Difference between revisions of "Alternating current"

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AC is preferred over DC for power transmission since i) [[resistor|resistive]] losses are reduced when power is transmitted at high voltages (since resistive losses go as I^2*R), so high voltages are preferred for transmission of power, and ii) [[transformer]]s are simple, passive devices which can easily convert high voltages down to the safer low voltages better for actual use and consumption - but transformers only work with AC.
 
AC is preferred over DC for power transmission since i) [[resistor|resistive]] losses are reduced when power is transmitted at high voltages (since resistive losses go as I^2*R), so high voltages are preferred for transmission of power, and ii) [[transformer]]s are simple, passive devices which can easily convert high voltages down to the safer low voltages better for actual use and consumption - but transformers only work with AC.
  
AC used for powering heavy equipment (especially rotating equipment) is often supplied in '3-phase' form; i.e. there are a trio of supply [[conductor]]s, each of which carries power in a different [[phase]]. (The three phases differ by 120 degrees.) This allows the torque produced in an electric motor to be 'smoother' - in a motor powered by single-phase AC, the torque output will necessarily be sinusoidal, like the input voltage.
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AC used for powering heavy equipment (especially rotating equipment) is often supplied as [[three-phase power]].
 
 
The 3 phases have to be connected to the motor in the correct 'order', or the motor may rotate in the other (i.e. 'wrong') direction. There are stories of large (older) [[disk]]s, powered by 3-phase power, being connected the wrong way around - with the un-wanted result!
 
  
 
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[[Category: Electrical Basics]]
 
[[Category: Electrical Basics]]

Latest revision as of 18:36, 15 August 2024

Alternating current (often abbreviated as AC) refers to the voltage (and thus the current) pattern used in one of the two main methods of carrying power (the other being so-called direct current, or DC).

In AC, the voltage starts at zero, increases to a positive peak, levels off, returns to zero, then goes negative, reaches a negative peak, levels off again, and then returns to zero; the cycle then repeats the sinusoidal pattern. The speed of this alteration is the frequency of the alternating current.

AC is preferred over DC for power transmission since i) resistive losses are reduced when power is transmitted at high voltages (since resistive losses go as I^2*R), so high voltages are preferred for transmission of power, and ii) transformers are simple, passive devices which can easily convert high voltages down to the safer low voltages better for actual use and consumption - but transformers only work with AC.

AC used for powering heavy equipment (especially rotating equipment) is often supplied as three-phase power.