Patents by Inventor Robin Cheung
Robin Cheung 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).
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Patent number: 9880733Abstract: A multi-touch remote control method comprises following steps: a remote control device receiving a touch gesture input; computing a number of the touch points of the touch gesture input; generating and transferring a mouse event data to a receiving device as a mouse input if the number of the touch points is 1; and generating and transferring a single touch event data to the receiving device as a single touch input if the number of the touch points is greater than 1 and all the touch points of the touch gesture input are close to each other.Type: GrantFiled: February 17, 2015Date of Patent: January 30, 2018Inventors: Yu Albert Wang, Robin Cheung
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Publication number: 20160239201Abstract: A multi-touch remote control method comprises following steps: a remote control device receiving a touch gesture input; computing a number of the touch points of the touch gesture input; generating and transferring a mouse event data to a receiving device as a mouse input if the number of the touch points is 1; and generating and transferring a single touch event data to the receiving device as a single touch input if the number of the touch points is greater than 1 and all the touch points of the touch gesture input are close to each other.Type: ApplicationFiled: February 17, 2015Publication date: August 18, 2016Inventors: Yu Albert WANG, Robin CHEUNG
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Publication number: 20140087073Abstract: In various exemplary embodiments, a system and related method for processing substrates is provided. In one embodiment, a substrate processing system is provided that includes a substrate load module, a plurality of facilities modules, a plurality of process chambers, a substrate transfer module, at least one transfer gate to provide a contamination barrier between various ones of adjacent modules, and at least one gas impermeable shell to provide a controlled atmosphere within the substrate processing system.Type: ApplicationFiled: September 24, 2013Publication date: March 27, 2014Inventors: Igor Constantin Ivanov, Robin Cheung
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Patent number: 8569160Abstract: Device fabrication is disclosed, including forming a first part of a device at a first fabrication facility as part of a front-end-of-the-line (FEOL) process, the first part of the device comprising a base wafer formed by FEOL processing, and subsequently performing one or more back-end-of-the-line (BEOL) processes at a second fabrication facility to form an IC, the one or more BEOL processes comprising finishing the forming of the device (e.g., an IC including memory) by depositing one or more memory layers on the base wafer. FEOL processing can be used to form active circuitry die (e.g., CMOS circuitry on a Si wafer) and BEOL processing can be used to form on top of each active circuitry die, one or more layers of cross-point memory arrays formed by thin film processing technologies that may or may not be compatible with or identical to some or all of the FEOL processes.Type: GrantFiled: October 31, 2012Date of Patent: October 29, 2013Assignee: Unity Semiconductor CorporationInventors: Darrell Rinerson, Robin Cheung
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Publication number: 20130059436Abstract: Device fabrication is disclosed, including forming a first part of a device at a first fabrication facility as part of a front-end-of-the-line (FEOL) process, the first part of the device comprising a base wafer formed by FEOL processing, and subsequently performing one or more back-end-of-the-line (BEOL) processes at a second fabrication facility to form an IC, the one or more BEOL processes comprising finishing the forming of the device (e.g., an IC including memory) by depositing one or more memory layers on the base wafer. FEOL processing can be used to form active circuitry die (e.g., CMOS circuitry on a Si wafer) and BEOL processing can be used to form on top of each active circuitry die, one or more layers of cross-point memory arrays formed by thin film processing technologies that may or may not be compatible with or identical to some or all of the FEOL processes.Type: ApplicationFiled: October 31, 2012Publication date: March 7, 2013Inventors: Darrell Rinerson, Robin Cheung
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Patent number: 8361560Abstract: A platinum plating solution for immersion plating a continuous film of platinum on a metal structure. The immersion platinum plating solution is free of a reducing agent. The plating process does not require electricity (e.g., electrical current) and does not require electrodes (e.g., anode and/or cathode). The solution includes a platinum source and a complexing agent including Oxalic Acid. The solution enables immersion plating of platinum onto a metal surface, a metal substrate, or a structure of which at least a portion is a metal. The resulting platinum plating comprises a continuous thin film layer of platinum having a thickness not exceeding 300 ?. The solution can be used for plating articles including but not limited to jewelry, medical devices, electronic structures, microelectronics structures, MEMS structures, nano-sized or smaller structures, structures used for chemical and/or catalytic reactions (e.g., catalytic converters), and irregularly shaped metal surfaces.Type: GrantFiled: August 16, 2012Date of Patent: January 29, 2013Assignee: Unity Semiconductor CorporationInventors: Robin Cheung, Wen Zhong Kong
