Multiplier Resistance for DC Operation Full Wave Rectifier Calculator

✖Voltage RMS Value is the effective value of an alternating voltage, representing the equivalent direct current (DC) voltage that would produce the same power dissipation in a resistive load.ⓘ Voltage RMS Value [V_rms]			+10% -10%
✖DC Meter Sensitivity refers to the ability of a DC measuring instrument to detect and accurately measure small direct current (DC) voltages or currents.ⓘ DC Meter Sensitivity [S_dc]			+10% -10%
✖Full Wave Shunt Meter Resistance is the value of Shunt Meter resistance connected parallel to each other attached to the permanent magnet moving coil-based voltmeter.ⓘ Full Wave Shunt Meter Resistance [R_f]			+10% -10%
✖Diode Resistance refers to the resistance a diode presents to the flow of electric current.ⓘ Diode Resistance [R_d]			+10% -10%

✖Multiplier Resistance is the value of series resistance attached to the pmmc-based voltmeter.ⓘ Multiplier Resistance for DC Operation Full Wave Rectifier [R_s]

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Multiplier Resistance for DC Operation Full Wave Rectifier Solution

STEP 0: Pre-Calculation Summary

Formula Used

Multiplier Resistance = Voltage RMS Value*DC Meter Sensitivity-Full Wave Shunt Meter Resistance-2*Diode Resistance
R_s = V_rms*S_dc-R_f-2*R_d
This formula uses 5 Variables

Variables Used

Multiplier Resistance - (Measured in Ohm) - Multiplier Resistance is the value of series resistance attached to the pmmc-based voltmeter.
Voltage RMS Value - (Measured in Volt) - Voltage RMS Value is the effective value of an alternating voltage, representing the equivalent direct current (DC) voltage that would produce the same power dissipation in a resistive load.
DC Meter Sensitivity - (Measured in Ohm Per Volt) - DC Meter Sensitivity refers to the ability of a DC measuring instrument to detect and accurately measure small direct current (DC) voltages or currents.
Full Wave Shunt Meter Resistance - (Measured in Ohm) - Full Wave Shunt Meter Resistance is the value of Shunt Meter resistance connected parallel to each other attached to the permanent magnet moving coil-based voltmeter.
Diode Resistance - (Measured in Ohm) - Diode Resistance refers to the resistance a diode presents to the flow of electric current.

STEP 1: Convert Input(s) to Base Unit

Voltage RMS Value: 7.07 Volt --> 7.07 Volt No Conversion Required
DC Meter Sensitivity: 8.6 Ohm Per Volt --> 8.6 Ohm Per Volt No Conversion Required
Full Wave Shunt Meter Resistance: 42.767 Ohm --> 42.767 Ohm No Conversion Required
Diode Resistance: 0.75 Ohm --> 0.75 Ohm No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

R_s = V_rms*S_dc-R_f-2*R_d --> 7.07*8.6-42.767-2*0.75

Evaluating ... ...

R_s = 16.535

STEP 3: Convert Result to Output's Unit

16.535 Ohm --> No Conversion Required

FINAL ANSWER

16.535 Ohm <-- Multiplier Resistance

(Calculation completed in 00.004 seconds)

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Created by Nikita Suryawanshi

Vellore Institute of Technology (VIT), Vellore

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< Rectifier Type Voltmeter Calculators

AC Voltage

LaTeX Go Voltage = Voltage Peak Value*sin(Angular Frequency*Time)

Vrms value

LaTeX Go Voltage RMS Value = Voltage Peak Value/sqrt(2)

Average Voltage of Half Wave Rectifier

LaTeX Go Half Rectifier Average Voltage = 0.45*Voltage RMS Value

Average Voltage of Full Wave Rectifier

LaTeX Go Full Rectifier Average Voltage = 0.9*Voltage RMS Value

Multiplier Resistance for DC Operation Full Wave Rectifier Formula

LaTeX Go

Multiplier Resistance = Voltage RMS Value*DC Meter Sensitivity-Full Wave Shunt Meter Resistance-2*Diode Resistance
R_s = V_rms*S_dc-R_f-2*R_d

How to calculate R_s?

