Badger Meter MC4000 Diagnostic Test Equipment User Manual

SUPPleMenTArY MeASUreMenTS

Two Point Flow Sensor Calibration Using the New Lin Function

The MC4000 flow sensor output signal is a frequency that is proportional to the rate of flow The MC4000 monitor uses the

frequency information to calculate volumetric flow rate and total flow The raw frequency from the turbine flow sensor

requires scaling by a constant in order to achieve a display reading in the required flow units The MC4000 refers to this

constant as the SCAle defined as follows

SCALE =

Maximum Frequency

Maximum Flow Rate

The MC4000 menu contains two scaling parameters They are the already defined SCAle and a scaling divisor referred to as

the dSCAle
Used to shift the decimal point of the displayed reading, the dSCAle setting is particularly useful when the SCAle parameter is

a very small number such as in the case of small, high frequency turbine flow sensors
Calculated flow readings in the MC4000 use the following formula

Display Reading =

DSCALE

Input Frequency x SCALE

example

A typical 1 in turbine flow sensor would have the following characteristics

Maximum Flow

=

80 gpm

Maximum Frequency =

765 Hz

The scale factor, SCAle, calculation is:

SCALE =

765 Hz

80 gallons

= 0.1046

The value for this sensor entered into the SCAle parameter would be 0 1046 In this case a dSCAle value of 1 000 would give

correct readings on the MC4000 display
Using a larger value for dSCAle offers higher resolution and is especially useful when the SCAle value has several leading

zeroes in it

example

A small turbine flow sensor has the following full scale values

Maximum Flow

=

7 gpm

Maximum Frequency =

2632 Hz

SCALE =

2632 Hz

7 gallons

= 0.0026596

Because of display limitations, better results are obtained by multiplying the SCAle value by 1000 and using a dSCAle value

of 1000

Page 20

Month 2014