$LWLG New Patent Info Looks like they were aw
Post# of 871
Looks like they were awarded 3 (Yes three) patents this month - Thanks for asking me to check!
1. Application 15/899312 DIRECT-DRIVE POLYMER MODULATOR METHODS OF FABRICATING AND MATERIALS THEREFOR
Applicants: Becker, Leonberger, Lebby -- was approved and granted TWO DAYS ago, 9/26/19 - original filing date was on 2/19/18. They need to pay a $500 fee by December 26.
2. Application 15/704739 GUIDE TRANSITION DEVICE AND METHOD
Applicants: Lebby, Leonberger Becker -- was approved and granted on 9/11/19 - original filing date was on 9/14/17. They need to pay a $500 fee by December 11.
3. Application 15/692080 POLYMER MODULATOR AND LASER INTEGRATED ON A COMMON PLATFORM AND METHOD
Applicants: Leonberger, Lebby, Becker -- was approved and granted on 9/3/19 - original filing date was on 8/31/17. They need to pay a $500 fee by December 3.
AND
These are only applications.
But wait - there's more pending:
15/914946 EMBEDDED HERMETIC CAPSULE AND METHOD - Lebby- Published September 12, 2019.
Abstract:
An embedded hermetic capsule including a semiconductor/metal base with sensitive semiconductor/polymer
electrical and optical components formed thereon and a semiconductor/metal embedded lid.
The semiconductor/metal embedded lid sealed to the semiconductor/metal base by metallization so as to
form a chamber including at least one of the sensitive semiconductor/polymer
electrical and optical components and hermetically sealing the chamber and all sensitive components from the
ambient in an embedded hermetic capsule. External access to the sensitive semiconductor/polymer electrical and
optical components is provided through the metallization.
15/881718 HERMETIC CAPSULE AND METHOD - Lebby - Published September 12, 2019
Abstract
A hermetic capsule including a semiconductor/metal base with sensitive semiconductor/polymer electrical
and optical components formed thereon and a semiconductor/metal lid. The semiconductor/metal lid sealed to the
semiconductor/metal base by metallization so as to form a chamber including all of the sensitive
semiconductor/polymer electrical and optical components and hermetically sealing the chamber and
all sensitive components from the ambient. External access to the sensitive semiconductor/polymer
electrical and optical components is provided through a metallization.
15/857336 - PROTECTION LAYERS FOR POLYMER MODULATORS/WAVEGUIDES - Becker; Richard; (Cupertino, CA) ;
Lebby; Michael; (San Francisco, CA) ; Yi; Youngwoo; (Louisville, CO) - Published 7/4/19
Abstract
A polymer waveguide/modulator including a lower cladding layer, a polymer core, an upper cladding layer, a
first protection/barrier layer sandwiched between the lower cladding layer and the core, and a second
protection/barrier layer sandwiched between the core and the upper cladding layer. The protection/barrier
layers designed to protect the cladding layers and the core from solvents and gases and to prevent current
leakage between the cladding layers and the core. The first protection/barrier layer is optically transparent
and designed with a refractive index less than, greater than, or the same as the refractive index of the core
and approximately equal to the refractive index of the lower cladding layer. The second protection/barrier
layer is optically transparent and designed with a refractive index less than, greater than, or the
same as the refractive index of the core and approximately equal to the refractive index of the upper cladding layer.
15/812630 - GUIDE TRANSITION DEVICE WITH DIGITAL GRATING DEFLECTORS AND METHOD - Lebby; Michael; (San Francisco, CA) ;
Leonberger; Frederick J; (Sarasota, FL) - Published 5/16/19
Abstract
A guide transition device including a light source designed to generate a light beam, a light input port on a
first plane and coupled to receive the light beam from the light source, a light output port on a second
plane different than the first plane, the light output port designed to couple a received light beam to output
equipment and plane shifting apparatus coupled to receive the light beam from the light input port on the first
plane and to shift or transfer the light beam to the second plane. The plane shifting apparatus including one or
more digital gratings each designed to deflect the light beam approximately ninety degrees.
The plane shifting apparatus is coupled to transfer the light beam to the light output port on the second plane.
*** Lebby is also collaborating with and has current patent applications with this company in Wales:
https://www.iqep.com/
-Inversor