Paul G Habeck

US Patent:

20120200468, Aug 9, 2012

Filed:

Feb 8, 2012

Appl. No.:

13/369282

Inventors:

Henry Cooper - Temecula CA, US
Sheng Peng - Lynwood WA, US
Ron Westberg - Temecula CA, US
Paul Habeck - Temecula CA, US
Floyd Phelps - Temecula CA, US

International Classification:

H01Q 13/10

US Classification:

343767

Abstract:

A radiator element for RF communications formed of a planar conductive material positioned upon a planar dielectric substrate surface. Two lobes formed of the conductive material have side edges abutting a cavity decreasing in cross section between the lobes. The cavity has a widest point configured to receive RF frequencies at the lowest frequency and a narrowest point configured to receive a highest frequency of the element. Opposing pairs of notches in the side edges of the lobes along the decreasing edges of the cavity enhance the frequency of operation for frequencies paired to the distance between the pairs of notches.

US Patent:

20120200470, Aug 9, 2012

Filed:

Feb 9, 2012

Appl. No.:

13/370275

Inventors:

Henry Cooper - Temecula CA, US
Sheng Peng - Lynnwood WA, US
Ron Westberg - Temecula CA, US
Paul Habeck - Temecula CA, US
Floyd Phelpe - Temecula CA, US

International Classification:

H01Q 13/02

US Classification:

343786

Abstract:

A radiator element for transmission and reception of RF communications formed of a planar conductive material positioned upon a planar dielectric substrate surface. Two lobes formed of the conductive material have side edges abutting a cavity decreasing in cross section between the lobes. The cavity has a widest point configured to receive RF frequencies at the lowest frequency and a narrowest point configured to receive a highest frequency of the element. The widest and narrowest point may be changed during manufacture to fit the frequency spectrum needed. Opposing pairs of recess cavities formed in the side edges of the lobes along the decreasing edges of the cavity enhance the frequency of operation for frequencies paired to the distance between the pairs of notches. Projections are employable along the side edges to optimize impedance.

US Patent:

20120200469, Aug 9, 2012

Filed:

Feb 8, 2012

Appl. No.:

13/369263

Inventors:

Henry Cooper - Temecula CA, US
Sheng Peng - Lynwood WA, US
Paul Habeck - Temecula CA, US
Floyd Phelps - Temecula CA, US

International Classification:

H01Q 13/10

US Classification:

343770, 343767

Abstract:

An omnidirectional RF radiator element formed upon a surface of a planar dielectric substrate. The element features a plurality of cavities narrowing in cross-section and formed upon a surface of said planar substrate which narrow from a widest point to a narrowest point. Feed lines communicate with each cavity for transmission and reception of RF therethrough. Each radiator element is engageable with other elements in a stacked configuration using connectors engaged to the feed lines and configured for cooperative engagement with other connectors.