Daniel J Treadwell, 57Austin, TX

2011003, Feb 10, 2011

Jul 30, 2010

12/847644

Donald K. Larson - Cedar Park TX, US
Linnea M. Wilkes - Austin TX, US
Victor J. Borer - Austin TX, US
Kurt H. Petersen - Austin TX, US
Wesley A. Raider - Hudson WI, US
William V. Dower - Austin TX, US
Zachary M. Thompson - Austin TX, US
Daniel J. Treadwell - Austin TX, US
Rutesh D. Parikh - Austin TX, US
William G. Allen - Austin TX, US

B23P 19/04

29428

A system and method for providing a final drop in a living unit in a building. The system comprises a point-of-entry unit, such as a low profile base unit, disposed within the living unit at a location corresponding to an access position of horizontal cabling disposed in a hallway of the building that provides a first anchor point. The system also includes an adhesive-backed duct, having one or more communication lines disposed therein, mountable to a wall within the living unit. The system also includes a second anchor point, such as a wall receptacle, disposed within the living unit to receive a first communication line via the duct. The components of the system are also designed with very low impact profiles for better aesthetics within the living unit.

2011003, Feb 10, 2011

Jul 30, 2010

12/847671

Donald K. Larson - Cedar Park TX, US
Linnea M. Wilkes - Austin TX, US
Victor J. Borer - Austin TX, US
Kurt H. Petersen - Austin TX, US
Wesley A. Raider - Hudson WI, US
William V. Dower - Austin TX, US
Zachary M. Thompson - Austin TX, US
Daniel J. Treadwell - Austin TX, US
Rutesh D. Parikh - Austin TX, US
William G. Allen - Austin TX, US

F16L 11/00
G02B 6/46

138137, 385134

A duct for distributing one or more communication lines comprises an elongated body having a length and a conduit portion with a lengthwise bore formed therein, the conduit portion containing one or more communication lines. The duct also includes a flange extending lengthwise adjacent the elongated body to mount the duct to a mounting surface. The duct also includes an adhesive layer disposed on a bottom surface of the flange. The duct may further include a strength member extending lengthwise with the flange. The strength member may be disposed between the bottom surface and the adhesive layer or within the conduit. The duct may include an open slot in the top to allow for insertion and removal of the communication line. The duct may also be configured such that the conduit portion is attached to the flange structure via a thin web of material having a thickness such that upon modest application of a peeling force, a segment of the conduit portion is detachable from the flange structure.

2012002, Feb 2, 2012

Apr 1, 2010

13/260861

Donald K. Larson - Cedar Park TX, US
Wesley A. Raider - Hudson WI, US
Joseph C. Sawicki - Austin TX, US
Daniel J. Treadwell - Austin TX, US

G02B 6/36

385 78

An optical fiber connector for terminating an optical fiber is provided. The optical fiber connector includes a housing configured to mate with a receptacle. The connector also includes a collar body disposed in the housing and retained between the housing's outer shell and a backbone. The collar body includes a swivel head coupled to a front end portion of the collar body, where the swivel head is configured to receive a ferrule. The swivel head is configured to pivot with respect to the front end portion of the collar body by a controlled amount upon a side pull force being placed on the connector and/or optical fiber.

2012014, Jun 7, 2012

Aug 27, 2010

13/388902

Joseph C. Sawicki - Austin TX, US
Daniel J. Treadwell - Austin TX, US
Donald K. Larson - Cedar Park TX, US

G02B 6/25

385134

An optical fiber cleaver to cleave an optical fiber is provided. The optical fiber cleaver comprises a generally planar main body and a generally planar flap portion movable with respect to the main body. The optical fiber cleaver also includes a first clamp disposed on the main body to receive and hold a first bare glass portion of the optical fiber and a second clamp disposed on the flap portion to receive and hold a second bare glass portion of the optical fiber. A shuttle device is disposed on the main body axially between the first clamp and the second clamp and is configured to move laterally with respect to an axis of the optical fiber. The shuttle device further includes a flexible abrasive material configured to contact the optical fiber and create a flaw on an outer surface thereof during cleaving.

