A transformer usually has two induction coils or windings. As the changing current flows through the powered or primary winding, it produces a changing magnetic field that grows through the unpowered or secondary windings. This changing magnetic field induces a current in the secondaries. (The changing magnetic field also causes mechanical forces that make parts of the transformer vibrate, which is why transformers hum. The hum consists of a fundamental note at twice the mains frequency, plus harmonics. The energy converted to motion is one form of core loss[?].)
The winding with fewer turns of wire has higher current, at a lower voltage. The winding with more turns of wire has less current, at a higher voltage. The ratio of voltages is proportional to the ratio of the numbers of turns of wire. For example, a 5-to-1 step-down transformer might take 1200-volt 60 Hz alternating current, and change it to the 240-volt 60 Hz alternating current distributed to houses. It might have 500 turns of wire on the primary, and 100 turns on the secondary. Many electronic appliances have several secondaries to produce different voltages needed in the appliance.
The high-current low-voltage windings have fewer turns of thicker wire. The thicker wire helps carry more current. The high-voltage, low-current windings have more turns of thinner wire. The thinner wire carries less current, but at a higher voltage. Transformer designers will optimize the wire sizes so that each winding will have the lowest resistance while keeping the winding size as small as possible, in an effort to reduce copper losses[?].
Some transformers have equal numbers of windings on both coils. These "isolation" transformers are used to prevent direct current flow between electric circuits, while transferring power.
An autotransformer[?] has only a single winding, which is tapped at some point along the winding. AC or pulsed DC power is applied across a portion of the winding, and a higher (or lower) voltage is produced across another portion of the same winding. Autotransformers are commonly used as spark coils in automotive engines, and as high-voltage flyback transformers in television sets and computer monitors.
A Tesla coil is a high-voltage air-core resonant transformer generating very high voltages at high frequency.
The transformer was invented by three Hungarian engineers: Ottó Bláthy, Miksa Déri and Károly Zipernowsky in 1885.
See also: Milan Vidmar, Mihajlo Pupin.
Unrelated link: Transformers (television series), an animated television series
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