Carrier Heat Pump 50CR User Manual

50CR  
Infinityt Single--Packaged Heat Pump Units  
With Puron® (R--410A) Refrigerant  
Sizes 024--060  
Installation Instructions  
NOTE: Read the entire instruction manual before starting the  
installation.  
NOTE: Installer: Make sure the Owner’s Manual and Service  
Instructions are left with the unit after installation.  
TABLE OF CONTENTS  
Page  
SAFETY CONSIDERATIONS . . . . . . . . . . . . . . . . . . . . . . . . 2  
INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
RECEIVING AND INSTALLATION . . . . . . . . . . . . . . . . 2--16  
Check Equipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Identify Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Inspect Shipment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Provide Unit Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Roof Curb . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Slab Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Ground Mount . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Provide Clearances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2  
Rig and Place Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Inspection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Use of Rigging Bracket . . . . . . . . . . . . . . . . . . . . . . . . . . . 7  
Select and Install Ductwork . . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Converting Horizontal Discharge Units to Downflow  
A05307  
Fig. 1 -- Unit 50CR  
(Vertical) Discharge Units . . . . . . . . . . . . . . . . . . . . . . . . . 9  
Provide for Condensate Disposal . . . . . . . . . . . . . . . . . . . . . 9  
Install Electrical Connections . . . . . . . . . . . . . . . . . . . . . . . 11  
High--Voltage Connections . . . . . . . . . . . . . . . . . . . . . . . 11  
Routing Power Leads Into Unit . . . . . . . . . . . . . . . . . . . . 11  
Connecting Ground Lead to Ground Screw . . . . . . . . . . 11  
Routing Control Wires . . . . . . . . . . . . . . . . . . . . . . . . . . 11  
Accessory Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . 16  
Special Procedures for 208--v Operation . . . . . . . . . . . . . 16  
PRE--START--UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
START--UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17  
Unit Start--Up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17--23  
Sequence of Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
Check for Refrigerant Leaks . . . . . . . . . . . . . . . . . . . . . . . . 20  
Start--Up Adjustments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20  
Checking Cooling and Heating Control Operation . . . . . 20  
Checking and Adjusting Refrigerant Charge . . . . . . . . . . 22  
Refrigerant Charge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
No Charge . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Low Charge Cooling . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
To Use Cooling Charging Charts . . . . . . . . . . . . . . . . . . . 22  
Indoor Airflow and Airflow Adjustments . . . . . . . . . . . . 22  
Defrost Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Quiet Shift . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Defrost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22  
Emergency Heat/Cool Mode . . . . . . . . . . . . . . . . . . . . . . . . 22  
MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24--28  
Air Filter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
Indoor Blower and Motor . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
Outdoor Coil, Indoor Coil, and Condensate Drain Pan . . . . 25  
Outdoor Fan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25  
Electrical Controls and Wiring . . . . . . . . . . . . . . . . . . . . . . 26  
Refrigerant Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26  
Indoor Airflow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26  
®
Metering Devices–TXV & AccuRater Piston . . . . . . . . . . 26  
Pressure Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26  
L o s s -- o f -- C h a r g e S w i t c h . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 7  
High--Pressure Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
®
Copeland Scroll Compressor (Puron Refrigerant) . . . . . . . 27  
Refrigerant System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
Refrigerant . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
Compressor Oil . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27  
Servicing Systems on Roofs with Synthetic Materials . . . 27  
Liquid--Line Filter Drier . . . . . . . . . . . . . . . . . . . . . . . . . 28  
Puron (R--410A) Refrigerant Charging . . . . . . . . . . . . . . 28  
System Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
L o s s -- o f -- C h a r g e S w i t c h . . . . . . . . . . . . . . . . . . . . . . . . . 2 8  
Check Defrost Thermostat . . . . . . . . . . . . . . . . . . . . . . . . 28  
TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
START--UP CHECKLIST . . . . . . . . . . . . . . . . . . . . . . . . . . . 28  
1
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HVACunit  
base  
HVAC unit  
base  
Gask eting  
inner flange*  
Screw  
(NOTE A)  
Screw  
(NOTE A)  
Gasketing  
inner flange*  
*Gasketing  
outer flange  
*Gasketing  
outer flange  
Wood nailer*  
Wood nailer*  
Flashing field  
supplied  
Flashing field  
supplied  
Roof curb*  
Roof curb*  
Insulation(field  
supplied)  
Insulation(field  
supplied)  
Roofing material  
field supplied  
Roofing material  
field supplied  
Ductwork  
field supplied  
Ductwork  
field supplied  
Cant strip  
field supplied  
Cant strip  
field supplied  
Roof  
Roof  
*Provided with roof curb  
*Provided with roof curb  
Roof Curb for Small Cabinet  
Roof Curb for Large Cabinet  
Note A: When unit mounting screw is used,  
retainer bracket must also be used.  
Note A: When unit mounting screw is used,  
retainer bracket must also be used.  
E
G
F
Supply opening  
(B x C)  
G
BTyp.  
D
CTyp.  
F
R/A  
S/A  
A
Gasket around  
duct  
D
E
Short  
Support  
Insulated  
deck pan  
Gasket around  
outer edge  
Insulated  
deck pan  
Long  
Support  
Return opening  
(B X C)  
A05308  
ODS CATALOG  
NUMBER  
A
B
C
D
E
F
G
UNIT SIZE  
IN. (MM)  
IN. (MM)  
IN. (MM)  
IN. (MM)  
IN. (MM)  
IN. (MM)  
IN. (MM)  
CPRFCURB006A00  
8 (203)  
11 (279)  
11 (279)  
16--1/2 (419)  
16--1/2 (419)  
28--3/4 (730)  
28--3/4 (730)  
30--3/8 (771)  
30--3/8 (771)  
44--5/16 (1126) 45--15/16 (1167)  
44--5/16 (1126) 45--15/16 (1167)  
50CR024 -036  
CPRFCURB007A00 14 (356)  
CPRFCURB008A00  
CPRFCURB009A00 14 (356) 16--3/16 (411) 17--3/8 (441) 40--1/4 (1022) 41--15/16 (1065) 44--7/16 (1129)  
8 (203) 16--3/16 (411) 17--3/8 (441) 40--1/4 (1022) 41--15/16 (1065) 44--7/16 (1129)  
46--1/16 (1169)  
46--1/16 (1169)  
50CR042 -060  
NOTES:  
1. Roof curb must be set up for unit being installed.  
2. Seal strip must be applied, as required, to unit being installed.  
3. Dimension in ( ) are in millimeters.  
4. Roof curb is made of 16--gauge steel.  
5. Table lists only the dimensions, per part number, that have changed.  
6. Attach ductwork to curb (flanges of duct rest on curb).  
7. Insulated panels: 1--in. thick fiberglass 1 lb. density.  
8. Dimensions are in inches.  
9. When unit mounting screw is used (see Note A), a retainer bracket must be used as well. This bracket must also be used when required by code for hurricane or seismic  
conditions. This bracket is available through Micrometl.  
Fig. 2 -- Roof Curb Dimensions  
3
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A
C
MAXIMUM ALLOWABLE  
DIFFERENCE (in.)  
B
A-B  
1/4  
B-C  
1/4  
A-C  
1/4  
C99065  
Fig. 3 -- Unit Leveling Tolerances  
OPTIONAL  
RETURN  
AIR  
OPTIONAL  
SUPPLY  
AIR  
OPENING  
OPENING  
2"  
EVAP. COIL  
COND. COIL  
C99096  
Fig. 4 -- Slab Mounting Detail  
A06114  
Fig. 5 -- Corner Weights (Lbs.)  
CORNER WEIGHTS (SMALL CABINET)  
CORNER WEIGHTS (LARGE CABINET)  
Unit  
Total Weight  
Corner Weight 1  
Corner Weight 2  
Corner Weight 3  
Corner Weight 4  
024  
349  
70  
54  
84  
030  
349  
70  
54  
84  
036  
373  
75  
58  
90  
Unit  
Total Weight  
Corner Weight 1  
Corner Weight 2  
Corner Weight 3  
Corner Weight 4  
042  
438  
88  
68  
106  
177  
048  
463  
98  
61  
127  
177  
060  
499  
107  
70  
136  
186  
141  
141  
150  
4
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5
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6
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Step 4—Rig and Place Unit  
USE OF RIGGING BRACKET  
Rigging and handling of this equipment can be hazardous for many  
reasons due to the installation location (roofs, elevated structures,  
etc.).  
Field Installation of Rigging Bracket  
1. If applicable, remove unit from shipping carton. Leave top  
shipping skid on the unit for use as a spreader bar to prevent  
the rigging straps from damaging the unit. If the skid is not  
available, use a spreaderbar ofsufficient length to protectthe  
unit from damage.  
Only trained, qualified crane operators and ground support staff  
should handle and install this equipment.  
When working with this equipment, observe precautions in the  
literature,on tags, stickers,and labelsattached to the equipment,and  
any other safety precautions that might apply.  
2. Remove 4 screws in unit corner posts.  
3. Attach each of the 4 metal rigging brackets under the panel  
rain lip (See Fig. 8). Use the screws removed in step 2 above  
to secure the brackets to the unit.  
Training for operators of the lifting equipment should include, but  
not be limited to, the following:  
1. Application of the lifter to the load, and adjustment of the  
lifts to adapt to various sizes or kinds of loads.  
!
WARNING  
2. Instruction in any special operation or precaution.  
PROPERTY DAMAGE HAZARD  
3. Condition of the load as it relates to operation of the lifting  
kit, such as balance, temperature, etc.  
Failure to follow this warning could result in personal  
injury/death or property damage.  
Follow all applicable safety codes. Wear safety shoes and work  
gloves.  
Rigging bracket MUST be under the rain lip to provide  
adequate lifting.  
INSPECTION  
Prior to initial use, and at monthly intervals, all rigging brackets and  
straps should be visually inspected for any damage, evidence of  
wear, structural deformation, or cracks. Particular attention should  
be paid to excessive wear at hoist hooking points and load support  
areas. Brackets or straps showing any kind of wear in these areas  
must not be used and should be discarded.  
!
WARNING  
PROPERTY DAMAGE HAZARD  
Failure to follow this warning could result in personal  
injury/death or property damage.  
Do not strip screws when re--securing the unit. If a screw is  
stripped, replace the stripped one with a larger diameter screw  
(included).  
!
WARNING  
ELECTRICAL SHOCK HAZARD  
Rigging/Lifting of Unit  
Failure to follow this warning could result in personal injury  
or death.  
1. Bend top of brackets down approximately 30 degrees from  
the corner posts.  
Before installing or servicing system, always turn off main  
power to system. There may be more than one disconnect  
switch. Turn off accessory heater power switch if applicable.  
Tag disconnect switch with a suitable warning label.  
2. Attach straps of equal length to the rigging brackets at  
opposite ends of the unit. Be sure straps are rated to hold the  
weight of the unit (See Fig. 9).  
3. Attach a clevis of sufficient strength in the middle of the  
straps. Adjust the clevis location to ensure unit is lifted level  
with the ground.  
!
WARNING  
UNIT FALLING HAZARD  
4. After unit is securely in place detach rigging straps. Remove  
corner posts, screws, and rigging brackets then reinstall  
screws.  
Failure to follow this warning could result in personal injury  
or death.  
Never stand beneath rigged units or lift over people.  
!
WARNING  
INTRODUCTION  
UNIT FALLING HAZARD  
The lifting/rigging bracket is engineered and designed to be  
installed only on Small Packaged Products. This bracket is to be  
used to rig/lift a Small Packaged Product onto roofs or other  
elevated structures.  
Failure to follow this warning could result in personal  
injury/death or property damage.  
When straps are taut, the clevis should be a minimum of 36  
inches above the unit top cover.  
!
WARNING  
After the unit is placed on the roof curb or mounting pad, remove  
the top crating. On 50CR060 units only, 2 wire ties fastened to the  
outdoor coils and reversing valve/accumulator assembly must be  
cut. Remove the left and front louvered panels and corner post to  
access wire ties. The wire tie to be cut on the left is located  
approximately 4 in. down the tube sheet. The wire tie to be cut on  
the right is located approximately 6 in. down the tube sheet.  
