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VEGA VEGAPULS 54K enamel User Manual

Page 33

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VEGAPULS 54K enamel

33

24 101-EN-041227

Set-up

Ampl.:

XX dB

S-N:

XX dB

7. Useful level, noise level

In the menu

you get important information on the signal
quality of the product echo. The greater the
"S-N“ value, the more reliable the measure-
ment (menu schematic MINICOM).

Ampl.:

means amplitude of the level echo in
dB (useful level)

S-N:

means Signal-Noise, i.e. the useful
level minus the level of the back-
ground noise

The greater the "S-N“ value (difference be-
tween the amplitudes of the useful signal level
and the noise level), the better the measure-
ment:
> 50 dB

Measurement excellent

40 … 50 dB

Measurement very good

20 … 40 dB

Measurement good

10 … 20 dB

Measurement satisfactory

5 … 10 dB

Measurement sufficient

< 5 dB

Measurement poor

Example:

Ampl. = 68 dB
S-N = 53 dB

68 dB – 53 dB = 15 dB

This means that the noise level is only
68 dB – 53 dB = 15 dB.

A 15 dB noise level and a 53 dB signal differ-
ence yield a high degree of measurement
reliability.

8. Outputs

Under the menu "Outputs“ you determine, for
example, whether the current output should
be inverted, or which unit of measurement
should be shown on the sensor display.

Lin.
curve

Linear

Integra
tion
time

0 s

Adjust
ment

Signal
condit
ioning

Scal
ing

• Confirm with "

OK“.

If necessary, choose a decimal point. How-
ever, note that only max. 4 digits can be
displayed. In the menu "

prop. to“ you choose

the physical quantity (mass, volume, dis-
tance…) and in the menu "

Unit“ the physical

unit (kg, l, ft

3

, gal, m

3

…).

Linearisation:

A linear correlation between the percentage
value of the product distance and percent-
age value of the filling volume has been pre-
set. With the menu "Lin. curve“ you can
choose between linear, spherical tank and
cylindrical tank. The generation of a custom-
ized linearisation curve is only possible with
the PC and the adjustment program VVO.

5. Meas. conditions

(see menu schematic)

6. False echo storage

A false echo storage is always useful when
unavoidable false echo sources (e.g. struts)
must be minimised. By creating a false echo
storage, you authorise the sensor electronics
to record the false echoes and save them in
an internal database. The sensor electronics
treats these (false) echoes differently from
the useful echoes and filters them out.