Red Lion LEGEND User Manual

COUNTER SCALING EXAMPLE:

EXAMPLE #1:

A flow sensor provides 62 pulses per gallon. Calculate the scaling required

to provide a display reading in gallons. The number of “Display Units”
displayed after 62 pulses have been counted should be 1.

STEP 1 - Calculate the Total Scaling Factor, “K

T

”, using Formula #1.

FORMULA #1

K

T

Display Units

÷

Number of Pulses

1

÷

62

0.016129

STEP 2 - In this application 62 pulses per gallon provides more than enough

resolution, so the “Number of Count Edges” (Selected in the Program
Counter Module) is set to a value of X1. With an “NCE” value of 1, the
remaining scaling factor required is still 0.016129.

FORMULA #2

K

R

K

T

÷

NCE

0.016129

÷

1

0.016129

STEP 3 - To provide maximum scaling accuracy, a “Scale Multiplier” value

is chosen that will give the maximum amount of significant digits in the
Scale Factor. A value of 0.01 will result in a Scale Factor Value of 1.6129.

FORMULA #3

SF

KR

÷ SCM 0.016129 ÷ 0.01 1.6129

EXAMPLE #2:

A quadrature Rotary Pulse Generator that provides 100 pulses per

revolution is coupled to a feed roll that is 2.5 feet in circumference. It is desired
to read in feet with display resolution to the nearest hundredth of feet (0.01).

In this application, the requirement is for the display to read in hundredths

of a foot. A 2.5 ft. distance will equate to 250 “Display Units” (hundredths).
The “Number of Pulses” for 2.5 ft. is 100, as stated.

From the information obtained, the Total Scaling Factor, “K

T

”, can be

calculated, using Formula #1.

K

T

Display Units

÷

Number of Pulses

250

÷

100

2.5

With a Total Scaling Factor, “K

T

”, of 2.5, it can easily be seen that for

every pulse that is input, the display will increment by 2.5 display units
(hundredths). The application requires resolution to the nearest hundredth of
a foot. To get higher resolution, Quadrature x4 Input Response Mode is
selected. This will provide four times the resolution. Using Formula #2, and 4
for the “Number of Count Edges”, the Remaining Scaling, “K

R

”, is

calculated.

K

R

K

T

÷

Number of Count Edges

2.5

÷

4

0.625

At this point, it can be seen that the Remaining Scaling Factor value of

0.625 will fit into the Scale Factor value range without losing any significant
digits or scaling it any further. Because of this, the Scale Multiplier (SCM)
factory set value of X1 is used, and 0.6250 is programmed directly in for the
Scale Factor, “SF”.

SF

K

R

÷

SCM

0.6250

ч

1

0.6250

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