SHARP AF-08CRL Diagram

SER VICE MANU AL

AIR CONDITIONER

AF-08CRL

S3211AF08CRL/

MODEL

In the interests of user-safety (Required by safety regulations in some
countries) the set should be restored to its original condition and only
parts identical to those specified should be used.

TABLE OF CONTENTS

SPECIFICATIONS ................................................................................................................................................ 2

WIRING DIAGRAM............................................................................................................................................... 3

EXTERNAL DIMENSIONS ................................................................................................................................... 4

HOW TO OPERATE ............................................................................................................................................. 5

INSTALLATIOIN INSTRUCTIONS ......................................................................................................................13

DISASSEMBLING PROCEDURE....................................................................................................................... 16

HOW TO REPAIR REFRIGERATION ................................................................................................................. 19

ELECTRICAL COMPONENT TEST .................................................................................................................... 21

MICROCOMPUTER CONTROL SYSTEM ..........................................................................................................22

TROUBLESHOOTING GUIDE ............................................................................................................................26

COOLING LOAD ESTIMATE FORM ...................................................................................................................31

RUNNING CONDITION .......................................................................................................................................33

PACKING AND ACCESSORIES ......................................................................................................................... 34

REPLACEMENT PARTS LIST ............................................................................................................................35

AF-08CRL

Page

SHARP CORPORATION This document has been published to be used for after

sales service only.
The contents are subject to change without notice.

1

AF-08CRL

SPECIFICATIONS

Models AF-08CRL
Cooling capacity BTU/h 8000
Moisture removal Pints/h 2.3

ELECTRICAL DATA

Phase Single
Rared frequency Hz 60
Rated voltage Volts 115
Rated current Amps 7.3
Rated input Watts 800
Power factor % 95
EER BTU/Wh 10.0

COMPRESSOR

Type (Hermetically sealed rotary type)
Model, Motor output

2R12S3R126A-6A, 600W

REFRIGERANT SYSTEM

Evaporator Louver fin, Grooved tube, 7mm, Hair pin
Condenser Louver fin, Grooved tube, 7mm, Hair pin
Control O.D. x I.D. x Length x Q'ty(mm) 2.7 x 1.2 x 450 x 1
(Capillary tube)
Refrigerant volume R-22(OZ) 15.9
(Factory change)

NET DIMENSIONS

Width Height Depth

inches(mm)

19-11/16(500) x 14-9/16(370) x 17-3/32(434)

Net Weight lbs 53

GROSS DIMENSIONS

Width Height Depth

inches(mm)

22-27/32(580) x 18-5/16(465) x 19-31/32(507)

Gross Weight lbs 60

FAN SYSTEM

Indoor side(Evaporator) Centrifugal fan
Outdoor side(Condenser) Propeller fan
Air flow rate(indoor side) CFM High / Med / Low

187 / 173 / 155

OTHERS

Safety devices Compressor: Overload relay

Fan motor: Internal thermal protector
Air filter Polypropylene net
Power cord length ft 6.0
Power plug type 125V, 10A

2

ELECTRICAL PARTS

Models

AF-08CRL
Running capacitor 250V-35µF
Fan capacitor 250V-6µF
Thermistor 15kΩ at 78˚F
Fan motor OBM-2508K1 (MLB003)
Overload relay MRA98706

WIRING DIAGRAM

AF-08CRL

POWER SUPPLY CORD

115V 60Hz

NON RIBBED

COMPRESSOR

RIBBED

BL

RUNNING
CAPACITOR
250V 35

FAN MOTOR
CAPACITOR
250V 6

µ

F

BL

BK

123654

BK

BL

THERMAL
PROTECTOR

BK

GR

OVERLOAD
PROTECTOR

MOTOR

GYREOR

M.C

µ

F

H

M

A.C

OUT

R

RE

GY

RE
OR
WH

WH

L

IN

C

CONNECTOR

FAN MOTOR

EARTH

GR

BK

BK

3A 125V

MRY

S

WH

GY

FU1
CONTROL
BOARD UNIT

NR

CNR1
CNR2

8
7
1
3
5

BCN1

CNR3

C1

TR

RY1
RY2
RY3

WIRE COLOR

BK

BL

RE

WH

GR
GY
OR

CN1

YELLOW TH1

BCN2

BCN3

: BLACK
: BLUE
: RED
: WHITE
: GREEN
: GRAY
: ORANGE

THERMISTOR

(

ROOM TEMP

CN2

CN3

)

DISPLAY
BOARD
UNIT

Figure W-1

3

AF-08CRL

EXTERNAL DIMENSIONS

19-11/16"

5

35-7/16" (full opened)

23-5/8" (full closed)

4-15/32"

Fig. E-1.

17-3/32"

1-15/32"

13-5/8"

15-11/16"

4

PARTS NAMES

UNIT

AF-08CRL

HO W TO OPERA TE

3

4

2

1

CONTROL PANEL

2 1

COOL / FAN TEMP

3

SELECTOR

4 5 6 8

5

F

hr

TIMER

ON/OFF

ENERGY

SAVER

7 9

6

POWER

ON/OFF

10

11

11

1Front Cabinet
2Air Inlet (Indoor Side)

7

3Horizontal Louvers
4Vertical Louvers

8

5Air Outlet (Indoor Side)
6Control Panel
7Rear Cabinet

9

8Air Inlet (Outdoor side)
9Filter (Pull the filter handle

10

to the right to remove.)

0Filter Handle
qPower Cord

1Receiver window for remote

control signal

2Display
3SELECTOR indicator
4SELECTOR pad
5TEMPERATURE setting pad

----Lower temp.

----Raise temp.

6TIMER ON/OFF pad
7TIMER indicator
8ENERGY SAVER pad
9ENERGY SAVER indicator
0POWER ON/OFF pad
qPOWER indicator

5

AF-08CRL

COOLING OPERATION

POWER
indicatorSELECTOR indicator

Touch POWER ON/OFF pad.

1

• The unit is preset at 74°F and HIGH
COOL. This will show in the display

F

hr

when the power is first turned on.

• POWER indicator and SELECTOR
indicator (COOL) will light.

COOL / FAN TEMP

ENERGY

SELECTOR

TIMER

ON/OFF

SAVER

POWER

ON/OFF

POWER ON/OFF pad

To turn off the unit, touch POWER

2

ON/OFF pad again.

• POWER indicator and SELECTOR
indicator will go off.

TO CHANGE TEMPERATURE SETTING

During cooling operation

COOL / FAN TEMP

SELECTOR

F

hr

TIMER

ON/OFF

ENERGY

SAVER

POWER

ON/OFF

Touch the TEMPERATURE setting pad to
adjust the temperature setting.

---Lower temp.

---Raise temp.

• Temperature can be set within the range

TEMPERATURE setting pad

of 64°F to 86°F.

• Display will change as you touch
the pad.

NOTE:

• The latest temperature setting will be memorized and will appear on the display the next time

the unit is turned on.

• In cases of power outages or when the unit is disconnected; when the power is restored or the
unit is plugged in, the unit and display will return to the preset conditions of 74°F and HIGH
COOL. The unit will not automatically turn back on. The user must touch POWER ON/OFF to
resume opertion.

6

TO CHANGE FAN SPEED AND OPERATION MODE

AF-08CRL

SELECTOR indicator

F

hr

COOL / FAN TEMP

ENERGY

SELECTOR

TIMER

ON/OFF

SAVER

POWER

SELECTOR pad

NOTES ON OPERATION MODE:

MODE

HIGH COOL

SELECTOR DISPLAY

COOL

ON/OFF

During operation

Touch SELECTOR pad and select the
operation mode and fan speed.

• SELECTOR indicator and display will light
in order as you touch.

HIGH COOL MED COOL

MED FANLOW FAN

Cooling operation with high fan speed.

LOW COOL

HIGH FAN

MED COOL

LOW COOL

HIGH FAN

MED FAN

LOW FAN

COOL

COOL

FAN

FAN

FAN

Cooling operation with medium fan speed.

Cooling operation with low fan speed.

Fan only operation with high fan speed.

Fan only operation with medium fan speed.

Fan only operation with low fan speed.

• The latest operation mode will be memorized and the selector indicator and display will light
when the unit is turned on.

