Carrier Air Conditioner 38HDL018 060 User Manual

38HDL018-060

Light Commercial Condensing Units

Installation, Start-Up and

Service Instructions

CONTENTS

Page

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

INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7

Step 1 — Complete Pre-Installation

Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

• UNPACK UNIT

COOLING

• INSPECT SHIPMENT

• CONSIDER SYSTEM REQUIREMENTS

Step 2 — Rig and Mount Unit . . . . . . . . . . . . . . . . . 3

• MOUNTING ON GROUND

• MOUNTING ON ROOF

• RIGGING

Step 3 — Complete Refrigerant Piping

Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3

• CHECK ACCURATER௡ CONTROL

• MAKE PIPING SWEAT CONNECTIONS

• PROVIDE SAFETY RELIEF

Fig. 1 — 38HDL Condensing Unit

Step 4 — Make Electrical Connections . . . . . . . . 4

• POWER WIRING

• CONTROL CIRCUIT WIRING

• CONNECTIONS TO DUCT-FREE

FAN COIL UNITS

Before installing or servicing system, always turn off

main power to system. There may be more than one dis-

connect switch. Turn off accessory heater power if

applicable. Electrical shock can cause personal injury.

Step 5 — Accessory Installation . . . . . . . . . . . . . . 4

START-UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7

SERVICE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-9

MAINTENANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10

TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . 11

Step 1 — Complete Pre-Installation Checks

UNPACK UNIT — Move unit to ﬁnal location. Remove car-

ton from unit, being careful not to damage service valves or

grilles.

INSPECT SHIPMENT — File claim with shipping com-

pany if shipment is damaged or incomplete. Check unit name-

plate to ensure unit matches job requirements.

SAFETY CONSIDERATIONS

Install and servicing air-conditioning equipment can be haz-

ardous due to system pressure and electrical components. Only

trained and qualiﬁed service personnel should install or serv-

ice air-conditioning equipment

Untrained personnel may perform basic maintenance such

as cleaning and replacing ﬁlters. All other operations should

be performed by trained service personnel. When working

on air-conditioning equipment, observe safety precautions in

literature, and on tags and labels attached to unit.

Follow all safety codes. Wear safety glasses and work

gloves. Use quenching cloth for brazing operations. Have a

ﬁre extinguisher available. Read these instructions thor-

oughly. Consult local building codes and National Electrical

Code (NEC, U.S.A. Standard) for special installation

requirements.

CONSIDER SYSTEM REQUIREMENTS — Consult

local building codes and NEC for special installation

requirements.

Allow sufficient space for airﬂow clearance, wiring,

refrigerant piping, and servicing unit. See Fig. 1 and 2. Unit

can be mounted on a level pad directly on base legs or

mounted on raised pads at support points. See Fig. 2 for cen-

ter of gravity.

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

Book 1 PC 111 Catalog No. 563-899 Printed in U.S.A. Form 38HDL-1SI Pg 1 9-98 Replaces: New

Tab 3a 2a

OPERATING

WEIGHT

UNIT

SIZE

38HDL

ft-in.

2-1¹⁄8

ft-in.

018

024

030

036

048

060

638.2 3-0¹⁵⁄16

938.2 1-2⁹⁄16 369.9 1-4

1131.9 1-5¹⁄16 433.4 1-6⁷⁄16 468.3 2- 6¹⁄2

406.4 1-11⁷⁄16 595.3 1-5³⁄16 436.6 1-5¹⁄2 444.5 1-8¹⁄8

511.2 1-1

330.2 0-6⁵⁄8 168.3 0-11¹⁄4 285.8 0-0⁵⁄8 15.88 130

330.2 0-6³⁄4 171.5 0-11⁵⁄8 295.3 0-0⁵⁄8 15.88 136

330.2 0-6³⁄4 171.5 0-11⁵⁄8 295.3 0-0³⁄4 19.05 161

330.2 0-6³⁄4 171.5 0-11⁵⁄8 295.3 0-0³⁄4 19.05 185

58.9

61.6

73.0

83.9

100.5

112.9

3-1³⁄16 944.6 3-8⁹⁄16

774.7 1-7⁵⁄8

498.5 2-5⁵⁄8 752.5 2-8³⁄16 817.6 1-1⁷⁄8

352.4 0-8¹⁄4 209.5 0- 4

406.4 0-0⁷⁄8 22.22 222

498.5 2-5⁵⁄8 752.5 2-8³⁄16 817.6 1-1¹¹⁄16 347.7 0-8¹⁄8 206.4 0- 3⁷⁄8 403.2 0-0⁷⁄8 22.22 249

MINIMUM MOUNTING PAD DIMENSIONS

UNIT SIZE

Support Feet

Snow Stand

Ice Stand

ft-in. mm

38HDL

ft-in.

