INSTALLATION INSTRUCTIONS
– Mini ECO-i System Air Conditioner –
X
A
U
D
T
for Refrigerant R410A
I R410A Models
Indoor Units
Class
7
9
12
18
24
36
48
X
A
U
D
T
4-Way Air Discharge Semi-Concealed Type
1-Way Air Discharge Semi-Concealed Type
Concealed Duct Type
XHX1252 XHX1852 XHX2452 XHX3652
AHX0752
UHX0752
AHX0952 AHX1252
UHX1252 UHX1852 UHX2452 UHX3652
Concealed Duct
High-Static Pressure Type
DHX3652 DHX4852
Ceiling-Mounted Type
Wall-Mounted Type
THX1252 THX1852
THX2452
K
KHX0752
KHX0952 KHX1252 KHX1852 KHX2452
Outdoor Units
K
Class
36
60
C
Mini ECO-i
CHX03652 CHX06052
* Refrigerant R410A is used in the outdoor units.
Optional Controllers
Timer Wired Remote Controller
Wireless Remote Controller (For U, D Type)
Wireless Remote Controller (For X Type)
Wireless Remote Controller (For A, T Type)
RC Wireless Remote Controller (For K Type)
Simplified Remote Controller
System Controller
RCS-TM80BG
RCS-BH80AAB.WL
RCS-SH80AAB.WL
RCS-TRP80AAB.WL
RCS-SH1AAB
RCS-KR1AGB
SHA-KC64UG
Intelligent Controller
SHA-KT256BA
SHA-KA128AAB
ART-K45AGB
Communication Adaptor
Remote Sensor
LonWorks Interface
SHA-LN16UAB
85464359981002 ©SANYO 2006
SANYO Electric Co., Ltd.
Gunma, Japan
2. The standards for minimum room volume are as fol-
lows.
Check of Density Limit
The room in which the air conditioner is to be installed
requires a design that in the event of refrigerant gas
leaking out, its density will not exceed a set limit.
The refrigerant (R410A), which is used in the air conditioner,
is safe, without the toxicity or combustibility of ammonia,
and is not restricted by laws imposed to protect the ozone
layer. However, since it contains more than air, it poses the
risk of suffocation if its density should rise excessively.
Suffocation from leakage of refrigerant is almost non-exis-
tent. With the recent increase in the number of high density
buildings, however, the installation of multi air conditioner
systems is on the increase because of the need for effective
use of floor space, individual control, energy conservation
by curtailing heat and carrying power, etc.
(1) No partition (shaded portion)
(2) When there is an effective opening with the adjacent
room for ventilation of leaking refrigerant gas (opening
without a door, or an opening 0.15% or larger than the
respective floor spaces at the top or bottom of the
door).
Outdoor unit
Refrigerant tubing
Most importantly, the multi air conditioner system is able to
replenish a large amount of refrigerant compared to
conventional individual air conditioners. If a single unit of
the multi air conditioner system is to be installed in a small
room, select a suitable model and installation procedure
so that if the refrigerant accidentally leaks out, its density
does not reach the limit (and in the event of an emergency,
measures can be made before injury can occur).
In a room where the density may exceed the limit, create
an opening with adjacent rooms, or install mechanical
ventilation combined with a gas leak detection device.
The density is as given below.
Indoor unit
(3) If an indoor unit is installed in each partitioned room
and the refrigerant tubing is interconnected, the
smallest room of course becomes the object. But when
mechanical ventilation is installed interlocked with a
gas leakage detector in the smallest room where the
density limit is exceeded, the volume of the next
smallest room becomes the object.
Refrigerant tubing
Total amount of refrigerant (oz)
Min. volume of the indoor unit installed room (ft.3)
Outdoor unit
3
<
Density limit (oz/ft. )
Very
small
The density limit of refrigerant which is used in multi air condi-
tioners is 0.3 oz/ft.3 (ISO 5149).
Indoor unit
room
Small
room
Medium
room
Large room
NOTE
1. If there are 2 or more refrigerating systems in a single
refrigerating device, the amount of refrigerant should be
as charged in each independent device.
Mechanical ventilation device – Gas leak detector
3. The minimum indoor floor space compared with the
amount of refrigerant is roughly as follows (when the
ceiling is 8.8 ft. high):
For the amount of charge in this example:
Outdoor unit
ft.3
ft.2
e.g., charged
amount (353 oz)
e.g., charged
amount (529 oz)
4000
454
Range below
the density limit of
0.3 oz/ft.3
(countermeasures
not needed)
3500
3000
2500
2000
1500
1000
500
398
341
284
227
170
114
57
Indoor unit
Room A Room B Room C Room D Room E Room F
Range above
the density limit of
0.3 oz/ft.3
(countermeasures
needed)
The possible amount of leaked refrigerant gas in rooms A, B
and C is 353 oz.
The possible amount of leaked refrigerant gas in rooms D, E
and F is 529 oz.
0
0
0
200 400 600 800 1000 1200
oz
Total amount of refrigerant
3
Precautions for Installation Using New Refrigerant
1. Care regarding tubing
1-1. Process tubing
G Material: Use C1220 phosphorous deoxidized copper specified in JIS H3300 “Copper and Copper Alloy Seamless
Pipes and Tubes.”
G Tubing size: Be sure to use the sizes indicated in the table below.
G Use a tube cutter when cutting the tubing, and be sure to remove any flash. This also applies to distribution joints
(optional).
G When bending tubing, use a bending radius that is 4 times the outer diameter of the tubing or larger.
Use sufficient care in handling the tubing. Seal the tubing ends with
CAUTION
caps or tape to prevent dirt, moisture, or other foreign substances
from entering. These substances can result in system malfunction.
Unit: in. (mm)
Material
O
Outer diameter
Wall thickness
1/4 (6.35)
1/32 (0.8)
3/8 (9.52)
1/32 (0.8)
1/2 (12.7)
1/32 (0.8)
5/8 (15.88)
5/128 (1.0)
3/4 (19.05)
5/128 (1.0)
Copper tube
1-2. Prevent impurities including water, dust and oxide from entering the tubing. Impurities can cause R410A
refrigerant deterioration and compressor defects. Due to the features of the refrigerant and refrigerating
machine oil, the prevention of water and other impurities becomes more important than ever.
2. Be sure to recharge the refrigerant only in liquid form.
2-1. Since R410A is a non-azeotrope, recharging the refrigerant in gas form can lower performance and cause
defects of the unit.
2-2. Since refrigerant composition changes and performance decreases when gas leaks, collect the remaining
refrigerant and recharge the required total amount of new refrigerant after fixing the leak.
3. Different tools required
3-1. Tool specifications have been changed due to the characteristics of R410A.
Some tools for R22- and R407C-type refrigerant systems cannot be used.
Manifold gauge
R407C tools
compatible
with R410A?
New
tool?
Item
Remarks
Manifold gauge Yes
No
Types of refrigerant, refrigerating machine oil, and
pressure gauge are different.
Charge hose
Yes
No
To resist higher pressure, material must be changed.
Vacuum pump Yes
Yes
Use a conventional vacuum pump if it is equipped
with a check valve. If it has no check valve,
purchase and attach a vacuum pump adapter.
Leak detector
Flaring oil
Yes
Yes
No
No
Leak detectors for CFC and HCFC that
react to chlorine do not function because
R410A contains no chlorine. Leak detector
for HFC134a can be used for R410A.
Vacuum pump
Outlet
Inlet
For systems that use R22, apply mineral oil (Suniso oil)
to the flare nuts on the tubing to prevent refrigerant
leakage. For machines that use R407C or R410A, apply
synthetic oil (ether oil) to the flare nuts.
* Using tools for R22 and R407C and new tools for R410A together can cause defects.
4
3-2. Use R410A exclusive cylinder only.
Valve
Single-outlet valve
(with siphon tube)
Liquid refrigerant should be recharged
with the cylinder standing on end as
shown.
Liquid
New refrigerant R410A cannot be used for
earlier models
1. Compressor specifications are different.
If recharging a R22 or R407C compressor with
R410A, durability will significantly decrease since
some of the materials used for compressor parts are
different.
2. Existing tubing cannot be used (especially R22).
Completely cleaning out residual refrigerating
machine oil is impossible, even by flushing.
R410A
3. Refrigerating machine oil differs (R22).
Since R22 refrigerating machine oil is mineral oil, it
does not dissolve in R410A. Therefore, refrigerating
machine oil discharged from the compressor can
cause compressor damage.
R22 refrigerating machine oil
Mineral oil (Suniso oil)
R407C refrigerating machine oil Synthetic fluid (ether oil)
R410A refrigerating machine oil Synthetic fluid (ether oil)
5
CONTENTS
Page
Page
3-11. Checking the Drainage
3-12. Electrical Power Wiring
3-13. How to Install the Ceiling Panel
IMPORTANT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Please Read Before Starting
Check of Density Limit
I Concealed Duct Type (U Type)
Precautions for Installation Using New Refrigerant
3-14. Required Minimum Space for Installation and
Service
3-15. Suspending the Indoor Unit
3-16. Installing the Drain Piping
3-17. Checking the Drainage
3-18. Increasing the Fan Speed
1. GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
1-1. Tools Required for Installation (not supplied)
1-2. Accessories Supplied
1-3. Type of Copper Tube and Insulation Material
1-4. Additional Materials Required for Installation
1-5. Tubing Size
1-6. Straight Equivalent Length of Joints
1-7. Additional Refrigerant Charge
1-8. System Limitations
1-9. Tubing Length
1-10. Check of Limit Density
1-11. Installing Distribution Joint
I Concealed Duct High-Static Pressure Type
(D Type)
3-19. Required Minimum Space for Installation and
Service
3-20. Suspending the Indoor Unit
3-21. Installing the Drain Piping
3-22. Caution for Ducting Work
3-23. Indoor Fan Performance
1-12. Optional Distribution Joint Kit
1-13. Example of Tubing Size Selection and
Refrigerant Charge Amount
I Ceiling-Mounted Type (T Type)
3-24. Required Minimum Space for Installation and
Service
2. SELECTING THE INSTALLATION SITE . . . . . 17
2-1. Indoor Unit
3-25. Suspending the Indoor Unit
3-26. Duct for Fresh Air
2-2. Outdoor Unit
2-3. Air-Discharge Chamber for Top Discharge
2-4. Installing the Unit in Heavy Snow Areas
2-5. Precautions for Installation in Heavy Snow
Areas
2-6. Dimensions of Air-Discharge Chamber
2-7. Dimensions of Outdoor Unit with
Air-Discharge Chamber (field supply)
2-8. Dimensions of Snow Ducting
2-9. Dimensions of Outdoor Unit with Snow-Proof
Ducting (field supply)
3-27. Shaping the Tubing
3-28. Installing the Drain Piping
I Wall-Mounted Type (K Type)
3-29. Removing the Rear Panel from the Unit
3-30. Selecting and Making a Hole
3-31. Installing the Rear Panel onto the Wall
3-32. Removing the Grille to Install the Indoor Unit
3-33. Preparing the Tubing
3-34. Shaping the Tubing
3-35. Installing the Drain Hose
3-36. When Using Wireless Remote Controller
Instead of Wired Remote Controller
3. HOW TO INSTALL THE INDOOR UNIT . . . . . 25
I 4-Way Air Discharge Semi-Concealed Type
(X Type)
4. HOW TO INSTALL THE OUTDOOR UNIT . . . 56
4-1. Installing the Outdoor Unit
3-1. Preparation for Suspending
3-2. Suspending the Indoor Unit
3-3. Placing the Unit Inside the Ceiling
3-4. Installing the Drain Piping
3-5. Checking the Drainage
3-6. How to Install the Ceiling Panel
3-7. Special Remarks
4-2. Drainage Work
4-3. Routing the Tubing and Wiring
5. ELECTRICAL WIRING . . . . . . . . . . . . . . . . . . 57
5-1. General Precautions on Wiring
5-2. Recommended Wire Length and Wire
Diameter for Power Supply System
I 1-Way Air Discharge Semi-Concealed Type
(A Type)
5-3. Wiring System Diagram
3-8. Suspending the Indoor Unit
3-9. Placing the Unit Inside the Ceiling
3-10. Installing the Drain Piping
6
Page
6. HOW TO PROCESS TUBING . . . . . . . . . . . . 61
6-1. Connecting the Refrigerant Tubing
6-2. Connecting Tubing Between Indoor and
Outdoor Units
6-3. Insulating the Refrigerant Tubing
6-4. Taping the Tubes
6-5. Finishing the Installation
7. AIR PURGING . . . . . . . . . . . . . . . . . . . . . . . . . 65
I Air Purging with a Vacuum Pump (for Test Run)
Preparation
8. TEST RUN . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
8-1. Preparing for Test Run
8-2. Test Run Procedure
8-3. Outdoor Unit PCB Setting
8-4. Auto Address Setting
8-5. Caution for Pump Down
8-6. Meaning of Alarm Messages
9. APPENDIX . . . . . . . . . . . . . . . . . . . . . . . . . . . 81
9-1. 4-Way Air Discharge Semi-Concealed Type
(X Type)
9-2. 1-Way Air Discharge Semi-Concealed Type
(A Type)
9-3. Concealed Duct (High-Static Pressure) Type
(U, D Type)
9-4. Ceiling-Mounted Type (T Type)
9-5. Wall-Mounted Type (K Type)
7
1-3. Type of Copper Tube and Insulation Material
1. GENERAL
If you wish to purchase these materials separately from
a local source, you will need:
This booklet briefly outlines where and how to install
the air conditioning system. Please read over the entire
set of instructions for the outdoor unit and make sure all
accessory parts listed are with the system before
beginning.
1. Deoxidized annealed copper tube for refrigerant tub-
ing.
2. Foamed polyethylene insulation for copper tubes as
required to precise length of tubing. Wall thickness of
the insulation should be not less than 5/16 in.
1-1. Tools Required for Installation (not supplied)
1. Standard screwdriver
2. Phillips head screwdriver
3. Knife or wire stripper
4. Tape measure
3. Use insulated copper wire for field wiring. Wire size
varies with the total length of wiring.
Refer to 5. ELECTRICAL WIRING for details.
5. Carpenter’s level
6. Sabre saw or key hole saw
7. Hacksaw
8. Core bits
9. Hammer
Check local electrical codes
CAUTION
and regulations before
obtaining wire. Also, check
any specified instructions or
limitations.
10. Drill
11. Tube cutter
12. Tube flaring tool
13. Torque wrench
1-4. Additional Materials Required for Installation
1. Refrigeration (armored) tape
14. Adjustable wrench
15. Reamer (for deburring)
2. Insulated staples or clamps for connecting wire (See
your local codes.)
1-2. Accessories Supplied
3. Putty
See Tables 1-1 – 1-7.
4. Refrigeration tubing lubricant
5. Clamps or saddles to secure refrigerant tubing
6. Scale for weighing
Table 1-1 (Outdoor Unit)
Q’ty
Part name
Figure
03652
Model
(4 hp)
06052
Model
(6 hp)
Tube Discharge
Assy
0
1
Instruction manual
paper
1
1
hp = horsepower
8
Table 1-2 (4-Way Air Discharge Semi-Concealed)
Part Name
Figure
Q’ty
Remarks
Full-scale installation diagram
1
Printed on container box
For securing drain hose
For securing drain hose
For drain joint
Drain hose
1
1
1
1
1
2
1
1
4
8
1
Hose band
Drain insulator
For liquid tube
Flare insulator
For gas tube
White
Insulating tape
Packing
For gas tube joint
For drain joint
(heat-resisting)
Wiring cover
Screw
For covering erectrical wiring
For full-scale installation diagram
For suspending indoor unit from ceiling
For fixing the wiring cover
Washer
Screw
Table 1-3 (1-Way Air Discharge Semi-Concealed)
Part Name
Figure
Q’ty
Remarks
Full-scale installation diagram
1
Printed on container box
Drain hose
1
1
1
1
1
2
1
8
4
1
For securing drain hose
For securing drain hose
For drain joint
Hose band
Drain insulator
For liquid tube
Flare insulator
For gas tube
White
Insulating tape
Packing
For gas tube joint
(heat-resisting)
For drain joint
Washer
For suspending indoor unit from ceiling
For full-scale installation diagram
For electrical junction box
Screw
Bushing
Table 1-4 (Concealed Duct)
Part Name
Figure
Q’ty
Remarks
Drain hose
1
For securing drain hose
Hose band
1
1
1
1
2
1
8
1
8
For securing drain hose
For drain joint
Packing
Drain insulator
Flare insulator
Insulating tape
Flare insulator
Washer
For drain joint
For liquid tube
White
For gas and liquid tubes flare nuts
For gas tube
(heat-resisting)
For suspending indoor unit from ceiling
For sealing recessed portion of power supply
For flare and drain insulators
Sealing putty
Vinyl clamp
G Use 3/8" for suspending bolts.
G Field supply for suspending bolts and nuts.
9
Table 1-5 (Concealed Duct High-Static Pressure)
Part Name
Figure
Q’ty
Remarks
Washer
8
For suspending indoor unit from ceiling
Nut
8
1
1
1
For suspending indoor unit from ceiling
For gas tube
Flare insulator
For liquid tube
Drain socket
For drain pipe connection
Table 1-6 (Ceiling-Mounted)
Part Name
Figure
Q’ty
Remarks
Full-scale installation diagram
1
Printed on container box
Washer
4
2
2
2
8
1
2
1
1
For temporarily suspending indoor unit from ceiling
T1/8"
Flare insulator
For gas and liquid tube joints
T3/16"
White
Insulating tape
Vinyl clamp
Drain hose
For gas and liquid tubes flare nuts
For flare and drain insulators
For main unit and PVC pipe joints
For drain hose connection
For drain hose joint
(heat-resisting)
L5-1/2"
Hose band
Drain insulator
Gum eyelet
For power supply inlet
Table 1-7 (Wall-Mounted)
Part Name
Figure
Q’ty
Remarks
5/32" × 1"
Tapping screw
10
For fixing the rear panel
Plastic cover
1
1
For improved tubing appearance
Insulator
For insulating flare nut (2452 type only)
1-5. Tubing Size
Table 1-8 Main Tubing Size (LA)
BTU/h (kW)
System horsepower
Gas tubing
38,200 (11.2)
4
52,900 (15.5)
6
ø5/8" (ø15.88)
ø3/4" (ø19.05)
Liquid tubing
ø3/8" (ø9.52)
Unit: in. (mm)
Table 1-9 Main Tubing Size After Distribution (LB, LC...)
Below BTU/h 24,200 (2.5 hp) 38,200 (4 hp) 47,800 (5 hp) 52,900 (6 hp)
Total capacity
after distribution
Over BTU/h
Gas tubing
Liquid tubing
–
24,200 (2.5 hp)
ø5/8" (ø15.88)
ø3/8" (ø9.52)
ø1/2" (ø12.7)
ø3/8" (ø9.52)
ø3/4" (ø19.05)
Tubing size
Unit: in. (mm)
hp = horsepower
Note: In case the total capacity of connected indoor units exceeds the total capacity of the outdoor units, select the main
tubing size for the total capacity of the outdoor units.
Table 1-10 Indoor Unit Tubing Connection (
,
2...
)
n–1
1
Indoor unit type
Gas tubing
7
9
12
18
24
36
48
ø1/2" (ø12.7)
ø5/8" (ø15.88)
Liquid tubing
ø1/4" (ø6.35)
ø3/8" (ø9.52)
Unit: in. (mm)
10
1-6. Straight Equivalent Length of Joints
Design the tubing system by referring to the following table for the straight equivalent length of joints.
Table 1-11 Straight Equivalent Length of Joints
Unit: ft.
Gas tubing size (in. (mm))
90° elbow
1/2" (12.7) 5/8" (15.88) 3/4" (19.05)
1
1.1
0.9
3.4
9.2
1.4
1
0.8
3
45° elbow
4.1
10.5
U-shape tube bend (R2-3/8" – 4" (60 – 100))
Trap bend
7.5
Y-branch distribution joint
Ball valve for service
Equivalent length conversion not needed.
Equivalent length conversion not needed.
Table 1-12 Required Copper Tubing Dimensions
Material
Unit: in. (mm)
O
Outer diameter
Wall thickness
1/4 (6.35)
1/32 (0.8)
3/8 (9.52)
1/32 (0.8)
1/2 (12.7)
1/32 (0.8)
5/8 (15.88)
5/128 (1.0)
3/4 (19.05)
Copper tube
over 5/128 (1.0)
1-7. Additional Refrigerant Charge
Additional refrigerant charge amount is calculated from the liquid tubing total length as follows.
Table 1-13 Amount of Refrigerant Charge Per Meter, According to Liquid Tubing Size
Liquid tubing size
(in. (mm))
Amount of refrigerant
charge (oz/ft.)
Required amount of charge = (Amount of refrigerant
charge per meter of each size of liquid tube × its tube
length) + (...) + (...)
ø1/4" (ø6.35)
ø3/8" (ø9.52)
0.279
0.602
*Always charge accurately using a scale for weighing.
Table 1-14 Refrigerant Charge Amount at Shipment (for outdoor unit)
Heat pump unit
(Single-phase)
(oz)
CHX03652
CHX06052
123
123
1-8. System Limitations
Table 1-15 System Limitations
CHX03652 CHX06052
Outdoor units (Type)
6
9
Number of max. connectable indoor units
Max. allowable indoor/outdoor capacity ratio
50 – 130%
11
1-9. Tubing Length
Select the installation location so that the length and size of refrigerant tubing are within the allowable range shown
in the figure below.
L1
L2
LA
LB
LC
LD
n
Main tube of unit
H1
1st branch
Unit distribution tube
2
3
1
n-1
L3
H2
Note: Do not use commercially available T-joints for the liquid tubing.
R410A distribution joint
APR-P160BA (for indoor unit)
* Be sure to use special R410A distribution joints (APR: purchased separately) for outdoor
unit connections and tubing branches.
Table 1-16 Ranges that Apply to Refrigerant Tubing Lengths and to Differences in Installation Heights
Items
Marks
Contents
Length (ft.)
