Daikin FTXS20G2V1B User manual

Daikin FTXS20G2V1B User manual
SiBE12-816_D
Service
Manual
Inverter Multi for 2 Rooms
G-Series
[Applied Models]
● Inverter Multi : Cooling Only
● Inverter Multi : Heat Pump
SiBE12-816_D
Inverter Multi for 2 Rooms
G-Series
zCooling Only
Outdoor Unit
Indoor Unit
2MKS40GV1B
2MKS40G2V1B
2MKS50GV1B
2MKS50G2V1B
FTXS20G2V1B
FTXS25G2V1B
FTXS35G2V1B
FTXS42G2V1B
FTXS50G2V1B
FTXS20J2V1B
FTXS25J2V1B
FTXS35J2V1B
FTXS42J2V1B
FTXS50J2V1B
FVXS25FV1B
FVXS35FV1B
FVXS50FV1B
FLKS25BAVMB
FLKS35BAVMB
FLKS50BAVMB
FDKS25EAVMB
FDKS35EAVMB
FDKS50CVMB
FFQ25B8V1B
FFQ35B8V1B
FFQ50B8V1B
zHeat Pump
Outdoor Unit
Indoor Unit
2MXS40GV1B
2MXS40G2V1B
2MXS50GV1B
2MXS50G2V1B
FTXG25EV1BW(S)
FTXG35EV1BW(S)
CTXG50EV1BW(S)
FTXG25JV1BW(S)
FTXG35JV1BW(S)
CTXG50JV1BW(S)
FTXS20G2V1B
FTXS25G2V1B
FTXS35G2V1B
FTXS42G2V1B
FTXS50G2V1B
i
FVXS25FV1B
FVXS35FV1B
FVXS50FV1B
FLXS25BAVMB
FLXS35BAVMB
FLXS50BAVMB
FDXS25EAVMB
FDXS35EAVMB
FDXS50CVMB
FFQ25B8V1B
FFQ35B8V1B
FFQ50B8V1B
Table of Contents
SiBE12-816_D
1. Introduction ............................................................................................ vi
1.1 Safety Cautions ....................................................................................... vi
1.2 Used Icons ...............................................................................................x
Part 1 List of Functions ................................................................ 1
1. Functions.................................................................................................2
1.1 Cooling Only.............................................................................................2
1.2 Heat Pump ...............................................................................................5
Part 2 Specifications .................................................................. 10
1. Specifications ........................................................................................11
1.1
1.2
1.3
1.4
Cooling Only - Indoor Unit ......................................................................11
Cooling Only - Outdoor Unit ...................................................................18
Heat Pump - Indoor Unit.........................................................................20
Heat Pump - Outdoor Unit......................................................................29
Part 3 Printed Circuit Board Connector Wiring Diagram ........... 31
1. Indoor Unit.............................................................................................32
1.1
1.2
1.3
1.4
1.5
Wall Mounted Type ................................................................................32
Floor Standing Type ...............................................................................40
Floor / Ceiling Suspended Dual Type.....................................................42
Duct Connected Type.............................................................................44
Ceiling Mounted Cassette Type .............................................................46
2. Remote Controller .................................................................................48
2.1 Wired Remote Controller........................................................................48
2.2 Wireless Remote Controller ...................................................................49
3. Outdoor Unit..........................................................................................50
3.1 2MK(X)S40/50GV1B, 2MK(X)S40/50G2V1B .........................................50
Part 4 Function and Control........................................................ 52
1. Function of Indoor Unit (RA Models).....................................................53
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
1.12
1.13
1.14
1.15
Temperature Control ..............................................................................53
Frequency Principle................................................................................53
Operation Starting Control......................................................................55
Airflow Direction Control.........................................................................56
Fan Speed Control for Indoor Units........................................................58
Program Dry Operation ..........................................................................59
Automatic Operation...............................................................................60
Thermostat Control.................................................................................61
NIGHT SET Mode ..................................................................................63
ECONO Operation .................................................................................64
HOME LEAVE Operation .......................................................................65
2-Area INTELLIGENT EYE Operation ...................................................66
INTELLIGENT EYE Operation ...............................................................68
Inverter POWERFUL Operation .............................................................69
Other Functions......................................................................................71
2. Function of Indoor Unit (SA Models) .....................................................73
2.1 Drain Pump Control................................................................................73
2.2 Thermostat Sensor in Remote Controller...............................................75
Table of Contents
ii
SiBE12-816_D
2.3 Freeze Prevention Control .....................................................................77
2.4 Hot Start Control (In Heating Operation Only)........................................78
3. Function of Thermistor ..........................................................................79
4. Control Specification .............................................................................81
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
4.10
4.11
4.12
Mode Hierarchy ......................................................................................81
Frequency Control..................................................................................83
Controls at Mode Changing / Start-up....................................................86
Discharge Pipe Temperature Control.....................................................87
Input Current Control..............................................................................88
Freeze-up Protection Control .................................................................88
Heating Peak-cut Control .......................................................................89
Outdoor Fan Control...............................................................................89
Liquid Compression Protection Function................................................90
Defrost Control .......................................................................................90
Electronic Expansion Valve Control .......................................................91
Malfunctions ...........................................................................................95
Part 5 Operation Manual ............................................................. 98
1. System Configuration............................................................................99
2. RA Indoor Unit.....................................................................................100
2.1 FTXG-J, CTXG-J Series - ARC466A1 .................................................100
2.2 FTXS, FVXS Series - ARC452A1, A3 ..................................................122
2.3 FTXG-E, CTXG-E, FLK(X)S, FDK(X)S Series
- ARC433B41, B67, B68, B69, B76......................................................149
3. SA Indoor Unit - FFQ Series ...............................................................168
3.1 BRC1D528 ...........................................................................................168
3.2 BRC7E530W/531W..............................................................................183
Part 6 Service Diagnosis........................................................... 195
1. Troubleshooting with LED ...................................................................197
1.1 Indoor Unit............................................................................................197
1.2 Outdoor Unit .........................................................................................198
2. Problem Symptoms and Measures .....................................................199
3. Service Check Function ......................................................................200
3.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................200
3.2 SA Indoor Unit - FFQ Series ................................................................209
4. Code Indication on Remote Controller ................................................213
4.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................213
4.2 SA Indoor Unit - FFQ Series ................................................................213
4.3 Outdoor Unit .........................................................................................214
5. Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS,
FLK(X)S, FDK(X)S Series...................................................................215
5.1
5.2
5.3
5.4
5.5
iii
Indoor Unit PCB Abnormality ...............................................................215
Freeze-up Protection Control or Heating Peak-cut Control..................216
Fan Motor or Related Abnormality .......................................................218
Thermistor or Related Abnormality (Indoor Unit)..................................221
Front Panel Open / Close Fault (FTXG, CTXG)...................................222
Table of Contents
SiBE12-816_D
6. Troubleshooting for SA Indoor Unit - FFQ Series ...............................223
6.1
6.2
6.3
6.4
6.5
6.6
6.7
Indoor Unit PCB Abnormality ...............................................................223
Drain Water Level System Abnormality................................................224
Fan Motor or Related Abnormality .......................................................226
Drain System Abnormality....................................................................227
Thermistor or Related Abnormality.......................................................228
Remote Controller Thermistor Abnormality ..........................................230
Signal Transmission Error
(between Indoor Unit and Remote Controller)......................................231
6.8 Signal Transmission Error
(between MAIN Remote Controller and SUB Remote Controller)........232
6.9 Field Setting Abnormality .....................................................................233
7. Troubleshooting for Outdoor Unit........................................................235
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
7.10
7.11
7.12
7.13
7.14
7.15
7.16
7.17
7.18
Anti-icing Control for Indoor Unit ..........................................................235
OL Activation (Compressor Overload) .................................................237
Compressor Lock .................................................................................238
DC Fan Lock ........................................................................................239
Input Overcurrent Detection .................................................................240
Discharge Pipe Temperature Control...................................................241
High Pressure Control in Cooling .........................................................242
Compressor Sensor System Abnormality ............................................243
Position Sensor Abnormality ................................................................244
DC Voltage / Current Sensor Abnormality............................................246
Thermistor or Related Abnormality (Outdoor Unit)...............................247
Electrical Box Temperature Rise..........................................................249
Radiation Fin Temperature Rise ..........................................................250
Output Overcurrent Detection ..............................................................252
Refrigerant Shortage ............................................................................254
Low-voltage Detection or Over-voltage Detection................................256
Outdoor Unit PCB Abnormality or Signal Transmission Error ..............257
Unspecified Voltage (between Indoor Unit and Outdoor Unit) /
Anti-icing control in Other Room ..........................................................260
8. Check ..................................................................................................261
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
8.10
8.11
8.12
8.13
8.14
Thermistor Resistance Check ..............................................................261
Fan Motor Connector Output Check ....................................................262
Hall IC Check .......................................................................................262
Power Supply Waveforms Check.........................................................262
Electronic Expansion Valve Check.......................................................263
Four Way Valve Performance Check ...................................................264
Inverter Unit Refrigerant System Check...............................................265
“Inverter Checker” Check .....................................................................266
Rotating Pulse Input on the Outdoor Unit PCB Check .........................268
Installation Condition Check.................................................................269
Discharge Pressure Check...................................................................269
Outdoor Unit Fan System Check..........................................................270
Main Circuit Short Check......................................................................270
Power Module Check ...........................................................................271
Part 7 Removal Procedure ........................................................ 272
1. Outdoor Unit........................................................................................273
1.1 Removal of Outer Panels .....................................................................273
Table of Contents
iv
SiBE12-816_D
1.2
1.3
1.4
1.5
1.6
1.7
1.8
Removal of Electrical Box ....................................................................275
Removal of PCB...................................................................................280
Removal of Sound Blankets .................................................................285
Removal of Outdoor Fan / Fan Motor...................................................287
Removal of Thermistors .......................................................................290
Removal of Four Way Valve / Electronic Expansion Valves ................292
Removal of Compressor.......................................................................295
Part 8 Trial Operation and Field Settings................................. 297
1. Pump Down Operation........................................................................298
2. Forced Cooling Operation ...................................................................299
3. Trial Operation ....................................................................................300
3.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................300
3.2 SA Indoor Unit - FFQ Series ................................................................302
4. Field Settings ......................................................................................303
4.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................303
4.2 SA Indoor Unit - FFQ Series ................................................................307
4.3 Outdoor Unit .........................................................................................314
5. Application of Silicon Grease to a Power Transistor and
a Diode Bridge ....................................................................................315
Part 9 Appendix......................................................................... 316
1. Piping Diagrams..................................................................................317
1.1 Indoor Unit............................................................................................317
1.2 Outdoor Unit .........................................................................................321
2. Wiring Diagrams..................................................................................323
2.1 Indoor Unit............................................................................................323
2.2 Outdoor Unit .........................................................................................327
v
Table of Contents
SiBE12-816_D
Introduction
1. Introduction
1.1
Safety Cautions
Cautions and
Warnings
„ Be sure to read the following safety cautions before conducting repair work.
„ The caution items are classified into “
Warning” and “
Caution”. The “
Warning”
items are especially important since they can lead to death or serious injury if they are not
followed closely. The “
Caution” items can also lead to serious accidents under some
conditions if they are not followed. Therefore, be sure to observe all the safety caution items
described below.
„ About the pictograms
This symbol indicates the item for which caution must be exercised.
The pictogram shows the item to which attention must be paid.
This symbol indicates the prohibited action.
The prohibited item or action is shown in the illustration or near the symbol.
This symbol indicates the action that must be taken, or the instruction.
The instruction is shown in the illustration or near the symbol.
„ After the repair work is complete, be sure to conduct a test operation to ensure that the
equipment operates normally, and explain the cautions for operating the product to the customer.
1.1.1 Cautions Regarding Safety of Workers
Warning
Be sure to disconnect the power cable plug from the plug socket before
disassembling the equipment for repair.
Working on the equipment that is connected to the power supply may cause an
electrical shock.
If it is necessary to supply power to the equipment to conduct the repair or
inspecting the circuits, do not touch any electrically charged sections of the
equipment.
If the refrigerant gas is discharged during the repair work, do not touch the
discharged refrigerant gas.
The refrigerant gas may cause frostbite.
When disconnecting the suction or discharge pipe of the compressor at the
welded section, evacuate the refrigerant gas completely at a well-ventilated
place first.
If there is a gas remaining inside the compressor, the refrigerant gas or refrigerating
machine oil discharges when the pipe is disconnected, and it may cause injury.
If the refrigerant gas leaks during the repair work, ventilate the area. The refrigerant
gas may generate toxic gases when it contacts flames.
The step-up capacitor supplies high-voltage electricity to the electrical components
of the outdoor unit.
Be sure to discharge the capacitor completely before conducting repair work.
A charged capacitor may cause an electrical shock.
Do not start or stop the air conditioner operation by plugging or unplugging the
power cable plug.
Plugging or unplugging the power cable plug to operate the equipment may
cause an electrical shock or fire.
vi
Introduction
SiBE12-816_D
Warning
Be sure to wear a safety helmet, gloves, and a safety belt when working at a
high place (more than 2 m). Insufficient safety measures may cause a fall
accident.
In case of R-410A refrigerant models, be sure to use pipes, flare nuts and tools
for the exclusive use of the R-410A refrigerant.
The use of materials for R-22 refrigerant models may cause a serious accident
such as a damage of refrigerant cycle as well as an equipment failure.
Caution
Do not repair the electrical components with wet hands.
Working on the equipment with wet hands may cause an electrical shock.
Do not clean the air conditioner by splashing water.
Washing the unit with water may cause an electrical shock.
Be sure to provide the grounding when repairing the equipment in a humid or
wet place, to avoid electrical shocks.
Be sure to turn off the power switch and unplug the power cable when cleaning
the equipment.
The internal fan rotates at a high speed, and cause injury.
Be sure to conduct repair work with appropriate tools.
The use of inappropriate tools may cause injury.
Be sure to check that the refrigerating cycle section has cooled down enough
before conducting repair work.
Working on the unit when the refrigerating cycle section is hot may cause burns.
Use the welder in a well-ventilated place.
Using the welder in an enclosed room may cause oxygen deficiency.
vii
SiBE12-816_D
Introduction
1.1.2 Cautions Regarding Safety of Users
Warning
Be sure to use parts listed in the service parts list of the applicable model and
appropriate tools to conduct repair work. Never attempt to modify the equipment.
The use of inappropriate parts or tools may cause an electrical shock, excessive
heat generation or fire.
If the power cable and lead wires have scratches or deteriorated, be sure to
replace them.
Damaged cable and wires may cause an electrical shock, excessive heat
generation or fire.
Do not use a joined power cable or extension cable, or share the same power
outlet with other electrical appliances, since it may cause an electrical shock,
excessive heat generation or fire.
Be sure to use an exclusive power circuit for the equipment, and follow the local
technical standards related to the electrical equipment, the internal wiring
regulations, and the instruction manual for installation when conducting
electrical work.
Insufficient power circuit capacity and improper electrical work may cause an
electrical shock or fire.
Be sure to use the specified cable for wiring between the indoor and outdoor
units. Make the connections securely and route the cable properly so that there
is no force pulling the cable at the connection terminals.
Improper connections may cause excessive heat generation or fire.
When wiring between the indoor and outdoor units, make sure that the terminal
cover does not lift off or dismount because of the cable.
If the cover is not mounted properly, the terminal connection section may cause
an electrical shock, excessive heat generation or fire.
Do not damage or modify the power cable.
Damaged or modified power cable may cause an electrical shock or fire.
Placing heavy items on the power cable, and heating or pulling the power cable
may damage the cable.
Do not mix air or gas other than the specified refrigerant (R-410A / R-22) in the
refrigerant system.
If air enters the refrigerating system, an excessively high pressure results,
causing equipment damage and injury.
If the refrigerant gas leaks, be sure to locate the leaking point and repair it
before charging the refrigerant. After charging refrigerant, make sure that there
is no refrigerant leak.
If the leaking point cannot be located and the repair work must be stopped, be
sure to perform pump-down and close the service valve, to prevent the
refrigerant gas from leaking into the room. The refrigerant gas itself is
harmless, but it may generate toxic gases when it contacts flames, such as fan
and other heaters, stoves and ranges.
When relocating the equipment, make sure that the new installation site has
sufficient strength to withstand the weight of the equipment.
If the installation site does not have sufficient strength and if the installation
work is not conducted securely, the equipment may fall and cause injury.
viii
Introduction
SiBE12-816_D
Warning
Check to make sure that the power cable plug is not dirty or loose, then insert
the plug into a power outlet securely.
If the plug has dust or loose connection, it may cause an electrical shock or fire.
Be sure to install the product correctly by using the provided standard
For unitary type only
installation frame.
Incorrect use of the installation frame and improper installation may cause the
equipment to fall, resulting in injury.
Be sure to install the product securely in the installation frame mounted on the For unitary type only
window frame.
If the unit is not securely mounted, it may fall and cause injury.
When replacing the coin battery in the remote controller, be sure to disposed
of the old battery to prevent children from swallowing it.
If a child swallows the coin battery, see a doctor immediately.
Caution
Installation of a leakage breaker is necessary in some cases depending on the
conditions of the installation site, to prevent electrical shocks.
Do not install the equipment in a place where there is a possibility of combustible
gas leaks.
If the combustible gas leaks and remains around the unit, it may cause a fire.
Check to see if the parts and wires are mounted and connected properly, and
if the connections at the soldered or crimped terminals are secure.
Improper installation and connections may cause excessive heat generation,
fire or an electrical shock.
If the installation platform or frame has corroded, replace it.
Corroded installation platform or frame may cause the unit to fall, resulting in
injury.
Check the grounding, and repair it if the equipment is not properly grounded.
Improper grounding may cause an electrical shock.
ix
SiBE12-816_D
Introduction
Caution
Be sure to measure the insulation resistance after the repair, and make sure
that the resistance is 1 MΩ or higher.
Faulty insulation may cause an electrical shock.
Be sure to check the drainage of the indoor unit after the repair.
Faulty drainage may cause the water to enter the room and wet the furniture
and floor.
Do not tilt the unit when removing it.
The water inside the unit may spill and wet the furniture and floor.
Be sure to install the packing and seal on the installation frame properly.
For unitary type only
If the packing and seal are not installed properly, water may enter the room and
wet the furniture and floor.
1.2
Used Icons
Icons are used to attract the attention of the reader to specific information. The meaning of each
icon is described in the table below:
Icon
Type of
Information
Description
Note
A “note” provides information that is not indispensable, but may
nevertheless be valuable to the reader, such as tips and tricks.
Caution
A “caution” is used when there is danger that the reader, through
incorrect manipulation, may damage equipment, loose data, get
an unexpected result or has to restart (part of) a procedure.
Warning
A “warning” is used when there is danger of personal injury.
Reference
A “reference” guides the reader to other places in this binder or
in this manual, where he/she will find additional information on a
specific topic.
Note:
Caution
Warning
x
SiBE12-816_D
Part 1
List of Functions
1. Functions.................................................................................................2
1.1 Cooling Only.............................................................................................2
1.2 Heat Pump ...............................................................................................5
1
List of Functions
SiBE12-816_D
Functions
1. Functions
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
Inverter (with Inverter Power Control)
{
{
Operation Limit for Cooling (°CDB)
—
—
Operation Limit for Heating (°CWB)
—
—
PAM Control
—
—
FVXS25/35/50FV1B
Basic
Function
Functions
FTXS20/25/35/42/50G2V1B
FTXS20/25/35/42/50J2V1B
Category
FVXS25/35/50FV1B
Cooling Only
FTXS20/25/35/42/50G2V1B
FTXS20/25/35/42/50J2V1B
1.1
Air-Purifying Filter
—
—
Category
Health &
Clean
Functions
Photocatalytic Deodorizing Filter
—
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
Standby Electricity Saving
—
—
Oval Scroll Compressor
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
{
{
Swing Compressor
—
—
Air Filter (Prefilter)
{
{
Rotary Compressor
—
—
Wipe-Clean Flat Panel
{
{
Reluctance DC Motor
—
—
Washable Grille
—
—
Power-Airflow Flap
—
—
MOLD PROOF Operation
—
—
Power-Airflow Dual Flaps
{
—
Good-Sleep Cooling Operation
—
—
Power-Airflow Diffuser
—
—
WEEKLY TIMER Operation
{
{
Wide-Angle Louvers
{
{
24-Hour ON/OFF TIMER
{
{
Vertical Auto-Swing (Up and Down)
{
{
NIGHT SET Mode
{
{
Horizontal Auto-Swing (Right and Left)
{
—
Auto-Restart (after Power Failure)
{
{
3-D Airflow
{
—
Self-Diagnosis (Digital, LED) Display
{
{
COMFORT AIRFLOW Operation
{
—
Wiring Error Check Function
—
—
Auto Fan Speed
{
{
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
—
Indoor Unit Quiet Operation
{
{
Multi-Split / Split Type Compatible
Indoor Unit
{
{
NIGHT QUIET Mode (Automatic)
—
—
H/P, C/O Compatible Indoor Unit
{
{
OUTDOOR UNIT QUIET Operation
(Manual)
{
{
Flexible Power Supply Correspondence
—
—
Timer
Worry Free
“Reliability &
Durability”
Flexibility
2-Area INTELLIGENT EYE Operation
{
—
High Ceiling Application
—
—
INTELLIGENT EYE Operation
—
—
Chargeless
—
—
Quick Warming Function
(Preheating Operation)
—
—
Either Side Drain (Right or Left)
{
—
Hot-Start Function
—
—
Power Selection
—
—
Automatic Defrosting
—
—
5-Room Centralized Controller (Option)
{
{
Automatic Operation
—
—
Program Dry Operation
{
{
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
{
{
Fan Only
{
{
Remote Control Adaptor
(Normal Open Contact) (Option)
{
{
New POWERFUL Operation
(Non-Inverter)
—
—
DIII-NET Compatible (Adaptor) (Option)
{
{
Inverter POWERFUL Operation
{
{
Wireless
{
{
Wired (Option)
{
—
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
—
—
ECONO Operation
{
{
Indoor Unit ON/OFF Button
{
{
Signal Receiving Sign
{
{
R/C with Back Light
—
{
Temperature Display
—
—
Remote
Control
Remote
Controller
Note: { : Holding Functions
— : No Functions
List of Functions
2
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
Inverter (with Inverter Power Control)
{
{
Operation Limit for Cooling (°CDB)
—
—
Operation Limit for Heating (°CWB)
—
—
PAM Control
—
—
FDKS25/35EAVMB
FDKS50CVMB
Basic
Function
Functions
FLKS25/35/50BAVMB
Category
FDKS25/35EAVMB
FDKS50CVMB
SiBE12-816_D
FLKS25/35/50BAVMB
Functions
Air-Purifying Filter
{
—
Photocatalytic Deodorizing Filter
{
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
—
—
Category
Health &
Clean
Functions
Standby Electricity Saving
—
—
Oval Scroll Compressor
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
Swing Compressor
—
—
Air Filter (Prefilter)
{
{
Rotary Compressor
—
—
Wipe-Clean Flat Panel
—
—
Reluctance DC Motor
—
—
Washable Grille
—
—
Power-Airflow Flap
—
—
MOLD PROOF Operation
—
—
Power-Airflow Dual Flaps
—
—
Good-Sleep Cooling Operation
—
—
Power-Airflow Diffuser
—
—
WEEKLY TIMER Operation
—
—
Wide-Angle Louvers
—
—
24-Hour ON/OFF TIMER
{
{
Vertical Auto-Swing (Up and Down)
{
—
NIGHT SET Mode
{
{
Horizontal Auto-Swing (Right and Left)
—
—
Auto-Restart (after Power Failure)
{
{
Timer
Worry Free
“Reliability &
Durability”
3-D Airflow
—
—
Self-Diagnosis (Digital, LED) Display
{
{
COMFORT AIRFLOW Operation
—
—
Wiring Error Check Function
—
—
Auto Fan Speed
{
{
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
—
Indoor Unit Quiet Operation
{
{
Multi-Split / Split Type Compatible
Indoor Unit
{
{
NIGHT QUIET Mode (Automatic)
—
—
H/P, C/O Compatible Indoor Unit
—
—
OUTDOOR UNIT QUIET Operation
(Manual)
{
{
Flexible Power Supply Correspondence
{
{
2-Area INTELLIGENT EYE Operation
—
—
High Ceiling Application
—
—
INTELLIGENT EYE Operation
—
—
Chargeless
—
—
Quick Warming Function
(Preheating Operation)
—
—
Either Side Drain (Right or Left)
—
—
Hot-Start Function
—
—
Power Selection
—
—
Automatic Defrosting
—
—
5-Room Centralized Controller (Option)
{
{
Automatic Operation
—
—
Program Dry Operation
{
{
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
{
{
Fan Only
{
{
Remote Control Adaptor
(Normal Open Contact) (Option)
{
{
New POWERFUL Operation
(Non-Inverter)
—
—
DIII-NET Compatible (Adaptor) (Option)
{
{
Wireless
{
{
Wired (Option)
—
{
Inverter POWERFUL Operation
{
{
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
{
{
ECONO Operation
—
—
Indoor Unit ON/OFF Button
{
{
Signal Receiving Sign
{
{
R/C with Back Light
—
—
Temperature Display
—
—
Flexibility
Remote
Control
Remote
Controller
Note: { : Holding Functions
— : No Functions
3
List of Functions
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
{
Operation Limit for Cooling (°CDB)
—
10
~46
Operation Limit for Heating (°CWB)
—
—
PAM Control
—
{
2MKS40/50GV1B
2MKS40/50G2V1B
{
Inverter (with Inverter Power Control)
FFQ25/35/50B8V1B
Basic
Function
Functions
2MKS40/50GV1B
2MKS40/50G2V1B
Category
Functions
FFQ25/35/50B8V1B
SiBE12-816_D
Air-Purifying Filter
—
—
Photocatalytic Deodorizing Filter
—
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
Category
Health &
Clean
Functions
Standby Electricity Saving
—
—
Oval Scroll Compressor
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
—
—
Swing Compressor
—
{
Longlife Filter (Option)
{
—
Rotary Compressor
—
—
Air Filter (Prefilter)
{
—
Reluctance DC Motor
—
{
Wipe-Clean Flat Panel
—
—
Power-Airflow Flap
—
—
Washable Grille
—
—
Power-Airflow Dual Flaps
—
—
Filter Cleaning Indicator
{
—
Power-Airflow Diffuser
—
—
MOLD PROOF Operation
—
—
Wide-Angle Louvers
—
—
Vertical Auto-Swing (Up and Down)
{
—
Timer
Good-Sleep Cooling Operation
—
—
WEEKLY TIMER Operation
—
—
—
Horizontal Auto-Swing (Right and Left)
—
—
72-Hour ON/OFF TIMER
{
3-D Airflow
—
—
NIGHT SET Mode
—
—
COMFORT AIRFLOW Operation
—
—
Auto-Restart (after Power Failure)
{
—
Worry Free
“Reliability &
Durability”
Auto Fan Speed
—
—
Self-Diagnosis (Digital, LED) Display
{
{
Indoor Unit Quiet Operation
—
—
Wiring Error Check Function
—
—
NIGHT QUIET Mode (Automatic)
—
—
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
{
OUTDOOR UNIT QUIET Operation
(Manual)
—
{
Multi-Split / Split Type Compatible
Indoor Unit
{
—
2-Area INTELLIGENT EYE Operation
—
—
H/P, C/O Compatible Indoor Unit
{
—
INTELLIGENT EYE Operation
—
—
Flexible Power Supply Correspondence
—
—
Quick Warming Function
(Preheating Operation)
—
—
High Ceiling Application
—
—
Hot-Start Function
—
—
Chargeless
—
20 m
Automatic Defrosting
—
—
Either Side Drain (Right or Left)
—
—
Automatic Operation
—
—
Power Selection
—
{
Program Dry Operation
{
—
5-Room Centralized Controller (Option)
—
—
Fan Only
{
—
New POWERFUL Operation
(Non-Inverter)
—
—
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
—
—
Inverter POWERFUL Operation
—
—
Remote Control Adaptor
(Normal Open Contact) (Option)
—
—
Priority-Room Setting
—
—
DIII-NET Compatible (Adaptor) (Option)
{
—
Wireless (Option)
{
—
Wired
{
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
—
—
ECONO Operation
—
—
Indoor Unit ON/OFF Button
—
—
Signal Receiving Sign
—
—
R/C with Back Light
—
—
Temperature Display
—
—
Flexibility
Remote
Control
Remote
Controller
Note: { : Holding Functions
— : No Functions
List of Functions
4
Functions
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
Air-Purifying Filter
—
—
Photocatalytic Deodorizing Filter
—
—
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
Inverter (with Inverter Power Control)
{
{
Operation Limit for Cooling (°CDB)
—
—
Operation Limit for Heating (°CWB)
Compressor
CTXG50EV1BW(S)
Basic
Function
Functions
CTXG50EV1BW(S)
Category
FTXG25/35EV1BW(S)
Heat Pump
FTXG25/35EV1BW(S)
1.2
SiBE12-816_D
—
Category
Health &
Clean
Functions
PAM Control
—
—
Standby Electricity Saving
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
{
{
Oval Scroll Compressor
—
—
Air Filter (Prefilter)
{
{
Swing Compressor
—
—
Wipe-Clean Flat Panel
{
{
Rotary Compressor
—
—
Washable Grille
—
—
Reluctance DC Motor
—
—
MOLD PROOF Operation
—
—
Power-Airflow Flap
—
—
Good-Sleep Cooling Operation
—
—
Power-Airflow Dual Flaps
{
{
WEEKLY TIMER Operation
{
{
Power-Airflow Diffuser
—
—
24-Hour ON/OFF TIMER
{
{
Wide-Angle Louvers
{
{
NIGHT SET Mode
{
{
Vertical Auto-Swing (Up and Down)
{
{
Auto-Restart (after Power Failure)
{
{
Horizontal Auto-Swing (Right and Left)
{
{
Self-Diagnosis (Digital, LED) Display
{
{
3-D Airflow
{
{
Wiring Error Check Function
—
—
COMFORT AIRFLOW Operation
{
{
Auto Fan Speed
{
{
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
—
Timer
Worry Free
“Reliability &
Durability”
Indoor Unit Quiet Operation
{
{
NIGHT QUIET Mode (Automatic)
—
—
Multi-Split / Split Type Compatible
Indoor Unit
{
—
OUTDOOR UNIT QUIET Operation
(Manual)
{
{
H/P, C/O Compatible Indoor Unit
—
—
Flexibility
INTELLIGENT EYE Operation
{
{
Flexible Power Supply Correspondence
—
—
2-Area INTELLIGENT EYE Operation
—
—
High Ceiling Application
—
—
Quick Warming Function
(Preheating Operation)
—
—
Chargeless
—
—
Hot-Start Function
{
{
Either Side Drain (Right or Left)
{
{
Automatic Defrosting
—
—
Power Selection
—
—
Automatic Operation
{
{
Program Dry Operation
{
{
5-Room Centralized Controller (Option)
{
{
Fan Only
{
{
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
{
{
New POWERFUL Operation
(Non-Inverter)
—
—
Remote Control Adaptor
(Normal Open Contact) (Option)
{
{
Inverter POWERFUL Operation
{
{
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
—
—
ECONO Operation
—
—
Indoor Unit ON/OFF Button
{
{
Signal Receiving Sign
{
{
Multi-Colored Indicator Lamp
(Multi-Monitor Lamp)
—
—
R/C with Back Light
—
—
Temperature Display
—
—
Remote
Control
Remote
Controller
DIII-NET Compatible (Adaptor) (Option)
{
{
Wireless
{
{
Wired (Option)
{
{
Note: { : Holding Functions
— : No Functions
5
List of Functions
Basic
Function
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
Inverter (with Inverter Power Control)
{
{
Operation Limit for Cooling (°CDB)
—
—
Operation Limit for Heating (°CWB)
—
Health &
Clean
Functions
CTXG50JV1BW(S)
Category
FTXG25/35JV1BW(S)
Functions
CTXG50JV1BW(S)
Category
Functions
FTXG25/35JV1BW(S)
SiBE12-816_D
Air-Purifying Filter
—
—
Photocatalytic Deodorizing Filter
—
—
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
PAM Control
—
—
Standby Electricity Saving
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
{
{
Oval Scroll Compressor
—
—
Air Filter (Prefilter)
{
{
Swing Compressor
—
—
Wipe-Clean Flat Panel
{
{
Rotary Compressor
—
—
Washable Grille
—
—
Reluctance DC Motor
—
—
MOLD PROOF Operation
—
—
Power-Airflow Flap
—
—
Power-Airflow Dual Flaps
{
{
Power-Airflow Diffuser
—
Wide-Angle Louvers
Good-Sleep Cooling Operation
—
—
WEEKLY TIMER Operation
{
{
—
24-Hour ON/OFF TIMER
{
{
{
{
NIGHT SET Mode
{
{
Vertical Auto-Swing (Up and Down)
{
{
Auto-Restart (after Power Failure)
{
{
Horizontal Auto-Swing (Right and Left)
—
—
Self-Diagnosis (Digital, LED) Display
{
{
3-D Airflow
—
—
Wiring Error Check Function
—
—
COMFORT AIRFLOW Operation
{
{
Auto Fan Speed
{
{
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
—
Timer
Worry Free
“Reliability &
Durability”
Indoor Unit Quiet Operation
{
{
NIGHT QUIET Mode (Automatic)
—
—
Multi-Split / Split Type Compatible
Indoor Unit
{
—
OUTDOOR UNIT QUIET Operation
(Manual)
{
{
H/P, C/O Compatible Indoor Unit
—
—
Flexibility
INTELLIGENT EYE Operation
{
{
Flexible Power Supply Correspondence
—
—
2-Area INTELLIGENT EYE Operation
—
—
High Ceiling Application
—
—
Quick Warming Function
(Preheating Operation)
—
—
Chargeless
—
—
Hot-Start Function
{
{
Either Side Drain (Right or Left)
{
{
Automatic Defrosting
—
—
Power Selection
—
—
Automatic Operation
{
{
Program Dry Operation
{
{
5-Room Centralized Controller (Option)
{
{
Fan Only
{
{
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
{
{
New POWERFUL Operation
(Non-Inverter)
—
—
Remote Control Adaptor
(Normal Open Contact) (Option)
{
{
Inverter POWERFUL Operation
{
{
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
—
—
ECONO Operation
{
{
Indoor Unit ON/OFF Button
{
{
Signal Receiving Sign
{
{
Multi-Colored Indicator Lamp
(Multi-Monitor Lamp)
{
{
R/C with Back Light
{
{
Temperature Display
—
—
Remote
Control
Remote
Controller
DIII-NET Compatible (Adaptor) (Option)
{
{
Wireless
{
{
Wired (Option)
{
{
Note: { : Holding Functions
— : No Functions
List of Functions
6
Basic
Function
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
Inverter (with Inverter Power Control)
{
{
Operation Limit for Cooling (°CDB)
—
—
Operation Limit for Heating (°CWB)
—
Category
Health &
Clean
Functions
FVXS25/35/50FV1B
Functions
FTXS20/25/35/42/50G2V1B
Category
FVXS25/35/50FV1B
SiBE12-816_D
FTXS20/25/35/42/50G2V1B
Functions
Air-Purifying Filter
—
—
Photocatalytic Deodorizing Filter
—
—
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
PAM Control
—
—
Standby Electricity Saving
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
{
{
Oval Scroll Compressor
—
—
Air Filter (Prefilter)
{
{
Swing Compressor
—
—
Wipe-Clean Flat Panel
{
{
Rotary Compressor
—
—
Washable Grille
—
—
Reluctance DC Motor
—
—
MOLD PROOF Operation
—
—
Power-Airflow Flap
—
—
Good-Sleep Cooling Operation
—
—
Power-Airflow Dual Flaps
{
—
WEEKLY TIMER Operation
{
{
Power-Airflow Diffuser
—
—
24-Hour ON/OFF TIMER
{
{
Wide-Angle Louvers
{
{
NIGHT SET Mode
{
{
Vertical Auto-Swing (Up and Down)
{
{
Auto-Restart (after Power Failure)
{
{
Horizontal Auto-Swing (Right and Left)
{
—
Self-Diagnosis (Digital, LED) Display
{
{
3-D Airflow
{
—
Wiring Error Check Function
—
—
COMFORT AIRFLOW Operation
{
—
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
—
Auto Fan Speed
{
{
Multi-Split / Split Type Compatible
Indoor Unit
{
{
Timer
Worry Free
“Reliability &
Durability”
Flexibility
Indoor Unit Quiet Operation
{
{
H/P, C/O Compatible Indoor Unit
{
{
NIGHT QUIET Mode (Automatic)
—
—
Flexible Power Supply Correspondence
—
—
OUTDOOR UNIT QUIET Operation
(Manual)
{
{
High Ceiling Application
—
—
2-Area INTELLIGENT EYE Operation
{
—
Chargeless
—
—
INTELLIGENT EYE Operation
—
—
Either Side Drain (Right or Left)
{
—
Quick Warming Function
(Preheating Operation)
—
—
Power Selection
—
—
Hot-Start Function
{
{
Automatic Defrosting
—
—
Automatic Operation
{
{
Program Dry Operation
{
{
Fan Only
{
{
New POWERFUL Operation
(Non-Inverter)
—
—
Inverter POWERFUL Operation
{
{
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
—
—
ECONO Operation
{
{
Indoor Unit ON/OFF Button
{
{
Signal Receiving Sign
{
{
R/C with Back Light
—
{
Temperature Display
—
—
Remote
Control
Remote
Controller
5-Room Centralized Controller (Option)
{
{
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
{
{
Remote Control Adaptor
(Normal Open Contact) (Option)
{
{
DIII-NET Compatible (Adaptor) (Option)
{
{
Wireless
{
{
Wired (Option)
{
—
Note: { : Holding Functions
— : No Functions
7
List of Functions
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
{
{
Operation Limit for Cooling (°CDB)
—
—
FDXS25/35EAVMB
FDXS50CVMB
Inverter (with Inverter Power Control)
FLXS25/35/50BAVMB
Basic
Function
Functions
FDXS25/35EAVMB
FDXS50CVMB
Category
Functions
FLXS25/35/50BAVMB
SiBE12-816_D
Air-Purifying Filter
{
—
Photocatalytic Deodorizing Filter
{
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
—
—
Category
Health &
Clean
Functions
Operation Limit for Heating (°CWB)
—
—
PAM Control
—
—
Standby Electricity Saving
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
Oval Scroll Compressor
—
—
Air Filter (Prefilter)
{
{
Swing Compressor
—
—
Wipe-Clean Flat Panel
—
—
Rotary Compressor
—
—
Washable Grille
—
—
Reluctance DC Motor
—
—
MOLD PROOF Operation
—
—
Power-Airflow Flap
—
—
Good-Sleep Cooling Operation
—
—
Power-Airflow Dual Flaps
—
—
WEEKLY TIMER Operation
—
—
Power-Airflow Diffuser
—
—
24-Hour ON/OFF TIMER
{
{
Wide-Angle Louvers
—
—
NIGHT SET Mode
{
{
Vertical Auto-Swing (Up and Down)
{
—
Auto-Restart (after Power Failure)
{
{
Horizontal Auto-Swing (Right and Left)
—
—
Self-Diagnosis (Digital, LED) Display
{
{
3-D Airflow
—
—
Wiring Error Check Function
—
—
COMFORT AIRFLOW Operation
—
—
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
—
Auto Fan Speed
{
{
Multi-Split / Split Type Compatible
Indoor Unit
{
{
Timer
Worry Free
“Reliability &
Durability”
Flexibility
Indoor Unit Quiet Operation
{
{
H/P, C/O Compatible Indoor Unit
—
—
NIGHT QUIET Mode (Automatic)
—
—
Flexible Power Supply Correspondence
{
{
OUTDOOR UNIT QUIET Operation
(Manual)
{
{
High Ceiling Application
—
—
2-Area INTELLIGENT EYE Operation
—
—
Chargeless
—
—
INTELLIGENT EYE Operation
—
—
Either Side Drain (Right or Left)
—
—
Quick Warming Function
(Preheating Operation)
—
—
Power Selection
—
—
Hot-Start Function
{
{
Automatic Defrosting
—
—
Automatic Operation
{
{
Program Dry Operation
{
{
Fan Only
{
{
New POWERFUL Operation
(Non-Inverter)
—
—
Inverter POWERFUL Operation
{
{
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
{
{
ECONO Operation
—
—
Indoor Unit ON/OFF Button
{
{
Signal Receiving Sign
{
{
R/C with Back Light
—
—
Temperature Display
—
—
Remote
Control
Remote
Controller
5-Room Centralized Controller (Option)
{
{
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
{
{
Remote Control Adaptor
(Normal Open Contact) (Option)
{
{
DIII-NET Compatible (Adaptor) (Option)
{
{
Wireless
{
{
Wired (Option)
—
{
Note: { : Holding Functions
— : No Functions
List of Functions
8
Compressor
Comfortable
Airflow
Comfort
Control
Operation
Lifestyle
Convenience
{
{
Operation Limit for Cooling (°CDB)
—
10
~46
Operation Limit for Heating (°CWB)
—
–15
~15.5
Inverter (with Inverter Power Control)
PAM Control
—
{
Standby Electricity Saving
—
—
2MXS40/50GV1B
2MXS40/50G2V1B
Basic
Function
Functions
FFQ25/35/50B8V1B
Category
2MXS40/50GV1B
2MXS40/50G2V1B
SiBE12-816_D
FFQ25/35/50B8V1B
Functions
Air-Purifying Filter
—
—
Photocatalytic Deodorizing Filter
—
—
Air-Purifying Filter with Photocatalytic
Deodorizing Function
—
—
Titanium Apatite Photocatalytic
Air-Purifying Filter
—
—
Category
Health &
Clean
Functions
Oval Scroll Compressor
—
—
Longlife Filter (Option)
{
—
Swing Compressor
—
{
Air Filter (Prefilter)
{
—
Rotary Compressor
—
—
Wipe-Clean Flat Panel
—
—
Reluctance DC Motor
—
{
Washable Grille
—
—
Power-Airflow Flap
—
—
Filter Cleaning Indicator
{
—
Power-Airflow Dual Flaps
—
—
MOLD PROOF Operation
—
—
Power-Airflow Diffuser
—
—
Good-Sleep Cooling Operation
—
—
Wide-Angle Louvers
—
—
Vertical Auto-Swing (Up and Down)
{
—
Horizontal Auto-Swing (Right and Left)
—
—
3-D Airflow
—
—
Timer
Worry Free
“Reliability &
Durability”
WEEKLY TIMER Operation
—
—
72-Hour ON/OFF TIMER
{
—
NIGHT SET Mode
—
—
Auto-Restart (after Power Failure)
{
—
COMFORT AIRFLOW Operation
—
—
Self-Diagnosis (Digital, LED) Display
{
{
Auto Fan Speed
—
—
Wiring Error Check Function
—
—
Indoor Unit Quiet Operation
—
—
Anti-Corrosion Treatment of Outdoor
Heat Exchanger
—
{
NIGHT QUIET Mode (Automatic)
—
—
Multi-Split / Split Type Compatible
Indoor Unit
{
—
OUTDOOR UNIT QUIET Operation
(Manual)
—
{
H/P, C/O Compatible Indoor Unit
{
—
2-Area INTELLIGENT EYE Operation
—
—
Flexible Power Supply Correspondence
—
—
INTELLIGENT EYE Operation
—
—
High Ceiling Application
—
—
Quick Warming Function
(Preheating Operation)
—
{
Chargeless
—
20 m
—
Flexibility
Hot-Start Function
{
—
Either Side Drain (Right or Left)
—
Automatic Defrosting
—
{
Power Selection
—
{
Automatic Operation
{
—
5-Room Centralized Controller (Option)
—
—
Remote Control Adaptor
(Normal Open Pulse Contact) (Option)
—
—
Remote Control Adaptor
(Normal Open Contact) (Option)
—
—
DIII-NET Compatible (Adaptor) (Option)
{
—
Wireless (Option)
{
—
Wired
{
—
Program Dry Operation
{
—
Fan Only
{
—
New POWERFUL Operation
(Non-Inverter)
—
—
Inverter POWERFUL Operation
—
—
Priority-Room Setting
—
—
COOL / HEAT Mode Lock
—
—
HOME LEAVE Operation
—
—
ECONO Operation
—
—
Indoor Unit ON/OFF Button
—
—
Signal Receiving Sign
—
—
R/C with Back Light
—
—
Temperature Display
—
—
Remote
Control
Remote
Controller
Note: { : Holding Functions
— : No Functions
9
List of Functions
SiBE12-816_D
Part 2
Specifications
1. Specifications ........................................................................................11
1.1
1.2
1.3
1.4
Specifications
Cooling Only - Indoor Unit ......................................................................11
Cooling Only - Outdoor Unit ...................................................................18
Heat Pump - Indoor Unit.........................................................................20
Heat Pump - Outdoor Unit......................................................................29
10
Specifications
SiBE12-816_D
1. Specifications
1.1
Cooling Only - Indoor Unit
Wall Mounted Type
50 Hz, 220 - 230 - 240 V
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
mm
mm
kg
kg
FTXS20G2V1B
2.0 kW Class
White
9.4 (332)
7.4 (262)
5.5 (193)
4.0 (141)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
18 - 18 - 18
90.9 - 97.8 - 93.8
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
9
13
FTXS25G2V1B
2.5 kW Class
White
9.1 (321)
7.1 (252)
5.2 (182)
3.7 (130)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
18 - 18 - 18
90.9 - 97.8 - 93.8
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
9
13
dB(A)
38 / 32 / 25 / 22
38 / 32 / 25 / 22
dB(A)
54
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059727
54
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059728
mm
mm
kg
kg
FTXS35G2V1B
3.5 kW Class
White
10.4 (367)
7.7 (270)
4.8 (170)
3.5 (125)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.12 - 0.12 - 0.11
26 - 26 - 26
98.5 - 94.2 - 98.5
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
10
13
FTXS42G2V1B
4.2 kW Class
White
9.1 (321)
7.7 (273)
6.3 (221)
5.4 (190)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.11 - 0.11 - 0.10
24 - 24 - 24
99.2 - 94.9 - 100.0
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
10
13
dB(A)
42 / 34 / 26 / 23
42 / 38 / 33 / 30
dB(A)
58
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059729
58
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059730
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
11
Specifications
SiBE12-816_D
Specifications
50 Hz, 220 - 230 - 240 V
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Gas
Piping
Connections
Indoor Unit
Drain
Outdoor Unit
Drawing No.
mm
mm
kg
kg
FTXS50G2V1B
5.0 kW Class
White
10.2 (360)
8.6 (305)
7.0 (246)
6.0 (212)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.12 - 0.12 - 0.11
26 - 26 - 26
98.5 - 94.2 - 98.5
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
10
13
dB(A)
43 / 39 / 34 / 31
dB(A)
59
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 18.0
3D059731
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
mm
mm
kg
kg
FTXS20J2V1B
2.0 kW Class
White
9.4 (332)
7.4 (261)
5.5 (194)
4.1 (145)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
18 - 18 - 18
90.9 - 97.8 - 93.8
Microcomputer Control
295 × 800 × 215
289 × 870 × 366
9
13
FTXS25J2V1B
2.5 kW Class
White
10.8 (381)
7.9 (279)
5.2 (184)
3.7 (131)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
18 - 18 - 18
90.9 - 97.8 - 93.8
Microcomputer Control
295 × 800 × 215
289 × 870 × 366
9
13
dB(A)
38 / 32 / 25 / 22
41 / 33 / 25 / 22
dB(A)
54
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
I.D. φ 14.0, O.D. φ 18.0
I.D. φ 15.9 (Hole)
3D070569A
57
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
I.D. φ 14.0, O.D. φ 18.0
I.D. φ 15.9 (Hole)
3D070570A
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
12
Specifications
SiBE12-816_D
50 Hz, 220 - 230 - 240 V
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Gas
Piping
Connections
Indoor Unit
Drain
Outdoor Unit
Drawing No.
