Andrew Scott Moore
Private Investigators at Clayton Ct, Westminster, CO

6498880, Dec 24, 2002

Mar 31, 1999

09/281982

Andrew Moore - Broomfield CO

Picolight Incorporated - Boulder CO

G02B 636

385 78, 385 89, 385 53, 385 65

A ferrule is constructed with a modified surface to interact with a coordinating housing. The housing is constructed to be integral with the modifications of the ferrule and to fill the recesses in the ferrule body. The coordination between housing and ferrule decreases electromagnetic interference from the ferrule.

6780053, Aug 24, 2004

Aug 9, 2000

09/635102

Bryan Yunker - Longmont CO
Andrew Moore - Broomfield CO
Susan Tower - Boulder CO

Picolight Incorporated - Boulder CO

H01R 13648

439607, 436607, 436567, 455 903

The present invention provides a transceiver housing comprising: an opening at a proximal end thereof for receiving a optical receptacle; an electrical contact for engaging the optical receptacle and retaining the optical receptacle in the housing body; and a first side and a second side, each of the first side and the second side including mountings for mounting a printed wire assembly within the housing. In a preferred embodiment, the transceiver housing of the present invention has a uni-body construction. The present invention also provides transceiver cage comprising: a hollow cage body made of metal for mounting a transceiver within the transceiver cage and for preventing radiation from outside the cage body from entering the cage body and for preventing radiation from the transceiver from exiting the cage body; a plurality of mounting pins extending from the cage body for mounting the transceiver on a printed wiring board; and a plurality of internal contact fingers at a proximal open end of the hollow cage body for engaging a chassis through which the transceiver cage is inserted. In a preferred embodiment, the transceiver cage of the present invention includes a latch release mechanism for holding a transceiver in the transceiver cage and a hinged access door for providing access to a connector mounted within the transceiver cage. In addition, the present invention provides a transceiver system including a transceiver cage having radiation control openings with a longest dimension no greater than {fraction (1/4 )} of the wavelength of the electromagnetic radiation corresponding to ten times the highest signal frequency present in the transceiver cavity.

6741777, May 25, 2004

Jan 27, 2003

10/351401

Jack L. Jewell - Boulder CO
Stanley Swirhun - Boulder CO
Mikhail Kaluzhny - Boulder CO
Andrew Moore - Broomfield CO

Picolight, Incorporated - Boulder CO

G02B 630

385 49, 385 14, 385 33, 385 93, 385 88, 359819

A novel electro-opto-mechanical assembly is provided. The electro-opto-mechanical assembly comprising: a first wafer, the wafer having a top and bottom surface; at least one optical element disposed on one surface of the first wafer; at least one discrete opto-electronic transducer element disposed on the bottom surface of the first wafer and in optical communication with the optical element; and an optical waveguide; wherein the first wafer and the optical element form an optical relay which relays light between the discrete opto-electronic transducer and the optical waveguide and thereby forms an efficient optical coupling between the discrete opto-electronic transducer and the optical waveguide.

6776623, Aug 17, 2004

Jun 11, 2001

09/877216

Bryan Yunker - Longmont CO
Andrew Moore - Broomfield CO
Rob Pauley - Boulder CO

Picolight Incorporated - Boulder CO

H01R 1200

439 71, 439 66

A transceiver adapter is provided that includes a substrate, including electrical contacts on a first side thereof for electrically contacting a transceiver, and electrical contacts on a second side thereof for electrically contacting a printed wire assembly. A transceiver adapter is also provided that includes an adapter plate, including (a) tabs for positioning a transceiver, and (b) mounting pins for coupling the adapter plate with a, printed wire assembly; and a substrate hole through which a transceiver may be electrically mated with a printed wire assembly. A transceiver is also provided that includes electrical contacts; and a mateable electrical connector, including (a) electrical contacts on a first side thereof for electrically contacting the electrical contacts of the transceiver, and (b) electrical contacts on a second side thereof for electrically contacting a printed wire assembly.

6551134, Apr 22, 2003

Jun 11, 2001

09/877130

Bryan Yunker - Longmont CO
Andrew Moore - Broomfield CO
Rob Pauley - Boulder CO

Picolight Incorporated - Boulder CO

H01R 1373

439564, 439 71

A transceiver adapter is provided that includes a substrate, including electrical contacts on a first side thereof for electrically contacting a transceiver, and electrical contacts on a second side thereof for electrically contacting a printed wire assembly. A transceiver adapter is also provided that includes an adapter plate, including (a) tabs for positioning a transceiver, and (b) mounting pins for coupling the adapter plate with a printed wire assembly; and a substrate hole through which a transceiver may be electrically mated with a printed wire assembly. A transceiver is also provided that includes electrical contacts; and a mateable electrical connector, including (a) electrical contacts on a first side thereof for electrically contacting the electrical contacts of the transceiver, and (b) electrical contacts on a second side thereof for electrically contacting a printed wire assembly.

