Edward H Tegge

6542277, Apr 1, 2003

Mar 7, 2001

09/801084

Michael Lange - Melbourne FL
John DeSalvo - Satellite Beach FL
Mark Koontz - Melbourne FL
Edward Tegge - Palm Bay FL

Harris Corporation - Melbourne FL

H04B 1006

359189, 359127, 359161

An optically amplified back-up receiver includes an optical splitter for receiving a wavelength division multiplexed (WDM) optical communications signal by splitting the signal into a low power WDM optical signal onto a back-up path where it is amplified and an optical signal of desired wavelength selected. A PIN detector receives the optical signal at the desired wavelength and converts the optical signal into an electrical communications signal.

6748179, Jun 8, 2004

Mar 7, 2001

09/801103

Michael Lange - Palm Bay FL
Edward Tegge - Palm Bay FL
John DeSalvo - Satellite Beach FL

Harris Corporation - Melbourne FL

H04B 1000

398177, 398 33

The system and method of the present invention is operative to monitor the performance of an optical communications channel. An optical splitter splits a wavelength division multiplexed (WDM) optical communications signal into a low power WDM signal onto a back-up path, where a tunable filter sweeps the optical communications channels, while a monitoring circuit monitors the optical communications channels for performance. Optical power can be stored and subsequently displayed, providing an optical spectrum analysis of the signal.

6944404, Sep 13, 2005

Mar 19, 2001

09/812236

Michael Lange - Palm Bay FL, US
John DeSalvo - Satellite Beach FL, US
Edward Tegge - Palm Bay FL, US
John Dodzweit - Satellite Beach FL, US

Harris Corporation - Melbourne FL

H04J014/02
H04B010/00

398138, 398 79, 398135, 398139

A multimode wavelength division multiplexing (WDM) network transceiver and method includes a plurality of optical transmitters and a multiplexer operatively connected to each optical transmitter for receiving optical communications signals and multiplexing the signals into a multimode wavelength division multiplexed optical communications signal. A demultiplexer receives a multimode wavelength division multiplexed optical communications signal and demultiplexes the signal into a plurality of demultiplexed optical communications signals that are then received and detected within a plurality of optical receivers.

7164863, Jan 16, 2007

Jun 9, 2005

11/149474

Michael Lange - Palm Bay FL, US
John DeSalvo - Satellite Beach FL, US
Edward Tegge - Palm Bay FL, US
John Dodzweit - Satellite Beach FL, US

Harris Corporation - Melbourne FL

H04J 14/00
H04J 14/02
H04B 10/20
H04B 10/00

398 79, 398 45, 398 58, 398135, 398138, 398139, 398164

A multimode wavelength division multiplexing (WDM) network transceiver and method includes a plurality of optical transmitters and a multiplexer operatively connected to each optical transmitter for receiving optical communications signals and multiplexing the signals into a multimode wavelength division multiplexed optical communications signal. A demultiplexer receives a multimode wavelength division multiplexed optical communications signal and demultiplexes the signal into a plurality of demultiplexed optical communications signals that are then received and detected within a plurality of optical receivers.

20030081880, May 1, 2003

Oct 29, 2001

10/039382

Edward Tegge - Palm Bay FL, US
Charles Bryant - Fellsmere FL, US
Michael Lange - Melbourne FL, US

Harris Corporation - Melbourne FL

G02B006/26

385/015000, 385/039000

A system for processing an optical signal into a plurality of optical output signals includes a laser for generating an optical signal along an optical signal path. An optical splitter receives the optical signal and includes an input optical fiber and a stepped, optical splitter circuit formed from a plurality of laser ion doped optical waveguides branching into a plurality of output optical signals. An optical pump source pumps an optical pump signal through the stepped, optical splitter circuit and excites the erbium to distribute gain throughout the optical splitter.

20050069322, Mar 31, 2005

Sep 29, 2003

10/673869

Edward Tegge - Palm Bay FL, US
Donald Ball - Palm Bay FL, US

Harris Corporation - Melbourne FL

H04B010/00

398118000

A free space optical (FSO) communications device may include a plurality of power supplies having different respective output voltages. The FSO communications device may further include an adaptive optics (AO) module including an AO housing and a deformable mirror carried thereby. The deformable mirror may include an array of actuators each operating based upon a supplied voltage. In addition, a power controller may also be included for selectively driving the array of actuators using a desired one of the power supplies to conserve electrical power.

20050069323, Mar 31, 2005

Sep 29, 2003

10/673992

Edward Tegge - Palm Bay FL, US
Donald Ball - Palm Bay FL, US

Harris Corporation, Corporation of the State of Delaware - Melbourne FL

H04B010/00

398118000

A modular free space optical (FSO) communications device may include an adaptive optics (AO) module and an interchangeable optical relay (OR) module. More particularly, the AO module may include an AO housing and at least one AO device carried thereby. Also, the interchangeable OR module may include an OR housing and at least one OR device carried thereby. The at least one OR device of a given OR module may provide a predetermined focal length range from among different focal length ranges for respective OR modules. In addition, the OR housing and the AO housing may be interchangeably connectable and establish an optical path between the at least one OR device and the at least one AO device when connected.

20050069324, Mar 31, 2005

Sep 29, 2003

10/673997

Edward Tegge - Palm Bay FL, US
Donald Ball - Palm Bay FL, US

Harris Corporation - Melbourne FL

H04B010/00

398118000

A modular free, space optical (FSO) communications device may include an optical relay (OR) module and a base module. More particularly, the OR module may include an OR housing and at least one OR device carried thereby. Further, the base module may include a base housing and at least one positioner carried thereby for providing relative movement between the base module and the OR module for optical beam aiming. The modular FSO communications device may also include a camera and a remote station interface connected to the at least one positioner for permitting remote optical beam aiming. Furthermore, the remote station interface may also be connected to the camera for permitting remote viewing.