ClimateMaster | Console CCE Series | Service manual | ClimateMaster Console CCE Series Service manual

Console (CCE) Series
Tranquility Console
(TRC) Series
Table of Contents
Commercial Console
Water-Source Heat Pumps
50Hz & 60Hz
Installation, Operation &
Maintenance Instructions
97B0035N01
Revision: 5 Nov., 2009B
Model Nomenclature
3-4
General Information
5
Storage
6
Pre-Installation
6
Physical Data
7-9
Installation
10
Condensate Piping
11
Piping Connection
12-14
Piping Installation
15
Water-Loop Heat Pump Applications
16
Ground-Loop Heat Pump Applications
17
Ground-Water Heat Pump Applications
18
Water Quality Standards
20
Electrical Wiring - Line Voltage
21-23
Electrical Wiring - Low Voltage
24
Thermostat Wiring
25
Electrical Wiring Diagram Matrix
26
Electrical Wiring Schematics
27-31
CXM/DXM Controls
32-34
CXM/DXM Safety Control Reset
35-36
Unit Commissioning
and Operating Conditions
37
Piping System Cleaning and Flushing
38
Unit and System Checkout Procedure
39
Unit Start-Up
40
Unit Operating Conditions
41
Preventive Maintenance
43
Functional & Performance Troubleshooting
44-45
Refrigerant Circuit Diagram
46
Warranties
47-48
Revision History
50
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Model Nomenclature: Console (CCE) Series
1 2 3
4 5
6
7
8
9
10
11
12
13
14
15
CCE 0 7 B G C A S S C S R S
Model Type
Standard
CCE = Console
S = Standard
Piping Connections
Unit Size
R = Right Piping
L = Left Piping
07
09
12
15
19
Water Circuit Options
Revision Level
C = Current
Voltage
A = 115/60/1
E = 265/60/1
G = 208-230/60/1
Controls
A = MCO Unit Mounted Tstat w/CXM
B = MCO Unit Mounted Tstat w/DXM
C = ACO Unit Mounted Tstat w/CXM
D = ACO Unit Mounted Tstat w/DXM
R = Remote Mounted Tstat w/CXM
S = Remote Mounted Tstat w/DXM
L = Remote Mounted w/CXM & LON
M = Remote Mounted w/DXM & LON
N = Remote Mounted w/CXM & MPC
P = Remote Mounted w/DXM & MPC
Power Termination
A = Field Connected (Hard Wire)
B = 20Amp Plug & Cord
D = Disconnect Switch & 15Amp Fuse
F = Disconnect Switch (Non Fused)
H = 20Amp Plug, Cord, Receptacle,
Disconnect Switch & 15Amp Fuse
K = 20Amp Plug, Cord, Receptacle &
Disconnect Switch (Non Fused)
Sweat FPT MPT
None
Motorized Water Valve
Autoflow (2.25 Gpm/Ton)
Autoflow (3.0 Gpm/Ton)
Motorized Water Valve & Afr (2.25)
Motorized Water Valve & Afr (3.0)
Secondary Circulation Pump
S
A
B
C
D
E
U
F
G
H
J
K
L
V
M
N
P
Q
R
T
W
Heat Exchanger Options
A = Copper Water Coil w/E-Coated Air Coil
C = Copper Water Coil
J = Cupro-Nickel Water Coil w/E-Coated Air Coil
N = Cupro-Nickel Water Coil
V = Copper Water Coil w/E-Coated Air Coil & Extended Range Insulation
E = Copper Water Coil w/Extended Range Insulation
M = Cupro-nickel Water Coil w/E-Coated Air Coil & Extended Range Insulation
F = Cupro-nickel Water Coil w/Extended Range Insulation
Subbase
S = 3” Subbase
D = 3” Subbase w/Motorized Damper
G = 5” Subbase
H = 5” Subbase w/Motorized Damper
N = None
Cabinet Construction
With UltraQuiet
M = Bottom Return
D = Bottom Return w/Locking Control Door
B = Front Return
E = Front Return w/Locking Control Door
C = No Cabinet BR Chassis Only
J = No Cabinet FR Chassis Only
Without UltraQuiet
S = Bottom Return
L = Bottom Return w/Locking Control Door
F = Front Return
G = Front Return w/Locking Control Door
N = No Cabinet BR Chassis Only
H = No Cabinet FR Chassis Only
Rev.: 8 Aug, 2008B
c l i m a t e m a s t e r. c o m
3
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Model Nomenclature: Tranquility Console (TRC) Series (60Hz)
1 2 3
4 5
6
8
7
9
10
11
12
13
14
15
TRC 0 9 A G C A S S C S R S
Model Type
Standard
TRC = Console
S = Standard
Piping Connections
Unit Size
R = Right Piping
L = Left Piping
V = Left Piping w/SS Drain Pan
W = Right Piping w/SS Drain Pan
09, 12, 15, 18
Revision Level
A = Current Revision
B = Size 09 (115V) & Size 18 (265V)
Water Circuit Options
Sweat FPT MPT
None
Motorized Water Valve
Autoflow (2.25 Gpm/Ton)
Autoflow (3.0 Gpm/Ton)
Motorized Water Valve & Afr (2.25)
Motorized Water Valve & Afr (3.0)
Secondary Circulation Pump
Voltage
G = 208-230/60/1
A = 115/60/1
E = 265/60/1
Controls
A = MCO Unit Mounted Tstat w/CXM
B = MCO Unit Mounted Tstat w/DXM
C = ACO Unit Mounted Tstat w/CXM
D = ACO Unit Mounted Tstat w/DXM
R = Remote Mounted Tstat w/CXM
S = Remote Mounted Tstat w/DXM
L = Remote Mounted w/CXM & LON
M = Remote Mounted w/DXM & LON
N = Remote Mounted w/CXM & MPC
P = Remote Mounted w/DXM & MPC
S
A
B
C
D
E
U
F
G
H
J
K
L
V
M
N
P
Q
R
T
W
Heat Exchanger Options
A = Copper Water Coil w/E-Coated Air Coil
C = Copper Water Coil
J = Cupro-Nickel Water Coil w/E-Coated Air Coil
N = Cupro-Nickel Water Coil
V = Copper Water Coil w/E-Coated Air Coil & Extended Range Insulation
E = Copper Water Coil w/Extended Range Insulation
M = Cupro-nickel Water Coil w/E-Coated Air Coil & Extended Range Insulation
F = Cupro-nickel Water Coil w/Extended Range Insulation
Power Termination
Subbase
A = Field Connected (Hard Wire)
B = 20Amp Plug & Cord
D = Disconnect Switch & 15Amp Fuse
F = Disconnect Switch (Non Fused)
H = 20Amp Plug, Cord, Receptacle,
Disconnect Switch & 15Amp Fuse
K = 20Amp Plug, Cord, Receptacle &
Disconnect Switch (Non Fused)
S = 5” Subbase
H = 5” Subbase w/Motorized Damper
N = None
Cabinet Construction
With UltraQuiet
M = Bottom Return
D = Bottom Return w/Locking Control Door
B = Front Return
E = Front Return w/Locking Control Door
C = No Cabinet BR Chassis Only
J = No Cabinet FR Chassis Only
Without UltraQuiet
S = Bottom Return
L = Bottom Return w/Locking Control Door
F = Front Return
G = Front Return w/Locking Control Door
N = No Cabinet BR Chassis Only
H = No Cabinet FR Chassis Only
Rev.: 29 July, 2009B
Model Nomenclature: Tranquility Console (TRC) Series (50Hz)
1 2 3
4 5
6
8
TRC
12 B V E F S S E S R S
7
9
10
11 12
13
14
SERIES
15
S = STANDARD
TRC = Tranquility Console
PIPING CONNECTIONS
UNIT SIZE
R = Right Piping
L = Left Piping
09
12
15
18
WATER CIRCUIT OPTIONS Sweat FPT MPT
None
Motorized Water Valve
AutoFlow (2.25 gpm/ton)
AutoFlow (3.0 gpm/ton)
Motorized Water Valve & AFR (2.25)
Motorized Water Valve & AFR (3.0)
REVISION LEVEL
B = Current Revision
VOLTAGE
V = 220-240/50/1
CONTROLS
E = MCO Unit Mounted Tstat w/CXM
F = ACO Unit Mounted Tstat w/CXM
J = MCO Unit Mounted Tstat w/DXM
K = ACO Unit Mounted Tstat w/DXM
Q = Remote Mounted Tstat w/CXM
G = Remote Mounted Tstat w/DXM
H = Remote Mounted LON w/CXM
V = Remote Mounted LON w/DXM
T = Remote Mounted MPC w/CXM
U = Remote Mounted MPC w/DXM
S
A
B
C
D
E
F
G
H
J
K
L
M
N
P
Q
R
T
HEAT EXCHANGER OPTIONS
A = Copper Water Coil w/E-Coated Air Coil
C = Copper Water Coil w/Non-Coated Air Coil
J = Cupro-Nickel Water Coil w/E-Coated Air Coil
N = Cupro-Nickel Water Coil w/Non-Coated Air Coil
V = Copper Water Coil w/E-Coated Air Coil & Extended Range Insulation
E = Copper Water Coil w/Non-Coated Air Coil & Extended Range Insulation
M = Cupro-Nickel Water Coil w/E-Coated Air Coil & Extended Range Insulation
F = Cupro-Nickel Water Coil w/Non-Coated Air Coil & Extended Range Insulation
CE Mark
SUBBASE
POWER TERMINATION & OPTIONS
OPTION
A
B
D
F
H
K
FIELD
CONNECTED
(HARD WIRE)
X
-
20 Amp
PLUG &
CORD
X
X
X
DISCONNECT 15 Amp
FUSE
SWITCH
X
X
X
X
X
X
-
RECEPTACLE
X
X
S = 5” Subbase (Black)
H = 5” Subbase w/Motorized Damper
N = None
CABINET
S = Bottom Return (Standard)
L = Bottom Return w/Locking Control Door (Standard)
F = Front Return (Standard)
G = Front Return w/Locking Control Door (Standard)
N = No Cabinet Chassis Only (Standard)
Rev.: 21 Nov, 2007J
4
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
General Information
Safety
Warnings, cautions and notices appear throughout this manual.
Read these items carefully before attempting any installation,
service or troubleshooting of the equipment.
DANGER: Indicates an immediate hazardous situation, which
if not avoided will result in death or serious injury. DANGER
labels on unit access panels must be observed.
CAUTION: Indicates a potentially hazardous situation or an
unsafe practice, which if not avoided could result in minor or
moderate injury or product or property damage.
NOTICE: Notification of installation, operation or maintenance
information, which is important, but which is not hazardrelated.
WARNING: Indicates a potentially hazardous situation, which if
not avoided could result in death or serious injury.
WARNING!
WARNING!
WARNING! All refrigerant discharged from this unit must be
recovered WITHOUT EXCEPTION. Technicians must follow
industry accepted guidelines and all local, state, and federal
statutes for the recovery and disposal of refrigerants. If a
compressor is removed from this unit, refrigerant circuit oil will
remain in the compressor. To avoid leakage of compressor oil,
refrigerant lines of the compressor must be sealed after it is
removed.
WARNING! Verify refrigerant type before proceeding. Units
are shipped with R-22, R-407c and R-410A (EarthPure®)
refrigerants. The unit label will indicate which refrigerant is
provided. The EarthPure® Application and Service Manual
should be read and understood before attempting to service
refrigerant circuits with R-407c or R-410A.
WARNING!
WARNING! To avoid the release of refrigerant into the
atmosphere, the refrigerant circuit of this unit must be
serviced only by technicians who meet local, state, and
federal proficiency requirements.
CAUTION!
CAUTION! To avoid equipment damage, DO NOT use
these units as a source of heating or cooling during the
construction process. The mechanical components and
filters will quickly become clogged with construction dirt
and debris, which may cause system damage.
c l i m a t e m a s t e r. c o m
5
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
General Information
Inspection
Upon receipt of the equipment, carefully check the
shipment against the bill of lading. Make sure all units
have been received. Inspect the packaging of each unit,
and inspect each unit for damage. Insure that the carrier
makes proper notation of any shortages or damage on all
copies of the freight bill and completes a common carrier
inspection report. Concealed damage not discovered
during unloading must be reported to the carrier within
15 days of receipt of shipment. If not filed within 15 days,
the freight company can deny the claim without recourse.
Note: It is the responsibility of the purchaser to file all
necessary claims with the carrier. Notify your equipment
supplier of all damage within fifteen (15) days of shipment.
3. Verify refrigerant tubing is free of kinks or dents and
that it does not touch other unit components.
4. Inspect all electrical connections. Connections must
be clean and tight at the terminals.
5. Remove any blower support packaging.
6. Loosen compressor bolts on units equipped with
compressor spring vibration isolation until the
compressor rides freely on the springs. Remove
shipping restraints.
7. REMOVE COMPRESSOR SUPPORT PLATE 1/4”
SHIPPING BOLTS (2 on each side) TO MAXIMIZE
VIBRATION AND SOUND ATTENUATION.
Storage
Equipment should be stored in its original packaging in
a clean, dry area. Store units in an upright position at all
times. Stack units a maximum of 3 units high.
CAUTION! DO NOT store or install units in corrosive
environments or in locations subject to temperature or
humidity extremes (e.g., attics, garages, rooftops, etc.).
Corrosive conditions and high temperature or humidity can
significantly reduce performance, reliability, and service life.
Always move and store units in an upright position. Tilting
units on their sides may cause equipment damage.
Unit Protection
Cover units on the job site with either the original
packaging or an equivalent protective covering. Cap
the open ends of pipes stored on the job site. In areas
where painting, plastering, and/or spraying has not been
completed, all due precautions must be taken to avoid
physical damage to the units and contamination by foreign
material. Physical damage and contamination may prevent
proper start-up and may result in costly equipment cleanup.
Examine all pipes, fittings, and valves before installing
any of the system components. Remove any dirt or
debris found in or on these components.
CAUTION!
CAUTION!
CAUTION! CUT HAZARD - Failure to follow this caution
may result in personal injury. Sheet metal parts may have
sharp edges or burrs. Use care and wear appropriate
protective clothing, safety glasses and gloves when
handling parts and servicing heat pumps.
NOTICE! Failure to remove shipping brackets from springmounted compressors will cause excessive noise, and could
cause component failure due to added vibration.
Pre-Installation
Installation, Operation, and Maintenance instructions
are provided with each unit. Horizontal equipment is
designed for installation above false ceiling or in a ceiling
plenum. Other unit configurations are typically installed
in a mechanical room. The installation site chosen
should include adequate service clearance around the
unit. Before unit start-up, read all manuals and become
familiar with the unit and its operation. Thoroughly check
the system before operation.
Prepare units for installation as follows:
1. Compare the electrical data on the unit nameplate
with ordering and shipping information to verify that
the correct unit has been shipped.
2. Keep the cabinet covered with the original packaging
until installation is complete and all plastering,
painting, etc. is finished.