PROPERTY DAMAGE HAZARD  
Failure to follow this warning could result in personal  
injury/death or property damage.  
Rigging brackets for one unit use only. When removing a  
unit at the end of its useful life, use a new set of brackets.  
7
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DETAIL  
A
C03017  
Fig. 8 -- Rigging Bracket Under Unit Rain Lip  
A06113  
MAXIMUM SHIPPING WEIGHT  
UNIT SIZE  
Lb  
Kg  
50CR024  
50CR030  
50CR036  
50CR042  
50CR048  
50CR060  
372  
372  
395  
462  
485  
521  
169  
169  
179  
210  
220  
236  
Fig. 9 -- Suggested Rigging  
8
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Step 5—Select and Install Ductwork  
CONVERTING HORIZONTAL DISCHARGE UNITS TO  
DOWNFLOW (VERTICAL) DISCHARGE UNITS  
Thedesign and installation ofthe ductsystem mustbe in accordance  
with the standards of the NFPA for installation of non--residence  
type air conditioning and ventilating systems, NFPA 90A or  
residence type, NFPA 90B and/or local codes and ordinances.  
!
WARNING  
ELECTRICAL SHOCK HAZARD  
Select and size ductwork, supply--air registers, and return air grilles  
according to ASHRAE (American Society of Heating,  
Refrigeration, and Air Conditioning Engineers) recommendations.  
Failure to follow this warning could result in personal injury  
or death.  
Before installing or servicing system, always turn off main  
power to system. There may be more than one disconnect  
switch.Turn off accessory heater power switch if applicable.  
The unit has duct flanges on the supply-- and return--air openings on  
the side of the unit.  
!
WARNING  
1. Open all electrical disconnects and install lockout tag before  
starting any service work.  
ELECTRICAL OPERATION HAZARD  
Failure to follow this warning could result in personal injury  
or death.  
2. Remove side duct covers to access bottom return and supply  
knockouts.  
For vertical supply and return units, tools or parts could drop  
into ductwork, therefore, install a 90 degree turn in the return  
ductwork between the unit and the conditioned space. If a 90  
degree elbow cannot be installed, then a grille of sufficient  
strength and density should be installed to prevent objects  
from falling into the conditioned space. Units with electric  
heaters require 90 degree elbow in supply duct.  
NOTE: These panels are held in place with tabs similar to an  
electrical knockout.  
3. Use a screwdriver and hammer to remove the panels in the  
bottom of the composite unit base.  
4. Ensure the side duct covers are in place to block off the  
horizontal air openings (See Fig. 11).  
Step 6—Provide for Condensate Disposal  
NOTE: Ensure that condensate--water disposal methods comply  
When designing and installing ductwork, consider the following:  
with local codes, restrictions, and practices.  
1. Allunitsshouldhavefield--supplied filtersor accessory filter  
rack installed in the return--air side of the unit.  
Recommended sizes for filters are shown in Table 1.  
Theunits disposeof condensatethrough a3/4 in.NPT femalefitting  
that exits on the compressor end of the unit. Condensate water can  
be drained directly onto the roof in rooftop installations (where  
permitted) or onto a gravel apron in ground level installations.  
Install a field--supplied condensate trap at end of condensate  
connection to ensure proper drainage. Make sure that the outlet of  
the trap is at least 1 in. lower than the drain--pan condensate  
connectiontoprevent thepan fromoverflowing. Primethe trapwith  
water. When using agravel apron,make sureit slopesaway fromthe  
unit.  
2. Avoid abrupt duct size increases and reductions. Abrupt  
change in duct size adversely affects air performance.  
IMPORTANT: Use flexible connectors between ductwork and  
unit to prevent transmission of vibration. Use suitable gaskets to  
ensure weather tight and airtight seal.When electricheat isinstalled,  
use fireproof canvas (or similar heat resistant material) connector  
between ductwork and unit discharge connection. If flexible duct is  
used, insert a sheet metal sleeve inside duct. Heat resistant duct  
connector (or sheet metal sleeve) must extend 24--in. from electric  
heater element.  
If the installation requires draining the condensate water away from  
the unit, install a field--supplied 2--in. trap at the condensate  
connection to ensure proper drainage. Condensate trap is available  
as an accessory or is field--supplied. Make sure that the outlet of the  
trap is at least 1 in. lower than the unit drain--pan condensate  
connection to prevent the pan from overflowing. Connect a drain  
trough using a minimum of field--supplied 3/4 --in. PVC or  
field--supplied 3/4 --in. copper pipe at outlet end of the 2 --in. trap  
(See Fig. 12). Do not undersize the tube. Pitch the drain trough  
downward at aslope ofat least1 in.for every10 ft.of horizontalrun.  
Be sure to check the drain trough for leaks. Prime the trap at the  
beginning of the cooling season start--up.  
3. Size ductwork for max cooling air quantity (400 cfm/ton).  
4. Seal, insulate, and weatherproof all external ductwork. Seal,  
insulate and cover with a vapor barrier all ductwork passing  
through conditioned spaces. Follow latest Sheet Metal and  
Air Conditioning Contractors National Association  
(SMACNA) and Air Conditioning Contractors Association  
(ACCA) minimum installation standards for residential  
heating and air conditioning systems.  
5. Secure all ducts to building structure. Flash, weatherproof,  
and vibration--isolate duct openings in wall or roof  
according to good construction practices.  
9
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Table 1—Physical Data -- Unit 50CR  
UNIT SIZE  
024  
2
350  
030  
2--1/2  
350  
036  
3
373  
042  
3--1/2  
440  
048  
4
463  
060  
5
499  
NOMINAL CAPACITY (ton)  
OPERATING WEIGHT (lb.)  
Compressor  
Scroll  
TXV  
Refrigerant (R--410A) Quantity (lb.)  
REFRIGERANT METERING DEVICE  
7.5  
8
9.5  
10.8  
11.5  
14.0  
0.038 (Left OD Coil)  
0.046 (Right OD Coil)  
0.042 (Left OD Coil)  
0.052 (Right OD Coil)  
ORIFICE OD (in.)  
0.035 (2)  
0.035 (2)  
0.038 (2)  
0.038 (2)  
OUTDOOR COIL  
RowsFins/in.  
Face Area (sq. ft.)  
OUTDOOR FAN  
Nominal Cfm  
221  
12.3  
221  
12.3  
221  
13.6  
221  
15.4  
221  
17.2  
221  
19.4  
2700  
22  
2700  
22  
2800  
22  
2800  
22  
3300  
22  
3300  
22  
Diameter  
Motor HP (RPM)  
INDOOR COIL  
1/8 (825)  
1/8 (825)  
1/8 (825)  
1/8 (825)  
1/4 (1100)  
1/4 (1100)  
RowsFins/in.  
Face Area (sq. ft.)  
INDOOR BLOWER  
Nominal Airflow (Cfm)  
315  
3.7  
315  
3.7  
415  
3.7  
315  
4.7  
415  
4.7  
417  
5.7  
Comfort  
Variable based on Comfort Roll back (see User Interface instructions for more information).  
Efficiency  
Max  
700  
800  
10x10  
1/2  
875  
1000  
10x10  
1/2  
1050  
1200  
11x10  
3/4  
1225  
1400  
11x10  
3/4  
1400  
1600  
11x10  
3/4  
1750  
2000  
11x10  
1
Size (in.)  
Motor HP (RPM)  
HIGH--PRESSURE SWITCH (psig)  
650 ± 15  
420 ± 25  
Cutout  
Reset (Auto)  
LOSS--OF--CHARGE/LOW--PRESSURE SWITCH  
(Liquid Line) (psig)  
Cutout  
20 ± 5  
45 ± 10  
Reset (Auto)  
Return--Air Filters (in.)*  
Throwaway  
20x24x1  
20x24x1  
24x30x1  
24x36x1  
24x36x1  
24x36x1  
*Required filter sizes shown are based on the larger of the ARI (Air Conditioning and Refrigeration Institute) rated cooling airflow or the heating airflow velocity of 300 ft/minute  
for throwaway type or 450 ft/minute for high--capacity type. Air filter pressure drop for non--standard filters must not exceed 0.08 in. wg.  
USER  
INTERFACE  
RETURN  
AIR  
FROM  
POWER  
TOP COVER  
SOURCE  
DISCONNECT  
PER NEC*  
FROM  
GAS LINE  
*NEC - NATIONAL ELECTRICAL CODE  
A06091  
Fig. 10 -- Typical Installation  
10  
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!
CAUTION  
UNIT COMPONENT DAMAGE HAZARD  
Failure to follow this caution may result in damage to the unit  
being installed.  
1. Make all electrical connections in accordance with NEC  
ANSI/NFPA (latest edition) and local electrical codes  
governing such wiring. In Canada, all electrical  
connections must be in accordance with CSA standard  
C22.1 Canadian Electrical CodePart 1 and applicablelocal  
codes. Refer to unit wiring diagram.  
2. Use only copper conductor for connections between  
field--supplied electrical disconnect switch and unit. DO  
NOT USE ALUMINUM WIRE.  
3. Be sure that high--voltage power to unit is within operating  
voltage range indicated on unit rating plate. On 3--phase  
units, ensure phases are balanced within 2 percent. Consult  
local power company for correction of improper voltage  
and/or phase imbalance.  
Duct Covers  
A05301  
Fig. 11 -- 50CR with Duct Covers On  
4. Insulate low--voltage wires for highest voltage contained  
withinconduitwhen low--voltagecontrol wiresare insame  
conduit as high--voltage wires.  
5. Do not damageinternal componentswhen drilling through  
any panel to mount electrical hardware, conduit, etc.  
1” (25mm) MIN.  
TRAP  
OUTLET  
2” (50mm) MIN.  
ROUTING POWER LEADS INTO UNIT  
Use only copper wire between disconnect and unit. The high  
voltage leads should be in a conduit until they enter the duct panel;  
conduit termination at the duct panel must be watertight. Run the  
high--voltage leads through the power entry knockout on the power  
entry side panel. See Fig. 6 and 7 for location and size. For  
single--phase units, connect leads to the black and yellow wires ; for  
3--phaseunits, connectthe leadsto theblack, yellow, and bluewires.  
C99013  
Fig. 12 -- Condensate Trap  
Step 7—Install Electrical Connections  
!
WARNING  
CONNECTING GROUND LEAD TO GROUND SCREW  
ELECTRICAL SHOCK HAZARD  
Connect the ground lead to the chassis usingthe groundscrew inthe  
wiring splice box (See Fig. 14 and 17).  
Failure to follow this warning could result in personal injury  
or death.  
ROUTING CONTROL POWER WIRES  
The unit cabinet must have an uninterrupted, unbroken  
electricalgroundtominimizethepossibility of personalinjury  
if an electrical fault should occur. This ground may consist of  
an electrical wire connected to the unit ground screw in the  
control compartment, or conduit approved for electrical  
ground when installed in accordance with NEC, ANSI/NFPA  
American National Standards Institute/National Fire  
Protection Association (latest edition) (in Canada, Canadian  
Electrical Code CSA C22.1) and local electrical codes.  
For detailed instruction on the low voltage connections to the User  
Interface (UI), refer to the UI installation guide.  
Form a drip--loop with thecontrol leadsbefore routingthem intothe  
unit. Route the low voltage control leads through grommeted,  
low--voltageholeprovidedintounit(SeeFig.6and7). Connectuser  
interface leads to unit control power leads as shown in Fig. 14.  
The unit transformer supplies 24--v power for complete system  
including accessory electrical heater. A fuse is provided in the 24--v  
circuit on the control board (See Fig. 19); see the caution label on  
the transformer. Transformer is factory wired for 230--v operation.  
If supply voltage is 208--v, rewire transformer primary as described  
in Special Procedures for 208--v Operation section.  
