148 brevets accordés pour la semaine du 5 mai »Dallas innove – Serveur d’impression
Dallas Invents est un aperçu hebdomadaire des brevets américains accordés avec une connexion à la région métropolitaine de Dallas-Fort Worth-Arlington. Les listes comprennent les brevets accordés à des cessionnaires locaux et / ou à ceux avec un inventeur du nord du Texas. L'activité des brevets peut être un indicateur de la croissance économique future, ainsi que du développement des marchés émergents et de l'attraction des talents. En suivant à la fois les inventeurs et les cessionnaires dans la région, nous visons à fournir une vue plus large de l'activité inventive de la région. Les listes sont organisées par classification coopérative des brevets (CPC).
148 brevets accordés Classé n ° 9 en production de brevets sur 250 métros
NON. DES BREVETS PAR CLASSIFICATION
MEILLEURS CESSIONNAIRES LOCAUX (NOMBRE DE BREVETS)
Texas Instruments (Dallas) 39
SanDisk Technologies LLC (Addison) 11
Futurewei Technologies, Inc. (Plano) 8
Bell Helicopter Textron Inc. (Fort Worth) 5
Toyota Motor Engineering Amérique du Nord (Plano) 5
Securus Technologies, Inc. (Carrollton) 3
NON ASSIGNÉ 7
MEILLEUR INVENTEUR LOCAL (NOMBRE DE BREVETS)
Do-Kyoung Kwon (Allen) 2
VITESSE: DEMANDE DE DÉLIVRANCE (NOMBRE DE JOURS)
112 jours
Détection du plan du sol pour le placement d'objets de réalité augmentée
Brevet n ° 10643364
Cessionnaire: Capital One Services, LLC (McLean, VA, États-Unis)
Inventeurs: Geoffrey Dagley (McKinney), Jason Hoover (Grapevine), Micah Price (Anna), Qiaochu Tang (The Colony), Stephen Wylie (Carrollton), Sunil Vasisht (Flower Mound)
2 751 jours
Intra-prédiction angulaire basée sur des échantillons dans le codage vidéo
Brevet n ° 10645398
Assigné: Texas Instruments Inc. (Dallas)
Inventeur: Minhua Zhou (Plano)
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L'information en matière de brevets est fournie par Joe Chiarella, fondateur de la société d'analyse de brevets Patent Index et éditeur de The Inventiveness Index. Pour plus de détails sur les brevets accordés ci-dessous, recherchez dans la base de données de texte intégral et d'images des brevets de l'USPTO.
BREVETS UTILITAIRES
H U M A N N E C E S S I T I E S
Système de confort pour bottes
Brevet No. 10638813
Inventeur (s): Billy Lovell (Masfield, TX), Michael Fuller (Flower Mound, TX), Michael McCarron (Azle, TX)
Cessionnaire (s): Boot Royalty Company, L.P. (Fort Worth, TX)
Cabinet d'avocats: IP Attorneys Group, LLC (2 bureaux non locaux)
Numéro d'application, date, vitesse: 15981188 le 16/05/2018 (application 720 jours à émettre)
Abstrait: Un système de confort pour Cowboy et bottes de travail, comprenant un châssis de semelle intérieure, une planche de support de châssis de semelle intérieure et des coussinets d'amortissement pour absorber et atténuer les chocs rencontrés par un porteur des bottes. Les coussinets d'amortissement sont fixés à une surface de la planche de support du châssis de la semelle intérieure, et des ouvertures dans le châssis de la semelle intérieure permettent aux coussins de passer à travers. Des coussinets de rembourrage supplémentaires sont conservés dans les évidements de la semelle intermédiaire. Les coussinets sur la plaque d'appui du châssis de la semelle intérieure et la semelle intermédiaire sont alignés verticalement. Un embout en acier est utilisé conjointement avec le système de confort pour les bottes de travail. Une jante peut dépendre sous la semelle intermédiaire pour recevoir un tampon en plastique mousse.
[A43B] CARACTÉRISTIQUES DES CHAUSSURES; PIÈCES DE CHAUSSURES
Appareil d'imagerie à rayons X et à protons pour la position d'un patient simultané / unique et procédé d'utilisation
Brevet No. 10638988
Inventeur (s): Kyle Schmanke (Plano, Texas), Lauri Reichert (Grapevine, Texas)
Cessionnaire (s): NON ATTRIBUÉ
Cabinet d'avocats: Aucun avocat
Numéro d'application, date, vitesse: 15412885 le 23/01/2017 (application de 1198 jours à émettre)
Abstrait: L'invention comprend un appareil et un procédé d'utilisation de celui-ci pour utiliser une seule position de patient pendant l'imagerie aux rayons X, éventuellement simultanée, et l'imagerie des particules chargées positivement, où l'imagerie d'une tumeur d'un patient en utilisant des rayons X et des particules chargées positivement comprend les étapes de : (1) générer une image de rayons X en utilisant les rayons X dirigés depuis une source de rayons X, à travers le patient, et vers un détecteur de rayons X, (2) générer une image de particules chargées positivement: (a) en utilisant le particules chargées positivement dirigées depuis une buse de sortie, à travers le patient, à travers le détecteur de rayons X, et vers un scintillateur, le scintillateur émettant des photons lorsqu'il est frappé par les particules chargées positivement et (b) générant l'image de particules chargées positivement de la tumeur en utilisant un détecteur de photons configuré pour détecter les photons émis, où le détecteur de rayons X maintient une position entre ladite buse et le scintillateur pendant l'étape de génération d'une image de particules chargées positivement.
[A61B] DIAGNOSTIC; CHIRURGIE; IDENTIFICATION (analyse du matériel biologique G01N, p.ex. G01N 33/48)
Filtre veineux
Brevet No. 10639139
Inventeur (s): James E. Bressler (Langhorne, PA), James F. McGuckin, Jr. (Radnor, PA), John H. Thinnes, Jr. (Westfield, NJ), Lindsay L. Carter (Wayne, PA), Stephan A. DeFonzo (Wayne, PA)
Cessionnaire (s): Argon Medical Devices, Inc. (Plano, Texas)
Cabinet d'avocats: IpHorgan Ltd. (1 bureaux non locaux)
Numéro d'application, date, vitesse: 15358985 le 22/11/2016 (application de 1260 jours à émettre)
Abstrait: Filtre de cuve ayant une première région et une seconde région, le filtre pouvant se déplacer entre une position repliée pour être délivrée à la cuve et une position déployée pour être placée à l'intérieur de la cuve. La première région a une partie de filtre ayant une région convergente pour diriger les particules vers le centre du filtre et comprend une pluralité d'entretoises de filtre espacées. Les entretoises ont chacune une hauteur d'entretoise définie comme une distance entre un premier mur et un deuxième mur. Une pluralité de crochets se trouvent dans la seconde région, les crochets ayant une pointe pénétrant dans le vaisseau et une largeur supérieure à la largeur de l'entretoise à partir de laquelle il s'étend de telle sorte que la partie de pointe pénétrante du crochet s'étend au-delà de la première paroi.
[A61F] FILTRES IMPLANTABLES DANS DES VAISSEAUX SANGUINS; PROTHÈSES; DISPOSITIFS FOURNISSANT UNE BREVETÉ OU ÉVITANT L'EMPLACEMENT DES STRUCTURES TUBULAIRES DU CORPS, E.G. STENTS; DISPOSITIFS ORTHOPÉDIQUES, INFIRMIERS OU CONTRACEPTIFS; FOMENTATION; TRAITEMENT OU PROTECTION DES YEUX OU DES OREILLES; BANDAGES, PANSEMENTS OU TAMPONS ABSORBANTS; TROUSSES DE PREMIERS SOINS (prothèses dentaires A61C) [2006.01]
Implants vasculaires et leurs procédés de fabrication
Brevet No. 10639176
Inventeur (s): Paul A. LaDuca (Little Elm, TX)
Cessionnaire (s): Taheri LaDuca LLC (Santa Cruz, Californie)
Cabinet d'avocats: Levine Bagade Han LLP (1 bureaux non locaux)
Numéro d'application, date, vitesse: 15357836 du 21/11/2016 (application de 1261 jours à émettre)
Abstrait: La présente invention concerne des implants vasculaires et des procédés pour les fabriquer. Les dispositifs implantables comprennent, sans s'y limiter, les stents, les greffes et les greffes de stent. Dans de nombreux modes de réalisation, les dispositifs comprennent une ou plusieurs lumières de branche latérale interconnectées avec la lumière principale.
[A61F] FILTRES IMPLANTABLES DANS DES VAISSEAUX SANGUINS; PROTHÈSES; DISPOSITIFS FOURNISSANT DE LA BREVETÉ À DES STRUCTURES TUBULAIRES DU CORPS OU ÉVITANT DE S'ÉVITER, E.G. STENTS; DISPOSITIFS ORTHOPÉDIQUES, INFIRMIERS OU CONTRACEPTIFS; FOMENTATION; TRAITEMENT OU PROTECTION DES YEUX OU DES OREILLES; BANDAGES, PANSEMENTS OU TAMPONS ABSORBANTS; TROUSSES DE PREMIERS SOINS (prothèses dentaires A61C) [2006.01]
Fauteuil de massage ayant un mécanisme pour régler la position de l'élément de massage fluide pour le massage des bras
Brevet No. 10639230
Inventeur (s): Abhishek Vinod Vazrekar (Arlington, TX), Kevin Le (Richland Hills, TX), Thanh Le (Grand Prairie, TX), Varad Nitin Gokhale (Irving, TX)
Cessionnaire (s): Luraco, Inc. (Arlington, TX)
Cabinet d'avocats: Aucun avocat
Numéro d'application, date, vitesse: 15965955 le 29/04/2018 (application 737 jours à émettre)
Abstrait: La présente invention est un fauteuil de massage ayant un mécanisme pour ajuster la position de l'élément de massage pour le massage des bras. A titre d'exemple non limitatif, le fauteuil de massage comprend de préférence un cadre de fauteuil de massage; au moins un appareil de massage des bras positionné autour d'un côté correspondant du cadre; et un mécanisme pour fixer le au moins un appareil de massage de bras autour d'un côté correspondant du cadre. Dans cet exemple, le système de massage des bras peut comprendre au moins un élément de massage pour le massage des mains, au moins un élément de massage pour le massage du triceps, au moins un élément de massage pour le massage des épaules, un mécanisme pour ajuster la position de l'élément de massage pour le massage du triceps, et un mécanisme pour régler la position de l'élément de massage pour le massage des épaules. Le fauteuil de massage peut en outre comprendre un système de massage corporel; un système de massage des jambes et des pieds; et un dispositif de protection anti-bruit.
[A61H] APPAREIL DE THÉRAPIE PHYSIQUE, par ex. DISPOSITIFS POUR LOCALISER OU STIMULER DES POINTS REFLEXES DANS LE CORPS; RESPIRATION ARTIFICIELLE; MASSAGE; DISPOSITIFS DE BAIN À DES FINS THÉRAPEUTIQUES OU HYGIÉNIQUES SPÉCIALES OU PARTIES SPÉCIFIQUES DU CORPS (électrothérapie, magnétothérapie, radiothérapie, échographie A61N)
Formulation de soins de la peau
Brevet No. 10639344
Inventeur (s): Tiffany Carle (Dallas, TX)
Cessionnaire (s): Mary Kay Inc. (Addison, TX)
Cabinet d'avocats: Aucun avocat
Numéro d'application, date, vitesse: 15355297 le 18/11/2016 (application de 1264 jours à émettre)
Abstrait: L'invention concerne un procédé de traitement d'une télangiectasie chez un sujet en ayant besoin. Le procédé comprend l'application topique sur la peau dudit sujet ayant besoin d'un traitement de télangiectasie d'une composition comprenant des quantités efficaces d'un extrait alcoolique de [i]Centella asiactica [/i]feuille et un extrait aqueux de [i]Vitis vinifera [/i]graines pour perturber les tubes endothéliaux de la peau.
[A61K] PRÉPARATIONS À DES FINS MÉDICALES, DENTAIRES OU DE TOILETTES (dispositifs ou méthodes spécialement adaptés pour introduire des produits pharmaceutiques dans des formes physiques ou d'administration particulières A61J 3/00; aspects chimiques ou utilisation de matériaux pour la désodorisation de l'air, pour la désinfection ou la stérilisation, ou pour bandages, pansements, tampons absorbants ou articles chirurgicaux A61L; compositions de savon C11D)
Procédé et appareil pour des mouvements d'exercice de cheville bidirectionnels
Brevet No. 10639518
Inventeur (s): Kent Fulks (Dallas, TX)
Cessionnaire (s): NON ATTRIBUÉ
Cabinet d'avocats: Braxton Perrone, PLLC (1 bureaux non locaux)
Numéro d'application, date, vitesse: 15810098 le 11/12/2017 (application 905 jours à émettre)
Abstrait: L'appareil pour les mouvements d'exercice bidirectionnels de la cheville a un cadre principal avec un siège et des colonnes s'étendant vers le haut de chaque côté pour supporter un sous-cadre en forme de «U», monté de sorte qu'il pivote autour d'un axe horizontal passant très près à travers les chevilles de un utilisateur assis et des liens d'interconnexion imposant simultanément l'inversion de la cheville, avec une flexion plantaire puis une aversion de la cheville, avec une flexion dorsale, autour d'axes se croisant perpendiculairement, tout en résistant à de tels mouvements, de manière à fournir des exercices de cheville bidirectionnels selon un programme de résistance progressive, renforçant ainsi le muscle de la cheville groupes pour un équilibre amélioré et une stabilité dynamique.
[A63B] APPAREIL D'ENTRAÎNEMENT PHYSIQUE, DE GYMNASTIQUE, DE NATATION, D'ESCALADE OU D'ESCRIME; JEUX DE BALLON; ÉQUIPEMENT D'ENTRAÎNEMENT (appareils pour exercice passif, massage A61H)
Appareil d'entraînement des mains athlétiques
Brevet No. 10639535
Inventeur (s): Tim Alan Hoover (Arlington, Texas)
Cessionnaire (s): NON ATTRIBUÉ
Cabinet d'avocats: Scheef Stone, L.L.P. (Local)
Numéro d'application, date, vitesse: 15655780 le 20/07/2017 (application de 1020 jours à émettre)
Abstrait: Une structure de support d'entraînement athlétique comprend un montant configuré pour s'étendre sensiblement verticalement. Au moins un bras horizontal est monté rotatif sur le montant, de sorte que le au moins un bras horizontal s'étend sensiblement perpendiculairement au montant et tourne dans un plan sensiblement horizontal. Un bras vertical peut être monté rotatif sur une extrémité d'un bras horizontal pour une rotation dans un plan sensiblement vertical.
[A63B] APPAREIL D'ENTRAÎNEMENT PHYSIQUE, DE GYMNASTIQUE, DE NATATION, D'ESCALADE OU D'ESCRIME; JEUX DE BALLON; ÉQUIPEMENT D'ENTRAÎNEMENT (appareils pour exercice passif, massage A61H)
O P E R A T I O N S & T R A N S P O R T
Procédés et appareil pour agiter un liquide
Brevet No. 10639600
Inventeur (s): Robert Paul Luoma, II (Colleyville, TX)
Cessionnaire (s): Laboratoires Abbott (Abbott Park, IL)
Cabinet d'avocats: Hanley, Flight Zimmerman, LLC (1 bureaux non locaux)
Numéro d'application, date, vitesse: 15730524 le 10/11/2017 (application 937 jours à émettre)
Abstrait: L'invention concerne un procédé et un appareil pour agiter un liquide. Un exemple d'appareil comprend un support ayant une base qui comprend une arête s'étendant depuis la base et un collier s'étendant depuis la base. L'appareil donné à titre d'exemple comprend également un conteneur supporté sur la base, le conteneur pouvant se déplacer entre (A) une position verrouillée dans laquelle l'arête s'engage de manière fixe avec le conteneur pour coupler de manière non rotative le conteneur à la base et (B) une position déverrouillée dans laquelle le le récipient est dégagé de la crête et le récipient peut tourner autour du collier.
[B01F] MÉLANGE, par ex. DISSOLVANT, EMULSIFIANT, DISPERSANT (mélange des peintures B44D 3/06)
Aimants à base de nanofils et leurs procédés de fabrication
Brevet No. 10639711
Inventeur (s): J. Ping Liu (Colleyville, Texas)
Cessionnaire (s): Board of Regents, Système de l'Université du Texas (Austin, TX)
Cabinet d'avocats: Nexsen Pruet, PLLC (6 bureaux non locaux)
Numéro d'application, date, vitesse: 15180939 le 13/06/2016 (application de 1422 jours à émettre)
Abstrait: La présente invention permet d'obtenir un produit à haute énergie en utilisant des éléments ferromagnétiques 3D tels que des nanofils et leurs procédés de fabrication. Les produits ou aimants à haute énergie de l'invention sont capables d'obtenir une aimantation élevée et de maintenir les propriétés magnétiques à une plus grande plage de températures que les aimants actuellement connus. Par exemple, un produit à haute énergie comprend au moins un matériau A choisi dans le groupe constitué essentiellement de Fe, Co et Ni, dans lequel le matériau A se présente sous la forme de nanofils formés par un processus chimique solvothermique. Un produit à haute énergie peut également comprendre au moins un matériau A sélectionné dans le groupe constitué essentiellement de Fe, Co et Ni, et au moins un matériau B sélectionné dans le groupe constitué essentiellement de Fe, Co et Ni, dans lequel le matériau A et le matériau B se présente sous la forme d'un alliage de nanofils formé par un procédé chimique solvothermal.
[B22F] POUDRE MÉTALLIQUE DE TRAVAIL; FABRICATION D'ARTICLES EN POUDRE MÉTALLIQUE; FABRICATION DE POUDRE MÉTALLIQUE (fabrication d'alliages par métallurgie des poudres C22C); APPAREIL OU DISPOSITIFS SPÉCIALEMENT ADAPTÉS À LA POUDRE MÉTALLIQUE
Système et procédé pour compenser les écarts dans un processus de fabrication de lentille optique
Brevet No. 10639765
Inventeur (s): Brad J. Gelb (Dallas, TX), Sébastien Piraube (Dallas, TX)
Cessionnaire (s): Essilor International (Charenton-le-Pont,, FR)
Cabinet d'avocats: Oblon, McClelland, Maier Neustadt, L.L.P. (2 bureaux non locaux)
Numéro d'application, date, vitesse: 15570715 le 29/05/2015 (application de 1803 jours à émettre)
Abstrait: L'invention concerne un système de calcul en temps réel capable de calculer les performances optiques industrielles et les rendements d'un laboratoire de prescription. Le système utilise une analyse statistique pour déterminer les facteurs de compensation qui peuvent être appliqués à des produits, semi-finis, matériaux ou conceptions de lentilles donnés pour augmenter les rendements en laboratoire. À l'aide d'un système de surveillance et de configuration, l'utilisateur suit l'évolution des performances du laboratoire et identifie les domaines dans lesquels les rendements sont impactés. L'utilisateur définit comment le système de calcul optimisera les performances du laboratoire, par exemple en définissant comment les facteurs de compensation seront calculés et appliqués.
[B24B] MACHINES, DISPOSITIFS OU PROCÉDÉS DE BROYAGE OU DE POLISSAGE (par électro-érosion B23H; grenaillage abrasif ou apparenté B24C; gravure électrolytique ou polissage C25F 3/00); HABILLAGE OU CONDITIONNEMENT DES SURFACES ABRADANTES; ALIMENTATION D'AGENTS DE RECTIFICATION, DE POLISSAGE OU DE LAPPAGE [2]
Fixation magnétique pour cartouche de rasage
Brevet No. 10639807
Inventeur (s): Craig A. Provost (Boston, MA), John W. Griffin (Moultonborough, NH), Robert A. Wilson (Dallas, TX)
Cessionnaire (s): Shavelogic, Inc. (Dallas, TX)
Cabinet d'avocats: Leber IP Law (2 bureaux non locaux)
Numéro d'application, date, vitesse: 16251874 le 18/01/2019 (application de 473 jours à émettre)
Abstrait: L'invention concerne des systèmes de rasage qui comprennent un ensemble de rasage remplaçable et une structure de connexion de cartouche pour connecter l'ensemble de rasage à une poignée. Dans les mises en œuvre préférées, la structure de connexion de la cartouche a une partie magnétique configurée pour aider à tirer la cartouche sur le manche et à maintenir la cartouche en place lorsque le rasoir n'est pas en contact avec la peau, et un engagement mécanique qui fournit les forces de rétention nécessaires requises pour garder le système intact pendant le rasage.
