Carrier 50ZH024 060 User Manual

50ZH024-060

Packaged Heat Pump Units

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Installation, Start-Up and Service Instructions

NOTE: Read the entire instruction manual before starting the

installation.

DEFROST..........................................................................15

ELECTRIC RESISTANCE HEATING............................15

MAINTENANCE.........................................................................15

Air Filter..................................................................................16

Unit Top Removal (Outdoor-Coil Side) ................................16

Indoor Blower and Motor.......................................................16

Outdoor Coil, Indoor Coil, and Condensate Drain Pan ........16

Outdoor Fan ............................................................................17

Electrical Controls and Wiring...............................................18

Refrigerant Circuit ..................................................................18

Indoor Airflow ........................................................................18

Metering Devices....................................................................18

Lubrication ..............................................................................18

Liquid Line Strainer................................................................18

High Flow Valves...................................................................19

TABLE OF CONTENTS

SAFETY CONSIDERATIONS.....................................................1

INTRODUCTION..........................................................................2

RECEIVING AND INSTALLATION ..........................................2

Check Equipment......................................................................2

IDENTIFY UNIT ................................................................2

INSPECT SHIPMENT........................................................2

Provide Unit Support................................................................2

SLAB MOUNT ...................................................................2

GROUND MOUNT ............................................................2

Provide Clearances....................................................................2

Place Unit..................................................................................2

Select and Install Ductwork .....................................................2

INSTALL FLANGES FOR DUCTWORK CONNEC-

TIONS (50ZH060 ONLY)..................................................6

CONVERTING HORIZONTAL DISCHARGE UNITS TO

DOWNFLOW (VERTICAL) DISCHARGE......................6

Provide for Condensate Disposal.............................................6

Install Electrical Connections...................................................7

HIGH-VOLTAGE CONNECTIONS..................................7

ROUTING POWER LEADS INTO UNIT ........................8

TROUBLESHOOTING ...............................................................22

START-UP CHECKLIST............................................................23

NOTE TO INSTALLER—Before installation, READ THESE

INSTRUCTIONS CAREFULLY AND COMPLETELY. Also,

make sure the User’s Manual and Replacement Guide are left with

the unit after installation.

CONNECTING

GROUND

LEAD

UNIT

GROUND ............................................................................8

ROUTING CONTROL POWER WIRES ..........................8

ACCESSORY ELECTRIC HEAT WIRING .....................8

SPECIAL PROCEDURES FOR 208-V OPERATION .....8

PRE-START-UP ............................................................................9

START-UP.....................................................................................9

Check for Refrigerant Leaks ..................................................10

LOCATE AND REPAIR REFRIGERANT LEAKS AND

CHARGE THE UNIT AS FOLLOWS: ...........................10

Start-Up Cooling Section and Make Adjustments ................10

CHECKING COOLING CONTROL OPERATION .......10

COMPRESSOR ROTATION ...........................................10

Refrigerant Charge..................................................................10

NO CHARGE....................................................................10

LOW CHARGE COOLING .............................................10

TO USE THE COOLING CHARGING CHART............10

HEATING MODE CHARGE...........................................11

Indoor Airflow and Airflow Adjustments..............................11

FOR 208/230-V.................................................................12

FOR 460-V MOTORS ......................................................12

Unit Controls...........................................................................12

HIGH-PRESSURE RELIEF VALVE...............................12

LOSS OF CHARGE SWITCH.........................................12

COMPRESSOR OVERLOAD..........................................12

Sequence of Operation............................................................12

FAN OPERATION............................................................12

COOLING..........................................................................14

HEAT PUMP HEATING..................................................14

C00155

Fig. 1—Unit 50ZH

SAFETY CONSIDERATIONS

Installation and servicing of air-conditioning equipment can be

hazardous due to system pressure and electrical components. Only

trained and qualified workers should install, repair, or service

air-conditioning equipment.

Untrained workers can perform basic maintenance functions of

cleaning coils and filters. All other operations should be performed

by trained service people. When working on air-conditioning

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.

Book

Tab

PC 101

Catalog No. 535-00080

Printed in U.S.A.

Form 50ZH-5SI

Pg 1

7-03

Replaces: 50ZH-4SI

REQUIRED CLEARANCE TO COMBUSTIBLE MATL.

INCHES [mm]

TOP OF UNIT.........................................................................................0

DUCT SIDE OF UNIT.............................................................................0

SIDE OPPOSITE DUCTS ......................................................................0

BOTTOM OF UNIT.................................................................................0

NEC. REQUIRED CLEARANCES.

INCHES [mm]

BETWEEN UNITS, POWER ENTRY SIDE....................................42.00 [1066.8]

UNIT AND UNGROUNDED SURFACES, POWER ENTRY SIDE .36.00 [914.0]

UNIT AND BLOCK OR CONCRETE WALLS AND OTHER

GROUNDED SURFACES, POWER ENTRY SIDE.........................42.00 [1066.8]

REQUIRED CLEARANCE FOR OPERATION AND SERVICING

INCHES [mm]

COND. ENSER COIL ACCESS SIDE..............................................30.00 [762.0]

POWER ENTRY SIDE....................................................................30.00 [762.0]

(EXCEPT FOR NEC REQUIREMENTS)

UNIT TOP.......................................................................................48.00 [1219.2]

SIDE OPPOSITE DUCTS ..............................................................30.00 [762.0]

LEGEND

NEC – National Electrical Code

NOTES:

1. Clearances must be maintained to prevent recirculation of air from outdoor-

fan discharge, with the exception of the condenser coil (36.00 in [914.0 mm]. A

removable fence or barricade requires no clearance.

2. Dimensions are in inches. Dimensions in [ ] are in millimeters.

C00156

UNIT WEIGHT

CENTER OF GRAVITY IN. (MM)

UNIT

ELECTRICAL CHARACTERISTICS

50ZH024

50ZH030

208/230-1-60

232

106

14.0 (356)

19.0 (483)

12.0 (305)

208/230-1-60,

208/230–3–60

254

116

14.0 (356)

19.0 (483)

12.0 (305)

Fig. 2—Unit Base Dimensions, 50ZH024-030

REQUIRED CLEARANCE TO COMBUSTIBLE MATL.

INCHES [mm]

TOP OF UNIT.........................................................................................0

DUCT SIDE OF UNIT.............................................................................0

SIDE OPPOSITE DUCTS ......................................................................0

BOTTOM OF UNIT.................................................................................0

NEC. REQUIRED CLEARANCES.

INCHES [mm]

BETWEEN UNITS, POWER ENTRY SIDE....................................42.00 [1066.8]

UNIT AND UNGROUNDED SURFACES, POWER ENTRY SIDE .36.00 [914.0]

UNIT AND BLOCK OR CONCRETE WALLS AND OTHER

GROUNDED SURFACES, POWER ENTRY SIDE.........................42.00 [1066.8]

REQUIRED CLEARANCE FOR OPERATION AND SERVICING

INCHES [mm]

COND. ENSER COIL ACCESS SIDE..............................................

POWER ENTRY SIDE....................................................................30.00 [762.0]

(EXCEPT FOR NEC REQUIREMENTS)

30.00 [762.0]

UNIT TOP.......................................................................................48.00 [1219.2]

SIDE OPPOSITE DUCTS ..............................................................30.00 [762.0]

LEGEND

NEC – National Electrical Code

NOTES:

1. Clearances must be maintained to prevent recirculation of air from outdoor-

fan discharge, with the exception of the condenser coil (36.00 in [914.0 mm]. A

removable fence or barricade requires no clearance.

2. Dimensions are in inches. Dimensions in [ ] are in millimeters.

C00003

UNIT WEIGHT

CENTER OF GRAVITY IN. (MM)

UNIT

ELECTRICAL CHARACTERISTICS

208/230-1-60, 208/230-3-60,

460–3–60

50ZH036

50ZH042

50ZH048

277

126

14.0 (356)

19.0 (483)

15.0 (381)

208/230-1-60, 208/230-3-60,

460–3–60

295

328

134

149

208/230-1-60, 208/230-3-60,

460–3–60

Fig. 3—Unit Base Dimensions, 50ZH036–048

REQUIRED CLEARANCE TO COMBUSTIBLE MATL.