6
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Physical Data
Console (CCE) Series
Model
07
09
12
Compressor (1 Each)
Factory Charge R22 (oz) [kg]
15
19
Rotary
16 [0.454]
16 [0.454]
21 [0.595]
27 [0.765]
24 [0.680]
1/20 [27]
1/15 [50]
1/15 [50]
1/6 [124]
1/6 [124]
5-1/4 x 6-1/4
[133 x 159]
5-1/4 x 6-1/4
[133 x 159]
5-1/4 x 6-1/4
[133 x 159]
5-1/4 x 6-1/4
[133 x 159]
5-1/4 x 6-1/4
[133 x 159]
5/8 [15.9]
5/8 [15.9]
5/8 [15.9]
5/8 [15.9]
5/8 [15.9]
Optional IPT Fittings (in)
1/2
1/2
1/2
1/2
1/2
Optional EPT Fittings (in)
1/2
1/2
1/2
1/2
1/2
5/8 [15.9]
5/8 [15.9]
5/8 [15.9]
5/8 [15.9]
5/8 [15.9]
PSC Fan Motor & Blower (3 Speeds)
Fan Motor (hp) [W]
Blower Wheel Size (dia x w) (in) [mm]
Water Connection Size
O.D. Sweat (in) [mm]
Condensate Connection Size
I.D. Vinyl Hose (In) [mm]
Air Coil Size
Dimensions (h x w) - (in) [mm]
8 x 26 [20.3 x 66.0]
10 x 26 [25.4 x 66.0]
Filter Size
Bottom Return (in) [cm]
1 - 8 x 29-1/2 x 3/8 [20.3 x 74.9 x 0.95]
Front Return (In) [cm]
1 - 7 x 29-1/2 x 1/8 [17.8 x 74.9 x 0.32]
Cabinet Size
Bottom Return (Std. 3" Base)
(W x H x D) - (In) [cm]
48 x 24 x 12 [121.9 x 61.0 x 30.5]
Bottom Return (Std. 5" Base)
(W x H x D) - (In) [cm]
48 x 26 x 12 [121.9 x 66.0 x 30.5]
Bottom Return (No Subbase)
(W x H x D) - (In) [cm]
48 x 21 x 12 [121.9 x 53.3 x 30.5]
Unit Weight
Weight - Operating, (lbs) [kg]
173 [78.5]
177 [80.3]
187 [84.5]
193 [87.5]
198 [89.8]
Weight - Packaged, (lbs) [kg]
181 [82.1]
185 [83.9]
195 [88.5]
201 [91.2]
206 [93.4]
c l i m a t e m a s t e r. c o m
7
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Physical Data
Tranquility Console (TRC) Series (60Hz)
Model
09
12
15
18
28 [0.794]
29 [0.822]
33 [0.907]
39 [1.105]
1/12 [62]
1/8 [93]
1/8 [93]
Compressor (1 Each)
Factory Charge R410A (oz) [kg]
PSC Fan Motor & Blower (3 Speeds)
Fan Motor (hp) [W]
1/20 [37]
Blower Wheel Size (dia x w) (in) [mm] - Qty 2
5.25 x 6.25 [133 x 159]
Water Connection Size
O.D. Sweat (in) [mm]
1/2 [12.7]
3/4 [19.1]
Optional IPT Fittings (in)
1/2
3/4
Optional EPT Fittings (in)
1/2
3/4
Condensate Connection Size
I.D. Vinyl Hose (In) [mm]
5/8 [15.9]
Air Coil Size
Dimensions (h x w) - (in) [mm]
8 x 26
[203 x 660]
10 x 26 [254 x 660]
10 x 32
[254 x 812]
Filter Size
1 - 10 x 30 x 1 [254 x 762 x 25]
1 - 10 x 36 x 1
[254 x 914 x 25]
1 - 7 x 29.5 x 1/8 [178 x 749 x 3.2]
1 - 7 x 35.5 x 1/8
[178 x 902 x 3.2]
Bottom Return (Std. 5" Base)
(W x H x D) - (In) [mm]
48 x 26 x 12 [1219 x 660 x 305]
54 x 26 x 12
[1372 x 660 x 305]
Front Return (No Subbase)
(W x H x D) - (In) [mm]
48 x 21 x 12 [1219 x 533 x 305]
54 x 21 x 12
[1372 x 533 x 305]
Bottom Return (in) [mm]
Front Return (In) [mm]
Cabinet Size
Cabinet Size
Weight - Operating, (lbs) [kg]
175 [79]
180 [82]
190 [86.2]
220 [99.8]
Weight - Packaged, (lbs) [kg]
185 [83.9]
190 [86]
200 [90.8]
232 [105.2]
* Data not available at time of publication.
All units have rubber grommet compressor mountings and TXV expansion devices.
8
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Physical Data
Tranquility Console (TRC) Series (50Hz)
Model
09
12
15
18
29 [0.822]
33 [0.936]
30 [0.850]
1/12 [62]
1/8 [93]
1/8 [93]
Compressor (1 Each)
Factory Charge R410A (oz) [kg]
Rotary
26 [0.737]
PSC Fan Motor & Blower (3 Speeds)
Fan Motor (hp) [W]
1/20 [37]
Blower Wheel Size (dia x w) (in) [mm] - Qty 2
5.25 x 6.25 [133 x 159]
Water Connection Size
O.D. Sweat (in) [mm]
1/2 [12.7]
3/4 [19.1]
Optional IPT Fittings (in)
1/2
3/4
Optional EPT Fittings (in)
1/2
3/4
Condensate Connection Size
I.D. Vinyl Hose (In) [mm]
5/8 [15.9]
Air Coil Size
Dimensions (h x w) - (in) [mm]
8 x 26
[203 x 660]
10 x 26 [254 x 660]
10 x 32
[254 x 813]
Filter Size
1 - 10 x 30 x 1 [254 x 762 x 25]
1 - 10 x 36 x 1
[25.4 x 91.4 x 2.5]
1 - 7 x 29.5 x 1/8 [178 x 749 x 3.2]
1 -7 x 35.5 x 1/8
[178 x 902 x 3.2]
Bottom Return (Std. 5" [127] Base)
(W x H x D) - (In) [mm]
48 x 26 x 12 [1219 x 660 x 305]
54 x 26 x 12
[1372 x 660 x 305]
Front Return (No Subbase)
(W x H x D) - (In) [mm]
48 x 21 x 12 [1219 x 533 x 305]
54 x 21 x 12
[1372 x 533 x 305]
Bottom Return (in) [mm]
Front Return (In) [mm]
Cabinet Size
Cabinet Size
Weight - Operating, (lbs) [kg]
175 [79]
180 [82]
190 [86.2]
220 [99.8]
Weight - Packaged, (lbs) [kg]
185 [83.9]
190 [86]
200 [90.8]
232 [105.2]
All units have rubber grommet compressor mountings and TXV expansion devices.
c l i m a t e m a s t e r. c o m
9
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Installation
The installation of Console Water-Source Heat Pumps
and all associated components, parts and accessories
that make up the installation shall be in accordance with
the regulations of ALL Authorities having jurisdiction
and MUST conform to all applicable Codes. It is the
responsibility of the Installing Contractor to determine
and comply with ALL applicable Codes and Regulations.
NOTE: An Installation Checklist is provided in this
manual. Complete this checklist after all installation
procedures are completed. A periodic maintenance
checklist provided in the Maintenance section outlines
recommended maintenance schedules. A Start-Up
Inspection Log is also included at the end of this manual
to encourage thorough unit checkout at initial start-up.
These checklists are not a substitute for the detailed
information found in the Installation section of this
manual.
1. Console units are typically installed along an outside
wall of the room. Provide adequate space in front
of the unit for service and maintenance. Locate
the Console Unit so that it provides adequate air
circulation throughout the room.
2. Unpack the Console Unit from the shipping carton.
Remove the front cabinet by lifting up and away from
the backplate. Protect the cabinet from damage
during installation by returning it to its original
packaging until required.
3. Remove compressor isolation plate shipping screws
(4) as shown in Figure 1a. (All CCE and TRC09-12)
4. Using a carpenter's square and a level, ensure the
unit is level. Shim the unit if necessary to assure
proper installation.
CAUTION!
Poor or inadequate installation may result in noisy unit
operation or unattractive installation.
Figure 1a: Compressor Shipping Screws (All
CCE and TRC 09-12)
4 Shipping
Screws
10
5. Select the proper fasteners to connect the backplate
securely to the wall.
6. Fasten the backplate onto the wall through the screw
holes located in the back flange. Secure the subbase
in place.
7. Make all necessary electrical connections as
described in the Electrical Wiring section of this
manual. Consult the wiring diagram to ensure proper
hook-up.
8. Connect the final piping as described in the Supply
and Return Piping and Condensate Piping section
of the manual. Install shut-off valves, piping and/or
hoses and other accessories as specified.
9. Before making the final water connections, flush
the system as described in the Start Up section
of this manual. After flushing the system, connect
piping and hoses to the proper supply, return and
condensate connections of the unit.
NOTE: When necessary, use adapters to connect hoses.
10. Install any other system components as required
following manufacturer's instructions.
11. After Start-up, reinstall the front cabinet by
carefully lowering the front cabinet over the chassis
onto the backplate.
Supply and Return Hoses
Optional pressure-rated hose assemblies are available
for use with ClimateMaster Console Units. Use the
following guidelines when installing supply and return
hose assemblies.
1. Install supply and return hoses fitted with swivel-joint
fittings at one end to prevent the hose from twisting.
2. Use adapters to secure the hose assembly to the unit
and the riser.
3. Do not allow the hose to twist during installation.
Twisting may damage the hose wall or the interior
rubber compound.
4. Use pipe joint compound sparingly on the pipe
threads of the fitting adapters.
5. Prevent sealant from reaching the flared surfaces of
the joint.
6. Do not use pipe joint compound when teflon thread
tape is pre-applied to hose assemblies or when
flared-end connections are used.
7. Maximum torque which may be applied to brass
fittings is 30 ft-lbs [41 N-m]. When a torque wrench
is not used, tighten brass fittings finger-tight plus one
quarter turn.
8. Tighten steel fittings as necessary.
9. Shut-off/balancing valves, flow indicators, and drain
tees in the supply runout and return at each floor to
aid in loop balancing and servicing.
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Installation
CAUTION!
Loop Fluids should be of good quality with no more than 0.50
ppm of chlorides w/copper heat exchangers (125 ppm w/
Cupro-nickel) to prevent corrosion and should also be filtered
to a maximum 800 micron [0.8mm particle size to prevent
erosion of the heat exchangers.
Condensate Piping
Unit is supplied with condensate drain hose, 5/8
inch [16mm] I.D. flexible plastic nonpressure-rated,
protruding from piping side of unit. Connect this hose
to building drain. Avoid making kinks in hose to ensure
an unobstructed flow of condensate from the unit to the
drain. DO NOT twist, pull hose out, or push excess
hose into unit. If hose will not connect to your building
drain several options include, relocate end of building
drain, add to or cut hose, use hard plastic or copper
elbow fittings for tight radii (put inside hose). Keep hose
positioned within or over subbase area so hose does not
interfere with front cabinet. Cabinet should not push or
reroute hose. Clamp all joints watertight. Check for leaks.
Field installation of a trap or vent is not required unless
specified by local codes. Console units are designed
in a blow-through configuration. The condensate drain
pan is located on the outlet side of the blower so that
the pressure in the drain pan is higher than atmospheric
pressures.
When drain connection is completed check for proper
drainage and leaks. Correct if necessary.
If trap is used, check and clean often. See Preventive
Maintenance Instructions.
Internally the drain hose is clamped to drain pan and
pitched correctly. Horizontal runs of condensate hose
should be pitched downward 1/4 inch minimum for every
foot [10mm per 46cm] of hose. Avoid low points because
dirt collects in these areas and may cause blockage. If
blocked the condensate level in drain pan increases.
When the level gets too high, the Console unit has sensor
switch that will shut unit off. Overflow may still occur.
If the building drain connection is parallel with floor,
the height can be up to 1-1/2 inches [38mm] above
the subbase for proper pitch and correct drainage. Up
to 5 inches [127mm] above the subbase is allowable,
but drainage will be slower. When the drain connection
is 2-1/2 to 5 inches [64 to 127mm] above, the hose
inside the unit will act as a trap. Heights of more than 5
inches [127mm] above the subbase are NOT allowable
(condensate overflow may occur). If the unit has a
disconnect option, drain locations are limited. See unit
configuration pages for details.
c l i m a t e m a s t e r. c o m
11
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Piping Connections - CCE
Figure 1b: Water Connection Details
3.28
(83)
5.36
(136)
3.01
(76)
Power Supply
1.84
(47)
30°
Water Out
Water In
Control Box
0.87
(22)
Optional
Autoflow
Valve
*16.66
(423)
Compressor
Access
Panel
7.5
(191)
4.46
(113)
0.75
(19)
*1.94
(49)
*7.06
(179)
Condensate
3.56
(90)
3.88
(99)
5/8" (15.9 mm)
ID Vinyl Hose
Optional
Motorized
Water Valve
11.54
(293)
3.43
(87)
Water Connections
5/8" (15.9 mm)
OD Copper,
1/2" IPT or
1/2" EPT
0.99
(25)
Right Hand Configuration
5.36
(136)
3.01
(76)
Optional
Autoflow
Valve
3.50
(89)
1.93
(49)
0.87
(22)
Optional
Motorized
Water Valve
Water Connections
5/8" (15.9 mm)
OD Copper,
1/2" IPT or
1/2" EPT
Power Supply
Water Out
Water In
30°
Optional
Disconnect Box
(mounted to cabinet
not chassis)
3.42
(87)
Blower Deck
*16.66
(423)
7.5
(191)
*1.94
(49)
3.56
(90)
3.22
(82)
Optional
Disconnect Box
(mounted to cabinet
not chassis)
Blower Access Panel
*7.06
(179)
11.54
(293)
3.88
(99)
4.49
(114)
Condensate
0.75
(19)
5/8" (15.9 mm)
ID Vinyl Hose
Left Hand Configuration
Notes:
All Dimensions are in inches (mm)
* For installed dimension, add to dimension shown 2.9" [74mm] with 3" subbase and 4.9" [124mm] for 5" subbase.
Optional autoflow valve, motorized water valve and disconnect box are shown.
Water connection in same location regardless of connection type.
CAUTION!
CAUTION! Corrosive system water requires corrosion resistant fittings and hoses, and may require water treatment.
12
CAUTION!
CAUTION! Piping must comply with all applicable codes.
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Piping Connections TRC Size 06-15
1.62 (41)
2.00
(51)
Control Box
Optional Flow
Regulator
Optional
Motorized
Water Valve
Out
In
Water Out
Compressor
Access
Panel
Water In
Opti
Auto
Valv
Water Connections
5/8” (15.9) OD
Copper, 1/2” IPT, or
1/2” EPT
2.25
(57)
Optio
Motor
Water
*11.25 (286)
8.00 Min
(203)
1.75 (44)
Condensate
5/8" (15.9) ID
Vinyl Hose
1.84
(77)
Water C
5/8" (15
OD Cop
1/2" IPT
1/2" EP
Right Hand Configuration
Water Out
Water In
Out
In
Water Connections
5/8” (15.9) OD
Copper, 1/2” IPT,
or 1/2” EPT
al
ow
ve
onal
ized
alve
1.50 (38)
2.25
(57)
2.00
(51)
onnections
AA)
er,
or
*11.25 (286)
2.25
(57)
8.00 Min
(203)
Condensate
5/8" (15.9) ID
Vinyl Hose
2.72
(96)
Left Hand Configuration
Notes:
* Dimension reduced by fitting if selected
c l i m a t e m a s t e r. c o m
Rev.: 10/06/08B
13
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Piping Connections TRC Size 18
1.62 (41)
Optional
Motorized
Water Valve
2.00
(51)
Control Box
O
R
Out
In
Water Out
Compressor
Access
Panel
Water In
Water Connections
5/8” (15.9) OD
Copper, 1/2” IPT, or
1/2” EPT
2.25
(57)
*11.25 (286)
8.00 Min
(203)
1.75 (44)
Condensate
1.84
(77)
5/8" (15.9) ID
Vinyl Hose
Right Hand Configuration
Water Out
Water In
Out
In
Water Connections
5/8” (15.9) OD
Copper, 1/2” IPT,
or 1/2” EPT
onal
flow
alve
ptional
orized
Valve
1.50 (38)
2.25
(57)
2.00
(51)
Connections
5.9AA)
pper,
T or
T
*11.25 (286)
2.25
(57)
8.00 Min
(203)
Condensate
5/8" (15.9) ID
Vinyl Hose
2.72
(96)
Left Hand Configuration
*
14
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Piping Connections
Installation of Supply and Return Piping
Follow these piping guidelines.
1. Install a drain valve at the base of each supply and
return riser to facilitate system flushing.
2. Install shut-off / balancing valves and unions at each
unit to permit unit removal for servicing.
3. Place strainers at the inlet of each system
circulating pump.
4. Select the proper hose length to allow slack between
connection points. Hoses may vary in length by +2%
to -4% under pressure.
5. Refer to Table 1. Do not exceed the minimum bend
radius for the hose selected. Exceeding the minimum
bend radius may cause the hose to collapse, which
reduces water flow rate. Install an angle adapter to
avoid sharp bends in the hose when the radius falls
below the required minimum.
Insulation is not required on loop water piping except
where the piping runs through unheated areas, outside
the building or when the loop water temperature is
below the minimum expected dew point of the pipe
ambient conditions. Insulation is required if loop water
temperature drops below the dew point (insulation is
required for ground loop applications in most climates).
Pipe joint compound is not necessary when Teflon®
thread tape is pre-applied to hose assemblies or when
flared-end connections are used. If pipe joint compound
is preferred, use compound only in small amounts on
the external pipe threads of the fitting adapters. Prevent
sealant from reaching the flared surfaces of the joint.
Note: When anti-freeze is used in the loop, insure
that it is compatible with the Teflon tape or pipe joint
compound that is applied.
Maximum allowable torque for brass fittings is 30 ft-lbs
[41 N-m]. If a torque wrench is not available, tighten
finger-tight plus one quarter turn. Tighten steel fittings
as necessary.
Optional pressure-rated hose assemblies designed
specifically for use with ClimateMaster units are available.
Similar hoses can be obtained from alternate suppliers.
Supply and return hoses are fitted with swivel-joint
fittings at one end to prevent kinking during installation.
Table 1: Metal Hose Minimum Bend Radii
Hose Diameter
Minimum Bend Radii
1/2" [12.7mm]
2-1/2" [6.4cm]
3/4" [19.1mm]
4" [10.2cm]
1" [25.4mm]
5-1/2" [14cm]
1-1/4" [31.8mm]
6-3/4" [17.1cm]
CAUTION!
CAUTION! Do not bend or kink supply lines or hoses.
