Volt-ampere

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A volt-ampere in electrical terms, means the amount of apparent power in an alternating current circuit equal to a current of one ampere at an emf of one volt. It is equivalent to watts for non-reactive circuits.

Hence;

10 kV·A = 10,000 watts capability (where the SI prefix k equals kilo)
10 MV·A = 10,000,000 watts capability (where M equals mega)

While the volt-ampere (abbreviated VA) and the watt are dimensionally equivalent one may find products rated in both VAs and watts with different numbers. This is common practice on UPSs (Uninterruptible Power Supplies). The VA rating is the apparent power that a UPS is capable of producing, while the watt rating is the real power (or true power) it is capable of producing, as opposed to reactive power. Reactive power arises due to the effects of capacitance and inductance of components in the load to be powered by the AC circuit. In a purely resistive load (incandescent lights for example), the apparent power is equal to the true power and the amount of VAs and watts used would be equivalent. However, in more complex loads, such as computers (which UPSs are intended to power) the apparent power used (VAs) will be larger than the true power used (watts). The ratio of these two quantities is called the power factor.

In the strictest sense, a volt-amp and a Watt are the same. However based on the fact that your device has a Watt equal to 70% of a volt-amp, they are not used to mean the same thing. The volt-amp refers to the maximum power flow, while the Watt refers to a time-averaged power flow. The Power flow varies as a sine function. The "root-mean-square" rate of flow is approximately 70% of the maximum flow.

Watts can be calculated with the equation: $W = V A * 0.7$

VA can be calculated with the equation: $V A = W / 0.7$