Normalized Voltage of Single Phase Thyristor Converter with Resistive Load Calculator

✖Delay Angle of Thyristor Converter refers to the angle at which the thyristor is triggered to start conducting current in an AC (alternating current) circuit.ⓘ Delay Angle of Thyristor Converter [α_d(thy)]

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✖Normalized Output Voltage Thyristor Converter is found be normalizing the average output voltage with maximum voltage in a thyristor converter based circuit.ⓘ Normalized Voltage of Single Phase Thyristor Converter with Resistive Load [V_n(thy)]

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Formula

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Normalized Voltage of Single Phase Thyristor Converter with Resistive Load

Formula

`"V"_{"n(thy)"} = 0.5*(1+cos("α"_{"d(thy)"}))`

Example

`"0.669369"=0.5*(1+cos("70.2°"))`

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Normalized Voltage of Single Phase Thyristor Converter with Resistive Load Solution

STEP 0: Pre-Calculation Summary

Formula Used

Normalized Output Voltage Thyristor Converter = 0.5*(1+cos(Delay Angle of Thyristor Converter))
V_n(thy) = 0.5*(1+cos(α_d(thy)))
This formula uses 1 Functions, 2 Variables

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)

Variables Used

Normalized Output Voltage Thyristor Converter - Normalized Output Voltage Thyristor Converter is found be normalizing the average output voltage with maximum voltage in a thyristor converter based circuit.
Delay Angle of Thyristor Converter - (Measured in Radian) - Delay Angle of Thyristor Converter refers to the angle at which the thyristor is triggered to start conducting current in an AC (alternating current) circuit.

STEP 1: Convert Input(s) to Base Unit

Delay Angle of Thyristor Converter: 70.2 Degree --> 1.22522113489979 Radian (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_n(thy) = 0.5*(1+cos(α_d(thy))) --> 0.5*(1+cos(1.22522113489979))

Evaluating ... ...

V_n(thy) = 0.669368960122754

STEP 3: Convert Result to Output's Unit

0.669368960122754 --> No Conversion Required

FINAL ANSWER

0.669368960122754 ≈ 0.669369 <-- Normalized Output Voltage Thyristor Converter

(Calculation completed in 00.004 seconds)

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Created by Devyaani Garg

Shiv Nadar University (SNU), Greater Noida

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< 5 Single Phase Thyristor Converter Calculators

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

Average Load Voltage for Calculus Function

Go Average Voltage Thyristor Converter = ((1/(2*pi))*int(Peak Input Voltage Thyristor Converter*sin(x),x,Firing Angle of Thyristor Converter,pi))

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))

Normalized Voltage of Single Phase Thyristor Converter with Resistive Load

Go Normalized Output Voltage Thyristor Converter = 0.5*(1+cos(Delay Angle of Thyristor Converter))

Maximum Output Voltage of Single Phase Thyristor Converter with Resistive Load

Go Peak Output Voltage Thyristor Converter = Peak Input Voltage Thyristor Converter/pi

Normalized Voltage of Single Phase Thyristor Converter with Resistive Load Formula

Normalized Output Voltage Thyristor Converter = 0.5*(1+cos(Delay Angle of Thyristor Converter))
V_n(thy) = 0.5*(1+cos(α_d(thy)))

What is delay angle of thyristor?

Delay angle is the time during which the Thyristor blocks the line voltage. The conduction angle is the time during which the Thyristor is on. It is important to note that the circuit current is determined by the load and power source.

How to Calculate Normalized Voltage of Single Phase Thyristor Converter with Resistive Load?

Normalized Voltage of Single Phase Thyristor Converter with Resistive Load calculator uses Normalized Output Voltage Thyristor Converter = 0.5*(1+cos(Delay Angle of Thyristor Converter)) to calculate the Normalized Output Voltage Thyristor Converter, The Normalized voltage of single phase thyristor converter with resistive load formula is found by normalizing the average output voltage concerning maximum voltage. Normalized Output Voltage Thyristor Converter is denoted by V_n(thy) symbol.

How to calculate Normalized Voltage of Single Phase Thyristor Converter with Resistive Load using this online calculator? To use this online calculator for Normalized Voltage of Single Phase Thyristor Converter with Resistive Load, enter Delay Angle of Thyristor Converter (α_d(thy)) and hit the calculate button. Here is how the Normalized Voltage of Single Phase Thyristor Converter with Resistive Load calculation can be explained with given input values -> 0.67101 = 0.5*(1+cos(1.22522113489979)).

FAQ

What is Normalized Voltage of Single Phase Thyristor Converter with Resistive Load?

The Normalized voltage of single phase thyristor converter with resistive load formula is found by normalizing the average output voltage concerning maximum voltage and is represented as V_n(thy) = 0.5*(1+cos(α_d(thy))) or Normalized Output Voltage Thyristor Converter = 0.5*(1+cos(Delay Angle of Thyristor Converter)). Delay Angle of Thyristor Converter refers to the angle at which the thyristor is triggered to start conducting current in an AC (alternating current) circuit.

How to calculate Normalized Voltage of Single Phase Thyristor Converter with Resistive Load?

The Normalized voltage of single phase thyristor converter with resistive load formula is found by normalizing the average output voltage concerning maximum voltage is calculated using Normalized Output Voltage Thyristor Converter = 0.5*(1+cos(Delay Angle of Thyristor Converter)). To calculate Normalized Voltage of Single Phase Thyristor Converter with Resistive Load, you need Delay Angle of Thyristor Converter (α_d(thy)). With our tool, you need to enter the respective value for Delay Angle of Thyristor Converter 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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