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Dr. Nilsson will present his patented COMPACtenna invention of small High-Performance antennas that helps allow passage into garages and provide a stealth solution for Homes & HOA's. His designs reduce losses of standard matching circuits with a resonating signal-producing matching system intrinsic to the antenna geometry, produce strong magnetic and electric near fields, and create diverse EM far fields thereby reducing flutter and increasing Reliable Range.
Dr. Jack Nilsson, Inventor - Antennas, Electromagnetism & Energy
COMPACtenna - Patented Small High-Performance Antennas - VHF/UHF & HF
Dr. Jack Nilsson is an inventor of revolutionary Antenna Science & Technology. With his early formal education focused on mathematics and physics, he was awarded the Silver Medal by the Mathematics Association of America. He then earned his undergraduate and M.D. degrees from the University of Akron, with honors. His physician internship and residency in Family Practice were at Cleveland Clinic - Fairview General Hospital.
After over a decade as a Family Physician, his work on revolutionary antenna science & technology found him moving to Chief wireless engineer as well as senior antenna design engineer positions and working with private enterprise/investment entities in building antenna companies based on his unique ground-breaking antenna patents.
As part of that work, Dr. Nilsson received a Formal Technology Honor from the U.S. Secret Service. His various patented designs are used by many entities including such as Washington DC Homeland Security, the Cleveland Clinic Mobile Stroke Ambulance, diverse WiFi and Cell Phone networks, US Secret Service, Public Service agencies, and Ham Radio Operators.
Dr. Nilsson’s COMPACtenna Invention:
Reduce losses of standard matching circuits
Antenna geometry - resonating signal-producing matching system built-in Improve bandwidth of short antenna with spiral metal sheets
‘Magnetic Field Resonator’ - reduced near field noise Diverse EM Fields reduce flutter
Improved:
Non-Line-of-Sight multi-path communications (Real world environment we live in)
Temperature and humidity inversion pathways, tropospheric propagation
Satellite communications (hemispheric pattern, elliptical polarization)
Stabilized signal with diverse HF pathways