>
Actual length
492
L1
Max. tubing length
>
574
Equivalent length
Difference between max. length and min.
length from the No.1 distribution joint
Allowable tubing
length
>
131
L (L2 – L3)
>
98
,
2...
Max. length of each distribution tube
1
n
Total max. tubing length including length of
>
656
+ +...
2
n–1+L1
1
each distribution tube (only narrow tubing)
>
164
When outdoor unit is installed higher than indoor unit
H1
H2
Allowable elevation
difference
>
When outdoor unit is installed lower than indoor unit
131
>
49
Max. difference between indoor units
L = Length, H = Height
12
Always check the gas density
limit for the room in which the
unit is installed.
Minimum indoor volume & floor area as against the
amount of refrigerant is roughly as given in the following
table.
WARNING
ft.3
10000
ft.2
1136
1079
1022
966
909
852
795
738
682
625
568
511
454
398
341
284
227
170
114
57
1-10. Check of Limit Density
9500
9000
8500
8000
7500
7000
6500
6000
5500
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
When installing an air conditioner in a room, it is neces-
sary to ensure that even if the refrigerant gas accidentally
leaks out, its density does not exceed the limit level for
that room.
Range below
the density limit of
0.3 oz/ft.3
(countermeasures
not needed)
If the density could exceed the limit level, it is necessary to
provide an opening between the unit and the adjacent
room, or to install mechanical ventilation which is inter-
locked with the leak detector.
Range above
the density limit of
0.3 oz/ft.3
(countermeasures
needed)
(Total refrigerant charged amount: oz)
(Min. indoor volume where the indoor unit is installed: ft.3)
3
<
Limit density 0.3 (oz/ft. )
0
0
0
500 1000 1500 2000 2500 3000
oz
The limit density of refrigerant which is used in this unit is
0.3 oz/ft. (ISO 5149).
Total amount of refrigerant
3
The shipped outdoor unit comes charged with the amount
of refrigerant fixed for each type, so add it to the amount
that is charged in the field. (For the refrigerant charge
amount at shipment, refer to the unit’s nameplate.)
Tube branching methods (horizontal use)
B
Pay special attention to any
CAUTION
Horizontal
line
A
location, such as a basement,
etc., where leaking refrigerant
can accumulate, since refrig-
erant gas is heavier than air.
A
B
View as seen
from arrow
Arrow view
1-11. Installing Distribution Joint
Types of vertical trap specifications
(When using ball valve)
Main tubing
(1) Refer to “HOW TO ATTACH DISTRIBUTION JOINT”
enclosed with the optional distribution joint kit
(APR-P160BA).
(2) In order to prevent accumulation of refrigerant oil in
stopped units, if the main tubing is horizontal then each
branch tubing length should be at an angle that is
greater than horizontal. If the main tubing is vertical,
provide a raised starting portion for each branch.
Indoor unit (more than 2 units)
(If only 1 unit is connected,
a ball valve is also needed on this side.)
Ball valve
(BV: purchased
separately)
Indoor unit (1)
(When not using ball valve)
(3) If there are height differences between indoor units or if
branch tubing that follows a distribution joint is connect-
ed to only 1 unit, a trap or ball valve must be added to
that distribution joint. (When adding the ball valve,
locate it within 1.3 ft. of the distribution joint.)
(Consult with SANYO separately concerning the ball
valve.)
Main tubing
Horizontal
Indoor unit
(Each unit is connected to
tubing that is either level
or is directed downward.)
Branch tubing is
directed upward.
More than
8 in.
Indoor unit is directed downward
If a trap or ball valve is not added, do not operate
the system before repairs to a malfunctioning unit
are completed. (The refrigerant oil sent through the
tubing to the malfunctioning unit will accumulate
and may damage the compressor.)
13
1-12. Optional Distribution Joint Kit
See the installation instructions packaged with the distribution joint kit for the installation procedure.
Table 1-17
Model name
Cooling capacity after distribution
Remarks
APR-P160BA
76,400 BTU/h (22.4 kW) or less
For indoor unit
APR-P160BA
Use: For indoor unit (Capacity after distribution joint is 76,400 BTU/h (22.4 kW) or less.)
Example
Gas tube
4-21/64
Liquid tube
4-21/64
3-13/16
3-13/16
B
B
C
DE
C
D
B
A
A
C
B
Distribution
Distribution
Joint
Joint
D
C
E
Unit: in.
Insulation
Insulation
Table 1-18 Size of connection point on each part (Shown are inside diameters of tubing)
Size
Part A
Part B
Part C
Part D
Part E
ø3/4"
(ø19.05) (ø15.88)
ø5/8"
ø1/2"
(ø12.7)
ø3/8"
(ø9.52)
ø1/4"
(ø6.35)
in. (mm)
14
1-13. Example of Tubing Size Selection and Refrigerant Charge Amount
Additional refrigerant charging
Based on the values in Tables 1-2, 1-3, 1-4 and 1-7, use the liquid tubing size and length, and calculate the amount
of additional refrigerant charge using the formula below.
Required additional
refrigerant charge (oz)
= 0.602 × (a) + 0.279 × (b)
(a): Liquid tubing
Total length of ø3/8" (ft.)
(b): Liquid tubing
Total length of ø1/4" (ft.)
G Charging procedure
Be sure to charge with R410A refrigerant in liquid form.
1. After performing a vacuum, charge with refrigerant from the liquid tubing side. At this time, all valves must be
in the “fully closed” position.
2. If it was not possible to charge the designated amount, operate the system in Cooling mode while charging
with refrigerant from the gas tubing side. (This is performed at the time of the test run. For this, all valves
must be in the “fully open” position.)
Charge with R410A refrigerant in liquid form.
With R410A refrigerant, charge while adjusting the amount being fed a little at a time in order to prevent
liquid refrigerant from backing up.
G After charging is completed, turn all valves to the “fully open” position.
G Replace the tubing covers as they were before.
1
4
Tightening torque: 590 – 710 lbs·in.
Tightening torque for valve stem cap: 160 – 180 lbs·in.
3
Tightening torque: 300 – 360 lbs·in.
2
Tightening torque for valve stem cap: 240 – 280 lbs·in.
1. R410A additional charging absolutely must be done through liquid charging.
2. The R410A refrigerant cylinder has a gray base color, and the top part is pink.
CAUTION
3. The R410A refrigerant cylinder includes a siphon tube. Check that the siphon
tube is present. (This is indicated on the label at the top of the cylinder.)
4. Due to differences in the refrigerant, pressure, and refrigerant oil involved in
installation, it is not possible in some cases to use the same tools for R22 and
for R410A.
15
Example:
L1
L2
LA
LB
LC
LN
n
Main tube of unit
1st branch
Unit distribution tube
model 1852
2
3
1
n–1
model 0752 model 0952 model 1252 model 1852
G Example of each tubing length
Main tubing
LA = 131 ft.
LB = 16 ft.
LC = 16 ft.
LD = 49 ft.
Distribution joint tubing
Indoor side
1 = 16 ft.
2 = 16 ft.
3 = 7 ft.
4 = 20 ft.
5 = 16 ft.
G Obtain charge amount for each tubing size
Note that the charge amounts per 3.3 ft. are different for each liquid tubing size.
ø3/8" (ø9.52) → LA + LB + LC + LD
ø1/4" (ø6.35) → 1 + 2 + 3 + 4 + 5 : 75 ft. × 0.279 oz/ft.
: 212 ft. × 0.602 oz/ft. = 127 oz
20 oz
=
Total 147 oz
Additional refrigerant charge amount is 147 oz.
Be sure to check the limit
density for the room in which
the indoor unit is installed.
CAUTION
Checking of limit density
Density limit is determined on the basis of the size of a
room using an indoor unit of minimum capacity. For
instance, when an indoor unit is used in a room (floor area
80 ft2 × ceiling height 8.8 ft. = room volume 704 ft.3), the
graph at right shows that the minimum room volume
should be 497 ft.3 (floor area 56 ft.2) for refrigerant of 147
oz. Accordingly, openings such as louvers are required for
this room.
ft.3
4000
ft.2
454
Range below
the density limit of
0.3 oz/ft.3
(countermeasures
not needed)
3500
3000
2500
2000
1500
1000
500
398
341
284
227
170
114
57
Range above
the density limit of
0.3 oz/ft.3
(countermeasures
needed)
<Determination by calculation>
Overall refrigerant charge amount for the air conditioner: oz
(Minimum room volume for indoor unit: ft.3)
147 (oz) + 123 (oz)
0
0
0
200 400 600 800 1000 1200
oz
Total amount of refrigerant
=
= 0.38 (oz/ft.3) > 0.3 (oz/ft.3)
704 (ft.3)
Therefore, openings such as louvers are required for this
room.
16
2. SELECTING THE INSTALLATION SITE
Ceiling-Mounted Type
Ceiling
2-1. Indoor Unit
AVOID:
Wall
G areas where leakage of flammable gas may be
expected.
min. 10 in.
min. 10 in.
G places where large amounts of oil mist exist.
Front view
G direct sunlight.
NOTE
G locations near heat sources which may affect the
The rear of the indoor unit can be installed flush
against the wall.
performance of the unit.
Air
discharge
G locations where external air may enter the room
directly. This may cause “sweating” on the air dis-
charge ports, causing them to spray or drip.
Air intake
min. 2 ft.
G locations where the remote controller will be splashed
with water or affected by dampness or humidity.
G installing the remote controller behind curtains or
Side view
Max. 10 in.
Obstacle
furniture.
G locations where high-frequency emissions are
Fig. 2-1
generated.
ConcealedDuct(High-StaticPressure)Type
4-Way Air Discharge Semi-Concealed Type
DO:
G select an appropriate position from which every
corner of the room can be uniformly cooled.
G select a location where the ceiling is strong enough
to support the weight of the unit.
G select a location where tubing and drain pipe have
the shortest run to the outdoor unit.
G allow room for operation and maintenance as well as
unrestricted air flow around the unit.
Fig. 2-2
G install the unit within the maximum elevation
difference above or below the outdoor unit and within
a total tubing length (L) from the outdoor unit as
detailed in Table 1-16.
1-Way Air Discharge Semi-Concealed Type
Ceiling
Air
G allow room for mounting the remote controller about
3 ft. off the floor, in an area that is not in direct
sunlight nor in the flow of cool air from the indoor
unit.
discharge
Air
intake
min. 2 in.
Wall
Wall
min. 2 in.
Obstacle
Side view
Fig. 2-3
NOTE
Wall-Mounted Type
Air delivery will be degraded if the distance from the
floor to the ceiling is greater than 10 ft.
min. 6 in.
min.
6 in.
min.
6 in.
Front View
Fig. 2-4
17
2-2. Outdoor Unit
Exhaust fan
AVOID:
Hot air
G heat sources, exhaust fans, etc. (Fig. 2-5)
G damp, humid or uneven locations
Heat source
Out-
door
unit
DO:
G choose a place as cool as possible.
G choose a place that is well ventilated and outside
air temperature does not exceed maximum 113°F
constantly.
Fig. 2-5
G allow enough room around the unit for air intake/
exhaust and possible maintenance. (Fig. 2-6)
G use lug bolts or equal to bolt down unit, reducing
vibration and noise.
Installation space
Distance between obstructions and the unit air inlet
and outlet must be as shown below.
(Obstruction above unit)
Air direction chamber
(field supply)
*3
Inlet side C
B
More than 25/64"
*2
More than 25/64"
*4
A
Outlet side
More than
3.3 ft.
Inlet side
More than 8 in.
*1
(Obstruction on
inlet side)
*1
Fig. 2-6
(Ground)
Fig. 2-7
G Concerning inlet-side distance “C” (Fig. 2-6)
CAUTION
The minimum for distance “C” is 6 in. if there are no obstructions on the outlet side
(wall *1 side) and *2 or *4 is not present. In all other cases, the minimum for distance
“C” is 8 in.
G If the unit is installed with the outlet side facing wall *1, then there must be no obstruc-
tions on 2 of the remaining 3 sides: *2, *3, *4.
G If wall *1 is on the outlet side (Fig. 2-6), or if obstructions are present on all 3 sides *2,
*3, and *4 (Fig. 2-6), then the minimum distance for “A” and “B” is 6.6 ft. (Fig. 2-8).
Even if there is no wall on the outlet side, a minimum of 3.3 ft. is required.
In case of multiple installations
G provide a solid base (concrete block, 4 × 16 in.
beams or equal), a minimum of 6 in. above ground
level to reduce humidity and protect the unit against
possible water damage and decreased service life.
(Fig. 2-8)
Anchor bolts
(4 pieces)
G use lug bolts or equal to bolt down unit, reducing
vibration and noise.
Fig. 2-8
18
2-3. Air Discharge Chamber for Top Discharge
Be sure to install an air discharge chamber (field sup-
ply) in the field when:
Air discharge
G it is difficult to keep a space of min. 20 in. between
the air discharge outlet and an obstacle.
G the air discharge outlet is facing a sidewalk and
discharged hot air may annoy passers-by.
Refer to Fig. 2-10.
2-4. Installing the Unit in Heavy Snow Areas
In locations with strong wind, snow-proof ducting
(field supply) should be fitted and direct exposure to
the wind should be avoided as much as possible.
Fig. 2-10
I Countermeasures against snow and wind
In regions with snow and strong wind, the following
problems may occur when the outdoor unit is not pro-
vided with a platform and snow-proof ducting:
In regions with significant snowfall, the outdoor unit should
be provided with a platform and snow-proof ducting.
a) The outdoor fan may not run and damage to the
unit may occur.
b) There may be no air flow.
c) The tubing may freeze and burst.
d) The condenser pressure may drop because of
strong wind, and the indoor unit may freeze.
2-5. Precautions for Installation in Heavy Snow
Areas
(1) The platform should be higher than the max. snow
depth. (Fig. 2-11)
Without snow-
proof ducting
(Low platform)
With snow-
proof ducting
(High platform)
(2) The 2 anchoring feet of the outdoor unit should be
used for the platform, and the platform should be
installed beneath the air intake side of outdoor
unit.
Fig. 2-11
(3) The platform foundation must be firm and the unit
must be secured with anchor bolts.
Outdoor
Unit
(4) In case of installation on a roof subject to strong
wind, countermeasures must be taken to prevent
the unit from being blown over.
Duct
Air
Intake
Fig. 2-12
19
2-6. Dimensions of Air-Discharge Chamber
Reference diagram for air-discharge chamber (field supply)
CHX03652/06052
1
Unit front, air discharge chamber
2
Unit left side, air discharge chamber
2
3
4
Unit light side, air discharge chamber
Reinforcement brackets, 4 locations
9-7/16
1-1/8
3
1-1/8
9-7/16
4
1
Rectangular
hole
Rectangular
hole
Rectangular
hole
Rectangular
hole
22-13/32
1
21-13/32
1
Unit: in.
2-7. Dimensions of Outdoor Unit with Air-Discharge Chamber (field supply)
CHX03652/06052
6-11/16
25-31/32
4-5/16
Wind direction
1/2
1/2
1/2
2-11/36
21-13/32
37
11-13/16
Wind direction
Wind
direction
Wind
direction
Wind direction
Wind
direction
Wind
direction
Unit: in.
20
Reference for air-discharge chamber (field supply)
Required space around outdoor unit
CHX03652/06052
If an air discharge chamber is used, the space shown below must be secured around the outdoor unit.
If the unit is used without the required space, a protective device may activate, preventing the unit from operating.
(1) Single-unit installation
Unit: in.
The top and both sides must remain open.
If there are obstacles to the front and rear of the outdoor unit,
the obstacle at either the front or rear must be no taller than the
CAUTION
height of the outdoor unit.
(2) Multiple-unit installation
Installation in lateral rows
G
More than 11-13/16
More than 11-13/16
Unit: in.
More than 7-7/8
The front and top must remain open.
The obstacles must be no taller than the height of the outdoor unit.
CAUTION
Installation in front-rear rows
G
Installation with intakes facing
Installation with intakes facing outlets
intakes or outlets facing outlets
More than 15-3/4
More than 78-3/4
More than 59-1/16
Unit: in.
The front and both sides must remain open.
CAUTION
21
2-8. Dimensions of Snow Ducting
Reference diagram for snow-proof ducting (field supply)
CHX03652/06052
Fastened by screws at 13 locations
30-3/32
1
2
3
4
Unit top, snow-proof vent
Unit left side
Unit right side
4
1
Unit reverse side
Unit: in.
25-13/32
17-15/32
3
11-7/8
2
3-3/4
19-11/16
3-31/32
Fastened by screws at
3 locations (also on reverse side)
5/8
1-3/16
1-5/8
28-3/4
Fastened by screw at
1 location (also on reverse side)
15-9/32
30-5/8
2-9. Dimensions of Outdoor Unit with Snow-Proof Ducting (field supply)
CHX03652/06052
30-3/32
7-1/16
Wind direction
Wind direction
Unit: in.
Wind direction
Wind direction
37
24-7/8
11-29/32
Wind direction
Wind direction
22
Reference diagram for snow-proof ducting – 1
Space requirements for setting – (1)
CHX03652/06052
[Obstacle to the front of unit]
[Obstacle to the rear of unit]
G
G
Top is open:
Top is open:
(1) Single-unit installation (2) Obstacles on both sides
(1) Single-unit installation
Min. B
(2) Multiple-unit installation (2 or more units)
Min. C
(3) Multiple-unit installation (2 or more units)
Min. I
Min. I
H
I
J
Outdoor unit
CHX03652/06052
19-11/16 11-13/16 39-3/8
Min. E
Min. E
Min. E
Min. F
A
B
C
D
E
F
G
Outdoor unit
CHX03652/06052
5-29/32 5-29/32 11-13/16 7-7/8 11-13/16 5-29/32 7-7/8
G
Note: In cases 2 and 3 the height of the obstacle
must be no taller than the height of the outdoor
unit.
Top is blocked by an obstacle:
G
Top is blocked by an obstacle:
Min. M
Min. L
M
N
Outdoor unit
CHX03652/06052
39-3/8 39-3/8
K
L
Outdoor unit
CHX03652/06052
19-11/16 5-29/32
Unit: in.
23
Reference diagram for snow-proof ducting – 2
Space requirements for setting – (2)
CHX03652/06052
[Obstacles to the front and rear of unit]
G
The top and both sides must remain open. Either the obstacle to the front or
the obstacle to the rear must be no taller than the height of the outdoor unit.
(1) Single-unit installation
Dimension Q
If a snow protection duct is attached after the unit is
installed, verify that dimension Q is 19-11/16 in. or more.
O
P
Outdoor unit
CHX03652/06052
39-3/8 5-29/32
(2) Obstacles on both sides
Min. 11-13/16
Min. 11-13/16
[Installation in front-rear rows]
G The top and both sides must remain open. Either the obstacle to the front or the obstacle
to the rear must be no taller than the height of the outdoor unit.
0
Min. 11-13/16
Min. 39-3/8
Min. 7-7/8
Min. 59-1/16
Min. 78-3/4
Dimension Q
If a snow protection duct is
attached after the unit is
installed, verify that dimension
Q is 19-11/16 in. or more.
Unit: in.
24
3. HOW TO INSTALL THE INDOOR UNIT
I 4-Way Air Discharge Semi-Concealed Type (X Type)
Note: For DC Fan Tap Change Procedure
for 4-Way Cassette, see page 31.
3-1. Preparation for Suspending
This unit uses a drain pump. Use a carpenter’s level to check that the
unit is level.
Hole-in-anchor
Hole-in-plug
X
Concrete
Insert
3-2. Suspending the Indoor Unit
(1) Fix the suspension bolts securely in the ceiling using the method
shown in the diagrams (Figs. 3-1 and 3-2), by attaching them to the
ceiling support structure, or by any other method that ensures that
the unit will be securely and safely suspended.
Suspension bolt (M10 or 3/8")
(field supply)
(2) Follow Fig. 3-2 and Table 3-1 to make the holes in the ceiling.
Fig. 3-1
Table 3-1
Unit: in. (mm)
Length
A
B
C
D
Type
31-1/32 28-15/32 34-27/32 34-27/32
(788) (723) (885) (885)
12, 18, 24, 36
(3) Determine the pitch of the suspension bolts using the supplied full-
scale installation diagram. The diagram and table (Fig. 3-3 and
Table 3-2) show the relationship between the positions of the sus-
pension fitting, unit, and panel.
Unit: in. (mm)
Table 3-2
A (suspension bolt pitch)
Length
A
B
C
D
E
Type
C (ceiling opening dimension)
4-29/64
(113)
6-13/16
(173)
10-5/64
(256)
8-17/64
(210)
3-15/32
(88)
12, 18, 24
Fig. 3-2
4-29/64
(113)
6-13/16
(173)
12-9/16
(319)
8-17/64
(210)
3-15/32
(88)
36
Drain outlet(other side)
Refregerant tubing joint(liquid side)
Refregerant tubing joint(gas side)
(VP25)
Suspension lug
Power supply outlet
Inter-unit control wiring
Unit: in. (mm)
Fig. 3-3
3-3. Placing the Unit Inside the Ceiling
(1) When placing the unit inside the ceiling, determine
the pitch of the suspension bolts using the supplied
full-scale installation diagram. (Fig. 3-4)
Tubing and wiring must be laid inside the ceiling
when suspending the unit. If the ceiling is already
constructed, lay the tubing and wiring into position
for connection to the unit before placing the unit
inside the ceiling.
Full-scale installation diagram
(printed on top of container box)
Supplied bolt
Unit: in. (mm)
Fig. 3-4
25
(2) The length of suspension bolts must be appropriate
for a distance between the bottom of the bolt and the
bottom of the unit of more than 19/32 in. as shown in
Fig. 3-5.
Suspension bolt
Suspension lug
Nuts and washers
(use for upper and lower)
(3) Thread the 3 hexagonal nuts and 2 washers (field
supply) onto each of the 4 suspension bolts as shown
in Fig. 3-5. Use 1 nut and 1 washer for the upper side,
and 2 nuts and 1 washer for the lower side, so that the
unit will not fall off the suspension lugs.