6421474, Jul 16, 2002

Apr 2, 2001

09/822207

Jack L. Jewell - Boulder CO
Stanley Swirhun - Boulder CO
Mikhail Kaluzhny - Boulder CO
Andrew Moore - Broomfield CO

Picolight Incorporated - Boulder CO

G02B 612

385 14, 385 88, 385 93, 359819

A novel electro-opto-mechanical assembly is provided. The electro-opto-mechanical assembly comprising: a first wafer, the wafer having a top and bottom surface; at least one optical element disposed on one surface of the first wafer; at least one discrete opto-electronic transducer element disposed on the bottom surface of the first wafer and in optical communication with the optical element; and an optical waveguide; wherein the first wafer and the optical element form an optical relay which relays light between the discrete opto-electronic transducer and the optical waveguide and thereby forms an efficient optical coupling between the discrete opto-electronic transducer and the optical waveguide.

6542672, Apr 1, 2003

Mar 8, 2002

10/092470

Jack L. Jewell - Boulder CO
Stanley Swirhun - Boulder CO
Mikhail Kaluzhny - Boulder CO
Andrew Moore - Broomfield CO

Picolight, Incorporated - Boulder CO

G02B 630

385 49, 385 33, 385 93

A novel electro-opto-mechanical assembly is provided. The electro-opto-mechanical assembly comprising: a first wafer, the wafer having a top and bottom surface; at least one optical element disposed on one surface of the first wafer; at least one discrete opto-electronic transducer element disposed on the bottom surface of the first wafer and in optical communication with the optical element; and an optical waveguide; wherein the first wafer and the optical element form an optical relay which relays light between the discrete opto-electronic transducer and the optical waveguide and thereby forms an efficient optical coupling between the discrete opto-electronic transducer and the optical waveguide.

6243508, Jun 5, 2001

Jun 1, 1999

9/323204

Jack L. Jewell - Boulder CO
Stanley Swirhun - Boulder CO
Mikhail Kaluzhny - Boulder CO
Andrew Moore - Broomfield CO

Picolight Incorporated - Boulder CO

G02B 612

385 14

A novel electro-opto-mechanical assembly is provided. The electro-opto-mechanical assembly comprising: a first wafer, the wafer having a top and bottom surface; at least one optical element disposed on one surface of the first wafer; at least one discrete opto-electronic transducer element disposed on the bottom surface of the first wafer and in optical communication with the optical element; and an optical waveguide; wherein the first wafer and the optical element form an optical relay which relays light between the discrete opto-electronic transducer and the optical waveguide and thereby forms an efficient optical coupling between the discrete opto-electronic transducer and the optical waveguide.

6015239, Jan 18, 2000

Apr 20, 1998

9/063122

Andrew J. Moore - Broomfield CO

Cielo Communications, Inc. - Broomfield CO

G02B 6255

385 92

There is disclosed herein an opto-electronic coupling assembly for optically coupling a light active area of an active device with an end face that is disposed at one end of an elongated light guide such that light is coupled between the end face of the light guide and the light active area of the active device. The coupling assembly includes a light guide end housing that defines a housing outline and which is adapted to support the end of the light guide including its end face. The opto-electronic coupling assembly further includes an active device package which itself includes an arrangement for supporting the active device and for providing external electrical connections to the active device. An encapsulant material surrounds the active device and at least partially surrounds the support arrangement. The encapsulant material is substantially optically transparent to the coupled light and is molded in a predetermined configuration which cooperates with the housing outline of the light guide end housing in a way that passively places the light active area of the active device into substantial optical alignment with the end face of the light guide when the light guide end housing is assembled with the active device package.

6302590, Oct 16, 2001

Sep 3, 1999

9/389220

Andrew Moore - Broomfield CO

Picolight Incorporated - Boulder CO

G02B 516

385 53

The optical connector comprises: a housing portion including: a first bay for engaging a first plug having a waveguide, the first bay being at least partially open at a proximal end and having a wall at a distal end of the first bay; a chamber adjoining the first bay at the wall and having an optical pathway therein; at least two external passive alignment pins integrally formed with the first bay for engaging recesses in the first plug when the first plug is engaged with the first bay; the external passive alignment pins for passively aligning the waveguide to the optical pathway; and an opening in the wall for allowing transmission of an optical signal along the optical pathway between the first plug and the chamber.