Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA Solution

STEP 0: Pre-Calculation Summary
Formula Used
Value 2 = (((Value 1-Lower range value 1)*(Upper range value 2-Lower range value 2))/(Upper range value 1-Lower range value 1))+Lower range value 2
V2 = (((V1-LRV1)*(URV2-LRV2))/(URV1-LRV1))+LRV2
This formula uses 6 Variables
Variables Used
Value 2 - (Measured in Ampere) - The Value 2 is the value of the obtained converted value from dimension 1 to dimension 2.
Value 1 - (Measured in Pascal) - The Value 1 is the value of the variable that is being converted from one dimension to another.
Lower range value 1 - (Measured in Pascal) - The Lower range value 1 is the starting point of the dimension 1 in the conversion factor.
Upper range value 2 - (Measured in Ampere) - The Upper range value 2 is the highest value of the dimension the value is being converted to.
Lower range value 2 - (Measured in Ampere) - The Lower range value 2 is the dimension of the variables the value is being converted to.
Upper range value 1 - (Measured in Pascal) - The Upper range value 1 is the highest value of the dimension 1 in the conversion formula.
STEP 1: Convert Input(s) to Base Unit
Value 1: 25 Kilogram-Force per Square Centimeter --> 2451662.49999983 Pascal (Check conversion here)
Lower range value 1: 0.1 Kilogram-Force per Square Centimeter --> 9806.64999999931 Pascal (Check conversion here)
Upper range value 2: 20 Milliampere --> 0.02 Ampere (Check conversion here)
Lower range value 2: 4 Milliampere --> 0.004 Ampere (Check conversion here)
Upper range value 1: 100 Kilogram-Force per Square Centimeter --> 9806649.99999931 Pascal (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
V2 = (((V1-LRV1)*(URV2-LRV2))/(URV1-LRV1))+LRV2 --> (((2451662.49999983-9806.64999999931)*(0.02-0.004))/(9806649.99999931-9806.64999999931))+0.004
Evaluating ... ...
V2 = 0.00798798798798799
STEP 3: Convert Result to Output's Unit
0.00798798798798799 Ampere -->7.98798798798799 Milliampere (Check conversion here)
7.98798798798799 Milliampere <-- Value 2
(Calculation completed in 00.017 seconds)
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Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA
Value 2 = (((Value 1-Lower range value 1)*(Upper range value 2-Lower range value 2))/(Upper range value 1-Lower range value 1))+Lower range value 2

Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA Formula

Value 2 = (((Value 1-Lower range value 1)*(Upper range value 2-Lower range value 2))/(Upper range value 1-Lower range value 1))+Lower range value 2
V2 = (((V1-LRV1)*(URV2-LRV2))/(URV1-LRV1))+LRV2

How do you measure 4 to 20 milliamps?

The measurement of 4 to 20 mA is performed by inserting a load resistance into a power supply line, thereby converting the load resistance to voltage. Satisfy the relationship of “maximum load resistance of the 4 to 20 mA output > load resistance (shunt resistor).”

How to Calculate Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA?

Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA calculator uses Value 2 = (((Value 1-Lower range value 1)*(Upper range value 2-Lower range value 2))/(Upper range value 1-Lower range value 1))+Lower range value 2 to calculate the Value 2, Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA formula is used for converting the range from pressure to current. This is mainly used in flow measurement systems and many other process control systems. P.S:- the default value of LRV1 is 0.1 because the system doesnt accept 0. Value 2 is denoted by V2 symbol.

How to calculate Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA using this online calculator? To use this online calculator for Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA, enter Value 1 (V1), Lower range value 1 (LRV1), Upper range value 2 (URV2), Lower range value 2 (LRV2) & Upper range value 1 (URV1) and hit the calculate button. Here is how the Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA calculation can be explained with given input values -> 7.987988 = (((2451662.49999983-9806.64999999931)*(0.02-0.004))/(9806649.99999931-9806.64999999931))+0.004 .

FAQ

What is Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA?
Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA formula is used for converting the range from pressure to current. This is mainly used in flow measurement systems and many other process control systems. P.S:- the default value of LRV1 is 0.1 because the system doesnt accept 0 and is represented as V2 = (((V1-LRV1)*(URV2-LRV2))/(URV1-LRV1))+LRV2 or Value 2 = (((Value 1-Lower range value 1)*(Upper range value 2-Lower range value 2))/(Upper range value 1-Lower range value 1))+Lower range value 2 . The Value 1 is the value of the variable that is being converted from one dimension to another, The Lower range value 1 is the starting point of the dimension 1 in the conversion factor, The Upper range value 2 is the highest value of the dimension the value is being converted to, The Lower range value 2 is the dimension of the variables the value is being converted to & The Upper range value 1 is the highest value of the dimension 1 in the conversion formula.
How to calculate Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA?
Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA formula is used for converting the range from pressure to current. This is mainly used in flow measurement systems and many other process control systems. P.S:- the default value of LRV1 is 0.1 because the system doesnt accept 0 is calculated using Value 2 = (((Value 1-Lower range value 1)*(Upper range value 2-Lower range value 2))/(Upper range value 1-Lower range value 1))+Lower range value 2 . To calculate Range conversion from 0 to 100 kg per cm2 to 4 to 20 mA, you need Value 1 (V1), Lower range value 1 (LRV1), Upper range value 2 (URV2), Lower range value 2 (LRV2) & Upper range value 1 (URV1). With our tool, you need to enter the respective value for Value 1, Lower range value 1, Upper range value 2, Lower range value 2 & Upper range value 1 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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