X
Notch
Double nut
15/32 – 43/64 (12 – 17)
(4) Adjust so that the distance between the unit and the
ceiling bottom is 15/32 to 43/64 in. Tighten the nuts on
the upper side and lower side of the suspension lug.
Unit: in.
Fig. 3-5
(5) Remove the protective polyethylene used to protect
the fan parts during transport.
Hard PVC
socket
Hard PVC pipe
VP-25
(Field supply)
Hose band
Connection pipe
VP-25
(Field supply)
3-4. Installing the Drain Piping
Supplied
drain hose
(drain port)
(1) Prepare a standard hard PVC pipe (O.D. 1-1/4 in.) for
the drain and use the supplied drain hose and hose
band to prevent water leaks.
The PVC pipe must be purchased separately. The
unit’s transparent drain port allows you to check
drainage. (Fig. 3-6)
PVC adhesive
Packing
(supplied)
Align the hose
band with the end
of the pipe
CAUTION
Bead
Fig. 3-6
G Insert the drain pipe until it contacts the socket, as
shown in Fig. 3-6, then secure it tightly with the
hose band.
G Do not use adhesive when connecting the supplied
hose.
Drain insulator (supplied)
Reasons: 1. It may cause water to leak from the
connection. Since the connection is
slippery just after the adhesive has been
applied, the pipe easily slips off.
2. The pipe cannot be removed when
maintenance is needed.
Fig. 3-7
G Do not bend the supplied drain hose 90° or more.
The hose may slip off.
G Align the hose bands with the end of the hose.
Tighten the hose band firmly. Please make sure
that the bead is not covered by the hose band.
(Fig. 3-6)
Air bleeder prohibited
Tighten the hose clamps so
their locking nuts face upward.
(Fig. 3-6)
CAUTION
Fig. 3-8
(2) After checking the drainage, wrap the supplied packing
and drain pipe insulator around the pipe. (Fig. 3-7)
G Do not install an air bleeder
as this may cause water to
spray from the drain pipe
outlet. (Fig. 3-8)
CAUTION
NOTE
Make sure the drain pipe has a downward gradient (1/100
or more) and that there are no water traps.
26
CAUTION
11-3/16 in. or less (as short as possible)
33-15/32 in. or less
G In cases where it is necessary to raise the height
of the drain piping, the drain piping can be raised
to a maximum height of 33-15/32" above the
bottom surface of the ceiling. Under no
conditions attempt to raise it higher than
33-15/32" above the bottom surface of the ceiling.
Doing so will result in water leakage. (Fig. 3-9)
G Do not install the pipe with an upward gradient
from the connection port. This will cause the
drain water to flow backward and leak when the
unit is not operating. (Fig. 3-10)
0 – 45°
X
* Length of supplied drain hose = 9-27/32 in.
Fig. 3-9
Upward gradient prohibited
G Do not apply force to the piping on the unit side
when connecting the drain pipe. The pipe should
not be allowed to hang unsupported from its
connection to the unit. Fasten the pipe to a wall,
frame, or other support as close to the unit as
possible. (Fig. 3-11)
Fig. 3-10
G Provide insulation for any pipes that are run
indoors.
Support
pieces
3-5. Checking the Drainage
Fig. 3-11
After wiring and drain piping are completed, use the
following procedure to check that the water will drain
smoothly. For this, prepare a bucket and wiping cloth to
catch and wipe up spilled water.
Drainage check
(1) Connect power to the power terminal board (R, S
terminals) inside the electrical component box.
(2) Slowly pour about 0.3 gal of water into the drain pan
to check drainage. (Fig. 3-12)
(3) Short the check pin (CHK) on the indoor control
board and operate the drain pump. Check the water
flow through the transparent drain pipe and see if
there is any leakage.
Drain pan outlet
Plastic container
for water intake
Water (Approx. 0.3 gal)
(4) When the check of drainage is complete, open the
check pin (CHK) and remount the tube cover.
Fig. 3-12
Be careful since the fan will
start when you short the pin
on the indoor control board.
CAUTION
27
3-6. How to Install the Ceiling Panel
A
must be within the range of 15/32 – 43/64 in.
3-6-1. Before Installing the Ceiling Panel
Checking the unit position
If not within this range, malfunction or other trouble may result.
(1) Check that the ceiling hole is within this range:
X
33-55/64 × 33-55/64 to 35-53/64 × 35-53/64 in.
Main unit
(2) Use the full-scale installation diagram (from the
packaging) that was supplied with the unit to
determine the positioning of the unit on the ceiling
surface. If the positions of the ceiling surface and
unit do not match, air leakage, water leakage, flap
operation failure, or other problems may result.
A
Ceiling opening
dimension
Ceiling side
Fig. 3-13
Flap
CAUTION
G Never place the panel face-down. Either hang
it vertically or place it on top of a projecting
object. Placing it face-down will damage the
surface.
G Do not touch the flap or apply force to it.
(This may cause flap malfunction.)
Fig. 3-14
Remove the air-intake grille and air filter from the
ceiling panel. (Figs. 3-16, 3-17 and 3-18)
Screw
Latch
a) Remove the 2 screws on the latch of the air-intake
grille. (Fig. 3-16)
b) Slide the air-intake grille catches in the direction
1
shown by the arrows
(Fig. 3-17)
to open the grille.
c) With the air-intake grille opened, remove the grille
hinge from the ceiling panel by sliding it in the direc-
tion shown by the arrow 2 . (Fig. 3-18)
Fig. 3-15
Air-intake grille
Ceiling panel
Removing the corner cover
1
1
a) Slide the corner cover to the direction shown
1
by the arrow
(Fig. 3-18).
to remove the corner cover.
2
Air-intake grille hinge
Fig. 3-16
Fig. 3-17
Ceiling panel
Corner cover
1
Push
Strap
Corner cover
Fig. 3-18
28
Inter-unit control wiring
3-6-2. Installing the Ceiling Panel
After completing the wiring process, install the
supplied wiring cover before installing the panel.
It is not possible to install the wiring cover after
installing the panel.
The power must be turned ON in order to change the
flap angle. (Do not attempt to move the flap by hand.
Doing so may damage the flap.)
X
Screw (supplied)
Wiring cover (supplied)
Power supply outlet
M4-8 or 5/32" – 5/16"
(1) Insert the temporary fasteners (stainless steel) on
the inside of the ceiling panel into the square
holes on the unit to temporarily fasten the ceiling
panel in place. (Fig. 3-20-1)
Fig. 3-19-1
Fig. 3-19-2
Square hole in unit
G The ceiling panel must be installed in the correct
direction relative to the unit. Align the REF. PIPE
and DRAIN marks on the ceiling panel corner with
the correct positions on the unit.
Push when
Temporary
fastener
you remove
Temporary
fastener
G To remove the ceiling panel, support the ceiling
panel while pressing the temporary fasteners
toward the outside. (Fig. 3-20-1)
Fig. 3-20-1
Drain tubing corner
(2) Align the panel installation holes and the unit
screw holes.
Refrigerant tubing
corner
(3) Tighten the supplied washer head screws at the
4 panel installation locations so that the panel is
attached tightly to the unit. (Fig. 3-20-2)
After completing the
wiring process, install
the supplied wiring cover
before installing the panel.
It is not possible to install
the wiring cover after
installing the panel.
(4) Check that the panel is attached tightly to the
ceiling.
Celling panel
G At this time, make sure that there are no gaps
between the unit and the ceiling panel, or between
the ceiling panel and the ceiling surface.
(Fig. 3-21)
DRAIN mark
G If there is a gap between the panel and the ceiling,
leave the ceiling panel attached and make fine
adjustments to the installation height of the unit to
eliminate the gap with the ceiling. (Fig. 3-21)
Panel installation hole
(4 locations)
REF,PIPE
mark
Washer head
screws
Fig. 3-20-2
Insert a wrench
or other tool into
the corner cover
installation hole
and make fine
adjustments to
the unit nut.
Do not allow
gaps
Main unit
Ceiling surface
Ceiling panel
CAUTION
Fig. 3-21
Fig. 3-22
The height of the unit can be adjusted from the
ceiling panel corner hole, with the ceiling panel
attached, to an extent that does not affect the
unit levelness, the drain hose, or other elements.
G If the screws are not sufficiently tight-
ened, trouble such as that shown in
the figure below may occur. Be sure
to tighten the screws securely.
G If a gap remains between the ceiling
surface and the ceiling panel even
after the screws are tightened,
adjust the height of the unit again.
Air leakage
Air leakage from
ceiling surface
Staining
Adjust so that there are no gaps.
Condensation, water leakage
Fig. 3-23
29
3-6-3. Wiring the Ceiling Panel
(Direction that the unit faces has been changed to
facilitate explanation.)
(1) Open the cover of the electrical component box.
Electrical component
box cover
(2) Connect the 7P wiring connector (red) from the
ceiling panel to the connector in the unit electrical
component box.
X
Ceiling panel
wiring connector
G If the connectors are not connected, the Auto flap will
not operate. Be sure to connect them securely.
G Check that the wiring connector is not caught
between the electrical component box and the cover.
G Check that the wiring connector is not caught
between the unit and the ceiling panel.
Screws
(3 locations)
Ceiling panel side
Mains side
Clamp
* Pass the wiring connector through the clamp to fasten it in place,
as shown in the figure.
3-6-4. How to Attach the Corner & Air-Intake Grille
Attaching the corner cover and air-intake grille
Fig. 3-24
A. Attaching the corner cover
(1) Check that the safety cord from the corner cover is
fastened to the ceiling panel pin, as shown in the
figure.
Pin
(2) Use the supplied screws to attach the corner cover
to the ceiling panel.
B. Attaching the air-intake grille
Place the corner cover so that the 3 tabs
fit into the holes in the ceiling panel.
Then fasten it in place with the supplied screws.
G To install the air-intake grille, follow the steps for
Removing the grille in the reverse order. By rotating
the air-intake grille, it is possible to attach the grille
onto the ceiling panel from any of 4 directions.
Coordinate the directions of the air-intake grilles
when installing multiple units, and change the
directions according to customer requests.
Fig. 3-25
Hole for ceiling panel hook
G When attaching the air-intake grille, be careful
that the flap lead wire does not become caught.
G Be sure to attach the safety cord that prevents
the air-intake grille from dropping off to the
ceiling panel unit as shown in the figure at right.
G With this ceiling panel, the directions of the air-intake
grille lattices when installing multiple units, and the
position of the label showing the company name on
the corner panel, can be changed according to
customer requests, as shown in the figure below.
However, the optional wireless receiver kit can only
be installed at the refrigerant-tubing corner of the
ceiling unit.
Hook that prevents
the grille from dropping
Fig. 3-26
Locations of the air-intake grille catches at
the time the product is shipped.
* The grille can be installed with these
Unit drain hose side
Unit refrigerant tube side
catches facing in any of 4 directions.
Optional wireless receiver kit
* Can only be installed
in this position.
Can be installed rotated 90˚
Unit electrical component box
Fig. 3-27
30
3-6-5. Checking After Installation
G Check that there are no gaps between the unit and the ceiling panel, or between the ceiling panel and the ceiling
surface. Gaps may cause water leakage and condensation.
G Check that the wiring is securely connected.
If it is not securely connected, the auto flap will not operate. (“P09” is displayed on the remote controller.) In addition,
water leakage and condensation may occur.
X
3-6-6. When Removing the Ceiling Panel for Servicing
When removing the ceiling panel for servicing, remove the air-intake grille and air filter, disconnect the wiring connector
inside the electrical component box, and then remove the 4 mounting screws.
3-6-7. Adjusting the Auto Flap
The air-direction louver on the ceiling panel outlet can be adjusted as follows.
G Adjust the louver to the desired angle using the remote controller. The louver also has an automatic air-sweeping
mechanism.
NOTE
G Never attempt to move the louver by hand.
G Proper air flow depends on the location of the air conditioner, the layout of the room and furniture, etc. If cooling or
heating seems inadequate, try changing the direction of the air flow.
3-7. Special Remarks
DC Fan Tap Change Procedure
<Steps> Be sure to turn OFF the power (at mains) before beginning the work below.
(1) In the table below, check the field-supply parts that will be used. (If this setting is not made, the airflow may
decrease and condensation may occur.)
Setting
Air shield material (for use with 3-direction discharge)*
(a)
Air shield material (for use when a discharge duct is connected)*
(b)
Air shield material (for use with 2-direction discharge)*
* Use field-supply air shield material.
Setting (a): Go to (2).
Setting (b): Go to (3).
Indoor unit control PCB
(2) Setting (a)
Open the cover of the electrical component box.
Short the short-circuit pin TP3 (2P, yellow) on the
indoor unit control PCB.
* PCB model No.: CR-SXRP56B-B
(3) Setting (b)
Open the cover of the electrical component box.
Short the short-circuit pin TP6 (2P, white) on the
indoor unit control PCB.
Fig. 3-28
31
I 1-Way Air Discharge Semi-Concealed Type (A Type)
29-59/64 (Panel outer dimensions)
28-47/64 (Ceiling opening dimension)
25-63/64 (Suspension bolt pitch)
Unit: in.
3-8. Suspending the Indoor Unit
(1-27/64)
1-27/64
(1) Follow the diagrams to make the holes in the ceiling.
(Figs. 3-29 and 3-30)
(2) Depending on the ceiling type:
G Insert suspension bolts as shown in Fig. 3-31
or
G Use existing ceiling supports or construct a suitable
support as shown in Fig. 3-32.
A
G Make sure that the length of suspension bolts from the
bottom of the unit is 19/32 in. or more. (Fig. 3-33)
23-5/8
Fig. 3-29
Drain pipe connection
(Be sure to connect the supplied flexible hose.)
WARNING
22-3/64
It is important that you use extreme care in
supporting the indoor unit from the ceiling. Ensure
that the ceiling is strong enough to support the
weight of the unit. Before hanging the unit, test the
strength of each attached suspension bolt.
10-1/32
1-19/64
5-19/64
1-49/64
(3) Calculate the suspension bolt pitch using the full-
size installation diagram (printed on the package).
The relationship between the positions of the
suspension lugs, unit, and ceiling panel is as
shown in Fig. 3-30.
Flared refrigerant
connection outlet
(liquid tube)
Flared refrigerant
connection outlet
(gas tube)
Inter-unit
Control Wiring
Power supply outlet
Unit: in.
(4) Cut the ceiling material, if necessary.
(Figs. 3-29 and 3-30)
Fig. 3-30
If the system requires fresh air to be drawn into the unit,
cut and remove the insulation (both externally and
Hole-in-anchor
Hole-in-plug
Concrete
Insert
A
internally) at the location shown as
3-35.
in Figs. 3-34 and
Suspension bolt
(M10 or 3/8")
CAUTION
Fig. 3-31
When making the cuts to the insulation, be careful
not to damage the drain pan.
32
Ceiling tiles
3-9. Placing the Unit Inside the Ceiling
Be sure to use a level gauge
Ceiling support
CAUTION
and confirm that the unit is
level. If it is not level, water
leakage may occur.
(1) Use the supplied M5 or 3/16" screws (4) to attach
the full-size installation diagram to the indoor unit
suspension lugs, in order to obtain the ceiling
opening dimensions for suspending the unit.
Fig. 3-32
A
Full-scale
installation diagram
Caution: Piping and wiring work must be performed
inside the ceiling after the unit is suspended.
Therefore if the ceiling is already installed, the
wiring and piping work should be completed
up to the connection points prior to
Suspension
lug
suspending the unit.
over 19/32 in.
25/32 – 1 in.
(2) Attach the special washers (supplied) and nuts (field
supply) to the suspension bolts (4 locations).
Fig. 3-33
CAUTION
For fresh air intake
(ø3-15/16 hole)
A
3-5/32
G Use M10 or 3/8" nuts.
G The length of the suspension bolts must be such that
there is a space of at least 19/32 in. below the bottom
of the suspension lugs, as shown in Fig. 3-33. If the
length of the suspension bolts is too long, the bolts
may interfere with the ceiling panel and louver motor,
preventing their installation.
Unit: in.
Fig. 3-34
(3) Thread the 3 hexagonal nuts and 2 washers (field
supply) onto each of the 4 suspension bolts as
shown in Fig. 3-36. Use 1 nut and 1 washer for the
upper side, and 2 nuts and 1 washer for the lower
side, so that the unit will not fall off the suspension
lugs.
For fresh air intake
(ø3-15/16 hole)
6-11/16
A
(4) Lift up the indoor unit and fit the suspension bolts
into the notches in the suspension lugs.
(5) Adjust so that the distance between the bottom of
the indoor unit suspension lugs and the bottom of
the ceiling panel is 25/32 – 1 in. Then tighten the
nuts above and below each suspension lug. The
full-size installation diagram can be used to help
adjust the height of the indoor unit.
Unit: in.
Fig. 3-35
Suspension bolt
Nuts and washers
Suspension lug
(Used above and below.)
Double nuts
Notch
over 19/32 in.
25/32 – 1 in.
Fig. 3-36
33
2-1/8
2-1/8
CAUTION
G The indoor unit includes a drain pump. Be sure to
use a level gauge and verify that the unit is level.
G Before inserting the ceiling material, complete as
much of the drain piping work and refrigerant
tubing work as possible.
Suspension bolts
Tubing side
Unit: in.
(6) The distance between the unit and the opening of
the ceiling and the distance between the bottom
surface of the ceiling and the bottom surface of the
flange of the unit should follow the dimensions given
in Figs. 3-37 and 3-38.
Suspension bolts
A
Fig. 3-37
Ceiling
material
3-10. Installing the Drain Piping
(1) Prepare standard hard PVC pipe (O.D. 1-1/4") for
the drain and use the supplied drain hose and hose
band to prevent water leaks.
Fig. 3-38
The PVC pipe must be purchased separately. The
unit’s transparent drain port allows you to check
drainage. (Fig. 3-39)
Align the hose band with end of the
hose, and tighten so that it does not
contact the bead.
CAUTION
Drainage check
Hard PVC
section on drain port
pipe
Drain hose
(supplied)
Hard PVC
(transparent)
VP-25
(not supplied)
socket VP-25
G Do not use adhesive at the drain connection port on
the indoor unit.
(not supplied)
G Insert the drain pipe until it contacts the socket, as
shown in the figure at right, then secure it tightly with
the hose band.
PVC adhesive
Packing (supplied)
Bead
G Tighten the hose clamps so their locking nuts face
upward. (Fig. 3-39)
Fig. 3-39
G Do not use the supplied drain hose bent at a 90°
angle. (The maximum permissible bend is 45°.)
G Check the drainage at the unit drain port
(transparent).
Drain insulator (supplied)
(2) After checking the drainage, wrap the supplied
packing and drain pipe insulator around the pipe,
then secure it with the supplied clamps. (Fig. 3-40)
Fig. 3-40
NOTE
Make sure the drain pipe has a downward gradient
(1/100 or more) and that there are no water traps.
34
CAUTION
G Do not install an air bleeder as this may cause water
to spray from the drain pipe outlet. (Fig. 3-41)
G In cases where it is necessary to raise the height of
the drain piping, the drain piping can be raised to a
maximum height of 33-15/32" above the bottom
surface of the ceiling. Under no conditions attempt to
raise it higher than 33-15/32" above the bottom
surface of the ceiling. Doing so will result in water
leakage. (Fig. 3-42)
Air bleed valve
Fig. 3-41
A
11-13/16 in. or less
33-15/32 in. or less
G Do not use natural drainage.
0 – 45°
G Do not install the pipe with an upward gradient from
the connection port. This will cause the drain water
to flow backward and leak when the unit is not
operating. (Fig. 3-43)
* Length of supplied drain hose = 9-27/32 in.
Fig. 3-42
G Do not apply force to the piping on the unit side when
connecting the drain pipe. The pipe should not be
allowed to hang unsupported from its connection to
the unit. Fasten the pipe to a wall, frame, or other
support as close to the unit as possible. (Fig. 3-44)
G Provide insulation for any pipes that are run indoors.
Uphill slope
Fig. 3-43
3-11. Checking the Drainage
Support
bracket
After wiring and drain piping are completed, use the
following procedure to check that the water will drain
smoothly. For this, prepare a bucket and wiping cloth to
catch and wipe up spilled water.
(1) Connect power to the power terminal board (R, S
terminals) inside the electrical component box.
Fig. 3-44
(2) Pour about 0.2 gal of water into the drain pan using a
siphon pump through the air outlet grille. (Fig. 3-45)
Drainage check
(3) Short the check pin (CHK) on the indoor control board
and operate the drain pump. Check the water flow
through the transparent drain pipe and see if there is any
leakage.
Drain tube
connection
(transparent)
Discharge port
water (0.2 gal)
Be careful since the fan will start
when you short the pin on the indoor
control board.
CAUTION
Fig. 3-45
(4) When the drainage check is complete, open the check
pin (CHK) and remount the insulator.
The bottom drain port is for use only
CAUTION
during test runs and servicing
inspections. Do not connect the drain
pipe to the bottom drain port.
35
Refrigerant tubing joint
(gas tube)
Drain pipe connection
(Be sure to connect the
supplied flexible hose.)
3-12. Electrical Power Wiring
(1) Wiring connections
Refrigerant tubing joint
(liquid tube)
The power inlet is on the side of the indoor unit where the
refrigerant tubing is located. The electrical component box
is on the lower air intake surface of the indoor unit.
(Fig. 3-46)
Inter-unit Control Wiring
Power supply outlet
(2) Wiring
A
WARNING
Fig. 3-46
G Route the power wiring into the indoor unit through the power inlet on the side of the unit. At this time, be
sure that the wiring passes through the power inlet in the unit power section. If the wiring does not pass
through this inlet, it may become pinched by the ceiling panel, and may result in fire.
G Pass the wiring through the power inlet on the electrical component box and connect it to the terminal plate.
Then fasten the wiring in place with the clamp.
