Patents Assigned to ADEIA SEMICONDUCTOR TECHNOLOGIES LLC
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Patent number: 12640483Abstract: An integrated device package is disclosed. The integrated device package can include an antenna structure and an integrated device die electrically coupled to the antenna structure. The antenna structure can be formed with a system board or separated from the system board. When the antenna structure is formed with the system board, the integrated device package can include a redistribution layer having conductive routing traces such that the integrated device die is disposed between the system board and the redistribution layer, and the integrated device die is electrically coupled to the antenna structure at least partially through the redistribution layer. When the antenna structure is separated from the system board, the integrated device die can be positioned between the antenna structure and the system board, and the integrated device die can be electrically coupled to the antenna structure at least partially through the system board.Type: GrantFiled: October 20, 2022Date of Patent: May 26, 2026Assignee: ADEIA SEMICONDUCTOR TECHNOLOGIES LLCInventors: Belgacem Haba, Hong Shen, Patrick Variot, Rajesh Katkar
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Patent number: 12635510Abstract: A method for forming an interconnect structure in an element is disclosed. The method can include patterning a cavity in a non-conductive material. The method can include exposing a surface of the cavity in the non-conductive material to a surface nitriding treatment. The method can include depositing a conductive material directly onto the treated surface after the exposing.Type: GrantFiled: November 2, 2021Date of Patent: May 19, 2026Assignee: Adeia Semiconductor Technologies LLCInventors: Cyprian Emeka Uzoh, Laura Wills Mirkarimi
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Patent number: 12564086Abstract: A method of making an assembly can include juxtaposing a top surface of a first electrically conductive element at a first surface of a first substrate with a top surface of a second electrically conductive element at a major surface of a second substrate. One of: the top surface of the first conductive element can be recessed below the first surface, or the top surface of the second conductive element can be recessed below the major surface. Electrically conductive nanoparticles can be disposed between the top surfaces of the first and second conductive elements. The conductive nanoparticles can have long dimensions smaller than 100 nanometers. The method can also include elevating a temperature at least at interfaces of the juxtaposed first and second conductive elements to a joining temperature at which the conductive nanoparticles can cause metallurgical joints to form between the juxtaposed first and second conductive elements.Type: GrantFiled: May 24, 2024Date of Patent: February 24, 2026Assignee: Adeia Semiconductor Technologies LLCInventor: Cyprian Emeka Uzoh
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Patent number: 12557615Abstract: Disclosed herein are methods for direct bonding. In some embodiments, the direct bonding method includes microwave annealing a dielectric bonding layer of a first element by exposing the dielectric bonding layer to microwave radiation and then directly bonding the dielectric bonding layer of the first element to a second element without an intervening adhesive. The bonding method also includes depositing the dielectric bonding layer on a semiconductor portion of the first element at a first temperature and microwave annealing the dielectric bonding layer at a second temperature lower than the first temperature.Type: GrantFiled: December 12, 2022Date of Patent: February 17, 2026Assignee: ADEIA SEMICONDUCTOR TECHNOLOGIES LLCInventors: Cyprian Emeka Uzoh, Laura Wills Mirkarimi
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Patent number: 12557659Abstract: Apparatuses relating generally to a microelectronic package having protection from electromagnetic interference are disclosed. In an apparatus thereof, a platform has an upper surface and a lower surface opposite the upper surface and has a ground plane. A microelectronic device is coupled to the upper surface of the platform. Wire bond wires are coupled to the ground plane with a pitch. The wire bond wires extend away from the upper surface of the platform with upper ends of the wire bond wires extending above an upper surface of the microelectronic device. The wire bond wires are spaced apart from one another to provide a fence-like perimeter to provide an interference shielding cage. A conductive layer is coupled to at least a subset of the upper ends of the wire bond wires for electrical conductivity to provide a conductive shielding layer to cover the interference shielding cage.Type: GrantFiled: July 30, 2024Date of Patent: February 17, 2026Assignee: Adeia Semiconductor Technologies LLCInventors: Shaowu Huang, Javier A. Delacruz