INCHES [mm]

TOP OF UNIT.........................................................................................0

DUCT SIDE OF UNIT.............................................................................0

SIDE OPPOSITE DUCTS ......................................................................0

BOTTOM OF UNIT.................................................................................0

NEC. REQUIRED CLEARANCES.

INCHES [mm]

BETWEEN UNITS, POWER ENTRY SIDE....................................42.00 [1066.8]

UNIT AND UNGROUNDED SURFACES, POWER ENTRY SIDE .36.00 [914.0]

UNIT AND BLOCK OR CONCRETE WALLS AND OTHER

GROUNDED SURFACES, POWER ENTRY SIDE.........................42.00 [1066.8]

REQUIRED CLEARANCE FOR OPERATION AND SERVICING

INCHES [mm]

COND. ENSER COIL ACCESS SIDE..............................................30.00 [762.0]

POWER ENTRY SIDE....................................................................30.00 [762.0]

(EXCEPT FOR NEC REQUIREMENTS)

UNIT TOP.......................................................................................48.00 [1219.2]

SIDE OPPOSITE DUCTS ..............................................................30.00 [762.0]

LEGEND

NEC – National Electrical Code

NOTES:

1. Clearances must be maintained to prevent recirculation of air from outdoor-

fan discharge, with the exception of the condenser coil (36.00 in [914.0 mm]. A

removable fence or barricade requires no clearance.

2. Dimensions are in inches. Dimensions in [ ] are in millimeters.

C00158

UNIT WEIGHT

CENTER OF GRAVITY IN. (MM)

UNIT

ELECTRICAL CHARACTERISTICS

368

50ZH060

208/230-1-60, 208/230-3-60, 460-3-60

167

14.0 (356)

20.0 (508)

16.0 (406)

Fig. 4—Unit Base Dimensions, 50ZH060

INSTALL FLANGES FOR DUCTWORK CONNECTIONS

(50ZH060 ONLY)

The 50ZH060 units are shipped with flanges which must be

field-installed on the unit.

To install unit flanges:

1. Five pieces of flange are shipped on the return-air opening of

the unit. Remove the flanges from the shipping position (See

Fig. 5). Screws are field-supplied.

2. One piece of flange is used as it is shipped (straight). Bend the

other 4 pieces at right angles.

3. Install the straight flange on the right side of the return-air

opening in holes provided. (See Fig. 6). Flanges should stick

out from unit to allow for connection of ductwork.

4. Install 2 hand-formed flanges onto return air opening in holes

provided to form a rectangle around the return air opening.

5. Install remaining 2 hand-formed flanges around discharge air

opening in holes provided.

FIVE PIECES OF DUCT

FLANGE ATTACHED

HERE FOR SHIPMENT

C00005

6. Ductwork can now be attached to flanges.

When designing and installing ductwork, consider the following:

Fig. 5—Shipping Location of Duct Flanges

(Size 060 Only)

When connecting ductwork to units, do not drill deeper than

3/4 inch in shaded area shown in Fig. 7 or coil may be

damaged.

•

All units should have field-supplied filters installed in the

return-air side of the unit. Recommended sizes for filters are

shown in Table 1.

Avoid abrupt duct size increases and reductions. Abrupt change

in duct size adversely affects air performance.

HAND

FORM

IMPORTANT: Use flexible connectors between ductwork and

unit to prevent transmission of vibration. Use suitable gaskets to

ensure weathertight and airtight seal. When electric heat is

installed, use fire proof 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 ectend 24–in.

from the unit discharge connection flange into the ductwork.

•

Size ductwork for cooling air quantity (cfm). The minimum air

quantity for proper electric heater operation is listed in Table 2.

Heater limit switches may trip at air quantities below those

recommended.

HAND FORM

STRAIGHT PIECE

•

Insulate and weatherproof all external ductwork. Insulate and

cover with a vapor barrier all ductwork passing through

conditioned spaces. Follow latest Sheet Metal and Air Condi-

tioning Contractors National Association (SMACNA) and Air

Conditioning Contractors Association (ACCA) minimum in-

stallation standards for residential heating and air conditioning

systems.

C00006

Fig. 6—Flanges Installed on 50ZH060 Units

CONVERTING HORIZONTAL DISCHARGE UNITS TO

DOWNFLOW (VERTICAL) DISCHARGE

•

Secure all ducts to building structure. Flash, weatherproof, and

vibration-isolate duct openings in wall or roof according to

good construction practices.

Before performing service or maintenance operations on

system, turn off main power to unit and install lockout tag.

Turn off accessory heater power switch if applicable. Elec-

trical shock can cause serious injury or death.

Figure 8 shows a typical duct system with 50ZH unit installed.

Units are dedicated side supply products. They are not convertible

to vertical air supply. A field-supplied plenum must be used to

convert to vertical air discharge.

Step 6—Provide for Condensate Disposal

NOTE: Be sure that condensate-water disposal methods comply

with local codes, restrictions, and practices.

Unit removes condensate through a 1 3/64-in. ID hole (using

3/4-in. OD piping or tubing) which is located at the end of the unit.

See Fig. 2-4 for location of condensate connection.

Failure to follow these precautions could 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 connec-

tions must be in accordance with CSA standard C22.1

Canadian Electrical Code Part 1 and applicable local

codes. Refer to unit wiring diagram.

19.17″

3.92″

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.

4. Insulate low-voltage wires for highest voltage contained

within conduit when low-voltage control wires are run in

same conduit as high-voltage wires.

5. Do not damage internal components when drilling through

any panel to mount electrical hardware, conduit, etc. On

3-phase units, ensure phases are balanced within 2 percent.

Consult local power company for correction of improper

voltage and/or phase imbalance.

C00007

Fig. 7—Area Not to Be Drilled More Than 3/4-in.

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 connection to prevent the pan from overflowing. Prime

the trap with water. When using a gravel apron, make sure it slopes

away from the unit.

HIGH-VOLTAGE CONNECTIONS

INDOOR

THERMOSTAT

RETURN

AIR

If the installation requires draining the condensate water away

from the unit, install a 2-in. trap using a 3/4-in. OD tubing or pipe.

(See Fig. 9 and 10.) 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. Prime the trap with water.

Connect a drain tube using a minimum of 3/4-in. PVC, 3/4-in.

CPVC, or 3/4-in. copper pipe (all field supplied). Do not undersize

the tube. Pitch the drain tube downward at a slope of at least 1 in.

for every 10 ft of horizontal run. Be sure to check the drain tube

for leaks. Prime trap at the beginning of the cooling season

start-up. Allowable glues for condensate trap connection are:

Standard ABS, CPVC, or PVC cement.

FROM

TOP COVER

POWER

SOURCE

POWER AND

LOW-VOLTAGE

ENTRY

DISCONNECT

PER NEC*

(UNIT AND

ELECTRIC

HEATER)

COMPOSITE

RUST-PROOF

BASEPAN

Power Wiring

Control Wiring

CONDENSATE

DRAIN

CONNECTION

Condenser Airflow

Evaporator Airflow

*Separate disconnect per NEC

(National Electrical Code) required

for electric heater when single-

point conection is not used.

C00008

Step 7—Install Electrical Connections

C00008

Table 2—Minimum Airflow for Safe Electric Heater

Operation (CFM)

The unit cabinet must have an uninterrupted, unbroken

electrical ground to minimize the possibility of personal

injury if an electrical fault should occur. This ground may

consist of an electrical wire connected to the unit ground in

the control compartment, or conduit approved for electrical

ground when installed in accordance with NEC (National

Electrical Code), ANSI (American National Standards

Institute)/NFPA (latest edition) (in Canada, Canadian Elec-

trical Code CSA C22.1) and local electrical codes. Failure to

adhere to this warning could result in serious injury or death.

