Low Pulse Width Time in Schmitt Trigger Oscillator Calculator

✖Resistance of Schmitt Oscillator the value of resistor R connected in series with capacitor driven by Schmitt Trigger.ⓘ Resistance of Schmitt Oscillator [R_(schmitt)]			+10% -10%
✖Capacitance of Schmitt Oscillator is the value of capacitor connected to form series RC circuit driven by a schmitt trigger oscillator.ⓘ Capacitance of Schmitt Oscillator [C_(schmitt)]			+10% -10%
✖Rising Voltage of Schmitt Oscillator is defined as the voltage of the rising signal because of which the Schmitt Trigger state will trigger.ⓘ Rising Voltage of Schmitt Oscillator [V_T+]			+10% -10%
✖Falling Voltage of Schmitt Oscillator is defined as the voltage of the falling edge where the state will trigger.ⓘ Falling Voltage of Schmitt Oscillator [V_T-]			+10% -10%

✖Low Pulse Width Time of Schmitt Oscillator defines how long the input voltage must remain below the lower threshold voltage.ⓘ Low Pulse Width Time in Schmitt Trigger Oscillator [t_(schmitt)]

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Formula

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Low Pulse Width Time in Schmitt Trigger Oscillator

Formula

`"t"_{"(schmitt)"} = "R"_{"(schmitt)"}*"C"_{"(schmitt)"}*ln("V"_{"T+"}/"V"_{"T-"})`

Example

`"24.50275s"="10.1Ω"*"3.5F"*ln("0.25V"/"0.125V")`

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Low Pulse Width Time in Schmitt Trigger Oscillator Solution

STEP 0: Pre-Calculation Summary

Formula Used

Low Pulse Width Time of Schmitt Oscillator = Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator*ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator)
t_(schmitt) = R_(schmitt)*C_(schmitt)*ln(V_T+/V_T-)
This formula uses 1 Functions, 5 Variables

Functions Used

ln - The natural logarithm, also known as the logarithm to the base e, is the inverse function of the natural exponential function., ln(Number)

Variables Used

Low Pulse Width Time of Schmitt Oscillator - (Measured in Second) - Low Pulse Width Time of Schmitt Oscillator defines how long the input voltage must remain below the lower threshold voltage.
Resistance of Schmitt Oscillator - (Measured in Ohm) - Resistance of Schmitt Oscillator the value of resistor R connected in series with capacitor driven by Schmitt Trigger.
Capacitance of Schmitt Oscillator - (Measured in Farad) - Capacitance of Schmitt Oscillator is the value of capacitor connected to form series RC circuit driven by a schmitt trigger oscillator.
Rising Voltage of Schmitt Oscillator - (Measured in Volt) - Rising Voltage of Schmitt Oscillator is defined as the voltage of the rising signal because of which the Schmitt Trigger state will trigger.
Falling Voltage of Schmitt Oscillator - (Measured in Volt) - Falling Voltage of Schmitt Oscillator is defined as the voltage of the falling edge where the state will trigger.

STEP 1: Convert Input(s) to Base Unit

Resistance of Schmitt Oscillator: 10.1 Ohm --> 10.1 Ohm No Conversion Required
Capacitance of Schmitt Oscillator: 3.5 Farad --> 3.5 Farad No Conversion Required
Rising Voltage of Schmitt Oscillator: 0.25 Volt --> 0.25 Volt No Conversion Required
Falling Voltage of Schmitt Oscillator: 0.125 Volt --> 0.125 Volt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

t_(schmitt) = R_(schmitt)*C_(schmitt)*ln(V_T+/V_T-) --> 10.1*3.5*ln(0.25/0.125)

Evaluating ... ...

t_(schmitt) = 24.5027528327941

STEP 3: Convert Result to Output's Unit

24.5027528327941 Second --> No Conversion Required

FINAL ANSWER

24.5027528327941 ≈ 24.50275 Second <-- Low Pulse Width Time of Schmitt Oscillator

(Calculation completed in 00.004 seconds)

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< 8 Radio Frequency Range Calculators

Low Pulse Width Time in Schmitt Trigger Oscillator

Go Low Pulse Width Time of Schmitt Oscillator = Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator*ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator)

Effective Capacitance in Colpitts Oscillator

Go Effective Capacitance of Colpitts Oscillator = (Capacitance 1 of Colpitts Oscillator*Capacitance 2 of Colpitts Oscillator)/(Capacitance 1 of Colpitts Oscillator+Capacitance 2 of Colpitts Oscillator)

Frequency of Oscillation in Colpitts Oscillator

Go Frequency of Colpitts Oscillator = 1/(2*pi*sqrt(Effective Inductance of Colpitts Oscillator*Effective Capacitance of Colpitts Oscillator))

