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RMS Output Voltage for Continuous Load Current Calculator

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Peak Input Voltage 3 Phase Half Converter is defined as the peak amplitude obtained by the voltage at the input terminal of a half converter circuit.Peak Input Voltage 3 Phase Half Converter [Vin(3Φ-half)i]
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Delay Angle of 3 Phase Half Converter refers to the angle at which the thyristor is triggered to start conducting current in a 3 phase AC (alternating current) circuit.Delay Angle of 3 Phase Half Converter [αd(3Φ-half)]
+10%
-10%
RMS Output Voltage 3 Phase Half Converter is defined as the root mean square value of the voltage at output terminal of a half converter circuit.RMS Output Voltage for Continuous Load Current [Vrms(3Φ-half)]
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Formula

RMS Output Voltage for Continuous Load Current

Formula
`"V"_{"rms(3Φ-half)"} = sqrt(3)*"V"_{"in(3Φ-half)i"}*((1/6)+(sqrt(3)*cos(2*"α"_{"d(3Φ-half)"}))/(8*pi))^0.5`

Example
`"103.1076V"=sqrt(3)*"182V"*((1/6)+(sqrt(3)*cos(2*"75°"))/(8*pi))^0.5`

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RMS Output Voltage for Continuous Load Current Solution

STEP 0: Pre-Calculation Summary
Formula Used
RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5
Vrms(3Φ-half) = sqrt(3)*Vin(3Φ-half)i*((1/6)+(sqrt(3)*cos(2*αd(3Φ-half)))/(8*pi))^0.5
This formula uses 1 Constants, 2 Functions, 3 Variables
Constants Used
pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288
Functions Used
cos - Cosine of an angle is the ratio of the side adjacent to the angle to the hypotenuse of the triangle., cos(Angle)
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
RMS Output Voltage 3 Phase Half Converter - (Measured in Volt) - RMS Output Voltage 3 Phase Half Converter is defined as the root mean square value of the voltage at output terminal of a half converter circuit.
Peak Input Voltage 3 Phase Half Converter - (Measured in Volt) - Peak Input Voltage 3 Phase Half Converter is defined as the peak amplitude obtained by the voltage at the input terminal of a half converter circuit.
Delay Angle of 3 Phase Half Converter - (Measured in Radian) - Delay Angle of 3 Phase Half Converter refers to the angle at which the thyristor is triggered to start conducting current in a 3 phase AC (alternating current) circuit.
STEP 1: Convert Input(s) to Base Unit
Peak Input Voltage 3 Phase Half Converter: 182 Volt --> 182 Volt No Conversion Required
Delay Angle of 3 Phase Half Converter: 75 Degree --> 1.3089969389955 Radian (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vrms(3Φ-half) = sqrt(3)*Vin(3Φ-half)i*((1/6)+(sqrt(3)*cos(2*αd(3Φ-half)))/(8*pi))^0.5 --> sqrt(3)*182*((1/6)+(sqrt(3)*cos(2*1.3089969389955))/(8*pi))^0.5
Evaluating ... ...
Vrms(3Φ-half) = 103.107568214723
STEP 3: Convert Result to Output's Unit
103.107568214723 Volt --> No Conversion Required
FINAL ANSWER
103.107568214723 103.1076 Volt <-- RMS Output Voltage 3 Phase Half Converter
(Calculation completed in 00.004 seconds)
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Created by Devyaani Garg
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5 Three Phase Half Wave Converters Calculators

RMS Output Voltage for Resistive Load
​ Go RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Phase Voltage*(sqrt((1/6)+((sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))))
RMS Output Voltage for Continuous Load Current
​ Go RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5
Average Output Voltage for Continuous Load Current
​ Go Average Voltage 3 Phase Half Converter = (3*sqrt(3)*Peak Input Voltage 3 Phase Half Converter*(cos(Delay Angle of 3 Phase Half Converter)))/(2*pi)
Maximum Output Voltage for Continuous Load Current
​ Go Peak Input Voltage 3 Phase Half Converter = (3*sqrt(3)*Peak Phase Voltage)/(2*pi)
Normalized Average Output Voltage in Three-Phase Half-Wave Converters
​ Go Normalized Output Voltage 3 Phase Half Converter = (cos(Delay Angle of 3 Phase Half Converter))