SIZE

024

600

030

750

036

900

042

048

060

1050

1200

1500

Fig. 8—Typical installation

1” (25mm) MIN.

TRAP

OUTLET

2” (50mm) MIN.

C99013

Fig. 9—Condensate Trap (Using Tubing)

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 for maximum

fuse/circuit breaker size and minimum circuit amps (ampacity) for

wire sizing. See Table 3 for electrical data.

Table 1 — Physical Data

UNIT 50ZH

024

030

036

042

048

060

OPERATING WEIGHT (lbs)

COMPRESSOR TYPE

232

254

277

295

328

368

Scroll

R-22

REFRIGERANT Charge (lb)

3.7

5.8

5.9

6.6

9.1

9.7

REFRIGERANT METERING DEVICE

Acutrol™ System

Copper Tubes, Aluminum Plate Fins

OUTDOOR COIL

Rows...Fins/in.

Face Area (sq ft)

1...17

7.9

2...17

6.7

1...17

11.1

2...17

9.3

2...17

11.1

2...17

12.7

Propeller

OUTDOOR-FAN MOTOR CFM

Nominal Rpm

1800

825

1/8

2000

1100

1/4

2600

1100

1/4

2600

1100

1/4

2600

1100

1/4

3200

1100

1/2

Motor Hp

Diameter (in.)

INDOOR COIL

Copper Tubes, Aluminum Plate Fins

Rows...Fins/in.

Face Area (sq ft)

2...15

3.1

3...15

3.1

3...15

4.0

3...15

4.0

4...15

4.4

4...15

4.9

Direct Drive

INDOOR FAN MOTOR

Blower Motor Size (in.)

Nominal Cfm

10 x 8

800

550-1000

Low

1/4

10 x 8

1000

550-1000

Med

1/4

10 x 9

1200

800-1050

10 x 9

1400

800-1050

10 x 9

1600

1000-1100

10 x 10

2000

950-1100

Rpm Range

Number of Speeds

Factory Speed Setting

Motor Hp

Low

1/2

Med

1/2

Low

3/4

CONNECTING DUCT SIZES

Supply Air (in.)

Round

Square

13.9 x 13.9

13.9 x 27.8

Return Air (in.)

FIELD-SUPPLIED RETURN-AIR FILTER†

Throwaway (in.)

24 x 24

24 x 30

* 460-v motors are 2-speed or 3-speed.

†Required filter sizes shown are based on the ARI (Air Conditioning and Refrigeration Institute) rated airflow at a velocity of 300 ft/min for throwaway type or 450 ft/min

for high capacity type. Recommended filters are 1-in. thick.

ROUTING CONTROL POWER WIRES

TRAP

OUTLET

Form a drip-loop with the thermostat leads before routing them

into the unit. Route the thermostat leads through grommeted hole

provided in unit into unit control box (See Fig. 11). Connect

thermostat leads and unit power leads as shown in Fig. 13 & 14.

1" min.

Route thermostat wires through grommet providing a drip-loop at

the panel. Connect low-voltage leads to the thermostat as shown in

Fig. 14.

2" min.

The unit transformer supplies 24-v power for complete system

including accessory electrical heater. Transformer is factory wired

for 230-v operation. If supply voltage is 208 v, rewire transformer

primary as described in the Special Procedures for 208-v Opera-

tion section below.

C00009

Fig. 10–PVC Condensate Trap

The field-supplied disconnect may be mounted on the unit over the

high-voltage inlet hole. See Fig. 2-4.

ACCESSORY ELECTRIC HEAT WIRING

Refer to accessory electric heat installation instructions for infor-

mation on installing accessory electric heat. Accessory electric

heat wiring is shown in Fig. 15A & 15B.

Operation of unit on improper line voltage constitutes abuse

and may cause unit damage that could affect warranty.

SPECIAL PROCEDURES FOR 208-V OPERATION

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 unit;

conduit termination at the unit must be watertight. Run the

high-voltage leads through the hole on the control box side of the

unit (see Fig. 11 for location). When the leads are inside the unit,

run leads to the control box (Fig. 12). For single-phase units,

connect leads to the black and yellow wires; for 3-phase units,

connect the leads to the black, yellow, and blue wires (see Fig. 13).

Make sure that the power supply to the unit is switched OFF

and install lockout tag before making any wiring changes.

Electrical shock can cause serious injury or death.

1. Remove wirenut from connection of ORG wire to BLK wire.

Disconnect the ORG transformer-primary lead from the BLK

wire. Save wirenut. See unit wiring label.

2. Remove the wirenut from the terminal on the end of the RED

transformer-primary lead.

CONNECTING GROUND LEAD TO UNIT GROUND

Refer to Fig. 12 and 13. Connect the ground lead to the chassis

using the unit ground lug in the control box.

3. Save the wirenut.

4. Connect the RED lead to the BLK wire from which the ORG

lead was disconnected. Insulate with wirenut from Step 1.

HIGH-VOLTAGE

POWER WIRING WIRING ENTRY

ENTRY HOLE HOLE

LOW-VOLTAGE

5. Using the wirenut removed from the RED lead, insulate the

loose terminal on the ORG lead.

6. Wrap the wirenuts with electrical tape so that the metal

terminals cannot be seen.

Indoor blower-motor speeds may need to be changed for 208-v

operation. Refer to Indoor Airflow and Airflow Adjustments

section. (See Table of Contents for page number.)

PRE-START-UP

Failure to observe the following warnings could result in

serious injury or death:

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 electri-

cal sources are disconnected and lockout tag is installed.

4. Relieve all pressure from both high- and low-pressure sides

of the system before touching or disturbing anything inside

terminal box if refrigerant leak is suspected around com-

pressor terminals. Use accepted methods to recover refrig-

erant.

C00010

Fig. 11—Unit Electrical Connection

5. Never attempt to repair soldered connection while refrig-

erant system is under pressure.

6. Do not use torch to remove any component. System

contains oil and refrigerant under pressure. To remove a

component, wear protective goggles and proceed as fol-

lows:

a. Shut off electrical power to unit and install lockout tag.

b. Relieve all refrigerant from system using both high- and

low-pressure ports. Use accepted methods to recover

refrigerant.

c. Cut component connecting tubing with tubing cutter and

remove component from unit.

d. Carefully unsweat remaining tubing stubs when neces-

sary. Oil can ignite when exposed to torch flame.

Use the Start-Up Checklist supplied at the end of this book and

proceed as follows to inspect and prepare the unit for initial

start-up:

1. Remove all access panels.

ELECTRIC GROUND INDOOR OUTDOOR FAN MOTOR

HIGH

HEATER

FUSES

LUG

FAN

AND COMPRESSOR

START CAPACITOR

VOLTAGE

2. Read and follow instructions on all DANGER, WARNING,

CAUTION, and INFORMATION labels attached to, or

shipped with, unit.

RELAY

LEADS

C00011

Fig. 12—Control Box Wiring

Make the following inspections:

a. Make sure that outdoor-fan blade is correctly positioned in

fan orifice. Top edge of blade should be 3.125 in. down

from outdoor coil outlet grille (size 024–048, See Fig. 21)

or hub should be 0.708-in. away from motor end bell (size

060, See Fig. 22). See Outdoor Fan Adjustment section.

a. Inspect for shipping and handling damages such as broken

lines, loose parts, disconnected wires, etc.

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 refrig-

erant leak is detected, see following Check for Refrigerant

Leaks section.

b. Make sure that air filter is in place.

c. Make sure that condensate drain trap is filled with water to

ensure proper drainage.

d. Make sure that all tools and miscellaneous loose parts have

been removed.

c. Inspect all field- and factory-wiring connections. Be sure

that connections are completed and tight. Ensure wires do

not contact refrigerant tubing or sheet metal edges.

START-UP

d. Inspect coil fins. If damaged during shipping and handling,

carefully straighten fins with a fin comb.