[B26B] OUTILS DE COUPE À MAIN NON PRÉVUS AILLEURS (pour la récolte A01D; pour l'horticulture, pour la foresterie A01G; pour la boucherie ou le traitement de la viande A22; pour la fabrication ou la réparation de chaussures A43D; coupe-ongles ou coupe-ongles A45D 29/02; équipement de cuisine A47J; pour la chirurgie fins A61B 17/00; pour le métal B23D; coupe par jets de fluide abrasif B24C 5/02; outils en forme de pinces à arêtes coupantes B25B 7/22; tenailles B25C 11/02; manches pour instruments à main, en général B25G; à guillotine coupeurs B26D; pour effacer B43L 19/00; pour matières textiles D06H)
Structure d'aile composite et méthodes de fabrication
Brevet No. 10639854
Inventeur (s): David G. Carlson (North Richland Hills, TX), Douglas K. Wolfe (Denton, TX), George R. Decker (Amarillo, TX), John R. McCullough (Weatherford, TX), Keith A. Stanney (Dallas, TX )
Cessionnaire (s): Bell Helicopter Textron Inc. (Fort Worth, TX)
Cabinet d'avocats: Timmer Law Group, PLLC (1 bureaux non locaux)
Numéro d'application, date, vitesse: 15423888 le 02/03/2017 (application de 1187 jours à émettre)
Abstrait: Procédé de fabrication d'une structure d'aile à rotors basculants comprenant la fourniture d'un moule à longeron ayant une pluralité d'alésages s'étendant d'une surface extérieure du moule à une surface intérieure du moule, la pluralité d'alésages correspondant à une pluralité de trous de coordination principaux dans un élément de longeron , le moule à longerons ayant une périphérie définie par un bord supérieur, un bord inférieur et des extrémités extérieures; sélectionner une pluralité de plis imprégnés de résine pour garantir que les plis s'étendent en continu au-delà de la périphérie du moule à longerons; pose des plis dans le moule à longerons; durcir les plis dans le moule pour former un élément de longeron durci qui s'étend au-delà de la périphérie du moule de longeron; et percer avec précision une pluralité de trous de coordination principaux dans l'élément de longeron durci dans le moule de longeron en utilisant un outil positionné dans la pluralité d'alésages.
[B64C] AVIONS; HÉLICOPTÈRES (véhicules à coussin d'air B60V)
Systèmes et procédés pour charger et réchauffer des composants de véhicule
Brevet No. 10640004
Inventeur (s): Tapan V. Patel (Lakewood, Californie)
Cessionnaire (s): TOYOTA MOTOR ENGINEERING MANUFACTURING NORTH AMERICA, INC. (Plano, Texas)
Cabinet d'avocats: Snell Wilmer LLP (5 bureaux non locaux)
Numéro d'application, date, vitesse: 15011303 le 29/01/2016 (application de 1558 jours à émettre)
Abstrait: Un système comprend un chargeur embarqué qui reçoit de l'énergie d'une source d'alimentation externe et une batterie ayant un état de charge (SOC) et une température de batterie. Le système comprend également un réchauffeur de batterie qui convertit l'énergie électrique en énergie thermique (chaleur) pour augmenter la température de la batterie. Le système comprend également un système de gestion de batterie (BMS) qui détermine ou détecte un SOC actuel de la batterie et une température actuelle de la batterie. Le système comprend également une unité de commande électronique (ECU) couplée au chargeur embarqué et au BMS. L'ECU commande le chargeur embarqué pour distribuer l'énergie à la batterie et au chauffage de batterie pour que le SOC reste au-dessus d'un seuil SOC et pour que la température de la batterie reste au-dessus d'un seuil de température de la batterie en fonction du SOC actuel et du courant température de la batterie.
[B60L] PROPULSION DE VÉHICULES À PROPULSION ÉLECTRIQUE (aménagements ou montage d'unités de propulsion électrique ou de plusieurs moteurs principaux divers pour la propulsion mutuelle ou commune dans les véhicules B60K 1/00, B60K 6/20; aménagements ou montage des engrenages électriques dans les véhicules B60K 17/12 , B60K 17/14; prévention du patinage des roues en réduisant la puissance dans les véhicules ferroviaires B61C 15/08; machines dynamo-électriques H02K; commande ou régulation des moteurs électriques H02P); FOURNITURE D'ÉNERGIE ÉLECTRIQUE POUR L'ÉQUIPEMENT AUXILIAIRE DES VÉHICULES À PROPULSION ÉLECTRIQUE (dispositifs de couplage électrique combinés avec des couplages mécaniques de véhicules B60D 1/64; chauffage électrique pour véhicules B60H 1/00); SYSTÈMES ÉLECTRODYNAMIQUES DE FREIN POUR VÉHICULES EN GÉNÉRAL (commande ou régulation des moteurs électriques H02P); SUSPENSION OU LÉVITATION MAGNÉTIQUE POUR VÉHICULES; SURVEILLANCE DES VARIABLES DE FONCTIONNEMENT DES VÉHICULES À PROPULSION ÉLECTRIQUE; DISPOSITIFS DE SÉCURITÉ ÉLECTRIQUES POUR VÉHICULES À PROPULSION ÉLECTRIQUE [4]
Réglage des phares du véhicule
Brevet No. 10640033
Inventeur (s): Danil V. Prokhorov (Canton, MI), Michael Paul Rowe (Pinckney, MI), Ryohei Tsuruta (Ann Arbor, MI), Umesh N. Gandhi (Farmington Hills, MI)
Cessionnaire (s): Toyota Motor Engineering Manufacturing North America, Inc. (Plano, Texas)
Cabinet d'avocats: Darrow Mustafa PC (2 bureaux non locaux)
Numéro d'application, date, vitesse: 15929073 le 18/12/2018 (application de 504 jours à émettre)
Abstrait: Un ensemble phare peut comprendre un phare et un ou plusieurs actionneurs positionnés de manière opérationnelle pour régler la position et / ou l'orientation du phare. Le ou les actionneurs comprennent une vessie. La vessie peut comprendre un boîtier flexible. La vessie peut définir une chambre à fluide. La chambre à fluide peut contenir un fluide diélectrique. Le ou les actionneurs peuvent comprendre un premier conducteur et un second conducteur positionnés de manière opérationnelle sur des parties opposées de la vessie. Le ou les actionneurs peuvent être configurés de telle sorte que, lorsque de l'énergie électrique est fournie au premier conducteur et au deuxième conducteur, le premier conducteur et le deuxième conducteur peuvent devenir de charge opposée. Il en résulte que le premier conducteur et le second conducteur sont attirés électrostatiquement l'un vers l'autre pour provoquer le déplacement d'au moins une partie du fluide diélectrique vers une région périphérique externe de la chambre à fluide.
[B60Q] AGENCEMENT DE DISPOSITIFS DE SIGNALISATION OU D'ÉCLAIRAGE, LE MONTAGE OU LE SUPPORT DE CEUX-CI OU LES CIRCUITS ASSOCIÉS POUR LES VÉHICULES EN GÉNÉRAL [4]
Palier de force centrifuge extérieur avec axe de pliage de la lame intérieure dans un ensemble de pales de rotor repliable
Brevet No. 10640205
Inventeur (s): Jared Mark Paulson (Fort Worth, TX), Kyle Thomas Cravener (Watauga, TX), Tyler Wayne Baldwin (Keller, TX)
Cessionnaire (s): Bell Helicopter Textron Inc. (Fort Worth, TX)
Cabinet d'avocats: Winstead PC (Local + 2 autres métros)
Numéro d'application, date, vitesse: 15846011 le 18/12/2017 (application 869 jours à émettre)
Abstrait: Ensemble de pales de rotor pour un avion à rotors basculants comprenant une pale de rotor reliée de façon pivotante à un étrier avec des boulons de pales concentriques doubles ayant un axe central commun fournissant un axe de pivotement à l'intérieur d'un palier CF extérieur et la pointe de l'étrier. En utilisation, l'agencement plié compact des pales de rotor réduit les dimensions de l'avion plié en réponse à des paramètres d'espace de stockage toujours plus restreints.
[B64C] AVIONS; HÉLICOPTÈRES (véhicules à coussin d'air B60V)
Systèmes de ravitaillement modulaires pour avions
Brevet No. 10640215
Inventeur (s): Steven Ray Ivans (Ponder, TX)
Cessionnaire (s): Textron Innovations Inc. (Providence, RI)
Cabinet d'avocats: Lawrence Youst PLLC (local)
Numéro d'application, date, vitesse: 15919459 le 13/03/2018 (application de 784 jours à émettre)
Abstrait: Un système de ravitaillement modulaire pour un avion comprend une baie modulaire encastrée dans l'avion. La baie modulaire comprend une interface de baie modulaire. Le système de ravitaillement modulaire comprend une pluralité de modules de charge utile ayant chacun une fonction respective et une interface de charge utile adaptée pour se connecter à au moins une partie de l'interface de baie modulaire. La pluralité de modules de charge utile comprend un module de ravitaillement en vol. Les modules de charge utile sont interchangeables dans la baie modulaire pour permettre à la baie modulaire de prendre en charge les fonctions des modules de charge utile. Le module de ravitaillement en vol est insérable dans la baie modulaire pour permettre à l'avion de fournir du carburant à l'avion destinataire pendant le vol.
[B64D] ÉQUIPEMENT POUR L'INSTALLATION DANS OU DANS LES AÉRONEFS; COSTUMES VOLANTS; PARACHUTES; AGENCEMENTS OU MONTAGE DE CENTRALES ÉLECTRIQUES OU TRANSMISSIONS À PROPULSION DANS DES AÉRONEFS
Adaptateur de rembobinage de treuil à grande vitesse
Brevet No. 10640326
Inventeur (s): James L. Henderson (Argyle, TX)
Cessionnaire (s): NON ATTRIBUÉ
Cabinet d'avocats: Foley Lardner LLP (Local + 13 autres métros)
Numéro d'application, date, vitesse: 16404599 le 05/06/2019 (application de 365 jours à émettre)
Abstrait: Cette description décrit un adaptateur de rembobinage de treuil à grande vitesse pour rembobiner rapidement une sangle de chargement. Dans une mise en œuvre, l'adaptateur comprend un corps ayant un volume dimensionné pour entourer au moins partiellement une extrémité annulaire du treuil. L'extrémité annulaire est couplée à un mécanisme à cliquet du treuil et ayant au moins un trou pour recevoir une barre de treuil. Un connecteur d'entraînement est positionné à la fois à l'intérieur du volume du corps et à l'extérieur du volume du corps, le connecteur d'entraînement à l'extérieur du volume du corps ayant un profil externe pour recevoir un couple, et le connecteur d'entraînement à l'intérieur du volume du corps insérable dans l'extrémité annulaire du treuil pour l'alignement sur l'axe de rotation. Un mécanisme de couplage synchronise le connecteur d'entraînement avec l'extrémité annulaire de sorte que le connecteur d'entraînement et l'extrémité annulaire tournent simultanément.
[B65H] MANIPULATION DE MATÉRIAUX MINCES OU FILAMENTAIRES, par ex. FEUILLES, WEBS, CABLES
F I X E D C O N S T R U C T I O N S
Serrure portable avec capteurs d'intégrité
Brevet No. 10641013
Inventeur (s): Frank Murtland (Fort Worth, TX)
Cessionnaire (s): Go Lock Technology, Inc. (Spicewood, Texas)
Cabinet d'avocats: Culhane Meadows PLLC (Local + 4 autres métros)
Numéro d'application, date, vitesse: 15998905 le 16/02/2017 (application de 1174 jours à émettre)
Abstrait: La présente invention concerne des ensembles de verrouillage qui comprennent, dans des modes de réalisation particuliers, un ensemble de câbles, un boîtier, un ensemble capteur et un émetteur-récepteur sans fil. L'ensemble de câbles comprend un câble ayant un élément capteur disposé sur sa longueur, une première broche de manille à sa première extrémité et une seconde broche de manille à son extrémité opposée. Le boîtier définit un premier axe pour recevoir la première broche de manille, un deuxième axe pour recevoir la deuxième broche de manille et un mécanisme de verrouillage pour fixer les broches de la manille au boîtier. L'ensemble capteur est situé à l'intérieur du boîtier et en communication avec l'ensemble câble pour détecter un type de câble et une condition de câble liés à l'ensemble câble. L'émetteur-récepteur sans fil est connecté à une source d'alimentation, en communication avec l'ensemble capteur, et exploité par un microcontrôleur à l'intérieur du boîtier.
[E05B] SERRURES; ACCESSOIRES À CET EFFET; MENOTTES
Système et procédé de pistolet perforateur
Brevet No. 10641068
Inventeur (s): Dennis E. Roessler (Fort Worth, TX), John T. Hardesty (Weatherford, TX), Wenbo Yang (Kennedale, TX)
Cessionnaire (s): GEODYNAMICS, INC. (Millsap, TX)
Cabinet d'avocats: Constructeurs de portefeuille de brevets PLLC (4 bureaux non locaux)
Numéro d'application, date, vitesse: 15777527 le 30/11/2017 (application de 887 jours à émettre)
Abstrait: Système de pistolet perforateur ayant des sections de pistolet couplées avec des adaptateurs. Chacune des sections de pistolet est réglable pour être décalée l'une par rapport à l'autre et chaque section de pistolet est également décentralisée par rapport au diamètre intérieur du tubage du puits de forage. Chacune des sections de pistolet est mobile successivement jusqu'à un intervalle dans le tubage du puits de forage pour créer des perforations telles que le pourcentage des ouvertures du tubage soit grand pour un écoulement de fluide substantiel. L'alignement et les diamètres des sections de pistolet sont choisis pour occuper tout le diamètre intérieur du boîtier.
[E21B] FORAGE DE TERRE OU DE ROCHE (exploitation minière, exploitation en carrière E21C; fabrication de puits, galeries ou tunnels d'entraînement E21D); OBTENIR DE L'HUILE, DU GAZ, DE L'EAU, DES MATIÈRES SOLUBLES OU FONDABLES OU UNE BOULE DE MINÉRAUX PROVENANT DE PUITS [5]
Mesure de longueurs d'éléments redimensionnables en fond de trou
Brevet No. 10641082
Inventeur (s): Donald Kyle (Plano, Texas), Paul David Ringgenberg (Frisco, Texas)
Cessionnaire (s): Halliburton Energy Services, Inc. (Houston, TX)
Cabinet d'avocats: Kilpatrick Townsend Stockton LLP (14 bureaux non locaux)
Numéro d'application, date, vitesse: 15754116 le 16/10/2015 (application de 1663 jours à émettre)
Abstrait: Un outil de puits peut comprendre un élément redimensionnable qui est extensible longitudinalement et contractible. L'outil de puits peut comprendre une première unité de capteur acoustique positionnée à une première extrémité longitudinale de l'élément redimensionnable pour recevoir un premier signal acoustique sans fil, en attendant une période de temps prédéfinie, et transmettre un second signal acoustique sans fil après que la période de temps prédéfinie ait écoulé. L'outil de puits peut comprendre une seconde unité de capteur acoustique positionnée à une seconde extrémité longitudinale de l'élément redimensionnable pour transmettre le premier signal acoustique sans fil à une première fois, et recevoir le deuxième signal acoustique sans fil à une seconde fois. La seconde unité de capteur acoustique peut également être positionnée pour déterminer un retard entre le premier et le second temps, et pour déterminer une distance entre la première unité de capteur acoustique et la seconde unité de capteur acoustique sur la base du retard.
[E21B] FORAGE DE TERRE OU DE ROCHE (exploitation minière, exploitation en carrière E21C; fabrication de puits, galeries ou tunnels d'entraînement E21D); OBTENIR DE L'HUILE, DU GAZ, DE L'EAU, DES MATIÈRES SOLUBLES OU FONDABLES OU UNE BOULE DE MINÉRAUX PROVENANT DE PUITS [5]
INGÉNIERIE MÉCANIQUE
ÉCLAIRAGE | CHAUFFAGE | ARMES | SABLAGE
Unité de séchage à grande vitesse pour casier
Brevet No. 10640910
Inventeur (s): John Allen (Desoto, Texas), Sam Allen (Maypearl, Texas)
Cessionnaire (s): NON ATTRIBUÉ
Cabinet d'avocats: Aucun avocat
Numéro d'application, date, vitesse: 16429895 le 06/03/2019 (application de 337 jours à émettre)
Abstrait: Un casier comprend une paire de parois latérales verticales espacées et au moins un compartiment défini entre les parois latérales verticales. Un compartiment de séchage comprend des panneaux horizontaux supérieur et inférieur, au moins l'un des panneaux supérieur et inférieur étant creux et s'étendant au moins partiellement entre les parois latérales du casier. Une paire de parois latérales de compartiment est connectée aux panneaux, au moins une des parois latérales de compartiment étant en communication fluidique avec le au moins un panneau supérieur et inférieur creux. Un panneau arrière perforé est connecté aux parois latérales du compartiment et aux panneaux supérieur et inférieur et est en communication fluide avec l'intérieur du compartiment de séchage. Au moins un ventilateur est disposé dans l'une des parois latérales du compartiment, dans lequel le ventilateur aspire l'air des au moins un panneau supérieur et inférieur creux, le dirige vers l'intérieur du compartiment de séchage, et l'air est évacué du compartiment par le biais de la perforation panneau arrière.
[F26B] SÉCHAGE DE MATIÈRES OU OBJETS SOLIDES EN ÉLIMINANT LE LIQUIDE (dispositifs de séchage pour moissonneuses-batteuses A01D 41/133; grilles pour sécher les fruits ou légumes A01F 25/12; séchage des aliments A23; séchage des cheveux A45D 20/00; instruments de séchage corporel A47K 10/00; séchage d'articles ménagers A47L; séchage de gaz ou de vapeurs B01D; procédés chimiques ou physiques de déshydratation ou de séparation de liquides des solides B01D 43/00; appareils centrifuges B04; séchage de céramiques C04B 33/30; séchage de fils ou de tissus en association avec une autre forme de traitement D06C; cadres de séchage pour le linge sans chauffage ni circulation d'air positive, sèche-linge ou essoreuses domestiques, essorage ou pressage à chaud du linge D06F; fours, fours, fours F27)
Siège à ressort pour valve interne
Brevet No. 10641404
Inventeur (s): FeiFei Ji (Shanghai,, CN), Jing Chen (Shanghai,, CN), Li Li (Shanghai,, CN)
Cessionnaire (s): EMERSON PROCESS MANAGEMENT REGULATOR TECHNOLOGIES, INC. (McKinney, Texas)
Cabinet d'avocats: Marshall, Gerstein Borun LLP (2 bureaux non locaux)
Numéro d'application, date, vitesse: 15635708 le 28/06/2017 (application de 1042 jours à émettre)
Abstrait: Une soupape interne comprend un corps de soupape, une tige de soupape, une soupape champignon et une soupape de purge. La soupape de purge comprend un corps avec un alésage. Un siège de ressort s'adapte à l'intérieur de l'alésage et est couplé à la tige de soupape, et comprend un guide dimensionné pour recevoir la tige de soupape et une ouverture d'écoulement. The flow aperture defines a connecting bleed path that fluidly connects a bleed flow path and a bleed outlet. The valve stem shifts from a first position where the poppet valve and the bleed valve are closed, to a second position where the bleed valve is open and the poppet valve is closed, and a third position where the poppet valve is open and the bleed valve is closed. A spring disposed in the bore bears against the spring seat and is arranged to close the poppet valve and open the bleed valve.
[F16K] VALVES; TAPS; COCKS; ACTUATING-FLOATS; DEVICES FOR VENTING OR AERATING
Method and apparatus for reheat dehumidification with variable air volume
Patent No. 10641516
Inventor(s): Derek Phillips (Carrollton, TX), Rakesh Goel (Irving, TX)
Assignee(s): Lennox Industries LLC (Richardson, TX)
Law Firm: Winstead PC (Local + 2 other metros)
Application No., Date, Speed: 16421789 on 05/24/2019 (347 days app to issue)
Abstract: The HVAC system includes an evaporator coil and a metering device fluidly coupled to the evaporator coil via a distribution line. The HVAC system includes a variable-speed circulation fan for circulating air around the evaporator coil. A temperature sensor is thermally exposed to the distribution line. At least one controller is operatively coupled to the temperature sensor and to the variable-speed circulation fan. The at least one controller adjusts a speed of the variable-speed circulation fan to increase latent capacity of the HVAC system responsive to a determination that a temperature of fluid in the distribution line exceeds an optimal distribution line temperature.
[F24F] AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING (removing dirt or fumes from areas where they are produced B08B 15/00; vertical ducts for carrying away waste gases from buildings E04F 17/02; tops for chimneys or ventilating shafts, terminals for flues F23L 17/02)
P H Y S I C S
Method and apparatus for a precision position sensor
Patent No. 10641597
Inventor(s): Brady Garrett Atkins (Euless, TX), Charles Eric Covington (Colleyville, TX), David Bryan Roberts (Bedford, TX)
Assignee(s): BELL HELICOPTER TEXTRON INC. (Fort Worth, TX)
Law Firm: Chalker Flores, LLP (Local)
Application No., Date, Speed: 15902133 on 02/22/2018 (803 days app to issue)
Abstract: A method and system to measure a parameter associated with a component, device, or system with a specified accuracy, including: providing one or more sensors operably disposed to detect the parameter; obtaining a coarse measurement of the parameter within a first range using the one or more sensors, wherein the first range includes minimum and maximum values for the parameter; obtaining a fine measurement of the parameter within a second range using the one or more sensors, wherein the second range is smaller than the first range and has a specified ratio to the first range that provides the specified accuracy; determining a current value of the parameter by combining the coarse and fine measurements; and providing the current value of the parameter to a communications interface, a storage device, a display, a control panel, a processor, a programmable logic controller, or an external device.
