Steady State Change of SVC Voltage Calculator

✖SVC Static Gain is defined as the change in reactive power output of the SVC in response to a change in the system voltage.ⓘ SVC Static Gain [K_N]			+10% -10%
✖SVC Gain is defined as the ratio of the change in reactive power output of the SVC to the change in voltage in the power system.ⓘ SVC Gain [K_g]			+10% -10%
✖SVC Reference Voltage is defined as the desired or target voltage level that the SVC aims to maintain or regulate at its point of connection to the power system.ⓘ SVC Reference Voltage [ΔV_ref]			+10% -10%

✖Steady State Change in SVC Voltage is defined as the alteration in the voltage level that occurs once the SVC has reached a stable operating condition.ⓘ Steady State Change of SVC Voltage [ΔV_svc]

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Formula

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Steady State Change of SVC Voltage

Formula

`"ΔV"_{"svc"} = "K"_{"N"}/("K"_{"N"}+"K"_{"g"})*"ΔV"_{"ref"}`

Example

`"7.537356V"="8.6"/("8.6"+"8.8")*"15.25V"`

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Steady State Change of SVC Voltage Solution

STEP 0: Pre-Calculation Summary

Formula Used

Steady State Change in SVC Voltage = SVC Static Gain/(SVC Static Gain+SVC Gain)*SVC Reference Voltage
ΔV_svc = K_N/(K_N+K_g)*ΔV_ref
This formula uses 4 Variables

Variables Used

Steady State Change in SVC Voltage - (Measured in Volt) - Steady State Change in SVC Voltage is defined as the alteration in the voltage level that occurs once the SVC has reached a stable operating condition.
SVC Static Gain - SVC Static Gain is defined as the change in reactive power output of the SVC in response to a change in the system voltage.
SVC Gain - SVC Gain is defined as the ratio of the change in reactive power output of the SVC to the change in voltage in the power system.
SVC Reference Voltage - (Measured in Volt) - SVC Reference Voltage is defined as the desired or target voltage level that the SVC aims to maintain or regulate at its point of connection to the power system.

STEP 1: Convert Input(s) to Base Unit

SVC Static Gain: 8.6 --> No Conversion Required
SVC Gain: 8.8 --> No Conversion Required
SVC Reference Voltage: 15.25 Volt --> 15.25 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

ΔV_svc = K_N/(K_N+K_g)*ΔV_ref --> 8.6/(8.6+8.8)*15.25

Evaluating ... ...

ΔV_svc = 7.53735632183908

STEP 3: Convert Result to Output's Unit

7.53735632183908 Volt --> No Conversion Required

FINAL ANSWER

7.53735632183908 ≈ 7.537356 Volt <-- Steady State Change in SVC Voltage

(Calculation completed in 00.004 seconds)

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Created by Dipanjona Mallick

Heritage Insitute of technology (HITK), Kolkata

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GURU TEGH BAHADUR INSTITUTE OF TECHNOLOGY (GTBIT), NEW DELHI

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< 4 Static Var Compensator(SVC) Calculators

Total Harmonic Distortion Factor

Go Total Harmonic Distortion Factor = 1/(Input Voltage in SVC)*sqrt(sum(x,2,Highest Order Harmonic,RMS Voltage in SVC^2))

Phase Constant of Line in SVC

Go Phase Constant of SVC = 2*pi*Lossless Line Frequency*sqrt(Line Length*Series Capacitance in the Line)

Steady State Change of SVC Voltage

Go Steady State Change in SVC Voltage = SVC Static Gain/(SVC Static Gain+SVC Gain)*SVC Reference Voltage

Voltage Distortion Factor in Single Tuned Filter

Go Voltage Distortion Factor in Single Tuned Filter = RMS Voltage in SVC/Input Voltage in SVC

Steady State Change of SVC Voltage Formula

Steady State Change in SVC Voltage = SVC Static Gain/(SVC Static Gain+SVC Gain)*SVC Reference Voltage
ΔV_svc = K_N/(K_N+K_g)*ΔV_ref

What is the Steady State Change of SVC Voltage?

The term "steady-state change of SVC voltage" refers to the alteration in the voltage level at the output of a Static Var Compensator (SVC) once the system has reached a stable operating condition. Steady state is the long-term behavior of the system after any transient effects have diminished, and all variables have settled into a stable pattern.

How to Calculate Steady State Change of SVC Voltage?

Steady State Change of SVC Voltage calculator uses Steady State Change in SVC Voltage = SVC Static Gain/(SVC Static Gain+SVC Gain)*SVC Reference Voltage to calculate the Steady State Change in SVC Voltage, The Steady State Change of SVC Voltage formula is defined as the voltage level at the output of a Static Var Compensator (SVC) once the system has reached a stable operating condition. Steady State Change in SVC Voltage is denoted by ΔV_svc symbol.

How to calculate Steady State Change of SVC Voltage using this online calculator? To use this online calculator for Steady State Change of SVC Voltage, enter SVC Static Gain (K_N), SVC Gain (K_g) & SVC Reference Voltage (ΔV_ref) and hit the calculate button. Here is how the Steady State Change of SVC Voltage calculation can be explained with given input values -> 7.537356 = 8.6/(8.6+8.8)*15.25.

FAQ

What is Steady State Change of SVC Voltage?

The Steady State Change of SVC Voltage formula is defined as the voltage level at the output of a Static Var Compensator (SVC) once the system has reached a stable operating condition and is represented as ΔV_svc = K_N/(K_N+K_g)*ΔV_ref or Steady State Change in SVC Voltage = SVC Static Gain/(SVC Static Gain+SVC Gain)*SVC Reference Voltage. SVC Static Gain is defined as the change in reactive power output of the SVC in response to a change in the system voltage, SVC Gain is defined as the ratio of the change in reactive power output of the SVC to the change in voltage in the power system & SVC Reference Voltage is defined as the desired or target voltage level that the SVC aims to maintain or regulate at its point of connection to the power system.

How to calculate Steady State Change of SVC Voltage?

The Steady State Change of SVC Voltage formula is defined as the voltage level at the output of a Static Var Compensator (SVC) once the system has reached a stable operating condition is calculated using Steady State Change in SVC Voltage = SVC Static Gain/(SVC Static Gain+SVC Gain)*SVC Reference Voltage. To calculate Steady State Change of SVC Voltage, you need SVC Static Gain (K_N), SVC Gain (K_g) & SVC Reference Voltage (ΔV_ref). With our tool, you need to enter the respective value for SVC Static Gain, SVC Gain & SVC Reference 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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