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Gas
Piping
Connections
Indoor Unit
Drain
Outdoor Unit
Drawing No.
mm
mm
kg
kg
FTXS35J2V1B
3.5 kW Class
White
11.4 (403)
8.7 (307)
5.8 (205)
4.4 (155)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.12 - 0.12 - 0.11
26 - 26 - 26
98.5 - 94.2 - 98.5
Microcomputer Control
295 × 800 × 215
289 × 870 × 366
10
14
FTXS42J2V1B
4.2 kW Class
White
11.3 (399)
9.0 (318)
6.8 (240)
5.9 (208)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.11 - 0.11 - 0.11
24 - 24 - 24
99.2 - 94.9 - 90.9
Microcomputer Control
295 × 800 × 215
289 × 870 × 366
10
14
dB(A)
45 / 37 / 29 / 23
45 / 39 / 33 / 30
dB(A)
61
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
I.D. φ 14.0, O.D. φ 18.0
I.D. φ 15.9 (Hole)
3D070571A
61
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
I.D. φ 14.0, O.D. φ 18.0
I.D. φ 15.9 (Hole)
3D070572A
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
mm
mm
kg
kg
FTXS50J2V1B
5.0 kW Class
White
11.6 (410)
9.2 (325)
7.0 (247)
6.0 (212)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.12 - 0.12 - 0.11
26 - 26 - 26
98.5 - 94.2 - 98.5
Microcomputer Control
295 × 800 × 215
289 × 870 × 366
10
14
dB(A)
46 / 40 / 34 / 31
dB(A)
62
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
I.D. φ 14.0, O.D. φ 18.0
I.D. φ 15.9 (Hole)
3D070573A
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
13
Specifications
SiBE12-816_D
Specifications
Floor Standing Type
50 Hz, 220 - 230 - 240 V
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
mm
mm
kg
kg
FVXS25FV1B
2.5 kW Class
White
8.2 (290)
6.5 (229)
4.8 (169)
4.1 (146)
Turbo Fan
48
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.14 - 0.13 - 0.12
15 - 15 - 15
48.7 - 50.2 - 52.1
Microcomputer Control
600 × 700 × 210
696 × 786 × 286
14
18
FVXS35FV1B
3.5 kW Class
White
8.5 (300)
6.7 (237)
4.9 (174)
4.5 (158)
Turbo Fan
48
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.14 - 0.13 - 0.12
15 - 15 - 15
48.7 - 50.2 - 52.1
Microcomputer Control
600 × 700 × 210
696 × 786 × 286
14
18
dB(A)
38 / 32 / 26 / 23
39 / 33 / 27 / 24
dB(A)
54
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 20.0
3D059858
55
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 20.0
3D059859
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
mm
mm
kg
kg
FVXS50FV1B
5.0 kW Class
White
10.7 (378)
9.2 (326)
7.8 (274)
6.6 (233)
Turbo Fan
48
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.18 - 0.17 - 0.16
27 - 27 - 27
68.1 - 69.1 - 70.3
Microcomputer Control
600 × 700 × 210
696 × 786 × 286
14
18
dB(A)
44 / 40 / 36 / 32
dB(A)
56
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 20.0
3D059860
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
14
Specifications
SiBE12-816_D
Floor / Ceiling Suspended Dual Type
50 Hz, 220 - 230 - 240 V
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
mm
mm
kg
kg
FLKS25BAVMB
2.5 kW Class
Almond White
7.6 (268)
6.8 (240)
6.0 (212)
5.2 (184)
Sirocco Fan
34
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.33 - 0.32 - 0.31
70 - 70 - 70
96.4 - 95.1 - 94.1
Microcomputer Control
490 × 1,050 × 200
280 × 1,100 × 566
16
22
FLKS35BAVMB
3.5 kW Class
Almond White
8.6 (304)
7.6 (268)
6.6 (233)
5.6 (198)
Sirocco Fan
34
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.38 - 0.36 - 0.35
78 - 78 - 78
93.3 - 94.2 - 92.9
Microcomputer Control
490 × 1,050 × 200
280 × 1,100 × 566
16
22
dB(A)
37 / 34 / 31 / 28
38 / 35 / 32 / 29
dB(A)
53
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059861
54
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059862
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
mm
mm
kg
kg
FLKS50BAVMB
5.0 W Class
Almond White
11.4 (402)
10.0 (353)
8.5 (300)
7.5 (265)
Sirocco Fan
34
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.48 - 0.45 - 0.43
96 - 96 - 96
90.9 - 92.8 - 93.0
Microcomputer Control
490 × 1,050 × 200
280 × 1,100 × 566
17
24
dB(A)
47 / 43 / 39 / 36
dB(A)
63
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 18.0
3D059863
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
15
Specifications
SiBE12-816_D
Specifications
Duct Connected Type
50 Hz, 230 V
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
External Static Pressure
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
External Static Pressure
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FDKS25EAVMB
2.5 kW Class
FDKS35EAVMB
3.5 kW Class
—
—
mm
mm
kg
kg
8.7 (307)
8.0 (282)
7.3 (258)
6.2 (219)
Sirocco Fan
62
5 Steps, Quiet, Auto
Removable / Washable / Mildew Proof
0.48
71
64.3
Microcomputer Control
200 × 700 × 620
274 × 906 × 751
21
29
8.7 (307)
8.0 (282)
7.3 (258)
6.2 (219)
Sirocco Fan
62
5 Steps, Quiet, Auto
Removable / Washable / Mildew Proof
0.48
71
64.3
Microcomputer Control
200 × 700 × 620
274 × 906 × 751
21
29
dB(A)
35 / 33 / 31 / 29
35 / 33 / 31 / 29
dB(A)
Pa
53
30
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D. φ 26 / I.D. φ 20)
3D060036
53
30
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D. φ 26 / I.D. φ 20)
3D060037
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
FDKS50CVMB
5.0 kW Class
—
mm
mm
kg
kg
12.0 (424)
11.0 (388)
10.0 (353)
8.4 (297)
Sirocco Fan
130
5 Steps, Quiet, Auto
Removable / Washable / Mildew Proof
0.64
140
95.1
Microcomputer Control
200 × 900 × 620
266 × 1,106 × 751
27
34
dB(A)
37 / 35 / 33 / 31
dB(A)
Pa
55
40
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
VP20 (O.D. φ 26 / I.D. φ 20)
3D060040
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
16
Specifications
SiBE12-816_D
Ceiling Mounted Cassette Type
50 Hz, 230 V
Model
Rated Capacity
Color
Decoration
Panel
Dimensions (H × W × D)
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D) ★1
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H/L
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Model
Rated Capacity
Color
Decoration
Panel
Dimensions (H × W × D)
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D) ★1
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H/L
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
★1
mm
mm
kg
kg
FFQ25B8V1B
2.5 kW Class
White
55 × 700 × 700
9.0 (318)
—
6.5 (230)
—
Turbo Fan
55
2 Steps
Horizontal, Downward
—
0.37
73
85.8
Microcomputer Control
260 (286) × 575 × 575
370 × 687 × 674
17.5
21
FFQ35B8V1B
3.5 kW Class
White
55 × 700 × 700
10.0 (353)
—
6.5 (230)
—
Turbo Fan
55
2 Steps
Horizontal, Downward
—
0.40
84
91.3
Microcomputer Control
260 (286) × 575 × 575
370 × 687 × 674
17.5
21
dB(A)
29.5 / 24.5
32.0 / 25.0
dB(A)
46.5
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D. φ 26 / I.D. φ 20)
3D060406
49.0
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D. φ 26 / I.D. φ 20)
3D060408
mm
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
mm
mm
kg
kg
FFQ50B8V1B
5.0 kW Class
White
55 × 700 × 700
12.0 (424)
—
8.0 (283)
—
Turbo Fan
55
2 Steps
Horizontal, Downward
—
0.49
97
86.1
Microcomputer Control
260 (286) × 575 × 575
370 × 687 × 674
17.5
21
dB(A)
36.0 / 27.0
dB(A)
53.0
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
VP20 (O.D. φ 26 / I.D. φ 20)
3D060410
mm
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
mm
( ) : dimension including control box
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
17
Specifications
SiBE12-816_D
1.2
Specifications
Cooling Only - Outdoor Unit
50 Hz, 220 - 240 V
Model
Casing Color
Type
Model
Motor Output
Model
Refrigerant
Oil
Charge
Type
Refrigerant
Charge
HH
H
L
Airflow Rate
HH
H
L
Type
Fan
Motor Output
Starting Current
Dimension (H × W × D)
Packaged Dimension (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation Sound
Sound Power
Liquid
Piping
Gas
Connection
Drain
Heat Insulation
No. of Wiring Connection
Compressor
Max. Piping Length
W
L
kg
m³/min
cfm
W
A
mm
mm
kg
kg
dB(A)
dB(A)
mm
mm
mm
m
Min. Piping Length
Amount of Additional Charge
m
g/m
Max. Installation Height Difference
Drawing No.
Note:
m
2MKS40GV1B
Ivory White
Hermetically Sealed Swing Type
1YC23ABXD
600
FVC50K
0.45
R-410A
1.20
36
33
30
1,271
1,165
1,059
Propeller
50
5.9
550 × 765 × 285
612 × 906 × 364
38
43
47
62
φ 6.4 × 2
φ 9.5 × 2
φ 18
Both Liquid & Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D059052A
1. The data are based on the conditions shown in the table below.
Cooling
Piping Length
Indoor ; 27°CDB / 19°CWB
Outdoor ; 35°CDB
Specifications
2MKS40G2V1B
Ivory White
Hermetically Sealed Swing Type
1YC23AGXD
600
FVC50K
0.45
R-410A
1.20
36
33
30
1,271
1,165
1,059
Propeller
50
5.9
550 × 765 × 285
612 × 906 × 364
38
43
47
62
φ 6.4 × 2
φ 9.5 × 2
φ 18
Both Liquid & Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D058886A
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
5m
18
Specifications
SiBE12-816_D
50 Hz, 220 - 240 V
Model
Casing Color
Type
Model
Motor Output
Model
Refrigerant Oil
Charge
Type
Refrigerant
Charge
HH
H
L
Airflow Rates
HH
H
L
Type
Fan
Motor Output
Starting Current
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation Sound
Sound Power
Liquid
Piping
Gas
Connection
Drain
Heat Insulation
No. of Wiring Connection
Compressor
Max. Interunit Piping Length
Min. Interunit Piping Length
Amount of Additional Charge
Max. Installation Height Difference
Drawing No.
Note:
W
L
kg
m³/min
cfm
W
A
mm
mm
kg
kg
dB(A)
dB(A)
mm
mm
mm
m
m
m
g/m
m
m
2MKS50GV1B
Ivory White
Hermetically Sealed Swing Type
2YC36BXD
1,100
FVC50K
0.65
R-410A
1.60
37
34
34
1,306
1,200
1,200
Propeller
50
9.8
550 × 765 × 285
612 × 906 × 364
42
47
48
63
φ 6.4 × 2
φ 9.5 × 1, φ 12.7 × 1
φ 18.0
Both Liquid and Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D059053A
1. The data are based on the conditions shown in the table below.
Cooling
Piping Length
Indoor ; 27°CDB / 19°CWB
Outdoor ; 35°CDB
19
2MKS50G2V1B
Ivory White
Hermetically Sealed Swing Type
2YC36BXD
1,100
FVC50K
0.65
R-410A
1.60
37
34
34
1,306
1,200
1,200
Propeller
50
9.8
550 × 765 × 285
612 × 906 × 364
42
47
48
63
φ 6.4 × 2
φ 9.5 × 1, φ 12.7 × 1
φ 18.0
Both Liquid and Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D058887A
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
5m
Specifications
SiBE12-816_D
1.3
Specifications
Heat Pump - Indoor Unit
Wall Mounted Type
50 Hz, 220 - 230 - 240 V
FTXG25EV1BW
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Cooling
2.5 kW Class
Mat Crystal White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
7.7 (271)
6.1 (215)
4.7 (165)
3.8 (134)
Heating
2.5 kW Class
Mat Crystal Silver
9.0 (317)
7.9 (278)
6.7 (236)
5.4 (190)
Cross Flow Fan
40
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.15 - 0.14 - 0.13
0.15 - 0.14 - 0.13
30 - 30 - 30
30 - 30 - 30
90.9 - 93.2 - 96.2
90.9 - 93.2 - 96.2
Microcomputer Control
275 × 840 × 150
222 × 894 × 345
9
13
7.7 (271)
6.1 (215)
4.7 (165)
3.8 (134)
9.0 (317)
7.9 (278)
6.7 (236)
5.4 (190)
Cross Flow Fan
40
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.15 - 0.14 - 0.13
0.15 - 0.14 - 0.13
30 - 30 - 30
30 - 30 - 30
90.9 - 93.2 - 96.2
90.9 - 93.2 - 96.2
Microcomputer Control
275 × 840 × 150
222 × 894 × 345
9
13
dB(A)
38 / 32 / 25 / 22
38 / 33 / 28 / 25
38 / 32 / 25 / 22
38 / 33 / 28 / 25
dB(A)
56
56
56
56
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D051101
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D051102
FTXG35EV1BW
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Motor Output
Fan
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FTXG25EV1BS
Heating
Cooling
FTXG35EV1BS
Heating
Cooling
3.5 kW Class
Mat Crystal White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
8.1 (285)
6.5 (229)
4.9 (173)
4.1 (144)
Heating
3.5 kW Class
Mat Crystal Silver
9.6 (338)
8.2 (289)
6.7 (236)
5.9 (208)
Cross Flow Fan
40
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.15 - 0.14 - 0.13
0.15 - 0.14 - 0.13
30 - 30 - 30
30 - 30 - 30
90.9 - 93.2 - 96.2
90.9 - 93.2 - 96.2
Microcomputer Control
275 × 840 × 150
222 × 894 × 345
9
13
8.1 (285)
6.5 (229)
4.9 (173)
4.1 (144)
9.6 (338)
8.2 (289)
6.7 (236)
5.9 (208)
Cross Flow Fan
40
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.15 - 0.14 - 0.13
0.15 - 0.14 - 0.13
30 - 30 - 30
30 - 30 - 30
90.9 - 93.2 - 96.2
90.9 - 93.2 - 96.2
Microcomputer Control
275 × 840 × 150
222 × 894 × 345
9
13
dB(A)
39 / 33 / 26 / 23
39 / 34 / 29 / 26
39 / 33 / 26 / 23
39 / 34 / 29 / 26
dB(A)
57
57
57
57
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D051103
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D051104
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
20
Specifications
SiBE12-816_D
50 Hz, 220 - 230 - 240 V
CTXG50EV1BW
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Cooling
5.0 kW Class
Mat Crystal White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
11.3 (398)
9.1 (320)
7.1 (250)
6.7 (236)
Heating
5.0 kW Class
Mat Crystal Silver
12.6 (444)
10.6 (373)
8.7 (306)
7.7 (271)
Cross Flow Fan
40
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.15 - 0.14 - 0.13
0.15 - 0.14 - 0.13
30
30
90.9 - 93.2 - 96.2
90.9 - 93.2 - 96.2
Microcomputer Control
275 × 840 × 150
222 × 894 × 345
9
13
11.3 (398)
9.1 (320)
7.1 (250)
6.7 (236)
12.6 (444)
10.6 (373)
8.7 (306)
7.7 (271)
Cross Flow Fan
40
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.15 - 0.14 - 0.13
0.15 - 0.14 - 0.13
30
30
90.9 - 93.2 - 96.2
90.9 - 93.2 - 96.2
Microcomputer Control
275 × 840 × 150
222 × 894 × 345
9
13
dB(A)
47 / 41 / 35 / 32
47 / 41 / 35 / 32
47 / 41 / 35 / 32
47 / 41 / 35 / 32
dB(A)
64
64
64
64
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 18.0
3D051105
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 18.0
3D051106
FTXG25JV1BW
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
CTXG50EV1BS
Heating
Cooling
FTXG25JV1BS
Heating
Cooling
2.5 kW Class
White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
8.8 (311)
6.8 (240)
4.7 (166)
3.8 (134)
Heating
2.5 kW Class
Silver
9.6 (339)
7.9 (279)
6.2 (219)
5.4 (191)
Cross Flow Fan
29
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
0.12 - 0.11 - 0.11
18 - 18 - 18
24 - 24 - 24
90.9 - 97.8 - 93.8
90.9 - 94.9 - 90.9
Microcomputer Control
295 × 915 × 155
285 × 1,003 × 377
11
15
8.8 (311)
6.8 (240)
4.7 (166)
3.8 (134)
9.6 (339)
7.9 (279)
6.2 (219)
5.4 (191)
Cross Flow Fan
29
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
0.12 - 0.11 - 0.11
18 - 18 - 18
24 - 24 - 24
90.9 - 97.8 - 93.8
90.9 - 94.9 - 90.9
Microcomputer Control
295 × 915 × 155
285 × 1,003 × 377
11
16
dB(A)
38 / 32 / 25 / 22
39 / 34 / 28 / 25
38 / 32 / 25 / 22
39 / 34 / 28 / 25
dB(A)
54
55
54
55
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 16.0 or φ 18.0
3D066165A
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 16.0 or φ 18.0
3D066436A
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
21
Specifications
SiBE12-816_D
Specifications
50 Hz, 220 - 230 - 240 V
FTXG35JV1BW
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Cooling
Heating
3.5 kW Class
White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
3.5 kW Class
Silver
10.1 (357)
7.3 (258)
4.6 (162)
3.9 (138)
10.8 (381)
8.6 (304)
6.4 (226)
5.6 (198)
Cross Flow Fan
29
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.13 - 0.12 - 0.12
0.16 - 0.15 - 0.14
26 - 26 - 26
32 - 32 - 32
90.9 - 94.2 - 90.3
90.9 - 92.8 - 95.2
Microcomputer Control
295 × 915 × 155
285 × 1,003 × 377
11
15
10.1 (357)
7.3 (258)
4.6 (162)
3.9 (138)
10.8 (381)
8.6 (304)
6.4 (226)
5.6 (198)
Cross Flow Fan
29
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.13 - 0.12 - 0.12
0.16 - 0.15 - 0.14
26 - 26 - 26
32 - 32 - 32
90.9 - 94.2 - 90.3
90.9 - 92.8 - 95.2
Microcomputer Control
295 × 915 × 155
285 × 1,003 × 377
11
16
dB(A)
42 / 34 / 26 / 23
42 / 36 / 29 / 26
42 / 34 / 26 / 23
42 / 36 / 29 / 26
dB(A)
58
58
58
58
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 16.0 or φ 18.0
3D066437A
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 16.0 or φ 18.0
3D066438A
CTXG50JV1BW
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FTXG35JV1BS
Heating
Cooling
CTXG50JV1BS
Heating
Cooling
5.0 kW Class
White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
10.5 (371)
8.7 (307)
6.9 (244)
5.9 (208)
Heating
5.0 kW Class
Silver
11.4 (402)
9.8 (346)
8.1 (286)
7.1 (251)
Cross Flow Fan
29
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.16 - 0.15 - 0.14
0.19 - 0.18 - 0.17
32 - 32 - 32
38 - 38 - 38
90.9 - 92.8 - 95.2
90.9 - 91.8 - 93.1
Microcomputer Control
295 × 915 × 155
285 × 1,003 × 377
11
15
10.5 (371)
8.7 (307)
6.9 (244)
5.9 (208)
11.4 (402)
9.8 (346)
8.1 (286)
7.1 (251)
Cross Flow Fan
29
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.16 - 0.15 - 0.14
0.19 - 0.18 - 0.17
32 - 32 - 32
38 - 38 - 38
90.9 - 92.8 - 95.2
90.9 - 91.8 - 93.1
Microcomputer Control
295 × 915 × 155
285 × 1,003 × 377
11
15
dB(A)
44 / 41 / 35 / 32
44 / 41 / 35 / 32
44 / 41 / 35 / 32
44 / 41 / 35 / 32
dB(A)
60
60
60
60
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 16.0 or φ 18.0
3D066439B
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 16.0 or φ 18.0
3D066440B
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
22
Specifications
SiBE12-816_D
50 Hz, 220 - 230 - 240 V
FTXS20G2V1B
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Cooling
Heating
2.0 kW Class
White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
2.5 kW Class
White
9.4 (332)
7.4 (262)
5.5 (193)
4.0 (141)
9.9 (350)
8.2 (290)
6.5 (228)
5.5 (193)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
0.10 - 0.10 - 0.09
18 - 18 - 18
21 - 21 - 21
90.9 - 97.8 - 93.8
95.5 - 91.3 - 97.2
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
9
13
9.1 (321)
7.1 (252)
5.2 (182)
3.7 (130)
9.8 (346)
7.9 (280)
6.2 (217)
5.2 (183)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.09 - 0.08 - 0.08
0.10 - 0.10 - 0.09
18 - 18 - 18
21 - 21 - 21
90.9 - 97.8 - 93.8
95.5 - 91.3 - 97.2
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
9
13
dB(A)
38 / 32 / 25 / 22
38 / 33 / 28 / 25
38 / 32 / 25 / 22
39 / 34 / 28 / 25
dB(A)
54
54
54
55
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059722
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059723
FTXS35G2V1B
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FTXS25G2V1B
Heating
Cooling
FTXS42G2V1B
Heating
Cooling
3.5 kW Class
White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
10.4 (367)
7.7 (270)
4.8 (170)
3.5 (125)
Heating
4.2 kW Class
White
10.6 (374)
8.5 (302)
6.4 (226)
5.4 (191)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.12 - 0.12 - 0.11
0.13 - 0.13 - 0.12
26 - 26 - 26
28 - 28 - 28
98.5 - 94.2 - 98.5
97.9 - 93.6 - 97.2
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
10
13
9.1 (321)
7.7 (273)
6.3 (221)
5.4 (190)
11.2 (395)
9.4 (333)
7.7 (271)
6.8 (240)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.11 - 0.11 - 0.10
0.14 - 0.14 - 0.13
24 - 24 - 24
30 - 30 - 30
99.2 - 94.9 - 100.0
97.4 - 93.2 - 96.2
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
10
13
dB(A)
42 / 34 / 26 / 23
42 / 36 / 29 / 26
42 / 38 / 33 / 30
42 / 38 / 33 / 30
dB(A)
58
58
58
58
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059724
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059725
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
23
Specifications
SiBE12-816_D
Specifications
50 Hz, 220 - 230 - 240 V
FTXS50G2V1B
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Heating
5.0 kW Class
White
m³/min
(cfm)
10.2 (360)
8.6 (305)
7.0 (246)
6.0 (212)
Cross Flow Fan
23
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
W
Steps
A
W
%
0.12 - 0.12 - 0.11
26 - 26 - 26
98.5 - 94.2 - 98.5
0.15 - 0.14 - 0.14
32 - 32 - 32
97.0 - 99.4 - 95.2
Microcomputer Control
295 × 800 × 215
274 × 870 × 366
10
13
mm
mm
kg
kg
dB(A)
43 / 39 / 34 / 31
dB(A)
59
mm
mm
mm
11.0 (388)
9.3 (330)
7.6 (267)
6.7 (236)
44 / 39 / 34 / 31
60
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 18.0
3D059726
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
24
Specifications
SiBE12-816_D
Floor Standing Type
50 Hz, 220 - 230 - 240 V
FVXS25FV1B
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Heating
Cooling
Heating
2.5 kW Class
White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
3.5 kW Class
White
8.2 (290)
6.5 (229)
4.8 (169)
4.1 (146)
8.8 (311)
6.9 (244)
5.0 (178)
4.4 (155)
8.5 (300)
6.7 (237)
4.9 (174)
4.5 (158)
Turbo Fan
48
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.14 - 0.13 - 0.12
0.15 - 0.14 - 0.13
15 - 15 - 15
17 - 17 - 17
48.7 - 50.2 - 52.1
51.5 - 52.8 - 54.5
Microcomputer Control
600 × 700 × 210
696 × 786 × 280
14
18
9.4 (332)
7.3 (258)
5.2 (184)
4.7 (168)
Turbo Fan
48
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.14 - 0.13 - 0.12
0.15 - 0.14 - 0.13
15 - 15 - 15
17 - 17 - 17
48.7 - 50.2 - 52.1
51.5 - 52.8 - 54.5
Microcomputer Control
600 × 700 × 210
696 × 786 × 280
14
18
dB(A)
38 / 32 / 26 / 23
38 / 32 / 26 / 23
39 / 33 / 27 / 24
39 / 33 / 27 / 24
dB(A)
54
54
55
55
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 20.0
3D059825
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 20.0
3D059826
FVXS50FV1B
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FVXS35FV1B
Cooling
Cooling
Heating
5.0 kW Class
White
m³/min
(cfm)
10.7 (378)
9.2 (326)
7.8 (274)
6.6 (233)
Turbo Fan
48
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
W
Steps
A
W
%
0.18 - 0.17 - 0.16
27 - 27 - 27
68.1 - 69.1 - 70.3
0.20 - 0.19 - 0.18
34 - 34 - 34
77.3 - 77.8 - 78.7
Microcomputer Control
600 × 700 × 210
696 × 786 × 280
14
18
mm
mm
kg
kg
dB(A)
44 / 40 / 36 / 32
dB(A)
56
mm
mm
mm
11.8 (417)
10.1 (358)
8.5 (300)
7.1 (250)
45 / 40 / 36 / 32
57
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 20.0
3D059827
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
25
Specifications
SiBE12-816_D
Specifications
Floor / Ceiling Suspended Dual Type
50 Hz, 220 - 230 - 240 V
FLXS25BAVMB
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Cooling
Heating
2.5 kW Class
Almond White
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
3.5 kW Class
Almond White
7.6 (268)
6.8 (240)
6.0 (212)
5.2 (184)
9.2 (325)
8.3 (293)
7.4 (261)
6.6 (233)
8.6 (304)
7.6 (268)
6.6 (233)
5.6 (198)
Sirocco Fan
34
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.33 - 0.32 - 0.31
0.36 - 0.34 - 0.33
70 - 70 - 70
74 - 74 - 74
96.4 - 95.1 - 94.1
93.4 - 94.6 - 93.4
Microcomputer Control
490 × 1,050 × 200
566 × 1,100 × 280
16
22
9.8 (346)
8.9 (314)
8.0 (282)
7.2 (254)
Sirocco Fan
34
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
0.38 - 0.36 - 0.35
0.38 - 0.36 - 0.35
78 - 78 - 78
78 - 78 - 78
93.3 - 94.2 - 92.9
93.3 - 94.2 - 92.9
Microcomputer Control
490 × 1,050 × 200
566 × 1,100 × 280
16
22
dB(A)
37 / 34 / 31 / 28
37 / 34 / 31 / 29
38 / 35 / 32 / 29
39 / 36 / 33 / 30
dB(A)
53
53
54
—
mm
mm
mm
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059828
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
φ 18.0
3D059829
FLXS50BAVMB
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FLXS35BAVMB
Heating
Cooling
Heating
5.0 kW Class
Almond White
m³/min
(cfm)
11.4 (402)
10.0 (353)
8.5 (300)
7.5 (265)
Sirocco Fan
34
5 Steps, Quiet, Auto
Right, Left, Horizontal, Downward
Removable / Washable / Mildew Proof
W
Steps
A
W
%
0.48 - 0.45 - 0.43
96 - 96 - 96
90.9 - 92.8 - 93.0
0.47 - 0.45 - 0.44
96 - 96 - 96
92.8 - 92.8 - 90.9
Microcomputer Control
490 × 1,050 × 200
566 × 1,100 × 280
17
24
mm
mm
kg
kg
dB(A)
47 / 43 / 39 / 36
dB(A)
63
mm
mm
mm
12.1 (427)
9.8 (346)
7.5 (265)
6.8 (240)
46 / 41 / 35 / 33
32
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
φ 18.0
3D059830
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
26
Specifications
SiBE12-816_D
Duct Connected Type
50 Hz, 230 V
FDXS25EAVMB
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
External Static Pressure
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
Cooling
Heating
2.5 kW Class
3.5 kW Class
—
m³/min
(cfm)
W
Steps
A
W
%
mm
mm
kg
kg
—
8.7 (307)
8.0 (282)
7.3 (258)
6.2 (219)
8.7 (307)
8.0 (282)
7.3 (258)
6.2 (219)
8.7 (307)
8.0 (282)
7.3 (258)
6.2 (219)
Sirocco Fan
62
5 Steps, Quiet, Auto
Removable / Washable / Mildew Proof
0.48
0.48
71
71
64.3
64.3
Microcomputer Control
200 × 700 × 620
274 × 906 × 751
21
29
8.7 (307)
8.0 (282)
7.3 (258)
6.2 (219)
Sirocco Fan
62
5 Steps, Quiet, Auto
Removable / Washable / Mildew Proof
0.48
0.48
71
71
64.3
64.3
Microcomputer Control
200 × 700 × 620
274 × 906 × 751
21
29
dB(A)
35 / 33 / 31 / 29
35 / 33 / 31 / 29
35 / 33 / 31 / 29
dB(A)
Pa
53
53
53
mm
mm
mm
35 / 33 / 31 / 29
53
30
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D. φ 26 / I.D. φ 20)
3D060030
30
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D. φ 26 / I.D. φ 20)
3D060029
FDXS50CVMB
Model
Rated Capacity
Front Panel Color
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H / M / L / SL
Sound
Sound Power
External Static Pressure
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
FDXS35EAVMB
Heating
Cooling
Heating
5.0 kW Class
—
m³/min
(cfm)
12.0 (424)
11.0 (388)
10.0 (353)
8.4 (297)
Sirocco Fan
130
5 Steps, Quiet, Auto
Removable / Washable / Mildew Proof
W
Steps
A
W
%
0.64
140
95.1
0.64
140
95.1
Microcomputer Control
200 × 900 × 620
266 × 1,106 × 751
27
34
mm
mm
kg
kg
dB(A)
37 / 35 / 33 / 31
dB(A)
Pa
55
mm
mm
mm
12.0 (424)
11.0 (388)
10.0 (353)
8.4 (297)
37 / 35 / 33 / 31
55
40
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
VP20 (O.D. φ 26 / I.D. φ 20)
3D060033
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
27
Specifications
SiBE12-816_D
Specifications
Ceiling Mounted Cassette Type
50 Hz, 230 V
FFQ25B8V1B
Model
Cooling
Rated Capacity
Color
Decoration
Panel
Dimensions (H × W × D)
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D) ★1
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H/L
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Cooling
2.5 kW Class
White
55 × 700 × 700
mm
m³/min
(cfm)
FFQ35B8V1B
Heating
9.0 (318)
9.0 (318)
10.0 (353)
—
—
—
—
6.5 (230)
6.5 (230)
6.5 (230)
6.5 (230)
—
—
—
—
Turbo Fan
55
2 Steps
Horizontal, Downward
W
Steps
0.37
73
85.8
10.0 (353)
Turbo Fan
55
2 Steps
Horizontal, Downward
—
A
W
%
Heating
3.5 kW Class
White
55 × 700 × 700
—
0.32
64
87.0
0.40
84
91.3
0.36
76
91.8
mm
mm
kg
kg
Microcomputer Control
260 (286) × 575 × 575
370 × 687 × 674
17.5
21
Microcomputer Control
260 (286) × 575 × 575
370 × 687 × 674
17.5
21
dB(A)
29.5 / 24.5
32.0 / 25.0
dB(A)
46.5
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D φ 26 / I.D φ 20)
3D060405
49.0
Both Liquid and Gas Pipes
φ 6.4
φ 9.5
VP20 (O.D φ 26 / I.D φ 20)
3D060407
mm
mm
mm
FFQ50B8V1B
Model
Cooling
Rated Capacity
Color
Decoration
Panel
Dimensions (H × W × D)
H
M
Airflow Rates
L
SL
Type
Fan
Motor Output
Speed
Air Direction Control
Air Filter
Running Current (Rated)
Power Consumption (Rated)
Power Factor (Rated)
Temperature Control
Dimensions (H × W × D) ★1
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation
H/L
Sound
Sound Power
Heat Insulation
Liquid
Piping Connection
Gas
Drain
Drawing No.
Note:
★1
Heating
5.0 kW Class
White
55 × 700 × 700
mm
12.0 (424)
m³/min
(cfm)
12.0 (424)
—
—
8.0 (283)
8.0 (283)
—
—
Turbo Fan
55
2 Steps
Horizontal, Downward
W
Steps
—
A
W
%
0.49
97
86.1
0.45
89
86.0
mm
mm
kg
kg
Microcomputer Control
260 (286) × 575 × 575
370 × 687 × 674
17.5
21
dB(A)
36.0 / 27.0
dB(A)
53.0
Both Liquid and Gas Pipes
φ 6.4
φ 12.7
VP20 (O.D φ 26 / I.D φ 20)
3D060409
mm
mm
mm
( ) : dimension including control box
Conversion Formulae
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
28
Specifications
1.4
SiBE12-816_D
Heat Pump - Outdoor Unit
50 Hz, 220 - 240 V
2MXS40GV1B
Model
Cooling
Casing Color
Type
Model
Motor Output
Model
Refrigerant
Oil
Charge
Type
Refrigerant
Charge
HH
H
L
Airflow Rate
HH
H
L
Type
Fan
Motor Output
Starting Current
Dimension (H × W × D)
Packaged Dimension (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation Sound
Sound Power
Liquid
Piping
Gas
Connection
Drain
Heat Insulation
No. of Wiring Connection
Compressor
Max. Piping Length
W
L
kg
m³/min
cfm
W
A
mm
mm
kg
kg
dB(A)
dB(A)
mm
mm
mm
m
Min. Piping Length
Amount of Additional Charge
m
g/m
Max. Installation Height Difference
Drawing No.
Note:
m
Cooling
Heating
Ivory White
Hermetically Sealed Swing Type
1YC23AGXD
600
FVC50K
0.45
R-410A
1.20
36
32
33
32
30
32
1,271
1,130
1,165
1,130
1,059
1,130
Propeller
50
5.9
550 × 765 × 285
612 × 906 × 364
38
43
47
48
62
—
φ 6.4 × 2
φ 9.5 × 2
φ 18
Both Liquid & Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D058721B
Ivory White
Hermetically Sealed Swing Type
1YC23ABXD
600
FVC50K
0.45
R-410A
1.20
36
32
33
32
30
32
1,271
1,130
1,165
1,130
1,059
1,130
Propeller
50
5.9
550 × 765 × 285
612 × 906 × 364
38
43
47
48
62
—
φ 6.4 × 2
φ 9.5 × 2
φ 18
Both Liquid & Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D059050A
1. The data are based on the conditions shown in the table below.
Cooling
Heating
Indoor ; 27°CDB / 19°CWB
Outdoor ; 35°CDB
29
2MXS40G2V1B
Heating
Indoor ; 20°CDB
Outdoor ; 7°CDB / 6°CWB
Conversion Formulae
Piping Length
5m
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
Specifications
SiBE12-816_D
Specifications
50 Hz, 220 - 240 V
2MXS50GV1B
Model
Cooling
Casing Color
Type
Model
Motor Output
Model
Refrigerant Oil
Charge
Type
Refrigerant
Charge
HH
H
L
Airflow Rates
HH
H
L
Type
Fan
Motor Output
Starting Current
Dimensions (H × W × D)
Packaged Dimensions (H × W × D)
Weight (Mass)
Gross Weight (Gross Mass)
Operation Sound
Sound Power
Liquid
Piping
Gas
Connection
Drain
Heat Insulation
No. of Wiring Connection
Compressor
Max. Interunit Piping Length
Min. Interunit Piping Length
Amount of Additional Charge
Max. Installation Height Difference
Drawing No.
Note:
W
L
kg
m³/min
cfm
W
A
mm
mm
kg
kg
dB(A)
dB(A)
mm
mm
mm
m
m
m
g/m
m
m
Cooling
Heating
Ivory White
Hermetically Sealed Swing Type
2YC36BXD
1,100
FVC50K
0.65
R-410A
1.60
37
34
34
34
34
34
1,306
1,200
1,200
1,200
1,200
1,200
Propeller
50
9.8
550 × 765 × 285
612 × 906 × 364
42
47
48
50
63
—
φ 6.4 × 2
φ 9.5 × 1, φ 12.7 × 1
φ 18.0
Both Liquid and Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D058722B
Ivory White
Hermetically Sealed Swing Type
2YC36BXD
1,100
FVC50K
0.65
R-410A
1.60
37
34
34
34
34
34
1,306
1,200
1,200
1,200
1,200
1,200
Propeller
50
9.8
550 × 765 × 285
612 × 906 × 364
42
47
48
50
63
—
φ 6.4 × 2
φ 9.5 × 1, φ 12.7 × 1
φ 18.0
Both Liquid and Gas Pipes
3 for Power Supply, 4 for Interunit Wiring
30 (for Total of Each Room)
20 (for One Room)
3 (for One Room)
20 (20 m or more)
15 (between Indoor Unit and Outdoor Unit)
7.5 (between Indoor Units)
3D059051A
1. The data are based on the conditions shown in the table below.
Cooling
Heating
Indoor ; 27°CDB / 19°CWB
Outdoor ; 35°CDB
Specifications
2MXS50G2V1B
Heating
Indoor ; 20°CDB
Outdoor ; 7°CDB / 6°CWB
Conversion Formulae
Piping Length
5m
kcal/h = kW × 860
Btu/h = kW × 3412
cfm = m³/min × 35.3
30
SiBE12-816_D
Part 3
Printed Circuit Board
Connector Wiring Diagram
1. Indoor Unit.............................................................................................32
1.1
1.2
1.3
1.4
1.5
Wall Mounted Type ................................................................................32
Floor Standing Type ...............................................................................40
Floor / Ceiling Suspended Dual Type.....................................................42
Duct Connected Type.............................................................................44
Ceiling Mounted Cassette Type .............................................................46
2. Remote Controller .................................................................................48
2.1 Wired Remote Controller........................................................................48
2.2 Wireless Remote Controller ...................................................................49
3. Outdoor Unit..........................................................................................50
3.1 2MK(X)S40/50GV1B, 2MK(X)S40/50G2V1B .........................................50
31
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
Indoor Unit
1. Indoor Unit
1.1
Wall Mounted Type
1.1.1 FTXG25/35EV1BW(S), CTXG50EV1BW(S)
Connectors and
Other Parts
PCB (1): Control PCB
1) S1
2) S21
3) S32
4) S36
5) S41
6) S46
7) S49
8) S51
9) H1B, H2, H3
10) FG
11) JA
JB
JC
12) LED A
13) FU (F1U)
14) V1
Connector for fan motor
Connector for centralized control (HA)
Indoor heat exchanger thermistor
Connector for INTELLIGENT EYE sensor PCB
Connector for swing motors
Connector for signal receiver PCB
Connector for reduction motor (front panel mechanism)
Connector for front panel limit switch
Connector for terminal board
Terminal for earth
Address setting jumper
∗ Refer to page 303 for detail.
Fan speed setting when compressor stops for thermostat OFF
Power failure recovery function (auto-restart)
∗ Refer to page 306 for detail.
LED for service monitor (green)
Fuse (3.15 A, 250 V)
Varistor
PCB (2): Signal Receiver PCB
1)
2)
3)
4)
5)
6)
S47
SW1 (S1W)
LED2 (H2P)
LED3 (H3P)
LED4 (H4P)
RTH1 (R2T)
Connector for control PCB
Forced operation ON/OFF button
LED for INTELLIGENT EYE (green)
LED for timer (yellow)
LED for operation (green)
Room temperature thermistor
PCB (3): INTELLIGENT EYE Sensor PCB
1) S36
Connector for control PCB
Printed Circuit Board Connector Wiring Diagram
32
Indoor Unit
PCB Detail
SiBE12-816_D
PCB (1): Control PCB
S51
S1
S49
S41
JB JA JC
LED A
FG
S21
H2
H1B
S32
FU
V1
S46
H3
S36
2P165085-1
PCB (2): Signal Receiver PCB
S47
RTH1
SW1
LED4
LED2
LED3
2P165085-1
PCB (3): INTELLIGENT EYE Sensor PCB
S36
3P043610-2
33
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
Indoor Unit
1.1.2 FTXG25/35JV1BW(S), CTXG50JV1BW(S)
Connectors and
Other Parts
PCB (1): Control PCB
1)
2)
3)
4)
5)
6)
7)
8)
S21
S25
S32
S41
S42
S46
S200
H1, H2, H3,
FG
9) JB
JC
Connector for centralized control (HA)
Connector for INTELLIGENT EYE sensor PCB
Indoor heat exchanger thermistor
Connector for swing motors
Connector for reduction motor (front panel mechanism) and limit switch
Connector for signal receiver / display PCB
Connector for fan motor
Connector for terminal board
10) LED A
11) F1U
12) V1
Fan speed setting when compressor stops for thermostat OFF
Power failure recovery function (auto-restart)
∗ Refer to page 306 for detail.
LED for service monitor (green)
Fuse (3.15 A, 250 V)
Varistor
PCB (2): Signal Receiver / Display PCB
1)
2)
3)
4)
5)
6)
S51
S52
S1W
H1P
H2P
JA
Connector for control PCB
Connector for room temperature thermistor
Forced operation ON/OFF button
LED for operation (multi-color)
LED for INTELLIGENT EYE (green)
Address setting jumper
∗ Refer to page 303 for detail.
PCB (3): INTELLIGENT EYE Sensor PCB
1) S36
Connector for control PCB
Printed Circuit Board Connector Wiring Diagram
34
Indoor Unit
PCB Detail
SiBE12-816_D
PCB (1): Control PCB
S42
S41
JB JC
S46
S32
S25
LED A
S200
S21
H3
H2
FG
V1
F1U
H1
2P254830-1
35
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
Indoor Unit
PCB (2): Signal Receiver / Display PCB
S52
S51
H2P
H1P
S1W
JA
3P254832-1
PCB (3): INTELLIGENT EYE Sensor PCB
S36
3P255914-1
Printed Circuit Board Connector Wiring Diagram
36
Indoor Unit
SiBE12-816_D
1.1.3 FTXS20/25/35/42/50G2V1B, FTXS20/25/35/42/50J2V1B
Connectors and
Other Parts
PCB (1): Control PCB
1)
2)
3)
4)
5)
6)
7)
8)
S1
S21
S25
S32
S41
S46
S47
H1, H2, H3,
FG
9) JA
Connector for DC fan motor
Connector for centralized control (HA)
Connector for INTELLIGENT EYE sensor PCB
Indoor heat exchanger thermistor
Connector for swing motors
Connector for display PCB
Connector for signal receiver PCB
Connector for terminal board
10) LED A
11) FU1 (F1U)
12) V1
Address setting jumper
∗ Refer to page 303 for detail.
Fan speed setting when compressor stops for thermostat OFF
Power failure recovery function (auto-restart)
∗ Refer to page 306 for detail.
LED for service monitor (green)
Fuse (3.15 A, 250 V)
Varistor
JB
JC
PCB (2): Signal Receiver PCB
1) S48
Connector for control PCB
PCB (3): Display PCB
1)
2)
3)
4)
5)
6)
S49
SW1
LED1 (H1P)
LED2 (H2P)
LED3 (H3P)
RTH1 (R1T)
Connector for control PCB
Forced operation ON/OFF button
LED for operation (green)
LED for timer (yellow)
LED for INTELLIGENT EYE (green)
Room temperature thermistor
PCB (4): INTELLIGENT EYE Sensor PCB
1) S26
37
Connector for control PCB
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
PCB Detail
Indoor Unit
PCB (1): Control PCB
V1
H1
FU1
H2
FG
H3
LED A
S32
S1
S21
JB
JA
JC
S41
S47
S46
S25
2P206687-1
Printed Circuit Board Connector Wiring Diagram
38
Indoor Unit
SiBE12-816_D
PCB (2): Signal Receiver PCB
S48
3P210728-1
PCB (3): Display PCB
RTH1
SW1
LED3
LED2
S49
LED1
3P210728-1
PCB (4): INTELLIGENT EYE Sensor PCB
S26
3EB86013-1
39
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
1.2
Indoor Unit
Floor Standing Type
1.2.1 FVXS25/35/50FV1B
Connectors and
Other Parts
PCB (1): Sensor PCB
1) S49
2) RTH2 (R1T)
Connector for control PCB
Room temperature thermistor
PCB (2): Control PCB
1) S1
2) S21
3) S26
4) S32
5) S41
6) S42
7) S46
8) S48
9) H1, H2, H3
10) E1
11) V1, V2
12) JA
JB
JC
13) FU1 (F1U)
14) LED A
Connector for fan motor
Connector for centralized control (HA)
Connector for service PCB
Indoor heat exchanger thermistor
Connector for lower air outlet motor
Connector for swing motor
Connector for display PCB
Connector for sensor PCB
Connector for terminal board
Terminal for earth
Varistor
Address setting jumper
∗ Refer to page 303 for detail.
Fan speed setting when compressor stops for thermostat OFF
Power failure recovery function
∗ Refer to page 306 for detail.
Fuse (3.15A, 250V)
LED for service monitor (green)
PCB (3): Service PCB
1) S27
2) SW2-4
(S2W(4))
3) SW4 (S4W)
Connector for control PCB
Switch for upward airflow limit setting
∗ Refer to page 306 for detail.
Switch for air outlet selection
∗ Refer to page 126, 134 for detail.
PCB (4): Display PCB
1)
2)
3)
4)
S47
SW1 (S1W)
LED1 (H1P)
LED2 (H2P)
Connector for control PCB
Forced operation ON/OFF button
LED for operation (green)
LED for timer (yellow)
Printed Circuit Board Connector Wiring Diagram
40
Indoor Unit
PCB Detail
SiBE12-816_D
PCB (1): Sensor PCB
RTH2
S49
3P191450-1
PCB (2): Control PCB
E1
H1
JB
V2
JA
JC
V1
S32
H2
S48
FU1
S46
H3
S1
LED A S21
S41
S42
S26
2P191446-1
PCB (3): Service PCB
PCB (4): Display PCB
SW4
S27
LED1
LED2
3P191448-1
41
SW1
S47
3P191447-1
SW2-4
★ LED3 does not function.
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
1.3
Indoor Unit
Floor / Ceiling Suspended Dual Type
1.3.1 FLK(X)S25/35/50BAVMB
Connectors and
Other Parts
PCB (1): Control PCB
1)
2)
3)
4)
5)
6)
7)
8)
S6
S7
S21
S24
S26
S32
S37
JA
JB
JC
9) SW2
10) LED A
Connector for swing motor (horizontal swing)
Connector for AC fan motor
Connector for centralized control (HA)
Connector for display PCB
Connector for signal receiver PCB
Connector for indoor heat exchanger thermistor
Connector for power supply PCB
Address setting jumper
∗ Refer to page 303 for detail.
Fan speed setting when compressor stops for thermostat OFF
Power failure recovery function
∗ Refer to page 306 for detail.
Select switch for installation (ceiling or floor)
∗ Refer to page 306 for detail.
LED for service monitor (green)
PCB (2): Power Supply PCB
1)
2)
3)
4)
5)
S36
H1, H2, H3
H4, H5, H6
V1
FU1
Connector for control PCB
Connector for terminal board
Connector for AC fan motor
Varistor
Fuse (3.15A, 250V)
PCB (3): Display PCB
1)
2)
3)
4)
S25
LED1 (H1P)
LED2 (H2P)
LED3 (H3P)
Connector for control PCB
LED for operation (green)
LED for timer (yellow)
LED for HOME LEAVE operation (red)
PCB (4): Signal Receiver PCB
1) S27
2) S31 (RTH)
3) SW1 (S1W)
Connector for control PCB
Room temperature thermistor
Forced operation ON/OFF button
Printed Circuit Board Connector Wiring Diagram
42
Indoor Unit
PCB Detail
SiBE12-816_D
PCB (1): Control PCB
S21
LED A
SW2
S7
S26
S6
S32
S24
JC
JB
JA
S37
2P084352-3
PCB (2): Power Supply PCB
H4
S36
H5
H6
H1
FU1
H2
V1
H3
2P084361-1
PCB (3): Display PCB
LED2
LED1
SW1
S25
SW1
2P084377-5
EX511 REV 12
PbF
S27
RTH
I
PHOTO
2P084377-
S31 (RTH)
43
S27
C1
C2
3
LED3
PCB (4): Signal Receiver PCB
WLU
C3
2P084377-5
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
1.4
Indoor Unit
Duct Connected Type
1.4.1 FDK(X)S25/35EAVMB, FDK(X)S50CVMB
Connectors and
Other Parts
PCB (1): Control PCB
1)
2)
3)
4)
5)
6)
7)
8)
S1
S7
S21
S26
S32
H1, H2, H3
GND
JA
JB
JC
9) LED A
10) FU1 (F1U)
11) V1 (V1TR)
Connector for AC fan motor
Connector for AC fan motor (Hall IC)
Connector for centralized control (HA)
Connector for display PCB
Connector for indoor heat exchanger thermistor
Connector for terminal board
Connector for terminal board (earth)
Address setting jumper
∗ Refer to page 303 for detail.
Fan speed setting when compressor stops for thermostat OFF
Power failure recovery function (auto-restart)
Refer to page 306 for detail.
LED for service monitor (green)
Fuse (3.15A, 250V)
Varistor
PCB (2): Display PCB
1)
2)
3)
4)
5)
6)
S1
SW1 (S1W)
LED1 (H1P)
LED2 (H2P)
LED3 (H3P)
RTH1 (R1T)
Connector for control PCB
Forced operation ON/OFF button
LED for HOME LEAVE operation (red)
LED for timer (yellow)
LED for operation (green)
Room temperature thermistor
Printed Circuit Board Connector Wiring Diagram
44
Indoor Unit
PCB Detail
SiBE12-816_D
PCB (1): Control PCB
FU1
S1
H2
H1
H3
V1
GND
S7
S21
JA
LED A
JB
JC S32
S26
2P131149-1
PCB (2): Display PCB
S1
LED3
LED2
RTH1
LED1
SW1
2P084375-1
45
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
1.5
Indoor Unit
Ceiling Mounted Cassette Type
1.5.1 FFQ25/35/50/60B8V1B
Connectors and
Other Parts
[A1P]: Control PCB
1)
2)
3)
4)
5)
6)
7)
X5A
X10A, X11A
X15A
X17A, X18A
X19A
X20A
X24A
8) X25A
9) X27A
10) X33A
11) X35A
12) X36A
13) X40A
14) X60A, X61A
15) HAP
Connector for terminal board (for wired remote controller)
Connector for transformer
Connector for float switch
Connector for indoor heat exchanger thermistor
Connector for room temperature thermistor
Connector for fan motor
Connector for signal receiver PCB
(when the wireless remote controller is used)
Connector for drain pump motor
Connector for terminal board (for inter-unit wiring)
Connector for wiring adaptor PCB (option)
Connector for group control adaptor (option)
Connector for swing motor
Connector for ON/OFF input from outside (option)
Connector for interface adaptor (option)
LED for service monitor (green)
Printed Circuit Board Connector Wiring Diagram
46
Indoor Unit
PCB Detail
SiBE12-816_D
[A1P]: Control PCB
X20A
X25A
X27A
X11A
X10A
X33A
X18A
X19A
X61A
X60A
X36A
X40A
HAP
X17A
X15A
X24A
47
X35A
X5A
2P095006-8
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
Remote Controller
2. Remote Controller
2.1
Wired Remote Controller
2.1.1 BRC1D528
Connectors and
Other Parts
1) P1, P2
2) R1T
3) SS1
Terminal for indoor unit
Room temperature thermistor
MAIN / SUB setting switch
∗ Refer to page 310 for detail.
PCB Detail
R1T
SS1
P2
P1
2P113638-2
Printed Circuit Board Connector Wiring Diagram
48
Remote Controller
2.2
SiBE12-816_D
Wireless Remote Controller
2.2.1 BRC7E530W/531W
Connectors and
Other Parts
[A3P]: Signal Receiver PCB
1) X1A
2) X2A
3) SS1
SS2
Connector for display PCB
Connector for control PCB
MAIN / SUB setting switch
Address setting switch
∗ Refer to page 311 for detail.
[A4P]: Display PCB
1)
2)
3)
4)
5)
6)
PCB Detail
X1A
BS1
LED1 (H1P)
LED2 (H2P)
LED3 (H3P)
LED4 (H4P)
Connector for signal receiver PCB
Forced operation ON/OFF button
LED for operation (red)
LED for timer (green)
LED for filter cleaning sign (red)
LED for defrost operation (orange)
[A3P]: Signal Receiver PCB
SS2
SS1
X1A
X2A
3P156326-2
[A4P]: Display PCB
LED4
X1A
LED3 LED2
BS1
LED1
3P086209-1
★ LED5 and LED6 do not function.
49
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
Outdoor Unit
3. Outdoor Unit
3.1
2MK(X)S40/50GV1B, 2MK(X)S40/50G2V1B
Connectors and
Other Parts
1)
2)
3)
4)
5)
6)
7)
S20
S21
S40
S45
S70
S80
S90
8) S91
9) S92
10) E
E2
11) HL1, HN1
12) HR1, HR2
13) S-A
14) S-B
15) U, V, W
16) LED A
17) FU1, FU2
18) FU3
19) J3
20) J4
21) J5
22) V1, V3, V4
Printed Circuit Board Connector Wiring Diagram
Connector for electronic expansion valve coil A port
Connector for electronic expansion valve coil B port
Connector for overload protector
Connector for terminal board (thermal fuse)
Connector for fan motor
Connector for four way valve coil
Connector for thermistors
(outdoor temperature, outdoor heat exchanger, discharge pipe)
Connector for thermistors (gas pipe)
Connector for thermistors (liquid pipe)
Terminal for earth (40 class)
Terminal for earth (50 class)
Connector for terminal board (power supply)
Connector for reactor
Connector for terminal board (room A - outdoor transmission)
Connector for terminal board (room B - outdoor transmission)
Connector for compressor
LED for service monitor (green)
Fuse (3.15 A / 250 V)
Fuse (30 A / 250 V)
Jumper for ECONO mode prohibition setting
∗ Refer to page 314 for detail.
Jumper for maximum power input limitation setting
∗ Refer to page 314 for detail.
Jumper for improvement of defrost performance
∗ Refer to page 314 for detail.