• In fan only operation, the temperature display will go off.

• When the SELECTOR is changed to fan only operation from cooling operation, it will take 5

seconds for the compressor to stop.

7

AF-08CRL

ENERGY SAVER

During normal operation, the thermostat automatically controls cooling and the fan runs
continuously. When the ENERGY SAVER is selected, the thermostat automatically controls
cooling and the fan automatically stops when the compressor is not operating. (Fan will stop 30
seconds after the compressor stops. After the fan stops, the fan is programmed to rotate for
approx. 2 minutes to detect room temperature. This will occur within a 20 min time span.)

During cooling operation

Touch ENERGY SAVER pad.

F

hr

COOL / FAN TEMP

1

• ENERGY SAVER indicator will light.

SELECTOR

TIMER

ON/OFF

ENERGY

SAVER

POWER

ON/OFF

2

To cancel, touch ENERGY SAVER
pad again.

• ENERGY SAVER indicator will go

ENERGY SAVER pad

ENERGY SAVER indicator

off.

NOTE: ENERGY SAVER cannot be set during fan only (HIGH FAN, MED FAN, LOW FAN)

operation.

TO CHANGE AIR FLOW DIRECTION

The horizontal louvers are used to adjust the UP / DOWN direction of air flow, and the vertical
louvers are used to adjust the LEFT / RIGHT direction of air flow for uniform and efficient
cooling of the room.

Horizontal louvers

Vertical louvers

Adjust UP/DOWN air flow

Lever

Adjust LEFT/RIGHT air flow

8

ON TIMER OPERA TION

• This unit has a built-in timer that can be programmed to start the unit up to 12 hours in advance.
You can set the timer to start in increments of 30 minutes (0.5 hours) up to 9.5 hours in advance
of the start time, or in 1 hour increments from 10 to 12 hours in advance of the start time.

• The unit will start automatically according to your setting.

AF-08CRL

SELECTOR indicator

F

hr

COOL / FAN TEMP

ENERGY

SELECTOR

TIMER ON/OFF pad

TIMER indicator

TIMER

ON/OFF

SAVER

(If you wish to start the operation
6 hours and 30 minutes later, set
the delay time as shown above.)

POWER

ON/OFF

When the unit is not operating

Touch the TIMER ON/OFF pad to set the delayed
start time.

1

• The time setting will change as you touch the
pad. The display will change as follows;

Preset(0.5h)

Previous setting

0.5h

CL(cancel)

• The timer will be set, 5 seconds after the
TIMER ON/OFF pad is touched for the last
time.

• SELECTOR indicator and TIMER indicator
will light.

• The time display will count down the
remaining time.

• The unit will start when the set time expires.
The temperature setting will be displayed.

1.0h

1.5h 10h
11h12h

TO CANCEL THE TIMER SETTING

Touch the TIMER ON/OFF pad again after the
timer is set, or press the TIMER ON/OFF pad
until CL(cancel) appears on the display.

NOTES FOR TIMER SETTING AND OPERATION:

• After setting the TIMER, change the temperature and fan speed settings as shown on pages 11
and 12. When the temperature is set in the timer mode, the temperature will show in the display
for 5 seconds and then return to the time display.

• The last setting used will be memorized and will appear on the display the next time you
operate the unit with the TIMER function.

• If a power failure occurs while the ON or OFF TIMER is set, the TIMER memory will be cancelled
and will not resume even after power is reinstated. The unit will not automatically start.

• OFF TIMER OPERATION can also be set with the REMOTE CONTROL.

9

AF-08CRL

OFF TIMER OPERA TION

• This unit has a built-in timer that can be programmed to shut the unit off up to 12 hours in advance.
You can set the timer to stop in increments of 30 minutes (0.5 hours) up to 9.5 hours in advance
of the stop time, or in 1 hour increments from 10 to 12 hours in advance of the stop time.

• The unit will stop automatically according to your setting.

When the unit is operating

Touch the TIMER ON/OFF pad to set the delayed
stop time.

F

hr

COOL / FAN TEMP

1

• The time setting will change as you touch the
pad. The display will change as follows;

ENERGY

SELECTOR

TIMER ON/OFF pad

TIMER indicator

TIMER

ON/OFF

SAVER

(If you wish to stop the operation
10 hours later, set the delay time
as shown above.)

POWER

ON/OFF

Preset(0.5h)

Previous setting

0.5h

CL(cancel)

1.0h

1.5h 10h
11h12h

• The timer will be set, 5 seconds after the
TIMER ON/OFF pad is touched for the last
time.

• TIMER indicator will light.

• The time display will count down the

remaining time.

• The unit will stop when the set time expires.
All indicators and displays will go out.

TO CANCEL THE TIMER SETTING

Touch the TIMER ON/OFF pad again after the
timer is set or, press the TIMER ON/OFF pad until
CL(cancel) appears on the display.

10

USING THE REMOTE CONTROL

INSTALLING BATTERIES

Use two size-AAA (R03) batteries.

Remove the battery compartment cover.

1

Insert the batteries in the compartment,

2

making sure the and polarities
are properly aligned.

Replace the cover.

3

NOTES:

• The battery life is approximately one year with normal use.

• When you replace the batteries, always use two new ones of the same type.

• If the remote control does not operate normally after replacing the batteries, take out the

batteries and replace them again after 30 seconds.

• If you will not be using the unit for a long time, remove the batteries from the remote control.

Battery compart­ment cover

AF-08CRL

ATTACHING THE REMOTE CONTROL HOOK

• Remove the backing from the remote control hook.

• Attach the hook onto the left side of the unit's front

cabinet.

• To prevent loss, hook the remote control on the front
cabinet when not in use.

Remote control hook

Rear Cabinet

Front Cabinet

HOW TO USE THE REMOTE CONTROL

Point the remote control towards the unit's re­ceiver window and press the desired button. A
beep will sound when the unit receives the signal.

• Make sure no objects, such as curtains, block the
receiver window.

• The remote control operates from up to 20 feet (6
meters) away.

• The beep will also sound when each pad on the
control panel is touched.

CAUTION:

• Do not expose the receiver window to direct sunlight. This can adversely affect its operation. In
such case, close the curtains to block the sunlight.

• Use of a fluorescent lamp in the same room may interfere with the transmission of the signal.

• The unit may be affected by signals emitted from the remote control of a television, VCR or other

equipment used in the same room.

• Do not leave the remote control exposed to direct sunlight or near a heater. Protect the remote
control from moisture and shock which can discolor or damage it.

11

AF-08CRL

OPERATING WITH THE REMOTE CONTROL

TRANSMITTER

POWER

ON/OFF

TEMP.

TEMP.

SELECTOR

SET TIMER/OFF

POWER ON/OFF button

Push to start or stop the operation.

TEMPERATURE setting button

TEMP.
TEMP.

---Raise temp. setting 1°F at a time.

---Lower temp. setting 1°F at a time.

SELECTOR button

Push to change fan speed and operation
mode.
Fan speed and operation mode selec­tions are shown to the right.

SET TIMER/OFF button

Push to set delay "OFF" timer during operation.

HIGH COOL
MED COOL
LOW COOL
HIGH FAN

MED FAN
LOW FAN

• The time setting will change as you push the button. The display
will change as follows;

Preset(0.5h)

Previous setting

• The last OFF time setting is memorized by the unit and will
appear on the display when the button is pushed.

• The timer will be set, 5 seconds after the SET TIMER/OFF button
is pushed for the last time.

• If you wish to cancel the timer, push the SET TIMER/OFF button
again after the time is set or, push the SET TIMER/OFF button
until CL (cancel) appears on the display. A double beep will
sound when the timer is cancelled.

• The "ON" TIMER cannot be set with the remote control.
It can only be activated by the TIMER ON/OFF pad on the unit's
control panel ( See page 9 ).

0.5h

CL(cancel)

1.0h

1.5h 10h
11h12h

To change temperature setting when ON/OFF timer is in use

1. Push a TEMPERATURE setting button.
The current set temperature will be recalled on the unit's display.

2. Use the TEMPERATURE setting buttons to set the new temperature.
The new set temperature will show on the display for 5 seconds and return to
the time display.

12

ACCESSORIES

No.

