5
Unit selection
Unit°C
Unit °F
Operating Scale Minimum Value
(Scale Low Point, Scale High Point)Unit
Used for Proportional band calculation and display blink.
Display offset for process value (Scale -10%, Scale
+10%)Unit This parameter value is added to the process value.
Unit is Voltage.Active if Voltage / Current input is selectedZ
No unit.Active if oltage / current input is selectedZV
Coefficient value (1.000, 9.999)
Process value is multiplied with this value.
Active if Voltage / Current input is selected.Z
mV Z
50
Po00 = 0
Po01
Po02
Po03
Po04
Po05
Po16
Po06
Po15
Po07
Po08
Po09
Po10
3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125 3.125
3.125 6.25 9.375 12.5 15.625 18.75 21.825 25 28.125 31.25 34.375 37.5 40.625 43.75 46.875
Po14
Po13
Po12
Po11
Process
Set value
0-50 mV range are divided into 16 egual parts. Every “Poxx” SET value is defined
50 / 16 = 3.125 mV range.
Z
Z
Filter Time (0.0, 900.0)Second
Defines filter time for display value.
Cold Junction Compensation
This parameter is active if process input is selected TC input.
Cold junction compensation is active.
Cold junction compensation is not active.
Operating Scale Maximum Value
(Scale Low Point, Scale High Point)Unit
Used for Proportional band calculation and display blink.
Scale: The difference, between high point and low point of the process
input type. Example: If tCSL = 2 (low point is -200, high point is 900),
then scale is 1100. If input type is Voltage/Current, then the scale is
difference between tPoH and tPoL parameters.
PID ConF: PID Configuration Parameters
PROPORTIONAL BAND (0.0, 999.9)%
If = 1000 °C, = 0 °C and = 50.0
then Proportional Band = ( - ) * / 100.0
Proportional Band = (1000-0)*50.0/100.0 = 500 °C
INTEGRAL TIME (0, 3600)Second
Can be changed by the user. After complated the tunning
correctly, integral time value changes automatically. If it is 0,
integral control is deactivated.
DERIVATIVE TIME (0.0, 999.9)Second
Can be changed by the user. After complated the tunning
correctly, integral time value changes automatically. If it is 0,
derivative control is deactivated.
CONTROL PERIOD TIME (1, 150)
Process output period time
Second
MINIMUM CONTROL OUTPUT (0.0, )%
Even as a result of the PID calculation device calculates the
%output value less than this parameter, heating or cooling
output is active minimum for OLL parameter.
MAXIMUM CONTROL OUTPUT ( , 100.0)%
Even as a result of the PID calculation device calculates the %
output value greater than this parameter, heating or cooling
output is active maximum for OUL parameter.
HEATING MINIMUM CONTROL OUTPUT TIME(0.0, )sec
Heating output can not be active less than this parameter.
Even if this parameter is 0, this parameter is accepted
50 msecs for security.
COOLING PROPORTIONAL BAND COEFFICIENT (0.0, 100.0)
If heating and cooling PID is used in a system, tune operation is
performed by heating output.Cooling proportional parameter is
calculated with heating proportional band value and coefficient(P-
CL = P-Ht * CCoE / 100.0)
COOLING PROPORTIONAL BAND ( 000.0% , 999.9% )
If
Proportional Band
Proportional Band
= 1000 °C, = 0 °C and = 50.0 ise
=( - ) * / 100.0
= (1000-0)*50.0/100.0 = 500 °C
COOLING INTEGRAL TIME (0000 sec, 3600 secs)
It can be changed by the user. When tune operation finishes,
it can be changed by the device. If it is 0, integral control
part does not perform.
COOLING DERIVATIVE TIME (000.0 sec, 999.9 secs)
It can be changed by the user. When tune operation finishes, it can be
changed by the device. If it is 0, derivative control part does not perform.
When tune operation finishes if this parameter is 0, it can not
be changed because derivative control part does not perform.
COOLING OUTPUT PERIOD TIME (1 sec, 150 secs)
It is control period of cooling output.
COOLING MINIMUM CONTROL OUTPUT( 0.0, )%
,100.0)%
It is % of cooling minimum output. If heating and cooling PID
control functions operate together, this parameter is not
considered. Even as a result of the cooling PID calculation device
calculates the output value less than this parameter, cooling
output is active minimumor OLLC parameter.
COOLING MAXIMUM CONTROL OUTPUT (
It is % of cooling maximum output.
Even as a result of the cooling PID calculation device
calculates the output value greater than this parameter,
cooling output is active maximum for OULC parameter.
COOLING MINIMUM CONTROL OUTPUT ( 0.0% , )
Cooling output can not be active less than this parameter.
Even if this parameter is 0, this parameter is accepted 50
msecs for security.
ANTI-RESET WINDUP 0-SCALE HIGH POINT( , )UNIT
*/ ( - )
While PID operation is running if
- <= process value <= +
condition is true, integral value is calculated. If the condition
is not true, integral value is not calculated and last
calculated integral value is used. If Ar Parameter is
selected , heating proportional band is used for
heating PID process instead of Ar Parameter and cooling
proportional band is used for cooling PID process instead of
Ar Parameter.
SET VALUE OFFSET
((- SCALE HIGH POINT / 2) , (SCALE HIGH POINT / 2) )Unit
+ is used as set value in PID calculations. This
parameter is used for shifting the proportional band.
PID OUTPUT OFFSET
(FOR HEATING PID 0.0, 100.0)%
(FOR COOLING PID -100.0, 0.0)%
(FOR HEATING & COOLING PID : -100.0, 100.0)%
This parameter is added to “Output %” which is calculated at
the end of the PID.
OUTPUT OFFSET RELATED TO PID SET
(FOR HEATING PID 0.0, 100.0)%
(FOR COOLING PID -100.0, 0.0)%
(FOR HEATING & COOLING PID : -100.0, 100.0)%
This parameter is added to the %process output that is
calculated at the end of the PID according to process set value
Process Value Low Point Adjustment Parameter
(For TC and RTD input scales)
It can be adjusted -50% to 50% of scale.
Process Value Up Point Adjustment Parameter
(For TC and RTD input scales)
It can be adjusted -50% to 50% of scale.
