Amazing Breakthroughs and Trends in Phased Arrays and Radars (IEEE AESS Distinguished Lecture)

ATTENTION: THIS EVENT HAS BEEN POSTPONED. PLEASE CHECK THE WEBSITE NEXT WEEK FOR AN UPDATED DATE AND PLACE

Dr. Eli Brookner,
Raytheon Company (retired)

Covered will be recent truly amazing developments and breakthroughs in metamaterials, graphene, digital beam forming, micromachining, low cost arrays and signal processing and the impact of these advances on radar and phased arrays. Metamaterials: Material custom made (not found in nature): electronically steered antenna not using phase shifters at 20 and 30 GHz demonstrated (still remains to prove low cost and reliability); 2-20GHz stealthing by absorption simulated using >1 mm coating; target made invisible over 50% bandwidth at L-band; Graphene and Carbon Nanotube (CNT): Potential for Terahertz transistor clock speeds, manufacture on CMOS demo’d, could allow Moore’s law to march forward using present day manufacturing techniques; Synaptic Transistors: Learns like human brain synapse, analog computing could be in our future; Extreme MMIC: 4 T/R modules on single X-band chip, ~$10 per T/R module; on-chip built-in-self-test (BIST) at W-Band; wafer scale integration at 110 GHz; Printed Electronics: Low cost printing of RF and digital circuits using metal-insulator-metal (MIM) diodes and 2D MoS2 ink; Electrical and Optical Signals on Same Chip: Has been shown that both electricity and light can be simultaneously transmitted over a silver nanowire combined with single layer 2D MoS2, could be a step towards transporting on computer chips digital information at the speed of light. COSMOS DARPA program: Allows integration of III-IV, CMOS and optics on one chip without bonded wires; Digital Beam Forming: AESAs with A/D for every element channel; Raytheon developing mixer-less direct RF A/D having >400 MHz instantaneous bandwidth, reconfigurable between S and X-band; Low Cost Packaging: Raytheon and Lincoln Laboratory independently developing respectively X-band and S-band low cost flat panel arrays using COTS type PCBs; Very Low Cost Systems: Valeo-Raytheon low cost, $100s only, car 25 GHz phased array radar; DARPA goal, $1/element 94 GHz array; MEMS: reliability reaches 300 billion cycles without failure, can reduce T/R module count by factor of 2 to 4; MEMS Piezoelectric Material = piezoMEMS: for flying insect robots; MIMO (Multiple Input Multiple Output): contrary to what is claimed MIMO array radars do not provide 1, 2 or 3 orders of magnitude better resolution and accuracy than conventional array radars; MIMO does not provide better barrage-noise-jammer, repeater-jammer or hot-clutter rejection than conventional array radars; Additional Advances: Biodegradable array of transistors or LEDs for detecting cancer or low glucose, can then dispense chemotherapy or insulin; Can now grow functioning non-rejecting kidney and heart for rats; New polarizations, OAMs, unlimited data rate over finite band using new polarizations??

BEE: The City College of the City of New York, ’53, MEE and DrSc: Columbia University ’55 and ’62.

Dr. Eli Brookner worked at Raytheon Company from 1962 to retirement July 2014. There he was a Principal Engineering Fellow and worked on ASDE-X airport radar, ASTOR Air Surveillance Radar, RADARSAT II, Affordable Ground Based Radar (AGBR), major Space Based Radar programs, NAVSPASUR S-Band upgrade, COBRA DANE, PAVE PAWS, Missile Site Radar (MSR), COBRA JUDY Replacement, THAAD, Brazilian SIVAM, SPY-3, Patriot, BMEWS, UEWR, Surveillance Radar Program (SRP), Pathfinder marine radar, Long Range Radar (upgrade for >70 ATC ARSRs), COBRA DANE Upgrade, AMDR, Space Fence, 3DELRR, FAA NexGen ATC radar program. Prior to Raytheon he worked on radar at Columbia University Electronics Research Lab. [now RRI], Nicolet and Rome AF Lab.

Received IEEE 2006 Dennis J. Picard Medal for Radar Technology & Application “For Pioneering Contributions to Phased Array Radar System Designs, to Radar Signal Processing Designs, and to Continuing Education Programs for Radar Engineers”; IEEE ’03 Warren White Award; Journal of the Franklin Institute Premium Award for best paper award for 1966; IEEE Wheeler Prize for Best Applications Paper for 1998. Fellow of IEEE, AIAA, MSS. Member of the National Academies Panel on Sensors and Electron Devices for Review of Army Research Laboratory Sensors and Electron Devices Directorate (SEDD)

Published four books: Tracking and Kalman Filtering Made Easy, John Wiley and Sons, Inc., 1998; Practical Phased Array Antenna Systems (1991), Aspects of Modern Radar (1988), and Radar Technology (1977), Artech House. Gives courses on Radar, Phased Arrays and Tracking around the world (25 countries). Over 10,000 attended these courses. Banquet/keynote speaker twelve times. >230 papers, talks and correspondences, >100 invited. Six paper reprinted in Books of Reprints (one in two books). Contributed chapters to three books. Nine patents.