48HC
Single Package Rooftop
Gas Heating/Electric Cooling Unit
with Puronr (R---410A) Refrigerant
Sizes: 17, 20, 24, 28
Installation Instructions
NOTE: Read the entire instruction manual before starting
the installation
TABLE OF CONTENTS
SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . . . 2
Units without Thru-Base Connections . . . . . . . . . 22
Field Control Wiring . . . . . . . . . . . . . . . . . . . . . . . 22
Thermostat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Unit without Thru-Base Conversion Kit . . . . . . . 22
Heat Anticipator Settings . . . . . . . . . . . . . . . . . . . 23
INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Jobsite Survey . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Step 1 - Plan for Unit Location . . . . . . . . . . . . . . . . . . 9
Roof Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Step 2 - Plan for Sequence of Unit Installation . . . . . 10
Curb-Mount Installation . . . . . . . . . . . . . . . . . . . . 10
Pad-Mount Installation . . . . . . . . . . . . . . . . . . . . . 10
Frame-Mount Installation . . . . . . . . . . . . . . . . . . . 10
Step 3 - Inspect Unit . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Step 4 - Provide Unit Support . . . . . . . . . . . . . . . . . . 10
Roof Curb Mount . . . . . . . . . . . . . . . . . . . . . . . . . 10
Slab Mount (Horizontal Units Only) . . . . . . . . . . 10
Transformer Connection
for 208-v Power Supply . . . . . . . . . . . . . . . . . . . . . 23
Humidi-MiZerR Control Connections . . . . . . . . . . 24
Humidi-MiZer - Space RH Controller . . . . . . . . 24
PremierLinkt (Factory Option) . . . . . . . . . . . . . . . 26
Supply Air Temperature (SAT) Sensor . . . . . . . . . 29
Outdoor Air Temperature (OAT) Sensor . . . . . . . 29
EconoMi$er2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Field Connections . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Space Sensors . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Connect Thermostat . . . . . . . . . . . . . . . . . . . . . . . 31
Configure the Unit for Thermostat Mode . . . . . . 31
Economizer Controls . . . . . . . . . . . . . . . . . . . . . . . . 32
Indoor Air Quality (CO2) Sensor . . . . . . . . . . . . . 32
Outdoor Air Quality Sensor . . . . . . . . . . . . . . . . . 32
Alternate Unit Support
(In Lieu of Curb or Slab Mount) . . . . . . . . . . . . . 10
Step 5 - Field Fabricate Ductwork . . . . . . . . . . . . . . . 14
Step 6 - Rig and Place Unit . . . . . . . . . . . . . . . . . . . . 14
Positioning on Curb . . . . . . . . . . . . . . . . . . . . . . . 15
Step 7 - Horizontal Duct Connection . . . . . . . . . . . . 15
Step 8 - Install Outside Air Hood — Factory Option . . 15
Step 9 - Install Flue Hood and Combustion Air Hood . . 16
Step 10 - Install Gas Piping . . . . . . . . . . . . . . . . . . . . 16
Gas Supply Line . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Factory-Option Thru-Base Connections . . . . . . . 18
Step 11 - Install External Condensate Trap and Line . . 19
Step 12 - Make Electrical Connections . . . . . . . . . . . 19
Field Power Supply . . . . . . . . . . . . . . . . . . . . . . . . 19
Units without Factory-Installed Disconnect . . . . 20
Units with Factory-Installed Disconnect . . . . . . . 20
All Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Convenience Outlets . . . . . . . . . . . . . . . . . . . . . . . 20
Factory-Option Thru-Base Connections . . . . . . 22
Space Relative Humidity Sensor or
Humidistat Connections . . . . . . . . . . . . . . . . . . . . 33
Smoke Detector/Fire Shutdown (FSD) . . . . . . . . . 34
Filter Status Switch . . . . . . . . . . . . . . . . . . . . . . . . 34
Supply Fan Status Switch . . . . . . . . . . . . . . . . . . . 34
Remote Occupied Switch . . . . . . . . . . . . . . . . . . . 34
Power Exhaust (output) . . . . . . . . . . . . . . . . . . . . . 34
CCN Communication Bus . . . . . . . . . . . . . . . . . . 35
RTU Open Control System . . . . . . . . . . . . . . . . . . . 36
Supply Air Temperature (SAT) Sensor . . . . . . . . . 39
Outdoor Air Temperature (OAT) Sensor . . . . . . . 39
EconoMi$er2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
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C10896
Fig. 1 - Unit Dimensional Drawing – 17 Size Unit
3
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C10897
Fig. 1 - Unit Dimensional Drawing – 17 Size Unit (cont.)
4
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C10892
Fig. 2 - Unit Dimensional Drawing – 20 and 24 Size Units
5
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C10893
Fig. 2 - Unit Dimensional Drawing – 20 and 24 Size Units (cont.)
6
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C10900
Fig. 3 - Unit Dimensional Drawing – 28 Size Unit
7
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C10901
Fig. 3 - Unit Dimensional Drawing – 28 Size Unit (cont.)
8
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INSTALLATION
Jobsite Survey
Be sure that the unit is installed such that snow will not
block the combustion air intake or flute outlet.
Complete the following checks before installation.
Unit may be installed directly on wood flooring or on Class
A, B, or C roof-covering material when roof curb is used.
1. Consult local building codes and the NEC (National
Electrical Code) ANSI/NFPA 70 for special installa-
tion requirements.
2. Determine unit location (from project plans) or select
unit location.
Do not install unit in an indoor location. Do not locate air
inlets near exhaust vents or other sources of contaminated
air. For proper unit operation, adequate combustion and
ventilation air must be provided in accordance with
Section 5.3 (Air for Combustion and Ventilation) of the
National Fuel Gas Code, ANSI Z223.1 (American
National Standards Institute) and NFPA (National Fire
Protection Association) 54 TIA- -54- -84- -1. In Canada,
installation must be in accordance with the CAN1- -B149
installation codes for gas burning appliances.
3. Check for possible overhead obstructions which may
interfere with unit lifting or rigging.
Step 1 — Plan for Unit Location
Select a location for the unit and its support system (curb
or other) that provides for the minimum clearances
required for safety. This includes the clearance to
combustible surfaces, unit performance and service access
below, around and above unit as specified in unit
drawings. See Fig. 4.
Although unit is weatherproof, avoid locations that permit
water from higher level runoff and overhangs to fall onto
the unit.
NOTE: Consider also the effect of adjacent units.
Locate mechanical draft system flue assembly at least 4 ft
(1.2 m) from any opening through which combustion
products could enter the building, and at least 4 ft (1.2 m)
from any adjacent building (or per local code). Locate the
flue assembly at least 10 ft (3.05 m) from an adjacent
unit’s fresh air intake hood if within 3 ft (0.91 m) of same
elevation (or per local code). When unit is located
adjacent to public walkways, flue assembly must be at
least 7 ft (2.1 m) above grade.
96” (2438)
36” (914)
42” (1067)
Select a unit mounting system that provides adequate
height to allow installation of condensate trap per
requirements. Refer to Step 11 — Install External
Condensate Trap and Line – for required trap dimensions.
42” (1067)
36” (914)
Roof Mount —
Check building codes for weight distribution
requirements. Unit operating weight is shown in Table 1.
C10638
Fig. 4 - Service Clearance Dimensional Drawing
Table 1 – Operating Weights
UNIT LB (KG)
48HC**
17
20
24
28
Base Unit
1892 (858)
245 (111)
32 (15)
2102 (954)
245 (111)
32 (15)
2247 (1019)
245 (111)
32 (15)
2292 (1040)
245 (111)
32 (15)
Economizer
Powered Outlet
R
83 (38)
83 (38)
88 (40)
92 (42)
H u m i d i --- Mi Z e r System
Curb
14---in/356 mm
24---in/610 mm
273 (124)
350 (159)
273 (124)
350 (159)
273 (124)
350 (159)
273 (124)
350 (159)
9
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NOTE: The gasketing of the unit to the roof curb is critical
for a watertight seal. Install gasket supplied with the roof
curb as shown in Figs. 6, 7 and 8. Improperly applied gasket
can also result in air leaks and poor unit performance.
Step 2 — Plan for Sequence of Unit Installation
The support method used for this unit will dictate different
sequences for the steps of unit installation. For example, on
curb-mounted units, some accessories must be installed on
the unit before the unit is placed on the curb. Review the
following for recommended sequences for installation steps.
Curb should be level. This is necessary for unit drain to
function properly. Unit leveling tolerances are show in
Fig. 9. Refer to Accessory Roof Curb Installation
Instructions for additional information as required.
Curb-mounted installation —
Install curb
Install insulation, cant strips, roofing felt, and counter
flashing as shown. Ductwork must be attached to curb and
not to the unit. Thru-the-base power connection must be
installed before the unit is set on the roof curb. If
field-installed thru-the-roof curb gas connections are
desired remove knockout in basepan located in the gas
section, see Fig. 5 for location. Gas connections and
power connections to the unit must be field installed after
the unit is installed on the roof curb.
Install field-fabricated ductwork inside curb
Install thru-base service connection fittings (affects
curb and unit)
Rig and place unit
Remove top skid
Install outside air hood
Install smoke detector tube
Install combustion air hood
Install flue hood
If electric and control wiring is to be routed through the
basepan, remove knockouts in basepan located in control
box area of access panel; see Fig. 1, 2, or 3 for basepan
knockout locations for location. Attach the service
connections to the basepan.
Install gas piping
Install condensate line trap and piping
Make electrical connections
Install other accessories
Hood Carton Location
(rear access panel)
Pad-mounted installation —
Prepare pad and unit supports
Rig and place unit
Remove duct covers and top skid
Install smoke detector return air sensor tube
Install field-fabricated ductwork at unit duct openings
Install outside air hood
Install combustion air hood
Install flue hood
Install gas piping
Control Box
Access Panel
Filter and
Indoor Coil
Access Panel
Indoor Blower
Access Panel
Gas Heat
Install condensate line trap and piping
Make electrical connections
Install other accessories
Access Panel
Compressor
(each side)
C11154
Fig. 5 - Typical Access Panel and Compressor Locations
Frame-mounted installation —
Slab Mount (Horizontal Units Only) —
Frame-mounted applications generally follow the
sequence for a curb installation. Adapt as required to
suit specific installation plan.
Provide a level concrete slab that extends a minimum of
6–in. (150 mm) beyond unit cabinet. Install a gravel apron
in front of condenser coil air inlet to prevent grass and
foliage from obstructing airflow.
Step 3 — Inspect unit
Inspect unit for transportation damage. File any claim
with transportation agency.
NOTE: Horizontal units may be installed on a roof curb
if required.
Confirm before installation of unit that voltage, amperage
and circuit protection requirements listed on unit data
plate agree with power supply provided.
Alternate Unit Support (In Lieu of Curb or Slab
Mount) —
A non-combustible sleeper rail can be used in the unit
curb support area. If sleeper rails cannot be used, support
the long sides of the unit with a minimum of 4 equally
spaced 4-in. x 4-in. (102 mm x 102 mm) pads on each
side. Locate pads so that they support the rails. Make sure
to avoid the fork openings.
Locate the carton containing the outside air hood parts; see
Figs. 5 and 12. Do not remove carton until unit has been
rigged and located in final position.
Step 4 — Provide Unit Support
Roof Curb Mount —
Accessory roof curb details and dimensions are shown in
Figs. 6, 7 and 8. Assemble and install accessory roof curb
in accordance with instructions shipped with the curb.
10
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C10954
Fig. 6 - Roof Curb Details – 17 Size Unit
11
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C10955
Fig. 7 - Roof Curb Details – 20 and 24 Size Units
12
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C10956
Fig. 8 - Roof Curb Details – 28 Size Unit
13
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A minimum clearance is not required around ductwork.
!
CAUTION
C
PROPERTY DAMAGE HAZARD
Failure to follow this caution may result in damage
to roofing materials.
MAXIMUM ALLOWABLE
DIFFERENCE IN. (MM)
A
Membrane roofs can be cut by sharp sheet metal
edges. Be careful when placing any sheet metal parts
on such roof.
B
A-B
B-C
A-C
0.25” (6)
0.5” (12)
0.5” (12)
C10628
Fig. 9 - Unit Leveling Tolerances
Step 5 — Field Fabricate Ductwork
Step 6 — Rig and Place Unit
Keep unit upright and do not drop. Spreader bars are not
required if top crating is left on unit. Rollers may be used
to move unit across a roof. Level by using unit frame as a
reference. See Table 1 (on page 9) and Fig. 10 for
additional information.
Cabinet return-air static pressure (a negative condition)
shall not exceed 0.5 in. wg (87 Pa) with economizer or
without economizer.
For vertical ducted applications, secure all ducts to roof curb
and building structure. Do not connect ductwork to unit.
Lifting holes are provided in base rails as shown in
Fig. 10. Refer to rigging instructions on unit.
Fabricate supply ductwork so that the cross sectional
dimensions are equal to or greater than the unit supply
duct opening dimensions for the first 18 in. (458 mm) of
duct length from the unit basepan.
!
CAUTION
UNIT DAMAGE HAZARD
Insulate and weatherproof all external ductwork, joints,
and roof openings with counter flashing and mastic in
accordance with applicable codes.
Failure to follow this caution may result in
equipment damage.
All panels must be in place when rigging. Unit is not
designed for handling by fork truck when packaging
is removed.