HIGH--VOLTAGE CONNECTIONS  
The unit must have a separate electrical service with  
a
field--supplied, waterproof disconnect switch mounted at, or within  
sight from the unit. Refer to the unit rating plate, NEC and local  
codes for maximum fuse/circuit breaker size and minimum circuit  
amps (ampacity) for wire sizing (See Table 2 for electrical data).  
The field--supplied disconnect may be mounted on the unit over the  
high--voltage inlet hole (See Fig. 6 and 7).  
If the unit has an electric heater, a second disconnect may be  
required. Consult the Installation, Start--Up, and Service  
Instructions provided with the accessory for electrical service  
connections.  
Operation of unit on improper line voltage constitutes abuse and  
may cause unit damage that could affect warranty.  
11  
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Table 2—Electrical Data—50CR  
SINGLE POINT POWER  
SUPPLY  
ELECTRIC HEAT  
VOLTAGE  
RANGE  
V--PH--HZ  
COMPRESSOR  
OFM  
FLA  
IFM  
FLA  
UNIT SIZE  
024  
NOMINAL  
kW*  
-- / --  
FLA  
MCA  
MOCP  
MIN  
MAX  
RLA  
LRA  
-- / --  
22.1/22.1  
44.6/48.1  
54.6/59.6  
67.2/74.2  
25.1/25.1  
47.6/51.1  
57.6/62.6  
70.2/77.2  
29.5/29.5  
52.1/55.6  
62.0/67.0  
74.7/81.6  
97.2/107.7  
23.7/23.7  
36.7/38.7  
49.7/53.7  
62.7/68.8  
35.7/35.7  
58.3/61.7  
68.2/73.2  
80.8/87.8  
103.4/113.8  
126.0/139.9  
27.0/27.0  
40.0/42.0  
53.0/57.0  
66.0/72.1  
78.9/86.9  
35.0/35.0  
57.6/61.1  
67.5/72.5  
80.2/87.1  
102.7/113.2  
125.3/139.2  
26.8/26.8  
39.8/41.8  
52.8/56.8  
65.9/71.9  
78.7/86.7  
44.2/44.2  
66.8/70.3  
76.7/81.7  
89.4/96.3  
111.9/122.4  
134.5/148.4  
34.6/34.6  
47.6/49.6  
60.7/64.7  
73.7/79.7  
86.6/94.6  
30/30  
50/50  
60/60  
70/80  
30/30  
50/60  
60/70  
80/80  
35/35  
60/60  
70/70  
80/90  
100/110  
30/30  
45/45  
50/60  
70/70  
45/45  
70/70  
80/80  
90/90  
110/125  
150/150  
35/35  
50/50  
60/60  
70/80  
80/90  
45/45  
70/70  
80/80  
90/90  
110/125  
150/150  
35/35  
50/50  
60/60  
70/80  
80/90  
60/60  
80/90  
90/100  
100/110  
125/125  
150/150  
40/40  
60/60  
70/70  
80/80  
90/100  
3.8/5  
18.1/20.8  
26.0/30.0  
36.1/41.7  
-- / --  
208/230--1--60  
208/230--1--60  
187  
187  
253  
253  
13.5  
61.0  
0.9  
0.9  
4.3  
4.3  
5.4/7.2  
7.5/10.0  
-- / --  
3.8/5  
18.1/20.8  
26.0/30.0  
36.1/41.7  
-- / --  
030  
15.9  
16.9  
12.2  
73.0  
83.0  
77.0  
5.4/7.2  
7.5/10.0  
-- / --  
3.8/5  
18.1/20.8  
26.0/30.0  
36.1/41.7  
54.2/62.5  
-- / --  
208/230--1--60  
208/230--3--60  
187  
187  
253  
253  
0.9  
1.6  
6.8  
6.8  
5.4/7.2  
7.5/10.0  
11.3/15.0  
-- / --  
036  
3.8/5.0  
7.5/10.0  
11.3/15.0  
-- / --  
10.4/12.0  
20.8/24.1  
31.3/36.1  
-- / --  
3.8/5.0  
5.4/7.2  
7.5/10.0  
11.3/15.0  
15.0/20.0  
-- / --  
18.1/20.8  
26.0/30.0  
36.1/41.7  
54.2/62.5  
72.2/83.3  
-- / --  
208/230--1--60  
208/230--3--60  
208/230--1--60  
208/230--3--60  
208/230--1--60  
208/230--3--60  
187  
187  
187  
187  
187  
187  
253  
253  
253  
253  
253  
253  
22.4  
15.4  
21.3  
14.7  
26.9  
17.6  
105.0  
88.0  
0.9  
0.9  
1.6  
1.6  
1.5  
1.5  
6.8  
6.8  
6.8  
6.8  
9.1  
9.1  
042  
3.8/5.0  
7.2/10.0  
11.3/15.0  
15.0/20.0  
-- / --  
10.4/12.0  
20.8/24.1  
31.3/36.1  
41.6/48.0  
-- / --  
3.8/5.0  
5.4/7.2  
7.5/10.0  
11.3/15.0  
15.0/20.0  
-- / --  
18.1/20.8  
26.0/30.0  
36.1/41.7  
54.2/62.5  
72.2/83.3  
-- / --  
109.0  
91.0  
048  
3.8/5.0  
7.5/10.0  
11.3/15.0  
15.0/20.0  
-- / --  
10.4/12.0  
20.8/24.1  
31.3/36.1  
41.6/48.0  
-- / --  
3.8/5.0  
5.4/7.2  
7.5/10.0  
11.3/15.0  
15.0/20.0  
-- / --  
18.1/20.8  
26.0/30.0  
36.1/41.7  
54.2/62.5  
72.2/83.3  
-- / --  
145.0  
123.0  
060  
3.8/5.0  
7.5/10.0  
11.3/15.0  
15.0/20.0  
10.4/12.0  
20.8/24.1  
31.3/36.1  
41.6/48.0  
12  
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EXAMPLE: Supply voltage is 230-3-60.  
AB = 228 v  
BC = 231 v  
AC = 227 v  
LEGEND  
FLA  
LRA  
MCA  
— Full Load Amps  
— Locked Rotor Amps  
-- Minimum Circuit Amps  
228 + 231 + 227  
®
Average Voltage =  
3
MOCP — Maximum Overcurrent Protection  
686  
3
RLA  
— Rated Load Amps  
=
= 229  
NOTES:  
Determine maximum deviation from average voltage.  
(AB) 229 - 228 = 1 v  
1. In compliance with NEC (National Electrical Code) requirements  
for multimotor and combination load equipment (refer to NEC  
Articles 430 and 440), the overcurrent protective device for the  
unit shall be Power Supply fuse. The CGA (Canadian Gas  
Association) units may be fuse or circuit breaker.  
(BC) 231 - 229 = 2 v  
(AC) 229 - 227 = 2 v  
Maximum deviation is 2 v.  
2. Minimum wire size is based on 60 C copper wire. I fother than  
60 C wire is used, or if length exceeds wire length in table,  
determine size from NE.C.  
Determine percent of voltage imbalance.  
2
229  
% Voltage Imbalance = 100 x  
3. Unbalanced 3-Phase Supply Voltage  
Never operate a motor where a phase imbalance in supply volt-  
age is greater than 2%. Use the following formula to determine  
the percentage of voltage imbalance.  
= 0.8%  
This amount of phase imbalance is satisfactory as it is below the  
maximum allowable 2%.  
% Voltage imbalance  
max voltage deviation from average voltage  
= 100 x  
IMPORTANT: If the supply voltage phase imbalance is  
more than 2%, contact your local electric utility company  
immediately.  
average voltage  
Heater capacity (kW) based on heater voltage of 208v & 240v.  
If power distibution voltage to unit varies from rated heater  
*
voltage, heater kW will vary accordingly.  
C03014  
Fig. 13 -- Electrical Data Legend  
User Interface  
Infinity Control Board  
D
D
C
B
A
C
B
A
Outdoor Air Thermistor  
(if used)  
Humidifier  
(Optional)  
LEGEND  
Field Control-Voltage Wiring  
A05302  
Fig. 14 -- Control Voltage Wiring Connections  
13  
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7.0  
A05304  
Fig. 15 -- Wiring Schematics--50CR Single Phase  
14  
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5.0  
A05259  
Fig. 16 -- Wiring Schematics--50CR Three Phase  
15  
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ACCESSORY INSTALLATION  
A. Accessory Electric Heaters  
GROUND SCREW  
(IN SPLICE BOX)  
GROUND  
LEAD  
Electric heaters may be installed in 50CR per instructions supplied  
with electric heater package. See unit rating plate for  
factory--approved electric heater kits.  
BLK  
SINGLE-PHASE  
CONNECTIONS  
TO DISCONNECT  
PER NEC  
L1  
NOTE: Units installed without electric heat should have a  
factory--supplied sheet metal block--off plate installed over heater  
opening. This reduces air leakage and formation of exterior  
condensation.  
YEL  
BLU  
L2  
L3  
3-PHASE  
CONNECTIONS  
B. Outdoor Air Thermistor (OAT)  
NOTE: Use copper wire only.  
A 2--screw terminal strip is provided for connection of an outdoor  
temperature thermistor. This strip is marked OAT.  
LEGEND  
NEC – National Electrical Code  
Field Wiring  
NOTE: While the installation of an outdoor temperature sensor  
using the Infinity control board OAT terminals is optional, certain  
Infinity features (ComfortHeat, electric heat lockout, auto humidity  
control) will be lost.  
Splice Connections  
C99057  
Fig. 17 -- Line Power Connections  
OAT input is used to supply outdoor temperature data for system  
level functions and for temperature display on User Interface.  
Using two wires of field--supplied thermostat wire cable, wire one  
lead of thermistor to one screw terminal and the other lead to  
remaining screw terminal; there is no polarity to be observed. It is  
strongly recommended that two wires be used to connect the  
thermistor to eliminate noise interference in temperature reading. If  
there are not two spare wires available in cable, one wire may be  
used to connect thermistor to OAT screw terminal 1 and the other  
lead of the thermistor can be wired to 24--vac COM (C) wire. OAT  
screw terminal 1 is terminal located closest to the ABCD system  
communications and is marked with a small number 1 next to the  
terminal strip.  
NOTE: Mis--wiring OAT inputs will not cause damage to either  
Infinity control or thermistor. If the thermistor is wired incorrectly,  
no reading will appear at User Interface. Re--wire thermistor  
correctly for normal operation.  
C. Humidifier Connections  
The Infinity control board terminal marked HUM is provided for  
low voltage (24--vac) control of a humidifier. No humidistat is  
required as User Interface monitors indoor humidity. When  
commanded to operate humidifier, the unit control will energize the  
HUM output to turn humidifier on and de--energize HUM output to  
turn humidifier off. Wire HUM and C terminals directly to  
humidifier as shown in Fig. 14.  
SPECIAL PROCEDURES FOR 208--V OPERATION  
Be sure unit disconnect switch is open.  
A05303  
Fig. 18 -- Control Plate  
Disconnect the yellow primary lead from the transformer. See unit  
wiring label. (See Fig. 15, 16 and 18)  
The low--voltage circuit is fused by a board--mounted automotive  
fuse placed in series with transformer SEC1 and R circuit. The C  
circuit of transformer circuit is referenced to chassis groundthrough  
a printed circuit run at SEC2 and metal control board mounting  
eyelets. Check to be sure control board is mounted securely using  
both factory--installed screws.  
Connecttheyellow primary lead to thetransformer terminallabeled  
200--v.  
16  
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3. Make the following inspections:  
a. Inspect for shipping and handling damages, such as  
broken lines, loose parts, disconnected wires, etc.  
SEC-2  
SEC-1  
b. Inspect for oil at all refrigerant tubing connections and on  
unit base. Detecting oil generally indicates a refrigerant  
leak. Leak test all refrigerant tubing connections using  
electronic leak detector, or liquid--soap solution. If a  
refrigerant leak is detected, see following Check for  
Refrigerant Leaks section.  
c. Inspect all field-- and factory--wiring connections. Be  
sure that connections are completed and tight.  
d. Ensure wires do not touch refrigerant tubing or sharp  
sheet metal edges.  
e. Inspect coil fins. If damaged during shipping and  
handling, carefully straighten fins with a fin comb.  