19 Power Converter Characteristics Calculators

RMS Harmonic Current for PWM Control
​ Go RMS nth Harmonic Current = ((sqrt(2)*Armature Current)/pi)*sum(x,1,Number of Pulse in Half-cycle of PWM,(cos(Harmonic Order*Excitation Angle))-(cos(Harmonic Order*Symmetrical Angle)))
Average Output Voltage for PWM Control
​ Go Average Output Voltage of PWM Controlled Converter = (Peak Input Voltage of PWM Converter/pi)*sum(x,1,Number of Pulse in Half-cycle of PWM,(cos(Excitation Angle)-cos(Symmetrical Angle)))
Fundamental Supply Current for PWM Control
​ Go Fundamental Supply Current = ((sqrt(2)*Armature Current)/pi)*sum(x,1,Number of Pulse in Half-cycle of PWM,(cos(Excitation Angle))-(cos(Symmetrical Angle)))
RMS Output Voltage for Three Phase Semi-Converter
​ Go RMS Output Voltage 3 Phase Semi Converter = sqrt(3)*Peak Input Voltage 3 Phase Semi Converter*((3/(4*pi))*(pi-Delay Angle of 3 Phase Semi Converter+((sin(2*Delay Angle of 3 Phase Semi Converter))/2))^0.5)
RMS Supply Current for PWM Control
​ Go Root Mean Square Current = Armature Current/sqrt(pi)*sqrt(sum(x,1,Number of Pulse in Half-cycle of PWM,(Symmetrical Angle-Excitation Angle)))
RMS Output Voltage for Resistive Load
​ Go RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Phase Voltage*(sqrt((1/6)+((sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))))
RMS Output Voltage for Continuous Load Current
​ Go RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5
RMS Output Voltage of Single Phase Thyristor Converter with Resistive Load
​ Go RMS Voltage Thyristor Converter = (Peak Input Voltage Thyristor Converter/2)*((180-Delay Angle of Thyristor Converter)/180+(0.5/pi)*sin(2*Delay Angle of Thyristor Converter))^0.5
RMS Output Voltage of Single Phase Semi-Converter with Highly Inductive Load
​ Go RMS Output Voltage Semi Converter = (Maximum Input Voltage Semi Converter/(2^0.5))*((180-Delay Angle Semi Converter)/180+(0.5/pi)*sin(2*Delay Angle Semi Converter))^0.5
Average Output Voltage for Continuous Load Current
​ Go Average Voltage 3 Phase Half Converter = (3*sqrt(3)*Peak Input Voltage 3 Phase Half Converter*(cos(Delay Angle of 3 Phase Half Converter)))/(2*pi)
RMS Output Voltage of Three-Phase Full Converter
​ Go RMS Output Voltage 3 Phase Full Converter = ((6)^0.5)*Peak Input Voltage 3 Phase Full Converter*((0.25+0.65*(cos(2*Delay Angle of 3 Phase Full Converter))/pi)^0.5)
Average Output Voltage of Single Phase Thyristor Converter with Resistive Load
​ Go Average Voltage Thyristor Converter = (Peak Input Voltage Thyristor Converter/(2*pi))*(1+cos(Delay Angle of Thyristor Converter))
Average Output Voltage for Three-Phase Converter
​ Go Average Voltage 3 Phase Full Converter = (2*Peak Phase Voltage Full Converter*cos(Delay Angle of 3 Phase Full Converter/2))/pi
DC Output Voltage of Second Converter
​ Go DC Output Voltage Second Converter = (2*Peak Input Voltage Dual Converter*(cos(Delay Angle of Second Converter)))/pi
DC Output Voltage for First Converter
​ Go DC Output Voltage First Converter = (2*Peak Input Voltage Dual Converter*(cos(Delay Angle of First Converter)))/pi
Average DC Output Voltage of Single Phase Full Converter
​ Go Average Voltage Full Converter = (2*Maximum DC Output Voltage Full Converter*cos(Firing Angle Full Converter))/pi
Average Output Voltage of Single Phase Semi-Converter with Highly Inductive Load
​ Go Average Voltage Semi Converter = (Maximum Input Voltage Semi Converter/pi)*(1+cos(Delay Angle Semi Converter))
Average Load Current of Three Phase Semi-Current
​ Go Load Current 3 Phase Semi Converter = Average Voltage 3 Phase Semi Converter/Resistance 3 Phase Semi Converter
RMS Output Voltage of Single Phase Full Converter
​ Go RMS Output Voltage Full Converter = Maximum Input Voltage Full Converter/(sqrt(2))

