DESIGN AND DEVELOPMENT OF A HIGH-PERFORMANCE PROGRAMMABLE POWER MANAGER POWER CIRCUIT (Q3170527)
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Project Q3170527 in Spain
Language | Label | Description | Also known as |
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English | DESIGN AND DEVELOPMENT OF A HIGH-PERFORMANCE PROGRAMMABLE POWER MANAGER POWER CIRCUIT |
Project Q3170527 in Spain |
Statements
347,390.5 Euro
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694,781.0 Euro
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50.0 percent
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10 August 2017
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30 April 2019
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TECNOFINGERS SL
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46190
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Existen limitaciones en el estado de la técnica actual que podrían solucionar distintos problemas en el sector tecnológico a nivel mundial, caracterizado por la incorporación de nuevas tecnologías, poca flexibilidad de los sistemas; los productos se pueden crear siempre de forma polivalente pero nunca a nivel de producción e implantación de los semiconductores. Viendo que estos procesos tienen siempre una necesidad lógica e inamobible, es necesario desarrollar un circuito integrado ( en adelante IC) de tamaño reducido, entre 11x11mm donde integraríemos diferentes tipos de bloques de alimentación que pudeden ser programados por el usuario (el diseñador del dispositivo) en función del chip que pretenda utilizar, permitiéndole en caso de error reprogramarlo. Ademas este IC no solo esta pensado para la alimentación del bloque de procesador; la potencia que albergara permitirá poder alimentar los periféricos y otros bloques del procesador y gestionarlos en caliente, llegando a tener el control total en tiempo real de el flujo eléctrico del circuito y permitiendo gestionar la parte de bajo consumo de manera sencilla._x000D_ _x000D_ El IC estará integrado por una serie de “Low-DropOut” ( en adelante LDO) que son reguladores de voltaje lineares que pueden regular el volatge, en concreto 26 unidades del mismo, 9 Step-Down Converters ( en adelante BUCK ) que permiten la regulación de una fuente de alimentación a un voltaje inferior con una alta eficiencia, 3 Generador de señal de reloj de 32.768Khz, 1 Reloj de control de tiempo Real ( en adelante RTC ) 1 conversor Analogico Digital ( en adelante ADC ), 2 unidades de control para encendidos por hardware mediante GPIO de control, 1 puerto de comunicaciones para una memoria externa, 1 puerto de comunicaciones y gestión en tiempo real entre el IC y el procesador, todo gestionado por un Microprocesador CortexM0 de 48Mhz, el cerebro que permite la gestión de todos los bloques. (Spanish)
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There are limitations in the current state of the art that could solve various problems in the technology sector at the global level, characterised by the incorporation of new technologies, little flexibility of systems; products can always be created in a multipurpose way, but never at the level of semiconductor production and deployment. Seeing that these processes always have a logical and inamobible need, it is necessary to develop an integrated circuit (hereinafter IC) of small size, between 11x11 mm, where we will integrate different types of power blocks that can be programmed by the user (the designer of the device) depending on the chip that he intends to use, allowing him in case of error reprogramming it. In addition, this IC is not only intended for powering the processor block; the power you will host will allow you to power the peripherals and other processor blocks and manage them hot, achieving full real-time control of the circuit’s electrical flow and allowing you to manage the low power part in a simple way._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of it, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a 1-port port of power to 1 input to a lower voltage with a high efficiency, ignition of 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, ignition time, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32h drives, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-stroke control, all-step-down converters (hereafter BUCK) that allow the control of a power source to a lower voltage with a high efficiency, 3D control, all-Down Converters (hereinafter BUCK) that allow the control of a power source at a lower voltage._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-pi drives, all digital drives (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency signal, ignition, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 3 units of it, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency._x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter referred to as LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency, 32-speed control, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, a.c. control, all step-down converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of it, 9 step— (English)
12 October 2021
