Carrier 38MVQ009, 38MVQ012, 38MVQ018, 38MVQ024, 38MVC009 Installation Instructions Manual

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Installation Instructions

TABLE OF CONTENTS

PARTS LIST ....................................... 2

SAFETY CONSIDERATIONS ......................... 3

GENERAL ......................................... 3

SYSTEM REQUIREMENTS .......................... 3

DIMENSIONS ...................................... 4

SERVICE VALVE LOCATIONS ........................ 4

CLEARANCES ..................................... 5

INSTALLATION TIPS ............................... 6

INDOOR UNIT INSTALLATION ....................... 6

OUTDOOR UNIT INSTALLATION ..................... 7

INSTALL ALL POWER AND INTERCONNECTING WIRING

TO OUTDOOR UNIT .............................. 8-9

INSTALL ALL POWER, INTERCONNECTING WIRING,

AND PIPING TO INDOOR UNIT ..................... 10

REMOTE CONTROL INSTALLATION ................. 10

SYSTEM VACUUM AND CHARGE ................... 11

START-UP ........................................ 12

TROUBLESHOOTING .............................. 13

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to the Expertg

®

PAGE

NOTE: Read the entire instruction manual before starting the
installation.

Part
No.

Name of Part

1 Mounting Plate
2 Mounting Screw ST3.9x25-C-H
3 Anchor
4 Remote Control

5 Remote Control Holder
6 Mounting Screw B ST2.0xlO-C-H

PARTS LIST

Qty No.

1 1
8 2

8 3
1 4

1 5
2 6

Part

Name of Part Qty

Mounting Plate 1
Mounting Screw A ST3.9x25-C-H 8

Anchor 8

Remote Control 1
Remote Control Holder 1
Mounting Screw B ST2.0xlO-C-H 2

Remote Control

Mounting screw B

ST2.9X10-C-H

Remote control holder

Remote control

Remote control holder

Air Inlet

__ Air Inlet

Air outlet

f

Loop the

connecting Loop the connectinc Removethewater receiverfirst

cab e. cable, beforeconnectngthe pipes.

A07334a

Fig. 1 - 40MVC,MVQ/38MVC,MVQ009-012

Parts List

Fig. 2 - 40MVC, MVQ/38MVC,MVQ018-024

Parts List

Note:

- If the outdoor unit is higher than the indoor unit, prevent rain from flowing into the indoor unit along the connection pipe by making a downward arc in the
connection pipe before it enters the wall to the indoor unit. This will ensure that rain will drip from the connection pipe before it enters the wall.

- The illustration above is only a sketch. Different models may be slightly different.

A07335a

SAFETY CONSIDERATIONS

Installing, starting up, and servicing air-conditioning equipment
can be hazardous due to system pressures, electrical components,
and equipment location (roofs, elevated structures, etc.).

Only trained, qualified installers and service mechanics should
install, start-up, and service this equipment.

Untrained personnel can perform basic maintenance flmctions such
as cleaning coils. All other operations should be performed by

trained service personnel.
When working on the equipment, observe precautions in the

literature and on tags, stickers, and labels attached to the
equipment.

Follow all safety codes. Wear safety glasses and work gloves. Keep
quenching cloth and fire extinguisher nearby when brazing. Use

care in handling, rigging, and setting bulky equipment.
Read these instructions thoroughly and follow all warnings or

cautions included in literature and attached to the unit. Consult
local building codes and National Electrical Code (NEC) for

special requirements. Recognize safety information. This is the

safety-alert symbol !_X. When you see this symbol on the unit and
in instructions or manuals, be alert to the potential for personal

injury.Understand these signal words: DANGER, WARNING, and
CAUTION. These words are used with the safety-alert symbol.

DANGER identifies the most serious hazards which will result in
severe personal injury or death. WARNING signifies hazards

which could result in personal injury or death. CAUTION is used
to identify unsafe practices which may result in nfinor personal

injury or product and property damage. NOTE is used to highlight
suggestions which will result in enhanced installation, reliability, or

operation.

ELECTRICALSHOCK HAZARD

Failure to follow this warning could result in personal
injury or death.

Before installing, modifying, or servicing system, main
electrical disconnect switch must be in the OFF

position. There may be more than 1 disconnect switch.
Lock out and tag switch with a suitable warning label.

