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The advantage
of this offset technique is that the control can
safely enforce a vent mode without worrying about crossing set
points.
Even
more
importantly,
under
CCN
linkage,
the
occupied
heating
set point may drift up and down and this
method ensures a guaranteed
separation
in degrees Fahrenheit
between
the calling out of a heating
or cooling mode at all
times.
NOTE: There is a sub-menu
at the local display (Run Status
--+TRIP) that allows the user to see the exact trip points for
both the heating
and cooling modes without having to calcu-
late them. Refer to the Cooling Mode Diagnostic
Help section
on page 46 for more information.
To enter into a VAV Occupied
Cool mode, the controlling
temperature
must
rise above
[OHSP
minus
L.H.ON
plus
L.H.OF
plus V.C ONJ.
To exit out of a VAV Occupied Cool Mode, the controlling
temperature
must
fall below
[OHSP
minus
L.H.ON
plus
L.H.OFplus
V.CONminus
V.COF].
NOTE: With vent mode, it is possible to exit out of a cooling
mode during the occupied period if the return-air
temperature
drops low enough.
When supply-air
temperature
reset is not
configured,
this capability
will work to prevent over-cooling
the space during the occupied period.
,5'z_ply Air bet Point (_ntlvl
and the Staging of (_mpressom
-- Once the control has determined
that a cooling mode is in
effect,
the
cooling
control
point
(Run
Status--+VIEW
_(Z.C.P)
is calculated
and is based upon the supply air set
point
(Setpoints-+SASP)
plus
any
supply
air reset
being
applied (Inputs--_RSET--_SA.S.R).
Refer to the SumZ Cooling Algorithm
section on page 46
for a discussion
of how the A Series (_nfortLink
TM
controls
manage
the staging
of compressors
to maintain
supply-air
temperature.
VAV Cool
Mode
Selection
during
the Unoccupied
Period
(C.TYP
= 1,2;
Operating
Modes--_MODE_OCC=OFF)
and Space Sensor Cool Mode Selection (4:TYP=-5 and 6) --
The machine
control types that use this type of mode selection
are:
•
C TYP = 1 (VAV-RAT) in the unoccupied
period
•
C.TYP
= 2 (VAV-SPT) in the unoccupied
period
•
C.TYP
= 5 (SPT-MULTI)
in both
the occupied
and
unoccupied
period
•
C TYP
= 6 (SPT-2
STG)
in both
the occupied
and
unoccupied
period
These particular
control types operate
differently
than the
VAV types in the occupied
mode in that there is both a LOW
COOL and a HIGH COOL mode. For both of these modes, the
control offers two independent
set points, Seq_oints-+SA.LO
(for LOW
COOL mode)
and Setpoints--_SA.HI
(for HIGH
COOL mode). The occupied and unoccupied
cooling set points
can be found under Setpoints.
ITEM
EXPANSION
RANGE
UNITS
CCN
DEFAULT
POINT
OCSP
Occupied
55-80
dF
OCSP
75
Cool Setpoint
UCSP
Unoccupied
75-95
dF
UCSP
90
Cool Setpoint
The heat!cool set point offsets are found under Confignra-
tion--_D.LV.T.
See Table 48.
Operating modes are under Operating Modes--_MODE.
ITEM
EXPANSION
[RANGE[
CCN POINT
MODE
MODES CONTROLLING
UNIT
OCC
Currently Occupied
ON/OFF
I MODEOCCP
T.C.ST
Temp.Compensated
Start
ON/OFF
[MODETCST
(_ol Mode Evaluation Logic -- The first thing the control
determines is whether the unit is in the occupied mode (O4_)
or is in the temperature
compensated
start mode (T.CST).
If
the unit is occupied or in temperature
compensated
start mode,
the occupied
cooling set point (OCSP)
is used. For all other
modes, the unoccupied
cooling set point (UCSP)
is used. For
further discussion
and simplification
this will be referred to as
the "cooling set point." See Fig. 8.
Demand
Level Low (_ol
()n ()ff;'et (L.CON)
--
This is the
cooling set point offset added to the cooling set point at which
point a Low Cool mode starts.
Demand
Level High (_ol
On Off;'et (H.CON)
-- This is the
cooling set point offset added to the "cooling
set point plus
L.CON"
at which point a High Cool mode begins.
Demand
Level Low (_ol
Off Off;'et (L.C.OF)
--
This is the
cooling set point offset subtracted
from "cooling
set point plus
L.CON"
at which point a Low Cool mode ends.
NOTE: The "high cool end" trip point uses the "low cool off'
(L.C.OF)
offset divided by 2.
To enter into a LOW COOL mode, the controlling
tempera-
ture must rise above the cooling set point plus L.CON.
To enter into a HIGH COOL mode, the controlling
temper-
ature must rise above the cooling set point plus L.C.ON
plus
H.CON.
To exit out of a LOW COOL mode, the controlling
temper-
ature must fall below the cooling set point plus L. CON minus
L.COF.
To exit out of a HIGH COOL mode, the controlling temper-
ature must fall below the cooling set point plus L. CON minus
L. C OF/2.
(_nfort
Trending --
In addition
to the set points and offsets
which determine
the trip points for bringing on and bringing
off cool modes, there are 2 configurations
which work to hold
off the transitioning
from a low cool to a high cool mode if the
space
is cooling
down
quickly
enough.
This
method
is
referred to as Comfort Trending.
The comfort trending config-
urations are C T.LV and C T. TM.
(_ol
Trend Demand
Level (CT.LV)
-- This is the change in
demand
that must occur within the time period specified
by
C.T.TM
in order to hold off a HIGH COOL mode regardless
of demand.
This
is not applicable
to VAV control
types
(C TYP=-I and 2) in the occupied period. As long as a LOW
COOL mode is making progress in cooling the space, the con-
trol will hold off on the HIGH COOL mode. This is especially
true for the space sensor machine
control types (C TYP = 5
and 6), because
they may transition
into the occupied
mode
and see an ilrnnediate
large cooling
demand
when
the set
points change.
(_ol
Trend Time (CT.TM)
--
This is the time period
upon
which the cool trend demand level (CT.LV)
operates and may
hold offstaging
or a HIGH COOL mode. This is not applicable
to VAV control types (C TYP=-I and 2) in the occupied period.
See the Cool Trend Demand Level section for more details.
Hi Cool Start
Lo Cool Start
L.C. OF [L.C.
OF/2_'r
_
_HiCoo'End
--
Lo Cool End
Cooling Setpoint (OCSP, U CSP)
Fig. 8-
Cool Mode Evaluation
41
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