NOTICE! Do not allow hoses to rest against structural
building components. Compressor vibration may be
transmitted through the hoses to the structure, causing
unnecessary noise complaints.
Figure 2: Supply/Return Hose Kit
Rib Crimped
Swivel
Brass
Fitting
Brass
Fitting
Length
(2 ft [0.6m] Length Standard)
EPT
CAUTION!
CAUTION! Many units are installed with a factory or field
supplied manual or electric shut-off valve. DAMAGE WILL
OCCUR if shut-off valve is closed during unit operation. A
high pressure switch must be installed on the heat pump side
of any field provided shut-off valves and connected to the
heat pump controls in series with the built-in refrigerant circuit
high pressure switch to disable compressor operation if water
pressure exceeds pressure switch setting. The field installed
high pressure switch shall have a cut-out pressure of 300
psig and a cut-in pressure of 250 psig. This pressure switch
can be ordered from ClimateMaster with a 1/4” internal flare
connection as part number 39B0005N02.
Refer to Figure 2 for an illustration of a typical supply/
return hose kit. Adapters secure hose assemblies to
the unit and risers. Install hose assemblies properly and
check regularly to avoid system failure and reduced
service life.
c l i m a t e m a s t e r. c o m
15
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Water-Loop Heat Pump Applications
Commercial Water Loop Applications
Commercial systems typically include a number of
units connected to a common piping system. Any unit
plumbing maintenance work can introduce air into the
piping system; therefore air elimination equipment is
a major portion of the mechanical room plumbing. In
piping systems expected to utilize water temperatures
below 50°F [10°C], 1/2” (13mm) closed cell insulation is
required on all piping surfaces to eliminate condensation
(extended range units required). Metal to plastic
threaded joints should never be used due to their
tendency to leak over time.
Teflon tape thread sealant is recommended to minimize
internal fouling of the heat exchanger. Do not over
tighten connections and route piping so as not to
interfere with service or maintenance access. Hose
kits are available from ClimateMaster in different
configurations for connection between the unit and the
piping system. Depending upon selection, hose kits
may include shut off valves, P/T plugs for performance
measurement, high pressure stainless steel braided
hose, “Y” type strainer with blow down valve, and/or “J”
type swivel connection. Balancing valves and an external
low pressure drop solenoid valve for use in variable
speed pumping systems may also be included in the
hose kit.
The piping system should be flushed to remove dirt,
piping chips, and other foreign material prior to operation
(see “Piping System Cleaning and Flushing Procedures”
in this manual). The flow rate is usually set between 2.25
and 3.5 gpm per ton [2.9 and 4.5 l/m per kW] of cooling
capacity. ClimateMaster recommends 3 gpm per ton
[3.9 l/m per kW] for most applications of water loop heat
pumps. To insure proper maintenance and servicing,
P/T ports are imperative for temperature and flow
verification, as well as performance checks.
Water loop heat pump (cooling tower/boiler) systems
typically utilize a common loop, maintained between 60 90°F [16 - 32°C]. The use of a closed circuit evaporative
cooling tower with a secondary heat exchanger between
the tower and the water loop is recommended. If an
open type cooling tower is used continuously, chemical
treatment and filtering will be necessary.
Low Water Temperature Cutout Setting
CXM or DXM Control
When antifreeze is selected, the FP1 jumper (JW3) should
be clipped to select the low temperature (antifreeze 13°F
[-10.6°C]) set point and avoid nuisance faults (see “Low
Water Temperature Cutout Selection” in this manual). NOTE:
Low water temperature operation requires extended range
Table 2: Antifreeze Percentages by Volume
Table 3. Antifreeze Percentages by Volume
Type
16
Minimum Temperature for Freeze Protection
10°F [-12.2°C]
15°F [-9.4°C]
20°F [-6.7°C]
25°F [-3.9°C]
Methanol
25%
21%
16%
10%
100% USP food grade Propylene Glycol
38%
30%
22%
15%
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Ground-Loop Heat Pump Applications
CAUTION!
CAUTION! The following instructions represent industry
accepted installation practices for closed loop earth
coupled heat pump systems. Instructions are provided
to assist the contractor in installing trouble free ground
loops. These instructions are recommendations only.
State/provincial and local codes MUST be followed and
installation MUST conform to ALL applicable codes. It is the
responsibility of the installing contractor to determine and
comply with ALL applicable codes and regulations.
CAUTION!
CAUTION! Ground loop applications require extended
range equipment and optional refrigerant/water circuit
insulation.
Pre-Installation
Prior to installation, locate and mark all existing
underground utilities, piping, etc. Install loops for new
construction before sidewalks, patios, driveways, and
other construction has begun. During construction,
accurately mark all ground loop piping on the plot plan
as an aid in avoiding potential future damage to the
installation.
Piping Installation
All earth loop piping materials should be limited to
polyethylene fusion only for in-ground sections of the
loop. Galvanized or steel fittings should not be used at
any time due to their tendency to corrode. All plastic to
metal threaded fittings should be avoided due to their
potential to leak in earth coupled applications. A flanged
fitting should be substituted. P/T plugs should be used
so that flow can be measured using the pressure drop of
the unit heat exchanger.
Earth loop temperatures can range between 25 and
110°F [-4 to 43°C]. Flow rates between 2.25 and 3 gpm
per ton [2.41 to 3.23 l/m per kW] of cooling capacity is
recommended in these applications.
Test individual horizontal loop circuits before backfilling.
Test vertical U-bends and pond loop assemblies prior to
installation. Pressures of at least 100 psi [689 kPa] should
be used when testing. Do not exceed the pipe pressure
rating. Test entire system when all loops are assembled.
Flushing the Earth Loop
Upon completion of system installation and testing, flush
the system to remove all foreign objects and purge to
remove all air.
Antifreeze
In areas where minimum entering loop temperatures
drop below 40°F [5°C] or where piping will be routed
through areas subject to freezing, antifreeze is required.
Alcohols and glycols are commonly used as antifreeze;
however your local sales manager should be consulted
for the antifreeze best suited to your area. Freeze
protection should be maintained to 15°F [9°C] below
the lowest expected entering loop temperature. For
example, if 30°F [-1°C] is the minimum expected entering
loop temperature, the leaving loop temperature would be
25 to 22°F [-4 to -6°C] and freeze protection should be at
15°F [-10°C]. Calculation is as follows:
30°F - 15°F = 15°F [-1°C - 9°C = -10°C].
All alcohols should be premixed and pumped from
a reservoir outside of the building when possible or
introduced under the water level to prevent fumes.
Calculate the total volume of fluid in the piping system.
Then use the percentage by volume shown in table
2 for the amount of antifreeze needed. Antifreeze
concentration should be checked from a well mixed
sample using a hydrometer to measure specific gravity.
Low Water Temperature Cutout Setting
CXM or DXM Control
When antifreeze is selected, the FP1 jumper (JW3) should
be clipped to select the low temperature (antifreeze 13°F
[-10.6°C]) set point and avoid nuisance faults (see “Low
Water Temperature Cutout Selection” in this manual). NOTE:
Low water temperature operation requires extended range
equipment.
c l i m a t e m a s t e r. c o m
17
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Ground-Water Heat Pump Applications
Open Loop - Ground Water Systems
Shut off valves should be included for ease of servicing.
Boiler drains or other valves should be “tee’d” into the
lines to allow acid flushing of the heat exchanger. Shut
off valves should be positioned to allow flow through
the coax via the boiler drains without allowing flow into
the piping system. P/T plugs should be used so that
pressure drop and temperature can be measured. Piping
materials should be limited to copper or PVC SCH80.
Note: Due to the pressure and temperature extremes,
PVC SCH40 is not recommended.
Water quantity should be plentiful and of good quality.
Consult table 3 for water quality guidelines. The unit can
be ordered with either a copper or cupro-nickel water
heat exchanger. Consult Table 3 for recommendations.
Copper is recommended for closed loop systems and
open loop ground water systems that are not high
in mineral content or corrosiveness. In conditions
anticipating heavy scale formation or in brackish water,
a cupro-nickel heat exchanger is recommended. In
ground water situations where scaling could be heavy
or where biological growth such as iron bacteria will
be present, an open loop system is not recommended.
Heat exchanger coils may over time lose heat exchange
capabilities due to build up of mineral deposits. Heat
exchangers must only be serviced by a qualified
technician, as acid and special pumping equipment
is required. Desuperheater coils can likewise become
scaled and possibly plugged. In areas with extremely
hard water, the owner should be informed that the
heat exchanger may require occasional acid flushing.
In some cases, the desuperheater option should not
be recommended due to hard water conditions and
additional maintenance required.
Water Quality Standards
Table 3 should be consulted for water quality
requirements. Scaling potential should be assessed
using the pH/Calcium hardness method. If the pH
<7.5 and the calcium hardness is less than 100 ppm,
scaling potential is low. If this method yields numbers
out of range of those listed, the Ryznar Stability and
Langelier Saturation indecies should be calculated.
Use the appropriate scaling surface temperature for the
application, 150°F [66°C] for direct use (well water/open
loop) and DHW (desuperheater); 90°F [32°F] for indirect
use. A monitoring plan should be implemented in these
probable scaling situations. Other water quality issues
such as iron fouling, corrosion prevention and erosion
and clogging should be referenced in Table 3.
18
Expansion Tank and Pump
Use a closed, bladder-type expansion tank to minimize
mineral formation due to air exposure. The expansion
tank should be sized to provide at least one minute
continuous run time of the pump using its drawdown
capacity rating to prevent pump short cycling. Discharge
water from the unit is not contaminated in any manner
and can be disposed of in various ways, depending on
local building codes (e.g. recharge well, storm sewer,
drain field, adjacent stream or pond, etc.). Most local
codes forbid the use of sanitary sewer for disposal.
Consult your local building and zoning department to
assure compliance in your area.
Water Control Valve
Always maintain water pressure in the heat exchanger
by placing the water control valve(s) on the discharge
line to prevent mineral precipitation during the off-cycle.
Pilot operated slow closing valves are recommended
to reduce water hammer. If water hammer persists, a
mini-expansion tank can be mounted on the piping
to help absorb the excess hammer shock. Insure that
the total ‘VA’ draw of the valve can be supplied by the
unit transformer. For instance, a slow closing valve can
draw up to 35VA. This can overload smaller 40 or 50
VA transformers depending on the other controls in the
circuit. A typical pilot operated solenoid valve draws
approximately 15VA..
Flow Regulation
Flow regulation can be accomplished by two methods.
One method of flow regulation involves simply adjusting
the ball valve or water control valve on the discharge
line. Measure the pressure drop through the unit heat
exchanger, and determine flow rate. Since the pressure is
constantly varying, two pressure gauges may be needed.
Adjust the valve until the desired flow of 1.5 to 2 gpm per
ton [2.0 to 2.6 l/m per kW] is achieved. A second method
of flow control requires a flow control device mounted
on the outlet of the water control valve. The device is
typically a brass fitting with an orifice of rubber or plastic
material that is designed to allow a specified flow rate.
On occasion, flow control devices may produce velocity
noise that can be reduced by applying some back
pressure from the ball valve located on the discharge line.
Slightly closing the valve will spread the pressure drop
over both devices, lessening the velocity noise. NOTE:
When EWT is below 50°F [10°C], 2 gpm per ton (2.6
l/m per kW) is required.
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Ground-Loop Heat Pump Applications
Water Coil Low Temperature Limit Setting
For all open loop systems the 30°F [-1.1°C] FP1 setting
(factory setting-water) should be used to avoid freeze
damage to the unit. See “Low Water Temperature Cutout
Selection” in this manual for details on the low limit
setting.
NOTICE! Ground-water applications for commercial
buildings with more than 2-3 units should include a plate
frame heat-exchanger to isolate the heat pumps from the
ground-water and confine heat exchanger cleanings to one
location and lessen maintenance. Direct use of ground-water
may increase the frequency of heat pump maintenance and
may shorten life expectancy.
CAUTION!
CAUTION! Many units installed with a factory or field
supplied manual or electric shut-off valve. DAMAGE WILL
OCCUR if shut-off valve is closed during unit operation. A
high pressure switch must be installed on the heat pump side
of any field provided shut-off valves and connected to the
heat pump controls in series with the built-in refrigerant circuit
high pressure switch to disable compressor operation if water
pressure exceeds pressure switch setting. The field installed
high pressure switch shall have a cut-out pressure of 235
psig and a cut-in pressure of 190 psig. This pressure switch
can be ordered from ClimateMaster with a 1/4” internal flare
connection as part number 39B0005N01.
c l i m a t e m a s t e r. c o m
19
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Water Quality Standards
Table 2: Water Quality Standards
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0M#TPUPTPaLZ[LLSWPWL\ZL)HZLK\WVU‡-B‡*D/>.HUK
:H[\YH[PVU0UKL_
+PYLJ[^LSS‡-B ‡*D0UKPYLJ[>LSS/?
0YVU-V\SPUN
0YVU-L -LYYV\Z
)HJ[LYPHS0YVUWV[LU[PHS
(SS
0YVU-V\SPUN
(SS
#WWT-LYYV\Z
0M-L MLYYV\Z%WWT^P[OW/6#WWTJOLJRMVYPYVUIHJ[LYPH
#WWTVM6_`NLU
(IV]L[OPZSL]LSKLWVZP[PVU^PSSVJJ\Y
*VYYVZPVU7YL]LU[PVU
W/
(SS
/`KYVNLU:\SMPKL/:
(SS
(TTVUPHPVUHZO`KYV_PKLJOSVYPKL
UP[YH[LHUKZ\SMH[LJVTWV\UKZ
(SS
4VUP[VY[YLH[HZ
ULLKLK
4PUPTPaLZ[LLSWPWLILSV^HUKUVVWLU[HURZ^P[OW/#
#WWT
([/:%WWTH]VPK\ZLVMJVWWLYHUKJVWWLYUPJRLSWPWPUNVY/?Z
9V[[LULNNZTLSSHWWLHYZH[WWTSL]LS
*VWWLYHSSV`IYVUaLVYIYHZZJHZ[JVTWVULU[ZHYL62[V#WWT
#WWT
4H_PT\T(SSV^HISLH[TH_PT\T^H[LY[LTWLYH[\YL
4H_PT\T
*OSVYPKL3L]LSZ
*VWWLY
*\WYV5PJRLS
::
::
;P[HUP\T
(SS
#WWTVMWHY[PJSLZ
HUKHTH_PT\T
]LSVJP[`VMMWZBTZD
-PS[LYLKMVYTH_PT\T
TPJYVUBTT
TLZODZPaL
‡-‡*
#WWT
#WWT
#WWT
#WWT
%WWT
‡-‡*
59
59
#WWT
#WWT
%WWT
100¯F (38¯C)
NR
NR
<150 ppm
< 375 ppm
>375 ppm
,YVZPVUHUK*SVNNPUN
7HY[PJ\SH[L:PaLHUK
,YVZPVU
#WWT#WWTZHUKMYLLMVYYLPUQLJ[PVUVMWHY[PJSLZHUKHTH_PT\T
]LSVJP[`VMMWZBTZD-PS[LYLKMVYTH_PT\TTPJYVUBTT
TLZODZPaL(U`WHY[PJ\SH[L[OH[PZUV[YLTV]LKJHUWV[LU[PHSS`
JSVNJVTWVULU[Z
Notes:
s#LOSED2ECIRCULATINGSYSTEMISIDENTIFIEDBYACLOSEDPRESSURIZEDPIPINGSYSTEM
s2ECIRCULATINGOPENWELLSSHOULDOBSERVETHEOPENRECIRCULATINGDESIGNCONSIDERATIONS
s.2Application not recommended.
s.ODESIGN-AXIMUM
20
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
Rev.: 01/21/09B
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Electrical - Line Voltage
General Line Voltage Wiring
Be sure the available power is the same voltage and
phase shown on the unit serial plate. Line and low
voltage wiring must be done in accordance with local
codes or the National Electric Code, whichever is
applicable.
WARNING!
WARNING! To avoid possible injury or death due to
electrical shock, open the power supply disconnect switch
and secure it in an open position during installation.
CAUTION!
Power Connection
Line voltage connection is made by connecting the
incoming line voltage wires to the “L” side of the
contactor. Consult Tables 4 through 5 for correct fuse
size.
CAUTION! Use only copper conductors for field installed
electrical wiring. Unit terminals are not designed to accept other
types of conductors.
Electrical - Line Voltage
All field installed wiring, including electrical ground,
must comply with the National Electrical Code as well
as all applicable local codes. Refer to the unit electrical
data for fuse sizes. Consult wiring diagram for field
connections that must be made by the installing (or
electrical) contractor. All final electrical connections must
be made with a length of flexible conduit to minimize
vibration and sound transmission to the building.
Transformer
All commercial dual voltage units are factory wired for
208/60/1 or 240/50/1. If supply voltage is 230/60/1 or
220/50/1, installer must rewire transformer. See wire
diagram for connections.