Use the Start-Up Checklist supplied at the end of this book and

proceed as follows:

3. Verify the following conditions:

UNIT GROUND

GROUND

LEAD

BRN

ORN

RED

GRN

SINGLE-PHASE

CONNECTIONS

TO DISCONNECT

PER NEC

BLK

YEL

BLU

3-PHASE

CONNECTIONS

TO DISCONNECT

PER NEC

C00012

Fig. 13—Line Power Connections

YEL

WHT

THERMOSTAT

AND SUBBASE

UNIT CONTROL POWER

SPLICE BOX

C99056

Fig. 14—Control Connections

COMPRESSOR ROTATION

Step 1—Check for Refrigerant Leaks

On 3–Phase units it is important to be certain compressor is

rotating in the proper direction. To determine whether or not

compressor is rotating in the proper direction:

LOCATE AND REPAIR REFRIGERANT LEAKS AND

CHARGE THE UNIT AS FOLLOWS:

1. Using both high- and low-pressure ports, locate leaks and

reclaim remaining refrigerant to relieve system pressure.

1. Connect service gages to suction and discharge pressure

fittings.

2. Repair leak following accepted practices.

2. Energize the compressor.

NOTE: Install a liquid-line filter drier whenever the system has

been opened for repair.

3. The suction pressure should drop and the discharge pressure

should rise, as is normal on any start-up.

Step 2—Start-Up Cooling Section and Make Adjustments

If the suction pressure does not drop and the discharge pressure

does not rise to normal levels:

1. Turn off power to the unit and tag disconnect.

2. Reverse any two of the unit power leads.

3. Turn on power to the unit.

Complete the required procedures given in the Pre-Start- Up

section this page before starting the unit. Do not jumper any

safety devices when operating the unit.

Do not operate the compressor when the outdoor temperature

is below 40 F.

The suction and discharge pressure levels should now move to

their normal start-up levels.

Do not rapid-cycle the compressor. Allow 5 minutes between

‘‘on’’ cycles to prevent compressor damage.

NOTE: When the compressor is rotation in the wrong direction,

the unit makes an elevated level of noise and does not provide

cooling.

CHECKING COOLING CONTROL OPERATION

Step 3—Refrigerant Charge

Start and check the unit for proper cooling control operation as

follows:

Refrigerant Charge — Amount of refrigerant charge is listed on

unit nameplate and in Table 1. Refer to Carrier Refrigerant Service

Techniques Manual, Refrigerants section. Unit panels must be in

place when unit is operating during charging procedure. Unit must

operate a minimum of 15 minutes before checking charge.

1. Place room thermostat SYSTEM switch in OFF position.

Observe that blower motor starts when FAN switch is placed

in ON position and shuts down within 30 seeconds when FAN

switch is placed in AUTO position.

NO CHARGE

2. Place SYSTEM switch in COOL position and FAN switch in

AUTO position. Set cooling control below room temperature.

Observe that compressor, outdoor fan, and indoor blower

motors start and that reversing valve shifts. Observe that

cooling cycle shuts down when control setting is satisfied.

Reversing valve (RV) remains energized.

Refer to Carrier Refrigerant Service Techniques. Use standard

evacuating techniques. After evacuating system, weigh in the

specified amount of refrigerant (refer to Table 1).

LOW CHARGE COOLING

Using cooling charging chart (see Fig. 16–21),Vary refrigerant

until conditions of the chart are met. Note that charging chart is

different from those normally used. Charts are based on charging

the units to the correct superheat for the various operating

conditions. An accurate pressure gage and temperature-sensing

device is required. Connect the pressure gauge to the service port

on the suction line. Connect temperature sensing device to the

suction line near the compressor and insulate it so that outdoor

ambient temperature does not affect reading.

3. Place system switch in HEAT position. Observe that compres-

sor, indoor fan and outdoor fan energize (Reversing Valve is

deenergized in heat pump heating mode). Set control above

room temperature. Observe that heating cycle shuts down

when control setting is satisfied.

4. When using an automatic changeover room thermostat, place

both SYSTEM and FAN 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).

TO USE THE COOLING CHARGING CHART

This method is to be used in cooling mode only. Take the outdoor

ambient temperature and read the suction pressure gauge. Refer to

C01022

Fig. 15A—Typical Unit Electrical Diagram (208/230–1–60)

charts to determine what the suction temperature should be. If HEATING MODE CHARGE

suction temperature is high, add refrigerant. If suction temperature

is low, carefully recover some of the charge. Recheck the suction

pressure as charge is adjusted.

Do not attempt to adjust charge by cooling methods while in heat

pump heating mode. Recover refrigerant and weigh in according to

unit data plate refrigerant data.

Example: (See Fig. 16)

Step 4—Indoor Airflow and Airflow Adjustments

Outdoor Temperature —85°F

Suction Pressure—74 psig

Suction Temperature should be—60°F

Note—Suction Temperature may vary +/- 5°F.

NOTE: For cooling operation, the recommended airflow is 350 to

450 cfm per each 12,000 Btuh of rated cooling capacity.

Table 4 shows dry coil air delivery for horizontal discharge units.

Tables 5-7 show pressure drops.

BRN (COMMON)

VIO (STEP 2)

WHT ( STEP 1)

CONTACTOR 2

BRN

YEL

BLK

YEL

UNIT POWER

WIRING

YEL

FUSE BLOCK

CONTACTOR 1

AUTO-LIMIT

EL 1

EL 2

EL 3

YEL

BLK

BRN

YEL

BLK

YEL

C00014

Fig. 15B—Accessory Electric Heater Wiring

NOTE: Be sure that all supply- and return-air grilles are open,

free from obstructions, and adjusted properly.

Connect the black lead to the IFR. Insulate the purple lead to avoid

contact with any chassis parts. ON 3–Speed Motors: remove the

fan motor speed leg lead from the indoor (indoor) fan relay (IFR)

and replace with lead for desired blower motor speed.

Disconnect electrical power to the unit and install lockout tag

before changing blower speed. Electrical shock can cause

serious injury or death.

Step 5—Unit Controls

All compressors have the following internal-protection controls.

HIGH-PRESSURE RELIEF VALVE

Airflow can be changed by changing the lead connections of the

blower motor.

This valve opens when the pressure differential between the low

and high side becomes excessive (024 size has temperature relief

only).

Units 50ZH024, 036, 048, and 060 blower motors are factory

wired for low speed operation. Units 50ZH030 and 042 are factory

wired for medium speed operation.

LOSS OF CHARGE SWITCH

Located on the outdoor liquid line is a low-pressure switch which

functions as a loss-of-charge switch. This switch contains a

Schrader core depressor. This switch opens at 7 psig and closes at

22 psig. No adjustment is necessary.

FOR 208/230-V

The motor leads are color-coded as follows:

3-SPEED

2-SPEED

black = high speed

COMPRESSOR OVERLOAD

black = high speed

blue = medium speed

red = low speed

This overload interrupts power to the compressor when either the

current or internal temperature become excessive, and automati-

cally resets when the internal temperature drops to a safe level.

This overload may require up to 60 minutes (or longer) to reset;

therefore, if the internal overload is suspected of being open,

disconnect the electrical power to the unit and check the circuit

through the overload with an ohmmeter or continuity tester.

red = low speed

To change the speed of the indoor fan motor (IFM), remove the fan

motor speed leg lead from the indoor fan relay (IFR) with units

024, 030, 042, 048 & 060 or the time delay relay (TDR) on 036

size and replace with lead for desired blower motor speed. Insulate

the removed lead to avoid contact with chassis parts.

Step 6—Sequence of Operation

FOR 460-V MOTORS

FAN OPERATION

The motor leads are color coded as follows:

The FAN switch on the thermostat controls indoor fan operation.

When the FAN switch is placed in the ON position, the IFR

(indoor-fan relay) is energized through the G terminal on the

thermostat. The normally-open contacts close, which then provide

power to the indoor (evaporator) fan motor (IFM). The IFM will

run continuously when the FAN switch is set to ON.