3-13. How to Install the Ceiling Panel
Component Parts
Part name
Quantity
Appearance
Part name
Quantity
Appearance
M5 × 40
Washer-head
screw
or
4
5/16" × 9/16"
Ceiling panel
1
4 × 12 or 5/32" × 15/32"
For fastening
Screw
2
side panel
3-13-1. Before Installing the Ceiling Panel
Checking the position of the indoor unit
Be sure that this distance is within the range of 25/32 – 1 in.
If it is not within this range, malfunction or other problems may result.
(1) Check that the dimensions of the ceiling opening are
the following:
28-47/64" × 23-17/64"
Indoor unit
* For details, refer to the installation manual that was
supplied with the indoor unit.
Ceiling opening dimension
Ceiling surface
(2) Check that the positions of the ceiling surface and
indoor unit are as shown in Fig. 3-47. If the positions
of the ceiling surface and indoor unit are not correct,
problems such as air leakage, water leakage, and flap
operation trouble may occur.
Fig. 3-47
G Do not rest the panel facing downwards, lean up against
a wall, or leave it sitting on top of a protruding object.
Doing so may scratch the panel surface.
G Do not apply excessive force to the flap.
(Doing so may damage the flap.)
Flap
Fig. 3-48
36
Removing the intake grille
Screw
Slide the intake grille hooks (2 locations)
in the direction of the arrow to open the
intake grille. (fig. 3-49a)
Screw
Hook
When the intake grille is open, press a
flathead screwdriver against the rear
tabs (2 locations) and pull out the intake
grille. (Fig. 3-49b)
Fig. 3-49a
Intake grille
A
Removing the side panel
Grasp the finger grip on the side panel
and slide the panel in the direction of
arrow
to remove the panel.
1
(There are 2 panels: 1 each on the left
and right sides.) (Fig. 3-51)
Hinge
Fig. 3-49b
Press on the tabs with a flathead (minus)
screwdriver while pulling out the intake grille.
Tab
Fig. 3-50
Slide
1
Side panel
Fig. 3-51
3-13-2. Installing the ceiling panel
Hook receiver Press to remove.
(1) Fasten the hooks on both sides of the ceiling panel to
the indoor unit. The hooks on one side (2 locations) are
stationary, while the hook on the other side is move-
able. (Fig. 3-52)
Stationary hook
(2) Angle the panel somewhat and fasten the stationary
hook into the fastener on the side of the unit.
Moveable hook
Fig. 3-53
(3) After verifying that the hook is fastened, press the other
end up until the ceiling panel is level. Then press
upwards until the moveable hook is fastened into the
fastener on the unit.
(4) Verify that the hooks on both sides of the ceiling panel
are securely fastened to the unit. If the hooks are not
securely fastened, the panel may fall. At this point, the
panel is now provisionally fastened to the unit.
Moveable hook
Fig. 3-52
G When removing the panel, press the movable hook
toward the inside while supporting the panel. (Fig. 3-53)
37
(5) Align the installation holes on the panel with the
bolt holes on the unit.
Indoor unit
(6) Insert the supplied washer head bolts into the 4
panel installation holes, and tighten until the panel
is securely fastened against the unit. (Fig. 3-54)
(7) Verify that the panel is securely fastened against
the unit.
G At this time, make sure that there is no gap
between the indoor unit and the ceiling panel, or
between the ceiling panel and the ceiling surface.
(Fig. 3-55)
A
G If there is a gap between the ceiling panel and the
ceiling, leave the panel attached and adjust the
installation height of the indoor unit upwards until
the gap with the ceiling is eliminated. (Fig. 3-56)
Ceiling panel
G If the adjustment is small enough that it will not
affect the levelness of the indoor unit or the drain
piping, then the unit height can be adjusted from
the side panel installation holes, with the ceiling
panel still attached.
Washer-head screw
Fig. 3-54
Must be no gap.
Insert a wrench or other
standard tool into the side
panel installation holes
and make fine adjustments
to the indoor unit nuts.
Indoor unit
Ceiling surface
Ceiling panel
Fig. 3-55
Fig. 3-56
CAUTION
• If the screws are not fully tightened,
problems such as those shown below
may occur. Be sure to tighten the
screws securely.
• If there is a gap between the ceiling
surface and the ceiling panel even
when the screws are fully tightened,
readjust the height of the indoor unit.
(Fig. 3-56)
Air leakage
Ceiling panel
air leakage
Stains
Adjust so that there is no gap.
Condensation and water leakage
38
3-13-3. Wiring the ceiling panel
(1) Loosen the 2 screws on the electrical component
box lid, and remove the lid. (Fig. 3-57)
(2) Fasten the wiring connector (7P, red) which comes
out from the ceiling panel using the lead wire clamps
(2 locations) on the unit. Then connect it to the
connector (7P, red) inside the indoor unit electrical
component box. (Fig. 3-58)
G If the connector is not connected, “P09” is displayed
on the remote controller, and the automatic flap will
not operate. Be sure to securely connect the connec-
tor.
A
Screw
Electrical compornent
box cover
Fig. 3-57
G Check that the wiring connector is not pinched
between the electrical component box and the lid.
G Check that the wiring connector is not pinched
between the indoor unit and the ceiling panel.
3-13-4. Installing the side panel and intake grille
A. Installing the side panel
(1) Grasp the side panel finger grip and slide the panel
in the direction of the arrow to install the side panel.
(Fig. 3-59)
Inter-unit control wiring
Power supply outlet
(2) Fasten the side panel onto the ceiling panel using
Electrical compornent box
the supplied screws (4 × 12 or 5/32" × 15/32").
Indoor unit connector
B. Installing the intake grille
Fig. 3-58
G To install the intake grille, follow the procedure for
removing it in the reverse order. (Fig. 3-60)
G When installing the intake grille, be careful that the
flap lead wire does not become pinched. (Fig. 3-60)
Fasten with screws
(4 × 12 or 5/32" × 15/32")
Tabs
Tab
Slide
3-13-5. Other
A. Check after installation
G Check again that there is no gap between the indoor
unit and the ceiling panel, or between the ceiling
panel and the ceiling surface.
Slide the side panel so that the side panel tabs are fastened to
the ceiling panel. Then fasten in place with the supplied screws
(4 × 12 or 5/32" × 15/32").
* If there is a gap, then water leakage and condensa-
tion may occur.
Fig. 3-59
G Check that the wiring connections are secure.
* If the wiring is not connected, the automatic flap will
not operate. (“P09” is displayed on the remote
controller.) In addition, water leakage,
Screw
Screw
condensation, and other problems may occur.
B. If a wireless remote controller is used
G For details concerning the installation procedure,
refer to the installation manual which was supplied
with the optional wireless remote controller and
indoor unit internal receiver.
Fig. 3-60
39
I Concealed Duct Type (U Type)
3-14. Required Minimum Space for
A (Suspension bolt pitch)
Electrical
component box
Installation and Service
G This air conditioner is usually installed above the ceiling so that the
indoor unit and ducts are not visible. Only the air intake and air outlet
ports are visible from below.
Inspection
access
17-23/32
min.
9-27/32
Indoor unit
17-23/32
G The minimum space for installation and service is shown in
Fig. 3-61 and Table 3-3.
Refrigerant
tubing
min. 25-19/32
G It is recommended that space is provided (17-23/32 × 17-23/32 in.)
for checking and servicing the electrical system.
G Fig. 3-62 and Table 3-4 show the detailed dimensions of the indoor
unit.
Air outlet duct flange
Unit: in.
Fig. 3-61
Table 3-3
Unit: in. (mm)
U
Type
7, 12, 18
24
36
A (Length)
30-23/32 (780) 42-17/32 (1,080) 61-13/32 (1,560)
Number of duct flanges
2
3
4
Table 3-4
Unit: in.
Dimension
No. of holes
A
B
C
D
E
F
G
H
I
J
K
Type
L
M
23-5/8
7, 12, 18
24
26-1/16
37-7/8
27-9/16 30-23/32 11-13/32 10-5/16 26-25/32 28-5/32 7-3/32
39-3/8 42-17/32 11-13/32 10-23/32 38-19/32 39-31/32 5-1/8
58-9/32 61-13/32 13-3/16 12-7/32 57-15/32 58-27/32 5-1/8
–
13-3/8
8
12
(7-7/8 × 3)
35-7/16
(7-3/32 × 5)
54-11/32
(9-1/16 × 6)
9-21/32
(9-21/32 × 1)
19-9/32
(9-21/32 × 2)
9-27/32
12
16
16
36
56-25/32
9-7/16
18
Refrigerant tubing joint (liquid tube)
Refrigerant tubing joint (gas tube)
Upper drain port (O.D. 1-1/4 in.)
Bottom drain port (O.D. 1-1/32 in.)
Suspension lug
13/32
13/32
L-ø1/4
(Hole)
11
I
J
K
J
I
Power supply outlet (2-ø1-3/16 hole)
Fresh air intake port (ø5-29/32 hole)
3/4
3/4
A (O.D.)
Flange for the flexible air outlet duct (ø7-7/8 hole)
Tube cover
Electrical component box
Flange for the air intake duct
(Option or field supply)
H (Duct suspension bolt pitch)
G (Ceiling opening dimension)
4-ø15/32
(Hole)
Inter-unit control wiring
12-7/32
31/32
8-9/32
31/32
6-7/8
1-7/32
1-7/32
3-17/32
B
18-ø1/8
(Hole)
10
9
Inspection access
(17-23/32
17-23/32)
(Field supply)
1-9/16
C
D
1-3/8
(5-29/32)
(Suspension bolt pitch)
5-1/8
11-7/32
2-3/4
2-15/16
2-9/16
E
E
E
F
Inspection access panel
Ceiling
Unit: in.
Fig. 3-62
40
3-15. Suspending the Indoor Unit
Depending on the ceiling type:
Hole-in-anchor
Hole-in-plug
Concrete
Insert
• Insert suspension bolts as shown in Fig. 3-63
or
• Use existing ceiling supports or construct a suitable support as
shown in Fig. 3-64.
Suspension bolt (M10 or 3/8")
(field supply)
It is important that you use extreme care
WARNING
Fig. 3-63
in supporting the indoor unit inside the
ceiling. Ensure that the ceiling is strong
enough to support the weight of the unit.
Before hanging the unit, test the strength
of each attached suspension bolt.
Ceiling tiles
Ceiling support
U
(1) When placing the unit inside the ceiling, determine the pitch of
the suspension bolts referring to the dimensional data on the
previous page. (Fig. 3-61 and Table 3-3)
Tubing must be laid and connected inside the ceiling when
suspending the unit. If the ceiling is already constructed, lay the
tubing into position for connection to the unit before placing the
unit inside the ceiling.
Fig. 3-64
Suspension bolt
(2) Screw in the suspension bolts allowing them to protrude from
the ceiling as shown in Fig. 3-63. (Cut the ceiling material, if
necessary.)
Suspension lug
Nuts and washers
(use for upper and lower)
(3) Thread the 3 hexagonal nuts and 2 washers (field supply) onto
each of the 4 suspension bolts as shown in Figs. 3-65 and 3-66.
Use 1 nut and 1 washer for the upper part, and 2 nuts and 1
washer for the lower part, so that the unit will not fall off the
suspension lugs.
Notch
Double nuts
Fig. 3-65
Suspension bolt
Hexagonal nut
Double nuts
G Fig. 3-67 shows an example of installation.
Bolt anchor
Fig. 3-66
Air outlet duct
Suspension bolt
Air-intake duct
Air-outlet grille
Ceiling material
Indoor unit
Air-intake grille
Fig. 3-67
41
3-16. Installing the Drain Piping
Align the hose band with end of the
hose, and tighten so that it does not
contact the bead.
(1) Prepare standard hard PVC pipe (O.D. 1-1/4") for the drain
and use the supplied hose band to
Drainage check
Hard PVC
pipe
VP-25
(not supplied)
prevent water leaks.
section on drain port
(transparent)
Drain hose
(supplied)
Hard PVC
The PVC pipe must be purchased separately.
The transparent drain part on the unit allows you to check
drainage. (Fig. 3-68)
socket VP-25
(not supplied)
CAUTION
PVC adhesive
Packing (supplied)
Bead
G Do not use adhesive at the drain connection port on the
indoor unit.
Fig. 3-68
G Insert the drain pipe until it contacts the socket, as shown in
the figure at right, then secure it tightly with the hose band.
G Do not use the supplied drain hose bent at a 90° angle.
(The maximum permissible bend is 45°.)
Drain insulator (supplied)
U
G Tighten the hose clamps so their locking nuts face upward.
(FIg. 3-68)
Vinyl clamps
(2) After connecting the drain piping securely, wrap the supplied
packing and drain pipe insulator around the pipe, then secure it
with the supplied vinyl clamps. (Fig. 3-69)
Fig. 3-69
Air bleeder
NOTE
Make sure the drain pipe has a downward gradient (1/100 or more)
and that there are no water traps.
Prohibited
Fig. 3-70
G Do not install an air bleeder as this may
CAUTION
cause water to spray from the drain pipe
outlet. (Fig. 3-70)
11-13/16" or less
19-11/16" or less
Good
G If it is necessary to increase the height of the drain pipe, the
section directly after the connection port can be raised a
maximum of 19-11/16". Do not raise it any higher than
19-11/16", as this could result in water leaks. (Fig. 3-71)
G Do not install the pipe with an upward gradient from the connec-
tion port. This will cause the drain water to flow backward and leak
when the unit is not operating. (Fig. 3-72)
Fig. 3-71
Upward gradient
G Do not apply force to the piping on the unit side when connecting
the drain pipe. The pipe should not be allowed to hang unsupport-
ed from its connection to the unit. Fasten the pipe to a wall, frame,
or other support as close to the unit as possible. (Fig. 3-73)
Prohibited
Fig. 3-72
3-17. Checking the Drainage
After wiring and drain piping are completed, use the following proce-
dure to check that the water will drain smoothly. For this, prepare a
bucket and wiping cloth to catch and wipe up spilled water.
Support pieces
(1) Connect power to the power terminal board (R, S terminals)
inside the electrical component box.
(2) Remove the tube cover and through the opening, slowly pour
about 0.3 gal of water into the drain pan to check drainage.
Fig. 3-73
(3) Short the check pin (CHK) on the indoor control board and oper-
ate the drain pump. Check the water flow through the transparent
drain port and see if there is any leakage.
42
Power supply outlet
Be careful since the fan will start when you
short the pin on the indoor control board.
CAUTION
Inter-unit control wiring
(4) When the check of drainage is complete, open the check pin (CHK)
and remount the insulator and drain cap onto the drain inspection port.
3-18. Increasing the Fan Speed
If external static pressure is too great (due to long extension of ducts, for
example), the air flow volume may drop too low at each air outlet. This problem
may be solved by increasing the fan speed using the following procedure:
(1) Remove 4 screws on the electrical component box and
remove the cover plate.
(2) Disconnect the fan motor sockets in the box.
U
Fig. 3-74
(3) Take out the booster cable (sockets at both ends)
clamped in the box.
Indoor Fan Performance
(4) Securely connect the booster cable sockets between the
disconnected fan motor sockets in step 2 as shown in
Fig. 3-75.
7, 12 Type
18 Type
(in.WG)
0.60
(in.WG)
0.60
(5) Place the cable neatly in the box and reinstall the cover
plate.
0.40
0.20
0
0.40
0.20
0
Electrical component box
Booster cable
HT
Fan
Booster cable
motor
HT
H
H
M
M
Fan motor socket
L
L
(At shipment)
(Booster cable installed)
Fig. 3-75
353
530
177
353
Air Flow (CFM)
Air Flow (CFM)
How to read the diagram
36 Type
The vertical axis is the external static pressure (in.WG)
while the horizontal axis represents the air flow (CFM).
The characteristic curves for “HT,” “H,” “M” and “L” fan
speed control are shown. The nameplate values are
shown based on the “H” air flow. For the 24 type, the air
flow is 635 CFM, while the external static pressure is
0.20 in.WG at “H” position. If external static pressure is
too great (due to long extension of ducts, for example),
the air flow volume may drop too low at each air outlet.
This problem may be solved by increasing the fan
speed as explained above.
(in.WG)
24 Type
(in.WG)
0.60
0.60
HT
0.40
0.40
HT
H
H
0.20
0
0.20
0
M
M
L
L
353
706
706
1059
Air Flow (CFM)
Air Flow (CFM)
HT: Using the booster cable
NOTE
H: At shipment
Fig. 3-76
43
I Concealed Duct High-Static Pressure Type (D Type)
Min. 23-5/8
(Space for service)
3-19. Required Minimum Space
19-11/16
11-27/64
5-1/8
for Installation and Service
G This air conditioner is usually installed above the ceiling
so that the indoor unit and ducts are not visible. Only the
air intake and air outlet ports are visible from below.
G The minimum space for installation and service is shown
in Fig. 3-77.
37
Suspension
bolt pitch
38-37/64
Suspension
Air suction side
bolt pitch
G It is recommended that space be provided (23-5/8" ×
23-5/8") for checking and servicing the electrical system.
G Fig. 3-78 and Table 3-5 show the detailed dimensions of
the indoor unit.
Refrigerant tubing
Electrical
component
box
Inspection access
(23-5/8" × 23-5/8")
Min. 23-5/8
Space for
service
D
Min. 22-53/64
Drain pan
Ceiling face
Min. 5-1/8
Unit: in.
Fig. 3-77
37
31-7/32
7 × 3-15/16 = 27-9/16
22 - ø1/8
25/32
3-35/64
2-5/32
1-37/64
(Hole for full
circumference)
2-23/64
1-57/64
Unit: in.
Table 3-5
Length
A
B
C
Type
Electrical component box
36
16-17/32 15-35/64 2-43/64
48
17-23/32 16-47/64 3-55/64
4-ø25/32 hole for
suspension bolt
1-13/16
4 × 3-15/16
= 15-3/4
Refrigerant liquid line (ø3/8 or ø1/4)
Refrigerant gas line (ø3/4 or ø5/8)
Power supply outlet
16 - ø1/8
(Hole for full
19-11/16
circumference)
Drain connection (25A, O.D. 1-1/4")
Duct connection for suction
Duct connection for discharge
Inter-unit control wiring
19/32 38-37/64 (Suspension bolt pitch) 19/32
24-13/32
19-11/16
39-49/64
2-3/4
1-3/8
37
1-3/8
25/64
25/64
Drain pan
Unit: in.
Fig. 3-78
44
3-20. Suspending the Indoor Unit
Depending on the ceiling type:
Hole-in-anchor
Hole-in-plug
Concrete
Insert
G Insert suspension bolts as shown in Fig. 3-79
or
G Use existing ceiling supports or construct a suitable support as
shown in Fig. 3-80.
Suspension bolt (M10 or 3/8")
(field supply)
It is important that you use extreme care
WARNING
Fig. 3-79
in supporting the indoor unit inside the
ceiling. Ensure that the ceiling is strong
enough to suport the weight of the unit.
Before hanging the unit, test the strength
of each attached suspension bolt.
Ceiling tiles
Ceiling support
(1) When placing the unit inside the ceiling, determine the pitch
of the suspension bolts referring to the dimensional data given
previously. (Figs. 3-77 and 3-78)
D
Tubing must be laid and connected inside the ceiling when
suspending the unit. If the ceiling is already constructed, lay
the tubing into position for connection to the unit before placing
the unit inside the ceiling.
Fig. 3-80
Suspension bolt
Hexagonal nuts
(2) Screw in the suspension bolts allowing them to protrude from
the ceiling as shown in Fig. 3-79. (Cut the ceiling material, if
necessary.)
and washers
(2 sets)
(3) Suspend and fix the indoor unit using the 2 hexagonal nuts
(field supply) and special washers (supplied with the unit) as
shown in Fig. 3-81.
Fig. 3-81
Air-outlet grille
Air-intake grille
Fig. 3-82
45
3-21. Installing the Drain Piping
Sealing tape
(1) Prepare standard hard PVC pipe (O.D. 1-1/4") for the
drain and use the supplied drain socket to prevent water
leaks. The PVC pipe must be purchased separately.
When doing this, apply adhesive for the PVC pipe at the
connection point.
Drain pan
Drain joint
(supplied)
(2) If connecting a drain joint (supplied) to the threaded
drain port, first wrap the drain port threads with sealing
tape, then connect the joint. (Fig. 3-83)
Drain opening
(25A or 1-11/32" male screw)
Fig. 3-83
(3) After connecting the drain pipe securely, wrap insulator
(field supply) around the pipe.
Downward gradient
(4) Ensure the drain pipe has a downward gradient (1/100
or more) and prepare traps as indicated in Fig. 3-84.
Min. 1/100
(5) Also, in another part of the pipe arrangement, prepare
traps with an inspection plug to clean dust or debris that
may cause leaking of water. (Fig. 3-85)
Good
(6) After connecting the drain piping, slowly pour water into
the drain pan to check that the water drains smoothly.
D
3-22. Caution for Ducting Work
Not good
G This unit has high static pressure (applicable external static
pressure Max. 0.68 – 0.88 in.WG. In the case of small
pressure resistance (for instance, a short duct), install a
damper for adjusting air flow volume as air flow volume /
air flow noise increases.
Fig. 3-84
G If the air conditioner is to be installed in a room such as
an office or meeting room which needs a low sound
level, provide a supply and return noise absorption
chamber with an acoustic liner.
Min. 1-31/32 in.
G Include an air filter (field supply) at the return duct.
Inspection plug
3-23. Indoor Fan Performance
How to Read the Diagram
Fig. 3-85
36 Type
48 Type
(in.WG)
1.00
(in.WG)
1.00
The vertical axis is the External Static Pressure
(in.WG) while the horizontal axis represents the
Air Flow (CFM). The characteristic curve for the
0.80
0.80
“H,” “Med,” and “Lo” fan speed control.
The nameplate values are shown based on the
“H” air flow. Therefore in the case of 36 Type,
the flow is 1059 CFM, while the External Static
Pressure is 0.72 in.WG at “H” position. If the
external static pressure is too great (due to long
extension of duct, for example), the air flow
volume may drop too low at each air outlet.
