Todo lo que necesita saber sobre el aire comprimido

Descargue gratuitamente nuestro manual del aire comprimido y encuentre las mejores recomendaciones para optimizar su instalación de aire.
manual del aire comprimido

10 pasos para una producción más verde y eficiente

Reducción de su huella de carbono para una producción más amigable con el medio ambiente - ¡todo lo que necesita saber!
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Todo lo que necesita saber sobre su proceso de transporte neumático

Descubra cómo puede crear un proceso de transporte neumático más eficiente.
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Optimice el flujo de aire mediante un controlador central

Nuestro controlador central más reciente, el Optimizer 4.0, estabiliza el sistema y reduce los costes de energía.
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What is the Three-Phase System of Alternating Current?

Compressed Air Wiki Teoría básica Electricidad

In order to turn air into compressed air, you need power. This power comes in the form of electricity. In this article we will talk about alternating current, more specifically about the three-phase system.

the three-phase system of alternating current
First of all, the power of a single alternating current phase fluctuates. For domestic use, this does not truly present a problem. However, for the operation of electric motors it is advisable to use a current that produces more constant power. This is obtained by using three separate power lines with alternating current, running in parallel but with each current phase shifted by 1/3 of a cycle in relation to the other phases. Three-phase alternating current is produced at the power station in a generator with three separate windings. A single phase application can be connected between the phase and zero. Three-phase applications can be connected using all three phases in two ways, in a star (Y) or delta (Δ) configuration. With the star connection, a phase voltage lies between the outlets. With a delta connection, a main voltage lies between the outlets. Industrial compressors were among the first industrial machines to be equipped with Variable Speed Drives (VSD), also called Variable Frequency Drives, to control the rotational speed and torque of AC induction motors by controlling the frequency of the electric power lines to the motor. The most common design converts the three phases of the AC input power to DC power using a rectifier bridge. This DC power is converted into quasi-sinusoidal AC power by using an inverter switching circuit (now IGBT-type power semiconductor switches) and pulse width modulation (PWM) techniques.

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