s couple by magnetic flux. The primary and secondary windings of a transformer are not connected to each other. The voltage difference that may safely be applied between windings without risk of breakdown is specified in kilovolts by an industry standard. The same applies to transductors. While transformers are usually used to change voltages, isolation transformers with a 1:1 ratio are used in safety applications. If two electronic systems have a common ground, they are not galvanically isolated. The common ground might not normally and intentionally have connection to functional poles, but might become connected. For this reason isolation transformers do not supply a GND/earth pole.
Opto-isolator
s transmit information by light waves. The sender and receiver are not electrically connected; typically they are held in place within a matrix of transparent, insulating plastic.
Capacitor
s allow alternating current to flow, but block direct current; they couple ac signals between circuits at different direct voltages. Depending on conditions, a capacitor may fail and become "short circuited", ending its electric isolation function, which creates risk to the "now connected circuit" and, possibly, human danger. To address this question, there are special ratings for capacitors used for safety isolation, such as "Class Y".
s allow an inductor to transfer information across a small gap magnetically. Unlike opto-isolators they do not contain a light source with a finite life, and in contrast to a transformer based approach they don't require DC balancing.
One side operates the magnetic coil of an isolation relay. The other side is connected to switched contacts.
Applications
Optocouplers are used within a system to decouple a function block from another connected to the power grid or other high voltage, for safety and equipment protection. For example, power semiconductors connected to the line voltage may be switched by optocouplers driven from low-voltage circuits, which need not be insulated for the higher line voltage. Transformers allow the output of a device to "float" relative to ground to avoid potential ground loops. Power isolation transformers increase the safety of a device, so that a person touching a live portion of the circuit will not have current flow through them to earth. Power sockets intended for electric razor supply may use an isolation transformer to prevent an electric shock if the razor should be dropped into water.