EQUIPMENT DAMAGE HAZARD
Failure to follow this caution may result in equipment

damage or improper operation.
Do not bury more than 36 in. (914 ram) of refrigerant pipe

in the ground. If any section of pipe is buried, there nmst be

a 6 in. (152 ram) vertical rise to the valve connections on

the outdoor units. If more than the recommended length is
buried, refrigerant may nfigrate to the cooler buried section
during extended periods of system shutdown. This causes
refrigerant slugging and could possibly damage the
compressor at start-up.

GENERAL

These instructions cover the installation, start-up and servicing of
38MVC,MVQ outdoor and 40MVC, MVQ indoor units duct free
systems.

SYSTEM REQUIREMENTS

Allow sufficient space for airflow and servicing unit. See Fig. 3

and 4 for minimum required distances between unit and walls or

ceilings.

IMPORTANT: Both refrigerant lines must be insulated

separately.

• Minimum refrigerant line length between the indoor and outdoor

units is 10 ft. (3 m).
The following n_axinmm lengths are allowed:

REFRIGERANT LINELENGTHSR. (m)

Unit Size Max Line Length (ID over OD) (ODover ID)

9K 65 (20) 35 (11) 35 (11)
12K 65 (20) 35 (11) 35 (11)
18K 100(30) 50 (15) 50 (15)

24K 100(30) 60 (18) 60 (18)

The following are the piping sizes.

Unit Size

9K

12K
18K

24K

Refrigerant Charge

REFRIGERANT CHARGE lb. (kg)

Unit Size Air Conditioner Heat Pump

9K 2.3 (1.0) 2.4 (1.1)

12K 2.9 (1.3) 3.0 (1.4)
18K 4.4 (2.0) 4.5 (2.0)
24K 5.3 (2.4) 5.3 (2.4)

Above charge is for piping runs up to 25 ft. (7.6 m).

• For piping runs greater than 25 ft. (7.6 m), add 0.1 oz. of

refrigerant per foot of extra piping up to the allowable
length.

• Capillary tubes in outdoor unit are used as metering devices.
Connecting (Power and Control Cable)

• The main power is supplied to the outdoor unit. The field
supplied connecting cable from the outdoor unit to indoor unit

consists of four wires and provides the power for the indoor unit
as well as the communication signal between the outdoor and

indoor unit.
For 9K and 12K units, all four wires are low voltage DC.

For 18K and 24K, two wires are high voltage AC power, one is
pulse DC and one is a ground wire.

• Consult local building codes, NEC (National Electrical Code) or
CEC (Canadian Electrical Code) for special requirements.

Model Size MAX FUSE/CB

9k
12k
12k
18k
24k

Connecting Cable: Voltage drop on the connecting cable

should be kept to a nfininmm. Do not use thermostat wire. Use
cable size and max length below:

18AWG 50 Feet (16m)
16AWG 100Feet (33m)

MaxElevation Max Elevation

PIPE SIZES

Mix Phase

1/4"
1/4"

1/4"

3/8"

Power Source

115-1-60

208/230-1-60

Vapor

3/8"

1/2"
1/2"

5/8"

MIN CKTAMP

AMP

12/20
15/25

9/15

11/20
14/25

DIMENSIONS - INDOOR

Model Size in. (mm) in. (mm) in. (mm) Operating Weight Ib (kg)

9K 32.09 (815) 11.02 (280) 7.68 (195) 17.6 (8)

12K 35.67 (906) 11.26 (286) 9.25 (235) 25.3 (11.5)
18K 49.21 (1250) 12.80 (325) 9.06 (230) 39.6 (18)

24K 49.21 (1250) 12.80 (325) 9.06 (230) 39.6 (18)

DIMENSIONS - OUTDOOR

D

A07336

W H D

i ,_======_i

I IH==

lllll

W

L1

I r========4._| _ m

4-

_k

solb L.