018,024,030

and 036

1-11 x 3-6 584.2 x 1066.8 2-2 x 3-6 660.4 x 1066.8 2-2 x 3-6 660.4 x 1066.8

048 and 060 2- 0 x 4-2 609.6 x 1270.0 2-4 x 4-4 711.2 x 1270.0 2-2 x 4-2 660.4 x 1270.0

NOTES:

1. Required clearances: With coil facing wall, allow 6Љ (156.4 mm) minimum clearance on coil side and

coil end, and 3 ft (914.4 mm) minimum clearance on compressor end and fan side. With fan facing

wall, allow 8Љ (203.2 mm) minimum clearance on fan side and coil end, and 3 ft (914.4 mm) minimum

clearance on compressor end and coil side. With multi-unit application, arrange units so discharge of

one does not enter inlet of another.

2. Dimensions in parenthesis are in millimeters.

3. Center of gravity

Fig. 2 — 38HDL018-060 — Dimensional Drawing

with a wet cloth, the tubing set can be brazed to the service

valve using either silver bearing or non-silver bearing braz-

ing material. Consult local code requirements. Refrigerant

tubing and indoor coil are ready for leak testing.

in compliance with NEC (U.S.A. Standard) and applicable

local codes. Use minimum 60 C wire for ﬁeld power

connection.

Route power wires through opening in the unit side panel

and connect in unit control box as shown on unit label dia-

gram and Fig. 5 and 6. Unit must be grounded.

NOTE: Unit is shipped with R-22 full factory charge indi-

cated on nameplate.

CONTROL CIRCUIT WIRING — Control voltage is 24 v.

See Fig. 5 and unit label diagram for ﬁeld-supplied wiring

details. Route control wire through opening in the unit side

panel to connection in unit control box.

Pass nitrogen or other inert gas through piping while braz-

ing to prevent formation of copper oxide.

NOTE: For wire runs up to 50 ft (15 m), use no. 18 AWG

(American Wire Gage) insulated wire (35 C minimum). For

50 to 75 ft (15 to 23 m), use no. 16 AWG insulated wire. For

more than 75 ft (23 m), use no. 14 AWG insulated wire. See

Table 2 for conversion to European wire sizes.

To avoid damage while brazing, service valves should

be wrapped in a heat-sinking material such as a wet cloth.

NOTE: Operation of unit on improper line voltage consti-

tutes abuse and could affect Carrier warranty. See Table 3.

Do not install unit in system where voltage may ﬂuctuate

above or below permissible limits.

When brazing tubing sets to the service valves, a braz-

ing shield must be used to prevent damage to the painted

unit surface.

See Table 3 for recommended fuse sizes. When making

electrical connections, provide clearance at unit for refrig-

erant piping connections.

PROVIDE SAFETY RELIEF — A fusible plug is located in

unit suction line; do not cap this plug. If local code requires

additional safety devices, install as directed.

Use indoor unit transformer as 24-v (40-va minimum)

supply for system as shown in Fig. 5 or use accessory

Step 4 — Make Electrical Connections

Unit cabinet must have an uninterrupted, unbroken elec-

trical ground to minimize the possibility of personal

injury if an electrical fault should occur. This ground

may consist of electrical wire connected to the unit ground

lug in control compartment, or conduit approved for

electrical ground when installed in accordance with

NEC, ANSI/NFPA (American National Standards

Institute/National Fire Protection Association) 70 (U.S.A.

Standards), and local electrical codes. Failure to follow

this warning could result in the installer being liable for

personal injury to others.

