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Xw
0
O
P= 100
Xw (%)
Xp
O
(%)
P x v
d
100
Xw (%)
P=
Xp
Fig. 11. Step change responses of proportional,
P+I, and P+I+D controls.
Start Point: O
(P.15)
start
O
determines the output O1 midrange shift from the
start
calculated control point.
R7426A,B,C
O
is available on the single output R7426A and the
start
R7426B when the three floating outputs are configured for
6-stage On/Off sequence control.
Calibrate O
in degrees Fahrenheit. It is equal to the offset
start
(plus or minus) from the set values or calculated control points
at which O1 is at 50 percent.
NOTE: In P+l control, the start point should be set at zero.
R7426D
Calibrate O
in percent. It represents deviation from the
start
control point.
In humidification and dehumidification control, O
decreased by 50 percent of the throttling range (Xp1).
EXAMPLE:
• Set OCTRF to 1 for reverse control behavior.
• Set Xp1 at 6 percent.
• Set O
at -3 percent.
start
With these settings:
— If the actual humidity value is equal to the calculated
control point CTRP1 (zero deviation), the humidifier
valve will be fully closed.
— At 6 percent rh below CTRP1 the valve is fully open.
— At 6 percent rh above CTRP1, the controller provides
an output signal of +1200 mV (100 percent) to fully
open the cooling valve for dehumidification.
NOTE: Always set O
to the value for proportional
start
control.
Occupied/Unoccupied Function: SOFFS (P.16)
A potential free contact can be used between terminals 1 and
4 to switch between occupied (contact closed) and
unoccupied (contact open) modes.
R7426A,B,C,D TEMPERATURE AND UNIVERSAL INPUT CONTROLLERS
PROPORTIONAL CONTROL
TIME
P + I CONTROL
P
(%/S)
tr
P
TIME
tr
P + I + D CONTROL
P
(%/S)
tr
P
TIME
td
tr
M17453
must be
start
Control point calculation:
• Occupied mode: Use temperature setpoint (W1).
• Unoccupied mode: SOFFS parameter value is added to
(cooling) or subtracted from (heating) the calculated control
point.
• Heating and cooling sequence applications: SOFFS value
is added to the control point for cooling (CTRPC) and
subtracted from the control point for heating (CTRPH). See
Fig. 12.
IMPORTANT
Set the R7426A parameter Dir/RevO1 to Dir or Rev
to match the required heating or cooling application.
If parameter Dir/RevO1 is set to Cho (summer/winter
changeover), parameter SOFFS is ignored.
O(%)
100
Fig. 12. Sequence control occupied/unoccupied function.
For control point calculation and reference to applications, see
Table 15. Using the table, you can construct the equation to
use for calculating the proper control point.
EXAMPLE:To calculate CNTRPC for temperature cascade
sequence, use Table 15 to construct the formula:
CNTRPC
=
W
+
cas
Table 15. Control Point Reference and Calculation
W1
+
XOFFS
+
CPA
+
OAT
+
comp
W
cas
SOFFS
R
/100 x
cas
(Omaster+50)
XP1 / 2
XP2 / 2
a
Control with Heating, Mixed Air Dampers, or Energy
Recovery and Cooling
15
UNOCCUPIED
OCCUPIED
OFFS
OFFS
XpH
XpC
CTRPH
CTRP1
M17454
R
cas
×
(
----------
OFFS
–
Y
+
50
master
100
Temperature
Temperature
a
Sequence
Sequence
+
+
+
+
+
+
+
+
+
+
+
+
+
-
-
-
+
-
T
XP2
)
---------- -
+
2
Cascade
a
+
+
+
-
-
-
+
-
63-2565
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