Model Size in. (mm) in. (mm) in. (mm) in. (mm) in. (mm) Ib (kg)

9K 30.71 (780) 21.26 (540) 21.61 (549) 11.81 (300) 10.87 (276) 70.4 (32)

12K 29.92 (760) 23.23 (590) 20.87 (530) 12.40 (315) 11.42 (290) 79.2 (36)
18K 33.07 (840) 27.36 (695) 22.05 (560) 14.17 (360) 13.19 (335) 116.6 (53)

24K 35.00 (889) 33.50 (851) 23.11 (588) 13.98 (355) 13.11 (333) 149.6 (68)

SERVICE VALVE LOCATIONS

W H L1 L2 L3 Operating Weight

9K 12K 18K

24K

Cooling Only

A07337

Operating Weight

Ib (kg)

Heat Pumps

72.6 (33)

83.6 (38)

117.7 (53.5)
151 (68.5)

Service Valve Locations in. (mm) in. (mm) in. (mm) in. (mm)

J 3.46 (88) 3.19 (81) 3.46 (88) 4.02 (102)
K 3.46 (88) 5.63 (143) 3.62 (92) 6.57 (167)

..... I1_tl .....

IK IIIt_]j K

A07376a

9K 12K 18K 24K

CLEARANCES - INDOOR

CLEARANCES - OUTDOOR

CEILING

J-6"(0.15m!._mi n.

/

6' (i8m)

FLOOR

A07891

Fig. 3 - Indoor unit clearance

IA

C

Air-outle

UNIT 9k and 12k in. (mm) 18k and 24k in. (mm)

A 24 (610) 24 (610)

B 24 (610) 36 (914)

C 24 (610) 24 (610)
D 6 (152) 6 (152)

E 12 (305) 12 (305)

Fig. 4 - Outdoor Unit Clearance

Air-inlet

A07894

INSTALLATION TIPS

Ideal installation locations include:
Indoor Unit

• A location where there areno obstacles near inlet and outlet area.

• A location which can bear the weight of indoor unit.

• Do not install indoor units near a direct source of heat such as
direct sunlight or a heating appliance.

• A location which provides appropriateclearances as outlined in
Fig. 3 (pg. 5).

Outdoor Unit

• A location which is convenient to installation and not exposed to
strong wind. If unit is exposed to strong winds it is

recommended that a wind bafi'le be used. Contact your Duct
Free Split representative for drawings.

• A location which can bear the weight of outdoor unit and where
the outdoor unit can be mounted in a level position.

• A location which provides appropriate clearances as outlined in
Fig. 4 (pg. 5).

• Do not install the indoor or outdoor units in a location with
special environmental conditions. For those applications, contact

your Duct Free Split representative.

INDOOR UNIT INSTALLATION

INSTALL MOUNTING PLATE

The mounting plate will look like one of the following depending

on model size:

_ 6"(152) rain. to ceiling

Indoor unit outline 23 50"(597)

Mounting Plate

1. Carefully remove the mounting plate, which is attached to
the back of the indoor unit.

2. The mounting plate should be located horizontally and level
on the wall. All minimum spacings shown in Fig. 3, 4, and

5 - 7 should be maintained.

3. If the wall is block, brick, concrete or similar material, drill
.2" (5 ram) diameter holes and insert anchors for the ap-

propriate mounting screws.

4. Attach the mounting plate to the wall.

DRILL HOLE IN WALL FOR INTERCONNECTING

PIPING, DRAIN AND WIRING
Refrigerant Line Routing

The refrigerant lines may be routed in any of the four directions
shown in Fig. 9.

For maximum serviceability, it is recommended to have refrigerant
line flare connections and the drain connections on the outside of

the wall that the fan coil can be mounted on.
If piping is going through the back:

1. Determine pipe hole position using the mounting plate as a
template. Drill pipe hole diameter per chart below. The

outside pipe hole is l/2-in. (13 mm) min. lower than inside
pipe hole, so it slants slightly downward (see Fig. 8).

,L

1/2 in. (13 ram)

Min.

,, 3.19' (81)

:r:2°lle2O°)wafl I .[31_ , 77_4: " ' "" " "2._'i

I I--I ,' _'_ ii '¢_ '"_---z_ "°' "_{ ) 3"54'11_1 t4°_/2al1120,'' ........

Left rear side J _ _ ;Ki :f ] _: _ ] _] Right rear side
refrigerant _ t,* _ I __ I j/. C-I ..]m_77Jl refrigerant
p,pe hole (_ 65 _-- 32._9' 7_ 57 ===_=_ p,pe h@e _ 65

1.77" 1.7/7"

(45) (45)

NOTE: Measurements in ( ) are in mm _6'(1.8 m) rain. to floor

Fig. 5 - Mounting Plate- Model size 009

I%%°o?......