Unit failure as a result of operation on improper line

voltage or excessive phase imbalance constitutes

abuse and may cause damage to electrical components.

Such operation will invalidate any applicable Carrier

warranty.

POWER WIRING — Unit is factory-wired for voltage shown

on nameplate. Provide adequate, fused disconnect switch within

sight of unit, readily accessible but out of reach of children.

Provision for locking the switch open (off) is advisable to

prevent power from being turned on while unit is being ser-

viced. Disconnect switch, fuses, and ﬁeld wiring must be

Table 1A — Physical Data (English)

UNIT 38HDL

018

18,000

130

024

24,000

136

030

30,000

161

036

36,000

185

048

48,000

222

060

60,000

249

NOMINAL CAPACITY (Btuh)

UNIT OPERATING WEIGHT (lb)

COMPRESSOR

Type

Hermetic

Copeland

Scroll

ZR18KC-PFV

25/21

Copeland

Scroll

ZR24KC-PFV

25/21

Copeland

Scroll

Tecumseh

Reciprocating

AV5535G

54/50

Copeland

Scroll

ZR47KC-PFV

42/38

Copeland

Scroll

ZR57KC-PFV

56/52

Model

Oil (oz) Initial/Recharge

ZR28KC-PFV

38/34

OUTDOOR FAN

Rpm

Propeller Type, Direct Drive, Horizontal

850

Diameter (in.)...No. of Blades

Fan Pitch (Deg)

Motor Hp

18...3

24...3

⁄

⁄4

Nominal Airﬂow (Cfm)

1720

3900

OUTDOOR COIL

Face Area (sq ft)...No. of Rows

Fins per in.

Copper Tube, Aluminum Plate Fin

6.1...1

6.1...1.5

6.1...2

12.3...1.5

12.3...1.75

CONTROLS PRESSURESTAT

SETTINGS

Low Pressure

Cutout (psig)

7 ± 3

22 ± 5

210 F

Cut-In (psig)

Fusible Plug

NOTE: Line sizes are for runs up to 25 feet.

Table 1B — Physical Data (SI)

UNIT 38HDL

018

5.3

024

7.0

030

8.8

036

10.5

83.9

048

14.1

060

17.6

NOMINAL CAPACITY (kW)

UNIT OPERATING WEIGHT (kg)

COMPRESSOR

58.9

61.6

73.0

100.6

112.9

Hermetic

Type

Copeland

Scroll

ZR18KC-PFV

.74/.62

Copeland

Scroll

ZR24KC-PFV

.74/.62

Copeland

Scroll

ZR28KC-PFV

1.13/1.00

Tecumseh

Reciprocating

AV5535G

Copeland

Scroll

ZR47KC-PFV

1.25/1.13

Copeland

Scroll

ZR57KC-PFV

1.66/1.54

Model

Oil (L) Initial/Recharge

1.60/1.48

OUTDOOR FAN

R/s

Propeller Type, Direct Drive, Horizontal

14.2

457...3

14.2

457...3

14.2

457...3

14.2

457...3

14.2

610...3

14.2

610...3

Diameter (mm)...No. of Blades

Fan Pitch (Deg)

Motor kW

.13

.09

812

.09

.19

Nominal Airﬂow (L/s)

812

1840

OUTDOOR COIL

Copper Tube, Aluminum Plate Fin

Face Area (m )...No. of Rows

.57...1

.57...1.5

.57...2

1.14...1.5

1.14...1.75

Fins per mm

CONTROLS PRESSURESTAT

SETTINGS

Low Pressure

Cutout (kPa)

48 ± 21

152 ± 34

99 C

Cut-In (kPa)

Fusible Plug

NOTE: Line sizes are for runs up to 7.6 m.

LEGEND

*The IFR and IFM are located in indoor unit on heating-cooling

applications. If accessory IFR is required for cooling-only applic-

tions, locate (IFR) in fan coil.

—

Contactor (12-va)

Heating Control

Indoor-Fan Motor

Indoor-Fan Relay

Transformer

IFM

IFR

TRANS

NOTE: Refer to unit wiring label for wire colors: BRN to BLU and C

to Y connections.

