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Three Phase Power Formula:
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Three-phase power is a common method of alternating current electric power generation, transmission, and distribution. It is more efficient than single-phase power for large loads and provides a more consistent power delivery.
The calculator uses the three-phase power formula:
Where:
Explanation: The formula calculates the real power in a balanced three-phase system, accounting for the phase difference between voltage and current.
Details: Power factor represents the ratio of real power to apparent power. A higher power factor (closer to 1) indicates more efficient power usage, while lower power factors indicate reactive power losses.
Tips: Enter line-to-line voltage in volts, current in amperes, and power factor (between 0 and 1). Typical power factors are 0.8 to 0.95 for industrial loads.
Q1: What's the difference between line-to-line and line-to-neutral voltage?
A: In three-phase systems, line-to-line voltage is between any two phases, while line-to-neutral is between one phase and neutral. Line-to-line is √3 times line-to-neutral.
Q2: Why is three-phase power more efficient?
A: Three-phase systems deliver power more consistently (less pulsation) and can transmit more power with less conductor material compared to single-phase.
Q3: What is a typical power factor value?
A: Industrial loads typically have 0.8-0.95, while purely resistive loads (heaters) have 1.0. Motors often have lower power factors (0.7-0.9).
Q4: How can power factor be improved?
A: Power factor correction capacitors can be added to counteract inductive loads and bring power factor closer to 1.
Q5: What is the difference between real, reactive, and apparent power?
A: Real power (W) does actual work, reactive power (VAR) sustains electromagnetic fields, and apparent power (VA) is the vector sum of both.