Ducts passing through unconditioned spaces must be
insulated and covered with a vapor barrier.
If a plenum return is used on a vertical unit, the return
should be ducted through the roof deck to comply with
applicable fire codes.
Before setting the unit onto the curb, recheck gasketing on
curb.
PLACE ALL SEAL STRIP
IN PLACE BEFORE PLACING
UNIT ON ROOF CURB.
DETAIL A
"914-1371"
(36"-54")
"B"
SEE DETAIL A
DUCT END
"C"
"A"
C09107
DIMENSIONS
MAX WEIGHT
A
B
C
UNIT
LB
KG
IN
MM
3249
3595
3595
4007
IN
MM
1491
1816
1816
2040
IN
MM
1328
1328
1532
1532
48HC**17
48HC**20
48HC**24
48HC**28
2339
2549
2699
2748
1061
1156
1224
1246
127.8
141.5
141.5
157.8
58.7
71.5
71.5
80.3
52.3
52.3
60.3
60.3
NOTES:
1. Dimensions in ( ) are inches.
2. Hook rigging shackles through holes in base rail, as shown in detail “A.” Holes in base rails are centered around the unit center of
gravity. Use wooden top to prevent rigging straps from damaging unit.
Fig. 10 - Rigging Details
14
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Positioning on Curb —
Field
-supplied (3/4-inch) flanges should be attached to
horizontal duct openings (see Fig. 11) and all ductwork
should be secured to the flanges. Insulate and weatherproof
all external ductwork, joints, and roof or building openings
with counter flashing and mastic in accordance with
applicable codes.
Position unit on roof curb so that the following clearances
1
are maintained: /4 in. (6 mm) clearance between the roof
1
curb and the base rail inside the right and left,
/
in.
2
(12 mm) clearance between the roof curb and the base rail
inside the front and back. This will result in the distance
between the roof curb and the base rail inside on the
condenser end of the unit being approximately equal to
Details A and B in Figs. 6, 7 and 8.
Step 8 — Install Outside Air Hood — Factory
Option
The outside air hood for factory-option economizer and
two-position damper is shipped in knock-down form and
requires field assembly. The panel for the hood top is
shipped on the end of the unit (see Fig. 12). The
remaining parts for the hood assembly (including side
panels, filters and tracks) are shipped in a carton that is
secured to the rear of the blower assembly. Access the
carton location through rear panel (see Fig. 13).
Do not attempt to slide unit on curb after unit is set. Doing
so will result in damage to the roof curb seal.
Although unit is weatherproof, guard against water from
higher level runoff and overhangs.
Flue vent discharge must have a minimum horizontal
clearance of 48 in. (1220 mm) from electric and gas meters,
gas regulators, and gas relief equipment. Minimum distance
between unit and other electrically live parts is 48 inches
(1220 mm).
Hood Top
Shipping
Position
Flue gas can deteriorate building materials. Orient unit such
that flue gas will not affect building materials. Locate
mechanical draft system flue assembly at least 48 in. (1220
mm) from an adjacent building or combustible material.
After unit is in position, remove rigging skids and
shipping materials.
C09134
Fig. 12 - Hood Top – Shipping Position
Step 7 — Horizontal Duct Connection
Refer to Figs. 1, 2 and 3 for locations and sizes of the
horizontal duct connections. Note that there are two different
return air duct connection locations – one for unit without an
economizer (on back side of unit) and a different one for
unit equipped with an economizer (on left end, under the
economizer hood). The supply air duct connection is on the
back side. See Fig. 11 for top view depicting typical
horizontal duct arrangements.
To remove the hood parts package:
1. Remove the back blower access panel.
2. Locate and cut the strap, being careful to not damage
any wiring.
3. Carefully lift the hood package carton through the
back blower access opening.
See Fig. 14 for identification of the various parts of the
hood assembly.
Hood
Package
Horizontal
Supply Air
Return Air Duct
without
Economizer
Return Air Duct
with Economizer
C10626
C09133
Return without Return with
Supply
Fig. 13 - Hood Package – Shipping Location
Economizer
Economizer
Location
Back
7
Back
3
Left end
3
Height --- In. (mm) 15 / (402)
8
49 / (1253)
8
18 / (467)
8
3
3
5
W id t h --- in . ( m m )
29 / (756)
23 / (593)
61 / (1564)
4
8
8
Fig. 11 - Horizontal Duct Opening Dimensions
15
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To assemble the outside air hood:
The combustion air hood is attached to the back of the
burner access panel. Remove the two screws securing the
hood to the back of the burner access panel. Using the two
screws, re-attach the hood to the front of the burner
access panel as shown in Fig. 16.
1. Remove hood top panel from shipping position on
unit end.
2. Install four angles to the upper end panel using the
screws provided.
3. Apply seal strip to mating flanges on the side plates
of the hood (see Fig. 14).
Apply Seal Strips
3
to the back of
Apply Seal Strip
to the front of
this flange
these surfaces
Apply Seal Strip
to the front of
this flange
7
Apply Seal Strips
to the back of
these flanges
7
2
5
2
4
4
4
4
6
Apply Seal Strip
to the back of
this flange
1
5
6
Seal Strips
Item #
Description
Angles
Side Plates
Hood
Outdoor Air Screens
Side Filter Supports
Side Drip Angles
Top Diverters
Qty
4
2
1
4
2
2
2
Combustion
Flue Hood
Air Hood
1
2
3
4
5
6
7
C10744
Fig. 16 - Flue Hood and Combustion Air Hood Details
C09079
Step 10 — Install Gas Piping
Fig. 14 - Hood Part Identification and Seal Strip
Application Areas
Installation of the gas piping must be in accordance with
local building codes and with applicable national codes.
In U.S.A., refer to NFPA 54/ANSI Z223.1 National Fuel
Gas Code (NFGC). In Canada, installation must be
accordance with the CAN/CSA B149.1 and CAN/CSA
B149.2 installation codes for gas burning appliances.
4. Secure side plates to panel using the screws provided.
5. Apply seal strip to mating flange of the hood (see
Fig. 14).
6. Secure top flange using screws provided in kit.
This unit is factory equipped for use with Natural Gas fuel
at elevations up to 2000 ft (610 m) above sea level. Unit
may be field converted for operation at elevations above
2000 ft (610 m) and/or for use with liquefied petroleum
fuel. See accessory kit installation instructions regarding
these accessories.
7. Install outdoor air screens by sliding them into the
channel formed by the four angles installed in step 2.
Make sure that the screens extend across the entire
length of the hood.
8. Install side filter supports using the screws provided.
9. Install side drip angles using the screws provided.
NOTE: Furnace gas input rate on rating plate is for
installation up to 2000 ft (610 m) above sea level. In
U.S.A. the input rating for altitudes above 2000 ft (610 m)
must be derated by 4% for each 1000 ft (305 m) above sea
level. In Canada the input rating must be derated by 10%
for altitudes of 2000 ft (610 m) to 4500 ft (1372 m) above
sea level.
10. Run a continuous length of seal strip across the hood
covering the engagement holes in the lower hood.
11. Install top diverter using the screws provided.
12. On units with barometric relief, remove screws at bot-
tom of relief damper. Do not discard damper door.
For natural gas applications, gas pressure at unit gas
connection must not be less than 5 in. wg (1246 Pa) or
greater than 13 in. wg (3240 Pa) while the unit is
operating. For liquified petroleum applications, the gas
pressure must not be less than 11 in. wg (2740 Pa) or
greater than 13 in. wg (3240 Pa) at the unit connection.
C09090
Gas Supply Line —
Fig. 15 - Hood Assembly – Completed
The gas supply pipe enters the unit adjacent to the burner
access panel on the front side of the unit, through the
grommeted hole. The gas connection to the unit is made
to the 3/4 in. FPT gas inlet port on the unit gas valve.
Step 9 — Install Flue Hood and Combustion Air
Hood
The flue hood is shipped screwed to the fan deck inside
the burner compartment. Remove the burner access panel
and then remove the flue hood from its shipping location.
Using the screws provided, install flue hood in the
location shown in Fig. 16.
3
Table 2 lists typical /4 inch NPT (National Pipe Thread)
field supplied pipe fittings required for Thru-Base gas
supply, starting from the unit gas valve (see Fig. 17).
16
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Table 2 – Typical 3/4-in NPT Field Supplied Piping Parts
4
5
3
2
6
1
Item Qty
CPN
Description
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
CA15RA201 90 Deg Street Elbow
CA01CA226 5 Inch Long Nipple
CA85RA201 Ground---Joint Union
CA01CA218 3 Inch Long Nipple
CA05RA201 90 Deg Elbow
7
3
15
4
8
5
9
6
CA01CA250 12 Inch Long Nipple
CA05RA201 90 Deg Elbow
7
10
8
CA01CA218 3 Inch Long Nipple
CA20RA201 TEE
11
9
12
13
10
11
12
13
14
15
CA01CN222 4 Inch Long Nipple (Sediment Trap)
14
CA38RA201 Cap
1
CA01CA220
GB30
3
/
Inch Long Nipple
R
2
NIBCO Ball Valve
CA01CA238 8 Inch Long Nipple
CA05RA201 90 Deg Elbow
Fig. 17 - Gas Supply Line Piping with Thru-BaCs1e0999
Pipe gas supply into 90 degree elbow item 15 (see Table 2)
through the hole in the unit basepan.
4
5
3
2
6
1
3
For typical /4 inch NPT field supplied fittings required
for NON Thru-Base gas supply starting from the unit gas
valve, omit items 14 and 15 from Table 2 and pipe gas
supply into TEE. See Fig. 18.
7
8
9
12
Table 3 – Natural Gas Supply Line Pressure Ranges
UNIT MODEL
UNIT SIZE
MIN
MAX
5.0 in. wg
(1246 Pa)
13.0 in. wg
(3240 Pa)
10
13
48HC**
17, 20, 24, 28
11
!
CAUTION
EQUIPMENT DAMAGE HAZARD
Failure to follow this caution may result in damage
to equipment.
C101006
Fig. 18 - Gas Supply Line Piping
When connecting the gas line to the unit gas valve,
the installer MUST use a backup wrench to prevent
damage to the valve.
X
9” MINIMUM CLEARANCE
FOR PANEL REMOVAL
GAS
FROM
GAS
REGULATOR
*
MANUAL GAS
METER
Install a gas supply line that runs to the unit heating
section. Refer to the NFPA 54/NFGC or equivalent code
for gas pipe sizing data. Do not use a pipe smaller than the
size specified. Size the gas supply line to allow for a
maximum pressure drop of 0.5-in wg (124 Pa) between
gas regulator source and unit gas valve connection when
unit is operating at high-fire flow rate.
SHUTOFF VALVE
*
BASE UNIT
48” MINIMUM
DRIP LEG
PER NFGC
*
BASE RAIL
FIELD-
ROOF
CURB
FABRICATED
SUPPORT
*
LEGEND
The gas supply line can approach the unit in two ways:
horizontally from outside the unit (across the roof), or
through unit basepan. Observe clearance to gas line
components per Fig. 19.
NFGC – National Fuel Gas Code
Field supplied.
*
NOTE: Follow all local codes.
STEEL PIPE
NOMINAL DIAMETER
(in.)
SPACING OF SUPPORTS
X DIMENSION
(ft)
1
/
6
2
3
/
4 or 1
8
11
/
4 or larger
10
C11121
Fig. 19 - Gas Piping Guide
17
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Factory-Option Thru-Base Connections —
NOTE: Pressure test the gas supply system after the gas
supply piping is connected to the gas valve. The supply
piping must be disconnected from the gas valve during the
testing of the piping systems when test pressure is in
excess of 0.5 psig (3450 Pa). Pressure test the gas supply
piping system at pressures equal to or less than 0.5 psig
(3450 Pa). The unit heating section must be isolated from
the gas piping system by closing the external main manual
shutoff valve and slightly opening the ground-joint union.
Electrical Connections: Knockouts are located in the
control box area. Remove the appropriate size knockout
for high voltage connection. Use the field supplied
connector depending on wiring or conduit being utilized.
Remove the 7/8 -in (22mm) knockout and appropriate
connector for low voltage wiring. If non-unit powered
convenience outlet is being utilized, remove the 7/8 - i n
(22mm) knockout and utilize appropriate connector for
115 volt line. See “Step 12 — Making Electrical
Connections” for details.
Check for gas leaks at the field-installed and
factory-installed gas lines after all piping connections have
been completed. Use soap-and-water solution (or method
specified by local codes and/or regulations).
Gas Connections: Remove the knockout in the base pan
3
and route /4 -in. gas line up through the opening. Install
an elbow and route gas line through opening in panel after
first removing plastic bushing. Install a gas shut off
followed by a drip leg and ground-joint union. Route gas
line into gas section through the grommet (Part #:
KA56SL112) at the gas inlet and into the gas valve. See
Fig. 17 and Table 2. If a regulator is installed, it must be
located 4 feet (1.22 meters) from the flue outlet.
!
WARNING
FIRE OR EXPLOSION HAZARD
Failure to follow this warning could result in personal
injury, death and/or property damage.
S Connect gas pipe to unit using a backup wrench to
avoid damaging gas controls.
S Never purge a gas line into a combustion chamber.
S Never test for gas leaks with an open flame. Use a
commercially available soap solution made
specifically for the detection of leaks to check all
connections.