RMS Output Voltage for Continuous Load Current Formula

RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5
Vrms(3Φ-half) = sqrt(3)*Vin(3Φ-half)i*((1/6)+(sqrt(3)*cos(2*αd(3Φ-half)))/(8*pi))^0.5

What is the meaning of root mean square?

The root mean square value of a quantity is the square root of the mean value of the squared values of the quantity taken over an interval. AC voltages are always given as RMS values because this allows a sensible comparison to be made with steady DC voltages.

How to Calculate RMS Output Voltage for Continuous Load Current?

RMS Output Voltage for Continuous Load Current calculator uses RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5 to calculate the RMS Output Voltage 3 Phase Half Converter, The RMS output voltage for continuous load current formula is the root mean square value of the average output voltage of the converter. RMS Output Voltage 3 Phase Half Converter is denoted by Vrms(3Φ-half) symbol.

How to calculate RMS Output Voltage for Continuous Load Current using this online calculator? To use this online calculator for RMS Output Voltage for Continuous Load Current, enter Peak Input Voltage 3 Phase Half Converter (Vin(3Φ-half)i) & Delay Angle of 3 Phase Half Converter d(3Φ-half)) and hit the calculate button. Here is how the RMS Output Voltage for Continuous Load Current calculation can be explained with given input values -> 103.1076 = sqrt(3)*182*((1/6)+(sqrt(3)*cos(2*1.3089969389955))/(8*pi))^0.5.

FAQ

What is RMS Output Voltage for Continuous Load Current?
The RMS output voltage for continuous load current formula is the root mean square value of the average output voltage of the converter and is represented as Vrms(3Φ-half) = sqrt(3)*Vin(3Φ-half)i*((1/6)+(sqrt(3)*cos(2*αd(3Φ-half)))/(8*pi))^0.5 or RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5. Peak Input Voltage 3 Phase Half Converter is defined as the peak amplitude obtained by the voltage at the input terminal of a half converter circuit & Delay Angle of 3 Phase Half Converter refers to the angle at which the thyristor is triggered to start conducting current in a 3 phase AC (alternating current) circuit.
How to calculate RMS Output Voltage for Continuous Load Current?
The RMS output voltage for continuous load current formula is the root mean square value of the average output voltage of the converter is calculated using RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Input Voltage 3 Phase Half Converter*((1/6)+(sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))^0.5. To calculate RMS Output Voltage for Continuous Load Current, you need Peak Input Voltage 3 Phase Half Converter (Vin(3Φ-half)i) & Delay Angle of 3 Phase Half Converter d(3Φ-half)). With our tool, you need to enter the respective value for Peak Input Voltage 3 Phase Half Converter & Delay Angle of 3 Phase Half Converter and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate RMS Output Voltage 3 Phase Half Converter?
In this formula, RMS Output Voltage 3 Phase Half Converter uses Peak Input Voltage 3 Phase Half Converter & Delay Angle of 3 Phase Half Converter. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Phase Voltage*(sqrt((1/6)+((sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))))
  • RMS Output Voltage 3 Phase Half Converter = sqrt(3)*Peak Phase Voltage*(sqrt((1/6)+((sqrt(3)*cos(2*Delay Angle of 3 Phase Half Converter))/(8*pi))))
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