Table 4: CCE Electrical Data
QTY
RLA
LRA
Fan
Motor
FLA
104-126
1
7.1
46.5
0.50
7.6
9.3
15
208-230/60/1
197-254
1
3.7
19.0
0.33
4.0
5.0
15
E
265/60/1
239-292
1
2.8
16.0
0.35
3.1
3.8
15
CCE09
A
115/60/1
104-126
1
9.0
46.5
1.30
10.3
12.5
20
CCE09
G
208-230/60/1
197-254
1
4.7
23.0
0.50
5.2
6.3
15
CCE09
E
265/60/1
239-292
1
3.8
16.0
0.50
4.3
5.3
15
CCE12
A
115/60/1
104-126
1
10.6
63.0
1.30
11.9
14.6
25
CCE12
G
208-230/60/1
197-254
1
6.1
29.0
0.50
6.6
8.1
15
CCE12
E
265/60/1
239-292
1
4.8
21.6
0.50
5.3
6.5
15
CCE15
G
208-230/60/1
197-254
1
7.0
33.2
1.10
8.1
9.8
15
CCE15
E
265/60/1
239-292
1
5.4
29.0
1.00
6.4
7.8
15
CCE19
G
208-230/60/1
197-254
1
7.7
38.0
1.10
8.8
10.7
15
CCE19
E
265/60/1
239-292
1
5.8
29.0
1.00
6.8
8.2
15
Model
Voltage
Code
Voltage
Min/Max
Voltage
CCE07
A
115/60/1
CCE07
G
CCE07
Compressor
c l i m a t e m a s t e r. c o m
Total
Unit
FLA
Min
Circuit
Amps
Max
Fuse/
HACR
21
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Electrical - Line Voltage
Table 5a: TRC Electrical Data (60Hz)
Model
TRC09
TRC12
TRC15
TRC18
Voltage
Code
Voltage
Min/Max
Voltage
Fan
Motor
FLA
Compressor
QTY
RLA
LRA
Total
Unit
FLA
Min
Circuit
Amps
A
115/60/1
104-126
1
8.1
46.5
0.6
8.6
10.7
15
G
208-230/60/1
197-254
1
4.5
23.0
0.4
4.9
6.0
15
E
265/60/1
239-292
1
3.1
24.0
0.4
3.5
4.3
15
A
115/60/1
104-126
1
10.6
55.8
1.0
11.6
14.3
20
G
208-230/60/1
197-254
1
5.2
24.0
0.6
5.8
7.1
15
15
E
265/60/1
239-292
1
4.2
25.0
0.4
4.6
5.7
G
208-230/60/1
197-254
1
6.1
30.0
0.8
6.9
8.4
15
E
265/60/1
239-292
1
4.7
28.5
0.6
5.3
6.5
15
G
208-230/60/1
197-254
1
6.8
38.0
0.7
7.5
9.2
15
E
265/60/1
239-292
1
6.2
29.0
0.6
6.8
8.4
15
Table 5b: TRC Electrical Data (50Hz)
22
Max
Fuse/
HACR
Compressor
LRA
Fan
Motor
FLA
Total
Unit
FLA
Min
Circ
Amp
Max
Fuse/
HACR
3.2
17
0.4
3.6
4.4
15.0
1
4.0
19
0.4
4.4
5.4
15.0
198-264
1
4.7
23
0.6
5.3
6.5
15.0
198-264
1
5.6
25
0.6
6.2
7.6
15.0
Model
Voltage
code
Voltage
Min/Max
Voltage
QTY
RLA
TRC09
V
220-240/50/1
198-264
1
TRC12
V
220-240/50/1
198-264
TRC15
V
220-240/50/1
TRC18
V
220-240/50/1
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Electrical - Line Voltage
Figure 3: Typical Field Installed Wiring
A
Heat Pump
Field Supplied
Disconnect Switch
B
Room Thermostat
A= Two power wires on single-phase units: three power
wires on three-phase units. B= 1 heat /1 cool /manual
or Auto Change-over remote 24V thermostat. Note: All
customer-supplied wiring to be copper only and must
conform to NEC and local electrical codes. Wiring
shown with dashed lines must be field-supplied and
field-installed. "B" only required with systems employing
remote mounted thermostats.
WARNING!
WARNING! To avoid possible injury or death due to
electrical shock, open the power supply disconnect switch
and secure it in an open position during installation.
CAUTION!
CAUTION! Use only copper conductors for field installed
electrical wiring. Unit terminals are not designed to accept other
types of conductors.
Figure 4: FP1 Limit Setting
Low Water Temperature Cutout Setting
CXM or DXM Control
When antifreeze is selected, the FP1 jumper (JW3) should
be clipped to select the low temperature (antifreeze 13°F
[-10.6°C]) set point and avoid nuisance faults (see “Low
Water Temperature Cutout Selection” in this manual). NOTE:
Low water temperature operation requires extended range
equipment.
CXM PCB
c l i m a t e m a s t e r. c o m
JW3-FP1
jumper should
be clipped for
low temperature
operation
23
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Electrical - Low Voltage
Unit-Mounted Controls, TRC & CCE Units, Rev. B
CCE Revision B models and TRC models include digital
display unit-mounted controls (see picture, below). Either
manual changeover (MCO) or auto changeover (ACO)
controls are available, as indicated by the model number.
The room temperature will appear after the set point
has been displayed for 3 seconds. To read “set point”
press “SET”. To change heating or cooling setpoints,
slide switch to desired mode (i.e. heating or cooling), and
press the arrow up or arrow down key to change the set
point. The differential between heating and cooling set
points is factory set at 3°F (1.5°C).
Figure 5: Example MCO Thermostat
Unit-mounted controls are shipped from the factory
for display in degrees Farhenheit. To change display to
Celcius, follow the instructions below.
1. Turn power OFF.
2. Remove the thermostat cover (NOTE: Make sure to
depress the tab at the top of the thermostat to avoid
damaging the cover) F/C jumper is located at top left
of display case (see Fig 6).
3. Remove the Jumper for °C selection; position
jumper on both pins for °F selection.
4. Turn power ON.
5. Press RESET if desired measurement scale has not
been changed (See Fig 6).
Figure 6: °F/°C Changeover
°F
24
°C
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Electrical - Low Voltage
Optional Wall-Mounted Thermostat
CCE & TRC WSHP units are built with standard internal
thermostats in either manual changeover (MCO) or
automatic changeover (ACO) configuration. No external,
field-installed low-voltage wiring is required.
When desired, the unit can be furnished with a 24-volt
control circuit which is field-wired to a ClimateMastersupplied accessory remote thermostat.
Zone integrity must be maintained to efficiently control
units or groups of units. Unless zones of control are
considered and accounted for, adjacent units may
operate in heating and cooling modes simultaneously.
Figure 7: Typical Thermostat Wiring
Connection to CXM Control
Thermostat
CXM
Compressor
Y
Y
Reversing Valve
Fan
24Vac Hot
24Vac Common
O
O
G
G
R
R
C
C
Fault LED
L
AL1
Low-voltage wiring between the unit and the wall
thermostat must comply with all applicable electrical
codes (i.e., NEC and local codes), and be completed
before the unit is installed.
Table 6: Recommended Thermostat Wire Sizes
WIRE SIZE
MAX. WIRE LENGTH*
18-Gauge
16-Gauge
14-Gauge
75 feet [22m]
125 feet [38m]
200 feet [60m]
*Length = Physical distance from thermostat to unit.
Thermostat Installation
The thermostat should be located on an interior wall
in a larger room, away from supply air drafts. DO NOT
locate the thermostat in areas subject to sunlight, drafts
or on external walls. The wire access hole behind the
thermostat may in certain cases need to be sealed to
prevent erroneous temperature measurement. Position
the thermostat back plate against the wall so that it
appears level and so the thermostat wires protrude
through the middle of the back plate. Mark the position
of the back plate mounting holes and drill holes with
a 3/16” (5mm) bit. Install supplied anchors and secure
plate to the wall. Thermostat wire must be 18 AWG wire.
Wire the appropriate thermostat as shown in Figure 7 to
the low voltage terminal strip on the CXM or DXM control
board. Practically any heat pump thermostat will work
with ClimateMaster units, provided it has the correct
number of heating and cooling stages.
c l i m a t e m a s t e r. c o m
25
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
TRC/CCE Series Wiring Diagram Matrix
DIAGRAMS CAN BE LOCATED ONLINE AT CLIMATEMASTER.COM USING THE PART NUMBERS PRESENTED BELOW.
Model
Refrigerant
Wiring Diagram
Part Number
R410A
96B0099N50
R410A
96B0099N03
R410A
96B0099N04
R410A
96B0099N05
R410A
96B0100N50
Electrical
96B0100N03
R410A
96B0100N04
R410A
TRC06 TRC18
ETL
REM
ETL
CXM
LON
ETL
MPC
ETL
ACO/MCO
ETL
REM
ETL
265/60/1
115/60/1,
208-230/60/1,
Agency
ACO/MCO
115/60/1,
208-230/60/1,
R410A
Control
DXM
LON
ETL
96B0100N05
MPC
ETL
265/60/1
R410A
96B0099N60
ACO/MCO
CE
R410A
96B0099N61
REM
CE
R410A
96B0099N62
LON
CE
R410A
96B0099N63
R410A
96B0100N60
CXM
MPC
CE
MCO/ACO
CE
220 - 240/50/1
R410A
96B0100N61
REM
CE
R410A
96B0100N62
LON
CE
R410A
96B0100N63
MPC
CE
DXM
DIAGRAMS CAN BE LOCATED ONLINE AT CLIMATEMASTER.COM USING THE PART NUMBERS PRESENTED BELOW.
Model
Refrigerant
Wiring Diagram
Part Number
R22
96B0099N50
R22
96B0099N03
R22
96B0099N04
R22
96B0099N05
R407C
96B0099N60
R407C
96B0099N60
Electrical
Control
115/60/1,
Agency
MCO/ACO
ETL
REM
ETL
LON
ETL
MPC
ETL
208-230/60/1,
CCE07 CCE19
265/60/1
CXM
220-240/50/1
MCO
CE
ACO
CE
REM
CE
LON
CE
R407C
96B0099N61
R407C
96B0099N62
R407C
96B0099N63
MPC
CE
R22
96B0100N50
MCO/ACO
ETL
R22
96B0100N03
REM
ETL
115/60/1,
208-230/60/1,
26
R22
96B0100N04
R22
96B0100N05
R407C
96B0100N60
265/60/1
DXM
LON
ETL
MPC
ETL
MCO
CE
R407C
96B0100N60
R407C
96B0100N61
R407C
96B0100N62
LON
CE
R407C
96B0100N63
MPC
CE
220-240/50/1
ACO
CE
REM
CE
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Typical Wiring Diagram - Unit Mounted Manual & Auto Change Over CCE Units (Rev. B) &
TRC Units with CXM Controller (2 Speed)
c l i m a t e m a s t e r. c o m
27
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Typical Wiring Diagram - Remote Mounted Thermosat
CCE & TRC Units with CXM Controller (1) Speed with Selector Switch
28
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Typical Wiring Diagram - Unit Mounted Manual & Auto Change
Over CCE Units (Rev. B) & TRC Units with DXM Controller (2) Speed
c l i m a t e m a s t e r. c o m
29
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Typical Wiring Diagram - Unit Mounted Manual & Auto Change
Over TRC Units 50Hz with CXM Controller (2) Speed
30
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Typical Wiring Diagram - Remote Mounted Thermostat
TRC Units 50Hz with DXM Controller (1) Speed with Selector Switch
c l i m a t e m a s t e r. c o m
31
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
CXM Controls
CXM Control
For detailed control information, see CXM or DXM
Application, Operation and Maintenance (AOM) manual
(part # 97B0003N12 or part #97B0003N13).
Field Selectable Inputs
Test mode: Test mode allows the service technician to
check the operation of the control in a timely manner. By
momentarily shorting the test terminals, the CXM control
enters a 20 minute test mode period in which all time
delays are sped up 15 times. Upon entering test mode,
the status LED will flash a code representing the last fault.
For diagnostic ease at the thermostat, the alarm relay will
also cycle during test mode. The alarm relay will cycle
on and off similar to the status LED to indicate a code
representing the last fault, at the thermostat. Test mode
can be exited by shorting the test terminals for 3 seconds.
Retry Mode: If the control is attempting a retry of a fault,
the status LED will slow flash (slow flash = one flash
every 2 seconds) to indicate the control is in the process
of retrying.
Field Configuration Options
Note: In the following field configuration options, jumper
wires should be clipped ONLY when power is removed
from the CXM control.
Water coil low temperature limit setting: Jumper 3 (JW3FP1 Low Temp) provides field selection of temperature
limit setting for FP1 of 30°F or 10°F [-1°F or -12°C]
(refrigerant temperature).
Not Clipped = 30°F [-1°C]. Clipped = 10°F [-12°C].
Air coil low temperature limit setting: Jumper 2 (JW2-FP2
Low Temp) provides field selection of temperature limit
setting for FP2 of 30°F or 10°F [-1°F or -12°C] (refrigerant
temperature). Note: This jumper should only be clipped
under extenuating circumstances, as recommended by
the factory.
Not Clipped = 30°F [-1°C]. Clipped = 10°F [-12°C].
Alarm relay setting: Jumper 1 (JW1-AL2 Dry) provides
field selection of the alarm relay terminal AL2 to
be jumpered to 24VAC or to be a dry contact (no
connection).
Not Clipped = AL2 connected to R. Clipped = AL2 dry
contact (no connection).
DIP Switches
Note: In the following field configuration options, DIP
switches should only be changed when power is
removed from the CXM control.
DIP switch 1: Unit Performance Sentinel Disable provides field selection to disable the UPS feature.
32
On = Enabled. Off = Disabled.
DIP switch 2: Stage 2 Selection - provides selection of
whether compressor has an “on” delay. If set to stage
2, the compressor will have a 3 second delay before
energizing. Also, if set for stage 2, the alarm relay will
NOT cycle during test mode.
On = Stage 1. Off = Stage 2
DIP switch 3: Not Used.
DIP switch 4: DDC Output at EH2 - provides selection for
DDC operation. If set to “DDC Output at EH2,” the EH2
terminal will continuously output the last fault code of
the controller. If set to “EH2 normal,” EH2 will operate as
standard electric heat output.
On = EH2 Normal. Off = DDC Output at EH2.
NOTE: Some CXM controls only have a 2 position DIP
switch package. If this is the case, this option can be
selected by clipping the jumper which is in position 4
of SW1.
Jumper not clipped = EH2 Normal. Jumper clipped =
DDC Output at EH2.
DIP switch 5: Factory Setting - Normal position is “On.”
Do not change selection unless instructed to do so by
the factory.
Table 7a: CXM/DXM LED And Alarm
Relay Operations
Description of Operation
LED
Alarm Relay
Normal Mode
Normal Mode with UPS Warning
CXM is non-functional
Fault Retry
Lockout
Over/Under Voltage Shutdown
On
On
Off
Slow Flash
Fast Flash
Slow Flash
Open
Cycle (closed 5 sec., Open 25 sec.)
Open
Open
Closed
Open (Closed after 15 minutes)
Test Mode - No fault in memory
Flashing Code 1
Cycling Code 1
Test Mode - HP Fault in memory
Flashing Code 2
Cycling Code 2
Test Mode - LP Fault in memory
Flashing Code 3
Cycling Code 3
Test Mode - FP1 Fault in memory Flashing Code 4
Cycling Code 4
Test Mode - FP2 Fault in memory Flashing Code 5
Cycling Code 5
Test Mode - CO Fault in memory Flashing Code 6
Cycling Code 6
Test Mode - Over/Under
shutdown in memory
Flashing Code 7
Cycling Code 7
Test Mode - UPS in memory
Flashing Code 8
Cycling Code 8
Test Mode - Swapped Thermistor Flashing Code 9
Cycling Code 9
-Slow Flash = 1 flash every 2 seconds
-Fast Flash = 2 flashes every 1 second
-Flash code 2 = 2 quick flashes, 10 second pause, 2 quick
flashes, 10 second pause, etc.
-On pulse 1/3 second; off pulse 1/3 second
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
DXM Controls
DXM Control
For detailed control information, see CXM AOM (part
# 97B0003N12), DXM AOM (part #97B0003N13), Lon
controller AOM (part #97B0013N01) or MPC AOM (part #
97B0031N01).
Table 7b: DXM
Description of
Operation
Normal mode
Normal mode with UPS
DXM is non-functional
Fault Retry
Lockout
Test Mode
Night Setback
ESD
Invalid T-stat Inputs
HP Fault
LP Fault
FP1 Fault
FP2 Fault
CO Fault
Over/Under Voltage
limit setting for FP1 of 30°F or 10°F [-1°F or -12°C]
(refrigerant temperature).
Not Clipped = 30°F [-1°C]. Clipped = 10°F [-12°C].