[G01B] MEASURING LENGTH, THICKNESS OR SIMILAR LINEAR DIMENSIONS; MEASURING ANGLES; MEASURING AREAS; MEASURING IRREGULARITIES OF SURFACES OR CONTOURS
Electronically provided guided tours
Patent No. 10641614
Inventor(s): Adam D. Holmstrom (Pinckney, MI), Scott L. Frederick (Brighton, MI), Scott P. Robison (Dexter, MI)
Assignee(s): Toyota Motor Engineering Manufacturing North America, Inc. (Plano, TX)
Law Firm: Darrow Mustafa PC (2 non-local offices)
Application No., Date, Speed: 15633856 on 06/27/2017 (1043 days app to issue)
Abstract: Various arrangements for providing a guided tour are described herein. Generally, the guided tour system determines the location of location sensor(s) along a guided tour. When the location sensor(s) are located at a transition location along a guided tour, the guided tour system selects an active Input/Output (I/O) system for a subsequent segment of the guided tour. The active I/O system is used to render prompts associated with POIs along the guided tour.
[G01C] MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY (measuring liquid level G01F; radio navigation, determining distance or velocity by use of propagation effects, e.g. Doppler effect, propagation time, of radio waves, analogous arrangements using other waves G01S)
Measuring deformation of a compression spring to monitor performance of a safety valve
Patent No. 10641668
Inventor(s): Rajesh Krithivasan (Jacksonville, FL), Roger Dale Danzy (Pineville, LA)
Assignee(s): Dresser, LLC (Addison, TX)
Law Firm: Paul Frank + Collins P.C. (1 non-local offices)
Application No., Date, Speed: 15878152 on 01/23/2018 (833 days app to issue)
Abstract: A safety valve is outfit with sensors to monitor performance. The safety valve may include valve mechanics comprising a closure component moveable relative to a seat. The device may also have a pre-load unit coupled with the closure component. The pre-load unit may utilize a coiled compression spring to generate spring force to keep the closure component in contact with the seat. A strain gauge may be disposed on the compression spring to measure strain, for example, shear strain in the compression spring. Analysis of this data may predict set pressure (or ”set point”). This prediction may, in turn, form a basis for an alert or other indicator that the safety valve requires maintenance or repair.
[G01L] MEASURING FORCE, STRESS, TORQUE, WORK, MECHANICAL POWER, MECHANICAL EFFICIENCY, OR FLUID PRESSURE (weighing G01G) [4]
Automatic transmission shifting performance evaluation
Patent No. 10641683
Inventor(s): Brian F. Jacobs (Alum Creek, WV), Jason D. Carmichael (Ravenswood, WV), John A. Frazier (Fraziers Bottom, WV)
Assignee(s): TOYOTA MOTOR ENGINEERING MANUFACTURING NORTH AMERICA, INC. (Plano, TX)
Law Firm: Oblon, McClelland, Maier Neustadt, L.L.P. (2 non-local offices)
Application No., Date, Speed: 15943233 on 04/02/2018 (764 days app to issue)
Abstract: A method and system of evaluating shift performance of an automatic transmission system having gears and a torque converter. The method includes driving the automatic transmission with an input motor while applying a rotational load by a pair of output motors. A command is applied to a solenoid to change fluid pressure, the time of issuance of the command is recorded, and the transmission shifts between a pair of the gears. Periodic measurements are made for transmission output torque. Threshold values are determined for the torque converter rotation speed and for the transmission output torque. A lag time is determined between the threshold for the turbine speed and the detected time for the solenoid. An engage time is determined based on the torque threshold and the turbine speed threshold. Lag time, peak transmission, and output torque are used to judge performance of the automatic transmission system.
[G01M] TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
Shock strut service monitoring using gas pressure and temperature sensors, combined with physical strut measurement and taking into account gas absorption/desorption in a fluid
Patent No. 10641685
Inventor(s): William E Luce (Colleyville, TX)
Assignee(s): Goodrich Corporation (Charlotte, NC)
Law Firm: Snell Wilmer, L.L.P. (3 non-local offices)
Application No., Date, Speed: 15672075 on 08/08/2017 (1001 days app to issue)
Abstract: In various embodiments, the method may further comprises measuring a third shock strut pressure, measuring a third shock strut temperature, wherein the servicing condition is further based upon the third shock strut pressure and the third shock strut temperature.
[G01M] TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
Tri-electrode apparatus and methods for molecular analysis
Patent No. 10641721
Inventor(s): Anjan Panneer Selvam (Richardson, TX), Shalini Prasad (Allen, TX)
Assignee(s): BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEM (Austin, TX)
Law Firm: Norton Rose Fulbright US LLP (Local + 13 other metros)
Application No., Date, Speed: 14640408 on 03/06/2015 (1887 days app to issue)
Abstract: The claimed invention is an apparatus and method for performing impedance spectroscopy with a handheld measuring device. Conformal analyte sensor circuits comprising a porous nanotextured substrate and a conductive material situated on the top surface of the solid substrate in a circuit design may be used alone or in combination with a handheld potentiometer. Also disclosed are methods of detecting and/or quantifying target analytes in a sample using a handheld measuring device.
[G01N] INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES (measuring or testing processes other than immunoassay, involving enzymes or microorganisms C12M, C12Q)
Fuel sending unit for fuel-type detection
Patent No. 10641755
Inventor(s): Heraldo F. Stefanon (Dexter, MI)
Assignee(s): Toyota Motor Engineering Manufacturing North America, Inc. (Plano, TX)
Law Firm: Darrow Mustafa PC (2 non-local offices)
Application No., Date, Speed: 15829150 on 12/01/2017 (886 days app to issue)
Abstract: A method and device are disclosed for fuel-detection by a fuel sending unit by placing a fuel sending unit in a first position from a second position, and releasing the fuel sending unit from the first position such that a buoyancy characteristic of a fuel sending unit float prompts the fuel sending unit to the second position. A rate-of-travel of the fuel sending unit is sensed from the first position to the second position to produce fluid travel data, wherein the rate-of-travel being affected by a fuel density. Fluid-type identification data may be generated based on the fluid travel data.
[G01N] INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES (measuring or testing processes other than immunoassay, involving enzymes or microorganisms C12M, C12Q)
Multi-layer, multi-material micro-scale and millimeter-scale devices with enhanced electrical and/or mechanical properties
Patent No. 10641792
Inventor(s): Adam L. Cohen (Dallas, TX)
Assignee(s): University of Southern California (Los Angeles, CA)
Law Firm: No Counsel
Application No., Date, Speed: 16236221 on 12/28/2018 (494 days app to issue)
Abstract: Some embodiments of the invention are directed to electrochemical fabrication methods for forming structures or devices (e.g. microprobes for use in die level testing of semiconductor devices) from a core material and a shell or coating material that partially coats the surface of the structure. Other embodiments are directed to electrochemical fabrication methods for producing structures or devices (e.g. microprobes) from a core material and a shell or coating material that completely coats the surface of each layer from which the probe is formed including interlayer regions. Additional embodiments of the invention are directed to electrochemical fabrication methods for forming structures or devices (e.g. microprobes) from a core material and a shell or coating material wherein the coating material is located around each layer of the structure without locating the coating material in inter-layer regions.
[G01R] MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES (indicating correct tuning of resonant circuits H03J 3/12)
Method for applying charge-based-capacitance-measurement with switches using only NMOS or only PMOS transistors
Patent No. 10641804
Inventor(s): Sharad Saxena (Richardson, TX)
Assignee(s): PDF Solutions, Inc. (Santa Clara, CA)
Law Firm: Pillsbury Winthrop Shaw Pittman LLP (9 non-local offices)
Application No., Date, Speed: 15269843 on 09/19/2016 (1324 days app to issue)
Abstract: Described is a CBCM technique that works only with PMOS transistors or only with NMOS transistors. Specifically, a method of monitoring performance of an integrated circuit device using a CBCM technique is disclosed, the method comprising: providing a metrology structure having a pseudo-inverter comprising a pull-up pull-down transistor switch, wherein the transistor switch comprises a pull-up transistor and a pull-down transistor of the same type; charging and discharging a device under test (DUT) coupled to the pseudo-inverter using a non-overlapping clock; measuring capacitance of the DUT with a gate voltage of the pull-up transistor at a preset value; and, using the value of the measured capacitance to estimate a dimension of a structure in the integrated circuit device. The non-overlapping clock is generated by: turning the pull-down transistor off when the pull-up transistor is on; and, turning the pull-down transistor on when the pull-up transistor is off.
[G01R] MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES (indicating correct tuning of resonant circuits H03J 3/12)
Failure detection in a radar system
Patent No. 10641866
Inventor(s): Jasbir Singh Nayyar (Bangalore, , IN), Karthik Ramasubramanian (Bangalore, , IN), Karthik Subburaj (Bangalore, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15229927 on 08/05/2016 (1369 days app to issue)
Abstract: A radar system is provided that includes a receive channel including a complex baseband and a processor coupled to the receive channel to receive a first plurality of digital intermediate frequency (IF) samples from an in-band (I) channel of the complex baseband and a corresponding second plurality of digital IF samples from a quadrature (Q) channel of the complex baseband, wherein the processor is configured to execute instructions to compute at least one failure metric based on the first plurality of digital IF samples and the second plurality of digital IF samples.
[G01S] RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
Resonant illumination driver in an optical distance measurement system
Patent No. 10641869
Inventor(s): Subhash Chandra Venkata Sadhu (Bengaluru, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15662352 on 07/28/2017 (1012 days app to issue)
Abstract: An optical transmitting system for distance measuring includes a modulation signal generator, a light source, and an illumination driver coupled to the modulation signal generator and the light source. The modulation signal generator is configured to generate a modulation signal. The light source is configured to generate an optical waveform with amplitude modulation corresponding with the modulation signal. The illumination driver is configured to drive the light source. The illumination driver includes a switch and a switch driver. The switch is configured to switch between an on state and an off state to drive the light source. The switch driver is configured to drive the switch between the on and off states. The switch driver includes a first inductor and a capacitor in series with the first inductor and the switch.
[G01S] RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
Optimized global positioning system correction message for interoperable train control messaging transport
Patent No. 10641903
Inventor(s): James M. Barrett (Haslet, TX)
Assignee(s): BNSF Railway Company (Fort Worth, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15721498 on 09/29/2017 (949 days app to issue)
Abstract: A method for a precision navigation system (PNS), the PNS, and a back office (BO) server for optimizing an error correction message for interoperable train control messaging transport (ITCM) are provided. The method includes simultaneously receiving (i) a first message containing error correction data from a reference station, and (ii) a second message containing satellite identification information from a rover; determining satellites that are common to the error correction data and the satellite identification information; normalizing the data based on the determined satellites; generating an optimized error correction message based on the normalized data of the determined satellites; and transmitting the standardized error correction message to the rover.
[G01S] RADIO DIRECTION-FINDING; RADIO NAVIGATION; DETERMINING DISTANCE OR VELOCITY BY USE OF RADIO WAVES; LOCATING OR PRESENCE-DETECTING BY USE OF THE REFLECTION OR RERADIATION OF RADIO WAVES; ANALOGOUS ARRANGEMENTS USING OTHER WAVES
Free space grating coupler
Patent No. 10641966
Inventor(s): Qianfan Xu (San Jose, CA), Rongsheng Miao (San Jose, CA), Xiao Shen (San Bruno, CA), Zongrong Liu (Pleasanton, CA)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Conley Rose, P.C. (3 non-local offices)
Application No., Date, Speed: 15463630 on 03/20/2017 (1142 days app to issue)
Abstract: A free space coupling system comprising a waveguide horizontally positioned on an integrated circuit, and a silicon housing coupled to the waveguide, wherein the silicon housing comprises a reflective surface, a first port, wherein the first port is configured to receive light from an optic source positioned substantially parallel to the waveguide at a coupling point, and a second port, wherein the second port is oriented at about ninety degrees with respect to the first port, and wherein the second port is aligned with a grating port on the waveguide.
[G02B] OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS (G02F takes precedence; optical elements specially adapted for use in lighting devices or systems thereof F21V 1/00-F21V 13/00; measuring-instruments, see the relevant subclass of class G01, e.g. optical rangefinders G01C; testing of optical elements, systems, or apparatus G01M 11/00; spectacles G02C; apparatus or arrangements for taking photographs or for projecting or viewing them G03B; sound lenses G10K 11/30; electron and ion “optics” H01J; X-ray “optics” H01J, H05G 1/00; optical elements structurally combined with electric discharge tubes H01J 5/16, H01J 29/89, H01J 37/22; microwave “optics” H01Q; combination of optical elements with television receivers H04N 5/72; optical systems or arrangements in colour television systems H04N 9/00; heating arrangements specially adapted for transparent or reflecting areas H05B 3/84) [7]
Multiport assemblies including a modular adapter support array
Patent No. 10641967
Inventor(s): Monique Lise Cote (Fort Worth, TX)
Assignee(s): Corning Research Development Corporation (Corning, NY)
Law Firm: No Counsel
Application No., Date, Speed: 16193278 on 11/16/2018 (536 days app to issue)
Abstract: A multiport assembly includes a shell defining a cavity positioned within the shell, a plurality of optical adapter assemblies, a modular adapter support array engaged with the plurality of optical adapter assemblies and positioned within the cavity, the modular adapter support array defining a plurality of adapter passageways extending through the modular adapter support array in a longitudinal direction, where each adapter passageway of the plurality of adapter passageways extends around at least a portion of a corresponding optical adapter assembly of the plurality of optical adapter assemblies, and a plurality of optical connector defining respective connector insertion paths extending inward from the plurality of optical connector ports to the cavity.
[G02B] OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS (G02F takes precedence; optical elements specially adapted for use in lighting devices or systems thereof F21V 1/00-F21V 13/00; measuring-instruments, see the relevant subclass of class G01, e.g. optical rangefinders G01C; testing of optical elements, systems, or apparatus G01M 11/00; spectacles G02C; apparatus or arrangements for taking photographs or for projecting or viewing them G03B; sound lenses G10K 11/30; electron and ion “optics” H01J; X-ray “optics” H01J, H05G 1/00; optical elements structurally combined with electric discharge tubes H01J 5/16, H01J 29/89, H01J 37/22; microwave “optics” H01Q; combination of optical elements with television receivers H04N 5/72; optical systems or arrangements in colour television systems H04N 9/00; heating arrangements specially adapted for transparent or reflecting areas H05B 3/84) [7]
Expanding a pupil using replication via beam splitter feeding a waveguide
Patent No. 10642031
Inventor(s): John M. Ferri (Allen, TX), Paul L. Rancuret (McKinney, TX), Vivek Kumar Thakur (Plano, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16403027 on 05/03/2019 (368 days app to issue)
Abstract: The pupil formed by an optical apparatus is expanded by use of a beam splitter to replicate the pupil and a waveguide to further replicate the replicated pupil. An optional rotator element can rotate a portion of the light split by the beam splitter to provide consistent polarization of light in the optical apparatus. In some embodiments, the beam splitter replication expands the pupil in one direction, while the waveguide replication expands the pupil in a second direction.
[G02B] OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS (G02F takes precedence; optical elements specially adapted for use in lighting devices or systems thereof F21V 1/00-F21V 13/00; measuring-instruments, see the relevant subclass of class G01, e.g. optical rangefinders G01C; testing of optical elements, systems, or apparatus G01M 11/00; spectacles G02C; apparatus or arrangements for taking photographs or for projecting or viewing them G03B; sound lenses G10K 11/30; electron and ion “optics” H01J; X-ray “optics” H01J, H05G 1/00; optical elements structurally combined with electric discharge tubes H01J 5/16, H01J 29/89, H01J 37/22; microwave “optics” H01Q; combination of optical elements with television receivers H04N 5/72; optical systems or arrangements in colour television systems H04N 9/00; heating arrangements specially adapted for transparent or reflecting areas H05B 3/84) [7]
Hybrid perovskite material processing
Patent No. 10642147
Inventor(s): Kamil Mielczarek (Rowlett, TX), Michael D. Irwin (Dallas, TX), Vivek V. Dhas (Dallas, TX)
Assignee(s): Hunt Perovskite Technologies LLC (Dallas, TX)
Law Firm: Baker Botts L.L.P. (Local + 8 other metros)
Application No., Date, Speed: 15882307 on 01/29/2018 (827 days app to issue)
Abstract: A method for preparing photoactive perovskite materials. The method comprises the steps of: introducing a lead halide and a first solvent to a first vessel and contacting the lead halide with the first solvent to dissolve the lead halide to form a lead halide solution, introducing a Group 1 metal halide a second solvent into a second vessel and contacting the Group 1 metal halide with the second solvent to dissolve the Group 1 metal halide to form a Group 1 metal halide solution, and contacting the lead halide solution with the Group 1 metal halide solution to form a thin-film precursor ink. The method further comprises depositing the thin-film precursor ink onto a substrate, drying the thin-film precursor ink to form a thin film, annealing the thin film; and rinsing the thin film with a salt solution.
[G03C] PHOTOSENSITIVE MATERIALS FOR PHOTOGRAPHIC PURPOSES; PHOTOGRAPHIC PROCESSES, e.g. CINE, X-RAY, COLOUR OR STEREO-PHOTOGRAPHIC PROCESSES; AUXILIARY PROCESSES IN PHOTOGRAPHY (photographic processes characterised by the use or manipulation of apparatus classifiable per se in subclass G03B, see G03B)
Low voltage ultra-low power continuous time reverse bandgap reference circuit
Patent No. 10642304
Inventor(s): Avinash Shreepathi Bhat (Tucson, AZ)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16180143 on 11/05/2018 (547 days app to issue)
Abstract: A bandgap voltage circuit with a first circuit to generate an output voltage as a sum of a first voltage with an amplitude that is proportional to absolute temperature, and a first feedback voltage with an amplitude that is complementary to absolute temperature, a second circuit to generate a voltage having an amplitude that is complementary to absolute temperature, a scaling circuit to generate a second feedback voltage with an amplitude that is a fraction of the voltage of the control terminal, and a regulator circuit to regulate the first feedback voltage according to the second feedback voltage by controlling a first input current of the first circuit and a second input current of the second circuit.
[G05F] SYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES (regulating the timing or recurrence frequency of pulses in radar or radio navigation systems G01S; regulation of current or voltage, specially adapted for use in electronic time-pieces G04G 19/02; closed-loop systems for regulating non-electric variables by electric means G05D; regulating power supply of digital computers G06F 1/26; for obtaining desired operating characteristics of electromagnets with armatures H01F 7/18; regulating electric power distribution networks H02J; regulating the charging of batteries H02J 7/00; regulating of the output of static converters, e.g. switching regulators, H02M; regulation of the output of electric generators H02N, H02P 9/00; controlling transformers, reactors or choke coils H02P 13/00; regulating frequency response, gain, maximum output, amplitude or bandwidth of amplifiers H03G; regulating tuning of resonant circuits H03J; controlling generators of electronic oscillations or pulses H03L; regulating characteristics of transmission lines H04B; controlling electric light sources H05B 37/02, H05B 39/04, H05B 41/36; electric control of X-ray apparatus H05G 1/30) [5]
Gate driver circuit for reducing deadtime inefficiencies
Patent No. 10642306
Inventor(s): Krishnamurthy Ganapathi Shankar (Bengaluru, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16406104 on 05/08/2019 (363 days app to issue)
Abstract: A driver circuit comprises a first buffer receiving a control signal, and a first transistor coupled to first buffer and an output. A second transistor is coupled to a first current mirror and the output. A third transistor is coupled to the output and an inverter. A fourth transistor receives the inverter”s output at its control input and is coupled to the output. A fifth transistor is coupled to third transistor. The second, third, and fifth transistors receive supply voltage at their respective control inputs. A sixth transistor receives the control signal”s inverse at its control input and is coupled to fifth transistor and a second current mirror. A current source is coupled to second current mirror and a second buffer. A seventh transistor receives the second buffer”s output at its control input and is coupled to first buffer. An eighth transistor is coupled to first buffer and seventh transistor.