Frequency of Oscillation in Hartley Oscillator

Go Frequency of Hartley Oscillator = 1/(2*pi*sqrt(Effective Inductance of Hartley Oscillator*Capacitance of Hartley Oscillator))

Frequency of Oscillation in Schmitt Trigger Oscillator

Go Frequency of Schmitt Oscillator = Hysteresis Constant of Schmitt Oscillator/(Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator)

Schmitt Trigger Oscillator Hysteresis Constant

Go Hysteresis Constant of Schmitt Oscillator = 0.5/(ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator))

Effective Inductance in Hartley Oscillator

Go Effective Inductance of Hartley Oscillator = Inductance 1 of Hartley Oscillator+Inductance 2 of Hartley Oscillator

Voltage Gain of Op-Amp in Hartley Oscillator

Go Voltage Gain of Hartley Oscillator = Inductance 1 of Hartley Oscillator/Inductance 2 of Hartley Oscillator

Low Pulse Width Time in Schmitt Trigger Oscillator Formula

What is a Schmitt Trigger and how it can be used as an oscillator?

A Schmitt trigger is a bistable multivibrator, and it can be used to implement another type of multivibrator, the relaxation oscillator. This is achieved by connecting a single RC integrating circuit between the output and the input of an inverting Schmitt trigger. The output will be a continuous square wave whose frequency depends on the values of R and C, and the threshold points of the Schmitt trigger.

How to Calculate Low Pulse Width Time in Schmitt Trigger Oscillator?

Low Pulse Width Time in Schmitt Trigger Oscillator calculator uses Low Pulse Width Time of Schmitt Oscillator = Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator*ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator) to calculate the Low Pulse Width Time of Schmitt Oscillator, The Low Pulse Width Time in Schmitt Trigger Oscillator formula is defined as the time taken by the capacitor voltage to drop from the rising threshold voltage till the falling threshold voltage. Low Pulse Width Time of Schmitt Oscillator is denoted by t_(schmitt) symbol.

How to calculate Low Pulse Width Time in Schmitt Trigger Oscillator using this online calculator? To use this online calculator for Low Pulse Width Time in Schmitt Trigger Oscillator, enter Resistance of Schmitt Oscillator (R_(schmitt)), Capacitance of Schmitt Oscillator (C_(schmitt)), Rising Voltage of Schmitt Oscillator (V_T+) & Falling Voltage of Schmitt Oscillator (V_T-) and hit the calculate button. Here is how the Low Pulse Width Time in Schmitt Trigger Oscillator calculation can be explained with given input values -> 24.50275 = 10.1*3.5*ln(0.25/0.125).

FAQ

What is Low Pulse Width Time in Schmitt Trigger Oscillator?

The Low Pulse Width Time in Schmitt Trigger Oscillator formula is defined as the time taken by the capacitor voltage to drop from the rising threshold voltage till the falling threshold voltage and is represented as t_(schmitt) = R_(schmitt)*C_(schmitt)*ln(V_T+/V_T-) or Low Pulse Width Time of Schmitt Oscillator = Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator*ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator). Resistance of Schmitt Oscillator the value of resistor R connected in series with capacitor driven by Schmitt Trigger, Capacitance of Schmitt Oscillator is the value of capacitor connected to form series RC circuit driven by a schmitt trigger oscillator, Rising Voltage of Schmitt Oscillator is defined as the voltage of the rising signal because of which the Schmitt Trigger state will trigger & Falling Voltage of Schmitt Oscillator is defined as the voltage of the falling edge where the state will trigger.

How to calculate Low Pulse Width Time in Schmitt Trigger Oscillator?

The Low Pulse Width Time in Schmitt Trigger Oscillator formula is defined as the time taken by the capacitor voltage to drop from the rising threshold voltage till the falling threshold voltage is calculated using Low Pulse Width Time of Schmitt Oscillator = Resistance of Schmitt Oscillator*Capacitance of Schmitt Oscillator*ln(Rising Voltage of Schmitt Oscillator/Falling Voltage of Schmitt Oscillator). To calculate Low Pulse Width Time in Schmitt Trigger Oscillator, you need Resistance of Schmitt Oscillator (R_(schmitt)), Capacitance of Schmitt Oscillator (C_(schmitt)), Rising Voltage of Schmitt Oscillator (V_T+) & Falling Voltage of Schmitt Oscillator (V_T-). With our tool, you need to enter the respective value for Resistance of Schmitt Oscillator, Capacitance of Schmitt Oscillator, Rising Voltage of Schmitt Oscillator & Falling Voltage of Schmitt Oscillator 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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