4. Verify the following conditions:  
a. Make sure that outdoor fan blade is correctly positioned  
in fan orifice (See Fig. 24).  
b. Make sure that condensate drain pan and trap are filled  
with water to ensure proper drainage.  
c. Make sure that all tools and miscellaneous loose parts  
have been removed.  
MOTOR  
5. Compressors are internally spring mounted. Do not loosen  
or remove compressor holddown bolts.  
A03169  
Fig. 19 -- Detail of Printed Circuit Board  
PRE--START--UP  
6. Each unit system has two Schrader--typeports, onelow--side  
Schrader fitting located on the suction line, and one  
high--side Schrader fitting located on the compressor  
discharge line. Be sure that caps on the ports are tight.  
!
START--UP  
WARNING  
Step 1—Unit Start--Up  
FIRE,EXPLOSION,ELECTRICAL SHOCKHAZARD  
NOTE: Always check high-- and low--voltage supply to the unit  
components. Check the integrity of the plug receptacle connections  
and unit wiring harness prior to assuming a component failure.  
Failure to follow this warning could result in personal injury  
or death and/or property damage.  
1. Follow recognized safety practices and wear protective  
goggles when checking or servicing refrigerant system.  
2. Do not operate compressor or provide any electric power  
to unit unless compressor terminal cover is in place and  
secured.  
3. Do not remove compressor terminal cover until all  
electrical sources are disconnected and tagged.  
4. Relieve and recover all refrigerant from system before  
touching or disturbing anything inside terminal box if  
refrigerant leak is suspected around compressor terminals.  
5. Never attempt to repair soldered connection while  
refrigerant system is under pressure.  
A. LED Description:  
LEDs built into Infinityt control board provide installer or service  
person information concerning operation and/or fault condition of  
the unit control and ECM motor. This information is also available  
at the system user interface in text with basic troubleshooting  
instructions. Careful use of information displayed will reduce the  
need for extensive manual troubleshooting.  
The amber LED located at bottom center of control adjacent to  
motor harness plug is Motor Status LED and it is labeled MOTOR.  
A second amber LED located in upper right center of control  
adjacent to System Communications connector (A,B,C,D) is the  
System Status LED and it is labeled STATUS. The green LED  
labeled COMM is also located adjacent to System Communications  
connector, below STATUS LED, and is used as an indicator of  
system communications status. Status Codes will be displayed on  
the STATUS LED using the following protocol:  
6. Do not use torch to remove any component. System  
contains oil and refrigerant under pressure.  
7. To remove a component, wear protective goggles and  
proceed as follows:  
a. Shut off electrical power to unit and install lockout  
tag.  
b. Relieve and reclaim all refrigerant from system  
using both high-- and low--pressure ports.  
c. Cut component connecting tubing with tubing  
cutter and remove component from unit.  
d. Carefully unsweat remaining tubing stubs when  
necessary. Oil can ignite when exposed to torch  
flame.  
1. The number of short flashes indicates first digit of code.  
2. The number of long flashes indicates second digit of code.  
3. A short flash is 0.25 seconds on. A long flash is 1 second on.  
4. The time between flashes is 0.25 seconds.  
5. The time between last short flash and first long flash is 1  
second.  
Use the Start--Up Checklist supplied at the end of this book and  
proceed as followsto inspectand preparethe unitfor initialstart--up:  
6. The LED will be off for 2.5 seconds before repeating code.  
B. Control  
Start--Up  
and  
System  
Communications  
1. Remove all access panels.  
Troubleshooting:  
2. Read and follow instructions on all DANGER, WARNING,  
CAUTION, and INFORMATION labels attached to, or  
shipped with unit.  
On power up, green COMM LED will be turned off until successful  
system communications are established (this should happen within  
17  
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10 seconds). Once communications with User Interface are  
successful, COMM LED will be lit and held on. At the same time,  
amber STATUS LED will be lit and held continuously on until a  
request for operating mode is received. The STATUS LED will be  
on any time unit is in idle mode.  
2. Recheck airflow and system static pressure using User  
Interface service screens with access panel in place.  
NOTE: Blower motor faults will not cause a lockout of blower  
operation. The unit control will attempt to run the blower motor as  
long as User Interface maintains a demand for airflow. The unit  
control will not operate electric heaters while a fault condition  
exists. The unit control communicates with the motor at least once  
everyfiveseconds,evenwhenthemotoris idle.If, duringoperation,  
the unit control does not communicate with the motor for more than  
25 seconds, the motor will shut itself down and wait for  
communications to be reestablished.  
If, at any time, communications are not successful for a period  
exceeding 2 minutes, the Infinity control willonly allow emergency  
heating or cooling operation using a common thermostat and the R,  
C, Y, O, W terminal strip connections and will display Status Code  
16, System Communication Fault, on amber STATUS LED. No  
further troubleshooting information will be available at User  
Interface until communications are re--established.  
D. Using Motor LED in Troubleshooting  
If COMM LED does not light within proper time period and status  
code is not displayed;  
The MOTOR LED is connected to the blower motor  
communicationlineand workswith theunit controlmicroprocessor  
and the STATUS LED to provide unit operation and  
troubleshooting information. When the motor is commanded to  
operate, the MOTOR LED will beturned on and willflash each time  
instructions are sent to the motor. When the motor is commanded to  
stop, the MOTOR LED will be turned off.  
1. Check system transformer high-- and low--voltage to be sure  
the system is powered.  
2. Check fuse on control board to be sure it is not blown. If fuse  
is open, check system wiring before replacing it to be sure a  
short does not cause a failure of replacement fuse.  
If COMM LED does not light within proper time period and status  
code is displayed,  
If the MOTOR LED is lit, flashing, and the motor is running, or if  
the MOTOR LED is off and the motor is stopped, operation is  
normal and no motor fault exists.  
1. Check system wiring to be sure User Interface is powered  
and connections are made A to A, B to B, etc. and wiring is  
not shorted. Mis--wiring or shorting of the ABCD  
communications wiring will not allow successful  
communications.  
If the MOTOR LED is lit, flashing, and the motor does not run, or  
if the MOTOR LED is off and the motor is running, check the  
STATUS LED for the Status Code. Refer to the troubleshooting  
instructions for the indicated Status Code in Section E, Unit  
Troubleshooting.  
NOTE:Shortingormis--wiringlow--voltage systemwiring willnot  
cause damage to unit control or user interface but may cause low  
voltage fuse to open.  
E. Unit Troubleshooting  
Unit faults indicated by flashing codes on the amber system  
STATUS LED can be resolved using troubleshooting information  
provided below. Codes are listed in order of their priority, highest  
to lowest. Though multiple faults can exist at any time, only the  
highest priority code will be displayed on STATUS LED. Clearing  
the indicated fault when multiple faults exist will cause the next  
highest priority Status Code tobe flashed.All existingfaults, aswell  
as a fault history, can be viewed at User Interface.  
C. ECM Motor Troubleshooting  
The ECM motor used in this product consists of two parts: the  
control module and the motor winding section. Do not assume  
motor or module is defective if it will not start. Use the designed--in  
LED information aids and follow troubleshooting steps described  
below before replacing motor control module or entire motor.  
Motor control module is available as a replacement part.  
STATUS CODE 45, CONTROL BOARD TEST FAULT  
VERIFY MOTOR WINDING SECTION  
Unit control has failed internal start--up tests and must be replaced.  
No other service procedure will correct.  
!
WARNING  
STATUS CODE 37, HEATER OUTPUT SENSED “ON” WHEN  
NOT ENERGIZED:  
ELECTRICAL SHOCK HAZARD  
Unitcontrolisprovided with circuitry to detect presenceof a24--vac  
signal on electric heater stage 1 and stage 2 outputs.  
Failure to follow this warning could result in personal injury  
or death.  
After disconnecting power from the ECM motor, wait at least  
5 minutes before removing the control section. Internal  
capacitors require time to discharge.  
If unit control detects a 24--vac signal on either heater stage output  
and it is not supplying signal, Status Code 37 will be displayed on  
STATUS LED. Unit control will turn off output and command  
blower motor to supply an airflow determined to be safe for current  
operation mode with electric heaters energized.  
Before proceeding to replace a motor control module:  
1. Check motor winding section to be sure it is functional.  
To find the fault:  
1. Stop all system operations at User Interface and check heater  
stage 24--vac outputs.  
2. Remove motor control module section and unplug winding  
plug. Motor shaft should turn freely, resistance between any  
two motor leads should be similar and resistance between  
any motor lead and unpainted motor end should exceed  
100,000 ohms.  
2. Disconnect electric heater at power and check heater wiring  
for faults. See Status Code 36 for more information.  
STATUS CODE 44, MOTOR COMMUNICATION FAULT  
3. Failing any of these tests, entire ECM motor must be  
replaced.  
The MOTOR LED is connected to the blower motor  
communicationlineand workswith theunit controlmicroprocessor  
and STATUS LED to provide unit operation and troubleshooting  
information.  
4. Passing all of the tests, motor control module alone can be  
replaced.  
MOTOR TURNS SLOWLY  
When motor is commanded to operate, the MOTOR LED will be  
turned on and will flash each time instructions are sent to the motor.  
1. Low static pressure loading of blower while access panel is  
removed will cause blower to run slowly. Particularly at low  
airflow requests. This is normal, do not assume a fault exists.  
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When the motor is commanded to stop, the MOTOR LED will be  
turned off. The MOTOR LED will not flash to indicate  
communications when it is turned off.  
2. If symptoms persist, disconnect wiring harness at unit  
control board and check for a resistance value greater than  
5000 ohms.  
3. Check for proper wiring of resistor assembly.  
Unit control is constantly communicating with the motor, even  
when the motor and MOTOR LED are off. If motor does not  
acknowledge receipt of communications, the control will display  
Status Code 44 on STATUS LED and continue to try to  
communicate with the motor. If motor acknowledges  
communication, status code will be cleared.  
4. Make sure heater size installed is an approved size for unit  
and size installed.  
NOTE: Unit control will not operate electric heater until this Status  
Code is resolved. If the heater size is set through the User Interface,  
the heater will be operated as a single stage heater. If staging is  
desired, the IDR value must be read in by the unit control.  
If MOTOR LED is lit and flashing and motor does not run:  
1. Check the STATUS LED. If STATUS LED is indicating a  
Status 44 code, check the motor wiring harness for proper  
connection to control and motor receptacles.  
STATUS CODE 36, HEATER OUTPUT NOT SENSED WHEN  
ENERGIZED  
Unitcontrolisprovided with circuitry to detect presenceof a24--vac  
signal on electric heater stage 1 and stage 2 outputs.  
2. Check motor wiring harness to be sure all wiring complies  
with wiring diagram description, makes a complete circuit  
from connector to connector, and is not shorted.  
If unit control energizes either heater stage and does not detect the  
24--vac signal on output, Status Code 36 will be displayed on the  
STATUS LED, unit control will continue to energize heater  
output(s) and adjust blower operation to a safe airflow level for  
energized electric heat stage(s).  
3. Check 12--vdc low voltage supply to motor at pins 1 (+) and  
2 (--) of motor header connection to unit control.  
If all checks are normal, unit control is good and control module on  
motor may need replacement. Check motor and Motor Control  
Module following the instructions in Section C, ECM Motor  
Troubleshooting.  
To find the fault:  
1. Check for 24--vac on heater stage outputs. Unit control or  
sensing circuit may be bad.  
Shorted or mis--wiring of the low voltage motor harness wiring will  
not cause damage to unit control or to motor control module.  
NOTE: It may be useful as an electric heater troubleshooting  
procedure to disconnect the system communications to force Status  
Code 16 enabling of emergency heat mode. It is difficult to know  
which heater output is energized or not energized in normal  
operation. When unit is operated in emergency heat mode using  
electric heaters, both outputs are energized and de--engergized  
together. Terminal strip inputs to control can then be connected R to  
W to turn on both electric heat outputs. Heater output sensing  
circuits can then be checked to resolve Status Code 36 or 37  
problems.  