Accessories Q'ty

AF-08CRL

INSTALLATION INSTRUCTIONS

1

1

2

3

4

5

6
7
8

9
10
11

Right closure assembly 1
Left closure assembly 1
Window sash foam seal 1
Window sash foam seal 1

(adhesive type)
Bottom gasket 1
Screws (L=1", 25.4mm) 7
Screws (L= 13/32", 10mm) 6
Base pan angle 2
Remote control 1
Battery 2
Remote control hook 1

2

3

4

5

10

6

6

7

8

2

11

2

7

9

SUGGESTED TOOLS

1. Screw driver (medium size Phillips)

2. Tape measure or ruler

3. Knife or scissors

13

AF-08CRL

INSTALLATION

WARNING: Make sure the unit is turned off and unplugged before working.

Cut the window sash foam seal (adhesive
type) to the proper length and attach it to

1

the underside of the window sash.

Jamb

Sill

Insert the right closure assembly and the
left closure assembly into the top angle

2

and the bottom channels.
Secure the right and left closure to the
cabinet with six of the provided screws.
(L=

13

/32", 10mm)

Closure assembly

Sash

Window sash foam seal
(adhesive type)

Open the window sash and place the air
conditioner on the sill.

3

Balance the unit on the sill and close the
window sash securely behind the top
angle.

WARNING:

At this step, make sure the unit is inclined
approximately 1 cm (
If the unit is not properly inclined, the water
collected in the bottom tray during opera­tion will not drain properly and may flow into
the room where the air conditioner is in­stalled.

Insert the bottom gasket into the space
between the window sill and the bottom of

4

the unit to seal outside air.

3

/8") to the back.

sill

unit

incline backwards approximately
1cm (3/8")

If there is space between the bottom
channel and the sill, fill the gap with a thin
board or other hard filler.

Bottom gasket

14

5

6

Insert the closure assemblies on both
sides into the rails of the jamb.

Jamb
(Left)

Closure assembly
(Left)

Sill

Loosen screws on both sides of the
cabinet, then hang the base pan angle
on and secure the screws again.

Indoor
side

Indoor
side

AF-08CRL

Closure assembly
(Left)

1/2 inches
(13mm)

Stool

7

8

9

Secure the base pan angle to the sill by
using the hole of the front side on the
angle with one screw. (L=1", 25.4mm)

Top angle

Secure the top angle of the unit and the
top of the closure assemblies to the sash
with three of the provided screws. (L=1",

25.4mm)
And secure the bottom of the closure
assemblies to the sill with two of the
provided screws. (L=1", 25.4mm)

Cut the window sash foam seal to the
proper length and seal the opening be­tween the top of the inside window sash
and the outside window sash.

Window sash foam seal

15

AF-08CRL

DISASSEMBLING PROCEDURE

CAUTION: DISCONNECT THE ROOM AIR CONDITIONER FROM THE POWER SUPPLY BEFORE ANY SERVICE

1. Unscrew the 2 screws holding the front panel on each
side.

2. Remove the front panel by pulling the front panel at the
lower corner toward you about one inch.
Next lift up and pull it toward you.

5. Remove the control panel.

6. Take off the fan motor connector.

3. Unscrew the 8 screws holding the cabinet.

2 screws are on each side.
4 screws are on back side.
2 screws are on top side.

And remove the cabinet.

4. Remove the thermistor holder.

7. Unscrew the 5 screws.
3 screws are holding the control box at the top and
right side.
1 screw is holding the power supply cord.
1 screw each screw on the evaporator.

8. Cut the wire fixing band, slide the control box rightward

and remove.

Slide

16

AF-08CRL

9. Unfasten the one nut at the top of the compressor
holding the terminal cover.
Then remove the wiring connector of the compressor
cord.

10. Unscrew the 4 screws holding the condenser.
1 screw is on right side.
1 screw is on left side.
2 screws are on back side.

And remove the condenser from the unit.

13. Unscrew the 7 screws.
4 screws are holding the evaporator on each side.
3 screws are holding the bulkhead to the base pan on
each side and back side.

14. Lift up and take out the bulkhead.

11. Unfasten the nut holding the propeller fan by rotating it
counter-clockwise. And remove the propeller fan.

12. Unscrew the 2 screws holding the condenser shround.
And remove the condenser shround.

15. Unscrew the 1 screw holding the orifice.

16. Unscrew the 1 screw holding the top duct ass'y.

17

AF-08CRL

17. Unscrew the 1 screw holding the centrifugal fan. 18. Unscrew the 3 screws holding fan motor.

DISASSEMBLING THE CONTROL BOX

1. Unscrew the 1 screw holding the control box cover.

CAUTION: DISCHARGE THE FAN MOTOR CAPACITOR

AND RUNNING CAPACITOR BEFORE
TOUCHING THOSE CAPACITORS OR OTHER
COMPONENTS OR WIRING.

2. Unscrew the 3 screws holding the printed wiring board.

4. Unscrew the 1 power supply cord grounding screw.
Unscrew the earth screw. Unscrew the 1 screw holding
the capacitor clamp and the fan motor capacitor.

5. Detach each connector by using long-noise pliers.

3. Cut the wire fixing bands holding the fan motor lead
wires, the compressor cord and the power supply cord.

6. Unscrews the 2 screws holding the transformer and
remove the control board with unhooking the 2 spacers.

18

AF-08CRL

INNER CONE

TORCH STEM

SILVER ALLOY

Figure 3

Directing Torch Flame to Copper Tubing.

3/8"

g

HOW TO REPAIR REFRIGERATION

Before sealed system work can be preformed a refrigerant recovery EPA and LOCALLY approved certification is
required, additionally, EPA and LOCALLY approved refrigerant recovery equipment is required.

SEALED SYSTEM REPAIR

Sealed system repairs should be properly diagnosed before entering into a repair of the system.
It is important to follow proper procedures when doing a system repair for safety reasons and that the repair will result in a
restoration of the system to proper factory standards.

SAFETY REMINDERS

1) Do not heat any system component with an open flame for any reason.

2) Do not solder until you are sure that all refrigerant has been removed from the system.

3) Do not heat the charging cylinder with an open flame. Use warm water only and do not exceed 125˚F(not too hot to keep
your hand in.)

4) Do not over fill any charging cylinders, as they could explode when over
filled.

5) Use proper wrenches.

6) Use safety goggles when working with refrigerants.

7) Keep a fire extinguisher within easy reach.

8) Watch flame direction when soldering so as not to burn clothing, wiring or
other components.

9) Solder in a well ventilated area. If a high concentration of freon is present,
an open flame will create phosgene gas which can be harmful.

GOOD FIT

PROPER
JOINT FIT
CLEARANCE

0.01" TO 0.03"

PROPER SOLDERING

Joint clearances should be maintained so that the brazing alloy will flow
between the closely mated surfaces rather than forming large fillets.
This films make the strongest joints, capillary attraction also work best with
close tolerance.
The best clearance is between 0.01" to 0.03" , the amount of lap will be
approximately 3/8" depending on the swaging tool used. (Figure 1.)

CLEANING TUBING

To make a sound, leak tight joint, the brazing alloy when raised to brazing
temperature, must wet and flow freely over the entire surface of the tubing in
the joint area.
To assure this, the tubing surfaces must be free of all dirt, grease, oil and
oxides otherwise the alloy will not wet and flow properly over any surface with
these elements present. Cleaning can be done with an abrasive cloth or steel
wool. Never blow into the tubing because this will introduce a lot of moisture
into the system. Open tubing joints should be covered if exposed for long
periods of time.

PROPER FLUXING

Flux is necessary when using silver solder; it is not required
when using silfos on copper to copper joints.
To do a good job the flux should cover the tube surface
completely. Be careful not to introduce any flux inside the
tubing.
Fluxing should be done after the tubing is mated together
and just before brazing is done. Do not allow it to dry out.
When brazing, the flux should become entirely liquid and
clear, like water. The temperature will be at 1100˚F and only
a little more heat will allow the alloy to flow freely into the joint.

Joint Clearance.

Figure 1

EMERY CLOTH

Cleaning Tubing.

ure 2

Fi

POOR FIT

KEEP TUBE IN
DOWNWARD POSITION

19

AF-08CRL

OUTER CONE

HOTTEST PART
OF FLAME

INNER CONE

TORCH STEM

Figure 4

Composition of Torch Flame.