Varistor
50
Outdoor Unit
PCB Detail
SiBE12-816_D
40 class
HR1
HL1 E
HN2
HR2
FU3
FU1
FU2
V4
V3
V1
S-A
S-B
LED A
S80
S21
S20 S91 S90 S92 S40 S45
J3 J4 J5
S70
U, V, W
2P190760-2
50 class
HL1
E2
HN1
FU3
FU1
FU2
HR2
HR1
V4
V3
V1
S-A
S-B
LED A
S80
S21 S20 S91 S92
S90
S40
S70
S45
J3 J4 J5
U, V, W
2P197402-1
51
Printed Circuit Board Connector Wiring Diagram
SiBE12-816_D
Part 4
Function and Control
1. Function of Indoor Unit (RA Models).....................................................53
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
1.9
1.10
1.11
1.12
1.13
1.14
1.15
Temperature Control ..............................................................................53
Frequency Principle................................................................................53
Operation Starting Control......................................................................55
Airflow Direction Control.........................................................................56
Fan Speed Control for Indoor Units........................................................58
Program Dry Operation ..........................................................................59
Automatic Operation...............................................................................60
Thermostat Control.................................................................................61
NIGHT SET Mode ..................................................................................63
ECONO Operation .................................................................................64
HOME LEAVE Operation .......................................................................65
2-Area INTELLIGENT EYE Operation ...................................................66
INTELLIGENT EYE Operation ...............................................................68
Inverter POWERFUL Operation .............................................................69
Other Functions......................................................................................71
2. Function of Indoor Unit (SA Models) .....................................................73
2.1
2.2
2.3
2.4
Drain Pump Control................................................................................73
Thermostat Sensor in Remote Controller...............................................75
Freeze Prevention Control .....................................................................77
Hot Start Control (In Heating Operation Only)........................................78
3. Function of Thermistor ..........................................................................79
4. Control Specification .............................................................................81
4.1
4.2
4.3
4.4
4.5
4.6
4.7
4.8
4.9
4.10
4.11
4.12
Function and Control
Mode Hierarchy ......................................................................................81
Frequency Control..................................................................................83
Controls at Mode Changing / Start-up....................................................86
Discharge Pipe Temperature Control.....................................................87
Input Current Control..............................................................................88
Freeze-up Protection Control .................................................................88
Heating Peak-cut Control .......................................................................89
Outdoor Fan Control...............................................................................89
Liquid Compression Protection Function................................................90
Defrost Control .......................................................................................90
Electronic Expansion Valve Control .......................................................91
Malfunctions ...........................................................................................95
52
Function of Indoor Unit (RA Models)
SiBE12-816_D
1. Function of Indoor Unit (RA Models)
1.1
Temperature Control
Definitions of
Temperatures
The definitions of temperatures are classified as following.
Š
Š
Š
Š
Room temperature: temperature of lower part of the room
Set temperature: temperature set by remote controller
Room thermistor temperature: temperature detected by room temperature thermistor
Target temperature: temperature determined by microcomputer
Target temperature
Room thermistor temperature
Set temperature
Room temperature
(R12321)
★ The illustration is for wall mounted type as representative.
Temperature
Control
1.2
The temperature of the room is detected by the room temperature thermistor. However, there is
difference between the “temperature detected by room temperature thermistor” and the
“temperature of lower part of the room”, depending on the type of the indoor unit or installation
condition. Practically, the temperature control is done by the “target temperature appropriately
adjusted for the indoor unit” and the “temperature detected by room temperature thermistor”.
Frequency Principle
Main Control
Parameters
The compressor is frequency-controlled during normal operation. The target frequency is set by
the following 2 parameters coming from the operating indoor unit:
„ The load condition of the operating indoor unit
„ The difference between the room thermistor temperature and the target temperature
Additional
Control
Parameters
The target frequency is adapted by additional parameters in the following cases:
„ Frequency restrictions
„ Initial settings
„ Forced cooling operation
Inverter Principle
To regulate the capacity, a frequency control is needed. The inverter makes it possible to vary
the rotation speed of the compressor. The following table explains the conversion principle:
53
Phase
Description
1
2
The supplied AC power source is converted into the DC power source for the present.
The DC power source is reconverted into the three phase AC power source with variable
frequency.
„ When the frequency increases, the rotation speed of the compressor increases resulting
in an increased refrigerant circulation. This leads to a higher amount of the heat
exchange per unit.
„ When the frequency decreases, the rotation speed of the compressor decreases
resulting in a decreased refrigerant circulation. This leads to a lower amount of the heat
exchange per unit.
Function and Control
SiBE12-816_D
Drawing of
Inverter
Function of Indoor Unit (RA Models)
The following drawing shows a schematic view of the inverter principle:
Refrigerant circulation rate (high)
AC
power
Amount of heat
exchanged air (small)
DC
power
high speed
Amount of heat
exchanged air (large)
high f
low f
low speed
50 Hz
freq=
constant 60 Hz freq=variable
Amount of heat
exchanged air (large)
Amount of heat
exchanged air (small)
capacity=
variable
Refrigerant circulation rate (low)
Inverter Features
(R2812)
The inverter provides the following features:
„ The regulating capacity can be changed according to the changes in the outdoor
„
„
„
„
Frequency Limits
temperature and cooling / heating load.
Quick heating and quick cooling
The compressor rotational speed is increased when starting the heating (or cooling). This
enables to reach the set temperature quickly.
Even during extreme cold weather, the high capacity is achieved. It is maintained even when
the outdoor temperature is 2°C.
Comfortable air conditioning
A fine adjustment is integrated to keep the room temperature constant.
Energy saving heating and cooling
Once the set temperature is reached, the energy saving operation enables to maintain the
room temperature at low power.
The following functions regulate the minimum and maximum frequency:
Frequency
Low
High
Forced Cooling
Operation
Function and Control
Functions
„ Four way valve operation compensation. Refer to page 86.
„
„
„
„
„
„
Compressor protection function. Refer to page 87.
Discharge pipe temperature control. Refer to page 87.
Input current control. Refer to page 88.
Freeze-up protection control. Refer to page 88.
Heating peak-cut control. Refer to page 89.
Defrost control. Refer to page 90.
Refer to page 299 for detail.
54
Function of Indoor Unit (RA Models)
1.3
SiBE12-816_D
Operation Starting Control
Wall Mounted Type: FTXG, CTXG Series
The system carries out the following control at the beginning to conduct every functional parts
properly.
1. Opening the front panel fully
2. Output of the ∆D signal after the front panel starts moving
3. Opening the flap fully after the front panel opens fully
4. Making the fan rotate when the flap passes over the fan-banned area
Control Flow
Start
(1) Opening the front panel fully
(3) Opening the flap fully
(2) Output of the ∆D signal after
the front panel starts moving
(4) Making the fan rotate when
the flap passes over the
fan-banned area
Running
(R14049)
Timing Chart
Start
OFF
Operation
starting control
ON
Fully close
Front
panel
Fully open
: Actual position
of panel or flap
: Additional
control of motor
Fully open
Flap
Fan-banned area
Under running control
Fully close
ON
Fan
Under operation mode control
OFF
Output
Under operation mode control
∆D
∆0
Force supply
(from the
outdoor unit)
ON
The outdoor unit provides force
when it receives the ∆D signal.
OFF
(R11910)
55
Function and Control
SiBE12-816_D
1.4
Function of Indoor Unit (RA Models)
Airflow Direction Control
Power-Airflow
Dual Flaps
The large flaps send a large volume of air downwards to the floor. The flap provides an optimum
control in cooling, dry, and heating mode.
Cooling / Dry Mode
During cooling or dry mode, the flap retracts into the indoor unit. Then, cool air can be blown far
and pervaded all over the room.
Heating Mode
During heating mode, the large flap directs airflow downwards to spread the warm air to the
entire room.
Wide-Angle
Louvers
The louvers, made of elastic synthetic resin, provide a wide range of airflow that guarantees a
comfortable air distribution.
Auto-Swing
The following table explains the auto-swing process for cooling, dry, heating, and fan:
Wall Mounted Type
Series
Cooling / Dry
Vertical Swing (up and down)
Heating
10˚
5˚
30˚
FTXG-E
CTXG-E
80˚
75˚
40˚
(R3294)
10˚
60˚
FTXS-G
FTXS-J
10˚
—
70˚
(R11662)
(R3296)
5˚
25˚
75˚
65˚
35˚
35˚
(R3295)
(R3293)
20˚
15˚
FTXG-J
CTXG-J
Horizontal Swing
(right and left)
Fan
75˚
80˚
(R11663)
(R11664)
5˚
15˚
30˚
30˚
50˚
30˚
65˚
70˚
55˚
(R12182)
(R11402)
30˚
80˚
65˚
(R11403)
45
˚
˚
45
(R11404)
Floor Standing Type
Vertical Swing (up and down)
40
25˚
˚
˚
90
90
Upward
airflow limit
OFF
Heating
˚
Cooling / Dry
20˚
90
˚
˚
90
Upward
airflow limit
ON
(R6832)
Function and Control
(R6829)
20˚
(R6831)
(R6830)
56
Function of Indoor Unit (RA Models)
SiBE12-816_D
Floor / Ceiling Suspended Dual Type
Vertical Swing (up and down)
Cooling / Dry / Fan
Heating
65˚
20˚
40˚
Ceiling
95
˚
(R2964)
(R2963)
95
˚
40˚
20˚
Floor
(R2966)
(R2967)
3-D Airflow
˚
65
Wall Mounted Type: FTXS Series
Alternative repetition of vertical and horizontal swing motions enables uniform air-conditioning of
the entire room. This function is effective for starting the air conditioner.
When the horizontal swing and vertical swing are both set to auto mode, the airflow becomes
3-D airflow. The horizontal and vertical swing motions are alternated and the airflow direction
changes in the order shown in the following diagram.
(1): The vertical blades (louvers) move from the right to the left.
(2): The horizontal blades (flaps) move downward.
(3): The vertical blades (louvers) move from the left to the right.
(4): The horizontal blades (flaps) move upward.
(2)
(1)
(3)
(4)
(R13554)
COMFORT
AIRFLOW
Operation
Wall Mounted Type
The vertical swing flap is controlled not to blow the air directly on the person in the room.
Cooling / Dry
Heating
A
B
(R11665)
FTXG-E
CTXG-E
FTXG-J
CTXG-J
FTXS-G
FTXS-J
57
(R12181)
A
B
5°
80°
5°
75°
5°
80°
Function and Control
SiBE12-816_D
1.5
Function of Indoor Unit (RA Models)
Fan Speed Control for Indoor Units
Outline
Phase control and fan speed control contains 9 steps: LLL, LL, SL, L, ML, M, MH, H, and HH.
The airflow rate can be automatically controlled depending on the difference between the room
thermistor temperature and the target temperature. This is done through phase control and Hall
IC control.
For more information about Hall IC, refer to the troubleshooting for fan motor on page 218, 219.
Automatic Fan
Speed Control
In automatic fan speed operation, the step “SL” is not available.
Step
Wall Mounted Type
Floor Standing Type
Cooling
Heating
Floor / Ceiling Suspended Dual Type
Duct Connected Type
Cooling
Heating
LLL
LL
L
ML
M
MH
H
HH (POWERFUL)
(R6834)
(R11681)
(R6833)
(R6834)
= The airflow rate is automatically controlled within this range when the FAN setting
button is set to automatic.
<Cooling>
The following drawing explains the principle of fan speed control for cooling.
Wall Mounted Type, Floor Standing Type
Room thermistor temperature – target temperature
fan speed
MH*
+2.5°C
M
+1.5°C
ML
+0.5°C
L
+3°C
+2°C
+1°C
(R12317)
*In automatic fan speed operation, upper limit is at M tap in 30 minutes from the operation start.
Floor / Ceiling Suspended Dual Type, Duct Connected Type
fan speed
Room thermistor temperature – target temperature
M
+2˚C
ML
+1.5˚C
L
+1˚C
+0.5˚C
(R12390)
<Heating>
On heating mode, the fan speed is regulated according to the indoor heat exchanger
temperature and the difference between the room thermistor temperature and the target
temperature.
Note:
Function and Control
1. During POWERFUL operation, fan rotates at H tap + 40 ~ 50 rpm.
2. Fan stops during defrost operation.
58
Function of Indoor Unit (RA Models)
COMFORT
AIRFLOW
Operation
1.6
SiBE12-816_D
Wall Mounted Type
„ The fan speed is controlled automatically within the following steps.
Cooling: L tap – MH tap (same as AUTOMATIC)
Heating: ML tap – M tap ~ MH tap (depending on the model)
„ The latest command has the priority between POWERFUL and COMFORT AIRFLOW.
Program Dry Operation
Outline
Program dry operation removes humidity while preventing the room temperature from lowering.
Since the microcomputer controls both the temperature and airflow rate, the temperature
adjustment and fan adjustment buttons are inoperable in this mode.
Detail
The microcomputer automatically sets the temperature and airflow rate. The difference between
the room thermistor temperature at start-up and the target temperature is divided into two
zones. Then, the unit operates in the dry mode with an appropriate capacity for each zone to
maintain the temperature and humidity at a comfortable level.
Room thermistor
temperature at start-up
Target temperature
X
Thermostat OFF point
Y
Thermostat ON point
Z
X – 2.5°C
X – 0.5°C
or
Y + 0.5°C (zone B)
continues for 10 min.
X – 2.0°C
X – 0.5°C
or
Y + 0.5°C (zone B)
continues for 10 min.
X – 2.0°C
X – 0.5°C = 17.5°C
or
Y + 0.5°C (zone B)
continues for 10 min.
24°C or more
Room thermistor
temperature at start-up
23.5°C
~
18°C
17.5°C
18°C
~
X
Zone C = Thermostat ON
Zone B
Z
Zone B
Y
+0.5ºC
Zone A = Thermostat OFF
(R11581)
59
Function and Control
SiBE12-816_D
1.7
Function of Indoor Unit (RA Models)
Automatic Operation
Outline
Detail
Automatic Cooling / Heating Function
When the AUTO mode is selected with the remote controller, the microcomputer automatically
determines the operation mode as cooling or heating according to the room temperature and
the set temperature at start-up, and automatically operates in that mode.
The unit automatically switches the operation mode to maintain the room temperature at the set
temperature.
Ts: set temperature (set by remote controller)
Tt: target temperature (determined by microcomputer)
Tr: room thermistor temperature (detected by room temperature thermistor)
C: correction value
1. The set temperature (Ts) determines the target temperature (Tt).
(Ts = 18 ~ 30°C).
2. The target temperature (Tt) is calculated as;
Tt = Ts + C
where C is the correction value.
C = 0°C
3. Thermostat ON/OFF point and mode switching point are as follows.
Tr means the room thermistor temperature.
(1) Heating → Cooling switching point:
Tr ≥ Tt + 3.0°C (wall mounted type: FTXG-J, CTXG-J series)
Tr ≥ Tt + 2.5°C (other models)
(2) Cooling → Heating switching point:
Tr < Tt – 2.5°C
(3) Thermostat ON/OFF point is the same as the ON/OFF point of cooling or heating
operation.
4. During initial operation
Tr ≥ Ts: Cooling operation
Tr < Ts: Heating operation
Wall Mounted Type: FTXG-J, CTXG-J Series
Cooling Operation
Target temperature + 3.0˚C
Target temperature + 2.0˚C
= Thermostat OFF
Target temperature – 2.0˚C
= Thermostat OFF
Target temperature – 2.5˚C
Heating Operation
(R11892)
Ex: When the target temperature is 25°C
Cooling → 23°C: Thermostat OFF → 22°C: Switch to heating
Heating → 27°C: Thermostat OFF → 28°C: Switch to cooling
Other Models
Cooling Operation
Target temperature + 2.5˚C
Target temperature + 1.5˚C
= Thermostat OFF
Target temperature – 2.0˚C
= Thermostat OFF
Target temperature – 2.5˚C
Heating Operation
(R11893)
Ex: When the target temperature is 25°C
Cooling → 23°C: Thermostat OFF → 22°C: Switch to heating
Heating → 26.5°C: Thermostat OFF → 27.5°C: Switch to cooling
Function and Control
60
Function of Indoor Unit (RA Models)
1.8
SiBE12-816_D
Thermostat Control
Thermostat control is based on the difference between the room thermistor temperature and the
target temperature.
Thermostat OFF Condition
Š The temperature difference is in the zone A.
Thermostat ON Condition
Š The temperature difference returns to the zone C after being in the zone A.
Š The system resumes from defrost control in any zones except A.
Š The operation turns on in any zones except A.
Š The monitoring time has passed while the temperature difference is in the zone B.
(Cooling / Dry : 10 minutes, Heating : 10 seconds)
Cooling / Dry
Š Wall Mounted Type
Š Floor Standing Type
ON
Room thermistor temperature – target temperature
Cooling : –0.5˚C
Dry : –0.5˚C
C
–1.5˚C
B
Cooling : –2.0˚C
Dry : –2.5 ~ –2.0˚C
A
OFF
(R12319)
Š Floor / Ceiling Suspended Dual Type
Š Duct Connected Type
ON
Room thermistor temperature – target temperature
Cooling : –1.0˚C
C
Dry : –1.0˚C
B
Cooling : –2.0˚C
A
Dry : –2.5 ~ –2.0˚C
–1.5˚C
OFF
61
(R12391)
Function and Control
SiBE12-816_D
Function of Indoor Unit (RA Models)
Heating
Š Wall Mounted Type: FTXG-J, CTXG-J Series
Room thermistor temperature – target temperature
OFF
A
2.0˚C
B
1.5˚C
C
0.5˚C
ON
(R11894)
Š Wall Mounted Type: FTXG-E, CTXG-E, FTXS Series
Š Floor Standing Type
Room thermistor temperature – target temperature
OFF
A
1.5˚C
B
1.0˚C
C
0˚C
ON
(R12320)
Š Floor / Ceiling Suspended Dual Type
Š Duct Connected Type
Room thermistor temperature – target temperature
OFF
A
1.5˚C
B
1.0˚C
C
0.5˚C
ON
(R12392)
Refer to “Temperature Control” on page 53 for detail.
Function and Control
62
Function of Indoor Unit (RA Models)
1.9
SiBE12-816_D
NIGHT SET Mode
Outline
When the OFF timer is set, the NIGHT SET Mode is automatically activated. The NIGHT SET
Mode keeps the airflow rate setting.
Detail
The NIGHT SET Mode continues operation at the target temperature for the first one hour, then
automatically raises the target temperature slightly in the case of cooling, or lowers it slightly in
the case of heating. This prevents excessive cooling in summer and excessive heating in winter
to ensure comfortable sleeping conditions, and also conserves electricity.
Cooling
Š Wall Mounted Type
Š Floor Standing Type
0.5˚C
Target temperature
Operation stops
at the set hours
1 hour
TIMER operation
NIGHT SET Circuit ON
+0.5˚C
temperature shift
(R10870)
Š Floor / Ceiling Suspended Dual Type
Š Duct Connected Type
(A)
0.5˚C
(B)
0.5˚C
Target temperature
1 hour
TIMER operation
NIGHT SET Mode ON
Operation stops
at the set hours
30 minutes
+0.5˚C
temperature shift
(A) +0.5˚C temperature shift
(B) Target temperature remains the same
(A) : When the outdoor temperature is normal and the room
temperature is at the set temperature.
(B) : When the outdoor temperature is high (27˚C or higher).
(R14060)
Heating
Target temperature
2˚C
TIMER operation
NIGHT SET Mode ON
1 hour later
(R10871)
63
Function and Control
SiBE12-816_D
Function of Indoor Unit (RA Models)
1.10 ECONO Operation
FTXG-J, CTXG-J, FTXS, FVXS Series
The "ECONO operation" reduces the maximum operating current and power consumption
during start-up etc..
This operation is particularly convenient for energy-saving-oriented users. It is also a major
bonus for those whose breaker capacities do not allow the use of multiple electrical devices and
air conditioners.
It is easily activated from the wireless remote controller by pushing the ECONO button.
„ When this function is activated, the maximum capacity decreases.
„ The remote controller can send the ECONO command when the unit is in cooling, heating,
dry, or automatic operation. This function can only be set when the unit is running. Pressing
the ON/OFF button on the remote controller cancels the function.
„ This function and POWERFUL operation cannot be used at the same time. The latest
command has the priority.
Power
consumption
and current
Maximum during normal operation
Normal
Maximum during ECONO operation
ECONO Operation
Time
(R9288)
„ When the ECONO command is valid, the input current is under reducing control.
Function and Control
64
Function of Indoor Unit (RA Models)
SiBE12-816_D
1.11 HOME LEAVE Operation
Outline
FLK(X)S, FDK(X)S Series
HOME LEAVE operation is a function that allows you to record your favorite set temperature
and airflow rate. You can start your favorite operation mode simply by pressing the [HOME
LEAVE] button on the remote controller.
Detail
1. Start of Function
The function starts when the [HOME LEAVE] button is pressed in cooling mode, heating mode
(including POWERFUL operation), or while the operation is stopped. If this button is pressed in
POWERFUL operation, the POWERFUL operation is canceled and this function becomes
effective.
„ The [HOME LEAVE] button is ineffective in dry mode and fan mode.
2. Details of Function
A mark representing HOME LEAVE is indicated on the display of the remote controller. The
indoor unit is operated according to the set temperature and airflow rate for HOME LEAVE
which were pre-set in the memory of the remote controller.
The LED (red) of indoor unit representing HOME LEAVE lights up. (It goes out when the
operation is stopped.)
3. End of Function
The function ends when the [HOME LEAVE] button is pressed again during HOME LEAVE
operation or when the [POWERFUL] button is pressed.
<Cooling>
“HOME LEAVE operation”
set temp.
Set temp.
HOME LEAVE operation
Normal operation
Normal operation
Time
Start
Stop
(R1366)
<Heating>
Set temp.
“HOME LEAVE operation”
set temp.
HOME LEAVE operation
Normal operation
Normal operation
Time
Start
Others
65
Stop
(R1367)
The set temperature and airflow rate are memorized in the remote controller. When the remote
controller is reset due to replacement of battery, it is necessary to set the temperature and
airflow rate again for HOME LEAVE operation.
Function and Control
SiBE12-816_D
Function of Indoor Unit (RA Models)
1.12 2-Area INTELLIGENT EYE Operation
Outline
Wall Mounted Type: FTXS Series
The following functions can be performed by a motion sensor (INTELLIGENT EYE).
1. Reduction of the capacity when there is nobody in the room in order to save electricity
(energy saving operation)
2. Dividing the room into plural areas and detecting existence of humans in each area.
Moving the airflow direction to the area with no human automatically to avoid direct airflow
on humans.
Detail
1. Detection method of INTELLIGENT EYE
sampling (20 msec)
Sensor output
1 sec
If the sensor detects the outputs 10 times/sec.
or more, it judges humans exist.
High
Low
(Condition of 10 times or more output)
Detection signal ON
from the sensor OFF
(Human motion)
(Continue 3 sec.)
Human detection ON
signal
OFF
If the detection signal (ON) continues 3 sec. or more,
it judges humans exist.
(R12757)
„ This sensor detects human motion by receiving infrared rays and displays the pulse wave
output.
„ The microcomputer in the indoor unit carries out a sampling every 20 msec. and if it detects
10 cycles of the wave in one second in total (corresponding to 20 msec.× 10 = 200 msec.),
and when the ON signal continues 3 sec., it judges human is in the room as the motion
signal is ON
„ 2-area INTELLIGENT EYE sensor is divided into 2 areas and detects humans in each area.
„ Image of 2-area INTELLIGENT EYE
Wall
Top view
Indoor unit
Area B
Area A
· A microcomputer judges human existence by
the sensor signal from each area A and B.
(R12276)
Function and Control
66
Function of Indoor Unit (RA Models)
SiBE12-816_D
2. Motions (for example: in cooling)
within 20 minutes
Human detection
signal
ON
OFF
(From area A or B)
20 min.
20 min.
RESET.
Target temperature
INTELLIGENT EYE ON
lamp
OFF
Remote controller
INTELLIGENT EYE ON
OFF
button
Operation
ON
OFF
Set speed
Set speed
Fan speed (+1)
OFF
(R12183)
„ When the microcomputer does not have a signal from the sensor in 20 minutes, it judges
that nobody is in the room and operates the unit in temperature shifted from the target
temperature. (Cooling / Dry : 2°C higher, Heating : 2°C lower, Auto : according to the
operation mode at that time.)
1
★ In case of FAN mode, the fan speed reduces by 60 rpm.
3. Airflow direction in 2-area INTELLIGENT EYE operation
„ Detection method: The opposite area of detected area is set as the target direction.
Wall
Top view
Indoor unit
Left
Right
Human
Area B
1.
2.
3.
4.
Area A
(R3853)
Detection signal ON in both area A and B: Shift the airflow direction to area B (left side)
Detection signal ON in area A: Shift the airflow direction to area B (left side)
Detection signal ON in area B: Shift the airflow direction to area A (right side)
Detection signal OFF in both area A and B: No change
* When the detection signal is OFF for 20 minutes in both area A and B, the unit starts energy
saving operation.
Others
„ For dry operation, you cannot set the temperature with remote controller, but internally the
target temperature is shifted by 2°C.
67
Function and Control
SiBE12-816_D
Function of Indoor Unit (RA Models)
1.13 INTELLIGENT EYE Operation
Outline
Wall Mounted Type: FTXG, CTXG Series
This is the function that detects existence of humans in the room by a human motion sensor
(INTELLIGENT EYE) and reduces the capacity when there is nobody in the room in order to
save electricity.
Detail
1. Detection method by INTELLIGENT EYE
sampling (20 msec.)
Sensor output
If the sensor detects the outputs
10 times/sec. or more, it judges
humans exist.
1 sec.
High
Low
(Human motion)
Human detection ON
signal
OFF
(R2821)
„ This sensor detects human motion by receiving infrared rays and displays the pulse wave
output.
„ A microcomputer in an indoor unit carries out a sampling every 20 msec. and if it detects
10 cycles of the wave in one second in total (corresponding to 20 msec. × 10 = 200 msec.),
it judges human is in the room as the motion signal is ON.
2. The motions (for example: in cooling)
within 20 min.
Human detection
signal
ON
OFF
20 min.
20 min.
RESET.
Target temperature
Remote controller
ON
INTELLIGENT EYE OFF
button
ON
Operation
OFF
Set speed
Set speed
Fan speed (+1)
OFF
(R10723)
„ When a microcomputer does not have a signal from the sensor in 20 minutes, it judges that
nobody is in the room and operates the unit in temperature shifted from the target
temperature. (Cooling / Dry : 2°C higher, Heating : 2°C lower, Auto : according to the
operation mode at that time.)
★1 In case of FAN mode, the fan speed reduces by 60 rpm.
Others
„ For dry operation, you cannot set the temperature with a remote controller, but internally the
target temperature is shifted by 2°C.
Function and Control
68
Function of Indoor Unit (RA Models)
SiBE12-816_D
1.14 Inverter POWERFUL Operation
Outline
In order to exploit the cooling and heating capacity to full extent, operate the air conditioner by
increasing the indoor fan rotating speed and the compressor frequency.
Detail
When POWERFUL button is pressed, the fan speed and target temperature are converted to
the following states for 20 minutes.
Operation mode
Fan speed
Target temperature
COOL
DRY
H tap + A rpm
Dry rotating speed +
A rpm
18°C
Lowered by 2 ~ 2.5°C
HEAT
FAN
H tap + A rpm
H tap + A rpm
30 ~ 32°C
—
AUTO
Same as cooling /
heating in POWERFUL
operation
The target temperature is
kept unchanged.
A = 40 ~ 50 rpm (depending on the model)
Ex.) : POWERFUL operation in cooling mode.
Target temp.
It should be the lower limit of cooling temperature.
18˚C
POWERFUL ON
It counts 20 min. also in the remote controller.
POWERFUL OFF
Fan
Ending condition: "or" in 1 to 3
1. After the lapse of 20 minutes.
2. Operation OFF
3. POWERFUL operation is OFF.
A rpm
H tap
20 minutes
Set tap
(R14061)
1.14.1 Multi-Colored Indicator Lamp / TIMER Lamp
Features
Wall Mounted Type: FTXG-J, CTXG-J Series
Current operation mode is displayed in color of the lamp of the indoor unit. Operating status can
be monitored even in automatic operation in accordance with the mode of actual operation.
Multi-colored indicator lamp /
TIMER lamp
(R11815)
The lamp color changes according to the operation.
∗ AUTO ........................................................Red / Blue
∗ DRY ..........................................................Green
∗ COOL........................................................Blue
∗ HEAT ........................................................Red
∗ FAN...........................................................White
∗ TIMER.......................................................Orange
69
Function and Control
SiBE12-816_D
Brightness
Setting
Function of Indoor Unit (RA Models)
The brightness of the multi-colored indicator lamp can be adjusted L (low), H (high), or OFF.
1. Press the center of the Temp button and the Mode button at the same time.
(R11669)
“5C” is displayed on the LCD.
(R11911)
2. Select “L” (light) with the Temp ▲ or ▼ button.
(R11912)
3. Press the Mode button to enter the brightness setting mode.
4. Press the Temp ▲ or ▼ button to adjust the brightness of the multi-colored indicator lamp.
L (low)
H (high)
OFF
(R11913)
5. Press the Mode button for 5 seconds to exit from the brightness setting mode.
(When the remote controller is left untouched for 60 seconds, it returns to the normal mode
also.)
Function and Control
70
Function of Indoor Unit (RA Models)
SiBE12-816_D
1.15 Other Functions
1.15.1 Hot-Start Function
In order to prevent the cold air blast that normally comes when heating operation is started, the
temperature of the indoor heat exchanger is detected, and either the airflow is stopped or is
made very weak thereby carrying out comfortable heating of the room.
*The cold air blast is also prevented using a similar control when the defrosting operation is
started or when the thermostat is turned ON.
1.15.2 Signal Receiving Sign
When the indoor unit receives a signal from the remote controller, the unit emits a signal
receiving sound.
1.15.3 Indoor Unit ON/OFF Button
An ON/OFF button is provided on the display of the unit.
„ Press this button once to start operation. Press once again to stop it.
„ This button is useful when the remote controller is missing or the battery has run out.
„ The operation mode refers to the following table.
Cooling Only
Heat Pump
Mode
Temperature setting
Airflow rate
COOL
AUTO
22°C
25°C
Automatic
Automatic
„ In the case of multi system operation, there are times when the unit does not activate with
this button.
ex. Wall mounted type FTXS series
ON/OFF button
(R8302)
<Forced cooling operation>
Forced cooling operation can be started by pressing the ON/OFF button for 5 to 9 seconds
while the unit is not operating.
Refer to page 299 for detail.
Note:
When the ON/OFF button is pressed for 10 seconds or more, the forced cooling operation is
stopped.
1.15.4 Titanium Apatite Photocatalytic Air-Purifying Filter
This filter combines the Air-Purifying Filter and Titanium Apatite Photocatalytic Deodorizing
Filter as a single highly effective filter. The filter traps microscopic particles, decomposes odors
and even deactivates bacteria and viruses. It lasts for 3 years without replacement if washed
about once every 6 months.
1.15.5 Photocatalytic Deodorizing Filter
The photocatalytic deodorizing filter powerfully decomposes odor of tobacco, pet, etc. The
deodorizing power is regenerated simply by being exposed to the sunshine. It is recommended
to dry the filter in the sun for about 6 hours (after vacuuming the filter) every 6 months.
1.15.6 Air-Purifying Filter
The air-purifying filter collects tobacco smoke, pollen, etc. with electrostatic agency.
This filter includes a deodorizing active carbon filter that removes minute particles of odor.
Replace the air-purifying filter every 3 months.
71
Function and Control
SiBE12-816_D
Function of Indoor Unit (RA Models)
1.15.7 Auto-restart Function
Even if a power failure (including one for just a moment) occurs during the operation, the
operation restarts automatically when the power is restored in the same condition as before the
power failure.
Note:
It takes 3 minutes to restart the operation because the 3-minute standby function is activated.
1.15.8 WEEKLY TIMER Operation
Up to 4 timer settings can be saved for each day of the week (up to 28 settings in total).
Those 3 items of “ON/OFF”, “temperature” and “time” can be set.
Refer to “WEEKLY TIMER Operation” on the following pages for detail.
FTXG-J, CTXG-J series: page 116
FTXS, FVXS series: page 143
Function and Control
72
Function of Indoor Unit (SA Models)
SiBE12-816_D
2. Function of Indoor Unit (SA Models)
2.1
Drain Pump Control
2.1.1 When the Float Switch is Tripped While the Cooling Thermostat is
ON:
The remote controller displays "A3"
and the indoor unit stops.
ON
Thermostat
(running) OFF
OFF
Float switch
ON
ON
Drain pump
OFF
5 min.
5 min. 5 sec.
*1) Normal operation
*2) Malfunction residual
(R12933)
∗1. (Normal operation):
The purpose of residual operation is to completely drain any moisture adhering to the fin of the
indoor heat exchanger when the thermostat goes off during cooling operation.
∗2. (Malfunction residual):
The remote controller displays "A3" and the air conditioner comes to an abnormal stop in 5
minutes if the float switch is turned OFF while the cooling thermostat is ON.
2.1.2 When the Float Switch is Tripped While the Cooling Thermostat is
OFF:
The indoor unit enters malfunction treatment if the float switch is not
reset within 5 minutes.
Thermostat
(running)
Float switch
ON
The remote controller displays "A3" and the indoor unit stops.
OFF
OFF
ON
ON
Drain pump
OFF
5 min.
5 sec.
*3
5 min. 5 sec.
(R12934)
*3. (Malfunction residual):
The remote controller displays "A3" and the air conditioner comes to an abnormal stop if the float
switch is turned OFF and not turned ON again within 5 minutes while the cooling thermostat is
OFF.
73
Function and Control
SiBE12-816_D
Function of Indoor Unit (SA Models)
2.1.3 When the Float Switch is Tripped During Heating Operation:
Thermostat
(running)
ON
The remote controller displays "A3" and the indoor unit stops.
OFF
ON
Humidifier
OFF
Float switch
Reset
ON
OFF
Drain pump
ON
OFF
5 min.
5 sec.
5 min.
(R12935)
During heating operation, if the float switch is not reset even after the 5 minutes operation, 5
seconds stop, 5 minutes operation cycle ends, operation continues until the switch is reset.
2.1.4 When the Float Switch is Tripped and “AF” is Displayed on the
Remote Controller:
The indoor unit enters malfunction
treatment if the float switch is not
reset within 5 minutes.
ON
Remote
controller display OFF
Float switch
OFF
ON
Drain pump
The remote controller displays "A3"
and the indoor unit stops.
"AF" display (running)
1st time 2nd time 3rd time 4th time 5th time
ON
OFF
*1: 5min
5 sec.
*1
*1
*1
*1
*4
*1
*1
*1
*5
(R12936)
*4. (Malfunction residual):
If the float switch is tripped 5 times in succession, a drain malfunction is determined to have
occurred. “AF” is then displayed as operation continues.
*5. (Malfunction residual):
The remote controller displays "A3" and the air conditioner comes to an abnormal stop if the float
switch is OFF for more than 5 minutes in the case of *4.
Function and Control
74
Function of Indoor Unit (SA Models)
2.2
SiBE12-816_D
Thermostat Sensor in Remote Controller
Temperature is controlled by both the thermostat sensor in remote controller and air suction
thermostat in the indoor unit. (This is however limited to when the field setting for the thermostat
sensor in remote controller is set to “Use”.)
Cooling
If there is a significant difference in the set temperature and the suction temperature, fine
adjustment control is carried out using a body thermostat sensor, or using the sensor in the
remote controller near the position of the user when the suction temperature is near the set
temperature.
Set temperature
(Ts)
TH1 = Ts - 1
TH1 = Ts + 1
TH1 = Ts - 3
TH1 = Ts + 3
A
B
C
D
E
F
Suction temperature (TH1)
Range in which thermostat sensor
in remote controller can be used
Range in which body
thermostat sensor can
be used
Differential
(R12938)
„ Assuming the set temperature in the figure above is 24°C, and the suction
temperature has changed from 18°C to 30°C (A → F):
(This example also assumes there are several other air conditioners, and the suction
temperature changes even when the thermostat sensor is off.)
Body thermostat sensor is used for temperatures from 18°C to 23°C (A → C).
Remote controller thermostat sensor is used for temperatures from 23°C to 27°C (C → E).
Body thermostat sensor is used for temperatures from 27°C to 30°C (E → F).
„ Assuming suction temperature has changed from 30°C to 18°C (F → A):
Body thermostat sensor is used for temperatures from 30°C to 25°C (F → D).
Remote controller thermostat sensor is used for temperatures from 25°C to 21°C (D → B).
Body thermostat sensor is used for temperatures from 21°C to 18°C (B → A).
75
Function and Control
SiBE12-816_D
Heating
Function of Indoor Unit (SA Models)
When heating, the hot air rises to the top of the room, resulting in the temperature being lower
near the floor where the occupants are. When controlling by body thermostat sensor only, the
indoor unit may therefore be turned off by the thermostat before the lower part of the room
reaches the set temperature. The temperature can be controlled so the lower part of the room
where the occupants are does not become cold by widening the range in which thermostat
sensor in remote controller can be used so that suction temperature is higher than the set
temperature.
Set temperature
(Ts)
TH1 = Ts - 1
A
B
C
D
TH1 = Ts + 1 ≤ 31˚C
TH1 = Ts + 12 ≤ 33˚C
TH1 = Ts + 10 ≤ 31˚C
Suction temperature (TH1)
Range in which thermostat sensor
in remote controller can be used
Range in which body
thermostat sensor can
be used
Differential
(R12939)
„ Assuming the set temperature in the figure above is 24°C, and the suction
temperature has changed from 18°C to 28°C (A → D):
(This example also assumes there are several other air conditioners, and the suction
temperature changes even when the thermostat sensor is off.)
Body thermostat sensor is used for temperatures from 18°C to 25°C (A → C).
Remote controller thermostat sensor is used for temperatures from 25°C to 28°C (C → D).
„ Assuming suction temperature has changed from 28°C to 18°C (D → A):
Remote controller thermostat sensor is used for temperatures from 28°C to 23°C (D → B).
Body thermostat sensor is used for temperatures from 23°C to 18°C (B → A).
Function and Control
76
Function of Indoor Unit (SA Models)
2.3
SiBE12-816_D
Freeze Prevention Control
When the temperature detected by liquid pipe thermistor (R2T) of the indoor heat exchanger
drops too low, the unit enters freeze prevention control in accordance with the following
conditions, and is also set in accordance with the conditions given below.
Conditions for starting: Temperature is –1°C or less for total of 40 min., or temperature is –5°C
or less for total of 10 min.
Conditions for cancelling: Temperature is +7°C or more for 10 min. continuously
Ex: Case where temperature is –5°C or less for total of 10 min.
10 min.
+ 7˚C
+ 0˚C
– 5˚C
Freeze prevention control
10 min.
Normal operation
Forced OFF by thermostat
(R12940)
77
Function and Control
SiBE12-816_D
2.4
Function of Indoor Unit (SA Models)
Hot Start Control (In Heating Operation Only)
Outline
At startup with thermostat ON or after the completion of defrosting in heating operation, the
indoor unit fan is controlled to prevent cold air from blasting out and ensure startup capacity.
Detail
Defrost ending or oil return ending
or Thermostat ON
Hot start control
Hot start ending conditions
· lapse of 3 minutes
OR · [TH2] > 34˚C
· Tc > 52˚C
Hot start in progress
Normal operation
Fan
H/L remote
controller setting
LL
Louver
OFF
Remote controller
setting
The fan is not OFF before initiating the hot start: LL
The fan is OFF before initiating the hot start: OFF
Normal operation
Level position
(R12941)
TH2: Temperature (°C) detected with the gas thermistor
Tc : High pressure equivalent saturated temperature
Function and Control
78
Function of Thermistor
SiBE12-816_D
3. Function of Thermistor
Expansion valve
E
EVA
EVB
A
Four way valve
D
B
C
Compressor
(R7042)
A Outdoor Heat
Exchanger
Thermistor
1. The outdoor heat exchanger thermistor is used for controlling target discharge pipe
temperature. The system sets the target discharge pipe temperature according to the
outdoor and indoor heat exchanger temperature, and controls the electronic expansion valve
opening so that the target discharge pipe temperature can be obtained.
2. In cooling operation, the outdoor heat exchanger thermistor is used for detecting
disconnection of the discharge pipe thermistor. When the discharge pipe temperature
becomes lower than the outdoor heat exchanger temperature, the discharge pipe thermistor
is judged as disconnected.
3. In cooling operation, the outdoor heat exchanger thermistor is used for high pressure
protection.
B Discharge
Pipe Thermistor
1. The discharge pipe thermistor is used for controlling discharge pipe temperature. If the
discharge pipe temperature (used in place of the inner temperature of the compressor) rises
abnormally, the operating frequency becomes lower or the operation halts.
2. The discharge pipe thermistor is used for detecting disconnection of the discharge pipe
thermistor.
C Gas Pipe
Thermistor
1. In cooling operation, the gas pipe thermistor is used for gas pipe isothermal control. The
system controls electronic expansion valve opening so that the gas pipe temperature in each
room becomes equal.
79
Function and Control
SiBE12-816_D
Function of Thermistor
D Indoor Heat
Exchanger
Thermistor
1. The indoor heat exchanger thermistor is used for controlling target discharge pipe
temperature. The system sets the target discharge pipe temperature according to the
outdoor and indoor heat exchanger temperature, and controls the electronic expansion valve
opening so that the target discharge pipe temperature can be obtained.
2. In cooling operation, the indoor heat exchanger thermistor is used for freeze-up protection
control. If the indoor heat exchanger temperature drops abnormally, the operating frequency
becomes lower or the operation halts.
3. In cooling operation, the indoor heat exchanger thermistor is used for anti-icing function. If
any of the following conditions are met in the room where operation halts, it is assumed as
icing.
The conditions are
Tc ≤ – 1° C
Ta – Tc ≥ 10° C
where Ta is the room thermistor temperature and Tc is the indoor heat exchanger
temperature.
4. In heating operation, the indoor heat exchanger thermistor is used for heating peak-cut
control. If the indoor heat exchanger temperature rises abnormally, the operating frequency
becomes lower or the operation halts.
5. In heating operation, the indoor heat exchanger thermistor is used for detecting
disconnection of the discharge pipe thermistor. When the discharge pipe temperature
becomes lower than the maximum indoor heat exchanger temperature, the discharge pipe
thermistor is judged as disconnected.
6. When only one indoor unit is operating, the indoor heat exchanger thermistor is used for
subcooling control. The actual subcool is calculated with the liquid pipe temperature and the
indoor heat exchanger temperature. The system controls the electronic expansion valve
openings to obtain the target subcool.
E Liquid Pipe
Thermistor
1. When only one indoor unit is in heating, the liquid pipe thermistor is used for subcooling
control. The actual subcool is calculated with the liquid pipe temperature and the maximum
indoor heat exchanger temperature. The system controls the electronic expansion valve
openings to obtain the target subcool.
2. In heating operation, the liquid pipe thermistor is used for liquid pipes isothermal control. The
system controls electronic expansion valve opening so that the liquid pipe temperatures in
each room becomes equal.
Function and Control
80
Control Specification
SiBE12-816_D
4. Control Specification
4.1
Mode Hierarchy
Outline
There are two modes; the one is the normal operation mode and the other is the forced
operation mode for installation and providing service.
Detail
Cooling only model
There are following models; stop and cooling (includes drying).
Air conditioner control mode
Forced operating mode
Forced cooling
Check incorrect wiring
Normal operating mode
Cooling
Stop mode (except for cooling modes by indoor command)
Preheat operation
During C (capacitor) is discharging
Stop
(R1374)
Heat Pump Model
There are following modes; stop, cooling (includes drying), heating (includes defrosting)
Air conditioner control mode
Forced operation mode
Forced cooling
Forced heating
Check incorrect wiring
Normal operation mode
Cooling
Heating
Defrosting
Stop mode (except for cooling/heating modes by indoor command)
Preheat operation
During C (capacitor) is discharging
Stop
(R1373)
Note:
81
Unless specified otherwise, dry operation command is regarded as cooling operation. An indoor
fan operation cannot be made in a multiple indoor unit. (A forced fan command to the indoor unit
from the outdoor unit is made during forced operation.)
Function and Control
SiBE12-816_D
Control Specification
Determine Operation Mode
The system judges the operation mode command which is set by each room in accordance with
the procedure, and determines the operation mode of the system.
The following procedure is taken when the modes conflict with each other.
*1. The system follows the mode which is set first. (First-push, first-set)
*2. For the rooms where the different mode is set, standby mode is activated. (The operation
lamp blinks.)
Function and Control
Command from
the first room
Cooling
Command from
the second room
Heating
Operation of the
first room
Cooling
Operation of the
second room
Standby
Cooling
Heating
Fan
Cooling
Cooling
Heating
Fan
Standby
Heating
Fan
Fan
Cooling
Heating
Fan
Standby
Cooling
Fan
Heating
Standby
Heating
82
Control Specification
4.2
Outline
SiBE12-816_D
Frequency Control
Frequency that corresponds to each room’s capacity is determined according to the difference
between the target temperature and the temperature of each room.
The function is explained as follows.
1. How to determine frequency
2. Frequency command from an indoor unit (Difference between a room thermistor
temperature and the target temperature)
3. Frequency command from an indoor unit (The ranked capacity of the operating room)
4. Frequency initial setting
5. PI control
When the shift of the frequency is less than zero (∆F<0) by PI control,
the target frequency is used as the command frequency.
Drooping function
Input current control, etc.
Upper limit frequency
FMAX
Command frequency
Limit frequency
Initial frequency
PI control
Defrost control (∗)
Lower limit frequency
FMIN
Upper limit function
Compressor protection function
Skip control
Target frequency
Lower limit function
Four way valve operating compensation (∗), etc.
(∗): only for heat pump model
(R11592)
Detail
How to Determine Frequency
The compressor’s frequency is determined by taking the following steps.
For Cooling Only Model
1. Determine command frequency
Š Command frequency is determined in the following order of priority.
1. Forced cooling
2. Indoor frequency command
2. Determine upper limit frequency
Š The minimum value is set as the upper limit frequency among the frequency upper limits of
the following functions:
Compressor protection, input current, discharge pipe temperature, low Hz high pressure
limit, freeze-up protection.
3. Determine lower limit frequency
Š The maximum value is set as the lower limit frequency among the frequency lower limits of
the following functions:
Draft prevention, pressure difference upkeep.
4. Determine prohibited frequency
Š There is a certain prohibited frequency such as a power supply frequency.
83
Function and Control
SiBE12-816_D
Control Specification
For Heat Pump Model
1. Determine command frequency
Š Command frequency is determined in the following order of priority.
1. Limiting defrost control time
2. Forced cooling / heating
3. Indoor frequency command
2. Determine upper limit frequency
Š The minimum value is set as the upper limit frequency among the frequency upper limits of
the following functions:
Compressor protection, input current, discharge pipe temperature, low Hz high pressure
limit, heating peak-cut, freeze-up protection, defrost.
3. Determine lower limit frequency
Š The maximum value is set as the lower limit frequency among the frequency lower limits of
the following functions:
Four way valve operation compensation, draft prevention, pressure difference upkeep.
4. Determine prohibited frequency
Š There is a certain prohibited frequency such as a power supply frequency.
Indoor Frequency Command (∆D signal)
The difference between a room thermistor temperature and the target temperature is taken as
the “∆D signal” and is used for frequency command.
Temperature
difference (°C)
∆D
signal
Temperature
difference (°C)
∆D
signal
Temperature
difference (°C)
∆D
signal
Temperature
difference (°C)
∆D
signal
–2.0
0
4
2.0
8
4.0
C
–1.5
∗Th
OFF
1
0.5
5
2.5
9
4.5
D
–1.0
–0.5
2
3
1.0
1.5
6
7
3.0
3.5
A
B
5.0
5.5
E
F
Values depend on the type of indoor unit.
∗Th OFF = Thermostat OFF
Indoor Unit Capacity (S value)
The capacity of the indoor unit is a “S” value and is used for frequency command.
ex.)
Capacity
2.5 kW
S value
25
3.5 kW
35
Frequency Initial Setting
<Outline>
When starting the compressor, or when conditions are varied due to the change of the operating
room, the frequency must be initialized according to the total of a maximum ∆D value of each
room and a total value of Q (ΣQ) of the operating room (the room in which the thermos is set to
ON).
Q value: Indoor unit output determined from indoor unit volume, airflow rate and other factors.
Function and Control
84
Control Specification
SiBE12-816_D
PI Control (Determine Frequency Up / Down by ∆D Signal)
1. P control
A total of the ∆D value is calculated in each sampling time (20 seconds), and the frequency
is adjusted according to its difference from the frequency previously calculated.
2. I control
If the operating frequency is not change more than a certain fixed time, the frequency is
adjusted according to the Σ∆D value.
When the Σ∆D value is small...lower the frequency.
When the Σ∆D value is large...increase the frequency.
3. Limit of frequency variation width
When the difference between input current and input current drooping value is less than 1.5 A,
the frequency increase width must be limited.
4. Frequency management when other controls are functioning
Š When each frequency is drooping;
Frequency management is carried out only when the frequency droops.
Š For limiting lower limit
Frequency management is carried out only when the frequency rises.
5. Upper and lower limit of frequency by PI control
The frequency upper and lower limits are set depending on the total of S values of a room.
When low noise commands come from the indoor unit more than one room or when outdoor
unit low noise or quiet commands come from all the rooms, the upper limit frequency must
be lowered than the usual setting.
85
Function and Control
SiBE12-816_D
4.3
Control Specification
Controls at Mode Changing / Start-up
4.3.1 Preheating Operation
Outline
The inverter operation in open phase starts with the conditions of the preheating command from
the indoor, the outdoor temperature, and discharge pipe temperature.
Detail
ON Condition
Š When outdoor temperature is below 10.5°C and discharge pipe temperature is below
10.5°C, the inverter operation in open phase starts.
OFF Condition
Š When outdoor temperature is higher than 12°C or discharge pipe temperature is higher than
12°C, the inverter operation in open phase stops.
4.3.2 Four Way Valve Switching
Outline
In heating operation, current is conducted, and in cooling and defrosting, current is not
conducted. In order to eliminate the switching sound when the heating is stopped, as the four
way valve coil switches from ON to OFF, the OFF delay switch of the four way valve is carried
out after the operation stopped.
Detail
OFF delay switch of four way valve:
The four way valve coil is energized for 150 seconds after the operation is stopped.
4.3.3 Four Way Valve Operation Compensation
Outline
At the beginning of the operation as the four way valve is switched, acquire the differential
pressure to activate the four way valve by having output frequency which is more than a certain
fixed frequency, for a certain fixed time.
Detail
Starting Conditions
1. When starting compressor for heating.
2. When the operating mode changes from the previous time.
3. When starting compressor for starting defrosting or resetting.
4. When starting compressor for the first time after the reset with the power is ON.
5. When starting compressor after operation halt by failing cooling/heating mode change-over.
The lower limit frequency is set to A Hz for 60 seconds with any conditions with 1 through 5
above.
A (Hz)
Cooling
Heating
40 class
50 class
56
68
40
54
4.3.4 3-Minute Standby
Turning on the compressor is prohibited for 3 minutes after turning off.
(Except when defrosting.)
Function and Control
86
Control Specification
SiBE12-816_D
4.3.5 Compressor Protection Function
When turning the compressor from OFF to ON, the upper limit of frequency is set as follows.
(The function is not used when defrosting.)
(Hz)
Frequency
C
B
A
D
A
B
C
D
E
F
4.4
Outline
E
(sec.)
Time
F
(R13528)
40 class
62
50 class
55
Unit
72
70
Hz
90
85
140
150
180
180
300
300
seconds
Discharge Pipe Temperature Control
The discharge pipe temperature is used as the internal temperature of the compressor. If the
discharge pipe temperature rises above a certain level, the upper limit of frequency is set to
keep this temperature from going up further.
Detail
Stop zone
A
Drooping
zone
B
Keep
zone
Discharge pipe
temperature
Zone
Stop zone
87
C
D
Reset zone
E
A(˚C)
B(˚C)
C(˚C)
D(˚C)
E (˚C)
40 class
110
103
102
101
97
50 class
110
103
102
100
95
(R14062)
Control
When the temperature reaches the stop zone, the compressor stops.