If the MOTOR LED is off, STATUS LED is indicating a Status  
Code 44 and motor is running:  
1. Disconnect the motor harness at the unit control. If motor  
continues to run, unit control is good and control module on  
motor may need replacement.  
STATUS CODE 25, INVALID MOTOR / MODEL SELECTION  
On initial start--up, unit control shall poll motor for its size data and  
check unit size data stored in unit control memory.  
1. If motor size is incorrect for unit size or size data is invalid,  
Status Code 25 will be displayed on STATUS LED.  
STATUS CODE 41, BLOWER MOTOR FAULT  
If MOTOR LED is lit and flashing and motor does not run:  
2. If model size data is missing (as is the case when a  
replacement control board is installed), system User  
Interface will prompt installer to enter correct model size  
from a list of valid sizes.  
1. Check STATUS LED. If STATUS LED is indicating Status  
Code 41, motor control has detected that the motor will not  
come up to speed within 30 seconds of being commanded to  
run or that the motor has been slowed to below 250 rpm for  
more than 10 seconds after coming up to speed. Motor  
wiring harness and unit control are operating properly, do  
not replace.  
3. If motor size is incorrect for model size, motor must be  
replaced with proper size motor. Unit control will not  
respond to operation requests until this fault condition is  
resolved.  
2. Check to be sure that the blower wheel is not rubbing the  
housing.  
STATUS CODE 26, INVALID HEATER SIZE  
On initial power--up, unit control will write into memory electric  
heater size as read from heater if heater is provided with Identifier  
Resistor (IDR). Heater size must be valid for combination of indoor  
and outdoor components installed. Unit control will read IDR value  
connected to pins 1 and 2 of heater harness connector. If no resistor  
is found, system User Interfacewill promptinstaller toverify thatno  
heater is installed. Verifying that this is correct will establish that the  
unit is operating without an electric heater accessory. Upon  
choosing negative option, installer will be prompted to select heater  
size installed from a list of valid heater sizes for unit size installed.  
3. Check motor to be sure that the motor shaft is not seized  
(motor control module must be removed and electronics  
disconnected from windings to perform this check  
properly).  
4. Check motor windings section following instructions in  
Section C, ECM Motor Troubleshooting.  
If all these checks are normal, the motor control module may need  
replacement.  
STATUS CODE 16, SYSTEM COMMUNICATION FAULT  
If heater ID resistor value read is invalid, Status Code 26 will be  
displayed on STATUS LED.  
If, at any time, system communications are not successful for a  
period exceeding 2 minutes, the unit control will only allow  
emergency heating or cooling operation using a common  
thermostat,and theR,C,Y,O,W terminal strip connections and will  
display Status code 16 on the amber STATUS LED (see section E,  
Emergency Heating and Cooling Modes). No further unit  
troubleshooting information will be available at the User Interface  
until communications are re--established.  
If heater installed is equipped with a resistor connected to pins 1 and  
2 of heater harness connector and status code 26 is displayed on  
STATUS LED:  
1. Check wiring harness connectionsto besure connectionsare  
secure.  
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Check system wiring to be sure the User Interface is powered and  
connections are made A to A, B to B, etc., and wiring is not shorted.  
Mis--wiring or shorting of the ABCD communications wiring will  
not allow successful communications. Correcting wiring faults will  
clear the code and re--establish communications.  
NOTE: Once the compressor has started and then has stopped, it  
should not be started again until 4 minutes have elapsed. The  
cooling cycle remains “on” until the room temperature drops to  
point that is slightly below the cooling control setting of the user  
interface. Additionally, there is a 5--minute compressor delay built  
into the control for heat pump heating mode.  
Shortingormis--wiringthelowvoltagesystemwiringwill notcause  
damage to unit control or to User Interface but may cause the low  
voltage fuse to open.  
Step 3—Check for Refrigerant Leaks  
Locate and repair refrigerant leaks and charge the unit as follows:  
STATUS CODE 46, BROWNOUT CONDITION  
1. Use both high-- and low--pressure ports to relieve system  
pressure and reclaim remaining refrigerant.  
If the secondary voltage of the transformer falls below 15--vac for  
a period exceeding 4 seconds, Status Code 46 will be displayed on  
STATUS LED and the User Interface will command the control  
board to turn off Y output controlling compressor.  
2. Repair leak following accepted practices.  
NOTE: Install a bi--flow filter drier whenever the system has been  
When secondary voltage rises above 17--vac for more than 4  
seconds, the brownout condition is cleared and normal system  
operation will resume subject to any minimum compressor  
off--delayfunctionwhich maybe ineffect. Brownoutdoes notaffect  
blower or electric heater operation.  
opened for repair.  
3. Check system for leaks using an approved method.  
4. Evacuate refrigerant system and reclaim refrigerant if no  
additional leaks are found.  
5. Charge unit with Puron (R--410A) refrigerant, using a  
volumetric--charging cylinder or accurate scale. Refer to unit  
rating plate for required charge.  
STATUSCODE53,OUTDOORAIR TEMPERATURESENSOR  
FAULT  
If an OAT sensor is found at power--up, input is constantly checked  
to be within a valid temperature range. If sensor is found to be open  
or shorted at any time after initial validation, Status Code 53 will be  
displayed at amber STATUS LED.  
Step 4—Start--Up Adjustments  
Complete the required procedures given in the Pre--Start--Up  
section before starting the unit. Do not jumper any safety devices  
when operating the unit. Do not operate the unit in cooling mode  
when the outdoor temperature is below 40°F (unless accessory  
low--ambient kit is installed). Do not rapid cycle the compressor.  
Allow 5 min. between “on” cycles to prevent compressor damage.  
Check for faults in wiring connecting sensor to OAT terminals.  
Using an Ohm meter, check resistance of thermistor for a short or  
open condition.  
If thermistor is shorted or open, replace it to return the system to  
normal operation.If faultis inthe wiringconnections, correctingthe  
fault will clear the code and return the system to normal operation.  
CHECKING COOLING AND HEATING CONTROL  
OPERATION  
Start and check the unit for proper control operation as follows:  
NOTE: If fault condition is an open thermistor or a wiring problem  
that appears to be an open thermistor and the power to the unit is  
cycled off, the fault code will be cleared on the next power--up but  
the fault will remain and system operation will not be as expected.  
Thisisbecauseon power--up, theunit controlcannot discern the  
difference between an open sensor or if a sensor is not installed.  
1. Place room UI SYSTEM switch or MODE control in OFF  
position. Observe that blower motor starts when FAN mode  
is placed in FAN ON position and shuts down within 60 sec  
(030--060 size) or 30 sec (024 size) when FAN MODE  
switch is placed in AUTO position.  
Step 2—Sequence of Operation  
2. PlacesystemswitchorMODEcontrolinHEAT position.Set  
control above room temperature. Observe that compressor,  
outdoor fan, and indoor blower motors start. Observe that  
heating cycle shuts down when control setting is satisfied.  
The packaged heat pump is designed for installation with a  
communicating User Interface. This unit will not respond to  
commands provided by a common thermostat except under certain  
emergency situations described in Step 1—Start--Up.  
3. When using an automatic changeover room thermostat,  
place both SYSTEM or MODE control and FAN mode  
switches in AUTO positions. Observe that unit operates in  
cooling mode when temperature control is set to “call for  
cooling” (below room temperature), and unit operates in  
heating mode when temperature control is set to “call for  
heating” (above room temperature).  
The User Interface uses temperature, humidity and other data  
supplied from indoor and outdoor system components to control  
heating or cooling system for optimum comfort. The unit will be  
commanded by User Interface to supply airflow. The unit will  
operate the indoor blower at requested airflow for most modes.  
The nominal requested airflow will be 350 cfm per ton of nominal  
cooling capacity as defined by unit size. Actual airflow request will  
be adjusted from nominal using indoor and outdoor temperature  
and indoor humidity data to optimize the system operation for  
occupant comfort and system efficiency. Refer to User Interface  
literature for further system control details.  
IMPORTANT: Three--phase, scroll compressors are direction  
oriented. Unit must be checked to ensure proper compressor  
3--phase power lead orientation. If not corrected within 5 minutes,  
the internal protector will shut off the compressor. The 3--phase  
power leads to the unit must be reversed to correct rotation. When  
turning backwards, the difference between compressor suction and  
discharge pressures may be dramatically lower than normal.  
Airflow during electric heater operation must be greater than a  
minimum level for safe operation. If User Interface instructs unit to  
turn on electric heat and the requested airflow is less than the  
minimum level the unit control will override requested value.  
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INDOOR COIL  
OUTDOOR COIL  
TXV in Metering  
Position  
LCS  
HPS  
Bypass  
Position  
LEGEND  
HPS – High Pressure Switch  
LCS – Loss of Charge Switch  
®
Accurater Metering Device  
Arrow indicates direction of flow  
C03011  
Fig. 20 -- Typical Heat Pump Operation, Cooling Mode  
INDOOR COIL  
OUTDOOR COIL  
TXV in Bypass  
Position  
LCS  
HPS  
Metering  
Position  
LEGEND  
HPS – High Pressure Switch  
LCS – Loss of Charge Switch  
®
Accurater Metering Device  
Arrow indicates direction of flow  
C03012  
Fig. 21 -- Typical Heat Pump Operation, Heating Mode  
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CHECKING AND ADJUSTING REFRIGERANT CHARGE  
When Quiet Shift switch is placed in ON position, and a defrost is  
initiated, the following sequence of operation will occur. Reversing  
valve will energize, outdoor fan will turn off, compressor will turn  
off for 30 sec and then turn back on to complete defrost. At the start  
of heating after conclusion of defrost reversing valve will  
de--energize, compressor will turn off for another 30 sec, and the  
outdoor fan will stay off for 40 sec, before starting in the heating  
mode.  
The refrigerant system is fully charged with Puron (R--410A)  
refrigerant and is tested and factory sealed.  
NOTE: Adjustment of the refrigerant charge is not required unless  
the unit is suspected of not having the proper R--410A charge. The  
charging labeland thetablesshown referto system temperaturesand  
pressures in cooling mode only. A refrigerant charging label is  
attached to the outside of the service access door. If charge level is  
suspect in heating mode, reclaim all refrigerant and charge to  
informative plate amount. (This information may be obtained from  
the physical data table also.) The charging label and the tables  
shown refer to system temperatures and pressures in cooling mode  
only. A refrigerant charging label is attached to the outside of the  
service access door.  
DEFROST  
The defrost control is a time/temperature control which includes a  
field--selectable time period (DIP switch 1 and 2 on the board)  
between defrost cycles of 30, 60, 90, or 120 minutes (factory set at  
30 minutes).  
To initiate a forced defrost, two options are available depending on  
the status of the defrost thermostat.  
IMPORTANT: When evaluating the refrigerant charge, an  
indicated adjustment to the specified factory charge must always be  
very minimal. If a substantial adjustment is indicated, an abnormal  
condition exists somewhere in the cooling system, such as  
insufficient airflow across either coil or both coils.  
If defrost thermostat is closed, speedup pins (J1) must be shorted by  
placing a flat head screw driver in between for 5 sec and releasing,  
to observe a complete defrost cycle. When the Quiet Shift switch is  
selected, compressor will be turned off for two 30 sec intervals  
during this complete defrost cycle, as explained previously. When  
Quiet Shift switch is in factory default OFF position, a normal and  
complete defrost cycle will be observed.  
REFRIGERANT CHARGE  
The amount of refrigerant charge is listed on the unit rating plate  
and/or the physical data table. Refer to the Refrigeration Service  
Techniques Manual, Refrigerants Section.  
If defrost thermostat is in open position, and speedup pins are  
shorted (with a flat head screw driver) for 5 sec and released, a short  
defrost cycle will be observed (actual length is dependent upon the  
selected Quiet Shift position). When Quiet Shift switch is in ON  
position, the length of defrost is 1 minute (30 sec compressor off  
period followed by 30 sec of defrost with compressor operation).  
