Peak Thyristor Gate Voltage for Resistance Firing Circuit Solution

STEP 0: Pre-Calculation Summary
Formula Used
Maximum Gate Voltage = (Peak Input Voltage*Stablizing Resistance)/(Variable Resistance+Thyristor Resistance+Stablizing Resistance)
Vg(max) = (Vmax*Rstb)/(Rvar+Rthy+Rstb)
This formula uses 5 Variables
Variables Used
Maximum Gate Voltage - (Measured in Volt) - Maximum gate voltage is the maximum amplitude of the gate voltage to trigger a Thyristor.
Peak Input Voltage - (Measured in Volt) - Peak Input Voltage is the peak of the alternating voltage provided at the input of any electrical circuit.
Stablizing Resistance - (Measured in Ohm) - Stablizing Resistance is defined as the opposition faced by the flow of current through a thyristor based circuit which is used to stablize.
Variable Resistance - (Measured in Ohm) - Variable Resistance is variable resistance whose value can be varied to prevent the relay from operating due to saturation of the current during transistors and thyristor start-up.
Thyristor Resistance - (Measured in Ohm) - Thyristor Resistance is defined as the opposition faced by the flow of current through a thyristor based circuit.
STEP 1: Convert Input(s) to Base Unit
Peak Input Voltage: 220 Volt --> 220 Volt No Conversion Required
Stablizing Resistance: 32 Ohm --> 32 Ohm No Conversion Required
Variable Resistance: 5.8 Ohm --> 5.8 Ohm No Conversion Required
Thyristor Resistance: 50 Ohm --> 50 Ohm No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vg(max) = (Vmax*Rstb)/(Rvar+Rthy+Rstb) --> (220*32)/(5.8+50+32)
Evaluating ... ...
Vg(max) = 80.1822323462415
STEP 3: Convert Result to Output's Unit
80.1822323462415 Volt --> No Conversion Required
FINAL ANSWER
80.1822323462415 80.18223 Volt <-- Maximum Gate Voltage
(Calculation completed in 00.020 seconds)

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Peak Thyristor Gate Voltage for Resistance Firing Circuit Formula

​LaTeX ​Go
Maximum Gate Voltage = (Peak Input Voltage*Stablizing Resistance)/(Variable Resistance+Thyristor Resistance+Stablizing Resistance)
Vg(max) = (Vmax*Rstb)/(Rvar+Rthy+Rstb)

What is a resistance firing circuit?

The resistance triggering of SCR is employed to drive the load from the input AC supply. The resistance triggering of SCR where it is employed to drive the load from the input AC supply. Resistance and diode combination circuit acts as a gate control circuitry to switch the SCR in the desired condition.
As the positive voltage applied, the SCR is forward biased and doesn’t conduct until its gate current is more than minimum gate current of the SCR. In this, the triggering angle is limited to 90 degrees only. Because the applied voltage is maximum at 90 degrees so the gate current has to reach minimum gate current value somewhere between zero to 90 degrees. It is the simplest and economical type of triggering but limited for few applications due to its disadvantages.

How to Calculate Peak Thyristor Gate Voltage for Resistance Firing Circuit?

Peak Thyristor Gate Voltage for Resistance Firing Circuit calculator uses Maximum Gate Voltage = (Peak Input Voltage*Stablizing Resistance)/(Variable Resistance+Thyristor Resistance+Stablizing Resistance) to calculate the Maximum Gate Voltage, The Peak Thyristor gate voltage for resistance firing circuit formula is defined as the maximum amplitude of the gate voltage to trigger a Thyristor. Maximum Gate Voltage is denoted by Vg(max) symbol.

How to calculate Peak Thyristor Gate Voltage for Resistance Firing Circuit using this online calculator? To use this online calculator for Peak Thyristor Gate Voltage for Resistance Firing Circuit, enter Peak Input Voltage (Vmax), Stablizing Resistance (Rstb), Variable Resistance (Rvar) & Thyristor Resistance (Rthy) and hit the calculate button. Here is how the Peak Thyristor Gate Voltage for Resistance Firing Circuit calculation can be explained with given input values -> 80.18223 = (220*32)/(5.8+50+32).

FAQ

What is Peak Thyristor Gate Voltage for Resistance Firing Circuit?
The Peak Thyristor gate voltage for resistance firing circuit formula is defined as the maximum amplitude of the gate voltage to trigger a Thyristor and is represented as Vg(max) = (Vmax*Rstb)/(Rvar+Rthy+Rstb) or Maximum Gate Voltage = (Peak Input Voltage*Stablizing Resistance)/(Variable Resistance+Thyristor Resistance+Stablizing Resistance). Peak Input Voltage is the peak of the alternating voltage provided at the input of any electrical circuit, Stablizing Resistance is defined as the opposition faced by the flow of current through a thyristor based circuit which is used to stablize, Variable Resistance is variable resistance whose value can be varied to prevent the relay from operating due to saturation of the current during transistors and thyristor start-up & Thyristor Resistance is defined as the opposition faced by the flow of current through a thyristor based circuit.
How to calculate Peak Thyristor Gate Voltage for Resistance Firing Circuit?
The Peak Thyristor gate voltage for resistance firing circuit formula is defined as the maximum amplitude of the gate voltage to trigger a Thyristor is calculated using Maximum Gate Voltage = (Peak Input Voltage*Stablizing Resistance)/(Variable Resistance+Thyristor Resistance+Stablizing Resistance). To calculate Peak Thyristor Gate Voltage for Resistance Firing Circuit, you need Peak Input Voltage (Vmax), Stablizing Resistance (Rstb), Variable Resistance (Rvar) & Thyristor Resistance (Rthy). With our tool, you need to enter the respective value for Peak Input Voltage, Stablizing Resistance, Variable Resistance & Thyristor 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 Maximum Gate Voltage?
In this formula, Maximum Gate Voltage uses Peak Input Voltage, Stablizing Resistance, Variable Resistance & Thyristor Resistance. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Maximum Gate Voltage = Gate Threshold Voltage/(sin(Angular Frequency*Time Period of Progressive Wave))
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