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Voltage Transfer Equation for Inverting Schmitt Trigger Formula

GoInput Voltage of Inverting Schmitt Trigger Formula

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The Inverting Input Voltage of an operational amplifier (op amp) is the voltage that is applied to the pin marked with a minus (-) sign. Check FAQs

V - = V off \cdot (\frac{R 2}{R 1 + R 2}) + V o \cdot (\frac{R 1}{R 1 + R 2})

V_- - Inverting Input Voltage?V_off - Input Offset Voltage?R₂ - Resistance 2?R₁ - Resistance 1?V_o - Output Voltage?

Voltage Transfer Equation for Inverting Schmitt Trigger Example

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Here is how the Voltage Transfer Equation for Inverting Schmitt Trigger equation looks like with Values.

Here is how the Voltage Transfer Equation for Inverting Schmitt Trigger equation looks like with Units.

Here is how the Voltage Transfer Equation for Inverting Schmitt Trigger equation looks like.

1.5963 = 1.82 \cdot (\frac{5.2}{10 + 5.2}) + 1.48 \cdot (\frac{10}{10 + 5.2})

1.5963V = 1.82V \cdot (\frac{5.2kΩ}{10kΩ + 5.2kΩ}) + 1.48V \cdot (\frac{10kΩ}{10kΩ + 5.2kΩ})

1.5963 = 1.82 \cdot (\frac{5.2}{10 + 5.2}) + 1.48 \cdot (\frac{10}{10 + 5.2})

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Voltage Transfer Equation for Inverting Schmitt Trigger Solution

Follow our step by step solution on how to calculate Voltage Transfer Equation for Inverting Schmitt Trigger?

FIRST Step Consider the formula

V - = V off \cdot (\frac{R 2}{R 1 + R 2}) + V o \cdot (\frac{R 1}{R 1 + R 2})

Next Step Substitute values of Variables

∴

V - = 1.82V \cdot (\frac{5.2kΩ}{10kΩ + 5.2kΩ}) + 1.48V \cdot (\frac{10kΩ}{10kΩ + 5.2kΩ})

Next Step Convert Units

∴

V - = 1.82V \cdot (\frac{5200Ω}{10000Ω + 5200Ω}) + 1.48V \cdot (\frac{10000Ω}{10000Ω + 5200Ω})

Next Step Prepare to Evaluate

∴

V - = 1.82 \cdot (\frac{5200}{10000 + 5200}) + 1.48 \cdot (\frac{10000}{10000 + 5200})

Next Step Evaluate

∴

V - = 1.59631578947368V

LAST Step Rounding Answer

∴

V - = 1.5963V

Voltage Transfer Equation for Inverting Schmitt Trigger Formula Elements

Variables

Inverting Input Voltage

The Inverting Input Voltage of an operational amplifier (op amp) is the voltage that is applied to the pin marked with a minus (-) sign.

Symbol: V_-

Measurement: Electric PotentialUnit: V

Note: Value should be greater than 0.

Formulas to find Inverting Input Voltage

Input Offset Voltage

Input Offset Voltage is the voltage that is applied to a device or system in order to power it.

Symbol: V_off

Measurement: Electric PotentialUnit: V

Note: Value should be greater than 0.

Formulas to find Input Offset Voltage

Resistance 2

Resistance 2 is a measure of the opposition to the flow of electric current through a material.

Symbol: R₂

Measurement: Electric ResistanceUnit: kΩ

Note: Value should be greater than 0.

Formulas to find Resistance 2

Resistance 1

Resistance 1 is a measure of the opposition to the flow of electric current through a material.

Symbol: R₁

Measurement: Electric ResistanceUnit: kΩ

Note: Value should be greater than 0.

Formulas to find Resistance 1

Output Voltage

Output voltage is the voltage that is produced by a device, such as a power supply, a battery, or a generator. It is measured in volts (V).

Symbol: V_o

Measurement: Electric PotentialUnit: V

Note: Value should be greater than 0.

