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Xingfu Chen

from Lino Lakes, MN
Age ~68
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Also known as:
Xing Fu Chen, Xing F Chen, Xing-Fu Chen, Zingfu Chen, Xingfu Sun, Xingfu Chin, Chen Xingfu
Phone and address:
803 Country Lakes Dr, Lino Lakes, MN 55014
(651) 484-5150
Related to:
Mary Chen, 64Mary ChenMary F Chen, 38Tianding Sun, 92
Connected to:
Abre G Chen, 65Adele Chen, 52Adeline K Chen, 39Ai M Chen, 60Ai C Chen, 78Aiping Chen, 63Alen Y Chen, 68Alma Chen, 29Amanda Chen, 44Amanda T Chen, 62

Xingfu Chen Phones & Addresses

  • 803 Country Lakes Dr, Circle Pines, MN 55014 (651) 484-5150
  • Lino Lakes, MN
  • Minneapolis, MN
  • 2400 Larpenteur Ave W, Saint Paul, MN 55113
  • Eden Prairie, MN
  • Novi, MI
  • Simsbury, CT
  • 803 Country Lakes Dr, Circle Pines, MN 55014

Resumes

Resumes

Xingfu Chen Photo 1

Distinguished Engineer

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Location:
2762 Hunters Forest Dr, Germantown, TN 38138
Industry:
Medical Devices
Work:
Medtronic
Distinguished Engineer
Education:
University of Minnesota
Skills:
Failure Analysis
Quality System
Fmea
Iso 13485
Minitab
Design of Experiments
Design Control
R&D
Dmaic
Root Cause Analysis
Reliability Engineering
Capa
Xingfu Chen Photo 2

Sr. Prin. Rel. Engr At Medtronic

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Position:
Sr. Prin. Rel. Engr at Medtronic
Location:
Greater Minneapolis-St. Paul Area
Industry:
Medical Devices
Work:
Medtronic
Sr. Prin. Rel. Engr
Seagate Technology 2002 - 2006
Sr. Staff Reliability Engineer
JDSU 2001 - 2002
Staff Engineer
Education:
University of Minnesota-Twin Cities
Skills:
Failure Analysis

Publications

Us Patents

Glass Feedthrough Assemblies For Implantable Medical Devices

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US Patent:
8295929, Oct 23, 2012
Filed:
May 20, 2009
Appl. No.:
12/469080
Inventors:
Zhi Fang - Maple Grove MN, US
Xingfu Chen - Lino Lakes MN, US
Assignee:
Medtronic, Inc. - Minneapolis MN
International Classification:
A61N 1/00
US Classification:
607 37, 607 36, 607 38
Abstract:
A feedthrough assembly of an implantable medical device includes a glass insulator containing at least approximately 20 mol % of calcium oxide (CaO), preferably of a CABAL-12 type composition. The assembly is either manufactured so that the glass insulator includes a surface layer including calcium phosphate, preferably of relatively low solubility, or is assembled in the implantable device so that the glass insulator is exposed to phosphate-containing body fluid, when the device is implanted, for the formation of a surface layer including calcium phosphate.

Adherent All-Gold Electrode Structure For Lithium Niobate Based Devices And The Method Of Fabrication

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US Patent:
20040002205, Jan 1, 2004
Filed:
Mar 20, 2003
Appl. No.:
10/393508
Inventors:
Xingfu Chen - Eden Prairie MN, US
Daniel Lynch - Southwick MA, US
Nelson Mark - Manchester CT, US
Walter Bosenberg - Simsbury CT, US
Jason Xu - New Haven CT, US
Lawrence Brodsky - Tolland CT, US
John Clark - Somers CT, US
Assignee:
JDS UNIPHASE CORPORATION - San Jose CA
International Classification:
H01L021/44
US Classification:
438/597000
Abstract:
An electrode structure wherein galvanic corrosion at adhesion layers formed between electrodes and electronic or electro-optic substrates is eliminated. The electrode structure includes an electro-optic crystalline substrate, an amorphous layer disposed on the crystalline substrate, the amorphous layer having a composition substantially similar to a composition of the crystalline substrate, and a gold layer disposed directly on the amorphous layer. The amorphous layer is created using ion sputtering etching techniques that clean and activate the surface of the crystalline substrate such that the gold layer is able to adhere to it.

