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Dmitri P Prikhodko

from Aliso Viejo, CA
Age ~49
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Also known as:
Dima Prikhodko
Phone and address:
82 Timberland, Laguna Beach, CA 92656
(781) 791-8808
Connected to:
David A Prikkel, 77Debra L Prikkel, 59Inga Priklonskaya, 51Angela T Prikockis, 49Sarah M Prikryl, 46Istvan L Prileszky, 95Aaron C Prill, 44Darin Prill, 98Dennis A Prill, 76Derek R Prill, 38

Dmitri Prikhodko Phones & Addresses

  • 82 Timberland, Aliso Viejo, CA 92656 (781) 791-8808
  • Los Gatos, CA
  • Atlanta, GA
  • 16 Hampshire Rd, Reading, MA 01867
  • Woburn, MA
  • Burlington, MA
  • Arlington, MA
  • 1406 Markan Dr NE, Atlanta, GA 30306

Work

Company: Microsemi Apr 2013 Address: Greater Atlanta Area Position: Director of rf engineering

Education

Degree: MBA School / High School: Endicott College 2010 to 2013 Specialities: Marketing/Marketing Management, General

Skills

R • Engineering Management • Rf • Management Engineering • Rf Design • Analog Circuit Design • Integrated Circuits • Analog • Asic • Wcdma • Electronics • 4G • 3G • Circuit Design • Gsm • Mixed Signal • Cmos • Semiconductor Industry • Testing • Rf Engineering • Power Amplifiers • Wideband Code Division Multiple Access • Lte • Semiconductors • Radio Frequency • Wlan • Digital Signal Processors • Application Specific Integrated Circuits • Ic

Industries

Semiconductors

Resumes

Resumes

Dmitri Prikhodko Photo 1

Wifi Product Line Director

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Location:
508 Clearview Dr, Los Gatos, CA 95032
Industry:
Semiconductors
Work:
Microsemi - Greater Atlanta Area since Apr 2013
Director of RF engineering
Skyworks - Woburn, MA, USA Nov 2011 - Apr 2013
Manager of Woburn FES design center
Skyworks Solutions, Inc. - Woburn, MA, USA 2007 - Nov 2011
RF engineering manager
Skyworks Solutions, Inc. - Woburn, MA, USA Oct 2005 - 2007
Principle RF engineer
M/A-COM Technology Solutions - Cork, Ireland Oct 2004 - Sep 2005
Principle engineer
Education:
Endicott College 2010 - 2013
MBA, Marketing/Marketing Management, General Post graduate school "Scientific center", Zelenograd, Moscow 1998 - 2001
PhD, RF Moscow Institute of Electronic Technology (Technical University) (MIET) 1991 - 1997
MS, physics, physics of semiconductor materials, physics of semiconductor devices, VLSIC technology
Skills:
R
Engineering Management
Rf
Management Engineering
Rf Design
Analog Circuit Design
Integrated Circuits
Analog
Asic
Wcdma
Electronics
4G
3G
Circuit Design
Gsm
Mixed Signal
Cmos
Semiconductor Industry
Testing
Rf Engineering
Power Amplifiers
Wideband Code Division Multiple Access
Lte
Semiconductors
Radio Frequency
Wlan
Digital Signal Processors
Application Specific Integrated Circuits
Ic

Publications

Us Patents

Sandwich Structure For Directional Coupler

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US Patent:
20110316646, Dec 29, 2011
Filed:
Jun 23, 2010
Appl. No.:
12/821624
Inventors:
Yang Li - Woburn MA, US
Xuanang Zhu - Nashua NH, US
Dmitri Prikhodko - Reading MA, US
International Classification:
H01P 5/18
US Classification:
333116
Abstract:
A sandwich strip coupled coupler implemented in a multi-layer substrate, such as a multi-layer printed circuit board. In one example, the sandwich strip coupled coupler includes a main arm having a first main arm section and a second main arm section disposed above the first main arm section, the first and second main arm sections being electrically connected together, and a coupled arm disposed between the first and second main arm sections, the first main arm section, the coupled arm and the second main arm section forming a sandwich structure.

