AutomationDirect SOLO SL4848-RR Manual de início rápido - Página 4
Procurar online ou descarregar pdf Manual de início rápido para Controlador de temperatura AutomationDirect SOLO SL4848-RR. AutomationDirect SOLO SL4848-RR 4 páginas.
12-8
Dual Cooling / Heating Loop with PID Control
1. Access the Initial Setup mode by pressing and holding the
Ctrl
button repeatedly until the parameter
appears. Confirm the default value
'
control. Press the
button to access the parameter
controlling a dual cooling / heating loop. This parameter sets the cooling control to output #1 and the heating
;
control to output #2. Press the
button twice to save the value and return to the controller main screen.
'
2. Press the
button to access the parameter
;
the
button to return to the controller main screen.
3. Refer to Section 12-1 of this Quick Start Guide to set up the PID control parameters.
4. If the temperature controller's output #1 is discrete, access the regulation mode again by pressing the
'
button for less than three seconds. Press the
,
.
the
and
buttons to set the time period in seconds for the cooling output. Press the
the value. If the temperature controller's output #2 is discrete, press the
hCpd
,
.
eter
appears. Use the
and
buttons to enter the cycle period for output #2, the heating output.
;
Press the
button twice to save the value and return to the controller main screen.
5. Optional regulation parameters can be programmed for additional dual
loop control. If this is desired, access the regulation mode again by
;
pressing the
button for less than three seconds. Press the
Coef
button repeatedly until the parameter
appears. This value allows
the heating control to have a different proportional setting than the cooling
loop. The cooling loop proportional band setting is multiplied by the
Coef
value to create a proportional band setting for the heating loop
,
.
control. Use the
and
buttons to change this value if desired.
;
Press the
button to save the selected value. Press the
dead
,
.
access the parameter
. Use the
and
deadband zone value around the setpoint where the output is not effected
by the proportional control value. As long as the PV remains within the
deadband zone the output is not affected by the proportional control. The
integral and derivative controls ignore the deadband setting and may
cause the output to be on within the deadband zone. Press the
twice to save the value and return to the controller main screen.
12-9
Dual Cooling / Heating Loop with ON / OFF Control
1. Access the Initial Setup mode by pressing and holding the
Ctrl
button repeatedly until the parameter
appears. Use the
;
/ OFF control and press the
button to save the selected value. Press the
s-hC
.
h2C1
eter
. Use the
button to select
the cooling control to output #1 and the heating control to output #2. Press the
value and return to the controller main screen.
'
2. Press the
button to access the parameter
;
the
button to return to the controller main screen.
;
3. Press the
button for less than three seconds to access the
hts
,
.
parameter
. Use the
and
buttons to enter hysteresis
for output #2, the heating control. This is the amount the PV must go
below the SV before the controller output turns on. Press the
'
button to save the selected value. Press the
button to access the
Cts
,
.
parameter
. Use the
and
buttons to enter hysteresis
for output #1, the cooling control. This is the amount the PV must go
above the SV before the controller output turns on. Press the
button twice to save the selected value and return to the controller
main screen.
4. Optional regulation parameters can be programmed for additional dual loop control. If this is desired, access
;
the regulation mode again by pressing the
dead
repeatedly until the parameter
appears. Use the
around the setpoint where the output is not on. The PV must go beyond the deadband range in order for either
;
the heating or cooling output to turn on. Press the
controller main screen.
12-10
Ramp / Soak Control
1. Access the Initial Setup mode by pressing and holding the
Ctrl
button repeatedly until the parameter
appears. Use the
;
Ramp / Soak control. Press the
button to save the selected value. Press the
Patn
parameter
. Eight different Ramp / Soak patterns are possible with the Solo Temperature Controller. Use
,
.
the
and
buttons to select pattern number 0 through 7 for programming. Press the
the selected value.
2. The chart below illustrates an example of a seven step Ramp / Soak pattern (Pattern 0). Press the
SP00
,
to access the parameter
. Use the
and
;
00 and press the
button to save the value. Press the
,
.
and
buttons to enter a time in hours / minutes for step 00. Follow this procedure until the desired
number of temperature and time parameters are completed. Press the
psx0
,
.
. Use the
and
buttons to select the last step to be completed by the Ramp /Soak pattern. For
psx0
4
example, if
is set to
, steps 00 through 04 will be executed in the pattern.
'
CYC0
3. Press the
button to access the parameter
of additional times the Ramp / Soak pattern will be executed. For example, if
Soak pattern will execute a total of four times. Press the
lin0
,
button to access the parameter
. Use the
off
execute after the completion of Pattern 0. If set to
;
Press the
button twice to save the selected value and return to the controller main screen.