Continuous Conductive Materials For Electromagnetic Shielding

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US Patent:
20080195186, Aug 14, 2008
Filed:
Feb 14, 2007
Appl. No.:
11/674995
Inventors:
Bernard Li - Plymouth MN, US
Chad Cai - Woodbury MN, US
Xingfu Chen - Eden Prairie MN, US
International Classification:
A61N 1/04
US Classification:
607115
Abstract:
A medical electrical lead having a conductor assembly covered by an insulating layer, and a shield covering positioned adjacent or proximate to at least a portion of the insulating layer in order to shield the conductor assembly from one or more electromagnetic fields. The shield covering is formed of a material that is electrically conductive, where the material is in a wrapped or woven form. The material is selected so as to have an effective combination of small size and high conductive surface area, e.g., as opposed to metal wire or coatings thinner than metal wire. As such, the shield covering exhibits sufficient conductivity in the presence of one or more high frequency electromagnetic fields so that interference to the operation of the conductor assembly is minimized. The material can have a coating formed of one or more metals. The material can include carbon. In turn, the carbon can be formed of one or more of carbon fiber, carbon nanofiber, and single or multi-walled carbon nanotube.

Discontinuous Conductive Filler Polymer-Matrix Composites For Electromagnetic Shielding

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US Patent:
20080195187, Aug 14, 2008
Filed:
Feb 14, 2007
Appl. No.:
11/674992
Inventors:
Bernard Li - Plymouth MN, US
Chad Cai - Woodbury MN, US
Xingfu Chen - Eden Prairie MN, US
International Classification:
A61N 1/05
US Classification:
607116
Abstract:
A medical electrical lead having a conductor assembly covered by an insulating layer, and a shield covering positioned adjacent or proximate to at least a portion of the insulating layer in order to shield the conductor assembly from one or more electromagnetic fields. The shield covering is formed of a polymer-matrix composite. The polymer-matrix composite includes a polymeric resin having discontinuous conductive fillers provided therein. The discontinuous conductive fillers include one or more of nano-sized metal structures and nano-sized non-metallic conductive structures. The nano-sized non-metallic conductive structures can have a coating formed of one or more metals. The nano-sized non-metallic conductive structures can be formed of carbon. In turn, the nano-sized non-metallic conductive structures can include one or more of carbon nanofibers, carbon filaments, carbon nanotubes, and carbon nanoflakes.

Discontinuous Conductive Filler Polymer-Matrix Composites For Electromagnetic Shielding

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US Patent:
20190358447, Nov 28, 2019
Filed:
Aug 9, 2019
Appl. No.:
16/537245
Inventors:
- Minneapolis MN, US
Chad Cai - Woodbury MN, US
Xingfu Chen - Eden Prairie MN, US
International Classification:
A61N 1/08
A61N 1/05
Abstract:
A medical electrical lead having a conductor assembly covered by an insulating layer, and a shield covering positioned adjacent or proximate to at least a portion of the insulating layer in order to shield the conductor assembly from one or more electromagnetic fields. The shield covering is formed of a polymer-matrix composite. The polymer-matrix composite includes a polymeric resin having discontinuous conductive fillers provided therein. The discontinuous conductive fillers include one or more of nano-sized metal structures and nano-sized non-metallic conductive structures. The nano-sized non-metallic conductive structures can have a coating formed of one or more metals. The nano-sized non-metallic conductive structures can be formed of carbon. In turn, the nano-sized non-metallic conductive structures can include one or more of carbon nanofibers, carbon filaments, carbon nanotubes, and carbon nanoflakes.

Discontinuous Conductive Filler Polymer-Matrix Composites For Electromagnetic Shielding

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US Patent:
20150258335, Sep 17, 2015
Filed:
May 20, 2015
Appl. No.:
14/717881
Inventors:
- Minneapolis MN, US
Chad Cai - Woodbury MN, US
Xingfu Chen - Eden Prairie MN, US
International Classification:
A61N 1/08
A61N 1/05
Abstract:
A medical electrical lead having a conductor assembly covered by an insulating layer, and a shield covering positioned adjacent or proximate to at least a portion of the insulating layer in order to shield the conductor assembly from one or more electromagnetic fields. The shield covering is formed of a polymer-matrix composite. The polymer-matrix composite includes a polymeric resin having discontinuous conductive fillers provided therein. The discontinuous conductive fillers include one or more of nano-sized metal structures and nano-sized non-metallic conductive structures. The nano-sized non-metallic conductive structures can have a coating formed of one or more metals. The nano-sized non-metallic conductive structures can be formed of carbon. In turn, the nano-sized non-metallic conductive structures can include one or more of carbon nanofibers, carbon filaments, carbon nanotubes, and carbon nanoflakes.
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Xingfu Chen from Lino Lakes, MN, age ~68 Get Report