On return to heating operation, compressor will again turn off for an  
additional 30 sec and the outdoor fan for 40 sec. When the Quiet  
Shift is in OFF position, only a brief 30 sec cycle will be observed.  
NO CHARGE  
Check for leak. Use standard evacuating techniques. After  
evacuating system, weigh in the specified amount of refrigerant  
(refer to system rating plate).  
LOW CHARGE COOLING  
Use Cooling Charging Chart (Fig. 22). Vary refrigerant until the  
conditions of the chart are met. Note that charging charts are  
different from type normally used. Charts are based on charging the  
units to correct subcooling for the various operating conditions.  
Accurate pressure gauge and temperature sensing devices are  
required. Connect the pressure gauge to the service port on the  
suction line. Mount the temperature sensing device on the suction  
line and insulate it so that the outdoor ambient does not affect the  
reading. Indoor air CFM must be within the normal operating range  
of the unit.  
If it is desirable to observea completedefrost inwarmer weather,the  
defrost thermostat must be closed as follows:  
1. Turn off power to outdoor unit.  
2. Disconnect outdoor fan motor lead from OF2 on control  
board (See Fig. 23). Tape to prevent grounding.  
3. Restartunitin heating mode,allowing frostto accumulateon  
outdoor coil.  
4. After  
a
few minutes in heating mode, liquid--line  
temperature should drop below closing point of defrost  
thermostat (approximately 30°F).  
TO USE COOLING CHARGING CHARTS  
Take the liquid line temperature and read the manifold pressure  
gauges. Refer to the chart to determine what the liquid line  
temperature should be.  
NOTE: Unit will remain in defrost until defrost thermostat reopens  
at approximately 80°F coil temperature at liquid line or remainder  
of defrost cycle time.  
NOTE: If the problem causing the inaccurate readings is a  
refrigerant leak, refer to Check for Refrigerant Leaks section.  
5. Turn off power to outdoor and reconnect fan motor lead to  
OF2 on control board after above forced defrost cycle.  
INDOOR AIRFLOW AND AIRFLOW ADJUSTMENTS  
NON--COMMUNICATING EMERGENCY COOLING  
HEATING MODE  
/
NOTE: Be sure that all supply-- and return--air grilles are open, free  
from obstructions, and adjusted properly.  
This mode ofoperation isprovided onlyin thecase wherethe UIhas  
failed or is otherwise unavailable. If communications cannot be  
established with the UI, the Infinity control board will enable the  
following thermostat input terminals to allow simple thermostatic  
control of the 50CR unit:  
Unit 50CR utilizes state of the art ECM (Electronic Computated  
Motor) ID Blower Motors. See user interface instructions for  
detailed information on adjusting airflow.  
Step 5—Defrost Control  
a. Y & O for cooling  
QUIET SHIFT  
b. W for electric heat (if applicable)  
c. Y for heat pump heat  
Quiet Shift is a field--selectable defrost mode, which will eliminate  
occasional noise that could be heard at the start of defrost cycle and  
restarting of heating cycle. It is selected by placing DIP switch 3 (on  
defrost board) in ON position.  
The Infinity control will respond to cooling and heating demands  
with the maximum safe airflow based on electric heat size (if  
applicable) and unit capacity.  
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Required Subcooling oF (oC)  
Outdoor Ambient Temperature  
Required Liquid Line Temperature for a Specific Subcooling (R-410A)  
Required Subcooling (oF) Required Subcooling (oC)  
Model Size  
Pressure  
(psig)  
Pressure  
(kPa)  
75 (24)  
82 (28)  
85 (29)  
95 (35)  
105 (41)  
5
10  
56  
58  
61  
63  
15  
51  
53  
56  
58  
20  
46  
48  
51  
53  
25  
41  
43  
46  
48  
3
6
8
11  
8
14  
5
024  
030  
036  
042  
048  
060  
10.3 ( 5.7 )  
9.3 ( 5.2 )  
17.6 ( 9.8 )  
12.8 ( 7.1 )  
17.5 ( 9.7 )  
13.7 ( 7.6 )  
9.8 ( 5.4 )  
8.8 ( 4.9 )  
16.8 ( 9.3 )  
12.7 ( 7.1 )  
16.9 ( 9.4 )  
13 ( 7.2 )  
9.4 ( 5.2 )  
8.6 ( 4.8 )  
16.5 ( 9.2 )  
12.7 ( 7.1 )  
16.6 ( 9.2 )  
13 ( 7.2 )  
9 ( 5 )  
8.6 ( 4.7 )  
7 ( 3.9 )  
14.3 ( 7.9 )  
12.6 ( 7 )  
14.8 ( 8.2 )  
11.5 ( 6.4 )  
189  
196  
203  
210  
217  
224  
231  
238  
245  
252  
260  
268  
276  
284  
292  
300  
309  
318  
327  
336  
345  
354  
364  
374  
384  
394  
404  
414  
424  
434  
444  
454  
464  
474  
484  
494  
504  
514  
524  
534  
61  
63  
66  
68  
70  
72  
1303  
1351  
1399  
1448  
1496  
1544  
1593  
1641  
1689  
1737  
1792  
1848  
1903  
1958  
2013  
2068  
2130  
2192  
2254  
2316  
2378  
2440  
2509  
2578  
2647  
2716  
2785  
2854  
2923  
2992  
3061  
3130  
3199  
3268  
3337  
3406  
3475  
3544  
3612  
3681  
16  
17  
19  
20  
21  
22  
23  
24  
25  
26  
27  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
44  
45  
46  
47  
48  
48  
49  
50  
51  
52  
53  
54  
55  
56  
56  
13  
15  
16  
17  
18  
19  
20  
21  
22  
23  
25  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
48  
48  
49  
50  
51  
52  
53  
54  
11  
12  
13  
14  
15  
16  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
47  
47  
48  
49  
50  
51  
7.8 ( 4.3 )  
15.4 ( 8.6 )  
12.6 ( 7 )  
15.7 ( 8.7 )  
14.5 ( 8.1 )  
9
6
8
9
10  
11  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
46  
46  
47  
48  
65  
67  
60  
62  
55  
57  
50  
52  
10  
11  
12  
13  
14  
15  
16  
17  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
30  
31  
32  
33  
34  
35  
36  
37  
38  
39  
40  
41  
42  
43  
44  
45  
45  
Charging Procedure  
74  
76  
69  
71  
64  
66  
59  
61  
54  
56  
77  
79  
81  
83  
72  
74  
76  
78  
67  
69  
71  
73  
62  
64  
66  
68  
57  
59  
61  
63  
1- Measure Discharge line pressure by attaching a gauge to the service port.  
2- Measure the Liquid line temperature by attaching a temperature sensing  
device to it.  
3- Insulate the temperature sensing device so that the Outdoor Ambient  
doesn’t affect the reading.  
85  
87  
89  
91  
80  
82  
84  
86  
75  
77  
79  
81  
70  
72  
74  
76  
65  
67  
69  
71  
4- Refer to the required Subcooling in the table based on the model size and  
the Outdoor Ambient temperature.  
5- Interpolate if the Outdoor ambient temperature lies in between the table  
values. Extrapolate if the temperature lies beyond the table range.  
93  
95  
97  
99  
88  
90  
92  
94  
83  
85  
87  
89  
78  
80  
82  
84  
73  
75  
77  
79  
6- Find the Pressure Value in the table corresponding to the the measured  
Pressure of the Compressor Discharge line.  
7- Read across from the Pressure reading to obtain the Liquid line  
temperature for a required Subcooling  
101  
103  
105  
107  
108  
110  
112  
114  
116  
118  
119  
121  
123  
124  
126  
127  
129  
131  
132  
134  
96  
98  
91  
93  
95  
97  
86  
88  
90  
92  
81  
83  
85  
87  
8- Add Charge if the measured temperature is higher than the table value.  
100  
102  
103  
105  
107  
109  
111  
113  
114  
116  
118  
119  
121  
122  
124  
126  
127  
129  
98  
93  
95  
97  
99  
88  
90  
92  
94  
100  
102  
104  
106  
108  
109  
111  
113  
114  
116  
117  
119  
121  
122  
124  
101  
103  
104  
106  
108  
109  
111  
112  
114  
116  
117  
119  
96  
98  
99  
101  
103  
104  
106  
107  
109  
111  
112  
114  
C03027  
Fig. 22 -- Cooling Charging Table--Subcooling  
Table 3—ECM Wet Coil Pressure Drop (in. wg)  
STANDARD CFM (SCFM)  
UNIT  
SIZE  
600  
700  
800  
900  
0.012  
0.012  
0.019  
1000  
0.015  
0.015  
0.023  
0.014  
1100  
1200  
1300  
1400  
1500  
1600  
1700  
1800  
1900  
2000  
2100  
024  
030  
036  
042  
048  
060  
0.005  
0.007  
0.010  
0.007  
0.010  
0.018  
0.027  
0.017  
0.021  
0.032  
0.020  
0.027  
0.024  
0.037  
0.024  
0.032  
0.042  
0.027  
0.036  
0.047  
0.031  
0.041  
0.029  
0.035  
0.046  
0.032  
0.039  
0.052  
0.036  
0.043  
0.057  
0.040  
0.063  
0.045  
0.068  
0.049  
0.053  
Table 4—Filter Pressure Drop Table (in. wg)  
CFM  
FILTER SIZE  
500 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300  
20X20X1  
24X30X1  
24X36X1  
0.05 0.07 0.08 0.1 0.12 0.13 0.14 0.15  
0.05 0.6 0.07 0.07 0.08 0.09 0.1  
0.06 0.07 0.07 0.08 0.09 0.09 0.10 0.11 0.12 0.13 0.14 0.14  
Table 5—Electric Heat Pressure Drop Table  
Small Cabinet: 024--036  
CFM  
500  
0.00  
0.00  
0.00  
0.00  
0.00  
600  
700  
0.00  
0.00  
0.00  
0.00  
0.02  
800  
0.00  
0.00  
0.00  
0.02  
0.04  
900  
0.00  
0.00  
0.00  
0.04  
0.06  
1000  
0.00  
0.00  
0.02  
0.06  
0.08  
1100  
0.00  
0.02  
0.04  
0.08  
0.09  
1200  
0.00  
0.03  
0.06  
0.10  
0.11  
1300  
0.02  
0.05  
0.07  
0.12  
0.13  
1400  
0.04  
0.07  
0.09  
0.14  
0.15  
1500  
0.06  
0.08  
0.10  
0.16  
0.17  
1600  
0.07  
0.09  
0.11  
0.18  
0.19  
5 kw  
7.2 kw  
10 kw  
15 kw  
20 kw  
0.00  
0.00  
0.00  
0.00  
0.00  
23  
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Table 6—Electric Heat Pressure Drop Table  
Large Cabinet: 042--060  
CFM  
1100  
0.00  
0.00  
0.00  
0.00  
0.02  
1200  
0.00  
0.00  
0.00  
0.02  
0.03  
1300  
0.00  
0.01  
0.01  
0.03  
0.04  
1400  
0.01  
0.02  
0.02  
0.04  
0.05  
1500  
0.02  
0.03  
0.03  
0.05  
0.06  
1600  
0.03  
0.04  
0.04  
0.06  
0.07  
1700  
0.04  
0.05  
0.05  
0.07  
0.08  
1800  
0.05  
0.06  
0.06  
0.08  
0.09  
1900  
0.06  
0.07  
0.07  
0.09  
0.10  
2000  
0.07  
0.08  
0.08  
0.10  
0.11  
2100  
0.08  
0.09  
0.09  
0.11  
0.12  
2200  
0.09  
0.10  
0.10  
0.12  
0.13  
2300  
0.10  
0.11  
0.11  
0.13  
0.14  
2400  
0.11  
0.12  
0.12  
0.14  
0.15  
2500  
0.12  
0.13  
0.13  
0.15  
0.16  
5kw  
7.2 kw  
10 kw  
15 kw  
20 kw  
CESO130076–00  
Speedup  
Pins  
Quiet  
Shift  
Defrost interval  
DIP switches  
Fig. 23 -- Defrost Control  
MAINTENANCE  
!
