Why do we need a transformer in a power system?
In general, in the power system, traditional transformers are used to step up/step down the voltage. But these transformers do not have the ability to compensate for voltage sag and swell, reactive power, fault isolation, and so on. But with SST we will be able to overcome these drawbacks.
How intelligent transformers work?
It should be noted that intelligent transformers by applying telecommunication links constantly monitor the grid, and in case of any disturbance in the grid, immediately operates in islanding mode, thus ensuring the continuity of load service, which will increase the reliability, stability, and efficiency of the system.
How to control power flow in a high-frequency transformer?
Another simple method is the phase shift control method. In this method, a phase shift is applied between the primary and secondary voltages of the high-frequency transformer (HFT). This provides a simple method to control the magnitude and direction of power flow in the system.
How can solid-state transformers improve power quality?
In general, various control methods are used in solid-state transformers, which can also improve power quality problems. In Reference 106, a new model for solid-state transformers is proposed; one of its advantages is better power factor correction and voltage regulation.
Can solid-state transformers be used in smart grid applications?
Studies show that the various characteristics of solid-state transformers have led to much consideration as potential transformers in smart grid applications, the integration of distributed generation sources, modern traction systems, and so on.
Does a three-phase solid-state transformer improve power quality?
In References 103, 110, a mathematical model of a three-phase solid-state transformer is presented that investigates the effect of SST on power quality improvement.
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