Fig. 6 - Mounting Plate- Model size 012

6" (152) min from ceiling Hooked Part Hooked Part

492_,,!_2so)_F

]. 7 01" 3209" 815 10 12' (257} _Aou_![lg P!a!e

Above 472" (120) / :: Above 472" (120)

: &" _ 0 _ 95 : _ fromthewaII

...."_ .... _1_'_2_2,7 ',r_

A07338

A07339

INDOOR OUTDOOR

Fig. 8 - Drill Holes

Model Size

009, 012 2.75 (70)
018, 024 3.75 (95)

If piping is going through the right or left side:

1. Use a small saw blade to carefully remove the correspond-
ing plastic covering on side panel and drill the appropriate

size hole where the pipe is going through the wall.

Pipe holder

Pipe cover>

I

Right piping

Fig. 9 - Piping Locations

Hole Diameter

in. (mm)

/ Pipe cover

Left piping

J3 Left back piping

piping

Size 012

Only

A07371

A07344

228" (58)

6' (18 m) rain tofloor 217" (55)

Fig. 7 - Mounting Plate- Model sizes 018 - 024

A07340

OUTDOOR UNIT INSTALLATION

1. Use a rigid base to support unit in a level position.

NOTE: For applications requiring cooling with outdoor
temperatures below 55°F (13°C), a low ambient control

field-installed accessory is available. Consult the Installation
Instruction for the low ambient kit for further information.

If the installation location may be exposed to strong wind, use a
wind baffle. Check with your Carrier representative to obtain
drawings for wind baffles.

A07350

Fig. 10 - High Wind Installation

2. Locate outdoor unit and connect piping and wiring.

MAKE REFRIGERANT PIPING CONNECTIONS

(OUTDOOR UNIT)

IMPORTANT: Use refrigeration grade tubing ONLY. No
other type of tubing may be used. Use of other types of tubing

will void manufacturer's warranty.
Do not open service valves or remove protective c@s from tubing

ends until all the connections are made.
Bend tubing with bending tools to avoid kinks and fiat spots.

Keep the tubing free of dirt, sand, moisture, and other

contaminants to avoid damaging the refrigerant system.
Avoid sags in the suction line to prevent the formation of oil traps.

Insulate each tube with n_ininmm 3/8-in. (10 ram) wall thermal
pipe insulation. Inserting the tubing into the insulation before
making the connections will save time and improve installation
quality.

1. Remove service valve cover if provided with unit.

2. Cut tubing with tubing cutter. Remove service connection
if provided with unit.

3. Install correct size flare nut onto tubing and make flare con-
nection.

4. Apply a small amount of refrigerant oil to the flare connec-
tion on the tubing.

5. Properly align tubing in with service valve.

6. Tighten flare nut and finish installation using two wrenches
as shown in Fig. 11.

A07354

Fig. 11 - Tighten Flare Nut

EQUIPMENT DAMAGE HAZARD
Failure to follow this caution may result in equipment

damage or improper operation.
Excessive torque can break flare nut depending on

installation conditions.

INSTALLALL POWERANDINTERCONNECTINGWIRINGTOOUTDOORUNITS

1.

Mount outdoor power disconnect.

2.

Run power wiring from main box to disconnect per NEC
and local codes,

3.

Remove field wiring cover from unit by loosening screws,

4.

Remove caps on conduit panel.

5.

Connect conduit to conduit panel. (See Fig.12

6.

Properly connect both power supply and control lines to ter-
minal block per the connection diagram for the appropriate

unit capacity and voltage. (See Fig. 13, pg. 9.)

7.

Ground unit in accordance with NEC and local electrical
codes,

8.

Use lock nuts to secure conduit,

9.

Reinstall field wiring cover.

Outdoor unit

Terminal

EQUIPMENT DAMAGE HAZARD
Failure to follow this caution may result in equipment

damage or improper operation.

• Be sure to comply with local codes while running wire
from indoor unit to outdoor unit.

• Every wire must be connected firmly. Loose wiring may
cause terminal to overheat or result in unit malfunction.

A fire hazard may also exist, Therefore, be sure all wiring
is tightly connected.

• No wire should be allowed to touch refrigerant tubing,
compressor or any moving parts,

• Disconnecting means must be provided and shall be
located within sight and readily accessible from the air

conditioner.

