MULTI-POINT INTELLIGENT INDUCTION SYSTEM BASED ON APPLICATIONS WITH SIMULTANEOUS HEAT TREATMENTS OPTIMISED AT YOUR NETWORK CONNECTION POINT USING CAPACITIVE EMULATION TECHNIQUES (Q3178036): Difference between revisions
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(Changed label, description and/or aliases in en: translated_label) |
(Removed claim: summary (P836): The technical objective of the project is to develop a multipoint intelligent induction system, i.e. several outputs that can work simultaneously, with the particularity that all outputs will be controlled by a single control chart. The intelligence of the system will be located precisely in this control chart which will be equipped with different control techniques applicable to resonant converters (FM, PWM, mixed FM, PDM) and, whose fundamen...) |
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Property / summary: The technical objective of the project is to develop a multipoint intelligent induction system, i.e. several outputs that can work simultaneously, with the particularity that all outputs will be controlled by a single control chart. The intelligence of the system will be located precisely in this control chart which will be equipped with different control techniques applicable to resonant converters (FM, PWM, mixed FM, PDM) and, whose fundamental and revolutionary novelty in the market, will be that the control strategy will automatically choose the chart, depending on its operating regime, choosing the right one at all times. In addition, the system will be incorporated with a power factor correction system that allows to achieve harmonic distortion factors (THD) less than 2-3 %._x000D_ Multi-output induction systems are increasingly being used on the market, especially in machines that have several heat treatments associated. Historically these machines used a single generator whose output was switched between the different processes or, several generators, if the process required to be simultaneous. With the development of the multi-output solutions, in which GH pioneered the first prototype made in 2005, machines that required several simultaneous processes began to be simplified, since a single connection of electrical connection and cooling water was sufficient, leading to a significant reduction in both the occupied surface and the complexity of connection and communications, a reduction that became more significant, the greater the number of processes in the installation. (English) / rank | |||||||||||||||
Property / summary: The technical objective of the project is to develop a multipoint intelligent induction system, i.e. several outputs that can work simultaneously, with the particularity that all outputs will be controlled by a single control chart. The intelligence of the system will be located precisely in this control chart which will be equipped with different control techniques applicable to resonant converters (FM, PWM, mixed FM, PDM) and, whose fundamental and revolutionary novelty in the market, will be that the control strategy will automatically choose the chart, depending on its operating regime, choosing the right one at all times. In addition, the system will be incorporated with a power factor correction system that allows to achieve harmonic distortion factors (THD) less than 2-3 %._x000D_ Multi-output induction systems are increasingly being used on the market, especially in machines that have several heat treatments associated. Historically these machines used a single generator whose output was switched between the different processes or, several generators, if the process required to be simultaneous. With the development of the multi-output solutions, in which GH pioneered the first prototype made in 2005, machines that required several simultaneous processes began to be simplified, since a single connection of electrical connection and cooling water was sufficient, leading to a significant reduction in both the occupied surface and the complexity of connection and communications, a reduction that became more significant, the greater the number of processes in the installation. (English) / qualifier | |||||||||||||||
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Revision as of 19:06, 12 October 2021
Project Q3178036 in Spain
Language | Label | Description | Also known as |
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English | MULTI-POINT INTELLIGENT INDUCTION SYSTEM BASED ON APPLICATIONS WITH SIMULTANEOUS HEAT TREATMENTS OPTIMISED AT YOUR NETWORK CONNECTION POINT USING CAPACITIVE EMULATION TECHNIQUES |
Project Q3178036 in Spain |
Statements
494,278.5 Euro
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988,557.0 Euro
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50.0 percent
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7 February 2019
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31 December 2020
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GH ELECTROTERMIA, S.A.
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46903
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El objetivo técnico del proyecto es desarrollar un sistema de inducción inteligente multipunto, es decir de varias salidas que puedan trabajar simultáneamente, con la particularidad de que todas las salidas estarán controladas por una única carta de control. La inteligencia del sistema estará ubicada precisamente en dicha carta de control a la cual se le dotará de diferentes técnicas de control aplicables a convertidores resonantes (FM,PWM, FM mixto, PDM) y, cuya novedad fundamental y revolucionaria en el mercado, será que la estrategia de control la elegirá automáticamente la carta, en función de su régimen de funcionamiento eligiendo la adecuada en todo momento. Asimismo, al sistema se le incorporará un sistema corrector de factor de potencia que permita alcanzar factores de distorsión armónicas (THD) inferiores al 2-3%._x000D_ Los sistemas de inducción de varias salidas, están utilizándose cada vez más en el mercado, especialmente en máquinas que llevan asociados varios tratamientos térmicos. Históricamente estas máquinas usaban un único generador cuya salida era conmutada entre los diferentes procesos o, varios generadores, si el proceso requería ser simultáneo. Con el desarrollo de las soluciones multi-salida, en las que GH fue pionero con el primer prototipo realizado en 2005, empezaron a simplificarse las máquinas que requerían varios procesos simultáneos ya que, bastaba con una única conexión de acometida eléctrica y de agua de refrigeración, lo que llevaba a una reducción significativa tanto de la superficie ocupada como de la complejidad de conexión y comunicaciones, reducción que se hacía más significativa, cuanto mayor fuera el número de procesos de la instalación. (Spanish)
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San Antonio de Benagéber
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Identifiers
IDI-20190537
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