Formulas to find Output Voltage

Other Formulas to find Inverting Input Voltage

Go Input Voltage of Inverting Schmitt Trigger

V - = V fi \cdot (\frac{R 1 + R 2}{R 1})

Other formulas in Schmitt Trigger category

Go Input Current of Schmitt Trigger

i n = \frac{V in}{R in}

Go Lower Threshold Voltage of Inverting Schmitt Trigger

V f = - V sat \cdot (\frac{R 2}{R 1 + R 2})

Go Open Loop Gain of Schmitt Trigger

A v = \frac{V fi}{V + - V -}

Go Lower Threshold Voltage of Non Inverting Schmitt Trigger

V lt = - V sat \cdot (\frac{R 2}{R 1})

How to Evaluate Voltage Transfer Equation for Inverting Schmitt Trigger?

Voltage Transfer Equation for Inverting Schmitt Trigger evaluator uses Inverting Input Voltage = Input Offset Voltage*(Resistance 2/(Resistance 1+Resistance 2))+Output Voltage*(Resistance 1/(Resistance 1+Resistance 2)) to evaluate the Inverting Input Voltage, The Voltage Transfer Equation for Inverting Schmitt Trigger is a nonlinear function, which means that the output voltage does not change linearly with the input voltage. Instead, the output voltage has two stable states, high and low. Inverting Input Voltage is denoted by V_- symbol.

How to evaluate Voltage Transfer Equation for Inverting Schmitt Trigger using this online evaluator? To use this online evaluator for Voltage Transfer Equation for Inverting Schmitt Trigger, enter Input Offset Voltage (V_off), Resistance 2 (R₂), Resistance 1 (R₁) & Output Voltage (V_o) and hit the calculate button.

FAQs on Voltage Transfer Equation for Inverting Schmitt Trigger

What is the formula to find Voltage Transfer Equation for Inverting Schmitt Trigger?

The formula of Voltage Transfer Equation for Inverting Schmitt Trigger is expressed as Inverting Input Voltage = Input Offset Voltage*(Resistance 2/(Resistance 1+Resistance 2))+Output Voltage*(Resistance 1/(Resistance 1+Resistance 2)). Here is an example- 1.596316 = 1.82*(5200/(10000+5200))+1.48*(10000/(10000+5200)).

How to calculate Voltage Transfer Equation for Inverting Schmitt Trigger?

With Input Offset Voltage (V_off), Resistance 2 (R₂), Resistance 1 (R₁) & Output Voltage (V_o) we can find Voltage Transfer Equation for Inverting Schmitt Trigger using the formula - Inverting Input Voltage = Input Offset Voltage*(Resistance 2/(Resistance 1+Resistance 2))+Output Voltage*(Resistance 1/(Resistance 1+Resistance 2)).

What are the other ways to Calculate Inverting Input Voltage?

Here are the different ways to Calculate Inverting Input Voltage-

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

Can the Voltage Transfer Equation for Inverting Schmitt Trigger be negative?

No, the Voltage Transfer Equation for Inverting Schmitt Trigger, measured in Electric Potential cannot be negative.

Which unit is used to measure Voltage Transfer Equation for Inverting Schmitt Trigger?

Voltage Transfer Equation for Inverting Schmitt Trigger is usually measured using the Volt[V] for Electric Potential. Millivolt[V], Microvolt[V], Nanovolt[V] are the few other units in which Voltage Transfer Equation for Inverting Schmitt Trigger can be measured.

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Voltage Transfer Equation for Inverting Schmitt Trigger Formula

​GoInput Voltage of Inverting Schmitt Trigger Formula

Voltage Transfer Equation for Inverting Schmitt Trigger Example

Voltage Transfer Equation for Inverting Schmitt Trigger Solution

Voltage Transfer Equation for Inverting Schmitt Trigger Formula Elements

Other Formulas to find Inverting Input Voltage

Other formulas in Schmitt Trigger category

How to Evaluate Voltage Transfer Equation for Inverting Schmitt Trigger?

FAQs on Voltage Transfer Equation for Inverting Schmitt Trigger

Variable Name

GoInput Voltage of Inverting Schmitt Trigger Formula