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Patent number: 12500209Abstract: Embedded organic interposers for high bandwidth are provided. Example embedded organic interposers provide thick conductors with more dielectric space, and more routing layers of such conductors than conventional interposers, in order to provide high bandwidth transmission capacity over longer spans. The embedded organic interposers provide high bandwidth transmission paths between components such as HBM, HBM2, and HBM3 memory stacks, and other components. To provide the thick conductors and more routing layers for greater transmission capacity, extra space is achieved by embedding the organic interposers in the core of the package. Example embedded organic interposers lower a resistive-capacitive (RC) load of the routing layers to provide an improved data transfer rate of 1 gigabits per second over at least a 6 mm span, for example. The embedded interposers are not limited to use with memory modules.Type: GrantFiled: June 29, 2021Date of Patent: December 16, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Javier A. Delacruz, Belgacem Haba
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Patent number: 12476212Abstract: A method of making a microelectronic package includes bonding a conductive structure to a carrier so that the conductive structure overlies a rear surface of a microelectronic element disposed on the carrier and an exposed top surface of the carrier. The conductive structure may be a monolithic structure having a base and a plurality of interconnections extending continuously away from the base toward the carrier. The microelectronic element may be positioned between at least two adjacent interconnections of the plurality of interconnections. The plurality of interconnections and the microelectronic element may be encapsulated with an encapsulant. The conductive structure may be patterned to form external contacts. At least some of the external contacts may overlie the microelectronic element.Type: GrantFiled: February 8, 2024Date of Patent: November 18, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Chok J. Chia, Qwai H. Low, Patrick Variot
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Patent number: 12394728Abstract: A microelectronic device may include a substrate, a first chip on the substrate, and a second chip on the substrate. A plurality of pillars may be located between the first chip and the second chip, wherein a first end of each pillar of the plurality of pillars is adjacent to the substrate. A spacing among the plurality of pillars is at least equal to a distance sufficient to block electromagnetic interference (EMI) and/or radio frequency interference (RFI) between the first chip and the second chip. The microelectronic device may also include a cover over at least the first chip, the second chip, and the plurality of pillars, wherein a second end of each pillar of the plurality of pillars is at least adjacent to a trench defined within the cover. The trench may include a conductive material therein.Type: GrantFiled: May 23, 2024Date of Patent: August 19, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Patrick Variot, Hong Shen
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Patent number: 12381117Abstract: Through-dielectric-vias (TDVs) for 3D integrated circuits in silicon are provided. Example structures and processes fabricate conductive vertical pillars for an integrated circuit assembly in a volume of dielectric material instead of in silicon. For example, a block of a silicon substrate may be removed and replaced with dielectric material, and then a plurality of the conductive pillars can be fabricated through the dielectric block. The through-dielectric-vias are shielded from devices and from each other by an intervening thickness of the dielectric sufficient to reduce noise, signal coupling, and frequency losses.Type: GrantFiled: August 1, 2024Date of Patent: August 5, 2025Assignee: Adeia Semiconductor Technologies LLCInventor: Cyprian Emeka Uzoh
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Patent number: 12324268Abstract: Methods of forming a back side image sensor device, as well as back side image sensor devices formed, are disclosed. In one such a method, an image sensor wafer having a first dielectric layer with a first surface is obtained. A reconstituted wafer having a processor die and a second dielectric layer with a second surface is obtained. The reconstituted wafer and the image sensor wafer are bonded to one another including coupling the first surface of the first dielectric layer and the second surface of the second dielectric layer. In another method, such formation is for a processor die bonded to an image sensor wafer. In yet another method, such formation is for a processor die bonded to an image sensor die.Type: GrantFiled: February 2, 2024Date of Patent: June 3, 2025Assignee: Adeia Semiconductor Technologies LLCInventor: Rajesh Katkar
