Maximum Resistance Deviation in Ohmmeter Calculator

✖The percent linearity is equal to the slope, b, of the best-fit straight. line through the data points, and the linearity is equal the slope multiplied by the process variation.ⓘ Percent Linearity [PL]			+10% -10%
✖Full-Scale Deviation is the deviation at which scale value is maximum.ⓘ Full-Scale Deviation [fsd]			+10% -10%

✖Maximum Displacement Deviation is defined as the maximum number or the maximum precise value up to which the meter can be deflected.ⓘ Maximum Resistance Deviation in Ohmmeter [d_max]

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Formula

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Maximum Resistance Deviation in Ohmmeter

Formula

`"d"_{"max"} = ("PL"*"fsd")/100`

Example

`"0.0018"=("0.06"*"3")/100`

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Maximum Resistance Deviation in Ohmmeter Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Displacement Deviation = (Percent Linearity*Full-Scale Deviation)/100
d_max = (PL*fsd)/100
This formula uses 3 Variables

Variables Used

Maximum Displacement Deviation - Maximum Displacement Deviation is defined as the maximum number or the maximum precise value up to which the meter can be deflected.
Percent Linearity - The percent linearity is equal to the slope, b, of the best-fit straight. line through the data points, and the linearity is equal the slope multiplied by the process variation.
Full-Scale Deviation - Full-Scale Deviation is the deviation at which scale value is maximum.

STEP 1: Convert Input(s) to Base Unit

Percent Linearity: 0.06 --> No Conversion Required
Full-Scale Deviation: 3 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

d_max = (PL*fsd)/100 --> (0.06*3)/100

Evaluating ... ...

d_max = 0.0018

STEP 3: Convert Result to Output's Unit

0.0018 --> No Conversion Required

FINAL ANSWER

0.0018 <-- Maximum Displacement Deviation

(Calculation completed in 00.004 seconds)

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Created by Shobhit Dimri

Bipin Tripathi Kumaon Institute of Technology (BTKIT), Dwarahat

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< 13 Instrument Characteristics Calculators

Angular Deflection of Spring

Go Angular Deflection of Spring = (Flat Spiral Spring Controlling Torque/Spring Constant)*(pi/180)

Multiplier Resistance in Ohmmeter

Go Multiplier Resistance = (Potential Difference/Current)-Galvanometer Resistance

Power Consumed at Full-Scale Reading

Go Power Consumed at Full-Scale Reading = Current at Full-Scale Reading*Full-Scale Voltage Reading

Full-Scale Voltage Reading

Go Full-scale Voltage Reading = Current at Full-Scale Reading*Resistance of Meter

Maximum Resistance Deviation in Ohmmeter

Go Maximum Displacement Deviation = (Percent Linearity*Full-Scale Deviation)/100

Full-Scale Resistance Deviation

Go Full-Scale Deviation = Maximum Displacement Deviation/Percent Linearity

Maximum Displacement Deviation

Go Maximum Displacement Deviation = Full-Scale Deviation*Percent Linearity

Percent Linearity in Ohmmeter

Go Percent Linearity = Maximum Displacement Deviation/Full-Scale Deviation

Magnitude of Output Response

Go Magnitude of Output Response = Sensitivity*Magnitude of Input Response

Magnitude of Input

Go Magnitude of Input Response = Magnitude of Output Response/Sensitivity

Sensitivity

Go Sensitivity = Magnitude of Output Response/Magnitude of Input Response

DC Meter Sensitivity

Go Sensitivity of DC Meter = 1/Full Scale Current Deflection

Inverse Sensitivity or Scale Factor

Go Inverse Sensitivity or Scale Factor = 1/Sensitivity

Maximum Resistance Deviation in Ohmmeter Formula

Maximum Displacement Deviation = (Percent Linearity*Full-Scale Deviation)/100
d_max = (PL*fsd)/100

How do you calculate linearity?

Plot the average measured values (on the y-axis) for each sample against the reference value (on the x-axis). If the resulting line approximates a straight line, the measurement device is linear and the slope of the line gives linearity.

How to Calculate Maximum Resistance Deviation in Ohmmeter?

Maximum Resistance Deviation in Ohmmeter calculator uses Maximum Displacement Deviation = (Percent Linearity*Full-Scale Deviation)/100 to calculate the Maximum Displacement Deviation, The Maximum Resistance Deviation in Ohmmeter formula is defined as the resistance due to which deviation in the measuring meter is at the maximum. Maximum Displacement Deviation is denoted by d_max symbol.

How to calculate Maximum Resistance Deviation in Ohmmeter using this online calculator? To use this online calculator for Maximum Resistance Deviation in Ohmmeter, enter Percent Linearity (PL) & Full-Scale Deviation (fsd) and hit the calculate button. Here is how the Maximum Resistance Deviation in Ohmmeter calculation can be explained with given input values -> 0.0018 = (0.06*3)/100.

FAQ

What is Maximum Resistance Deviation in Ohmmeter?

The Maximum Resistance Deviation in Ohmmeter formula is defined as the resistance due to which deviation in the measuring meter is at the maximum and is represented as d_max = (PL*fsd)/100 or Maximum Displacement Deviation = (Percent Linearity*Full-Scale Deviation)/100. The percent linearity is equal to the slope, b, of the best-fit straight. line through the data points, and the linearity is equal the slope multiplied by the process variation & Full-Scale Deviation is the deviation at which scale value is maximum.

How to calculate Maximum Resistance Deviation in Ohmmeter?

The Maximum Resistance Deviation in Ohmmeter formula is defined as the resistance due to which deviation in the measuring meter is at the maximum is calculated using Maximum Displacement Deviation = (Percent Linearity*Full-Scale Deviation)/100. To calculate Maximum Resistance Deviation in Ohmmeter, you need Percent Linearity (PL) & Full-Scale Deviation (fsd). With our tool, you need to enter the respective value for Percent Linearity & Full-Scale Deviation and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

How many ways are there to calculate Maximum Displacement Deviation?

In this formula, Maximum Displacement Deviation uses Percent Linearity & Full-Scale Deviation. We can use 1 other way(s) to calculate the same, which is/are as follows -

Maximum Displacement Deviation = Full-Scale Deviation*Percent Linearity

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