Diagram, adjustment, Parameter list, Primary_value_unit – unit code of 'primary_value – VEGA VEGABAR 66 Foundation Fieldbus - climate compensated User Manual
Page 61: Fig. 34: adjustment vegabar 66
61
10 Supplement
VEGABAR 66 • Foundation Fieldbus - climate compensated
36793-EN-130321
t
i
Simulat
e
ALARMS
Out
PV
FIELD-VALUE
Mode & Status
PVF-TIME
LO
W
-C
UT
O
FF
L-TYP
E
OUT-SCALE
PV-SCALE
DIRECT
INDIRECT
INDIRECT
SQRT
bar
%
Lin%
Primary
Value
Secondary
Value 1
Secondary
Value 2
Sensor mounting
correction
AI 2
AI 3
AI 1
TB
Temperature
Sensor_Value
Linearization
adjustment
Channel = 1: Primary Value
Channel = 2: Secondary Value 1
Channel = 3: Secondary Value 2
Channel = 4: Temperature
Fig. 33: Transducer Block VEGABAR 66
TB Transducer Block
AI Function Block (AI =Analogue Input)
Diagram, adjustment
The following illustration shows the function of the adjustment:
Secondary_value_2
scale_in_0 scale_in_100
Sensor_value
0 %
100 %
bar
0,500
-0,500
0
%
100
%
scale_in_100
scale_in_0
Fig. 34: Adjustment VEGABAR 66
Parameter list
The following list contains the most important parameters and their meaning:
•
primary_value
– Process Value after min/max-adjustment and linearization. Selected as input to AIFB by setting
'Channel' = 1. Unit derives from 'Primary_value_unit'
•
primary_value_unit
– Unit code of 'Primary_value'
– %
•
secondary_value_1
– Process pressure. Selected as input to AIFB by setting 'Channel' = 2. Unit derives from 'Sec-
ondary_value_1_unit'
•
secondary_value_1_unit
– Unit code of 'Secondary_value_1'
– bar, PSI, …, m, ft, …; in case of length type engineering unit and access to parameters the cor-
responding values will be converted by density factor