3-SPEED (060 ONLY)

black = high speed

2-SPEED

black = to purple

yellow = line

orange = medium speed

blue = low speed

purple = to black

red = line

When the FAN switch is set to AUTO, the thermostat deenergizes

the IFR (provided there is not a call for cooling). The contacts open

and the IFM is deenergized. The IFM will be energized only when

there is a call for cooling, in heat pump heating mode or if the unit

is equipped with accessory electric heat, the indoor-fan motor will

also run while the accessory electric heat is energized.

To change the speed of the indoor fan motor (IFM) from low speed

to high speed, remove the red lead from the indoor-fan relay (IFR).

ON 2–Speed Motors: Insulate the red lead to avoid contact with

any chassis parts. Separate the black lead from the purple lead.

→

Table 3—Electrical Data—50ZH

VOLTAGE

RANGE

UNIT 50ZH

SIZE

(–SERIES, IF

USED)

COMPRESSOR

ELECTRIC HEAT

SINGLE POINT POWER SUPPLY

OFM

FLA

IFM

FLA

V-PH-HZ

FUSE OR

CKT BKR

MIN

MAX

RLA

11.4

LRA

56.0

Nominal KW*

FLA

MCA

MOCP

-/-

17.6/17.6

40.4/43.6

51.2/56.7

62.7/69.7

25/25

45/45

60/60

3.8/5.0

5.6/7.5

7.5/10.0

18.3/20.8

26.9/31.3

36.1/41.7

024–311

024–321

208/230–1–60

187

254

0.9

2.4

70/70

-/-

18.4/18.4

41.3/44.4

52.1/57.6

63.6/70.6

25/25

45/45

60/60

—

3.8/5.0

5.6/7.5

7.5/10.0

18.3/20.8

26.9/31.3

36.1/41.7

187

254

12.1

14.4

10.0

17.7

54.0

73.0

63.0

93.0

70/80

-/-

21.9/21.9

44.8/47.9

55.5/61.0

67.0/74.0

89.8/100.0

30/30

45/50

60/–

—

–/70

70/80

90/110

3.8/5.0

5.6/7.5

7.5/10.0

11.3/15.0

18.3/20.8

26.9/31.3

36.1/41.7

54.2/62.5

208/230–1–60

208/230–3–6

208/230–1–60

1.5

2.4

5.8

2.8

–

030

-/-

16.8

—

3.8/5.0

7.5/10.0

11.3/15.0

10.4/12.0

20.8/24.1

31.3/36.1

29.9/31.8

42.8/46.9

56.1/61.9

35/35

45/50

60/–

–/70

-/-

26.4/26.4

49.3/52.4

60.1/65.6

74.6/78.6

94.3/104.6

35/35

50/60

—

70/70

80/80

100/110

3.8/5.0

5.6/7.5

7.5/10.0

11.3/15.0

18.1/20.8

26.9/31.3

36.1/41.7

54.2/62.5

-/-

18.6/18.6

31.7/33.6

44.6/48.7

57.8/63.7

25/25

35/35

45/50

60/-

—

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

208/230–3–60

460–3–60

187

414

254

508

11.4

5.7

77.0

39.0

1.5

0.8

2.8

2.0

–/70

—

6.0

12.0

18.0

9.9

—

17.4

24.9

32.4

-/-

31.8/31.8

54.7/57.8

65.4/70.9

76.9/83.9

99.7/109.9

121.9/135.9

40/40

60/60

—

70/80

80/90

100/110

125/150

3.8/5.0

5.6/7.5

7.5/10.0

11.3/15.0

15/20

18.3/20.8

26.9/31.3

36.1/41.7

54.3/62.5

72.1/83.3

208/230–1–60

187

254

22.0

103.0

1.5

2.8

—

-/-

21.7/21.7

34.8/36.7

47.7/51.8

60.9/66.8

73.4/81.6

30/30

35/40

50/50

—

70/70

80/90

3.8/5.0

7.5/10.0

11.3/15.0

15/20

10.5/12.0

20.8/24.1

31.4/36.1

41.4/47.9

042

048

060

208/230–3–60

460–3–60

187

414

254

508

13.9

6.8

88.0

44.0

1.5

0.8

2.8

2.0

—

6.0

12.0

18.0

24.1

11.3

18.8

26.3

33.8

41.4

—

-/-

33.0/33.0

55.8/59.0

66.6/72.1

78.1/85.1

100.8/111.1

123.1/137.1

40/40

60/60

—

70/80

80/90

110/125

125/150

3.8/5.0

5.6/7.5

7.5/10.0

11.3/15.0

15/20

18.3/20.8

26.9/31.3

36.1/41.7

54.2/62.5

72.2/83.3

208/230–1–60

187

254

21.8

124.0

1.5

4.2

—

-/-

21.7/21.70

34.8/36.7

47.7/51.8

61.0/66.8

73.5/81.6

25/25

35/40

50/60

—

70/70

80/90

3.8/5.0

7.5/10.0

11.3/15.0

15/20

10.5/12.0

20.8/24.1

31.4/36.1

41.4/47.9

208/230–3–60

460–3–60

187

414

254

508

12.8

6.4

93.0

46.5

1.5

0.8

4.2

—

6.0

12.0

18.0

24.1

10.9

18.4

25.9

33.4

40.8

—

3.8/5

5.6/7.5

7.5/10

11.3/15

15.0/20

—

43.9/43.9

66.8/69.9

77.6/83.1

89.1/96.1

111.8/122.1

134.1/148.1

60/60

—

70/70

80/90

90/100

125/125

150/150

18.3/20.8

26.9/31.3

36.1/41.7

54.3/62.5

72.1/83.3

230–1–60

187

254

27.7

170.0

3.1

6.2

—

-/-

3.8/5.0

7.5/10.0

11.3/15.0

14.9/19.9

-/-

29.2/29.2

42.3/44.2

55.2/59.3

68.4/74.3

80.9/89.1

35/35

45/45

60/60

—

70/80

90/90

10.5/12.0

20.8/24.1

31.4/36.1

41.4/47.9

208/230–3–60

460–3–60

187

414

254

508

15.9

8.0

124.0

59.6

3.1

1.5

6.2

3.2

—

19.9

—

6.0

12.0

18 .0

23.9

14.7

22.2

29.7

37.2

44.6

—

(See legend following Electrical Data charts)

EXAMPLE: Supply voltage is 460-3-60.

AB = 452 v

BC = 464 v

AC = 455 v

LEGEND

FLA

LRA

MCA

— Full Load Amps

— Locked Rotor Amps

— Minimum Circuit Amps

452 + 464 + 455

Average Voltage =

1371

MOCP — Maximum Overcurrent Protection

RLA

CKT BKR

— Rated Load Amps

—

Circuit Breaker

= 457

NOTES:

Determine maximum deviation from average voltage.

(AB) 457 452 = 5 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. Canadian units may be

fuse or circuit breaker.

(BC) 464 457 = 7 v

(AC) 457 455 = 2 v

Maximum deviation is 7 v.

2. Minimum wire size is based on 60 C copper wire. If other than

60 C wire is used, or if length exceeds wire length in table,

determine size from NEC.

Determine percent of voltage imbalance.

% Voltage Imbalance = 100 x

3. Unbalanced 3-Phase Supply Voltage

457

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.

= 1.53%

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

C99024

758 110

OUTDOOR TEMP

^OF

^OC

683 100

621 90

552 80

683 100

OUTDOOR TEMP

115 46

^OF

^OC

115 46

105 41

95 35

85 29

75 24

65 18

55 13

621 90

552 80

105 41

95 35

85 29

75 24

65 18

483 70

414 60

483 70

414 60

55 13

345 50

276 40

345 50

276 40

207 30

-1

SUCTION LINE TEMPERATURE ( F)

10 16 21 27

SUCTION LINE TEMPERATURE ( C)

Fig. 17—Cooling Charging Chart, 50ZH030^C00163

C00162

Fig. 16—Cooling Charging Chart, 50ZH024 Units

NOTE: Some units are equipped with a time-delay relay. On

these units, the indoor fan remains on for 30 seconds after G or Y

is deenergized.