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Publication number: 20120315503Abstract: A platinum plating solution for immersion plating a continuous film of platinum on a metal structure. The immersion platinum plating solution is free of a reducing agent. The plating process does not require electricity (e.g., electrical current) and does not require electrodes (e.g., anode and/or cathode). The solution includes a platinum source and a complexing agent including Oxalic Acid. The solution enables immersion plating of platinum onto a metal surface, a metal substrate, or a structure of which at least a portion is a metal. The resulting platinum plating comprises a continuous thin film layer of platinum having a thickness not exceeding 300 ?. The solution can be used for plating articles including but not limited to jewelry, medical devices, electronic structures, microelectronics structures, MEMS structures, nano-sized or smaller structures, structures used for chemical and/or catalytic reactions (e.g., catalytic converters), and irregularly shaped metal surfaces.Type: ApplicationFiled: August 16, 2012Publication date: December 13, 2012Applicant: Unity Semiconductor CorporationInventors: Robin Cheung, Wen Zhong Kong
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Patent number: 8317910Abstract: A platinum plating solution for immersion plating a continuous film of platinum on a metal structure. The immersion platinum plating solution is free of a reducing agent. The plating process does not require electricity (e.g., electrical current) and does not require electrodes (e.g., anode and/or cathode). The solution includes a platinum source and a complexing agent including Oxalic Acid. The solution enables immersion plating of platinum onto a metal surface, a metal substrate, or a structure of which at least a portion is a metal. The resulting platinum plating comprises a continuous thin film layer of platinum having a thickness not exceeding 300 ?. The solution can be used for plating articles including but not limited to jewelry, medical devices, electronic structures, microelectronics structures, MEMS structures, nano-sized or smaller structures, structures used for chemical and/or catalytic reactions (e.g., catalytic converters), and irregularly shaped metal surfaces.Type: GrantFiled: March 22, 2010Date of Patent: November 27, 2012Assignee: Unity Semiconductor CorporationInventors: Robin Cheung, Wen Zhong Kong
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Publication number: 20120292585Abstract: A structure for a memory device including a plurality of substantially planar thin-film layers or a plurality of conformal thin-film layers is disclosed. The thin-film layers form a memory element that is electrically in series with first and second cladded conductors and operative to store data as a plurality of conductivity profiles. A select voltage applied across the first and second cladded conductors is operative to perform data operations on the memory device. The memory device may optionally include a non-ohmic device electrically in series with the memory element and the first and second cladded conductors. Fabrication of the memory device does not require the plurality of thin-film layers be etched in order to form the memory element. The memory element can include a CMO layer having a selectively crystallized polycrystalline portion and an amorphous portion. The cladded conductors can include a core material made from copper.Type: ApplicationFiled: August 3, 2012Publication date: November 22, 2012Applicant: Unity Semiconductor CorporationInventors: Robin Cheung, Darrell Rinerson, Travis Byonghyop Oh, Jon Bornstein, David Hansen
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Patent number: 8314024Abstract: Device fabrication is disclosed, including forming a first part of a device at a first fabrication facility as part of a front-end-of-the-line (FEOL) process, the first part of the device comprising a base wafer formed by FEOL processing, and subsequently performing one or more back-end-of-the-line (BEOL) processes at a second fabrication facility to form an IC, the one or more BEOL processes comprising finishing the forming of the device (e.g., an IC including memory) by depositing one or more memory layers on the base wafer. FEOL processing can be used to form active circuitry die (e.g., CMOS circuitry on a Si wafer) and BEOL processing can be used to form on top of each active circuitry die, one or more layers of cross-point memory arrays formed by thin film processing technologies that may or may not be compatible with or identical to some or all of the FEOL processes.Type: GrantFiled: May 15, 2009Date of Patent: November 20, 2012Assignee: Unity Semiconductor CorporationInventors: Darrell Rinerson, Robin Cheung
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Patent number: 8268667Abstract: Memory cell formation using ion implant isolated conductive metal oxide is disclosed, including forming a bottom electrode below unetched conductive metal oxide layer(s), forming the unetched conductive metal oxide layer(s) including depositing at least one layer of a conductive metal oxide (CMO) material (e.g., PrCaMnOx, LaSrCoOx, LaNiOx, etc.) over the bottom electrode. At least one portion of the layer of CMO is configured to act as a memory element without etching, and performing ion implantation on portions of the layer(s) of CMO to create insulating metal oxide (IMO) regions in the layer(s) of CMO. The IMO regions are positioned adjacent to electrically conductive CMO regions in the unetched layer(s) of CMO and the electrically conductive CMO regions are disposed above and in contact with the bottom electrode and form memory elements operative to store non-volatile data as a plurality of conductivity profiles (e.g., resistive states indicative of stored data).Type: GrantFiled: August 23, 2011Date of Patent: September 18, 2012Assignee: Unity Semiconductor CorporationInventors: Darrell Rinerson, Robin Cheung, David Hansen, Steven Longcor, Rene Meyer, Jonathan Bornstein, Lawrence Schloss
