Owner sequence of operation, Occupied sequence of operation – Trane IntelliPak SCWG 020 User Manual

SCXG-SVX01B-EN

93

Owner

Sequence of
Operation

Occupied Sequence Of
Operation

All setpoints can be adjusted using the HI
panel. Also, cooling/heating setpoints can
be adjusted in the zone, if using one of the
zone sensor options (BAYSENS020,
BAYSENS021, BAYSENS008,
BAYSENS010, BAYSENS019, or
BAYSENS014). For a complete list of unit
setpoint default values and ranges, see
the

IntelliPak

®

Self-Contained

Programming Guide, PKG-SVP01B-EN.

Occupied Zone Temperature - Cooling
The unit transitions from unoccupied to
occupied when the occupied/unoccupied
input on the RTM is open for more than
five seconds after having been closed.
This input can be received from Tracer
Summit

®

, the remote NSB zone sensor,

the timed override function, or a field
supplied contact. Dependent on unit
options and the HI programming, the
following sequence will occur:
• The unit will begin MWU and then

switch to the occupied mode after the
MWU setpoint is met.

• Purge will be enabled by Tracer

Summit

®

. Then Tracer Summit

®

will

enable the occupied mode.

• The unit will switch from unoccupied to

occupied control immediately.

Upon entering occupied mode, the IGV
option will close while the supply fan
remains on. The occupied/unoccupied
relay will de-energize.

Zone Temperature Control

Unit Model Number Digit 9 = 4 or 5
A zone sensor located directly in the
space sends input to the RTM while the
CV unit is in occupied cooling mode.
When the unit is in occupied cooling, the
RTM controls the zone temperature
within the cooling setpoint deadband by
modulating the economizer option and/or
staging mechanical cooling on and off as
required.

Supply Air Temperature Control

Unit Model Number Digit 9 = 1, 2, 3, or 6
When the unit is in occupied cooling, the
RTM controls the supply air temperature
to the specified supply air cooling setpoint

by modulating the economizer option
and/or staging mechanical cooling on and
off as required. The changeover relay
contacts (field supplied) must be open on
units with hydronic heat for cooling to
operate.

Cooling
Upon entering occupied mode, the RTM
receives an input from either the HI, RHI,
Tracer Summit

®

, or the GBAS to start the

supply fan. The RTM supply fan contacts
close and energize the supply fan
contactor. On units with IGV, the fan
delays until the IGV fully close. When the
supply fan starts, the fan proving switch
closes, signaling the RTM that airflow is
established. Depending on unit options,
either the IGV will begin to drive open or
the VFD will ramp the fan, and/or the
airside economizer dampers will open to
the user-defined minimum position.

When a cooling request is sent to the
RTM from the zone sensor, the RTM
evaluates the system operating condi-
tions using the supply air and outdoor
temperature input before sending the
request to the MCM for mechanical
cooling. If outdoor conditions (tempera-
ture and humidity) are suitable or the
EWT is within specified setpoints, the
RTM will attempt to use “free cooling”
without using any compressors. The RTM
will use either the airside or waterside
economizer option. When outdoor air
conditions are not suitable, only mechani-
cal cooling will function and outside air
dampers will remain at their minimum
position. If the unit does not have an
economizer, mechanical cooling will
operate to satisfy cooling requirements.

Units With Economizer
If the entering condenser water
temperature (units with a WSE) or the
outside air enthalpy (units with an ASE) is
appropriate to use “free cooling,” the
economizer will attempt to satisfy the
cooling zone temperature setpoint.

Note: When using an ASE with econo-
mizer enabled, O/A temperature enable
can be used instead of comparative
enthalpy if the O/A temperature falls below
the economizer setpoint.

Then compressors will stage on as
necessary to maintain supply air tem-

perature setpoint, which is user-defined
at the HI. Minimum on/off timing of
compressors prevents rapid cycling.

When both airside and waterside
economizers are on a single unit, priority
must be set at the HI. The economizer
with the highest priority attempts cooling
first. Once it is operating at its maximum,
and if additional cooling is necessary, the
other economizer enables before
mechanical cooling begins.

Cooling/Waterside Economizer
Waterside economizing enables when
the unit’s entering water temperature is
below the unit’s entering mixed air
temperature by 4 F plus the user
adjustable economizer approach
temperature. The approach temperature
default is 4 F.

Waterside economizing disables when
the unit’s entering water temperature is
not below the unit’s entering mixed air
temperature by at least the water
economizer approach temperature
(default value of 4 F). The economizer
acts as the first stage of cooling. If the
economizer is unable to maintain the
zone or supply air temperature setpoint,
the compressor module will bring on
compressors as required to meet the
setpoint.

Cooling/Airside Economizer
On units with an airside economizer, a call
for cooling will modulate the fresh air
dampers open. The rate of economizer
modulation is based on deviation of the
zone temperature from setpoint; i.e., the
further away from setpoint, the faster the
fresh air damper will open. The first stage
of cooling will start after the economizer
reaches full open.

Note: The airside economizer will only
function freely if ambient conditions are
below the enthalpy control settings or
below the return air enthalpy if unit has
comparative enthalpy installed. If outside
air is not suitable for “economizing,” the
fresh air dampers drive to the minimum
open position. A field adjustable, factory
default setting at the HI panel or Tracer
Summit

®

can provide the input to establish

the minimum damper position.

When outdoor air conditions are above
the setpoint or comparative enthalpy