[G05F] SYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES (regulating the timing or recurrence frequency of pulses in radar or radio navigation systems G01S; regulation of current or voltage, specially adapted for use in electronic time-pieces G04G 19/02; closed-loop systems for regulating non-electric variables by electric means G05D; regulating power supply of digital computers G06F 1/26; for obtaining desired operating characteristics of electromagnets with armatures H01F 7/18; regulating electric power distribution networks H02J; regulating the charging of batteries H02J 7/00; regulating of the output of static converters, e.g. switching regulators, H02M; regulation of the output of electric generators H02N, H02P 9/00; controlling transformers, reactors or choke coils H02P 13/00; regulating frequency response, gain, maximum output, amplitude or bandwidth of amplifiers H03G; regulating tuning of resonant circuits H03J; controlling generators of electronic oscillations or pulses H03L; regulating characteristics of transmission lines H04B; controlling electric light sources H05B 37/02, H05B 39/04, H05B 41/36; electric control of X-ray apparatus H05G 1/30) [5]
Avionics maintenance training
Patent No. 10642345
Inventor(s): Scott E. Crawford (Prosper, TX)
Assignee(s): Raytheon Company (Waltham, MA)
Law Firm: Schwegman Lundberg Woessner, P.A. (11 non-local offices)
Application No., Date, Speed: 15786234 on 10/17/2017 (931 days app to issue)
Abstract: A virtual training system includes a computing processor, a virtual reality (VR) headset and a sensor to determine a VR hand position. The processor is configured according to computing instructions in a memory device for displaying a first VR scene that includes a first VR object. A second VR scene is displayed within a visual portal in the first VR scene that includes a second VR object. A user VR hand image is displayed in at least one of the first VR scene and the second VR scene based upon the determined VR hand position.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Streaming engine with fetch ahead hysteresis
Patent No. 10642490
Inventor(s): Matthew Pierson (Murphy, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16279757 on 02/19/2019 (441 days app to issue)
Abstract: Disclosed embodiments relate to one or more techniques to control access by a requestor of a computing system to a shared memory resource. In one embodiment, a technique includes determining a number (N) of pending requests to be sent to the memory by the requestor, determining a number (M) of requests that the requestor is limited to sending based on an amount of buffering resources available, and comparing M to N. When N is both greater than zero and less than or equal to M, the requestor sends the N pending requests to the memory. When N is both greater than zero and greater than M, M is compared to a hysteresis value (R) and, when M is less than R, the requestor sends R of the N pending requests to the memory.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Out of order read transfer with host memory buffer
Patent No. 10642496
Inventor(s): Shay Benisty (Beer Sheva, , IL), Tal Sharifie (Lehavim, , IL)
Assignee(s): SanDisk Technologies Inc. (Plano, TX)
Law Firm: Brinks Gilson Lione (7 non-local offices)
Application No., Date, Speed: 15088692 on 04/01/2016 (1495 days app to issue)
Abstract: A storage device may utilize a host memory buffer for re-ordering commands in a submission queue. Out of order commands in a submission queue that uses host virtual buffers that are not the same size may be difficult to search. Accordingly, commands in a submission queue may be correctly ordered in a host memory buffer before being put into the host virtual buffers. When the commands are in order, the search operation for specific data is improved.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Methods, systems and computer readable media for intelligent fetching of data storage device commands from submission queues
Patent No. 10642500
Inventor(s): Shay Benisty (Beer Sheva, , IL)
Assignee(s): SANDISK TECHNOLOGIES LLC (Plano, TX)
Law Firm: Loza Loza, LLP (3 non-local offices)
Application No., Date, Speed: 15908710 on 02/28/2018 (797 days app to issue)
Abstract: Systems and methods for intelligent fetching of data storage device commands from submission queues are provided. One such method involves fetching commands from one or more submission queues, monitoring characteristics of the commands including a command type, predicting a next command based on the monitored command characteristics, monitoring a resource state of a data storage device, selecting a submission queue based on the predicted next command and the resource state, fetching a command from the selected submission queue, and providing the command from the selected submission queue to command processing logic.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Auto-adaptive serverless function management
Patent No. 10642648
Inventor(s): Chen Tian (Union City, CA), Wei Ling (San Jose, CA), Ziang Zu (Union City, CA)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Conley Rose, P.C. (3 non-local offices)
Application No., Date, Speed: 16054541 on 08/03/2018 (641 days app to issue)
Abstract: A method implemented by a cloud computing devices comprises removing, by the cloud computing device, data associated with a function from an execution data structure in response to determining that the function is waiting for an input event, adding, by the cloud computing device, a context associated with the function to a management data structure while the function is waiting for the input event, the context associated with the function comprising software components associated with the function and an intermediate variable associated with the function, executing, by the cloud computing device, the function with the input event in response to receiving the input event, and removing, by the cloud computing device, the context associated with the function from the management data structure in response to receiving the input event.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Producer-side prioritization of message processing
Patent No. 10642668
Inventor(s): Garrett Christopher Young (Wylie, TX), Timothy Austin Geldart (Grapevine, TX)
Assignee(s): Open Text GXS ULC (Halifax, , CA)
Law Firm: Sprinkle IP Law Group (1 non-local offices)
Application No., Date, Speed: 15956556 on 04/18/2018 (748 days app to issue)
Abstract: A message processing system that provides a processing flow, the message processing system comprising an input message consumer configured to consume input messages from an input message queue, where the input messages comprise priority information. The message processing system includes a command producer configured to produce commands for a next step in the processing flow. Each command produced may include a target time determined using priority information extracted from an input message to which that command corresponds. The message processing system comprises a queue for commands. The message processing system further comprises a command consumer configured to select commands that have expired target times from the command queue for processing and consume the selected commands from the command queue.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Regression testing of an application that uses big data as a source of data
Patent No. 10642722
Inventor(s): Fang Wang (Plano, TX)
Assignee(s): INTERNATIONAL BUSINESS MACHINES CORPORATION (Armonk, NY)
Law Firm: Cuenot, Forsythe Kim, LLC (2 non-local offices)
Application No., Date, Speed: 15866086 on 01/09/2018 (847 days app to issue)
Abstract: An application performs a regression test by the application processing a use case. Actual output data generated by the application processing the use case can be compared to expected output data and whether the actual output data matches the expected output data can be determined. Responsive to determining that the actual output data does not match the expected output data, the actual output data can be compared to refreshed source data and whether the actual output data matches the refreshed source data can be determined. Responsive to determining that the actual output data matches the refreshed source data, an automated remedy action can be automatically selected, and the expected output data can be updated with the refreshed source data by implementing the automated remedy action.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Prefetch management in a hierarchical cache system
Patent No. 10642742
Inventor(s): Abhijeet Ashok Chachad (Plano, TX), Bipin Prasad Heremagalur Ramaprasad (Austin, TX), David Matthew Thompson (Dallas, TX), Hung Ong (Plano, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16102862 on 08/14/2018 (630 days app to issue)
Abstract: An apparatus includes a CPU core, a first memory cache with a first line size, and a second memory cache having a second line size larger than the first line size. Each line of the second memory cache includes an upper half and a lower half. A memory controller subsystem is coupled to the CPU core and to the first and second memory caches. Upon a miss in the first memory cache for a first target address, the memory controller subsystem determines that the first target address resulting in the miss maps to the lower half of a line in the second memory cache, retrieves the entire line from the second memory cache, and returns the entire line from the second memory cache to the first memory cache.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Dynamic network database integration system
Patent No. 10642804
Inventor(s): Abdul Rahim F. Mohammed (Richardson, TX), Pawan Kumar Shetty (McKinney, TX)
Assignee(s): BANK OF AMERICA CORPORATION (Charlotte, NC)
Law Firm: Moore Van Allen PLLC (6 non-local offices)
Application No., Date, Speed: 16022497 on 06/28/2018 (677 days app to issue)
Abstract: Embodiments of the present invention relate to apparatuses, systems, methods and computer program products for dynamic network database integration. Specifically, the system typically provides dynamic correlation, transformation and combination of data stored at a plurality of database locations. In some aspects, the system receives a retrieval request for retrieving one or more records. The system then typically retrieves, transforms and dynamically integrates unstructured data stored at disparate database locations to construct one or more structured records. The system may also construct the one or more structured records such that the one or more structured records are compatible with the user interface of the user device application API. The system may also be configured to facilitate dynamic modification of the retrieval request, in run-time, using custom HTTP headers.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Database system, computing device and method for message construction, processing and storage dependent upon satisfaction of predefined requirements
Patent No. 10642812
Inventor(s): Beth Kaye (Suwanee, GA), Stacy Hopkins (Loganville, GA)
Assignee(s): MCKESSON CORPORATION (Irving, TX)
Law Firm: Alston Bird LLP (Local + 10 other metros)
Application No., Date, Speed: 15468510 on 03/24/2017 (1138 days app to issue)
Abstract: A database system, computing device and method are provided to construct and process messages in a manner dependent upon the satisfaction of predefined requirements. In regards to a method, an electronic message is received and a determination is made as to whether the subject of the electronic message is a member of a group for which the predefined requirements are to be satisfied. If so, the method determines whether the predefined requirements are satisfied with respect to the subject of the electronic message. The method also constructs a related message, causes the related message to be transmitted to a request processor and receives a response from the request processor. The method then constructs a response to the electronic message and, in an instance in which the predefined requirements are not satisfied, causes a notification regarding a failure to satisfy the predefined requirements to also be constructed.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Dynamic memory allocation using natural language processing tags
Patent No. 10642890
Inventor(s): Manu J. Kurian (Dallas, TX)
Assignee(s): BANK OF AMERICA CORPORATION (Charlotte, NC)
Law Firm: No Counsel
Application No., Date, Speed: 16059893 on 08/09/2018 (635 days app to issue)
Abstract: A natural language processing system that includes an artificial intelligence (AI) engine, a tagging engine, and a resource allocation engine. The AI engine is configured to receive a set of audio files and to identify concepts within the set of audio files. The AI engine is further configured to determine a usage frequency for each of the identified concepts and to generate an AI-defined tag for concepts with a usage frequency that is greater than a usage frequency threshold. The tagging engine is configured to receive an audio file and to modify metadata for the audio file to include AI-defined tags. The resource allocation engine is configured to identify a storage location from among the plurality of storage devices based on tags associated with the audio file and send the audio file to the identified storage location.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Unified forward and inverse transform architecture
Patent No. 10642921
Inventor(s): Madhukar Budagavi (Plano, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 13668289 on 11/04/2012 (2739 days app to issue)
Abstract: Multiple transform sizes improve video coding efficiency, but also increase the implementation complexity. Furthermore, both forward and inverse transforms need to be supported in various consumer devices. Embodiments provide a unified forward and inverse transform architecture that supports computation of both forward and inverse transforms for multiple transforms sizes using shared hardware circuits. The unified architecture exploits the symmetry properties of forward and inverse transform matrices to achieve hardware sharing across the different transform sizes and also between forward and inverse transform computations.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
System and method to facilitate content distribution
Patent No. 10642925
Inventor(s): Dana Strano (Dallas, TX), Elizabeth Gafford (Dallas, TX)
Assignee(s): ViaTech Publishing Solutions, Inc. (Dallas, TX)
Law Firm: Bell Nunnally Martin LLP (Local)
Application No., Date, Speed: 15836721 on 12/08/2017 (879 days app to issue)
Abstract: Systems and methods are provided that facilitate publishing, distributing, and reading of electronic content. In some embodiments, the systems and methods may include a document conversion module for converting documents uploaded by publishers into an e-reader friendly format (an e-document). The systems and methods may also include a virtual library for making the e-documents available to end users and an active reader module to allow an end user to download and read the e-documents on an end user device. In some embodiments, the systems and methods may include a user management module for digital rights management and control of end user access to the e-documents. In some embodiments, the active reader may include functionality that allows an end user to annotate the e-document and share comments among users.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Systems and methods for determining, collecting, and configuring patient intervention screening information from a pharmacy
Patent No. 10642957
Inventor(s): Kristina Crockett (Atlanta, GA), Roger G. Pinsonneault (Alpharetta, GA)
Assignee(s): MCKESSON CORPORATION (Irving, TX)
Law Firm: Alston Bird LLP (Local + 10 other metros)
Application No., Date, Speed: 14519626 on 10/21/2014 (2023 days app to issue)
Abstract: A healthcare claim transaction may be received by a service provider computer from a pharmacy computer. An intervention service for a patient may be identified and the screening parameters to be obtained from the patient for the intervention service may be identified. The service provider computer may generate a reject response and insert a reject code and/or message notifying the pharmacy of the first screening parameter to obtain from the patient. The rejection response may be sent to the pharmacy computer, which may subsequently send a resubmitted healthcare claim transaction that includes the requested first screening parameter data for the patient. The service provider computer may parse the transaction to identify the data. The iterative process may continue until all of the screening parameter data for the patient is received by the service provider computer, which may transmit that data to a claims processor computer.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Automatic feature point detection for calibration of multi-camera systems
Patent No. 10643091
Inventor(s): Aziz Umit Batur (Torrance, CA), Do-Kyoung Kwon (Allen, TX), Vikram Appia (Dallas, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16542368 on 08/16/2019 (263 days app to issue)
Abstract: In some embodiments, a computer-readable medium stores executable code, which, when executed by a processor, causes the processor to: capture an image of a finder pattern using a camera; locate a predetermined point within the finder pattern; use the predetermined point to identify multiple boundary points on a perimeter associated with the finder pattern; identify fitted boundary lines based on the multiple boundary points; and locate feature points using the fitted boundary lines.
[G06K] RECOGNITION OF DATA; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS (printing per se B41J)
Window grouping and tracking for fast object detection
Patent No. 10643101
Inventor(s): Manu Mathew (Bangalore, , IN), Shyam Jagannathan (Bangalore, , IN), Soyeb Noormohammed Nagori (Bangalore, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15205598 on 07/08/2016 (1397 days app to issue)
Abstract: Disclosed examples include image processing methods and systems to process image data, including computing a plurality of scaled images according to input image data for a current image frame, computing feature vectors for locations of the individual scaled images, classifying the feature vectors to determine sets of detection windows, and grouping detection windows to identify objects in the current frame, where the grouping includes determining first clusters of the detection windows using non-maxima suppression grouping processing, determining positions and scores of second clusters using mean shift clustering according to the first clusters, and determining final clusters representing identified objects in the current image frame using non-maxima suppression grouping of the second clusters. Disclosed examples also include methods and systems to track identified objects from one frame to another using feature vectors and overlap of identified objects between frames to minimize computation intensive operations involving feature vectors.
[G06K] RECOGNITION OF DATA; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS (printing per se B41J)
Differential non-volatile memory cell for artificial neural network
Patent No. 10643119
Inventor(s): Martin Lueker-Boden (Fremont, CA), Pi-Feng Chiu (Milpitas, CA), Wen Ma (Sunnyvale, CA), Won Ho Choi (San Jose, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 16405178 on 05/07/2019 (364 days app to issue)
Abstract: Use of a non-volatile memory array architecture to realize a neural network (BNN) allows for matrix multiplication and accumulation to be performed within the memory array. A unit synapse for storing a weight of a neural network is formed by a differential memory cell of two individual memory cells, such as a memory cells having a programmable resistance, each connected between a corresponding one of a word line pair and a shared bit line. An input is applied as a pattern of voltage values on word line pairs connected to the unit synapses to perform the multiplication of the input with the weight by determining a voltage level on the shared bit line. The results of such multiplications are determined by a sense amplifier, with the results accumulated by a summation circuit.
[G06N] COMPUTER SYSTEMS BASED ON SPECIFIC COMPUTATIONAL MODELS [7]
Order optimization in hybrid cloud networks
Patent No. 10643160
Inventor(s): Saurabh Gupta (Irving, TX)
Assignee(s): International Business Machines Corporation (Armonk, NY)
Law Firm: Scully, Scott, Murphy Presser, P.C. (1 non-local offices)
Application No., Date, Speed: 15406342 on 01/13/2017 (1208 days app to issue)
Abstract: A system, method and computer program product for enhancing on-premise order management systems (OMS) designed for fulfillment transactions with analytic and optimization technologies and services hosted in a shared multi-tenant software-as-a-service (SaaS) environment, such as a hybrid cloud. The computer-implemented method improves an order management system by leveraging a ”punch-out” approach based on user exits to integrate with and augment currently implemented order management processing and transaction flows. Using the hybrid cloud, an entity may retain data such as its accumulated business, sales, test and other data, and then run analytical queries, which can scale to support distributed computing tasks. A framework adaptor/connector is leveraged by the OMS to provide a web client for communicating with and integrating to the SaaS analytics runtime environment, encapsulating all necessary connection pooling, security, and data marshaling complexity away from the order management system to meet strict service response time windows.
[G06Q] DATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR [2006.01]
Real-time processing distributed ledger system
Patent No. 10643202
Inventor(s): Calvin William Tackett, Jr. (Rowlett, TX)
Assignee(s): Bank of America Corporation (Charlotte, NC)
Law Firm: Moore Van Allen PLLC (6 non-local offices)
Application No., Date, Speed: 15659215 on 07/25/2017 (1015 days app to issue)
Abstract: A system, computer program product, and method for executing real-time processing of resource transfers using distributed ledger technology is provided. In particular, the system utilizes a private or semi-private blockchain to create a distributed ledger which comprises a record of all resource transfers between a number of entities. The real-time processing system addresses a number of computer technology-centric challenges associated with executing resource transfers. In particular, executing resource transfers on a real-time basis allows the nodes of the blockchain to more evenly distribute computing workload over time when compared to more traditional resource transfer systems that use batch processing to execute transfers.
[G06Q] DATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR [2006.01]
Identification tags for tracking manufacturing of aircraft parts
Patent No. 10643290
Inventor(s): James Corrigan (Kingston, , CA), Pier-Alexandre Pelletier (Saint-Colomban, , CA)
Assignee(s): BELL HELICOPTER TEXTRON INC. (Fort Worth, TX)
Law Firm: Patent Capital Group (Local + 6 other metros)
Application No., Date, Speed: 14921064 on 10/23/2015 (1656 days app to issue)
Abstract: According to one embodiment, an aircraft component is manufactured from a plurality of separate materials comprising a first material. The first material is physically associated with a tracking device comprising a first storage medium featuring line-of-sight accessible information and a second storage medium featuring non-line-of-sight accessible information. The line-of-sight accessible information and the non-line-of-sight accessible information each comprise information regarding the first material physically associated with the tracking device.
[G06Q] DATA PROCESSING SYSTEMS OR METHODS, SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL, SUPERVISORY OR FORECASTING PURPOSES, NOT OTHERWISE PROVIDED FOR [2006.01]
Ground plane detection for placement of augmented reality objects
Patent No. 10643364
Inventor(s): Geoffrey Dagley (McKinney, TX), Jason Hoover (Grapevine, TX), Micah Price (Anna, TX), Qiaochu Tang (The Colony, TX), Stephen Wylie (Carrollton, TX), Sunil Vasisht (Flower Mound, TX)
Assignee(s): Capital One Services, LLC (McLean, VA)
Law Firm: Harrity Harrity, LLP (1 non-local offices)
Application No., Date, Speed: 16742054 on 01/14/2020 (112 days app to issue)
Abstract: In some implementations, a system may include a camera, a display, one or more memories, and one or more processors communicatively coupled to the one or more memories. The system may identify a horizontal plane in an image being captured by the camera and presented on the display, may determine a size of the horizontal plane, and may determine that the size of the horizontal plane satisfies a threshold. The system may designate the horizontal plane as a ground plane based on determining that the size of the horizontal plane satisfies the threshold. The system may output an indication that the horizontal plane has been designated as the ground plane.
[G06T] IMAGE DATA PROCESSING OR GENERATION, IN GENERAL [2006.01]
Diagnostic method, system and device for a rotorcraft drive system
Patent No. 10643405
Inventor(s): Rodney Keith Hale (Joshua, TX)
Assignee(s): Bell Helicopter Textron Inc. (Fort Worth, TX)
Law Firm: Timmer Law Group, PLLC (1 non-local offices)
Application No., Date, Speed: 15677786 on 08/15/2017 (994 days app to issue)
Abstract: A method, system, and device for diagnosing an anomaly of a monitored component in a drive train, the method including obtaining original data based on samples of a vibration signal; converting the original data to an analytical signal having a real component and an imaginary component; determining complex magnitudes of the analytical signal; processing the complex magnitudes of the analytical signal to produce a frequency-domain signal; and determining complex magnitudes of the frequency-domain signal to generate a shock spectrum.
[G01H] MEASUREMENT OF MECHANICAL VIBRATIONS OR ULTRASONIC, SONIC OR INFRASONIC WAVES [4]
Universal barrier operator transmitter
Patent No. 10643411
Inventor(s): Donald Y. Perkins, Jr. (Richardson, TX), LeRoy G. Krupke (Carrollton, TX)
Assignee(s): GMI HOLDINGS, INC. (Mount Hope, OH)
Law Firm: Haynes and Boone, LLP (Local + 13 other metros)
Application No., Date, Speed: 16153490 on 10/05/2018 (578 days app to issue)
Abstract: Systems and methods for controlling a moving barrier responsive to a transmission by a barrier operator controller comprising a plurality of 4-bit output nibbles generated from a 32 bit rolling code. The bit positions of the rolling code are inverted, divided by 16, converted to four bit base 9 coefficients, each four bit base 9 coefficients is substituted with a corresponding 4-bit output nibble. Receipt of the plurality of 4-bit output nibbles causes a barrier operator to actuate a motor connected to the moving barrier.
[G07C] TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE (identification of persons A61B 5/117; indicating or recording apparatus for measuring in general, analogous apparatus but in which the input is not a variable to be measured, e.g. a hand operation, G01D; clocks, clock mechanisms G04B, G04C; time-interval measuring G04F; counting mechanisms per se G06M)
Controlled environment facility visitation system using personal devices
Patent No. 10643416
Inventor(s): Matthew R. Smith (McKinney, TX)
Assignee(s): Securus Technologies, Inc. (Carrollton, TX)
Law Firm: Fogarty LLP (3 non-local offices)
Application No., Date, Speed: 16573152 on 09/17/2019 (231 days app to issue)
Abstract: A visitation system provides visitation sessions between a resident of a controlled-environment facility and a nonresident, where the nonresident utilizes a personal wireless devices that connects to a wireless access point that may be accessible from a designated visitation area of the facility. A connection request from a personal wireless device of a nonresident is evaluated to determine the personal wireless device is authorized to interface with the visitation system, and whether the nonresident is authorized to communicate with the resident. If authorized, a visitation session between the resident and the nonresident is initiated with the nonresident participating via the personal wireless device. The visitation system may respond to a visitation session request from a registered personal wireless device by sending an access code to the personal wireless device. By confirming the access code, the nonresident may initiate the requested visitation session that terminates upon expiration of the access code.
