Ascon Tecnologic - K__V - Indicators - ENGINEERING MANUAL - PAG. 8
The procedure is complete.
Note:
The complete list of the default parameters is available
in Appendix A.
6.7 Configuring all the Parameters
In the following pages we will describe all the parameters of
the instrument. However, the instrument will only show the
parameters applicable to its hardware options in accordance
with the specific instrument configuration (i.e. setting
AL1t
[Alarm 1 type] to
nonE
[not used], all parameters related to
alarm 1 will be skipped).
]
inP Group - Main and auxiliary input
configuration
[2] SEnS - Input Type
Available:
Always.
Range: •
When the code of the input type is equal to
(see Ordering Code at page 29).
J
= TC J (0... 1000°C/32... 1832°F)
crAL
= TC K (0... 1370°C/32... 2498°F)
S
= TC S (0... 1760°C/32... 3200°F)
r
= TC R (0... 1760°C/32... 3200°F)
t
= TC T (0... 400°C/32... 752°F)
ir.J
= Exergen IRS J (0... 1000°C/32... 832°F)
ir.cA
= Exergen IRS K (0... 1370°C/32... 2498°F)
Pt1
= RTD Pt 100 (-200... 850°C/-328... 1562°F)
0.50
= 0... 50 mV linear
0.60
= 0... 60 mV linear
12.60 = 12... 60 mV linear
•
When the code of the input type is equal to
.
J
= TC J (0... 1000°C/32... 1832°F)
crAL
= TC K (0... 1370°C/32... 2498°F)
S
= TC S (0... 1760°C/32... 3200°F)
r
= TC R (0... 1760°C/32... 3200°F)
t
= TC T (0... 400°C/32... 752°F)
ir.J
= Exergen IRS J (0... 1000°C/32... 1832°F)
ir.cA
= Exergen IRS K (0... 1370°C/32... 2498°F)
Ptc
= PTC KTY81-121 (-55... 150°C/-67... 302°F)
0.50
= 0... 50 mV linear
0.60
= 0... 60 mV linear
12.60 = 12... 60 mV linear
•
When the code of the input type is equal to I
.
0.20
= 0... 20 mA linear
4.20
= 4... 20 mA linear
•
When the code of the input type is equal to
.
0.1
= 0... 1 V linear
0.5
= 0... 5 V linear
1.5
= 1... 5 V linear
0.10
= 0... 10 V linear
2.10
= 2... 10 V linear
Notes: 1.
When a TC input is selected and a decimal figure
is programmed (see the next parameter) the max.
displayed value become 999.9°C or 999.9°F
2.
Every change of the
SEnS
parameter setting will
force the following change:
[3] dP
= 0
[129] ES.L = -1999
[130] ES.H = 9999
[3] dP -
Decimal point position
Available:
Always.
Range:
When [2] SenS = Linear input: 0 to 3.
When [2] SenS different from linear input: 0 or 1
Note:
Every change of the dP parameter setting will produce
a change of the parameters related with it (e.g. Alarm
thresholds, Peak hi and peak low memory, etc.).
[4] SSc – Initial scale read-out for linear inputs
Available:
When a linear input is selected by [2] SenS.
Range:
-1999 to 9999
Notes: 1.
It defines the value shown by the instrument
when it measures the the minimum electrical va-
lue of the scale selected by [2] SenS parameter
2.
It allows the scaling of the analogue input to set
the minimum displayed/measured value
The instrument will show a measured value up to
5% less th
a
n SSc value and th
e
n it will show an
underrange error.
3.
It is possible to set a initial scale read-out higher
then the full scale read-out in order to obtain a
reverse read-out scaling.
E.g. 0 mA = 0 mBar and 20 mA = - 1000 mBar
(vacuum).
[5] FSc - Full scale read-out for linear input
Available:
When a linear input is selected by [2] SenS.
Range:
-1999... +9999.
Notes: 1.
- It defines the value shown by the instrument
when it measures the the maximum electrical
value of the scale selected by [2] SenS parameter
2.
- It allows the scaling of the analogue input to set
the maximum displayed/measured value
The instrument will show a measured value up to
5% higher than [5] FSc value and then it will show
an overrange error.
3.
It is possible to set a full scale read-out lower
than the initial scale read-out in order to obtain a
reverse read-out scaling.
E.g. 0 mA = 0 mBar and 20 mA = - 1000 mBar
(vacuum).
[6] 0.Pot - Offset value used to shift the readout zero
Available:
When a linear input is selected by [2] SenS.
Range:
-1999... +9999 (E.U.).
[7] unit - Engineering unit
Available:
When a temperature sensor is selected by
[2] SenS.
Range:
°c
= Centigrade
°F
= Fahrenheit
[8] FiL -
Digital filter on the measured value
Available:
Always.
Range:
oFF (No filter) 0.1 to 20.0 s.
Note:
This is a first order digital filter applied on the measured
value. For this reason it will affect both the measured va-
lue but also the control action and the alarms behaviour.
