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Marc Howard Popek

from Las Vegas, NV
Age ~68
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Also known as:
Marc H Popek, Marc J Popek, Mark H Popek, Marc H Poper, Cynthia Popek, Marc Popeh
Phone and address:
9801 Bearpaw Ave, Las Vegas, NV 89117
(702) 228-5727
Related to:
Gracie Hom, 60Steve Kwan, 56Tina Kwan, 41Patrick Hendrix, 44Derrick R Kaufman, 43Kristopher N, 44
Connected to:
Angela L Popek, 80Carolyn E Popek, 36Dennis M Popek, 58Gary L Popek, 64Gregory M Popek, 76Herbert E Popek, 92Marcin Popek, 48Michael J Popek, 71Natalie Popek, 54Rebecca R Popek, 41

Marc Popek Phones & Addresses

  • 9801 Bearpaw Ave, Las Vegas, NV 89117 (702) 228-5727
  • Hilo, HI
  • 211 Harbour Dr W, Satellite Beach, FL 32937
  • Indian Harbour Beach, FL
  • Rochester, NY
  • 9801 Bearpaw Ave, Las Vegas, NV 89117

Work

Company: Jt3 Feb 2009 Position: Senior engineer

Education

Degree: MSEE School / High School: University of Nevada-Las Vegas 2002 to 2005 Specialities: Engineering

Skills

Patents • Wireless • Problem Solving • Patent Litigation • Intellectual Property • Patent Prosecution • Patent Preparation • Patent Drafting • Patentability • Voip • Patent Portfolio Management • Trade Secrets • Patent Analysis • Trademark Prosecution • Team Building • Radar • Team Mentoring • Electrical Engineering • Rf • Simulations • Embedded Software • Signal Processing • Sensors • Analog • Antennas • Trademarks • System Design • Test Equipment • Microwave • Electronics • Testing • Spectrum Analyzer • Mixed Signal • System Architecture • Hardware • Systems Design • Product Development • Manufacturing • Engineering • Management • Systems Engineering • Engineering Management • Wireless Technologies • Radio Frequency

Languages

English • Spanish

Ranks

Certificate: Scuba

Industries

Electrical/Electronic Manufacturing

Resumes

Resumes

Marc Popek Photo 1

Director - Chief Technology Officer

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Location:
9801 Bearpaw Ave, Las Vegas, NV 89117
Industry:
Electrical/Electronic Manufacturing
Work:
JT3 since Feb 2009
Senior Engineer
C D & E since Jan 1992
Director - CTO
UNLV - Las Vegas, Nevada Area Jan 2004 - Dec 2007
Professsor, researcher and business development
Smart Systems INternational Jan 1995 - Jan 2001
Co-founder, CTO
Hello direct 1997 - 2000
Consultant to John magnasso et al
Education:
University of Nevada-Las Vegas 2002 - 2005
MSEE, Engineering Florida Atlantic University 1976 - 1979
MSEE, Electronics Rochester Institute of Technology 1976 - 1979
BSEE, Electrical and Electronics Engineering State University of New York College of Agriculture and Technology at Morrisville 1974 - 1976
ASET, Electronics
Skills:
Patents
Wireless
Problem Solving
Patent Litigation
Intellectual Property
Patent Prosecution
Patent Preparation
Patent Drafting
Patentability
Voip
Patent Portfolio Management
Trade Secrets
Patent Analysis
Trademark Prosecution
Team Building
Radar
Team Mentoring
Electrical Engineering
Rf
Simulations
Embedded Software
Signal Processing
Sensors
Analog
Antennas
Trademarks
System Design
Test Equipment
Microwave
Electronics
Testing
Spectrum Analyzer
Mixed Signal
System Architecture
Hardware
Systems Design
Product Development
Manufacturing
Engineering
Management
Systems Engineering
Engineering Management
Wireless Technologies
Radio Frequency
Languages:
English
Spanish
Certifications:
Scuba