Some municipal codes require that the manual shutoff
valve be located upstream of the sediment trap. See
Fig. 18 for typical piping arrangements for gas piping that
has been routed through the sidewall of the base pan.
When installing the gas supply line, observe local codes
pertaining to gas pipe installations. Refer to the NFPA
54/ANSI Z223.1 NFGC latest edition (in Canada, CAN/CSA
B149.1). In the absence of local building codes, adhere to
the following pertinent recommendations:
S Use proper length of pipe to avoid stress on gas
control manifold.
NOTE: If orifice hole appears damaged or it is suspected to
have been redrilled, check orifice hole with a numbered drill
bit of correct size. Never redrill an orifice. A burr-free and
squarely aligned orifice hole is essential for proper flame
characteristics.
1. Avoid low spots in long runs of pipe. Grade all pipe
1/4 -in. in every 15 ft (7 mm in every 5 m) to prevent
traps. Grade all horizontal runs downward to risers.
Use risers to connect to heating section and to meter.
2. Protect all segments of piping system against physical
and thermal damage. Support all piping with appro-
priate straps, hangers, etc. Use a minimum of one
hanger every 6 ft (1.8 m). For pipe sizes larger than
1/2 -in., follow recommendations of national codes.
3. Apply joint compound (pipe dope) sparingly and only to
male threads of joint when making pipe connections.
Use only pipe dope that is resistant to action of lique-
fied petroleum gases as specified by local and/or nation-
al codes. If using PTFE (Teflon) tape, ensure the materi-
al is Double Density type and is labeled for use on gas
lines. Apply tape per manufacturer’s instructions.
BURNER
ORIFICE
4. Pressure-test all gas piping in accordance with local
and national plumbing and gas codes before connect-
ing piping to unit.
A93059
Fig. 20 - Orifice Hole
18
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Step 11 — Install External Condensate Trap and
Line
Step 12 — Make Electrical Connections
!
3
WARNING
The unit has one /4-in. condensate drain connection on
the end of the condensate pan (see Fig. 21). See Figs. 1, 2
and 3, item “E”, in the view labeled “BACK
(HORIZONTAL DISCHARGE)” for the location of the
condensate drain connection.
ELECTRICAL SHOCK HAZARD
Failure to follow this warning could result in personal
injury or death.
Do not use gas piping as an electrical ground. Unit
cabinet must have an uninterrupted, unbroken electrical
ground to minimize the possibility of personal injury if
an electrical fault should occur. This ground may consist
of electrical wire connected to unit ground lug in control
compartment, or conduit approved for electrical ground
when installed in accordance with NEC (National
Electrical Code); ANSI/NFPA 70, latest edition (in
Canada, Canadian Electrical Code CSA [Canadian
Standards Association] C22.1), and local electrical
codes.
CONDENSATE
DRAIN
CONNECTION
NOTE: Field-supplied wiring shall conform with the
limitations of minimum 63_F (33_C) rise.
Field Power Supply —
C10729
If equipped with optional Powered Convenience Outlet:
The power source leads to the convenience outlet’s
transformer primary are not factory connected. Installer
must connect these leads according to required operation
of the convenience outlet. If an always-energized
convenience outlet operation is desired, connect the
source leads to the line side of the unit-mounted
disconnect. (Check with local codes to ensure this method
is acceptable in your area.) On a unit without a
unit-mounted disconnect, connect the source leads to the
line side with unit field power leads. See Fig. 23.
Fig. 21 - Condensate Drain Pan Connection
The piping for the condensate drain and external trap can
be completed after the unit is in place. Hand tighten
fittings to the drain pan fitting. Provide adequate support
for the drain line. Failure to do so can result in damage to
the drain pan. See Fig. 22.
MINIMUM PITCH
1” (25mm) PER
10’ (3m) OF LINE
BASE RAIL
BLK
YEL
BLU
2˝ (51) MIN
OPEN
VENT
LOAD
SIDE
TO ROOF
DRAIN
SEE NOTE
LINE
SIDE
ROOF
CURB
DRAIN PLUG
SEE
NOTE: Trap should be deep enough to offset maximum unit static
difference. A 4” (102) trap is recommend. ed
DETAIL
A
L1
C08022
L2
Fig. 22 - Condensate Drain Piping Details
L3
DETAIL
A
All units must have an external trap for condensate
drainage. Install a trap at least 4-in. (102 mm) deep and
protect against freeze-up. If drain line is installed
downstream from the external trap, pitch the line away
from the unit at 1-in. per 10 ft (25 mm in 3 m) of run. Do
not use a pipe size smaller than the unit connection
(3/4-in.).
CONTROL BOX
C11181
Fig. 23 - Location of TB1
Field power wires are connected to the unit at line-side
pressure lugs on the terminal block (see wiring diagram
label for control box component arrangement) or at
factory-installed option non-fused disconnect switch. Use
copper conductors only.
NOTE: Make field power connections directly to line
connection pressure lugs only.
19
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!
!
CAUTION
WARNING
UNIT DAMAGE HAZARD
FIRE HAZARD
Failure to follow this caution may result in equipment
damage.
Failure to follow this warning could result in
intermittent operation or unsatisfactory performance.
Do not connect aluminum wire between disconnect
switch and air conditioning unit. Use only copper
wire. (See Fig. 24.)
Operation on improper line voltage or excessive phase
imbalance constitutes abuse and may cause damage to
electrical components. Such operation would invalidate
any applicable Carrier warranty.
Units Without Disconnect Option
ELECTRIC
DISCONNECT
SWITCH
TB1
12
11
13
COPPER
WIRE ONLY
ALUMINUM
WIRE
Disconnect
per
A93033
NEC
Fig. 24 - Disconnect Switch and Unit
L1
L2
L3
208/230-3-60
460-3-60
Units without Factory-Installed Disconnect —
575-3-60
When installing units, provide a disconnect switch per
NEC (National Electrical Code) of adequate size.
Disconnect sizing data is provided on the unit informative
plate. Locate on unit cabinet or within sight of the unit per
national or local codes. Do not cover unit informative
plate if mounting the disconnect on the unit cabinet.
Units With Disconnect Option
Factory
Wiring
Units with Factory-Installed Disconnect —
The factory-installed option disconnect switch is located
in the main control box. The manual switch handle is
accessible on the corner post adjacent to the control box
access panel.
T1
T2
T3
Optional
Disconnect
Switch
All Units -
L1
L2
L3
All field wiring must comply with NEC and all local code
requirements.
L1
L2
L3
Size wire based on MCA (Minimum Circuit Amps) on the
unit informative plate. See Fig. 25 for power wiring
connections to the unit power terminal block and equipment
ground. Maximum wire size is 2/0 AWG per pole.
C101000
Fig. 25 - Power Wiring Connections
Convenience Outlets —
Provide a ground-fault and short-circuit over-current
protection device (fuse or breaker) per NEC Article 440
(or local codes). Refer to unit informative data plate for
MOCP (Maximum Over-current Protection) device size.
!
WARNING
ELECTRICAL OPERATION HAZARD
Voltage to compressor terminals during operation must be
within voltage range indicated on unit nameplate. See
Table 11. On 3-phase units, voltages between phases must
be balanced within 2% and the current within 10%. Use
the formula shown in the legend for Table 11 (see Note 2
on page 49) to determine the percent of voltage
imbalance.
Failure to follow this warning could result in personal
injury or death.
Units with convenience outlet circuits may use
multiple disconnects. Check convenience outlet for
power status before opening unit for service. Locate
its disconnect switch, if appropriate, and open it.
Lock-out and tag-out this switch, if necessary.
20
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Two types of convenience outlets are offered on 48HC
models: Non-unit powered and unit-powered. Both types
provide a 125-volt GFCI (ground-fault circuit-interrupter)
duplex receptacle rated at 15-A behind a hinged access
cover, located on the corner panel of the unit. See Fig. 26.
Non-unit powered type: This type requires the field
installation of a general-purpose 125-volt 15-A circuit
powered from a source elsewhere in the building. Observe
national and local codes when selecting wire size, fuse or
breaker requirements and disconnect switch size and
location. Route 125-v power supply conductors into the
bottom of the utility box containing the duplex receptacle.
Control Box
Access Panel
Electric
Disconnect
Switch
Unit-powered type: A unit-mounted transformer is
factory-installed to stepdown the main power supply
voltage to the unit to 115-v at the duplex receptacle. This
option also includes a manual switch with fuse, located in
a control box and mounted on a bracket behind the
convenience outlet; access is through the unit’s control
box access panel. See Fig. 26.
Convenience
Outlet
The primary leads to the convenience outlet transformer
are not factory-connected. If local codes permit, the
transformer primary leads can be connected at the
line-side terminals on the unit-mounted non-fused
disconnect switch; this will provide service power to the
unit when the unit disconnect switch is open. See Fig. 28.
C10641
Fig. 26 - Convenience Outlet Location
Installing Weatherproof Cover:
A
weatherproof
while-in-use cover for the factory-installed convenience
outlets is now required by UL standards. This cover cannot
be factory-mounted due to its depth; it must be installed at
unit installation. For shipment, the convenience outlet is
covered with a blank cover plate.
The weatherproof cover kit is shipped in the unit’s control
box. The kit includes the hinged cover, a backing plate
and gasket.
DISCONNECT ALL POWER TO UNIT AND
CONVENIENCE OUTLET. LOCK-OUT AND TAG-OUT
ALL POWER.
Remove the blank cover plate at the convenience outlet;
discard the blank cover.
Loosen the two screws at the GFCI duplex outlet, until
approximately 1/2-in (13 mm) under screw heads are
exposed. Press the gasket over the screw heads. Slip the
backing plate over the screw heads at the keyhole slots
and align with the gasket; tighten the two screws until
snug (do not over-tighten).
Mount the weatherproof cover to the backing plate as
shown in Fig. 27. Remove two slot fillers in the bottom of
the cover to permit service tool cords to exit the cover.
Check for full closing and latching.
C10730
UNIT
CONNECT
AS
PRIMARY
TRANSFORMER
TERMINALS
COVER – WHILE-IN-USE
RECEPTACLE
VOLTAGE
CONNECTIONS
WEATHERPROOF
NOT SHOWN
208,
230
L1: RED +YEL
L2: BLU + GRA
H1 + H3
H2 + H4
240
480
600
L1: RED
Splice BLU + YEL
L2: GRA
H1
H2 + H3
H4
460
575
L1: RED
L2: GRA
H1
H2
Fig. 28 - Powered Convenience Outlet Wiring
BASE PLATE FOR
GFCI RECEPTACLE
C09022
Fig. 27 - Weatherproof Cover Installation
21
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Field Control Wiring —
NOTICE/AVIS
The 48HC unit requires an external temperature control
device. This device can be a thermostat (field-supplied)
or a PremierLink controller (available as factory-installed
option or as field-installed accessory, for use on a Carrier
Comfort Network or as a stand alone control) or the RTU
Open for Building Management Systems using non-CCN
protocols (RTU Open is available as a factory-installed
option only).
Convenience Outlet Utilization
Maximum Intermittent Use 15 - Amps
Maximum Continuous Use 8 - Amps
Observe a 50% limit on the circuit
Loading above 8 - Amps
Utilisation de la prise utilitaire
Usage intermittent maximum 15 - Amps
Usage continu maximum 8 - Amps
Observez une limite de 50% sur le circuit
Chargement au-dessus de 8 - Amps
50HE501288 2.0
C10077
Thermostat —
Fig. 29 - Convenience Outlet Utilization Notice
Install a Carrier-approved accessory 2-stage thermostat
according to installation instructions included with the
accessory. Locate the thermostat accessory on a solid wall
in the conditioned space to sense average temperature in
accordance with the thermostat installation instructions.
Test the GFCI receptacle by pressing the TEST button on
the face of the receptacle to trip and open the receptacle.
Check for proper grounding wires and power line phasing
if the GFCI receptacle does not trip as required. Press the
RESET button to clear the tripped condition.
If the thermostat contains a logic circuit requiring 24-v
power, use a thermostat cable or equivalent single leads of
different colors with minimum of seven leads. If the
thermostat does not require a 24-v source (no “C”
connection required), use a thermostat cable or equivalent
with minimum of six leads. Check the thermostat
installation instructions for additional features which
might require additional conductors in the cable.
Using unit-mounted convenience outlets: Units with
unit-mounded convenience outlet circuits will often
require that two disconnects be opened to de-energize all
power to the unit. Treat all units as electrically energized
until the convenience outlet power is also checked and
de-energization is confirmed. Observe National Electrical
Code Article 210, Branch Circuits, for use of convenience
outlets.
For wire runs up to 50 ft. (15 m), use no. 18 AWG
(American Wire Gage) insulated wire (35_C minimum).
For 50 to 75 ft. (15 to 23 m), use no. 16 AWG insulated
wire (35_C minimum). For over 75 ft. (23 m), use no. 14
AWG insulated wire (35_C minimum). All wire sizes
larger than no. 18 AWG cannot be directly connected to
the thermostat and will require a junction box and splice
at the thermostat.
Factory-Option Thru-Base Connections —
All units are equipped with the ability to bring utilities
through the base.
Gas is brought up through an embossed area located in the
gas section behind the gas entrance post. Access is gained
through the gas access panel. A knock out must be
removed to accomplish this.
Unit without Thru-Base Connection Kit —
The electrical entrance is located in the control box area
and can be accessed through the control box access panel.
