logo

For the Inventor, By the Inventor

Santa Cruz, CA, United States of America

James Gill Shook

USPTO Granted Patents = 18 

Average Co-Inventor Count = 3.4

ph-index = 14

Forward Citations = 791(Granted Patents)


Company Filing History:

goldMedal13 out of 46 
 
Cooligy, Inc.
 patents
silverMedal3 out of 166 
 
Silicon Light Machines Corporation
 patents
bronzeMedal1 out of 1,855 
 
Adeia Semiconductor Bonding Technologies Inc.
 patents
41 out of 41 
 
Keyssa Systems, Inc.
 patents

Years Active: 2001-2020

Loading Chart...
18 patents (USPTO):Explore Patents
1. 10720689 - Launch assembly for coupling EM signals between a CCU and a waveguide, where the CCU is enclosed by a cover region including transition and waveguide interface regions therein for coupling to the waveguide (2020-07-21),
2. 8464781 - Cooling systems incorporating heat exchangers and thermoelectric layers (2013-06-18),
3. 7489524 - Assembly including vertical and horizontal joined circuit panels (2009-02-10),
4. 7402029 - Remedies to prevent cracking in a liquid system (2008-07-22),
5. 7344363 - Remedies to prevent cracking in a liquid system (2008-03-18),
6. 7278549 - Remedies to prevent cracking in a liquid system (2007-10-09),
7. 7201214 - Remedies to prevent cracking in a liquid system (2007-04-10),
8. 7201012 - Remedies to prevent cracking in a liquid system (2007-04-10),
9. 7156159 - Multi-level microchannel heat exchangers (2007-01-02),
10. 7086839 - Micro-fabricated electrokinetic pump with on-frit electrode (2006-08-08),
11. 7077634 - Remedies to prevent cracking in a liquid system (2006-07-18),
12. 7044196 - Decoupled spring-loaded mounting apparatus and method of manufacturing thereof (2006-05-16),
13. 7000684 - Method and apparatus for efficient vertical fluid delivery for cooling a heat producing device (2006-02-21),
14. 6988534 - Method and apparatus for flexible fluid delivery for cooling desired hot spots in a heat producing device (2006-01-24),
15. 6986382 - Interwoven manifolds for pressure drop reduction in microchannel heat exchangers (2006-01-17),

Title: Innovations of James Gill Shook

Introduction

James Gill Shook is a prominent inventor based in Santa Cruz, California. He holds an impressive portfolio of 18 patents, showcasing his contributions to the fields of communication and cooling systems. His work has significantly impacted the development of technologies that enhance signal transmission and thermal management.

Latest Patents

Among his latest patents, Shook has developed a launch assembly for coupling electromagnetic (EM) signals between a contactless communication unit (CCU) and a waveguide. This innovative design includes a cover region that encompasses transition and waveguide interface regions, facilitating effective coupling to the waveguide. Additionally, he has introduced conduit structures for guiding extremely high-frequency (EHF) signals. These structures feature EHF containment channels that define signal pathways, minimizing crosstalk among adjacent paths within devices and across multiple devices. Furthermore, Shook's waveguide structures are engineered to provide maximum bandwidth with minimal jitter over desired distances. His cooling systems incorporate heat exchangers and thermoelectric layers, designed to efficiently manage heat sources through a combination of fluid heat exchangers, pumps, and thermoelectric devices.

Career Highlights

Shook has made significant strides in his career, working with notable companies such as Cooligy, Inc. and Silicon Light Machines Corporation. His expertise in developing advanced technologies has positioned him as a leader in his field.

Collaborations

Throughout his career, Shook has collaborated with talented individuals, including Thomas W. Kenny and Mark Munch. These partnerships have contributed to the advancement of his innovative projects.

Conclusion

James Gill Shook's contributions to technology through his patents and collaborations highlight his role as a key innovator in the fields of communication and cooling systems. His work continues to influence advancements in these critical areas.

This text is generated by artificial intelligence and may not be accurate.
Please report any incorrect information to support@idiyas.com
Loading…