[G07C] TIME OR ATTENDANCE REGISTERS; REGISTERING OR INDICATING THE WORKING OF MACHINES; GENERATING RANDOM NUMBERS; VOTING OR LOTTERY APPARATUS; ARRANGEMENTS, SYSTEMS OR APPARATUS FOR CHECKING NOT PROVIDED FOR ELSEWHERE (identification of persons A61B 5/117; indicating or recording apparatus for measuring in general, analogous apparatus but in which the input is not a variable to be measured, e.g. a hand operation, G01D; clocks, clock mechanisms G04B, G04C; time-interval measuring G04F; counting mechanisms per se G06M)
Control head with electroluminescent panel in land mobile radio
Patent No. 10643540
Inventor(s): Dulie Reavill (Crowley, TX), Troy Frandsen (Denton, TX), William Earl Dunnigan (Garland, TX)
Assignee(s): E.F. JOHNSON COMPANY (Irving, TX)
Law Firm: Foley Lardner LLP (Local + 13 other metros)
Application No., Date, Speed: 15818563 on 11/20/2017 (897 days app to issue)
Abstract: An exemplary land mobile radio control head and method are provided. In one embodiment, the control head has the capability to utilize halo light of the control head to implement a multi-function indicator that communicates a state of the land mobile radio. In another embodiment, the control head has the capability to provide buffer images constructed from data received from the land mobile radio into a video stream for rendering on an electroluminescent display. In another embodiment, the control head provides the capability for a user to modify a configuration stored on the land mobile radio that defines one of several display modes to be utilized in generating data for use in forming images to be rendered on an electroluminescent display.
[G09G] ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION (arrangements for transferring data between digital computers and displays G06F 3/14; static indicating arrangements comprising an association of a number of separate sources or light control cells G09F 9/00; static indicating arrangements comprising integral associations of a number of light sources H01J, H01K, H01L, H05B 33/12; scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission, details thereof H04N 1/00) [5]
Auxiliary device coupled to a stringed instrument
Patent No. 10643585
Inventor(s): Phillip Geeslin (Weatherford, TX)
Assignee(s): UNASSIGNED
Law Firm: Sanchelima Associates, P.A. (1 non-local offices)
Application No., Date, Speed: 16193744 on 11/16/2018 (536 days app to issue)
Abstract: An auxiliary device coupled to a stringed instrument for producing chords is disclosed. The auxiliary device comprises a housing. The housing comprises a plurality of buttons and a plurality of actuators coupled to the plurality of buttons. Further, the auxiliary device comprises a rim coupled to the housing. In order to couple the auxiliary device to the stringed instrument, a neck of the stringed instrument is placed between the housing and the rim, such that the plurality of actuators are made to come in contact with stings of the stringed instrument. The plurality of buttons is pressed to operate the plurality of actuators. When operated, the plurality of actuators is made to depress to strum the strings to produce a chord.
[G10D] STRINGED MUSICAL INSTRUMENTS; WIND MUSICAL INSTRUMENTS; ACCORDIONS OR CONCERTINAS; PERCUSSION MUSICAL INSTRUMENTS; MUSICAL INSTRUMENTS NOT OTHERWISE PROVIDED FOR (non-musical aspects of musical toy instruments A63H 5/00; organs, harmoniums or like musical instruments with associated blowing apparatus G10B; pianos, harpsichords, spinets or similar stringed musical instruments with one or more keyboards G10C; automatic musical instruments G10F; electrophonic musical instruments G10H; instruments in which the tones are generated by electromechanical means or electronic generators, or in which the tones are synthesised from a data store G10H)
Negative kick on bit line control transistors for faster bit line settling during sensing
Patent No. 10643677
Inventor(s): Hiroki Yabe (Ofuna, , JP)
Assignee(s): SANDISK TECHNOLOGIES LLC (Addison, TX)
Law Firm: Volpe and Koenig, P.C. (3 non-local offices)
Application No., Date, Speed: 16018571 on 06/26/2018 (679 days app to issue)
Abstract: A memory device and associated techniques improve a settling time of bit lines in a memory device during a read or verify operation. Bit line control (BLC) transistors in the sense circuits are briefly turned off during a sensing process. After the read voltage on a selected word line is changed to a second word line level or higher, a control gate voltage of the BLC transistor is lowered. This helps to inhibit a current flow from a sense circuit through a bit line when a voltage of the bit line is settling. The voltage of the bit line may be settling in response to a memory cell coupled to the selected word line undergoing a transition from off to on. A settling time of the bit line is shortened by stopping the current flow from the sense circuit. The transition of the memory cell from off to on is also improved.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Write level arbiter circuitry
Patent No. 10643679
Inventor(s): Daniel B. Penney (Wylie, TX)
Assignee(s): Micron Technology, Inc. (Boise, ID)
Law Firm: Fletcher Yoder, P.C. (1 non-local offices)
Application No., Date, Speed: 16537046 on 08/09/2019 (270 days app to issue)
Abstract: Devices and methods include utilizing memory including a group of storage elements, such as memory banks. A command interface is configured to receive a write command to write data to the memory. A data strobe is received to assist in writing the data to the memory. Phase division circuitry is configured to divide the data strobe into a plurality of phases to be used in writing the data to the memory. Arbiter circuitry is configured to detect which phase of the plurality of phases captures a write start signal for the write command.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Double sense program verification of a memory array
Patent No. 10643684
Inventor(s): Xiang Yang (Santa Clara, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Rowan TELS LLC (no location found)
Application No., Date, Speed: 16352697 on 03/13/2019 (419 days app to issue)
Abstract: A memory controller executes a non-homogeneous bitline biasing program verify operation on bitlines of a memory array, and a homogeneous bitline biasing program verify operation on the bitlines. A count of bitlines responding in a particular way to each type of biasing is used to ascertain the integrity of the memory array.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Adaptive programming voltage for non-volatile memory devices
Patent No. 10643692
Inventor(s): Deepanshu Dutta (San Jose, CA), Huai-Yuan Tseng (San Jose, CA), Xiang Yang (San Jose, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 15910998 on 03/02/2018 (795 days app to issue)
Abstract: Apparatuses, systems, and methods are disclosed for adjusting a programming setting such as a programming voltage of a set of non-volatile storage cells, such as an SLC NAND array. The non-volatile storage cells may be arranged into a plurality of word lines. A subset of the non-volatile storage cells may be configured to store a programming setting. An on-die controller may be configured to read the programming setting from the setting subset, and write data to the non-volatile storage cells, using the programming setting. The on-die controller may further be configured to determine that the programming setting causes suboptimal programming of one or more of the non-volatile storage cells, and in response to the determination, store a revised programming setting on the setting subset.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Concurrent multi-state program verify for non-volatile memory
Patent No. 10643695
Inventor(s): Chia-kai Chou (Newark, CA), Hao Nguyen (San Jose, CA), Mohan Dunga (Santa Clara, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 16244438 on 01/10/2019 (481 days app to issue)
Abstract: A sense amplifier for a memory circuit that can sense into the deep negative voltage threshold region is described. A selected memory cell is sensed by discharging a source line through the memory cell into the bit line and sense amplifier. While discharging the source line through the memory cell into the sense amplifier, a voltage level on the discharge path is used to set the conductivity of a discharge transistor to a level corresponding to the conductivity of the selected memory cell. A sense node is then discharged through the discharge transistor. By allowing the sense amplifier to bias a memory cell being sensed to a selected one of multiple bias levels during a sensing operation, multiple target data states can be concurrently program verified, leading to higher performance when writing data.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Configurable precision neural network with differential binary non-volatile memory cell structure
Patent No. 10643705
Inventor(s): Martin Lueker-Boden (Fremont, CA), Pi-Feng Chiu (Milpitas, CA), Wen Ma (Sunnyvale, CA), Won Ho Choi (San Jose, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 16414143 on 05/16/2019 (355 days app to issue)
Abstract: Use of a non-volatile memory array architecture to realize a neural network (BNN) allows for matrix multiplication and accumulation to be performed within the memory array. A unit synapse for storing a weight of a neural network is formed by a differential memory cell of two individual memory cells, such as a memory cells having a programmable resistance, each connected between a corresponding one of a word line pair and a shared bit line. An input is applied as a pattern of voltage values on word line pairs connected to the unit synapses to perform the multiplication of the input with the weight by determining a voltage level on the shared bit line. The results of such multiplications are determined by a sense amplifier, with the results accumulated by a summation circuit. The approach can be extended from binary weights to multi-bit weight values by use of multiple differential memory cells for a weight.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Toggling power supply for faster bit line settling during sensing
Patent No. 10643713
Inventor(s): Anirudh Amarnath (San Jose, CA), Kenneth Louie (Sunnyvale, CA)
Assignee(s): SANDISK TECHNOLOGIES LLC (Addison, TX)
Law Firm: Volpe and Koenig, P.C. (3 non-local offices)
Application No., Date, Speed: 16271615 on 02/08/2019 (452 days app to issue)
Abstract: A memory device and associated techniques improve a settling time of bit lines in a memory device during a sensing operation, such as read or verify operation. Supply voltage from power supply terminals in the sense circuits is briefly toggled during a discharge of a selected bit line in response to a voltage on a selected word line being increased to a second word line level or higher. This helps to create an electrical path from the selected bit line through to a supply terminal for discharging the selected bit line such that a settling time of a voltage of the selected bit line is shortened in association with a target memory cell transitioning from a non-conductive state to a conductive state.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Non-volatile memory with countermeasure for program disturb including purge during precharge
Patent No. 10643718
Inventor(s): Deepanshu Dutta (Fremont, CA), Dengtao Zhao (Santa Clara, CA), Nan Lu (San Jose, CA), Peng Zhang (San Jose, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 16002825 on 06/07/2018 (698 days app to issue)
Abstract: Program disturb is a condition that includes the unintended programming of a memory cell while performing a programming process for other memory cells. Such unintended programming can cause an error in the data being stored. In some cases, program disturb can result from electrons trapped in the channel being accelerated from one side of a selected word line to another side of the selected word line and redirected into the selected word line. To prevent such program disturb, it is proposed to open the channel from one side of a selected word line to the other side of the selected word line after a sensing operation for program verify and prior to a subsequent programming voltage being applied.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Bit line voltage control for damping memory programming
Patent No. 10643720
Inventor(s): Deepanshu Dutta (Fremont, CA), Gerrit Jan Hemink (San Ramon, CA), Tai-Yuan Tseng (Milpitas, CA), Xiang Yang (Santa Clara, CA), Yan Li (Milpitas, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 15987764 on 05/23/2018 (713 days app to issue)
Abstract: An apparatus includes a programming circuit configured to supply a program pulse to increase a threshold voltage of a memory cell. The apparatus also includes a sensing circuit configured to determine that the threshold voltage of the memory cell satisfies a trigger threshold voltage in response to the program pulse. The apparatus further includes a damping circuit configured to increase a voltage of a bit line connected to the memory cell after initiation of and during a second program pulse in response to the threshold voltage of the memory cell satisfying the trigger threshold voltage, the second program pulse being sent by the programming circuit.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Interleaved program and verify in non-volatile memory
Patent No. 10643721
Inventor(s): Deepanshu Dutta (Freemont, CA), Huai-Yuan Tseng (San Ramon, CA), Xiang Yang (Santa Clara, CA)
Assignee(s): SanDisk Technologies LLC (Addison, TX)
Law Firm: Vierra Magen Marcus LLP (2 non-local offices)
Application No., Date, Speed: 16014850 on 06/21/2018 (684 days app to issue)
Abstract: A circuit includes a program controller configured to perform a program operation with interleaved program-verify loops to program memory cells in a same block. During each program-verify loop, a control gate line voltage supply circuit first supplies a program pulse to a first cell of the block and then, before verifying the first cell, supplies a program pulse to a second cell of the block. After the program pulses are sent, the control gate line supply circuit consecutively supplies verify pulses to the first cell and the second cell such that a delay is introduced between the respective program and verify stages of the first and second cells. Additionally, a constant voltage bias on common control gate lines of the first and second memory cells is applied during the consecutive verify stages. Further, an order of verify pulses may be applied in a reverse order during a verify stage.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
System and method for counting fail bit and reading out the same
Patent No. 10643734
Inventor(s): Christian N. Mohr (Allen, TX)
Assignee(s): Micron Technology, Inc. (Boise, ID)
Law Firm: Dorsey Whitney LLP (6 non-local offices)
Application No., Date, Speed: 16020806 on 06/27/2018 (678 days app to issue)
Abstract: An apparatus may include a memory array, a test circuit coupled to the memory array, a counter circuit coupled to the test circuit and an input/output (I/O) circuit coupled to the counter circuit. During a test operation, the test circuit may receive blocks of data from the memory array and compare the data to detect errors in the blocks of data. The counter circuit may increment a count value in response to detection of an error by the test circuit, and the I/O circuit may provide the count value to an output. The test circuit may also provide test comparison data based on the received blocks of data, and the I/O circuit may provide one of the count value and the test comparison data to the output.
[G11C] STATIC STORES (information storage based on relative movement between record carrier and transducer G11B; semiconductor devices for storage H01L, e.g. H01L 27/108-H01L 27/11597; pulse technique in general H03K, e.g. electronic switches H03K 17/00)
Power converter with reduced undershoot and overshoot during load transients
Patent No. 10644594
Inventor(s): Dattatreya Baragur Suryanarayana (Bangalore, , IN), Kuang-Yao Cheng (Bedford, NH), Muthusubramanian Venkateswaran (Bengaluru, , IN), Preetam Tadeparthy (Bangalore, , IN), Vikram Gakhar (Bangalore, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15799327 on 10/31/2017 (917 days app to issue)
Abstract: A control circuit for a DC-DC converter and a DC-DC converter are disclosed. The control circuit includes an integrator coupled to receive a first reference voltage and a first voltage that includes an output voltage for the DC-DC converter and to provide an integrated error signal. A first comparator is coupled to receive the first reference voltage and the first voltage and to provide a dynamic-integration signal that adjusts the integration time constant of the integrator.
[G05F] SYSTEMS FOR REGULATING ELECTRIC OR MAGNETIC VARIABLES (regulating the timing or recurrence frequency of pulses in radar or radio navigation systems G01S; regulation of current or voltage, specially adapted for use in electronic time-pieces G04G 19/02; closed-loop systems for regulating non-electric variables by electric means G05D; regulating power supply of digital computers G06F 1/26; for obtaining desired operating characteristics of electromagnets with armatures H01F 7/18; regulating electric power distribution networks H02J; regulating the charging of batteries H02J 7/00; regulating of the output of static converters, e.g. switching regulators, H02M; regulation of the output of electric generators H02N, H02P 9/00; controlling transformers, reactors or choke coils H02P 13/00; regulating frequency response, gain, maximum output, amplitude or bandwidth of amplifiers H03G; regulating tuning of resonant circuits H03J; controlling generators of electronic oscillations or pulses H03L; regulating characteristics of transmission lines H04B; controlling electric light sources H05B 37/02, H05B 39/04, H05B 41/36; electric control of X-ray apparatus H05G 1/30) [5]
Wireless infrastructure with distributed fiber networks
Patent No. 10644799
Inventor(s): Glenn A. Wellbrock (Wylie, TX), Tiejun J. Xia (Richardson, TX)
Assignee(s): Verizon Patent and Licensing Inc. (Basking Ridge, NJ)
Law Firm: No Counsel
Application No., Date, Speed: 16220234 on 12/14/2018 (508 days app to issue)
Abstract: Systems described herein provide antenna elements, each of which contains an antenna array and electronics, built into a fiber optic aerial cable to form a hybrid cable. The hybrid cable has a fiber buffer tube including one or more fiber cores, an outer sheath surrounding the fiber buffer tube, and a distributed array of antenna elements around portions of the outer sheath along a length of the hybrid fiber optic cable. Each of the antenna elements includes an antenna and control electronics for the antenna.
[G02B] OPTICAL ELEMENTS, SYSTEMS, OR APPARATUS (G02F takes precedence; optical elements specially adapted for use in lighting devices or systems thereof F21V 1/00-F21V 13/00; measuring-instruments, see the relevant subclass of class G01, e.g. optical rangefinders G01C; testing of optical elements, systems, or apparatus G01M 11/00; spectacles G02C; apparatus or arrangements for taking photographs or for projecting or viewing them G03B; sound lenses G10K 11/30; electron and ion “optics” H01J; X-ray “optics” H01J, H05G 1/00; optical elements structurally combined with electric discharge tubes H01J 5/16, H01J 29/89, H01J 37/22; microwave “optics” H01Q; combination of optical elements with television receivers H04N 5/72; optical systems or arrangements in colour television systems H04N 9/00; heating arrangements specially adapted for transparent or reflecting areas H05B 3/84) [7]
Packet processing match and action unit with stateful actions
Patent No. 10645032
Inventor(s): Hun-Seok Kim (Dallas, TX), Patrick W. Bosshart (Plano, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 14193199 on 02/28/2014 (2258 days app to issue)
Abstract: A packet processing block. The block comprises an input for receiving data in a packet header vector, where the vector comprises data values representing information for a packet. The block also comprises circuitry for performing packet match operations in response to at least a portion of the packet header vector and data stored in a match table and circuitry for performing one or more actions in response to a match detected by the circuitry for performing packet match operations. The one or more actions comprise modifying the data values representing information for a packet. The block also comprises at least one stateful memory comprising stateful memory data values. The one or more actions includes various stateful actions for reading stateful memory, modifying data values representing information for a packet, as a function of the stateful memory data values; and storing modified stateful memory data value back into the stateful memory.
[G06F] ELECTRIC DIGITAL DATA PROCESSING (computer systems based on specific computational models G06N)
Patient video monitoring systems and methods having detection algorithm recovery from changes in illumination
Patent No. 10645346
Inventor(s): Derek del Carpio (Corinth, TX), Matthew Cameron Clark (Frisco, TX)
Assignee(s): CareView Communications, Inc. (Lewisville, TX)
Law Firm: Meister Seelig Fein LLP (1 non-local offices)
Application No., Date, Speed: 14158016 on 01/17/2014 (2300 days app to issue)
Abstract: Various embodiments concern video patient monitoring with detection zones. Various embodiments can comprise a camera, a user interface, and a computing system. The computing system can be configured to perform various steps based on reception of a frame from the camera, including: calculate a background luminance of the frame; monitor for a luminance change of a zone as compared to one or more previous frames, the luminance change indicative of patient motion in the zone; and compare the background luminance to an aggregate background luminance, the aggregate background luminance based on the plurality of frames. If the background luminance changed by more than a predetermined amount, then the aggregate background luminance can be set to the background luminance, luminance information of the previous frames can be disregarded, and motion detection can be disregarded.
[G06T] IMAGE DATA PROCESSING OR GENERATION, IN GENERAL [2006.01]
E L E C T R I C I T Y
Virus immune computer system and method
Patent No. 10642970
Inventor(s): John Almeida (Plano, TX)
Assignee(s): UNASSIGNED
Law Firm: No Counsel
Application No., Date, Speed: 16005399 on 06/11/2018 (694 days app to issue)
Abstract: A method and apparatus prevents hacker code from infecting an application program by requiring decryption of the application program prior to running the application program on a computer. The method includes steps of: providing a security device that is a separate unit from components necessary to operate the computer; storing a symmetric private key on the security device; using the device symmetric private key to produce an encrypted application program upon first installation; thereafter decrypting that part of the encrypted application program needed implement a command to run the application program; and, decrypting, on the fly, only those follow-on parts of the encrypted application program needed to perform functions called for during operation of the application program.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Cantilevered leadframe support structure for magnetic wireless transfer between integrated circuit dies
Patent No. 10643929
Inventor(s): Benjamin Michael Sutton (Dallas, TX), Sreenivasan K Koduri (Allen, TX), Subhashish Mukherjee (Bangalore, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 14275762 on 05/12/2014 (2185 days app to issue)
Abstract: A coupling device provides galvanic isolation using a leadframe that is configured to support two integrated circuit chips in a coplanar manner. Each chip contains an inductive coupling coil. The lead frame includes a set of bond pads for attaching bond wires to couple to the two integrated circuit chips. Two separated die attach pads support the two chips. Each die attach pad is configured to support one of the two integrated circuit chips with a plurality of cantilevered fingers.