Air coil low temperature limit setting: Jumper 2 (JW2-FP2
Low Temp) provides field selection of temperature limit
LED And Alarm Relay Operations setting for FP2 of 30°F or 10°F [-1°F or -12°C] (refrigerant
temperature). Note: This jumper should only
be clipped under extenuating circumstances,
Status LED
Test LED
Fault LED (red)
Alarm Relay
(green)
(yellow)
as recommended by ClimateMaster technical
On
Off
Open
services.
On
-
Flashing Code 8
Cycle (closed 5 sec,
open 25 sec)
Off
Slow Flash
Fast Flash
Flashing Code 2
Flashing Code 3
Flashing Code 4
Off
On
-
Off
Flashing fault code
Flashing fault code
-
Open
Open
Closed
-
Slow Flash
Slow Flash
Slow Flash
Slow Flash
Slow Flash
-
Flashing Code 2
Flashing Code 3
Flashing Code 4
Flashing Code 5
Flashing Code 6
Open
Open
Open
Open
Open
Flashing Code 7
Open (closed after 15
minutes)
Slow Flash
-
-Slow Flash = 1 flash every 2 seconds
-Fast Flash = 2 flashes every 1 second
-Flash code 2 = 2 quick flashes, 10 second pause, 2 quick
flashes, 10 second pause, etc.
-On pulse 1/3 second; off pulse 1/3 second
Field Selectable Inputs
Test mode: Test mode allows the service technician to
check the operation of the control in a timely manner. By
momentarily shorting the test terminals, the DXM control
enters a 20 minute test mode period in which all time
delays are sped up 15 times. Upon entering test mode, the
status LED will flash a code representing the last fault. For
diagnostic ease at the thermostat, the alarm relay will also
cycle during test mode. The alarm relay will cycle on and
off similar to the status LED to indicate a code representing
the last fault, at the thermostat. Test mode can be exited by
shorting the test terminals for 3 seconds.
Retry mode: If the control is attempting a retry of a fault, the
status LED will slow flash (slow flash = one flash every 2
seconds) to indicate the control is in the process of retrying.
Field Configuration Options
Note: In the following field configuration options, jumper
wires should be clipped ONLY when power is removed
from the DXM control.
Water coil low temperature limit setting: Jumper 3 (JW3FP1 Low Temp) provides field selection of temperature
Not Clipped = 30°F [-1°C]. Clipped = 10°F
[-12°C].
Alarm relay setting: Jumper 4 (JW4-AL2 Dry)
provides field selection of the alarm relay
terminal AL2 to be jumpered to 24VAC or to be
a dry contact (no connection).
Not Clipped = AL2 connected to R.
Clipped = AL2 dry contact
(no connection).
Low pressure normally open: Jumper 1 (JW1LP norm open) provides field selection for
low pressure input to be normally closed or
normally open.
Not Clipped = LP normally closed. Clipped = LP
normally open.
DIP Switches
Note: In the following field configuration options, DIP
switches should only be changed when power is removed
from the DXM control.
DIP Package #1 (S1)
DIP Package #1 has 8 switches and provides the
following setup selections:
1.1 - Unit Performance Sentinel (UPS) disable: DIP Switch
1.1 provides field selection to disable the UPS feature.
On = Enabled. Off = Disabled.
1.2 - Compressor relay staging operation: DIP 1.2
provides selection of compressor relay staging operation.
The compressor relay can be selected to turn on with
a stage 1 or stage 2 call from the thermostat. This is
used with dual stage units (2 compressors where 2 DXM
controls are being used) or with master/slave applications.
In master/slave applications, each compressor and fan will
stage according to its appropriate DIP 1.2 setting. If set
to stage 2, the compressor will have a 3 second on-delay
before energizing during a Stage 2 demand. Also, if set for
stage 2, the alarm relay will NOT cycle during test mode.
On = Stage 1. Off = Stage 2.
1.3 - Thermostat type (heat pump or heat/cool): DIP 1.3
provides selection of thermostat type. Heat pump or
heat/cool thermostats can be selected. When in heat/
c l i m a t e m a s t e r. c o m
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C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
DXM Controls
cool mode, Y1 is the input call for cooling stage 1; Y2 is
the input call for cooling stage 2; W1 is the input call for
heating stage 1; and O/W2 is the input call for heating
stage 2. In heat pump mode, Y1 is the input call for
compressor stage 1; Y2 is the input call for compressor
stage 2; W1 is the input call for heating stage 3 or
emergency heat; and O/W2 is the input call for reversing
valve (heating or cooling, depending upon DIP 1.4).
On = Heat Pump. Off = Heat/Cool.
1.4 - Thermostat type (O/B): DIP 1.4 provides selection of
thermostat type for reversing valve activation. Heat pump
thermostats with “O” output (reversing valve energized
for cooling) or “B” output (reversing valve energized for
heating) can be selected with DIP 1.4.
On = HP stat with “O” output for cooling. Off = HP stat
with “B” output for heating.
1.5 - Dehumidification mode: DIP 1.5 provides
selection of normal or dehumidification fan mode. In
dehumidification mode, the fan speed relay will remain
off during cooling stage 2. In normal mode, the fan speed
relay will turn on during cooling stage 2.
On = Normal fan mode. Off = Dehumidification mode.
1.6 - DDC output at EH2: DIP 1.6 provides selection for
DDC operation. If set to “DDC Output at EH2,” the EH2
terminal will continuously output the last fault code of
the controller. If set to “EH2 normal,” EH2 will operate as
standard electric heat output.
On = EH2 Normal. Off = DDC Output at EH2.
1.7 - Boilerless operation: DIP 1.7 provides selection of
boilerless operation. In boilerless mode, the compressor
is only used for heating when FP1 is above the
temperature specified by the setting of DIP 1.8. Below
DIP 1.8 setting, the compressor is not used and the
control goes into emergency heat mode, staging on EH1
and EH2 to provide heating.
On = normal. Off = Boilerless operation.
1.8 - Boilerless changeover temperature: DIP 1.8
provides selection of boilerless changeover temperature
set point. Note that the FP1 thermistor is sensing
refrigerant temperature between the coaxial heat
exchanger and the expansion device (TXV or cap tube).
Therefore, the 50°F [10°C] setting is not 50°F [10°C]
water, but approximately 60°F [16°C] EWT.
selection of ACC 1 relay personality (relay operation/
characteristics). See table 6c for description of functionality.
2.3 - Accessory1 relay personality: DIP 2.3 provides
selection of ACC 1 relay options. See table 6c for
description of functionality.
2.4 - Accessory2 relay personality: DIP 2.4 provides
selection of ACC 2 relay personality (relay operation/
characteristics). See table 6c for description of functionality.
2.5 - Accessory2 relay personality: DIP 2.5 provides
selection of ACC 2 relay personality (relay operation/
characteristics). See table 6c for description of functionality.
2.6 - Accessory2 relay personality: DIP 2.6 provides
selection of ACC 2 relay options. See table 6c for
description of functionality.
2.7 - Auto dehumidification fan mode or high fan mode: DIP
2.7 provides selection of auto dehumidification fan mode
or high fan mode. In auto dehumidification mode, the fan
speed relay will remain off during cooling stage 2 IF the H
input is active. In high fan mode, the fan enable and fan
speed relays will turn on when the H input is active.
On = Auto dehumidification mode. Off = High fan mode.
2.8 - Special factory selection: DIP 2.8 provides special
factory selection. Normal position is “On.” Do not change
selection unless instructed to do so by the factory.
Table 7c: Accessory DIP Switch Settings
DIP 2.1
DIP 2.2
DIP 2.3
ACC1 Relay Option
On
On
On
Cycle with fan
Off
On
On
Digital NSB
On
Off
On
Water Valve - slow opening
On
On
Off
OAD
Off
Off
Off
Reheat Option - Humidistat
Off
On
Off
Reheat Option - Dehumidistat
DIP 2.4
DIP 2.5
DIP 2.6
ACC2 Relay Option
On
On
On
Cycle with compressor
Off
On
On
Digital NSB
On
Off
On
Water Valve - slow opening
On
On
Off
OAD
All other DIP combinations are invalid
On = 50°F [10°C]. Off = 40°F [16°C].
DIP Package #2 (S2)
DIP Package #2 has 8 switches and provides the
following setup selections:
2.1 - Accessory1 relay personality: DIP 2.1 provides
selection of ACC1 relay personality (relay operation/
characteristics). See table 6c for description of functionality.
2.2 - Accessory1 relay personality: DIP 2.2 provides
34
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Safety Features - CXM/DXM Controls
Safety Features – CXM/DXM Control
The safety features below are provided to protect
the compressor, heat exchangers, wiring and other
components from damage caused by operation outside
of design conditions.
Anti-short cycle protection: The control features a 5
minute anti-short cycle protection for the compressor.
Note: The 5 minute anti-short cycle also occurs at power
up.
Random start: The control features a random start upon
power up of 5-80 seconds.
Fault Retry: In Fault Retry mode, the Status LED begins
slowly flashing to signal that the control is trying to
recover from a fault input. The control will stage off the
outputs and then “try again” to satisfy the thermostat
input call. Once the thermostat input call is satisfied,
the control will continue on as if no fault occurred.
If 3 consecutive faults occur without satisfying the
thermostat input call, the control will go into “lockout”
mode. The last fault causing the lockout will be stored
in memory and can be viewed at the “fault” LED (DXM
board) or by going into test mode (CXM board). Note:
FP1/FP2 faults are factory set at only one try.
Lockout: In lockout mode, the status LED will begin fast
flashing. The compressor relay is turned off immediately.
Lockout mode can be “soft” reset by turning off the
thermostat (or satisfying the call). A “soft” reset keeps
the fault in memory but resets the control. A “hard” reset
(disconnecting power to the control) resets the control
and erases fault memory.
Lockout with emergency heat: While in lockout mode,
if W becomes active (CXM), emergency heat mode will
occur. If DXM is configured for heat pump thermostat
type (DIP 1.3), emergency heat will become active if O/
W2 is energized.
High pressure switch: When the high pressure switch
opens due to high refrigerant pressures, the compressor
relay is de-energized immediately since the high pressure
switch is in series with the compressor contactor coil.
The high pressure fault recognition is immediate (does not
delay for 30 continuous seconds before de-energizing the
compressor).
High pressure lockout code = 2
Example: 2 quick flashes, 10 sec pause, 2 quick flashes,
10 sec. pause, etc.
Low pressure switch: The low pressure switch must be
open and remain open for 30 continuous seconds during
“on” cycle to be recognized as a low pressure fault. If
the low pressure switch is open for 30 seconds prior to
compressor power up it will be considered a low pressure
(loss of charge) fault. The low pressure switch input is
bypassed for the initial 120 seconds of a compressor run
cycle.
Low pressure lockout code = 3
Water coil low temperature (FP1): The FP1 thermistor
temperature must be below the selected low
temperature limit setting for 30 continuous seconds
during a compressor run cycle to be recognized as a
FP1 fault. The FP1 input is bypassed for the initial 120
seconds of a compressor run cycle. FP1 is set at the
factory for one try. Therefore, the control will go into
lockout mode once the FP1 fault has occurred.
FP1 lockout code = 4
Air coil low temperature (FP2): The FP2 thermistor
temperature must be below the selected low
temperature limit setting for 30 continuous seconds
during a compressor run cycle to be recognized as a
FP2 fault. The FP2 input is bypassed for the initial 60
seconds of a compressor run cycle. FP2 is set at the
factory for one try. Therefore, the control will go into
lockout mode once the FP2 fault has occurred.
FP2 lockout code = 5
Condensate overflow: The condensate overflow sensor
must sense overflow level for 30 continuous seconds to
be recognized as a CO fault. Condensate overflow will
be monitored at all times.
CO lockout code = 6
Over/under voltage shutdown: An over/under voltage
condition exists when the control voltage is outside
the range of 19VAC to 30VAC. Over/under voltage shut
down is a self-resetting safety. If the voltage comes back
within range for at least 0.5 seconds, normal operation
is restored. This is not considered a fault or lockout. If
the CXM/DXM is in over/under voltage shutdown for 15
minutes, the alarm relay will close.
Over/under voltage shut down code = 7
Unit Performance Sentinel-UPS (patent pending): The
UPS feature indicates when the heat pump is operating
inefficiently. A UPS condition exists when:
a) In heating mode with compressor energized, FP2 is
greater than 125°F [52°C] for 30 continuous seconds,
or:
b) In cooling mode with compressor energized, FP1 is
greater than 125°F [52°C] for 30 continuous seconds,
or:
c) In cooling mode with compressor energized, FP2 is
less than 40°F [4.5°C] for 30 continuous seconds.
c l i m a t e m a s t e r. c o m
35
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Safety Features - CXM/DXM Controls
If a UPS condition occurs, the control will immediately
go to UPS warning. The status LED will remain on as if
the control is in normal mode. Outputs of the control,
excluding LED and alarm relay, will NOT be affected
by UPS. The UPS condition cannot occur during a
compressor off cycle. During UPS warning, the alarm
relay will cycle on and off. The cycle rate will be “on”
for 5 seconds, “off” for 25 seconds, “on” for 5 seconds,
“off” for 25 seconds, etc.
UPS warning code = 8
CXM/DXM Control Start-up Operation
The control will not operate until all inputs and safety
controls are checked for normal conditions. The
compressor will have a 5 minute anti-short cycle delay
at power-up. The first time after power-up that there is a
call for compressor, the compressor will follow a 5 to 80
second random start delay. After the random start delay
and anti-short cycle delay, the compressor relay will
be energized. On all subsequent compressor calls, the
random start delay is omitted.
Swapped FP1/FP2 thermistors: During test mode, the
control monitors to see if the FP1 and FP2 thermistors
are in the appropriate places. If the control is in test
mode, the control will lockout with code 9 after 30
seconds if:
a) The compressor is on in the cooling mode and the
FP1 sensor is colder than the FP2 sensor, or:
b) The compressor is on in the heating mode and the
FP2 sensor is colder than the FP1 sensor.
Swapped FP1/FP2 thermistor code = 9.
ESD (DXM only): The ESD (Emergency Shut Down)
mode can be enabled from an external common signal
to terminal ESD to shut down the unit. The green status
light will flash code 3 when the unit is in ESD mode.
ESD mode = code 3 (green “status” LED)
CXM/DXM Controls
Diagnostic Features
The LED on the CXM board advises the technician of the
current status of the CXM control. The LED can display
either the current CXM mode or the last fault in memory
if in test mode. If there is no fault in memory, the LED will
flash Code 1 (when in test mode).
The green status LED and red fault LED on the DXM board
advise the technician of the current status of the DXM
control. The status LED will indicate the current mode that
the DXM control is in. The fault LED will ALWAYS flash a
code representing the LAST fault in memory. If there is
no fault in memory, the fault LED will flash Code 1. The
yellow test LED will turn on when in test mode. CAUTION:
Do not restart units without inspection and remedy of
faulting condition. Damage may occur.
36
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Commissioning and Operating Conditions
Environment – This unit is designed for indoor
installation only. Do not install in an area subject to
freezing or where humidity levels can cause cabinet
condensation.
Power Supply – A voltage variation of +/- 10% of
nameplate utilization voltage is acceptable.
The commissioning table indicates air and water
temperatures which are suitable for initial unit
commissioning in an environment where the flow rate
and water temperature is not yet stable and to avoid
nuisance shut down of the units freeze and refrigerant
pressure safeties.
Operation and performance is primarily dependent
upon return air temperature, airflow, water temperature,
water flow rate and ambient air temperature. This water
to air heat pump is capable of operating over a wide
temperature range and with flow rates of between 1.5
GPM (.1 l/s) and 3 GPM (.19 l/s) per ton, however usually
no more than one of these factors may be at a minimum
or maximum level at a time.
The operating table indicates the maximum and
minimum ranges of the unit.
For more specific unit performance reference the
product catalog, the submittal data sheets or contact
your supplier for assistance.