When the need for cooling has been satisfied, the OFM, compres-

sor, and IFM (FAN on AUTO) are deenergized. If the unit is

equipped with a 30-second delay (036 size only), the indoor fan

will remain energized for 30 seconds after the compressor is

deenergized. The reversing valve solenoid remains energized.

COOLING

With the thermostat subbase in the cooling position, the thermostat

makes circuit R-O. This energizes the reversing valve solenoid

(RVS) and places the unit in standby condition for cooling.

HEAT PUMP HEATING

On a call for heat, thermostat makes circuits R-Y and R-G. When

compressor time delay (5-minute ± 2 minutes) is completed, a

circuit is made to C, starting COMP and OFM. Circuit R-G also

energizes IFR and starts IFM after 1-second delay.

NOTE: The defrost control board has a 5 minute compressor

anti-short cycle time delay built in between compressor starts.

On a call for cooling, the compressor contactor (C) and the IFR are

energized through the Y and G terminals of the thermostat.

Energizing the compressor contactor supplies power to the com-

pressor and the outdoor (condenser) fan motor (OFM). Energizing

the IFR provides power to the IFM.

Should room temperature continue to fall, circuit R-W is made

through second-stage thermostat bulb. If optional electric heat

package is used, a relay is energized, bringing on first bank of

758 110

683 100

621 90

552 80

683 100

621 90

552 80

OUTDOOR TEMP

^OF ^OC

OUTDOOR TEMP

^OF ^OC

115 46

105 41

115 46

105 41

95 35

85 29

95 35

85 29

75 24

65 18

75 24

65 18

55 13

483 70

414 60

483 70

414 60

55 13

345 50

276 40

345 50

276 40

207 30

-1

SUCTION LINE TEMPERATURE ( F)

10 16 21 27

SUCTION LINE TEMPERATURE ( C)

C00164

C00166

Fig. 18—Cooling Charging Chart, 50ZH036 Units

Fig. 20—Cooling Charging Chart, 50ZH048 Units

758 110

OUTDOORTEMP

^OF

^OC

683 100

621 90

552 80

OUTDOOR TEMP

^OF

^OC

115 46

105 41

115 46

621 90

552 80

105 41

95 35

85 29

75 24

85 29

75 24

65 18

55 13

65 18

55 13

483 70

414 60

483 70

414 60

345 50

276 40

345 50

276 40

207 30

-1

SUCTION LINE TEMPERATURE ( F)

10 16 21 27

SUCTION LINE TEMPERATURE ( C)

C00165

C00167

Fig. 19—Cooling Charging Chart, 50ZH042 Units

Fig. 21—Cooling Charging Chart, 50ZH060 Units

supplemental electric heat. When thermostat is satisfied, contacts

open, deenergizing contactor and relay; motors and heaters deen-

ergize. The IFM may be controlled by a time-delay relay that keeps

the fan on for 30 seconds.

ELECTRIC RESISTANCE HEATING

If accessory electric heaters are installed, on a call for “Emergency

Heat” the thermostat energizes W which energises the heater relay

and in turn energizes the electric heaters. The IFR is energized

which starts the indoor-fan motor. If the heaters are staged, W2 is

energized when the second stage of heating is required. When the

need for heating is satisfied, the heater and IFM are deenergized.

DEFROST

Defrost board (DB) is a time and temperature control, which

includes a field-selectable time period between checks for defrost

(30, 50 and 90 minutes). The time period is factory-set at 30

minutes and should only be adjusted by a trained service person.

Electronic timer and defrost cycle start only when contactor is

energized and defrost thermostat (DFT) is closed.

MAINTENANCE

To ensure continuing high performance, and to reduce the possi-

bility of premature equipment failure, periodic maintenance must

be performed on this equipment. This cooling unit should be

inspected at least once each year by a qualified service person. To

troubleshoot cooling of units, refer to Troubleshooting chart in

back of book.

Defrost mode is identical to Cooling mode. The outdoor fan motor

stops because of “OF1” and “OF2” contacts opening on the defrost

board, a bank of optional electric heat turns on to warm air

supplying the conditioned space.

NOTE TO EQUIPMENT OWNER: Consult your local dealer

about the availability of a maintenance contract.

Disconnect and tag electrical power to the unit before

removing top. Failure to adhere to this warning could cause

serious injury or death.

The ability to properly perform maintenance on this equip-

ment 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 User’s Manual. FAILURE

TO HEED THIS WARNING COULD RESULT IN SERI-

OUS INJURY, DEATH OR DAMAGE TO THIS EQUIP-

MENT.

Only qualified service personnel should perform maintenance and

service procedures that require unit top removal.

Refer to the following top removal procedures:

1. Remove 7 screws on unit top cover surface. (Save all screws.)

2. Remove 2 screws on unit top cover flange. (Save all screws.)

3. Lift top from unit carefully. Set top on edge and make sure

that top is supported by unit side that is opposite duct (or

plenum) side.

The minimum maintenance requirements for this equipment are as

follows:

4. Carefully replace and secure unit top to unit, using screws

removed in Steps 1 and 2, when maintenance and/or service

procedures are completed.

1. Inspect air filter(s) each month. Clean or replace when

necessary.

2. Inspect indoor coil, outdoor coil, drain pan, and condensate

drain each cooling and heating season for cleanliness. Clean

when necessary.

Step 3—Indoor Blower and Motor

For longer life, operating economy, and continuing efficiency,

clean accumulated dirt and grease from the blower wheel and

motor annually.

3. Inspect blower motor and wheel for cleanliness each cooling

and heating season. Clean when necessary. For first heating

season, inspect blower wheel bimonthly to determine proper

cleaning frequency.

4. Check electrical connections for tightness and controls for

proper operation each cooling season. Service when neces-

sary.

Disconnect and tag electrical power to the unit before

cleaning the blower wheel. Failure to adhere to this warning

could cause serious injury or death.

5. Check the drain channel in the top cover periodically for

blockage (leaves, insects). Clean as needed.

To clean the blower wheel:

1. Access the blower assembly as follows:

a. Remove top access panel.

Failure to follow these warnings could result in serious injury

or death:

b. Remove 3 screws that hold blower orifice ring to blower

housing. Save screws.

1. Turn off electrical power to the unit and install lockout tag

before performing any maintenance or service on the unit.

2. Use extreme caution when removing panels and parts. As

with any mechanical equipment, personal injury can result

from sharp edges, etc.

c. Loosen setscrew(s) which secure wheel to motor shaft.

2. Remove and clean blower wheel as follows:

a. Lift wheel from housing. When handling and/or cleaning

blower wheel, be sure not to disturb balance weights (clips)

on blower wheel vanes.

3. Never place anything combustible either on, or in contact

with, the unit.

b. Remove caked-on dirt from wheel and housing with a

brush. Remove lint and/or dirt accumulations from wheel

and housing with vacuum cleaner, using a soft brush

attachment. Remove grease and oil with a mild solvent.

Step 1—Air Filter

NOTE: Never operate the unit without a suitable air filter in the

return-air duct system. Always replace the filter with the same size

as originally installed. See Table 1 for recommended filter sizes

c. Reassemble blower into housing. Place upper orifice ring

on blower to judge location of the blower wheel. Blower

wheel should be approximately 0.2-in. below bottom of

orifice ring when centered correctly. Be sure setscrews are

tightened on motor and are not on round part of 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 or whenever the filters become clogged with

dust and lint.

Replace filters with the same dimensional size and type as

originally provided, when necessary.

d. Set upper orifice ring in place with 3 screws removed in

step 1.

Step 2—Unit Top Removal (Outdoor-Coil Side)

e. Replace top access panel.

NOTE: When performing maintenance or service procedures that

require removal of the unit top, be sure to perform all of the routine

maintenance procedures that require top removal, including coil

inspection and cleaning, and condensate drain pan inspection and

cleaning.