[H01L] SEMICONDUCTOR DEVICES; ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR (use of semiconductor devices for measuring G01; resistors in general H01C; magnets, inductors, transformers H01F; capacitors in general H01G; electrolytic devices H01G 9/00; batteries, accumulators H01M; waveguides, resonators, or lines of the waveguide type H01P; line connectors, current collectors H01R; stimulated-emission devices H01S; electromechanical resonators H03H; loudspeakers, microphones, gramophone pick-ups or like acoustic electromechanical transducers H04R; electric light sources in general H05B; printed circuits, hybrid circuits, casings or constructional details of electrical apparatus, manufacture of assemblages of electrical components H05K; use of semiconductor devices in circuits having a particular application, see the subclass for the application) [2]
Additively manufactured programmable resistive jumpers
Patent No. 10643944
Inventor(s): Benjamin Stassen Cook (Addison, TX), Paul Merle Emerson (Madison, AL)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16048774 on 07/30/2018 (645 days app to issue)
Abstract: A first conductive routing structure is electrically connected to a first electronic component. A second conductive routing structure is electrically connected to a second electronic component. An additive deposition process deposits a material over a surface of a processed wafer to form a conductive or resistive structure, which extends from a portion of the first conductive routing structure to a portion of the second conductive routing structure, to configure a circuit including the first and second electronic components.
[H01L] SEMICONDUCTOR DEVICES; ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR (use of semiconductor devices for measuring G01; resistors in general H01C; magnets, inductors, transformers H01F; capacitors in general H01G; electrolytic devices H01G 9/00; batteries, accumulators H01M; waveguides, resonators, or lines of the waveguide type H01P; line connectors, current collectors H01R; stimulated-emission devices H01S; electromechanical resonators H03H; loudspeakers, microphones, gramophone pick-ups or like acoustic electromechanical transducers H04R; electric light sources in general H05B; printed circuits, hybrid circuits, casings or constructional details of electrical apparatus, manufacture of assemblages of electrical components H05K; use of semiconductor devices in circuits having a particular application, see the subclass for the application) [2]
Dense arrays and charge storage devices
Patent No. 10644021
Inventor(s): Igor G. Kouznetsov (Santa Clara, CA), Thomas H. Lee (Cupertino, CA)
Assignee(s): SANDISK TECHNOLOGIES LLC (Addison, TX)
Law Firm: The Marbury Law Group, PLLC (3 non-local offices)
Application No., Date, Speed: 15971293 on 05/04/2018 (732 days app to issue)
Abstract: There is provided a monolithic three dimensional array of charge storage devices which includes a plurality of device levels, wherein at least one surface between two successive device levels is planarized by chemical mechanical polishing.
[H01L] SEMICONDUCTOR DEVICES; ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR (use of semiconductor devices for measuring G01; resistors in general H01C; magnets, inductors, transformers H01F; capacitors in general H01G; electrolytic devices H01G 9/00; batteries, accumulators H01M; waveguides, resonators, or lines of the waveguide type H01P; line connectors, current collectors H01R; stimulated-emission devices H01S; electromechanical resonators H03H; loudspeakers, microphones, gramophone pick-ups or like acoustic electromechanical transducers H04R; electric light sources in general H05B; printed circuits, hybrid circuits, casings or constructional details of electrical apparatus, manufacture of assemblages of electrical components H05K; use of semiconductor devices in circuits having a particular application, see the subclass for the application) [2]
Precision capacitor
Patent No. 10644098
Inventor(s): Haowen Bu (Plano, TX), Luigi Colombo (Dallas, TX), Poornika Fernandes (Murphy, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15902829 on 02/22/2018 (803 days app to issue)
Abstract: In a described example, a method for forming a capacitor includes: forming a capacitor first plate over a non-conductive substrate; flowing ammonia and nitrogen gas into a plasma enhanced chemical vapor deposition (PECVD) chamber containing the non-conductive substrate; stabilizing a pressure and a temperature in the PECVD chamber; turning on radio frequency high frequency (RF-HF) power to the PECVD chamber; pretreating the capacitor first plate for at least 60 seconds; depositing a capacitor dielectric on the capacitor first plate; and depositing a capacitor second plate on the capacitor dielectric.
[H01L] SEMICONDUCTOR DEVICES; ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR (use of semiconductor devices for measuring G01; resistors in general H01C; magnets, inductors, transformers H01F; capacitors in general H01G; electrolytic devices H01G 9/00; batteries, accumulators H01M; waveguides, resonators, or lines of the waveguide type H01P; line connectors, current collectors H01R; stimulated-emission devices H01S; electromechanical resonators H03H; loudspeakers, microphones, gramophone pick-ups or like acoustic electromechanical transducers H04R; electric light sources in general H05B; printed circuits, hybrid circuits, casings or constructional details of electrical apparatus, manufacture of assemblages of electrical components H05K; use of semiconductor devices in circuits having a particular application, see the subclass for the application) [2]
Active semiconductor device on high-resistivity substrate and method therefor
Patent No. 10644148
Inventor(s): Xiaowei Ren (Plano, TX)
Assignee(s): NXP USA, Inc. (Austin, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16002354 on 06/07/2018 (698 days app to issue)
Abstract: An active semiconductor device, such as a laterally diffused metal oxide semiconductor (LDMOS) transistor, includes a substrate having a substrate resistivity of at least 1 kohm-cm. An active area of the active semiconductor device is formed in the substrate. A doped implant region is formed in the substrate surrounding the active area of the active semiconductor device and a field oxide region is formed over the doped implant region. The doped implant region may include a boron dopant. Methodology entails forming the doped implant region prior to formation of the field oxide region.
[H01L] SEMICONDUCTOR DEVICES; ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR (use of semiconductor devices for measuring G01; resistors in general H01C; magnets, inductors, transformers H01F; capacitors in general H01G; electrolytic devices H01G 9/00; batteries, accumulators H01M; waveguides, resonators, or lines of the waveguide type H01P; line connectors, current collectors H01R; stimulated-emission devices H01S; electromechanical resonators H03H; loudspeakers, microphones, gramophone pick-ups or like acoustic electromechanical transducers H04R; electric light sources in general H05B; printed circuits, hybrid circuits, casings or constructional details of electrical apparatus, manufacture of assemblages of electrical components H05K; use of semiconductor devices in circuits having a particular application, see the subclass for the application) [2]
Optical sensor with integrated pinhole
Patent No. 10644173
Inventor(s): Henry Litzmann Edwards (Garland, TX), James Becker (Sunnyvale, CA)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16042020 on 07/23/2018 (652 days app to issue)
Abstract: An optical sensor includes a semiconductor substrate having a first conductive type. The optical sensor further includes a photodiode disposed on the semiconductor substrate and a metal layer. The photodiode includes a first semiconductor layer having the first conductive type and a second semiconductor layer, formed on the first semiconductor layer, including a plurality of cathodes having a second conductive type. The first semiconductor layer is configured to collect photocurrent upon reception of incident light. The cathodes are configured to be electrically connected to the first semiconductor layer and the second semiconductor layer is configured to, based on the collected photocurrent, to track the incident light. The metal layer further includes a pinhole configured to collimate the incident light, and the plurality of cathodes form a rotational symmetry of order n with respect to an axis of the pinhole.
[H01L] SEMICONDUCTOR DEVICES; ELECTRIC SOLID STATE DEVICES NOT OTHERWISE PROVIDED FOR (use of semiconductor devices for measuring G01; resistors in general H01C; magnets, inductors, transformers H01F; capacitors in general H01G; electrolytic devices H01G 9/00; batteries, accumulators H01M; waveguides, resonators, or lines of the waveguide type H01P; line connectors, current collectors H01R; stimulated-emission devices H01S; electromechanical resonators H03H; loudspeakers, microphones, gramophone pick-ups or like acoustic electromechanical transducers H04R; electric light sources in general H05B; printed circuits, hybrid circuits, casings or constructional details of electrical apparatus, manufacture of assemblages of electrical components H05K; use of semiconductor devices in circuits having a particular application, see the subclass for the application) [2]
Multi-channel power combiner with phase adjustment
Patent No. 10644374
Inventor(s): Abdellatif Bellaouar (Richardson, TX), See Taur Lee (Richardson, TX), Sher Jiung Fang (Richardson, TX)
Assignee(s): GLOBALFOUNDRIES INC. (Grand Cayman, , KY)
Law Firm: Williams Morgan, P.C. (1 non-local offices)
Application No., Date, Speed: 16366447 on 03/27/2019 (405 days app to issue)
Abstract: Power combiners having increased output power, such as may be useful in millimeter-wave devices. The power combiner comprise at least two channels, wherein each channel comprises a phase alignment circuit, wherein the phase alignment circuit comprises a first differential input subcircuit comprising a first inverter and a second inverter, and a second differential input subcircuit comprising a third inverter and a fourth inverter, wherein the first inverter, the second inverter, the third inverter, and the fourth inverter each comprise a PMOS transistor and an NMOS transistor each having an adjustable back gate bias voltage. By adjusting the back gate bias voltage, the phases of the signal through each channel may be aligned, which may increase the output power of the power combiner. Methods of increasing output power of such power combiners. Systems for manufacturing devices comprising such power combiners.
[H03K] PULSE TECHNIQUE (measuring pulse characteristics G01R; modulating sinusoidal oscillations with pulses H03C; transmission of digital information H04L; discriminator circuits detecting phase difference between two signals by counting or integrating cycles of oscillation H03D 3/04; automatic control, starting, synchronisation or stabilisation of generators of electronic oscillations or pulses where the type of generator is irrelevant or unspecified H03L; coding, decoding or code conversion, in general H03M) [4]
Electrical outlet cover with integrated lighting
Patent No. 10644465
Inventor(s): Donnye Winship (Dallas, TX), Michael O”Reilly (Dallas, TX)
Assignee(s): O”Reilly Winship, LLC (Dallas, TX)
Law Firm: Carstens Cahoon, LLP (Local)
Application No., Date, Speed: 16381822 on 04/11/2019 (390 days app to issue)
Abstract: A lighting device and system having a faceplate and a backplate. The faceplate or the backplate may have an arm or a set of arms having electrical conductors to connect or couple to the electrical contact points of an outlet, plug, or switch. The electrical conductors can receive a voltage from a voltage source such as an AC voltage source. A voltage regulation circuit may provide for the regulation or conversion of the voltage source. A switch can allow for a control circuit connected to the voltage regulation circuit to be bypassed or switch from one operational mode to another operational mode. The operational modes may be in an emergency lighting mode, and a nightlight mode. The voltage source can be connected to a light source or sensor through the control circuit or the switch, and the light source may be activated based on the output of the sensor.
[H02G] INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES (insulated conductors or cables with arrangements for facilitating mounting or securing H01B 7/40; distribution points incorporating switches H02B; guiding telephone cords H04M 1/15; cable ducts or mountings for telephone or telegraph exchange installations H04Q 1/06)
Etched planarized VCSEL
Patent No. 10644482
Inventor(s): Andy MacInnes (Allen, TX), Luke Graham (Allen, TX)
Assignee(s): Finisar Corporation (Sunnyvale, CA)
Law Firm: Maschoff Brennan (5 non-local offices)
Application No., Date, Speed: 16351214 on 03/12/2019 (420 days app to issue)
Abstract: An etched planarized VCSEL includes: an active region; a blocking region over the active region, and defining apertures therein; and conductive channel cores in the apertures, wherein the conductive channel cores and blocking region form an isolation region. A method of making the VCSEL includes: forming the active region; forming the blocking region over the active region; etching the apertures in the blocking region; and forming the conductive channel cores in the apertures of the blocking region. Another etched planarized VCSEL includes: an active region; a conductive region over the active region, and defining apertures therein; and blocking cores in the apertures, wherein the blocking cores and conductive region form an isolation region. A method of making the VCSEL includes: forming the active region; forming the conductive region over the active region; etching the apertures in the conductive region; and forming the blocking cores in the apertures of the conductive region.
[H01S] DEVICES USING STIMULATED EMISSION
Low profile raceway
Patent No. 10644487
Inventor(s): Clinton Strong (Dallas, TX)
Assignee(s): Legrand Connectrac (Dallas, TX)
Law Firm: Ferguson Braswell Fraser Kubasta PC (3 non-local offices)
Application No., Date, Speed: 16411468 on 05/14/2019 (357 days app to issue)
Abstract: In various implementations, a raceway may include a housing with walls and arms extending from the housing. A cavity may be disposed in the housing and cables may reside in the cavity, during use. The cables may provide connectivity to receptacles of the raceway and thus a variety of devices. A cover may be utilized with the housing to facilitate access to the cables in the cavity of the housing. In some implementations, the cover may be retained by flexible arms of the housing. The raceway may be configured to receive wire clips to retain cables and/or conduit disposed in a cavity of the raceway.
[H02G] INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES (insulated conductors or cables with arrangements for facilitating mounting or securing H01B 7/40; distribution points incorporating switches H02B; guiding telephone cords H04M 1/15; cable ducts or mountings for telephone or telegraph exchange installations H04Q 1/06)
Galvanic isolation for relay device
Patent No. 10644495
Inventor(s): Ajinder Singh (Murphy, TX), Barry J. Male (West Granby, CT), David W. Stout (Lewisville, TX), Miroslav Oljaca (Allen, TX)
Assignee(s): Texas Instruments Incorporated (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15689246 on 08/29/2017 (980 days app to issue)
Abstract: One example includes a relay device that is comprised of a galvanic isolation barrier, a protection control and power extractor, and an electronic switch. The galvanic isolation barrier is coupled to an input of the relay device and receives a switch control signal and outputs another switch control signal. The protection control and power extractor is coupled to an output of the galvanic isolation barrier. The protection control and power extractor extracts power from a power supply coupled to the relay device. The protection control and power extractor is responsive to the other switch control signal and generates a protection signal in response to a determination of an operating parameter of the relay device. The protection control and power extractor further outputs an electronic switch device signal based on the generated protection signal.
[H02H] EMERGENCY PROTECTIVE CIRCUIT ARRANGEMENTS (indicating or signalling undesired working conditions G01R, e.g. G01R 31/00, G08B; locating faults along lines G01R 31/08; emergency protective devices H01H)
DC-DC power conversion circuitry with efficiency optimization using temperature sensing
Patent No. 10644581
Inventor(s): Erhan Ozalevli (Richardson, TX), Mustapha El Markhi (Richardson, TX), Tuli Dake (McKinney, TX)
Assignee(s): Texas Instruments Incorporated (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15801295 on 11/01/2017 (916 days app to issue)
Abstract: In a described example, an apparatus includes: transistor having a first terminal coupled to an input terminal, a second terminal coupled to an output terminal, and a gate terminal; a temperature sensor configured to sense a junction temperature of the transistor and generate a temperature signal based on the sensed junction temperature; and a gate driver circuit configured to generate a gate signal based on the temperature signal and to output the gate signal to the gate terminal of the transistor.
[H03K] PULSE TECHNIQUE (measuring pulse characteristics G01R; modulating sinusoidal oscillations with pulses H03C; transmission of digital information H04L; discriminator circuits detecting phase difference between two signals by counting or integrating cycles of oscillation H03D 3/04; automatic control, starting, synchronisation or stabilisation of generators of electronic oscillations or pulses where the type of generator is irrelevant or unspecified H03L; coding, decoding or code conversion, in general H03M) [4]
Methods, apparatus, and system to provide a high-efficiency drive for a floating power device
Patent No. 10644583
Inventor(s): Brian Ashley Carpenter (Cary, NC)
Assignee(s): Texas Instruments Incorporated (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16002756 on 06/07/2018 (698 days app to issue)
Abstract: Methods and apparatus to provide a high-efficiency drive for a floating gate are disclosed. An example apparatus includes a driver including a supply terminal, the driver configured to output a third voltage corresponding to the supply terminal, the driver to drive a gate of a transistor in a power converter; and a second capacitor to be charged using a first discharging current of a first capacitor and discharged at the supply terminal of the driver, the driver to drive the gate of the transistor based on a second discharging current from the second capacitor.
[H02M] APPARATUS FOR CONVERSION BETWEEN AC AND AC, BETWEEN AC AND DC, OR BETWEEN DC AND DC, AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS; CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER; CONTROL OR REGULATION THEREOF (conversion of current or voltage specially adapted for use in electronic time-pieces with no moving parts G04G 19/02; systems for regulating electric or magnetic variables in general, e.g. using transformers, reactors or choke coils, combination of such systems with static converters G05F; for digital computers G06F 1/00; transformers H01F; connection or control of one converter with regard to conjoint operation with a similar or other source of supply H02J; dynamo-electric converters H02K 47/00; controlling transformers, reactors or choke coils, control or regulation of electric motors, generators or dynamo-electric converters H02P; pulse generators H03K) [5]
Power factor correction (PFC) device with switching analysis circuit
Patent No. 10644585
Inventor(s): Zhong Ye (Plano, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16189130 on 11/13/2018 (539 days app to issue)
Abstract: An apparatus includes an alternating current (AC) input node. The apparatus also includes a power factor correction (PFC) circuit with a first inductor coupled between the AC input node and a switch node. The apparatus also includes a switching analysis circuit for the PFC circuit. The switching analysis circuit includes a second inductor inductively coupled to the first inductor. The switching analysis circuit also includes a rectifier coupled to the second inductor. The switching analysis circuit also includes a sensing resistor coupled to the rectifier.
[H02M] APPARATUS FOR CONVERSION BETWEEN AC AND AC, BETWEEN AC AND DC, OR BETWEEN DC AND DC, AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS; CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER; CONTROL OR REGULATION THEREOF (conversion of current or voltage specially adapted for use in electronic time-pieces with no moving parts G04G 19/02; systems for regulating electric or magnetic variables in general, e.g. using transformers, reactors or choke coils, combination of such systems with static converters G05F; for digital computers G06F 1/00; transformers H01F; connection or control of one converter with regard to conjoint operation with a similar or other source of supply H02J; dynamo-electric converters H02K 47/00; controlling transformers, reactors or choke coils, control or regulation of electric motors, generators or dynamo-electric converters H02P; pulse generators H03K) [5]
Power converter controller
Patent No. 10644595
Inventor(s): Anmol Sharma (Freising, , DE), Franz Prexl (Niederding, , DE)
Assignee(s): Texas Instruments Incorporated (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16378837 on 04/09/2019 (392 days app to issue)
Abstract: A circuit, comprising a trapezoidal generator that comprises digital logic configured to couple at a first input to a loop controller and at a second input to a buck-boost region detector and a driver coupled to an output of the digital logic and configured to couple to at least one power transistor of a power converter.
[H02M] APPARATUS FOR CONVERSION BETWEEN AC AND AC, BETWEEN AC AND DC, OR BETWEEN DC AND DC, AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS; CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER; CONTROL OR REGULATION THEREOF (conversion of current or voltage specially adapted for use in electronic time-pieces with no moving parts G04G 19/02; systems for regulating electric or magnetic variables in general, e.g. using transformers, reactors or choke coils, combination of such systems with static converters G05F; for digital computers G06F 1/00; transformers H01F; connection or control of one converter with regard to conjoint operation with a similar or other source of supply H02J; dynamo-electric converters H02K 47/00; controlling transformers, reactors or choke coils, control or regulation of electric motors, generators or dynamo-electric converters H02P; pulse generators H03K) [5]
Switching converter with output inductor estimator circuit
Patent No. 10644598
Inventor(s): Abdelhalim Alsharqawi (Richardson, TX), Artur Juliusz Lewinski Komincz (Dallas, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16368370 on 03/28/2019 (404 days app to issue)
Abstract: An automotive system includes a battery and a switching converter circuit. The switching converter circuit includes an output inductor estimator circuit coupled to a driver and a switch node of the switching converter circuit. The output inductor estimator circuit is configured to estimate inductance for an output inductor based on a comparison of sampled voltages from the switch node with voltage error values obtained using an adjustable estimated inductance parameter. The output inductor estimator circuit is configured to provide a signal indicating the estimated inductance for the output inductor.
[H02M] APPARATUS FOR CONVERSION BETWEEN AC AND AC, BETWEEN AC AND DC, OR BETWEEN DC AND DC, AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS; CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER; CONTROL OR REGULATION THEREOF (conversion of current or voltage specially adapted for use in electronic time-pieces with no moving parts G04G 19/02; systems for regulating electric or magnetic variables in general, e.g. using transformers, reactors or choke coils, combination of such systems with static converters G05F; for digital computers G06F 1/00; transformers H01F; connection or control of one converter with regard to conjoint operation with a similar or other source of supply H02J; dynamo-electric converters H02K 47/00; controlling transformers, reactors or choke coils, control or regulation of electric motors, generators or dynamo-electric converters H02P; pulse generators H03K) [5]
Auxiliary power supply apparatus and method for isolated power converters
Patent No. 10644607
Inventor(s): Heping Dai (Plano, TX), Liming Ye (Frisco, TX), Yushan Li (Allen, TX)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Slater Matsil, LLP (Local + 1 other metros)
Application No., Date, Speed: 15819209 on 11/21/2017 (896 days app to issue)
Abstract: An apparatus includes a pulse-width modulation (PWM) generator configured to generate a PWM signal for controlling a power switch of a power converter, a bias switch and a bias capacitor connected in series and coupled to a magnetic winding of the power converter and a comparator having a first input connected to the bias capacitor, a second input connected to a predetermined reference and an output configured to generate a signal for controlling the bias switch to allow a magnetizing current from the magnetic winding to charge the bias capacitor when a voltage across the bias capacitor is less than the predetermined reference.