Reducing Coupling Coefficient Variation By Using Capacitors

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US Patent:
20120032735, Feb 9, 2012
Filed:
Jul 29, 2011
Appl. No.:
13/194864
Inventors:
Yang Li - Woburn MA, US
Xuanang Zhu - Nashua NH, US
Guohao Zhang - Irvine CA, US
Russ Reisner - Newbury Park CA, US
Dmitri Prikhodko - Reading MA, US
Bradley D. Scoles - Irvine CA, US
David Viveiros, JR. - Newbury Park CA, US
Assignee:
SKYWORKS SOLUTIONS, INC. - Woburn MA
International Classification:
H01L 25/00
H01R 43/00
H01P 5/12
US Classification:
327564, 333136, 29854
Abstract:
A coupler is presented that has high-directivity and low coupling coefficient variation. The coupler includes a first trace associated with a first port and a second port. The first port is configured substantially as an input port and the second port is configured substantially as an output port. The coupler further includes a second trace associated with a third port and a fourth port. The third port is configured substantially as a coupled port and the fourth port is configured substantially as an isolated port. In addition, the coupler includes a first capacitor configured to introduce a discontinuity to induce a mismatch in the coupler.

Reducing Coupling Coefficient Variation By Using Angled Connecting Traces

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US Patent:
20120038433, Feb 16, 2012
Filed:
Jul 29, 2011
Appl. No.:
13/194863
Inventors:
Yang Li - Woburn MA, US
Xuanang Zhu - Nashua NH, US
Guohao Zhang - Irvine CA, US
Russ Reisner - Newbury Park CA, US
Dmitri Prikhodko - Reading MA, US
Bradley D. Scoles - Irvine CA, US
David Viveiros, JR. - Newbury Park CA, US
Assignee:
SKYWORKS SOLUTIONS, INC. - Woburn MA
International Classification:
H01P 5/18
H01R 43/20
US Classification:
333109, 29876
Abstract:
A coupler is presented that has high-directivity and low coupling coefficient variation. The coupler includes a first trace associated with a first port and a second port. The first trace includes a first main arm, a first connecting trace connecting the first main arm to the second port, and a non-zero angle between the first main arm and the first connecting trace. Further, the coupler includes a second trace associated with a third port and a fourth port. The second trace includes a second main arm.

Reducing Coupling Coefficient Variation Using Intended Width Mismatch

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US Patent:
20180138574, May 17, 2018
Filed:
Oct 17, 2017
Appl. No.:
15/786000
Inventors:
- Woburn MA, US
Xuanang Zhu - Lexington MA, US
Dinhphuoc Vu Hoang - Anaheim CA, US
Guohao Zhang - Nanjing, CN
Russ Alan Reisner - Oxnard CA, US
Dmitri Prikhodko - Reading MA, US
Jiunn-Sheng Guo - Eastvale CA, US
Bradley David Scoles - Lake Forest CA, US
David Viveiros, JR. - Newbury Park CA, US
International Classification:
H01P 5/18
Abstract:
A coupler is presented that has high-directivity and low coupling coefficient variation. The coupler includes a first trace with a first edge substantially parallel to a second edge and substantially equal in length to the second edge. The first trace includes a third edge substantially parallel to a fourth edge. The fourth edge is divided into three segments. The outer segments are a first distance from the third edge. The middle segment is a second distance from the third edge. Further, the coupler includes a second trace, which includes a first edge substantially parallel to a second edge and substantially equal in length to the second edge. The second trace includes a third edge substantially parallel to a fourth edge. The fourth edge is divided into three segments. The outer segments are a first distance from the third edge. The middle segment is a second distance from the third edge.

Reducing Coupling Coefficient Variation Using Intended Width Mismatch

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US Patent:
20150207200, Jul 23, 2015
Filed:
Dec 19, 2014
Appl. No.:
14/576730
Inventors:
- Woburn MA, US
Xuanang Zhu - Lexington MA, US
Dinhphuoc Vu Hoang - Anaheim CA, US
Guohao Zhang - Nanjing, CN
Russ Alan Reisner - Newbury Park CA, US
Dmitri Prikhodko - Reading MA, US
Jiunn-Sheng Guo - Eastvale CA, US
Bradley David Scoles - Lake Forest CA, US
David Viveiros, JR. - Thousand Oaks CA, US
International Classification:
H01P 5/18
Abstract:
A coupler is presented that has high-directivity and low coupling coefficient variation. The coupler includes a first trace with a first edge substantially parallel to a second edge and substantially equal in length to the second edge. The first trace includes a third edge substantially parallel to a fourth edge. The fourth edge is divided into three segments. The outer segments are a first distance from the third edge. The middle segment is a second distance from the third edge. Further, the coupler includes a second trace, which includes a first edge substantially parallel to a second edge and substantially equal in length to the second edge. The second trace includes a third edge substantially parallel to a fourth edge. The fourth edge is divided into three segments. The outer segments are a first distance from the third edge. The middle segment is a second distance from the third edge.
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Dmitri P Prikhodko from Aliso Viejo, CA, age ~49 Get Report