HEATING THE TUBING

Direct the torch flame so that the larger tube receives most
of the heat. Silver solder flows at 1200˚F and silfos flows at
1300˚F.
Heat all around the tubing.
The flame is composed of two cones, a smaller inner cone
(pale blue) in calor and a much larger outer cone. The hottest
part of the flame is at the tip of the inner cone. The flame
should be directed at the joint with the tip of the cone just
touching the surface of the tubing. Figure 3 and 4.

DEHYDRATING SEALED SYSTEM

Many servicers feel that since air conditioners run with evaporator temperatures above 33˚F, moisture will not present a
problem. Nothing is further from the truth. Oxygen in moisture plus the heat produced during compression will react with the
refrigerant oil to produce harmful acids in the system which will break down motor winding insulation, create sludge and pit
component parts, reducing efficiency of the air conditioner and shortening the life of compressors.
There it becomes mandatory that good dehydrating practices be adhered to at all times.
Proper hook up procedures as shown in Figure 5 must be used in order to pull and good vacuum from the system.
The use of a good vacuum pump is very important so that the boiling point of any water in the system will be lowered to a
point where it will vaporize and be expelled from the system in the form of vapour.

Type of evacuation methods

1. Piston Type Compressor No good.

System parts must be above 110˚F.

2. Rotary Vacuum Pump Disavantages.
Low CFMC. 4 oil gets dirty.

3. Single State Vacuum Pump will not clean oil.
Oil must be changed often.

4. Two Stage Vacuum Pump will reach 50 microns.
First stage is below atmospheric pressure.

TO RELATED SERVICE
VALVE OR PROCESS
TUBES OF THE UNIT.

ELECTRIC
VACUUM
GAUGE

LARGE DIAMETER
BRAIDED VACUUM
HOSES

HIGH VACUUM
MANIFOLD

DIAL-CHARGE
CHARGING CYLINDER

LOW SIDE
GAUGE

HIGH SIDE
GAUGE

Moisture is removed into second stage which works up
to atmospheric pressure thus keeping oil clean.
Manometer cannot be read to 1/2 mm. Micron gauge
reads from 25,400 microns to 0.

HIGH VACUUM PUMPHook up for Evacuation and charging

Figure 5

It becomes clear that good equipment and maintained properly must be used in order to remove air and moisture from the
system.
When a vacuum of 1,000 to 500 microns is reached, block off the vacuum pump from the system.
This is done by closing the value between the pump and system. If the micron gauge does not increase above 1,000, the
system is free of moisture and no leak exists. If the micron gauge increases to higher levels moisture or a leak exists.

20

AF-08CRL

RUNNING CAPACITOR

FAN CAPACITOR

LEAKS

Several methods are used to detect leaks in systems.

Electronic Leak Detectors are very sensitive and are able to detect leaks down to 1/2 ounce per year.
A good electronic leak detector is generally far better in locating very small leaks.
Halide Torch be sure the room is free from refrigerant vapours. Watch the flame for the slightest change in calor.
A very faint green indicates a small leak. The flame will be unmistakably changed to green or purple when large leaks
are encountered. To simplify leak detection pressurize the system to approximately 75 lbs.
Some leaks can be located by a visual inspection of the system components and solder joints and if oil is found at any
given location it generally is a sign that a leak exists at that point due to the fact that flame does carry oil with it travels
through the system.

Soap Bubbles

Liquid detergents can sometimes assist in finding small leaks by brushing detergent on the suspect area and
watching for bubbles. Before applying detergent be sure that the system is pressurized.

Tap line devices are permissible for diagnosis only they are not suitable when evacuating the system. After the diagnosis
has been made they must be removed so that the system will be restored to a hermeticly sealed condition.

ELECTRICAL COMPONENT TEST

RUNNING CAPACITOR AND FAN CAPACITOR
CAUTION:DISCHARGE THE RUNNING CAPACITOR AND FAN CAPACITOR BEFORE TOUCHING CAPACITOR

OR WIRING.

(1) Discharge capacitor by shorting terminals.
(2) Take the wires off the capacitor terminals.
(3) Set the selector switch of a volt-ohm-meter (or a tester)

on the resistance range.

(4) Connect the probes to the capacitor terminals and

watch the indicator swing.

The indicator does not swing at all ..... Open.

The indicator swings but does not return ..... Shorted.

The indicator swings, then returns a moment later .....

Good.

INSULATION TEST

Check the resistance between the terminals and case.
Reading must be more than 10MΩ at DC 500V.

OVERLOAD RELAY

Check continuity between terminals with volt-ohm-meter.

INSULATION TEST

Check resistance between terminals and the relay case.
Reading must be more than 10MΩ at DC 500V.

COMPRESSOR

(1) Take the wires off compressor terminals.
(2) Set selector switch of volt-ohm-meter on the resistance range.
(3) Put the probes on the terminals of the compressor and check continuity between each terminal.

INSULATION TEST

Check the resistance between the terminals and the copper tube.
Reading must be more than 10MΩ at DC 500V.

21

AF-08CRL

MICROCOMPUTER CONTROL SYSTEM

1. Temperature control characteristic

1-1 COOL operation

In the “COOL” mode, the thermostat circuit is controlled
by two thermostat lines (C1, C2).

C1

C2

Room temperature (°F)

86

84

64

62

64 86

Preset temperature (°F)

("THERMO" switch)

Figure Y-1

2. Operation mode

2-1 COOL operation

The compressor turns on or off, at thermostat lines C1
and C2. The fan motor is also controlled with the
compressor.

States 1 & 3
States 2

: Compressor ON
: Compressor OFF

3

C1

3. Fan speed

Fan speeds are given by the fan motor, “H”, “M” and
“L”, which are available in the following operation

mode.

Table Y-1

Selector Fan motor
HIGH COOL H
MED COOL M
LOW COOL L
HIGH FAN H
MED FAN M
LOW FAN L

4. 12-hours timer

4-1 OFF-TIMER operation

Set the delay timer during operation.
The unit will turn off automatically according to your
setting. Timer duration can be set by 0.5 hours to
maximum 12 hours. Up to 9.5 hours, you can set by 0.5
hours increments and from 10 to 12 hours, by 1 hour
increment.
If you touch button “POWER ON/OFF” during OFF­TIMER operation, then the unit turns off and OFF­TIMER operation is cancelled.

4-2 ON-TIMER operation

Set the delay timer when unit is not operating.
The unit will turn on automatically according to your
setting. Timer duration can be set by 0.5 hours to
maximum 12 hours. Up to 9.5 hours, you can set by

0.5 hours increments and from 10 to 12 hours, by 1
hour increment.
If you touch button “POWER ON/OFF” during ON­TIMER operation, then the unit turns on and ON-TIMER
operation is cancelled.
ON-TIME and OFF-TIME display will count down the
remaining time.

1

Room temperature (°C)

Room temperature transition

Preset temperature (°C)

Figure Y-2

2-2 FAN ONLY operation

The fan motor always turns on.

from 0.5 to 9.5 ..... 0.5 hours

from 10 to 12 ....... 1 hour

C2

5. Energy saver

During normal operation, the thermostat automatically
controls cooling and the fan runs continuously whenever
the air conditioner is in operation.

2

When the ENERGY SAVER is set, the thermostat
automatically controls cooling and the fan automatically
stop when compressor is not operating. (Fan will stop
in 30 seconds after the compressor stops.)

ON

Compressor

ON

Fan

OFF

OFF

30 seconds

Figure Y-3

22

6. Safety start

When you turn the air conditioner OFF and restart again soon, wait at least 3 minutes before the cooling operation
starts.

7. Test mode

Keep pushing both buttons “POWER ON/OFF” and “ " ” and supply the power, the system will go to the test mode.
In this mode, the output operation is switched by pushing buttons. Normal outputs are shown in Table Y-2.

AF-08CRL

For selfdiagnosis check mode

No. PUSH KEY (SWITCH)

PLUG IN the power supply cord

02

while pushing power ON/OFF
key and (down) key.