An embossed area is provided with three knock outs. High
voltage is brought through the multi knock out by
removing the appropriate size for the size of the fitting
Correctly rated low voltage wire can be routed through the
rubber grommet located on the corner post adjacent to the
control box access panel. Route wire through the grommet
and then route the wire behind the corner post utilizing the
factory provided wire ties secured to the control box. This
will insure separation of the field low voltage wire and the
high voltage circuit. Route the low voltage wire to the
central terminal board. See Fig. 30.
7
required. A /8 -in. knock out is provided for low voltage.
7
An additional /8 -in. knock out is provided for a 115 volt
line which is used when the unit is equipped with the
non-unit powered convenience outlet option.
All required fittings are field supplied. Install fittings
when access to both top and bottom of the base pan is
available. See electrical and gas connections for routing
and connection information.
Units without Thru-Base Connections —
1. Install liquid tight conduit between disconnect and
control box.
2. Pull correctly rated high voltage wires through the
conduit.
3. Install power lines to terminal connections as shown
in Fig. 25.
22
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Central
Terminal
Board
Rubber
Grommet
Typical
Thermostat
Corrections
X
C
X
C
G
C
G
Corner
Post
See
Caution
G
W2
W2
W2
W1
Y2
Y1
R
W1
W1
Wire
Ties
O/B/Y2
(see Note)
Y2
Y1
R
Y1
R
T–STAT
Note: Typical multi-function marking. Follow manufacturer’s configuration
instructions to select Y2.
Field Wiring
Thru the Base
Connection
!
CAUTION
C10734
UNIT DAMAGE HAZARD
Fig. 31 - Field Control Wiring Raceway
Failure to follow this caution may cause a short circuit.
Carefully check the connection of control coductor
for indoor fan control at terminal G. Connecting the
indoor fan lead to terminal C will cause a short circuit
condition which can cause component damage inside
the unit or at thermostat.
Heat Anticipator Settings —
Set heat anticipator settings at 0.14 amp for the first stage
and 0.14 amp for second-stage heating.
Transformer Connection for 208-v Power Supply —
C10731
Fig. 30 - Typical Low-Voltage Control Connections
All units except 208/230-v units are factory wired for the
voltage shown on the nameplate. If the 208/230-v unit is
to be connected to a 208-v power supply, the control
transformer must be rewired by moving the black wire
with the 1/4-in. female spade connector from the 230-v
connection and moving it to the 208-v 1/4-in. male
terminal on the primary side of the transformer. Refer to
unit label diagram for additional information.
NOTE: If utilizing the through the base connections,
route the low voltage wire through the wire ties to the
central terminal board.
23
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Humidi--MiZerR Control Connections
Humidi-MiZer – Space RH Controller —
NOTE: The Humidi-MiZer is a factory installed option.
The Humidi-MiZer dehumidification system requires a
field-supplied and -installed space relative humidity
control device. This device may be a separate humidistat
control (contact closes on rise in space RH above control
setpoint) or a combination thermostat-humidistat control
device such as Carrier’s EDGER Pro Thermidistat with
isolated contact set for dehumidification control. The
humidistat is normally used in applications where a
temperature control is already provided (units with
PremierLinkt control).
% RELATIVE HUMIDITY
C09295
Fig. 32 - Accessory Field-Installed Humidistat
To connect the Carrier humidistat (HL38MG029):
1. Route the humidistat 2-conductor cable (field-sup-
plied) through the hole provided in the unit corner
post.
2. Feed wires through the raceway built into the corner
post (see Fig. 31) to the 24-v barrier located on the
left side of the control box. The raceway provides the
UL-required clearance between high-voltage and
low-voltage wiring.
3. Use wire nuts to connect humidistat cable to two
PINK leads in the low–voltage wiring as shown in
Fig. 34.
To connect the Thermidistat device (33CS2PPRH-01):
1. Route the Thermidistat multi-conductor thermostat
cable (field-supplied) through the hole provided in
the unit corner post.
®
2. Feed wires through the raceway built into the corner
post (see Fig. 31) to the 24-v barrier located on the
left side of the control box. The raceway provides the
UL-required clearance between high-voltage and
low-voltage wiring.
C09296
Fig. 33 - EDGE Pro Thermidistat
3. The Thermidistat has dry contacts at terminals D1
and D2 for dehumidification operation (see Fig. 35).
The dry contacts must be wired between CTB
terminal R and the PINK lead to the LTLO switch
with field-supplied wire nuts. Refer to the installation
instructions included with the Carrier Edge
Thermidistat device (Form 33CS-65SI or latest) for
more information.
24
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C11139
Fig. 34 - Typical Humidi-MiZerR Adaptive Dehumidification System Humidistat Wiring
EDGE Pro THERMIDISTAT
Unit CTB
THERMOSTAT
X*
Rc
Rh
C
W1
G
G
Y2
W2
C
O/W2/B
Y1
W1
Y2
Y1
R
OAT
RRS
SRTN
HUM
D1
Humidi-MiZer™ FIOP
D2
V+
Vg
*Connection not required.
C09298
Fig. 35 - Typical Rooftop Unit with Humidi-MiZer Adaptive Dehumidification System
with EDGE Pro Thermidistat Device
25
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PremierLinkt (Factory--Option)
C08199
Fig. 36 - PremierLink Controller
The PremierLink controller (see Fig. 36) is compatible
with Carrier Comfort Networkr (CCN) devices. This
control is designed to allow users the access and ability to
change factory-defined settings, thus expanding the
function of the standard unit control board. CCN service
access tools include System Pilott, Touch Pilott and
Service Tool. (Standard tier display tools Navigatort and
Scrolling Marquee are not suitable for use with latest
PremierLink controller (Version 2.x).)
The PremierLink control is factory-mounted in the 48HC
unit’s main control box to the right of the Central Terminal
Board (CTB) (see Fig. 37). Factory wiring is completed
through harnesses connected to the CTB thermostat. Field
connections are made at a 16-pole terminal block (TB3)
located at the top of the unit control box in front of the
PremierLink controller. The factory-installed PremierLink
control includes the supply-air temperature (SAT) sensor.
The outdoor air temperature (OAT) sensor is included in the
FIOP/accessory EconoMi$ert2 package. (See page 45 for
accessory enthalpy controls.)
The PremierLink controller requires the use of a Carrier
electronic thermostat or a CCN connection for time
broadcast to initiate its internal timeclock. This is
necessary for broadcast of time of day functions
(occupied/unoccupied).
C10643
Fig. 37 - 48HC Control Box Component Locations
NOTE: PremierLink controller is shipped in Sensor
mode. To be used with a thermostat, the PremierLink
controller must be configured to Thermostat mode. Refer
to PremierLink Configuration instructions for Operating
Mode.
26
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C11140
Fig. 38 - PremierLink Wiring Schematic
27
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C11141
Fig. 39 - PremierLink Wiring Schematic with Humidi-MiZerR
28
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Supply Air Temperature (SAT) Sensor —
NOTE: The sensor must be mounted in the discharge
airstream downstream of the cooling coil and any heating
devices. Be sure the probe tip does not come in contact
with any of the unit’s heater surfaces.
On FIOP-equipped 48HC unit, the unit is supplied with a
supply-air temperature (SAT) sensor (33ZCSENSAT).
This sensor is a tubular probe type, approx 6-inches (12.7
mm) in length. It is a nominal 10-k ohm thermistor.
Outdoor Air Temperature (OAT) Sensor —
The OAT is factory-mounted in the EconoMi$er2 (FIOP
or accessory). It is a nominal 10k ohm thermistor attached
to an eyelet mounting ring.
The SAT is factory-wired. The SAT probe is mounted in
the fan deck (see Fig. 40). It can be removed or
remounted per local codes.. Drill or punch a 1/2-in. hole
in the flange or duct. Use two field-supplied, self-drilling
screws to secure the sensor probe in a horizontal
orientation. Insure that the sensor wires do not contact the
hot surface of the heat exchanger.
EconoMi$er2 —
The PremierLink control is used with EconoMi$er2
(option or accessory) for outdoor air management. The
damper position is controlled directly by the PremierLink
control; EconoMi$er2 has no internal logic device.
Outdoor air management functions can be enhanced with
field-installation of these accessory control devices:
Enthalpy control (outdoor air or differential sensors)
Space CO2 sensor
Outdoor air CO2 sensor
Refer to Table 4 for accessory part numbers.
SUPPLY AIR
ROOF
TEMPERATURE
CURB
SENSOR
Field Connections
SUPPLY AIR
RETURN AIR
Field connections for accessory sensor and input devices
are made at the 16-pole terminal block (TB3, see Fig. 38
and Fig. 39) located on the control box top shelf in front
of the PremierLink control. Some input devices also
require a 24-vac signal source; connect at CTB terminal
R at “THERMOSTAT” connection strip for this signal
source. See connections figures on following pages for
field connection locations (and for continued connections
at the PremierLink board inputs).
C10733
Fig. 40 - Mounting Location for Supply Air
Temperature (SAT) Sensor on 48HC Units
NOTE:
Refer to Form 33CS-67SI for complete
PremierLink configuration, operating sequences and
troubleshooting information. Have a copy of this manual
available at unit start-up.
Table 5 provides a summary of field connections for units
equipped with Space Sensor. Table 6 provides a summary of
field connections for units equipped with Space Thermostat.
Table 4 – PremierLink Sensor Usage
OUTDOOR AIR
TEMPERATURE
SENSOR
RETURN AIR
TEMPERATURE
SENSOR
OUTDOOR AIR
ENTHALPY SENSOR
RETURN AIR
ENTHALPY SENSOR
APPLICATION
Differential Dry Bulb
Temperature with
PremierLink
(PremierLink requires
4 --- 20 m A A ctuator)
R eq uired ---
33ZCT55SPT
or equivalent
I nclud ed ---
---
---
---
CRTEMPSN001A00
Single Enthalpy with
PremierLink
(PremierLink requires
4 --- 20m A A ctuator)
I nclud ed ---
Not Used
R eq uires ---
33CSENTHSW
---
---
Differential Enthalpy
with PremierLink
(PremierLink requires
4 --- 20m A A ctuator)
R eq uires ---
33CSENTHSW
or equivalent
R eq uires ---
33CSENTSEN
or equivalent
I nclud ed ---
Not Used
NOTES:
CO Sensors (Optional):
2
33ZCSENCO2 --- Room sensor (adjustable). Aspirator box is required for duct mounting of the sensor.
33ZCASPCO2 --- Aspirator box used for duct---mounted CO room sensor.
2
33ZCT55CO2 --- Space temperature and CO room sensor with override.
2
33ZCT56CO2 --- Space temperature and CO room sensor with override and setpoint.
2
29
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Table 5 – Space Sensor Mode
TB3 TERMINAL
FIELD CONNECTION
T55 --- S E N /T56 --- S E N
RMTOCC
INPUT SIGNAL
Analog (10k thermistor)
Discrete, 24VAC
1
2
3
4
T55 --- S E N /T56 --- S E N
CMPSAFE
Analog (10k thermistor)
Discrete, 24VAC
5
6
T56---SET
Analog (10k thermistor)
Discrete, 24VAC
FSD
7
LOOP---PWR
Analog, 24VDC
8
SPS
Discrete, 24VAC
9
IAQ---SEN
FILTER
A nalog, 4 --- 20m A
Discrete, 24VAC
A nalog, 4 --- 20m A
Digital, , 5VDC
A nalog, 4 --- 20m A
Digital, 5VDC
10
11
12
13
14
15
16
I A Q --- CO M /O A Q --- CO M /R H --- CO M
CCN + (RED)
OAQ---SEN/RH---SEN
CCN Gnd (WHT)
AUX OUT(Power Exhaust)
CCN --- (BLK)
(Output)Discrete 24VAC
Digital, 5VDC
LEGEND:
T55
--- Space Temperature Sensor
T56
--- Space Temperature Sensor
CCN
--- Carrier Comfort Network (communication bus)
CMPSAFE
FILTER
--- Compressor Safety
--- Dirty Filter Switch
F S D
IAQ
--- F ir e S h u t d o w n
--- Indoor Air Quality (CO )
2
OAQ
--- Outdoor Air Quality (CO )
2
RH
SFS
--- Relative Humidity
--- Supply Fan Status
Table 6 – Thermostat Mode
TB3 TERMINAL
FIELD CONNECTION
INPUT SIGNAL
Analog (10k thermistor)
Discrete, 24VAC
1
2
RAT SEN
G
3
4
RAT SEN
Y1
Analog (10k thermistor)
Discrete, 24VAC
5
6
7
8
9
10
11
12
13
14
15
16
Y2
LOOP---PWR
W1
I A Q --- S E N
Discrete, 24VAC
Analog, 24VDC
Discrete, 24VAC
Analog, 4---20mA
Discrete, 24VAC
Analog, 4---20mA
Digital, 5VDC
W2
I A Q --- CO M /O A Q --- CO M /R H --- CO M
CCN + (RED)
O A Q --- S E N /R H --- S E N
CCN Gnd (WHT)
AUX OUT (Power Exhaust)
CCN --- (BLK)
Analog, 4---20mA
Digital, 5VDC
(Output) Discrete 24VAC
Digital, 5VDC
LEGEND:
CCN
---
---
---
---
---
---
---
---
---
---
Carrier Comfort Network (communication bus)
T h e r m o st a t Fa n
G
IAQ
OAQ
RAT
RH
W1
W2
Y1
Indoor Air Quality (CO )
2
Outdoor Air Quality (CO )
2
Return Air Temperature
Relative Humidity
Thermostat Heat Stage 1
Thermostat Heat Stage 2
Thermostat Cool Stage 1
Thermostat Cool Stage 2
Y2
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Space Sensors —
TB3
1
PL
SEN
SEN
J6-7
The PremierLink controller is factory-shipped configured
for Space Sensor Mode. A Carrier T-55 or T-56 space
sensor must be used. T-55 space temperature sensor
provides a signal of space temperature to the PremierLink
control. T-56 provides same space temperature signal plus
it allows for adjustment of space temperature setpoints
from the face of the sensor by the occupants.
