Hysteresis Loss of Non-Inverting Schmitt Trigger Calculator

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Schmitt Trigger

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✖Saturation Voltage is a condition where the output of the trigger remains low even when the input voltage is above the lower threshold voltage.ⓘ Saturation Voltage [V_sat]			+10% -10%
✖Resistance 2 is a measure of the opposition to the flow of electric current through a material.ⓘ Resistance 2 [R₂]			+10% -10%
✖Resistance 1 is a measure of the opposition to the flow of electric current through a material.ⓘ Resistance 1 [R₁]			+10% -10%

✖Hysteresis Loss is the energy lost in a system due to hysteresis. It is a common phenomenon in magnetic and ferroelectric materials.ⓘ Hysteresis Loss of Non-Inverting Schmitt Trigger [H]

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Hysteresis Loss of Non-Inverting Schmitt Trigger

Formula

`"H" = 2*"V"_{"sat"}*("R"_{"2"}/"R"_{"1"})`

Example

`"1.248V"=2*"1.2V"*("5.2kΩ"/"10kΩ")`

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Hysteresis Loss of Non-Inverting Schmitt Trigger Solution

STEP 0: Pre-Calculation Summary

Formula Used

Hysteresis Loss = 2*Saturation Voltage*(Resistance 2/Resistance 1)
H = 2*V_sat*(R₂/R₁)
This formula uses 4 Variables

Variables Used

Hysteresis Loss - (Measured in Volt) - Hysteresis Loss is the energy lost in a system due to hysteresis. It is a common phenomenon in magnetic and ferroelectric materials.
Saturation Voltage - (Measured in Volt) - Saturation Voltage is a condition where the output of the trigger remains low even when the input voltage is above the lower threshold voltage.
Resistance 2 - (Measured in Ohm) - Resistance 2 is a measure of the opposition to the flow of electric current through a material.
Resistance 1 - (Measured in Ohm) - Resistance 1 is a measure of the opposition to the flow of electric current through a material.

STEP 1: Convert Input(s) to Base Unit

Saturation Voltage: 1.2 Volt --> 1.2 Volt No Conversion Required
Resistance 2: 5.2 Kilohm --> 5200 Ohm (Check conversion here)
Resistance 1: 10 Kilohm --> 10000 Ohm (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

H = 2*V_sat*(R₂/R₁) --> 2*1.2*(5200/10000)

Evaluating ... ...

H = 1.248

STEP 3: Convert Result to Output's Unit

1.248 Volt --> No Conversion Required

FINAL ANSWER

1.248 Volt <-- Hysteresis Loss

(Calculation completed in 00.004 seconds)

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Created by Suma Madhuri

VIT University (VIT), Chennai

Suma Madhuri has created this Calculator and 50+ more calculators!

Verified by Ritwik Tripathi

Vellore Institute of Technology (VIT Vellore), Vellore

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< 15 Schmitt Trigger Calculators

Voltage Transfer Equation for Inverting Schmitt Trigger

Go Inverting Input Voltage = Input Offset Voltage*(Resistance 2/(Resistance 1+Resistance 2))+Output Voltage*(Resistance 1/(Resistance 1+Resistance 2))

Lower Threshold Voltage of Inverting Schmitt Trigger

Go Feedback Threshold Voltage = -Saturation Voltage*(Resistance 2/(Resistance 1+Resistance 2))

Input Voltage of Non-Inverting Schmitt Trigger

Go Non-Inverting Input Voltage = (Resistance 1/(Resistance 1+Resistance 2))*Output Voltage

Upper Treshold Voltage of Inverting Schmitt Trigger

Go Upper Threshold Voltage = +Saturation Voltage*Resistance 2/(Resistance 1+Resistance 2)

Input Voltage of Inverting Schmitt Trigger

Go Inverting Input Voltage = Final Voltage*((Resistance 1+Resistance 2)/Resistance 1)

Voltage Change of Controller

Go Voltage Change = (2*Saturation Voltage*Resistance 1)/(Resistance 2+Resistance 1)

Open Loop Gain of Schmitt Trigger

Go Open Loop Gain = (Final Voltage)/(Non-Inverting Input Voltage-Inverting Input Voltage)

Final Voltage of Schmitt Trigger

Go Final Voltage = Open Loop Gain*(Non-Inverting Input Voltage-Inverting Input Voltage)

Lower Threshold Voltage of Non Inverting Schmitt Trigger

Go Lower Threshold Voltage = -Saturation Voltage*(Resistance 2/Resistance 1)