Field Wiring

Factory Wiring

Fig. 5 — Typical Control Circuit Connections

LEGEND

NEC

—

National Electrical Code

Terminal Board

TB Connections

Field Wiring

Factory Wiring

Fig. 6 — Line Power Connections

Table 2 — American/European Wire Conversions

SERVICE

AMERICAN

EUROPEAN

Industry

Standard

Size

American

Industry

Standard

Conversion

(mm)

Before performing recommended maintenance, be

sure unit main power switch is off. Failure to do so may

result in electrical shock or injury from rotating fan blade.

Size (mm )

18 AWG

16 AWG

14 AWG

12 AWG

10 AWG

8 AWG

0.82

1.30

1.0

1.5

2.08

2.5

3.30

4.0

Outdoor Fan — A reinforced wire mount holds the out-

door fan assembly in place. See Fig. 7 for proper mounting

positions.

5.25

6.0

6.36

10.0

16.0

25.0

—

6 AWG

13.29

21.14

26.65

33.61

42.39

53.49

67.42

85.00

107.19

4 AWG

3 AWG

2 AWG

35.0

50.0

—

70.0

95.0

120.0

1 AWG

1/0 AWG

2/0 AWG

3/0 AWG

4/0 AWG

250 kcmil

300 kcmil

350 kcmil

400 kcmil

500 kcmil

600 kcmil

126.64

151.97

177.90

202.63

253.29

303.95

150.0

—

185.0

240.0

300.0

—

DIMENSIONS — in. (mm)

38HDL018

38HDL024-036

38HDL048-060

LEGEND

American Wire Gage

Thousand Circular Mils

0.433 (11)

0.709 (18)

0.16 (4)

AWG

kcmil

—

Fig. 7 — Condenser Fan Mounting Positions

High-Pressure Relief Valve — Valve is located in

compressor. Relief valve opens at a pressure differential of

approximately 450 ± 50 psig (3100 ± 345 kPa) between suc-

tion (low side) and discharge (high side) to allow pressure

equilization.

START-UP

Preliminary Checks

1. Check that all internal wiring connections are tight and

that barriers, covers, and panels are in place.

2. Make certain ﬁeld electrical power source agrees with unit

nameplate rating.

3. Open all service valves.

Internal Current and Temperature Sensitive Over-

load — Control resets automatically when internal com-

pressor motor temperature drops to a safe level (overloads

may require up to 45 minutes to reset). When an internal

overload is suspected of being open, check by using an ohm-

meter or continuity tester. If necessary, refer to Carrier Stand-

ard Systems Techniques Manual, Chapter 2, for complete

information.

Leak Test — Field piping and fan coil must be leak tested

by pressure method described in Carrier Standard Service

Techniques Manual, Chapter 1, Section 1-6. Use R-22 at

approximately 25 psig (172 kPa) backed up with an inert gas

to a total pressure not to exceed 245 psig (1690 kPa).

Pumpdown Procedure — The system may be pumped

down in order to make repairs on low side without losing

complete refrigerant charge.

To pumpdown:

1. Attach pressure gage to suction service valve gage port.

2. Frontseat the liquid line valve.

Evacuate and Dehydrate — Field piping and fan coil

must be evacuated and dehydrated by either of the methods

described in Carrier Standard Service Techniques Manual,

Chapter 1, Section 1-7.

Charge System — Release factory charge into sys-

tem by opening (backseating) liquid and suction line service

valves. Add charge amount as required for the total system.

Refer to separate indoor unit installation instructions for the

required total system charge when connected to the indoor

unit.

The 38HDL unit coils hold only the factory-designated

amount of refrigerant. Additional refrigerant may cause

units to relieve pressure through compressor inter-

nal pressure relief valve (indicated by sudden rise

of suction pressure) before suction pressure reaches

5 psig (34 kPa). If this occurs, shut off unit imme-

diately, then frontseat the suction valve and remove

and reclaim excess refrigerant following accepted

practice.

To Start Unit

NOTE: When using in conjunction with 40QAB, 40QKB,

or 40QNB fan coils, refer to start-up instructions included

with fan coil for correct start-up procedures.

Be sure that ﬁeld disconnect is closed. Set room thermo-

stat below ambient temperature. Operate unit for 15 min-

utes, then check system refrigerant charge. See Refrigerant

Charging section on page 8.

