Volt-amperes reactive
From Wikipedia, the free encyclopedia
In alternating-current power transmission and distribution, volt-amperes reactive (VARs) are the product of the rms voltage and current, or the apparent power, multiplied by the sine of the phase angle between the voltage and the current. Or in mathematical terms, the reactive power Q, (measured in units of volt-amperes reactive or VARs), is given by
,
where φ is the phase angle between the voltage and current.
The term VAR was introduced in 1930 by the IEC in Stockholm.
Note 1: VARs represents the power consumed by a reactive load, i.e., when there is a phase difference between the applied voltage and the current.
Note 2: Only effective power, i.e., the actual power delivered to or consumed by the load, is expressed in watts. Imaginary power is properly expressed in volt-amperes reactive.
Note 3: To maximize transmission efficiency, vars must be minimized by balancing capacitive and inductive loads, or by the addition of an appropriate (off-setting) capacitive or inductive reactance to the load.
Source: from Federal Standard 1037C
Note 4: Apparent power, or the product of the rms voltage and amperage, measured in volt-amperes (VA), graphically presented as the hypotenuse of the power triangle, is typically the power rating measure of transmission or distribution equipment. Except in purely resistive circuits, apparent power is always larger than effective power (watts), hence the use of VA as the power rating measure in alternating circuits.
 |
This article about energy, its collection, its distribution, or its uses is a stub. You can help Wikipedia by expanding it. |