1

TIMER

<SW6>

<SW5>
<SW2>
<SW1>
<SW4>

2

3
4

ENERGY SAVER

5
6
7
8

1) If thermistor is normal (nether short nor open), LED is ON.

2) When A/D (R42) bit 7 = 1, LED is ON.

2) When A/D (R42) bit 6 = 1, LED is ON.

2) When A/D (R42) bit 5 = 1, LED is ON.

ON/OFF

POWER ON/OFF by REMOTE CONTROL

POWER SUPPLY OFF

BEPP

SOUND

1SELECTOR <SW3>
1

1
1
1
1
1

LED1

<LED2>

8.8 ON

OFF

01

02
03
04
05
05

OFF

FAN

HIGH

OFF
OFF

2) 3) 4)

ON
OFF
OFF

ON
OFF
OFF OFF OFF OFF OFF OFF OFF OFF

Table Y-2

FAN
MID

<LED3>

ON ON ON ON ON ON ON OFF

OFF OFF OFF OFF OFF OFF OFF
OFF OFF OFF OFF OFF OFF

OFF OFF ON OFF OFF ON OFF

ON OFF OFF ON OFF OFF ON
OFF ON OFF OFF ON OFF OFF
OFF OFF ON OFF OFF ON OFF
OFF OFF OFF OFF OFF OFF OFF

Table Y-3

LED LIGHTING CHECK ITEM

FAN
LOW

<LED4>

COOL

<LED9>

FAN

<LED5>

TIMER

<LED7>

ENERGY

SAVER

<LED8>

POWER
ON/OFF

<LED6>

1)

FAN

OUTPUT

LOW

MIDDLE

HIGH

OFF

LOW
HIGH
MIDDLE

OFF

COMP

OUTPUT

OFF

OFF
OFF

OFF
OFF
OFF

ON
OFF
OFF

and REMARK

LED ALL ON

LED ALL OFF

FAN CHECK

COMPRESSOR CHECK
REMOTE CONTROL CHECK

T(˚C) T(˚F) R(kΩ)

V(volts)
0 32.0 49.33 1.17
1 33.8 46.86 1.21
2 35.6 44.53 1.26
3 37.4 42.33 1.31
4 39.2 40.25 1.36
5 41.0 38.29 1.41
6 42.8 36.44 1.46
7 44.6 34.68 1.51
8 46.4 33.02 1.56
9 48.2 31.45 1.61

10 50.0 29.96 1.67
11 51.8 28.55 1.72
12 53.6 27.22 1.78
13 55.4 25.96 1.83
14 57.2 24.76 1.89
15 59.0 23.62 1.94
16 60.8 22.56 2.00
17 62.8 21.52 2.05
18 64.4 20.55 2.11
19 66.2 19.63 2.17
20 68.0 18.76 2.22

T(˚C) T(˚F) R(kΩ) V(volts)

21 69.8 17.93 2.28
22 71.6 17.14 2.33
23 73.4 16.39 2.39
24 75.2 15.68 2.44
25 77.0 15.00 2.50
26 78.8 14.36 2.55
27 80.6 13.74 2.61
28 82.4 13.16 2.66
29 84.2 12.60 2.71
30 86.0 12.07 2.77
31 87.8 11.57 2.82
32 89.6 11.09 2.87
33 91.4 10.63 2.93
34 93.2 10.19 2.98
35 95.0 9.78 3.03
36 96.8 9.38 3.08
37 98.6 9.00 3.13
38 100.4 8.64 3.17
39 102.2 8.30 3.22
40 104.0 7.97 3.27

V ....... Input the voltage of microcomputer (No. 10-port).

23

AF-08CRL

HEATSINK

YELLOW

LED7, LED8

LED2 ~ LED5, LED9 GREEN

D17

RED

LED6

IC2

7812

IN OUT

D1 - D4

TR

0V

KRA101M

(DTA143ES)

Q5

+++

COM

C2 C3 C4 C5 C6 C7

D2

D1

C1

LED2 COOL/H

C8

25V

R2

15K

ZD1

HZ4A-2

25V

0.1µ

10V

100µ

COM

25V

47µ

25V

0.1µ

25V

0.1µ

25V

1000µ

250V

0.1µF

LED3 COOL/M

LED4 COOL/L

LED5 FAN

10

LED1

18

0.1µ

OUT

IC3

79L05

IN

R3

Q6

KRC101M

D3 D4

R1

22K

NR

271

LED6 ON/OFF

LED7 TIMER

LED8 ENERGY

9

88

1

Q9

Q8

5V

12V

C10

10K

C9

16V

0.01µ

(DTC143ES)

R4

20k

SAVER

LED9 COOL

Q10

Q8 ~ Q10

KRA222M

BCN2

C11

16V

10µ

C20

+

C12

25V

0.1µ

Q7: KRA106M

5V

R8

R18

IC4

C18

25V

+

C17

50V

(DTB123EA)

R23 47Ω 1/2W

7654321

R6

C21

C22

5V

OSC

Q1: KRA105M

(DTA123JS)

(DTA143ZS)

Q7

BZ

2.7K

D5D8

D7 D6

R17

47µ

0.1µ

Q1

MRY

COMP

R16

R15

R14

R13

PHOTO

DETECTOR

UNIT

QWN-KEY
UP-KEY
POWER
SELECTOR
TIMER

E/SAVER

CN2

R7

10K

Q2

RY1

FAN H

C19 16V 10µF

+

R5

10K 10K

10K
R28

28272625242322212019181716

HOLD

R92

R91

5V

OUT dd

IN

RESET

R70

X

4MHz

1X V

2345678

Q3

Q4

Q2, Q3, Q4

KRA106M

(DTA143ZS)

RY2

RY3

12V

FAN M

FAN L

R11 ~ R18

R12

R11

SW6

SW5

SW4
SW3
SW2

SW1

1000P 50V

C15

R90

R83

INT1

R71

R72

R40

R9

TEST

C16

5V

R81

R41

150Ω x 8

INT2

R42
9

D15
D14
D13
D12
D11
D10

5V

C23

10K

R24

R63

R62

R61

R60

TMP47C443N

R43

R50

R51

R52

1011121314

R10

15K(F)

+

432

324567891

BCN3CA1 CN3

15
R53

IC1

SS

V

5V

-5V

R22

C14

16V

10µ

CN1

1

5V

RA1

CA1: 1000pF x 8

RA1: 10kΩ x 8

SW1: ENERGY SAVER

SW2: TIMER

SW3: SELECTOR

SW4: POWER

SW5: UP-KEY

SW6: DOWN-KEY

Electronic Control Circuit Diagram

3A

FU1

125V

MRY

POWER SUPPLY

115V AC

60Hz

C

OVERLOARD

PROTECTOR

COMPRESSOR

RS

MOTOR

RUNNING

CAPACITOR

250V 35µF

GRAY

BCN1

671

FAN MOTOR

CAPACITOR

250V 6µF

RY1

GRAY

BL BK

CNR1

RED

RY2

CNR2

3

ORANGE

RY3

CNR3

5

WHITE

WH
GR
RE
GY
BK
BL

24

CNR1 - CNR3

WH

CONNECTOR

M

OR

H

RE

123654

YELLOW

(15k)
TH1

ROOM

Temp

GREEN

C23, R9

NO INSERT PART

L

GY

BK

BL

BL

FAN

MA

MOTOR

BK

CA1: 1000pF x 8 (CAPACITOR ARRAY)

IF NOT SPECIFIED 1/5W, ±5% (RESISTOR)

IF NOT SPECIFIED 50V 1000pF (CAPACITOR)

IF NOT SPECIFIED 1SS133T-72 (DIODE)

: INDICATED POSITION IS FUNCTION TEST POINT

RA1: 10kΩ x 8 (RESISTOR ARRAY)

AF-08CRL

QPWBFB443JBZZ

18

JP28

JP35

1

10

JP30

JP29

9

QPWBFB443JBZZ

DPWBFA246JBKZ

C2

DPWBFA246JBKZ

Printed Wiring Board

25

AF-08CRL

No cooling
(Operation not at all.)

Measure the power supply
voltage at receptacle.

120V(over 100V)

Is it sufficient current capacity
of power equipment ?
Is it small wiring for power
supply equipment ?

sufficient

Is plug disconnecting ?

connecting

Check the power supply cord.