Drooping zone
Keep zone
The upper limit of frequency decreases.
The upper limit of frequency is kept.
Reset zone
The upper limit of frequency is canceled.
Function and Control
SiBE12-816_D
4.5
Control Specification
Input Current Control
Outline
An input current is detected by the CT during the compressor is running, and the frequency
upper limit is set from the input current.
In case of heat pump model, this control, which is the upper limit control of the frequency, takes
priority to the lower limit control of four way valve operation compensation.
Detail
Compressor Stop
Stop Zone
Drooping Zone
Keep Zone
Input current
Reset Zone
(R14355)
Frequency control in each zone
Stop zone
Š After 2.5 seconds in this zone, the compressor is stopped.
Drooping zone
Š The upper limit of the compressor frequency is defined as operation frequency – 2 Hz.
Š After this, the output frequency is pulled down by 2 Hz every second until it reaches the keep
zone.
Keep zone
Š The present maximum frequency goes on.
Reset zone
Š Limit of the frequency is canceled.
Limitation of current drooping and stop value according to the outdoor temperature
Š The current droops when outdoor temperature becomes higher than a certain level
(depending on the model).
4.6
Freeze-up Protection Control
Outline
During cooling operation, the signals sent from the indoor unit allow the operating frequency
limitation and prevent freezing of the indoor heat exchanger. (The signal from the indoor unit is
divided into zones.)
Detail
The operating frequency limitation is judged with the indoor heat exchanger temperature 2
seconds after operation starts and 30 seconds after the number of operation room is changed.
(Reference)
Indoor heat exchanger
thermistor temperature
13˚C
Reset zone
7˚C
Up zone
5˚C
Keep zone
3˚C
0˚C
Drooping zone
Stop zone
(R14218)
Function and Control
88
Control Specification
4.7
SiBE12-816_D
Heating Peak-cut Control
Outline
During heating operation, the indoor heat exchanger temperature determines the frequency
upper limit to prevent abnormal high pressure.
Detail
„ The operating frequency is judged with the indoor heat exchanger temperature 2 minutes
after the operation starts and A seconds after the number of operation room is changed.
„ The maximum value of the indoor heat exchanger temperature controls the following
(excluding stopped rooms).
A(seconds)
When increase
When decrease
Stop zone
30
2
Drooping zone
Keep zone
Up zone
Indoor heat exchanger
thermistor temperature
Reset zone
(R4579)
4.8
Outdoor Fan Control
1. Fan OFF delay when stopped
The outdoor fan is turned OFF 60 seconds after the compressor stops.
2. Fan ON control to cool down the electrical box
The outdoor fan is turned ON when the electrical box temperature is high while the compressor
is OFF.
3. Fan OFF control while defrosting
The outdoor fan is turned OFF while defrosting.
4. Fan ON/OFF control when operation starts / stops
The outdoor fan is turned ON when the operation starts. The outdoor fan is turned OFF when
the operation stops.
5. Fan control while forced operation
The outdoor fan is controlled as well as normal operation while the forced operation.
6. Fan speed control while indoor / outdoor quiet operation
The rotation speed of the outdoor fan is reduced by the command of the indoor / outdoor quiet
operation.
7. Fan control when the number of heating room decreases
When the outdoor temperature is more than 10°C, the fan is turned off for 30 seconds.
8. Fan speed control for pressure difference upkeep
The rotation speed of the outdoor fan is controlled for keeping the pressure difference while
cooling with low outdoor temperature.
♦ When the pressure difference is small, the rotation speed of the outdoor fan is reduced.
♦ When the pressure difference is large, the rotation speed of the outdoor fan is increased.
89
Function and Control
SiBE12-816_D
4.9
Control Specification
Liquid Compression Protection Function
Outline
In order to obtain the dependability of the compressor, the compressor is stopped according to
the outdoor temperature and temperature of the outdoor heat exchanger.
Detail
„ Operation stops depending on the outdoor temperature
Compressor turns off under the conditions that the system is in cooling operation and outdoor
temperature is below 0°C.
4.10 Defrost Control
Outline
Defrosting is carried out by the cooling cycle (reverse cycle). The defrosting time or outdoor
heat exchanger temperature must be more than a certain value to finish.
Detail
Conditions for Starting Defrost
„ The starting conditions is determined with the outdoor temperature and the outdoor heat
exchanger temperature.
„ The system is in heating operation.
„ The compressor operates for 6 minutes.
„ More than 30 minutes of accumulated time pass since the start of the operation, or ending
the previous defrosting.
Conditions for Canceling Defrost
The target heat exchanger temperature as the canceling condition is selected in the range of
E°C according to the outdoor temperature.
B Hz
A Hz
PI control
Frequency
0 Hz
60 sec.
Compressor
120 sec.
530 sec.
30 sec.
ON
OFF
Four way valve
ON
OFF
5 sec.
5 sec.
Fan
ON
OFF
Electronic expansion
valve opening
(operating room)
Electronic expansion
valve opening
(stop room)
450 pulse
350 pulse
450 pulse
C pulse
140 pulse
Initial opening
D pulse
0 pulse
Initial opening
(R12739)
40 class
70
A (Hz)
(Hz)
B
86
C (pulse)
350
D (pulse)
160
E (˚C)
4 ~ 12
Function and Control
50 class
48
70
300
200
4 ~ 15
90
Control Specification
SiBE12-816_D
4.11 Electronic Expansion Valve Control
Outline
91
The following items are included in the electronic expansion valve control.
Electronic expansion valve is fully closed
1. Electronic expansion valve is fully closed when turning on the power.
2. Pressure equalizing control
Room Distribution Control
1. SC (subcooling) control
2. Heat exchanger isothermal control during heating
3. Liquid pipe isothermal control during heating
4. Gas pipe isothermal control during cooling
Open Control
1. Electronic expansion valve control when starting operation
2. Electronic expansion valve control when frequency changed
3. Electronic expansion valve control for defrosting
4. Electronic expansion valve control for oil recovery
5. Electronic expansion valve control when a discharge pipe temperature is abnormally high
6. Electronic expansion valve control when the discharge pipe thermistor is disconnected
7. Electronic expansion valve control for anti-icing control for indoor unit
Feedback Control
1. Discharge pipe temperature control
Function and Control
SiBE12-816_D
Control Specification
×
Open control when starting
×
×
(Target discharge pipe temperature control)
×
Control when the operating room is changed
×
(Target discharge pipe temperature control)
×
Pressure equalizing control
×
×
Open control when starting
×
×
When power is turned on
Cooling, 1 room operation
Cooling, 2 rooms operation
Stop
Heating operation
×
×
Heating operation
×
×
×
×
×
×
×
×
×
×
×
×
×
×
×
(Target discharge pipe temperature control)
Stop
Anti-icing control for indoor unit
×
: function
× : not function
Oil recovery control
Fully closed when power is turned on
Operation pattern
Control for abnormally high discharge
pipe temperature
Heat exchanger isothermal control
during heating
Control when frequency changed
The followings are the examples of control which function in each mode by the electronic
expansion valve control.
SC (subcooling) control
Detail
(Defrost control)
×
×
×
×
×
×
Pressure equalizing control
×
×
×
×
×
×
Open control when starting
×
×
×
×
×
×
×
×
Control of discharge pipe
thermistor disconnection
Continue
Stop
Pressure equalizing control
×
×
×
×
×
×
(R14236)
Function and Control
92
Control Specification
SiBE12-816_D
4.11.1 Fully Closing with Power on
The electronic expansion valve is initialized when the power is turned on. The opening position
is set and the pressure equalization is developed.
4.11.2 Pressure Equalization Control
When the compressor is stopped, the pressure equalization control is activated. The electronic
expansion valve opens, and develops the pressure equalization.
4.11.3 Opening Limit
Outline
A maximum and minimum opening of the electronic expansion valve are limited.
Detail
„ A maximum electronic expansion valve opening in the operating room: 450 pulses
„ A minimum electronic expansion valve opening in the operating room: 60 pulses
The electronic expansion valve is fully closed in the room where cooling is stopped and is
opened at the fixed degree during defrosting.
4.11.4 Starting Operation Control / Changing Operation Room
The electronic expansion valve opening is controlled when the operation starts, and prevent the
superheating or liquid compression.
4.11.5 High Discharge Pipe Temperature
When the compressor is operating, if the discharge pipe temperature exceeds a certain value,
the electronic expansion valve opens and the refrigerant runs to the low pressure side.
This procedure lowers the discharge pipe temperature.
4.11.6 Oil Recovery Function
Outline
The electronic expansion valve opening in the cooling stopped room is set as to open for a
certain time at a specified interval so that the oil in the cooling stopped room may not be
accumulated.
Detail
During cooling operation, every 1 hour continuous operation, the electronic expansion valves in
the operation stopped room is opened by 80 pulses for specified time.
4.11.7 Gas Pipe Isothermal Control During Cooling
When the units are operating in multiple rooms, the gas pipe temperature is detected and the
electronic expansion valve opening is adjusted so that the temperature of the gas pipe in each
room becomes equal.
„ When the gas pipe temperature > the average gas pipe temperature,
→ open the electronic expansion valve in that room
„ When the gas pipe temperature < the average gas pipe temperature,
→ close the electronic expansion valve in that room
The temperatures are monitored every 40 seconds.
93
Function and Control
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Control Specification
4.11.8 Target Discharge Pipe Temperature Control
The target discharge pipe temperature is obtained from the indoor and outdoor heat exchanger
temperature, and the electronic expansion valve opening is adjusted so that the actual
discharge pipe temperature becomes close to the target discharge pipe temperature. (Indirect
SH (superheating) control using the discharge pipe temperature)
SC
(Subcool)
The target discharge pipe
temperature is set as to become the aiming SH.
The inclination does not change
depending on the operating condition.
SH
(Superheat)
(R14219)
The electronic expansion valve opening and the target discharge pipe temperature are adjusted
every 20 seconds. The target discharge pipe temperature is controlled by indoor heat
exchanger temperature and outdoor heat exchanger temperature. The opening degree of the
electronic expansion valve is controlled by followings.
♦ Target discharge pipe temperature
♦ Actual discharge pipe temperature
♦ Previous discharge pipe temperature
4.11.9 SC (Subcooling) Control
Outline
The liquid pipe temperature and the heat exchanger temperature are detected and the
electronic expansion valve opening is compensated so that the SC of each room becomes the
target SC.
„ When the actual SC is > target SC, open the electronic expansion valve of the room.
„ When the actual SC is < target SC, close the electronic expansion valve of the room.
Detail
Start Conditions
After finishing the starting control (about 660 seconds), all the electronic expansion valve(s) in
the operating room is/are controlled.
Determine Electronic Expansion Valve Opening
The electronic expansion valve opening is adjusted so that the temperature difference between
the maximum heat exchanger temperature of connected room and the liquid pipe temperature
thermistor becomes constant.
Function and Control
94
Control Specification
SiBE12-816_D
4.11.10 Disconnection of the Discharge Pipe Thermistor
Outline
The disconnection of the discharge pipe thermistor is detected by comparing the discharge pipe
temperature with the condensing temperature. If the discharge pipe thermistor is disconnected,
the electronic expansion valve opens according to the outdoor temperature and the operation
frequency, and operates for a specified time, and then stops.
After 3 minutes of waiting, the operation restarts and checks if the discharge pipe thermistor is
disconnected. If the discharge pipe thermistor is disconnected, the system stops after operating
for a specified time.
If the disconnection is detected 4 times in succession, then the system is shut down. When the
compressor runs for 60 minutes without any error, the error counter is reset.
Detail
Detect Disconnection
When the starting control (about 660 seconds) finishes, and the 9-minute timer for the
compressor operation continuation is not counting time, the following adjustment is made.
1. When the operation mode is cooling
When the following condition is fulfilled, the discharge pipe thermistor disconnection is
ascertained.
Discharge pipe temperature + 6°C < outdoor heat exchanger temperature
2. When the operation mode is heating
When the following condition is fulfilled, the discharge pipe thermistor disconnection is
ascertained.
Discharge pipe temperature + 6°C < highest indoor heat exchanger temperature
Adjustment when the thermistor is disconnected
When the disconnection is ascertained, the compressor continues operation for 9 minutes and
then stops.
When the compressor stops repeatedly, the system is shut down.
4.11.11Control when frequency is changed
When the target discharge pipe temperature control is active, if the target frequency is changed
for a specified value in a certain time period, the target discharge pipe temperature control is
canceled and the target opening of the electronic expansion valve is changed.
4.12 Malfunctions
4.12.1 Sensor Malfunction Detection
Sensor malfunction may occur either in the thermistor or current transformer (CT) system.
Relating to Thermistor Malfunction
1. Outdoor heat exchanger thermistor
2. Discharge pipe thermistor
3. Fin thermistor
4. Gas pipe thermistor
5. Outdoor temperature thermistor
6. Liquid pipe thermistor
Relating to CT Malfunction
When the output frequency is more than 52 Hz, abnormal adjustment is carried out.
4.12.2 Detection of Overcurrent and Overload
Outline
In order to protect the inverter, an excessive output current is detected, the OL temperature is
observed to protect the compressor.
Detail
„ If the inverter current exceeds 11.5~12.5 A (depending on the model), the system shuts
down the compressor.
„ If the OL (compressor head) temperature exceeds 120 ~ 130°C, the compressor stops.
95
Function and Control
SiBE12-816_D
Control Specification
4.12.3 Refrigerant Shortage Control
Outline
I Detecting by power consumption
If the power consumption is below the specified value and the frequency is higher than the
specified frequency, it is regarded as refrigerant shortage.
The power consumption is small comparing with that in the normal operation when refrigerant is
insufficient, and refrigerant shortage is detected by checking a power consumption.
Power consumption
Refrigerant shortage zone
48 Hz
Frequency
(R12507)
II Detecting by discharge pipe temperature
If the discharge pipe temperature is higher than the target discharge pipe temperature, and the
electronic expansion valve is fully open for more than the specified time, it is regarded as
refrigerant shortage.
Target discharge
pipe temperature
Refrigerant shortage
zone
(R1391)
Refer to page 254 for detail.
Function and Control
96
Control Specification
SiBE12-816_D
4.12.4 Anti-icing Control
During cooling, if the indoor heat exchanger temperature in the operation stopped room
becomes below the specified temperature for the specified time, the electronic expansion valve
is opened in the operation stopped room as specified, and the fully closed operation is carried
out. After this, if freezing abnormality occurs more than specified time, the system shuts down
as the system abnormality.
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Function and Control
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Part 5
Operation Manual
1. System Configuration............................................................................99
2. RA Indoor Unit.....................................................................................100
2.1 FTXG-J, CTXG-J Series - ARC466A1 .................................................100
2.2 FTXS, FVXS Series - ARC452A1, A3 ..................................................122
2.3 FTXG-E, CTXG-E, FLK(X)S, FDK(X)S Series ARC433B41, B67, B68, B69, B76........................................................149
3. SA Indoor Unit - FFQ Series ...............................................................168
3.1 BRC1D528 ...........................................................................................168
3.2 BRC7E530W/531W..............................................................................183
Operation Manual
98
System Configuration
SiBE12-816_D
1. System Configuration
After the installation and test operation of the room air conditioner have been completed, it
should be operated and handled as described below. Every user would like to know the correct
method of operation of the room air conditioner, to check if it is capable of cooling (or heating)
well, and to know a clever method of using it.
In order to meet this expectation of the users, giving sufficient explanations taking enough time
can be said to reduce about 80% of the requests for servicing. However good the installation
work is and however good the functions are, the customer may blame either the room air
conditioner or its installation work because of improper handling. The installation work and
handing over of the unit can only be considered to have been completed when its handling has
been explained to the user without using technical terms but giving full knowledge of the
equipment.
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RA Indoor Unit
2. RA Indoor Unit
2.1
FTXG-J, CTXG-J Series - ARC466A1
2.1.1 Name of Parts
Name of Parts
Indoor Unit
INTELLIGENT EYE
sensor
Air inlet
• Appearance of the indoor unit may differ.
• It detects the movements of
people and automatically
switches between normal
operation and energy saving
operation. Page 16
Front panel
Air outlet
Room temperature
sensor
• It detects the air temperature
around the unit.
Louvers (vertical blades)
• The louvers are inside of the air outlet.
Flaps (horizontal blades)
Page 13
Model name
plate
Panel tab
Page 13
Display
INTELLIGENT EYE lamp
(green) Page 16
Multi-monitor lamp and
TIMER lamp
Multi-monitor lamp
• The lamp colour changes according to
the operation.
Signal receiver and Indoor
unit ON/OFF switch
Operation
Multi-monitor lamp
AUTO
Red/Blue
DRY
Green
COOL
Blue
Signal receiver
• It receives signals from the remote
controller.
• When the unit receives a signal, you will
hear a beep sound.
Case
Sound type
Operation start
beep-beep
Setting changed
beep
Operation stop
long beep
HEAT
Red
FAN
White
TIMER
Orange
TIMER lamp
Indoor unit ON/OFF switch
• Press this switch once to start operation.
Press once again to stop it.
• The operation mode refer to the following table.
Mode
Temperature setting
Airflow rate
AUTO
25˚C
AUTO
• This switch is useful when the remote controller is
missing.
• When operation by timer has been set, the multi-monitor lamp
periodically changes to orange. After lighting orange for about
5 seconds, it returns to the colour of the operation mode.
The multi-monitor lamp will turn orange on and off in cyclic
manner while the air conditioner is not in operation.
TIMER lamp colour
TIMER lamp colour : For COOL
2 sec.
5 sec.
Orange
Blue
2 sec.
3 min.
2 sec.
5 sec.
DRY :
Green
COOL : Blue
HEAT : Red
Orange
Orange
Orange
FAN :
White
Orange
Stop :
Off
Orange
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RA Indoor Unit
SiBE12-816_D
Open the front panel
Panel support
plate
Air filter
Titanium apatite
photocatalytic
air-purifying filter
Outdoor Unit
• Appearance of the outdoor unit may differ from some models.
Air inlet
(back and
side)
Outdoor temperature
sensor (back)
Drain hose
Earth terminal
• It is inside of this cover.
Air outlet
Model name plate
Refrigerant piping and
inter-unit wiring
6
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Operation Manual
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RA Indoor Unit
Name of Parts
Remote Controller
Signal transmitter
Receiver
50cm or
more
Display (LCD)
• It displays the current settings.
(In this illustration, each section is
shown with its displays on for the
purpose of explanation.)
• To use the remote controller, aim the
transmitter at the indoor unit. If there
is anything to block signals between
the unit and the remote controller,
such as a curtain, the unit will not
operate.
• Do not drop the remote controller.
Do not get it wet.
• The maximum distance for
communication is approx. 6m.
Make sure that there are no
obstacles within 50cm under the
signal receiver.
Such obstacles, if any, may have an
adverse influence on the reception
performance of the receiver and the
reception distance may be
shortened.
TEMPERATURE
adjustment buttons
• It changes the temperature setting.
Page 12
ON/OFF button
• Press this button once to start
operation.
Press once again to stop it. Page 11
FAN setting button
• It selects the airflow rate setting.
Page 14
Front cover
• Open the front cover .
Page 8
POWERFUL button
• POWERFUL operation.
Page 18
Model
ARC466A1
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RA Indoor Unit
SiBE12-816_D
Open the front cover
MODE selector button
• It selects the operation mode.
(AUTO/DRY/COOL/HEAT/
FAN) Page 11
ECONO button
• ECONO operation.
Page 20
SWING button
• Adjusting the airflow direction.
Page 13
QUIET button
• OUTDOOR UNIT QUIET
operation. Page 19
COMFORT button
INTELLIGENT EYE
button
• INTELLIGENT EYE
operation. Page 16
• COMFORT AIRFLOW
operation. Page 15
: WEEKLY button
OFF TIMER button
Page 21
: PROGRAM button
: COPY button
TIMER CANCEL
button
• It cancels the timer setting.
Page 21,22
: BACK button
: NEXT button
• WEEKLY TIMER operation.
Page 23
• It cannot be used for the
WEEKLY TIMER operation.
ON TIMER button
Page 22
SELECT button
• It changes the ON/OFF
TIMER and WEEKLY TIMER
settings. Page 21,22,23
CLOCK button
8
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RA Indoor Unit
2.1.2 AUTO · DRY · COOL · HEAT · FAN Operation
AUTO · DRY · COOL · HEAT ·
FAN Operation
The air conditioner operates with the operation mode of your choice.
From the next time on, the air conditioner will operate with the same operation mode.
To start operation
1. Press
and select a operation mode.
• Each pressing of the button advances the mode setting in sequence.
AUTO
2. Press
DRY
COOL
HEAT
FAN
.
•“
” is displayed on the LCD.
• The multi-monitor lamp lights up.
The colour of the lamp varies depending on the
operation mode.
Operation
Multi-monitor lamp
AUTO
Red/Blue
DRY
Green
COOL
Blue
HEAT
Red
FAN
White
Display
To stop operation
Press
again.
•“
” disappears from the LCD.
• The multi-monitor lamp goes off.
NOTE
MODE
HEAT
COOL
DRY
AUTO
FAN
Notes on each operation mode
• Since this air conditioner heats the room by taking heat from outdoor air to indoors, the heating capacity becomes smaller in
lower outdoor temperatures. If the heating effect is insufficient, it is recommended to use another heating appliance in
combination with the air conditioner.
• The heat pump system heats the room by circulating hot air around all parts of the room. After the start of HEAT operation,
it takes some time before the room gets warmer.
• In HEAT operation, frost may occur on the outdoor unit and lower the heating capacity. In that case, the system switches
into defrosting operation to take away the frost.
• During defrosting operation, hot air does not flow out of indoor unit.
• This air conditioner cools the room by blowing the hot air in the room outside, so if the outside temperature is high, the
performance of the air conditioner drops.
• The computer chip works to rid the room of humidity while maintaining the temperature as much as possible. It automatically
controls temperature and airflow rate, so manual adjustment of these functions is unavailable.
• In AUTO operation, the system selects a temperature setting and an appropriate operation mode (COOL or HEAT) based on
the room temperature at the start of the operation.
• The system automatically reselects setting at a regular interval to bring the room temperature to user-setting level.
• This mode is valid for fan only.
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RA Indoor Unit
SiBE12-816_D
To change the temperature setting
Press
.
• The displayed items on the LCD will change whenever either one of the buttons is
pressed.
COOL operation
HEAT operation
AUTO operation
18-32˚C
10-30˚C
18-30˚C
Press
to raise the temperature and press
temperature.
to lower the
DRY or FAN operation
The temperature setting is
not variable.
Operating conditions
Recommended temperature setting
• For cooling: 26-28˚C
• For heating: 20-24˚C
Tips for saving energy
• Be careful not to cool (heat) the room too much.
Keeping the temperature setting at a moderate level helps save energy..
• Cover windows with a blind or a curtain.
Blocking sunlight and air from outdoors increases the cooling (heating) effect.
• Clogged air filters cause inefficient operation and waste energy. Clean them once in about every 2 weeks.
Notes on the operating conditions
• The outdoor unit consumes some power to have its electric components work even while it is not operating.
Connecting outdoor unit RXG25/35: 1-15W
Other outdoor units: 15-20W
The outdoor unit consumes 40 to 55W of power at the time of compressor preheating.
• If you are not going to use the air conditioner for a long period, for example in spring or autumn, turn the breaker off.
• Use the air conditioner in the following conditions.
MODE
Operating conditions
If operation is continued out of this range
COOL
Outdoor temperature : <2/3/4/5MXS> –10-46˚C
<RXG> –10-46˚C
Indoor temperature : 18-32˚C
Indoor humidity : 80% max.
• A safety device may work to stop the operation.
(In multi system, it may work to stop the operation of the
outdoor unit only.)
• Condensation may occur on the indoor unit and drip.
• A safety device may work to stop the operation.
HEAT
Outdoor temperature : <2MXS> –10-24˚C
<3/4/5MXS> –15-24˚C
<RXG> –15-24˚C
Indoor temperature : 10-30˚C
DRY
Outdoor temperature : <2/3/4/5MXS> –10-46˚C
<RXG> –10-46˚C
Indoor temperature : 18-32˚C
Indoor humidity : 80% max.
• A safety device may work to stop the operation.
• Condensation may occur on the indoor unit and drip.
• Operation outside this humidity or temperature range may cause a safety device to disable the system.
12
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RA Indoor Unit
2.1.3 Adjusting the Airflow Direction and Rate
Adjusting the Airflow Direction
and Rate
You can adjust the airflow direction to increase your comfort.
To start auto swing
Upper and lower airflow direction
Press
.
•“
” is displayed on the LCD.
• The flaps (horizontal blades) will begin to swing.
To set the flaps at desired position
• This function is effective while flaps are in auto swing mode.
Press
when the flaps have reached the
desired position.
•“
” disappears from the LCD.
To adjust the louvers at desired position
Hold the knob and move the louvers.
• You will find a knob on the left-side and the right-side
blades.
• When the unit is installed in the corner of a room, the
direction of the louvers (vertical blades) should be facing
away from the wall.
If they face the wall, the wall will block off the wind,
causing the cooling (or heating) efficiency to drop.
• If the flaps are in the way, press
on the remote
controller to move the flaps out of the way and then adjust
the louvers.
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RA Indoor Unit
SiBE12-816_D
To adjust the airflow rate setting
Press
.
• Each pressing of
Auto
advances the airflow rate setting in sequence.
Indoor unit quiet
High
Middle high
Low
Middle low
Middle
• When the airflow is set to “
”, indoor unit quiet operation will start and the noise
from the unit will become quieter.
• In indoor unit quiet operation, the airflow rate is set to a weak level.
• In DRY mode, the airflow rate setting is not variable.
NOTE
Note on the angles of the flaps
• The flaps swinging range depends on the operation. (See the figure.)
COOL and
DRY operation
COMFORT
AIRFLOW
HEAT operation
5˚
10˚
Upper limit
FAN operation
5˚
20˚
Upper limit
60˚
Stop operation
Lower limit
Upper limit
75˚
70˚
75˚
Stop operation
Lower limit
COMFORT AIRFLOW
Stop operation
Lower limit
Note on airflow rate setting
• At smaller airflow rates, the cooling (heating) effect is also smaller.
• If the air conditioner is operated in COOL or DRY operation with the flaps kept stopped in the downward direction, the flaps will automatically
start operating in approximately an hour in order to prevent dew condensation.
CAUTION
• Always use a remote controller to adjust the angles of the flaps. If you attempt to move it forcibly with hand when it is swinging, the mechanism
may be broken.
• Be careful when adjusting the louvers.
Inside the air outlet, a fan is rotating at a high speed.
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RA Indoor Unit
2.1.4 COMFORT AIRFLOW Operation
COMFORT AIRFLOW Operation
The flow of air will be in the upward direction while in COOL operation and in the
downward direction while in HEAT operation, which will provide a comfortable
wind that will not come in direct contact with people.
To start COMFORT AIRFLOW operation
Press
.
• “ ” is displayed on the LCD.
• Airflow rate is set to Auto.
COOL/DRY: The flaps will go up.
HEAT: The flaps will go down.
To cancel COMFORT AIRFLOW operation
Press
again.
• The flaps will return to the memory position from before COMFORT AIRFLOW
operation.
• “
” disappears from the LCD.
COOL operation
HEAT operation
NOTE
Notes on COMFORT AIRFLOW operation
• The flaps position will change, preventing air from blowing directly on the occupants of the room.
• POWERFUL operation and COMFORT AIRFLOW operation cannot be used at the same time.
Priority is given to the function of whichever button is pressed last.
• The airflow rate will be set to Auto. If the upper and lower airflow direction is selected, the COMFORT AIRFLOW operation will be canceled.
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RA Indoor Unit
SiBE12-816_D
2.1.5 INTELLIGENT EYE Operation
INTELLIGENT EYE Operation
“INTELLIGENT EYE” is the infrared sensor which detects the human movement.
If nobody in the room for more than 20 minutes, the operation automatically
changes to energy saving operation.
To start INTELLIGENT EYE operation
Press
.
•“
” is displayed on the LCD.
• The INTELLIGENT EYE lamp lights up.
Display
To cancel INTELLIGENT EYE operation
Press
again.
•“
” disappears from the LCD.
• The INTELLIGENT EYE lamp goes off.
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INTELLIGENT EYE Operation
[Example]
When somebody in the room
When nobody in the room
20 minutes after, start
energy saving operation.
Normal operation
• The air conditioner is in normal
operation while the sensor is
detecting the movement of people.
• The set temperature is shifted in
±2˚C steps.
Somebody back in the room
Back to normal operation.
• The air conditioner will return to
normal operation when the sensor
detects the movement of people
again.
INTELLIGENT EYE operation is useful for energy saving
Energy saving operation
• If no presence detected in the room for 20 minutes, the energy saving operation will start.
• This operation changes the temperature –2˚C in HEAT / +2˚C in COOL / +1˚C in DRY operation from set temperature.
• This operation decreases the airflow rate slightly in FAN operation only.
NOTE
Notes on INTELLIGENT EYE operation
• Application range is as follows.
Vertical angle 90˚
(Side view)
Horizontal angle 110˚
(Top view)
7m
55˚ 55˚
7m
90˚
• Sensor may not detect moving objects further than 7m away. (Check the application range.)
• Sensor detection sensitivity changes according to indoor unit location, the speed of passersby, temperature range, etc.
• The sensor also mistakenly detects pets, sunlight, fluttering curtains and light reflected off of mirrors as passersby.
• INTELLIGENT EYE operation will not go on during POWERFUL operation.
• NIGHT SET mode
Page 21 will not go on during use of INTELLIGENT EYE operation.
CAUTION
• Do not place large objects near the sensor.
Also keep heating units or humidifiers outside the sensor’s detection area. This sensor can detect undesirable objects.
• Do not hit or violently push the INTELLIGENT EYE sensor. This can lead to damage and malfunction.
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2.1.6 POWERFUL Operation
POWERFUL Operation
POWERFUL operation quickly maximizes the cooling (heating) effect in any
operation mode. You can get the maximum capacity.
To start POWERFUL operation
Press
during operation.
• POWERFUL operation ends in 20 minutes. Then the system automatically operates
again with the previous settings which were used before POWERFUL operation.
•“
” is displayed on the LCD.
To cancel POWERFUL operation
Press
•“
again.
” disappears from the LCD.
[Example]
Normal operation
POWERFUL operation
• When you want to get the
cooling effect quickly, start
the POWERFUL operation.
• POWERFUL operation will
work for 20 minutes.
Back to normal
operation
NOTE
Notes on POWERFUL operation
• When using POWERFUL operation, there are some functions which are not available.
• POWERFUL operation cannot be used together with ECONO, COMFORT AIRFLOW or OUTDOOR UNIT QUIET operation.
Priority is given to the function of whichever button is pressed last.
• POWERFUL operation can only be set when the unit is running. Pressing
causes the settings to be canceled, and the “
” disappears
from the LCD.
• POWERFUL operation will not increase the capacity of the air conditioner if the air conditioner is already in operation with its maximum
capacity demonstrated.
• In COOL and HEAT operation
To maximize the cooling (heating) effect, the capacity of outdoor unit must be increased and the airflow rate be fixed to the maximum setting.
The temperature and airflow settings are not variable.
• In DRY operation
The temperature setting is lowered by 2.5˚C and the airflow rate is slightly increased.
• In FAN operation
The airflow rate is fixed to the maximum setting.
• In AUTO operation
To maximize the cooling (heating) effect, the capacity of outdoor unit must be increased and the airflow rate be fixed to the maximum setting.
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2.1.7 OUTDOOR UNIT QUIET Operation
OUTDOOR UNIT QUIET
Operation
OUTDOOR UNIT QUIET operation lowers the noise level of the outdoor unit by
changing the frequency and fan speed on the outdoor unit. This function is
convenient during the night.
To start OUTDOOR UNIT QUIET operation
Press
•“
.
” is displayed on the LCD.
To cancel OUTDOOR UNIT QUIET operation
Press
•“
[Example]
again.
” disappears from the LCD.
Using the OUTDOOR UNIT QUIET operation during the night.
• The noise level of the outdoor unit will be lower.
This is convenient when you need to consideration for your neighborhood.
NOTE
Notes on OUTDOOR UNIT QUIET operation
• This function is available in COOL, HEAT, and AUTO operation.
This is not available in FAN and DRY operation.
• POWERFUL operation and OUTDOOR UNIT QUIET operation cannot be used at the same time.
Priority is given to the function of whichever button is pressed last.
• Even the operation is stopped using the remote controller or the indoor unit ON/OFF switch when using OUTDOOR UNIT QUIET operation,
“
” will remain on the remote controller display.
• OUTDOOR UNIT QUIET operation will drop neither the frequency nor fan speed if they have been already dropped low enough.
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2.1.8 ECONO Operation
ECONO Operation
ECONO operation is a function which enables efficient operation by limiting the
maximum power consumption value.
This function is useful for cases in which attention should be paid to ensure a
circuit breaker will not trip when the product runs alongside other appliances.
To start ECONO operation
Press
•“
during operation.
” is displayed on the LCD.
To cancel ECONO operation
Press
•“
again.
” disappears from the LCD.
[Example]
Normal operation
ECONO operation
• In case the air conditioner and other
appliances which require high power
consumption are used at same time, a circuit
breaker may trip if the air conditioner operate
with its maximum capacity.
Running current and
power consumption
Normal
operation
• The maximum power consumption of the air
conditioner is limited by using ECONO
operation.
The circuit breaker will hardly trip even if the
air conditioner and other appliances are used
at same time.
• This diagram is a representation for illustrative
purposes only.
Maximum during
The maximum running current and power
normal operation
consumption of the air conditioner in ECONO
Maximum during
operation vary with the connecting outdoor
ECONO operation
unit.
ECONO
operation
Time
From start up until set temperature is reached
NOTE
Notes on ECONO operation
• ECONO operation can only be set when the unit is running. Pressing
causes the settings to be canceled, and the “
” disappears
from the LCD.
• ECONO operation is a function which enables efficient operation by limiting the power consumption of the outdoor unit (operating
frequency).
• ECONO operation functions in AUTO, COOL, DRY, and HEAT operation.
• POWERFUL and ECONO operation cannot be used at the same time.
Priority is given to the function of whichever button is pressed last.
• If the level of power consumption is already low, ECONO operation will not drop the power consumption.
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2.1.9 OFF TIMER Operation
OFF TIMER Operation
Timer functions are useful for automatically switching the air conditioner on or off
at night or in the morning. You can also use OFF TIMER and ON TIMER in
combination.
To use OFF TIMER operation
• Check that the clock is correct.
If not, set the clock to the present time.
1. Press
.
•“
•“
•“
” is displayed on the LCD.
” blinks.
” and day of the week disappear from the LCD.
2. Press
until the time setting reaches the
point you like.
• Each pressing of either button increases or decreases the time setting by 10 minutes.
Holding down either button changes the time setting rapidly .
3. Press
again.
•“
” and setting time are displayed on the LCD.
• The multi-monitor lamp blinks twice.
The TIMER lamp periodically lights orange. Page 5
Display
To cancel OFF TIMER operation
Press
•“
•“
.
” and setting time disappear from the LCD.
” and day of the week are displayed on the LCD.
NOTE
Notes on TIMER operation
• When TIMER is set, the present time is not displayed.
• Once you set ON/OFF TIMER, the time setting is kept in the memory. The memory is canceled when remote controller batteries are
replaced.
• When operating the unit via the ON/OFF TIMER, the actual length of operation may vary from the time entered by the user. (Maximum
approx. 10 minutes)
NIGHT SET mode
• When the OFF TIMER is set, the air conditioner automatically adjusts the temperature setting (0.5˚C up in COOL, 2.0˚C down in HEAT) to
prevent excessive cooling (heating) for your pleasant sleep.
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2.1.10 ON TIMER Operation
ON TIMER Operation
To use ON TIMER operation
• Check that the clock is correct.
If not, set the clock to the present time.
1. Press
.
•“
•“
•“
” is displayed on the LCD.
” blinks.
” and day of the week disappear from the LCD.
2. Press
until the time setting reaches the
point you like.
• Each pressing of either button increases or decreases the time setting by 10 minutes.
Holding down either button changes the setting rapidly.
3. Press
again.
•“
” and setting time are displayed on the LCD.
• The multi-monitor lamp blinks twice.
The TIMER lamp periodically lights orange.
Display
To cancel ON TIMER operation
Press
•“
•“
.
” and setting time disappear from the LCD.
” and day of the week are displayed on the LCD.
To combine ON TIMER and OFF TIMER
• A sample setting for combining the 2 timers is shown below.
(Example)
Present time: 23:00 (The unit operating)
OFF TIMER at 0:00
Combined
ON TIMER at 14:00
NOTE
In the following cases, set the timer again.
• After a breaker has turned off.
• After a power failure.
• After replacing batteries in the remote controller.
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2.1.11 WEEKLY TIMER Operation
WEEKLY TIMER Operation
Up to 4 timer settings can be saved for each day of the week. It is convenient if the WEEKLY TIMER is set
according to the family’s life style.
Using in these cases of WEEKLY TIMER
Example: The same timer settings are made for the week from Monday through Friday while different timer settings are
made for the weekend.
[Monday]
Make timer settings up to programs 1-4.
Page 24
Program 1
Program 2
Program 3
ON
OFF
ON
Program 4
OFF
25˚C
27˚C
6:00
8:30
ON
[Tuesday]
to
[Friday]
17:30
OFF
22:00
ON
OFF
Use the copy mode to make settings for Tuesday to Friday, because these settings are the same as
those for Monday. Page 26
Program 1
Program 2
Program 3
ON
OFF
ON
Program 4
OFF
25˚C
27˚C
6:00
[Saturday]
[Sunday]
8:30
17:30
22:00
No timer settings
Make timer settings up to programs 1-4.
Page 24
Program 1
Program 2
Program 3
Program 4
ON
OFF
OFF
ON
19:00
21:00
25˚C
8:00
ON
27˚C
10:00
OFF
OFF
27˚C
ON
• Up to 4 reservations per day and 28 reservations per week can be set in the WEEKLY TIMER. The effective use of the
copy mode ensures ease of making reservations.
• The use of ON-ON-ON-ON settings, for example, makes it possible to schedule operating mode and set temperature
changes. Furthermore, by using OFF-OFF-OFF-OFF settings, only the turn off time of each day can be set. This will turn
off the air conditioner automatically if the user forgets to turn it off.
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To use WEEKLY TIMER operation
Setting mode
• Make sure the day of the week and time are set. If not, set the day of the week and time.
Program 1
Program 2
ON
OFF
[Monday]
Program 3
Program 4
ON
25˚C
OFF
27˚C
6:00
8:30
17:30
22:00
Setting Displays
Day and number
1. Press
ON/OFF
Time
Temperature
.
• The day of the week and the reservation number of the current day will be displayed.
• 1 to 4 settings can be made per day.
2. Press
to select the desired day of the week
and reservation number.
• Pressing
3. Press
changes the reservation number and the day of the week.
.
• The day of the week and reservation number will be set.
•“
” and “ON” blink.
4. Press
• Pressing
Pressing
sequence.
ON TIMER
to select the desired mode.
changes “ON” or “OFF” setting in sequence.
alternates the following items appearing on the LCD in rotational
OFF TIMER
blank
• In case the reservation has already been set, selecting “blank” deletes the
reservation.
• Go to step 9 if “blank” is selected.
• To return to the day of the week and reservation number setting, press
5. Press
.
.
• The ON/OFF TIMER mode will be set.
•“
” and the time blink.
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WEEKLY TIMER Operation
6. Press
to select the desired time.
• The time can be set between 0:00 and 23:50 in 10 minute intervals.
• To return to the ON/OFF TIMER mode setting, press
• Go to step 9 when setting the OFF TIMER.
7. Press
.
.
• The time will be set.
•“
” and the temperature blink.
8. Press
to select the desired temperature.
• The temperature can be set between 10˚C and 32˚C.
COOL or AUTO: The unit operates at 18˚C even if it is set at 10 to 17˚C.
HEAT or AUTO: The unit operates at 30˚C even if it is set at 31 to 32˚C.
• To return to the time setting, press
.
• The set temperature is only displayed when the mode setting is on.
9. Press
.
• Be sure to direct the remote controller toward the indoor unit and check for a receiving
tone and flashing the multi-monitor lamp.
• The temperature is set while in ON TIMER operation, and the time is set while in OFF
TIMER operation.
• The next reservation screen will appear.
• To continue further settings, repeat the procedure from step 4.
• The multi-monitor lamp blinks twice.
The TIMER lamp periodically lights orange. Page 5
The multi-monitor lamp will not blink orange if all the reservation settings are deleted.
Display
10. Press
to complete the setting.
•“
” is displayed on the LCD and WEEKLY TIMER operation is activated.
• A reservation made once can be easily copied and the same settings used for another
day of the week. Refer to copy mode. Page 26
NOTE
Notes on WEEKLY TIMER operation
• Do not forget to set the clock on the remote controller first.
• The day of the week, ON/OFF TIMER mode, time and set temperature (only for ON TIMER mode) can be set with WEEKLY TIMER. Other
settings for ON TIMER are based on the settings just before the operation.
• Both WEEKLY TIMER and ON/OFF TIMER operation cannot be used at the same time. The ON/OFF TIMER operation has priority if it is set
while WEEKLY TIMER is still active. The WEEKLY TIMER will go into standby state, and “
” will disappear from the LCD. When
ON/OFF TIMER is up, the WEEKLY TIMER will automatically become active.
• Shutting the breaker off, power failure, and other similar events will render operation of the indoor unit’s internal clock inaccurate. Reset the
clock.
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Copy mode
• A reservation made once can be copied to another day of the week. The whole reservation
of the selected day of the week will be copied.
Program 1
Program 2 Program 3
ON
[Monday]
COPY
OFF
25˚C
6:00
17:30
22:00
Program 2 Program 3
ON
[Tuesday]
to
[Friday]
OFF
27˚C
8:30
Program 1
Program 4
ON
OFF
ON
25˚C
6:00
Program 4
OFF
27˚C
8:30
17:30
22:00
Setting Displays
Confirmation
Copy
1. Press
Paste
Normal
.
2. Press
to confirm the day of the week to be
copied.
3. Press
.
• The whole reservation of the selected day of the week will be copied.
4. Press
to select the destination day of the
week.
5. Press
.
• Be sure to direct the remote controller toward the indoor unit and check for a receiving
tone and flashing the multi-monitor lamp.
• The reservation will be copied to the selected day of the week. The whole reservation
of the selected day of the week will be copied.
• To continue copying the settings to other days of the week, repeat step 4 and step 5.
• The multi-monitor lamp blinks twice. The TIMER lamp periodically lights orange.
6. Press
•“
to complete the setting.
” is displayed on the LCD and WEEKLY TIMER operation is activated.
NOTE
Note on copy mode
• The entire reservation of the source day of the week is copied in the copy mode.
In the case of making a reservation change for any day of the week individually after copying the content of weekly reservations, press
and change the settings in the steps of setting mode. Page 24
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WEEKLY TIMER Operation
Confirming a reservation
• The reservation can be confirmed.
Setting Displays
Normal
Confirmation
1. Press
.
• The day of the week and the reservation number of the current day will be displayed.
2. Press
to select the day of the week and the
reservation number to be confirmed.
• Pressing
displays the reservation details.
• To change the confirmed reserved settings, select the reservation number and press
.
The mode is switched to setting mode. Go to setting mode step 2.
3. Press
Page 24
to exit confirming mode.
To deactivate WEEKLY TIMER operation
Press
the LCD.
while “
” is displayed on
• The “
”will disappear from the LCD.
• The TIMER lamp goes off.
• To reactivate the WEEKLY TIMER operation, press
• If a reservation deactivated with
mode will be used.
again.
is activated once again, the last reservation
CAUTION
• If not all the reservation settings are reflected, deactivate the WEEKLY TIMER operation once. Then press
WEEKLY TIMER operation.
again to reactivate the
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To delete reservations
The individual reservation
1. Press
.
• The day of the week and the reservation number will be displayed.
2. Press
to select the day of the week and the
reservation number to be deleted.
3. Press
•“
.
” and “ON” or “OFF” blink.
4. Press
• Pressing
and select “ blank ”.
changes ON/OFF TIMER mode.
Pressing
alternates the following items appearing on the LCD in rotational sequence.
• The reservation will be no setting with selecting “blank”.
ON TIMER
OFF TIMER
5. Press
blank
.
• The selected reservation will be deleted.
6. Press
.
• If there are still other reservations, WEEKLY TIMER operation will be activated.
The reservations for each day of the week
• This function can be used for deleting reservations for each day of the week.
• It can be used while confirming or setting reservations.
1. Press
to select the day of the week to be
deleted.
2. Hold
for 5 seconds.
• The reservation of the selected day of the week will be deleted.
All reservations
Hold
for 5 seconds while normal display.
• Be sure to direct the remote controller toward the indoor unit and check for a receiving tone.
• This operation is not effective while WEEKLY TIMER is being set.
• All reservations will be deleted.
28
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2.2
RA Indoor Unit
FTXS, FVXS Series - ARC452A1, A3
2.2.1 Manual Contents and Reference Page
Model Series
Read Before Operation
Names of Parts
Operation
AUTO · DRY · COOL · HEAT · FAN
Operation
Adjusting the Airflow Direction
COMFORT AIRFLOW and INTELLIGENT
EYE Operation
POWERFUL Operation
OUTDOOR UNIT QUIET Operation
ECONO Operation
TIMER Operation
WEEKLY TIMER Operation
Note for Multi System
Drawing No.
Wall Mounted Type
FTXS20-50G2V1B
FTXS20-50J2V1B
Floor Standing Type
123
126
129 ★
129 ★
131 ★
135
133
—
138 ★
139 ★
140 ★
141 ★
143 ★
148 ★
3P207037-1D
3P266959-2A
138 ★
139 ★
140 ★
141 ★
143 ★
148 ★
3P191290-1K
FVXS25-50FV1B
★: Illustrations are for FTXS20-50G2V1B as representative.
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2.2.2 Names of Parts
FTXS20/25/35/42/50G2V1B, FTXS20/25/35/42/50J2V1B
Names of parts
Indoor Unit
1
2
3
4
5
7
10
11
6
9
8
16
14
13
15
12
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Indoor Unit
1. Air filter
2. Titanium Apatite Photocatalytic
Air-Purifying Filter:
• These filters are attached to the inside
of the air filters.
3. Air inlet
4. Front panel
5. Panel tab
6. Room temperature sensor:
• It senses the air temperature around the
unit.
7. INTELLIGENT EYE sensor
8. Display
9. Air outlet
10. Horizontal blades (flaps)
11. Vertical blades (louvers):
• The louvers are inside of the air outlet.
Operation Manual
12. Indoor Unit ON/OFF switch
• Push this switch once to start operation.
Push once again to stop it.
• The operation mode refers to the following
table.
Model
COOLING
ONLY
HEAT
PUMP
Mode
Temperature
setting
Airflow
rate
COOL
22˚C
AUTO
AUTO
25˚C
AUTO
• This switch is useful when the
remote controller is missing.
13. Operation lamp (green)
14. TIMER lamp (yellow)
15. INTELLIGENT EYE lamp (green)
16. Signal receiver:
• It receives signals from the remote controller.
• When the unit receives a signal, you will hear
a short beep.
• Operation start ........beep-beep
• Settings changed .....beep
• Operation stop..........beeeeep
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Remote Controller
1
<Open the front cover>
2
5
3
6
4
9
7
8
13
14
15
17
10
11
12
16
18
<ARC452A3>
1. Signal transmitter:
• It sends signals to the indoor unit.
2. Display:
• It displays the current settings.
(In this illustration, each section is
shown with its displays ON for the
purpose of explanation.)
3. FAN setting button:
• It selects the airflow rate setting.
4. POWERFUL button:
POWERFUL operation
5. ON/OFF button:
• Press this button once to start operation.
Press once again to stop it.
6. TEMPERATURE adjustment buttons:
• It changes the temperature setting.
7. MODE selector button:
• It selects the operation mode.
(AUTO/DRY/COOL/HEAT/FAN)
11. SWING button:
• Vertical blades (louvers)
12. COMFORT/SENSOR button:
• COMFORT AIRFLOW and INTELLIGENT
EYE operation
13. WEEKLY/PROGRAM/COPY/BACK/NEXT
button:
• WEEKLY TIMER operation
14. SELECT button:
• It changes the ON/OFF TIMER and
WEEKLY TIMER settings.
15. OFF TIMER button
16. ON TIMER button
17. TIMER CANCEL button:
• It cancels the timer setting.
• It cannot be used for the WEEKLY
TIMER operation.
18. CLOCK button
8. QUIET button:
OUTDOOR UNIT QUIET operation
9. ECONO button:
ECONO operation
10. SWING button:
• Horizontal blades (flaps)
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FVXS25/35/50FV1B
Names of parts
Indoor Unit
1
2
8
3
7
12
10
4
2
9
5
11
6
Opening the Front Panel
Air outlet selection switch
•
This setting blows air from upper outlet only.
•
This setting automatically decides a blow
pattern depending on mode and conditions.
• This setting is
recommended.
13
The unit is shipped from the
factory with this setting.
14
CAUTION
Before opening the front panel, be sure to stop the operation and turn the breaker OFF.
Do not touch the metal parts on the inside of the indoor unit, as it may result in injury.
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Indoor Unit
1. Titanium Apatite Photocatalytic
Air-Purifying Filter:
• These filters are attached to the inside of
the air filters.
2. Air outlet
3. Display
4. Front panel
5. Vertical blades (louvers)
• The louvers are inside of the air outlet.
6. Air inlet
7. Air filter
8. Horizontal blade (flap)
9. Operation lamp (green)
10. TIMER lamp (yellow)
11. Indoor Unit ON/OFF switch:
• Push this switch once to start operation.
Push once again to stop it.
• The operation mode refers to the following
table.
Temperature Airflow
Mode
Model
setting
rate
COOLING
COOL
AUTO
22˚C
ONLY
HEAT
AUTO
AUTO
25˚C
PUMP
• This switch is useful when the remote
controller is missing.
12. Signal receiver:
• It receives signals from the remote
controller.
• When the unit receives a signal, you will
hear a short beep.
• Operation start ........beep-beep
• Settings changed .....beep
• Operation stop..........beeeeep
13. Air outlet selection switch
14. Room temperature sensor:
• It senses the air temperature around the unit.
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Remote Controller
1
2
5
3
<Open the lid>
6
4
7
8
11
12
13
15
9
10
14
16
<ARC452A1>
1. Signal transmitter:
• It sends signals to the indoor unit.
2. Display:
• It displays the current settings.
(In this illustration, each section is shown
with all its displays ON for the purpose of
explanation.)
3. FAN setting button:
• It selects the airflow rate setting.
4. POWERFUL button:
POWERFUL operation
5. ON/OFF button:
• Press this button once to start operation.
Press once again to stop it.
6. TEMPERATURE adjustment buttons:
• It changes the temperature setting.
7. MODE selector button:
• It selects the operation mode.
(AUTO/DRY/COOL/HEAT/FAN)
8. QUIET button:
OUTDOOR UNIT QUIET operation
Operation Manual
9. ECONO button:
ECONO operation
10. SWING button:
• Adjusting the Airflow Direction
11. WEEKLY/PROGRAM/COPY/BACK/NEXT
button:
WEEKLY TIMER operation
12. SELECT button:
• It changes the ON/OFF TIMER and
WEEKLY TIMER settings.
13. OFF TIMER button
14. ON TIMER button
15. TIMER CANCEL button:
• It cancels the timer setting.
• It cannot be used for the WEEKLY TIMER operation.
