Slope of Triangular Waveform of Active Power Filter Calculator

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✖Triangular Waveform Amplitude is the maximum absolute value of the waveform.ⓘ Triangular Waveform Amplitude [ξ]			+10% -10%
✖Triangular Waveform Frequency is the number of times the waveform completes one cycle per unit time.ⓘ Triangular Waveform Frequency [f_t]			+10% -10%

✖Triangular Waveform Slope is a measure of its steepness. A steeper slope indicates a faster rising waveform.ⓘ Slope of Triangular Waveform of Active Power Filter [λ]

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Formula

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Slope of Triangular Waveform of Active Power Filter

Formula

`"λ" = 4*"ξ"*"f"_{"t"}`

Example

`"0.35488"=4*"1.109V"*"0.08Hz"`

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Slope of Triangular Waveform of Active Power Filter Solution

STEP 0: Pre-Calculation Summary

Formula Used

Triangular Waveform Slope = 4*Triangular Waveform Amplitude*Triangular Waveform Frequency
λ = 4*ξ*f_t
This formula uses 3 Variables

Variables Used

Triangular Waveform Slope - Triangular Waveform Slope is a measure of its steepness. A steeper slope indicates a faster rising waveform.
Triangular Waveform Amplitude - (Measured in Volt) - Triangular Waveform Amplitude is the maximum absolute value of the waveform.
Triangular Waveform Frequency - (Measured in Hertz) - Triangular Waveform Frequency is the number of times the waveform completes one cycle per unit time.

STEP 1: Convert Input(s) to Base Unit

Triangular Waveform Amplitude: 1.109 Volt --> 1.109 Volt No Conversion Required
Triangular Waveform Frequency: 0.08 Hertz --> 0.08 Hertz No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

λ = 4*ξ*f_t --> 4*1.109*0.08

Evaluating ... ...

λ = 0.35488

STEP 3: Convert Result to Output's Unit

0.35488 --> No Conversion Required

FINAL ANSWER

0.35488 <-- Triangular Waveform Slope

(Calculation completed in 00.004 seconds)

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Created by Suma Madhuri

VIT University (VIT), Chennai

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Chandigarh University (CU), Punjab

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< 15 Power Filters Calculators

Cut-off Frequency in Bandpass Filter for Parallel RLC Circuit

Go Cutoff Frequency = (1/(2*Resistance*Capacitance))+(sqrt((1/(2*Resistance*Capacitance))^2+1/(Inductance*Capacitance)))

Corner Frequency in Bandpass Filter for Series RLC Circuit

Go Corner Frequency = (Resistance/(2*Inductance))+(sqrt((Resistance/(2*Inductance))^2+1/(Inductance*Capacitance)))

Phase Angle of Low Pass RC Filter

Go Phase Angle = 2*arctan(2*pi*Frequency*Resistance*Capacitance)

Keying Parameter of Parallel RLC Bandpass Filter

Go Keying Parameter = ((Inductance+Leakage Inductance)*Cutoff Frequency)/(2*DC Voltage)

Resonant Frequency of Passive Filter

Go Resonant Frequency = 1/(2*pi*sqrt(Inductance*Capacitance))

Tuned Factor of Hybrid Filter

Go Tuned Factor = (Angular Frequency-Angular Resonant Frequency)/Angular Resonant Frequency

Voltage across Passive Filter Capacitor

Go Voltage across Passive Filter Capacitor = Filter Transfer Function*Fundamental Frequency Component

Angular Resonant Frequency of Passive Filter

Go Angular Resonant Frequency = (Resistance*Quality Factor)/Inductance

Quality Factor of Passive Filter

Go Quality Factor = (Angular Resonant Frequency*Inductance)/Resistance

Resistance of Passive Filter

Go Resistance = (Angular Resonant Frequency*Inductance)/Quality Factor

Slope of Triangular Waveform of Active Power Filter

Go Triangular Waveform Slope = 4*Triangular Waveform Amplitude*Triangular Waveform Frequency

Gain of Active Power Filter

Go Active Power Filter Gain = Voltage Harmonic Waveform/Harmonic Current Component

Gain of Converter of Active Power Filter

Go Gain of Converter = DC Voltage/(2*Triangular Waveform Amplitude)

Amplitude of Active Power Filter

Go Triangular Waveform Amplitude = DC Voltage/(2*Gain of Converter)

Keying Index of Parallel RLC Bandpass Filter

Go Keying Index = Cutoff Frequency*Keying Parameter

Slope of Triangular Waveform of Active Power Filter Formula

Triangular Waveform Slope = 4*Triangular Waveform Amplitude*Triangular Waveform Frequency
λ = 4*ξ*f_t

What are the benefits of a high slope of the triangular waveform of an Active Power Filter ?

A high slope of the triangular waveform of an Active Power Filter can provide the following benefits:

Faster response time
Better filtering performance
Reduced harmonics
Improved power quality

How to Calculate Slope of Triangular Waveform of Active Power Filter?

Slope of Triangular Waveform of Active Power Filter calculator uses Triangular Waveform Slope = 4*Triangular Waveform Amplitude*Triangular Waveform Frequency to calculate the Triangular Waveform Slope, The Slope of Triangular Waveform of Active Power Filter formula is defined as the rate of change of the waveform's amplitude over time. Triangular Waveform Slope is denoted by λ symbol.

How to calculate Slope of Triangular Waveform of Active Power Filter using this online calculator? To use this online calculator for Slope of Triangular Waveform of Active Power Filter, enter Triangular Waveform Amplitude (ξ) & Triangular Waveform Frequency (f_t) and hit the calculate button. Here is how the Slope of Triangular Waveform of Active Power Filter calculation can be explained with given input values -> 0.35488 = 4*1.109*0.08.

FAQ

What is Slope of Triangular Waveform of Active Power Filter?

The Slope of Triangular Waveform of Active Power Filter formula is defined as the rate of change of the waveform's amplitude over time and is represented as λ = 4*ξ*f_t or Triangular Waveform Slope = 4*Triangular Waveform Amplitude*Triangular Waveform Frequency. Triangular Waveform Amplitude is the maximum absolute value of the waveform & Triangular Waveform Frequency is the number of times the waveform completes one cycle per unit time.

How to calculate Slope of Triangular Waveform of Active Power Filter?

The Slope of Triangular Waveform of Active Power Filter formula is defined as the rate of change of the waveform's amplitude over time is calculated using Triangular Waveform Slope = 4*Triangular Waveform Amplitude*Triangular Waveform Frequency. To calculate Slope of Triangular Waveform of Active Power Filter, you need Triangular Waveform Amplitude (ξ) & Triangular Waveform Frequency (f_t). With our tool, you need to enter the respective value for Triangular Waveform Amplitude & Triangular Waveform Frequency 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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