PL
TB3
3
J6-6
Jumper
SET
SET
J6-5
5
C10022
Fig. 44 - PremierLink T-56 Sensor
Connect Thermostat —
1
2
4
5
6
3
RED(+)
A 7-wire thermostat connection requires a 24-v power
source and a common connection. Use the R and C
terminals on the CTB’s THERMOSTAT connection strip
for these. Connect the thermostat’s Y1, Y2, W1, W2 and
G terminals to PremierLink TB3 as shown in Fig. 45.
WHT(GND)
CCN COM
BLK(-)
SEN
SW1
BRN (GND)
BLU (SPT)
SENSOR WIRING
If the 48HC unit is equipped with factory-installed smoke
detector(s), disconnect the factory BLU lead at TB3-6
(Y2) before connecting the thermostat. Identify the BLU
lead originating at CTB-DDC-1; disconnect at TB3-6
and tape off. Confirm that the second BLU lead at TB3-6
remains connected to PremierLink J4-8.
C08201
Fig. 41 - T-55 Space Temperature Sensor Wiring
SPACE
THERMOSTAT
CTB
THERMOSTAT
Connect T-55: See Fig. 41 for typical T-55 internal
connections. Connect the T-55 SEN terminals to TB3
terminals 1 and 3 (see Fig. 42).
R
TB3
2
R
PL
J4-12
G
Y1
Y2
W1
W2
C
TB3
1
PL
4
6
J4-10
J4-8
J4-6
J4-4
SEN
SEN
J6-7
J6-6
3
8
C10023
10
C
Fig. 42 - PremierLink T-55 Sensor
CTB
THERMOSTAT
Connect T-56: See Fig. 43 for T-56 internal connections.
Install a jumper between SEN and SET terminals as
illustrated. Connect T-56 terminals to TB3 terminals 1, 3
and 5 (see Fig. 44).
C10283
Fig. 45 - Space Thermostat Connections
If the 48HC unit has an economizer system and free-cooling
operation is required, a sensor representing Return Air
Temperature must also be connected (field-supplied and
installed). This sensor may be a T-55 Space Sensor (see Fig.
41) installed in the space or in the return duct, or it may be
sensor PNO 33ZCSENSAT, installed in the return duct.
Connect this sensor to TB3-1 and TB3-3 per Fig. 42.
1
2
4
5
6
3
RED(+)
WHT(GND)
CCN COM
BLK(-)
Configure the Unit for Thermostat Mode —
SET
SEN
SW1
BLK
(T56)
Connect to the CCN bus using a CCN service tool and
navigate to PremierLink Configuration screen for
Operating Mode. Default setting is Sensor Mode (value
1). Change the value to 0 to reconfigure the controller for
Thermostat Mode.
BRN (GND)
BLU (SPT)
SENSOR WIRING
JUMPER
TERMINALS
AS SHOWN
When the PremierLink is configured for Thermostat
Mode, these functions are not available: Fire Shutdown
(FSD), Remote Occupied (RMTOCC), Compressor Safety
(CMPSAFE), Supply Fan Status (SFS), and Filter Pressure
Switch (FILTER).
Cool
Warm
C08202
Fig. 43 - T-56 Internal Connections
31
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To connect the sensor to the control, identify the positive
(4 to 20 mA) and ground (SIG COM) terminals on the
sensor. See Fig. 46. Connect the 4-20 mA terminal to
terminal TB3-9 and connect the SIG COM terminal to
terminal TB3-11. See Fig. 47.
Economizer Controls
Indoor Air Quality (CO2) Sensor —
The indoor air quality sensor accessory monitors space
carbon dioxide (CO2) levels. This information is used to
monitor IAQ levels. Several types of sensors are available,
for wall mounting in the space or in return duct, with and
without LCD display, and in combination with space
temperature sensors. Sensors use infrared technology to
measure the levels of CO2 present in the space air.
IAQ Sensor
J4
4-20mA
TB3
9
PL
J5-5
TB3
11
SIG COM
J5-3
24 VAC
C11156
The CO2 sensors are all factory set for a range of 0 to
2000 ppm and a linear mA output of 4 to 20. Refer to the
instructions supplied with the CO2 sensor for electrical
requirements and terminal locations. See Fig. 46 for
typical CO2 sensor wiring schematic.
Fig. 47 - Indoor CO2 Sensor (33ZCSENCO2)
Connections
Refer to Form 33CS-67SI, PremierLink Installation,
Start-up, and Configuration Instructions, for detailed
configuration information.
Outdoor Air Quality Sensor (PNO 33ZCSENCO2 plus
weatherproof enclosure) —
The outdoor air CO2 sensor is designed to monitor carbon
dioxide (CO2) levels in the outside ventilation air and
interface with the ventilation damper in an HVAC system.
The OAQ sensor is packaged with an outdoor cover. See
Fig. 48. The outdoor air CO2 sensor must be located in the
economizer outside air hood.
+ 0-10VDC
-
SIG COM
4-20mA
+
ALARM
NC
COM RELAY
}
NO CONTACTS
24 VAC
OR
24 VDC
H G
+
-
2 1
J3
5 4 3 2 1
8 7 6
J4
C08635
Fig. 46 - Indoor/Outdoor Air Quality (CO2) Sensor
(33ZCSENCO2) - Typical Wiring Diagram
To accurately monitor the quality of the air in the
conditioned air space, locate the sensor near a return-air
grille (if present) so it senses the concentration of CO2
leaving the space. The sensor should be mounted in a
location to avoid direct breath contact.
COVER REMOVED
SIDE VIEW
C07135
Fig. 48 - Outdoor Air Quality Sensor Cover
Do not mount the IAQ sensor in drafty areas such as near
supply ducts, open windows, fans, or over heat sources.
Allow at least 3 ft (0.9 m) between the sensor and any
corner. Avoid mounting the sensor where it is influenced
by the supply air; the sensor gives inaccurate readings if
the supply air is blown directly onto the sensor or if the
supply air does not have a chance to mix with the room air
before it is drawn into the return airstream.
Wiring the Outdoor Air CO2 Sensor: A dedicated
power supply is required for this sensor. A two-wire cable
is required to wire the dedicated power supply for the
sensor. The two wires should be connected to the power
supply and terminals 1 and 2.
To connect the sensor to the control, identify the positive
(4 to 20 mA) and ground (SIG COM) terminals on the
OAQ sensor. See Fig. 46. Connect the 4 to 20 mA
terminal to the TB3-13 terminal of the 48HC. Connect the
SIG COM terminal to the TB3-11 terminal of the 48HC.
See Fig. 49.
Wiring the Indoor Air Quality Sensor: For each sensor,
use two 2-conductor 18 AWG (American Wire Gage)
twisted-pair cables (unshielded) to connect the separate
isolated 24 vac power source to the sensor and to connect
the sensor to the control board terminals.
32
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OAQ Sensor
24 VAC
The sensor must be mounted vertically on the wall. The
Carrier logo should be orientated correctly when the
sensor is properly mounted.
Avoid corner locations. Allow at least 4 ft between the
sensor and any corner. Airflow near corners tends to be
reduced, resulting in erratic sensor readings. The sensor
should be vertically mounted approximately 5 ft up from
the floor, beside the space temperature sensor.
For wiring distances up to 500 feet, use a 3-conductor, 18
or 20 AWG cable. ACCN communication cable can be
used, although the shield is not required. The shield must
be removed from the sensor end of the cable if this cable
is used. See Fig. 51 for wiring details.
TB3
13
PL
J5-2
4-20mA
TB3
11
SIG COM
J5-3
C11157
Fig. 49 - Outdoor CO2 Sensor Connections
Space Relative Humidity Sensor or Humidistat
Connections —
Space Relative Humidity Sensor connections: The
accessory space relative humidity sensor (33ZCSENSRH-01)
is installed on an interior wall to measure the relative
humidity of the air within the occupied space.
The use of a standard 2 X 4 inch electrical box to
accommodate the wiring is recommended for installation.
The sensor can be mounted directly on the wall, if
acceptable by local codes.
TB3-7
TB3-13
!
CAUTION
UNIT DAMAGE HAZARD
Failure to follow this caution may result in
permanent damage to the sensor.
Io Vin Gnd Vo
DO NOT clean or touch the sensing element with
chemical solvents as they can permanently damage the
sensor.
!
CAUTION
C11085
Fig. 51 - Space Relative Humidity Sensor Connection
UNIT PERFORMANCE HAZARD
Failure to follow this caution will result in inaccurate
sensor readings.
The power for the sensor is provided by the PremierLink
control on terminal J5-4 (+33 to +35vdc).
To wire the sensor:
DO NOT mount the sensor in drafty areas such as near
heating or air-conditioning ducts, open windows, fans,
or over heat sources such as baseboard heaters,
radiators, or wall-mounted dimmers. Sensors mounted
in those areas will produce inaccurate readings.
1. At the sensor, remove 4 inches of the jacket from the
1
cable. Strip /4 inch of insulation from each conduct-
or. Route the cable through the wire clearance open-
ing in the center of the sensor. See Fig. 50.
2. Connect a field-supplied BLACK wire to the sensor
screw terminal marked Vin.
3. Connect a field-supplied RED wire into the sensor
screw terminal marked Io.
If the sensor is installed directly on a wall service, install the
humidity sensor using 2 screws and 2 hollow wall anchors
(field supplied). Do not over tighten screws. See Fig. 50.
4. Connect the field-supplied RED wire from the sensor
to TB3-13.
5. Connect the field-supplied BLACK wire from the
sensor to TB3-7.
MOUNTING
HOLES
WIRING
OPENING
Io
Vin Gnd
Vo
Humidistat connections: A humidistat can not be directly
connected to the PremierLink controller. Follow the
instructions on pages 24 & 25 to connect a humidistat or a
thermostat as an electromechanical device.
3 SW2
6
5
4
1
2
O N
Fig. 50 - Space Relative Humidity Sensor InstallaCti1o10n84
33
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Smoke Detector/Fire Shutdown (FSD) —
Connect one side of the switch’s NO contact set to CTB’s
THERMOSTAT-R terminal. Connect the other side of the
NO contact set to TB3-8. Setpoint for Supply Fan Status
is set at the switch. See Fig. 53.
This function is available only when PremierLink is
configured for (Space) Sensor Mode. The unit is
factory-wired for PremierLink FSD operation when
PremierLink is factory-installed.
Fan (Pressure) Switch (NO, close on rise in pressure)
CTB
On 48HC units equipped with factory-installed Smoke
Detector(s), the smoke detector controller implements the
unit shutdown through its NC contact set connected to the
unit’s CTB input. The FSD function is initiated via the
smoke detector’s Alarm NO contact set. The PremierLink
communicates the smoke detector’s tripped status to the
CCN building control. See Figs. 38 and 39, the PremierLink
wiring schematics.
Thermostat
R
TB3
8
PL
J4-6
C10287
Fig. 53 - PremierLink Wiring Fan Pressure Switch
Connection
Filter Status Switch —
Remote Occupied Switch —
This function is available only when PremierLink is
configured for (Space) Sensor Mode.
The PremierLink control permits a remote timeclock to
override the control’s on-board occupancy schedule and
place the unit into Occupied mode. This function may also
provide a “Door Switch” time delay function that will
terminate cooling and heating functions after a 2-20
minute delay.
PremierLink control can monitor return filter status in two
ways: By monitoring a field-supplied/installed filter
pressure switch or via supply fan runtime hours.
Using switch input: Install the dirty filter pressure switch
according to switch manufacturer’s instructions, to
measure pressure drop across the unit’s return filters.
Connect one side of the switch’s NO contact set to CTB’s
THERMOSTAT-R terminal. Connect the other side of the
NO contact set to TB3-10. Setpoint for Dirty Filter is set
at the switch. See Fig. 52.
Connect one side of the NO contact set on the timeclock
to CTB’s THERMOSTAT-R terminal. Connect the other
side of the timeclock contact to the unit’s TB3-2 terminal.
LCTB
Remote Occupied
Thermostat
R
Filter Switch (NO, close on rising pressure (high drop))
Time Clock
TB3
2
PL
J4-12
CTB
Thermostat
C10288
R
Fig. 54 - PremierLink Wiring Remote Occupied
TB3
10
PL
J4-4
Refer to Form 33CS-67SI for additional information on
configuring the PremierLink control for Door Switch
timer function.
C10286
Fig. 52 - PremierLink Filter Switch Connection
Power Exhaust (output) —
When the filter switch’s NO contact set closes as filter
pressure drop increases (indicating dirt-laden filters), the
input signal to PremierLink causes the filter status point to
read “DIRTY”.