Hysteresis Loss of Non-Inverting Schmitt Trigger

Go Hysteresis Loss = 2*Saturation Voltage*(Resistance 2/Resistance 1)

Component Resistance of Controller

Go Component Resistance of Controller = 1/(1/Resistance 1+1/Resistance 2)

Positive Saturation Voltage of Schmitt Trigger

Go Saturation Voltage = +Supply Voltage of Op Amp-Small Voltage Drop

Negative Saturation Voltage of Srchmitt Trigger

Go Saturation Voltage = -Emitter Voltage+Small Voltage Drop

Input Current of Schmitt Trigger

Go Input Current = Input Voltage/Input Resistance

Resistance of Schmitt Trigger

Go Input Resistance = Input Voltage/Input Current

Hysteresis Loss of Non-Inverting Schmitt Trigger Formula

Hysteresis Loss = 2*Saturation Voltage*(Resistance 2/Resistance 1)
H = 2*V_sat*(R₂/R₁)

What are the applications of a non-inverting Schmitt trigger with low hysteresis loss?

Non-inverting Schmitt triggers with low hysteresis loss are used in a variety of applications, including:

Signal conditioning: Schmitt triggers can be used to remove noise from signals and to convert slow edges to fast edges. This makes them ideal for use in applications such as analog-to-digital converters, digital signal processors, and communication systems.
Oscillators: Schmitt triggers can be used to create relaxation oscillators, which are used in a variety of applications such as function generators, switching power supplies, and timing circuits.
Level detectors: Schmitt triggers can be used to detect when a signal crosses a certain threshold voltage. This makes them ideal for use in applications such as level switches and window comparators.
Logic circuits: Schmitt triggers can be used to implement logic circuits such as AND gates, OR gates, and NOT gates.

How to Calculate Hysteresis Loss of Non-Inverting Schmitt Trigger?

Hysteresis Loss of Non-Inverting Schmitt Trigger calculator uses Hysteresis Loss = 2*Saturation Voltage*(Resistance 2/Resistance 1) to calculate the Hysteresis Loss, Hysteresis Loss of Non-Inverting Schmitt Trigger is the energy dissipated due to the hysteresis effect.The hysteresis loss can be reduced by reducing the voltage difference between the upper and lower threshold voltages, reducing the current drawn by the Schmitt trigger during the switching period, or reducing the time spent in the switching period. Hysteresis Loss is denoted by H symbol.

How to calculate Hysteresis Loss of Non-Inverting Schmitt Trigger using this online calculator? To use this online calculator for Hysteresis Loss of Non-Inverting Schmitt Trigger, enter Saturation Voltage (V_sat), Resistance 2 (R₂) & Resistance 1 (R₁) and hit the calculate button. Here is how the Hysteresis Loss of Non-Inverting Schmitt Trigger calculation can be explained with given input values -> 1.248 = 2*1.2*(5200/10000).

FAQ

What is Hysteresis Loss of Non-Inverting Schmitt Trigger?

Hysteresis Loss of Non-Inverting Schmitt Trigger is the energy dissipated due to the hysteresis effect.The hysteresis loss can be reduced by reducing the voltage difference between the upper and lower threshold voltages, reducing the current drawn by the Schmitt trigger during the switching period, or reducing the time spent in the switching period and is represented as H = 2*V_sat*(R₂/R₁) or Hysteresis Loss = 2*Saturation Voltage*(Resistance 2/Resistance 1). Saturation Voltage is a condition where the output of the trigger remains low even when the input voltage is above the lower threshold voltage, Resistance 2 is a measure of the opposition to the flow of electric current through a material & Resistance 1 is a measure of the opposition to the flow of electric current through a material.

How to calculate Hysteresis Loss of Non-Inverting Schmitt Trigger?

Hysteresis Loss of Non-Inverting Schmitt Trigger is the energy dissipated due to the hysteresis effect.The hysteresis loss can be reduced by reducing the voltage difference between the upper and lower threshold voltages, reducing the current drawn by the Schmitt trigger during the switching period, or reducing the time spent in the switching period is calculated using Hysteresis Loss = 2*Saturation Voltage*(Resistance 2/Resistance 1). To calculate Hysteresis Loss of Non-Inverting Schmitt Trigger, you need Saturation Voltage (V_sat), Resistance 2 (R₂) & Resistance 1 (R₁). With our tool, you need to enter the respective value for Saturation Voltage, Resistance 2 & Resistance 1 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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