OK

under 100V

The house fuse or circuit
breaker open ?

open

Is it proper current capacity of the
house fuse or the circuit breaker ?

Change the house fuse and
the circuit breaker turn on.

insufficient

Ask the power supply
company for check.

disconnecting

Connect plug properly.

imperfect contact

Change the power supply cord.

TROUBLESHOOTING GUIDE

not open.

Ask the power supply
company for check.

Check the fuse on PWB ass'y.

OK

Measure the secondary
voltage of transformer.

over 14V(AC)

Measure the voltage between

-12V and GND on PWB ass'y.
OK(12V, DC)

Measure the voltage between

-5V and GND on PWB ass'y.
OK(5V, DC)

If unit operate, dose the house
fuse or the circuit breaker open ?

NO

open

Change the fuse on PWB ass'y.

under 14V(AC)

NG

NG

Change PWB ass'y.

YES

Measure the insulation
resistance of compressor.

Measure the insulation
resistance of fan motor.

OK(over 10MΩ)

OK(over 10MΩ)

NG(under 10MΩ)

Change the compressor.

NG(under 10MΩ)

Change the fan motor.

Checking complete.

Can the Compressor operate ?

can operate

26

can't operate

Change the compressor.

No cooling
(Fan operate but the
compressor doesn't operate.)

AF-08CRL

Measure the power
supply voltage at
receptacle.

120V(over 100V)

I

s it sufficient current
capacity of power
equipment ?
Is it small wiring for power
supply equipment ?

sufficient

Measure the current in
compressor circuit.

current

Check the
overload relay.

OK

Check the
running capacitor.

OK

under 100V

Ask the power supply
company for check.

insufficient

Ask the power supply
company for check.

no current

imperfect contact

Change the
overload relay.

NG

Change the running
capacitor.

Check the
overload relay.

short

Is the connector
disconnecting ?

connecting

Check the compressor
relay.(MRY on PWB)

OK

open

Change the
overload relay.

disconnecting

Connect properly.

NG

Change PWB ass'y.

Measure the resistance
of compressor coil.

OK

Is there high heat
source near the unit.

there isn't

Is the outdoor
temperature too high ?

under 43˚C

Check the outdoor heat
exchanger.

not dirty

NG

Change the compressor.

there is

Remove the high heat
source or stop.

over 43˚C

Avoid sun light and
ventilate well for outdoor
heat exchanger.

dirty

Clean them with steam
cleaner or another method.

Check the thermister.

OK

NG

Change the thermistor.

Checking method for the compressor relay.
(MRY on PWB)

Turn off the
power supply.

Measure the
resistance of its coil.

OK(160Ω at 20˚C)

Turn on the power
supplty as operating the
compressor.

Measure the
voltage to its coil.

OK(12V, DC)

OK

NG

NG

NG

Can the compressor
operate ?

can operate

Checking complete.

can't operate

Change the compressor.

27

AF-08CRL

No cooling
(The compressor operate but
the fan motor doesn't operate)

crack at the solder part

Repair with over solder. Connect the connector

Check BNC1 on PWB
ass'y

OK

Check the fan motor
capacitor.

OK

Measure the resistance
of compressor coil.

OK

Is the fan locked ?

disconnecting the connector

properly.

NG

Change the fan motor
capacitor

NG

Change the fan motor.

locked

Is the fan touched to
another parts ?

no touch

Change the fan motor.

touch

Change fan or another
parts, or adjust.

The compressor doesn't
turn off.

Check the thermister
connector.

OK

Check the thermister
resistance.

OK

Check the compressor
relay.

OK

Checking complete.

Checking complete

disconnecting

Connect the connector
properly.

NG

Change the thermister.

NG

Change PWB ass'y.

Checking method for the compressor relay.
(MRY and PWB)

Turn off the power
supply.

Measure the contact
resistance.

open

OK NG

short

28

Insufficient cooling(Both compressor and compressor operate)

Check the temperature setting.

OK

too high

Set the lower temperature.

AF-08CRL

Check the air filter.

not dirty

Is there high heat source or
any object restricting heat
radiation near the unit.

there isn't

Check doors and windows.

close

Check the outdoor and indoor
heat exchanger.

not dirty

Calculate heat load wit using
Cooling load estimate form.

OK

Check rotating direction of
centrifugal fan.(to clockwise)

OK

Check changing fan speed
properly.

OK

dirty

Clean the air filter.

there is

Remove the high heat
source or stop.

open

Doors and windows
must be kept closed.

dirty

Clean them with steam
cleaner or another method.

Undersized air conditioner

Change unit to proper
sized air conditioner.

NG

NG

Check the fan motor connector.

OK

Measure the resistance
of fan motor coil.

OK

NG

NG

Change the fan motor.

Connect properly.

Is the outdoor temperature
too high ?

under 40

˚

Check the thermister.

OK

Measure temperature difference
between inlet and outlet air at indoor.

˚

C

over 10

Checking complete.

over 40˚C

C

NG

Avoid sun light and ventilate well for
outdoor heat exchanger.

Change the thermister.

˚

C

under 10

Is frost sticking to capillary tube ?
Or is indoor heat exchanger no cold ?

NO

YES

Is the refrigerant leaked ?

NO

The capillary tube restrict,
and change the capillary tube.

Measure the emperature
difference between discharge
tube and suction tube.

temperature difference

YES

Repair leakage and recharge
the refrigerant.

No temperature difference

The compressor is defective.

Change the compressor.

29

AF-08CRL

Excessive vibration
or Abnormal noise

At fan only mode,
Excessive vibration
or Abnormal noise

NO

YES

Check the air filter

Check rotating
direction of centrifugal
fan.(to clockwise)

Is the fan deformed or
broken.

Is loosened screw
and nut fixing fan ?

not dirty

OK

OK

OK

dirty

Clean the air filter.

NG

Check the fan motor
connector.

Measure the resistance
of fan motor coil.

deform or broken

Change the fan

loosened

Tighten up.

OK

OK

NG

Connect properly.

NG

Change the fan motor.

Is each screws
loosened ?

OK

Is pipe touching to
another parts.

OK

Check mounting of
compressor.

OK

Check compressor
noise and vibration.

OK

Checking complete

Checking complete

loosen

Tighten up

touching

Repair with adjusting
shape of pipes.

NG

Repair mounting or
change compressor
cushion.

too big

Change compressor.

30

AF-08CRL

COOLING LOAD ESTIMATE FORM

INSTRUCTIONS FOR USING COOLING LOAD ESTIMATE FORM FOR ROOM AIR CONDITIONERS

(AHAM PUB. NO. RAC-1)

A. This cooling load estimate form is suitable for estimating the cooling load for comfort air conditioning installations

which do not require specific conditions of inside temperature and humidity.

B. The form is based on an outside design temperature of 95˚F dry bulb and 75˚F wet bulb. It can be used for areas in

the continental United States having other outside design temperature by applying a correction factor for the
particular locality as determined from the map.

C. The form includes "day" factors for calculating cooling loads in rooms where daytime comfort (such as living rooms,

offices, etc.).

D. The numbers of the following paragraphs refer to the correspondingly numbered item on the form:

1. Multiply the square feet of window area for each exposure by the applicable factor. The window area is the area
of the wall opening in which the window is installed. For windows shaded by inside shades or venetian blinds, use
the factor for "Inside Shades". For windows shades by outside awnings or by both outside awnings and inside
shades (or venetian blinds), use the factor for "Outside Awnings". "Single Glass" includes all types of single
thickness windows, and "Double Glass" includes sealed air space types, storm windows, and glass block. Only
one number should be entered in the right-hand column for item 1, and this number should represent only the
exposure with the largest load.

2. Multiply the total square feet of all windows in the room by the applicable factor.

3a. Multiply the total length (linear feet) of all walls exposed to the outside by the applicable factor. Doors should be

considered as being part of the wall. Outside walls facing due north should be calculated separately from outside
walls facing other directions. Walls which are permanently shaded by adjacent structures should be considered
as being "North Exposure". Do not consider trees and shrubbery as providing permanent shading. An insulated
frame wall or a masonry wall 8 inches or less in thickness is considered "Light Construction". An insulated frame
wall or a masonry wall over 8 inches in thickness is considered "Heavy Construction".