Connect the accessory Power Exhaust contactor coils(s)
per Fig. 55.
Power Exhaust
TB3
15
PL
J8-3
Using Filter Timer Hours: Refer to Form 33CS-67SI for
instructions on using the PremierLink Configuration
screens and on unit alarm sequence.
PER
VIO
CTB
THERMOSTAT
Supply Fan Status Switch —
C
BRN
C11158
The PremierLink control can monitor supply fan operation
through a field-supplied/installed differential pressure
switch. This sequence will prevent (or interrupt) operation
of unit cooling, heating and economizer functions until
the pressure switch contacts are closed indicating proper
supply fan operation.
Fig. 55 - PremierLink Power Exhaust Output
Connection
NOTE: The Power Exhaust and Humidi-MiZerR options
can not be used with PremierLink at the same time as both
options require connection at TB3-15 (AUX OUT).
Install the differential pressure switch in the supply fan
section according to switch manufacturer’s instructions.
Arrange the switch contact to be open on no flow and to
close as pressure rises indicating fan operation.
34
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CCN Communication Bus —
The communication bus shields must be tied together at
each system element. If the communication bus is entirely
within one building, the resulting continuous shield must
be connected to ground at only one single point. If the
communication bus cable exits from one building and
enters another building, the shields must be connected to
the grounds at a lightning suppressor in each building (one
point only).
The PremierLink controller connects to the bus in a daisy
chain arrangement. Negative pins on each component
must be connected to respective negative pins, and
likewise, positive pins on each component must be
connected to respective positive pins. The controller
signal pins must be wired to the signal ground pins.
Wiring connections for CCN must be made at the 3-pin
plug.
Connecting CCN Bus:
NOTE: When connecting the communication bus cable,
At any baud (9600, 19200, 38400 baud), the number of
controllers is limited to 239 devices maximum. Bus length
may not exceed 4000 ft (1219 m), with no more than 60
total devices on any 1000-ft section. Optically isolated
RS-485 repeaters are required every 1000 ft (305 m).
a
color code system for the entire network is
recommended to simplify installation and checkout. See
Table 8 for the recommended color code.
Table 8 – Color Code Recommendations
NOTE: Carrier device default is 9600 baud.
CCN BUS WIRE
COLOR
CCN PLUG PIN
NUMBER
SIGNAL TYPE
Communications Bus Wire Specifications: The CCN
Communication Bus wiring is field-supplied and
field-installed. It consists of shielded 3-conductor cable
with drain (ground) wire. The cable selected must be
identical to the CCN Communication Bus wire used for
the entire network.
+
Ground
---
Red
White
Black
1
2
3
Connect the CCN (+) lead (typically RED) to the unit’s
TB3-12 terminal. Connect the CCN (ground) lead
(typically WHT) to the unit’s TB3-14 terminal. Connect
the CCN (-) lead (typically BLK) to the unit’s TB3-16
terminal. See Fig. 56.
See Table 7 for recommended cable.
Table 7 – Recommended Cables
MANUFACTURER
Alpha
CABLE PART NO.
2413 or 5463
A22503
CCN Bus
American
Belden
PL
J2-1
TB3
12
8772
+ (RED)
GND (WHT)
– (BLK)
Columbia
02525
TB3
14
J2-2
J2-3
NOTE: Conductors and drain wire must be at least 20
AWG, stranded, and tinned copper. Individual conductors
must be insulated with PVC, PVC/nylon, vinyl, Teflon, or
polyethylene. An aluminum/polyester 100% foil shield
and an outer jacket of PVC, PVC/nylon, chrome vinyl, or
Teflon with a minimum operating temperature range of
- 2 0 _C (-4_F) to 60_C (140_F) is required. Do not run
communication wire in the same conduit as or next to any
AC voltage wiring.
TB3
16
C10290
Fig. 56 - PremierLink CCN Bus Connections
35
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The RTU Open controller is an integrated component of the
Carrier rooftop unit. Its internal application programming
provides optimum performance and energy efficiency. RTU
Open enables the unit to run in 100% stand-alone control
mode, Carrier’s I-Vu Open network, or a Third Party
Building Automation System (BAS). On-board DIP
switches allow you to select your protocol (and baud rate) of
choice among the four most popular protocols in use today:
BACnet, Modbus, Johnson N2 and LonWorks. (See Fig. 57.)
RTU Open Control System
The RTU Open control is factory-mounted in the 48HC
unit’s main control box, to the right of the CTB. See
Fig. 37. Factory wiring is completed through harnesses
connected to the CTB. Field connections for RTU Open
sensors will be made at the Phoenix connectors on the
RTU Open board. The factory-installed RTU Open
control includes the supply-air temperature (SAT) sensor.
The outdoor air temperature (OAT) sensor is included in
the FIOP/accessory EconoMi$er2 package.
Refer to Table 9, RTU Open Controller Inputs and Outputs
for locations of all connections to the RTU Open board.
C10811
Fig. 57 - RTU Open Multi-Protocol Control Board
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C11142
Fig. 58 - RTU Open System Control Wiring Diagram
37
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C11143
Fig. 59 - RTU Open System Control Wiring Diagram with Humidi-MiZerR
38
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Table 9 – RTU Open Controller Inputs and Outputs
BACnet OBJECT
TYPE OF I/O
NAME
CONNECTION PIN
NUMBER(S)
POINT NAME
DEDICATED INPUTS
Space Temp / Zone Temp
Supply Air Temperature
Outdoor Air Temperature
Space Temperature Offset Pot
Safety Chain Feedback
Compressor Safety Status
Fire Shutdown Status
zone_temp
sa_temp
oa_temp
stpt_adj_offset
safety_status
comp_status
firedown_status
enthalpy_status
humstat_status
AI (10K Thermistor)
AI (10K Thermistor)
AI (10K Thermistor)
AI (100K Potentiometer)
DI (24 VAC)
J 2 0 --- 1 , 2
J 2 --- 1 , 2
J 2 --- 3 , 4
J 2 0 --- 3
J 1 --- 9
J 1 --- 2
J 1 --- 1 0
J 2 --- 6
DI (24 VAC)
DI (24 VAC)
DI (24 VAC)
DI (24 VAC)
Enthalpy Status
Humidistat Input Status
J 5 --- 7
CONFIGURABLE INPUTS
Indoor Air CO2
iaq
oaq
space_rh
A I ( 4 --- 2 0 m a )
A I ( 4 --- 2 0 m a )
A I ( 4 --- 2 0 m a )
DI (24 VAC)
DI (24 VAC)
DI (24 VAC)
DI (24 VAC)
Outdoor Air CO2
Space Relative Humidity
Supply Fan Status*
Filter Status*
Door Contact Input*
Occupancy Contact*
J 4 --- 2 o r J 4 --- 5
sfan_status
filter_status
door_contact_status
occ_contact_status
J 5 --- 1 o r J 5 --- 3 o r
J5 5 or J5---7
OUTPUTS
Economizer Output
econ_output
sfan
A O ( 4 --- 2 0 m a )
J 2 --- 5
J 1 --- 4
J 1 --- 8
J 1 --- 7
J 1 --- 6
J 1 --- 5
J 1 1 --- 3
J 1 1 --- 7 , 8
Supply Fan Relay State
Compressor 1 Relay State
Compressor 2 Relay State
Heat Stage 1 Relay State
Heat Stage 2 Relay State
Power Exhaust Relay State
Dehumidification Relay State
DO Relay (24VAC , 1A)
DO Relay (24VAC , 1A)
DO Relay (24VAC , 1A)
DO Relay (24VAC , 1A)
DO Relay (24VAC , 1A)
DO Relay (24VAC , 1A)
DO Relay (24VAC, 1A)
comp_1
comp_2
heat_1
heat_2
pexh
dehum
LEGEND
AI --- An al og In pu t
AO --- An al og Ou tpu t
DI --- D iscr ete In pu t
DO --- Discrete Output
*
These inputs (if installed) take the place of the default input on the specific channel according to schematic.
Par al l el pin s J 5 --- 1 = J 2 --- 6, J 5 --- 3 = J 1 --- 10, J 5 --- 5 = J 1 --- 2 ar e u sed f or f iel d --- in stal l ation .
The RTU Open controller requires the use of a Carrier
space sensor. A standard thermostat cannot be used with
the RTU Open system.
EconoMi$er2 —
The RTU Open control is used with EconoMi$er2 (option
or accessory) for outdoor air management. The damper
position is controlled directly by the RTU Open control;
EconoMi$er2 has no internal logic device.
Supply Air Temperature (SAT) Sensor —
On FIOP-equipped 48HC unit, the unit is supplied with a
supply-air temperature (SAT) sensor (33ZCSENSAT). This
sensor is a tubular probe type, approx 6-inches (12.7 mm) in
length. It is a nominal 10-k ohm thermistor.
Outdoor air management functions can be enhanced with
field-installation of these accessory control devices:
Enthalpy control (outdoor air or differential sensors)
Space CO2 sensor
Outdoor air CO2 sensor
The SAT is factory-wired. The SAT probe is wire-tied to the
supply-air opening (on the horizontal opening end) in its
shipping position. Remove the sensor for installation.
Re-position the sensor in the flange of the supply-air
opening or in the supply air duct (as required by local
Field Connections
1
codes). Drill or punch a /2-in. hole in the flange or duct.
Field connections for accessory sensors and input devices
are made the RTU Open, at plugs J1, J2, J4, J5, J11 and
J20. All field control wiring that connects to the RTU
Open must be routed through the raceway built into the
corner post as shown in Fig. 31. The raceway provides the
UL required clearance between high- and low-voltage
wiring. Pass the control wires through the hole provided in
the corner post, then feed the wires thorough the raceway
Use two field-supplied, self-drilling screws to secure the
sensor probe in a horizontal orientation. See Fig. 40.
Outdoor Air Temperature (OAT) Sensor —
The OAT is factory-mounted in the EconoMi$er2 (FIOP or
accessory). It is a nominal 10k ohm thermistor attached to
an eyelet mounting ring.
39
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to the RTU Open. Connect to the wires to the removable
Phoenix connectors and then reconnect the connectors to
the board.
Connect T
-59: The T-59 space sensor requires a
separate, isolated power supply of 24 VAC. See Fig. 62
for internal connections at the T-59. Connect the SEN
terminal (BLU) to RTU Open J20-1. Connect the COM
terminal (BRN) to J20-2. Connect the SET terminal (STO
or BLK) to J20-3.
Space Temperature (SPT) Sensors —
There are two types of SPT sensors available from Carrier,
resistive input non-communicating (T55, T56, and T59)
and Rnet communicating (SPS, SPPL, SPP, and SPPF)
sensors. Each type has a variety of options consisting of:
timed override button, set point adjustment, a LCD
screen, and communication tie in. Space temperature can
be also be written to from a building network or zoning
system. However, it is still recommended that return air
duct sensor be installed to allow stand-alone operation for
back-up. Refer to the configuration section for details on
controller configurations associated with space sensors.
BLK (STO)
J20-3
BRN (COM)
SENSOR
J20-2
WIRING
BLU (SPT)
J20-1
OR
SET SEN
S 33ZCT55SPT, space temperature sensor with override
button (T-55)
OPB COM- PWR+
S 33ZCT56SPT, space temperature sensor with override
button and setpoint adjustment (T-56)
S 33ZCT59SPT, space temperature sensor with LCD
(liquid crystal display) screen, override button, and
setpoint adjustment (T-59)
POWER
WIRING
24 VAC
NOTE: Must use a separate isolated transformer.
C10291
Use 20 gauge wire to connect the sensor to the controller.
The wire is suitable for distances of up to 500 ft. (152 m).
Use a three-conductor shielded cable for the sensor and
setpoint adjustment connections. If the setpoint
adjustment (slidebar) is not required, then an unshielded,
18 or 20 gauge, two-conductor, twisted pair cable may be
used.
Fig. 62 - Space Temperature Sensor Typical Wiring
(33ZCT59SPT)
Indoor Air Quality (CO2) Sensor —
The indoor air quality sensor accessory monitors space
carbon dioxide (CO2) levels. This information is used to
monitor IAQ levels. Several types of sensors are available,
for wall mounting in the space or in return duct, with and
without LCD display, and in combination with space
temperature sensors. Sensors use infrared technology to
measure the levels of CO2 present in the space air.
Connect T-55: See Fig. 41 for typical T-55 internal
connections. Connect the T-55 SEN terminals to RTU
Open J20-1 and J20-2. See Fig. 60.
J20-1
J20-2
SEN
SEN
The CO2 sensors are all factory set for a range of 0 to
2000 ppm and a linear mA output of 4 to 20. Refer to the
instructions supplied with the CO2 sensor for electrical
requirements and terminal locations. See Fig. 46 for
typical CO2 sensor wiring schematic.
C08460
Fig. 60 - RTU Open T-55 Sensor Connections
To accurately monitor the quality of the air in the
conditioned air space, locate the sensor near a return-air
grille (if present) so it senses the concentration of CO2
leaving the space. The sensor should be mounted in a
location to avoid direct breath contact.
Connect T-56: See Fig. 43 for T-56 internal connections.
Install a jumper between SEN and SET terminals as
illustrated. Connect T-56 terminals to RTU Open J20-1,
J20-2 and J20-3 per Fig. 61.
Do not mount the IAQ sensor in drafty areas such as near
supply ducts, open windows, fans, or over heat sources.