2012032, Dec 27, 2012

Jun 25, 2012

13/532052

Donald K. Larson - Cedar Park TX, US
Wesley A. Raider - Hudson WI, US
Daniel J. Treadwell - Austin TX, US
Martin G. Afflerbaugh - Austin TX, US
David Gonzalez - Austin TX, US
Daniel H. Henderson - Austin TX, US
William G. Allen - Austin TX, US

G02B 6/36

385 81

An LC format optical connector for terminating an optical fiber includes a housing configured to mate with an LC receptacle. A backbone is configured to engage an outer surface of the outer shell of the housing and includes a mounting structure that is configured to engage a boot. A collar body is retained between the outer shell and the backbone and includes a fiber stub disposed in a first portion of the collar body, the fiber stub being mounted in a ferrule. A mechanical splice is disposed in a second portion of the collar body, the mechanical splice configured to splice the fiber stub to the optical fiber. The backbone also includes a fiber jacket clamping portion to clamp a jacket portion that surrounds a portion of the optical fiber upon actuation.

2014003, Feb 6, 2014

Dec 14, 2011

13/992111

Daniel J. Treadwell - Austin TX, US
Donald K. Larson - Cedar Park TX, US
Michael A. Jessup - Dripping Springs TX, US
William J. Clatanoff - Austin TX, US

3M INNOVATIVE PROPERTIES COMPANY - ST. PAUL MN

G02B 6/38
G02B 6/46

385 78, 294262

An optical fiber connector includes a housing configured to mate with a receptacle, a collar body that includes a fiber stub and a mechanical splice device, a backbone to retain the collar body within the housing, and a boot. The backbone includes a cable jacket clamping portion to clamp a cable jacket that surrounds a portion of the terminated optical fiber upon actuation. The boot actuates the cable jacket clamping portion of the backbone upon attachment to the backbone. A method for terminating the optical fiber in the field includes slitting or removing a portion of the cable jacket prior to splicing the optical fiber to the fiber stub. The method also includes utilizing a protective sheath or tube to protect exposed portion of the fiber cable and provide structural integrity to the optical connector.

6120976, Sep 19, 2000

Nov 20, 1998

9/197127

Daniel J. Treadwell - Cedar Park TX
Curtis L. Shoemaker - Round Rock TX

3M Innovative Properties Company - Saint Paul MN

B23K 2600

430322

A method and apparatus for ablating features in a substrate, the apparatus includes a radiation source and first and second rotating transparent uniformly thick disks positioned between the radiation source and a substrate to be irradiated. The method comprises irradiating the substrate with radiation that has passed through the first and second rotating disks, wherein the first and second disks are independently rotating at different angular velocities to create a predetermined irradiation pattern on the substrate. The disks may have a relative acceleration. The method and apparatus may be used to ablate nozzles having longitudinal axes which are non-orthogonal with the surface of the substrate and which are not parallel to each other.

6172329, Jan 9, 2001

Nov 23, 1998

9/198160

Curtis L. Shoemaker - Round Rock TX
Daniel J. Treadwell - Cedar Park TX
Berthold Burghardt - Goettingen, DE
Sergei V. Govorkov - Ft. Lauderdale FL

Minnesota Mining and Manufacturing Company - St. Paul MN
MicroLas Lasersystem GmbH - Goettingen
Lambda-Physik GmbH - Goettingen

B23K 2600

21912169

This invention concerns a process useful for increasing the accuracy of the shape of a laser ablated feature formed on a substrate, especially where the substrate is a polymeric article. The process includes irradiating the polymeric article with laser light that has passed through a retardation plate selected from stationary adjustable plates, rotating plates or spinning plates, preferable in multiples of quarter-waves or half-waves. This invention also concerns a laser apparatus useful for making ablated features in a substrate having a radiation source; a mask positioned between the radiation source and a substrate to be irradiated, and a retardation plate which is stationary and adjustable, rotating or spinning plates.