strength of a dipole depends on a conductivity of the SWNT containing the dipole, orienting the metallic SWNTs, and exposing the SWNTs to a magnetic field with a spatial gradient so that the oriented metallic SWNTs drift in the magnetic field gradient and thereby becomes spatially separated from the semiconducting SWNTs. An apparatus for the process of sorting SWNTs is disclosed.

Grown Carbon Nanotube Die Attach Structures, Articles, Devices, And Processes For Making Them

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US Patent:
20130234313, Sep 12, 2013
Filed:
Mar 8, 2012
Appl. No.:
13/414902
Inventors:
James Cooper Wainerdi - Plano TX, US
Luigi Colombo - Dallas TX, US
John Paul Tellkamp - Rockwall TX, US
Robert Reid Doering - Garland TX, US
Assignee:
TEXAS INSTRUMENTS INCORPORATED - Dallas TX
International Classification:
H01L 23/34
H01L 23/48
H01L 21/78
H01L 21/56
B82Y 40/00
B82Y 99/00
US Classification:
257706, 438464, 438122, 257734, 257E2301, 257E2308, 257E21502, 257E21599, 977742, 977842
Abstract:
An article of manufacture includes a semiconductor die () having an integrated circuit () on a first side of the die (), a diffusion barrier () on a second side of the die () opposite the first side, a mat of carbon nanotubes () rooted to the diffusion barrier (), a die attach adhesive () forming an integral mass with the mat () of the carbon nanotubes, and a die pad () adhering to the die attach adhesive and () and the mat () of carbon nanotubes for at least some thermal transfer between the die () and the die pad () via the carbon nanotubes (). Other articles, integrated circuit devices, structures, and processes of manufacture, and assembly processes are also disclosed.

Method And Apparatus For Acoustic Well Logging

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US Patent:
RE338370, Mar 3, 1992
Filed:
Aug 4, 1989
Appl. No.:
7/389669
Inventors:
James C. Wainerdi - Richardson TX
Mark A. Miller - Houston TX
Assignee:
Exxon Production Research Company - Houston TX
International Classification:
G01V 100
H04R 1700
US Classification:
367 31
Abstract:
Method and apparatus for acoustic wave generation and transmission into a subsurface earth formation. A logging sonde adapted to be suspended in a borehole within the formation houses a generator means for simultaneously generating a plurality of acoustic waves traveling in the direction of and spaced substantially evenly about the. [. logitudinal. ]. . Iadd. longitudinal. Iaddend. axis of the sonde. An acoustic energy reflector means within the housing reflects the waves radially outwards of the axis and into the formation at angles generally perpendicular to the axis. Detectors within the housing spaced longitudinally from the generator and reflector detect acoustic energy in the formation resulting from the reflected waves. In a preferred embodiment, the generator means comprises four cylindrical magnetostrictively energized elements disposed about the central axis of the sonde, each having an axis parallel to the central axis, so that the four axes of the elements, when viewed in the direction of the central axis, define four corners of a square. The elements are designed so that upon energization, a given element vibrates longitudinally out of phase relative to the two elements adjacent thereto, vibration of the four elements in concert generating two positive and two negative waves which, when reflected into the formation, interfere to produce a quadrupole shear wave.
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James C Wainerdi from Plano, TX, age ~64 Get Report