0.60
0.60
0.40
0.20
0
0.40
0.20
0
883
1059
1236
1059
1236
1412
Air Flow (CFM)
Air Flow (CFM)
NOTE
H: At shipment
Fig. 3-86
46
I Ceiling-Mounted Type (T Type)
3-24. Required Minimum Space for Installation and Service
(1) Dimensions of suspension bolt pitch and unit
B
C
Unit: in.
Table 3-6
Dimension
A
B
C
Type
Air intake
12, 18
24
33-21/32 35-53/64 8-17/64
44-19/64 46-29/64 8-17/64
Ceiling side
A
1-5/64
1-5/64
Air outlet
Unit: in.
(Suspension bolt pitch)
Fig. 3-87
(2) Refrigerant tubing • drain hose position
2-21/64
2-61/64
3-61/64
3-13/16
Rear (figure shows view from front)
Left side
Right side
8-1/2
(Liquid tubing •
Gas tubing)
9/64
Liquid
tubing
2-23/64
T
Gas tubing
3-5/16
6-11/32
9-7/8
9-7/8
5-3/4
Left drain position
Closed with rubber stopper at time of shipment.
Right drain position
Unit: in.
Fig. 3-88
(3) Unit opening position (Refrigerant tubing • drain hose • power inlet port • remote controller wiring inlet port)
Rear outlet port
Inter-unit control wiring
(ø1-3/16", knock-out, use rubber grommet)
10-5/16
4-59/64
2-53/64
Right-side drain
hose outlet port
Left-side drain hose
outlet port
Outside air intake duct connection port
*1
(ø3-15/16", knock-out)
Power supply outlet
(ø1-3/16", knock-out)
Rear tubing hole
Left-side drain
hose outlet port
3-5/16
Side panel
Position of plate
inside side panel
13-21/32
*1
Unit: in.
Side panel
*1 Use a compass saw, jig saw or similar tool and cut along the indented portion of the side panel.
Fig. 3-89
47
(4) Wall and ceiling side opening position
Figure shows view from front
Figure shows view from top
Wall
Ceiling
ø3-15/16 ceiling opening
ø3-15/16 wall side opening
3-35/64
5-5/16
ø3-15/16 wall side opening
(for left-side drain hose)
ø3-15/16 ceiling opening
4-59/64
Unit: in.
* If the optional drain up kit is installed, create a ø3-15/16" hole along the dotted line (part marked with * in figure).
Fig. 3-90
3-25. Suspending the Indoor Unit
Ceiling
(1) Place the full-scale diagram (supplied) on the ceiling
at the spot where you want to install the indoor unit.
Wall
Full-scale
installation diagram
Use a pencil to mark the drill holes. (Fig. 3-91).
NOTE
Fig. 3-91
Since the diagram is made of paper, it may shrink or
stretch slightly because of high temperature or humidity.
For this reason, before drilling the holes maintain the
correct dimensions between the markings.
Hole-in-anchor
Hole-in-plug
Concrete
Insert
T
(2) Drill holes at the 4 points indicated on the full-scale
diagram.
(3) Depending on the ceiling type:
Suspension bolt (M10 or 3/8")
(field supply)
a) Insert suspension bolts as shown in Fig. 3-92.
or
Fig. 3-92
b) Use existing ceiling supports or construct a
suitable support as shown in Fig. 3-93.
Ceiling tiles
Ceiling support
It is important that you use
WARNING
extreme care in supporting the
indoor unit from the ceiling.
Ensure that the ceiling is
strong enough to support the
weight of the unit. Before
hanging the ceiling unit, test
the strength of each attached
suspension bolt.
A
A
Fig. 3-93
Pull out the
air-intake grille
pushing claws
of the hinges
(4) Screw in the suspension bolts, allowing them to
protrude from the ceiling as shown in Figs. 3-92
and 3-93. The distance of each exposed bolt must
be of equal length within 1-15/16". (Fig. 3-94)
Hinge
Screw
Latch
unit
Ceiling
surface
Air-intake grille
Fixture
Fig. 3-94
Fig. 3-95
48
(5) Before suspending the indoor unit, remove the 2 or 3 screws on the
latch of the air-intake grilles, open the grilles, and remove them by
pushing the claws of the hinges as shown in Fig. 3-95. Then remove
both side panels sliding them along the unit toward the front after
removing the 2 attachment screws. (Fig. 3-96)
Slide toward
front side
(6) Carry out the preparation for suspending the indoor unit. The
suspension method varies depending on whether there is a suspended
ceiling or not. (Figs. 3-97 and 3-98)
Side panel
(7) Suspend the indoor unit as follows:
Fig. 3-96
a) Mount 1 washer and 2 hexagonal nuts on each suspension bolt as
shown in Fig. 3-99.
b) Lift the indoor unit, and place it on the washers through the notches,
in order to fix it in place. (Fig. 3-100)
c) Tighten the 2 hexagonal nuts on each suspension bolt to suspend
the indoor unit as shown in Fig. 3-101.
Suspension bolt
(field supply)
Unit
Ceiling surface
Washer (supplied)
Double nut
(field supply)
Fixture
NOTE
Fig. 3-97
The ceiling surface is not always level. Please confirm that the indoor unit
is evenly suspended. For the installation to be correct, leave a clearance of
about 3/8" between the ceiling panel and the ceiling surface and fill the gap
with an appropriate insulation or filler material.
Suspension bolt
(field supply)
Washer (field supply)
Unit
(8) If the tubing and wiring are to go towards the rear of the unit, make
holes in the wall. (Fig. 3-102)
T
Washer (supplied)
Double nut
(field supply)
(9) Measure the thickness of the wall from the inside to the outside and cut
PVC pipe at a slight angle to fit. Insert the PVC pipe in the wall.
(Fig. 3-103)
Fig. 3-98
Ceiling
surface
Washer
(supplied)
Nut
(field supply)
Suspension bolt
Fig. 3-99
Fig. 3-100
NOTE
Fig. 3-101
The hole should be made at a slight downward slant to
the outside.
PVC pipe (locally purchased)
INSIDE
OUTSIDE
Wall
Indoor
side
Outdoor
side
PVC pipe
Slight
angle
Cut at slight angle
Fig. 3-102
Fig. 3-103
49
3-26. Duct for Fresh Air
Rear outlet port
There is a duct connection port (knock-out hole) at the right-
rear of the top panel of the indoor unit for drawing in fresh air.
If it is necessary to draw in fresh air, remove the cover by
opening the hole and connecting the duct to the indoor unit
through the connection port. (Fig. 3-104)
Inter-unit control wiring
(ø1-3/16", knock-out, use rubber grommet)
Outside air intake duct connection port
(ø3-15/16", knock-out)
Power supply outlet
(ø1-3/16", knock-out)
3-27. Shaping the Tubing
Rear tubing hole
G The positions of the refrigerant tubing connections are
shown in the figure below. (The tubing can be routed in
3 directions.)
Left-side drain hose outlet port
Fig. 3-104
* When routing the tubing out through the top or right sides,
knock out the appropriate parts in the top panel and cut
notches in the side panel as shown in Fig. 3-89.
* When routing the tubing out through the top, the optional
L-shape tubing kit is required.
If the tubing is to be routed out
together, use a box cutter or simi-
lar tool to cut out the part of the
rear cover indicated by the marked
area in the figure below, to match
the positions of the tubes. Then
draw out the tubing.
T
Rear cover
Fig. 3-106
Fig. 3-105
3-28. Installing the Drain Piping
G Prepare standard PVC pipe for the drain and connect it to the
indoor unit drain pipe with the supplied hose clamps to prevent
water leaks.
Donward gradient
Min. 1/100
(1) Drain hose connection
G The drain hose is connected below the refrigerant tubing.
Good
(2) Installing the drain hose
G To install the drain hose, first place 1 of the 2 hose bands over the
unit drain port and the other hose band over the hard PVC pipe
(not supplied). Then connect both ends of the supplied drain hose.
G On the unit drain side, grasp the hose band with pliers and insert
the drain hose all the way to the base.
Not good
G If other commercially available hose bands are used, the drain
hose may become pinched or wrinkled and there is danger of
water leakage. Therefore be sure to use the supplied hose bands.
When sliding the hose bands, be careful to avoid scratching the
drain hose.
Fig. 3-107
CAUTION
G Do not use adhesive when connecting the supplied drain hose to
the drain port (either on the main unit or the PVC pipe).
G Wrap the hose with the supplied drain hose insulation and use the
4 twist ties so that the hose is insulated with no gaps.
G Connect the drain piping so that it slopes downward from the unit
to the outside. (Fig. 3-107)
G Attach so that the hose band fastener is
on the side of the drain port. (Fig. 3-108)
G Attach the hose bands so that each is
approximately 13/64 – 63/64 in. from the
end of the supplied drain hose.
50
Twist tie
(4 ties, supplied)
G Never allow traps to occur in the course of the piping.
G Insulate any piping inside the room to prevent drip-
ping.
Hard PVC pipe
(equivalent to
VP-20)
Drain hose
insulation
(supplied)
Position to
fasten hose
bands
Unit drain port
(Field supply)
G After the drain piping, pour water into the drain pan to
check that the water drains smoothly.
G If the drain hose is to be raised, use the optional drain
up kit.
The drain hose can be raised 23-5/8" above the top of
the main unit. (For details, refer to the manual of the
Drain hose
(supplied)
13/64
63/64
13/64
63/64
optional part.)
Drain port
5-33/64
Hose band
(2 bands, supplied)
Screwdriver
* If the drain hose is
routed through the
left side, refer to Fig.
3-105, and follow the
procedure above to
Unit drain pan
Unit: in.
Fig. 3-108
Rubber stopper
Check local electrical codes
and regulations before wiring.
Also, check any specified
instruction or limitations.
CAUTION
install the hose. Re-attach the rubber stopper that
was earlier removed onto the right side.
The rubber stopper can be inserted easily by using a
screwdriver or similar tool to press the stopper into
the drain port on the main unit. Press the stopper into
the main unit drain port as far as it will go.
T
How to carry out power supply wiring
(1) Wiring connection ports
(2) How to carry out wiring
The power inlet ports are located at the rear and top.
The remote controller wiring inlet ports are located at
the rear and top (for use with the wired remote
controller).
For details, refer to Fig. 3-104. For the method used to
insert the wiring, refer to the figure below. (Fig. 3-109)
G Open the knock-out hole on the rear or top of the
main unit. Attach the supplied rubber grommet and
pull the power wiring into the main unit.
G Feed the wiring into the wiring inlet port on the
electrical component box. Connect the wiring to
the terminal plate and fasten in place with the
supplied clamp.
G Perform electrical and grounding work in
accordance with the package A/C power
specifications, and following local electrical
codes and regulations.
When removing the fastening
CAUTION
bracket from the cover of the
electrical component box, use
caution to avoid dropping the
bracket.
Inter-unit control wiring
ø1-9/32 knock-out
Eyelet (supplied)
Powe supply outlet
Fig. 3-109
51
I Wall-Mounted Type (K Type)
3-29. Removing the Rear Panel from the Unit
(1) Remove the set screws used to fasten the rear panel to the
indoor unit during transportation.
Screws used during
transportation
(2) Press up on the frame at the 2 locations shown by the arrows
in the figure at right, and remove the rear panel.
Press
NOTE
Remove the rear panel
Tubing can be extended in 4 directions as shown in Fig. 3-111.
Select the direction which will provide the shortest run to the
outdoor unit.
Fig. 3-110
Left-rear tubing
3-30. Selecting and Making a Hole
Right-rear
tubing
(recommended)
Left tubing
(1) Remove the rear panel from the indoor unit and place it on
the wall at the location selected. Fix the rear panel and hook
the unit onto it temporarily. Make sure the unit is horizontal
using a carpenter’s level or tape measure to measure down
from the ceiling.
Right tubing
(2) Determine which notch of the rear panel should be used.
(Fig. 3-112)
Fig. 3-111
(3) Before drilling a hole, check that there are no studs or pipes
behind the determined location. The above precautions are
also applicable if tubing goes through the wall in any other
location.
Center of left rear
tubing hole
Center of right rear
tubing hole
(4) Using a sabre saw, key hole saw or hole-cutting drill attach-
ment, make a hole (dia. 3-5/32") in the wall. (Fig. 3-113)
K
Tubing hole diameter ø3-5/32
(5) Measure the thickness of the wall from the inside edge to the
outside edge and cut the PVC pipe at a slight angle
Fig. 3-112
15/64" shorter than the thickness of the wall. (Fig. 3-114)
Indoor
side
Outdoor
side
(6) Place the plastic cover over the end of the pipe (for indoor
side only) and insert in the wall. (Fig. 3-115)
NOTE
The hole should be made at a slight downward gradient to the
outside.
Fig. 3-113
PVC pipe (locally purchased)
Avoid areas where electrical wiring or
conduits are located.
CAUTION
3-31. Installing the Rear Panel onto the Wall
Confirm that the wall is strong enough to support the unit.
See either Item a) or b) below depending on the wall type.
Cut at slight angle
a) If the Wall is Wooden
Fig. 3-114
(1) Attach the rear panel to the wall with the 10 screws provided. (Fig. 3-116)
If you are not able to line up the holes in
INSIDE
OUTSIDE
Wall
the rear panel with the beam locations
marked on the wall, use Rawl plugs or
toggle bolts to go through the holes on
the panel or drill 3/16" dia. holes in the
panel over the stud locations and then
mount the rear panel.
Plastic
cover
PVC pipe
Slight
angle
Fig. 3-116
Fig. 3-115
52
(2) Check with a tape measure or carpenter’s level. This is
important so that the unit is correctly installed. (Fig. 3-117)
(3) Make sure the panel is flush against the wall. Any space
between the wall and unit will cause noise and vibration.
Fig. 3-117
b) If the Wall is Brick, Concrete or Similar
Drill 3/16" dia. holes in the wall. Insert Rawl plugs for
appropriate mounting screws. (Fig. 3-118)
3/16"
dia. hole
3-32. Removing the Grille to Install the Indoor Unit
In principle, with this model wiring can be completed without
removing the grille.
Rawl plug
However, if it is necessary to change the settings on the PCB,
follow the procedure below.
Fig. 3-118
Removing the grille
(1) Lift up on both sides of the air-intake grille to open it.
(Fig. 3-119)
Intake grille
(2) Remove the filter. (Fig. 3-119)
(3) Adjust the flap so that it is horizontal. (Fig. 3-120)
(4) Open the installation screw covers below the grille
(3 locations). (Fig. 3-120)
Filter
Flap
(5) Remove the screws. (Fig. 3-120)
(6) Remove the grille. (Fig. 3-121)
Attaching the grille
Open the grille
Fig. 3-119
K
(1) Close the flap.
(2) Keep the grille installation tabs aligned with the top portion of
the grille, and reinstall the lower portion of the grille.
Fit the installation tabs into the grooves and press the lower
portion of the grille back into its original position to install it.
Installation screw cover
(3) Press on the installation tabs to completely close the grille.
Check that the grille and frame are fitted tightly together.
Fig. 3-120
3-33. Preparing the Tubing
(1) Arrangement of tubing by directions
a) Right or left tubing
The corner of the right or left frame should be cut with a
hack saw or similar. (Fig. 3-122)
Remove the grille
b) Right-rear or left-rear tubing
Fig. 3-121
In this case, the corners of the frame do not need to be
cut.
Installation tabs
(2) Be sure to insulate the part of the drain hose that is
run indoors, and the refrigerant tubing.
Frame
If these are not insulated, condensation may result in
dripping and damage to walls and furniture.
The flare nuts on the 24-type (only) are large;
therefore, use the supplied insulation material.
Right tubing
outlet
Installation tabs
When left and right side tubing
Fig. 3-122
Fig. 3-123
53
(3) To mount the indoor unit on the rear panel.
1. When installing the indoor unit, position the indoor unit onto the
installation tabs on the upper part of the rear panel. (Fig. 3-123)
2. Press on the air outlet to hold it in place, and press the lower
part of the indoor unit until a “click” sound is heard and the
indoor unit is securely fastened to the installation tabs on the
lower side of the rear panel. (Fig. 3-124)
Press
Raising the clamp to lift up the indoor unit will facilitate this work.
(Fig. 3-125)
Fig. 3-124
Clamp
To remove the indoor unit, press up on the 2 locations
(L marks) on the lower part of the unit frame to disconnect the
installation tabs. Refer to Section 3-1. “Removing the Rear Panel
from the Unit” (Fig. 3-110).
Then lift up the indoor unit to remove it.
3-34. Shaping the Tubing
Right-rear tubing
Fig. 3-125
Rear panel tab
(1) Shape the refrigerant tubing so that it can easily go into the hole.
(Fig. 3-126)
Insulating
tape
Refrigerant
tubing
(2) After performing a leak test, wrap both the refrigerant tubing and
drain hose together with insulating tape.
The drain hose should be positioned below the refrigerant tubes,
and should be given sufficient space so that no strong tension is
applied to it.
Indoor and
outdoor unit
connection wiring
Plastic cover
(3) Push the wiring, refrigerant tubing and drain hose through the hole
in the wall. Adjust the indoor unit so it is securely seated on the
rear panel.
K
Fig. 3-126
Fig. 3-127
Left or left-rear tubing
(1) Pass the tubing and drain hose into the rear of the indoor unit.
Provide sufficient length for the connections to be made.
Next, bend the tubing with a pipe bender, and connect them.
Insulation
(2) After performing a leak test, wrap the refrigerant tubing and drain
hose together with insulating tape, as shown in the figure at right.
(Fig. 3-128)
Refrigerant tubing
Then fit the tubing into the tubing storage space in the rear of the
indoor unit and clamp in place.
Rear panel
Insulating tape
(3) Adjust the indoor unit so that it is securely installed onto the rear
panel.
Inter-unit wiring
Drain hose
3-35. Installing the Drain Hose
Fig. 3-128
a) The drain hose should be slanted downward to the
outside. (Fig. 3-129)
Indoor unit
b) Never form a trap in the course of the hose.
c) If the drain hose will run in the room, insulate the hose* so that
chilled condensation will not damage furniture or floors.
* Foamed polyethylene or its equivalent is recommended.
Slant
Do not supply power to the unit or operate
it until all tubing and wiring to the outdoor
unit are completed.
WARNING
Refrigerant
tubing
Fig. 3-129
54
3-36. When Using Wireless Remote Controller Instead Of Wired Remote Controller
When the wireless remote controller is to be used, slide the switch on the indoor unit control PCB.
• If this setting is not made, an alarm will occur. (The operation lamp on the display blinks.)
• This setting is not necessary if both the wired remote controller and wireless remote controller are used.
• The location of the switch varies depending on the type of PCB used. Check the model name before making the
setting.
KHX0752 / 0952 / 1252 / 1852
CR-KR74GXH56A-0
Slide No. 3 on SW101
Setting at time of
from ON OFF.
factory shipment
K
KHX2452
CR-KR254GXH56A-0
Slide No. 3 on SW101
Setting at time of
from ON OFF.
factory shipment
55
4. HOW TO INSTALL THE OUTDOOR UNIT
4-1. Installing the Outdoor Unit
G Use concrete or a similar material to create the base, and
ensure good drainage.
G Ordinarily, ensure a base height of 2 in. or more. If a drain
pipe is used, or for use in cold-weather regions, ensure a
height of 6 in. or more at the feet on both sides of the unit.
(In this case, leave clearance below the unit for the drain
pipe, and to prevent freezing of drainage water in
cold-weather regions.)
Drain port (2 locations)
6-47/64 25-63/64
4-3/8
G Refer to the Fig. 4-1 for the anchor bolt dimensions.
8-5/8
5-29/32
G Be sure to anchor the feet with the anchor bolts (M10 or
3/8"). In addition, use anchoring washers on the top side.
(Use large square 1-1/4" × 1-1/4" SUS washers with
diameters of 3/8".) (Field supply)
33/64
33/64
33/64
33/64
4-2. Drainage Work
37
Follow the procedure below to ensure adequate draining for
the outdoor unit.
G For the drain port dimensions, refer to the figure at right.
G Ensure a base height of 6 in. or more at the feet on both
sides of the unit.
4-3. Routing the Tubing and Wiring
G The tubing and wiring can be extended out in 4 directions:
front, rear, right, and down.
G The service valves are housed inside the unit. To access
them, remove the inspection panel. (To remove the
inspection panel, remove the 3 screws, then slide the
panel downward and pull it toward you.)
Anchor bolt (M10 or 3/8")
Unit: in.
Drain port
Fig. 4-1
(1) If the routing direction is through the front, rear, or right,
use a nipper or similar tool to cut out the knockout holes for
the inter-unit control wiring outlet, power wiring outlet, and
tubing outlet from the appropriate covers A and B.
Inter-unit control wiring
(2) If the routing direction is down, use a nipper or similar tool to
cut out the lower flange from cover A.
Inspection panel
Rear
G Route the tubing so that it does
CAUTION
Cover B
Cover A
not contact the compressor,
panel, or other parts inside the
unit. Increased noise will result if
the tubing contacts these parts.
Front
Right
Power supply
Down
G When routing the tubing, use a
Tubing outlet
tube bender to bend the tubes.
Fig. 4-2
56
5. ELECTRICAL WIRING
5-1. General Precautions on Wiring
(1) Before wiring, confirm the rated voltage of the unit
as shown on its nameplate, then carry out the
wiring closely following the wiring diagram.
(7) Regulations on wire diameters differ from locality
to locality. For field wiring rules, please refer to
your LOCAL ELECTRICAL CODES before begin-
ning.
(2) Provide a power outlet to be used exclusively for
each unit, and a power supply disconnect and
circuit breaker for overcurrent protection should be
provided in the exclusive line.
You must ensure that installation complies with all
relevant rules and regulations.
(8) To prevent malfunction of the air conditioner
caused by electrical noise, care must be taken
when wiring as follows:
(3) To prevent possible hazards from insulation
failure, the unit must be grounded.
(4) Each wiring connection must be done in accor-
dance with the wiring system diagram. Wrong
wiring may cause the unit to misoperate or
become damaged.
G The remote control wiring and the inter-unit control
wiring should be wired apart from the inter-unit
power wiring.
