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Power factors below 1.0 require a utility to generate more than the minimum volt-amperes necessary to supply the real power (watts). This increases generation and transmission costs. For example, if the load power factor were as low as 0.7, the apparent power would be 1.4 times the real power used by the load. Line current in the circuit would also be 1.4 times the current required at 1.0 power factor, so the losses in the circuit would be doubled (since they are proportional to the square of the current). Alternatively, all components of the system such as generators, conductors, transformers, and switchgear would be increased in size (and cost) to carry the extra current. When the power factor is close to unity, for the same KVA rating of the transformer more load can be connected.^[1]

Utilities typically charge additional costs to commercial customers who have a power factor below some limit, which is typically 0.9 to 0.95. Engineers are often interested in the power factor of a load as one of the factors that affect the efficiency of power transmission.

• Harmonics and how they relate to power factor, U Texas, http://www.ece.utexas.edu/~grady/POWERFAC.pdf .
• NIST Team Demystifies Utility of Power Factor Correction Devices, NIST, December 15, 2009, https://www.nist.gov/pml/div684/power_121509.cfm .
• Power factor calculation and correction, US, http://www.powerfactor.us/ .