Topics in Electromagnetic Environmental Effects (E3)

#Electromagnetic #Environmental #Effects #E3 #EMI #5G #Cell #Mobile #Phone #Systems #Engineering
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Topics will include EMC E3, lessons learned, cosite inter/intra-system interference, INCOSE System Engineering Model-based Systems Engineering Vee, and EMC/E3/Radiation Hazards from 5G Cell Phones.


  Date and Time

  Location

  Hosts

  Registration


  • Date: 17 Dec 2019
  • Time: 06:00 PM to 07:30 PM
  • All times are (GMT-05:00) US/Eastern
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  • 1745 West Nursery Road
  • Linthicum, Maryland
  • United States 21090
  • Building: National Electronics Museum
  • Contact Event Host
  • Starts 14 December 2019 09:00 AM
  • Ends 17 December 2019 02:00 PM
  • All times are (GMT-05:00) US/Eastern
  • No Admission Charge

  Speakers

Bob Berkovits

Topic:

INCOSE Systems ENgineering "Vee"

The discussion will relate to the INCOSE Model Based System Engineering Vee from Mission Conops through development, val

Biography:

Robert Berkovits is an Electrical and Systems Engineer with expertise in systems requirements analysis E3/EMC design, integration and test of avionics, ESM, EW, radar and communications systems from HF to K band. He has a BSEE from the University of Pennsylvania, a MS Systems Engineering from Boston University and a Certificate in Clinical Engineering. He is iNARTE certified as an EMC Engineer. His IEEE membership levels from student to retirement from Northrop Grumman are Honored Member EMC 2015, LSM EMC IEEE - EMC Chair- Baltimore from 2003 to present. Prior IEEE EMC chapter chair positions were Long Island 9 years and Boston 4 years. Robert was secretary of the INCOSE Chesapeake Chapter in 2010 and 2011.

Tim Cash

Topic:

5G Radiation

The second part of the talk will discuss the radiation levels from a typical 5G cell phone user equipment. Assumptions were made concerning transmit power and antenna gain to just meet the power density limits of the IEEE and ICNIRP standards for general public. The five sub 6 GHz Bands (700/900/1800/2100/2600 MHz) are plotted vs maximum power density level for General Public.

Biography:

Timothy Cash has a Bachelor’s Degree in Physics/Mathematics from Indiana University, with Master's course work and thesis in Electro-Optics, University Houston Clear Lake. 39 years of increasing responsibility in optical fiber and RF cable, connectors, hardware and systems engineering. Undersea cables/optical fiber/Towed Array/SONET optical fiber networks, Impedance Test Set/International Space Station Testing/Delta-4 Launch Pad Optics/Satellite
mission analysis. Active RFID Tag Baseline/TDRS Ground Station/NOAA satellite Interference Analysis (LTE), FAA Navigation Systems Signal in Space Baseline. Air quality sensor testing, IEEE Software Defined Radio, Weather Station and Brain to Computer Interface Workshops, Northrop Grumman RADAR system flight test. IEEE EMC Society, Antennas & Propagation Society Member.





Agenda

The first part of the discussion will relate to the INCOSE Model Based System Engineering Vee from Mission Conops through development, validation, and maintenance, logistics and upgrades.

The second part of the talk will discuss the radiation levels from a typical 5G cell phone user equipment. Assumptions were made concerning transmit power and antenna gain to just meet the power density limits of the IEEE and ICNIRP standards for general public. The five sub 6 GHz Bands (700/900/1800/2100/2600 MHz) are plotted vs maximum power density level for General Public.