[H02M] APPARATUS FOR CONVERSION BETWEEN AC AND AC, BETWEEN AC AND DC, OR BETWEEN DC AND DC, AND FOR USE WITH MAINS OR SIMILAR POWER SUPPLY SYSTEMS; CONVERSION OF DC OR AC INPUT POWER INTO SURGE OUTPUT POWER; CONTROL OR REGULATION THEREOF (conversion of current or voltage specially adapted for use in electronic time-pieces with no moving parts G04G 19/02; systems for regulating electric or magnetic variables in general, e.g. using transformers, reactors or choke coils, combination of such systems with static converters G05F; for digital computers G06F 1/00; transformers H01F; connection or control of one converter with regard to conjoint operation with a similar or other source of supply H02J; dynamo-electric converters H02K 47/00; controlling transformers, reactors or choke coils, control or regulation of electric motors, generators or dynamo-electric converters H02P; pulse generators H03K) [5]
Low power radio frequency signal detector
Patent No. 10644663
Inventor(s): Kumar Anurag Shrivastava (Bengaluru, , IN), Sreeram Subramanyam Nasum (Bengaluru, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16220357 on 12/14/2018 (508 days app to issue)
Abstract: A low power radio frequency (RF) signal detector comprising a set of transistors, a bias input circuitry configured to apply bias to each of the set of transistors, and a differential signal input circuitry configured to apply a pair of differential signals to the set of transistors, wherein the pair of differential signals increases or decreases bias applied to the set of transistors to achieve low power, high frequency RF signal detection.
[H03F] AMPLIFIERS (measuring, testing G01R; optical parametric amplifiers G02F; circuit arrangements with secondary emission tubes H01J 43/30; masers, lasers H01S; dynamo-electric amplifiers H02K; control of amplification H03G; coupling arrangements independent of the nature of the amplifier, voltage dividers H03H; amplifiers capable only of dealing with pulses H03K; repeater circuits in transmission lines H04B 3/36, H04B 3/58; application of speech amplifiers in telephonic communication H04M 1/60, H04M 3/40)
Offset cancellation scheme
Patent No. 10644664
Inventor(s): Gerd Schuppener (Allen, TX), Jikai Chen (Allen, TX), Yanli Fan (Allen, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15716091 on 09/26/2017 (952 days app to issue)
Abstract: An offset cancellation circuit and method are provided where successive stages of cascaded amplifiers are operated in a saturated state. Biasing is provided, by a feedback amplifier, connected in a feedback loop for each cascaded amplifier, so as to be responsive, in a non-saturated state, to the input of an associated amplifier stage operating in the saturated state.
[H03F] AMPLIFIERS (measuring, testing G01R; optical parametric amplifiers G02F; circuit arrangements with secondary emission tubes H01J 43/30; masers, lasers H01S; dynamo-electric amplifiers H02K; control of amplification H03G; coupling arrangements independent of the nature of the amplifier, voltage dividers H03H; amplifiers capable only of dealing with pulses H03K; repeater circuits in transmission lines H04B 3/36, H04B 3/58; application of speech amplifiers in telephonic communication H04M 1/60, H04M 3/40)
Differentiator circuit
Patent No. 10644677
Inventor(s): Shawn Xianggang Yu (Tucson, AZ)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16132337 on 09/14/2018 (599 days app to issue)
Abstract: Aspect of the present disclosure provide for a circuit. In an example, the circuit comprises a multiplexer having a first input, a second input, a control input, and an output. The circuit further comprises a first register having an input coupled to the output of the multiplexer and an output. The circuit further comprises a second register having an input coupled to the output of the first register and an output. The circuit further comprises a subtractor having a first input coupled to the output of the multiplexer and a second input coupled to the output of the second register. The circuit further comprises a third register having an input coupled to the output of the subtractor and an output coupled to the first input of the multiplexer.
[H03H] IMPEDANCE NETWORKS, e.g. RESONANT CIRCUITS; RESONATORS (measuring, testing G01R; arrangements for producing a reverberation or echo sound G10K 15/08; impedance networks or resonators consisting of distributed impedances, e.g. of the waveguide type, H01P; control of amplification, e.g. bandwidth control of amplifiers, H03G; tuning resonant circuits, e.g. tuning coupled resonant circuits, H03J; networks for modifying the frequency characteristics of communication systems H04B)
Power-on reset circuit with reset transition delay
Patent No. 10644693
Inventor(s): Amneh Mohammad Akour (Richardson, TX), Nikolaus Klemmer (Dallas, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15299458 on 10/20/2016 (1293 days app to issue)
Abstract: A power-on-reset (POR) circuit for CMOS logic is operable to transition between a POR_active state and a POR_inactive state and can include: (a) VDD/VT threshold circuitry to provide a Vtp_threshold voltage based on input Vdd and PMOS Vtp, and a Vtn_threshold voltage based on input Vdd and NMOS Vtn; (b) POR transition detect circuitry to provide a POR_transition signal (active/inactive) based on a function(Vtp,Vtn), which is a function of Vtp_threshold and Vtn_threshold; and (c) POR transition control circuitry to provide the POR_state signal (active/inactive) based on the POR_transition signal. For a POR out-of-reset transition, the POR transition detect circuitry to switch the POR_transition signal inactive based on the function (Vtp,Vtn) corresponding to the POR_inactive state, and the POR transition control circuitry, responsive to the POR_transition signal switching to inactive, to initiate a POR out-of-reset delay period, and to signal the POR_inactive state after the POR out-of-reset delay period.
[H03K] PULSE TECHNIQUE (measuring pulse characteristics G01R; modulating sinusoidal oscillations with pulses H03C; transmission of digital information H04L; discriminator circuits detecting phase difference between two signals by counting or integrating cycles of oscillation H03D 3/04; automatic control, starting, synchronisation or stabilisation of generators of electronic oscillations or pulses where the type of generator is irrelevant or unspecified H03L; coding, decoding or code conversion, in general H03M) [4]
Material-discernment proximity sensor
Patent No. 10644697
Inventor(s): Thomas Almholt (Murphy, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15041729 on 02/11/2016 (1545 days app to issue)
Abstract: A material-discerning sensing device includes an antenna, a capacitive proximity sensor, and a control circuit. The antenna includes multiple conductive loops and is configured to radiate a wireless signal. The antenna defines an interior region devoid of the conductive loops and an exterior region outside the conductive loops. The capacitive proximity sensor includes a conductive pattern provided within the interior region or within a projection of the interior region, as well as a conductive bar. The control circuit is configured to detect a change in a characteristic of an electrical signal from the capacitive sensor. The conductive pattern includes a longitudinal portion, a first plurality of parallel conductors extending away from the longitudinal portion in a first direction and orthogonal to the longitudinal portion, and a second plurality of parallel conductors extending away from the longitudinal portion in a second direction opposite the first direction.
[H03K] PULSE TECHNIQUE (measuring pulse characteristics G01R; modulating sinusoidal oscillations with pulses H03C; transmission of digital information H04L; discriminator circuits detecting phase difference between two signals by counting or integrating cycles of oscillation H03D 3/04; automatic control, starting, synchronisation or stabilisation of generators of electronic oscillations or pulses where the type of generator is irrelevant or unspecified H03L; coding, decoding or code conversion, in general H03M) [4]
Lower voltage switching of current mode logic circuits
Patent No. 10644699
Inventor(s): Steven Ernest Finn (Chamblee, GA)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15993725 on 05/31/2018 (705 days app to issue)
Abstract: A circuit includes a first transistor comprising a first control input and first and second current terminals, the first control input coupled to receive a first input control signal, and the first current terminal coupled to a first power supply node. The circuit also includes a first resistor coupled to the first control input of the first transistor, a first capacitor coupled between the second current terminal of the first transistor and the first resistor and a second transistor comprising a second control input and third and fourth current terminals, the third current terminal coupled to the first resistor and to the first capacitor.
[H03K] PULSE TECHNIQUE (measuring pulse characteristics G01R; modulating sinusoidal oscillations with pulses H03C; transmission of digital information H04L; discriminator circuits detecting phase difference between two signals by counting or integrating cycles of oscillation H03D 3/04; automatic control, starting, synchronisation or stabilisation of generators of electronic oscillations or pulses where the type of generator is irrelevant or unspecified H03L; coding, decoding or code conversion, in general H03M) [4]
Level shifter and method of calibration
Patent No. 10644702
Inventor(s): Nathan Richard Schemm (Rowlett, TX)
Assignee(s): Texas Instruments Incorporated (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16108246 on 08/22/2018 (622 days app to issue)
Abstract: A level shifter includes a signal generator that generates differential signals on a first output and a second output. A first capacitor is coupled between the first output and a first node and a second capacitor is coupled between the second output and a second node. A third capacitor is coupled between the first node and a first voltage potential, wherein the capacitance of the third capacitor is variable. A fourth capacitor is coupled between the second node and the first voltage potential, wherein the capacitance of the fourth capacitor is variable.
[H03K] PULSE TECHNIQUE (measuring pulse characteristics G01R; modulating sinusoidal oscillations with pulses H03C; transmission of digital information H04L; discriminator circuits detecting phase difference between two signals by counting or integrating cycles of oscillation H03D 3/04; automatic control, starting, synchronisation or stabilisation of generators of electronic oscillations or pulses where the type of generator is irrelevant or unspecified H03L; coding, decoding or code conversion, in general H03M) [4]
Pipelined analog-to-digital converter
Patent No. 10644714
Inventor(s): Arun Mohan (Bengaluru, , IN), Neeraj Shrivastava (Bengaluru, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16358456 on 03/19/2019 (413 days app to issue)
Abstract: An analog-to-digital converter including a first stage and a second stage. The first stage includes a first sample-and-hold (SH) having an input coupled to a voltage input node of the ADC, and having a first SH output. The first stage also includes a buffer, a first flash converter and a first digital-to-analog converter (DAC). The buffer has an input coupled to the first SH output and has a buffer output. The first flash converter has an input coupled to the first SH output, and has a first flash converter output. The first DAC has an input coupled to the first flash converter output. The second stage includes a second flash converter having an input coupled to the buffer output.
[H03M] CODING, DECODING OR CODE CONVERSION, IN GENERAL (using fluidic means F15C 4/00; optical analogue/digital converters G02F 7/00; coding, decoding or code conversion, specially adapted for particular applications, see the relevant subclasses, e.g. G01D, G01R, G06F, G06T, G09G, G10L, G11B, G11C, H04B, H04L, H04M, H04N; ciphering or deciphering for cryptography or other purposes involving the need for secrecy G09C) [4]
Methods, circuits, systems and apparatus providing audio sensitivity enhancement in a wireless receiver, power management and other performances
Patent No. 10644738
Inventor(s): Jaiganesh Balakrishnan (Bangalore, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 14323280 on 07/03/2014 (2133 days app to issue)
Abstract: A wireless receiver ([b]dix[/b]) includes a down converter module ([b]210[/b]) operable to deliver a signal having a signal bandwidth that changes over time, a dynamically controllable filter module ([b]200[/b]) having a filter bandwidth and fed by said down converter module ([b]210[/b]), and a measurement module ([b]295[/b]) operable to at least approximately measure the signal bandwidth, said dynamically controllable filter module ([b]200[/b]) responsive to said measurement module ([b]295[/b]) to dynamically adjust the filter bandwidth to more nearly match the signal bandwidth as it changes over time, whereby output from said filter module ([b]200[/b]) is noise-reduced. Other wireless receivers, electronic circuits, and processes for their operation are disclosed.
[H04B] TRANSMISSION [4]
Pseudo channel hopping using scan dwell times in mesh networks without time synchronization
Patent No. 10644746
Inventor(s): Arvind Kandhalu Raghu (Plano, TX), Kaichien Tsai (Allen, TX), Ramanuja Vedantham (Allen, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15424692 on 02/03/2017 (1187 days app to issue)
Abstract: A method for pseudo channel hopping in a node of a wireless mesh network is provided that includes scanning each channel of a plurality of channels used for packet transmission by the node, wherein each channel is scanned for a scan dwell time associated with the channel, updating statistics for each channel based on packets received by the node during the scanning of the channel, and changing scan dwell times of the plurality of channels periodically based on the statistics.
[H04B] TRANSMISSION [4]
Dynamic medium switch in co-located PLC and RF networks
Patent No. 10644750
Inventor(s): Ariton E. Xhafa (Plano, TX), Bhadra Sandeep (Dallas, TX), Gang Xu (Allen, TX), Minghua Fu (Plano, TX), Robert W. Liang (Frisco, TX), Soon-Hyeok Choi (Allen, TX), Susan Yim (Plano, TX), Xiaolin Lu (Plano, TX), Yanj
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 14878178 on 10/08/2015 (1671 days app to issue)
Abstract: A method for implementing a convergence layer. Data is received on a first communication medium by a first transceiver. Data is transmitted on the first communication medium by the first transceiver. A signal is received. Causing, through the convergence layer, by a control logic in response to the signal, the data received and transmitted on the first communication medium as part of a communication session to be received and transmitted instead by a second transceiver on a second communication medium, wherein the convergence layer is configured to conceal from a routing layer at least one of: information related to the first signal, and information related to the data being received and transmitted on the second communication medium.
[H04K] SECRET COMMUNICATION; JAMMING OF COMMUNICATION
Method and apparatus for wideband CSI reporting in an advanced wireless communication system
Patent No. 10644828
Inventor(s): Eko Onggosanusi (Coppell, TX), Md Saifur Rahman (Plano, TX)
Assignee(s): Samsung Electronics Co., Ltd. (Suwon-si, , KR)
Law Firm: No Counsel
Application No., Date, Speed: 16266959 on 02/04/2019 (456 days app to issue)
Abstract: A method of a user equipment (UE) in a wireless communication system is provided. The method comprises receiving, from a base station (BS), channel status information (CSI) configuration information for a wideband CSI (WB CSI), generating the WB CSI based on the CSI configuration information, determining a number of zero padding bits (N) based on the CSI configuration information, wherein the number of zero padding bits (N) is determined based on a maximum payload bits (N[subscript]max[/subscript]) over all WB CSI candidates and an actual payload bits (N[subscript]signalé[/subscript]) for the generated WB CSI, generating an appended WB CSI by inserting N consecutive zero bits into the actual payload bits (N[subscript]signalé[/subscript]) for the generated WB CSI, and transmitting, to the BS, the appended WB CSI over an uplink channel.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Frequency/phase lock detector for clock and data recovery circuits
Patent No. 10644868
Inventor(s): Abishek Manian (Santa Clara, CA), Michael Gerald Vrazel (Atlanta, GA)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16128818 on 09/12/2018 (601 days app to issue)
Abstract: A circuit includes a phase and frequency detector circuit to generate a first phase detect signal indicative of whether a polarity of a first clock is the same as a polarity of a second clock upon occurrence of an edge of a data signal. The second clock being 90 degrees out of phase with respect to the first clock. A lock detect circuit determines, based on the first phase detect signal, that a third clock is one of frequency and phase locked to the data signal, frequency and quadrature locked to the data signal, and not frequency locked to the data signal.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Electronic security keys for data security based on quantum particle states
Patent No. 10644882
Inventor(s): Manu Jacob Kurian (Dallas, TX)
Assignee(s): BANK OF AMERICA CORPORATION (Charlotte, NC)
Law Firm: Moore Van Allen PLLC (6 non-local offices)
Application No., Date, Speed: 15496436 on 04/25/2017 (1106 days app to issue)
Abstract: Systems and method for insuring that messages that are quantum-level encrypted are properly communicated to an intended recipient. Specifically, embodiments of the present invention provide for changing the state of a quantum particle, which corrupts the data in the message, in response to the message being tampered with during transmission.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Memory decision feedback equalizer bias level generation
Patent No. 10644909
Inventor(s): Raghukiran Sreeramaneni (Frisco, TX)
Assignee(s): Micron Technology, Inc. (Boise, ID)
Law Firm: Fletcher Yoder, P.C. (1 non-local offices)
Application No., Date, Speed: 16425653 on 05/29/2019 (342 days app to issue)
Abstract: A device includes a selection circuit that is configured to generate a bias level. The device also includes a combinational circuit coupled to the selection circuit. The combinational circuit is configured to generate a distortion correction factor used offset inter-symbol interference from a data stream on a distorted bit based on the bias level to generate a correction signal. The device additionally includes a latching element coupled to the combinational circuit and configured to receive the first correction signal.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Management of radio units in cloud radio access networks
Patent No. 10644942
Inventor(s): Rasiklal M. Kachhla (Plano, TX)
Assignee(s): MAVENIR NETWORKS, INC. (Richardson, TX)
Law Firm: Ohlandt, Greeley, Ruggiero Perle, L.L.P. (1 non-local offices)
Application No., Date, Speed: 16269969 on 02/07/2019 (453 days app to issue)
Abstract: There is provided a system, method, and interfaces for Radio Access Networks and Cloud Radio Access Networks.
[H04M] TELEPHONIC COMMUNICATION (circuits for controlling other apparatus via a telephone cable and not involving telephone switching apparatus G08)
Containerized virtual network function
Patent No. 10644945
Inventor(s): Burson Keith Patton (Plano, TX)
Assignee(s): Hewlett Packard Enterprise Development LP (Houston, TX)
Law Firm: Hewlett Packard Enterprise Patent Department (12 non-local offices)
Application No., Date, Speed: 15747795 on 08/20/2015 (1720 days app to issue)
Abstract: A container may include a containerized virtual network function and a container interface. The container interface may register the container with a host interface, receive a configuration from the host interface, and configure a VNF according to the configuration.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Method and apparatus for programmable buffers in mobile networks
Patent No. 10645009
Inventor(s): Kaippallimalil Mathew John (Richardson, TX), Prakash Ramchandran (Santa Clara, CA), Ulas Can Kozat (Mountain View, CA)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Slater Matsil, LLP (Local + 1 other metros)
Application No., Date, Speed: 15462560 on 03/17/2017 (1145 days app to issue)
Abstract: It is possible to dynamically configure buffers in network devices by sending software defined network (SDN) instructions to a Control-to-Data-Plane Interface (CDPI) agents on the network devices. An SDN instruction may instruct a CDPI agent to configure a buffer in a network device to store a specific type of traffic flow in accordance with a traffic handling policy. In some embodiments, the SDN instruction instructs the CDPI Agent to directly configure a buffer by, for example, associating a virtual port with a new/existing buffer, binding a virtual port associated with the buffer to a switch, and/or installing a flow control rule in a flow table of the switch. In other embodiments, the SDN instruction may instruct the CDPI agent to reconfigure the buffer by transitioning the buffer to a different state.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Virtual network element and methods for use therewith
Patent No. 10645031
Inventor(s): Kyle Robert Bilbray (Plano, TX)
Assignee(s): ATT INTELLECTUAL PROPERTY I, L.P. (Atlanta, GA)
Law Firm: Garlick Markison (1 non-local offices)
Application No., Date, Speed: 14728032 on 06/02/2015 (1799 days app to issue)
Abstract: Aspects of the subject disclosure may include, for example, a virtual network element that includes a plurality of virtual machine modules configured to process a plurality of control packets in a virtualized telecommunication network. A classifier module is configured to receive telecommunications traffic that includes the plurality of control packets and a plurality of data packets, to separate the plurality of control plane data from the at least one data packet, and to forward the plurality of control packets to selected ones of the plurality of virtual machine modules. A forwarding device, coupled to the classifier module and separate from the plurality of virtual machine modules, is configured to forward the plurality of data packets in the virtualized telecommunication network. Other embodiments are disclosed.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Smart Internet of Things (”IoT”) web of trust
Patent No. 10645108
Inventor(s): Manu Kurian (Dallas, TX)
Assignee(s): Bank of America Corporation (Charlotte, NC)
Law Firm: Weiss Arons LLP (2 non-local offices)
Application No., Date, Speed: 15924651 on 03/19/2018 (778 days app to issue)
Abstract: Apparatus and methods are provided for tracking and validating behavior and communication patterns of sensors connected to an Internet-of-Things (”IoT”) network. Preferably, trusted IoT sensors monitor communication patterns exhibited by other trusted and/or untrusted sensors. An untrusted monitored sensor may be assigned a trusted status based on applying artificial intelligence and/or machine learning algorithm to monitored and/or historical communication patterns exhibited by the monitored sensor. A trusted group of sensors may continue to grow by adding other trusted sensors. If a compromised sensor is detected, a silo may be erected around the compromised sensor. The silo may include disconnecting the compromised sensor from the network. After erecting the silo, communication patterns exhibited by the compromised sensor may be continue to be monitored. After a pre-determined time period the compromised sensor may be reassigned a trusted status or purged from the trusted group and/or network.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Managing unmanned aerial vehicle flight data
Patent No. 10645169
Inventor(s): Warren Westrup (Irving, TX)
Assignee(s): Verizon Patent and Licensing Inc. (Basking Ridge, NJ)
Law Firm: No Counsel
Application No., Date, Speed: 15818454 on 11/20/2017 (897 days app to issue)
Abstract: A device can be configured to receive flight data associated with an unmanned aerial vehicle (UAV), at least some of the flight data being received from the UAV; store the flight data; receive, from a requesting device, a flight data request, the flight data request including information identifying the UAV or a flight of the UAV; determine response data based on the flight data request and based on an entity associated with the requesting device, the response data including a subset of the flight data, which is available to be accessed by the entity; and perform an action associated with the response data.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Touch button structure integrated into an edge panel of a portable computing/communications device
Patent No. 10645207
Inventor(s): Benjamin S Kasemsadeh (San Jose, CA), James R Catt (Santa Clara, CA)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15169685 on 05/31/2016 (1435 days app to issue)
Abstract: A device such as a portable computing/communications device is configured with slotted touch-on-metal buttons integrated into an edge panel. A ToM button structure includes a structural fascia integrated into the edge panel, defining a touch-button area including a touch-button length. The structural fascia is slotted, with alternating sections that are respectively relatively-thinner and relatively-thicker. The ToM button can be integrated into curved for flat edge panels. Button-press detection can be based on, for example, either inductive and capacitive deformation sensing. The ToM button structure can be configured for a predetermined button-press deformation based on a defined touch-button length, defined slotting difference between the relatively-thinner sections and the relatively-thicker sections and a defined deformation pressure.
