Auber SYL-2342 Gebrauchsanweisung - Seite 6
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AUBER INSTRUMENTS
alarm, and not show the alarm type in the lower display window, set A = 1, B =
0, C = 0, D = 0, and E = 1. Parameter "AL-P" should be configured to:
AL-P = 1X1 + 0X2 + 0X4 + 0X8 + 1X16 = 17 (this is the factory default
setting)
Note: Unlike controllers that can be set to only one alarm type (either absolute
or deviation but not both at same time), this controller allows both alarm types
to function simultaneously. If you only want one alarm type to function, set the
other alarm type parameters to maximum or minimum (ALM1, Hy-1 and Hy-2
to 9999, ALM2 to –1999) to stop its function.
4.14 "COOL" for Celsius, Fahrenheit, Heating, and Cooling Selection
Parameter "COOL" is used to set the display unit, heating or cooling, and alarm
suppression. Its value is determined by the following formula:
COOL = AX1 + BX2 + CX8
A = 0, reverse action control mode for heating control.
A = 1, direct action control mode for cooling control.
B = 0, without alarm suppressing at powering up.
B = 1, alarm suppressing at powering up.
C = 0, display unit in ºC.
C = 1, display unit in ºF.
The factory setting is A = 0, B = 1, C = 1 (heating, with alarm suppression,
display in Fahrenheit). Therefore,
COOL = 0X1 + 1X2 + 1X8 = 10
To change from Fahrenheit to Celsius display, set COOL = 2.
4.15 Input digital filter "FILt"
If measurement input fluctuates due to noise, then a digital filter can be used to
smooth the input. "FILt" may be configured in the range of 0 to 20. Stronger
filtering increases the stability of the readout display, but causes more delay in
the response to change in temperature. FILt = 0 disables the filter.
4.16 Manual and Automatic Control Mode Selection "A-M"
Parameter A-M is for selecting which control mode to use, the manual control
mode or the automatic PID control mode. In manual control mode user can
manually change the percentage of power to be sent to the load while in
automatic PID control mode the controller decides how much percentage of
power will be sent to the load.
Please note that this parameter does not apply to situations where the
controller is set to work in on/off mode (i.e., At = 0) or when the controller is
performing auto-tuning (i.e., At = 2 or At = 1 and the auto-tune has started).
During auto-tuning, the controller is actually working in on/off mode).
A-M = 0, manual control mode. User can manually adjust the percentage of
power output. User can switch from manual control mode to PID control mode.
A-M = 1, PID control mode. Controller decides the percentage of power output.
User can switch from PID mode to manual mode.
A-M = 2, PID control mode only (switching to manual mode is prohibited).
Please see Figure 3 for how to switch from automatic control mode to manual
control mode or vice versa.
4.17 Lock up the settings, field parameter "EP" and parameter "LocK"
To prevent the operator from changing the settings by accident, you can lock
the parameter settings after initial setup. You can select which parameter can
be viewed or changed by assigning one of the field parameters to it. Up to 8
parameters can be assigned into field parameter EP1-EP8. The field parameter
can be set to any parameter listed in Table 2, except parameter EP itself.
When LocK is set to 0, 1, 2, and so on, only parameters or setting values of
program defined in an EP can be displayed. This function can speed up
parameter modification and prevent critical parameters (like input, output
parameters) from being modified.
2016.05
If the number of field parameters is less than 8, then define the first unused
parameter as none. For example, if only ALM1 and ALM2 need to be modified
by field operators, the parameter EP can be set as following:
LocK = 0, EP1 = ALM1, EP2 = ALM2, EP3 = nonE.
In this case, the controller will ignore the field parameters from EP4 to EP8. If
field parameters are not needed after the instrument is initially adjusted, simply
set EP1 to nonE.
Lock code 0, 1 and 2 will give the operator limited privileges to change some of
the parameters that can be viewed. Table 5 shows the privileges associated
with each lock code.
Table 5. LocK parameter.
LocK value
SV Adjustment
0
Yes
1
Yes
2
No
3 and up
No
808
Note: to limit the control temperature range instead of completely locking it,
please refer to section 4.9.
5. Wiring examples
5.1 Controlling the load directly with internal relay
Figure 6. SYL-2342 or SYL-2342P control the heater directly by the internal
relay of the controller. The heater must consume less current than the internal
relay's maximum rating (7A at 240VAC and 10A at 120VAC).
5.2 Controlling the load via external contactor
N
120VAC
120VAC
buzzer
buzzer
120VAC
L
1
13
14
6
2
7
3
8
SYL-2342
+
4
9
-
5
10
TC
Figure 7. SYL-2342 or SYL-2342P with thermocouple input and external relay
output. This is a typical wiring for oven and kiln.
Using the external contactor allows users to control higher power loads than
the internal relay can handle. It is also easy to service. If the contacts of the
relay wear out, it is more economical to replace them than to repair the
controller. In this example, we assume the coil voltage of the contactor is the
same as the voltage of the controller power supply. The voltage of power
supply for alarm is 120V AC. Note: You don't have to wire or set the alarm
to control the temperature. It is just to show how the alarm can be wired.
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EP1-8 Adjustment
Other parameters
Yes
Locked
No
Locked
Yes
Locked
No
Locked
Unlocked
Fuse
L
N
120VAC
P6/8