Average Output Voltage in Load Commutated Chopper Calculator

✖Input Voltage refers to the electrical potential supplied to a device or circuit as an energy source, typically measured in volts, which powers and operates the equipment.ⓘ Input Voltage [V_in]			+10% -10%
✖Commutation Capacitance is defined as the capacitors used to facilitate the controlled turn-off of thyristors, ensuring smooth and efficient switching between different stages of chopper operation.ⓘ Commutation Capacitance [C_c]			+10% -10%
✖Chopping frequency refers to the rate at which a signal is turned on and off, or modulated, in a switching circuit. A higher chopping frequency can improve accuracy and reduce noise.ⓘ Chopping Frequency [f_c]			+10% -10%
✖Output Current is defined as the average of a current over one complete cycle at the output terminal of the chopper based circuit.ⓘ Output Current [I_out]			+10% -10%

✖Average output voltage is the mean or steady-state voltage level delivered by a device or circuit over a specific time period.ⓘ Average Output Voltage in Load Commutated Chopper [V_avg]

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Formula

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Average Output Voltage in Load Commutated Chopper

Formula

`"V"_{"avg"} = (2*"V"_{"in"}^2*"C"_{"c"}*"f"_{"c"})/"I"_{"out"}`

Example

`"0.01375V"=(2*("0.25V")^2*"0.125F"*"0.44Hz")/"0.5A"`

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Average Output Voltage in Load Commutated Chopper Solution

STEP 0: Pre-Calculation Summary

Formula Used

Average Output Voltage = (2*Input Voltage^2*Commutation Capacitance*Chopping Frequency)/Output Current
V_avg = (2*V_in^2*C_c*f_c)/I_out
This formula uses 5 Variables

Variables Used

Average Output Voltage - (Measured in Volt) - Average output voltage is the mean or steady-state voltage level delivered by a device or circuit over a specific time period.
Input Voltage - (Measured in Volt) - Input Voltage refers to the electrical potential supplied to a device or circuit as an energy source, typically measured in volts, which powers and operates the equipment.
Commutation Capacitance - (Measured in Farad) - Commutation Capacitance is defined as the capacitors used to facilitate the controlled turn-off of thyristors, ensuring smooth and efficient switching between different stages of chopper operation.
Chopping Frequency - (Measured in Hertz) - Chopping frequency refers to the rate at which a signal is turned on and off, or modulated, in a switching circuit. A higher chopping frequency can improve accuracy and reduce noise.
Output Current - (Measured in Ampere) - Output Current is defined as the average of a current over one complete cycle at the output terminal of the chopper based circuit.

STEP 1: Convert Input(s) to Base Unit

Input Voltage: 0.25 Volt --> 0.25 Volt No Conversion Required
Commutation Capacitance: 0.125 Farad --> 0.125 Farad No Conversion Required
Chopping Frequency: 0.44 Hertz --> 0.44 Hertz No Conversion Required
Output Current: 0.5 Ampere --> 0.5 Ampere No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_avg = (2*V_in^2*C_c*f_c)/I_out --> (2*0.25^2*0.125*0.44)/0.5

Evaluating ... ...

V_avg = 0.01375

STEP 3: Convert Result to Output's Unit

0.01375 Volt --> No Conversion Required

FINAL ANSWER

0.01375 Volt <-- Average Output Voltage

(Calculation completed in 00.004 seconds)

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Vellore Institute of Technology (VIT), Vellore

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< 7 Commutated Chopper Calculators

Average Output Voltage in Load Commutated Chopper

Go Average Output Voltage = (2*Input Voltage^2*Commutation Capacitance*Chopping Frequency)/Output Current

Average Value of Output Voltage using Chopping Period

Go Average Output Voltage = Input Voltage*(Chopper On Time-Circuit Turn Off Time)/Chopping Period

Peak Diode Current of Voltage Commutated Chopper

Go Peak Diode Current = Source Voltage*sqrt(Capacitance/Inductance)