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Patent number: 12293108Abstract: Some embodiments provide a three-dimensional (3D) circuit that has data lines of one or more memory circuits on a different IC die than the IC die(s) on which the memory blocks of the memory circuit(s) are defined. In some embodiments, the 3D circuit includes a first IC die with a first set of two or more memory blocks that have a first set of data lines. The 3D circuit also includes a second IC die that is stacked with the first IC dies and that includes a second set of two or more memory blocks with a second set of data lines. The 3D circuit further includes a third IC die that is stacked with the first and second IC dies and that includes a third set of data lines, which connect through several z-axis connections with the first and second sets of data lines to carry data to and from the first and second memory block sets when data is being written to and read from the first and second memory block sets.Type: GrantFiled: January 23, 2023Date of Patent: May 6, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Javier A. DeLaCruz, David E. Fisch
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Patent number: 12288771Abstract: A memory structure is provided, including a NAND block comprising a plurality of oxide layers, the plurality of layers forming a staircase structure at a first edge of the NAND block, a plurality of vias disposed on the staircase structure of NAND block, two or more of plurality of vias terminating along a same plane, a plurality of first bonding interconnects disposed on the plurality of vias, a plurality of bitlines extending across the NAND block, and a plurality of second bonding interconnects disposed along the bitlines. The memory structure may be stacked on another of the memory structure to form a stacked memory device.Type: GrantFiled: November 27, 2023Date of Patent: April 29, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Javier A. DeLaCruz, Belgacem Haba, Rajesh Katkar, Pearl Po-Yee Cheng
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Patent number: 12283572Abstract: The technology relates to a system on chip (SoC). The SoC may include a plurality of network layers which may assist electrical communications either horizontally or vertically among components from different device layers. In one embodiment, a system on chip (SoC) includes a plurality of network layers, each network layer including one or more routers, and more than one device layers, each of the plurality of network layers respectively bonded to one of the device layers. In another embodiment, a method for forming a system on chip (SoC) includes forming a plurality of network layers in an interconnect, wherein each network layer is bonded to an active surface of a respective device layer in a plurality of device layer.Type: GrantFiled: October 13, 2023Date of Patent: April 22, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Javier A. DeLaCruz, Belgacem Haba, Rajesh Katkar
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Patent number: 12272673Abstract: Capacitive couplings in a direct-bonded interface for microelectronic devices are provided. In an implementation, a microelectronic device includes a first die and a second die direct-bonded together at a bonding interface, a conductive interconnect between the first die and the second die formed at the bonding interface by a metal-to-metal direct bond, and a capacitive interconnect between the first die and the second die formed at the bonding interface. A direct bonding process creates a direct bond between dielectric surfaces of two dies, a direct bond between respective conductive interconnects of the two dies, and a capacitive coupling between the two dies at the bonding interface. In an implementation, a capacitive coupling of each signal line at the bonding interface comprises a dielectric material forming a capacitor at the bonding interface for each signal line.Type: GrantFiled: October 4, 2022Date of Patent: April 8, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Belgacem Haba, Arkalgud R. Sitaram
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Patent number: 12255176Abstract: A microelectronic assembly may include a semiconductor wafer having first and second surfaces extending in first and second directions, the semiconductor wafer having network nodes connected to one another via local adjacent connections each extending in only one of the first and second directions, and an interconnection structure comprising a low-loss dielectric material and having first and second opposite surfaces extending in third and fourth directions each oriented at an oblique angle relative to the first and second directions, the interconnection structure having local oblique connections each extending in only one of the third and fourth directions. The semiconductor wafer may be directly bonded to the interconnection structure such that each of the network nodes is connected with at least one of the other network nodes, without use of conductive bonding material, through at least one of the local adjacent connections and at least one of the local oblique connections.Type: GrantFiled: July 5, 2023Date of Patent: March 18, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Javier A. DeLaCruz, Richard E. Perego