• Connecting cable with conduit shall be routed through
hole in the conduit panel.

ELECTRICAL DATA

OPERATING

UNIT

SIZE

009

012

012

018 253/187
024

VOLTAGE

MAX/MIN

127/104

VOLTS- PH- HZ RLA LRA

115-1-60

208/230-1-60 7.3 32.6

Oker I

COMPRESSOR

7.5 40

9.9 47

5.2 21

9.7 34.8

Fig. 12 - Field Wiring

OUTDOOR FAN

FLA HP W

0.69 0.102 23

0.38 0.116 36

0.78 0.224 53

0.62 0.218 100

panel

A07455

INDOOR FAN MAX

VOLTS FLA HP W AMP

35 DC

35 DC 1.18 0.044 25 9 15

208/230-1-60

1.1 0.034 20 12 20

1.18 0.044 25 15 25

0.26 0.075 31 11 20

0.39 0.112 50 14 25

MCA FUSE/CB

CONNECTION DIAGRAMS

208/230 1 GO

FIELD POWER

SUPPLY

OUTDOOR TO INDOOR

_S CONNECTING CABLE 1

D

I NDOOR CONTROL

UNIT

UNIT POWER

SUPPLY CONTROL

:>O//_EATO [

208/2S0 1 60

208/230 I {i0

8K C}LT[}O0:_ UNIT _IGK 24K IN}OOF/ UNIT

151 GO

FIELD POWER

SU::>I:::>L Y

CONNECTING CABLE

OUTDOOR TO INDOOR

!}LPPLY :::}I GNAL

HAIN POWERI INDOOR UNIT !

[ 115 1 50 1 LOW VOLTAOE DC

9K 8 12K ]15V OUTDOOR UNIT

9K g 12K INDOOR k/NIT

208/230 1 80

FIELD POWER

SUPPLY

CONNECTING CABLE

OUTDOOR TO IN)OOA

m

INDOO_RUNIT

SIGNAL

!

LOW VOLTAOE )C

)K 208/230// OUTDOOR UNIT

Notes:

1. Do not use thermostat wire for any connection between indoor and outdoor units.

2. All connections between indoor and outdoor units must be as shown. The connections are sensitive to polarity.

3. On the 18k and 24k units, the "S" terminal "CONTROL' output is pulse DC with a potential AC voltage shock hazard.

Fig. 13 - Connection Diagrams

I I

12K IN OOR UNIT

A07654

INSTALL ALL POWER, INTERCONNECTING
WIRING, AND PIPING TO INDOOR UNIT.

1. Run interconnecting piping and wiring from outdoor unit to
indoor unit.

2. Run interconnecting cable through hole in wall (outside to
inside).

3. Lift indoor unit into position and route piping and drain
through hole in wall (inside to outside). Fit interconnecting

wiring into back side of indoor unit.

4. Put upper claw at back of indoor unit on upper hook of
Mounting Plate, move indoor unit from side to side to see

that it is securely hooked.

5. Open front cover of indoor unit and remove field wiring ter-
minal block cover.

6. Pull interconnecting wire up from back of indoor unit and
position in close to the terminal block on indoor unit.

7. Push lower part of indoor unit up on wall, then move in-
door unit from side to side, up and down to check if it is

hooked securely. (See Fig. 14.)

Upper hook

8. Connect wiring from outdoor unit per connection diagram
(see Fig. 13 and Fig. 15).

9. Replace field wiring cover and close front cover of indoor
unit.

10. Connect refrigerant piping and drain line outside of indoor
unit. Refer to Fig. 11 for proper installation of flare

connections. Complete pipe insulation at flare connection
then fasten piping and wiring to the wall as required. Com-
pletely seal the hole in the wall.

NOTE: For applications where gravity cannot be used for
drainage, a condensate pump accessory is available. Consult the
condensate pump Installation Instructions for more information.

REMOTE CONTROL INSTALLATION
Mounting Bracket (if installed on the wall)

1. Use the two screws supplied with control to attach Mount-
ing Bracket to wall in location selected by customer and

within operating range.

2. Install batteries in Remote Control.

3. Place Remote Control into remote control Mounting Brack-
et.

4. For remote control operation, refer to the unit Owner's
Manual.

Fig. 14 - Indoor Unit Installation

18k & 24k Terminalblocki .........