Peak Capacitor Current in Voltage Commutated Chopper

Go Peak Capacitor Current = Source Voltage/(Resonant Frequency*Commutating Inductance)

Total Commutation Interval in Load Commutated Chopper

Go Total Commutation Interval = (2*Capacitance*Source Voltage)/Output Current

Circuit Turn Off Time for Main SCR in Chopper

Go Circuit Turn Off Time = 1/Resonant Frequency*(pi-2*Commutation Angle)

Maximum Chopping Frequency in Load Commutated Chopper

Go Maximum Frequency = 1/Chopper On Time

Average Output Voltage in Load Commutated Chopper Formula

Average Output Voltage = (2*Input Voltage^2*Commutation Capacitance*Chopping Frequency)/Output Current
V_avg = (2*V_in^2*C_c*f_c)/I_out

Where do we use Load Commutated Chopper?

Load Commutated Chopper are often used in high-voltage direct current (HVDC) transmission systems, where precise control of the average output voltage is crucial for efficient and stable power transmission over long distances.

How to Calculate Average Output Voltage in Load Commutated Chopper?

Average Output Voltage in Load Commutated Chopper calculator uses Average Output Voltage = (2*Input Voltage^2*Commutation Capacitance*Chopping Frequency)/Output Current to calculate the Average Output Voltage, The Average Output Voltage in Load Commutated Chopper formula is defined as the average output voltage refers to the continuous voltage delivered to the load. It is a function of the chopper's switching process, typically implemented using thyristors. Average Output Voltage is denoted by V_avg symbol.

How to calculate Average Output Voltage in Load Commutated Chopper using this online calculator? To use this online calculator for Average Output Voltage in Load Commutated Chopper, enter Input Voltage (V_in), Commutation Capacitance (C_c), Chopping Frequency (f_c) & Output Current (I_out) and hit the calculate button. Here is how the Average Output Voltage in Load Commutated Chopper calculation can be explained with given input values -> 0.01375 = (2*0.25^2*0.125*0.44)/0.5.

FAQ

What is Average Output Voltage in Load Commutated Chopper?

The Average Output Voltage in Load Commutated Chopper formula is defined as the average output voltage refers to the continuous voltage delivered to the load. It is a function of the chopper's switching process, typically implemented using thyristors and is represented as V_avg = (2*V_in^2*C_c*f_c)/I_out or Average Output Voltage = (2*Input Voltage^2*Commutation Capacitance*Chopping Frequency)/Output Current. Input Voltage refers to the electrical potential supplied to a device or circuit as an energy source, typically measured in volts, which powers and operates the equipment, Commutation Capacitance is defined as the capacitors used to facilitate the controlled turn-off of thyristors, ensuring smooth and efficient switching between different stages of chopper operation, Chopping frequency refers to the rate at which a signal is turned on and off, or modulated, in a switching circuit. A higher chopping frequency can improve accuracy and reduce noise & Output Current is defined as the average of a current over one complete cycle at the output terminal of the chopper based circuit.

How to calculate Average Output Voltage in Load Commutated Chopper?

The Average Output Voltage in Load Commutated Chopper formula is defined as the average output voltage refers to the continuous voltage delivered to the load. It is a function of the chopper's switching process, typically implemented using thyristors is calculated using Average Output Voltage = (2*Input Voltage^2*Commutation Capacitance*Chopping Frequency)/Output Current. To calculate Average Output Voltage in Load Commutated Chopper, you need Input Voltage (V_in), Commutation Capacitance (C_c), Chopping Frequency (f_c) & Output Current (I_out). With our tool, you need to enter the respective value for Input Voltage, Commutation Capacitance, Chopping Frequency & Output Current 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 Average Output Voltage?

In this formula, Average Output Voltage uses Input Voltage, Commutation Capacitance, Chopping Frequency & Output Current. We can use 1 other way(s) to calculate the same, which is/are as follows -

Average Output Voltage = Input Voltage*(Chopper On Time-Circuit Turn Off Time)/Chopping Period

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