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Greg A Manassero

from San Jose, CA
Age ~52
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Also known as:
Greg A Manaserro
Phone and address:
4240 Albany Cir, San Jose, CA 95129
(408) 983-2563
Related to:
John F Powers, 56John Powers, 71Ann M Manassero, 78Margaret G Manassero, 51Roberto O Victoria, 56John R Manassero, 81Karen Amy Manassero, 50Millicent H Powers, 69
Connected to:
Armen Manasserian, 38Brittany D Manassero, 34Joanne Manasse, 33John M Manasseri, 82Michael H Manasse, 72Mitchell B Manasse, 70Paul Manasse, 61Sydney D Manasse, 37Zaareh Manassian, 57Kiran Manassya, 35

Greg Manassero Phones & Addresses

  • 4240 Albany Cir, San Jose, CA 95129 (408) 983-2563
  • Sacramento, CA

Work

Company: Northrop grumman corporation Feb 1997 Position: Engineer

Education

Degree: Bachelors, Bachelor of Science School / High School: California State University - Sacramento Specialities: Electrical Engineering

Skills

Antenna Design • Rf Design • Systems Engineering • Matlab

Industries

Defense & Space

Resumes

Resumes

Greg Manassero Photo 1

Engineer

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Location:
San Jose, CA
Industry:
Defense & Space
Work:
Northrop Grumman Corporation
Engineer
Education:
California State University - Sacramento
Bachelors, Bachelor of Science, Electrical Engineering Santa Clara University
Master of Science, Masters, Electrical Engineering
Skills:
Antenna Design
Rf Design
Systems Engineering
Matlab

Publications

Us Patents

Pole Antenna With Multiple Array Segments

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US Patent:
6388622, May 14, 2002
Filed:
Jan 11, 2001
Appl. No.:
09/759761
Inventors:
Anthony G. Jennetti - Sunnyvale CA
James D. Budack - Santa Clara CA
Ralph A. Belingheri - Woodside CA
Greg A. Manassero - San Jose CA
Assignee:
TRW Inc. - Redondo Beach CA
International Classification:
H01Q 138
US Classification:
343700MS, 343872, 343853
Abstract:
A three-array pole antenna highly suited for use in a communication system, and mounted in a cylindrical cover that may be supported atop a conventional pole of similar diameter. The antenna includes a ground plane structure ( ) with three outwardly facing facets ( ) that are joined together to form a rigid structure. Three antenna feed printed circuit boards ( ) each provide two antenna feeds to an array of antenna patches ( ) that are electromagnetically coupled to the circuit boards. Metal-to-metal connections are limited to radio-frequency (RF) feed connectors to the circuit boards ( ), to minimize intermodulation effects. The entire antenna structure is of low cost and is easy to assemble and install.

Three-Dimensional Direction Finding For Estimating A Geolocation Of An Emitter

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US Patent:
20110309983, Dec 22, 2011
Filed:
Jun 21, 2011
Appl. No.:
13/165473
Inventors:
Tyler Holzer - Sacramento CA, US
Bart Peters - Aurora CO, US
David T. Driggs - Golden CO, US
Greg Manassero - San Jose CA, US
International Classification:
G01S 5/02
US Classification:
342451
Abstract:
One embodiment of the invention includes a computer readable medium configured to perform a method for determining a three-dimensional geolocation of a terrestrial emitter. The method includes receiving a signal from the emitter at an antenna array. The method also includes determining a three-dimensional line-of-position (LOP) to the emitter based on the signal. The three-dimensional LOP can include an azimuth angle and a depression angle. The method further includes calculating the three-dimensional geolocation of the emitter based on an intersection of the three-dimensional LOP with digital terrain elevation data (DTED) associated with the Earth's surface.

High Performance, Directional Cellular Band Antenna

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US Patent:
62818589, Aug 28, 2001
Filed:
Nov 22, 1999
Appl. No.:
9/447166
Inventors:
Anthony G. Jennetti - Sunnyvale CA
Francisco J. Serrano - Los Gatos CA
Greg A. Manassero - San Jose CA
Ralph A. Belingheri - Woodside CA
Donald L. Rucker - Santa Cruz CA
Brent R. Humphrey - San Jose CA
Assignee:
TRW Inc. - Redondo Beach CA
International Classification:
H01Q 2100
US Classification:
343818
Abstract:
An indoor cellular band antenna has an outer metal housing having a 90. degree. inner configuration and a radome positioned over the front of the housing. An antenna dipole is mounted in the housing and includes two dipole members. Each dipole member includes a rectangular dipole element extended transmission balun members and a back mounting plate. An antenna cable extends through the top panel of the housing. An outer conductor of the cable is electrically connected to one of the transmission balun member of one dipole member and an inner conductor is electrically connected to the dipole element of the same dipole member. The inner and outer conductors of the cable are mounted to the dipole member by connectors formed from the dipole member.
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Greg A Manassero from San Jose, CA, age ~52 Get Report