Tooutdoorunit

Fig. 15 - Control and Power Wiring on Indoor Unit

A07347a

9k & 12k

TerminN block ofindoor unit

Tu Outdoor Un}t

A07349a

10

UNITDAMAGEHAZARD
Failuretofollowthis caution may result in equipment

damage or improper operation.
Never use the system compressor as a vacuum pump.

Deep Vacuum Method
The deep vacuum method requires a vacuum pump capable of

pulling a vacuum of 500 microns and a vacuum gage capable of

accurately measuring this vacuum depth. The deep vacuum method

is the most
liquid water.

)ositive way of assuring a system is free of air and

See Fig. 18)

Refrigerant tubes and indoor coil should be evacuated using the
recommended deep vacuum method of 500 microns. The alternate

triple evacuation method may be used if the procedure outlined
below is followed. Always break a vacuum with dry nitrogen.

SYSTEM VACUUM AND CHARGE

Using Vacuum Pump

1. Completely tighten flare nuts A, B, C, D, connect manifold
gage charge hose to a charge port of the low side service

valve. (See Fig. 16.)

2. Connect charge hose to vacuum pump.

3. Fully open the low side of manifold gage. (See Fig. 17)

4. Start vacuum pump

5. Evacuate using either deep vacuum or triple evacuation
method.

6. After evacuation is complete, fully close the low side of
manifold gage and stop operation of vacuum pump.

7. The factory charge contained in the outdoor unit is good for
up to 25 ft. (8 m) of line length. For refrigerant lines longer
than 25 ft (8 m), add 0.1 oz. per foot of extra piping up to

the maximum allowable length.

8. Disconnect charge hose from charge connection of the low
side service valve.

9. Fully open service valves B and A.

10. Securely tighten caps of service valves.

Outdoor Unit Refrigerant Indoor Unit

I_ _T_& LowSide D_

2:_ B High Side

Service Valve

A07360

Fig. 16 - Service Valve

o)

Z
O

iv.
O

m

=;

0 1 2 3 4 5 6 7

MINUTES

Fig. 18 - Deep Vacuum Graph

LEAK IN
SYSTEM

VACUUM TIGHT

TOO WET
TIGHT

DRY SYSTEM

A95424

Triple Evacuation Method
The triple evacuation method should only be used when vacuum

pump is only capable of pumping down to 28 in, of mercury
vacuum and system does not contain any liquid water.

Refer to Fig, 19 and proceed as follows:

1. Pump system down to 28 in. of mercury and allow pump to
continue operating for an additional 15 minutes.

2. Close service valves and shut off vacuum pump.

3. Connect a nitrogen cylinder and regulator to system and
open until system pressure is 2 psig.

4. Close service valve and allow system to stand for 1 hr. Dur-
ing this time, dry nitrogen will be aMe to diffuse throughout

the system absorbing moisture.

5. Repeat this procedure as indicated in Fig. 19. System will
then be free of any contaminants and water vapor.

IEVACUATEI

lBREAK VACUUM WITH DRY NITROGEN I

Manifold Gage

Lo:002CvT:

High side valve

Charge hose

harge hose

_- Vacuum pump

Low side valve

Fig. 17 - Manifold

A07361

IEVACUATEI

IBREAKVACUUMWITHDRYNITROGE"I

IEVACUATEI

I CHECK FOR TIGHT, DRY SYSTEM I

(IF IT HOLDS DEEP VACUUM)

I RELEASE CHARGE INTO SYSTEM I

A95425

Fig. 19 - Triple Evacuation Method

Final Tubing Check
IMPORTANT: Check to be certain factory tubing on both indoor

and outdoor unit has not shifted during shipment. Ensure tubes are

not rubbing against each other or any sheet metal. Pay close

attention to feeder tubes, making sure wire ties on feeder tubes are

secure and tight.

11

START-UP

Test Operation
Perform test operation after completing gas leak and electrical

safety check. (See Fig., 20)

t [ ........................................................................................... J

_AUTO/COOL

Manual Button /

A07363

Fig. 21) - Test Operation

1. Push the "ON/OFF" button on Remote Control to begin
testing.

NOTE: A protection feature prevents air conditioner from being
activated for approximately 3 nfinutes.