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Patent number: 12255153Abstract: Apparatuses relating generally to a microelectronic package having protection from interference are disclosed. In an apparatus thereof, a substrate has an upper surface and a lower surface opposite the upper surface and has a ground plane. A first microelectronic device is coupled to the upper surface of the substrate. Wire bond wires are coupled to the ground plane for conducting the interference thereto and extending away from the upper surface of the substrate. A first portion of the wire bond wires is positioned to provide a shielding region for the first microelectronic device with respect to the interference. A second portion of the wire bond wires is not positioned to provide the shielding region. A second microelectronic device is coupled to the substrate and located outside of the shielding region. A conductive surface is over the first portion of the wire bond wires for covering the shielding region.Type: GrantFiled: September 21, 2023Date of Patent: March 18, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Abiola Awujoola, Zhuowen Sun, Wael Zohni, Ashok S. Prabhu, Willmar Subido
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Patent number: 12237306Abstract: Representative implementations of devices and techniques provide correction for a defective die in a wafer-to-wafer stack or a die stack. A correction die is coupled to a die of the stack with the defective die. The correction die electrically replaces the defective die. Optionally, a dummy die can be coupled to other die stacks of a wafer-to-wafer stack to adjust a height of the stacks.Type: GrantFiled: February 9, 2023Date of Patent: February 25, 2025Assignee: Adeia Semiconductor Technologies LLCInventor: Belgacem Haba
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Patent number: 12211821Abstract: A microelectronic package includes a substrate having a first surface. A microelectronic element overlies the first surface. Electrically conductive elements are exposed at the first surface of the substrate, at least some of which are electrically connected to the microelectronic element. The package includes wire bonds having bases bonded to respective ones of the conductive elements and ends remote from the substrate and remote from the bases. The ends of the wire bonds are defined on tips of the wire bonds, and the wire bonds define respective first diameters between the bases and the tips thereof. The tips have at least one dimension that is smaller than the respective first diameters of the wire bonds. A dielectric encapsulation layer covers portions of the wire bonds, and unencapsulated portions of the wire bonds are defined by portions of the wire bonds, including the ends, are uncovered by the encapsulation layer.Type: GrantFiled: July 12, 2023Date of Patent: January 28, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Ellis Chau, Reynaldo Co, Roseann Alatorre, Philip Damberg, Wei-Shun Wang, Se Young Yang
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Patent number: 12199082Abstract: Direct-bonded LED arrays and applications are provided. An example process fabricates a LED structure that includes coplanar electrical contacts for p-type and n-type semiconductors of the LED structure on a flat bonding interface surface of the LED structure. The coplanar electrical contacts of the flat bonding interface surface are direct-bonded to electrical contacts of a driver circuit for the LED structure. In a wafer-level process, micro-LED structures are fabricated on a first wafer, including coplanar electrical contacts for p-type and n-type semiconductors of the LED structures on the flat bonding interface surfaces of the wafer. At least the coplanar electrical contacts of the flat bonding interface are direct-bonded to electrical contacts of CMOS driver circuits on a second wafer.Type: GrantFiled: October 31, 2023Date of Patent: January 14, 2025Assignee: ADEIA SEMICONDUCTOR TECHNOLOGIES LLCInventors: Min Tao, Liang Wang, Rajesh Katkar, Cyprian Emeka Uzoh
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Patent number: RE50272Abstract: A virtual reality/augmented reality (VR/AR) headset system (including the capability for one or both of virtual reality and augmented reality) includes a remote optical engine. The remote disposition of the optical engine removes many or all of the components of the VR/AR headset system that add weight, heat, and other characteristics that can add to user discomfort in using the system from the headset. An electronic image is received and/or generated remotely at the optical engine, and is transmitted optically from the remote location to the headset to be viewed by the user. One or more optical waveguides may be used to transmit the electronic image to one or more passive displays of the headset, from the remote optical engine.Type: GrantFiled: July 23, 2021Date of Patent: January 14, 2025Assignee: Adeia Semiconductor Technologies LLCInventors: Belgacem Haba, Ilyas Mohammed, Rajesh Katkar