10
Output of
when in PID control mode (Ctrl=PID):
When the controller is in PID control and dual loop output mode,
sets the P value of the 2nd set of PID. The 1st set of PID
is generated when TUNE= AT, but user can also manually sets the PID value. The P value of th 2nd set of PID = the P value of 1st
set of PID x
. The I and D value of the 2nd set of PID remains the same as the 1st set of PID.
SV Control Mode Setting
There are 4 methods for setting SV of the temperature setting; they are
Fixed
,
Slope
,
Program
and
Remote
.
Fixed SV Mode:
controls the temperature to directly rise to a fixed setting value
Set parameter
to
in
【
Initial Setting Mode
】
Set the target temperature: set SV value by a parameter in
【
Operation Mode
】
Slope SV Mode:
Control temperature rises at a slope (unit:
℃
/min.) to a fixed value, i.e., the temperature can be set to rise in a
set slope (unit:
℃
/min.). E.G., Set a slope of 0.5 and set SV to 200.0
℃
; this means the temperature rises 0.5
℃
every minute from
Room Temperature up to 200.0
℃
.
Set parameter
to
in
【
Initial Setting Mode
】
Set rising slope (unit:
℃
/min. or
℃
/s): set rising slope by parameter
in
【
Regulation Mode
】
Set target temperature: set SV value by a parameter in
【
Operation Mode
】
Set unit for rising slope (unit:
℃
/min. or
℃
/s): for parameter
in
【
Initial Setting Mode
】
, set the corresponding Y
position value to xxYx (Y can be 0 or 1; Y= 0:
℃
/min.; Y=1:
℃
/s).
Program SV mode:
This means the temperature setting value is not a fixed value but a setting curve defined by the user
according to his-her requirements. By way of PID control, the temperature input rises along with the defined temperature curve. As
to how to input the temperature setting curve, the machine provides 16 patterns with 16 steps each, together with a linking
parameter, a loop parameter, and a number of executions. Each step has 2 parameters (temperature setting value and time). If the
initial step has a time parameter set to 0, temperature will rise from room temperature at the initial slope up to the target
temperature. After setting these parameters, each temperature controller will have its own set of initial pattern and initial step for
creating its own temperature setting curve. Some of the terms are explained as follows:
a
、
Initial pattern: set the program to start running at a sequential number of patterns
b
、
Initial Step: set the program to start running at a sequential number of steps
c
、
Initial Slope: If the time setting of the initial step of the initial pattern is set to 0, an initial slope shall be set to allow the
temperature to rise from room temperature to the setting value.
d
、
Step: includes 2 parameter settings: a setting point X and an executing time T, representing the setting value (SV) to rise
to X after time T. If the setting point X is identical to the previous setting, this process is called a Soak, otherwise a Ramp,
therefore this control procedure is also called a Ramp Soak control. The first running procedure is preset as a Soak
control, to set the temperature control to setting point X in advance and maintain the temperature at X, at a duration of T.
e
、
Link Parameter: the number of the subsequent pattern to be linked after executing this pattern. If set to END, the program
mode will end but maintain the last setting value; if set to STOP, all the program controls will end with the output switched
off.
f
、
Number of loops: Number of extra loops to be carried out for the pattern. If set to 1, the pattern will be carried out 2 times.
g
、
Executing step: Number of steps executed for each pattern.
h
、
Wait time, wait temperature: After reaching the program temperature value, a wait time and wait temperature can be set; if
the current temperature is not within the range of (temperature setting value ± wait temperature), the set wait time will start
to count down until the currently measured temperature reaches the range of (temperature setting value ± wait
temperature) of each step before proceeding to the subsequent step. An alarm will be issued if the range of (temperature
setting value ± wait temperature) is not reached when the count down reaches 0.
i
、
Execution:
If the setting control is in running mode, the program will start running from the initial pattern and initial step, and carry out
commands one by one.
When the setting control is in end mode, the program will stop running and give out an output disable.
When setting control is in stop control and temperature is controlled at the setting value before the stop, by re-selecting
Heating
Cooling
Set Point
Set Point
Heating
Cooling