An isolation transformer is a device that electrically isolates two circuits while allowing signal transmission between them. It achieves this isolation by using a special transformer configuration that physically separates the primary and secondary windings, preventing direct electrical connection between the two circuits. Here's how it works:
Transformer Configuration: An isolation transformer typically consists of two separate windings—the primary winding and the secondary winding—wound on a common magnetic core. The number of turns in the primary and secondary windings can be different, allowing for voltage transformation if required.
Galvanic Isolation: The physical separation of the primary and secondary windings on the transformer core provides "galvanic isolation." Galvanic isolation means there is no direct metallic path for electrical current to flow between the two circuits connected to the primary and secondary windings.
Signal Transmission: Despite the galvanic isolation, signal transmission is still possible between the circuits. When an alternating current (AC) voltage is applied to the primary winding, an alternating magnetic field is created in the transformer core. This changing magnetic field induces a corresponding voltage in the secondary winding, which generates the signal in the secondary circuit.
No Common Ground: The key to isolation is that the isolation transformer ensures there is no electrical connection between the grounds of the two circuits. Any potential difference or voltage spike in one circuit will not directly affect the other circuit, making it safer to use and preventing ground loops.
Uses of Isolation Transformers:
Safety: Isolation transformers are often used to provide an extra layer of safety, isolating sensitive electronic equipment from the power grid to protect against electrical shock and to prevent damages due to electrical faults.
Noise and Interference: They can also help reduce noise, interference, and electromagnetic radiation between interconnected equipment by blocking the flow of common-mode noise.
Signal Integrity: In some cases, isolation transformers are employed to improve signal integrity by eliminating ground loops and reducing cross-talk between circuits.
Overall, isolation transformers are versatile devices that offer electrical isolation while allowing signal transmission, making them valuable tools in various applications, particularly in electronics, telecommunications, and power systems.