2. Push MODE button, select COOLING, HEATING, FAN
mode to check if all functions work correctly.

3. When ambient temperature is lower than 63°F/17°C, the
unit cannot be controlled by Remote Control to run in cool-

ing mode. For this condition, manual operation must be
used.

(1.) Open front panel of the indoor unit;
(2.) Push the manual switch once to energize the unit.

4. Be sure to set manual switch to "OFF" (by pushing it
twice) after finishing test operation.

NOTE: For Heat Pumps, follow the same procedure.

SYSTEM CHECKS

1. Conceal the tubing where possible.

2. Make sure that the drain tube slopes downward along its en-
tire length.

3. Ensure all tubing and connections are properly insulated.

4. Fasten tubes to the outside wall, when possible.

5. Seal the hole through which the cables and tubing pass.

INDOOR UNIT

1. Do all Remote Control buttons function properly?

2. Do the display panel lights work properly?

3. Does the air deflection louver function properly?

4. Does the drain work?

OUTDOOR UNIT

1. Are there unusual noises or vibrations during operation?

Explain Following Items To Customer With The Aid Of The

Owner's Manual:

1. How to turn air conditioner on and off; selecting
COOLING, HEATING and other operating modes; setting
a desired temperature; setting the timer to automatically start

and stop air conditioner operation; and all other features of
the Remote Control and display panel.

2. How to remove and clean the air filter.

3. How to set air deflection louver.

4. Explain care and maintenance.

5. Present the Owner's Manual and installation instructions to
customer.

12

TROUBLESHOOTING

For ease of service, the systems are equipped with diagnostic code
display LEDs on both the indoor and outdoor units. The outdoor

diagnostic display is an LED on the outdoor unit board and is
limited to very few errors. However, it is useful in identifying

special error codes like a failure of the outdoor coil sensor on heat

LEDs on the display panel or the front of the unit. If possible,

always check the diagnostic codes displayed on the indoor unit

first.
The diagnostic codes for the indoor and outdoor units are listed in

the tables below.

pumps. The indoor diagnostic display is a combination of flashing

INDOOR UNIT DIAGNOSTIC GUIDES

9K & 12K Units

Operation Timer

Lamp Lamp Failure Mode

€_ X Indoor fan speed has been out of control for over 1 minute
€_ On Indoor room temp. or evaporator sensor is open circuit or short circuited

X €_ Compressor over-current protection has been activated four times

On €_ EEROM error

€_ €_ Indoor unit communication error (Illuminates simultaneously)

18K & 24K Units

Operation Timer Defrosting Auto

Lamp Lamp Lamp Lamp Failure Mode

€_ €_ €_ €_ Over-current protection of the compressor occurs four times

X €_ X X Indoor room temp. sensor isopen circuit or short circuited

€_ X X X Temp. sensor on indoor evaporator is open circuit or short circuited

X X €_ X Temp. sensor on outdoor condenser is open circuit or short circuited (not cooling

X X €_ €_ Outdoor unit protects (outdoor temp. sensor, phase order, etc.)
X €_ X €_ EEROM error

X X X €_ Indoor unit communication error

€_ = Flashing

X = Off

For additional diagnostic information, refer to the Service Manual.

only modes)

Infrared signal receptor

/

OPERATION AUTO TIMER

0 0 0

ECON PRE-DEF

o o o

HP Model size 009

* PRE-DEF light will illuminate when the unit is running in FAN ONLY mode on Cooling Only units.

Note: Cooling only units have same LED lights but without PRE-DEF print.

HP Model size 012

Infrared signal receptor

/

A07544

AUTO TIMER PRE.-DEF*OPERATION

A08483

HP Model size 018-024

Fig. 21 - LED Display Panel

OUTDOOR UNIT DIAGNOSTIC GUIDES

Flashing Diagnostic

Times after 2 Failure Mode

Second Off Chart

5 Communication failure 4 or 6
2 Condenser temperature sensor failure 2

1 Other indoor failure

If the unit is operating normally, the LED light on the outdoor board is lit continuously. If there is a failure, the LED light will flash a specific
number of times. Refer to the Outdoor Unit Diagnostic table above to determine failure.

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Copyright 2009 Carrier Corporation • 7310 W. Morris St. • Indianapolis, IN 46231 Printed in U.S.A. Edition Date: 02/09

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

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Catalog No: 38-40MV-6SI

Replaces: 36-40MV-5SI