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Patent number: 8237142Abstract: A structure for a memory device including a plurality of substantially planar thin-film layers or a plurality of conformal thin-film layers is disclosed. The thin-film layers form a memory element that is electrically in series with first and second cladded conductors and operative to store data as a plurality of conductivity profiles. A select voltage applied across the first and second cladded conductors is operative to perform data operations on the memory device. The memory device may optionally include a non-ohmic device electrically in series with the memory element and the first and second cladded conductors. Fabrication of the memory device does not require the plurality of thin-film layers be etched in order to form the memory element. The memory element can include a CMO layer having a selectively crystallized polycrystalline portion and an amorphous portion. The cladded conductors can include a core material made from copper.Type: GrantFiled: March 1, 2011Date of Patent: August 7, 2012Assignee: Unity Semiconductor CorporationInventors: Robin Cheung, Jonathan Bornstein, David Hansen, Travis Byonghyop Oh, Darrell Rinerson
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Publication number: 20120012897Abstract: A non-Flash non-volatile cross-trench memory array formed using an array of trenches formed back-end-of-the-line (BEOL) over a front-end-of-the-line (FEOL) substrate includes two-terminal memory elements operative to store at least one bit of data that are formed at a cross-point of a first trench and a second trench. The first and second trenches are arranged orthogonally to each other. At least one layer of memory comprises a plurality of the first and second trenches to form a plurality of memory elements. The non-volatile memory can be used to replace or emulate other memory types including but not limited to embedded memory, DRAM, SRAM, ROM, and FLASH. The memory is randomly addressable down to the bit level and erase or block erase operation prior to a write operation are not required.Type: ApplicationFiled: July 18, 2011Publication date: January 19, 2012Applicant: UNITY SEMICONDUCTOR CORPORATIONInventors: PAUL BESSER, ROBIN CHEUNG, WEN ZHONG KONG
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Publication number: 20110315948Abstract: Memory cell formation using ion implant isolated conductive metal oxide is disclosed, including forming a bottom electrode below unetched conductive metal oxide layer(s), forming the unetched conductive metal oxide layer(s) including depositing at least one layer of a conductive metal oxide (CMO) material (e.g., PrCaMnOx, LaSrCoOx, LaNiOx, etc.) over the bottom electrode. At least one portion of the layer of CMO is configured to act as a memory element without etching, and performing ion implantation on portions of the layer(s) of CMO to create insulating metal oxide (IMO) regions in the layer(s) of CMO. The IMO regions are positioned adjacent to electrically conductive CMO regions in the unetched layer(s) of CMO and the electrically conductive CMO regions are disposed above and in contact with the bottom electrode and form memory elements operative to store non-volatile data as a plurality of conductivity profiles (e.g., resistive states indicative of stored data).Type: ApplicationFiled: August 23, 2011Publication date: December 29, 2011Applicant: UNITY SEMICONDUCTOR CORPORATIONInventors: DARRELL RINERSON, JONATHAN BORNSTEIN, DAVID HANSEN, ROBIN CHEUNG, STEVEN W. LONGCOR, RENE MEYER, LAWRENCE SCHLOSS
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Publication number: 20110315943Abstract: Memory cell formation using ion implant isolated conductive metal oxide is disclosed, including forming a bottom electrode below un-etched conductive metal oxide layer(s), forming the un-etched conductive metal oxide layer(s) including depositing at least one layer of a conductive metal oxide (CMO) material (e.g., PrCaMnOx, LaSrCoOx, LaNiOx, etc.) over the bottom electrode. At least one portion of the layer of CMO is configured to act as a memory element without etching, and performing ion implantation on portions of the layer(s) of CMO to create insulating metal oxide (IMO) regions in the layer(s) of CMO. The IMO regions are positioned adjacent to electrically conductive CMO regions in the un-etched layer(s) of CMO and the electrically conductive CMO regions are disposed above and in contact with the bottom electrode and form memory elements operative to store non-volatile data as a plurality of conductivity profiles (e.g., resistive states indicative of stored data).Type: ApplicationFiled: September 2, 2011Publication date: December 29, 2011Applicant: UNITY SEMICONDUCTOR CORPORATIONInventors: DARRELL RINERSON, JONATHAN BORNSTEIN, DAVID HANSEN, ROBIN CHEUNG, STEVEN W. LONGCOR, RENE MEYER, LAWRENCE SCHLOSS
