Claims
- 1. A flare-antenna assembly comprising:
- a monopole antenna comprising a cylinder of conductive material with an upper enclosure of the cylinder enclosed by the same type conductive material as said cylinder and a base comprised of a solid metal with a plurality of enclosed apertures;
- a flare material enclosed by said monopole antenna; and
- a firing squib embedded in said flare material.
- 2. A flare-antenna assembly according to claim 1 further comprising:
- an RF connector pin connected to said monopole antenna at one of said base apertures; and
- a pair of pins passing through a pair of said base apertures connected to said squib.
- 3. A flare-antenna assembly according to claim 2 wherein said monopole cylinder of conductive material and said upper end enclosure of said cylinder further comprise a fine wire mesh.
- 4. A flare system for being remotely activated comprising:
- a monopole antenna comprising a cylinder of fine wire mesh conductive material with the upper end of the cylinder enclosed by the same fine wire mesh conductive material and the base comprised of a solid metal with a plurality of enclosed apertures;
- a flare material enclosed by said monopole antenna;
- a firing squib embedded in said flare material;
- an RF connector pin connected to said monopole antenna at one of said base apertures;
- a pair of pins passing through a pair of said base apertures connected to said squib;
- a marker beacon electronic system connected to said monopole antenna through said RF connector pin and connected to said squib through said pair of pins; and
- said marker beacon electronic system including signal processing means for receiving transmission signals from said monopole antenna, flare ignition decode circuit means connected to said signal processing means for generating an electrical pulse upon determining said received transmission signals meet a flare ignition decode criteria, and said squib connected to said flare ignition decode circuit means and detonating and thereby activating said flare upon receipt of said electrical pulse from said flare ignition decode circuit means.
- 5. A flare system for being remotely activated according to claim 4 wherein said signal processing means further comprises:
- a duplexer serially connected to said monopole antenna;
- a receiver comprising bandpass filtering and signal amplification serially connected to said duplexer, said receiver further connected to receive a gate signal and becoming operative only during receipt of said gate signal; and
- an RF processor connected to receive and demodulate signals from said receiver.
STATEMENT OF GOVERNMENT INTEREST
The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (5)