Table 8: Building Commissioning
BUILDING COMMISSIONING
ALL CCE MODELS
ALL TRC MODELS
Cooling °F [°C]
Heating °F [°C]
Cooling °F [°C]
Heating °F [°C]
AMBIENT MIN - MAX DB
45-110 [7-43]
40-85 [4.5-29]
45-110 [7-43]
40-85 [4.5-29]
RETURN AIR MIN DB/WB
60/45 [16/7]
40 [4.5]
60/45 [16/7]
40 [4.5]
RETURN AIR MAX DB/WB
110/83 [43/28]
80 [27]
110/83 [43/28]
80 [27]
STANDARD UNIT ENTERING
WATER MIN* - MAX
40-110 [4.5-43]
60-90 [16-43]
40-120 [4.5-49]
60-90 [16-43]
EXTENDED RANGE UNIT**
ENTERING WATER MIN* - MAX
30-110 [-1-43]
20-90 [-6.7-32]
30-120 [-1-49]
20-90 [-6.7-32]
*- Requires optional insulation package when operating below the dew point
**- Requires antifreeze, optional insulation package and jumper clipped.
Table 8A: Unit Operating Limits
UNIT OPERATING LIMITS
All CCE Models
All TRC Models
Cooling °F [°C]
Heating °F [°C]
Cooling °F [°C]
Heating °F [°C]
AMBIENT MIN - MAX DB
50-100 [10-38]
50-85 [10-29]
50-100 [10-38]
50-85 [10-29]
RETURN AIR MIN DB/WB
65/60 [18/15.5]
50 [10]
65/60 [18/15.5]
50 [10]
RETURN AIR MAX DB/WB
95/75 [35/24]
80 [27]
95/75 [35/24]
80 [27]
STANDARD UNIT ENTERING
WATER MIN* - MAX
50-110 [10-43]
60-90 [16-43]
50-120 [10-49]
60-90 [16-43]
EXTENDED RANGE UNIT**
ENTERING WATER MIN* - MAX
30-110 [-1-43]
20-90 [-6.7-32]
30-120 [-1-49]
20-90 [-6.7-32]
*- Requires optional insulation package when operating below the dew point
**- Requires antifreeze, optional insulation package and jumper clipped.
Table 9: Water Temperature Change Through
Heat Exchanger
c l i m a t e m a s t e r. c o m
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C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Piping System Cleaning and Flushing
Piping System Cleaning and Flushing
Cleaning and flushing the WLHP piping system is the
single most important step to insure proper start-up and
continued efficient operation of the system.
Follow the instructions below to properly clean and flush
the system:
1. Insure that electrical power to the unit is
disconnected.
2. Install the system with the supply hose connected
directly to the return riser valve. Use a single length
of flexible hose.
3. Open all air vents. Fill the system with water. DO
NOT allow system to overflow. Bleed all air from the
system. Pressurize and check the system for leaks
and repair as appropriate.
4. Verify that all strainers are in place (ClimateMaster
recommends a strainer with a #20 stainless steel wire
mesh). Start the pumps, and systematically check
each vent to ensure that all air is bled from the system.
5. Verify that make-up water is available. Adjust makeup water as required to replace the air which was
bled from the system. Check and adjust the water/air
level in the expansion tank.
6. Set the boiler to raise the loop temperature to
approximately 86°F [30°C]. Open a drain at the
lowest point in the system. Adjust the make-up water
replacement rate to equal the rate of bleed.
7. Refill the system and add trisodium phosphate in
a proportion of approximately one pound per 150
gallons [1/2 kg per 750 l] of water (or other equivalent
approved cleaning agent). Reset the boiler to raise
the loop temperature to 100°F [38°C]. Circulate the
solution for a minimum of 8 to 24 hours. At the end
of this period, shut off the circulating pump and drain
the solution. Repeat system cleaning if desired.
8. When the cleaning process is complete, remove the
short-circuited hoses. Reconnect the hoses to the
proper supply, and return the connections to each of
the units. Refill the system and bleed off all air.
9. Test the system pH with litmus paper. The system
water should be in the range of pH 6.0 - 8.5 (see
table 3). Add chemicals, as appropriate to maintain
neutral pH levels.
10. When the system is successfully cleaned, flushed,
refilled and bled, check the main system panels,
safety cutouts and alarms. Set the controls to
properly maintain loop temperatures.
CAUTION!
CAUTION! To avoid possible damage to a plastic (PVC)
piping system, do not allow temperatures to exceed 113°F
[45°C].
NOTE: ClimateMaster strongly recommends all
piping connections, both internal and external to the
unit, be pressure tested by an appropriate method
prior to any finishing of the interior space or before
access to all connections is limited. Test pressure
may not exceed the maximum allowable pressure for
the unit and all components within the water system.
ClimateMaster will not be responsible or liable for
damages from water leaks due to inadequate or
lack of a pressurized leak test, or damages caused
by exceeding the maximum pressure rating during
installation.
DO NOT use “Stop Leak” or similar chemical agent in
this system. Addition of chemicals of this type to the
loop water will foul the heat exchanger and inhibit unit
operation.
38
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit and System Checkout Procedure
Unit and System Checkout
BEFORE POWERING SYSTEM, please check the following:
UNIT CHECKOUT
Balancing/shutoff valves: Insure that all isolation
valves are open and water control valves are wired.
Line voltage and wiring: Verify that voltage is within
an acceptable range for the unit and wiring and
fuses/breakers are properly sized. Verify that low
voltage wiring is complete.
Unit control transformer: Insure that transformer
has the properly selected voltage tap. Commercial
208-230V units are factory wired for 208V operation
unless specified otherwise.
Entering water and air: Insure that entering water and
air temperatures are within operating limits of Table 8.
Low water temperature cutout: Verify that low water
temperature cut-out on the CXM/DXM control is
properly set.
Unit fan: Manually rotate fan to verify free rotation
and insure that blower wheel is secured to the
motor shaft. Be sure to remove any shipping
supports if needed. DO NOT oil motors upon startup. Fan motors are pre-oiled at the factory. Check
unit fan speed selection and compare to design
requirements.
Condensate line: Verify that condensate line is open
and properly pitched toward drain.
Water flow balancing: Record inlet and outlet water
temperatures for each heat pump upon startup. This
check can eliminate nuisance trip outs and high
velocity water flow that could erode heat exchangers.
Unit air coil and filters: Insure that filter is clean and
accessible. Clean air coil of all manufacturing oils.
Unit controls: Verify that CXM or DXM field selection
options are properly set.
Cooling tower/boiler: Check equipment for proper set
points and operation.
Standby pumps: Verify that the standby pump is
properly installed and in operating condition.
System controls: Verify that system controls function
and operate in the proper sequence.
Low water temperature cutout: Verify that low water
temperature cut-out controls are provided for the
outdoor portion of the loop. Otherwise, operating
problems may occur.
System control center: Verify that the control center
and alarm panel have appropriate set points and are
operating as designed.
Miscellaneous: Note any questionable aspects of
the installation.
CAUTION!
CAUTION! Verify that ALL water control valves are open
and allow water flow prior to engaging the compressor.
Freezing of the coax or water lines can permanently
damage the heat pump.
CAUTION!
CAUTION! To avoid equipment damage, DO NOT
leave system filled in a building without heat during the
winter unless antifreeze is added to the water loop. Heat
exchangers never fully drain by themselves and will freeze
unless winterized with antifreeze.
NOTICE! Failure to remove shipping brackets from springmounted compressors will cause excessive noise, and could
cause component failure due to added vibration.
SYSTEM CHECKOUT
System water temperature: Check water temperature
for proper range and also verify heating and cooling
set points for proper operation.
System pH: Check and adjust water pH if necessary
to maintain a level between 6 and 8.5. Proper pH
promotes longevity of hoses and fittings (see Table
3).
System flushing: Verify that all hoses are connected
end to end when flushing to insure that debris
bypasses the unit heat exchanger, water valves and
other components. Water used in the system must
be potable quality initially and clean of dirt, piping
slag, and strong chemical cleaning agents. Verify that
all air is purged from the system. Air in the system
can cause poor operation or system corrosion.
c l i m a t e m a s t e r. c o m
39
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Start-Up Procedure
Unit Start-up Procedure
1. Turn the thermostat fan position to “ON”. Blower
should start.
2. Balance air flow at registers.
3. Adjust all valves to their full open positions. Turn on
the line power to all heat pumps.
4. Room temperature should be within the minimummaximum ranges of table 8. During start-up checks,
loop water temperature entering the heat pump
should be between 60°F [16°C] and 95°F [35°C].
5. Two factors determine the operating limits
of ClimateMaster heat pumps, (a) return air
temperature, and (b) water temperature. When any
one of these factors is at a minimum or maximum
level, the other factor must be at normal level to
insure proper unit operation.
a. Adjust the unit thermostat to the warmest setting.
Place the thermostat mode switch in the “COOL”
position. Slowly reduce thermostat setting until
the compressor activates.
b. Check for cool air delivery at the unit grille within a
few minutes after the unit has begun to operate.
Note: Units have a five minute time delay in the
control circuit that can be eliminated on the CXM/
DXM control board as shown below in Figure 8.
See controls description for details.
c. Check the elevation and cleanliness of the
condensate lines. Dripping may be a sign of a
blocked line. Check that the condensate trap is
filled to provide a water seal.
d. Refer to Table 9. Check the temperature of
both entering and leaving water. If temperature
is within range, proceed with the test. If
temperature is outside of the operating range,
check refrigerant pressures.
e. Check air temperature drop across the air coil
when compressor is operating. Air temperature
drop should be between 15°F and 25°F [8°C and
14°C].
f. Turn thermostat to “OFF” position. A hissing noise
indicates proper functioning of the reversing valve.
6. Allow five (5) minutes between tests for pressure to
equalize before beginning heating test.
a. Adjust the thermostat to the lowest setting.
Place the thermostat mode switch in the “HEAT”
position.
b. Slowly raise the thermostat to a higher
temperature until the compressor activates.
c. Check for warm air delivery within a few minutes
after the unit has begun to operate.
d. Refer to Table 9. Check the temperature of
both entering and leaving water. If temperature
40
is within range, proceed with the test. If
temperature is outside of the operating range,
check refrigerant pressures.
e. Check air temperature rise across the air coil when
compressor is operating. Air temperature rise
should be between 20°F and 30°F [11°C and 17°C].
f. Check for vibration, noise, and water leaks.
7. If unit fails to operate, perform troubleshooting
analysis (see troubleshooting section). If the check
described fails to reveal the problem and the unit
still does not operate, contact a trained service
technician to insure proper diagnosis and repair of
the equipment.
8. When testing is complete, set system to maintain
desired comfort level.
9. BE CERTAIN TO FILL OUT AND FORWARD
ALL WARRANTY REGISTRATION PAPERS TO
CLIMATEMASTER.
Note: If performance during any mode appears
abnormal, refer to the CXM/DXM section or
troubleshooting section of this manual. To obtain
maximum performance, the air coil should be cleaned
before start-up. A 10% solution of dishwasher detergent
and water is recommended.
WARNING!
WARNING! When the disconnect switch is closed, high
voltage is present in some areas of the electrical panel.
Exercise caution when working with energized equipment.
CAUTION!
CAUTION! Verify that ALL water control valves are open and
allow water flow prior to engaging the compressor. Freezing
of the coax or water lines can permanently damage the heat
pump.
Figure 8: Test Mode Pins
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
Short test pins
together to enter Test
Mode and speed-up
timing and delays for
20 minutes.
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Operating Conditions
NOTE: Table 10 includes the following notes:
• Airflow is at nominal (rated) conditions;
• Entering air is based upon 70°F [21°C] DB in heating
and 80/67°F [27/19°C] in cooling;
• Subcooling is based upon head pressure at
compressor service port;
• Cooling air and water values can vary greatly with
changes in humidity level.
Table: 10 TRC Series Typical Operating Pressures and Temperatures (60 Hz I.P. Units)
TRC09
Full Load Cooling - without HWG Active
Full Load Heating - without HWG Active
Entering
Water
Temp
°F
Water
Flow
GPM/
Ton
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Superheat
Subcooling
Water
Temp Drop
°F
Air Temp
Rise °F
DB
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Superheat
Subcooling
Water
Temp Drop
°F
Air
Temp
Rise °F
DB
30
1.4
2
2.75
126-136
126-136
126-136
161-181
146-166
131-151
17-22
17-22
17-22
8-13
7-12
6-11
19.8-21.8
14.9-16.9
9.9-11.9
21-27
21-27
21-27
74-84
77-87
79-89
278-298
280-300
283-303
6-11
6-11
6-11
4-9
4-9
3-8
6.1-8.1
4.5-6.5
2.8-4.8
18-24
18-24
19-25
50
1.4
2
2.75
132-142
132-142
132-142
215-235
200-220
185-205
10-15
10-15
10-15
8-13
7-12
6-11
18.8-20.8
14.4-16.1
9.4-11.4
20-26
20-26
20-26
104-114
106-116
108-118
309-329
312-332
315-335
8-12
8-12
8-12
7-12
7-12
7-12
9.6-11.6
7-9
4.5-6.5
24-30
24-30
25-31
70
1.4
2
2.75
138-148
138-148
137-147
278-298
263-283
248-268
8-13
8-13
8-13
9-14
8-13
7-12
17.7-19.7
13.1-15.1
8.5-10.5
19-25
19-25
19-25
127-137
132-142
138-148
332-352
340-360
341-367
10-15
11-16
13-18
10-15
10-15
10-15
12-14
9-10
6.1-8.1
29-35
29-35
30-36
90
1.4
2
2.75
142-152
142-152
142-152
365-385
351-371
337-357
8-13
8-13
8-13
9-14
8-13
7-12
16-18
12-14
8-10
18-24
18-24
18-24
164-174
165-175
167-177
372-392
375-395
379-399
17-22
18-23
19-24
13-18
13-18
13-18
14.5-16.5
11.2-13.2
7.9-9.9
35-41
35-41
36-42
110
1.4
2
2.75
150-160
150-160
150-160
439-459
439-459
439-459
7-12
7-12
7-12
9-14
8-13
7-12
14.2-16.2
10.6-12.6
6.9-8.9
17-23
17-23
17-23
TRC12
Full Load Cooling - without HWG Active
Full Load Heating - without HWG Active
Entering
Water
Temp
°F
Water
Flow
GPM/
Ton
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Superheat
Subcooling
Water
Temp Drop
°F
Air Temp
Rise °F
DB
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Superheat
Subcooling
Water
Temp Drop
°F
Air
Temp
Rise °F
DB
30
1.75
2.6
3.5
98-108
98-108
99-109
140-160
135-155
127-148
36-41
36-41
36-41
14-19
12-17
10-15
17.1-19.1
12.5-14.5
7.9-9.9
19-25
19-25
19-25
72-82
85-95
78-88
301-321
304-324
308-328
9-14
9-14
9-14
12-17
12-17
12-17
6.5-8.5
4.7-6.7
2.9-4.9
21-27
21-27
22-28
50
1.75
2.6
3.5
118-128
118-128
118-128
215-235
200-220
185-205
22-27
22-27
22-27
14-19
12-17
10-15
18.1-20.1
13.1-15.1
8.1-10.1
20-26
20-26
19-25
100-110
98-108
95-105
337-357
334-354
332-352
10-15
10-15
11-16
15-20
15-20
15-20
9.5-11.5
6.6-8.6
3.8-5.8
26-32
26-32
26-32
70
1.75
2.6
3.5
132-142
132-142
132-142
300-320
263-282
245-265
11-16
11-16
12-17
12-17
10-15
7-12
17-19
12.6-14.6
8.2-10.2
19-25
19-25
19-25
115-125
112-122
110-120
361-381
360-380
356-376
19-24
20-25
21-26
18-23
18-23
18-23
11.1-13.1
8-10
4.8-6.8
29-35
29-35
29-35
90
1.75
2.6
3.5
138-148
138-148
138-148
366-386
353-373
340-360
9-14
9-14
9-14
11-16
9-14
6-11
15.8-17.8
14.9-16.9
14-16
18-24
18-24
18-24
122-132
123-133
124-134
376-396
378-398
380-400
34-39
36-41
38-43
22-27
22-27
23-28
12.1-14.1
9-11
5.8-7.8
32-38
32-38
32-38
110
1.75
2.6
3.5
145-155
145-155
145-155
453-473
442-462
431-451
9-14
9-14
9-14
9-14
7-12
5-10
14.7-16.7
10.8-12.8
6.8-8.8
16-22
16-22
17-23
c l i m a t e m a s t e r. c o m
41
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Unit Operating Conditions
Table: 10 TRC Series Typical Operating Pressures and Temperatures (60 Hz I.P. Units)
TRC15
Full Load Cooling - without HWG active
Entering
Water
Temp °F
Water
Flow
GPM/ton
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Subcooling
Water
Temp Drop
°F
Superheat
30
2.1
3.15
4.2
98-108
98-108
99-109
140-160
135-155
127-148
36-41
36-41
36-41
14-19
12-17
10-15
50
2.1
3.15
4.2
118-128
118-128
118-128
215-235
200-220
185-205
22-27
22-27
22-27
70
2.1
3.15
4.2
132-142
132-142
132-142
300-320
263-282
245-265
90
2.1
3.15
4.2
138-148
138-148
138-148
110
2.1
3.15
4.2
145-155
145-155
145-155
TRC18
Full Load Heating - without HWG active
Air Temp
Rise °F DB
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Superheat
Subcooling
Water
Temp Drop
°F
Air Temp
Rise °F DB
17.1-19.1
12.5-14.5
7.9-9.9
19-25
19-25
19-25
74-84
77-87
79-89
278-298
280-300
283-303
6-11
6-11
6-11
4-9
4-9
3-8
6.1-8.1
4.5-6.5
2.8-4.8
18-24
18-24
19-25
14-19
12-17
10-15
18.1-20.1
13.1-15.1
8.1-10.1
20-26
20-26
19-25
104-114
106-116
108-118
309-329
312-332
315-335
8-12
8-12
8-12
7-12
7-12
7-12
9.6-11.6
7-9
4.5-6.5
24-30
24-30
25-31
11-16
11-16
12-17
12-17
10-15
7-12
17-19
12.6-14.6
8.2-10.2
19-25
19-25
19-25
127-137
132-142
138-148
332-352
340-360
347-367
10-15
11-16
13-18
10-15
10-15
10-15
12-14
9-10
6.1-8.1
29-35
29-35
30-36
366-386
353-373
340-360
9-14
9-14
9-14
11-16
9-14
6-11
15.8-17.8
14.9-16.9
14-16
18-24
18-24
18-24
164-174
165-175
167-177
372-392
375-395
379-399
17-22
18-23
19-24
13-18
13-18
13-18
14.5-16.5
11.2-13.2
7.9-9.9
35-41
35-41
36-42
453-473
442-462
431-451
9-14
9-14
9-14
9-14
7-12
5-10
14.7-16.7
10.8-12.8
6.8-8.8
16-22
16-22
17-23
Full Load Cooling - without HWG active
Entering
Water
Temp °F
Water
Flow
GPM/ton
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Subcooling
Water
Temp Drop
°F
Superheat
30
2.5
3.75
5
98-108
98-108
99-109
140-160
135-155
127-148
36-41
36-41
36-41
14-19
12-17
10-15
50
2.5
3.75
5
118-128
118-128
118-128
215-235
200-220
185-205
22-27
22-27
22-27
70
2.5
3.75
5
132-142
132-142
132-142
300-320
263-282
245-265
90
2.5
3.75
5
138-148
138-148
138-148
110
2.5
3.75
5
145-155
145-155
145-155
Full Load Heating - without HWG active
Air Temp
Rise °F DB
Suction
Pressure
PSIG
Discharge
Pressure
PSIG
Superheat
Subcooling
Water
Temp Drop
°F
Air Temp
Rise °F DB
17.1-19.1
12.5-14.5
7.9-9.9
19-25
19-25
19-25
74-84
77-87
79-89
278-298
280-300
283-303
6-11
6-11
6-11
4-9
4-9
3-8
6.1-8.1
4.5-6.5
2.8-4.8
18-24
18-24
19-25
14-19
12-17
10-15
18.1-20.1
13.1-15.1
8.1-10.1
20-26
20-26
19-25
104-114
106-116
108-118
309-329
312-332
315-335
8-12
8-12
8-12
7-12
7-12
7-12
9.6-11.6
7-9
4.5-6.5
24-30
24-30
25-31
11-16
11-16
12-17
12-17
10-15
7-12
17-19
12.6-14.6
8.2-10.2
19-25
19-25
19-25
127-137
132-142
138-148
332-352
340-360
347-367
10-15
11-16
13-18
10-15
10-15
10-15
12-14
9-10
6.1-8.1
29-35
29-35
30-36
366-386
353-373
340-360
9-14
9-14
9-14
11-16
9-14
6-11
15.8-17.8
14.9-16.9
14-16
18-24
18-24
18-24
164-174
165-175
167-177
372-392
375-395
379-399
17-22
18-23
19-24
13-18
13-18
13-18
14.5-16.5
11.2-13.2
7.9-9.9
35-41
35-41
36-42
453-473
442-462
431-451
9-14
9-14
9-14
9-14
7-12
5-10
14.7-16.7
10.8-12.8
6.8-8.8
16-22
16-22
17-23
Table 11: Coax Water Pressure Drop
42
Pressure Drop, PSI
30°F
50°F
70°F
90°F
PD Added for
Motorized Water Valve
1.1
1.6
2.3
1.6
2.6
4.5
1.2
2.2
3.8
1.0
2.0
3.5
0.9
1.9
3
0.3
0.6
1.2
TRC12
1.5
2.3
3
2.1
4.5
6.8
1.8
3.8
5.8
1.5
3.5
4.9
1.3
3
4.5
0.5
1.2
2.2
TRC15
1.9
2.8
3.7
1.5
3
4.7
1
2.3
3.9
0.9
2
3.3
0.8
1.7
2.9
0.7
1.7
3.3
TRC18
2.3
3.4
4.5
2.2
4.4
6.9
1.8
3.8
6
1.5
3.4
5.2
1.3
3
4.8
0.2
0.6
1.1
Model
GPM
TRC09
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Preventive Maintenance
Water Coil Maintenance
(Direct ground water applications only)
If the system is installed in an area with a known high
mineral content (125 P.P.M. or greater) in the water, it is
best to establish a periodic maintenance schedule with
the owner so the coil can be checked regularly. Consult
the well water applications section of this manual for
a more detailed water coil material selection. Should
periodic coil cleaning be necessary, use standard coil
cleaning procedures, which are compatible with the heat
exchanger material and copper water lines. Generally,
the more water flowing through the unit, the less chance
for scaling. Therefore, 1.5 gpm per ton [2.0 l/m per kW]
is recommended as a minimum flow. Minimum flow rate
for entering water temperatures below 50°F [10°C] is 2.0
gpm per ton [2.6 l/m per kW].
