Kang; Dongyang

Patent Applications and Registrations

Patent applications and USPTO patent grants for Kang; Dongyang.The latest application filed is for "mems device with reduced electric charge, cavity volume and stiction".

Company Profile

7.11.11

Kang; Dongyang - San Jose CA
Kang; Dongyang - Pasadena CA

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Reduced MEMS cavity gap Grant 11,220,423 - Flader , et al. January 11, 2	2022-01-11
Reliable deposition of thin parylene Grant 11,077,462 - Tai , et al. August 3, 2	2021-08-03
Device comprising a micro-electro-mechanical system substrate with protrusions of different heights that has been integrated with a complementary metal-oxide-semiconductor substrate Grant 11,040,871 - Shin , et al. June 22, 2	2021-06-22
MEMS device with reduced electric charge, cavity volume and stiction Grant 10,988,372 - Kang April 27, 2	2021-04-27
Mems Device With Reduced Electric Charge, Cavity Volume And Stiction App 20210070608 - Kang; Dongyang	2021-03-11
3D stack configuration for 6-axis motion sensor Grant 10,941,033 - Kang , et al. March 9, 2	2021-03-09
Actuator layer patterning with topography Grant 10,906,802 - Lee , et al. February 2, 2	2021-02-02
Actuator layer patterning with topography Grant 10,745,270 - Lee , et al. A	2020-08-18
Reduced Mems Cavity Gap App 20200140263 - FLADER; Ian ; et al.	2020-05-07
Actuator Layer Patterning With Topography App 20200131031 - LEE; Daesung ; et al.	2020-04-30
3d Stack Configuration For 6-axis Motion Sensor App 20200131027 - KANG; Dongyang ; et al.	2020-04-30
Actuator Layer Patterning With Topography App 20200131033 - LEE; Daesung ; et al.	2020-04-30
Device Comprising A Micro-electro-mechanical System Substrate With Protrusions Of Different Heights That Has Been Integrated Wit App 20190185317 - Shin; Jongwoo ; et al.	2019-06-20
In-situ heated disposition of parylene to enhance pore penetration into silicone Grant 10,287,451 - Tai , et al.	2019-05-14
Implantable device for retaining live cells and providing nutrients thereto Grant 10,092,387 - Tai , et al. October 9, 2	2018-10-09
Small molecule transport device for drug delivery or waste removal Grant 9,655,774 - Tai , et al. May 23, 2	2017-05-23
Reliable Deposition Of Thin Parylene App 20170113246 - Tai; Yu-Chong ; et al.	2017-04-27
Implantable Device For Retaining Live Cells And Providing Nutrients Thereto App 20170086963 - Tai; Yu-Chong ; et al.	2017-03-30
In-situ Heated Deposition Of Parylene To Enhance Pore Penetration Into Silicone App 20170009097 - Tai; Yu-Chong ; et al.	2017-01-12
In-situ heated deposition of parylene to enhance pore penetration into silicone Grant 9,469,778 - Tai , et al. October 18, 2	2016-10-18
Small Molecule Transport Device For Drug Delivery Or Waste Removal App 20150366707 - Tai; Yu-Chong ; et al.	2015-12-24
In-situ Heated Deposition Of Parylene To Enhance Pore Penetration Into Silicone App 20150111023 - Tai; Yu-Chong ; et al.	2015-04-23

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