Ideal transformers are theoretical devices used to study and understand real transformers. They operate under perfect conditions with no energy losses, providing a simplified model for analyzing transformer behavior and characteristics.
An ideal transformer operates on the principle of electromagnetic induction, where a changing current in the primary coil induces a voltage in the secondary coil, maintaining the relationship Vp/Vs=Np/Ns & Ip​/Is​=Ns​/Np.
In an ideal transformer, the primary and secondary voltages (Vp and Vs) and currents (Ip and Is) are related by the turns ratio, with power remaining constant across coils: Vpâ‹…Ip=Vsâ‹…Is.
While ideal transformers provide a useful theoretical model, real transformers experience energy losses due to resistance, hysteresis, and eddy currents. Understanding ideal transformers aids in designing and improving practical transformers for efficient energy transfer.
"Ideal transformers provide foundational understanding, aiding practical transformer design and improvement. Makpower Transformer excels in manufacturing efficient transformers."