KROHNE TIDALFLUX IFM 4110 PF EN User Manual

7.30830.32.00

60

4.3) Calculate setpoint reading “I” for current output:

I = I

0%

+

Y

X

(I

100%

- I

0%

) in mA

I

0%

current (0/4 mA) at 0% flow rate

I

100%

current (20 mA) at 100% flow rate

4.4) Calculate setpoint reading “f” for pulse output:

f =

Y

X

* P

100%

in Hz

P

100%

pulses per second (Hz) at 100% flow rate

5) Turn switch D (GS 8 A front panel) to “+” or “-“ (forward/reverse flow).
6) Set switch Y (GS 8 A front panel) to the value determined as described above.
7) Check setpoint readings I and f, see items 4.3 and 4.4 above.
8) Deviation < 1.5% of setpoint. If higher, replace signal converter, see Section 8.7.
9) Linearity test: set lower Y values, readings will drop in proportion to the calculated values for Y.
10) Switch off power supply after completing the test.
11) Disconnect the GS 8 A.
12) Re-assemble in reverse order .
13) The system is ready for operation after the power supply is switched on again.

Example

Full-scale range

Q

100%

= 113.1 m

3

/hr (Fct. 1.01)

Meter size

DN

= 200 mm = 8 inch (Fct. 3.02)

Current at Q

0%

I

0%

= 4 mA (Fct. 1.05)

Q

100%

I

100%

= 20 mA (Fct. 1.05)

Pulses at Q

100%

P

100%

= 280 pulses/hr (Fct. 1.06)

Primary head constant

GK

= 3.571 (see instrument nameplate)

Constant (V in m

3

)

(t in hr)

K

= 7074 (see table)

(DN in mm)

Calculation of “X” and setting of “Y”:

X =

Q

100%

* K

GK * DN

2

=

113.1 * 7074

3.572*200*200

= 5.6

Y = 5, setting of switch Y, see GS 8 A front panel
(comes closest to the value of X and is smaller than X).

Calculation of setpoint readings I and f

I = I

0%

+

Y

X

(I

100%

- I

0%

) = 4 mA +

5

5.6

* (20 mA – 4 mA) = 18.3 mA

Deviations are permissible between 18.03 and 18.57 mA (equivalent to

±

1.5 %).

f =

Y

X

* P

100%

=

5

5.6

* pulses/hr = 250 pulses/hr

Deviations are permissible between 246.3 and 253.8 pulses/hr (equivalent to

±

1.5 %).