Step 4—Outdoor Coil, Indoor Coil, and Condensate

Drain Pan

Inspect the outdoor coil, indoor coil, and condensate drain pan at

least once heating and cooling season. Proper inspection and

cleaning requires the removal of the unit top. See Unit Top

Removal section above.

Remove all obstructions (including weeds and shrubs) that inter-

fere with the airflow through the outdoor coil. Straighten bent fins

with a fin comb. If coated with dirt or lint, clean the coils with a

vacuum cleaner, using a soft brush attachment. Be careful not to

bend the fins. If coated with oil or grease, clean the coils with a

Table 4—Dry Coil Air Delivery* Horizontal Discharge

(Deduct 10 percent for 208 Volt Operation)

230 AND 460 VOLT

External Static Pressure (in. wg)

Unit

024

Motor Speed

Low

Watts/CFM

0.1

288

875

390

1131

528

1391

288

875

390

1131

528

1891

450

1231

470

1302

660

1700

478

1303

481

1310

0.2

285

820

383

1090

520

1338

285

820

383

1090

520

1338

435

1218

450

1264

635

1660

458

1270

468

1280

798

1736

0.3

282

0.4

279

734

369

978

495

1200

279

734

369

978

495

1200

400

1120

410

1163

575

1450

411

1179

438

1181

647

1618

760

1841

0.5

274

668

360

917

480

1115

274

668

360

917

480

1115

380

1008

388

1081

540

1297

378

1126

404

1110

618

1510

730

1757

0.6

268

582

350

830

460

1018

268

582

350

830

460

1018

335

950

359

940

505

1190

350

1022

370

1022

578

1421

688

1682

0.7

261

478

340

721

450

920

261

478

340

721

450

920

326

863

338

873

485

1095

327

911

338

943

540

1309

650

1564

0.8

0.9

Watts

Cfm

802

Watts

Cfm

378

Med

1038

510

Watts

Cfm

High

Low

1285

282

Watts

Cfm

802

Watts

Cfm

378

030

036

Med

1038

510

Watts

Cfm

High

Low

1285

420

Watts

Cfm

311

751

321

783

460

999

317

816

320

811

500

1187

600

1429

1204

445

Watts

Cfm

Med

1205

610

Watts

Cfm

High

Low

1581

440

Watts

Cfm

1224

450

Watts

Cfm

042 †

048 †

060 †

Med

1241

678

Watts

Cfm

460

1060

570

1333

High

Low

1688

801

Watts

Cfm

1898

Watts

Cfm

Med

Watts

Cfm

870

842

1903

790

1762

950

1960

958

2122

818

1799

735

1703

890

1901

896

2052

782

1718

680

1640

835

1855

840

1926

696

1625

580

1415

790

1752

800

1791

632

1446

480

1159

650

1468

691

1588

628

1365

422

950

580

1121

575

1202

High

Low

2000

810

Watts

Cfm

890

1834

1040

2230

1073

2230

850

1820

1018

2102

1038

2202

1791

1000

2025

1001

2160

Watts

Cfm

Med

Watts

Cfm

High

† 460-v motors are 2-speed.

Air delivery values are based on operating voltage of 230-v. or 460-v., dry coil, without filter or electric heater. Deduct wet coil, filter, and electric heater pressure drops

to obtain external static pressure availabe for ducting.

Do not operate the unit at a cooling airflow that is less than 350 cfm for each 12,000 Btuh of rated cooling capacity. Evaporator coil frosting may occur at airflows below

this point.

Dashes indicate portions of the table that are beyond the blower motor capacity or are not recommended.

mild detergent-and-water-solution. Rinse coils with clear water,

using a garden hose. Be careful not to splash water on motors,

insulation, wiring or air filter(s). For best results, spray outdoor-

coil fins from inside to outside the unit. On units with an outer and

inner outdoor coil, be sure to clean between the coils. Be sure to

flush all dirt and debris from the unit base.

Step 5—Outdoor Fan

Keep the Outdoor fan free from all obstructions to ensure

proper cooling operation. Never place articles on top of the

unit. Damage to unit may result.

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 tube with

clear water. Do not splash water on the insulation, motor, wiring,

or air filter(s). If the drain tube is restricted, clear it with a

‘‘plumbers snake’’ or similar probe device. Ensure that the

auxiliary drain port above the drain tube is also clear.

1. Shut off unit power supply and install lockout tag.

2. Remove outdoor-fan assembly (grille, motor, motor cover,

and fan) by removing screws and flipping assembly onto unit

top cover.

3. Loosen fan hub setscrews.

4. Adjust fan height as shown in Fig. 21 or 22.

5. Tighten setscrews.

6. Replace outdoor-fan assembly.

Table 5—Wet Coil Pressure Drop

3.125 in.

UNIT SIZE

AIRFLOW

(CFM)

PRESSURE DROP

50ZH

(IN. WG)

0.02

0.05

0.06

0.07

0.06

0.08

0.07

0.09

0.11

0.12

0.04

0.06

0.08

0.09

0.07

0.08

0.09

0.07

0.08

0.09

0.10

600

700

024

800

C00021

900

Fig. 21—Outdoor-Fan Adjustment (024–048 Size)

900

030

036

1000

1200

1000

1200

1400

1600

1000

1200

1400

1600

1400

1600

1800

1700

1800

2100

2300

042

048

060

0.708in.

C02017

Fig. 22—Outdoor-Fan Adjustment (060 Size)

operating cycle, or if a suspected malfunction has occurred, check

each electrical component with the proper electrical instrumenta-

tion. Refer to the unit wiring label when making these checkouts.

NOTE: Refer to the Sequence of Operation section, as an aid in

determining proper control operation.

Step 7—Refrigerant Circuit

Table 6—Filter Pressure Drop (in. wg)

Inspect all refrigerant tubing connections and the unit base for oil

accumulations annually. Detecting oil generally indicates a refrig-

erant leak.

UNIT

SIZE

50ZH

FILTER

CFM

SIZE

(IN.)

500 600 700 800 900 1000 1100 1200 1300 1400

If oil is detected or if low cooling 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. (See Table of Contents for page

number.)

024-042 24 x 24 0.06 0.07 0.08 0.08 0.09 0.09 0.09 0.10 0.11 0.12

048, 060 24 x 30

0.08 0.09

UNIT

SIZE

50ZH

FILTER

SIZE

(IN.)

CFM

If no refrigerant leaks are found and low cooling performance is

suspected, refer to Refrigerant Charge. (See Table of Contents for

page number.)

1500 1600 1700 1800 1900 2000 2100 2200 2300

024-042 24 x 24 0.14 0.15

048,060 24 x 30 0.10 0.11 0.12 0.13 0.14 0.15 0.16 0.17 0.18

Step 8—Indoor Airflow

The cooling airflow does not require checking unless 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. When necessary, refer to Indoor

Airflow and Airflow Adjustments section to check the system

airflow.

Table 7—Accessory Electric Heat Pressure Drop

(in. wg)

CFM

HEATER KW

600 800 1000 1200 1400 1600 1800 2000 2200

5-20

0.06 0.08 0.10 0.13 0.15 0.18 0.20 0.23 0.25

Step 9—Metering Devices

Step 6—Electrical Controls and Wiring

Refrigerant metering devices are fixed orifices and are located in

the inlet header to the indoor and outdoor coils.

Inspect and check the electrical controls and wiring annually. Be

sure to turn off the electrical power to the unit and install lockout

tag.

Check valves are also located in the liquid lines near the strainers.

The check valves are the smaller of the two components.

Remove the top 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, restrip the

wire end and reassemble the connection properly and securely.

Step 10—Lubrication

COMPRESSOR—The compressor is charged with the correct

amount of oil at the factory.

FAN MOTOR BEARINGS—Fan motor bearings are perma-

nently lubricated. No further lubrication of outdoor or indoor fan

motors is required.

Check to ensure no wires are touching refrigerant tubing or sharp

sheet metal edges. Move and secure wires to isolate from tubing

and sheet metal edges.