16. CLOCK button
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2.2.3 AUTO · DRY · COOL · HEAT · FAN Operation
AUTO · DRY · COOL · HEAT · FAN Operation
The air conditioner operates with the operation
mode of your choice.
From the next time on, the air conditioner will
operate with the same operation mode.
To start operation
1. Press “MODE selector button”
and select a operation mode.
• Each pressing of the button advances
the mode setting in sequence.
: AUTO
: DRY
5
4
: COOL
: HEAT
: FAN
1
2, 3
Cooling only
model
Heat pump
model
2. Press “ON/OFF button”.
• The OPERATION lamp lights up.
To stop operation
3. Press “ON/OFF button” again.
• Then OPERATION lamp goes off.
To change the temperature setting
4. Press “TEMPERATURE adjustment button”.
DRY or FAN mode
AUTO or COOL or HEAT mode
Press “ ” to raise the temperature and press
“
” to lower the temperature.
The temperature setting is not variable.
129
Set to the temperature you like.
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RA Indoor Unit
To change the airflow rate setting
5. Press “FAN setting button”.
DRY mode
AUTO or COOL or HEAT or FAN mode
Five levels of airflow rate setting from “
The airflow rate setting is not variable.
plus “
”“
” to “
”
” are available.
• Indoor unit quiet operation
When the airflow is set to “ ”, the noise from the indoor unit will become quieter.
Use this when making the noise quieter.
NOTE
Note on HEAT operation
• Since this air conditioner heats the room by taking heat from outdoor air to indoors, the heating
capacity becomes smaller in lower outdoor temperatures. If the heating effect is insufficient, it
is recommended to use another heating appliance in combination with the air conditioner.
• The heat pump system heats the room by circulating hot air around all parts of the room.
After the start of heating operation, it takes some time before the room gets warmer.
• In heating operation, frost may occur on the outdoor unit and lower the heating capacity. In
that case, the system switches into defrosting operation to take away the frost.
• During defrosting operation, hot air does not flow out of indoor unit.
• A pinging sound may be heard during defrosting operation, which, however does not mean
that the air conditioner has failures.
Note on COOL operation
• This air conditioner cools the room by blowing the hot air in the room outside, so if the
outside temperature is high, the performance of the air conditioner drops.
Note on DRY operation
• The computer chip works to rid the room of humidity while maintaining the temperature as
much as possible. It automatically controls temperature and airflow rate, so manual
adjustment of these functions is unavailable.
Note on AUTO operation
• In AUTO operation, the system selects a temperature setting and an appropriate operation
mode (COOL or HEAT) based on the room temperature at the start of the operation.
• The system automatically reselects setting at a regular interval to bring the room
temperature to user-setting level.
• If you do not like AUTO operation, manually change the set temperature.
Note on airflow rate setting
• At smaller airflow rates, the cooling (heating) effect is also smaller.
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2.2.4 Adjusting the Airflow Direction
FTXS20/25/35/42/50G2V1B, FTXS20/25/35/42/50J2V1B
Adjusting the Airflow Direction
You can adjust the airflow direction to increase
your comfort.
To adjust the horizontal
blades (flaps)
1. Press “SWING button
”.
• “
” is displayed on the LCD and
the flaps will begin to swing.
2. When the flaps have reached
the desired position, press
“SWING button
” once
more.
• The flaps will stop moving.
1, 2
• “
3, 4
” disappears from the LCD.
To adjust the vertical
blades (louvers)
3. Press “SWING button
• “
”.
” is displayed on the LCD.
4. When the louvers have reached the desired position, press the
“SWING button
” once more.
• The louvers will stop moving.
• “
131
” disappears from the LCD.
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To start 3-D Airflow
1. 3. Press the “SWING button
the “ ” and “
will move in turn.
” and the “SWING button
”:
” display will light up and the flap and louvers
To cancel 3-D Airflow
2. 4. Press either the “SWING button
” or the “SWING button
”.
COMFORT AIRFLOW operation
• Check COMFORT AIRFLOW operation in the section of “COMFORT AIRFLOW
Operation” and “INTELLIGENT EYE Operation”.
Notes on flaps and louvers angles
• When “SWING button” is selected, the
flaps swinging range depends on the
operation mode. (See the figure.)
Three-Dimensional (3-D) Airflow
• Using three-dimensional airflow circulates
cold air, which tends to collected at the bottom
of the room, and hot air, which tends to collect
near the ceiling, throughout the room,
preventing areas of cold and hot developing.
ATTENTION
• Always use a remote controller to adjust the
angles of the flaps and louvers. If you
attempt to move it forcibly with hand when it
is swinging, the mechanism may be broken.
• Always use a remote controller to adjust the
louvers angles. In side the air outlet, a fan
is rotating at a high speed.
In DRY mode or
COOL mode
COMFORT AIRFLOW 5˚
15˚
Upper limit 50˚
Lower limit
In HEAT mode
Stop operation
30˚
Upper limit 70˚
Lower limit
80˚
COMFORT AIRFLOW
In FAN mode
Upper limit
5˚
80˚
Lower limit
Operation Manual
Stop operation
Stop operation
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Adjusting the Airflow Direction
You can adjust the airflow direction to increase
your comfort.
To adjust the
horizontal blade (flap)
1. Press “SWING button
”.
• “
” is displayed on the LCD and
the flaps will begin to swing.
2. When the flap has reached
the desired position,
press “SWING button ”
once more.
• The flap will stop moving.
• “
” disappears from the LCD.
1, 2
To adjust the vertical
blades (louvers)
Hold the knob and move the louver.
(You will find a knob on the left-side and the
rightside blades.)
Notes on flap and louvers angle
• Unless “SWING” is selected, you should set the
flap at a near-horizontal angle in HEAT mode
and at a upward position in COOL or DRY mode
to obtain the best performance.
HEAT
COOL/
DRY
ATTENTION
• When adjusting the flap by hand, turn off the unit,
and use the remote controller to restart the unit.
• Be careful when adjusting the louvers. Inside the
air outlet, a fan is rotating at a high speed.
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Airflow
Airflow selection
• Make airflow selection according to what suits you.
When setting the airflow selection switch to
.
• Air conditioner automatically decides the appropriate blowing pattern depending on the
operating mode/situation.
Operating mode
COOL mode
Situation
• When the room has become
fully cool, or when one hour
has passed since turning on
the air conditioner.
• At start of operation or other
times when the room is not
fully cooled.
• At times other than below.
(Normal time.)
HEAT mode
Blowing pattern
• So that air does not come into
direct contact with people, air is
blown upper air outlet, room
temperature is equalized.
• Air is blown from the upper and
lower air outlets for high speed
cooling during COOL mode,
and for filling the room with
warm air during HEAT mode.
• At start or when air
temperature is low.
• So that air does not come into
direct contact with people. Air
is blown upper air outlet.
• During Dry mode, so that cold air does not come into direct contact with people, air is blown
upper air outlet.
When setting the air outlet selection switch to
.
• Regardless of the operating mode or situation, air blows from the upper air outlet.
• Use this switch when you do not want air coming out of the lower air outlet. (While sleeping etc.)
CAUTION
• Do not try to adjust the flap by hand.
• When adjusting by hand, the mechanism may not operate properly or condensation may drip
from air outlets.
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2.2.5 COMFORT AIRFLOW and INTELLIGENT EYE Operation
COMFORT AIRFLOW and
INTELLIGENT EYE Operation
The INTELLIGENT EYE incorporates infrared
sensors to detect the presence of people in the
conditioned room.
When these sensors detect people, the louvers
will adjust the airflow direction to an area where
people are not present. When there are no
people in the sensing areas, the air conditioner
will go into energy-saving mode.
To start operation
1. Press “COMFORT/SENSOR
button” and select an
operation mode.
• Choose the desired operation mode
out of the following sequence.
• Each time the “COMFORT/SENSOR
button” is pressed a different setting
option is displayed on the LCD.
Blank
1, 2
To cancel operation
2. Press “COMFORT/SENSOR
button”.
• Press the button to select “Blank”.
Display
Operation mode
COMFORT AIRFLOW
INTELLIGENT EYE
COMFORT AIRFLOW and
INTELLIGENT EYE
Blank
135
No function
Explanation
The flaps will adjust the airflow direction upward
while cooling, and adjust the airflow direction
downward while heating.
The sensors will detect the movement of people
in the sensing areas and the louvers will adjust
the airflow direction to an area where people are
not present. When there are no people in the
sensing areas, the air conditioner will go into
energy-saving mode.
The air conditioner will be in COMFORT
AIRFLOW operation combined with
INTELLIGENT EYE operation.
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Notes on “COMFORT AIRFLOW Operation”
• The flap position will change, preventing air from blowing directly on the occupants of the room.
• POWERFUL operation and COMFORT AIRFLOW operation cannot be used at the same time.
• The volume of air will be set to AUTO. If the upward and downward airflow direction is
selected, the COMFORT AIRFLOW function will be canceled.
• Priority is given to the function of whichever button is pressed last.
• The COMFORT AIRFLOW function makes the following airflow direction adjustments.
The flaps will move upward while cooling so that the airflow will be directed upward.
The flaps will move downward while heating so that the airflow will be directed downward.
Cooling operation
Heating operation
Notes on “INTELLIGENT EYE Operation”
• The INTELLIGENT EYE sensor according to the following situations.
Vertical angle 90˚
(Side View)
5m
90˚
Area 1
Area 2
A person is detected in
area 1.
Area 1
Area 2
A person is detected in
area 2.
Horizontal angle 110˚
(Top View)
55˚
5m
55˚
Area 1
Area 2
People are detected in
both areas.
(Use the INTELLIGENT EYE
Operation in combination with the
COMFORT AIRFLOW Operation.)
Operation Manual
The air conditioner will go into
energy-saving mode after 20 minutes.
No people are detected in
the areas.
* The wind direction may differ from the
illustrated direction depending on the actions
and movements of the people in the areas.
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COMFORT AIRFLOW and
INTELLIGENT EYE Operation
Notes on “INTELLIGENT EYE Operation”
• While the air conditioner is in INTELLIGENT EYE operation, the louvers will adjust the
airflow direction if there are people in the sensing areas of the INTELLIGENT EYE so that
the leftward or rightward airflow will not be directed to the people.
If no people are detected in either area 1 or 2 in 20 minutes, the air conditioner will go into
energy-saving mode with the set temperature shifted by 2˚C.
The air conditioner may go into energy-saving operation even if there are people in the
areas. This may occur depending on the clothes the people are wearing if there are no
movements of the people in the areas.
• The airflow direction from the louvers will be leftward if there are people in both areas 1 and 2 or if there
is a person right in front of the sensors because the sensors on the both sides will detect the person.
• Due to the position of the sensor, people might be exposed to the airflow of the indoor unit if
they are close to the front side of the indoor unit.
If there are people close to the front side of the indoor unit or in both areas, it is recommended
to use the COMFORT AIRFLOW and INTELLIGENT EYE functions simultaneously. When
both of them are in use, the air conditioner will not direct the airflow towards the people.
• Sensor may not detect moving objects further than 5m away. (Check the application range)
• Sensor detection sensitivity changes according to indoor unit location, the speed of
passersby, temperature range, etc.
• The sensor also mistakenly detects pets, sunlight, fluttering curtains and light reflected off of
mirrors as passersby.
• NIGHT SET MODE will not go on during use of INTELLIGENT EYE operation.
“INTELLIGENT EYE” is useful for Energy Saving
Energy saving operation
• Change the temperature –2˚C in heating / +2˚C in cooling / +2˚C in dry mode from set temperature.
• Decrease the airflow rate slightly in FAN mode only. If no presence detected in the room
during 20 minutes.
To combine “COMFORT AIRFLOW Operation” and
“INTELLIGENT EYE Operation”
• The air conditioner can go into operation with the COMFORT AIRFLOW and
INTELLIGENT EYE functions combined.
The flaps adjust the airflow direction upward (while in cooling operation) and downward
(while in heating operation), during which the sensors of the INTELLIGENT EYE are
working to detect the movement of people. When the sensors detect people, the louvers
will direct the airflow in such way that it will not be blown directly on them. If there are no
people, the air conditioner will go into energy-saving operation after 20 minutes.
CAUTION
• Do not place large objects near the sensor.
Also keep heating units or humidifiers outside the sensor’s detection area. This sensor can
detect undesirable objects.
• Do not hit or violently push the INTELLIGENT EYE sensor. This can lead to damage and malfunction.
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2.2.6 POWERFUL Operation
POWERFUL Operation
POWERFUL operation quickly maximizes the
cooling (heating) effect in any operation mode.
You can get the maximum capacity.
To start POWERFUL
operation
1. Press “POWERFUL button”.
• POWERFUL operation ends in
20 minutes. Then the system
automatically operates again
with the previous settings which were
used before POWERFUL operation.
• “
” is displayed on the LCD.
• When using POWERFUL operation,
there are some functions which are
not available.
1, 2
To cancel POWERFUL
operation
2. Press “POWERFUL button”
again.
• “
” disappears from the LCD.
NOTE
Notes on POWERFUL operation
• POWERFUL Operation cannot be used together with ECONO, QUIET, or COMFORT
Operation.
Priority is given to the function of whichever button is pressed last.
• POWERFUL Operation can only be set when the unit is running. Pressing the operation
stop button causes the settings to be canceled, and the “ ” disappears from the LCD.
• POWERFUL operation will not increase the capacity of the air conditioner if the air
conditioner is already in operation with its maximum capacity demonstrated.
• In COOL and HEAT mode
To maximize the cooling (heating) effect, the capacity of outdoor unit must be increased
and the airflow rate be fixed to the maximum setting.
The temperature and airflow settings are not variable.
• In DRY mode
The temperature setting is lowered by 2.5˚C and the airflow rate is slightly increased.
• In FAN mode
The airflow rate is fixed to the maximum setting.
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2.2.7 OUTDOOR UNIT QUIET Operation
OUTDOOR UNIT QUIET Operation
OUTDOOR UNIT QUIET operation lowers the
noise level of the outdoor unit by changing the
frequency and fan speed on the outdoor unit.
This function is convenient during night.
To start OUTDOOR UNIT
QUIET operation
1. Press “QUIET button”.
• “
” is displayed on the LCD.
To cancel OUTDOOR UNIT
QUIET operation
2. Press “QUIET button” again.
• “
” disappears from the LCD.
1, 2
NOTE
Note on OUTDOOR UNIT QUIET operation
• This function is available in COOL, HEAT, and AUTO modes.
(This is not available in FAN and DRY mode.)
• POWERFUL operation and OUTDOOR UNIT QUIET operation cannot be used at the
same time.
Priority is given to the function of whichever button is pressed last.
• OUTDOOR UNIT QUIET operation will drop neither the frequency nor fan speed if the
frequency and fan speed have been already dropped low enough.
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2.2.8 ECONO Operation
ECONO Operation
ECONO operation is a function which enables
efficient operation by limiting the maximum power
consumption value.
This function is useful for cases in which attention
should be paid to ensure a circuit breaker will not
trip when the product runs alongside other
appliances.
To start ECONO
operation
1. Press “ECONO button”.
•“
” is displayed on the LCD.
To cancel ECONO
operation
1, 2
2. Press “ECONO button” again.
•“
” disappears from the LCD.
Running current and
power consumption
Normal
operation
Maximum during
normal operation
Maximum during
ECONO Mode
ECONO
Mode
Time
From start up until set
temperature is reached
• This diagram is a representation for illustrative purposes only.
* The maximum running current and power consumption of the air conditioner in
ECONO mode vary with the connecting outdoor unit.
NOTE
• ECONO Operation can only be set when the unit is running. Pressing the OFF button
causes the setting to be canceled, and the “ ” disappears from the LCD.
• ECONO operation is a function which enables efficient operation by limiting the power
consumption of the outdoor unit (operating frequency).
• ECONO operation functions in AUTO, COOL, DRY and HEAT modes.
• POWERFUL and ECONO operation cannot be used at the same time.
Priority is given to the function of whichever button is pressed last.
• Power consumption may not drop even if ECONO operation is used of the level of power
consumption is already low.
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2.2.9 TIMER Operation
TIMER Operation
Timer functions are useful for automatically
switching the air conditioner on or off at night or in
the morning. You can also use OFF TIMER and
ON TIMER in combination.
To use OFF TIMER
operation
• Check that the clock is correct.
If not, set the clock to the present time.
1. Press “OFF TIMER button”.
is displayed.
blinks.
2. Press “SELECT button” until
the time setting reaches the
point you like.
• Every pressing of either button
increases or decreases the time
setting by 10 minutes. Holding
down either button changes the
setting rapidly.
3. Press “OFF TIMER button”
again.
1, 3
4
2
• The TIMER lamp lights up.
To cancel the OFF TIMER Operation
4. Press “CANCEL button”.
• The TIMER lamp goes off.
NOTE
• When TIMER is set, the present time is not displayed.
• Once you set ON, OFF TIMER, the time setting is kept in the memory. (The memory is
canceled when remote controller batteries are replaced.)
• When operating the unit via the ON/OFF Timer, the actual length of operation may vary
from the time entered by the user. (Maximum approx. 10 minutes)
NIGHT SET MODE
When the OFF TIMER is set, the air conditioner automatically adjusts the temperature
setting (0.5˚C up in COOL, 2.0˚C down in HEAT) to prevent excessive cooling (heating) for
your pleasant sleep.
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To use ON TIMER
operation
• Check that the clock is correct. If not, set
the clock to the present time.
1. Press “ON TIMER button”.
is displayed.
blinks.
2. Press “SELECT button” until
the time setting reaches the
point you like.
• Every pressing of either button
increases or decreases the time setting
by 10 minutes. Holding down either
button changes the setting rapidly.
3. Press “ON TIMER button”
again.
• The TIMER lamp lights up.
2
1, 3
To cancel ON TIMER
operation
4
4. Press “CANCEL button”.
• The TIMER lamp goes off.
To combine ON TIMER and OFF TIMER
• A sample setting for combining the two timers is shown below.
(Example)
Present time: 23:00
(The unit operating)
OFF TIMER at 0:00
ON TIMER at 14:00
Combined
ATTENTION
In the following cases, set the timer again.
• After a breaker has turned OFF.
• After a power failure.
• After replacing batteries in the remote controller.
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2.2.10 WEEKLY TIMER Operation
WEEKLY TIMER Operation
Up to 4 timer settings can be saved for each day of the week. It is convenient if the WEEKLY TIMER is
set according to the family’s life style.
Using in these cases of WEEKLY TIMER
An example of WEEKLY TIMER settings is shown below.
Example:The same timer settings are made for the week from Monday through
Friday while different timer settings are made for the weekend.
[Monday] Make timer settings up to programs 1-4.
Program 1
Program 2
Program 3
ON
OFF
ON
Program 4
OFF
25˚C
27˚C
6:00
8:30
17:30
25˚C
22:00
27˚C
ON
OFF
ON
OFF
[Tuesday] Use the copy mode to make settings for Tuesday to Friday, because these
to
settings are the same as those for Monday.
Program 2
Program 3
Program 4
[Friday] Program 1
ON
OFF
ON
8:30
17:30
OFF
25˚C
27˚C
6:00
22:00
[Saturday] No timer settings
[Sunday] Make timer settings up to programs 1-4.
Program 1
Program 2
Program 3
Program 4
ON
OFF
OFF
ON
19:00
21:00
25˚C
8:00
27˚C
10:00
25˚C
ON
27˚C
27˚C
OFF
OFF
ON
• Up to 4 reservations per day and 28 reservations per week can be set in the WEEKLY TIMER.
The effective use of the copy mode ensures ease of making reservations.
• The use of ON-ON-ON-ON settings, for example, makes it possible to schedule operating mode
and set temperature changes. Furthermore, by using OFF-OFF-OFF-OFF settings, only the
turn-OFF time of each day can be set. This will turn OFF the air conditioner automatically if the
user forgets to turn it OFF.
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To use WEEKLY TIMER operation
Setting mode
• Make sure the day of the week and time are set.
If not, set the day of the week and time.
Program 1
Program 2 Program 3
ON
[Monday]
OFF
ON
OFF
8:30
17:30
25˚C
6:00
Program 4
27˚C
1. Press “
22:00
button”.
• The day of the week and the reservation
number of the current day will be displayed.
• 1 to 4 settings can be made per day.
2. Press the “SELECT button” to select the desired
day of the week and reservation number.
• Pressing the “SELECT button” changes the
reservation number and the day of the week.
3. Press “NEXT button”.
• The day of the week and reservation number will be set.
• “
” and “
” blink.
1
4. Press “SELECT button” to select the desired mode.
3, 5, 7
• Pressing the “SELECT button” changes
“
” or “
” setting in sequence.
ON
ON TIMER
OFF
OFF TIMER
2, 4, 6
Blank
blank
• In case the reservation has already been set, selecting “blank” deletes the reservation.
• Go to STEP 9 if “blank” is selected.
5. Press “NEXT button”.
• The ON/OFF TIMER mode will be set.
• “
” and the time blink.
6. Press “SELECT button” to select the desired time.
• The time can be set between 0:00 and 23:50 in 10 minute intervals.
• To return to the ON/OFF TIMER mode setting, press “BACK button”.
• Go to STEP 9 when setting the OFF TIMER.
7. Press “NEXT button”.
• The time will be set.
• “
” and the temperature blink.
Setting Displays
Day and number settings
Operation Manual
ON/OFF settings
Time settings
Temperature settings
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WEEKLY TIMER Operation
8. Press “SELECT button” to
select the desired temperature.
• The temperature can be set between
10˚C and 32˚C.
Cooling: The unit operates at 18˚C even
if it is set at 10 to 17˚C.
Heating: The unit operates at 30˚C even if
it is set at 31 to 32˚C.
• To return to the time setting, press
“BACK button”.
• The set temperature is only displayed
when the mode setting is on.
9. Press “NEXT button”.
• The temperature will be set and go to
the next reservation setting.
• To continue further settings, repeat the
procedure from STEP 4.
button” to
10. Press “
complete the setting.
• Be sure to direct the remote controller
toward the indoor unit and check for a
receiving tone and flashing the
operation lamp.
• “
” is displayed on the LCD and
WEEKLY TIMER operation is activated.
• The TIMER lamp lights up.
• A reservation made once can be easily copied
and the same settings used for another day of
the week. Refer to Copy mode .
10
9
8
NOTE
Notes on WEEKLY TIMER operation
• Do not forget to set the clock on the remote control first.
• The day of the week, ON/OFF TIMER mode, time and set temperature (only for ON TIMER
mode) can be set with WEEKLY TIMER. Other settings for ON TIMER are based on the
settings just before the operation.
• Both WEEKLY TIMER and ON/OFF TIMER operation cannot be used at the same time. The
ON/OFF TIMER operation has priority if it is set while WEEKLY TIMER is still active. The
WEEKLY TIMER will go into standby state, and “
” will disappear from the LCD.
When ON/OFF TIMER is up, the WEEKLY TIMER will automatically become active.
• Only the time and set temperature set with the weekly timer are sent with the “
button”.
Set the weekly timer only after setting the operation mode, the fan strength, and the fan
direction ahead of time.
• Shutting the breaker off, power failure, and other similar events will render operation of the
indoor unit’s internal clock inaccurate. Reset the clock.
• The “BACK button” can be used only for the time and temperature settings.
It cannot be used to go back to the reservation number.
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Copy mode
• A reservation made once can be copied
another day of the week. The whole reservation
of the selected day of the week will be copied.
Program 1
Program 2 Program 3
ON
[Monday]
OFF
ON
8:30
17:30
25˚C
6:00
Program 4
OFF
27˚C
22:00
COPY
Program 1 Program 2 Program 3
Program 4
OFF
ON
OFF
[Tuesday] ON
25˚C
27˚C
to
[Friday]
6:00
8:30
17:30
22:00
1. Press “
button”.
2. Press “SELECT button” to confirm
the day of the week to be copied.
3. Press “COPY button” to
activate copy mode.
1, 6
3, 5
• The whole reservation of the selected
day of the week will be copied.
4. Press “SELECT button” to select
the destination day of the week.
5. Press “COPY button”.
2, 4
• The reservation will be copied to the
selected day of the week. The whole reservation of the selected day of the week will be copied.
• To continue copying the settings to other days of the week, repeat STEP 4 and STEP 5.
6. Press “
• “
button” to complete the setting.
” is displayed on the LCD and WEEKLY TIMER operation is activated.
Setting Displays
Confirmation display
Copy display
Paste display
Normal display
NOTE
COPY MODE
• The entire reservation of the source day of the week is copied in the copy mode. In
the case of making a reservation change for any day of the week individually after
copying the content of weekly reservations, press “
button” and change the
settings in the steps of Setting mode .
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WEEKLY TIMER Operation
Confirming a reservation
• The reservation can be confirmed.
1. Press “
button”.
• The day of the week and the reservation number of
the current day will be displayed.
2. Press “SELECT button” to select the
day of the week and the reservation
number to be confirmed.
• Pressing the “SELECT button” displays the
reservation details.
• To change the confirmed reserved settings, select
the reservation number and press “NEXT button”.
The mode is switched to setting mode. Go to
Setting mode STEP 4.
3. Press “
button” to exit
confirming mode.
” is displayed on the LCD and WEEKLY
• “
TIMER operation is activated.
• The TIMER lamp lights up.
Setting Displays
1, 3, 5
Normal display
Confirmation display
4, 7, 8
To deactivate WEEKLY
TIMER operation
4. Press “WEEKLY button” while
“
•
•
•
•
2, 6
” is displayed on the LCD.
The “
” will disappear from the LCD.
The TIMER lamp goes off.
To reactivate the WEEKLY TIMER operation, press the “WEEKLY button” again.
If a reservation deactivated with “WEEKLY button” is activated once again, the last reservation mode will be used.
To delete reservations
The individual reservation
• Refer to Setting mode .
When selecting desired mode at STEP 4 in setting mode, select “blank”. The reservation will be deleted.
The reservations for each day of the week
• This function can be used for deleting reservations for each day of the week.
5. Press “
button”.
6. Select the day of the week to be canceled with the “SELECT button”.
7. Hold the “WEEKLY button” for 5 seconds.
• The reservation of the selected day of the week will be deleted.
All reservations
8. Hold “WEEKLY button” for 5 seconds while normal display.
• Be sure to direct the remote control toward the main unit and check for a receiving tone.
• This operation is not effective while WEEKLY TIMER is being set.
• All reservations will be deleted.
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2.2.11 Note for Multi System
Note for Multi System
〈〈 What is a “Multi System”? 〉〉
This system has one outdoor unit connected to multiple
indoor units.
Outdoor
unit
„ Selecting the operation mode
When more than one indoor unit is operating, priority
is given to the first unit that was turned on.
In this case, set the units that are turned on later to
the same operation mode (*1) as the first unit.
Otherwise, they will enter the Standby Mode, and the
operation lamp will flash; this does not indicate malfunction.
room B
Living
room A
(*1)
• COOL, DRY and FAN mode may be used at the same time.
• AUTO mode automatically selects COOL mode or HEAT mode based on the room temperature.
Therefore, AUTO mode is available when selecting the same operation mode as that of
the room with the first unit to be turned on.
〈CAUTION〉
Normally, the operation mode in the room where the unit is first run is given priority, but the
following situations are exceptions, so please keep this in mind.
If the operation mode of the first room is FAN Mode, then using Heating Mode in any room
after this will give priority to heating. In this situation, the air conditioner running in FAN Mode
will go on standby, and the operation lamp will flash.
„ OUTDOOR UNIT QUIET operation
When using the OUTDOOR UNIT QUIET operation feature with the Multi system, set all indoor
units to OUTDOOR UNIT QUIET operation using their remote controllers.
When clearing OUTDOOR UNIT QUIET operation, clear one of the operating indoor units using
their remote controller.
However OUTDOOR UNIT QUIET operation display remains on the remote controller for other rooms.
We recommend you release all rooms using their remote controllers.
Operation Manual
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RA Indoor Unit
2.3
SiBE12-816_D
FTXG-E, CTXG-E, FLK(X)S, FDK(X)S Series
- ARC433B41, B67, B68, B69, B76
2.3.1 Manual Contents and Reference Page
Model Series
Wall Mounted Type
Floor/Ceiling
Suspended Dual Type
Duct Connected Type
FTXG25/35EV1BW(S)
CTXG50EV1BW(S)
FLK(X)S25-50BAVMB
FDK(X)S25/35EAVMB
FDK(X)S50CVMB
150
151
152
153
153
153
Read Before Operation
Remote Controller
Operation
AUTO · DRY · COOL · HEAT · FAN
Operation ★1
Adjusting the Airflow Direction
155
157
—
POWERFUL Operation ★1
159
159
159
OUTDOOR UNIT QUIET Operation ★1
160
160
160
—
161
161
HOME LEAVE Operation ★2
INTELLIGENT EYE Operation
163
—
—
TIMER Operation ★1
165
165
165
Note for Multi System
167
167
167
3P194513-2C
3P194444-5C
3P196326-9C
Drawing No.
★1 : Illustrations are for wall mounted type as representative.
★2 : Illustrations are for duct connected type as representative.
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2.3.2 Remote Controller
FTXG25/35EV1BW(S), CTXG50EV1BW(S)
„ Remote Controller
1
2
5
3
6
4
9
7
10
8
11
13
12
16
14
18
17
15
< ARC433B41 >
1. Signal transmitter:
• It sends signals to the indoor unit.
2. Display:
• It displays the current settings.
(In this illustration, each section is shown with all
its displays ON for the purpose of explanation.)
3. SENSOR button: INTELLIGENT EYE operation
4. POWERFUL button:
POWERFUL operation
5. TEMPERATURE adjustment buttons:
• It changes the temperature setting.
6. ON/OFF button:
• Press this button once to start operation.
Press once again to stop it.
7. MODE selector button:
• It selects the operation mode.
(AUTO/DRY/COOL/HEAT/FAN)
Operation Manual
8. QUIET button: OUTDOOR UNIT QUIET
operation
9. FAN setting button:
• It selects the air flow rate setting.
10. SWING button:
• Flap (Horizontal blade)
11. SWING button:
• Louvers (Vertical blades)
12. COMFORT AIRFLOW mode button
13. ON TIMER button
14. OFF TIMER button
15. TIMER Setting button:
• It changes the time setting.
16. TIMER CANCEL button:
• It cancels the timer setting.
17. CLOCK button
18. RESET button:
• Restart the unit if it freezes.
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FLK(X)S25/35/50BAVMB
„ Remote Controller
1
2
5
3
6
4
9
10
7
8
14
11
16
15
13
12
< ARC433B67, B68 >
1. Signal transmitter:
• It sends signals to the indoor unit.
2. Display:
• It displays the current settings.
(In this illustration, each section is shown with
all its displays ON for the purpose of
explanation.)
3. HOME LEAVE button:
HOME LEAVE operation
4. POWERFUL button:
POWERFUL operation
5. TEMPERATURE adjustment buttons:
• It changes the temperature setting.
6. ON/OFF button:
• Press this button once to start operation.
Press once again to stop it.
151
7. MODE selector button:
• It selects the operation mode.
(AUTO/DRY/COOL/HEAT/FAN)
8. QUIET button: OUTDOOR UNIT QUIET
operation
9. FAN setting button:
• It selects the air flow rate setting.
10. SWING button
11. ON TIMER button
12. OFF TIMER button
13. TIMER Setting button:
• It changes the time setting.
14. TIMER CANCEL button:
• It cancels the timer setting.
15. CLOCK button
16. RESET button:
• Restart the unit if it freezes.
• Use a thin object to push.
Operation Manual
SiBE12-816_D
RA Indoor Unit
FDK(X)S25/35EAVMB, FDK(X)S50CVMB
„ Remote Controller
1
2
5
3
6
4
9
7
8
13
10
15
14
12
11
< ARC433B69, B76 >
1. Signal transmitter:
• It sends signals to the indoor unit.
2. Display:
• It displays the current settings.
(In this illustration, each section is shown with
all its displays ON for the purpose of
explanation.)
3. HOME LEAVE button:
HOME LEAVE operation
4. POWERFUL button:
POWERFUL operation
5. TEMPERATURE adjustment buttons:
• It changes the temperature setting.
6. ON/OFF button:
• Press this button once to start operation.
Press once again to stop it.
Operation Manual
7. MODE selector button:
• It selects the operation mode.
(AUTO/DRY/COOL/HEAT/FAN)
8. QUIET button: OUTDOOR UNIT QUIET
operation
9. FAN setting button:
• It selects the air flow rate setting.
10. ON TIMER button
11. OFF TIMER button
12. TIMER Setting button:
• It changes the time setting.
13. TIMER CANCEL button:
• It cancels the timer setting.
14. CLOCK button
15. RESET button:
• Restart the unit if it freezes.
• Use a thin object to push.
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2.3.3 AUTO · DRY · COOL · HEAT · FAN Operation
AUTO · DRY · COOL · HEAT · FAN Operation
The air conditioner operates with the operation mode of
your choice.
From the next time on, the air conditioner will operate
with the same operation mode.
To start operation
1. Press “MODE selector button”
and select a operation mode.
• Each pressing of the button advances the
mode setting in sequence.
4
: AUTO
2, 3
1
5
: DRY
: COOL
: HEAT
: FAN
2. Press “ON/OFF button”.
• The operation lamp will light up and the panel will open.
To stop operation
3. Press “ON/OFF button” again.
• The operation lamp will go off and the panel will close.
To change the temperature setting
4. Press “TEMPERATURE adjustment button”.
DRY or FAN mode
AUTO or COOL or HEAT mode
Press “
” to raise the temperature and press
“
” to lower the temperature.
The temperature setting is not variable.
153
Set to the temperature you like.
Operation Manual
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RA Indoor Unit
To change the air flow rate setting
5. Press “FAN setting button”.
DRY mode
AUTO or COOL or HEAT or FAN mode
Five levels of air flow rate setting from “
plus “
”“
” to “
”
” are available.
The air flow rate setting is not variable.
• Indoor unit quiet operation
When the air flow is set to “ ”, the noise from the indoor unit will become quieter.
Use this when making the noise quieter.
The unit might lose capacity when the air flow rate is set to a weak level.
NOTE
Note on HEAT operation
• Since this air conditioner heats the room by taking heat from outdoor air to indoors, the heating
capacity becomes smaller in lower outdoor temperatures. If the heating effect is insufficient, it
is recommended to use another heating appliance in combination with the air conditioner.
• The heat pump system heats the room by circulating hot air around all parts of the room.
After the start of heating operation, it takes some time before the room gets warmer.
• In heating operation, frost may occur on the outdoor unit and lower the heating capacity. In
that case, the system switches into defrosting operation to take away the frost.
• During defrosting operation, hot air does not flow out of indoor unit.
Note on COOL operation
• This air conditioner cools the room by blowing the hot air in the room outside, so if the
outside temperature is high, performance drops.
Note on DRY operation
• The computer chip works to rid the room of humidity while maintaining the temperature as
much as possible. It automatically controls temperature and air flow rate, so manual
adjustment of these functions is unavailable.
Note on AUTO operation
• In AUTO operation, the system selects an appropriate operation mode (COOL or HEAT)
based on the room temperature at the start of the operation.
• The system automatically reselects setting at a regular interval to bring the room temperature
to user-setting level.
• If you do not like AUTO operation, you can manually select the operation mode and setting
you like.
Note on air flow rate setting
• At smaller air flow rates, the cooling (heating) effect is also smaller.
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2.3.4 Adjusting the Airflow Direction
FTXG25/35EV1BW(S), CTXG50EV1BW(S)
Adjusting the Air Flow Direction
You can adjust the air flow direction to increase your
comfort.
„ To adjust the horizontal
blade (flap)
1. Press “SWING button
•“
”.
” is displayed on the LCD.
2. When the flap has reached the
desired position, press “SWING
button
” once more.
• The flap will stop moving.
•“
” disappears from the LCD.
1, 2
3, 4
5, 6
„ To adjust the vertical
blades (louvers)
3. Press “SWING button
•“
”.
” is displayed on the LCD.
4. When the louvers have reached the desired position, press the
“SWING button
” once more.
• The louvers will stop moving.
„ To 3-D Airflow
1. 3. Press the “SWING button
” and the “SWING button
”:
the “
” and “
” display will light up and the flap and louvers
will move in turn.
„ To cancel 3-D Airflow
2. 4. Press either the “SWING button
155
” or the “SWING button
”.
Operation Manual
SiBE12-816_D
RA Indoor Unit
„ To start COMFORT AIRFLOW operation
5. Press “COMFORT AIRFLOW button”.
• The flap orientation will change, preventing air from blowing directly on the occupants of the
room.
•“
” is displayed on the LCD.
<COOL/DRY> The flap will go up.
<HEAT> The flap will go down.
„ To cancel COMFORT AIRFLOW operation
6. Press “COMFORT AIRFLOW button” again.
• The flaps will return to the memory position from before COMFORT AIRFLOW mode.
•“
” disappears from the LCD.
NOTE
• When “SWING button
” is selected, the flap swinging
range depends on the operation mode. (See the figure.)
In COOL or DRY mode
Three-Dimensional (3-D) Airflow
• Using three-dimensional airflow circulates cold air, which
tends to collected at the bottom of the room, and hot air,
which tends to collect near the ceiling, throughout the room,
preventing areas of cold and hot developing.
Comfort Airflow
• The air flow is set automatically.
• The air direction is as shown in the figure at right.
„ ATTENTION
• Always use a remote controller to adjust the flap angle.
If you attempt to move it forcibly with hand when it is
swinging, the mechanism may be broken.
• Always use a remote controller to adjust the louvers angles.
10°
40°
STOP
COOL/DRY
approx. 10°~40°
In HEAT or FAN mode
5°
30°
75°
STOP
HEAT
approx. 30°~75°
80°
FAN
approx. 5°~80°
In COMFORT AIRFLOW mode
COOL
5°
STOP
HEAT
80°
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RA Indoor Unit
SiBE12-816_D
FLK(X)S25/35/50BAVMB
Adjusting the Airflow Direction
You can adjust the air flow direction to increase your
comfort.
„ To adjust the horizontal
blade (flap)
1. Press “SWING button”.
•“
” is displayed on the LCD and the flaps
will begin to swing.
2. When the flaps have reached the
desired position, press “SWING
button” once more.
• The flap will stop moving.
•“
157
” disappears from the LCD.
1, 2
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SiBE12-816_D
RA Indoor Unit
„ To adjust the vertical blades
(louvers)
• When adjusting the louver, use a robust and stable stool and
watch your steps carefully.
Hold the knob and move the louvers.
(You will find a knob on the left side and the right side blades.)
Notes on flap and louvers angles.
• Unless [SWING] is selected, you should set the
flap at a near- horizontal angle in COOL or
DRY mode to obtain the best performance.
• In COOL or DRY mode, if the flap is fixed at a
downward position, the flap automatically
moves in about 60 minutes to prevent
condensation on it.
„ ATTENTION
• Always use a remote controller to adjust the
flap angle.
If you attempt to move it forcibly with hand
when it is swinging, the mechanism may be
broken.
• Be careful when adjusting the louvers. Inside
the air outlet, a fan is rotating at a high speed.
Operation Manual
DRY
COOL
FAN
HEAT
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2.3.5 POWERFUL Operation
POWERFUL Operation
POWERFUL operation quickly maximizes the
cooling (heating) effect in any operation mode.
You can get the maximum capacity.
To start POWERFUL
operation
1. Press “POWERFUL button”.
• POWERFUL operation ends in 20 minutes.
Then the system automatically operates
again with the settings which were used
before POWERFUL operation.
• When using POWERFUL operation,
there are some functions which are not
available.
• “
” is displayed on the LCD.
1, 2
To cancel POWERFUL
operation
2. Press “POWERFUL button”
again.
• “
” disappears from the LCD.
NOTE
Notes on POWERFUL operation
• POWERFUL Operation cannot be used together with QUIET, or COMFORT Operation.
Priority is given to the function of whichever button is pressed last. (This does not include
QUIET operation.)
• POWERFUL Operation can only be set when the unit is running. Pressing the operation
stop button causes the settings to be canceled, and the “
” disappears from the LCD.
• In COOL and HEAT mode
To maximize the cooling (heating) effect, the capacity of outdoor unit must be increased
and the air flow rate be fixed to the maximum setting.
The temperature and air flow settings are not variable.
• In DRY mode
The temperature setting is lowered by 2.5˚C and the air flow rate is slightly increased.
• In FAN mode
The air flow rate is fixed to the maximum setting.
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2.3.6 OUTDOOR UNIT QUIET Operation
OUTDOOR UNIT QUIET Operation
OUTDOOR UNIT QUIET operation lowers the noise
level of the outdoor unit by changing the frequency and
fan speed on the outdoor unit. This function is
convenient during night.
To start OUTDOOR
UNIT QUIET operation
1. Press “QUIET button”.
• “
” is displayed on the LCD.
To cancel OUTDOOR
UNIT QUIET operation
2. Press “QUIET button” again.
• “
” disappears from the LCD.
1, 2
NOTE
Note on OUTDOOR UNIT QUIET operation
• If using a multi system, this function will work only when the OUTDOOR UNIT QUIET
operation is set on all operated indoor units.
• This function is available in COOL, HEAT, and AUTO modes.
(This is not available in FAN and DRY mode.)
• POWERFUL operation and OUTDOOR UNIT QUIET operation cannot be used at the
same time.
Priority is given to the function of whichever button is pressed last.
• If operation is stopped using the remote controller or the main unit ON/OFF switch when
using OUTDOOR UNIT QUIET operation, “
” will remain on the remote controller
display.
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2.3.7 HOME LEAVE Operation
HOME LEAVE Operation
HOME LEAVE operation is a function which allows you to record
your preferred temperature and air flow rate settings.
„ To start HOME LEAVE
operation
1. Press “HOME LEAVE button”.
•“
” is displayed on the LCD.
• The HOME LEAVE lamp lights up.
1, 2
„ To cancel HOME LEAVE
operation
2. Press “HOME LEAVE button”
again.
• The HOME LEAVE lamp goes off.
•“
” disappears from the LCD.
Before using HOME LEAVE operation.
„ To set the temperature and air flow rate for HOME LEAVE operation
When using HOME LEAVE operation for the first time, please set the temperature and air flow rate for
HOME LEAVE operation. Record your preferred temperature and air flow rate.
Initial setting
temperature
Selectable range
Air flow rate
temperature
Air flow rate
Cooling
25°C
“
”
18-32°C
5 step, “
” and “
”
Heating
25°C
“
”
10-30°C
5 step, “
” and “
”
1. Press “HOME LEAVE button”. Make sure “
” is displayed in the remote control display.
2. Adjust the set temperature with “ ” or “ ” as you like.
3. Adjust the air flow rate with “FAN” setting button as you like.
Home leave operation will run with these settings the next time you use the unit. To change the
recorded information, repeat steps 1 – 3.
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„ What’s the HOME LEAVE operation?
Is there a set temperature and air flow rate which is most comfortable, a set temperature and air flow
rate which you use the most? HOME LEAVE operation is a function that allows you to record your
favorite set temperature and air flow rate. You can start your favorite operation mode simply by
pressing the HOME LEAVE button on the remote control. This function is convenient in the following
situations.
„ Useful in these cases
1. Use as an energy-saving mode.
•
Set the temperature 2-3°C higher (cooling) or lower (heating) than normal. Setting the fan strength to
the lowest setting allows the unit to be used in energy-saving mode. Also convenient for use while
you are out or sleeping.
Every day before you leave the house...
When you go out, push the “HOME LEAVE
Operation” button, and the air conditioner
will adjust capacity to reach the preset
temperature for HOME LEAVE Operation.
•
When you return, you will be
welcomed by a comfortably
air conditioned room.
Push the “HOME LEAVE Operation”
button again, and the air conditioner
will adjust capacity to the set
temperature for normal operation.
The unit will maintain the
temperature in the room at a
comfortable level while you sleep.
When you enter the living room in the
morning, the temperature will be just right.
Disengaging HOME LEAVE Operation will
return the temperature to that set for
normal operation. Even the coldest
winters will pose no problem!
Before bed...
Set the unit to HOME LEAVE
Operation before leaving the living
room when going to bed.
2. Use as a favorite mode.
Once you record the temperature and air flow rate settings you most often use, you can retrieve
them by pressing HOME LEAVE button. You do not have to go through troublesome remote control
operations.
NOTE
• Once the temperature and air flow rate for HOME LEAVE operation are set, those settings will be
used whenever HOME LEAVE operation is used in the future. To change these settings, please
refer to the “Before using HOME LEAVE operation” section above.
• HOME LEAVE operation is only available in COOL and HEAT mode. Cannot be used in AUTO, DRY, and FAN mode.
• HOME LEAVE operation runs in accordance with the previous operation mode (COOL or HEAT)
before using HOME LEAVE operation.
• HOME LEAVE operation and POWERFUL operation cannot be used at the same time.
Last button that was pressed has priority.
• The operation mode cannot be changed while HOME LEAVE operation is being used.
• When operation is shut off during HOME LEAVE operation, using the remote controller or the
indoor unit ON/OFF switch, “
” will remain on the remote controller display.
Operation Manual
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2.3.8 INTELLIGENT EYE Operation
INTELLIGENT EYE Operation
“INTELLIGENT EYE” is the infrared sensor which
detects the human movement.
„ To start INTELLIGENT
EYE operation
1. Press “SENSOR button”.
•“
” is displayed on the LCD.
„ To cancel the
INTELLIGENT EYE
operation
2. Press “SENSOR button” again.
•“
1, 2
” disappears from the LCD.
[EX.]
When somebody in the room
• Normal operation.
• The INTELLIGENT EYE lamp lights up.
When somebody in the room
• 20 min. after, start energy saving
operation.
• The INTELLIGENT EYE lamp goes off.
Somebody back in the room
• Back to normal operation.
• The INTELLIGENT EYE lamp lights up.
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“INTELLIGENT EYE” is useful for Energy Saving
„ Energy saving operation
• Change the temperature –2°C in heating / +2°C in cooling / +2°C in dry mode from set temperature.
• Decrease the air flow rate slightly in fan operation. (In FAN mode only)
Notes on “INTELLIGENT EYE”
• Application range is as follows.
Vertical angle 90°
(Side View)
Horizontal angle 110°
(Top View)
7m
90°
7m
55° 55°
• Sensor may not detect moving objects further than 7m away. (Check the application range)
• Sensor detection sensitivity changes according to indoor unit location, the speed of passersby,
temperature range, etc.
• The sensor also mistakenly detects pets, sunlight, fluttering curtains and light reflected off of mirrors as
passersby.
• INTELLIGENT EYE operation will not go on during powerful operation.
• Night set mode will not go on during you use INTELLIGENT EYE operation.
CAUTION
• Do not place large objects near the sensor.
Also keep heating units or humidifiers outside the sensor’s detection area. This sensor can detect
objects it shouldn’t as well as not detect objects it should.
• Do not hit or violently push the INTELLIGENT EYE sensor. This can lead to damage and malfunction.
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2.3.9 TIMER Operation
TIMER Operation
Timer functions are useful for automatically switching
the air conditioner on or off at night or in the morning.
You can also use OFF TIMER and ON TIMER in
combination.
To use OFF TIMER
operation
• Check that the clock is correct.
If not, set the clock to the present time.
1. Press “OFF TIMER button”.
is displayed.
blinks.
2. Press “TIMER Setting button”
until the time setting reaches
the point you like.
• Every pressing of either button increases or
decreases the time setting by 10 minutes.
Holding down either button changes the
setting rapidly.
4
2
1, 3
3. Press “OFF TIMER button” again.
• The TIMER lamp lights up.
To cancel the OFF TIMER operation
4. Press “CANCEL button”.
• The TIMER lamp goes off.
NOTE
• When TIMER is set, the present time is not displayed.
• Once you set ON, OFF TIMER, the time setting is kept in the memory. (The memory is canceled
when remote controller batteries are replaced.)
• When operating the unit via the ON/OFF Timer, the actual length of operation may vary from
the time entered by the user.
NIGHT SET MODE
When the OFF TIMER is set, the air conditioner automatically adjusts the temperature setting (0.5˚C
up in COOL, 2.0˚C down in HEAT) to prevent excessive cooling (heating) for your pleasant sleep.
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To use ON TIMER operation
• Check that the clock is correct. If not, set
the clock to the present time.
1. Press “ON TIMER button”.
is displayed.
blinks.
2. Press “TIMER Setting button”
until the time setting reaches
the point you like.
• Every pressing of either button increases or
decreases the time setting by 10 minutes.
Holding down either button changes the
setting rapidly.
3. Press “ON TIMER button” again.
• The TIMER lamp lights up.
1, 3
4
2
To cancel ON TIMER
operation
4. Press “CANCEL button”.
• The TIMER lamp goes off.
To combine ON TIMER and OFF TIMER
• A sample setting for combining the two timers is shown below.
(Example)
Present time: 11:00 p.m.
(The unit operating)
OFF TIMER at 0:00 a.m.
ON TIMER at 7:00 a.m. Combined
ATTENTION
In the following cases, set the timer again.
• After a breaker has turned OFF.
• After a power failure.
• After replacing batteries in the remote controller.
Operation Manual
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2.3.10 Note for Multi System
Note for Multi System
〈〈 What is a “Multi System”? 〉〉
This system has one outdoor unit connected to multiple indoor units.
Outdoor
unit
Selecting the Operation Mode
room B
Living
When more than one indoor unit is operating, priority is
room A
given to the first unit that was turned on.
In this case, set the units that are turned on later to the
same operation mode (*1) as the first unit.
Otherwise, they will enter the Standby Mode, and the
operation lamp will flash; this does not indicate malfunction.
(*1)
• COOL, DRY and FAN mode may be used at the same time.
• AUTO mode automatically selects COOL mode or HEAT mode based on the room temperature.
Therefore, AUTO mode is available when selecting the same operation mode as that of the room
with the first unit to be turned on.
〈CAUTION〉
Normally, the operation mode in the room where the unit is first run is given priority, but the following situations are
exceptions, so please keep this in mind.
If the operation mode of the first room is FAN Mode, then using Heating Mode in any room after this will give priority to
heating. In this situation, the air conditioner running in FAN Mode will go on standby, and the operation lamp will flash.
OUTDOOR UNIT QUIET Operation
When using the OUTDOOR UNIT QUIET operation feature with the Multi system, set all indoor units to
OUTDOOR UNIT QUIET operation using their remote controllers.
When clearing OUTDOOR UNIT QUIET operation, clear one of the operating indoor units using their remote controller.
However OUTDOOR UNIT QUIET operation display remains on the remote controller for other rooms.
We recommend you release all rooms using their remote controllers.
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SA Indoor Unit - FFQ Series
3. SA Indoor Unit - FFQ Series
3.1
BRC1D528
3
6
23 7
8
9
2
1
10
4
11
12
14
22
17
25
16
13
15 18
19
20
29
21
5
24
33
26
35
27
36
37
28
30
31
32
34
1
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SA Indoor Unit - FFQ Series
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Start
5s
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169
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
BRC1D528
Remote controller
THANK YOU FOR PURCHASING THIS
CONTROLLER. READ THE MANUAL
ATTENTIVELY BEFORE USING THE
INSTALLATION. AFTER READING THE
MANUAL, STORE IT IN A SAFE PLACE
FOR FUTURE USE.
Before initial operation, contact your dealer
to obtain all details concerning your air
conditioning installation.
- Never let the remote controller get wet, this may
cause an electric shock or fire.
- Never press the buttons of the remote controller
with a hard, pointed object. The remote controller
may be damaged.
- Never inspect or service the remote controller
yourself, ask a qualified service person to do this.