Publications

Us Patents

Focused Wave Antenna

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US Patent:
6914581, Jul 5, 2005
Filed:
Oct 31, 2002
Appl. No.:
10/286129
Inventors:
Marc H. Popek - Las Vegas NV, US
Assignee:
Venture Partners - Reno NV
International Classification:
H01Q015/02
H01Q015/24
US Classification:
343909, 343756, 343873
Abstract:
Disclosed herein is an antenna that is integrally encompassed within a three-dimensional shaped substance that has a permittivity or permeability constant greater than one. Such an encompassed antenna results in the production of radiated energy at a particular frequency and gain that can conventionally only be produced by a larger antenna.

Electric/Magnetic Field Sensor

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US Patent:
7482814, Jan 27, 2009
Filed:
Aug 26, 2005
Appl. No.:
11/213628
Inventors:
Marc Popek - Las Vegas NV, US
Assignee:
The Board of Regents University Community College System of Nevada on Behalf of the University of Nevada-Las Vegas - Las Vegas NV
International Classification:
G01R 29/12
G01R 33/00
G01R 27/04
US Classification:
324457, 324260, 324632
Abstract:
A UNLV novel electric/magnetic dot sensor includes a loop of conductor having two ends to the loop, a first end and a second end; the first end of the conductor seamlessly secured to a first conductor within a first sheath; the second end of the conductor seamlessly secured to a second conductor within a second sheath; and the first sheath and the second sheath positioned adjacent each other. The UNLV novel sensor can be made by removing outer layers in a segment of coaxial cable, leaving a continuous link of essentially uncovered conductor between two coaxial cable legs.

Electrostatic Discharge Protection For Microwave Guided Wave Structure

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US Patent:
7768764, Aug 3, 2010
Filed:
Jul 6, 2006
Appl. No.:
11/428916
Inventors:
Marc H. Popek - Las Vegas NV, US
International Classification:
H05F 3/04
US Classification:
361119
Abstract:
Electrostatic discharge protection for guided wave microwave structures is provided by a protection device that imposes minimal disruption on the microwave structures and negligible interference with the normal operation of the structures. The protection device provides a discharge path between a signal conductor and a ground conductor when electrostatic charges on the signal conductor reach a predetermined voltage level. The protection device includes an insulating base that bridges a space between the signal conductor and the ground conductor and that supports a dispersion of metal particles adhered to the base.

Electronic Game Playing Apparatus

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US Patent:
20020198049, Dec 26, 2002
Filed:
Jun 25, 2001
Appl. No.:
09/887423
Inventors:
Khai Tan - Singapore, SG
Ekanayake Ekanayake - Singapore, SG
Nuntha S/O Krishnasamy Maniam - Singapore, SG
Ah Lee - Singapore, SG
Guimei Dai - Singapore, SG
Marc Popek - Las Vegas NV, US
Assignee:
ADDVALUE TECHNOLOGIES Ltd. of SINGAPORE
International Classification:
A63F013/00
US Classification:
463/039000
Abstract:
Game playing apparatus is disclosed comprising a game controller arranged to be held by a game player and a base station connected to or forming part of a game console, the controller and base station communicating over a wireless link and wherein the base station is provided with a loop aerial and the game controller is provided with either a dipole aerial or a loop aerial.

Sculptured Stripline Interface Conductor

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US Patent:
47206900, Jan 19, 1988
Filed:
Jul 14, 1986
Appl. No.:
6/885557
Inventors:
Marc H. Popek - Indian Harbour Beach FL
Kenneth D. Springer - St. Petersburg FL
William R. Beaudet - Melbourne FL
Ralph D. DiStefano - Palm Bay FL
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H01P 512
US Classification:
333 1
Abstract:
A sculptured stripline interface conductor for providing spaced apart access to the closely spaced conductors of a circuit element. The low impedance and crosstalk of stripline suggests the use thereof in high-frequency applications. In the sculptured stripline interface conductor of the present invention the circuit traces of the buried signal layer are closely spaced in a first section of the stripline interface conductor and spaced further apart in a second section thereof. In the area where the circuit traces are closely spaced, different-shaped rectangular holes are made in the upper and lower ground plane conductors to expose the inner circuit traces. The upper ground plane conductor also has holes in the second section for exposing a pad in the circuit traces. External connection to each conductor of the circuit element is then made to the circuit trace pad through the holes in the upper ground plane conductor. The circuit element is disposed adjacent the rectangular holes and the leads thereof are connected to the inner circuit traces exposed by the rectangular holes.