G Use shielded wires for inter-unit control wiring
(5) Do not allow wiring to touch the refrigerant tubing,
compressor, or any moving parts of the fan.
between units and ground the shield on both sides.
(9) If the power supply cord of this appliance is dam-
aged, it must be replaced by a repair shop
appointed by the manufacturer, because special
purpose tools are required.
(6) Unauthorized changes in the internal wiring can be
very dangerous. The manufacturer will accept no
responsibility for any damage or misoperation that
occurs as a result of such unauthorized changes.
5-2. Recommended Wire Length and Wire Diameter for Power Supply System
Outdoor unit
Time delay fuse or
circuit capacity
Type
(A) Power supply wiring
CHX03652
30 A
For field wiring rules, please refer
to your LOCAL ELECTRICAL CODES
CHX06052
50 A
Indoor unit
Time delay fuse or
circuit capacity
Type
(B) Power supply wiring
K
A, X, T, U
D
15 A
15 A
15 A
For field wiring rules, please refer
to your LOCAL ELECTRICAL CODES
Control wiring
(C) Inter-unit (between outdoor and
(D) Remote control wiring
(E) Control wiring for group control
indoor units) control wiring
AWG #18 (0.75 mm2)
AWG #18 (0.75 mm2)
AWG #18 (0.75 mm2)
Use shielded wiring*
Use shielded wiring
Use shielded wiring
Max. 3,280 ft.
Max. 1,640 ft.
Max. 1,640 ft. (Total)
NOTE
* With ring-type wire terminal.
57
5-3. Wiring System Diagram
Indoor
Outdoor unit
unit (No. 1)
INV unit
L1
L2
Power supply
208 / 230 V, 1ø, ~60Hz
A
L1
L2
L1
L2
L1
L2
Power supply
208 / 230 V, 1ø, ~60Hz
C
Ground
B
Ground
U1
U2
U1
U2
Remote
controller
WHT
BLK
D
Ground
R1
R2
1
1
2
2
Ground
C
Indoor
unit (No. 2)
L1
L2
Power supply
208 / 230 V, 1ø, ~60Hz
L1
L2
Ground
B
U1
U2
Remote
controller
D
R1
R2
1
1
2
WHT
BLK
2
Ground
C
Indoor
unit (No. 3)
Group control:
L1
L2
Power supply
208 / 230 V, 1ø, ~60Hz
L1
L2
Ground
B
U1
U2
E
R1
R2
Ground
C
Indoor
unit (No. n)
L1
L2
Power supply
208 / 230 V, 1ø, ~60Hz
L1
L2
Ground
B
U1
U2
Remote
controller
D
R1
R2
1
1
2
WHT
BLK
2
7P terminal board
Ground
NOTE
(1) Refer to Section 5-2. “Recommended Wire Length
and Wire Diameter for Power Supply System” for
the explanation of “A,” “B,” “C,” “D,” and “E,” in the
above diagram.
1(L1) 2(L2)
U1 U2 R1 R2
Remote
(2) The basic connection diagram of the indoor unit
shows the 7P terminal board, so the terminal
boards in your equipment may differ from the
diagram.
Power
Inter-unit
control wiring controller
supply
X, A, U, D, T Type
(3) Refrigerant Circuit (R.C.) address should be set
before turning the power on.
5P terminal board
(4) Regarding the R.C. address setting, refer to page
72. Auto. address setting can be executed by
remote controller automatically.
1
2
3
4
5
1(L1)2(L2)
Power
supply control wiring
U1 U2
Inter-unit
Refer to page 72 – 76.
K Type
58
CAUTION
(1) When linking outdoor units in a network (S-net link system), disconnect the terminal extended from the
short plug (CN003, 2P Black, location: right bottom on the outdoor main control PCB) from all outdoor
units except any one of the outdoor units.
(When shipping: In shorted condition.)
Otherwise the communication of S-net link system is not performed. For a system without link (no
connection wiring between outdoor units), do not remove the short plug.
(2) Do not install the inter-unit control wiring in a way that forms a loop. (Fig. 5-1)
Outdoor unit
Outdoor unit
Outdoor unit
Prohibited
Prohibited
Indoor unit
Indoor unit
Indoor unit
Indoor unit
Indoor unit
Fig. 5-1
(3) Do not install inter-unit control wiring such as star
branch wiring. Star branch wiring causes mis-address
setting.
Outdoor unit
Indoor unit
Indoor unit
Indoor unit
NO
Outdoor unit
Indoor unit
Indoor unit
Indoor unit
Indoor unit
NO
Branch point
Fig. 5-2
(4) If branching the inter-unit control wiring, the number of branch points should be 16 or fewer.
(Branches less than 3.3 ft. are not included in the total branch number.) (Fig. 5-3)
Outdoor unit
Outdoor unit
Outdoor unit
Indoor unit
Indoor unit
Indoor unit
Indoor unit
more than 3.3 ft.
Branch
point
Indoor unit
Indoor unit
Indoor unit
Indoor unit
16 or fewer
more than 3.3 ft.
Indoor unit
more than 3.3 ft.
Indoor unit
Fig. 5-3
59
(5) Use shielded wires for inter-unit control wiring (c)
and ground the shield on both sides, otherwise
misoperation from noise may occur. (Fig. 5-4)
Connect wiring as shown in Section “5-3. Wiring
System Diagram.”
Shielded wire
Loose wiring may cause
Ground
Ground
WARNING
the terminal to overheat or
result in unit malfunction.
A fire hazard may also
exist. Therefore, ensure
that all wiring is tightly
connected.
Fig. 5-4
When connecting each power wire to the terminal, follow
the instructions on “How to connect wiring to the terminal”
and fasten the wire securely with the fixing screw of the
terminal plate.
How to connect wiring to the terminal
Stranded wire
I For stranded wiring
(1) Cut the wire end with cutting pliers, then strip the
insulation to expose the stranded wiring about 3/8 in.
and tightly twist the wire ends. (Fig. 5-5)
Ring
pressure
terminal
(2) Using a Phillips head screwdriver, remove the terminal
screw(s) on the terminal plate.
(3) Using a ring connector fastener or pliers, securely
clamp each stripped wire end with a ring pressure
terminal.
Fig. 5-5
(4) Place the ring pressure terminal, and replace and
tighten the removed terminal screw using a
screwdriver. (Fig. 5-6)
Special
washer
Screw
Ring pressure
terminal
Screw and
Special washer
Terminal plate
Wire
Ring
pressure
terminal
Wire
Fig. 5-6
60
6. HOW TO PROCESS TUBING
Deburring
After
Before
6-1. Connecting the Refrigerant Tubing
Use of the Flaring Method
Many of conventional split system air conditioners
employ the flaring method to connect refrigerant tubes
which run between indoor and outdoor units. In this
method, the copper tubes are flared at each end and
connected with flare nuts.
Flaring Procedure with a Flare Tool
(1) Cut the copper tube to the required length with a
tube cutter. It is recommended to cut approx. 1 –
2 ft. longer than the tubing length you estimate.
Fig. 6-1
(2) Remove burrs at the end of the copper tube with a
tube reamer or file. This process is important and
should be done carefully to make a good flare.
(Fig. 6-1)
Copper
tubing
Reamer
NOTE
When reaming, hold the tube end downward and be
sure that no copper scraps fall into the tube. (Fig. 6-2)
Fig. 6-2
(3) Remove the flare nut from the unit and be sure to
mount it on the copper tube.
(4) Make a flare at the end of copper tube with a flare
tool.* (Fig. 6-3)
(*Use “RIGID®” or equivalent.)
Flare nut
Copper
tubing
NOTE
A good flare should have the following characteristics:
G inside surface is glossy and smooth
G edge is smooth
Flare tool
Fig. 6-3
G tapered sides are of uniform length
61
Caution Before Connecting Tubes Tightly
(1) Apply a sealing cap or water-proof tape to prevent dust or
water from entering the tubes before they are used.
Apply refrigerant
(2) Be sure to apply refrigerant lubricant to the matching
surfaces of the flare and union before connecting them
together. This is effective for reducing gas leaks. (Fig. 6-4)
lubricant here and here
Fig. 6-4
(3) For proper connection, align the union tube and flare tube
straight with each other, then screw in the flare nut lightly
at first to obtain a smooth match. (Fig. 6-5)
G Adjust the shape of the liquid tube using a tube bender at
the installation site and connect it to the liquid tubing side
valve using a flare.
Flare nut
Union
Cautions During Brazing
Fig. 6-5
G Replace air inside the tube with nitrogen gas to
prevent copper oxide film from forming during the
brazing process. (Oxygen, carbon dioxide and Freon
are not acceptable.)
Torque wrench
Spanner
G Do not allow the tubing to get too hot during brazing.
The nitrogen gas inside the tubing may overheat,
causing refrigerant system valves to become dam-
aged. Therefore allow the tubing to cool when brazing.
Indoor unit
Outdoor unit
G Use a reducing valve for the nitrogen cylinder.
Fig. 6-6
G Do not use agents intended to prevent the formation
of oxide film. These agents adversely affect the
refrigerant and refrigerant oil, and may cause damage
or malfunctions.
Tightening torque,
approximate
Tube thickness
Tube diameter
ø1/4"
(ø6.35 mm)
120 – 160 lbs in.
1/32"
(0.8 mm)
·
·
(140 – 180 kgf cm)
6-2. Connecting Tubing Between Indoor and Outdoor
Units
ø3/8"
(ø9.52 mm)
1/32"
(0.8 mm)
300 – 360 lbs in.
·
(340 – 420 kgf cm)
·
ø1/2"
(ø12.7 mm)
1/32"
(0.8 mm)
430 – 530 lbs in.
·
(1) Tightly connect the indoor-side refrigerant tubing extended
from the wall with the outdoor-side tubing.
(490 – 610 kgf cm)
·
ø5/8"
(ø15.88 mm)
5/128"
(1.0 mm)
590 – 710 lbs in.
·
·
(2) To fasten the flare nuts, apply specified torque as at right:
(680 – 820 kgf cm)
ø3/4"
(ø19.05 mm)
over 5/128"
(1.0 mm)
870 – 1040 lbs in.
·
G When removing the flare nuts from the tubing connections,
or when tightening them after connecting the tubing, be
sure to use 2 monkey wrenches or spanners as shown.
(Fig. 6-6)
(1000 – 1200 kgf cm)
·
Because the pressure is approximately 1.6 times
higher than conventional refrigerant pressure, the
use of ordinary flare nuts (type 1) or thin-walled
tubes may result in tube rupture, injury, or
If the flare nuts are over-tightened, the flare may be dam-
aged, which could result refrigerant leakage and cause in
injury or asphyxiation to room occupants.
G For the flare nuts at tubing connections, be sure to use the
flare nuts that were supplied with the unit, or else flare nuts
for R410A (type 2). The refrigerant tubing that is used must
be of the correct wall thickness as shown in the table at
right.
asphyxiation caused by refrigerant leakage.
G In order to prevent damage to the flare caused by
over-tightening of the flare nuts, use the table
above as a guide when tightening.
G When tightening the flare nut on the liquid tube,
use a monkey wrench with a nominal handle length
of 7-7/8 in.
62
6-3. Insulating the Refrigerant Tubing
Tubing Insulation
Two tubes arranged together
Liquid tubing
Gas tubing
G Thermal insulation must be applied to all unit tubing,
including distribution joint (purchased separately).
* For gas tubing, the insulation material must be heat
resistant to 248°F or above. For other tubing, it must
be heat resistant to 176°F or above.
Insulation
Fig. 6-7
Insulation material thickness must be 25/64" or greater.
If the conditions inside the ceiling exceed DB 86°F and
RH 70%, increase the thickness of the gas tubing
insulation material by 1 step.
Taping the flare nuts
If the exterior of the outdoor
CAUTION
unit valves has been finished
with a square duct covering,
make sure you allow sufficient
space to use the valves and to
allow the panels to be
attached and removed.
Sealer (supplied)
Insulation tape (white)
(supplied)
Wind the white insulation tape around the flare nuts at the
gas tube connections. Then cover up the tubing
connections with the flare insulator, and fill the gap at the
union with the supplied black insulation tape. Finally,
fasten the insulator at both ends with the supplied vinyl
clamps. (Fig. 6-8)
Flare insulator (supplied)
Tube insulator
(not supplied)
Heat resistant
248°F or above
Unit side
insulator
Flare nut
Vinyl clamps (supplied)
Insulation material
Fig. 6-8
The material used for insulation must have good insulation
characteristics, be easy to use, be age resistant, and must
not easily absorb moisture.
Refrigerant tubing and insulator
(not supplied)
Drain insulator
and clamp.
Large
Drain pipe and insulator
(not supplied)
After a tube has been
(supplied)
CAUTION
insulated, never try to bend it
into a narrow curve because it
can cause the tube to break or
crack.
Packing
clamp.
Small
hose band
(supplied)
Insulation
tape
Vinyl
Flare
clamp
insulator
Seal
The procedure used for
installing the insulator for
both gas and liquid
tubes is the same.
Fig. 6-9
Never grasp the drain or refrigerant connecting
outlets when moving the unit.
63
6-4. Taping the Tubes
(1) At this time, the refrigerant tubes (and electrical
wiring if local codes permit) should be taped
together with armoring tape in 1 bundle. To prevent
the condensation from overflowing the drain pan,
keep the drain hose separate from the refrigerant
tubing.
Clamp
(2) Wrap the armoring tape from the bottom of the
outdoor unit to the top of the tubing where it enters
the wall. As you wrap the tubing, overlap half of
each previous tape turn.
Drain hose
Insulated tubes
(3) Clamp the tubing bundle to the wall, using 1 clamp
approx. each ft. (Fig. 6-10)
NOTE
Fig. 6-10
Do not wind the armoring tape too tightly since this will
decrease the heat insulation effect. Also ensure that
the condensation drain hose splits away from the
bundle and drips clear of the unit and the tubing.
Apply putty here
6-5. Finishing the Installation
After finishing insulating and taping over the tubing, use
sealing putty to seal off the hole in the wall to prevent
rain and draft from entering. (Fig. 6-11)
Tubing
Fig. 6-11
64
7. AIR PURGING
Manifold gauge
Air and moisture in the refrigerant system may have
undesirable effects as indicated below.
G pressure in the system rises
G operating current rises
G cooling (or heating) efficiency drops
G moisture in the refrigerant circuit may freeze and block
capillary tubing
G water may lead to corrosion of parts in the refrigerant
system
Fig. 7-1
Therefore, the indoor unit and tubing between the indoor
and outdoor unit must be leak tested and evacuated to
remove any noncondensables and moisture from the
system.
Vacuum pump
Outlet
Inlet
I Air Purging with a Vacuum Pump (for Test Run)
Preparation
Check that each tube (both liquid and gas tubes) between
the indoor and outdoor units has been properly connected
and all wiring for the test run has been completed. Remove
the valve caps from both the gas tube and liquid tube
service valves on the outdoor unit. Note that both liquid and
gas tube service valves on the outdoor unit are kept closed
at this stage.
Fig. 7-2
Manifold valve
Pressure
gauge
Lo
Hi
Leak test
Charge hose
(1) Attach a manifold valve (with pressure gauges) and dry
nitrogen gas cylinder to this service port with charge
hoses.
Cylinder
valve
Nitrogen gas cylinder
(In vertical standing
position)
Use a manifold valve for air
CAUTION
purging. If it is not available, use
a stop valve for this purpose. The
“Hi” knob of the manifold valve
must always be kept closed.
Service port ø5/16"
(2) Pressurize the system to no more than
512 psig (36 kgf/cm2G) with dry nitrogen gas and close
the cylinder valve when the gauge reading reaches
512 psig (36 kgf/cm2G). Then, test for leaks with liquid
soap.
Open
Gas
tube
Close
Outdoor unit
To avoid nitrogen entering the
Open
CAUTION
refrigerant system in a liquid state,
the top of the cylinder must be
higher than the bottom when you
pressurize the system. Usually,
the cylinder is used in a vertical
standing position. (Refer to the
previous page.)
Liquid
tube
Close
Fig. 7-3
65
(3) Do a leak test of all joints of the tubing (both indoor and
outdoor) and both gas tube and liquid tube service
valves. Bubbles indicate a leak. Wipe off the soap with a
clean cloth after the leak test.
Manifold valve
(4) After the system is found to be free of leaks, relieve the
nitrogen pressure by loosening the charge hose
connector at the nitrogen cylinder. When the system
pressure is reduced to normal, disconnect the hose from
the cylinder.
Pressure
gauge
Lo
Hi
Evacuation
(1) Attach the charge hose end described in the preceding
steps to the vacuum pump to evacuate the tubing and
indoor unit. Confirm that the “Lo” knob of the manifold
valve is open. Then, run the vacuum pump. The
operation time for evacuation varies with the tubing
length and capacity of the pump. The following table
shows the amount of time for evacuation:
Vacuum pump
Service port ø5/16"
Open
Required time for evacuation
Gas
tube
when 30 gal/h vacuum pump is used
If tubing length is
less than 49 ft.
If tubing length is
longer than 49 ft.
90 min. or more
Close
Outdoor unit
45 min. or more
Open
NOTE
Liquid
tube
The required time in the above table is calculated based on
the assumption that the ideal (or target) vacuum condition is
less than –14.7 psig (–755 mmHg, 5 Torr).
Close
Fig. 7-4
(2) When the desired vacuum is reached, close the “Lo”
knob of the manifold valve and turn off the vacuum pump.
Confirm that the gauge pressure is under –14.7 psig
(–755 mmHg, 5 Torr) after 4 to 5 minutes of vacuum
pump operation.
66
Use a cylinder designed for
use with R410A respectively.
CAUTION
Manifold valve
Pressure
gauge
Lo
Hi
Charging additional refrigerant
G Charging additional refrigerant (calculated from the
liquid tube length as shown in Section 1-7
“Additional Refrigerant Charge”) using the liquid
tube service valve. (Fig. 7-5)
Valve
G Use a balance to measure the refrigerant accurately.
G If the additional refrigerant charge amount cannot
be charged at once, charge the remaining
refrigerant in liquid form by using the gas tube
service valve with the system in cooling operation
mode at the time of test run. (Fig. 7-6)
Liquid
Finishing the job
R410A
(1) With a hex wrench, turn the liquid tube service
valve stem counter-clockwise to fully open the
valve.
Close
Open
Gas
(2) Turn the gas tube service valve stem
counter-clockwise to fully open the valve.
tube
Close
Close
Outdoor unit
To avoid gas from leaking when
CAUTION
removing the charge hose,
make sure the stem of the gas
tube is turned all the way out
(“BACK SEAT” position).
Liquid
tube
(3) Loosen the charge hose connected to the gas
tube service port (for ø5/16" tube) slightly to
release the pressure, then remove the hose.
Fig. 7-5
(4) Replace the service port cap on the gas tube
service port and fasten the cap securely with an
monkey spanner or box wrench. This process is
very important to prevent gas from leaking from
the system.
Open
Close
(5) Replace the valve caps at both gas tube and liquid
tube service valves and fasten them securely.
Gas
tube
Open
Open
This completes air purging with a vacuum pump. The
air conditioner is now ready for a test run.
Outdoor unit
Liquid
tube
Fig. 7-6
67
8. TEST RUN
8-1. Preparing for Test Run
G Before attempting to start the air conditioner,
check the following.
ON
(1) All loose matter is removed from the cabinet,
especially steel filings, bits of wire, and clips.
(Power must be turned ON
at least 5 hours before
attempting test run)
(2) The control wiring is correctly connected and all
electrical connections are tight.
(3) The transportation pads for the indoor fan have
been removed. If not, remove them now.
Power mains switch
(4) The power has been connected to the unit for at
least 5 hours before starting the compressor. The
bottom of the compressor should be warm to the
touch and the crankcase heater around the feet of
the compressor should be hot to the touch.
(Fig. 8-1)
Fig. 8-1
(5) Both the gas and liquid tube service valves are
open. If not, open them now. (Fig. 8-2)
(6) Request that the customer be present for the trial
run.
Explain the contents of the instruction manual, then
have the customer actually operate the system.
(7) Be sure to give the instruction manual and
warranty certificate to the customer.
(8) When replacing the control PCB, be sure to make
all the same settings on the new PCB as were in
use before replacement.
The existing EEP ROM is not changed, and is
connected to the new control PCB.
Gas tube service cap
Liquid tube service cap
Fig. 8-2
68
8-2. Test Run Procedure
Items to Check Before the Test Run
1. Turn the remote power switch on at
least 5 hours before the test, in order to
energize the crank case heater.
2. Turn the outdoor service valves (2
locations) to the full-open positions.
G Use caution when making the settings. If
there are duplicated system addresses,
or if the settings for the Nos. of the
Recheck the items to check before the test run.
indoor units are not consistent, an alarm
will occur and the system will not start.
<Outdoor unit control PCB>
Unit No. setting switch
(S004)
Set the No. of indoor units.
G These settings are not made on the
indoor unit PCB.
CASE 1
Are the inter-unit control wires
connected to more than 1 refrigerant
system?
NO
(Check the link wiring.)
<Outdoor unit control PCB>
Unit No. setting switch
(S002 and S003)
YES
Set the system address.
When multiple outdoor units exist, disconnect the terminals
extended from the shorted plugs (CN33) at all outdoor main unit
PCBs except for 1.
Refer to Fig. 8-4
Alternatively, move the sockets to the OPEN side.
CASE 2
Is it possible to turn ON the power only
for the 1 refrigerant system where the
YES
test run will be performed?
Turn ON the indoor and
outdoor unit power for that
refrigerant system only.
NO
Will automatic address setting be
performed in Heating mode?
Make necessary corrections.
Short-circuit the automatic address pin (CN51)
on the outdoor unit PCB for 1 second or longer,
then release it.
NO
CASE 3B
Turn OFF the indoor and
outdoor unit power
YES
CASE 3A
LED 1 and 2 blink alternately
(about 2 or 3 minutes).
Is it OK to start the compressors?
Is it OK to start the compressors?
Check the alarm contents.
Turn ON the indoor and
outdoor unit power.
Turn ON the indoor and
outdoor unit power.
