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Kenneth P Beghini

from Hilton, NY
Age ~56
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Also known as:
Ken P Beghini
Phone and address:
298 Lake Shore Dr, Hilton, NY 14468
(585) 392-7425
Related to:
Betty L FisherTania M Beghini, 52Vera A Sohutskay, 60Beatrice K BeghiniMarlene S Beghini, 83Terrence L Fisher, 78Mark Y Miller, 54Colleen Beghini, 52Henry Beghini, 84
Connected to:
Victor G Beghini, 90Gene G Beghtel, 86Jeremy R Beghtel, 38Harmik Begi, 55Amira Begic, 74Bernardo Begic, 51Besir M Begic, 48Dalila A Begic, 136Edina Begic, 46Esmir Begic, 37

Kenneth Beghini Phones & Addresses

  • 298 Lake Shore Dr, Hilton, NY 14468 (585) 392-7425
  • Greece, NY
  • 89 Dean Rd, Spencerport, NY 14559 (585) 392-7425
  • Monroe, NY

Work

Position: Service Occupations

Education

Degree: Bachelor's degree or higher

Resumes

Resumes

Kenneth Beghini Photo 1

Senior Principal Engineer

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Location:
Rex, GA
Industry:
Defense & Space
Work:
Harris Rf Communications
Senior Principal Engineer
Skills:
Rf
Systems Engineering
Electronics
Engineering Management
Analog
Pcb Design
Antennas
Electrical Engineering
Microwave
Embedded Systems
Hardware Architecture
Simulations
Manufacturing
Testing
Design For Manufacturing
Wireless
Semiconductors
Fpga
System Design
Systems Design
Radio Frequency
Labview
Digital Signal Processors
Sensors
Wireless Technologies
Kenneth Beghini Photo 2

Sr. Principal Engineer At Harris Corporation

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Position:
Sr. Principal Engineer at Harris Corporation
Location:
Rochester, New York Area
Industry:
Electrical/Electronic Manufacturing
Work:
Harris Corporation
Sr. Principal Engineer

Publications

Us Patents

Connector Activated Rf Switch

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US Patent:
7495527, Feb 24, 2009
Filed:
Mar 23, 2006
Appl. No.:
11/387382
Inventors:
Gregory George Ornt - Sodus Point NY, US
Brent Eric Raiber - Springville NY, US
Brian Edward Simpson - Rochester NY, US
Kenneth P. Beghini - Spencerport NY, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H01P 1/10
US Classification:
333105, 333262
Abstract:
An RF switch () that is activated by the insertion of a connector. The RF switch () can comprise one or more antenna adapters that can be formed by a number of predetermined RF connector types. The RF switch can include a switch housing (). A first, second, and third coaxial RF connectors () can be mounted to the switch housing (). The first, second, and third coaxial RF connectors () can individually have both an inner and outer conductor (---, respectively). An actuator () can be movable from a first position to a second position responsive to a mechanical force applied to the third coaxial connector (). A switch element () can be responsive to the actuator (). When in the first position, the switch element () can exclusively form a conductive path between the first and second coaxial RF connectors (). When the actuator () is in the second position, the switch element () can exclusively form a conductive path between the first and third coaxial RF connectors ().

Multiband Radio With Transmitter Output Power Optimization

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US Patent:
7826810, Nov 2, 2010
Filed:
May 8, 2006
Appl. No.:
11/429837
Inventors:
Travis D. Carmel - Bloomfield NY, US
Kenneth P. Beghini - Spencerport NY, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H04B 1/04
US Classification:
4551272, 455 73, 455 77, 455126, 455103, 4551153, 330 2, 370342, 370311
Abstract:
Transmitter () designed to automatically reconfigure one or more circuit parameters associated with an RF power amplifier () in response to certain user input commands. Specifically, a transmitter circuit configuration is automatically modified under certain conditions to produce a higher RF output power. The higher RF power output is possible because the transmitter configuration is adjusted specifically for use under a particular set of operating conditions. The operating conditions that trigger the higher powered configuration include burst transmission mode.