Allow at least 3 ft (0.9 m) between the sensor and any
corner. Avoid mounting the sensor where it is influenced
by the supply air; the sensor gives inaccurate readings if
the supply air is blown directly onto the sensor or if the
supply air does not have a chance to mix with the room air
before it is drawn into the return airstream.
SEN
SEN
J20-1
J20-2
Jumper
SET
SET
J20-3
Wiring the Indoor Air Quality Sensor: For each sensor,
use two 2-conductor 18 AWG (American Wire Gage)
twisted-pair cables (unshielded) to connect the separate
C08461
Fig. 61 - RTU Open T-56 Sensor Connections
40
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isolated 24 vac power source to the sensor and to connect
the sensor to the control board terminals.
Space Relative Humidity Sensor or Humidistat —
Humidi-MiZerR Control Wiring: In units equipped
with the Humidi-MiZer option there are two pink (PNK)
wires loose in the control box used to control the
dehumidification function of the unit. These pink wires
are meant to be tied to a space humidistat or thermidistat
on an electromechanical unit. On RTU Open equipped
units these pink wires must be connected to J11-7 & 8 to
allow the Open board to operate the dehumidification
function for the unit. Disconnect the J11 Phoenix style
connector from the board and use the plug screws to
secure the pink wires in pins 7 and 8, reconnect the plug
to the board at J11.
To connect the sensor to the control, identify the positive
(4 to 20 mA) and ground (SIG COM) terminals on the
sensor. See Fig. 46. Connect the 4-20 mA terminal to
RTU Open terminal J4-2 and connect the SIG COM
terminal to RTU Open terminal J4-3. See Fig. 63.
IAQ Sensor
4-20mA
J4-2
SIG COM
J4-3
Relative Humidity Sensors (Space or Duct Mounted):
The accessory space humidity sensor (33ZCSENSRH-01)
or duct humidity sensor (33ZCSENDRH-01) is used to
measure the relative humidity of air within the space or
return air duct. The RH reading is used to control the
Humidi-MiZer option of the rooftop unit. For wiring
distances up to 500 ft (152 m), use a 3-conductor, 18 or
20 AWG shielded cable. The shield must be removed
from the sensor end of the cable and grounded at the unit
end. The current loop power for sensor is provided by the
RTU Open controller as 24vdc. Refer to the instructions
supplied with the RH sensor for the electrical
requirements and terminal locations. RTU Open
configurations must be changed after adding an RH
sensor. See Fig. 65 and 66 for typical RH sensor wiring.
24 VAC
C10738
Fig. 63 - RTU Open / Indoor CO2 Sensor
(33ZCSENCO2) Connections
Outdoor Air Quality Sensor (PNO 33ZCSENCO2 plus
weatherproof enclosure) —
The outdoor air CO2 sensor is designed to monitor carbon
dioxide (CO2) levels in the outside ventilation air and
interface with the ventilation damper in an HVAC system.
The OAQ sensor is packaged with an outdoor cover. See
Fig. 48. The outdoor air CO2 sensor must be located in the
economizer outside air hood.
S J4-1 or J4-4 = 24vdc loop power
Wiring the Outdoor Air CO2 Sensor: A dedicated
power supply is required for this sensor. A two-wire cable
is required to wire the dedicated power supply for the
sensor. The two wires should be connected to the power
supply and terminals 1 and 2.
S J4-2 or J4-5 = 4-20mA signal input
NOTE: The factory default for dehumidification control
is normally open humidistat.
To connect the sensor to the control, identify the positive
(4 to 20 mA) and ground (SIG COM) terminals on the
OAQ sensor. See Fig. 46. Connect the 4 to 20 mA
terminal to RTU Open terminal J4-5. Connect the SIG
COM terminal to RTU Open terminal J4-6. See Fig. 64.
MOUNTING
HOLES
WIRING
Io
Gnd
Vin
Vo
OPENING
OAQ Sensor/RH Sensor
4-20mA
J4-5
J4-6
C10739
SIG COM
24 VAC
3 SW2
6
5
4
1
2
O N
Fig. 64 - RTU Open / Outdoor CO2 Sensor
(33ZCSENCO2) Connections
Vin - J4-1 or J4-4 24Vdc
Io - J4-2 or J4-5 -20mA output
C11087
Fig. 65 - Space Relative Humidity Sensor Typical Wiring
41
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J4-1 or J4-4 + 24 VDC Supply Voltage
J4-2 or J4-5 (-) 4 to 20 mA Current Loop Output
to RTU-OPEN
Relative Humidity Sensor
(Polarized Male Connector)
SPAN
ZERO
4-20 VAC GND 0-5V
mA or
VDC
or
0-10V
C10839
Fig. 66 - Duct Relative Humidity Sensor Typical Wiring
Humidistat: The accessory humidistat provides the RTU
Open insight to the relative humidity in the space. The
humidistat reads the RH level in the space and compares it
to its setpoint to operate a dry contact. The humidistat is a
dedicated input on the configurable input 9 and tells the
RTU Open when the RH level is HIGH or LOW. The
normal condition for humidity is LOW. A normally open
humidistat is the factory default control for the
Humidi-MiZerR option.
Fan Status: The fan status accessory is a field-installed
accessory. This accessory detects when the indoor fan is
blowing air. When installing this accessory, the unit must
be
configured
for
fan
status
by
setting
MENU→Config→Inputs→input 3, 5, 8, or 9 to Fan
Status and normally open (N/O) or normally closed (N/C).
Input 8 or 9 is recommended for easy of installation. Refer
to Fig. 57 and Fig. 58 or 59 for wire terminations at J5.
Remote Occupancy: The remote occupancy accessory is
a field-installed accessory. This accessory overrides the
unoccupied mode and puts the unit in occupied mode.
When installing this accessory, the unit must be
To wire in the field:
S J5-8 = 24 VAC source for dry contact
S J5-7 = Signal input
configured for
remote occupancy by setting
Smoke Detector/Fire Shutdown (FSD) —
MENU→Config→Inputs→input 3, 5, 8, or 9 to Remote
Occupancy and normally open (N/O) or normally closed
(N/C).
On 48HC units equipped with factory-installed Smoke
Detector(s), the smoke detector controller implements the
unit shutdown through its NC contact set connected to the
unit’s CTB input. The FSD function is initiated via the
smoke detector’s Alarm NO contact set. The RTU Open
controller communicates the smoke detector’s tripped status
to the BAS building control. See Figs. 58 and 59, the RTU
Open wiring schematics.
Also set MENU→Schedules→occupancy source to DI
on/off. Input 8 or 9 is recommended for easy of
installation. Refer to Fig. 57 and Table 9 for wire
terminations at J5.
Power Exhaust (output): The relay used by the RTU
Open board to control power exhaust is a dry contact
which means it does not have 24vac. This 24vac must be
connected to the relay to allow it to operate the power
exhaust relay in the PE accessory. A 24vac source must be
provided to J11-2 on the RTU Open control board. This
can be provided by the unit’s transformer from various
sources. The “R” terminal on the unit’s low voltage
terminal board (LVTB) is a logical source. Refer to Fig.
57 and Fig. 58 or 59 for wire terminations at J11.
The
Fire
Shutdown
Switch
configuration,
identifies the
MENU→Config→Inputs→input 5,
normally open status of this input when there is no fire
alarm.
Connecting Discrete Inputs —
Filter Status: The filter status accessory is
a
field-installed accessory. This accessory detects plugged
filters. When installing this accessory, the unit must be
configured
for
filter
status
by
setting
MENU→Config→Inputs→input 3, 5, 8, or 9 to Filter
Status and normally open (N/O) or normally closed (N/C).
Input 8 or 9 is recommended for easy of installation. Refer
to Fig. 57 and Fig. 58 or 59 for wire terminations at J5.
42
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The RTU Open can be set to communicate on four
different protocols: BACnet, Modbus, N2, and LonWorks.
Switch 3 (SW3) on the board is used to set protocol and
baud rate. Switches 1 and 2 (SW1 and SW2) are used to
set the board’s network address. See Fig. 67 and 68 for
protocol switch settings and address switches. The 3rd
party connection to the RTU Open is through plug J19.
See Fig. 69 for wiring.
NOTE: Power must be cycled after changing the SW1-3
switch settings.
Refer to the RTU Open Controller Integration Guide
(Catalog No. 11-808-428-01) for more detailed information
on protocols, 3rd party wiring, and networking.
Communication Wiring -- Protocols
General —
Protocols are the communication languages spoken by
control devices. The main purpose of a protocol is to
communicate information in the most efficient method
possible. Different protocols exist to provide different
kinds of information for different applications. In the BAS
application, many different protocols are used, depending
on manufacturer. Protocols do not change the function of
a controller; just make the front end user different.
SW3 Protocol Selection
DS6 DS5
PROTOCOL
DS8
DS7
DS4
DS3
DS2
DS1
BACnet MS/TP
(Master)
Unused
OFF
OFF
OFF
ON
OFF
Select Baud Select Baud
Select Baud Select Baud
Modbus
(Slave)
Unused
OFF
OFF
ON
ON
OFF
N2
Unused
Unused
OFF
ON
OFF
ON
OFF
OFF
ON
ON
ON
OFF
OFF
OFF
OFF
(Slave)
LonWorks
OFF
NOTE:
DS = Dip Switch
BACnet MS/TP SW3 example shown
Baud Rate Selections
BAUD RATE
9600
DS2
OFF
ON
DS1
OFF
OFF
ON
19,200
38,400
OFF
ON
76,800
ON
C07166
Fig. 67 - RTU Open SW3 Dip Switch Settings
C10815
Fig. 68 - RTU Open Address Switches
C10816
Fig. 69 - Network Wiring
43
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Local Access —
Virtual BACview: Virtual BACview is a freeware computer
program that functions as the BACview6 Handheld. The
USB Link interface (USB-L) is required to connect a
computer to the RTU Open board. The link cable connects
a USB port to the J12 local access port. This program
functions and operates identical to the handheld.
BACview6 Handheld: The BACview6 is a keypad/display
interface used to connect to the RTU Open to access the
control information, read sensor values, and test the RTU,
see Fig. 70. This is an accessory interface that does not
come with the RTU Open controller and can only be used
at the unit. Connect the BACview6 to the RTU Open J12
local access port. There are 2 password protected levels in
the display (User and Admin). The user password is
defaulted to 0000 but can be changed. The Admin
password is 1111 and cannot be changed. There is a 10
minute auto logout if a screen is idle. See Form
48-50HCTQ-01T, Appendix A for navigation and screen
content.
RTU Open Troubleshooting —
Communication LEDs: The LEDs indicate if the
controller is speaking to the devices on the network. The
LEDs should reflect communication traffic based on the
baud rate set. The higher the baud rate the more solid the
LEDs will appear. See Table 10.
Access Port
P1 P1
Protocol Selector
RTU Open
J12
P5 P5
Cable
BACview6 Local Access Cable
C10812
Fig. 70 - BACview6 Handheld Connections
44
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Table 10 – LEDs
The LEDs on the RTU Open Control Board (see Fig. 57) show the status of certain functions:
If this LED is on...
Status is...
Power
Rx
Tx
RTU Open has power
RTU Open is receiving data from the network segment
RTU Open is transmitting data over the network segment
The digital output is active
DO#
The Run and Error LEDs indicate control module and network status
If Run LED shows...
And Error LED shows...
Status is...
2 flashes per second
Off
Normal
2 flashes,
2 flashes per second
2 flashes per second
2 flashes per second
2 flashes per second
Five minute auto---restart delay after system error
Control module has just been formatted
alternating with Run LED
3 flashes,
then off
4 flashes,
then pause
Two or more devices on this network have the
same ARC156 network address
Exec halted after frequent system errors or
control programs halted
On
5 flashes per second
5 flashes per second
On
Off
Exec start---up aborted, Boot is running
Firmware transfer in progress, Boot is running
7 flashes per second, alternating with
7 flashes per second
14 flashes per second
Ten second recovery period after brownout
Run LED
14 flashes per second,
alternating with Run LED
Brownout
Failure. Try the following solutions:
S
S
S
S
Turn RTU Open off, then on.
Format RTU Open.
Download memory to RTU Open.
Replace RTU Open.
On
On
NOTE:
Refer to Catalog No. 48-50HCTQ-01T for
Enthalpy
Switch
complete configuration of RTU Open, operating sequences
and troubleshooting information. Refer to RTU Open
Controller Integration Guide (Catalog No. 11-808-428-01)
for details on configuration and troubleshooting of connected
networks. Have a copy of these manuals available at unit
start-up.
24V
RED
BLK
PL6-1 (24-V)
PL6-4 (COM)
GND
LOW
GRA
7
CTB ECON
(P’LINK: to J4-2) or
(RTU Open: to J2-6)
Outdoor Air Enthalpy Control
(PNO 33CSENTHSW)
Factory Wiring Harness
C11160
Fig. 71 - Enthalpy Switch (33CSENTHSW) Connections
The enthalpy control (33CSENTHSW) is available as a
field-installed accessory to be used with the EconoMi$er2
damper system. The outdoor air enthalpy sensor is part of
the enthalpy control. (The separate field-installed
accessory return air enthalpy sensor (33CSENTSEN) is
required for differential enthalpy control. See Fig. 71.)
The outdoor enthalpy changeover setpoint is set at the
enthalpy controller.
