RMS output Voltage Detector Calculator

✖Detector Responsivity is defined as measures of the input-output gain of a detector system.ⓘ Detector Responsivity [R_d]			+10% -10%
✖Root Mean Square Incident Power of Detector refers to the power of the incoming signal or radiation incident on the detector surface.ⓘ Root Mean Square Incident Power of Detector [P_rms]			+10% -10%

✖Root Mean Square Voltage Output is the measure of transducer average voltage output. It provides a standardized representation of the transducer's signal strength.ⓘ RMS output Voltage Detector [V_rms]

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Formula

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RMS output Voltage Detector

Formula

`"V"_{"rms"} = "R"_{"d"}*"P"_{"rms"}`

Example

`"81.54V"="15.1A/W"*"5.4W"`

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RMS output Voltage Detector Solution

STEP 0: Pre-Calculation Summary

Formula Used

Root Mean Square Voltage Output = Detector Responsivity*Root Mean Square Incident Power of Detector
V_rms = R_d*P_rms
This formula uses 3 Variables

Variables Used

Root Mean Square Voltage Output - (Measured in Volt) - Root Mean Square Voltage Output is the measure of transducer average voltage output. It provides a standardized representation of the transducer's signal strength.
Detector Responsivity - (Measured in Ampere per Watt) - Detector Responsivity is defined as measures of the input-output gain of a detector system.
Root Mean Square Incident Power of Detector - (Measured in Watt) - Root Mean Square Incident Power of Detector refers to the power of the incoming signal or radiation incident on the detector surface.

STEP 1: Convert Input(s) to Base Unit

Detector Responsivity: 15.1 Ampere per Watt --> 15.1 Ampere per Watt No Conversion Required
Root Mean Square Incident Power of Detector: 5.4 Watt --> 5.4 Watt No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

V_rms = R_d*P_rms --> 15.1*5.4

Evaluating ... ...

V_rms = 81.54

STEP 3: Convert Result to Output's Unit

81.54 Volt --> No Conversion Required

FINAL ANSWER

81.54 Volt <-- Root Mean Square Voltage Output

(Calculation completed in 00.004 seconds)

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Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

Shobhit Dimri has created this Calculator and 900+ more calculators!

Verified by Urvi Rathod

Vishwakarma Government Engineering College (VGEC), Ahmedabad

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< 24 Transducers Calculators

Capacitance of Transducer

Go Transducer Capacitance = Current Generator Capacitance-(Amplifier Capacitance+Cable Capacitance)

Capacitance of Cable

Go Cable Capacitance = Current Generator Capacitance-(Transducer Capacitance+Amplifier Capacitance)

Current Generator Capacitance

Go Current Generator Capacitance = Transducer Capacitance+Amplifier Capacitance+Cable Capacitance

Noise Equivalent of Bandwidth

Go Noise Equivalent Bandwidth = Normalized Detectivity^2/(Transducer Detectivity^2*Detector Area)

Capacitance of Amplifier

Go Amplifier Capacitance = Current Generator Capacitance-Transducer Capacitance-Cable Capacitance

Normalized Detectivity

Go Normalized Detectivity = (Detector Area*Noise Equivalent Bandwidth)^0.5*Transducer Detectivity

Area of Detector

Go Detector Area = Normalized Detectivity^2/(Transducer Detectivity^2*Noise Equivalent Bandwidth)

RMS Incident Power of Detector

Go Root Mean Square Incident Power of Detector = Root Mean Square Voltage Output/Detector Responsivity

RMS output Voltage Detector

Go Root Mean Square Voltage Output = Detector Responsivity*Root Mean Square Incident Power of Detector

Responsivity of Detector

Go Detector Responsivity = Root Mean Square Voltage Output/Root Mean Square Incident Power of Detector

Detectivity of Transducer

Go Transducer Detectivity = Signal to Noise Ratio of Output Signal/Input Displacement Signal

RMS Noise Voltage of Cell

Go Root Mean Square Noise Voltage of Cell = Detector Responsivity/Transducer Detectivity

Detectivity

Go Transducer Detectivity = Detector Responsivity/Root Mean Square Noise Voltage of Cell

Size of Output Signal

Go Output Signal Size = Signal to Noise Ratio of Output Signal/Transducer Detectivity

Sensitivity of Photoresistive Transducer

Go Photoresistive Transducer Sensitivity = Resistance Change/Irradiation Change

Output Signal of Transducer

Go Transducer Output Signal = Input Displacement Signal*Transducer Responsivity

Responsivity of Transducer

Go Transducer Responsivity = Transducer Output Signal/Input Displacement Signal

Input Signal of Transducer

Go Input Displacement Signal = Transducer Output Signal/Transducer Responsivity

Change in Irradiation

Go Irradiation Change = Resistance Change/Photoresistive Transducer Sensitivity

Change in Resistance

Go Resistance Change = Irradiation Change*Photoresistive Transducer Sensitivity

Sensitivity of LVDT

Go LVDT Sensitivity = Transducer Output Signal/Input Displacement Signal

Efficiency of transducer

Go Transducer Efficiency = Temperature Difference/Temperature Rise

Temperature Difference

Go Temperature Difference = Temperature Rise*Transducer Efficiency

Rise in Temperature

Go Temperature Rise = Temperature Difference/Transducer Efficiency

RMS output Voltage Detector Formula

Root Mean Square Voltage Output = Detector Responsivity*Root Mean Square Incident Power of Detector
V_rms = R_d*P_rms

What is detector response time?

In the case of a pulsed source of light, the detector response time is considered as either the rise time or fall time required for the output signal to change from 10% to 90% of its final value or vice versa.

How to Calculate RMS output Voltage Detector?

RMS output Voltage Detector calculator uses Root Mean Square Voltage Output = Detector Responsivity*Root Mean Square Incident Power of Detector to calculate the Root Mean Square Voltage Output, The RMS output Voltage Detector formula is defined as the effective voltage produced by the detector based on its ability to convert incident power into an electrical signal and the actual power incident upon it. Root Mean Square Voltage Output is denoted by V_rms symbol.

How to calculate RMS output Voltage Detector using this online calculator? To use this online calculator for RMS output Voltage Detector, enter Detector Responsivity (R_d) & Root Mean Square Incident Power of Detector (P_rms) and hit the calculate button. Here is how the RMS output Voltage Detector calculation can be explained with given input values -> 81.54 = 15.1*5.4.

FAQ

What is RMS output Voltage Detector?

The RMS output Voltage Detector formula is defined as the effective voltage produced by the detector based on its ability to convert incident power into an electrical signal and the actual power incident upon it and is represented as V_rms = R_d*P_rms or Root Mean Square Voltage Output = Detector Responsivity*Root Mean Square Incident Power of Detector. Detector Responsivity is defined as measures of the input-output gain of a detector system & Root Mean Square Incident Power of Detector refers to the power of the incoming signal or radiation incident on the detector surface.

How to calculate RMS output Voltage Detector?

The RMS output Voltage Detector formula is defined as the effective voltage produced by the detector based on its ability to convert incident power into an electrical signal and the actual power incident upon it is calculated using Root Mean Square Voltage Output = Detector Responsivity*Root Mean Square Incident Power of Detector. To calculate RMS output Voltage Detector, you need Detector Responsivity (R_d) & Root Mean Square Incident Power of Detector (P_rms). With our tool, you need to enter the respective value for Detector Responsivity & Root Mean Square Incident Power of Detector 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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