WARNING  
To ensure continuing high performance, and to minimize the  
possibility of premature equipment failure, periodic maintenance  
must be performed on this equipment. This heat pump unit should  
be inspected at least once each year by a qualified service person. To  
troubleshoot unit, refer to Table 8, Troubleshooting Chart.  
ELECTRICAL SHOCK HAZARD  
Failure to follow these warnings could result in serious injury  
or death:  
1. Turn off electrical power to the unit before performing any  
maintenance or service on this unit.  
NOTE TO EQUIPMENT OWNER: Consult your local dealer  
about the availability of a maintenance contract.  
2. Use extreme caution when removing panels and parts.  
!
3. Never place anything combustible either on or in contact  
with the unit.  
WARNING  
PERSONAL INJURY AND UNIT DAMAGE HAZARD  
Failure to follow this warning could result in personal injury  
or death and possible unit component damage.  
!
CAUTION  
The ability to properly perform maintenance on this  
equipment requires certain expertise, mechanical skills, tools  
and equipment. If you do not possess these, do not attempt to  
perform any maintenance on this equipment, other than those  
procedures recommended in the Owner’s Manual.  
UNIT OPERATION HAZARD  
Failure to follow this caution may resultin equipmentdamage  
or improper operation.  
Errors made when reconnecting wires may cause improper  
and dangerous operation. Label all wires prior to  
disconnecting when servicing.  
24  
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The minimum maintenance requirements for this equipment are as  
follows:  
Step 4—Outdoor Fan  
1. Inspect air filter(s) each month. Clean or replace when  
necessary.  
!
CAUTION  
2. Inspect indoor coil, drain pan, and condensate drain each  
cooling season for cleanliness. Clean when necessary.  
UNIT OPERATION HAZARD  
Failure to follow this caution may result in damage to unit  
components.  
3. Inspect blower motor and wheel for cleanliness each cooling  
season. Clean when necessary.  
Keep the condenser fan free from all obstructions to ensure  
proper cooling operation. Never place articles on top of the  
unit.  
4. Check electrical connections for tightness and controls for  
proper operation each cooling season. Service when  
necessary.  
1. Remove 6 screws holding outdoor grille and motor to top  
cover.  
Step 1—Air Filter  
IMPORTANT: Never operate the unit without a suitable air filter  
in the return--air duct system.Always replacethe filterwith thesame  
dimensional size and type as originally installed. See Table 1 for  
recommended filter sizes.  
2. Turn motor/grille assembly upside down on top cover to  
expose fan blade.  
3. Inspect the fan blades for cracks or bends.  
4. If fan needs to be removed, loosen setscrew and slide fan off  
motor shaft.  
Inspect air filter(s) at least once each month and replace  
(throwaway--type) or clean (cleanable--type) at least twice during  
each cooling season and twice during the heating season, or  
whenever the filter becomes clogged with dust and lint.  
5. When replacing fan blade, position blade so that the hub is  
1/8 in. away from the motor end (1/8 in. of motor shaft will  
be visible) (See Fig. 24).  
Step 2—Indoor Blower and Motor  
6. Ensure that set screw engages the flat area on the motor shaft  
when tightening.  
NOTE: All motors are pre--lubricated. Do not attempt to lubricate  
these motors.  
7. Replace grille.  
For longerlife, operatingeconomy, andcontinuing efficiency,clean  
accumulated dirt and grease from the blower wheel and motor  
annually.  
!
WARNING  
ELECTRICAL SHOCK HAZARD  
Failure to follow this warning could result in personal injury  
or death.  
Infinity Top  
A06035  
Disconnect and tag electrical powerto theunit beforecleaning  
and lubricating the blower motor and wheel.  
“A” DIMENSION  
UNIT SIZE  
Infinity  
024  
030  
036  
042  
048  
060  
25  
25  
24  
24  
24  
19  
Step 3—Outdoor Coil, Indoor Coil, and Condensate  
Drain Pan  
Inspect the condenser coil, evaporator coil, and condensate drain  
pan at least once each year.  
The coils are easily cleaned when dry; therefore, inspect and clean  
the coils either before or after each cooling season. Remove all  
obstructions, including weeds and shrubs, that interfere with the  
airflow through the condenser coil. Straighten bent fins with a fin  
comb. If coated with dirt or lint, clean the coils with a vacuum  
cleaner, using the soft brush attachment. Be careful not to bend the  
fins. If coated with oil or grease, clean the coils with a mild detergent  
and watersolution.Rinsecoilswith clearwater, using a garden hose.  
Be careful not to splash water on motors, insulation, wiring, or air  
filter(s). For best results, spray condenser coil fins from inside to  
outside the unit. On units with an outer and inner condenser coil, be  
sure to clean between the coils. Be sure to flush all dirt and debris  
from the unit base.  
Fig. 24 -- Fan Blade Clearance  
Step 5—Electrical Controls and Wiring  
Inspect and check the electrical controls and wiring annually. Be  
sure to turn off the electrical power to the unit.  
Remove access panel to locate all the electrical controls and wiring.  
Check all electrical connections for tightness. Tighten all screw  
connections. If any smoky or burned connections are noticed,  
disassemble the connection, clean all the parts, re--strip the wire end  
and reassemble the connection properly and securely.  
After inspecting the electrical controls and wiring, replace all the  
panels. Start the unit, and observe at least one complete cooling  
cycle to ensure proper operation. If discrepancies are observed in  
operating cycle, or if a suspected malfunction has occurred, check  
each electrical component with the proper electrical  
instrumentation. Refer to the unit wiring label when making these  
checks.  
Inspect the drain pan and condensate drain line when inspecting the  
coils. Clean the drain pan and condensate drain by removing all  
foreign matter from the pan. Flush the pan and drain trough with  
clear water. Do not splash water on the insulation, motor, wiring, or  
air filter(s). If the drain trough is restricted, clear it with a “plumbers  
snake” or similar probe device.  
25  
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Balance Point Worksheet  
70  
60  
50  
40  
30  
20  
10  
0
Based on Entering Indoor Air of 70 Deg. F and Rated CFM  
060  
048  
042  
036  
030  
024  
-20  
-10  
0
10  
20  
30  
40  
50  
60  
Outdoor Air Temp (Deg F)  
C03008  
Fig. 25 -- 50CR Balance Point Worksheet  
Step 6—Refrigerant Circuit  
Inspect all refrigerant tubing connections and the unit base for oil  
accumulation annually. Detecting oil generally indicates a  
refrigerant leak.  
If oil is detected or if low performance is suspected, leak test all  
refrigerant tubing using an electronic leak detector, or liquid--soap  
solution. If a refrigerant leak is detected, refer to Check for  
Refrigerant Leaks section.  
If no refrigerant leaks are found and low performance is suspected,  
refer to Checking and Adjusting Refrigerant Charge section.  
Step 7—Indoor Airflow  
Theheating and/orcooling airflowdoes notrequire checkingunless  
improper performance is suspected. If a problem exists, be sure that  
all supply-- and return--air grilles are open and free from  
obstructions, and that the air filter is clean.  
Step 8—Metering Devices--TXV & Accurater Piston  
This unit uses 2 types of metering devices. The outdoor metering  
device is a fixed orifice and iscontained inthe brass--hexbody inthe  
liquid line feeding the outdoor coils. The indoor metering device is  
a TXV--type device.  
Step 9—Pressure Switches  
C99097  
Pressure switches are protective devices wired into control circuit  
(low voltage). They shut off compressor if abnormally high or low  
pressures are present in the refrigeration circuit. These pressure  
switches are specifically designed to operate with Puron (R--410A)  
systems. R--22 pressure switches must not be used as replacements  
for the Puron (R--410A) system.  
Fig. 26 -- Refrigerant Circuit  
Step 10—Loss--of--Charge Switch  
This switch is located on the liquid line and protects against low  
suction pressures caused by such events as loss of charge, low  
26  
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airflow across indoor coil, dirty filters, etc. It opens on a pressure  
drop at about 20 psig. If system pressureis abovethis, switchshould  
be closed. To check switch:  
REFRIGERANT  
!
CAUTION  
1. Turn off all power to unit.  
2. Disconnect leads on switch.  
PERSONAL INJURY, UNIT OPERATION HAZARD  
3. Apply ohm meter leads across switch. You should have  
continuity on a good switch.  
Failure to follow this caution may result in personal injury,  
equipment damage or improper operation.  
This system uses Puron (R--410A) refrigerant which has  
higher operating pressures than R--22 and other refrigerants.  
No other refrigerant may be used in this system. Gauge set,  
hoses,andrecoverysystemmustbe designedto handlePuron.  
If you are unsure, consult the equipment manufacturer.  
NOTE: Because these switches are attached to refrigeration system  
under pressure, it is not advisable to remove this device for  
troubleshooting unless you are reasonably certain that a problem  
exists. If switch must be removed, remove and recover all system  
charge so that pressure gauges read 0 psi. Never open system  
without breaking vacuum with dry nitrogen.  
COMPRESSOR OIL  
Step 11—High--Pressure Switch  
The compressor in this system uses a polyolester (POE) oil, Mobil  
3MA POE. This oil is extremely hygroscopic, meaning it absorbs  
water readily. POE oils can absorb 15 times as much water as other  
oils designed for HCFC and CFC refrigerants. Take all necessary  
precautions to avoid exposure of the oil to the atmosphere.  
The high--pressure switch is located in the discharge line and  
protects against excessive condenser coil pressure. It opens at 650  
psig.  
High pressure may be caused by a dirty outdoor coil, failed fan  
motor, or outdoor air recirculation.  
SERVICING SYSTEMS ON ROOFS WITH SYNTHETIC  
MATERIALS  
To check switch:  
POE (polyolester) compressor lubricants are known to cause long  
term damage to some synthetic roofing materials.  
1. Turn off all power to unit.  
2. Disconnect leads on switch.  
Exposure, even if immediately cleaned up, may cause  
embrittlement (leading to cracking) to occur in one year or more.  
When performing any service that may risk exposure ofcompressor  
oil to the roof, take appropriate precautions to protect roofing.  
Procedures which risk oil leakage include, but are not limited to,  
compressor replacement, repairing refrigerant leaks, and replacing  
refrigerant components such as filter drier, pressure switch,  
metering device, coil, accumulator, or reversing valve.  
3. Apply ohm meter leads across switch. You should have  
continuity on a good switch.  
Step 12—Copeland Scroll Compressor (Puron Refrigerant)  
The compressor used in this product is specifically designed to  
operate with Puron (R--410A) refrigerant and cannot be  
interchanged.  
The compressor is an electrical (as well as mechanical) device.  
Exercise extreme caution when working near compressors. Power  
should be shut off, if possible, for most troubleshooting techniques.  
Refrigerants present additional safety hazards.  
Synthetic Roof Precautionary Procedure  
1. Cover extended roof working area with an impermeable  
polyethylene (plastic) drip cloth or tarp. Cover an  
approximate 10 X 10 ft area.  
2. Cover area in front of the unit service panel with a terry cloth  
shop towel to absorb lubricant spills and prevent run--offs,  
and protect drop cloth from tears caused by tools or  
components.  
!
WARNING  
EXPLOSION,FIRE,ELECTRICAL SHOCKHAZARD  
Failure to follow this warning could result in personal injury  
or death and/or property damage.  
3. Place terry cloth shop towel inside unit immediately under  
component(s) to be serviced and prevent lubricant run--offs  
through the louvered openings in the unit base.  
Wear safety glasses and gloves when handling refrigerants.  
Keep torches and other ignition sources away from  
refrigerants and oils.  
4. Perform required service.  
5. Remove and dispose of any oil--contaminated material per  
local codes.  
The scroll compressor pumps refrigerant throughout the system by  
the interaction of a stationary and an orbiting scroll. The scroll  
compressor has no dynamic suction or discharge valves, and it is  
more tolerant of stresses caused by debris, liquid slugging, and  
flooded starts. The compressor is equipped with an anti--rotational  
device and an internal pressure--relief port. The anti--rotational  
device prevents the scroll from turning backwards and replaces the  
need for a cycle protector.The pressure--reliefport isa safetydevice,  
designed to protect against extreme high pressure. The relief port  
has an operating range between 550 and 625 psi differential  
pressure.  