Wide Spectrum Radio Transmit Architecture

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US Patent:
8013681, Sep 6, 2011
Filed:
Aug 5, 2009
Appl. No.:
12/535753
Inventors:
Kenneth Beghini - Spencerport NY, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H03L 7/00
US Classification:
331 2, 331 46, 331 49, 331 51, 331 56, 331 60
Abstract:
A communications device () includes a frequency divider circuit () having a plurality of frequency division ratios. The device also includes at least one phase-lock loop (PLL) circuit () coupled to at least a signal input of the frequency divider circuit. The PLL circuit includes a local oscillator (LO) circuit () including a plurality of voltage controlled oscillators (VCOs) having different frequency tuning ranges. The device further includes at least one control input () coupled to at least the frequency divider circuit and the PLL circuit for specifying one of the plurality of VCOs and one of the plurality of frequency division ratios of the frequency divider circuit.

Multi-Mode Communications System

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US Patent:
8503934, Aug 6, 2013
Filed:
Jul 22, 2010
Appl. No.:
12/841530
Inventors:
Kenneth P. Beghini - Hilton NY, US
Eric Van Ness - Macedon NY, US
Donald R. Martz - Webster NY, US
David Hinterberger - Fairport NY, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H04B 7/00
US Classification:
455 412, 455 902, 4555521, 4554561, 455509, 455518, 39539552
Abstract:
A communications device includes a first radio () configured to support wireless communications with a second radio () using a plurality of communications modes. The device includes a switch element () configured to cause the first radio to transmit when actuated. The device also includes a control element () for detecting one or more actuations of the switch element and configured to select a one of the plurality of communications modes based on a sequence of the actuations of the switch element detected by the control element during a pre-defined time interval and to cause a wireless transmission from the first radio to the second radio according to the one of the plurality of communications modes.

Flexible Circuit Temperature Sensor Assembly For Flanged Mounted Electronic Devices

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US Patent:
20070248142, Oct 25, 2007
Filed:
Mar 29, 2006
Appl. No.:
11/391826
Inventors:
Timothy Rountree - Rochester NY, US
Thomas O'Brien - Honeoye Falls NY, US
Kenneth Beghini - Spencerport NY, US
Assignee:
HARRIS CORPORATION - Melbourne FL
International Classification:
G01K 1/14
US Classification:
374141000
Abstract:
A temperature sensing system for a flange mounted device is provided. The temperature sensing system can be comprised of a flexible wiring board . The temperature sensing system can be further comprised of a temperature sensing device mounted to the flexible wiring board. The flexible wiring board can have one or more conductive traces a, b, c disposed thereon. The conductive traces can form an electrical connection with the temperature sensing device. The temperature sensing system can also comprise a thermal pad directly connected to the temperature sensing device. The thermal pad can be formed of a thermal conductor. The thermal pad can also have a thermal contact surface. The thermal contact surface can be sized and shaped for direct physical contact with a portion of the device , wherein thermal energy is communicated directly from the thermal pad to the temperature sensing device. A method for sensing a temperature of a flange mounted device is also provided.

Systems And Methods For Maintaining A Controlled Power Output At An Antenna Port Over A Range Of Frequencies Defined By Two Or More Frequency Bands

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US Patent:
20100309901, Dec 9, 2010
Filed:
Jun 3, 2009
Appl. No.:
12/477602
Inventors:
Kenneth Beghini - Spencerport NY, US
Eric Van Ness - Macedon NY, US
Donald Martz - Webster NY, US
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H04J 1/00
H04B 1/38
US Classification:
370343
Abstract:
A multiband transceiver () including transmit sub-circuits (TSCs) arranged in parallel, a multiplexer () receiving RF signals from the TSCs at input ports (), and a directional coupler (DC). Each TSC () is configured to support communications in a respective frequency band. The multiplexer is configured to route signals from the input ports to a common output port () and to reduce harmonic distortion induced by the TSCs. DC () has an input port () connected to the common output port, a transmitted port () connected to an antenna port, and a coupled port () coupling a portion of the RF signal to a common feedback loop (CFL). The CFL () provides a feedback signal coupled to each TSC. Each TSC is responsive to the feedback signal for maintaining a controlled power output at the antenna port over a range of frequencies.
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Kenneth P Beghini from Hilton, NY, age ~56 Get Report