Differential Enthalpy Control —
Differential enthalpy control is provided by sensing and
comparing the outside air and return air enthalpy
conditions. Install the outdoor air enthalpy control as
described above. Add and install a return air enthalpy
sensor (see Fig. 72).
Locate the enthalpy control in the economizer next to the
Actuator Motor. Locate two GRA leads in the factory
harness and connect the gray lead labeled “ESL” to the
terminal labeled “LOW”. See Fig. 71. Connect the
enthalpy control power input terminals to economizer
actuator power leads RED (connect to 24V) and BLK
(connect to GND).
45
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Return Air Sampling Tube
(Shipping Location)
24V
RED
PL6-1 (24-V)
PL6-4 (COM)
– 4-20
Main
BLK
GND
LOW
+ VDC
Out
CTB ECON
(P’LINK: to J4-2) or
(RTU Open: to J2-6)
GRA
7
Outside Air
Enthalpy Switch
+ 24-36
Return Air
Enthalpy
Sensor
VDC In
– 4-20 Main
Out
C11161
C09102
Fig. 72 - Outside and Return Air Enthalpy Sensor
Wiring
Fig. 73 - Typical Supply Air Smoke Detector Sensor
Location
To wire the return air enthalpy sensor, perform the
following:
1. Use a 2-conductor, 18 or 20 AWG, twisted pair cable
to connect the return air enthalpy sensor to the enthal-
py controller.
2. Connect the field-supplied RED wire to (+) spade
connector on the return air enthalpy sensor and the
(+) terminal on the enthalpy controller. Connect the
BLK wire to (-) spade connector on the return air en-
thalpy sensor and the (-) terminal on the enthalpy
controller.
Smoke Detectors
Return Air Detector
Sampling Tube
Smoke detectors are available as factory-installed options
on 48HC models. Smoke detectors may be specified for
Supply Air only or for Return Air without or with
economizer or in combination of Supply Air and Return
Air. Return Air smoke detectors are arranged for vertical
return configurations only. The unit is factory-configured
for immediate smoke detector shutdown operation;
additional wiring or modifications to unit terminal board
may be necessary to complete the unit and smoke detector
configuration to meet project requirements.
C09135
Fig. 74 - Return Air Sampling Tube Location
in Unit without Economizer
Return Air Sensor Tube Installation –
The return air sampling tube is shipped in the unit s
supply fan section, attached to the blower housing (see
Fig. 73. Its operating location is in the return air section
of the unit (see Fig. 74, unit without economizer, or
Fig. 75, unit with economizer), inserted into the return air
sensor module housing which protrudes through the back
of the control box.
Return Air Detector
Sampling Tube
C09136
Fig. 75 - Return Air Sampling Tube Location
in Unit with Economizer
46
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To install the return air sensor sampling tube:
Smoke Detector Test Magnet —
1. Remove the tube from its shipping location.
2. Open the unit end to access the return air sensor (loc-
ated on right-hand partition)
Locate the magnet; it is shipped in the control box area.
Additional Application Data —
3. Orient the tube’s sampling holes into the return air
flow direction. For vertical application, position the
sampling holes on the bottom of the tube, facing into
the bottom return duct opening. For horizontal applic-
ation, position the sampling holes on the side of the
tube, facing the unit’s end panel.
Refer to Catalog No. HKRNKA-1XA for discussions on
additional control features of these smoke detectors
including multiple unit coordination.
4. Insert the sampling tube into the return air sensor
module until the tube snaps into position.
5. Replace end panel or outside air hood.
Table 11 – Unit Wire/Fuse or HACR Breaker Sizing Data
COMBUSTION
FAN MOTOR
POWER
EXHAUST
NO C.O. or UNPWR C.O.
NO P.E.
FUSE or
w/ P.E. (pwrd fr/ unit)
NOM.
V --- P h --- H z
IFM
TYPE
FUSE or
HACR
BRKR
DISC. SIZE
DISC. SIZE
FLA
FLA
MCA
MCA
HACR
BRKR
FLA
LRA
FLA
LRA
STD
MED
HIGH
68.3
71.0
75.8
90.0
90.0
71
74
80
393
410
419
80.1
82.8
87.6
100.0
100.0
100.0
85
88
93
413
430
439
208/230---3---60
460 --- 3 --- 60
0.52
0.3
5.9
3.1
2.4
5.9
3.1
2.4
5.9
3.1
2.4
5.9
3.1
2.4
100.0
STD
MED
HIGH
34.9
36.3
38.9
45.0
45.0
50.0
36
38
41
234
243
247
41.1
42.5
45.1
50.0
50.0
50.0
44
45
48
246
255
259
STD
MED
HIGH
26.2
26.2
29
30.0
30.0
35
27
27
31
184
184
198
31.0
31.0
33.8
40.0
40.0
40
33
33
36
192
192
206
575 --- 3 --- 60
0.24
0.52
0.3
STD
MED
HIGH
75.7
80.5
85.9
100
100
100
79
85
91
440
449
459
87.5
92.3
97.7
100
100
125
93
98
460
469
479
208/230---3---60
460 --- 3 --- 60
104
STD
MED
HIGH
36.6
39.2
42
45
50
50
38
41
45
245
249
254
42.8
45.4
48.2
50
50
60
46
49
52
257
261
266
STD
MED
HIGH
26.2
29
30
35
40
27
31
35
186
200
198
31
40
40
45
33
36
40
194
208
206
33.8
37.2
575 --- 3 --- 60
0.24
0.52
0.3
32.4
STD
MED
HIGH
88.7
94.1
100.0
110
93
544
554
628
100.5
105.9
119.4
125.0
125
107
113
128
564
574
648
100
114
208/230---3---60
460 --- 3 --- 60
107.6
125
150
STD
MED
HIGH
48.6
51.4
57.4
60.0
60
51
54
61
277
282
319
54.8
57.6
63.6
60.0
70
58
61
68
289
294
331
70
80
STD
MED
HIGH
35.5
38.9
39.4
45.0
50
37
41
42
204
202
229
40.3
43.7
44.2
50.0
50
43
47
47
212
210
237
575 --- 3 --- 60
0.24
0.52
0.3
50
50
STD
MED
HIGH
117.4
122.8
135.5
150.0
150
121
127
142
584
594
668
129.2
134.6
147.3
175.0
175
135
141
156
604
614
688
208/230---3---60
460 --- 3 --- 60
175
175
STD
MED
HIGH
54.0
56.8
62.8
60.0
70
57
60
67
303
308
345
60.2
63
70.0
80
64
67
74
315
320
357
80
69
80
STD
MED
HIGH
40.4
43.8
44.3
50.0
50
42
46
47
228
226
253
45.2
48.6
49.1
50.0
60
48
52
52
236
234
261
575 --- 3 --- 60
0.24
50
60
NOTE: See page 49 for table legend and notes.
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Table 11 - Unit Wire/Fuse or HACR Breaker Sizing Data (cont)
w/ PWRD C.O.
COMBUSTION
FAN MOTOR
POWER
EXHAUST
NO P.E.
FUSE or
HACR
BRKR
w/ P.E. (pwrd fr/ unit)
FUSE or
NOM.
V --- P h --- H z
IFM
TYPE
DISC. SIZE
DISC. SIZE
FLA
FLA
MCA
MCA
HACR
BRKR
FLA
LRA
FLA
LRA
STD
MED
HIGH
73.1
75.8
80.6
90.0
100.0
100.0
77
80
85
398
415
424
84.9
87.6
92.4
100.0
100.0
100.0
90
93
99
418
435
444
208/230---3---60
460 --- 3 --- 60
0.52
5.9
STD
MED
HIGH
37.1
38.5
41.1
45.0
50.0
50.0
39
41
44
236
245
249
43.3
44.7
47.3
50.0
50.0
60.0
46
48
51
248
257
261
0.3
0.24
0.52
0.3
3.1
2.4
5.9
3.1
2.4
5.9
3.1
2.4
5.9
3.1
2.4
STD
MED
HIGH
27.9
27.9
30.7
35.0
35.0
40.0
29
29
33
186
186
200
32.7
32.7
35.5
40.0
40.0
45.0
35
35
38
194
194
208
575 --- 3 --- 60
STD
MED
HIGH
80.5
85.3
90.7
100
100
100
85
90
96
445
454
464
92.3
97.1
100
110
125
98
465
474
484
104
110
208/230---3---60
460 --- 3 --- 60
102.5
STD
MED
HIGH
38.8
41.4
44.2
50
50
50
41
44
47
247
251
256
45
50
60
60
48
51
54
259
263
268
47.6
50.4
STD
MED
HIGH
27.9
30.7
34.1
35
40
40
29
33
36
188
202
200
32.7
35.5
38.9
40
45
45
35
38
42
196
210
208
575 --- 3 --- 60
0.24
0.52
0.3
STD
MED
HIGH
93.5
98.9
110.0
125
99
549
559
633
105.3
110.7
124.2
125.0
125
112
119
133
569
579
653
105
120
208/230---3---60
460 --- 3 --- 60
112.4
125
150
STD
MED
HIGH
50.8
53.6
59.6
60.0
60
54
57
64
279
284
321
57.0
59.8
65.8
70.0
70
61
64
71
291
296
333
70
80
STD
MED
HIGH
37.2
40.6
41.1
45.0
50
39
43
44
206
204
231
42.0
45.4
45.9
50.0
50
45
49
49
214
212
239
575 --- 3 --- 60
0.24
0.52
0.3
50
50
STD
MED
HIGH
122.2
127.6
140.3
150.0
175
127
133
148
589
599
673
134.0
139.4
152.1
175.0
175
140
147
161
609
619
693
208/230---3---60
460 --- 3 --- 60
175
200
STD
MED
HIGH
56.2
59
70.0
70
59
62
69
305
310
347
62.4
65.2
71.2
80.0
80
66
70
76
317
322
359
65
80
80
STD
MED
HIGH
42.1
45.5
46
50.0
60
44
48
49
230
228
255
46.9
50.3
50.8
60.0
60
50
54
54
238
236
263
575 --- 3 --- 60
0.24
60
60
NOTE: See page 49 for table legend and notes.
48
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Legend and Notes for Table 11
LEGEND:
Example: Supply voltage is 230-3-60
BRKR
CO
--- Circuit breaker
AB = 224 v
BC = 231 v
AC = 226 v
--- Convenience outlet
--- Disconnect
DISC
FLA
--- Full load amps
LRA
--- Locked rotor amps
--- Minimum circuit amps
--- Po w e r e x h a u st
MCA
(224 + 231 + 226)
681
3
Average Voltage =
3
=
P E
PWRD CO
UNPWR CO
NOTES:
--- Powered convenient outlet
--- Unpowered convenient outlet
=
227
Determine maximum deviation from average voltage.
(AB) 227 – 224 = 3 v
(BC) 231 – 227 = 4 v
(AC) 227 – 226 = 1 v
Maximum deviation is 4 v.
1. In compliance with NEC requirements for multimotor and
combination load equipment (refer to NEC Articles 430 and
440), the overcurrent protective device for the unit shall be
fuse or HACR breaker. Canadian units may be fuse or circuit
breaker.
Determine percent of voltage imbalance.
2. Unbalanced 3-Phase Supply Voltage
Never operate a motor where a phase imbalance in supply
voltage is greater than 2%. Use the following formula to de-
termine the percentage of voltage imbalance.
4
% Voltage Imbalance
= 100 x
= 1.76%
227
max voltage deviation from average voltage
This amount of phase imbalance is satisfactory as it is below the
maximum allowable 2%.
IMPORTANT: If the supply voltage phase imbalance is more than
2%, contact your local electric utility company immediately.
% Voltage Imbalance = 100 x
average voltage
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Unit Without Economizer or
2 Position Damper
Economizer
2 Position Damper
Fig. 76 - EconoMi$ert IV Wiring
C10645
Two-Position motorized outside air damper
EconoMi$er2 (without control/for external signal and
integrated barometric relief)
Step 13 — Adjust Factory--Installed Options
EconoMi$er IV Occupancy Switch —
Refer to Fig. 76 for general EconoMi$er IV wiring.
External occupancy control is managed through a
connection on the Central Terminal Board.
EconoMi$er IV (with control and integrated barometric
relief)
Power Exhaust
Differential dry-bulb sensor (EconoMi$er IV)
Outdoor enthalpy sensor
Differential enthalpy sensor
CO2 sensor
DDC interface (PremierLink)
Louvered hail guard
If external occupancy control is desired, connect a time
clock or remotely controlled switch (closed for Occupied,
open for Unoccupied sequence) at terminals marked
OCCUPANCY on CTB. Remove or cut jumper JMP 2 to
complete the installation.
Step 14 — Install Accessories
Available accessories include:
Roof Curb
Phase monitor control
Winter Start kit
Thru-base connection kit (must be installed before unit
is set on curb)
Refer to separate installation instructions for information
on installing these accessories.
LP conversion kit
Pre-Start and Start-Up
Manual outside air damper
High Altitude Gas kits
Low Ambient Controls
Thermostat / Sensors
This completes the mechanical installation of the unit.
Refer to the unit’s Service and Maintenance manual for
detailed Pre-Start and Start-up instructions.
50
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Catalog No: 48HC---11SI
Copyright 2011 Carrier Corp. D 7310 W. Morris St. D Indianapolis, IN 46231
Printed in U.S.A.
Edition Date: 04/11
Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations.
Replaces: 48HC---08SI
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