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Publication number: 20110229734Abstract: A platinum plating solution for immersion plating a continuous film of platinum on a metal structure. The immersion platinum plating solution is free of a reducing agent. The plating process does not require electricity (e.g., electrical current) and does not require electrodes (e.g., anode and/or cathode). The solution includes a platinum source and a complexing agent including Oxalic Acid. The solution enables immersion plating of platinum onto a metal surface, a metal substrate, or a structure of which at least a portion is a metal. The resulting platinum plating comprises a continuous thin film layer of platinum having a thickness not exceeding 300 ?. The solution can be used for plating articles including but not limited to jewelry, medical devices, electronic structures, microelectronics structures, MEMS structures, nano-sized or smaller structures, structures used for chemical and/or catalytic reactions (e.g., catalytic converters), and irregularly shaped metal surfaces.Type: ApplicationFiled: March 22, 2010Publication date: September 22, 2011Applicant: UNITY SEMICONDUCTOR CORPORATIONInventors: Robin Cheung, Wen Zhong Kong
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Patent number: 8003511Abstract: Memory cell formation using ion implant isolated conductive metal oxide is disclosed, including forming a bottom electrode below unetched conductive metal oxide layer(s), forming the unetched conductive metal oxide layer(s) including depositing at least one layer of a conductive metal oxide (CMO) material (e.g., PrCaMnOX, LaSrCoOX, LaNiOX, etc.) over the bottom electrode. At least one portion of the layer of CMO is configured to act as a memory element without etching, and performing ion implantation on portions of the layer(s) of CMO to create insulating metal oxide (IMO) regions in the layer(s) of CMO. The IMO regions are positioned adjacent to electrically conductive CMO regions in the unetched layer(s) of CMO and the electrically conductive CMO regions are disposed above and in contact with the bottom electrode and form memory elements operative to store non-volatile data as a plurality of conductivity profiles (e.g., resistive states indicative of stored data).Type: GrantFiled: December 18, 2009Date of Patent: August 23, 2011Inventors: Darrell Rinerson, Jonathan Bornstein, Robin Cheung, David Hansen, Steven W. Longcor, Rene Meyer, Lawrence Schloss
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Publication number: 20110155990Abstract: A structure for a memory device including a plurality of substantially planar thin-film layers or a plurality of conformal thin-film layers is disclosed. The thin-film layers form a memory element that is electrically in series with first and second cladded conductors and operative to store data as a plurality of conductivity profiles. A select voltage applied across the first and second cladded conductors is operative to perform data operations on the memory device. The memory device may optionally include a non-ohmic device electrically in series with the memory element and the first and second cladded conductors. Fabrication of the memory device does not require the plurality of thin-film layers be etched in order to form the memory element. The memory element can include a CMO layer having a selectively crystallized polycrystalline portion and an amorphous portion. The cladded conductors can include a core material made from copper.Type: ApplicationFiled: March 1, 2011Publication date: June 30, 2011Applicant: UNITY SEMICONDUCTOR CORPORATIONInventors: Robin Cheung, Darrell Rinerson, Travis Byonghyop Oh, Jon Bornstein, David Hansen
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Publication number: 20110133147Abstract: A structure for a memory device including a plurality of substantially planar thin-film layers or a plurality of conformal thin-film layers is disclosed. The thin-film layers form a memory element that is electrically in series with first and second cladded conductors and operative to store data as a plurality of conductivity profiles. A select voltage applied across the first and second cladded conductors is operative to perform data operations on the memory device. The memory device may optionally include a non-ohmic device electrically in series with the memory element and the first and second cladded conductors. Fabrication of the memory device does not require the plurality of thin-film layers be etched in order to form the memory element. The memory element can include a CMO layer having a selectively crystallized polycrystalline portion and an amorphous portion. The cladded conductors can include a core material made from copper.Type: ApplicationFiled: February 9, 2011Publication date: June 9, 2011Applicant: UNITY SEMICONDUCTOR CORPORATIONInventors: Robin Cheung, Darrell Rinerson, Travis Byonghyop Oh, Jon Bornstein, David Hansen
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Patent number: 7897951Abstract: A structure for a memory device including a plurality of substantially planar thin-film layers or a plurality of conformal thin-film layers is disclosed. The thin-film layers form a memory element that is electrically in series with first and second cladded conductors and operative to store data as a plurality of conductivity profiles. A select voltage applied across the first and second cladded conductors is operative to perform data operations on the memory device. The memory device may optionally include a non-ohmic device electrically in series with the memory element and the first and second cladded conductors. Fabrication of the memory device does not require the plurality of thin-film layers be etched in order to form the memory element. The memory element can include a CMO layer having a selectively crystallized polycrystalline portion and an amorphous portion. The cladded conductors can include a core material made from copper.Type: GrantFiled: July 26, 2007Date of Patent: March 1, 2011Inventors: Darrell Rinerson, Jonathan Bornstein, Robin Cheung, David Hansen, Travis Byonghyop Oh