3b. Multiply the total length (linear feet) of all inside walls between the space to be conditioned and any unconditioned

spaces by the given factor. Do not include inside walls which separate other air conditioned rooms.

4. Multiply the total square feet of roof or ceiling area by the factor given for the type of construction most nearly
describing the particular application. (Use one line only.)

5. Multiply the total square feet of floor area by the factor given. Disregard this item if the floor is directly on the
ground or over a basement.

6. Multiply the number of people who normally occupy the space to be air conditioned by the factory given. Use a
minimum of 2 people.

7. Determine the total number of watts for lights and electrical equipment, except the air conditioner itself, that will
be in use when the room air conditioning is operating. Multiply the total wattage by the factor given.

8. Multiply the total width (linear feet) of any doors or arches which are continually open to an unconditioned space
by the applicable factor.
NOTE: Where the width of the doors or arches is more than 5 feet, the actual load may exceed the calculated

value. In such cases, both adjoining rooms should be considered as a single large room, and the room air
conditioner unit or units should be selected according to a calculation made on this new basis.

9. Total the loads estimated for the foregoing 8 items.

10. Multiply the sub total obtained in item 9 by the proper correction factor, selected from the map, for the particular
locality. The result is the total estimated design cooling load in BTU per hour.

E. For best results a room air conditioner unit or units having a cooling capacity rating (determined in accordance with

the NEMA Standards Publication for Room Air Conditioners, CN 1-1960) as close as possible to the estimated load
should be selected. In general, a greatly oversized unit which would operate intermittently will be much less
satisfactory than one which is slightly undersized and which would operate more nearly continuously.

F. Intermittent loads such as kitchen and laundry equipment are not included in this form.

31

AF-08CRL

HEAT GAIN FROM QUANTITY

1. WINDOWS: Heat gain from sun.
Northeast
Southeast
South
Southwest

Southeast
West
Northwest
North

2. WINDOWS: Heat gain by conduction.
(Total of all windows)
Single glass
Double glass or glass block

3. WALLS: (Based on linear feet of wall.)

a. Outside walls
Noth exposure
Other than North exposure

b. Inside Walls (between conditioned
and unconditioned spaces only)

4. ROOF OR CEILING: (Use one only.)

a. Roof, uninsulated
b. Roof, 1 inch or more insulation

c. Ceiling, occupied space above.
d. Ceiling, insulated with attic space
above
e. Ceiling, uninsulated, with attic space
above

5. FLOOR: (Disregard if floor is directly

on ground or over basement.)

6. NUMBER OF PEOPLE:

7. LIGHTS AND ELECTRICAL

EQUIPMENT IN USE

Use

only

the

largest

load
Use
only

BTU/Hr
(Quantity
x Factor)

FACTORS

DAY

No

Shades

sq ft
sq ft
sq ft

sq ft
sq ft
sq ft

60
80
75

75
110
150
120

sq ft

These factors are for single glass only. For glass block, multiply the above factors
by 0.5: for double-glass or storm windows, multiply the above factors by 0.8.

sq ft
sq ft

Inside

Shades

25
40
30
35
45
65
50

0

0

Outside
Shades

20
25
20
20

30
45
35

0

14

7

(Area a
Factor)

only

Light Construction Heavy Construction

20
30

sq ft
sq ft
sq ft

sq ft
sq ft

sq ft

ft
ft

ft

30
60

30

19

8
3

5

12

3

600

watts

3

8. DOORS AND ARCHES
CONTINUOUSLY OPENED TO
UNCONDITIONED SPACE:
(Linear feet of width.)

9. SUB-TOTAL

10. TOTAL COOLING LOAD:
(BTU per hour to be used for selection
of room air conditioner(s).)

EUGENE

RENO

SACRAMENT

FRESNO

LAS VEGAS

ft

x x x x x x x x x x

(Item 9) x (Factor from Map) =

FARGO

GREEN BAY

WICHITA

PUEBLO

PHOENIX

SAN ANTONIO

BIRMINGHAM

300

ROCHESTER

ALBANY

NEW HAVEN

COLUMBIA

ATLANTA

32

RUNNING CONDITION

Note:

1. Select mode of the Running Condition of a Room Air Conditioner.

SELECTOR .................................................................................................... HIGH COOL

THERMOSTAT .............................................................................................. 64˚F

2. Data of Performance Curve is measured between 40%RH and 70%RH.

If you measure the Room Air Conditioner above or below this rating, the data may miss the range of the

performance curve.

3. Outlet air temp. is influenced by the method of measurement. Measurement examples are shown.

4. Use power input data when checking the Running Condition.

RUNNING CONDITION FOR

PERFORMANCE CURVE

AF-08CRL

900

800

700

600

500

7

6

Line current(Amp.) Power input (W)

5

30

(86)

20

(68)

10

(50)

Outlet air temp˚C (˚F)

25 30 35

(77) (86) (95) (104)

Outside air temp.˚C (˚F)

40%RH

70%RH

40%RH

70%RH

70%RH

40%RH

40

33

AF-08CRL

PACKING AND ACCESSORIES

TOP PAD ASSEMBLY (DPADBA006JBFZ)

Top pad L

4

3

5

6

Top pad R

Accessories
Operation manual
Window sash foam seal
Window sash seal
Bottom gasket

6

Screws
Base pan angle
Right closure assembly
Left closure assembly

5

Enegry card
(TLAB-C219JBEZ)

Detail is assembling
Energy card

Packing case
(SPAKCB003JBEZ)

Front side

"Front side" mark

2

Protect
(SSAKHA245YDE0)

Power supply cord

1

Bottom pad assembly
(CPADBA052JBKZ)

34

AF-08CRL

REPLACEMENT PARTS LIST

REF. NO. PART NO. DESCRIPTION Q'TY CODE

CABINET AND UNIT PARTS

1- 1 CMOTLB003JBEZ Fan motor 1 BM
1- 2 DCHS-A364JBTB Base pan ass’y 1 BA
1- 3 PFPFPB137JBE0 Base pan insulator 1 AF
1- 4 PFPFPB138JBE0 Base pan insulator 1 AF
1- 5 CCAB-A318JBKZ Cabinet ass’y 1 BB
1- 6 CWAK-C205JBKZ Top duct ass’y 1 AS
1- 7 HPNLCA805JBFC Control panel 1 AE
1- 8 HPNLCA816JBEA Control panel 1 AF
1- 9 PSEL-B825JBE0 Insulator 1 AE
1-10 LBND-A042JBE0 Wire fixing band 3 AC
1-11 LHLDW0364JBE0 Wire holder 1 AA
1-12 PSHE-A172JBE0 Protect sheet 1 AC
1-13 NFANPA078JBF0 Propeller fan 1 AU
1-14 NFANSA027JBF0 Centrifugal fan 1 AU
1-15 PFILMA164JBEA Air filter 1 AK
1-16 PKESPA034JBF0 Condenser shroud 1 AV
1-17 PKESPA057JBF0 Orifice 1 AK
1-18 PSEL-A827JBE0 Evaporator insulator 1 AB
1-19 PSEL-A994JBE0 Orifice insulator 1 AB
1-20 PSEL-A828JBE0 Motor insulator 1 AB
1-21 TLABMA309JBRZ Feature card 1 AD
1-22 PSEL-C085JBEZ Tube insulator 1 AC
1-23 PSKR-A104JBF0 Bulkhead 1 AS
1-24 PSRA-A078JBF0 Drain tray 1 AD
1-25 MJNTPA090JBFA Louver link 1 AC
1-26 MLOV-A333JBFA Horizontal louver 4 AC
1-27 MJNTPA089JBFA Louver joint 1 AC
1-28 MLOV-A321JBFA Vertical louver A 1 AC
1-29 MLOV-A322JBFA Vertical louver B 3 AC
1-30 MSPR-A148JBEZ Louver spring 2 AF
1-31 LANG-A213JBTA Top inst.angle 1 AF
1-32 LPLTMA087JBP0 Condenser cover 1 AB
1-33 GWAKPA151JBFA Front panel 1 AV
1-34 PSEL-B845JBE0 Insulator 1 AB
1-35 TLABBA110JBRA Sharp badge 1 AB
1-36 TLABKA564JBE0 Number card 1 AC
1-37 TLAB-C219JBEZ Energy card 1 AC
1-38 TSPC-E155JBRZ Name badge 1 AC
1-39 LHLD-A315JBF0 Thermistor holder 1 AE
1-40 PFPFPB745JBE0 Comp-cushion 1 AE
1-41 DSKR-A124JBKZ Bulkhead ass’y 1 AY
1-42 LANG-A472JBPZ Cabinet angle 2 AC

