Dr. Sisk graduated from the University of Kentucky College of Medicine in 2003. He works in Cincinnati, OH and 1 other location and specializes in Ophthalmology. Dr. Sisk is affiliated with Bethesda North Hospital, Christ Hospital, Good Samaritan Hospital and UC Medical Center.
Us Patents
Low Profile Active Electronically Scanned Antenna (Aesa) For Ka-Band Radar Systems
Peter A. Stenger - Woodbine MD, US Fred C. Kuss - Elkridge MD, US Kevin LaCour - Laurel MD, US Craig Heffner - Ellicott City MD, US Robert Sisk - Annapolis MD, US Carl D. Wise - Severna Park MD, US Joseph Paquin - Columbia MD, US Tujuana Hinton - Baltimore MD, US Andrew Walters - Elkridge MD, US David Krafcsik - Crownsville MD, US Brian T. McMonagle - Woodstock MD, US Steven D. Block - Pikesville MD, US Steven S. Handley - Severna Park MD, US
Assignee:
Northrop Grumman Corporation - Los Angeles CA
International Classification:
H01Q003/22 H01Q003/24 H01Q003/26 G01S013/00
US Classification:
342371, 342147, 342157, 342175, 342368, 342372
Abstract:
A vertically integrated Ka-band active electronically scanned antenna including, among other things, a transitioning RF waveguide relocator panel located behind a radiator faceplate and an array of beam control tiles respectively coupled to one of a plurality of transceiver modules via an RF manifold. Each of the beam control tiles includes a respective plurality of high power transmit/receive (T/R) cells as well as dielectric waveguides, RF stripline and coaxial transmission line elements. The waveguide relocator panel is preferably fabricated by a diffusion bonded copper laminate stack up with dielectric filling. The beam control tiles are preferably fabricated by the use of multiple layers of low temperature co-fired ceramic (LTCC) material laminated together. The waveguide relocator panel and the beam control tiles are designed to route RF signals to and from a respective transceiver module of four transceiver modules and a quadrature array of antenna radiators matched to free space formed in the faceplate. Planar type metal spring gaskets are provided between the interfacing layers so as to provide and ensure interconnection between mutually facing waveguide ports and to prevent RF leakage from around the perimeter of the waveguide ports.
Low Profile Active Electronically Scanned Antenna (Aesa) For Ka-Band Radar Systems
Peter A. Stenger - Woodbine MD, US Fred C. Kuss - Elkridge MD, US Kevin LaCour - Laurel MD, US Craig Heffner - Ellicott City MD, US Robert Sisk - Annapolis MD, US Carl D. Wise - Severna Park MD, US Joseph Paquin - Columbia MD, US Tujuana Hinton - Baltimore MD, US Andrew Walters - Elkridge MD, US David Krafcsik - Crownsville MD, US Brian T. McMonagle - Woodstock MD, US Steven D. Block - Pikesville MD, US Steven S. Handley - Severna Park MD, US
Assignee:
Northrop Grumman Corporation - Los Angeles CA
International Classification:
H01Q 19/06
US Classification:
343754, 333125
Abstract:
A vertically integrated Ka-band active electronically scanned antenna including, among other things, a transitioning RF waveguide relocator panel located behind a radiator faceplate and an array of beam control tiles respectively coupled to one of a plurality of transceiver modules via an RF manifold. Each of the beam control tiles includes a respective plurality of high power transmit/receive (T/R) cells as well as dielectric waveguides, RF stripline and coaxial transmission line elements. The waveguide relocator panel is preferably fabricated by a diffusion bonded copper laminate stack up with dielectric filling. The beam control tiles are preferably fabricated by the use of multiple layers of low temperature co-fired ceramic (LTCC) material laminated together. The waveguide relocator panel and the beam control tiles are designed to route RF signals to and from a respective transceiver module of four transceiver modules and a quadrature array of antenna radiators matched to free space formed in the faceplate. Planar type metal spring gaskets are provided between the interfacing layers so as to provide and ensure interconnection between mutually facing waveguide ports and to prevent RF leakage from around the perimeter of the waveguide ports.
Feb 2011 to 2000 Professional MoverArco welding Fredericksburg, VA Aug 2009 to Feb 2011 Welders HelperCarter bank an trust Fredericksburg, VA Apr 2008 to Jul 2009 Bank Teller
Education:
Germanna Community College Fredericksburg, VA 2006 to 2008 General Studies ( not finished) in Management, accounting
Skills:
Great communication, great customer service skills, Inventory Management, managing own work schedule, ability to work outdoors and lift heavy items, very intelligent quick learner
Youtube
Doc 2 Doc Podcast: Dr. Robert Sisk
In this episode of the Doc-to-Doc Podcast, Dr. Lori Provencher intervi...
Duration:
7m 31s
Gene Therapy with Dr. Robert Sisk on Local 12...
Dr. Robert Sisk, a retina specialist with Cincinnati Eye Institute, ta...
Duration:
2m 39s
Doc 2 Doc Podcast: Talking research with Dr. ...
In this episode of the Doc-to-Doc Podcast, Dr. Lori Provencher intervi...
Duration:
8m 37s
Twitter Files 10: White House(s) Demanded Mis...
MEMBERS-ONLY: SURVIVAL (CODE: ROBERT): AZ CRIMINAL...
Duration:
1h 10m 13s
Q-Cards with Robert Sisk
TNV sports editor Robert Sisk answers the Q-Cards with TNV sports colu...