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Il existe des limites dans l’état actuel de la technique qui pourraient résoudre divers problèmes dans le secteur technologique au niveau mondial, caractérisés par l’incorporation de nouvelles technologies, une faible flexibilité des systèmes; les produits peuvent toujours être créés de manière polyvalente, mais jamais au niveau de la production et du déploiement des semi-conducteurs. Étant donné que ces processus ont toujours un besoin logique et inamovible, il est nécessaire de développer un circuit intégré (ci-après IC) de petite taille, entre 11x11 mm, où nous intégrerons différents types de blocs d’alimentation qui peuvent être programmés par l’utilisateur (le concepteur de l’appareil) en fonction de la puce qu’il a l’intention d’utiliser, lui permettant en cas d’erreur de reprogrammation. En outre, ce CI n’est pas seulement destiné à alimenter le bloc processeur; la puissance que vous hébergez vous permettra d’alimenter les périphériques et d’autres blocs processeurs et de les gérer à chaud, en réalisant un contrôle en temps réel du flux électrique du circuit et en vous permettant de gérer la partie basse puissance d’une manière simple._x000D_ _x000D_ La CI sera intégrée par une série de «Low-Dropout» (ci-après LDO) qui sont des régulateurs de tension linéaires qui peuvent réguler la volatge, plus précisément 26 unités de celui-ci, 9 convertisseurs Step-Down (ci-après «BUCK») qui permettent la gestion d’un port d’alimentation à 1 entrée à une tension inférieure à haute efficacité, allumage de 26 unités de la même, 9 convertisseurs Step-Down (ci-après BUCK) qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un rendement élevé, temps d’allumage, tous les micro-convertisseurs (ci-après BUCK) qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un rendement élevé, lecteurs 32h, tous les convertisseurs Micro-Down (ci-après «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un haut rendement, un contrôle à 32 temps, des convertisseurs tout-bas (ci-après BUCK) qui permettent le contrôle d’une source d’énergie à une tension inférieure avec un haut rendement, un contrôle 3D, des convertisseurs tout bas (ci-après BUCK) qui permettent le contrôle d’une source d’énergie à une tension inférieure._x000D_ _x000D_ le CI sera intégré par une série de «Low-Dropout» (ci-après «LDO») qui sont des régulateurs de tension linéaires qui peuvent réguler la volatge, en particulier 26 unités de la même, 9 convertisseurs Step-Down (ci-après BUCK) qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un rendement élevé, lecteurs 32 pi, tous les lecteurs numériques (ci-après BUCK) qui permet la gestion d’une source d’énergie 1 à une tension inférieure avec un signal à haut rendement, allumage, tous les convertisseurs décroissants (ci-après dénommés «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension plus basse avec un rendement élevé, 3 unités de celui-ci, 9 convertisseurs Step-Down (ci-après «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension plus basse avec un rendement élevé, 26 unités de même, 9 convertisseurs Step-Down (ci-après «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un rendement élevé, 26 unités de la même, 9 convertisseurs Step-Down (ci-après BUCK) qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un rendement élevé._x000D_ Le CI sera intégré par une série de «Low-Dropout» (ci-après dénommés «LDO») qui sont des régulateurs de tension linéaires qui peuvent réguler la volatge, en particulier 26 unités de la même, 9 convertisseurs Step-Down (ci-après «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension inférieure à haute efficacité, à 32 vitesses, tous les convertisseurs décroissants (ci-après dénommés «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension plus basse avec un rendement élevé, un contrôle c.a.c., tous les convertisseurs décroissants (ci-après dénommés «BUCK») qui permettent la gestion d’une source d’énergie 1 à une tension inférieure avec un rendement élevé, 26 unités de celui-ci, 9 étapes— (French)
4 December 2021
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Es gibt Einschränkungen im aktuellen Stand der Technik, die verschiedene Probleme im Technologiesektor auf globaler Ebene lösen könnten, die durch die Einbeziehung neuer Technologien und wenig Flexibilität der Systeme gekennzeichnet sind; Produkte können immer auf vielseitige Weise erstellt werden, aber niemals auf der Ebene der Halbleiterproduktion und des Einsatzes. Da diese Prozesse immer einen logischen und unumgänglichen Bedarf haben, ist es notwendig, eine integrierte Schaltung (nachfolgend IC) von kleiner Größe zwischen 11x11 mm zu entwickeln, wo wir verschiedene Arten von Leistungsblöcken integrieren werden, die vom Benutzer (der Entwickler des Geräts) programmiert werden können, je nach dem Chip, den er verwenden will, so dass er ihn bei Fehlern umprogrammieren kann. Darüber hinaus ist dieser IC nicht nur zur Stromversorgung des Prozessorblocks bestimmt; the power you will host will allow you to power the peripherals and other processor blocks and manage them hot, achieving full real-time control of the circuit’s electrical flow and allowing you to manage the low power part in a simple way._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of it, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a 1-port port of power to 1 input to a lower voltage with a high efficiency, ignition of 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, ignition time, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32h drives, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-stroke control, all-step-down converters (hereafter BUCK) that allow the control of a power source to a lower voltage with a high efficiency, 3D control, all-Down Converters (hereinafter BUCK) that allow the control of a power source at a lower voltage._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-pi drives, all digital drives (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency signal, ignition, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 3 units of it, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency._x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter referred to as LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency, 32-speed control, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, a.c. control, all step-down converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of it, 9 step— (German)
