## Load Voltage of Full Wave Three Phase Uncontrolled Rectifier Solution

STEP 0: Pre-Calculation Summary
Formula Used
AC Voltage = (2*Winding Ratio*Peak Input Voltage)/pi
Vac = (2*n*Vmax)/pi
This formula uses 1 Constants, 3 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Variables Used
AC Voltage - (Measured in Volt) - AC Voltage uncontrolled rectifier is also known as the DC output voltage. It is the voltage that is available to the load circuit.
Winding Ratio - Winding Ratio of an uncontrolled rectifier is the ratio of the number of turns on the primary winding to the number of turns on the secondary winding of the transformer.
Peak Input Voltage - (Measured in Volt) - Peak Input Voltage is the peak of the alternating voltage provided at the input of any electrical circuit.
STEP 1: Convert Input(s) to Base Unit
Winding Ratio: 15 --> No Conversion Required
Peak Input Voltage: 220 Volt --> 220 Volt No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vac = (2*n*Vmax)/pi --> (2*15*220)/pi
Evaluating ... ...
Vac = 2100.84524881302
STEP 3: Convert Result to Output's Unit
2100.84524881302 Volt --> No Conversion Required
2100.84524881302 2100.845 Volt <-- AC Voltage
(Calculation completed in 00.004 seconds)
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## Credits

Created by Mohamed Fazil V
Acharya institute of technology (AIT), Bengaluru
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Verified by Parminder Singh
Chandigarh University (CU), Punjab
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## < 9 Full Wave Calculators

RMS Load Current of Three Phase Uncontrolled Rectifier
RMS Diode Current of Three Phase Uncontrolled Rectifier
RMS Diode Current = (Winding Ratio*Peak Input Voltage)/ (Load Resistance*sqrt(2))*sqrt(1/3+sqrt(3)/(4*pi))
RMS Load Voltage of Three Phase Uncontrolled Rectifier
RMS Load Voltage = (Winding Ratio*Peak Input Voltage)/sqrt(2)*sqrt(1+(3*sqrt(3))/(2*pi))
Average Load Current of Three Phase Uncontrolled Rectifier
Average Diode Current of Three Phase Uncontrolled Rectifier
Average Diode Current = (sqrt(3)*Winding Ratio*Peak Input Voltage)/(2*pi*Load Resistance)
Load Current of DC Three Phase Uncontrolled Rectifier
Load Voltage of DC Three Phase Uncontrolled Rectifier
DC Load Voltage = (3*sqrt(3)*Peak Input Voltage)/(2*pi)
Load Voltage of Full Wave Three Phase Uncontrolled Rectifier
AC Voltage = (2*Winding Ratio*Peak Input Voltage)/pi
Power Delivered to Load in Three Phase Uncontrolled Rectifier
Delivery Power = AC Voltage*Average Output Voltage

## Load Voltage of Full Wave Three Phase Uncontrolled Rectifier Formula

AC Voltage = (2*Winding Ratio*Peak Input Voltage)/pi
Vac = (2*n*Vmax)/pi

## What is Load Voltage of Full Wave Three Phase Uncontrolled Rectifier?

In a full-wave three-phase uncontrolled rectifier, the load voltage depends on the configuration of the rectifier and the type of load it is connected to. There are different configurations of full-wave three-phase rectifiers, such as the bridge rectifier and the center-tapped transformer rectifier. The load voltage also depends on the input AC voltage and the firing angles (for controlled rectifiers), but since you specified an uncontrolled rectifier, we'll assume no firing angle control.

## How to Calculate Load Voltage of Full Wave Three Phase Uncontrolled Rectifier?

Load Voltage of Full Wave Three Phase Uncontrolled Rectifier calculator uses AC Voltage = (2*Winding Ratio*Peak Input Voltage)/pi to calculate the AC Voltage, Load Voltage of Full Wave Three Phase Uncontrolled Rectifier is the average value of the rectified sinusoidal waveform. The average load voltage of a full-wave three-phase uncontrolled rectifier is also known as the DC output voltage. It is the voltage that is available to the load circuit. It is important to note that the DC output voltage of a full-wave three-phase uncontrolled rectifier is not perfectly constant. It will have a ripple voltage superimposed on it. The ripple voltage is caused by the fact that the rectified sinusoidal waveform is not a pure DC waveform. AC Voltage is denoted by Vac symbol.

How to calculate Load Voltage of Full Wave Three Phase Uncontrolled Rectifier using this online calculator? To use this online calculator for Load Voltage of Full Wave Three Phase Uncontrolled Rectifier, enter Winding Ratio (n) & Peak Input Voltage (Vmax) and hit the calculate button. Here is how the Load Voltage of Full Wave Three Phase Uncontrolled Rectifier calculation can be explained with given input values -> 2100.845 = (2*15*220)/pi.

### FAQ

What is Load Voltage of Full Wave Three Phase Uncontrolled Rectifier?
Load Voltage of Full Wave Three Phase Uncontrolled Rectifier is the average value of the rectified sinusoidal waveform. The average load voltage of a full-wave three-phase uncontrolled rectifier is also known as the DC output voltage. It is the voltage that is available to the load circuit. It is important to note that the DC output voltage of a full-wave three-phase uncontrolled rectifier is not perfectly constant. It will have a ripple voltage superimposed on it. The ripple voltage is caused by the fact that the rectified sinusoidal waveform is not a pure DC waveform and is represented as Vac = (2*n*Vmax)/pi or AC Voltage = (2*Winding Ratio*Peak Input Voltage)/pi. Winding Ratio of an uncontrolled rectifier is the ratio of the number of turns on the primary winding to the number of turns on the secondary winding of the transformer & Peak Input Voltage is the peak of the alternating voltage provided at the input of any electrical circuit.
How to calculate Load Voltage of Full Wave Three Phase Uncontrolled Rectifier?
Load Voltage of Full Wave Three Phase Uncontrolled Rectifier is the average value of the rectified sinusoidal waveform. The average load voltage of a full-wave three-phase uncontrolled rectifier is also known as the DC output voltage. It is the voltage that is available to the load circuit. It is important to note that the DC output voltage of a full-wave three-phase uncontrolled rectifier is not perfectly constant. It will have a ripple voltage superimposed on it. The ripple voltage is caused by the fact that the rectified sinusoidal waveform is not a pure DC waveform is calculated using AC Voltage = (2*Winding Ratio*Peak Input Voltage)/pi. To calculate Load Voltage of Full Wave Three Phase Uncontrolled Rectifier, you need Winding Ratio (n) & Peak Input Voltage (Vmax). With our tool, you need to enter the respective value for Winding Ratio & Peak Input Voltage and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
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