Ramp
Soak
°
100
05.00
03.00
°
70
03.00
02.00
°
50
°
30
POS0
POS1
POS2
POS3
SP00
Step00 = 50°
SP03
Step03 = 100°
ti00
Time00 = 3 hrs 00 min.
ti03
Time03 = 3 hrs 00 min.
SP01
Step01 = 70°
SP04
Step04 = 100°
ti01
ti04
Time01 = 2 hrs 00 min.
Time04 = 8 hrs 00 min.
SP02
SP05
Step02 = 70°
Step05 = 30°
ti02
ti05
Time02 = 5 hrs 00 min.
Time05 = 5 hrs 00 min.
All manuals and user guides at all-guides.com
;
button for three seconds. Press the
Pid
is selected for PID
s-hC
.
h2C1
. Use the
button to select
r-s
run
. Verify that the default value
is selected. Press
Clpd
button repeatedly until the parameter
appears. Use
;
button to save
'
button repeatedly until the param-
dead
Dead band: dead
Output
'
band width=positive
Heating
Cooling
0
Set point
Dual loop PID control
positive deadband
'
button to
dead
buttons to enter a
Dead band: dead
Output
band width=negative
Heating
Cooling
0
;
button
Set point
Dual loop PID control
negative deadband
;
button for three seconds. Press the
,
.
onof
and
buttons to select
'
button to access the param-
for controlling a cooling / heating loop. This parameter sets
;
button twice to save the
r-s
run
. Verify that the default value
is selected. Press
dead
Dead band
hts
;
Heating hysteresis
Cooling hysteresis
ON
Heating
Cooling
OFF
Set point
;
Dual loop ON / OFF control
output operation
'
button for less than three seconds. Press the
,
.
and
buttons to enter a deadband zone value
button twice to save the selected value and return to the
;
button for three seconds. Press the
,
.
pro6
and
buttons to select
'
button to access the
;
button to save
'
.
buttons to select a setting value temperature for step
'
ti00
button to access the parameter
'
button to access the parameter
,
.
. Use the
and
buttons to select the number
CyC0
3
is set to
, the Ramp /
;
button to save the selected value. Press the
.
and
buttons to choose a Ramp / Soak pattern to
, the temperature of the last step in Pattern 0 will be held.
08.00
05.00
03.00
POS4
POS5
POS6
SP06
Step06 = 30°
ti06
Time06 = 3 hrs 00 min.
psx0
Process Step = 6
CyCO
Cycle times = 0
lin0
Link = OFF
12-11
Manual Control
'
1. Access the Initial Setup mode by pressing and holding the
button repeatedly until the parameter
for
;
manual control. Press the
button twice to save the selected value and return to the controller main screen.
'
2. Press the
button to access the parameter
)0
10)0
between
and
to control output #1 directly. If the controller has a discrete output, a value of
turns the output on 20% of the time. A value of
controlled analog output value is a percentage of the analog signal. For example, if the controller has a 4-20mA
)0
current output, a setting of
would mean that the output would be 4mA. The output would be 20mA with a
10)0
;
setting of
. Both types of manually controlled outputs are off with a value of
to save the selected value. For dual output control, press the
,
.
the
and
buttons to set a value between
button twice to save the selected value and return to the controller main screen.
13
larm Outputs
There are up to three groups of alarm outputs (ALA1, ALA2, ALA3*). Each alarm group can be programmed for
one of seventeen different alarm types. To set up the first alarm output, press the
'
Press the
button repeatedly until the parameter
value for the desired alarm type. Refer to the chart below for alarm type information. Press the
PV
save the selected value. If additional alarm outputs are required press the
* . Follow the same procedure to program these additional alarms. When the desired alarms are
ALA3
and/or
;
programmed, press the
button repeatedly until the controller returns to the main screen.
The alarm output limits are controlled by the parameters
output group chosen. After selecting the desired alarm group(s), press the
Al
h
Al
l
parameter
n
and/or
n
appears. Use the
for each group of alarm outputs selected. Press the
PV
button again to return to the controller main screen.
ALA1 and ALA2 are both SPST resistive load 3A @ 250 VAC, normally open relay outputs. ALA3 uses the same
output as output #2 and is the same type of output.
*Note: When output #2 is used, ALA3 is disabled. ALA3 is available only for single output loop control.
'
for ON
Set Value
0
Alarm function disabled
Deviation upper and lower limit:
1
This alarm output activates when the PV value is higher than the setting value
SV + ALnH or lower than the setting value SV - ALnL.