Water Coil Maintenance
(All other water loop applications)
Generally water coil maintenance is not needed for
closed loop systems. However, if the piping is known to
have high dirt or debris content, it is best to establish a
periodic maintenance schedule with the owner so the
water coil can be checked regularly. Dirty installations
are typically the result of deterioration of iron or
galvanized piping or components in the system. Open
cooling towers requiring heavy chemical treatment and
mineral buildup through water use can also contribute
to higher maintenance. Should periodic coil cleaning be
necessary, use standard coil cleaning procedures, which
are compatible with both the heat exchanger material
and copper water lines. Generally, the more water
flowing through the unit, the less chance for scaling.
However, flow rates over 3 gpm per ton (3.9 l/m per kW)
can produce water (or debris) velocities that can erode
the heat exchanger wall and ultimately produce leaks.
Filters
Filters must be clean to obtain maximum performance.
Filters should be inspected every month under normal
operating conditions and be replaced when necessary.
Units should never be operated without a filter.
Washable, high efficiency, electrostatic filters, when dirty,
can exhibit a very high pressure drop for the fan motor
and reduce air flow, resulting in poor performance. It is
especially important to provide consistent washing of
these filters (in the opposite direction of the normal air
flow) once per month using a high pressure wash similar
to those found at self-serve car washes.
Condensate Drain
In areas where airborne bacteria may produce a “slimy”
substance in the drain pan, it may be necessary
to treat the drain pan chemically with an algaecide
approximately every three months to minimize the
problem. The condensate pan may also need to be
cleaned periodically to insure indoor air quality. The
condensate drain can pick up lint and dirt, especially
with dirty filters. Inspect the drain twice a year to avoid
the possibility of plugging and eventual overflow.
Compressor
Conduct annual amperage checks to insure that amp
draw is no more than 10% greater than indicated on the
serial plate data.
Fan Motors
All units have lubricated fan motors. Fan motors should
never be lubricated unless obvious, dry operation
is suspected. Periodic maintenance oiling is not
recommended, as it will result in dirt accumulating in the
excess oil and cause eventual motor failure. Conduct
annual dry operation check and amperage check to
insure amp draw is no more than 10% greater than
indicated on serial plate data.
Air Coil
The air coil must be cleaned to obtain maximum
performance. Check once a year under normal operating
conditions and, if dirty, brush or vacuum clean. Care
must be taken not to damage the aluminum fins while
cleaning. CAUTION: Fin edges are sharp.
Cabinet
Do not allow water to stay in contact with the cabinet
for long periods of time to prevent corrosion of the
cabinet sheet metal. The cabinet can be cleaned using a
mild detergent.
Refrigerant System
To maintain sealed circuit integrity, do not install service
gauges unless unit operation appears abnormal.
Reference the operating charts for pressures and
temperatures. Verify that air and water flow rates are at
proper levels before servicing the refrigerant circuit.
c l i m a t e m a s t e r. c o m
43
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Functional Troubleshooting
Fault
Main power Problems
Htg Clg Possible Cause
X
HP Fault-Code 2
High pressure
Solution
X
Green Status LED Off
Check Line Voltage circuit breaker and disconnect
Check for line voltage between L1 and L2 on the contactor
Check for 24VAC between R and C on CXM/DXM
Check primary/secondary voltage on transformer
Check pump operation or valve operation/setting
Check water flow adjust to proper flow rate
X
Reduced or no water flow
in cooling
X
Water Temperature out of range in
Bring water temp within design parameters
cooling
X
Reduced or no Air flow
in heating
Check for dirty air filter and clean or replace
Check fan motor operation and airflow restrictions
Dirty Air Coil- construction dust etc.
X
Air Temperature out of range in
heating
Bring return air temp within design parameters
Overcharged with refrigerant
Check superheat/subcooling vs typical operating condition
table
Bad HP Switch
Insufficient charge
Check switch continuity and operation. Replace
Check for refrigerant leaks
Compressor pump down at startup
Check charge and start-up water flow
Too high of external static. Check static vs blower table
X
X
X
X
LP/LOC Fault-Code 3
X
X
Low Pressure/Loss of Charge
X
FP1 Fault - Code 4
X
Reduced or no water flow
Check pump operation or water valve operation/setting
in heating
Plugged strainer or filter. Clean or replace.
X
Inadequate anti-freeze level
Check antifreeze density with hydrometer
X
Improper temperature limit setting
(30°F vs 10°F [-1°C vs -12°C])
Clip JW3 jumper for antifreeze (10°F [-12°C]) use
Water Coil low
temperature limit
Check water flow adjust to proper flow rate
X
Water Temperature out of range
Bring water temp within design parameters
X
X
Bad thermistor
Reduced or no Air flow
in cooling
Check temp and impedance correlation per chart
Check for dirty air filter and clean or replace
Check fan motor operation and airflow restrictions
Too high of external static. Check static vs blower table
X
Air Temperature out of range
Too much cold vent air? Bring entering air temp within
design parameters
X
Improper temperature limit setting
(30°F vs 10°F [-1°C vs -12°C])
Normal airside applications will require 30°F [-1°C] only
X
X
Bad thermistor
Check temp and impedance correlation per chart
X
X
X
X
X
Blocked Drain
Improper trap
Poor Drainage
X
Moisture on sensor
Check for blockage and clean drain
Check trap dimensions and location ahead of vent
Check for piping slope away from unit
Check slope of unit toward outlet
Poor venting. Check vent location
Check for moisture shorting to air coil
X
X
Plugged Air Filter
Replace Air Filter
X
X
Restricted Return Air Flow
X
X
Under Voltage
Find & eliminate restriction. Increase return duct
and/or grille size.
Check power supply and 24VAC voltage before and during
operation.
Check power supply wire size
Check compressor starting. Need hard start kit?
X
FP2 fault - Code 5
Air Coil low
temperature limit
Condensate Fault-Code 6
Over/Under VoltageCode 7
(Auto resetting)
Check 24VAC and unit transformer tap for correct power
supply voltage
X
X
Over Voltage
Check power supply voltage and 24VAC before and during
operation.
Check 24VAC and unit transformer tap for correct power
supply voltage
Unit Performance
Sentinel-Code 8
X
1R)DXOW&RGH6KRZQ
8QLW6KRUW&\FOHV
2QO\)DQ5XQV
44
Heating mode FP2>125°F [52°C] Check for poor air flow or overcharged unit.
;
Cooling Mode FP1>125°F [52°C]
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;
;
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;
;
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;
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;
;
;
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C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Functional Troubleshooting
Only Compressor Runs
X
X
Thermostat wiring
Check G wiring at heat pump. Jumper G and R for fan
operation.
X
X
Fan motor relay
Jumper G and R for fan operation. Check for Line voltage
across BR contacts.
X
X
Fan motor
Check fan power enable relay operation (if present)
X
Unit Doesn't Operate in
Cooling
X
Thermostat wiring
X
Reversing Valve
X
Thermostat setup
X
Thermostat wiring
X
Thermostat wiring
Check for line voltage at motor. Check capacitor
Check thermostat wiring at heat pump. Jumper Y and R for
compressor operation in test mode.
Set for cooling demand and check 24VAC on RV coil and at
CXM/DXM board.
If RV is stuck, run high pressure up by reducing water flow
and while operating engage and disengage RV coil voltage
to push valve.
Check for 'O' RV setup not 'B'
Check O wiring at heat pump. Jumper O and R for RV coil
'Click'.
Put thermostat in cooling mode. Check for 24VAC on O
(check between C and O); check for 24VAC on W (check
between W and C). There should be voltage on O, but not
on W. If voltage is present on W, thermostat may be bad
or wired incorrectly.
Performance Troubleshooting
Performance
Troubleshooting
Insufficient capacity/
Not cooling or heating
Htg Clg Possible Cause
X
X
X
properly
High Head Pressure
Solution
Dirty Filter
Replace or clean
Reduced or no Air flow
Check for dirty air filter and clean or replace
in heating
Check fan motor operation and airflow restrictions
Too high of external static. Check static vs blower table
Check for dirty air filter and clean or replace
Check fan motor operation and airflow restrictions
Too high of external static. Check static vs blower table
Check supply and return air temperatures at the unit and at
distant duct registers if significantly different, duct leaks
are present
Check superheat and subcooling per chart
Check superheat and subcooling per chart. Replace.
Perform RV touch test
Check location and for air drafts behind stat
Recheck loads & sizing check sensible clg load and heat
pump capacity
X
Reduced or no Air flow
in cooling
X
X
Leaky duct work
X
X
X
X
X
X
X
Low refrigerant charge
Restricted metering device
Defective Reversing Valve
Thermostat improperly located
X
X
Unit undersized
X
X
Scaling in water heat exchanger
Perform Scaling check and clean if necessary
X
X
Inlet Water too Hot or Cold
Check load, loop sizing, loop backfill, ground moisture.
Reduced or no Air flow
in heating
Check for dirty air filter and clean or replace
Check fan motor operation and airflow restrictions
Reduced or no water flow
in cooling
Inlet Water too Hot
Air Temperature out of range in
heating
Check pump operation or valve operation/setting
Check water flow adjust to proper flow rate
Check load, loop sizing, loop backfill, ground moisture.
Scaling in water heat exchanger
Unit Overcharged
Non-condensables insystem
Restricted metering device
Reduced water flow
in heating
Perform Scaling check and clean if necessary
Check superheat and subcooling. Reweigh in charge
Vacuum system and reweigh in charge
Check superheat and subcooling per chart. Replace.
Check pump operation or water valve operation/setting
Plugged strainer or filter. Clean or replace.
Check water flow adjust to proper flow rate
X
Too high of external static. Check static vs blower table
X
X
X
Low Suction Pressure
X
X
X
X
X
X
X
X
X
Water Temperature out of range
Bring water temp within design parameters
X
Reduced Air flow
in cooling
X
Air Temperature out of range
X
Insufficient charge
Check for dirty air filter and clean or replace
Check fan motor operation and airflow restrictions
Too high of external static. Check static vs blower table
Too much cold vent air? Bring entering air temp within
design parameters
Check for refrigerant leaks
X
Too high of air flow
Check fan motor speed selection and airflow chart
X
X
Poor Performance
Too high of air flow
X
Unit oversized
See 'Insufficient Capacity'
Check fan motor speed selection and airflow chart
Recheck loads & sizing check sensible clg load and heat
pump capacity
X
Low discharge air
temperature in heating
High humidity
Bring return air temp within design parameters
c l i m a t e m a s t e r. c o m
45
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Troubleshooting Form
Model Number: ________________________
Serial Number: ________________________
Date: ________________________
HEATING CYCLE ANALYSIS -
PSI
Refrigerant Type:
SAT
°F
R410A
°F
AIR
COIL
SUCTION
°F
COMPRESSOR
EXPANSION FILTER
DRIER*
VALVE
Voltage: ________
COAX
DISCHARGE
HWG
Comp Amps: _______
°F
Total Amps: ________
°F
°F
FLASH
GAS LINE
FP2: HEATING
LIQUID LINE
°F
FP1
SENSOR
PSI
°F
PSI
WATER IN
SAT
°F
PSI
WATER OUT
Look up pressure drop in
I.O.M. or spec. catalog to
determine flow rate.
COOLING CYCLE ANALYSIS -
PSI
SAT
°F
°F
AIR
COIL
SUCTION
°F
COMPRESSOR
EXPANSION FILTER
DRIER*
VALVE
COAX
DISCHARGE
HWG
°F
°F
°F
FP2: FLASH OTHER SIDE
OF FILTR DR
GAS LINE
°F
FP1: CLG
LIQ LINE
PSI
°F
PSI
WATER IN
SAT
°F
PSI
WATER OUT
Look up pressure drop in
I.O.M. or spec. catalog to
determine flow rate.
Heat of Extraction (Absorption) or Heat of Rejection =
________ flow rate (gpm) x ________ temp.diff. (deg. F) x ________ fluid factor† = _____________
Superheat
= Suction temperature - suction saturation temp. =
Subcooling = Discharge saturation temp. - liquid line temp.