3. Start unit and run until suction pressure reaches 5 psig

(34 kPa).

4. Shut unit off and frontseat suction valve.

Unit compressor starts after a 5-minute delay if equipped

with accessory Time Guard௡ II device.

5. Depressurize low side of unit and recover refrigerant fol-

lowing accepted practice.

Table 3 — Electrical Data

OPERATIONAL

VOLTAGE*

COMPRESSOR

POWER SUPPLY

UNIT SIZE

38HDL

V-PH-Hz

Max Fuse† or HACR-Type

Min

Max

RLA

LRA

Fan FLA

MCA

Ckt Bkr Amps

018

024

030

036

048

060

10.7

13.2

15.7

14.2

24.3

28.6

47.0

59.0

.70

14.1

17.2

20.3

18.5

31.8

37.2

73.0

.70

208/230-1-60

LEGEND

Full Load Amps

Heating, Air Conditioning, Refrigeration

Locked Rotor Amps

187

254

86.7

.70

131.0

170.0

1.45

2. All motors and compressors contain internal overload protection.

3. In compliance with NEC (U.S.A. Standard) requirements for mul-

timotor and combination load equipment (refer to NEC Articles 430

and 440), the overcurrent protective device for the unit shall be

fuse or HACR breaker.

4. Motor RLA values are established in accordance with UL (Under-

writers’ Laboratories) Standard 465 (U.S.A. Standard).

FLA

HACR

LRA

MCA

NEC

RLA

—

Minimum Circuit Amps per NEC Section 430-24

National Electrical Code (U.S.A. Standard)

Rated Load Amps (Compressor)

*Permissible limits of the voltage range at which unit will operate

satisfactorily.

†Time-delay fuse.

NOTES:

1. Control circuit is 24 v on all units and requires an external power

source.

7. Replace retainer O-ring before reassembling AccuRater

device (O-ring part no. 99CC501052).

Low Pressure Switch — This switch, mounted on the

suction line, has ﬁxed non-adjustable settings. To check pres-

sure switch, attach pressure gage to suction service valve gage

port. Slowly close liquid shutoff valve and allow compres-

sor to pump down. Do not allow compressor to pump down

below 2 psig (14 kPa). Compressor should shut down when

suction pressure drops to cutout pressure in Tables 1A and

1B, and should restart when pressure builds up to cut-in pres-

sure shown after accessory CLO (compressor lockout) switch

has been reset and accessory Time Guard௡ II device has com-

pleted its timing cycle.

Refrigerant Charging

To prevent personal injury, wear safety glasses and gloves

when handling refrigerant. Do not overcharge system

— this can cause compressor ﬂooding.

NOTE: Do not vent or depressurize unit refrigerant to atmos-

phere. Remove and reclaim refrigerant following practice.

Service Valves — The service valves in the outdoor unit

come from the factory frontseated. This means the refrig-

erant charge is isolated from the line-set connection ports.

To prevent damage to the valve, use a wet cloth or other

acceptable heat sink material on the valve before brazing.

The service valves must be backseated (turned counter-

clockwise until seated) before the service port caps can be

removed and the hoses of the gage manifold connected. In

this position, refrigerant has access from the through out-

door and indoor unit. The service valve cannot be ﬁeld re-

paired; only a complete valve or valve stem seal and service

port caps are available for replacement.

SUPERHEAT METHOD (COOLING, NON-TXV) — To

check and adjust charge during cooling season, use Tables

4A-5B and the following procedure:

1. Operate unit a minimum of 15 minutes before checking

charge.

2. Measure suction pressure by attaching a gage to suction

valve service port.

3. Measure suction line temperature by attaching a service

thermometer to unit suction line near suction valve. In-

sulate thermometer for accurate readings.

4. Measure outdoor coil inlet-air dry bulb temperature with

a second thermometer.

5. Measure indoor coil inlet-air wet bulb temperature with

a sling psychrometer.

6. Refer to Tables 4A and 4B. Find air temperature enter-

ing outdoor coil and wet-bulb temperature entering

indoor coil. At this intersection, note the superheat

temperature.