Contents
page
1. Features and functions..........................................1
2. Name and function of switches and icons............. 2
3. Setting up the controller.........................................4
4. Description of the operation modes.......................5
5. Operation...............................................................5
6. Programming the schedule timer.........................10
Operation manual
1
Operation Manual
1. Features and functions
The BRC1D528 is a state of the art remote controller
that offers full control over your installation.
1
BASIC REMOTE CONTROLLER
The basic remote controller functions are:
•
ON/OFF,
•
operation mode change-over,
•
temperature adjustment,
•
air volume adjustment
•
air flow direction adjustment.
2
WARNING
Operation manual
CLOCK FUNCTION
The clock functions are:
•
24 hours real time clock,
day of the week indicator.
•
3
SCHEDULE TIMER FUNCTION
The schedule timer functions are:
•
a maximum of 5 actions can be programmed
for each day of the week (totalling 35 actions),
•
schedule timer can be enabled/disabled at any
time,
•
linked to a set temperature or a LIMIT
operation or an OFF operation,
•
"last command" overrules previous command
until next scheduled command.
4
LIMIT OPERATION
Limit operation provides thermostat control within the
range of the set minimum and maximum temperature.
The minimum temperature setting will trigger heating,
the maximum temperature setting will trigger cooling.
BRC1D528
Remote controller
4PW23717-1
170
SA Indoor Unit - FFQ Series
5
LEAVE HOME
The leave home function prevents the room
temperature from dropping when the occupants are
out for a longer period. If the room temperature drops
below 10°C, heating is started automatically. As
soon as 15°C is reached, the controller returns to its
original status.
6
2. Name and function of switches and
icons (Refer to figure 1)
ON/OFF BUTTON
Press the ON/OFF button to start or stop the system.
2
OPERATION LAMP
The operation lamp lights up during operation or
blinks if a malfunction occurs.
3
OPERATION MODE ICON
These icons indicate the current operation mode
(FAN, DRY, AUTOMATIC, COOLING, HEATING).
4
VENTILATION MODE ICON
These icons indicate the current ventilation mode
(HRV only) (AUTOMATIC, HEAT EXCHANGE,
BYPASS).
5
VENTILATION ICON
The ventilation icon appears when the ventilation is
adjusted with the ventilation amount button (HRV
only). Simultaneously, the ventilation amount is
indicated by the fan speed icon (see 22).
BRC1D528
Remote controller
4PW23717-1
171
6
AIR CLEANING ICON
This icon indicates that the air cleaning unit (option) is
operational.
7
LEAVE HOME ICON
The leave home icon shows the status of the leave
home function.
BUTTON PERMISSION LEVEL
Three hierarchical permission levels can be set to
limit the user action.
1
SiBE12-816_D
ON
Leave home is enabled
FLASHING
Leave home is active
OFF
Leave home is disabled
8
EXTERNAL CONTROL ICON
This icon indicates that another controller with higher
priority is controlling or disabling your installation.
CHANGE-OVER UNDER CENTRALISED
CONTROL ICON
This icon indicates that the change-over of the
installation is under centralised control assigned to
another indoor unit or optional cool/heat selector
connected to the outdoor unit (= master remote
controller).
9
10
DAY OF THE WEEK INDICATOR
The day of the week indicator shows the current week
day (or the set day when reading or programming the
schedule timer).
11
CLOCK DISPLAY
The clock display indicates the current time (or the
action time when reading or programming the
schedule timer).
Operation manual
2
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
12
MAXTEMPERATURE IMUM SET
The maximum set temperature indicates the
maximum set temperature when in limit operation.
21
13
22
MINIMUM SET TEMPERATURE
NOT AVAILABLE
is displayed whenever a non-installed option
is addressed or a function is not available.
FAN SPEED ICON
The minimum set temperature indicates the minimum
set temperature when in limit operation.
This icon indicates the set fan speed.
14
SCHEDULE TIMER ICON
This icon indicates that the schedule timer is enabled.
23
DEFROST/HOTSTART MODE ICON
This icon indicates that the defrost/hotstart mode is
active.
15
ACTION ICONS
These icons indicate the actions for each day of the
schedule timer.
16
OFF ICON
This icon indicates that the OFF action is selected
when programming the schedule timer.
17
INSPECTION REQUIRED
and
These icons indicate that inspection is required.
Consult your installer.
18
SET TEMPERATURE DISPLAY
This indicates the current set temperature of the
installation (not shown in LIMIT operation or in FAN or
DRY mode).
19
SETTING
Not used, for service purposes only.
20
AIR FLOW DIRECTION ICON
This icon indicates the air flow direction (only for
installations with motorised air flow ßaps).
Operation manual
3
Operation Manual
24
AIR FILTER CLEANING TIME ICON
This icon indicates the air filter must be cleaned.
Refer to the manual of the indoor unit.
25
ELEMENT CLEANING TIME ICON
This icon indicates the element must be cleaned
(
only).
26
VENTILATION MODE BUTTON
The ventilation mode button operates the
to the
manual for more details.
27
; refer
VENTILATION AMOUNT BUTTON
This button sets the ventilation amount; refer to the
manual for more details.
28
INSPECTION/TEST OPERATION BUTTON
Not used, for service purposes only.
29
PROGRAMMING BUTTON
This button is a multi-purpose button.
Depending on the previous manipulations of the user,
the programming button can have various functions.
BRC1D528
Remote controller
4PW23717-1
172
SA Indoor Unit - FFQ Series
30
SCHEDULE TIMER BUTTON
This button enables or disables the schedule timer.
31
TIME ADJUST BUTTON
These buttons are used to adjust the clock or, when in
programming mode, to adjust the programmed action
time. Both buttons have an auto-repeat function.
32
TEMPERATURE ADJUST BUTTONS
These buttons are used to adjust the current setpoint
or, when in programming mode, to adjust the
programmed setpoint temperature (step = 1°C). Both
buttons are also used to adjust the day of the week.
33
OPERATION CHANGE/MIN-MIX BUTTON
This button is a multi-purpose button. Depending on
the previous manipulations of the user, it can have
following functions:
1 select the operation mode of the installation
(FAN, DRY, AUTOMATIC, COOLING, HEATING)
2 toggle between minimum temperature and
maximum temperature when in limit operation
34
SETPOINT/LIMIT BUTTON
This button toggles between setpoint, limit operation
or
(programming mode only).
35
FAN SPEED BUTTON
This button toggles between L (Low), H (High), HH
(very High),
(Automatic).
36
AIR FLOW DIRECTION ADJUST BUTTON
This button enables to adjust the air flow direction.
BRC1D528
Remote controller
4PW23717-1
173
SiBE12-816_D
37
AIR FILTER CLEANING TIME ICON RESET
BUTTON
This button is used to reset the air filter cleaning time
icon.
3. Setting up the controller
After initial installation, the user can set the clock and
day of the week.
The controller is equipped with a schedule timer that
enables the user to operate the installation
automatically; setting the clock and day of the week is
required to be able to use the schedule timer.
1
CLOCK SETTING FUNCTION
Hold down the
button for 5 seconds. The clock
read-out and the day of week indicator will blink, both
can now be adjusted.
Use the
&
buttons to adjust the
clock. Each time pressing the time adjust button will
in/decrease the time by 1 minute. Keeping the
or
button pressed will in/decrease
the time by 10 minutes.
Use the
&
buttons to adjust the
day of the week. Each time pressing the
or
buttons will display the next or previous day.
Press the
button to confirm the current set time
and day of the week.
If the controller, with blinking clock and day of week
read-out, is left untouched for 5 minutes, the clock
and day of the week will return to their previous
settings; the clock setting function is no longer active.
2
SETTING UP THE SCHEDULE TIMER
To set up the schedule timer, refer to chapter 6.
"Programming the schedule timer" on page 10.
Operation manual
4
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
4. Description of the operation modes
FAN ONLY OPERATION
1
In this mode, air only circulates without heating or
cooling.
2
DRY OPERATION
In this mode, the air humidity will be lowered with a
minimal temperature decrease.
The temperature and fan speed are controlled
automatically and cannot be controlled by the remote
controller.
Dry operation will not function if the room temperature
is too low.
3
AUTOMATIC OPERATION
In this mode, the controller will automatically switch
between heating and cooling as required by the
setpoint or limit temperature.
4
COOLING OPERATION
In this mode, cooling will be activated as required by
the setpoint or limit temperature.
Defrost (heat pump types only)
In heating operation, freezing of the outdoor heat
exchanger may occur. If so, the heating capacity of
the system lowers and the system goes into defrost
operation. The indoor unit fan stops and
is
displayed. After maximum 10 minutes of defrost
operation, the system returns to heating operation
again.
6
LIMIT OPERATION
&
Limit operation is an additional mode that enables to
keep the room temperature within certain limits. The
&
icons are displayed to confirm the
activation of the limit operation.
7
LEAVE HOME
LEAVE HOME is a feature that enables to keep the
room temperature above 10°C when the occupants
are out. This function will switch on heating if the
installation is switched off.
5. Operation
Manual operation
5
HEATING OPERATION
In this mode, heating will be activated as required by
the setpoint or limit temperature.
Hot start (heat pump types only)
At the start of a heating operation, the indoor fan is
stopped until a certain indoor heat exchanger
temperature is reached and
is displayed.
This prevents cold air from leaving the indoor unit.
Operation manual
5
Operation Manual
In manual operation, the user decides about the
settings of the installation. The last setting remains
active until the user changes it.
As the controller can be implemented for a wide
variety of installations and features, it might occur that
you select a function that is not available on your
installation; if this is the case, the
message
will appear.
BRC1D528
Remote controller
4PW23717-1
174
SA Indoor Unit - FFQ Series
Use the
mode.
SiBE12-816_D
button to select the desired operation
Fan only operation
Dry operation
3
AUTOMATIC OPERATION
User adjustable parameters:
Setpoint temperature, use the
•
buttons,
•
Fan speed, use the
Automatic operation
•
Air flow direction adjust, use the
Cooling operation
•
Ventilation mode, use the
button,
Heating operation
•
Ventilation amount, use the
button.
Press the
button to toggle between limit
operation and the operations listed above.
In limit operation, use the
button to select
minimum and maximum temperature settings. Use
the
or
buttons to adjust the
minimum and maximum temperature settings.
1
FAN ONLY OPERATION
User adjustable parameters:
•
•
Fan speed, use the
button,
Air flow direction adjust, use the
•
Ventilation mode, use the
button,
•
Ventilation amount, use the
button.
button,
2
DRY OPERATION
User adjustable parameters:
•
Air flow direction adjust, use the
button,
•
Ventilation mode, use the
button,
•
Ventilation amount, use the
button.
BRC1D528
Remote controller
4PW23717-1
button,
button,
4
COOLING OPERATION
User adjustable parameters:
•
Setpoint temperature, use the
buttons,
•
Fan speed, use the
button,
•
Air flow direction adjust, use the
&
button,
•
Ventilation mode, use the
button,
•
Ventilation amount, use the
button.
5
HEATING OPERATION
User adjustable parameters:
•
Setpoint temperature, use the
&
buttons,
•
Fan speed, use the
button,
•
Air flow direction adjust, use the
button,
•
Ventilation mode, use the
button,
•
Ventilation amount, use the
button.
6
LIMIT OPERATION
User adjustable parameters:
•
Fan speed, use the
button,
•
Air flow direction adjust, use the
button,
•
Ventilation mode, use the
button,
•
175
&
Ventilation amount, use the
button.
Operation manual
6
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
ADDITIONAL FEATURES OF THE CONTROLLER
1
LEAVE HOME
Press the
and
buttons
simultaneously to enable the LEAVE HOME function.
KEEP IN MIND THAT THE
BUTTON
MUST
BE
OFF
TO
GUARANTEE
TRIGGERING OF THE LEAVE HOME
FUNCTION.
2
Adjusting the air flow direction
Use the
button to adjust the air flow direction.
Press the button to switch between fixed or variable
air flow direction. Use the
icon to determine the
fixed air flow direction by pressing the
button
when the
icon indicates the desired direction.
NOTE
Even if fixed air flow direction is selected,
variable air flow direction can be enabled
automatically
to
preserve
proper
operation of your installation.
3
SCHEDULE TIMER
All features and operation and programming of the
schedule timer are described below.
Schedule timer operation
In schedule timer operation, the installation is also
controlled by the schedule timer. The actions
programmed in the schedule timer will be executed
automatically.
The schedule timer always executes the last
command; this means the user can temporarily
overrule the last executed programmed action. Refer
to "Manual operation" on page 5.
The next
programmed action (in the schedule timer) will return
control to the schedule timer.
Use the
schedule timer.
Operation Manual
The schedule timer overrules the
button, only use the
button to
enable or disable the schedule timer. The
schedule timer is enabled when the
icon is visible. The
button only
overrules the schedule timer until the next
programmed action.
The programmed schedule is time driven.
Make sure that the clock and day of the week
are set correctly. Refer to "CLOCK SETTING
FUNCTION" on page 4.
Manually adjust the clock for summertime
and wintertime. Refer to "CLOCK SETTING
FUNCTION" on page 4.
A power failure exceeding 1 hour will reset
the clock and the day of the week. Refer to
"CLOCK SETTING FUNCTION" on page 4
to adjust the clock and the day of the week.
The actions programmed in the schedule
timer will not be lost after a power failure;
reprogramming the schedule timer is not
required.
To set up the SCHEDULE TIMER refer to chapter 6.
"Programming the schedule timer" on page 10.
button to enable or disable the
Operation manual
7
NOTE
BRC1D528
Remote controller
4PW23717-1
176
SA Indoor Unit - FFQ Series
What can the schedule timer do?
The concept of the schedule timer is simple,,
straightforward though powerful.
SiBE12-816_D
OR
•
The schedule timer can order 3 actions:
1 switch on the installation at a scheduled time, in
combination with a setpoint (exact temperature
control)
2 switch off the installation (end of control)
3 switch on the installation at a scheduled time, in
limit operation
The schedule timer can accept a maximum of 5
actions per day.
For each day of the week a maximum of 5 actions can
be programmed, totalling a maximum of 35
programmed actions. The action that was
programmed first for a certain day is action 1, the last
programmed action for a day could be action 1 (in
case only one action is programmed for that day) to 5.
It is of utmost importance to understand that
the number assigned to the programmed
action, DOES NOT DETERMINE WHEN the
programmed action will be executed. Only
the TIME, being a part of the data entered
when programming the action, will determine
when the programmed action will be
executed.
What will the schedule timer do?
If enabled, the schedule timer will execute the
programmed actions.
It will order the installation to:
•
cool or heat, depending on the current
operation, if applicable; the setpoint will be
displayed,
BRC1D528
Remote controller
4PW23717-1
177
OR
•
switch off the installation (the schedule timer
remains enabled and reactivates the
installation as programmed); the operation
lamp will turn off,
cool or heat, whichever is required to keep the
room temperature within a specified range
(limit operation);
and
are displayed.
The schedule timer will change the operation
mode in LIMIT operation only.
To be able to verify the programmed actions, you can
browse the programmed actions, see below.
What will the schedule timer NOT do?
The schedule timer will not:
•
control fan speed,
•
control air flow direction,
•
control ventilation mode,
•
control ventilation amount,
change the operation mode for a scheduled
•
setpoint.
The parameters listed above can be set manually,
without interfering with the schedule timer.
More sophisticated remote controllers are available.
Consult your dealer for more information.
Browsing the programmed actions in
the schedule timer (read-out only)
Refer to figure 2.
Browsing the programmed actions of the schedule
timer is a sequential process. Only 2 buttons are used
to browse the entire schedule timer program.
The
button is used to start browsing, to display
the next programmed action or to exit browsing when
displaying the last programmed action.
Operation manual
8
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
The
button is used to exit browsing at once
(without having to scroll through all programmed
actions).
Press the
button to enter the browse mode, the
icon appears,
will blink.
NOTE
The temperatures mentioned above are
for clarifying purposes only, temperature
values on your controller may vary.
If does not appear, it indicates that there are no
programmed actions for Monday.
Press the
button again to go to the next day of
the week.
will blink, this indicates that the
programmed actions for Tuesday are being browsed.
The process described above is now restarted.
If at least 1 action is programmed for Tuesday, will
appear. The clock indicates the time when the
programmed action will be enabled, either
,
or
and
is being displayed.
If
does not appear, it indicates that there are no
programmed actions for Tuesday.
Press the
button to display the next programmed
action. If a second action is programmed for Tuesday,
will still be blinking and
will appear.
Assuming that 5 actions were programmed for
Tuesday, a total of 5 presses will be required to
display all programmed actions.
Operation manual
9
Operation Manual
NOTE
Browsing always starts on Monday and
ends on Sunday.
Check the
icon. If at least 1 action is
programmed for Monday, will appear.
The clock indicates the time when the programmed
action is scheduled, either
,
or
and
is being displayed.
NOTE
Continue pressing the
button until the day of the
week indicator displays the current day (not blinking),
you have now quit browsing.
The number of times that the
button
will have to be pressed to quit browsing
depends on the number of programmed
actions in the schedule timer.
How do I interpret the programmed
actions
To be able to understand the behaviour of your
installation when the schedule timer is enabled, it is
important to look at all programmed actions for the
current day and maybe the last programmed action of
yesterday.
If the first programmed action for today is not active
yet, the current status of your installation depends,
most probably but not necessarily, on the last
programmed action from yesterday. Read the
important note below.
If the first programmed action for today is already
active, the current status of your installation depends,
most probably but not necessarily, on the parameters
programmed in the first programmed action for today.
Read the important note below.
NOTE
To keep the operation of your installation
simple, the schedule timer settings can
easily be overruled by altering the current
setting ("last command" overrules
previous command until next scheduled
command).
Conclusion: Although
is displayed, somebody
might have altered the settings. The next
programmed action will overrule the altered settings
and all settings return as programmed.
BRC1D528
Remote controller
4PW23717-1
178
SA Indoor Unit - FFQ Series
Programmed actions might overlap; due to the "last
command overrules" logic, the last scheduled
command will rule.
How do I interpret the readings on the
display when the schedule timer is
active
As described above, the schedule timer settings,
(and as a consequence the display readings) might
be overruled temporarily by a manual intervention.
If you want to be absolutely sure about the schedule
timer settings for this very moment, you must browse
the schedule timer programmed actions. Refer to
"Browsing the programmed actions in the schedule
timer" on page 8.
SiBE12-816_D
Getting started
Programming the schedule timer is flexible (you can
add, remove or alter programmed actions whenever
required) and straightforward (programming steps are
limited to a minimum).
Below are some tips and tricks to ensure successful
programming of the schedule timer:
•
•
•
6. Programming the schedule timer
•
•
What do I have to program?
As the schedule timer is based on a week program
(the same actions will be repeated every week) you
will have to select the day of the week first.
Now you must choose an action:
1 switch on the installation at a scheduled time, in
combination with a setpoint (exact temperature
control)
•
familiarise yourself with the icons and the
buttons, you will need them when
programming,
familiarise yourself with the browse function,
you will need it to start programming. Refer to
"Browsing the programmed actions in the
schedule timer" on page 8,
fill out the form at the end of this manual; note
the time and the required action for each day
(keep in mind that the number of actions is
limited to 5 per day),
take your time to enter all data accurately,
try to program the actions for each day in
logical sequence (start with action 1 for the
first action and end with the highest number
for the last action). This is not a requirement
but it will make it much easier to interpret the
program later,
keep in mind that you can always alter, add or
remove the programmed actions later.
2 switch off the installation (end of control)
3 switch on the installation at a scheduled time, in
limit operation
Finally you must enter the time of the day when the
action must be enabled.
NOTE
If you program 2 or more actions on the
same day and at the same time of the
day, only the action with the highest
action number (2 - 5) will be executed.
BRC1D528
Remote controller
4PW23717-1
179
Operation manual
10
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
Programming
1
THE SCHEDULE TIMER IS PROGRAMMED
FOR THE FIRST TIME
NOTE
When changing day during programming
you will have to confirm "the last action".
Each day can have 5 programmed
actions (numbered 1 to 5) but for some
reason you might want to delete one,
several or all programmed actions.
To be able to delete programmed actions,
you must select the last action that you
want to keep, this can be 1 to 5 or no
action (
is displayed and no action
displayed).
All programmed actions with a number
HIGHER than the selected one, or all
programmed actions if no last action was
selected will be deleted.
In this particular case, no actions have been
programmed before, all schedule timer actions are idle.
Browse to Monday by pressing the
button.
•
The
icon appears,
will blink and one of
the
icons might be displayed
but all other fields remain blank, indicating that
no actions are programmed for Monday.
•
Enter the program mode by holding down the button
for 5 seconds, the
icon will now blink too.
•
Press the
button to activate the first
programmed action.
•
A blinking is displayed indicating that the first
programmed action for Monday is being
programmed; The set temperature and clock
display are blinking.
•
Press the
•
temperature,
, or limit operation.
Enter the desired temperature using the
&
buttons.
•
PROGRAMMING THE FIRST DAY OF THE WEEK
NOTE
In the guidelines below it is assumed that
you start programming the schedule
timer actions on Monday and end with the
schedule timer actions for Sunday.
If you prefer NOT to start on Monday, first
browse to the desired day and then enter
the PROGRAM mode.
Operation manual
11
Operation Manual
•
button to select either set
Press the
button to toggle between
minimum set temperature and maximum set
temperature in limit operation, the selected
temperature will blink.
Enter the time when the action must start
using the
&
buttons (min.
step = 10 minutes).
NOTE
If, by accident, you pressed the
button, you activated the next action;
is displayed ( steady and
blinking).
Press the
button repeatedly until a
blinking
is displayed. You can now
continue adjusting the settings for the first
schedule timer action.
BRC1D528
Remote controller
4PW23717-1
180
SA Indoor Unit - FFQ Series
If the action and the corresponding time are correct,
you can proceed to the second schedule timer action.
This is done by pressing the
button, the data is
saved and the next schedule timer action can be
programmed.
Programming the remaining schedule timer actions
for the same day is similar.
You can browse the schedule timer actions by
pressing the
button.
NOTE
Don't worry if you add additional
schedule timer actions by pressing the
button repeatedly, they can be
deleted when finishing the current day.
When all data for the schedule timer actions for
Monday are entered, you must confirm the
programmed actions.
Make sure the last schedule timer action you want to
keep is selected (schedule timer actions with a higher
number will be deleted).
Now you must choose between 2 options:
1 CONFIRM AND COPY TO NEXT DAY
The schedule timer action programmed for the
current day are also valid for the next day: use
the "confirm last action and copy actions to next
day" function by pressing the
and
buttons simultaneously for 5 seconds.
SiBE12-816_D
Program mode is quit and depending on the choice
made, the programmed actions are saved for Monday
(and possibly Tuesday).
PROGRAMMING THE OTHER DAYS OF THE WEEK
Programming the other days of the week is identical
to programming the first day of the week.
is
blinking to indicate the selected day,
and are
steady if actions were copied from Monday to
Tuesday, only
is displayed if no actions were
copied from Monday to Tuesday.
2
I WANT TO EDIT PROGRAMMED ACTIONS
Editing programmed actions is easy.
Make sure you are not in program mode (
not
blinking); if required, press the
button to quit
program mode.
Browse to the programmed actions using the
button, select the day and action you want to edit.
Press the
button for 5 seconds; program mode is
enabled, the
icon and selected action are blinking.
Edit the settings using the same buttons described
above.
Select the "last action" using the
button and
decide if you do or do not want to copy the
programmed action(s) to the next day (pressing the
and
buttons simultaneously or only the
button for 5 seconds).
2 CONFIRM ONLY
The schedule timer action programmed for the
current day are only valid for the selected day:
use the "confirm last action and go to next day"
function by pressing the
button for 5
seconds.
BRC1D528
Remote controller
4PW23717-1
181
Operation manual
12
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
3
I WANT TO DELETE ONE OR MORE
PROGRAMMED ACTIONS
Make sure you are not in program mode (
not
blinking); if required, press
to quit program
mode.
Browse to the programmed actions using the
button, select the day you want to edit.
Press the
button for 5 seconds; program mode is
enabled, the
icon and selected action are blinking.
Select the "last action" you want to keep using the
button. All higher actions will be deleted.
Confirm the deletion by pressing the
button for 5
seconds, OR confirm the deletion for the current and
the next day too by pressing the
and
buttons simultaneously for 5 seconds.
NOTE
In the case above, if for example the last
action was 3, the programmed actions 4
and 5 will also be deleted (if they were
present).
I WANT TO DELETE ALL PROGRAMMED
ACTIONS AT ONCE
Quit programming or browsing.
4
Press the
and
buttons simultaneously for 5
seconds; the
icon will invert and disappear to
confirm deletion.
7. Maintenance
The remote controller does not need maintenance.
Remove dirt with a soft damp cloth.
NOTE
The guidelines below might help to solve your
problem. If you cannot remedy the problem, consult
your installer.
No readings on the remote controller (display
blank)
Check if the mains power is still applied to your
installation.
Only
is displayed
This indicates that the installation has just been
powered, please wait until
disappears.
The schedule timer does work but the
programmed actions are executed at the wrong
time (e.g. 1 hour too late or too early)
Check if the clock and the day of the week are set
correctly, correct if necessary (refer to "CLOCK
SETTING FUNCTION" on page 4).
I cannot enable the schedule timer (the
icon
blinks for 2 seconds and disappears)
The schedule timer has not been programmed yet.
First program the schedule timer (refer to
"Programming the schedule timer" on page 10).
I cannot enable the schedule timer (the
icon is displayed)
The schedule timer can not be enabled when a
centralised control is connected.
Limit operation cannot be selected
Limit operation is not available for cooling only
installations.
Only use clear tepid water to moisten the
cloth.
Operation manual
13
8. Troubleshooting
BRC1D528
Remote controller
4PW23717-1
4PW23717-1
Operation Manual
182
SA Indoor Unit - FFQ Series
3.2
SiBE12-816_D
BRC7E530W/531W
1-1
1
8
1-2
3
10
6
11
4
9
2
13
5
12
15
7
14
16
17
1
1-3
COOL/HEAT CHANGEOVER
REMOTE CONTROL SWITCH
21
20
22
23
19
24
18
25
1
2
[1]
183
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
2. NAMES AND FUNCTIONS
OF THE OPERATING
SECTION (Fig. 1, 2)
DISPLAY “ ” (SIGNAL
TRANSMISSION)
1
This lights up when a signal is being
transmitted.
DISPLAY “ ” “ ” “
”“
“ ” (OPERATION MODE)
DISPLAY “
8
”
2 This display shows the current
OPERATION MODE. For cooling only
type, “
” (Auto) and “ ”
(Heating) are not installed.
3
7
9
10
” (SET TEMPERATURE)
This display shows the set temperature.
DISPLAY “
”
(PROGRAMMED
TIME)
4
This display shows PROGRAMMED
TIME of the system start or stop.
5
DISPLAY “
” (AIR FLOW FLAP)
Refer to page 9.
6
DISPLAY “ ” “
” (FAN SPEED)
The display shows the set fan speed.
11
12
13
14
15
16
17
18
English
Operation Manual
DISPLAY “
”
(INSPECTION/ TEST OPERATION)
When the INSPECTION/TEST
OPERATION BUTTON is pressed, the
display shows the system mode is in.
ON/OFF BUTTON
Press the button and the system will
start. Press the button again and the
system will stop.
FAN SPEED CONTROL BUTTON
Press this button to select the fan
speed, HIGH or LOW, of your choice.
TEMPERATURE SETTING BUTTON
Use this button for SETTING
TEMPERATURE (Operates with the front
cover of the remote controller closed.)
PROGRAMMING TIMER BUTTON
Use this button for programming
“START and/or STOP” time. (Operates
with the front cover of the remote
controller opened.)
TIMER MODE START/STOP BUTTON
Refer to page 10.
TIMER RESERVE/CANCEL BUTTON
Refer to page 10.
AIR FLOW DIRECTION ADJUST BUTTON
Refer to page 9.
OPERATION MODE SELECTOR BUTTON
Press this button to select OPERATION
MODE.
FILTER SIGN RESET BUTTON
Refer to the section of MAINTENANCE
in the operation manual attached to the
indoor unit.
INSPECTION/TEST OPERATION
BUTTON
This button is used only by qualified
service persons for maintenance
purposes.
EMERGENCY OPERATION SWITCH
This switch is readily used if the remote
controller does not work.
4
184
SA Indoor Unit - FFQ Series
SiBE12-816_D
RECEIVER
19 This receives the signals from the
remote controller.
OPERATING INDICATOR LAMP (Red)
This
lamp stays lit while the air
20
conditioner runs. It flashes when the
unit is in trouble.
TIMER INDICATOR LAMP (Green)
21
This lamp stays lit while the timer is set.
AIR FILTER CLEANING TIME
INDICATOR LAMP (Red)
22
Lights up when it is time to clean the air
filter.
DEFROST LAMP (Orange)
23 Lights up when the defrosting
operation has started. (For cooling
only type this lamp does not turn on.)
FAN/AIR CONDITIONING SELECTOR
SWITCH
24
Set the switch to “
” (FAN) for FAN
and “
” (A/C) for HEAT or COOL.
COOL/HEAT CHANGEOVER SWITCH
25 Set the switch to “
COOL and “
” (COOL) for
” (HEAT) for HEAT.
NOTES
• For the sake of explanation, all indications
are shown on the display in Figure 1
contrary to actual running situations.
• Fig. 1-2 shows the remote controller with
the front cover opened.
• If the air filter cleaning time indicator lamp
lights up, clean the air filter as explained
in the operation manual provided with the
indoor unit.
After cleaning and reinstalling the air
filter, press the filter sign reset button on
the remote controller. The air filter
cleaning time indicator lamp on the
receiver will go out.
• The Defrost Lamp will flash when the
power is turned on. This is not a
malfunction.
5
185
3. HANDLING FOR
WIRELESS REMOTE
CONTROLLER
Precautions in handling remote controller
Direct the transmitting part of the remote
controller to the receiving part of the air
conditioner.
If something blocks the transmitting and
receiving path of the indoor unit and the
remote controller as curtains, it will not
operate.
2 short beeps
from the receiver
indicates that the
transmission is
properly done.
Transmitting distance is approximately 7 m.
Do not drop or get it wet.
It may be damaged.
Never press the button of the remote
controller with a hard, pointed object.
The remote controller may be damaged.
Installation site
• It is possible that signals will not be
received in rooms that have electronic
fluorescent lighting. Please consult with
the salesman before buying new
fluorescent lights.
• If the remote controller operated some
other electrical apparatus, move that
machine away or consult your dealer.
English
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
Placing the remote controller in the
remote controller holder
Install the remote controller holder to a wall
or a pillar with the attached screw. (Make
sure it transmits)
[CAUTIONS]
• Replace all batteries at the same time, do
not use new and old batteries intermixed.
• In case the remote controller is not used
for a long time take out all batteries in order
to prevent liquid leak of the battery.
Placing the remote
controller
Removing the
remote controller
IN THE CASE OF CENTRALIZED
CONTROL SYSTEM
Slide from above
Pull it upward
If the indoor unit is under centralized control,
it is necessary to switch the remote
controller’s setting.
In this case, contact your DAIKIN dealer.
4. OPERATION RANGE
Remote
controller
holder
SKYAIR System
If the temperature or the humidity is beyond the
following conditions, safety devices may work
and the air conditioner may not operate, or
sometimes, water may drop from the indoor unit.
COOLING
[°C]
INDOOR
How to put the dry batteries
(1) Remove the back cover
of the remote controller
to the direction pointed
by the arrow mark.
(2) Put the batteries
Use two dry cell
batteries (AAA.LR03
(alkaline)). Put dry
batteries correctly to fit
their (+) and (–).
HUMIDITY
OUTDOOR
TEMPERATURE
80% or
below
D
– 10 to 46
B
80% or
below
D
– 10 to 46
B
OUTDOOR UNIT
TEMPERATURE
RS50 · 60
D
21 to 32
RKS25 · 35 · B
50 · 60
RXS25 · 35 · W 14 to 23
50 · 60 B
3MKS50
4MKS58 · 75 · 90
3MXS52
4MXS68 · 80
D
21 to 32
B
W
14 to 23
B
HEATING
[°C]
(3) Close the cover
OUTDOOR UNIT INDOOR TEMPERATURE
When to change batteries
Under normal use, batteries last about a
year. However, change them whenever the
indoor unit doesn’t respond or responds
slowly to commands, or if the display
becomes dark.
RXS25 · 35 ·
50 · 60
D
B
3MXS52
D
4MXS68 · 80 B
10 to 30
10 to 30
OUTDOOR
TEMPERATURE
D
B
– 14 to 24
W
B
– 15 to 18
D
B
– 14 to 21
W
B
– 15 to 15.5
DB: Dry bulb temperature
WB: Wet bulb temperature
English
Operation Manual
6
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SA Indoor Unit - FFQ Series
SiBE12-816_D
The setting temperature range of the remote
controller is 16°C to 32°C.
VRV System
See the operation manual provided with the
air conditioner.
5. OPERATION PROCEDURE
Refer to figure 1 on page [1]
• Operating procedure varies with heat
pump type and cooling only type. Contact
your Daikin dealer to confirm your system
type.
• To protect the unit, turn on the main power
switch 6 hours before operation.
• If the main power supply is turned off
during operation, operation will restart
automatically after the power turns back
on again.
Operate in the following order.
• AUTOMATIC OPERATION can be
selected only by Heat pump split system.
• For cooling only type, “COOLING”, and
“FAN” and “DRY” operation are able to
select.
OPERATION lamp lights up or goes off and
the system starts or stops OPERATION.
〈〈FOR SYSTEMS WITH COOL/HEAT
CHANGEOVER REMOTE CONTROL
SWITCH〉〉
OPERATION MODE
SELECTOR
(1) Select OPERATION MODE with the
COOL/HEAT CHANGEOVER REMOTE
CONTROL SWITCH as follows.
OPERATION MODE
SELECTOR
Press OPERATION MODE SELECTOR
button several times and select the
OPERATION MODE of your choice as
follows.
187
ON/OFF
Press ON/OFF button
1
Refer to figure 1-1, 2 on page [1]
7
2
Refer to figure 1-1,3 on page [1]
〈〈FOR SYSTEMS WITHOUT COOL/
HEAT CHANGEOVER REMOTE
CONTROL SWITCH〉〉
COOLING OPERATION................... “
HEATING OPERATION.................... “
• The function of this program is to
decrease the humidity in your room with
the minimum temperature decrease.
• Micro computer automatically
determines TEMPERATURE and FAN
SPEED.
• This system does not go into operation if
the room temperature is below 16˚C.
NOTE
• Do not turn OFF power immediately after
the unit stops. Then, wait no less than 5
minutes.
Water is leaking or there is something else
wrong with the unit.
COOLING, HEATING, AUTOMATIC,
FAN, AND PROGRAM DRY
OPERATION
1
AUTOMATIC OPERATION................“ ”
• In this operation mode, COOL/HEAT
changeover is automatically conducted.
FAN OPERATION............................. “ ”
DRY OPERATION .............................“ ”
COOLING OPERATION ............ “
”
HEATING OPERATION............. “
”
”
”
English
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
FAN OPERATION...................... “
DRY OPERATION..................... “
”
”
• See “FOR SYSTEMS WITHOUT COOL/
HEAT CHANGEOVER REMOTE CONTROL
SWITCH” for details on dry operation.
(2) Press OPERATION MODE SELECTOR
button several times and select “ ”
(This operation is only available during
dry operation.)
• Hot air is circulated to warm the room. It
will take some time from when the air
conditioner is first started until the entire
room becomes warm. The internal fan
automatically turns at low speed until the
air conditioner reaches a certain
temperature on the inside. In this situation,
all you can do is wait.
• If hot air accumulates on the ceiling and
feet are left feeling cold, it is recommended
to use a circulator. For details, contact the
place of purchase.
ADJUSTMENT
2
ON/OFF
Press ON/OFF button
OPERATION lamp lights up or goes off and
the system starts or stops OPERATION.
NOTE
• Do not turn OFF power immediately after
the unit stops. Then, wait no less than 5
minutes.
Water is leaking or there is something else
wrong with the unit.
[EXPLANATION OF HEATING
OPERATION]
DEFROST OPERATION
• As the frost on the coil of an outdoor unit
increase, heating effect decreases and the
system goes into DEFROST
OPERATION.
• The fan operation stops and the
DEFROST lamp of the indoor unit goes on.
After 6 to 8 minutes (maximum 10
minutes) of DEFROST OPERATION, the
system returns to HEATING OPERATION.
Heating capacity & Outdoor air
temperature
• Heating capacity drops as outdoor air
temperature lowers. If feeling cold, use
another heater at the same time as this air
conditioner.
English
Operation Manual
For programming TEMPERATURE, FAN
SPEED and AIR FLOW DIRECTION, follow
the procedure shown below.
TEMPERATURE SETTING
Press TEMPERATURE SETTING
button and program the setting
temperature
Each time this button is pressed,
setting temperature rises 1°C.
Each time this button is pressed,
setting temperature lowers 1°C.
In case of automatic operation
Each time this button is pressed,
setting temperature shifts to “H”
side.
Each time this button is pressed,
setting temperature shifts to “L”
side.
[°C]
Setting
temperature
H
•
M
•
L
25
23
22
21
19
• The setting is impossible for fan operation.
NOTE
• The setting temperature range of the
remote controller is 16˚C to 32˚C.
8
188
SA Indoor Unit - FFQ Series
SiBE12-816_D
FAN SPEED CONTROL
Press FAN SPEED CONTROL button.
High or Low fan speed can be selected.
The micro computer may sometimes control
the fan speed in order to protect the unit.
AIR FLOW DIRECTION
ADJUST
UP AND DOWN DIRECTION
• The movable limit of the flap is changeable.
Contact your Daikin dealer for details.
Up and down adjustment
Press the AIR FLOW DIRECTION
ADJUST button to select the air
direction as shown below.
MOVEMENT OF THE AIR FLOW FLAP
For the following conditions, micro computer
controls the air flow direction so it may be
different from the display.
Operation
mode
Heating
Operation
conditions
• When starting operation
• When room
temperature is higher than
the set temperature
• At defrost operation (The
flaps blow horizontally to
avoid blowing cold air
directly on the occupants
of the room.)
NOTES
• If you try cooling or programmed drying,
while the flaps are facing downward, air
flow direction may change unexpectedly.
There is nothing wrong with the
equipment. This serves to prevent dew
formed on parts in the air discharge
outlet from dripping.
• Operation mode includes automatic
operation.
PROGRAM TIMER OPERATION
DISPLAY appears and the
air flow direction
continuously varies.
(Automatic swing setting)
Press AIR FLOW
DIRECTION ADJUST
button to select the air
direction of your choice.
DISPLAY vanishes the air
flow direction is fixed
(Fixed air flow direction
setting).
9
189
Operate in the following order.
• The timer is operated in the following two ways.
Programming the stop time (
)
.... The system stops
operating after the set time has elapsed.
Programming the start time (
)
.... The system starts
operating after the set time has elapsed.
• The timer can be programmed a maximum
of 72 hours.
• The start and the stop time can be
simultaneously programmed.
English
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
TIMER MODE START/
STOP
1
Press the TIMER MODE START/STOP
button several times and select the
mode on the display.
The display flashes.
For setting the timer stop .... “
For setting the timer start .... “
”
”
PROGRAMMING TIME
2
Press the PROGRAMMING TIME
button and set the time for stopping
or starting the system.
When this button is pressed, the
time advances by 1 hour.
When this button is pressed, the
time goes backward by 1 hour.
3
TIMER RESERVE
NOTES
• When the timer is programmed to stop the
system after 3 hours and start the system
after 4 hours, the system will stop after 3
hours and then 1 hour later the system will
start.
• After the timer is programmed, the display
shows the remaining time.
HOW TO SET MASTER
REMOTE CONTROLLER
(For VRV system)
• When the system is installed as shown
below, it is necessary to designate the
master remote controller.
For Heat pump system
When one outdoor unit is connected with
several indoor units.
Outdoor unit
Press the TIMER RESERVE button.
The timer setting procedure ends.
The display or changes from flashing light to
a constant light.
4
Indoor unit
TIMER CANCEL
Press the TIMER OFF button to cancel
programming. The display vanishes.
For example.
One of these remote controllers needs
to be designated as the master remote
controller.
When the timer is
programmed to stop
the system after 3
hours and start the
system after 4
hours, the system
will stop after 3
hours and then 1
hour later the
system will start.
English
Operation Manual
10
190
SA Indoor Unit - FFQ Series
SiBE12-816_D
For Heat recovery system
When one BS unit is connected with several
indoor units.
1
Continuously press the
OPERATION MODE SELECTOR
button for 4 seconds.
Outdoor unit
The displays showing “ ” of all slave indoor
unit connected to the same outdoor unit or
BS unit flash.
BS unit
Indoor unit
One of these remote controllers needs
to be designated as the master remote
controller.
• Only the master remote controller can
select HEATING, COOLING or
AUTOMATIC (only Heat recovery
system) OPERATION.
When the indoor unit with master remote
controller is set to “COOL”, you can switch
over operation mode between “FAN”, “DRY”
and “COOL”.
When the indoor unit with master remote
controller is set to “HEAT”, you can switch
over operation mode between “FAN” and
“HEAT”.
When the indoor unit with master remote
controller is set to “FAN”, you cannot switch
operation mode.
When attempting settings than that
consented above, a “peep” is emitted as a
warning.
Only with Heat recovery system, you can set
the indoor unit to AUTOMATIC. Attempting
to do so, a “peep” will be emitted as a
warning.
How to designate the master remote
controller
2
Press the OPERATION MODE
SELECTOR button to the indoor unit
that you wish to designate as the
master remote controller. Then
designation is completed. This indoor
unit is designated as the master
remote controller and the display
showing “
” vanishes.
• To change settings, repeat steps
and
.
EMERGENCY OPERATION
When the remote controller does not work
due to battery failure or the absence thereof,
use this switch which is located beside the
discharge grille on the main unit. When the
remote controller does not work, but the
battery low indicator on it is not lit, contact
your dealer.
[START]
1
To press the emergency
operation switch.
The machine runs in the previous mode.
The system operates with the previously set
air flow direction.
1 2
Operate in the following order.
11
191
English
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
[STOP]
2
Press the EMERGENCY
OPERATION switch again.
6. NOT MALFUNCTION OF
THE AIR CONDITIONER
The following symptoms do not indicate
air conditioner malfunction
PRECAUTIONS FOR GROUP
CONTROL SYSTEM OR TWO
REMOTE CONTROLLER CONTROL
SYSTEM
This system provides two other control
systems beside individual control (one
remote controller controls one indoor unit)
system. Confirm the following if your unit is of
the following control system type.
Group control system
One remote controller controls up to 16
indoor units.
All indoor units are equally set.
Two remote controller control system
Two remote controllers control one indoor
unit. (In case of group control system, one
group of indoor units)
The unit follows individual operation.
NOTES
• Cannot have two remote controller control
system with only wireless remote
controllers. (It will be a two remote
controller control system having one wired
and one wireless remote controllers.)
• Under two remote controller control
system, wireless remote controller
cannot control timer operation.
• Only the operating indicator lamp out of 3
other lamps on the indoor unit display
functions.
NOTE
• Contact your Daikin dealer in case of
changing the combination or setting of
group control and two remote controller
control systems.
English
Operation Manual
I. THE SYSTEM DOES NOT OPERATE
• The system does not restart immediately
after the ON/OFF button is pressed.
If the OPERATION lamp lights, the system
is in normal condition. It does not restart
immediately because a safety device
operates to prevent overload of the system.
After 3 minutes, the system will turn on
again automatically.
• The system does not restart immediately
when TEMPERATURE SETTING button
is returned to the former position after
pushing the button.
It does not restart immediately because a
safety device operates to prevent overload
of the system. After 3 minutes, the system
will turn on again automatically.
• If the reception beep is rapidly repeated
3 times (It sounds only twice when
operating normally.)
Control is set to the optional controller for
centralized control.
• If the defrost lamp on the indoor unit’s
display is lit when heating is started.
This indication is to warn against cold air
being blown from the unit. There is
nothing wrong with the equipment.
7. HOW TO DIAGNOSE
TROUBLE SPOTS
I. EMERGENCY STOP
When the air conditioner stops in emergency,
the run lamp on the indoor unit starts blinking.
Take the following steps yourself to read the
malfunction code that appears on the display.
Contact your dealer with this code. It will help
pinpoint the cause of the trouble, speeding up
the repair.
12
192
SA Indoor Unit - FFQ Series
SiBE12-816_D
5
1
Press the INSPECTION/TEST button
to select the inspection mode “ ”.
Press OPERATION MODE SELECTOR
BUTTON
“
” appears on display and blinks. “UNIT”
lights up.
“
” on the right-hand of the malfunction
code blinks.
6
2
Press PROGRAMMING TIMER
BUTTON and change the unit number.
Press to change the unit number until the
indoor unit beeps and perform the following
operation according to the number of beeps.
Number of beeps
Press PROGRAMMING TIMER
BUTTON and change the
malfunction code.
Press until the indoor unit makes a long
beep.
The malfunction code is fixed when the
indoor unit makes a long beep.
3 short beeps .... Perform all steps from
to
7
.
1 short beep ...... Perform
and
steps.
1 long beep........ Normal state
Reset of the display
Press OPERATION MODE SELECTOR
BUTTON to get the display back to the
normal state.
3
Press OPERATION MODE SELECTOR
BUTTON
“
” on the left-hand of the malfunction code
blinks.
4
Press PROGRAMMING TIMER
BUTTON and change the
malfunction code.
Press until the indoor unit beeps twice.
13
193
English
Operation Manual
SiBE12-816_D
SA Indoor Unit - FFQ Series
II. IN CASE BESIDES EMERGENCY STOP
[Trouble]
1. The unit does not operate at all.
• Check if the receiver is exposed of
sunlight or strong light. Keep receiver
away from light.
• Check if there are batteries in the
remote controller. Place the batteries.
• Check if the indoor unit number and
wireless remote controller number are
equal.
The RUN lamp of the indoor unit is flashing
and the unit does not work at all.
Unit No. which
sensed trouble
Malfunction Code
Number
Number
INSPECTION
display
Operate the indoor unit with the remote
controller of the same number.
Signal transmitted from a remote controller of
a different number cannot be accepted. (If
the number is not mentioned, it is considered
as “1”)
2. The system operates but it does not
sufficiently cool or heat.
• If the set temperature is not proper.
• If the FAN SPEED is set to LOW
SPEED.
• If the air flow angle is not proper.
[Remedial action]
Check the malfunction code (A1 - UF) on the
remote controller.
Notify and inform the model name and what
the malfunction code indicates to your Daikin
dealer.
Contact the place of purchase in the
following case.
WARNING
When you detect a burning odor, shut
OFF power immediately and contact the
place of purchase. Using the equipment
in anything but proper working condition
can result in equipment damage, electric
shock and/or fire.
English
14
3P107422-1S
Operation Manual
194
SiBE12-816_D
Part 6
Service Diagnosis
1. Troubleshooting with LED ...................................................................197
1.1 Indoor Unit............................................................................................197
1.2 Outdoor Unit .........................................................................................198
2. Problem Symptoms and Measures .....................................................199
3. Service Check Function ......................................................................200
3.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................200
3.2 SA Indoor Unit - FFQ Series ................................................................209
4. Code Indication on Remote Controller ................................................213
4.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................213
4.2 SA Indoor Unit - FFQ Series ................................................................213
4.3 Outdoor Unit .........................................................................................214
5. Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS,
FLK(X)S, FDK(X)S Series...................................................................215
5.1
5.2
5.3
5.4
5.5
Indoor Unit PCB Abnormality ...............................................................215
Freeze-up Protection Control or Heating Peak-cut Control..................216
Fan Motor or Related Abnormality .......................................................218
Thermistor or Related Abnormality (Indoor Unit)..................................221
Front Panel Open / Close Fault (FTXG, CTXG)...................................222
6. Troubleshooting for SA Indoor Unit - FFQ Series ...............................223
6.1
6.2
6.3
6.4
6.5
6.6
6.7
Indoor Unit PCB Abnormality ...............................................................223
Drain Water Level System Abnormality................................................224
Fan Motor or Related Abnormality .......................................................226
Drain System Abnormality....................................................................227
Thermistor or Related Abnormality.......................................................228
Remote Controller Thermistor Abnormality ..........................................230
Signal Transmission Error
(between Indoor Unit and Remote Controller)......................................231
6.8 Signal Transmission Error
(between MAIN Remote Controller and SUB Remote Controller)........232
6.9 Field Setting Abnormality .....................................................................233
7. Troubleshooting for Outdoor Unit........................................................235
7.1
7.2
7.3
7.4
7.5
7.6
7.7
7.8
7.9
7.10
195
Anti-icing Control for Indoor Unit ..........................................................235
OL Activation (Compressor Overload) .................................................237
Compressor Lock .................................................................................238
DC Fan Lock ........................................................................................239
Input Overcurrent Detection .................................................................240
Discharge Pipe Temperature Control...................................................241
High Pressure Control in Cooling .........................................................242
Compressor Sensor System Abnormality ............................................243
Position Sensor Abnormality ................................................................244
DC Voltage / Current Sensor Abnormality............................................246
Service Diagnosis
SiBE12-816_D
7.11
7.12
7.13
7.14
7.15
7.16
7.17
7.18
Thermistor or Related Abnormality (Outdoor Unit)...............................247
Electrical Box Temperature Rise..........................................................249
Radiation Fin Temperature Rise ..........................................................250
Output Overcurrent Detection ..............................................................252
Refrigerant Shortage ............................................................................254
Low-voltage Detection or Over-voltage Detection................................256
Outdoor Unit PCB Abnormality or Signal Transmission Error ..............257
Unspecified Voltage (between Indoor Unit and Outdoor Unit) /
Anti-icing control in Other Room ..........................................................260
8. Check ..................................................................................................261
8.1
8.2
8.3
8.4
8.5
8.6
8.7
8.8
8.9
8.10
8.11
8.12
8.13
8.14
Service Diagnosis
Thermistor Resistance Check ..............................................................261
Fan Motor Connector Output Check ....................................................262
Hall IC Check .......................................................................................262
Power Supply Waveforms Check.........................................................262
Electronic Expansion Valve Check.......................................................263
Four Way Valve Performance Check ...................................................264
Inverter Unit Refrigerant System Check...............................................265
“Inverter Checker” Check .....................................................................266
Rotating Pulse Input on the Outdoor Unit PCB Check .........................268
Installation Condition Check.................................................................269
Discharge Pressure Check...................................................................269
Outdoor Unit Fan System Check..........................................................270
Main Circuit Short Check......................................................................270
Power Module Check ...........................................................................271
196
Troubleshooting with LED
SiBE12-816_D
1. Troubleshooting with LED
1.1
Indoor Unit
Operation Lamp
The operation lamp blinks when any of the following errors is detected.
1. When a protection device of the indoor or outdoor unit is activated, or when the thermistor
malfunctions.
2. When a signal transmission error occurs between the indoor and outdoor units.
In either case, conduct the diagnostic procedure described in the following pages.
Wall Mounted Type
FTXG-E, CTXG-E Series
Wall Mounted Type
FTXG-J, CTXG-J Series
Operation lamp
(multi-colored)
Operation lamp
(green)
(R12749)
(R12750)
Wall Mounted Type
FTXS-G, FTXS-J Series
Floor Standing Type
Operation lamp (green)
(R11687)
Operation lamp (green)
(R12187)
Floor / Ceiling Suspended Dual Type
Duct Connected Type
Operation lamp (green)
Operation lamp (green)
(R11688)
(Q0340)
197
Service Diagnosis
SiBE12-816_D
Troubleshooting with LED
BRC1D528
Operation lamp (red)
(R14422)
BRC7E530W/531W
In case of wireless remote controller, a signal receiver PCB and a display PCB are installed on
indoor unit.