†
=
(Btu/hr)
(deg F)
(deg F)
Use 500 for water, 485 for antifreeze.
Rev. 12/08
Note: Never connect refrigerant gauges during startup procedures. Conduct water-side analysis
using P/T ports to determine water flow and temperature difference. If water-side analysis shows
poor performance, refrigerant troubleshooting may be required. Connect refrigerant gauges as a
last resort.
46
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
c l i m a t e m a s t e r. c o m
Rev.: 11/09
Please refer to the CM Installation, Operation and Maintenance Manual for operating and maintenance instructions.
LC083
*LC083*
NOTE: Some states or Canadian provinces do not allow limitations on how long an implied warranty lasts, or the limitation or exclusions of consequential or incidental damages, so the foregoing exclusions and limitations may
not apply to you. This warranty gives you speciÀc legal rights, and you may also have other rights which vary from state to state and from Canadian province to Canadian province.
Climate Master, Inc. • Customer Service • 7300 S.W. 44th Street • Oklahoma City, Oklahoma 73179 (405) 745-6000
OBTAINING WARRANTY PERFORMANCE
Normally, the contractor or service organization who installed the products will provide warranty performance for the owner. Should the installer be unavailable, contact any CM recognized dealer, contractor or service organization. If assistance is required in obtaining warranty performance, write or call:
LIMITATION OF LIABILITY
CM shall have no liability for any damages if CM’s performance is delayed for any reason or is prevented to any extent by any event such as, but not limited to: any war, civil unrest, government restrictions or restraints, strikes
or work stoppages, Àre, Áood, accident, shortages of transportation, fuel, material, or labor, acts of God or any other reason beyond the sole control of CM. CM EXPRESSLY DISCLAIMS AND EXCLUDES ANY LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGE IN CONTRACT, FOR BREACH OF ANY EXPRESS OR IMPLIED WARRANTY, OR IN TORT, WHETHER FOR CM’s NEGLIGENCE OR AS
STRICT LIABILITY.
LIMITATION OF REMEDIES
In the event of a breach of the Limited Express Warranty, CM will only be obligated at CM’s option to repair the failed part or unit or to furnish a new or rebuilt part or unit in exchange for the part or unit which has failed. If
after written notice to CM’s factory in Oklahoma City, Oklahoma of each defect, malfunction or other failure and a reasonable number of attempts by CM to correct the defect, malfunction or other failure and the remedy fails
of its essential purpose, CM shall refund the purchase price paid to CM in exchange for the return of the sold good(s). Said refund shall be the maximum liability of CM. THIS REMEDY IS THE SOLE AND EXCLUSIVE
REMEDY OF THE BUYER OR THEIR PURCHASER AGAINST CM FOR BREACH OF CONTRACT, FOR THE BREACH OF ANY WARRANTY OR FOR CM’S NEGLIGENCE OR IN STRICT LIABILITY.
Limitation: This Limited Express Warranty is given in lieu of all other warranties. If, notwithstanding the disclaimers contained herein, it is determined that other warranties exist, any such warranties, including without limitation any express warranties or any implied warranties of Àtness for particular purpose and merchantability, shall be limited to the duration of the Limited Express Warranty.
CM is not responsible for: (1) The costs of any Áuids, refrigerant or other system components, or associated labor to repair or replace the same, which is incurred as a result of a defective part covered by CM’s Limited Express
Warranty; (2) The costs of labor, refrigerant, materials or service incurred in removal of the defective part, or in obtaining and replacing the new or repaired part; or, (3) Transportation costs of the defective part from the installation site to CM or of the return of any part not covered by CM’s Limited Express Warranty.
This warranty does not cover and does not apply to: (1) Air Àlters, fuses, refrigerant, Áuids, oil; (2) Products relocated after initial installation; (3) Any portion or component of any system that is not supplied by CM, regardless
of the cause of the failure of such portion or component; (4) Products on which the unit identiÀcation tags or labels have been removed or defaced; (5) Products on which payment to CM is or has been in default; (6) Products
which have defects or damage which result from improper installation, wiring, electrical imbalance characteristics or maintenance; or are caused by accident, misuse or abuse, Àre, Áood, alteration or misapplication of the product; (7) Products which have defects or damage which result from a contaminated or corrosive air or liquid supply, operation at abnormal temperatures, or unauthorized opening of refrigerant circuit; (8) Mold, fungus or bacteria
damages; (9) Products subjected to corrosion or abrasion; (10) Products manufactured or supplied by others; (11) Products which have been subjected to misuse, negligence or accidents; (12) Products which have been operated
in a manner contrary to CM’s printed instructions; or (13) Products which have defects, damage or insufÀcient performance as a result of insufÀcient or incorrect system design or the improper application of CM’s products.
GRANT OF LIMITED EXPRESS WARRANTY
CM warrants CM products purchased and retained in the United States of America and Canada to be free from defects in material and workmanship under normal use and maintenance as follows: (1) All complete air conditioning, heating and/or heat pump units built or sold by CM for twelve (12) months from date of unit start up or eighteen (18) months from date of shipment (from factory), whichever comes Àrst; (2) Repair and replacement parts,
which are not supplied under warranty, for nintey (90) days from date of shipment (from factory). All parts must be returned to CM’s factory in Oklahoma City, Oklahoma, freight prepaid, no later than sixty (60) days after
the date of the failure of the part; if CM determines the part to be defective and within CM’s Limited Express Warranty, CM shall, when such part has been either replaced or repaired, return such to a factory recognized dealer,
contractor or service organization, F.O.B. CM’s factory, Oklahoma City, Oklahoma, freight prepaid. The warranty on any parts repaired or replaced under warranty expires at the end of the original warranty period.
EXCEPT AS SPECIFICALLY SET FORTH HEREIN, THERE IS NO EXPRESS WARRANTY AS TO ANY OF CM’S PRODUCTS. CM MAKES NO WARRANTY AGAINST LATENT DEFECTS. CM MAKES
NO WARRANTY OF MERCHANTABILITY OF THE GOODS OR OF THE FITNESS OF THE GOODS FOR ANY PARTICULAR PURPOSE.
It is expressly understood that unless a statement is speciÀcally identiÀed as a warranty, statements made by Climate Master, Inc., a Delaware corporation, (“CM”) or its representatives, relating to CM’s products, whether oral,
written or contained in any sales literature, catalog or any other agreement, are not express warranties and do not form a part of the basis of the bargain, but are merely CM’s opinion or commendation of CM’s products.
CLIMATE MASTER, INC.
LIMITED EXPRESS WARRANTY/ LIMITATION OF REMEDIES AND LIABILITY
THE SMART SOLUTION FOR ENERGY EFFICIENCY
R e v. : 5 N o v. , 2 0 0 9 B
Consoles
Warranty (U.S. & Canada)
47
48
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
Rev.: 10/09
Please refer to the CM Installation, Operation and Maintenance Manual for operating and maintenance instructions.
LC079
*LC079*
NOTE: Some countries do not allow limitations on how long an implied warranty lasts, or the limitation or exclusions of consequential or incidental damages, so the foregoing exclusions and limitations may not apply to you. This warranty gives you
speciÀc legal rights, and you may also have other rights which vary from state to state and country to country.
Climate Master, Inc. • Customer Service • 7300 S.W. 44th Street • Oklahoma City, Oklahoma, U.S.A. 73179 • (405) 745-6000 • FAX (405) 745-6068
OBTAINING WARRANTY PERFORMANCE
Normally, the contractor or service organization who installed the products will provide warranty performance for the owner. Should the installer be unavailable, contact any CM recognized Representative. If assistance is required in obtaining warranty
performance, write or call:
LIMITATION OF LIABILITY
CM shall have no liability for any damages if CM’s performance is delayed for any reason or is prevented to any extent by any event such as, but not limited to: any war, civil unrest, government restrictions or restraints, strikes, or work stoppages,
Àre, Áood, accident, allocation, shortages of transportation, fuel, materials, or labor, acts of God or any other reason beyond the sole control of CM. TO THE FULLEST EXTENT PERMITTED BY APPLICABLE LAW AND SUBJECT TO
THE NEXT SENTENCE, CM EXPRESSLY DISCLAIMS AND EXCLUDES ANY LIABILITY FOR LOSS OF PROFITS, LOSS OF BUSINESS OR GOODWILL, CONSEQUENTIAL, INCIDENTAL, SPECIAL, LIQUIDATED, OR
PUNITIVE DAMAGE IN CONTRACT, FOR BREACH OF ANY EXPRESS OR IMPLIED WARRANTY, OR IN TORT, WHETHER FOR CM’s NEGLIGENCE OR AS STRICT LIABILITY. Nothing in this Agreement is intended to
exclude CM’s liability for death, personal injury or fraud.
LIMITATION OF REMEDIES
In the event of a breach of this Limited Express Warranty or any warranty that is mandatory under applicable imperative law, CM will only be obligated at CM’s option to either repair the failed part or unit or to furnish a new or rebuilt part or unit in exchange for the part or unit which has failed. If after written notice to CM’s factory in Oklahoma City, Oklahoma, U.S.A. of each defect, malfunction or other failure and a reasonable number of attempts by CM to correct the defect, malfunction or other
failure and the remedy fails of its essential purpose, CM shall refund the purchase price paid to CM in exchange for the return of the sold good(s). Said refund shall be the maximum liability of CM. TO THE FULLEST EXTENT PERMITTED BY
APPLICABLE LAW, THIS REMEDY IS THE SOLE AND EXCLUSIVE REMEDY OF THE CUSTOMER AGAINST CM FOR BREACH OF CONTRACT, FOR THE BREACH OF ANY WARRANTY OR FOR CM’S NEGLIGENCE
OR IN STRICT LIABILITY.
Limitation: This Limited Express Warranty is given in lieu of all other warranties. If, notwithstanding the disclaimers contained herein, it is determined by a court or other qualiÀed judicial body that other warranties exist, any such warranty, including
without limitation any express warranty or any implied warranty of Àtness for particular purpose and merchantability, shall be limited to the duration of the Limited Express Warranty. This Limited Express Warranty does not exclude any warranty that is
mandatory and that may not be excluded under applicable imperative law.
CM is not responsible for: (1) The cost of any Áuids, refrigerant or other system components, or the associated labor to repair or replace the same, which is incurred as a result of a defective part covered by CM’s Limited Express Warranty; (2) The cost
of labor, refrigerant, materials or service incurred in diagnosis and removal of the defective part, or in obtaining and replacing the new or repaired part; (3) Transportation costs of the defective part from the installation site to CM or of the return of any
part not covered by CM’s Limited Express Warranty; or (4) The costs of normal maintenance.
This warranty does not cover and does not apply to: (1) Air Àlters, fuses, refrigerant, Áuids, oil; (2) Products relocated after initial installation; (3) Any portion or component of any system that is not supplied by CM, regardless of the cause of the failure
of such portion or component; (4) Products on which the unit identiÀcation tags or labels have been removed or defaced; (5) Products on which payment by Customer to CM or its distributors or Representatives, or the Customer’s seller is in default;
(6) Products which have defects or damage which result from improper installation, wiring, electrical imbalance characteristics or maintenance; or from parts or components manufactured by others; or are caused by accident, misuse, negligence, abuse,
Àre, Áood, lightning, alteration or misapplication of the product; (7) Products which have defects or damage which result from a contaminated or corrosive air or liquid supply, operation at abnormal temperatures or Áow rates, or unauthorized opening
of the refrigerant circuit; (8) Mold, fungus or bacteria damages; (9) Products subjected to corrosion or abrasion; (10) Products, parts or components manufactured or supplied by others; (11) Products which have been subjected to misuse, negligence
or accidents; (12) Products which have been operated in a manner contrary to CM’s printed instructions; (13) Products which have defects, damage or insufÀcient performance as a result of insufÀcient or incorrect system design or the improper
application, installation, or use of CM’s products; or (14) Electricity or fuel costs, or any increases or unrealized savings in same, for any reason.
If requested by CM, all defective parts shall be returned to CM’s factory in Oklahoma City, Oklahoma, U.S.A, freight and duty prepaid, not later than sixty (60) days after the date of the request. If the defective part is not timely returned or if CM
determines the part to not be defective or otherwise not to qualify under CM’s Limited Express Warranty, CM shall invoice Customer the costs for the parts furnished, including freight. The warranty on any part repaired or replaced under warranty
expires at the end of the original warranty period.
Warranty parts shall be furnished by CM if ordered through an authorized sales representative of CM (“Representative”) within sixty (60) days after the failure of the part. If CM determines that a parts order qualiÀes for replacement under CM’s
warranty, such parts shall be shipped freight prepaid to the Representative or the ultimate user, as requested by Representative. All duties, taxes and other fees shall be paid by the ultimate user through the Representative.
GRANT OF LIMITED EXPRESS WARRANTY
CM warrants CM products purchased and installed outside the United States of America (“U.S.A.”) and Canada to be free from material defects in materials and workmanship under normal use and maintenance as follows: (1) All complete air
conditioning, heating or heat pump units built or sold by CM for twelve (12) months from date of unit start-up or eighteen (18) months from date of shipment (from CM’s factory), whichever comes Àrst; and, (2) Repair and replacement parts, which are
not supplied under warranty, for ninety (90) days from date of shipment (from factory).
Disclaimer: It is expressly understood that unless a statement is speciÀcally identiÀed as a warranty, statements made by Climate Master, Inc., a Delaware corporation, U. S. A. (“CM”) or its representatives, relating to CM’s products, whether oral, written or contained in any sales literature, catalog, this or any other agreement or other materials, are not express warranties and do not form a part of the basis of the bargain, but are merely CM’s opinion or commendation of CM’s products. EXCEPT AS
SPECIFICALLY SET FORTH HEREIN AND TO THE FULLEST EXTENT PERMITTED BY APPLICABLE LAW, CM MAKES NO WARRANTY AS TO ANY OF CM’S PRODUCTS, AND CM MAKES NO WARRANTY AGAINST
LATENT DEFECTS OR ANY WARRANTY OF MERCHANTABILITY OF THE GOODS OR OF THE FITNESS OF THE GOODS FOR ANY PARTICULAR PURPOSE.
CLIMATE MASTER, INC.
LIMITED EXPRESS WARRANTY /LIMITATION OF REMEDIES AND LIABILITY
(FOR INTERNATIONAL CLASS PRODUCTS)
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Warranty (International)
THE SMART SOLUTION FOR ENERGY EFFICIENCY
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Notes:
c l i m a t e m a s t e r. c o m
49
C L I M AT E M A S T E R W AT E R - S O U R C E H E AT P U M P S
Consoles
R e v. : 5 N o v. , 2 0 0 9 B
Revision History
Date:
Item:
Action:
11/05/09
Warranty
Updated
10/30/09
Functional Troubleshooting Table
Updated
09/15/09
Safety Features - CXM/DXM Controls
Updated
07/29/09
Unit Commissioning & Operating
Conditions
Data Tables Corrected
06/09/09
‘Unit Starting & Operating Conditions’
Section & Table
Edited and renamed ‘Unit Commissioning and Operating Conditions’
12/02/08
TRC & CCE Wiring Diagrams
Consolidated
12/02/08
TRC & Piping Connection Diagrams
Added
09/09/08
Pressure Testing Note
Updated
06/30/08
Shut-Off Valve Note
Added to Piping Connections
05/21/08
Unit and System Checkout
Added Pressure testing language
05/20/08
All
Updated
All
Added TRC
Controls
Added CCE Rev B controls
01/01/07
Piping
Added warnings on pressure switches when using water solenoid valves
01/01/07
Applications
Added Notice on ground-water applications
01/01/06
First Published
R
AI
BR
I
HE
AT P U M P S
A
TO
NE
WATER
TO
IFIED TO ARI A
RT
S
C
CE
NG WITH
LYI
MP
O
IR
MANUFACT
UR
ER
01/01/07
01/01/07
ISO 9001:2000
Certified
IS
ST
AND
3
ARD 1
-1
R
O
25
6
Quality: First & Always
7300 S.W. 44th Street
Oklahoma City, OK 73179
*97B0035N01*
Phone: 405-745-6000
Fax: 405-745-6058
climatemaster.com
97B0035N01
ClimateMaster works continually to improve its products. As a result, the design and specifications of each product at the time for order may be
changed without notice and may not be as described herein. Please contact ClimateMaster’s Customer Service Department at 1-405-745-6000 for
specific information on the current design and specifications. Statements and other information contained herein are not express warranties and do
not form the basis of any bargain between the parties, but are merely ClimateMaster’s opinion or commendation of its products.
The management system governing the manufacture of ClimateMaster’s products is ISO 9001:2000 certified.
© ClimateMaster, Inc. 2006
50
C l i m a t e M a s t e r W a t e r- S o u r c e H e a t i n g a n d C o o l i n g S y s t e m s
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