[H04M] TELEPHONIC COMMUNICATION (circuits for controlling other apparatus via a telephone cable and not involving telephone switching apparatus G08)
Identical conversation detection method and apparatus
Patent No. 10645214
Inventor(s): Jay Gainsboro (Framingham, MA), Lee Weinstein (Arlington, MA)
Assignee(s): Securus Technologies, Inc. (Carrollton, TX)
Law Firm: Fogarty LLP (3 non-local offices)
Application No., Date, Speed: 16043741 on 07/24/2018 (651 days app to issue)
Abstract: An automated system is disclosed for detecting situations in which identical segments of conversation appear within two different recordings. The system automatically detects where within each of two audio recordings an identical conversation segment begins and ends, thus enabling detection of conversations where multiple prison inmates participated in a conference call.
[H04M] TELEPHONIC COMMUNICATION (circuits for controlling other apparatus via a telephone cable and not involving telephone switching apparatus G08)
Three-way video visitation detection using video cues
Patent No. 10645341
Inventor(s): Alexander Noland (North Richland Hills, TX), John Wange (Dallas, TX)
Assignee(s): Securus Technologies, Inc. (Carrollton, TX)
Law Firm: Fogarty LLP (3 non-local offices)
Application No., Date, Speed: 15849353 on 12/20/2017 (867 days app to issue)
Abstract: Systems and methods are disclosed for establishing a video conferencing session between a first device and a second device; extracting video information from video conferencing session data received from the second device; and identifying one or more known cues that have been added to the video information, wherein the known cues identify a third device as a source of the video conferencing session data. The systems and methods may add cues to outbound video information prior to transmission as video conferencing session data, wherein the added cues identify the first device as a source of the transmitted video conferencing session data. The systems and methods may generate an alert and/or terminate the video conferencing session and/or flag a video conferencing session record for further analysis when a known cue has been identified in the video information.
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
Method and apparatus for SSIM-based bit allocation
Patent No. 10645394
Inventor(s): Do-Kyoung Kwon (Allen, TX), Hyung-Joon Kim (Suwanee, GA)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16377373 on 04/08/2019 (393 days app to issue)
Abstract: An embodiment includes a method and an encoder for SSIM-based bits allocation. The encoder includes a memory and a processor utilized for allocating bits based on SSIM, wherein the processor estimates the model parameter of SSIM-based distortion model for the current picture and determines allocates bits based on the SSIM estimation.
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
Sample-based angular intra-prediction in video coding
Patent No. 10645398
Inventor(s): Minhua Zhou (Plano, TX)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 13658807 on 10/23/2012 (2751 days app to issue)
Abstract: A method for processing a prediction unit (PU) to generate predicted samples is provided that includes computing predicted samples for samples of the PU using sample-based angular intra-prediction (SAP) when lossless coding is enabled for the PU, and computing predicted samples for the samples of the PU using block-based angular intra-prediction when lossless coding is not enabled for the PU. Computation of the predicted using SAP includes determining an intra-prediction angle for the PU, and computing a predicted sample for each sample of the samples in the PU based on linear interpolation of two reference samples adjacent to the sample, wherein the two reference samples are selected according to the intra-prediction angle.
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
Reducing computational complexity when video encoding uses bi-predictively encoded frames
Patent No. 10645412
Inventor(s): Arun Shankar Kudana (Bengaluru, , IN), Pramod Kumar Swami (Bengaluru, , IN), Soyeb Nagori (Bengaluru, , IN)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 15728138 on 10/09/2017 (939 days app to issue)
Abstract: Several techniques aimed at reducing computational complexity when encoding uses bi-predictively encoded frames (B-frames) are implemented in a video encoder. In an embodiment, B-frames are not used as reference frames for encoding P-frames and other B-frames. Non-use of B-frames allows a de-blocking filter used in the video encoder to be switched off when reconstructing encoded B-frames, and use of a lower complexity filter for fractional-resolution motion search for B-frames. In another embodiment, cost functions used in motion estimation for B-frames are simplified to reduce computational complexity. In one more embodiment, fractional pixel refinement in motion search for B-frames is simplified. In yet another embodiment, predictors used in motion estimation for a macro-block in a P-frame are selected from a B-frame that uses a same reference frame as the P-frame.
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
Mode dependent intra smoothing filter table mapping methods for non-square prediction units
Patent No. 10645422
Inventor(s): Changcai Lai (Shenzhen, , CN), Chen-Xiong Zhang (Plano, TX), Guichun Li (Santa Clara, CA), Jianhua Zheng (Shenzhen, , CN), Lingzhi Liu (San Jose, CA), Nam Ling (San Jose, CA)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Conley Rose, P.C. (3 non-local offices)
Application No., Date, Speed: 16002781 on 06/07/2018 (698 days app to issue)
Abstract: An apparatus including a memory operably coupled to a processor. The processor is configured to select an intra smoothing filter for a rectangular prediction unit (PU) based on a lookup table (LUT) used for square PUs, wherein a width of the rectangular PU is different from a height of the rectangular PU.
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
Ad media management system
Patent No. 10645435
Inventor(s): Steve Laughlin (McKinney, TX), Webster Shawn Coffman (Norman, OK)
Assignee(s): INNOVAR MEDIA LLC (Irving, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16559906 on 09/04/2019 (244 days app to issue)
Abstract: A system for managing advertising media by a cable network provider includes a content provider interface for downloading advertising media from advertising media content providers. A database stores the advertising media. A processor configures an advertising media management system responsive to a stored set of instructions. A memory coupled to the processor has data and a set of instructions for implementing an advertising media management system. The data includes the advertising inventory data and the set of instructions configuring the processor to provide a number of controllers. A management dashboard controller controls a presentation of a plurality of graphical reports relating to available advertising media within the database using a management dashboard controller. A required media controller generates a list of received advertising media that have not been encoded. A queue controller groups the advertising media stored within the database to be processed by the advertising media management system according to a first queue of all advertising media to be processed and a plurality of second queues each comprising a portion of all of the advertising media of the first queue, wherein at least one advertising media is contained within multiple ones of the plurality of second queues. A media library controller displays all approved advertising media stored within the database and an associated status of the approved advertising media. An audit logs controller tracks a
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
Controlled environment media and communication system
Patent No. 10645443
Inventor(s): Stephen L. Hodge (Aubrey, TX)
Assignee(s): Global Tel*Link Corporation (Reston, VA)
Law Firm: Sterne, Kessler, Goldstein Fox P.L.L.C. (2 non-local offices)
Application No., Date, Speed: 16246101 on 01/11/2019 (480 days app to issue)
Abstract: The Controlled Environment Media And Communication System delivers communications services to residents of controlled facilities using a common network architecture. Some of the communications capabilities of the Controlled Environment Media And Communication System include media distribution, video visitation, intra-facility messaging, and other such communications services.
[H04N] PICTORIAL COMMUNICATION, e.g. TELEVISION [4]
All-optical networks based on switchable wavelength connects (SWCs)
Patent No. 10645473
Inventor(s): Feng Zhang (San Jose, CA), Qianfan Xu (San Jose, CA), Xiao Andy Shen (San Bruno, CA)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Conley Rose P.C. (3 non-local offices)
Application No., Date, Speed: 16044208 on 07/24/2018 (651 days app to issue)
Abstract: An all-optical network comprises: a first network; a second network; and a PWXC coupling the first network to the second network and comprising passive optical components. A method comprises: receiving a first optical signal from a first tail node of a first network; directing the first optical signal from a first input port of a PWXC to a first output port of the PWXC using first passive optical components; and transmitting the first optical signal to a third head node of a third network. An all-optical network comprising: a light bank; a first network coupled to the light bank; a second network coupled to the light bank; and a first PWXC coupling the first network and the second network.
[H04Q] SELECTING (switches, relays, selectors H01H; wireless communication networks H04W) [2009.01]
Wireless device and methods for use in a paging network
Patent No. 10645537
Inventor(s): Robert M. Kennard (Dallas, TX)
Assignee(s): THL Holding Company, LLC (Austin, TX)
Law Firm: Garlick Markison (1 non-local offices)
Application No., Date, Speed: 16540665 on 08/14/2019 (265 days app to issue)
Abstract: A wireless device includes a user interface that generates a pairing signal in response to an indication from a user to pair the wireless device to at least one remote device and generates a first location request signal in response to a second indication from a user to locate the at least one remote device. A short-range wireless transceiver communicates RF signals to pair the wireless device to the at least one remote device and that transmits a first RF paging signal to the at least one remote device in response to the location request signal.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Transferable ownership tokens for discrete, identifiable devices
Patent No. 10645557
Inventor(s): Warren Wade Robbins (Celina, TX)
Assignee(s): Dell Products L.P. (Round Rock, TX)
Law Firm: Jackson Walker L.L.P. (Local + 3 other metros)
Application No., Date, Speed: 15479125 on 04/04/2017 (1127 days app to issue)
Abstract: A mobile device that includes an ownership token application program receives user input indicative of a first authentication factor associated with an ownership token bound to an Internet of Things (IoT) device. Responsive to detecting the IoT device in close proximity, the mobile device may obtain a second authentication factor and an IoT device identifier from the IoT device. The mobile device may then provide the obtained factors as authenticating credentials to a token server via a trust application program interface (API). After the server authenticates the mobile device, the server may send the token to the mobile device thereby transferring ownership rights, including access rights, to recipient. The application program and/or the trust API may be configured for one-time access wherein, after the token has been transferred to the mobile device. The discrete electronic device may comprise an Internet of Things (IoT device) that supports wireless, near field communication.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Systems and methods for external group identification in wireless networks
Patent No. 10645565
Inventor(s): Sudhakar Reddy Patil (Flower Mound, TX)
Assignee(s): Verizon Patent and Licensing Inc. (Basking Ridge, NJ)
Law Firm: No Counsel
Application No., Date, Speed: 16259241 on 01/28/2019 (463 days app to issue)
Abstract: A computing device may include a memory configured to store instructions and a processor configured to execute the instructions to receive a request to generate a device group for a group of user equipment (UE) devices from an application server and identify a group of Home Subscriber Server (HSS) devices that store subscriber profiles for the group of UE devices. The processor may be further configured to send a request to a provisioning system to generate HSS subgroups in the group of HSS devices, with different HSS subgroups associated with different HSS devices and each HSS subgroup including at least one of the UE devices; receive, from the provisioning system, an indication that the HSS subgroups were generated; generate a mapping from the device group to the HSS subgroups; and process messages received from the application server for the device group based on the generated mapping.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Method and apparatus for remote portable wireless device authentication
Patent No. 10645581
Inventor(s): Clayton Douglas Smith (Kanata, , CA), Lindsay Martin Kent (Kanata, , CA)
Assignee(s): Entrust, Inc. (Dallas, TX)
Law Firm: Faegre Baker Daniels LLP (9 non-local offices)
Application No., Date, Speed: 16191944 on 11/15/2018 (537 days app to issue)
Abstract: A method and apparatus provides for user authentication. In an example, the method and apparatus includes establishing a very short range wireless communication link between the first apparatus and the second apparatus and authenticating a user of the first apparatus by the second apparatus directly using a different and short range peer to peer wireless communication link between the first apparatus and the second apparatus in response to establishing the very short range wireless communication link.
[H04L] TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION (arrangements common to telegraphic and telephonic communication H04M) [4]
Dynamic network slice resolution
Patent No. 10645587
Inventor(s): Niranjan B. Avula (Frisco, TX)
Assignee(s): Verizon Patent and Licensing Inc. (Basking Ridge, NJ)
Law Firm: No Counsel
Application No., Date, Speed: 16663587 on 10/25/2019 (193 days app to issue)
Abstract: A first device can receive an attach request that includes information associated with a user device. The user device can provide the attach request to request access to a network. The first device can provide, to a second device and using the information associated with the user device, a request for information associated with a group identifier that is associated with the user device. The first device can receive, from the second device, the information associated with the group identifier that is associated with the user device based on providing the request for information associated with the group identifier. The first device can determine a network slice identifier that is associated with the user device based on the information associated with the group identifier that is associated with the user device. The first device can permit the user device to access a network slice, of the network, that is associated with the network slice identifier based on determining the network slice identifier.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
System and method for identifying wireless coverage for multi-occupant structures
Patent No. 10645595
Inventor(s): Deepak Chadaga (Coppell, TX)
Assignee(s): Verizon Patent and Licensing I nc. (Basking Ridge, NJ)
Law Firm: No Counsel
Application No., Date, Speed: 16520774 on 07/24/2019 (286 days app to issue)
Abstract: A method, a device, and a non-transitory storage medium provide for receive line-of-site (LoS) information obtained by a camera, wherein the LoS information identifies an LoS from a radio site to a potential radio signal receiver location; estimate a signal strength value, for a signal from the radio site, at the potential radio signal receiver location; identify a first type of obstruction in the LoS, wherein a signal loss associated with the first type of obstruction varies by a time of year; modify the estimated signal strength value using a nominal signal loss value for the first type of obstruction, wherein the nominal signal loss value is associated with a different time of year than the time of year in which the LoS information is obtained; and determine whether to qualify the potential radio signal receiver location for an equipment installation for the wireless service based on a threshold signal value.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
System and method for time-power-frequency hopping for D2D discovery
Patent No. 10645638
Inventor(s): Anthony Soong (Plano, TX), Hossein Bagheri (Urbana, IL), Philippe Sartori (Plainfield, IL), Vipul Desai (Palatine, IL)
Assignee(s): Futurewei Technologies, Inc. (Plano, TX)
Law Firm: Slater Matsil, LLP (Local + 1 other metros)
Application No., Date, Speed: 15612513 on 06/02/2017 (1068 days app to issue)
Abstract: A system and method for D2D discovery is provided. In an embodiment the method includes sending, by a base station, first parameters to a first User Equipment (UE) indicating a set of discovery resources in a discovery cycle, wherein the discovery cycle comprises a plurality of subframes; and sending, by the base station, second parameters to the first UE indicating a first probability for transmitting a first discovery signal to a second UE on a subframe of the plurality of subframes so that the first UE is capable of transmitting the first discovery signal to a second UE in the discovery cycle according to the first parameters when a random number between 0 and 1, selected by the first UE, is equal or larger than the first probability.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Bluetooth media device time synchronization
Patent No. 10645663
Inventor(s): Chen Loewy (Herzelia, , IL), David Levy (Ramat Gan, , IL), Dotan Ziv (Tel Aviv, , IL), Ram Malovany (Nes Ziona, , IL)
Assignee(s): TEXAS INSTRUMENTS INCORPORATED (Dallas, TX)
Law Firm: No Counsel
Application No., Date, Speed: 16017768 on 06/25/2018 (680 days app to issue)
Abstract: Synchronized media streaming in a device chain including first, second and third Bluetooth media device having a controller and time synchronization algorithm. The first device formats a first media packet including received media data, second device address, and synchronization information including packet start time including a delay time and cumulative clock drift counted thus far. The second device receives the first packet and formats a second packet including the media data, third device address, updated synchronization information including the second packet”s play start time, local clock time, clock drift, and a cumulative clock drift counted thus far. The second device transmits the second packet to the third device. The synchronization algorithms begin synchronized playing of the media data including the first device playing after the delay time, second device playing after the first packet”s play start time, and the third device playing after the second packet”s play start time.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Transmission of information in a wireless communication system
Patent No. 10645678
Inventor(s): Robert Mark Harrison (Grapevine, TX), Sean Michael McBeath (Keller, TX)
Assignee(s): BlackBerry Limited (Waterloo, Ontario, , CA)
Law Firm: Fish Richardson P.C. (Local + 13 other metros)
Application No., Date, Speed: 16169398 on 10/24/2018 (559 days app to issue)
Abstract: Methods, devices, and systems for the transmission of information in a wireless communication system are disclosed. In one embodiment, a method for the transmission of information in a wireless communication system comprises receiving a downlink message, wherein the downlink message includes a first control channel element; determining a first index using the location of the first control channel element; determining a second index; determining a first orthogonal resource using the first index; determining a second orthogonal resource using the second index; spreading an uplink message using the first orthogonal resource to form a first spread signal; spreading the uplink message using a second orthogonal resource to form a second spread signal; transmitting the first spread signal using a first antenna; and transmitting the second spread signal using a second antenna.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Methods and devices for performing proximity discovery
Patent No. 10645680
Inventor(s): Changhoi Koo (Plano, TX), Joon Beom Kim (Carrollton, TX), Noun Choi (Flower Mound, TX)
Assignee(s): BlackBerry Limited (Waterloo, Ontario, , CA)
Law Firm: Fish Richardson P.C. (Local + 13 other metros)
Application No., Date, Speed: 15400322 on 01/06/2017 (1215 days app to issue)
Abstract: A method for use in a first user equipment (UE) includes receiving, from a base station, control information and a resource assignment for uplink transmission; and transmitting, based on the control information, a discovery signal on the assigned resource for uplink transmission, the discovery signal including a first temporary UE identifier (ID) assigned to the first UE, wherein the first temporary UE ID is used to identify the first UE for device-to-device communication.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Method and apparatus for implementing a service flow across different systems
Patent No. 10645744
Inventor(s): Devaki Chandramouli (Plano, TX)
Assignee(s): NOKIA SOLUTIONS AND NETWORKS OY (Espoo, , FI)
Law Firm: Squire Patton Boggs (US) LLP (13 non-local offices)
Application No., Date, Speed: 15577115 on 04/28/2016 (1468 days app to issue)
Abstract: A method and apparatus may include providing, by a network node, an indication to a user equipment. The indication indicates that the network node supports interworking between a first radio-access technology and a second radio-access technology. The method may also include receiving a request to set up a service flow. The method may also include setting up the service flow.
[H04M] TELEPHONIC COMMUNICATION (circuits for controlling other apparatus via a telephone cable and not involving telephone switching apparatus G08)
Advance scheduling for discontinuous transmission and reception using uplink beacons
Patent No. 10645750
Inventor(s): Johan Christer Qvarfordt (Stockholm, , SE), Nathan Edward Tenny (Poway, CA), Tao Cai (Taeby, , SE)
Assignee(s): FUTUREWEI TECHNOLOGIES, INC. (Plano, TX)
Law Firm: Slater Matsil, LLP (Local + 1 other metros)
Application No., Date, Speed: 15344413 on 11/04/2016 (1278 days app to issue)
Abstract: A method for assigning radio resources to a UE comprises receiving an uplink beacon transmission during a beacon occasion of the UE, determining that the uplink beacon transmission corresponds to a need by the UE for radio resources in an upcoming communication occasion of a discontinuous communication mode implemented by the UE, identifying at least one TRP to participate in data communication with the UE, receiving a grant of radio resources for the data communication, wherein the grant of radio resources is specified for use in the upcoming communication occasion, and transmitting the grant of radio resources to the UE.
[H04W] WIRELESS COMMUNICATION NETWORKS [2009.01]
Eating dish with a removable handle
Patent No. D883035
Inventor(s): Jeffrey Jan (Forth Worth, TX)
Assignee(s): FRONTLINE ADVANCE LLC (Southlake, TX)
Law Firm: Haynes and Boone, LLP (Local + 13 other metros)
Application No., Date, Speed: 29659175 on 08/07/2018 (637 days app to issue)
Abstract: No Abstract Patent Class: N/A
Diagnostic analyzer
Patent No. D883115
Inventor(s): Christina A. Barton (Irving, TX)
Assignee(s): Abbott Laboratories (Abbott Park, IL)
Law Firm: Hanely, Flight Zimmerman, LLC (no location found)
Application No., Date, Speed: 29699604 on 07/26/2019 (284 days app to issue)
Abstract: No Abstract Patent Class: N/A
Cap for optical fiber connectors
Patent No. D883231
Inventor(s): Michael DeJong (Colleyville, TX)
Assignee(s): Corning Research Development Corporation (Charlotte, NC)
Law Firm: No Counsel
Application No., Date, Speed: 29624371 on 10/31/2017 (917 days app to issue)
Abstract: No Abstract Patent Class: N/A
Litter scoop
Patent No. D883588
Inventor(s): David Veness (Fort Worth, TX), John Zivich (Eastlake, OH)
Assignee(s): DOSKOCIL MANUFACTURING COMPANY, INC (Arlington, TX)
Law Firm: Global IP Counselors, LLP (9 non-local offices)
Application No., Date, Speed: 29641189 on 03/20/2018 (777 days app to issue)
Abstract: No Abstract Patent Class: N/A
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