9 December 2021
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Er zijn beperkingen in de huidige stand van de techniek die verschillende problemen in de technologiesector op mondiaal niveau kunnen oplossen, gekenmerkt door de integratie van nieuwe technologieën en weinig flexibiliteit van systemen; producten kunnen altijd op een multifunctionele manier worden gemaakt, maar nooit op het niveau van de productie en inzet van halfgeleiders. Aangezien deze processen altijd een logische en onuitwisbare behoefte hebben, is het noodzakelijk om een geïntegreerde schakeling (hierna IC) van klein formaat te ontwikkelen, tussen 11x11 mm, waar we verschillende soorten vermogensblokken zullen integreren die door de gebruiker (de ontwerper van het apparaat) kunnen worden geprogrammeerd, afhankelijk van de chip die hij van plan is te gebruiken, zodat hij in geval van foutherprogrammering het kan herprogrammeren. Bovendien is deze IC niet alleen bedoeld om het processorblok van stroom te voorzien; the power you will host will allow you to power the peripherals and other processor blocks and manage them hot, achieving full real-time control of the circuit’s electrical flow and allowing you to manage the low power part in a simple way._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of it, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a 1-port port of power to 1 input to a lower voltage with a high efficiency, ignition of 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, ignition time, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32h drives, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-stroke control, all-step-down converters (hereafter BUCK) that allow the control of a power source to a lower voltage with a high efficiency, 3D control, all-Down Converters (hereinafter BUCK) that allow the control of a power source at a lower voltage._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-pi drives, all digital drives (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency signal, ignition, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 3 units of it, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency._x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter referred to as LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency, 32-speed control, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, a.c. control, all step-down converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of it, 9 step— (Dutch)
17 December 2021
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Vi sono limitazioni allo stato attuale dell'arte che potrebbero risolvere vari problemi nel settore tecnologico a livello globale, caratterizzati dall'incorporazione di nuove tecnologie, dalla scarsa flessibilità dei sistemi; i prodotti possono sempre essere creati in modo polivalente, ma mai a livello di produzione e distribuzione di semiconduttori. Visto che questi processi hanno sempre un bisogno logico e inamovibile, è necessario sviluppare un circuito integrato (di seguito IC) di piccole dimensioni, tra 11x11 mm, dove integreremo diversi tipi di blocchi di potenza che possono essere programmati dall'utente (il progettista del dispositivo) a seconda del chip che intende utilizzare, permettendogli in caso di errore di riprogrammarlo. Inoltre, questo IC non è destinato solo ad alimentare il blocco del processore; the power you will host will allow you to power the peripherals and other processor blocks and manage them hot, achieving full real-time control of the circuit’s electrical flow and allowing you to manage the low power part in a simple way._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of it, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a 1-port port of power to 1 input to a lower voltage with a high efficiency, ignition of 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, ignition time, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32h drives, all Micro-Down Converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-stroke control, all-step-down converters (hereafter BUCK) that allow the control of a power source to a lower voltage with a high efficiency, 3D control, all-Down Converters (hereinafter BUCK) that allow the control of a power source at a lower voltage._x000D_ _x000D_ The IC will be integrated by a series of “Low-Dropout” (hereafter LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 32-pi drives, all digital drives (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency signal, ignition, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 3 units of it, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, 26 units of the same, 9 Step-Down Converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency._x000D_ The IC will be integrated by a series of “Low-Dropout” (hereinafter referred to as LDO) that are linear voltage regulators that can regulate the volatge, specifically 26 units of the same, 9 Step-Down Converters (hereinafter BUCK) that allows the management of a power source 1 to a lower voltage with a high-efficiency, 32-speed control, all step-down converters (hereafter BUCK) that allow the management of a power source 1 to a lower voltage with a high efficiency, a.c. control, all step-down converters (hereafter BUCK) that allows the management of a power source 1 to a lower voltage with a high efficiency, 26 units of it, 9 step— (Italian)
16 January 2022
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Paterna
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Identifiers
IDI-20180141
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