CONTROL BOX PARTS

2- 1 DPLT-A056JBWZ Cont. box angle ass’y 1 AK
2- 2 LBNDKA058JBWZ Capacitor clamp 1 AD
2- 3 DPLT-A038JBW0 Cont. box cover ass’y 1 AK
2- 4 DPWBFA246JBKZ Control board unit 1 BF
2- 5 PSPA-A084JBE0 Spacer 2AC
2- 6 PSPA-A085JBE0 Spacer 1AC
2- 7 QACC-A260JBZZ Power supply cord 1 AS
2- 8 QFS-AA048JBE0 Fuse 1AB
2- 9 TLABCB604JBRZ Wiring diagram 1 AA
2-10 QW-VZC561JBE0 Lead wire 1 AD
2-11 QW-VZD376JBE0 Compressor cord 1 AR
2-12 RC-HZA256JBE0 Fan motor capacitor 1 AM
2-13 RC-HZA136JBE0 Running capacitor 1 AU
2-14 RH-HXA006JBZZ Thermistor 1 AK
2-15 LBND-A042JBE0 Wire fixing band 3 AC
2-16 QW-VZC366JBE0 Lead wire 1 AD
2-17 PPLT-A300JBEZ Insulating sheet 1 AF
2-18 PPLT-A305JBEZ Insulating sheet 1 AA

CYCLE PARTS

3- 1 PCMPRA327JBEZ Compressor 1 CA
3- 2 PCON-A483JBEZ Condenser 1 BP
3- 3 PEVA-A423JBEZ Evaporator 1 BM
3- 4 DCPY-A282JBKZ Capillary tube ass’y 1 AP
3- 5 RHOG-A130JBE0 Overload relay 1 AW

35

AF-08CRL

REF. NO. PART NO. DESCRIPTION Q'TY CODE

3- 6 PSEL-A150JBE0 Gasket washer 1 AA
3- 7 CPIP-A012JBKZ Suction tube ass’y 1 AU
3- 8 PPIPCC085JB10 Lead tube 1 AC
3- 9 PPIPCF110JB1Z Discharge tube 1 AM
3-10 GLEG-A073JBE0 Compressor cushion 3 AD
3-11 MSPR-A005JBE0 Protector spring 1 AB
3-12 PCOV-A002JBE0 Terminal cover 1 AE
3-13 PSEL-A006JBE0 Terminal gasket 1 AC

ACCESSORY PARTS

4- 1 TINSEA301JBRZ Operation manual 1 AE
4- 2 DX-BZA016JBK0 Screws kit 1 AW
4- 3 SSAKAA018YDE0 Bag 1AB
4- 4 XCTSD40P10000 Tapping screw 6 AA
4- 5 XMPSD40P25000 Wood screw 7 AA
4- 6 LANGAA030JBTA Base pan angle 2 AD
4- 7 PSEL-A351JBE0 Window insulator 1 AB
4- 8 PSEL-A931JBE0 Window insulator 1 AH
4- 9 PSEL-A932JBE0 Window insulator 1 AE
4-10 LANGAA012JBFE Right closure frame 1 AH
4-11 SPADBB452YDE0 Cardboard 1 AD
4-12 SSAKHA246YDE0 Bag 1AH
4-13 CRMC-A526JBEZ Remote control 1 AT
4-14 LHLD-A389JBFB Controller holder 1 AC
4-15 PPLTPA016JBFB Closure 2 AK
4-16 UBATUA027JBE0 Battery pack 1 AE
4-17 CFZK-B937JBKZ Closure ass’y 1 BA
4-18 LANGAA011JBFE Left closure frame 1 AH

PACKING PARTS

5-1 DPADBA006JBFZ Top pad ass’y 1 AK
5-2 CPADBA052JBKZ Bottom pad ass’y 1 AP
5-3 SPAKCB003JBEZ Packing case 1 AQ
5-4 SSAKHA245YDE0 Protect 1 AB
5-5 SSAKAA053YDE0 Bag 1AB
5-6 SPAD-A075JBE0 Comp holder HA 2 AC

SCREWS AND NUTS

6-1 LX-NZA002JBE0 Special nut 1 AA
6-2 LX-BZA236JBE0 Special screw 1 AC
6-3 XTPSD40P08000 Tapping screw 3 AA
6-4 XHTSD40P10000 Tap tight screw 5 AA
6-5 XHTSD40P08000 Tap tight screw 4 AA
6-6 XBPSD40P12J00 Machine screw 2 AB
6-7 LX-BZA140JBE0 Special screw 4 AB
6-8 LX-BZ0107CBE0 Special screw 1 AB
6-9 LX-CZA038WRE0 Special screw 4 AB
6-10 LX-NZA026JBE0 Special nut 3 AC
6-11 LX-NZA074JBE0 Special nut 1 AB
6-12 XCTSD40P06000 Tapping screw 2 AA
6-13 XCTWJ40P16000 Tapping screw 2 AA
6-14 LX-BZA172JBE0 Special screw 3 AB
6-15 XTTSD40P10000 Tapping screw 2 AA
6-16 XTTSD40P12000 Tapping screw 3 AA
6-17 XTTSD40P14000 Tapping screw 10 AA
6-18 XTTSD40P20000 Tapping screw 3 AA

HOW TO ORDER REPLACEMENT PARTS

To have your order filled prompty and correctly, please furnish the following information.

1. MODEL NUMBER 2. REF. NO. 3. PART NO. 4. DESCRIPTION

36

AF-08CRL

1-24

1-42

1-4

1-3

1-35

1-2

6-17

6-17

6-9

6-9

2-7

5-3

5-6

5-1

5-4

1-36

5-2

5-5

1-14

6-2

1-38

1-33

1-15

6-13

6-13

1-17

6-8

6-17

1-30

1-26

1-5

1-13

1-31

1-16

1-20

1-1

1-10

1-23

1-41

1-11

6-18

1-40

6-18

6-4

6-15

6-4

6-15

6-9

6-12

6-17

6-14

6-14

6-11

1-9

6-7

1-34

6-7

4-4

4-3

4-15

4-18

4-10

4-17

4-2

4-7

4-5

6-17

1-22

4-8

4-9

4-1

4-6

4-16

4-12

4-11

4-14

4-13

1-37

1-21

1-12

1-29

1-28

1-27

1-6

1-25

1-42

A

B

C

D

12345

CABINET PARTS

6

A

B

C

D

E

E

F

F

G

G

H

H

123456

37

AF-08CRL

12345

A

CONTROL BOX PARTS

6

A

1-8

1-7

B

B

2-4

2-18

C

2-1

2-6

C

6-5

2-5

6-3

D

D

6-16

6-6

2-4

2-2

2-13

2-12

6-4

E

6-4

E

2-7

2-14

F

2-8

2-15

6-5

2-17

2-10

6-5

2-3

F

2-9

6-16

G

G

H

123456

H

38

AF-08CRL

12345

A

CYCLE PARTS

6-1

3-6

6

A

3-12

B

1-19

3-11
3-5
3-13

2-16

2-11

B

1-18

3-2

6-10

C

3-3

3-1

3-9

6-7

C

6-17

3-7

D

3-8

1-32

D

3-4

1-10

6-17

1-39

6-10

2-10

E

3-10

6-17

E

6-5

F

G

F

G

H

123456

H

39

AF-08CRL

COPYRIGHT © 2002 BY SHARP CORPORATION

ALL RIGHTS RESERVED.

No part of this publication may be reproduced,
stored in retrieval systems, or transmitted in any
form or by any means, electronic, mechanical,
photocopying, recording, or otherwise, without prior
written permission of the publisher.

40

’02 SHARP CORP. 3S0.85E) Printed in U.S.A.