Industries require conversion of alternating current of one voltage into another in many fields including electrical heating, lighting control and motor speed control.
Electronic transformers are direct AC-AC converters, which are used in various applications including cranes, turbines and elevator AC motors. Commonly used transformers are heavy with the core and windings, and they need large installation areas. In addition, they cause a large amount of loss due to iron loss even at no-load.
Electronic transformers operated by PWM control have the following advantages compared to conventional ones. First, their volume and weight are 50% and 30-40% of conventional ones of the same capacity, respectively. Second, conventional ones without control functions affect the other side when a short circuit or fault occurs on either input or output, but electronic transformers have a circuit-off function in the event of an accident. Third, by slowly increasing the output voltage at the time of turn-on, they can reduce inrush current or voltage shock into the load, and the addition of control functions can ensure power-off at no-load and compensation for non-sinusoidal input voltage.
Based on the principle of a boost DC/DC (direct current) converter, O Yong Hun, a researcher at the Robotics Institute, has described the advantages of a boost-type electronic transformer of light weight and small volume with protection function during the fault, and constructed the main circuit on a hardware basis so that it can operate like a conventional transformer, and then he has investigated the operation principle, control mode and energy conversion process when the devices are switched on and off.
In addition, he has constructed the main circuit and control system on MATLAB, and investigated the characteristics of the simulation waveforms at each tapping point. On the basis of the correlation between each factor, he has investigated the PWM (Pulse Width Modulation) control scheme for a reasonable parametric design to meet certain load conditions and for harmonic cancellation.
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