Quiescent Resistance of Microphone Solution

STEP 0: Pre-Calculation Summary
Formula Used
Quiescent Resistance = Instantaneous Resistance+Maximum Variation in Resistance*sin(Angular Frequency*Time Period)
Rq = Ri+Rmax*sin(ω*T)
This formula uses 1 Functions, 5 Variables
Functions Used
sin - Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse., sin(Angle)
Variables Used
Quiescent Resistance - (Measured in Ohm) - Quiescent resistance refers to the resistance value or impedance exhibited by a component or circuit when it is in a state of rest, without any significant signal or current flowing through it.
Instantaneous Resistance - (Measured in Ohm) - Instantaneous Resistance is the instantaneous values of currents and voltages.
Maximum Variation in Resistance - (Measured in Ohm) - Maximum variation in resistance is the maximum resistance.
Angular Frequency - (Measured in Radian per Second) - Angular Frequency refers to the rate at which a sinusoidal signal or waveform oscillates or completes one full cycle per unit of time.
Time Period - (Measured in Second) - Time Period refers to the duration or length of time over which the calls are being considered or observed.
STEP 1: Convert Input(s) to Base Unit
Instantaneous Resistance: 26.67 Ohm --> 26.67 Ohm No Conversion Required
Maximum Variation in Resistance: 25 Ohm --> 25 Ohm No Conversion Required
Angular Frequency: 25.5 Radian per Second --> 25.5 Radian per Second No Conversion Required
Time Period: 30 Second --> 30 Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Rq = Ri+Rmax*sin(ω*T) --> 26.67+25*sin(25.5*30)
Evaluating ... ...
Rq = 1.67615406129544
STEP 3: Convert Result to Output's Unit
1.67615406129544 Ohm --> No Conversion Required
FINAL ANSWER
1.67615406129544 1.676154 Ohm <-- Quiescent Resistance
(Calculation completed in 00.020 seconds)

Credits

Created by Shobhit Dimri
Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat
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Go Maximum Variation in Resistance = (Quiescent Resistance-Instantaneous Resistance)/sin(Angular Frequency*Time Period)
Quiescent Resistance of Microphone
Go Quiescent Resistance = Instantaneous Resistance+Maximum Variation in Resistance*sin(Angular Frequency*Time Period)
Instantaneous Resistance of Microphone
Go Instantaneous Resistance = Quiescent Resistance-Maximum Variation in Resistance*sin(Angular Frequency*Time Period)
Number of Switching Elements
Go Number of Switching Element = (Cost of Switching System-Cost of Common Hardware-Cost of Common Control System)/Cost per Switching Element
Average Switching Time per Stage
Go Average Switching Time per Stage = (Call Setup Time-Time Required Other than Switching)/Number of Switching Stage
Number of Switching Stage
Go Number of Switching Stage = (Call Setup Time-Time Required Other than Switching)/Average Switching Time per Stage
Switching Element Advantage Factor
Go Switching Element Advantage Factor = Number of SE in Single Switch/Number of SE in Equivalent Multistage
Number of SE in Equivalent Multistage
Go Number of SE in Equivalent Multistage = Number of SE in Single Switch/Switching Element Advantage Factor
Number of SE in Single Switch
Go Number of SE in Single Switch = Number of SE in Equivalent Multistage*Switching Element Advantage Factor
Theoretical Maximum Load
Go Number of Subscriber Lines = (2*Switching Capacity)/Traffic Handling Capacity
Number of SE when SC Fully Utilised
Go SE when SC Fully Utilized = Total Number of SE*Equipment Utilization Factor
Total Number of SE in System
Go Total Number of SE = SE when SC Fully Utilized/Equipment Utilization Factor
Equipment Utilization Factor
Go Equipment Utilization Factor = SE when SC Fully Utilized/Total Number of SE
Power Ratio
Go Power Ratio = 20*log10(Voltage2/Voltage1)
Sinusoidal Input
Go Sinusoidal Input = Quantization Error*2*Voltage

Quiescent Resistance of Microphone Formula

Quiescent Resistance = Instantaneous Resistance+Maximum Variation in Resistance*sin(Angular Frequency*Time Period)
Rq = Ri+Rmax*sin(ω*T)

What is resistance in microphone?

Resistance in the microphone is the Impedance that controls the flow of the audio signal, more the impedance less will be the audio output.

How to Calculate Quiescent Resistance of Microphone?

Quiescent Resistance of Microphone calculator uses Quiescent Resistance = Instantaneous Resistance+Maximum Variation in Resistance*sin(Angular Frequency*Time Period) to calculate the Quiescent Resistance, Quiescent resistance of microphone refers to the resistance value or impedance exhibited by a component or circuit when it is in a state of rest or idle, without any significant signal or current flowing through it.It represents the baseline or default resistance value of the component or circuit when it is not in an active operational state. Quiescent Resistance is denoted by Rq symbol.

How to calculate Quiescent Resistance of Microphone using this online calculator? To use this online calculator for Quiescent Resistance of Microphone, enter Instantaneous Resistance (Ri), Maximum Variation in Resistance (Rmax), Angular Frequency (ω) & Time Period (T) and hit the calculate button. Here is how the Quiescent Resistance of Microphone calculation can be explained with given input values -> 1.676154 = 26.67+25*sin(25.5*30) .

FAQ

What is Quiescent Resistance of Microphone?
Quiescent resistance of microphone refers to the resistance value or impedance exhibited by a component or circuit when it is in a state of rest or idle, without any significant signal or current flowing through it.It represents the baseline or default resistance value of the component or circuit when it is not in an active operational state and is represented as Rq = Ri+Rmax*sin(ω*T) or Quiescent Resistance = Instantaneous Resistance+Maximum Variation in Resistance*sin(Angular Frequency*Time Period). Instantaneous Resistance is the instantaneous values of currents and voltages, Maximum variation in resistance is the maximum resistance, Angular Frequency refers to the rate at which a sinusoidal signal or waveform oscillates or completes one full cycle per unit of time & Time Period refers to the duration or length of time over which the calls are being considered or observed.
How to calculate Quiescent Resistance of Microphone?
Quiescent resistance of microphone refers to the resistance value or impedance exhibited by a component or circuit when it is in a state of rest or idle, without any significant signal or current flowing through it.It represents the baseline or default resistance value of the component or circuit when it is not in an active operational state is calculated using Quiescent Resistance = Instantaneous Resistance+Maximum Variation in Resistance*sin(Angular Frequency*Time Period). To calculate Quiescent Resistance of Microphone, you need Instantaneous Resistance (Ri), Maximum Variation in Resistance (Rmax), Angular Frequency (ω) & Time Period (T). With our tool, you need to enter the respective value for Instantaneous Resistance, Maximum Variation in Resistance, Angular Frequency & Time Period 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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