74
Sequence of Operation
— The MBB monitors the space tem-
perature input together with the unit configurations to make a
determination of Control Point Run Status
VIEW
CTPT.
The control will call for a low cool set point, Setpoints
COOL
CSP.1 (Cooling Setpoint 1) or high cool set point
Setpoints
COOL
CSP.2 (Cooling Setpoint 2) depending on
the difference between the Space Temperature (Run Status
VIEW
SPT) and the space temperature set point (Set-
points
COOL
SPS.P). CSP.1 should be greater than CSP.2.
CSP.1 or CSP.2 will be used as the basis for the Active Set
Point (Run Status
VIEW
SETP) based on the configura-
tion settings, Low Cool On Set Point (Setpoints
COOL
L.C.ON), High Cool On Set Point (Set-
points
COOL
H.C.ON), and Low Cool Off Set Point (Set-
points
COOL
L.C.OF) to determine the control point.
If the Space Temperature rises above the SPS.P + L.C.ON,
the system will start with CSP.1 as the Control Point. Space
Temperature Control Mode (Run Status
VIEW
SPT.M)
will indicate 1 (Lo Cool). As long as the Space Temperature
does not rise above SPS.P + L.C.ON + H.C.ON, the unit will
continue to supply conditioned air with CSP.1 as the Control
Point until the Space Temperature falls below SPS.P + L.C.ON
– L.C.OF. If the Space Temperature falls below SPS.P +
L.C.ON – L.C.OF, mechanical cooling will cease. Space Tem-
perature Control Mode, SPT.M will indicate 0 (Cool Off). If
the Space Temperature rises above SPS.P + L.C.ON +
H.C.ON, the unit will change the Control Point to CSP.2.
Space Temperature Control Mode, SPT.M will indicate 2 (Hi
Cool). CSP.2 will remain the Control Point until the Space
Temperature falls below SPS.P + L.C.ON – (L.C.OF/2) at
which time the Control Point will change to CSP.1. CSP.1 will
remain the Control Point until the Space Temperature falls be-
low SPS.P + L.C.ON – L.C.OF. Space Temperature Control
Mode, SPT.M will indicate 0 (Cool Off).
The following example illustrates this control scheme.
Given:
SPS.P = 72 F,
L.C.ON = 1,
H.C.ON = 3,
L.C.OF = 2 F,
CSP.1 = 60 F,
CSP.2 = 55 F
If Space Temperature equals 73 F (SPS.P + L.C.ON [Low
Cool On]) cooling will begin and the Control Point equals 60 F
(CSP.1). As long as Space Temperature does not exceed the
High Cool On setting (SPS.P
+
L.C.ON + H.C.ON), CSP.1
will remain the Control Point until the Space Temperature falls
below 71 F (SPS.P + L.C.ON – L.C.OF [Low Cool Off])
when mechanical cooling will cease.
If space temperature rises above 76 F (SPS.P + L.C.ON +
H.C.ON [High Cool On]), control point set point changes to
55 F (CSP.2). CSP.2 will remain the Control Point until the
Space Temperature falls below 72 F (SPS.P + L.C.ON –
L.C.OF/2 [High Cool Off]), control point transitions back to
60 F (CSP.1). If space continues to fall below 71 F (SPS.P +
L.C.ON – L.C.OF [Low Cool Off]), the unit is shut off.
Figure 84 summarizes this example.
68.0 69.0 70.0 71.0 72.0 73.0 74.0 75.0 76.0 77.0
CSP.1
CSP.2
L.C.ON
L.C.OF/2
L.C.OF
SPS.P
L.C.ON
Low Cool On
High Cool On
High Cool Off
Low Cool Off
°F
Fig. 84 — C-TYP=5, Space Temperature Control Example
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