Patents by Inventor Winston Sun
Winston Sun has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11903704Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: GrantFiled: March 2, 2021Date of Patent: February 20, 2024Assignee: ViOptix, Inc.Inventors: Kate Leeann Bechtel, Todd Louis Harris, Edward Gerald Soloman, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Patent number: 11903703Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: GrantFiled: August 25, 2020Date of Patent: February 20, 2024Assignee: ViOptix, Inc.Inventors: Kate Leeann Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Publication number: 20230113389Abstract: Embodiments described herein relate generally to devices, apparatuses, and systems with embedded electrodes for rowing, maintaining, and/or using 3D tissues in vitro. The devices, apparatuses, and systems described herein can provide scalable, automated tissue stimulation.Type: ApplicationFiled: February 3, 2021Publication date: April 13, 2023Inventors: Roozbeh Aschar-Sobbi, Maw-Lin Kuo, Roger Stenerson, Winston Sun, Dickshitha Thyagharajon, Ya Kevin Thao, Chris Todd, Brian Wilfley
-
Publication number: 20230000399Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: ApplicationFiled: September 13, 2022Publication date: January 5, 2023Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Patent number: 11439330Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: GrantFiled: July 18, 2017Date of Patent: September 13, 2022Assignee: ViOptix, Inc.Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Publication number: 20210177312Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: ApplicationFiled: March 2, 2021Publication date: June 17, 2021Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Soloman, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Patent number: 10932708Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: GrantFiled: July 17, 2017Date of Patent: March 2, 2021Assignee: ViOptix, Inc.Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Publication number: 20200383614Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: ApplicationFiled: August 25, 2020Publication date: December 10, 2020Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Patent number: 10750986Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: GrantFiled: July 18, 2017Date of Patent: August 25, 2020Assignee: ViOptix, Inc.Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Publication number: 20180014759Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: ApplicationFiled: July 17, 2017Publication date: January 18, 2018Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Publication number: 20180014760Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: ApplicationFiled: July 18, 2017Publication date: January 18, 2018Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Publication number: 20180014764Abstract: A laparoscopic medical device includes an oximeter sensor at its tip, which allows the making of oxygen saturation measurements laparoscopically. The device can be a unitary design, wherein a laparoscopic element includes electronics for the oximeter sensor at a distal end (e.g., opposite the tip). The device can be a multiple piece design (e.g., two-piece design), where some electronics is in a separate housing from the laparoscopic element, and the pieces (or portions) are removably connected together. The laparoscopic element can be removed and disposed of; so, the electronics can be reused multiple times with replacement laparoscopic elements. The electronics can include a processing unit for control, computation, or display, or any combination of these. However, in an implementation, the electronics can connect wirelessly to other electronics (e.g., another processing unit) for further control, computation, or display, or any combination of these.Type: ApplicationFiled: July 18, 2017Publication date: January 18, 2018Inventors: Kate LeeAnn Bechtel, Todd Louis Harris, Edward Gerald Solomon, Winston Sun, Alan Baldwin, Scott Coleridge, Mark Lonsinger
-
Patent number: 9321630Abstract: A method and apparatus for detecting underwater sounds is disclosed. An embodiment of the apparatus includes a substrate with a vacuum-sealed cavity. A support structure and an acoustic pressure sensor are situated on the substrate. The support structure of the apparatus may include a first oxide layer situated on the substrate, a silicon layer situated on the first oxide layer, and a second oxide layer situated on the silicon layer. The acoustic pressure sensor of the apparatus includes a first electrode layer situated on the substrate, a piezoelectric layer situated on the first electrode layer, and a second electrode layer situated on the piezoelectric layer. In one embodiment, the surface area of the second electrode layer is between about 70 to 90 percent of the surface area of the piezoelectric layer. In various embodiments, the support structure is thicker than the piezoelectric layer.Type: GrantFiled: February 20, 2013Date of Patent: April 26, 2016Assignees: PGS Geophysical AS, Agency For Science Technology and Research (A*STAR)Inventors: Jinghui Xu, Julius Ming-Lin Tsai, Winston Sun, Chengliang Sun
-
Publication number: 20140230557Abstract: A method and apparatus for detecting underwater sounds is disclosed. An embodiment of the apparatus includes a substrate with a vacuum-sealed cavity. A support structure and an acoustic pressure sensor are situated on the substrate. The support structure of the apparatus may include a first oxide layer situated on the substrate, a silicon layer situated on the first oxide layer, and a second oxide layer situated on the silicon layer. The acoustic pressure sensor of the apparatus includes a first electrode layer situated on the substrate, a piezoelectric layer situated on the first electrode layer, and a second electrode layer situated on the piezoelectric layer. In one embodiment, the surface area of the second electrode layer is between about 70 to 90 percent of the surface area of the piezoelectric layer. In various embodiments, the support structure is thicker than the piezoelectric layer.Type: ApplicationFiled: February 20, 2013Publication date: August 21, 2014Applicants: Agency for Science Technology and Research (A"STAR), PGS Geophysical ASInventors: Jinghui Xu, Julius Ming-Lin Ming-Lin Tsai, Winston Sun, Chengliang Sun