When the error occurs, the operation lamp on the display PCB blinks.
Caution:
When operation stops suddenly and the operation lamp blinks, it could be "operation mode
conflict".
Check followings;
Are the operation modes all the same for the indoor units connected to multi system outdoor
unit?
If not, set all the indoor units to the same operation mode and confirm that the operation lamp is
not blinking.
Moreover, when the operation mode is automatic, set all the indoor unit operation mode as
"cooling" or "heating" and check again if the operation lamp is normal.
If the lamp stops blinking after the above steps, there is no malfunction.
★Operation stops and operation lamp blinks only for indoor unit which different operation mode
is set later. (The first set operation mode has priority.)
Service Monitor
1.2
The indoor unit has one green LED (LED A) on the control PCB. When the microcomputer
works in order, the LED A blinks.
Outdoor Unit
The outdoor unit has one green LED (LED A) on the PCB. When the microcomputer works in
order, the LED A blinks.
Service Diagnosis
198
Problem Symptoms and Measures
SiBE12-816_D
2. Problem Symptoms and Measures
Problem Symptom
Check Item
None of the units operates. Check the power supply.
Check the type of the indoor units.
Check the outdoor temperature.
Diagnose with remote controller
indication
Operation sometimes
stops.
Heating operation cannot be used when the
outdoor temperature is 20°C or higher, and
cooling operation cannot be used when the
outdoor temperature is below 10°C.
Heating operation cannot be used when the
outdoor temperature is 20°C or higher, and
cooling operation cannot be used when the
outdoor temperature is below 10°C.
Check the type of the indoor units.
—
—
—
213, 214
—
Check the outdoor temperature.
303
—
—
213, 214
—
Check if the indoor unit type is compatible with
the outdoor unit.
—
213, 214
—
Check for wiring and piping errors in
the connection between the indoor
—
and outdoor units.
Check for thermistor detection errors. Check if the thermistor is mounted securely.
—
Check for faulty operation of the
electronic expansion valve.
—
Diagnose with remote controller
indication.
Diagnose by service port pressure
and operating current.
Large operating noise and Check the output voltage of the
vibrations
power module.
Check the power module.
Check the installation condition.
199
Check if the rated voltage is supplied.
Check if the indoor unit type is compatible with
the outdoor unit.
Check if address settings for the remote
controller and indoor unit are correct.
A power failure of 2 to 10 cycles can stop air
conditioner operation. (Operation lamp OFF)
Diagnose with remote controller
indication
Units operate but do not
cool, or do not heat.
Reference
Page
Check the remote controller
addresses.
Check the power supply.
Diagnose with remote controller
indication.
Some indoor units do not
operate.
Details of Measure
Set both the units to cooling operation, and
compare the temperatures of the liquid pipes to
see if the each electronic expansion valve
works.
—
213, 214
—
Check for refrigerant shortage.
254
271
—
—
Check if the required spaces for installation
(specified in the installation manual, etc.) are
provided.
—
—
Service Diagnosis
SiBE12-816_D
Service Check Function
3. Service Check Function
3.1
RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S
Series
3.1.1 ARC466 Series Remote Controller
Check Method 1
1. When the timer cancel button is held down for 5 seconds, “00” indication appears on the
temperature display section.
Timer cancel button
< ARC466 Series >
(R14220)
2. Press the timer cancel button repeatedly until a long beep sounds.
„ The code indication changes in the sequence shown below.
Note:
Service Diagnosis
No.
Code
No.
Code
No.
Code
1
2
00
U4
13
14
C7
A3
25
26
UA
UH
3
4
L5
E6
15
16
H8
H9
27
28
P4
L3
5
6
H6
H0
17
18
C9
C4
29
30
L4
H7
7
8
A6
E7
19
20
C5
J3
31
32
U2
EA
9
10
U0
F3
21
22
J6
E5
33
34
AH
FA
11
12
A5
F6
23
24
A1
E1
35
36
H1
P9
1. A short beep “pi” and two consecutive beeps “pi pi” indicate non-corresponding codes.
2. To return to the normal mode, hold the timer cancel button down for 5 seconds. When the
remote controller is left untouched for 60 seconds, it also returns to the normal mode.
3. Not all the error codes are displayed. When you cannot find the error code, try the check
method 2. (→Refer to page 201)
200
Service Check Function
SiBE12-816_D
Check Method 2
1. Press the center of the Temp button and the Mode button at the same time.
(R11669)
“5C” is displayed on the LCD.
(R11821)
2. Select “5C” (service check) with the Temp ▲ or ▼ button.
3. Press the Mode button to enter the service check mode.
The figure of the ten’s place blinks.
(R11670)
4. Press the Temp ▲ or ▼ button and change the figure until you hear the sound of “beep” or
“pi pi”.
(R11671)
5. Diagnose by the sound.
★“pi” : The figure of the ten’s place does not accord with the error code.
★“pi pi” : The figure of the ten’s place accords with the error code but the one’s not.
★“beep” : The both figures of the ten’s and one’s place accord with the error code.
(The figures indicated when you hear the “beep” sound are error code.
→ Refer to page 213, 214.)
201
Service Diagnosis
SiBE12-816_D
Service Check Function
6. Press the Mode button.
(R11672)
The figure of the one’s place blinks.
(R11673)
7. Press the Temp ▲ or ▼ button and change the figure until you hear the sound of “beep”.
(R11671)
8. Diagnose by the sound.
★“pi” : The figure of the ten’s place does not accord with the error code.
★“pi pi” : The figure of the ten’s place accords with the error code but the one’s not.
★“beep” : The both figures of the ten’s and one’s place accord with the error code.
9. Determine the error code.
The figures indicated when you hear the “beep” sound are error code.
(Error codes and description → Refer to page 213, 214.)
10.Press the Mode button for 5 seconds to exit from the service check mode.
(When the remote controller is left untouched for 60 seconds, it returns to the normal mode
also.)
(R11672)
Service Diagnosis
202
Service Check Function
SiBE12-816_D
3.1.2 ARC452 Series Remote Controller
Check Method 1
1. When the timer cancel button is held down for 5 seconds, “00” indication appears on the
temperature display section.
Timer cancel button
< ARC452 Series >
(R13820)
2. Press the timer cancel button repeatedly until a long beep sounds.
„ The code indication changes in the sequence shown below.
Note:
203
No.
1
Code
00
No.
13
Code
C7
No.
25
Code
UA
2
3
U4
L5
14
15
A3
H8
26
27
UH
P4
4
5
E6
H6
16
17
H9
C9
28
29
L3
L4
6
7
H0
A6
18
19
C4
C5
30
31
H7
U2
8
9
E7
U0
20
21
J3
J6
32
33
EA
AH
10
11
F3
A5
22
23
E5
A1
34
FA
12
F6
24
E1
1. A short beep “pi” and two consecutive beeps “pi pi” indicate non-corresponding codes.
2. To return to the normal mode, hold the timer cancel button down for 5 seconds. When the
remote controller is left untouched for 60 seconds, it also returns to the normal mode.
3. Not all the error codes are displayed. When you cannot find the error code, try the check
method 2. (→Refer to page 204)
Service Diagnosis
SiBE12-816_D
Service Check Function
Check Method 2
1. Press the 3 buttons (TEMP▲, TEMP▼, MODE) simultaneously to enter the diagnosis mode.
(R8381)
The figure of the ten’s place blinks.
(R8382)
2. Press the TEMP ▲ or ▼ button and change the figure until you hear the sound of “beep” or
“pi pi”.
(R8383)
3. Diagnose by the sound.
★“pi” : The figure of the ten’s place does not accord with the error code.
★“pi pi” : The figure of the ten’s place accords with the error code but the one’s not.
★“beep” : The both figures of the ten’s and one’s place accord with the error code.
(The figures indicated when you hear the “beep” sound are error code.
→ Refer to page 213, 214.)
4. Press the MODE button.
(R8384)
The figure of the one’s place blinks.
(R8385)
Service Diagnosis
204
Service Check Function
SiBE12-816_D
5. Press the TEMP▲ or ▼ button and change the figure until you hear the sound of “beep”.
(R8383)
6. Diagnose by the sound.
★“pi” : The figure of the ten’s place does not accord with the error code.
★“pi pi” : The figure of the ten’s place accords with the error code but the one’s not.
★“beep” : The both figures of the ten’s and one’s place accord with the error code.
7. Determine the error code.
The figures indicated when you hear the “beep” sound are error code.
(Error codes and description → Refer to page 213, 214.)
8. Press the MODE button to exit from the diagnosis mode.
(R8384)
The display “
” means the trial operation mode.
(Refer to page 300 for trial operation.)
(R9659)
9. Press the ON/OFF button twice to return to the normal mode.
(R9660)
Note:
205
When the remote controller is left untouched for 60 seconds, it returns to the normal mode.
Service Diagnosis
SiBE12-816_D
Service Check Function
3.1.3 ARC433 Series Remote Controller
Check Method 1
1. When the timer cancel button is held down for 5 seconds, “00” indication appears on the
temperature display section.
Timer cancel button
< ARC433 Series >
(R14221)
2. Press the timer cancel button repeatedly until a long beep sounds.
„ The code indication changes in the sequence shown below.
<ARC433B41>
No.
1
Code
00
No.
12
Code
F6
No.
23
Code
A1
2
3
U4
L5
13
14
C7
A3
24
25
E1
UA
4
5
E6
H6
15
16
H8
H9
26
27
UH
P4
6
7
H0
A6
17
18
C9
C4
28
29
L3
L4
8
9
E7
U0
19
20
C5
J3
30
31
H7
U2
10
11
F3
A5
21
22
J6
E5
32
33
EA
AH
<ARC433B67, B68, B69, B76>
Note:
Service Diagnosis
No.
Code
No.
Code
No.
Code
1
2
00
U4
12
13
C7
H8
23
24
H0
E1
3
4
F3
E6
14
15
J3
A3
25
26
P4
L3
5
6
L5
A6
16
17
A1
C4
27
28
L4
H6
7
8
E5
F6
18
19
C5
H9
29
30
H7
U2
9
10
C9
U0
20
21
J6
UA
31
32
UH
EA
11
E7
22
A5
33
AH
1. A short beep “pi” and two consecutive beeps “pi pi” indicate non-corresponding codes.
2. To return to the normal mode, hold the timer cancel button down for 5 seconds. When the
remote controller is left untouched for 60 seconds, it also returns to the normal mode.
3. Not all the error codes are displayed. When you cannot find the error code, try the check
method 2. (→Refer to page 207)
206
Service Check Function
SiBE12-816_D
Check Method 2
1. Press the center of the TEMP button and the MODE button simultaneously to enter the
diagnosis mode.
(R4272)
The figure of the ten’s place blinks.
(R4273)
2. Press the TEMP ▲ or ▼ button and change the figure until you hear the sound of “beep” or
“pi pi”.
(R4274)
3. Diagnose by the sound.
★“pi” : The figure of the ten’s place does not accord with the error code.
★“pi pi” : The figure of the ten’s place accords with the error code but the one’s not.
★“beep” : The both figures of the ten’s and one’s place accord with the error code.
(The figures indicated when you hear the “beep” sound are error code.
→ Refer to page 213, 214.)
4. Press the MODE button.
(R4275)
The figure of the one’s place blinks.
(R4276)
207
Service Diagnosis
SiBE12-816_D
Service Check Function
5. Press the TEMP▲ or ▼ button and change the figure until you hear the sound of “beep”.
(R4277)
6. Diagnose by the sound.
★“pi” : The figure of the ten’s place does not accord with the error code.
★“pi pi” : The figure of the ten’s place accords with the error code but the one’s not.
★“beep” : The both figures of the ten’s and one’s place accord with the error code.
7. Determine the error code.
The figures indicated when you hear the “beep” sound are error code.
(Error codes and description → Refer to page 213, 214.)
8. Press the MODE button to exit from the diagnosis mode.
(R4278)
The display “
” means the trial operation mode.
(Refer to page 300 for trial operation.)
(R9669)
9. Press the ON/OFF button twice to return to the normal mode.
(R9670)
Note:
Service Diagnosis
When the remote controller is left untouched for 60 seconds, it returns to the normal mode.
208
Service Check Function
3.2
SiBE12-816_D
SA Indoor Unit - FFQ Series
3.2.1 Relations between Modes
The following modes can be selected by using the [Inspection / Test] button on the remote
controller.
Press the [Inspection / Test]
Indoor unit settings can be made. button for more than 4 seconds.
z Filter cleaning sign time
Field
z Others
Service
setting
mode
mode
Service data can be obtained.
z Error code history
z Temperature data of various sections
Service settings can be made.
z Forced fan ON
z Airflow rate setting
Press the [Inspection / Test] button once.
Press the [Inspection / Test]
button for more than 4 seconds.
Normal
mode
Press the [Inspection / Test]
button once.
Press the [Inspection / Test] button once
or leave the remote controller untouched
for 30 minutes.
After 10 seconds
Following codes can be checked.
Inspection
z Error codes
mode
z Indoor model code
Trial
operation
mode
Thermostat is forcibly turned on.
Press the [Inspection / Test] button once.
(R11277)
3.2.2 BRC1D528
If operation stops due to malfunction, the operation lamp on the remote controller blinks, and
error code is displayed. (Even if stop operation is carried out, malfunction contents are
displayed when inspection mode is entered.) The error code enables you to tell what kind of
malfunction caused operation to stop.
Refer to page 213, 214 for error code and malfunction contents.
Operation lamp
[ON/OFF] button
Display of indoor unit
for which a malfunction
has been detected
Inspection display
Error code
[Inspection / Test] button
(R14423)
Note:
209
1. When you press the [Inspection / Test] button, the inspection display blinks.
2. While in the inspection mode, press the [ON/OFF] button for 5 seconds or more to clear the
failure history indication. In this case, the error code blinks twice and then changes to “00” (=
Normal), the UNIT No. changes to “0”, and the operation mode automatically switches from
the inspection mode to the normal mode (displaying the set temperature).
Service Diagnosis
SiBE12-816_D
Service Check Function
3.2.3 BRC7E530W/531W
To find the error code, proceed as follows:
Step
1
Action
Press the [Inspection / Test] button to enter the inspection mode. Then the figure “0”
blinks on the UNIT No. display.
00
0
[Inspection / Test] button
(R14392)
2
Press the UP or DOWN button and change the UNIT No. until the receiver of the remote
controller starts to beep.
UP button
DOWN button
00
1
(R14424)
If you hear...
3 short beeps
Then...
Follow all steps below.
1 short beep
Follow steps 3 and 4. Continue the
operation in step 4 until you hear a
continuous beep. This continuous
beep indicates that the error code
is confirmed.
There is no abnormality.
1 continuous beep
Service Diagnosis
210
Service Check Function
SiBE12-816_D
Step
3
Action
Press the MODE button. The left “0” (upper digit) indication of the error code blinks.
00
1
MODE button
(R14394)
4
Press the UP or DOWN button to change the error code upper digit until the receiver of
the remote controller starts to beep.
DOWN
4
5
6
7
8
9
U
P
L
J
F
H
E
C
A
0
UP button
DOWN button
A0
1
UP
(R14395)
211
If you hear...
Then...
2 short beeps
1 short beep
The upper digit matches.
No digits match.
1 continuous beep
Both upper and lower digits match.
Service Diagnosis
SiBE12-816_D
Service Check Function
Step
5
Action
Press the MODE button. The right “0” (lower digit) indication of the error code blinks.
A0
1
MODE button
(R14396)
6
Press the UP or DOWN button and change the error code lower digit until the receiver
of the remote controller generates a continuous beep.
DOWN
F
E
J
C
H
A
9
8
7
6
5
4
3
2
1
0
UP button
DOWN button
A3
1
UP
(R14397)
7
Press the MODE button to return to the normal mode. If you do not press any button for
1 minutes, the remote controller automatically returns to the normal mode.
27
MODE button
(R14398)
Service Diagnosis
212
Code Indication on Remote Controller
SiBE12-816_D
4. Code Indication on Remote Controller
4.1
RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series
Error Codes
4.2
Description
Reference Page
00
A1
A5
Normal condition
A6
Fan motor or related abnormality
C4
C7
C9
Indoor heat exchanger thermistor or related abnormality
221
Front panel open / close fault
222
Room temperature thermistor or related abnormality
221
—
Indoor unit PCB abnormality
215
Freeze-up protection control or heating peak-cut control
216
AC motor (duct, floor / ceiling)
DC motor (wall, floor standing)
218
219
SA Indoor Unit - FFQ Series
Error Codes
Description
00
A1
A3
A6
AF
C4
C9
CJ
Normal condition
Reference Page
—
Indoor unit PCB abnormality
223
Drain water level system abnormality
224
Fan motor or related abnormality (See the Note below.)
226
Drain system abnormality
227
Indoor heat exchanger thermistor or related abnormality
228
Room temperature thermistor or related abnormality
228
Remote controller thermistor abnormality
230
U5
Signal transmission error (between indoor unit and remote
controller)
231
U8
Signal transmission error (between MAIN remote controller and
SUB remote controller)
232
UA
Field setting abnormality
233
: Error code displays automatically and system stops.
Inspect and repair it.
: In the case of the shaded error codes, “inspection” is not displayed. The system
operates, but be sure to inspect and repair it.
Note:
213
When there is a possibility of open phase power supply, also check power supply.
Service Diagnosis
SiBE12-816_D
4.3
Code Indication on Remote Controller
Outdoor Unit
Error Codes
System
Outdoor
Unit
00
U0★
U2
U4
UA
UH
A5
E5★
E6★
E7
E8
F3
F6
H0
H6
H8
H9
J3
J6
J8
J9
L3
L4
L5
P4
Description
Normal
Reference
Page
—
Refrigerant shortage
254
Low-voltage detection or over-voltage detection
256
Outdoor unit PCB abnormality or signal transmission error
257
Unspecified voltage (between indoor unit and outdoor unit)
260
Anti-icing control in other room
260
Anti-icing control for indoor unit
235
OL activation (compressor overload)
237
Compressor lock
238
DC fan lock
239
Input overcurrent detection
240
Discharge pipe temperature control
241
High pressure control in cooling
242
Compressor system sensor abnormality
243
Position sensor abnormality
244
DC voltage / current sensor abnormality
246
Outdoor temperature thermistor or related abnormality
247
Discharge pipe thermistor or related abnormality
247
Outdoor heat exchanger thermistor or related abnormality
247
Liquid pipe temperature thermistor or related abnormality
247
Gas pipe temperature thermistor or related abnormality
247
Electrical box temperature rise
249
Radiation fin temperature rise
250
Output overcurrent detection
252
Radiation fin thermistor or related abnormality
247
★: Displayed only when system-down occurs.
Service Diagnosis
214
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
SiBE12-816_D
5. Troubleshooting for RA Indoor Unit - F(C)TXG,
FTXS, FVXS, FLK(X)S, FDK(X)S Series
5.1
Indoor Unit PCB Abnormality
A1
Remote
Controller
Display
Method of
Malfunction
Detection
The system checks if the circuit works properly within the microcomputer of the indoor unit.
Malfunction
Decision
Conditions
The system cannot set the internal settings.
Supposed
Causes
„ Wrong models interconnected
„ Defective indoor unit PCB
„ Disconnection of connector
Troubleshooting
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Caution
Check the combination of the
indoor and outdoor unit.
OK?
NO
Match the compatible
models.
YES
* To secure the connection,
once disconnect the connector
and then reconnect it.
Check the connection of
connectors (See Note.).
OK?
YES
Replace the indoor unit
PCB.
NO
Correct the connection.
Error repeats?
YES
Replace the indoor unit
PCB.
NO
Completed.
(R11930)
Note:
215
Check the following connector.
Model Type
Wall mounted type
Connector
Terminal board ~ Control PCB
Floor standing type
Floor / ceiling suspended dual type
Terminal board ~ Control PCB
S36 ~ S37
Duct connected type
Terminal board ~ Control PCB
Service Diagnosis
SiBE12-816_D
5.2
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
Freeze-up Protection Control or Heating Peak-cut
Control
Remote
Controller
Display
A5
Method of
Malfunction
Detection
„ Freeze-up protection control
Malfunction
Decision
Conditions
„ Freeze-up protection control
During cooling operation, the freeze-up protection control (operation halt) is activated
according to the temperature detected by the indoor heat exchanger thermistor.
„ Heating peak-cut control
During heating operation, the temperature detected by the indoor heat exchanger thermistor
is used for the heating peak-cut control (operation halt, outdoor fan stop, etc.)
During cooling operation, the indoor heat exchanger temperature is below 0°C.
„ Heating peak-cut control
During heating operation, the temperature detected by the indoor heat exchanger thermistor
is above 65°C.
Supposed
Causes
Service Diagnosis
„
„
„
„
„
Clogged air filter of the indoor unit
Dust accumulation on the indoor heat exchanger
Short-circuited air
Defective indoor heat exchanger thermistor
Defective indoor unit PCB
216
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
SiBE12-816_D
Troubleshooting
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Caution
Check No.01
Refer to P.261
Check the air passage.
Is there any short circuit?
YES
Provide sufficient air passage.
NO
Check the air filter.
Is it very dirty?
YES
Clean the air filter.
NO
Check the dust accumulation on
the indoor heat exchanger.
Is it very dirty?
YES
Clean the indoor heat
exchanger.
NO
Check No. 01
Check the indoor heat exchanger
thermistor.
Does it
conform to the
thermistor characteristic
chart?
YES
NO
Replace the thermistor.
Replace the indoor unit PCB.
(R14402)
217
Service Diagnosis
SiBE12-816_D
5.3
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
Fan Motor or Related Abnormality
5.3.1 AC Motor (Duct Connected Type, Floor / Ceiling Suspended Dual Type)
Remote
Controller
Display
A6
Method of
Malfunction
Detection
The rotation speed detected by the Hall IC during fan motor operation is used to determine
abnormal fan motor operation.
Malfunction
Decision
Conditions
The detected rotation speed does not reach the demanded rotation speed of the target tap, and
is less than 50% of the maximum fan motor rotation speed.
Supposed
Causes
„
„
„
„
„
Layer short inside the fan motor winding
Breaking of wire inside the fan motor
Breaking of the fan motor lead wires
Defective capacitor of the fan motor
Defective indoor unit PCB
Troubleshooting
Caution
Check No.04
Refer to P.262
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Start operation.
YES
Does the fan rotate?
Check No. 04
Check Hall IC
NO
Turn off the power supply and
rotate the fan by hand.
Is there an output?
NO
Does the fan rotate
smoothly?
YES
YES
Replace the fan motor or the
indoor unit PCB.
Replace the fan motor.
Check the fan motor voltage.
Turn the power on and check the
fan motor voltage. (immediately
after restart)
Is it the rated voltage? ∗
YES
Is it the rated voltage? ∗
NO
NO
∗ Measure the voltage
between the red and black
lead wires of the fan motor,
and check if the maximum
voltage reaches the rated
voltage.
NO
Replace the indoor unit PCB.
Replace the fan motor.
Replace the indoor unit PCB.
YES
Check the capacitor's continuity.
Is there continuity?
NO
YES
Replace the capacitor.
(Replace the indoor unit PCB.)
Replace the fan motor.
(R14403)
Service Diagnosis
218
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
SiBE12-816_D
5.3.2 DC Motor (Wall Mounted Type, Floor Standing Type)
Remote
Controller
Display
A6
Method of
Malfunction
Detection
The rotation speed detected by the Hall IC during fan motor operation is used to determine
abnormal fan motor operation.
Malfunction
Decision
Conditions
The detected rotation speed does not reach the demanded rotation speed of the target tap, and
is less than 50% of the maximum fan motor rotation speed.
Supposed
Causes
„
„
„
„
„
„
„
219
Disconnection of connector
Foreign matters stuck in the fan
Layer short inside the fan motor winding
Breaking of wire inside the fan motor
Breaking of the fan motor lead wires
Defective capacitor of the fan motor
Defective indoor unit PCB
Service Diagnosis
SiBE12-816_D
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
Troubleshooting
Caution
Check No.02
Refer to P.262
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Turn off the power supply
and rotate the fan by
hand.
Does the fan rotate
smoothly?
NO
Replace the fan
motor.
YES
Turn the power on and
start operation.
Does the fan
rotate?
Turn off the power supply
NO and disconnect the fan
motor connector, then
turn the power on.
YES
Note : The motor may break when the
motor connector is disconnected
while remaining power supply.
Check No.02
Check the output of the
fan motor connector
Is the
motor power
supply voltage
310 ~ 340 VDC
generated?
NO
Replace the indoor
unit PCB.
YES
Is the motor
control voltage 15
VDC generated?
NO
Replace the indoor
unit PCB.
YES
Is the
rotation
command voltage
1 ~ 5 VDC
generated?
Stop the fan motor.
YES
Replace the fan
motor.
NO
Check No.02
Check the output of the
fan motor connector
Is the
rotation number
command pulse
generated?
YES
Is the
rotation number
command pulse
generated?
YES
NO
NO
Replace the fan
motor and the
indoor unit PCB.
Replace the indoor
unit PCB.
Replace the fan
motor.
Replace the indoor
unit PCB.
(R14404)
Service Diagnosis
220
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
5.4
SiBE12-816_D
Thermistor or Related Abnormality (Indoor Unit)
Remote
Controller
Display
C4, C9
Method of
Malfunction
Detection
The temperatures detected by the thermistors are used to determine thermistor errors.
Malfunction
Decision
Conditions
The thermistor input is more than 4.96 V or less than 0.04 V during compressor operation.
Supposed
Causes
„ Disconnection of connector
„ Defective thermistor
„ Defective indoor unit PCB
Troubleshooting
Check No.01
Refer to P.261
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check the connection of
connectors.
Is it normal?
NO
Correct the connection.
YES
Check No. 01
Check the thermistor resistance
value.
Is it normal?
NO
YES
Replace the thermistor.
(Replace the indoor unit PCB.)
Replace the indoor unit PCB.
(R14406)
C4 : Indoor heat exchanger thermistor
C9 : Room temperature thermistor
221
Service Diagnosis
SiBE12-816_D
5.5
Troubleshooting for RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S, FDK(X)S Series
Front Panel Open / Close Fault (FTXG, CTXG)
C7
Remote
Controller
Display
Method of
Malfunction
Detection
Malfunction
Decision
Conditions
„ If the error repeats twice, the system is shut down.
Supposed
Causes
„ Defective reduction motor
„ Malfunction or deterioration of the front panel mechanism
„ Defective limit switch
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Restart and check the
movement.
Does it move?
YES
NO
Remove the front panel and
check the movement.
Does it move?
NO
Replace the assembly of the
front panel mechanism.
YES
Replace the harness and
reduction motor.
Does it open / close
fully?
NO
YES
Restart.
Does the error code
reappear?
YES
NO
Replace the assembly of the
front panel mechanism.
+Check the movement of the
right and left separately by
hand.
It is supposed such as
deformation of the panel or
stuffed dust.
Find out the cause.
Replace the limit switch.
(R12180)
Note:
Service Diagnosis
You cannot operate the unit by the remote controller when the front panel mechanism breaks
down.
<To the dealers: temporary measure before repair>
1. Turn off the power.
2. Remove the front panel.
3. Turn on the power.
(Wait until the initialization finishes.)
4. Operate the unit by the indoor unit ON/OFF button.
222
Troubleshooting for SA Indoor Unit - FFQ Series
SiBE12-816_D
6. Troubleshooting for SA Indoor Unit - FFQ Series
6.1
Indoor Unit PCB Abnormality
Remote
Controller
Display
A1
Method of
Malfunction
Detection
The system checks the data from EEPROM.
Malfunction
Decision
Conditions
When the data from the EEPROM is not received correctly
Supposed
Causes
„ Defective indoor unit PCB
EEPROM (Electrically Erasable Programmable Read Only Memory): A memory chip that holds
its content without power. It can be erased, either within the computer or externally and usually
requires more voltage for erasure than the common +5 volts used in logic circuits. It functions
like non-volatile RAM, but writing to EEPROM is slower than writing to RAM.
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Switch the power off and on
again to restart.
Normal?
NO
Replace the indoor unit PCB.
YES
External factor other than malfunction.
(for example, noise etc.)
(R11294)
223
Service Diagnosis
SiBE12-816_D
6.2
Troubleshooting for SA Indoor Unit - FFQ Series
Drain Water Level System Abnormality
Remote
Controller
Display
A3
Method of
Malfunction
Detection
The float switch detects error.
Malfunction
Decision
Conditions
When the water level reaches its upper limit and when the float switch turns OFF
Supposed
Causes
„
„
„
„
„
„
Service Diagnosis
Defective drain pump
Improper drain piping work
Clogged drain piping
Defective float switch
Defective indoor unit PCB
Defective short circuit connector X15A on indoor unit PCB
224
Troubleshooting for SA Indoor Unit - FFQ Series
SiBE12-816_D
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Is the drain
pump connected to the
indoor unit PCB?
NO
Connect the drain pump.
YES
Does
the drain pump work after
restarting operation?
NO
YES
Is the drain water level
abnormally high?
Set to
"emergency" and check
the voltage of X25A.
220 VAC?
YES
YES
NO
Replace the indoor unit
PCB.
Replace the drain pump.
There is a drain system
abnormality.
NO
Is the float switch
connected to X15A?
NO
Connect the float switch.
YES
Remove the float switch from
X15A, short circuit X15A, and
restart operation.
Does
"A3" appear on the remote
controller display?
YES
NO
Replace the float switch.
Replace the indoor unit
PCB.
(R11295)
Note:
225
If "A3" is detected by the indoor unit PCB which is not mounted with X15A, the indoor unit PCB
is defective.
Service Diagnosis
SiBE12-816_D
6.3
Troubleshooting for SA Indoor Unit - FFQ Series
Fan Motor or Related Abnormality
Remote
Controller
Display
A6
Method of
Malfunction
Detection
The signal from the fan motor detects abnormal fan speed.
Malfunction
Decision
Conditions
When the fan rotations are not detected while the output voltage to the fan is at its maximum
Supposed
Causes
„
„
„
„
Defective indoor fan motor
Broken or disconnected wire
Defective contact
Defective indoor unit PCB
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Is the
wiring from the fan
motor securely connected to
connectors on the
indoor unit
PCB?
NO
Connect the wiring and turn on
again.
YES
Does the fan motor run?
NO
Replace the fan motor.
YES
Replace the indoor unit PCB.
(R11296)
Service Diagnosis
226
Troubleshooting for SA Indoor Unit - FFQ Series
6.4
SiBE12-816_D
Drain System Abnormality
Remote
Controller
Display
AF
Method of
Malfunction
Detection
Water leakage is detected based on the float switch ON/OFF changeover while the compressor
is not operating.
Malfunction
Decision
Conditions
When the float switch changes from ON to OFF while the compressor is OFF
Supposed
Causes
„ Error in the drain pipe installation
„ Defective float switch
„ Defective indoor unit PCB
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Are
the float switch and
the drain pipe
normal?
NO
YES
Is
the water drain system
normal?
YES
NO
The float switch may be
defective. Check to see if
the drain-up height and the
horizontal pipe length
exceed the specifications.
Clogged water drain
system, clogged drain
pump, or faulty float switch
Replace the indoor unit
PCB. Check to see if the
drain-up height and the
horizontal pipe length
exceed the specifications.
(R14222)
227
Service Diagnosis
SiBE12-816_D
6.5
Troubleshooting for SA Indoor Unit - FFQ Series
Thermistor or Related Abnormality
Remote
Controller
Display
Method of
Malfunction
Detection
Malfunction
Decision
Conditions
The table below describes the two thermistor abnormalities.
Error
C4
C9
Description
Defective indoor heat exchanger thermistor system
Defective room temperature thermistor system
Malfunction detection is carried out by the temperature detected by thermistor.
When during compressor operation:
„ Thermistor input > 4.96 V
or
„ Thermistor output < 0.04 V.
Supposed
Causes
„
„
„
„
Checking
thermistors
If the cause of the problem is related to the thermistors, the thermistors should be checked prior
to changing the indoor unit PCB.
Disconnection of connector
Defective thermistor
Defective indoor unit PCB
Broken or disconnected wire
To check the thermistors, proceed as follows:
Step
1
2
3
Action
Disconnect the thermistor from the indoor unit PCB.
Read the temperature and the resistor value.
Check if the measured values correspond with the values in the table of thermistor
resistance check.
Refer to “Thermistor resistance check” on page 261 for detail.
Service Diagnosis
228
Troubleshooting for SA Indoor Unit - FFQ Series
SiBE12-816_D
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check the connector
connection.
Is it connected properly?
NO
Correct the connection.
YES
Check the thermistor
resistance.
C4: Indoor heat exchanger thermistor
(R2T).
Is it normal?
NO
C9: Room temperature thermistor (R1T).
Replace the thermistor.
YES
Check the contact between
the thermistor and the indoor
unit PCB.
Is the contact OK?
NO
Correct the contact.
YES
Replace the indoor unit PCB.
(R11299)
229
Service Diagnosis
SiBE12-816_D
6.6
Troubleshooting for SA Indoor Unit - FFQ Series
Remote Controller Thermistor Abnormality
Remote
Controller
Display
CJ
Method of
Malfunction
Detection
Even if remote controller thermistor is malfunctioning, the system can operate with the system
thermistor.
Malfunction detection is carried out by the temperature detected by the remote controller
thermistor.
Malfunction
Decision
Conditions
When the remote controller thermistor disconnected or shorted while the unit is running
Supposed
Causes
„ Defective thermistor
„ Broken wire
Even if the remote controller thermistor is malfunctioning, the system can operate with the
system thermistor.
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Turn the power supply off once and
then back on.
Is "CJ" displayed on
the remote controller?
YES
Replace the remote
controller.
NO
External factor other than
malfunction. (for example,
noise etc.)
(R11300)
Service Diagnosis
230
Troubleshooting for SA Indoor Unit - FFQ Series
6.7
SiBE12-816_D
Signal Transmission Error (between Indoor Unit and
Remote Controller)
Remote
Controller
Display
U5
Method of
Malfunction
Detection
Microcomputer checks if transmission between indoor unit and remote controller is normal.
Malfunction
Decision
Conditions
The error is generated when the micro-processor detects that the transmission between the
indoor unit and the remote controller is not normal over a certain amount of time.
Supposed
Causes
„
„
„
„
Defective remote controller
Defective indoor unit PCB
External cause (noise...)
Connection of 2 master remote controllers (when using 2 remote controllers)
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Using 2 remote
controllers?
YES
NO
Operation
returns to normal when
the power is turned off
momentarily.
YES
YES
Replace the remote controller.
Return to normal?
YES
Set one remote controller to
"SUB"; turn the power supply off
once and then back on.
NO
NO
All indoor PCB
microcomputer monitors
blink?
Is SS1 of
both remote controllers
set to "MAIN"?
YES
NO
Replace the indoor unit PCB.
There is possibility of
malfunction caused by noise.
Check the surrounding area and
turn on again.
Normal
NO
Replace the indoor unit PCB.
Return to normal?
YES
Normal
NO
There is possibility of
malfunction caused by noise.
Check the surrounding area and
turn on again.
(R13008)
231
Service Diagnosis
SiBE12-816_D
6.8
Troubleshooting for SA Indoor Unit - FFQ Series
Signal Transmission Error (between MAIN Remote
Controller and SUB Remote Controller)
Remote
Controller
Display
U8
Method of
Malfunction
Detection
In case of controlling with 2 remote controllers, check the system using micro-computer if signal
transmission between indoor unit and remote controller (main and sub) is normal.
Malfunction
Decision
Conditions
The error is generated when the microprocessor detects that the transmission between the
indoor unit and the remote controllers (MAIN and SUB) is not normal over a certain amount of
time in case of controlling with 2 remote controllers.
Supposed
Causes
„ Transmission error between MAIN remote controller and SUB remote controller
„ Connection among SUB remote controllers
„ Defective remote controller PCB
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Using 2 remote
controllers?
NO
YES
NO
Set SS1 to "MAIN"; the power
supply off once and then back
on.
YES
YES
Is SS1 of both
remote controllers
set to "SUB"?
Is SS1 of
remote controller PCB
set to "SUB"?
NO
Turn the power off and then
back on. If a malfunction occurs,
replace the remote controller
PCB.
Set one remote controller to
"MAIN"; the power supply off
once and then back on.
(R13010)
Service Diagnosis
232
Troubleshooting for SA Indoor Unit - FFQ Series
6.9
SiBE12-816_D
Field Setting Abnormality
Remote
Controller
Display
UA
Method of
Malfunction
Detection
Malfunction
Decision
Conditions
Incorrect field setting
Supposed
Causes
„
„
„
„
„
233
Defective indoor unit PCB
Defective outdoor unit PCB
Defective power supply PCB
Indoor-outdoor, indoor-indoor unit transmission wiring
Defective remote controller wiring
Service Diagnosis
SiBE12-816_D
Troubleshooting for SA Indoor Unit - FFQ Series
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Is the remote
controller connected to
one or more indoor
units?
YES
Connect the remote controller
correctly.
NO
Is the remote
controller wiring jumped
between indoor
units?
YES
Remove the jumper.
NO
Is the field
setting correct?
NO
Set it correctly.
YES
Do the
microcomputer
normal monitors HAP on all
indoor unit PCB
blink?
NO
Are the wirings
between indoor unit and
outdoor unit correctly
connected?
NO
YES
YES
Is 220 ~ 240
VAC between No.1 and
3 of X2M terminal
(indoor unit)?
Turn the power supply off
once, and back on to restart.
YES
NO
Does the system conduct
normal operation?
YES
Connect them correctly.
NO
Are the wirings
between indoor unit and
outdoor unit correctly
connected?
YES
Check the power supply system
inside the indoor unit.
Could be incorrect wiring.
Check again.
NO
Connect them correctly.
Replace the indoor unit PCB.
Normal
(R13067)
Service Diagnosis
234
Troubleshooting for Outdoor Unit
SiBE12-816_D
7. Troubleshooting for Outdoor Unit
7.1
Anti-icing Control for Indoor Unit
Remote
Controller
Display
A5
Method of
Malfunction
Detection
During cooling operation, indoor unit icing is detected by checking the temperatures sensed by
the indoor heat exchanger thermistor and room temperature thermistor that are located in a
shut-down room.
Malfunction
Decision
Conditions
„ In cooling operation, both the condition (A) and (B) are met for 5 minutes.
Supposed
Causes
„
„
„
„
„
235
(A) Stop room thermistor temperature – Indoor heat exchanger temperature ≥ 10°C
(B) Indoor heat exchanger temperature ≤ –1°C
„ If the error repeats 4 times, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
Wrong wiring or piping
Defective electronic expansion valve
Short-circuited air
Defective indoor heat exchanger thermistor
Defective room temperature thermistor
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
Troubleshooting
Caution
Check No.01
Refer to P.261
Check No.12
Refer to P.263
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check the wiring and piping.
Wrong wiring or
piping?
YES
Activate the wiring error check
mode.
NO
Check No. 12
Check the electronic expansion
valve.
Functioning?
NO
Replace the electronic
expansion valve or coil.
YES
Check No. 01
Check the outdoor heat
exchanger thermistor.
Does it
conform to the thermistor
characteristic chart?
NO
Replace the outdoor heat
exchanger thermistor.
YES
Check No. 01
Check the room temperature
thermistor.
Does it
conform to the thermistor
characteristic chart?
NO
Replace the room temperature
thermistor.
YES
Change the refrigerant to remove
moisture from the piping (after
drawing a vacuum).
Error again?
NO
YES
Replace the room temperature
thermistor or indoor heat
exchanger thermistor.
Do the vacuum drying.
Replace the indoor unit PCB
and then start the wiring error
check function.
(R14407)
Service Diagnosis
236
Troubleshooting for Outdoor Unit
7.2
SiBE12-816_D
OL Activation (Compressor Overload)
Remote
Controller
Display
E5
Method of
Malfunction
Detection
A compressor overload is detected through compressor OL.
Malfunction
Decision
Conditions
„ If the error repeats twice, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
∗ The operating temperature condition is not specified.
Supposed
Causes
„
„
„
„
„
„
Refrigerant shortage
Defective four way valve
Defective outdoor unit PCB
Water mixed in refrigerant
Defective electronic expansion valve
Defective stop valve
Troubleshooting
Caution
Check No.01
Refer to P.261
Check No.12
Refer to P.263
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Discharge
pipe thermistor
disconnected?
Check No.14
Refer to P.265
Insert the thermistor in
position.
NO
Check No. 01
Check the thermistors.
Check No.13
Refer to P.264
YES
NG
∗ Discharge pipe thermistor
Replace the discharge pipe
thermistor.
OK
Check No. 12
Check the electronic
expansion valve.
NG
Replace the electronic
expansion valve or the coil.
OK
Check No. 13
Check the four way
valve.
NG
Replace the four way valve
or the coil.
Replace the outdoor unit
PCB.
OK
Check No. 14
Check the refrigerant
line.
OK
NG
∗ Refrigerant shortage
∗ Four way valve
∗ Water mixed
∗ Stop valve
Refer to the refrigerant line
check procedure.
Replace the outdoor unit
PCB.
(R14408)
237
Service Diagnosis
SiBE12-816_D
7.3
Troubleshooting for Outdoor Unit
Compressor Lock
Remote
Controller
Display
E6
Method of
Malfunction
Detection
A compressor lock is detected by checking the compressor running condition through the
position detection circuit.
Malfunction
Decision
Conditions
„ Judging from the current waveform generated when high-frequency voltage is applied to the
Supposed
Causes
„ Compressor locked
compressor.
„ If the error repeats 16 times, the system is shut down.
„ Reset condition: Continuous run for about 11 minutes without any other error
Troubleshooting
Check No.15
Refer to P.266
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
(Precaution before turning on the power again)
Make sure the power has been off for at least 30 seconds.
Turn off the power. Disconnect the
harnesses U, V, and W.
∗ Inverter checker
Check No. 15
Part No.: 1225477
Check with the inverter checker (∗).
Normal?
NO
YES
Correct the power supply or
replace the PM1.
(Replace the outdoor unit
PCB.)
Turn off the power and reconnect
the harnesses. Turn on the power
again and restart the system.
Emergency
stop without compressor
running?
YES
Replace the compressor.
NO
System shut
down after errors repeated
several times?
YES
NO
Check the electronic
expansion valve.
Replace it as required.
Replace the compressor.
(R14409)
Service Diagnosis
238
Troubleshooting for Outdoor Unit
7.4
SiBE12-816_D
DC Fan Lock
Remote
Controller
Display
E7
Method of
Malfunction
Detection
An error is determined with the high-voltage fan motor rotation speed detected by the Hall IC.
Malfunction
Decision
Conditions
„ The fan does not start in 60 seconds even when the fan motor is running.
„ If the error repeats, the system is shut down.
„ Reset condition: Continuous run for about 11 minutes without any other error
Supposed
Causes
„ Defective fan motor
„ Disconnection of the fan motor
„ Foreign matters stuck in the fan
Troubleshooting
Caution
Check No.16
Refer to P.268
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Fan motor connector
disconnected?
YES
Turn off the power and
reconnect the connector.
NO
Foreign matters in or
around the fan?
YES
Remove them.
NO
Turn on the power.
Rotate the fan.
Fan rotates
smoothly?
NO
Replace the outdoor fan
motor.
YES
Check No. 16
Check the rotation pulse input on
the outdoor unit PCB.
Pulse signal generated?
NO
Replace the outdoor fan
motor.
YES
Replace the outdoor unit
PCB.
(R14410)
239
Service Diagnosis
SiBE12-816_D
7.5
Troubleshooting for Outdoor Unit
Input Overcurrent Detection
Remote
Controller
Display
E8
Method of
Malfunction
Detection
Detected by checking the input current value
Malfunction
Decision
Conditions
„ The input current is at a certain value (depending on the condition) for 2.5 seconds.
„ The compressor halts if the error occurs, and restarts automatically after 3-minute standby.
Supposed
Causes
„
„
„
„
„
Defective compressor
Defective power transistor
Defective inverter main circuit electrolytic capacitor
Defective outdoor unit PCB
Short circuit
Troubleshooting
Caution
Check No.15
Refer to P.266
Check No.17
Refer to P.269
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
∗ An input overcurrent may result from wrong internal wiring. If the wires have been disconnected and
reconnected for part replacement, for example, and the system is interrupted by an input overcurrent,
take the following procedure.
Check No. 17
Check the installation condition.
Start operation and measure the
input current.
Check No.18
Refer to P.269
Input current flowing
above its stop level?
NO
Replace the outdoor unit
PCB.
YES
Turn off the power and disconnect
the harnesses U, V, and W.
Check No. 15
Check with the inverter checker (∗).
Any LED off?
NO
∗ Inverter checker
Part No.: 1225477
YES
Correct the power supply or
replace the PM1.
(Replace the outdoor unit
PCB.)
Turn off the power, and reconnect
the harnesses. Turn on the power
again and start operation.
Check No. 18
Check the discharge pressure.
(R14411)
Service Diagnosis
240
Troubleshooting for Outdoor Unit
7.6
SiBE12-816_D
Discharge Pipe Temperature Control
Remote
Controller
Display
F3
Method of
Malfunction
Detection
Detected by the discharge pipe thermistor
Malfunction
Decision
Conditions
„ If the temperature detected by the discharge pipe thermistor rises above A °C, the
compressor stops.
„ The error is cleared when the discharge pipe temperature is dropped below B °C.
A (°C)
B (°C)
40 class
110
97
50 class
110
95
„ If the error repeats 4 times, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
Supposed
Causes
„ Refrigerant shortage
„ Defective four way valve
„ Defective discharge pipe thermistor
„
„
„
„
(Defective outdoor heat exchanger thermistor or outdoor temperature thermistor)
Defective outdoor unit PCB
Water mixed in refrigerant
Defective electronic expansion valve
Defective stop valve
Troubleshooting
Caution
Check No.01
Refer to P.261
Check No.12
Refer to P.263
Check No.14
Refer to P.265
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check No. 01
Check the thermistors.
OK
Check No. 12
Check the electronic
expansion valve.
NG
• Discharge pipe thermistor
• Outdoor heat exchanger thermistor
• Outdoor temperature thermistor
NG
Replace the defective
thermistor.
Replace the electronic
expansion valve or the coil.
OK
Check No. 14
Check the refrigerant
line.
OK
NG
• Refrigerant shortage
• Four way valve
• Water mixed
• Stop valve
Refer to the refrigerant line
check procedure.
Replace the outdoor unit
PCB.
(R14412)
241
Service Diagnosis
SiBE12-816_D
7.7
Troubleshooting for Outdoor Unit
High Pressure Control in Cooling
Remote
Controller
Display
F6
Method of
Malfunction
Detection
High-pressure control (operation halt, frequency drop, etc.) is activated in cooling mode if the
temperature sensed by the outdoor heat exchanger thermistor exceeds the limit.
Malfunction
Decision
Conditions
„ The temperature sensed by the outdoor heat exchanger thermistor rises above about 65°C.
„ The error is cleared when the temperature drops below about 50°C.
Supposed
Causes
„
„
„
„
„
„
„
The installation space is not large enough.
Defective outdoor unit fan
Defective electronic expansion valve
Defective outdoor heat exchanger thermistor
Defective outdoor unit PCB
Defective stop valve
Dirty outdoor heat exchanger
Troubleshooting
Caution
Check No.01
Refer to P.261
Check No.12
Refer to P.263
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check the installation space.
Check No. 17
Check the installation
condition.
NG
OK
Check No.17
Refer to P.269
Check No. 19
Check the outdoor fan.
NG
OK
Check No.18
Refer to P.269
Check No. 18
Check the discharge
pressure.
NG
Change the installation
location or direction.
Clean the outdoor heat
exchanger.
Replace the fan motor.
Reconnect the connector or
fan motor lead wires.
Replace the stop valve.
OK
Check No.19
Refer to P.270
Check No. 12
Check the electronic
expansion valve.
NG
OK
Check No. 01
Check the outdoor heat
exchanger thermistor.
NG
Replace the electronic
expansion valve or the coil.
Replace the outdoor unit
PCB.
Replace the outdoor heat
exchanger thermistor.
OK
Replace the outdoor unit
PCB.
(R14413)
Service Diagnosis
242
Troubleshooting for Outdoor Unit
7.8
SiBE12-816_D
Compressor Sensor System Abnormality
Remote
Controller Display
H0
Method of
Malfunction
Detection
Fault condition is identified by DC current which is detected before compressor startup.
Malfunction
Decision
Conditions
„ When the DC current before compressor startup is other than 0.5 to 4.5 V (detected by
Supposed
Causes
„ Defective PCB
„ Harness disconnection / defective connection
converting the sensor output to voltage), or the DC voltage is 50 V or less.
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check the wire harness
Is the wire harness
damaged?
YES
Replace the wire harness.
NO
Replace the outdoor unit
PCB.
(R7143)
243
Service Diagnosis
SiBE12-816_D
7.9
Troubleshooting for Outdoor Unit
Position Sensor Abnormality
Remote
Controller
Display
H6
Method of
Malfunction
Detection
A compressor startup failure is detected by checking the compressor running condition through
the position detection circuit.
Malfunction
Decision
Conditions
„ If the error repeats 16 times, the system is shut down.
„ Reset condition: Continuous run for about 11 minutes without any other error
Supposed
Causes
„
„
„
„
„
Service Diagnosis
Disconnection of the compressor relay cable
Defective compressor
Defective outdoor unit PCB
Startup failure caused by the closed stop valve
Input voltage out of specification
244
Troubleshooting for Outdoor Unit
SiBE12-816_D
Troubleshooting
Caution
Check No.15
Refer to P.266
Check No.18
Refer to P.269
Check No.20
Refer to P.270
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Turn off the power.
Check the power supply voltage.
Voltage as rated?
NO
Correct the power supply.
YES
Check No. 18
Check the discharge
pressure.
NG
Replace the stop valve.
OK
Check No. 20
Check the short circuit of the diode
bridge.
Normal?
NO
Replace the outdoor unit
PCB or the outdoor fan.
YES
Check the connection.
Electrical
components or
compressor harnesses
connected as
specified?
NO
Reconnect them as
specified.
YES
Turn on the power.
Check the electrolytic capacitor
voltage.
320 ± 50 VDC?
NO
Replace the outdoor unit
PCB.
YES
Turn off the power. Disconnect the
harnesses U, V, and W.
∗ Inverter checker
Check No. 15
Check with the inverter checker (∗). Part No.: 1225477
Any LED OFF?
NO
YES
Correct the power supply or
replace the outdoor unit
PCB.
Replace the compressor.
(R14414)
245
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
7.10 DC Voltage / Current Sensor Abnormality
Remote
Controller
Display
H8
Method of
Malfunction
Detection
DC voltage or DC current sensor abnormality is identified based on the compressor running
frequency and the input current.
Malfunction
Decision
Conditions
„ The compressor running frequency is above 52 Hz.
„ If the error repeats 4 times, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
Supposed
Causes
„ Defective outdoor unit PCB
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Replace the outdoor unit PCB.
Service Diagnosis
246
Troubleshooting for Outdoor Unit
SiBE12-816_D
7.11 Thermistor or Related Abnormality (Outdoor Unit)
Remote
Controller
Display
H9, J3, J6, J8, J9, P4
Method of
Malfunction
Detection
This type of error is detected by checking the thermistor input voltage to the microcomputer.
