Change of calibration engineering units, Formula 3 – Liquid Controls IT275N User Manual

Sponsler, Inc.

IT275N Remote Totalizer & Rate Indicator

pg. 8

DOC#: MN-275N-A

Example 3:

Assume a turbine has a K-Factor of 79.58 pulses per SCF and the customer product
demand is 520,000 SCF a day

C.F.

= 1/79.58 = .0125659 = .12566

÷ 10 Note: Both conditions are met

Without the ‘0-1’ function:

S3 #2 ‘ON’ (

↓ Position) for ÷ 10 (moves decimal right 1 place)

S5@1, S6@2, S7@5, S8@7 (.1257 rounding 4

th

digit)

S4 in ‘0’ Position (0.1257)

A usage of 520,000 SCF = 41,381,600 total pulses (520,000 x 79.58) and using the C.F.
of S4-S8 the displayed quantity is 520,166 SCF ( 41,381,600 x .1256 )

10

rather than 520,000 for a difference of 166 SCF.

With the ‘0-1’ function: Set S3 #3 ‘ON’ (

↓ Position) for ÷ 100 (moves decimal right 2 places)

Set S5@2, S6@5, S7@6, S8@6 (.2566)

Set S4 in ‘1’ Position (1.2566)

As stated above the 24 hr usage is 520,000 SCF. The displayed quantity is now 520,001
SCF

( 41,381,600 x 1.2567 )

for a difference of 1 SCF

100

Change of Calibration Engineering Units

Assume that liters rather than gallons are the desired engineering units.

Example 4:

K-Factor = 250 pulses per gallon

Liters = 3.785 per gallon

C.F. = Units per Gallon

Pulses per Gallon

C.F. = 3.785/250 = .01514 for display of liters

On the IT275I PCB:

Set S3 #2 ‘ON’ (

↓ Position) moves decimal point right 1 place

On the IT275F P.C.B:

Set S5@1, S6@5, S7@1, S8@4 (.1514)

Set S4 in ‘0’ Position (0.1514)

Note: The ‘0-1’ function was not incorporated because only 1 of the 2 conditions was met

C.F.’s 1

st

digit right of decimal is 1

Example 5:

The Engineering Unit is pounds in 10

th

s CO

2

K-Factor = 250 pulses per gallon

Pounds of CO

2

= 8.470 per gallon

In order to establish 10

th

s, increase lbs./gal. by a factor of 10

Formula 3