Deviation upper-limit:
2
This alarm output activates when the PV value is higher than the setting value
SV + ALnH.
Deviation lower limit:
3
This alarm output activates when the PV value is lower than the setting value
SV - ALnL.
Cts
Reverse deviation upper and lower limit:
4
This alarm output activates when the PV value is in the range of the setting value
SV+ ALnH and the setting value SV - ALnL.
Absolute value upper and lower limit:
PV
5
This alarm output activates when the PV value is higher than the setting value ALnH
or lower than the setting value ALnL.
Absolute value upper-limit:
6
This alarm output activates when the PV value is higher than the setting value ALnH
Absolute value lower limit:
7
This alarm output activates when the PV value is lower than the setting value ALnL
button
Deviation upper and lower limit with standby sequence:
This alarm output activates when the PV value reaches the set point (SV value) and
8
the reached value is higher than the setting value SV + ALnH or lower than the setting
value SV - ALnL.
Deviation upper limit with standby sequence:
9
This alarm output activates when the PV value reaches the set point (SV value) and
the reached value is higher than the setting value SV+ ALnH.
Deviation lower limit with standby sequence:
10
This alarm output activates when the PV value reaches the set point (SV value) and
the reached value is lower than the setting value SV - ALnL.
'
Hysteresis upper-limit alarm output:
for
This alarm output activates when the PV value is higher than the setting value
11
SV + ALnH. This alarm output is OFF when the PV value is lower than the setting
value SV + ALnL.
Hysteresis lower-limit alarm output:
This alarm output activates when the PV value is lower than the setting value
12
SV- ALnH. This alarm output is OFF when the PV value is higher than the setting
value SV - ALnL.
button
13
N/A
. Use the
14
This alarm activates when the Ramp / Soak program has ended.
15
This alarm activates while the program is in RAMP UP status.
16
This alarm activates while the program is in RAMP DOWN status.
17
This alarm activates while the program is in SOAK status.
18
This alarm activates while the program is in RUN status.
'
Note: ALnH includes AL1H, AL2H and AL3H. ALnL includes AL1L, AL2L and AL3L.
14
Error Display Information
The chart below shows the possible error displays on the Solo temperature controller.
Display Position
Display
Meaning
b160
PV
Initialization
Cr
PV = Firmware version
SV = Module type
SV
no
PV
Cont
No sensor input
SV
Err
PV
Inpt
Input error
SV
Err
PV
Prom
EEPROM error
SV
PV
Flashing PV
PV out of range
SV
;
button for three seconds. Press the
Ctrl
,
.
appears. Use the
and
buttons to select
out1
,
.
. Use the
and
buttons to set a value
10)0
would turn the output on 100% of the time. A manually
00
. Press the
'
button to access the parameter
)0
10)0
and
to control output #2 directly. Press the
;
button for three seconds.
ALA1
.
appears. Use the
button to choose the set
'
button to proceed to
Al
h
Al
l
n
and
n
, where "n" corresponds to the alarm
'
button repeatedly until the
.
and
,
buttons to enter the high and/or low values
;
button to save each selected value. Press the
Alarm Type
Alarm Output Operation
Output is OFF
ON
OFF
SV - ALnL
ON
OFF
ON
OFF
SV - ALnL
ON
OFF
SV - ALnL
ON
OFF
ON
OFF
ON
OFF
ON
OFF
SV - ALnL
ON
OFF
ON
OFF
SV - ALnL
ON
OFF
SV
ON
OFF
SV - ALnH
Ramp / Soak Program Alarms
Controller Error Display
Cause
Corrective Action
The Solo controller displays this information for a few sec-
The controller is in
onds after power up. If the controller continues
the initialization
displaying this information, check the input wiring. If the
process.
problem still exists, replace the sensor or the controller.
Check the input wiring. If the problem still exists, replace the
The input terminals
are open.
sensor or the controller.
Check the sensor and the input wiring. If the problem still
The controller cannot
read the input value
exists, replace the sensor or the controller.
Cycle the power to the Solo controller. If the problem still
There is an error with
the EEPROM
exists, replace the controller.
Check the PV range. The parameters
The PV is out of
define the range. Refer to section 12-1, 12-2 or 12-3 for
range
directions on how to access these parameters.
'
manu
for
2)0
;
button
out2
. Use
;
;
button to
ALA2
;
SV
SV + ALnH
SV
SV+ALnH
SV
SV
SV + ALnH
ALnL
ALnH
ALnH
ALnL
SV
SV + ALnH
SV
SV + ALnH
SV
SV + ALnL
SV + ALnH
SV - ALnL
SV
tp-h
tp-l
and