Why Use an Isolation Transformer?

An isolation transformer transfers electrical power from an unrestricted source to any device. This is done to ensure that the device is safe from power surges. They are used in many facilities including hospitals and laboratories, where even minor faults could cause serious mishaps. These equipment are protected and kept safe by the isolation transformer. In managing electricity infrastructure, all needs must be wise and with quality products. Then MGM Transformers can help to supply varying secondary voltages to externally connected loads. You can find quality electrical and lighting products at the MGM Transformer Company.

Galvanic isolation is used to prevent current from entering different devices. The transformer has no direct connection, but the electricity is still transmitted using the aid of electromagnetic waves, capacitance, and induction. Isolation transformers are recommended to protect the electric shock from the ground and the energized conductor. They should have a 1:1 ratio between the primary and secondary windings. This device is capable of protecting electrical devices against fire hazards. You will choose an isolation transformer over other types because of four key advantages:

Higher power quality – An isolation transformer can be used to provide you with a higher level of power quality. A shield reduces the risk of current leakage and makes the power supply more efficient. This ensures that the devices can work at their best.

It’s safe and secure – This is the biggest advantage of an isolation transformer over others. This is particularly important for hospitals, where the equipment directly impacts the life of patients.

Less noisy – A transformer is designed to reduce noise from power lines. These transformers are popular in facilities where noise control is a priority. The shields reduce noise and prevent interruption of power flow.

Smooth Functioning Devices- Another advantage to installing this transformer are the lower power surges. Smooth operation of electrical equipment is possible because the DC signals coming from the power source have been isolated. This means that devices can run smoothly, even if power supplies are down.