In a full-wave rectifier, two diodes are used for the operation. Therefore, we subtract the value of two diode resistances, along with meter resistance, from the total resistance. Total resistance is calculated using DC sensitivity since the instrument is in DC operation mode.

How to Calculate Multiplier Resistance for DC Operation Full Wave Rectifier?

Multiplier Resistance for DC Operation Full Wave Rectifier calculator uses Multiplier Resistance = Voltage RMS Value*DC Meter Sensitivity-Full Wave Shunt Meter Resistance-2*Diode Resistance to calculate the Multiplier Resistance, The Multiplier Resistance for DC Operation Full Wave Rectifier formula is defined as the series resistor used to extend the voltage range of the rectifier circuit by limiting the current flow to the rectifier and the load across both halves of the AC cycle. Multiplier Resistance is denoted by R_s symbol.

How to calculate Multiplier Resistance for DC Operation Full Wave Rectifier using this online calculator? To use this online calculator for Multiplier Resistance for DC Operation Full Wave Rectifier, enter Voltage RMS Value (V_rms), DC Meter Sensitivity (S_dc), Full Wave Shunt Meter Resistance (R_f) & Diode Resistance (R_d) and hit the calculate button. Here is how the Multiplier Resistance for DC Operation Full Wave Rectifier calculation can be explained with given input values -> 16.535 = 7.07*8.6-42.767-2*0.75.

FAQ

What is Multiplier Resistance for DC Operation Full Wave Rectifier?

The Multiplier Resistance for DC Operation Full Wave Rectifier formula is defined as the series resistor used to extend the voltage range of the rectifier circuit by limiting the current flow to the rectifier and the load across both halves of the AC cycle and is represented as R_s = V_rms*S_dc-R_f-2*R_d or Multiplier Resistance = Voltage RMS Value*DC Meter Sensitivity-Full Wave Shunt Meter Resistance-2*Diode Resistance. Voltage RMS Value is the effective value of an alternating voltage, representing the equivalent direct current (DC) voltage that would produce the same power dissipation in a resistive load, DC Meter Sensitivity refers to the ability of a DC measuring instrument to detect and accurately measure small direct current (DC) voltages or currents, Full Wave Shunt Meter Resistance is the value of Shunt Meter resistance connected parallel to each other attached to the permanent magnet moving coil-based voltmeter & Diode Resistance refers to the resistance a diode presents to the flow of electric current.

How to calculate Multiplier Resistance for DC Operation Full Wave Rectifier?

The Multiplier Resistance for DC Operation Full Wave Rectifier formula is defined as the series resistor used to extend the voltage range of the rectifier circuit by limiting the current flow to the rectifier and the load across both halves of the AC cycle is calculated using Multiplier Resistance = Voltage RMS Value*DC Meter Sensitivity-Full Wave Shunt Meter Resistance-2*Diode Resistance. To calculate Multiplier Resistance for DC Operation Full Wave Rectifier, you need Voltage RMS Value (V_rms), DC Meter Sensitivity (S_dc), Full Wave Shunt Meter Resistance (R_f) & Diode Resistance (R_d). With our tool, you need to enter the respective value for Voltage RMS Value, DC Meter Sensitivity, Full Wave Shunt Meter Resistance & Diode Resistance 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 Multiplier Resistance?

In this formula, Multiplier Resistance uses Voltage RMS Value, DC Meter Sensitivity, Full Wave Shunt Meter Resistance & Diode Resistance. We can use 3 other way(s) to calculate the same, which is/are as follows -

Multiplier Resistance = Voltage RMS Value*DC Meter Sensitivity-Half Wave Shunt Meter Resistance-Diode Resistance
Multiplier Resistance = Voltage RMS Value*AC Meter Sensitivity-Half Wave Shunt Meter Resistance-Diode Resistance
Multiplier Resistance = Voltage RMS Value*AC Meter Sensitivity-Full Wave Shunt Meter Resistance-2*Diode Resistance

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