Step 11—Liquid Line Strainer

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

The liquid line strainer (to protect metering device) is made of wire

mesh and is located in the liquid line on the inlet side of the

metering device.

OUTDOOR COIL

INDOOR COIL

LCS

Check Valves

STRAINER

Open

Closed

Open

Closed

LEGEND

LCS

Loss of Charge Switch

Acutrol Metering Device

Check Valve (Arrow indicates direction of flow)

HEATING CYCLE

1. Hot gas from compressor flows through the 4-way valve and is

directed to the cooling liquid line check valve. It is then condensed

and directed through subcooling circuits and out to the strainer

and the check valve in the heating liquid line.

2. The refrigerant then feeds the outdoor coil through the Acutrol

metering device on each circuit.

3. Each circuit evaporates the refrigerant and the circuits are com-

bined in the outdoor header with some of the circuits flowing through

the check valve.

4. The refrigerant then flows through the 4-way valve, accumulator,

and back to the compressor.

C95045

Fig. 23–Typical Heat Pump Operation, Heating Mode

Check valves are also located in the liquid lines near the strainers.

The Strainers are the larger of the two components.

Step 12—High Flow Valves

Located on the compressor hot gas and suction tubes are High

Flow Valves. Large black plastic caps distinguish these valves

with O-rings located inside the caps. These valves can not be

accessed for service in the field. Ensure the plastic caps are in

place and tight or the possibility of refrigerant leakage could occur.

OUTDOOR COIL

INDOOR COIL

LCS

Check Valves

STRAINER

Closed

Open

Closed

Open

LEGEND

LCS

Loss of Charge Switch

Acutrol Metering Device

Check Valve (Arrow indicates direction of flow)

COOLING CYCLE

1. Hot gas from compressor flows through the 4-way valve and is

directed to the heating liquid line check valve. It is then con-

densed and subcooled through converging circuits. Refrigerant leaves

the outdoor coil by way of the strainer and the check valve in the

cooling liquid line.

2. The refrigerant then feeds the indoor coil through the Acutrol

metering device on each circuit.

3. Each circuit evaporates the refrigerant and the circuits are com-

bined in the indoor coil header with some of the circuits flowing

through the check valve.

4. The refrigerant then flows through the 4-way valve, accumulator,

and back to the compressor.

C95044

Fig. 24–Typical Heat Pump Operation, Cooling Mode

Balance Point Worksheet

80000

70000

60000

50000

40000

30000

20000

10000

024

030

036

042

048

060

-10

Outdoor Air Temp (Deg F)

C01038

Fig. 25–50ZH Balance Point Chart

Table 8—Troubleshooting—Cooling and Heating

SYMPTOM

CAUSE

REMEDY

Power Failure

Loss of Charge

Switch open

Call power company

Evaluate unit for possible refrigerant leak

Replace fuse or reset circuit breaker

Replace component

Fuse blown or circuit breaker tripped

Defective thermostat, contractor, transformer, or

control relay

Compressor and outdoor fan will not start.

Insufficient line voltage

Incorrect or faulty wiring

Determine cause and correct

Check wiring diagram and rewire correctly

Lower thermostat setting below room tempera-

ture

Thermostat setting too high

Faulty wiring or loose connections in compressor

circuit

Check wiring and repair or replace

Compressor motor burned out, seized, or internal

overload open

Determine cause

Replace compressor

Compressor will not start but outdoor fan

runs.

Defective run/start capacitor, overload, start relay

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

Recover refrigerant, evacuate system, and re-

charge to capacities shown on nameplate

Refrigerant overcharge or undercharge

Loss of Charge

Switch open

Evaluate unit for possible refrigerant leak

Defective compressor

Insufficient line voltage

Replace and determine cause

Determine cause and correct

Compressor cycles

(other than normally satisfying thermostat).

Blocked outdoor coil (cooling)

Defective run/start capacitor, overload or start

relay

Determine cause and replace

Defective thermostat

Faulty outdoor-fan motor or capacitor

Restriction in refrigerant system

Dirty air filter

Replace thermostat

Replace

Locate restriction and remove

Replace filter

Unit undersized for load

Thermostat set too low

Decrease load or increase unit size

Reset thermostat

Low refrigerant charge

Locate leak, repair, and recharge

Replace compressor

Leaking valves in compressor

Compressor operates continuously.

Frosted outdoor coil with incorrect

defrost operation (heating)

Check defrost time settings. Reset as necessary.

Check defrost temperature switch. Replace as necessary.

Recover refrigerant, evacuate system, and re-

charge

Air in refrigerant system

outdoor coil dirty or restricted

Dirty air filter

Clean coil or remove restriction

Replace filter

Dirty outdoor coil

Clean coil

Refrigerant overcharged

Recover excess refrigerant

Excessive head pressure.

Recover refrigerant, evacuate system, and re-

charge

Air in refrigerant system

Outdoor or indoor air restricted

or air is recirculating

Determine cause and correct

Low refrigerant charge

Compressor valves leaking

Restriction in liquid tube

High heat load

Check for leaks, repair and recharge

Replace compressor

Head pressure too low.

Remove restriction

Check for source and eliminate

Replace compressor

Excessive suction pressure.

Compressor valves leaking

Refrigerant overcharged

Dirty air filter (cooling)

Recover excess refrigerant

Replace Filter

Low refrigerant charge

Check for leaks, repair, and recharge

Remove source of restriction

Metering device or low side restricted

Increase air quantity

Check filter- replace if necessary

Suction pressure too low.

Insufficient indoor airflow (cooling)

Temperature too low in conditioned area (cooling)

Outdoor ambient below 40°F (cooling)

Field-installed filter-drier restricted

Reset thermostat

Install low-ambient kit

Replace

Compressor runs but

outdoor fan does not.

Normally closed contacts on

defrost board open

Check condition of relay on board.

Replace board if necessary.

START-UP CHECKLIST

(REMOVE AND STORE IN JOB FILE)

I. PRELIMINARY INFORMATION

Model No .............................................................................................................................................................

Serial No ..............................................................................................................................................................

Date ......................................................................................................................................................................

Technician ...........................................................................................................................................................

Customer Information(Name/Address) ...........................................................................................................................................................

II. PRE-START-UP

____ Verify that all packing materials have been removed from unit

____ Verify that condensate connection is installed per installation instructions

____ Check all electrical connections and terminals for tightness

____ Check wire proximity to refrigerant tubes and sheet metal edges

____ Check that indoor (indoor) air filter is clean and in place

____ Verify that unit installation is level

____ Check fan wheel propeller for location in housing and setscrew tightness

III. START-UP

Supply Voltage: L1-L2 __________ L2-L3 __________ L3-L1 __________

Compressor Amps: L1(C) __________ L2(S) __________ L3(R) __________

Indoor Fan Amps: __________ Outdoor Fan Amps: __________

TEMPERATURE-Cooling Mode

Outdoor Air Temperature: __________ DB ____________WB

Return-Air Temperature: __________ DB __________ WB

Cooling Supply Air: __________DB___________WB

PRESSURES-Cooling Mode

Refrigerant Suction __________ psig

Suction Line Temp* ___________

Refrigerant Discharge __________ psig

Discharge Temp†__________

TEMPERATURE-Heating Mode

Outdoor Air Temperature: __________ DB ____________WB

Return-Air Temperature: __________ DB __________ WB

Cooling Supply Air: __________DB___________WB

PRESSURES-Heating Mode

Refrigerant Suction __________ psig

Suction Line Temp* ___________

Refrigerant Discharge __________ psig

Discharge Temp†__________

____ Verify Refrigerant charge using charging tables

____ Verify that 3-phase scroll compressor is rotating in correct direction.

*Measured at suction inlet to compressor

†Measured at liquid line leaving outdoor coil

50zh5si

Manufacturer reserves the right to discontinue, or change at any time, specifications or designs without notice and without incurring obligations.

Book

Tab

PC 101

Catalog No. 535-00080

Printed in U.S.A.

Form 50ZH-5SI

Pg 24

7-03

Replaces: 50ZH-4SI

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