AccuRaterா (Bypass Type) Device — See Fig. 4

for bypass type AccuRater device components. The piston

has a refrigerant metering hole through it. The retainer forms

a stop for the piston in the refrigerant bypass mode and a

sealing surface for liquid line ﬂare connection. To check, clean

or replace piston:

1. Shut off power to unit.

2. Pump down using Pumpdown Procedure section on

page 7.

7. Refer to Tables 5A and 5B. Find superheat temperature

3. Remove liquid line ﬂare connection from AccuRater

device.

4. Pull retainer out of body, being careful not to scratch flare

sealing surface. If retainer does not pull out easily, care-

fully use locking pliers to remove retainer.

5. Slide piston out by inserting a small soft wire, with small

kinks, through metering hole. Ensure metering hole, seal-

ing surface around piston cones, and ﬂuted portion of pis-

ton are not damaged.

6. Clean piston refrigerant metering hole.

SUBCOOLING METHOD (COOLING, TXV) — To check

and adjust charge during cooling season, use Tables 6A and

6B and the following procedure:

1. Operate unit a minimum of 15 minutes before checking

charge.

2. Measure liquid line temperature near liquid line service

valve, and measure liquid pressure at liquid line service

valve. Use a digital thermometer for all temperature

measurements. DO NOT use mercury or dial-type

thermometers.

3. Refer to Tables 6Aand 6B. Find temperature point at which

the required subcooling temperature intersects the mea-

sured liquid line pressure.

Table 5A — Required Suction-Tube Temperature (F)

— English (Entering Suction Service Valve)

SUCTION PRESSURE AT SERVICE PORT (psig)

61.5 64.2 67.1 70.0 73.0 76.0 79.2 82.4 85.7

35 36 39 41 43 45 47 49 51

37 39 41 43 45 47 49 51 53

39 41 43 45 47 49 51 53 55

41 43 45 47 49 51 53 55 57

43 45 47 49 51 53 55 57 59

45 47 49 51 53 55 57 59 61

47 49 51 53 55 57 59 61 63

49 51 53 55 57 59 61 63 65

51 53 55 57 59 61 63 65 67

53 55 57 59 61 63 65 67 69

55 57 59 61 63 65 67 69 71

57 59 61 63 65 67 69 71 73

59 61 63 65 67 69 71 73 75

61 63 65 67 69 71 73 75 77

63 65 67 69 71 73 75 77 79

65 67 69 71 73 75 77 79 81

67 69 71 73 75 77 79 81 83

69 71 73 75 77 79 81 83 85

71 73 75 77 79 81 83 85 87

73 75 77 79 81 83 85 87 89

75 77 79 81 83 85 87 89 91

SUPERHEAT

TEMP (F)

4. If the measured liquid line temperature does not agree

with the required liquid line temperature, ADD refriger-

ant to lower the temperature, or REMOVE refrigerant to

raise the temperature (allow a tolerance of ± 3 F).

Table 4A — Superheat Charging Table — English

(Superheat Entering Suction Service Valve)

INDOOR COIL ENTERING AIR (F) WB

OUTDOOR

TEMP (F)

50 52 54 56 58 60 62 64 66 68 70 72 74 76

12 14 17 20 23 26 29 32 35 37 40 42 45

10 12 15 18 21 24 27 30 33 35 38 40 43

6 10 13 16 19 21 24 27 30 33 36 38 41

7 10 13 16 19 21 24 27 30 33 36 39

9 12 15 18 21 24 28 31 34 37

8 12 15 18 21 25 28 31 35

8 11 15 19 22 26 30 33

Table 5B — Required Suction-Tube Temperature (C)

— SI (Entering Suction Service Valve)

9 13 16 20 24 27 31

6 10 14 18 22 25 29

SUCTION PRESSURE AT SERVICE PORT (kPa)

424 443 463 483 503 524 546 568 591

OUTDOOR

TEMP (C)

100

105

110

115

8 12 15 20 23 27

9 13 17 22 26

6 11 15 20 25

8 14 18 23

LEGEND

—

Wet Bulb

*Do not attempt to charge system under these conditions or refrig-

erant slugging may occur.

