Manual
very weak. Moreover, the correcting variable increases very quickly to max. possi
-
ble cooling. Parameter F.H2O can be used for changing the characteristic curve.
The standard method (see section 4.4.1) is also used for heating. Cooling is also
enabled dependent of process temperature .
Parameters to be adjusted: E.H2O: min. temperature for water cooling
( PArA / Cntr) t.on: Pulse duration water cooling
t.off: min. pause water cooling
F.H2O: adaptation of (non-linear) characteristic
Water cooling
4.4.4
Heating and cooling with constant period ( CyCl= 3 )
The adjusted cycle times t1 and t2
are met in the overall output range .
To prevent unreasonably short pulses,
parameter tp is used for adjusting
the shortest pulse duration. With small
correcting values which require a pul
-
se shorter than the value adjusted in
tp, this pulse is suppressed. Howe
-
ver, the controller stores the pulse and
totalizes further pulses, until a pulse
of duration tp can be output.
Parameters to be adjusted: t1 : Min. cycle time 1 (heating) [s]
( PArA/ Cntr) t2 : min. cycle time 2 (cooling) [s]
tp: min. pulse length [s]
Configuration level
KS50-1 cooling functions 40 KS50/52-1
0
10
20
30
40
50
60
70
-100 -95 -90 -85 -80 -75 -70 -65 -60 -55 -50 -45 -40 -35 -30 -25 -20 -15 -10 -5
Controller output [%]
Water cooling non-linear, =1F.H2O
Water cooling non-linear, =2F.H2O
Water cooling non-linear, =0,5F.H2O
Water cooling linear
Parameter:
t.on = 0.4 sec
t.off = 0.2 sec
Effective controller output
50%
50%
t1 t2/
tp
tp
30%
70%
20%
80%
10%
90%
t1 t2/