LIQUID--LINE FILTER DRIER  
The biflow filter drieris specifically designed to operate with Puron.  
Use only factory--authorized components. Filter drier must be  
replaced whenever the refrigerant system is opened. When  
removing a filter drier, use a tubing cutter to cut the drier from the  
system. Do not unsweat a filter drier from the system. Heat from  
unsweating will release moisture and contaminants from drier into  
system.  
PURON (R--410A) REFRIGERANT CHARGING  
The Copeland scroll compressor uses Mobil 3MA POE oil. This  
is the only oil allowed for oil recharge.  
Refer to unit information plate and charging chart. Some R--410A  
refrigerant cylinders contain a dip tube to allow liquid  
refrigerant to flow from cylinder in upright position. For  
cylinders equipped with a dip tube, charge Puron units with  
cylinder in upright position and a commercial metering device in  
manifold hose. Charge refrigerant into suction line.  
Step 13—Refrigerant System  
®
This step covers the refrigerant system of the 50CR, including the  
compressor oil needed, servicing systems on roofs containing  
synthetic materials, the filter drier, and refrigerant charging.  
27  
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Step 14—System Information  
Unit Top  
LOSS--OF--CHARGE SWITCH  
The loss of charge switch is a protective device wired into control  
circuit (low voltage). It shuts off the compressor if abnormally low  
pressures are present in the refrigeration circuit.  
Defrost  
Sensor  
NOTE: Because these switches are attached to refrigeration system  
under pressure, it is not advisable to remove this device for  
troubleshooting unless you are reasonably certain that a problem  
exists. If switch must be removed, remove and recover all system  
charge so that pressure gauges read 0 psi. Never open system  
without breaking vacuum with dry nitrogen.  
CHECK DEFROST THERMOSTAT  
There is a liquid header with a brass distributor and feeder tube  
going into outdoor coil. At the end of one of the feeder tubes, there  
isa 3/8--in.OD stubtube approximately3 in.long (SeeFig. 27).The  
defrost thermostat should be located on stub tube.  
NOTE: There is only one stub tube used with liquid header, and on  
most units it is the bottom circuit.  
Detail A  
The defrost thermostat signals heat pump that conditions are right  
for defrost or that conditions have changed to terminate defrost. It  
is a thermally--actuated switch clamped to outdoor coil to sense its  
temperature. Normal temperature range is closed at 30° ± 3°F and  
open at 80° ± 5°F.  
TROUBLESHOOTING  
See  
Detail A  
Refer to the Cooling and Heating Troubleshooting Chart (Table 7)  
for troubleshooting information.  
START--UP CHECKLIST  
Use the Start--Up Checklist at the back of this manual.  
A06068  
Fig. 27 -- Defrost Sensor Location  
28  
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HEAT PUMP WITH PURON  
REFRIGERATION SECTION QUICK--REFERENCE GUIDE  
Puron refrigerant operates at 50--70 percent higher pressures than R--22. Be sure that servicing equipment and replacement components are  
designed to operate with Puron. Puron refrigerant cylinders are rose colored.  
S
Puron refrigerant cylinders manufactured prior to March 1, 1999, have a dip tube that allows liquid to flow out of cylinder in  
upright position. Cylinders manufactured March 1, 1999 and later DO NOT have a dip tube and MUST be positioned upside down  
to allow liquid to flow.  
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
S
Recovery cylinder service pressure rating must be 400 psig. DOT 4BA400 or DOT BW400.  
Puron systems should be charged with liquid refrigerant. Use a commercial--type metering device in the manifold hose.  
Manifold sets should be 750 psig high side and 200 psig low side with 520 psig low side retard.  
Use hoses with 750 psig service pressure rating.  
Leak detectors should be designed to detect HFC refrigerant.  
Puron, as with other HFCs, is only compatible with POE oils.  
Vacuum pumps will not remove moisture from oil.  
Only use factory--specified liquid--line filter driers with rated working pressures no less than 600 psig.  
Do not install a suction--line filter drier in liquid line.  
POE oils absorb moisture rapidly. Do not expose oil to atmosphere.  
POE oils may cause damage to certain plastics and roofing materials.  
Wrap all filter driers and service valves with wet cloth when brazing.  
A Puron liquid--line filter drier is required on every unit.  
Do not use an R--22 TXV.  
Never open system to atmosphere while it is under a vacuum.  
When system must be opened for service, break vacuum with dry nitrogen and replace filter driers.  
Do not vent Puron into the atmosphere.  
Observe all warnings, cautions, and bold text.  
Do not leave Puron suction line driers in place for more than 72 hrs.  
29  
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Table 7—Troubleshooting Chart  
SYMPTOM  
CAUSE  
REMEDY  
Call power company  
Power failure  
Fuse blown or circuit breaker tripped  
Replace fuse or reset circuit breaker  
Defective contactor, transformer, control relay, defrost  
board, or high--pressure, loss--  
of--charge or low--pressure switch  
Replace component  
Insufficient line voltage  
Determine cause and correct  
Check wiring diagram and rewire correctly  
Reset UI setting  
Compressor and outdoor fan  
will not start  
Incorrect or faulty wiring  
User Interface setting too low/too high  
DO NOT bypass this compressor time  
delay–wait for 5 minutes until time--delay  
relay is de--energized  
Units have a 5--minute time delay  
Faulty wiring or circuit  
Loose connections in compressor  
Check wiring and repair or replace  
Compressor motor burned out, seized, or  
internal overload open  
Defective run capacitor, overload, or PTC (positive  
temperature coefficient) thermistor  
Determine cause  
Replace compressor  
Compressor will not start but condenser fan  
runs  
Determine cause and replace  
Replace fuse or reset circuit breaker  
Determine cause  
One leg of 3--phase power dead  
Low input voltage (20 percent low)  
Determine cause and correct  
Three--phase scroll compressor (size 030--  
060 unit) has a low pressure differential  
Correct the direction of rotation by reversing the  
3--phase power leads to the unit  
Scroll compressor is rotating in the wrong direction  
Recover refrigerant, evacuate system, and re-  
charge to capacities shown on rating plate  
Refrigerant overcharge or undercharge  
Defective compressor  
Insufficient line voltage  
Blocked outdoor coil  
Defective run/start capacitor, overload or start relay  
Faulty outdoor fan motor or capacitor  
Damaged reversing valve  
Restriction in refrigerant system  
Dirty air filter  
Replace and determine cause  
Determine cause and correct  
Determine cause and correct  
Determine cause and replace  
Replace  
Determine cause and correct  
Locate restriction and remove  
Replace filter  
Compressor cycles (other than normally satis-  
fying) cooling/heating calls  
Unit undersized for load  
UI temperature set too low/too high  
Low refrigerant charge  
Decrease load or increase unit size  
Reset UI setting  
Locate leak, repair, and recharge  
Check defrost time settings  
Reset as necessary  
Check defrost temperature switch  
Replace as necessary  
Compressor operates continuously  
Frosted coil with incorrect defrost operation  
Recover refrigerant, evacuate system, and re-  
charge  
Air in system  
Outdoor coil dirty or restricted  
Dirty air filter  
Clean coil or remove restriction  
Replace filter  
Dirty indoor or outdoor coil  
Refrigerant overcharged  
Clean coil  
Recover excess refrigerant  
Excessive head pressure  
Recover refrigerant, evacuate system, and re-  
charge  
Air in system  
(Heat) Indoor air restricted or recirculating  
Indoor or outdoor air restricted or air short--cycling  
Determine cause and correct  
Determine cause and correct  
(Continued next page)  
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Table 7—Troubleshooting Chart (Cont’d)  
SYMPTOM  
CAUSE  
REMEDY  
Low refrigerant charge  
Restriction in liquid tube  
(Cool) High Heat load  
Reversing valve hung up or leaking internally  
Refrigerant overcharged  
(Cool) Dirty air filter  
Check for leaks, repair and recharge  
Remove restriction  
Check for source and eliminate  
Replace valve  
Recover excess refrigerant  
Replace filter  
Head pressure too low  
Excessive suction pressure  
Move timer on control board to 30 minutes between  
defrost cycles  
(Heat) Outdoor coil frosted  
Low refrigerant charge  
Metering device or low side restricted  
Check for leaks, repair and recharge  
Remove source of restriction  
Suction pressure too low  
Increase air quantity  
Check filter–replace if necessary  
(Cool) Insufficient coil airflow  
(Cool) Temperature too low in conditioned area  
(Cool) Outdoor ambient below 55°F  
Filter drier restricted  
Reset UI setting  
Install low--ambient kit  
Replace  
NC (normally closed) contacts on defrost board  
open  
Check condition of relay on board  
Replace if necessary  
Compressor runs but outdoor fan does not  
IFM does not run  
Blower wheel not secured to shaft  
Insufficient voltage at motor  
Properly tighten blower wheel to shaft  
Determine cause and correct  
Power connectors not properly sealed  
Water dripping into motor  
Connectors should snap easily; do not force  
Verify proper drip loops in connector wires  
IFM operation is intermittent  
Gently pull wires individually to be sure they are  
crimped into the housing  
Connectors not firmly sealed  
IFM-Indoor Fan Motor  
31  
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START-UP CHECKLIST  
(Remove and Store in Job File)  
I. Preliminary Information  
MODEL NO.:_________________________________  
SERIAL NO.:__________________________________  
DATE:_______________________________________  
TECHNICIAN:_________________________________  
II. PRE-START-UP (Insert checkmark in box as each item is completed)  
( ) VERIFY THAT ALL PACKING MATERIALS HAVE BEEN REMOVED FROM UNIT  
( ) REMOVE ALL SHIPPING HOLD DOWN BOLTS AND BRACKETS PER INSTALLATION INSTRUCTIONS  
( ) CHECK ALL ELECTRICAL CONNECTIONS AND TERMINALS FOR TIGHTNESS  
( ) CHECK GAS PIPING FOR LEAKS (WHERE APPLICABLE)  
( ) CHECK THAT INDOOR (EVAPORATOR) AIR FILTER IS CLEAN AND IN PLACE  
( ) VERIFY THAT UNIT INSTALLATION IS LEVEL  
( ) CHECK FAN WHEEL, AND PROPELLER FOR LOCATION IN HOUSING/ORIFICE AND SETSCREW TIGHTNESS  
( ) MAKE SURE THAT - (If Applicable) ON 060 SIZE PURON HEATPUMP ONLY, THE TWO WIRE TIES FASTEN  
TO THE OUTDOOR COILS AND REVERSING VALVE/ACCUMULATOR HAVE BEEN REMOVED  
III. START-UP  
ELECTRICAL  
SUPPLY VOLTAGE __________________________________  
COMPRESSOR AMPS_________________________________  
INDOOR (EVAPORATOR) FAN AMPS___________  
TEMPERATURES  
OUTDOOR (CONDENSER) AIR TEMPERATURE ___________DB  
RETURN-AIR TEMPERATURE ___________DB ___________WB  
COOLING SUPPLY AIR ___________DB ___________WB  
HEAT PUMP SUPPLY AIR ___________  
ELECTRIC HEAT SUPPLY AIR ___________  
PRESSURES  
REFRIGERANT SUCTION ___________PSIG SUCTION LINE TEMP*___________  
REFRIGERANT DISCHARGE ___________PSIG DISCHARGE TEMP†___________  
( ) VERIFY REFRIGERANT CHARGE USING CHARGING CHARTS  
*Measured at suction inlet to compressor  
†Measured at liquid line leaving condenser.  
A05306  
Catalog No: 50CR---1SI  
Printed in U.S.A.  
Edition Date: 03/06  
Copyright 2006 Carrier Corp. S 7310 W. Morris St. S Indianapolis, IN 46231  
Replaces: New  
Manufacturer reserves the right to change, at any time, specifications and designs without notice and without obligations.  
32  
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