Table 4B — Superheat Charging Table — SI

(Superheat Entering Suction Service Valve)

INDOOR COIL ENTERING AIR (C) WB

OUTDOOR

TEMP (C)

10 11 12 13 14 16 17 18 19 20 21 22 23 24

9 11 13 14 16 18 19 21 22 23 25

8 10 12 13 15 17 18 19 21 22 24

9 11 12 13 15 17 18 20 21 23

9 11 12 13 15 17 18 20 22

8 10 12 13 16 17 19 21

8 10 12 14 16 17 19

8 11 12 14 17 18

9 11 13 15 17

8 10 12 14 16

8 11 13 15

9 12 14

8 11 14

8 10 13

LEGEND

—

Wet Bulb

*Do not attempt to charge system under these conditions or refrig-

erant slugging may occur.

COMPRESSOR — Compressor contains factory oil charges;

replace oil when lost. See Tables 1A and 1B for oil recharge

and refer to Carrier Standard Service Techniques Manual,

Chapter 1, pages 1 to 21 for oil recharging procedure. See

Table 7 for recommended compressor oils.

MAINTENANCE

Before performing recommended maintenance, be sure

unit main power is off. Failure to do so may result in

electrical shock or injury from rotating fan blades.

Cleaning Coils — Coil should be washed out with wa-

ter or blown out with compressed air. Note that the blow-

thru design causes dirt and debris to build up on the inside

of the coils.

Clean coil annually or as required by location and outdoor

air conditions. Inspect coil monthly and clean as required.

Fins are NOT continuous through coil sections. Dirt and de-

bris may pass through the ﬁrst section, become trapped be-

tween the rows of ﬁns, and restrict condenser airﬂow. Use a

ﬂashlight to determine if dirt or debris has collected between

coil sections. Clean coil as follows:

Lubrication

FAN-MOTOR BEARINGS — Oiling holes are provided at

each end of the condenser-fan motor. Remove fan motor and

lubricate motor with 32 drops (16 drops per hole) of SAE-10

(Society of Automotive Engineers) non-detergent oil at in-

tervals described below:

• Annually, when environment is very dirty, ambient tem-

perature is higher than 105 F (40 C), and average unit op-

erating time exceeds 15 hours a day, or

• Every three years, when environment is reasonably clean,

ambient temperature is less than 105 F (40 C), and unit

operating time averages 8 to 15 hours per day, or

• Every 5 years when environment is clean, ambient tem-

perature is less than 105 F (40 C), and unit operating time

averages less than 8 hours per day.

1. Turn off unit power.

2. Use a garden hose or other suitable equipment to ﬂush

coil from the outside to remove dirt. Be sure to ﬂush all

dirt and debris from drain holes in the base of unit. Fan

motors are waterproof.

Table 6A — Required Liquid Line Temperature (F) — English (At Service Valve)

LIQUID PRESSURE AT SERVICE VALVE (PSIG)

REQUIRED

SUBCOOLING (F)

134 141 148 156 163 171 179 187 196 205 214 223 233 243 253 264 274 285 297 309 321 331 346 359

100 103 106 109

112

115

110

118

113

121 124 127 130 133 136 139 142 145

98 101 104 107

116

111

119

117

122 125 128 131 134 137 140

120 123 126 129 129 132 135

99 102 105 108

97 100 103 106 109

112

98 101 104 107

93 96

115

110

118

113

121 124 127 130

116

111

119

114

122 125

117 120

99 102 105 108

Table 6B — Required Liquid Line Temperature (C) — SI (At Service Valve)

LIQUID PRESSURE AT SERVICE VALVE (PSIG)

REQUIRED

SUBCOOLING (C)

911 969 1030 1061 1121 1186 1219 1286 1360 1397 1471 1547 1588 1671 1755 1800 1885 1976 2026 2125 2222 2264 2379 2475

Table 7 — Recommended Compressor Oils

UNIT 38HDL

RECOMMENDED

OIL

018

024

030

036

048

060

3GS

Calumet RO-15

Sontex 200LT

•

TROUBLESHOOTING CHART — COOLING CYCLE

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

Book 1

PC 111

Catalog No. 563-899

Printed in U.S.A.

Form 38HDL-1SI

Pg 12

9-98

Replaces: New

Tab 3a 2a

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