Tracey H Brommer

8160497, Apr 17, 2012

Jul 15, 2011

13/183562

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

H04B 7/00
H04B 1/16

455 412, 4553431

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.

8185052, May 22, 2012

Jul 15, 2011

13/183556

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

H04B 7/00
H04B 1/16

455 412, 4553431

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.

8190090, May 29, 2012

Jul 15, 2011

13/183575

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

H04B 7/00
H04B 1/16

455 412, 4553431

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.

8295767, Oct 23, 2012

Jul 15, 2011

13/183679

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

H04B 7/00
H01L 21/00

455 412, 438460, 427290

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.

20070281657, Dec 6, 2007

Jan 20, 2006

11/578275

Karl Brommer - Exeter NH, US
Tracey Brommer - Exeter NH, US
Peter Simonson - Greenville NH, US

H04B 1/04
G08B 1/08
H04B 13/02
H04M 1/00
H04J 3/02
H01Q 11/12

455334000, 340005100, 340531000, 340539100, 340691100, 367137000, 455103000, 455116000, 455129000, 455230000, 455269000, 455344000, 455550100

A microradio () is provided with a hysteretic switch () to permit an optimum range increasing charging cycle, with the charging cycle beling long relative to the transmit cycle. Secondly, an ensemble of microradios permits an n2 power enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycle. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flowing sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the uses of paints or other coatings containing microradios, greases and aerosols.

20110267235, Nov 3, 2011

Jul 15, 2011

13/183665

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

G01S 5/02

342457

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.

20110269401, Nov 3, 2011

Jul 15, 2011

13/183637

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

H04W 24/00
H04B 7/00

455 412, 455 6711

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.

20110273300, Nov 10, 2011

Jul 15, 2011

13/183651

Karl D. Brommer - Exeter NH, US
Tracey H. Brommer - Exeter NH, US

BAE Systems Information and Electronic Systems Integration Inc. - Nashua NH

G08B 23/00

3405733

A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an npower enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols. Moreover, specialized antennas, including microcoils, mini dipoles, and staircase coiled structures are disclosed, with the use of nano-devices further reducing the size of the microradios.