NO
Are LEDs 1 and 2 on the
outdoor unit PCB OFF?
Make necessary
corrections
*2
*2
Refer to “Table of
Short-circuit the mode change pin
(CN50) on the outdoor main unit PCB.
At the same time, short-circuit the
automatic address pin (CN51) for 1
second or longer, then pull it out.
Short-circuit the automatic address
pin (CN51) on the outdoor unit PCB
for 1 second or longer,
Self-Diagnostic Functions and
Description of Alarm Displays.”
YES
Turn OFF the indoor
and outdoor unit
then release it.
*3
*3
Start indoor and outdoor unit
cooling operation.
Start indoor and outdoor unit
heating operation.
Check the alarm
contents.
LED 1 and 2 blink alternately.
LED 1 and 2 blink alternately.
*2 A minimum of 5 hours must have passed after the
power was turned ON to the outdoor unit.
*3 All indoor units operate in all refrigerant systems
where the power is ON.
NO
Are LEDs 1 and 2 on the
outdoor unit PCB OFF?
YES
Check that test run preparation is OK.
(Do not allow the short-circuited pins to remain short-circuited.)
Set the wired remote controller for test run.
Refer to the remote
controller test-run
settings.
NO
Check and make corrections according to
“Table of Self-Diagnostic Functions.”
Does system operate?
YES
Return remote control to normal mode
End test run.
Fig. 8-3
69
8-3. Outdoor Unit PCB Setting
CN33
CN51
CN50
S003
S002
S004
D043
(LED2)
D042
(LED1)
Fig. 8-4
70
Examples of the No. of indoor units settings
Indoor unit setting (S004)
No. of indoor units
(Rotary switch, red)
1 unit (factory setting)
2 units
Set to 1
Set to 2
9 units
Set to 9
Examples of refrigerant circuit (R.C.) address settings (required when link wiring is used)
System address (S003)
System address (S002)
System address No.
(2P DIP switch, blue)
10 20
(Rotary switch, black)
ON
ON
Set to 1
Both OFF
System 1 (factory setting)
System 11
2
2
2
2
1
OFF
ON
ON
1 ON
Set to 1
Set to 1
Set to 0
1
OFF
ON
ON
System 21
2 ON
1
OFF
ON
ON
System 30
1 & 2 ON
1
OFF
71
8-4. Auto Address Setting
Basic wiring diagram: Example (1)
• If link wiring is not used
(The inter-unit control wires are not connected to multiple refrigerant systems.)
Indoor unit addresses can be set without operating the compressors.
No. 1 unit settings
System address
(system 1 setting)
No. of indoor units
(8 units setting)
(S004)
(S003)
ON
(S002)
ON
8
1
2
OFF
Unit
No. 1
Outdoor Unit
Inter-unit control wiring
Indoor Unit
1-1
1-2
1-3
1-8
Remote controller
cross-over wiring
Remote controller
Fig. 8-5
(1) Automatic Address Setting from the Outdoor Unit
1. On the outdoor unit control PCB, check that the system address rotary switch (S002) is set to “1” and that the
ON
ON
DIP switch (S003) is set to “0.”
(These are the settings at the time of factory shipment.)
1
2
OFF
2. To set the number of indoor units that are connected to the outdoor unit to 8, on the outdoor unit control PCB set
the No. of indoor units rotary switch (S004) to “8.”
3. Turn ON the power to the indoor and outdoor units.
4. On the outdoor unit control PCB, short-circuit the automatic address pin (CN51) for 1 second or longer, then
release it.
↓
(Communication for automatic address setting begins.)
↓
* To cancel, again short-circuit the automatic address pin (CN51) for 1 second or longer, then pull it out.
The LED that indicates that automatic address setting is in progress turns OFF and the process is
stopped.
(Automatic address setting is completed when LEDs 1 and 2 on the outdoor unit control PCB turn OFF.)
↓
5. Operation from the remote controllers is now possible.
* To perform automatic address setting from the remote controller, perform steps 1 to 3, then use the remote controller and
complete automatic address setting.
Refer to “Automatic Address Setting from the Remote Controller.”
72
Basic wiring diagram: Example (2)
If link wiring is used
*When multiple outdoor units exist, remove the socket that
is used to short-circuit the terminal plug (CN33) from all
outdoor unit PCBs except for 1.
Alternatively, move the sockets to the “OPEN” side.
No. 1 unit settings
System address
(system 1 setting)
No. of indoor units
(6 units setting)
(S004)
(S003)
(S002)
ON
ON
1
2
OFF
Leave the socket
that is used to
short-circuit the
terminal plug.
(CN33)
Outdoor unit
system 1
Unit
No. 1
Inter-unit control wiring
1-1
1-2
1-3
1-6
Indoor unit
Remote controller
communication wiring
Remote
controller
No. 2 unit settings
System address
(system 2 setting)
No. of indoor units
(7 units setting)
(S002) (S003)
(S004)
ON
OFF
ON
1
2
Leave the socket
that is used to open
circuit the terminal
plug (CN33).
Unit
No. 1
Outdoor unit
system 2
Inter-unit control wiring
Indoor unit
2-1
2-2
2-7
To other system
link wiring
Remote controller
cross-over wiring
Remote
controller
Make settings as appropriate for the cases listed below.
(Refer to the instructions on the following pages.)
Indoor and outdoor unit power can be turned ON for each system separately.
Case 1
Indoor and outdoor unit power cannot be turned ON for each system separately.
Case 2
Case 3
Automatic address setting in Heating mode
Automatic address setting in Cooling mode
Fig. 8-6
73
Case 1
Automatic Address Setting (no compressor operation)
G Indoor and outdoor unit power can be turned ON for each system separately.
Indoor unit addresses can be set without operating the compressors.
Automatic Address Setting from Outdoor Unit
1. On the outdoor unit control PCB, check that the system address rotary switch (S002) is set to “1” and that the DIP
ON
ON
switch (S003) is set to “0.”
(These are the settings at the time of factory shipment.)
1
2
OFF
2. To set the number of indoor units that are connected to the outdoor unit to 6, on the outdoor unit control PCB set the
No. of indoor units rotary switch (S004) to “6.”
3. At the outdoor unit where all indoor and outdoor unit power has been turned ON, short-circuit the automatic
address pin (CN51) for 1 second or longer, then pull it out.
↓
(Communication for automatic address setting begins.)
* To cancel, again short-circuit the automatic address pin (CN51) for 1 second or longer, then pull it out.
The LED that indicates automatic address setting is in progress turns OFF and the process is stopped.
↓
(Automatic address setting is completed when LEDs 1 and 2 on the outdoor unit control PCB turn OFF.)
↓
4. Next turn the power ON only for the indoor and outdoor units of the next (different) system. Repeat steps 1 – 3 in
the same way to complete automatic address settings for all systems.
↓
5. Operation from the remote controllers is now possible.
* To perform automatic address setting from the remote controller, perform steps 1 and 2, then use the remote controller
complete automatic address setting.
Refer to “Automatic Address Setting from the Remote Controller.”
74
Case 2
Automatic Address Setting in Heating Mode
G Indoor and outdoor unit power cannot be turned ON for each system separately.
In the following, automatic setting of indoor unit addresses is not possible if the compressors are not operating.
Therefore perform this process only after completing all refrigerant tubing work.
Automatic Address Setting from Outdoor Unit
Case 1
1. Perform steps 1 and 2 in the same way as for
.
2. Turn the indoor and outdoor unit power ON at all systems.
↓
Heating mode
3. To perform automatic address setting in
, on the outdoor unit control PCB in the refrigerant
system where you wish to set the addresses, short-circuit the automatic address pin (CN51) for 1 second or
longer, then pull it out.
(Be sure to perform this process for one system at a time. Automatic address settings cannot be performed for
more than one system at the same time.)
↓
(Communication for automatic address setting begins, the compressors turn ON, and automatic address
setting in heating mode begins.)
(All indoor units operate.)
* To cancel, again short-circuit the automatic address pin (CN51) for 1 second or longer, then pull it out.
The LED that indicates automatic address setting is in progress turns OFF and the process is stopped.
↓
(Automatic address setting is completed when the compressors stop and LEDs 1 and 2 on the outdoor unit
control PCB turn OFF.)
4. At the outdoor unit in the next (different) system, short-circuit the automatic address pin (CN51) for 1 second or
longer, then pull it out.
↓
(Repeat the same steps to complete automatic address setting for all units.)
↓
5. Operation from the remote controllers is now possible.
* To perform automatic address setting from the remote controller, perform steps 1 and 2, then use the remote controller
complete automatic address setting.
Refer to “Automatic Address Setting from the Remote Controller.”
75
Case 3
Automatic Address Setting in Cooling Mode
G Indoor and outdoor unit power cannot be turned ON for each system separately.
In the following, automatic setting of indoor unit addresses is not possible if the compressors are not operating.
Therefore perform this process only after completing all refrigerant tubing work.
Automatic address setting can be performed during Cooling operation.
Automatic Address Setting from Outdoor Unit
Case 1
1. Perform steps 1 and 2 in the same way as for
.
2. Turn the indoor and outdoor unit power ON at all systems.
↓
Cooling mode
3. To perform automatic address setting in
, on the outdoor unit control PCB in the refrigerant system
where you wish to set the addresses, short-circuit the mode change 2P pin (CN50). At the same time, short-circuit
the automatic address pin (CN51) for 1 second or longer, then pull it out. (Be sure to perform this process for one
system at a time. Automatic address settings cannot be performed for more than one system at the same time.)
↓
(Communication for automatic address setting begins, the compressors turn ON, and automatic address
setting in Cooling mode begins.)
(All indoor units operate.)
* To cancel, again short-circuit the automatic address pin (CN51) for 1 second or longer, then pull it out.
↓
The LED that indicates automatic address setting is in progress turns OFF and the process is stopped.
(Automatic address setting is completed when the compressors stop and LEDs 1 and 2 on the outdoor unit control
PCB turn OFF.)
4. At the outdoor unit in the next (different) system, short-circuit the automatic address pin (CN51) for 1 second or
longer, then pull it out.
↓
(Repeat the same steps to complete automatic address setting for all units.)
↓
5. Operation from the remote controllers is now possible.
* Automatic address setting in Cooling mode cannot be done from the remote controller.
Automatic Address Setting from the Remote Controller
Selecting each refrigerant system individually for automatic address setting
---Automatic address setting for each system: Item code “A1”
G Press the remote controller timer time
button and
button at the same
time. (Press and hold for 4 seconds or longer.)
G Next, press either the temperature setting
or
button.
(Check that the item code is “A1.”)
G Use either the
automatic address setting.
G Then press the button.
or
button to set the system No. to perform
(Automatic address setting for one refrigerant system begins.)
(When automatic address setting for one system is completed, the system
returns to normal stopped status.) <Approximately 4 – 5 minutes is required.>
(During automatic address setting, “SETTING” is displayed on the remote
controller. This message disappears when automatic address setting is
completed.)
G Repeat the same steps to perform automatic address setting for each successive system.
76
Display during automatic address setting
G On outdoor unit PCB
1
2
LED
* Do not short-circuit the automatic address setting pin (CN51) again while automatic
address setting is in progress. Doing so will cancel the setting operation and will cause
LEDs 1 and 2 to turn OFF.
Blink alternately
* When automatic address setting has been successfully completed, both LEDs 1 and 2 turn OFF.
* LED 1 is D042. LED 2 is D043.
* If automatic address setting is not completed successfully, refer to the table below and correct the problem. Then
perform automatic address setting again.
G Display details of LEDs 1 and 2 on the outdoor unit control PCB
:
(
: ON
: Blinking
: OFF)
Display meaning
LED 1
LED 2
After the power is turned ON (and automatic address setting is not in progress), no communication with the indoor
units in that system is possible.
After the power is turned ON (and automatic address setting is not in progress), 1 or more indoor units are
confirmed in that system; however, the number of indoor units does not match the number that was set.
Automatic address setting is in progress.
Automatic address setting completed.
Alternating
At time of automatic address setting, the number of indoor units did not match the number that was set.
(when indoor units are operating) indication appears on the display.
Simultaneous
Alternating
Refer to Table of Self-Diagnostic Functions and Description of Alarm Displays.
Note:
indicates that the solenoid is fused or that there is a CT (current detection circuit) failure (current is detected when
the compressor is OFF).
G Remote controller display during automatic setting
is blinking
Request concerning recording the indoor/outdoor unit combination Nos.
After automatic address setting has been completed, be sure to record them for future reference.
List the outdoor unit system address and the addresses of the indoor units in that system in an easily visible loca-
tion (next to the nameplate), using a permanent marking pen or similar means that cannot be erased easily.
Example: (Outdoor) 1 – (Indoor) 1-1, 1-2, 1-3…
(Outdoor) 2 – (Indoor) 2-1, 2-2, 2-3…
These numbers are necessary for later maintenance. Please be sure to indicate them.
77
Checking the indoor unit addresses
Use the remote controller to check the indoor unit address.
<If 1 indoor unit is connected to 1 remote controller>
1. Press and hold the
button and
button for 4 seconds or longer (simple settings mode).
2. The address is displayed for the indoor unit that is connected to the remote controller.
(Only the address of the indoor unit that is connected to the remote controller can be checked.)
3. Press the
button again to return to normal remote controller mode.
<If multiple indoor units are connected to 1 remote controller (group control)>
1. Press and hold the button and button for 4 seconds or longer (simple settings mode).
2. “ALL” is displayed on the remote controller.
3. Next, press the button.
4. The address is displayed for 1 of the indoor units which is connected to the remote controller. Check that the fan
of that indoor unit starts and that air is discharged.
5. Press the
6. Press the
button again and check the address of each indoor unit in sequence.
button again to return to normal remote controller mode.
Number changes to indicate which indoor unit is currently selected.
Remote Controller Test Run Settings
1. Press the remote controller
button for 4 seconds or longer. Then press the
button.
G “TEST” appears on the LCD display while the test run is in progress.
G The temperature cannot be adjusted when in Test Run mode.
(This mode places a heavy load on the machines. Therefore use it only when performing the test run.)
2. The test run can be performed using the HEAT, COOL, or FAN operation modes.
Note: The outdoor units will not operate for approximately 3 minutes after the power is turned ON and after
operation is stopped.
3. If correct operation is not possible, a code is displayed on the remote controller display.
(Refer to “7-6. Meaning of Alarm Messages” and correct the problem.)
4. After the test run is completed, press the
troller display.
button again. Check that “TEST” disappears from the remote con-
(To prevent continuous test runs, this remote controller includes a timer function that cancels the test run after
60 minutes.)
* If the test run is performed using the wired remote controller, operation is possible even if the cassette-type ceil-
ing panel has not been installed. (“P09” display does not occur.)
78
8-5. Caution for Pump Down
Pump down means refrigerant gas in the system is
returned to the outdoor unit. Pump down is used
when the unit is to be moved, or before servicing the
refrigerant circuit.
G This outdoor unit cannot collect more than the rated refrigerant amount as shown
CAUTION
by the nameplate on the back.
G If the amount of refrigerant is more than that recommended, do not conduct pump
down. In this case use another refrigerant collecting system.
8-6. Meaning of Alarm Messages
Table of Self-Diagnostics Functions and Description of Alarm Displays
Alarm messages are indicated by the blinking of LED 1 and 2 (D72, D75) on the outdoor unit PCB. They are also displayed on
the wired remote controller.
G Viewing the LED 1 and 2 (D72 and D75) alarm displays
LED 2
Alarm contents
LED 1
Alarm display
LED 1 blinks M times, then LED 2 blinks N times. The cycle then repeats.
M = 2: P alarm 3: H alarm 4: E alarm 5: F alarm 6: L alarm
N = Alarm No.
Alternating
Example: LED 1 blinks 2 times, then LED 2 blinks 17 times. The cycle then repeats.
Alarm is “P17.”
(
: Blinking)
Alarm
Possible cause of malfunction
message
Error in receiving serial communication signal.
(Signal from main indoor unit in case of group control)
Ex: Auto address is not completed.
Remote controller is detecting
error signal from indoor unit.
Serial
<E01>
commu-nication
errors
Mis-setting
<E02>
Error in transmitting serial communication signal.
Indoor unit is detecting error signal from remote controller (and system controller).
<<E03>>
Error in receiving serial communication signal.
When turning on the power supply, the number of connected
indoor units does not correspond to the number set. (Except R.C.
address is “0.”)
Indoor unit is detecting error
signal from outdoor unit.
E04
Error of the outdoor unit in receiving serial communication signal
from the indoor unit.
<E06>
Improper setting of indoor unit or
remote controller.
Indoor unit address setting is duplicated.
E08
Remote controller address connector (RCU. ADR) is duplicated.
<<E09>>
(Duplication of main remote controller)
Starting auto. address setting is prohibited.
During auto. address setting,
number of connected units does
not correspond to number set.
E12
This alarm message shows that the auto address connector CN100
is shorted while other RC line is executing auto address operation.
Error in auto. address setting. (Number of connected indoor units
is less than the number set)
E15
E16
When turning on the power
supply, number of connected
units does not correspond to
number set.
Error in auto. address setting. (Number of connected indoor units
is more than the number set)
No indoor unit is connected during auto. address setting.
Error of outdoor unit address setting.
E20
E25
(Except R.C. address is “0.”)
Indoor unit communication error
Error of main indoor unit in receiving serial communication signal
E18
of group control wiring.
from sub indoor units.
Continued
79
Alarm
message
Possible cause of malfunction
This alarm message shows when the indoor unit for multiple-use
is not connected to the outdoor unit.
Serial
commu-nication
errors
Improper setting.
L02
Duplication of main indoor unit address setting in group control.
<L03>
L04
Mis-setting
Duplication of outdoor R.C. address setting.
There are 2 or more indoor units
controllers which have operation
mode priority in 1 refrigerant circuit.
Priority set remote controller
L05
Non-priority set remote controller
L06
Group control wiring is connected to individual control indoor unit.
L07
Indoor unit address is not set.
L08
Capacity code of indoor unit is not set.
<<L09>>
L10
Capacity code of outdoor unit is not set.
Mis-matched connection of outdoor units which have different kinds
of refrigerant.
L17
4-way valve operation failure
L18
<<P01>>
<<P09>>
<<P10>>
P12
Thermal protector in indoor unit fan motor is activated.
Improper wiring connections of ceiling panel.
Float switch is activated.
Activation of
protective
device
Protective device in indoor unit
is activated.
Operation of protective function of fan inverter.
O2 sensor (detects low oxygen level) activated.
P14
Compressor thermal protector is activated.
Power supply voltage is unusual. (The voltage is more than 260 V
or less than 160 V between L1 and L2 phase.)
Protective device in outdoor unit
is activated.
P02
Incorrect discharge temperature.
P03
P04
P05
High pressure switch is activated.
Detective phase (3-phase outdoor unit only)
Compressor running failure resulting from missing phase in the
compressor wiring, etc. (Start failure not caused by IPM or no gas.)
P16
P22
Outdoor unit fan motor is unusual.
Overcurrent at time of compressor runs more than 80Hz (DCCT
secondary current or ACCT primary current is detected at a time
other than when IPM has tripped.)
P26
IPM trip (IPM current or temperature)
H31
Inverter for compressor is unusual. (DC compressor does not
operate.)
P29
Indoor coil temp. sensor (E1)
<<F01>>
<<F02>>
<<F03>>
<<F10>>
<<F11>>
F04
Thermistor
fault
Indoor thermistor is either open
or damaged.
Indoor coil temp. sensor (E2)
Indoor coil temp. sensor (E3)
Indoor suction air (room) temp. sensor (TA)
Indoor discharge air temp. sensor (BL)
Compressor discharge sensor (TD)
Outdoor No. 1 coil liquid temp. sensor (C1)
Outdoor air temp. sensor (TO)
Outdoor thermistor is either
open or damaged.
F07
F08
Compressor suction port temperature sensor (TS)
High pressure sensor
F12
F16
EEPROM on indoor unit PCB failure
F29
Protective
device for
Protective device for compressor
No. 1 is activated.
EEPROM on the outdoor unit PCB is a failure.
F31
compressor is
activated
Current is not detected when comp. is ON.
H03
80
9. APPENDIX
9-1. 4-Way Air Discharge Semi-Concealed Type (X Type)
I NAME OF PARTS
Water drain
X type (4-WAY)
X
Ceiling panel
(optional)
Air outlet
(4 locations)
Air intake grille
(air intake)
I CARE AND CLEANING
1. For safety, be sure to turn the air conditioner off and also to disconnect the power before
cleaning.
WARNING
2. Do not pour water on the indoor unit to clean it. This will damage the internal compo-
nents and cause an electric shock hazard.
Air intake and outlet side Clean the air intake and outlet side of the indoor unit with a vacuum cleaner brush, or wipe them
(Indoor unit) with a clean, soft cloth.
If these parts are stained, use a clean cloth moistened with a mild liquid detergent. When clean-
ing the air outlet side, be careful not to force the vanes out of place.
1. Never use solvents or harsh chemicals when cleaning the indoor unit. Do not wipe plastic
CAUTION
parts using very hot water.
2. Some metal edges and the fins are sharp and may cause injury if handled improperly; be
especially careful when you clean these parts.
3. The internal coil and other components of the outdoor unit must be cleaned every year.
Consult your dealer or service center.
The air filter collects dust and other particles from the air and should be cleaned at regular intervals
as indicated in the table below or when the filter indication ( ) on the display of the remote control
unit (wired type) shows that the filter needs cleaning. If the filter gets blocked, the efficiency of the air
conditioner drops greatly.
Air filter
Type
Period
6 months
NOTE
X
The frequency with which the filter should be cleaned depends on the environment in which the
unit is used.
<How to clean the filter>
<How to remove the filter>
1. Remove the air filter from the air intake grille.
2. Use a vacuum cleaner to remove light dust. If there is sticky dust on the filter, wash the fil-
ter in lukewarm, soapy water, rinse it in clean water, and dry it.
1. Use a screwdriver to remove the bolt screw on each side for the two latches. (Be sure to
reattach the two bolt screws after cleaning.)
