Kimbark's Average Voltage Calculator
Average Voltage is the average of instantaneous voltages that are chosen at appropriately timed intervals in the half cycle of an AC sinusoidal or any other periodic waveform. This Calculator calculates the Average Voltage of a Three Phase Rectifier.
Enter the Peak Line to Line Voltage and Commutation Interval to calculate Average Voltage of a Three Phase Rectifier
The Three-Phase Average-Value Rectifier block replicates a full-wave, six-pulse rectifier with an average value. Three-phase alternating current voltages are converted to direct current voltages, and direct current power demand is converted to three-phase alternating current power demand. The equivalent AC power demand is equal to the sum of the fixed power loss and the DC power demand. Only a six-pulse rectifier may be used with the Average-Value Rectifier (Three-Phase) block. Combining two Average-Value Rectifier blocks cannot represent a twelve-pulse rectifier. The Average-Value Rectifier (Three-Phase) block does not create the harmonics associated with the detailed representation since it performs an average-value power conversion.
Average Voltage is the average of instantaneous voltages that are chosen at appropriately timed intervals in the half cycle of an AC sinusoidal or any other periodic waveform. This Calculator calculates the Kimbark's Average Voltage of a Three Phase Rectifier with a given Thyristor Trigger Angle.
Enter the Peak Line to Line Voltage, Trigger Angle and Commutation Interval to calculate Average Voltage of a Three Phase Rectifier
The Three-Phase Average-Value Rectifier block replicates a full-wave, six-pulse rectifier with an average value. Three-phase alternating current voltages are converted to direct current voltages, and direct current power demand is converted to three-phase alternating current power demand. The equivalent AC power demand is equal to the sum of the fixed power loss and the DC power demand. Only a six-pulse rectifier may be used with the Average-Value Rectifier (Three-Phase) block. Combining two Average-Value Rectifier blocks cannot represent a twelve-pulse rectifier. The Average-Value Rectifier (Three-Phase) block does not create the harmonics associated with the detailed representation since it performs an average-value power conversion.