Impulse Waveform Drive Apparatus For Surface Acoustic Wave Chirp System

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US Patent:
49393871, Jul 3, 1990
Filed:
May 5, 1988
Appl. No.:
7/190658
Inventors:
Marc H. Popek - Indian Harbour Beach FL
Pat O. Bentley - Palm Bay FL
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H03K 5159
H03C 300
US Classification:
307529
Abstract:
An amplitude modulation apparatus for achieving an extremely deep extinction ratio (in excess of -90 dBc) at nanosecond rise times required by an SAW device comprises the cascaded combination of a controlled switching device (GaAsFET), capable of providing a medium degree (40 dB) of attenuation at nanosecond switching rates, and a double balanced mixer, both multiplier input ports of which are coupled to receive split outputs from the GaAsFET switch. Because of the nonlinearity of the transfer function of the mixer when driven by the same RF carrier input at both multiplier ports, the output of the mixer is in excess of -90 dBc. In an SAW-based signal processing system, the output of the mixer is coupled to RF drive input of the SAW device. With the throughput functionality of the GaAsFET switch being precisely controlled to supply an integral number of half RF carrier frequency cycles to the double balanced mixer, the resultant waveform that is applied to the SAW device drive input from the mixer contains no energy at the RF carrier that could otherwise introduce unwanted Fresnel distortion.

Driver Unit For A Laser Q-Switch

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US Patent:
46758720, Jun 23, 1987
Filed:
Sep 30, 1985
Appl. No.:
6/781591
Inventors:
Marc H. Popek - Indian Harbour Beach FL
Kenneth D. Springer - Indialantic FL
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H01S 311
US Classification:
372 10
Abstract:
A Q-switch driver for controlling laser output pulses, so that the laser output pulses are of an approximately equal amplitude. Sequences of light request pulses, each such light request pulse for causing the laser to produce a laser output pulse, are input to the Q-switch driver. The Q-switch is controlled by an RF oscillating signal produced by the Q-switch driver such that when the RF signal is present there is no output signal from the laser, and when the RF signal is zero a laser output pulse is produced. If the time between sequences of light request pulses is greater than a predetermined value, the RF signal from the Q-switch driver is modified by leaving the RF partially on so that there is some Q-spoiling present. The amount of RF produced during each light request pulse is gradually diminished exponentially over a predetermined time so that eventually the RF goes to zero during each light request pulse. Modifying the RF produced by the Q-switch driver prevents the generation of a giant first pulse by the laser.

Electro-Optical Phase Modulator

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US Patent:
48863459, Dec 12, 1989
Filed:
Aug 5, 1988
Appl. No.:
7/228655
Inventors:
Marc H. Popek - Indian Harbour Beach FL
Assignee:
Harris Corporation - Melbourne FL
International Classification:
G02F 101
US Classification:
350355
Abstract:
An electro-optical phase modulator. The electro-optical modulator incorporates a stripline configuration with a bottom ground plane attached to the bottom surface of the crystal and a signal conductor that is affixed to the top surface of the crystal. The signal conductor is separatred from a top ground plane by a dielectric, usually air. The top ground plane also overhangs the sides of the crystal to lower the effective dielectric constant of the modulating signal that is applied to the signal conductor. In this way, the electric field established in the crystal by the modulating signal has a speed more nearly equal to the speed of the optical beam that passes through the crystal and is modulated by the electrical signal.
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Marc Howard Popek from Las Vegas, NV, age ~68 Get Report