2. Press on the two latches of the air intake grille with your thumbs in the direction of the
arrow to open the grille.
3. Open the air intake grille downward.
G When cleaning the air filter, never remove the safety chain. If it is necessary to remove it
for servicing and maintenance inside, be sure to reinstall the safety chain securely (hook
on the grille side) after the work.
CAUTION
G When the filter has been removed, rotating parts (such as the fan), electrically charged
areas, etc. will be exposed in the unit’s opening. Bear in mind the dangers that these parts
and areas pose, and proceed with the work carefully.
81
4. Remove the air filter attached to the air intake grille.
Latch
X
Safety chain
Air intake
grille
Bolt screws
Air filter
1. Certain metal edges and the condenser fins are sharp and may cause injury if handled
improperly; special care should be taken when you clean these parts.
2. Periodically check the outdoor unit to see if the air outlet or air intake is clogged with dirt
or soot.
CAUTION
3. The internal coil and other components of the outdoor unit must also be cleaned periodi-
cally. Consult your dealer or service center.
Care: After a prolonged idle period
Check the indoor and outdoor unit air intakes and outlets for blockage; if there is a
blockage, remove it.
•
•
•
•
Operate the fan for half a day to dry out the inside.
Care: Before a prolonged idle period
Disconnect the power supply and also turn off the circuit breaker.
Clean the air filter and replace it in its original position.
Outdoor unit internal components must be checked and cleaned periodically. Con-
tact your local dealer for this service.
I TROUBLESHOOTING
If your air conditioner does not work properly, first check the following points before requesting service. If it still does not work
properly, contact your dealer or a service center.
Possible Cause
Trouble
Remedy
Air conditioner does not run at all
1. Power failure.
1. After a power outage, press ON/OFF operation button
on the wired remote control unit.
2. Leakage circuit breaker has tripped.
3. Line voltage is too low.
2. Contact service center.
3. Consult your electrician or dealer.
4. Press the button again.
4. Operation button is turned off.
heat pump is
5. The wired remote control unit or
5. Consult your dealer.
malfunctioning.
(The inspection mark
and the letters E, F,
combination with numbers appear
H, L, P in
remote control unit.)
on the LCD of the wired
Compressor runs but soon stops
1. Obstruction in front of condenser coil
1. Remove obstruction
Poor cooling (or heating) performance 1. Dirty or clogged air filter.
1. Clean air filter to improve the airflow.
2. Eliminate heat source if possible.
3. Shut them to keep the heat (or cold) out.
4. Remove it to ensure good airflow.
room.
2. Heat source or many people in
3. Doors and/or windows are open.
4. Obstacle near air intake or air discharge port.
5. Thermostat is set too high for cooling
5. Set the temperature lower (or higher).
(or too low for heating).
6. (Defrosting system does not work.)
6. (Consult your dealer.)
I Tips for Energy Saving
•
•
Do not block the air intake and outlet of the unit. If either is obstructed, the unit
will not work well, and may be damaged.
Do not let direct sunlight into the room. Use sunshades, blinds or curtains. If the walls
and ceiling of the room are warmed by the sun, it will take longer to cool the room.
Avoid
•
•
Always try to keep the air filter clean. (Refer to “Care and Cleaning.”) A clogged filter
will impair the performance of the unit.
To prevent conditioned air from escaping, keep windows, doors and any other openings
closed.
Do
Should the power fail while the unit is running
If the power supply for this unit is temporarily cut off, the unit will automatically resume operation once power is
restored using the same settings before the power was interrupted.
NOTE
82
9-2. 1-Way Air Discharge Semi-Concealed Type (A Type)
I NAME OF PARTS
SEMI-CONCEALED
A type (1-WAY)
Water drain
Air outlet
Air intake
A
Ceiling panel
(optional)
I CARE AND CLEANING
1. For safety, be sure to turn the air conditioner off and also to disconnect the power
WARNING
before cleaning.
2. Do not pour water on the indoor unit to clean it. This will damage the internal compo-
nents and cause an electric shock hazard.
Air intake and outlet side Clean the air intake and outlet side of the indoor unit with a vacuum cleaner brush, or wipe them
(Indoor unit) with a clean, soft cloth.
If these parts are stained, use a clean cloth moistened with a mild liquid detergent. When cleaning
the air outlet side, be careful not to force the vanes out of place.
1. Never use solvents or harsh chemicals when cleaning the indoor unit. Do not wipe
CAUTION
plastic parts using very hot water.
2. Some metal edges and the fins are sharp and may cause injury if handled improperly;
be especially careful when you clean these parts.
3. The internal coil and other components of the outdoor unit must be cleaned every year.
Consult your dealer or service center.
The air filter collects dust and other particles from the air and should be cleaned at regular intervals
as indicated in the table below or when the filter indication ( ) on the display of the remote control
unit (wired type) shows that the filter needs cleaning. If the filter gets blocked, the efficiency of the air
conditioner drops greatly.
Air filter
Type
A
Period
2 weeks
The frequency with which the filter should be cleaned depends on the environment in which the unit is used.
NOTE
<How to clean the filter>
Air filter finger-hold
Air intake grill
1. Remove the air filter from the air intake grille.
2. Use a vacuum cleaner to remove light dust. If there is sticky dust on the filter,
wash the filter in lukewarm, soapy water, rinse it in clean water, and dry it.
Air filter
<How to remove the filter>
1-way air discharge semi-concealed type (A):
1. Take hold of the finger-hold on the air intake grille and press it to
the rear, and the grille will open downward.
Hook
Screw
2. Take hold of the finger-hold on the air filter, pull it toward you.
Latch
Screw
Air filter finger-hold
*Take hold of the finger-hold on the air filter, pull it toward you.
83
Outdoor unit
1. Certain metal edges and the condenser fins are sharp and may cause injury if handled
improperly; special care should be taken when you clean these parts.
2. Periodically check the outdoor unit to see if the air outlet or air intake is clogged with dirt
or soot.
CAUTION
3. The internal coil and other components of the outdoor unit must also be cleaned
periodically. Consult your dealer or service center.
Care: After a prolonged idle period
Care: Before a prolonged idle period
Check the indoor and outdoor unit air intakes and outlets for blockage; if there is a
blockage, remove it.
A
•
•
•
•
Operate the fan for half a day to dry out the inside.
Disconnect the power supply and also turn off the circuit breaker.
Clean the air filter and replace it in its original position.
Outdoor unit internal components must be checked and cleaned periodically.
Contact your local dealer for this service.
I TROUBLESHOOTING
If your air conditioner does not work properly, first check the following points before requesting service. If it still does not work
properly, contact your dealer or a service center.
Possible Cause
Trouble
Remedy
Air conditioner does not run at all
1. Power failure.
1. After a power outage, press ON/OFF operation button
on the wired remote control unit.
2. Leakage circuit breaker has tripped.
3. Line voltage is too low.
2. Contact service center.
3. Consult your electrician or dealer.
4. Press the button again.
4. Operation button is turned off.
heat pump is
5. The wired remote control unit or
5. Consult your dealer.
malfunctioning.
(The inspection mark
and the letters E, F,
combination with numbers appear
H, L, P in
remote control unit.)
on the LCD of the wired
Compressor runs but soon stops
1. Obstruction in front of condenser coil
1. Remove obstruction
Poor cooling (or heating) performance 1. Dirty or clogged air filter.
1. Clean air filter to improve the airflow.
2. Eliminate heat source if possible.
3. Shut them to keep the heat (or cold) out.
4. Remove it to ensure good airflow.
room.
2. Heat source or many people in
3. Doors and/or windows are open.
4. Obstacle near air intake or air discharge port.
5. Thermostat is set too high for cooling
5. Set the temperature lower (or higher).
(or too low for heating).
6. (Defrosting system does not work.)
6. (Consult your dealer.)
I Tips for Energy Saving
•
•
Do not block the air intake and outlet of the unit. If either is obstructed, the unit
will not work well, and may be damaged.
Do not let direct sunlight into the room. Use sunshades, blinds or curtains. If the walls
and ceiling of the room are warmed by the sun, it will take longer to cool the room.
Avoid
•
•
Always try to keep the air filter clean. (Refer to “Care and Cleaning.”) A clogged filter
will impair the performance of the unit.
To prevent conditioned air from escaping, keep windows, doors and any other openings
closed.
Do
Should the power fail while the unit is running
If the power supply for this unit is temporarily cut off, the unit will automatically resume operation once power is
restored using the same settings before the power was interrupted.
NOTE
84
9-3. Concealed Duct (High-Static Pressure) Type (U, D Type)
I NAME OF PARTS
CONCEALED DUCT
CONCEALED DUCT
U type (standard static pressure)
D type (high static pressure)
Air intake
sideduct flange
(rear)
Flexible duct
(optional)
Water drain
Water drain
Canvas duct
(optional)
Electrical box
U
D
Air intake grille
(air intake)
(optional)
Air outlet side
duct flange
Air outlet grille
(optional)
I CARE AND CLEANING
1. For safety, be sure to turn the air conditioner off and also to disconnect the power before
cleaning.
WARNING
2. Do not pour water on the indoor unit to clean it. This will damage the internal compo-
nents and cause an electric shock hazard.
Air intake and outlet side Clean the air intake and outlet side of the indoor unit with a vacuum cleaner brush, or wipe them
(Indoor unit) with a clean, soft cloth.
If these parts are stained, use a clean cloth moistened with a mild liquid detergent. When clean-
ing the air outlet side, be careful not to force the vanes out of place.
1. Never use solvents or harsh chemicals when cleaning the indoor unit. Do not wipe plastic
CAUTION
parts using very hot water.
2. Some metal edges and the fins are sharp and may cause injury if handled improperly; be
especially careful when you clean these parts.
3. The internal coil and other components of the outdoor unit must be cleaned every year.
Consult your dealer or service center.
*Concealed duct type (U, D):
Type
Period
An air filter is not provided with this air conditioner at the time of shipment. To get clean air
U, D*
(Depends on filter
specifications)
and to extend the service life of the air conditioner, an air filter must be installed in the air
intake. For installation and cleaning the air filter, consult your dealer or service center.
NOTE
The frequency with which the filter should be cleaned depends on the environment in which the unit is used.
<How to clean the filter>
1. Remove the air filter from the air intake grille.
2. Use a vacuum cleaner to remove light dust. If there is sticky dust on the filter, wash the filter in lukewarm, soapy water,
rinse it in clean water, and dry it.
85
I TROUBLESHOOTING
If your air conditioner does not work properly, first check the following points before requesting service. If it still does not work
properly, contact your dealer or a service center.
Possible Cause
Trouble
Remedy
Air conditioner does not run at all
1. Power failure.
1. After a power outage, press ON/OFF operation button
on the wired remote control unit.
2. Leakage circuit breaker has tripped.
3. Line voltage is too low.
2. Contact service center.
3. Consult your electrician or dealer.
4. Press the button again.
4. Operation button is turned off.
heat pump is
5. The wired remote control unit or
5. Consult your dealer.
malfunctioning.
(The inspection mark
and the letters E, F,
combination with numbers appear
H, L, P in
remote control unit.)
on the LCD of the wired
Compressor runs but soon stops
1. Obstruction in front of condenser coil
1. Remove obstruction
Poor cooling (or heating) performance 1. Dirty or clogged air filter.
1. Clean air filter to improve the airflow.
2. Eliminate heat source if possible.
3. Shut them to keep the heat (or cold) out.
4. Remove it to ensure good airflow.
U
D
room.
2. Heat source or many people in
3. Doors and/or windows are open.
4. Obstacle near air intake or air discharge port.
5. Thermostat is set too high for cooling
5. Set the temperature lower (or higher).
(or too low for heating).
6. (Defrosting system does not work.)
6. (Consult your dealer.)
I Tips for Energy Saving
•
•
Do not block the air intake and outlet of the unit. If either is obstructed, the unit
will not work well, and may be damaged.
Do not let direct sunlight into the room. Use sunshades, blinds or curtains. If the walls
and ceiling of the room are warmed by the sun, it will take longer to cool the room.
Avoid
•
•
Always try to keep the air filter clean. (Refer to “Care and Cleaning.”) A clogged filter
will impair the performance of the unit.
To prevent conditioned air from escaping, keep windows, doors and any other openings
closed.
Do
Should the power fail while the unit is running
If the power supply for this unit is temporarily cut off, the unit will automatically resume operation once power is
restored using the same settings before the power was interrupted.
NOTE
86
9-4. Ceiling-Mounted Type (T Type)
I NAME OF PARTS
CEILING-MOUNTED
T type
Air outlet
Water drain
(Drain pipe can be
connected to either
the left or right side.)
Air intake
grille (air
intake)
I CARE AND CLEANING
1. For safety, be sure to turn the air conditioner off and also to disconnect the power before
cleaning.
WARNING
2. Do not pour water on the indoor unit to clean it. This will damage the internal
components and cause an electric shock hazard.
Air intake and outlet side Clean the air intake and outlet side of the indoor unit with a vacuum cleaner brush, or wipe them
(Indoor unit) with a clean, soft cloth.
If these parts are stained, use a clean cloth moistened with a mild liquid detergent. When clean-
ing the air outlet side, be careful not to force the vanes out of place.
T
1. Never use solvents or harsh chemicals when cleaning the indoor unit. Do not wipe plastic
CAUTION
parts using very hot water.
2. Some metal edges and the fins are sharp and may cause injury if handled improperly; be
especially careful when you clean these parts.
3. The internal coil and other components of the outdoor unit must be cleaned every year.
Consult your dealer or service center.
The air filter collects dust and other particles from the air and should be cleaned at regular intervals
as indicated in the table below or when the filter indication ( ) on the display of the remote control
unit (wired type) shows that the filter needs cleaning. If the filter gets blocked, the efficiency of the air
conditioner drops greatly.
Air filter
Type
Period
NOTE
T
2 weeks
The frequency with which the filter should be cleaned depends on the environment in which the
unit is used.
<How to clean the filter>
1. Remove the air filter from the air
intake grille.
2. Use a vacuum cleaner to remove
light dust. If there is sticky dust on
the filter, wash the filter in lukewarm,
soapy water, rinse it in clean water,
and dry it.
Air filter finger-hold
Air intake grill
Air intake grill
finger-hold
<How to remove the filter>
Screw
Air filter
1. Take hold of the finger-hold
on the air intake grille and
press it to the rear, and the
grille will open downward.
2. Take hold of the finger-hold
on the air filter, pull it toward
you.
Hook
Screw
Latch
Air filter finger-hold
* Take hold of the finger-hold on the air filter, pull it toward you.
87
1. Certain metal edges and the condenser fins are sharp and may cause injury if handled
improperly; special care should be taken when you clean these parts.
2. Periodically check the outdoor unit to see if the air outlet or air intake is clogged with dirt
or soot.
CAUTION
3. The internal coil and other components of the outdoor unit must also be cleaned periodi-
cally. Consult your dealer or service center.
Care: After a prolonged idle period
Check the indoor and outdoor unit air intakes and outlets for blockage; if there is a
blockage, remove it.
•
•
•
•
Operate the fan for half a day to dry out the inside.
Care: Before a prolonged idle period
Disconnect the power supply and also turn off the circuit breaker.
Clean the air filter and replace it in its original position.
Outdoor unit internal components must be checked and cleaned periodically. Con-
tact your local dealer for this service.
I TROUBLESHOOTING
If your air conditioner does not work properly, first check the following points before requesting service. If it still does not work
properly, contact your dealer or a service center.
Possible Cause
Trouble
Remedy
Air conditioner does not run at all
1. Power failure.
1. After a power outage, press ON/OFF operation button
on the wired remote control unit.
2. Leakage circuit breaker has tripped.
3. Line voltage is too low.
2. Contact service center.
T
3. Consult your electrician or dealer.
4. Press the button again.
4. Operation button is turned off.
heat pump is
5. The wired remote control unit or
5. Consult your dealer.
malfunctioning.
(The inspection mark
and the letters E, F,
combination with numbers appear
H, L, P in
remote control unit.)
on the LCD of the wired
Compressor runs but soon stops
1. Obstruction in front of condenser coil
1. Remove obstruction
Poor cooling (or heating) performance 1. Dirty or clogged air filter.
1. Clean air filter to improve the airflow.
2. Eliminate heat source if possible.
3. Shut them to keep the heat (or cold) out.
4. Remove it to ensure good airflow.
room.
2. Heat source or many people in
3. Doors and/or windows are open.
4. Obstacle near air intake or air discharge port.
5. Thermostat is set too high for cooling
5. Set the temperature lower (or higher).
(or too low for heating).
6. (Defrosting system does not work.)
6. (Consult your dealer.)
I Tips for Energy Saving
•
•
Do not block the air intake and outlet of the unit. If either is obstructed, the unit will not
work well, and may be damaged.
Do not let direct sunlight into the room. Use sunshades, blinds or curtains. If the walls
and ceiling of the room are warmed by the sun, it will take longer to cool the room.
Avoid
•
•
Always try to keep the air filter clean. (Refer to “Care and Cleaning.”) A clogged filter
will impair the performance of the unit.
To prevent conditioned air from escaping, keep windows, doors and any other openings
closed.
Do
Should the power fail while the unit is running
If the power supply for this unit is temporarily cut off, the unit will automatically resume operation once power is
restored using the same settings before the power was interrupted.
NOTE
88
9-5. Wall-Mounted Type (K Type)
I NAME OF PARTS
K Type (Wall-Mounted)
Air intake
Air outlet
I CARE AND CLEANING
1. For safety, be sure to turn the air conditioner off and also to disconnect the power before
cleaning.
WARNING
2. Do not pour water on the indoor unit to clean it. This will damage the internal compo-
nents and cause an electric shock hazard.
Air intake and outlet side Clean the air intake and outlet side of the indoor unit with a vacuum cleaner brush, or wipe them
(Indoor unit) with a clean, soft cloth.
If these parts are stained, use a clean cloth moistened with a mild liquid detergent. When clean-
ing the air outlet side, be careful not to force the vanes out of place.
1. Never use solvents or harsh chemicals when cleaning the indoor unit. Do not wipe plastic
parts using very hot water.
CAUTION
2. Some meta l edges and the fins are sharp and may cause injury if handled improperly; be
especially careful when you clean these parts.
3. The internal coil and other components of the outdoor unit must be cleaned every year.
Consult your dealer or service center.
K
The air filter collects dust and other particles from the air and should be cleaned at regular intervals
as indicated in the table below or when the filter indication ( ) on the display of the remote control
unit (wired type) shows that the filter needs cleaning. If the filter gets blocked, the efficiency of the air
conditioner drops greatly.
Air filter
NOTE
Type
Period
K
2 weeks
The frequency with which the filter should be cleaned depends on the environment in which the
unit is used.
<How to clean the filter>
1. Remove the air filter from the air intake grille.
2. Use a vacuum cleaner to remove light dust. If there is sticky dust on the filter, wash the filter in
lukewarm, soapy water, rinse it in clean water, and dry it.
<How to remove the filter>
1. Move the flap on the air outlet grille to its lowest position with the remote control unit.
2. The filter is disengaged by pushing the tab up gently. Hold the air filter by the tab at the bottom,
and pull downward.
Air intake grille
Air filter
When replacing the filter, make sure that the FRONT mark is facing you.
Push it up until you hear it click back into position.
89
1. Certain metal edges and the condenser fins are sharp and may cause injury if handled
improperly; special care should be taken when you clean these parts.
2. Periodically check the outdoor unit to see if the air outlet or air intake is clogged with dirt
or soot.
CAUTION
3. The internal coil and other components of the outdoor unit must also be cleaned periodi-
cally. Consult your dealer or service center.
Care: After a prolonged idle period
Check the indoor and outdoor unit air intakes and outlets for blockage; if there is a
blockage, remove it.
•
•
•
•
Operate the fan for half a day to dry out the inside.
Care: Before a prolonged idle period
Disconnect the power supply and also turn off the circuit breaker.
Clean the air filter and replace it in its original position.
Outdoor unit internal components must be checked and cleaned periodically. Con-
tact your local dealer for this service.
I TROUBLESHOOTING
If your air conditioner does not work properly, first check the following points before requesting service. If it still does not work
properly, contact your dealer or a service center.
Possible Cause
Trouble
Remedy
Air conditioner does not run at all
1. Power failure.
1. After a power outage, press ON/OFF operation button
on the wired remote control unit.
2. Leakage circuit breaker has tripped.
3. Line voltage is too low.
2. Contact service center.
3. Consult your electrician or dealer.
4. Press the button again.
4. Operation button is turned off.
heat pump is
5. The wired remote control unit or
5. Consult your dealer.
malfunctioning.
(The inspection mark
and the letters E, F,
combination with numbers appear
H, L, P in
K
remote control unit.)
on the LCD of the wired
Compressor runs but soon stops
1. Obstruction in front of condenser coil
1. Remove obstruction
Poor cooling (or heating) performance 1. Dirty or clogged air filter.
1. Clean air filter to improve the airflow.
2. Eliminate heat source if possible.
3. Shut them to keep the heat (or cold) out.
4. Remove it to ensure good airflow.
room.
2. Heat source or many people in
3. Doors and/or windows are open.
4. Obstacle near air intake or air discharge port.
5. Thermostat is set too high for cooling
5. Set the temperature lower (or higher).
(or too low for heating).
6. (Defrosting system does not work.)
6. (Consult your dealer.)
I Tips for Energy Saving
•
•
Do not block the air intake and outlet of the unit. If either is obstructed, the unit will not
work well, and may be damaged.
Do not let direct sunlight into the room. Use sunshades, blinds or curtains. If the walls
and ceiling of the room are warmed by the sun, it will take longer to cool the room.
Avoid
Do
•
•
Always try to keep the air filter clean. (Refer to “Care and Cleaning.”) A clogged filter
will impair the performance of the unit.
To prevent conditioned air from escaping, keep windows, doors and any other openings
closed.
Should the power fail while the unit is running
If the power supply for this unit is temporarily cut off, the unit will automatically resume operation once power is
restored using the same settings before the power was interrupted.
NOTE
90
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