A thermistor error is detected by checking the temperature sensed by each thermistor.
Malfunction
Decision
Conditions
„ The thermistor input is above 4.98 V or below 0.02 V with the power on.
„ J3 error is judged if the discharge pipe temperature is lower than the heat exchanger
Supposed
Causes
„
„
„
„
„
Troubleshooting
In case of “P4”
temperature.
„ The system is shut down if all the units are judged as the J8 or J9 error.
Disconnection of the connector for the thermistor
Defective thermistor
Defective outdoor unit PCB
Defective indoor unit PCB
Defective heat exchanger thermistor in the case of J3 error (outdoor heat exchanger
thermistor in cooling mode, or indoor heat exchanger thermistor in heating mode)
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Replace the outdoor unit PCB.
P4 : Radiation fin thermistor
247
Service Diagnosis
SiBE12-816_D
Troubleshooting
Troubleshooting for Outdoor Unit
In case of “H9” “J3” “J6” “J8” “J9”
Caution
Check No.01
Refer to P.261
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Turn on the power again.
Error displayed
again on remote
controller?
NO
Reconnect the connectors
or thermistors.
YES
Check No. 01
Check the thermistor resistance
value.
Normal?
J3 error: The discharge
pipe temperature is
lower than the heat
exchanger temperature.
Cooling: Outdoor heat
exchanger
thermistor
Heating: Indoor heat
exchanger
thermistor
NO
Replace the defective
one(s) of the following
thermistors.
• Outdoor temperature
thermistor
• Discharge pipe thermistor
• Outdoor heat exchanger
thermistor
• Liquid pipe thermistor
• Gas pipe thermistor
YES
Check No. 01
Check the indoor heat exchanger
thermistor resistance value in the
heating mode.
Indoor heat
exchanger thermistor
functioning?
YES
NO
Replace the following
thermistor.
• Indoor heat exchanger
thermistor
Replace the outdoor unit
PCB.
(Replace the indoor unit
PCB.)
(R14415)
H9 : Outdoor temperature thermistor
J3 : Discharge pipe thermistor
J6 : Outdoor heat exchanger thermistor
J8 : Liquid pipe thermistor
J9 : Gas pipe thermistor
Service Diagnosis
248
Troubleshooting for Outdoor Unit
SiBE12-816_D
7.12 Electrical Box Temperature Rise
Remote
Controller
Display
L3
Method of
Malfunction
Detection
An electrical box temperature rise is detected by checking the radiation fin thermistor with the
compressor off.
Malfunction
Decision
Conditions
„ With the compressor off, the radiation fin temperature is above A °C.
„ The error is cleared when the temperature drops below B °C.
„ To cool the electrical components, the outdoor fan starts when the radiation fin temperature
rises above C °C and stops when it drops below B °C.
Supposed
Causes
„
„
„
„
„
A (°C)
B (°C)
C (°C)
80
70
75
Defective outdoor unit fan
Short circuit
Defective fin thermistor
Disconnection of connector
Defective outdoor unit PCB
Troubleshooting
Caution
Check No.17
Refer to P.269
Check No.19
Refer to P.270
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
WARNING
To cool the electrical components,
the outdoor fan starts when the
radiation fin temperature rises
above C ˚C and stops when it
drops below B ˚C.
Turn off the power and turn it on
again.
YES
Error again or outdoor
fan activated?
NO
Check the radiation fin
temperature.
Above A ˚C?
NO
Replace the outdoor unit
PCB.
YES
Check No. 19
Check the outdoor fan or
related.
NG
OK
Too dirty
Radiation fin dirty?
Replace the fan motor.
Correct the connectors and
fan motor lead wire.
Replace the outdoor unit
PCB.
Clean up the radiation fin.
Slightly dirty
Check No. 17
Check the installation condition.
(R14416)
249
A (°C)
B (°C)
C (°C)
80
70
75
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
7.13 Radiation Fin Temperature Rise
Remote
Controller
Display
L4
Method of
Malfunction
Detection
A radiation fin temperature rise is detected by checking the radiation fin temperature with the
compressor on.
Malfunction
Decision
Conditions
„ The radiation fin temperature with the compressor on is above A °C.
„ The error is cleared when the temperature drops below B °C
A (°C)
B (°C)
40 class
95
85
50 class
92.5
85
„ If the error repeats, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
Supposed
Causes
Service Diagnosis
„
„
„
„
„
„
Defective outdoor unit fan
Short circuit
Defective fin thermistor
Disconnection of connector
Defective outdoor unit PCB
Silicon grease is not applied properly on the radiation fin after replacing the outdoor unit
PCB.
250
Troubleshooting for Outdoor Unit
SiBE12-816_D
Troubleshooting
Check No.17
Refer to P.269
Check No.19
Refer to P.270
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
(Precaution before turning on the power again)
Make sure the power has been off for at least 30 seconds.
Turn off the power and turn it on
again to start the system.
Error displayed again?
YES
Has PCB been replaced?
NO
YES
NO
∗ Silicon grease
Part No.: 1172698
Check the radiation fin
temperature.
Above A ˚C?
YES
Check No. 19
Check the outdoor unit fan
or related.
NO
Check the power transistor
and the radiation fin for
looseness. If they are found
to be fit tightly, replace the
outdoor unit PCB or the
power transistor.
NG
Replace the fan motor.
Correct the connectors and
fan motor leads.
Replace the outdoor unit
PCB.
OK
Radiation fin dirty?
Check if the silicon grease
applied properly on the
radiation fin. If not, apply it
(∗). (See Note.)
Too dirty
Clean up the radiation fin.
Slightly dirty
Check No. 17
Check the installation condition.
(R14417)
A (°C)
40 class
50 class
Note:
251
95
92.5
Refer to “Application of silicon grease to a power transistor and a diode bridge” on page 315 for
detail.
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
7.14 Output Overcurrent Detection
Remote
Controller
Display
L5
Method of
Malfunction
Detection
An output overcurrent is detected by checking the current that flows in the inverter DC section.
Malfunction
Decision
Conditions
„ A position signal error occurs while the compressor is running.
„ A speed error occurs while the compressor is running.
„ An output overcurrent signal is fed from the output overcurrent detection circuit to the
microcomputer.
„ If the error repeats, the system is shut down.
„ Reset condition: Continuous run for about 11 minutes without any other error
Supposed
Causes
Service Diagnosis
„
„
„
„
„
„
„
Defective power transistor
Wrong internal wiring
Abnormal supply voltage
Defective outdoor unit PCB
Closed stop valve
Defective compressor
Poor installation condition
252
Troubleshooting for Outdoor Unit
SiBE12-816_D
Troubleshooting
Caution
Check No.15
Refer to P.266
Check No.17
Refer to P.269
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
∗ An output overcurrent signal may result from wrong internal wiring. If the wires have been
disconnected and reconnected and the system is interrupted by an output overcurrent, take the
following procedure.
Check No. 17
Check the installation condition.
NO
Stop valve fully open?
Check No.18
Refer to P.269
Check No.22
Refer to P.271
Fully open the stop valve.
YES
Turn off the power and turn it on
again to start the system. See if the
same error occurs.
Error again?
NO Monitor the supply voltage,
discharge and suction pressures,
and other factors for a long term.
YES
Possible causes
∗ Instantaneous supply voltage
drop
∗ Compressor overloaded
∗ Short circuit
Turn off the power and disconnect
the harnesses U, V, and W.
Check the connectors and
other components.
∗ Inverter checker
Part No.: 1225477
Check No. 15
Check with the inverter checker (∗).
Any LED off?
Keep on using as it is.
YES
NO
Correct the power supply or
replace the PM1.
(Replace the outdoor unit
PCB.)
Check No. 22
Check the power module.
Normal?
NO
Replace the PM1.
(Replace the outdoor unit
PCB.)
YES
Turn off the power, and reconnect
the harnesses. Turn on the power
again and start operation.
Check the supply voltage.
Voltage as rated?
NO
Correct the power supply.
YES
Short circuit or
wire breakage between
compressor's coil
phases?
YES
Replace the compressor.
NO
Check No. 18
Check the discharge pressure.
(R14418)
253
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
7.15 Refrigerant Shortage
Remote
Controller
Display
Method of
Malfunction
Detection
U0
Refrigerant shortage detection I :
Refrigerant shortage is detected by checking the input current value and the compressor output
frequency. If the refrigerant is short, the input current is smaller than the normal value.
Refrigerant shortage detection II :
Refrigerant shortage is detected by checking the discharge pipe temperature and the opening of
the electronic expansion valve. If the refrigerant is short, the discharge pipe temperature tends
to rise.
Malfunction
Decision
Conditions
Refrigerant shortage detection I :
The following conditions continue for 7 minutes.
Š DC current × DC voltage ≤ A × Compressor output frequency + B
Š Output frequency > C
A (–)
2111/256
B (W)
C (Hz)
40 class
–361
51
50 class
4628/256
–608
48
Refrigerant shortage detection II :
The following conditions continue for 80 seconds.
Š Opening of the electronic expansion valve ≥ D
Š Discharge pipe temperature > E × target discharge pipe temperature + F
D (pulse)
450
E (–)
255/256
F (°C)
20
„ If the error repeats 4 times, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
Supposed
Causes
„ Refrigerant shortage (refrigerant leakage)
„ Poor compression performance of compressor
„ Disconnection of the discharge pipe thermistor, indoor or outdoor heat exchanger thermistor,
room or outdoor temperature thermistor
„ Closed stop valve
„ Defective electronic expansion valve
Service Diagnosis
254
Troubleshooting for Outdoor Unit
SiBE12-816_D
Troubleshooting
Caution
Check No.01
Refer to P.261
Check No.12
Refer to P.263
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Any thermistor
disconnected?
NO
Stop valve closed?
YES
Replace them in position.
∗ Discharge pipe thermistor
∗ Indoor or outdoor heat exchanger thermistor
∗ Room temperature thermistor
∗ Outdoor temperature thermistor
YES
Open the stop valve.
NO
Check for refrigerant shortage.
Oil oozing at relay
pipe connections?
YES
Repair the pipe flare or
replace the union.
NO
Oil oozing at internal
piping?
YES
NO
Compressor vibrating
too much?
NO
Check No. 12
Electronic expansion valve
functioning?
YES Check the power transistor
harness for looseness.
Correct it as required. Also
replace the cracked pipe.
Check the pipes for
improper contact. Correct
them as required. Also
replace the cracked pipe.
Replace the electronic
expansion valve.
NO
YES
Change for a specified amount of
fresh refrigerant.
Refrigerant shortage error
again?
NO
YES
Check No. 01
Check the thermistors.
NG
Replace the defective
one(s).
OK
Replace the outdoor unit PCB.
Error again?
YES
Replace the compressor.
NO
Completed.
Completed.
(R14419)
255
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
7.16 Low-voltage Detection or Over-voltage Detection
Remote
Controller
Display
Method of
Malfunction
Detection
U2
Low-voltage detection:
An abnormal voltage drop is detected by the DC voltage detection circuit.
Over-voltage detection:
An abnormal voltage rise is detected by the over-voltage detection circuit.
Malfunction
Decision
Conditions
Low-voltage detection:
„ The voltage detected by the DC voltage detection circuit is below 180 V.
Over-voltage detection:
„ An over-voltage signal is fed from the over-voltage detection circuit to the microcomputer.
„ The compressor stops if the error occurs, and restarts automatically after 3-minute standby.
„ If the error repeats, the system is shut down.
„ Reset condition: Continuous run for about 60 minutes without any other error
Supposed
Causes
„
„
„
„
Supply voltage is not as specified.
Defective DC voltage detection circuit
Defective over-voltage detection circuit
Defective PAM control part
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check the supply voltage.
Supply voltage as
specified?
NO
Correct the power supply.
YES
Rotate the fan by hand.
Does the fan rotate
smoothly?
NO
Replace the fan motor or
the outdoor unit PCB.
YES
(Precaution before turning on the power again)
Make sure the power has been off for
at least 30 seconds.
Turn on the
power again. System
restarted?
YES Disturbance factors
∗ Noise ∗ Power supply distortion
Check for such factors for a
long term.
∗ Try to restart a few times.
NO
Repeat a few
times.
Replace the outdoor unit
PCB.
(R7150)
Service Diagnosis
256
Troubleshooting for Outdoor Unit
SiBE12-816_D
7.17 Outdoor Unit PCB Abnormality or Signal Transmission
Error
Remote
Controller
Display
U4
Method of
Malfunction
Detection
„ Detection within the program of the microcomputer
„ Indoor-outdoor unit signal transmission performance
„ Presence or absence of zero-cross signal
Malfunction
Decision
Conditions
„ The program of the microcomputer is in bad running order.
„ Indoor-outdoor unit signal transmission can not be performed for more than 15 seconds.
„ Zero-cross signal cannot be detected for more than 10 seconds.
Supposed
Causes
„
„
„
„
„
„
„
257
Display disabled due to power supply fault
Communication circuit fault in outdoor unit PCB
Noise
Momentary fall of voltage
Momentary power failure
Defective outdoor unit PCB
Defective thermal fuse on outdoor terminal board
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Check indoor unit also, because a communication circuit fault
may be caused by the problem related to the indoor unit.
Check the supply voltage.
Rated voltage?
NO
Rectify the power supply.
YES
Check the varistor (V1) on the
outdoor unit PCB.
Is it damaged?
YES
Replace the varistor.
NO
Check the fuse (FU1) on the
outdoor unit PCB.
Does it have continuity?
NO
Replace the fuse.
YES
Check the thermal fuse on the
terminal board.
Does it have continuity?
NO Check the connection on the
terminal board.
YES
Check +5V and GND on the
outdoor unit PCB.
Firmly connected?
NO
Power on again.
Wait for more than 10 seconds.
5 V ± 0.5 V?
NO
YES
Replace the thermal fuse
on the terminal board.
Reconnect it properly.
Replace the terminal board.
Replace the thermal fuse
on the terminal board.
Replace the outdoor unit
PCB.
YES
To the next page
(R14223)
Service Diagnosis
258
Troubleshooting for Outdoor Unit
SiBE12-816_D
From the
previous page
Check No.11
Refer to P.262
Does the LED A turn off?
NO
Check the grounding.
YES
Grounded?
Check No. 11
Check the power supply
waveform.
Disturbance?
YES
YES
NO
Carry out grounding work.
The cause seems to be an
external factor other than
failure of the outdoor unit
PCB.
Investigate the source of
noise and take measures.
Investigate the cause of
disturbance and take
remedial action.
NO
Turn off the power supply.
Disconnect No. 3 terminal and
turn on the power supply again.
Does the LED A
flashing more than 10
times?
NO
Replace the outdoor unit
PCB.
YES
Check the connection wires
between indoor unit and outdoor
unit.
Is it OK?
YES
wrong wiring, insulation
( Check
among wiring, insulation to ground )
NO
Reconnect the connection
wires.
Replace the indoor unit
PCB.
(R14420)
259
Service Diagnosis
SiBE12-816_D
Troubleshooting for Outdoor Unit
7.18 Unspecified Voltage (between Indoor Unit and Outdoor
Unit) / Anti-icing control in Other Room
UA, UH
Remote
Controller
Display
Method of
Malfunction
Detection
A wrong connection is detected by checking the combination of indoor and outdoor units on the
microcomputer.
Malfunction
Decision
Conditions
„ Anti-icing control in other room
„ Unspecified internal and/or external voltages
„ Mismatching of indoor and outdoor units
Supposed
Causes
„ Anti-icing control in other room
„ Wrong models interconnected
„ Wrong indoor unit PCB or outdoor unit PCB mounted
Troubleshooting
Caution
Be sure to turn off the power switch before connecting or disconnecting
connectors, or parts may be damaged.
Error displayed while
operating?
NO
The anti-icing function is
activated in other rooms.
Refer to A5.
YES
Supply voltage as
specified?
NO
Correct.
YES
Check the model combination.
Matched compatibly?
NO
Match the compatible models.
YES
Check the combination of all the
models being connected.
Note:
Service Diagnosis
(R7151)
Refer to “Anti-icing control for indoor unit” on page 235 for detail.
260
Check
SiBE12-816_D
8. Check
8.1
Thermistor Resistance Check
Check No.01
Disconnect the connectors of the thermistors from the PCB, and measure the resistance of
each thermistor using tester.
The relationship between normal temperature and resistance is shown in the graph and the
table below.
Thermistor temperature (°C)
–20
Resistance (kΩ)
211.0
–15
–10
150.0
116.5
–5
0
88.0
67.2
5
10
51.9
40.0
15
20
31.8
25.0
25
20.0
30
35
16.0
13.0
40
45
10.6
8.7
50
7.2
(R25°C = 20 kΩ, B = 3950 K)
(kΩ)
150
100
50
-15
0
15
30
45
(˚C)
(R11905)
Tester
Resistance range
(R11906)
„ For the models in which the thermistor is directly mounted on the PCB, disconnect the
connector for the PCB and measure.
RTH1
Tester
(R3460)
261
Service Diagnosis
SiBE12-816_D
8.2
Check
Fan Motor Connector Output Check
Check No.02
1.
2.
3.
4.
5.
Check the connection of connector.
Check motor power supply voltage output (pins 4 - 7).
Check motor control voltage (pins 4 - 3).
Check rotation command voltage output (pins 4 - 2).
Check rotation pulse input (pins 4 - 1).
S1 or S200
7
6
5
4
3
2
1
Motor power supply voltage (310 ~ 340 VDC)
Unused
Unused
GND
Motor control voltage (15 VDC)
Rotation command voltage (1~ 5 VDC)
Rotation pulse input
(R14225)
8.3
Hall IC Check
Check No.04
1. Check the connector connection.
2. With the power on, operation off, and the connector connected, check the following.
∗Output voltage of about 5 V between pins 1 and 3.
∗Generation of 3 pulses between pins 2 and 3 when the fan motor is operating.
If NG in step 1 Æ Defective PCB Æ Replace the PCB.
If NG in step 2 Æ Defective Hall IC Æ Replace the fan motor.
If OK in both steps 1 and 2 Æ Replace the PCB.
S7
1
Gray (power supply)
2
Purple (signals)
3
Blue (grounding)
(R14211)
8.4
Power Supply Waveforms Check
Check No.11
Measure the power supply waveform between No. 1 and No. 2 on the terminal board, and check
the waveform disturbance.
„ Check to see if the power supply waveform is a sine wave (Fig.1).
„ Check to see if there is waveform disturbance near the zero cross (sections circled in Fig.2)
[Fig.1]
[Fig.2]
(R1444)
(R1736)
Service Diagnosis
262
Check
8.5
SiBE12-816_D
Electronic Expansion Valve Check
Check No.12
Conduct the followings to check the electronic expansion valve (EV).
1. Check to see if the EV connector is correctly inserted in the PCB. Match the EV unit number
and the connector number.
2. Turn the power off and on again, and check to see if all the EVs generate latching sound.
3. If any of the EVs does not generate latching sound in the above step 2, disconnect that
connector and check the continuity using a tester.
Check the continuity between the pins 1 - 6 and 3 - 6, and between the pins 2 - 5 and 4 - 5.
If there is no continuity between the pins, the EV coil is faulty.
4. If no EV generates latching sound in the above step 2, the outdoor unit PCB is faulty.
5. If the continuity is confirmed in the above step 3, mount a good coil (which generated
latching sound) in the EV unit that did not generate latching sound, and check to see if that
EV generates latching sound.
∗If latching sound is generated, the outdoor unit PCB is faulty.
∗If latching sound is not generated, the EV unit is faulty.
Note:
Please note that the latching sound varies depending on the valve type.
If the system keeps operating with a defective electronic expansion valve, the following problem
may occur.
Valve opening
Possible problem
Check method
position
Open
Cooling:
Reset power supply and conduct cooling operation
„ Flowing noise of refrigerant in the unit by unit.
unit which is not in operation
„ Water leakage at the unit which is
Check the liquid pipe temperature
not in operation
of no-operation unit.
„ Operation half due to anti-icing
function
Heating:
„ Flowing noise of refrigerant in the
unit which is not in operation
„ The unit does not heat the room.
Is it almost
same as the outdoor
temperature?
NO
YES
The EV is not
defective.
Replace the EV
of the room.
(R14357)
Close
Cooling:
„ The problem unit does not cool
the room.
„ Only the problem unit is in
operation, the unit starts pump
down.
(The low pressure of the unit
becomes vacuum.)
„ Abnormal discharge pipe
temperature
Heating:
„ Refrigerant shortage due to
stagnation of liquid refrigerant
inside the faulty indoor unit
„ The unit does not heat the room.
„ Abnormal discharge pipe
temperature
263
Reset power supply and conduct cooling operation
unit by unit.
Check the low pressure
Does the
pressure become into
vacuum zone?
YES
NO
The EV is not
defective.
Replace the EV
of the room.
(R14358)
Service Diagnosis
SiBE12-816_D
8.6
Check
Four Way Valve Performance Check
Check No.13
Turn off the power and turn it on
again.
Start heating operation.
S80
voltage at 220 - 240
VAC with compressor
on? (Fig. 1)
∗ Four way valve coil
Cooling / Dry : No continuity
Heating : Continuity
NO
Replace the outdoor unit
PCB.
YES
Disconnect the four way valve coil
from the connector and check the
continuity.
Four way
valve coil resistance at
1000 ~ 2000 Ω?
NO
Replace the four way valve
coil.
YES
Replace the four way valve.
(R11903)
(Fig. 1)
Voltage at S80
220 - 240 VAC
Compressor
ON
Service Diagnosis
Time
(R11904)
264
Check
8.7
SiBE12-816_D
Inverter Unit Refrigerant System Check
Check No.14
Refrigerant system check
Is the
discharge pipe
thermistor disconnected
from the holder?
YES
Place the thermistor.
NO
Check for refrigerant leakage.
See the section on refrigerant
shortage detection.
Replace the refrigerant.
(R8380)
265
Service Diagnosis
SiBE12-816_D
8.8
Check
“Inverter Checker” Check
Check No.15
„ Characteristics
If abnormal stop occurs due to compressor startup failure or overcurrent output when using
inverter unit, it is difficult to judge whether it is caused by the compressor failure or other failure
(control PCB, power module, etc.). The inverter checker makes it possible to judge the cause of
trouble easily and securely. (Connect this checker as a quasi-compressor instead of
compressor and check the output of inverter)
„ Operation Method
Step 1
Be sure to turn the power off.
Step 2
Install the inverter checker instead of a compressor.
Note:
Make sure the charged voltage of the built-in smoothing electrolytic capacitor drops to 10
VDC or below before carrying out the service work.
(1) Remove the terminals from
the compressor.
(2) Connect the terminals to the
terminals of the inverter
checker.
Compressor
Inverter checker
Be careful not to touch the terminals
(U,V,W) each other. Otherwise, high
voltage is applied.
(R13940)
Reference:
If the terminals of the compressor are not FASTON terminals (difficult to remove the wire on
the terminals), it is possible to connect wires available on site to the outdoor unit from output
side of PCB. (Do not connect them to the compressor at the same time, otherwise it may
result in incorrect detection.)
Step 3
Activate power transistor test operation from the indoor unit.
FTXG-J, CTXG-J Series
1) Turn the power on.
2) Select FAN operation with the [MODE] button on the remote controller.
3) Press the 3 buttons (TEMP , TEMP , MODE) simultaneously.
→ 5C is displayed.
4) Press the TEMP or TEMP button and select T.
5) Press the [MODE] button.
→ Trial operation mode is activated.
6) Press the [ON/OFF] button.
→ Power transistor test operation starts.
Service Diagnosis
266
Check
SiBE12-816_D
FTXG-E, CTXG-E, FTXS, FVXS, FLK(X)S, FDK(X)S Series
1) Turn the power on.
2) Select FAN operation with the [MODE] button on the remote controller.
3) Press the 3 buttons (TEMP , TEMP , MODE) simultaneously.
→ 00 is displayed with the figure of ten's place blinking.
4) Press the [MODE] button.
→ 00 is displayed with the figure of one's place blinking.
5) Press the [MODE] button.
→ T is displayed.
6) Press the [ON/OFF] button.
→ Power transistor test operation starts.
FFQ models with wired remote controller:
1) Turn the power on.
2) Select FAN operation on the remote controller.
3) Press the [ON/OFF] button.
→ FAN operation starts.
4) Press the [TEST] button 4 times.
→ Power transistor test operation starts.
FFQ models with wireless remote controller:
1) Turn the power on.
2) Select FAN operation on the remote controller.
3) Press the [ON/OFF] button.
→ FAN operation starts.
4) Press the [TEST] button twice.
→ Power transistor test operation starts.
„ Diagnose method (Diagnose according to 6 LEDs lighting status.)
(1) When all the LEDs are lit uniformly, the compressor is defective.
→ Replace the compressor.
(2) When the LEDs are not lit uniformly, check the power module.
→ Refer to Check No.13.
(3) If NG in Check No.13, replace the power module (PCB).
If OK in Check No.13, check if there is any solder cracking on the PCB.
(4) If any solder cracking is found, replace the PCB or repair the soldered section.
If there is no solder cracking, replace the PCB.
Caution
(1) When the output frequency is low, the LEDs blink slowly. As the output frequency increases,
the LEDs blink quicker. (The LEDs look like they are lit.)
(2) On completion of diagnose by the inverter checker, be sure to re-crimp the FASTON
terminals. Otherwise, the terminals may be burned due to loosening.
Direction of crimp
This size is shortened
by “crimp”.
FASTON terminal
(R5161)
267
Service Diagnosis
SiBE12-816_D
8.9
Check
Rotating Pulse Input on the Outdoor Unit PCB Check
Check No.16
<Outdoor fan motor>
Make sure that the voltage of 320 ± 30 V is applied.
1. Set operation off and power off. Disconnect the connector S70.
2. Check that the voltage between the pins 4 - 7 is 320 VDC.
3. Check that the control voltage between the pins 3 - 4 is 15 VDC.
4. Check that the rotation command voltage between the pins 2 - 4 is 0 ~ 15 VDC.
5. Keep operation off and power off. Connect the connector S70.
6. Check whether 2 pulses (0 ~ 15 VDC) are output at the pins 1 - 4 when the fan motor is
rotated 1 turn by hand.
When the fuse is melted, check the outdoor fan motor for proper function.
If NG in step 2 → Defective PCB
→ Replace the PCB.
If NG in step 4 → Defective Hall IC → Replace the outdoor fan motor.
If OK in both steps 2 and 4 → Replace the PCB.
PCB
S70
1
Actual rotating pulse output (0 ~ 15 VDC)
2
Rotation command pulse input (0 ~ 15 VDC)
3
15 VDC
4
5
6
7
320 VDC
(R10811)
Service Diagnosis
268
Check
SiBE12-816_D
8.10 Installation Condition Check
Check No.17
Installation condition check
Check the
allowable dimensions
of the air suction and
discharge area.
NG
Change the installation
location or direction.
OK
Does the
discharged air from
other outdoor unit cause an
increase of the suction
air temperature?
YES
Change the installation
location or direction.
NO
Is the heat exchanger
very dirty?
YES
Clean the heat exchanger.
NO
Is the
airflow blocked by
obstacles or winds blowing
in the opposite
direction?
YES
NO
Change the installation
location or direction.
Check the outdoor temperature
(temperature of air taken in by
the outdoor unit).
(The outdoor temperature shall
be 46˚C or lower.)
(R14359)
8.11 Discharge Pressure Check
Check No.18
Discharge pressure check
High?
NO
Replace the compressor.
YES
Is the stop valve open?
NO
Open the stop valve.
YES
Is the connection pipe
deformed?
YES
Replace the pipe installed at
the site.
NO
Is the air
filter or indoor/outdoor
heat exchanger
dirty?
Not dirty
Dirty
Clean the dirty one.
Replace the compressor.
(R11718)
269
Service Diagnosis
SiBE12-816_D
Check
8.12 Outdoor Unit Fan System Check
Check No.19
DC motor
Check the outdoor unit fan system.
Outdoor unit fan running?
Fan motor
lead wire connector
disconnected?
NO
YES
YES
Reconnect the connector.
NO
Outdoor unit fan system
functioning.
Go to Check No. 15.
(R7159)
8.13 Main Circuit Short Check
Check No.20
Note:
Check to make sure that the voltage between (+) and (–) of the diode bridge (DB1) is approx.
0 V before checking.
„ Measure the resistance between the pins of the DB1 as below.
„ If the resistance is ∞ or less than 1 kΩ, short circuit occurs on the main circuit.
Resistance in OK
Resistance in NG
~ (2, 3)
+ (4)
~ (2, 3)
– (1)
+ (4)
~ (2, 3)
– (1)
~ (2, 3)
several kΩ
~ several MΩ
0 Ω or ∞
∞
∞
0
0
several kΩ
~ several MΩ
0 Ω or ∞
2
3
4
– ~ ~ +
1
– +
(–) terminal of the tester
(in case of digital,
(+) terminal)
(+) terminal of the tester
(in case of digital,
(–) terminal)
Tester
(R12511)
★ The illustration is for 50 class model as representative.
Service Diagnosis
270
Check
SiBE12-816_D
8.14 Power Module Check
Check No.22
Note:
Check to make sure that the voltage between (+) and (–) of the diode bridge (DB1) is approx.
0 V before checking.
„ Disconnect the compressor harness connector from the outdoor unit PCB. To disengage the
connector, press the protrusion on the connector.
„ Follow the procedure below to measure resistance between the terminals of the DB1 and
the terminals of the compressor with a multi-tester. Evaluate the measurement results for a
judgment.
Negative (–) terminal of
tester (positive terminal
(+) for digital tester)
DB1 (+)
UVW
DB1 (–)
UVW
Positive (+) terminal of
tester (negative terminal
(–) for digital tester)
Resistance in OK
UVW
DB1 (+)
UVW
DB1 (–)
Resistance in NG
271
several kΩ ~ several MΩ
0 Ω or ∞
Service Diagnosis
SiBE12-816_D
Part 7
Removal Procedure
1. Outdoor Unit........................................................................................273
1.1
1.2
1.3
1.4
1.5
1.6
1.7
1.8
Removal Procedure
Removal of Outer Panels .....................................................................273
Removal of Electrical Box ....................................................................275
Removal of PCB...................................................................................280
Removal of Sound Blankets .................................................................285
Removal of Outdoor Fan / Fan Motor...................................................287
Removal of Thermistors .......................................................................290
Removal of Four Way Valve / Electronic Expansion Valves ................292
Removal of Compressor.......................................................................295
272
Outdoor Unit
SiBE12-816_D
1. Outdoor Unit
Note: The illustrations are for heat pump models as representative.
1.1
Removal of Outer Panels
Procedure
Warning
Step
1
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Points
External appearance
(R7570)
Liquid side
Gas side
}
Room A
Room B
(R7571)
2
3
„ The front panel has 4 hooks.
Remove the 2 screws
and remove the top
panel.
Top panel
Remove the 8 screws
and remove the front
panel.
Hooks
Hooks
Discharge grille
Front panel
(R12527)
273
Removal Procedure
SiBE12-816_D
Procedure
Step
4
Outdoor Unit
Points
„ When reassembling, make
Remove the 4 screws
and remove the
discharge grille.
sure to fit the 4 hooks.
(R12767)
5
Remove the 2 screws
and remove the stop
valve cover.
Stop
valve
cover
(R7699)
„ When reassembling, make
sure to fit the 4 hooks.
(R7701)
Removal Procedure
274
Outdoor Unit
1.2
SiBE12-816_D
Removal of Electrical Box
Procedure
Step
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
1. Disconnect the
connecting wires.
1 Remove the 2
grounding screws.
Remove the 2 screws
and remove the wiring
fixture.
Then remove all the
screws to disconnect
the power supply
cables and the
connecting wires.
Points
„ When reassembling, fasten
the wires with screws on the
terminal board.
Room B
Room A
Power supply
Wiring
fixture
4
4
P
Grounding
screws
(R7573)
2. Remove the electrical
box.
1 Release the outdoor
temperature thermistor.
Outdoor temperature thermistor
(R7208)
2
Lift up the guard net
and remove it.
Guard net
(R7209)
275
Removal Procedure
SiBE12-816_D
Procedure
Step
3
Outdoor Unit
Disconnect the
connector for the fan
motor [S70].
Points
[S70]
(R12529)
4
Release the fan motor
lead wire.
(R7579)
5
Disconnect the
connector for the gas
pipe thermistor [S91]
and for the liquid pipe
thermistor [S92].
[S92]
[S91]: gas pipe thermistor
(white)
[S92]: liquid pipe thermistor
(red)
[S91]
(R12530)
6
Disconnect the
connector for the
overload protector
[S40].
[S40]: overload protector
[S40]
(R12531)
Removal Procedure
276
Outdoor Unit
Procedure
Step
7
SiBE12-816_D
Disconnect the
connectors [S20],
[S21], [S80].
Points
[S20]
[S21]
[S20]: electronic expansion
valve coil for room A
(white)
[S21]: electronic expansion
valve coil for room B (red)
[S80]: four way valve coil
[S80]
(R12532)
8
Disconnect the relay
connector for the
compressor.
(R12533)
9
Disconnect the 2
connectors for the
reactor.
(R12534)
10
„ Meet the edge of the
Release the discharge
pipe thermistor.
thermistor and the clip.
„ Be careful not to lose the clip
for the thermistor.
Discharge pipe thermistor
(R12535)
277
Removal Procedure
SiBE12-816_D
Procedure
Step
11
Outdoor Unit
Disconnect the
connector for the
thermistors [S90].
Points
[S90]: thermistors (outdoor
temperature, outdoor
heat exchanger,
discharge pipe)
[S90]
(R7587)
12
Detach the clamp for
the thermistors from the
electrical box.
Clamp
(R12771)
13
Remove the screw on
the right side of the
electrical box.
(R12536)
14
Loosen the screw in
front of the electrical
box.
(R7590)
Removal Procedure
278
Outdoor Unit
Procedure
Step
15
SiBE12-816_D
Points
Lift and remove the
electrical box.
(R12537)
279
Removal Procedure
SiBE12-816_D
1.3
Removal of PCB
Procedure
Step
1
Outdoor Unit
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Remove the screw and
remove the electrical
box cover.
Points
Preparation
„ Remove the panels
Electrical box cover
according to the “Removal of
Outer Panels”.
„ Remove the electrical box
according to the “Removal of
Electrical Box”.
M4 × 12
(R12538)
(R12539)
2
3
Detach the insulation
sheet.
„ The trimmed part goes front.
Insulation
sheet
„ The thermal fuse is united
Remove the 2 screws
and remove the
terminal boards.
with terminal board.
Terminal
board
(R12772)
Removal Procedure
280
Outdoor Unit
Procedure
Step
4
SiBE12-816_D
Points
Release the earth wire
from the hook.
(R12541)
5
Remove the 2 screws
and detach the clip to
remove the radiation
shield plate.
Temperature fuse harness
Radiation shield plate
Clip
(R7600)
Compressor
harness
Clip
Hole
(R7596)
(R12565)
281
Removal Procedure
SiBE12-816_D
Procedure
Step
6
Outdoor Unit
Points
Cut the clamp and
release the wire
harnesses.
(R7597)
7
Remove the 7 screws in
total to remove the
PCB.
(R7598)
(R7602)
8
„ When reassembling, make
Lift up the back side of
the electrical box
slightly and unfasten
the hooks of the front.
sure that the hooks of the
electrical box are placed on
the PCB.
(R7603)
Removal Procedure
282
Outdoor Unit
Procedure
Step
9
SiBE12-816_D
Release the lead wires
from the hooks and
remove the terminal
boards.
Points
Terminal board
(R7604)
10
Lift up the PCB.
(R7605)
11
Remove the PCB.
(R7606)
283
Removal Procedure
SiBE12-816_D
Procedure
Step
12
Outdoor Unit
Disconnect the
connectors from the
terminal board.
Points
„ Refer to page 51 for detail.
[S70]
[S40] [S92]
[S91] [S20]
[S90]
[S21]
[S80]
(R12566)
★This illustration is for 40 class model as representative.
13
[S20]: electronic expansion
valve coil for room A
[S21]: electronic expansion
valve coil for room B
[S40]: overload protector
[S70]: fan motor
[S80]: four way valve coil
[S90]: thermistors
[S91]: gas pipe thermistor
[S92]: liquid pipe thermistor
Remove the 2 screws
and remove the
radiation fin.
(R7608)
(R7609)
Removal Procedure
284
Outdoor Unit
1.4
SiBE12-816_D
Removal of Sound Blankets
Procedure
Step
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Points
1. Remove the right side
panel.
1 Remove the 6 screws
and remove the right
side panel.
Preparation
„ Remove the panels
according to the “Removal of
Outer Panels”.
„ Remove the electrical box
according to the “Removal of
Electrical Box”.
Right side
panel
(R12567)
2. Remove the partition
plate.
1 Remove the 2 screws.
Partition plate
„ When reassembling, fit the
lower hooks into the bottom
frame.
2
The partition plate has
2 hooks on the lower
side. Lift and pull the
partition plate and
remove it.
(R7611)
„ Remove the screw to
remove the reactor.
(R7612)
285
Removal Procedure
SiBE12-816_D
Outdoor Unit
Procedure
Step
Points
3. Remove the sound
blankets.
1 Release the strings,
open the sound blanket
(outer) and pull it out.
Sound blanket (outer)
(R7613)
2
„ Since the piping ports are
Remove the sound
blanket (top).
torn easily, remove the
sound blanket carefully.
Sound blanket (top)
(R7614)
3
Open the sound blanket
(inner) and pull it out.
Sound blanket (inner)
4
(R7617)
(R7615)
Pull out the sound
blanket (bottom).
Sound blanket (bottom)
Removal Procedure
(R7616)
286
Outdoor Unit
1.5
SiBE12-816_D
Removal of Outdoor Fan / Fan Motor
Procedure
Step
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Points
„ Nut size: M6
1. Remove the outdoor fan.
1 Remove the washer
fitted nut.
10 mm
(R12236)
(R7618)
2
Remove the outdoor
fan.
(R7619)
„ When reassembling, align
mark of the outdoor fan
with D-cut section of the
motor shaft.
(R7620)
2. Remove the fan motor.
1 Disconnect the
connector for the fan
motor [S70].
[S70]
(R7621)
287
Removal Procedure
SiBE12-816_D
Procedure
Step
2
Outdoor Unit
Points
Release the fan motor
lead wire.
(R7579)
3
Remove the screw of
the fan motor fixing
frame.
Fan motor
fixing frame
(R7623)
4
Remove the fan motor
fixing frame.
(R7624)
(R7625)
Removal Procedure
288
Outdoor Unit
Procedure
Step
5
SiBE12-816_D
Points
Turn the fan motor
fixing frame backward
and open the 2 hooks of
the fan motor lead wire.
(R7626)
6
„ When reassembling, put the
Release the fan motor
lead wire.
fan motor lead wire through
the back of the fan motor so
as not to be entangled with
the outdoor fan.
(R7627)
Lead wire
Outdoor fan
(R12215)
7
Remove the 4 screws
and remove the fan
motor.
(R7628)
(R12773)
289
Removal Procedure
SiBE12-816_D
1.6
Outdoor Unit
Removal of Thermistors
Procedure
Step
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Points
„ Be careful not to lose the clip
1. Remove the assembly of
thermistors.
1 Release the discharge
pipe thermistor.
for the thermistor.
Clip
(R12279)
Discharge pipe thermistor
2
Cut the clamp and pull
out the outdoor heat
exchanger thermistor.
Outdoor heat
exchanger thermistor
3
(R7630)
(R7631)
The thermistors are
united as an assembly.
Outdoor
temperature
thermistor
(R7632)
2. Remove the liquid / gas
pipe thermistors.
1 The figure shows the
liquid / gas pipe
thermistors.
(R7633)
Removal Procedure
290
Outdoor Unit
Procedure
Step
2
SiBE12-816_D
Points
Cut the clamp.
(R7634)
3
Peel the putty and
remove the thermistors.
Thermistor (Liquid)
Room A
Thermistor (Gas)
Room A
[S91] : gas pipe thermistor
room A (black)
room B (gray)
[S92] : liquid pipe thermistor
room A (black)
room B (gray)
Thermistor (Liquid)
Room B
Thermistor (Gas)
Room B
(R7635)
4
The figure shows the
arrangement of the
assembly of the liquid /
gas thermistors.
(R7636)
291
Removal Procedure
SiBE12-816_D
1.7
Outdoor Unit
Removal of Four Way Valve / Electronic Expansion
Valves
Procedure
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Step
Points
1. Remove the peripheries.
1 Remove the screw and
remove the four way
valve coil.
Preparation
„ Remove the sound blankets.
(R7703)
(R7644)
2
Pull out the electronic
expansion valve coils.
„ Detach the four way valve
coil and the clamp, and then
detach the wire harnesses.
(R7645)
3
Remove the putty.
4
Remove the terminal
cover.
(R7646)
Terminal cover
(R7637)
Removal Procedure
292
Outdoor Unit
SiBE12-816_D
Procedure
Step
Points
„ Before working, make
sure that the refrigerant
gas is empty in the circuit.
„ Be sure to apply nitrogen
replacement when
heating up the brazed
part.
2. Remove the electronic
expansion valves and the
four way valve.
1 Heat up the 2 brazed
parts of the electronic
expansion valve and
remove it.
Warning
Be careful not to get yourself
burnt with the pipes and other
parts that are heated by the
gas brazing machine.
Warning
If the refrigerant gas leaks
during work, ventilate the
room. (If the refrigerant gas is
exposed to flames, toxic gas
may be generated.)
(R7648)
2
Heat up the brazed
parts of the four way
valve.
(R7649)
3
Cut the pipes.
Caution
From the viewpoint of global
environment protection, do
not discharge the refrigerant
gas in the atmosphere. Make
sure to collect all the
refrigerant gas.
Cautions for restoration
1. Restore the piping by
non-oxidation brazing.
2. It is required to prevent the
carbonization of the oil inside
the four way valve and the
deterioration of the gaskets
affected by heat. (Keep
below 120°C.) For the sake
of this, wrap the four way
valve with wet cloth and
provide water so that the
cloth does not dry.
In case of difficulty with gas
brazing machine
1. Disconnect the brazed part
where is easy to disconnect
and restore.
2. Cut pipes on the main unit
with a tube cutter in order to
make it easy to disconnect.
(R7650)
293
Removal Procedure
SiBE12-816_D
Procedure
Step
4
Outdoor Unit
Points
Heat up the brazed
parts.
Pull the pipe with pliers
and disconnect.
Note:
„ Do not use a metal saw for
cutting pipes by all means
because the sawdust comes
into the circuit.
„ When withdrawing the pipes,
be careful not to pinch them
firmly with pliers. The pipes
may get deformed.
(R7651)
„ Provide a protective sheet or
a steel plate so that the
brazing flame cannot
influence peripheries.
Removal Procedure
294
Outdoor Unit
1.8
Removal of Compressor
Procedure
Step
1
SiBE12-816_D
Warning
Be sure to wait for 10 minutes or more after turning off all power
supplies before disassembling work.
Procedure
Remove the terminal
cover.
Points
Terminal cover
(R7637)
2
Disconnect the
compressor terminals.
Red (U)
Yellow (V)
Blue (W)
(R7638)
(R7639)
3
Unfasten the hooks with
a flat screwdriver and
remove the overload
protector.
(R7640)
295
Removal Procedure
SiBE12-816_D
Procedure
Step
4
Outdoor Unit
Points
Remove the 2 nuts of
the compressor.
Warning
Be careful not to get yourself
burnt with the pipes and other
parts that are heated by the
gas brazing machine.
Warning
If the refrigerant gas leaks
during work, ventilate the
room. (If the refrigerant gas is
exposed to flames, toxic gas
may be generated.)
(R7641)
„ Before working, make
sure that the refrigerant
gas is empty in the circuit.
„ Be sure to apply nitrogen
replacement when heating
up the brazed part.
5 Heat up the brazed part
of the discharge side
and disconnect.
6
Warning
Since it may happen that the
refrigerant oil in the
compressor catches fire,
prepare wet cloth so as to
extinguish fire immediately.
Caution
From the viewpoint of global
environment protection, do
not discharge the refrigerant
gas in the atmosphere. Make
sure to collect all the
refrigerant gas.
Heat up the brazed part
of the suction side and
disconnect.
(R7642)
Lift the compressor up
to remove.
Note:
„ Do not use a metal saw for
cutting pipes by all means
because the sawdust
comes into the circuit.
7
Cautions for restoration
1. Restore the piping by
non-oxidation brazing.
2. It is required to prevent the
carbonization of the oil inside
the four way valve and the
deterioration of the gaskets
affected by heat. (Keep
below 120°C.) For the sake
of this, wrap the four way
valve with wet cloth and
provide water so that the
cloth does not dry.
„ When withdrawing the
pipes, be careful not to
pinch them firmly with
pliers. The pipes may get
deformed.
„ Provide a protective sheet
or a steel plate so that the
brazing flame cannot
influence peripheries.
„ Be careful so as not to
burn the compressor
terminals, the name plate,
the heat exchanger fin.
Removal Procedure
(R7643)
In case of difficulty with gas
brazing machine
1. Disconnect the brazed part
where is easy to disconnect
and restore.
2. Cut pipes on the main unit
with a tube cutter in order to
make it easy to disconnect.
296
SiBE12-816_D
Part 8
Trial Operation and
Field Settings
1. Pump Down Operation........................................................................298
2. Forced Cooling Operation ...................................................................299
3. Trial Operation ....................................................................................300
3.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................300
3.2 SA Indoor Unit - FFQ Series ................................................................302
4. Field Settings ......................................................................................303
4.1 RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series....................................................................................303
4.2 SA Indoor Unit - FFQ Series ................................................................307
4.3 Outdoor Unit .........................................................................................314
5. Application of Silicon Grease to a Power Transistor and
a Diode Bridge ....................................................................................315
297
Trial Operation and Field Settings
SiBE12-816_D
Pump Down Operation
1. Pump Down Operation
Outline
In order to protect the environment, be sure to conduct pump down operation when relocating or
disposing the unit.
Detail
1) Remove the valve caps from the liquid stop valve and the gas stop valve at the pipes for
rooms A and B.
2) Carry out forced cooling operation.
3) After 5 to 10 minutes, close the liquid stop valve at the pipes for rooms A and B with a
hexagonal wrench.
4) After 2 to 3 minutes, close the gas stop valve and stop the forced cooling operation as quickly
as possible after the gas stop valves at the pipes for rooms A and B have been shut off.
5) Turn the power breaker off.
Hexagonal
wrench
Liquid stop
valve
Close
Gas
stop
valve
Valve cap
(R14079)
Refer to page 299 for forced cooling operation.
Trial Operation and Field Settings
298
Forced Cooling Operation
SiBE12-816_D
2. Forced Cooling Operation
Item
Conditions
Forced Cooling
The forced cooling operation is allowed when both the following conditions
are met.
1) The outdoor unit is not abnormal and not in the 3-minute standby mode.
2) The outdoor unit is not operating.
Start
Operating room
Command frequency
End
Press the forced cooling operation ON/OFF button (SW1) on the indoor unit
for 5 seconds.
All rooms
40 class: 70 Hz
50 class: 47 Hz
The forced cooling operation ends when any of the following conditions is
fulfilled.
1) The operation ends automatically after 15 minutes.
2) Press the forced cooling operation ON/OFF button (SW1) on the indoor
unit again.
Others
The protection functions are prior to all others in the forced cooling
operation.
ex. Wall mounted type FTXS Series
ON/OFF button (SW1)
(R14226)
299
Trial Operation and Field Settings
SiBE12-816_D
Trial Operation
3. Trial Operation
3.1
Outline
RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series
1. Measure the supply voltage and make sure that it falls in the specified range.
2. Trial operation should be carried out in either cooling or heating mode.
3. Carry out the trial operation in accordance with the operation manual to ensure that all
functions and parts, such as flap movement, are working properly.
„ The air conditioner requires a small amount of power in its standby mode. If the system is
not to be used for some time after installation, shut off the circuit breaker to eliminate
unnecessary power consumption.
„ If the circuit breaker trips to shut off the power to the air conditioner, the system backs up the
operation mode. The system then restarts operation with the previous mode when the circuit
breaker is restored.
In cooling mode, select the lowest programmable temperature; in heating mode, select the
highest programmable temperature.
„ Trial operation may be disabled in either mode depending on the room temperature.
„ After trial operation is complete, set the temperature to a normal level.
(26°C to 28°C in cooling mode, 20°C to 24°C in heating mode)
„ For protection, the system does not start for 3 minutes after it is turned off.
Detail
ARC466 Series
(1) Press the On/Off button to turn on the system.
(2) Press the center of the Temp button and the Mode button at the same time.
(3) Select “T” (trial operation) with the Temp ▲ or ▼ button.
(4) Press the Mode button to start the trial operation.
(5) Press the Mode button and select operation mode.
(6) Trial operation terminates in approx. 30 minutes and switches into normal mode. To quit a
trial operation, press the On/Off button.
(3)
(2) (3)
(2) (4) (5)
Trial Operation and Field Settings
(1) (6)
(R11676)
300
Trial Operation
SiBE12-816_D
ARC452 Series
(1) Press the ON/OFF button to turn on the system.
(2) Press the both of TEMP buttons and the MODE button at the same time.
(3) Press the MODE button twice.
(“T” appears on the display to indicate that trial operation is selected.)
(4) Press the MODE button and select operation mode.
(5) Trial operation terminates in approx. 30 minutes and switches into normal mode. To quit a
trial operation, press the ON/OFF button.
(3)
(2)
(2)
(2) (3) (4)
(1) (5)
(R9675)
ARC433 Series
(1) Press the ON/OFF button to turn on the system.
(2) Press the center of the TEMP button and the MODE button at the same time.
(3) Press the MODE button twice.
(“T” appears on the display to indicate that trial operation is selected.)
(4) Press the MODE button and select operation mode.
(5) Trial operation terminates in approx. 30 minutes and switches into normal mode. To quit a
trial operation, press the ON/OFF button.
(3)
(2)
(1) (5)
(2) (3) (4)
301
(R9663)
Trial Operation and Field Settings
SiBE12-816_D
3.2
Trial Operation
SA Indoor Unit - FFQ Series
3.2.1 Checkpoints
To carry out a trial operation, check the following:
„ Check that the temperature setting of the remote controller is at the lowest level in cooling
mode or use trial operation mode.
„ Go through the following checklist:
Checkpoints
Are all units securely installed?
Cautions or warnings
z Dangerous for turning over during storm
z Possible damage to pipe connections
Is the earth wire installed according to the applicable
local standard?
Are all air inlets and outlets of the indoor and outdoor
units unobstructed?
Dangerous if electric leakage occurs.
Does the drain flow out smoothly?
Is piping adequately heat-insulated?
Water leakage
Water leakage
z Poor cooling
z Poor heating
z Poor cooling
z Poor heating
z Stop
Is the supply voltage conform to the specifications on the Incorrect operation
name plate?
Have the connections been checked for refrigerant
leakage?
Are the cable sizes as specified and according to local
regulations?
Are the remote controller signals received by the unit?
Damage of cables
No operation
3.2.2 Trial operation
Step
1
2
3
4
5
6
7
8
9
Trial Operation and Field Settings
Action
Turn on the power supply more than 6 hours before test operation.
Open the gas stop valve.
Open the liquid stop valve.
Set to cooling operation with the remote controller and start operation by pressing
[ON/OFF] button (
).
Press the [Inspection / Test] button (
) 4 times (2 times for wireless remote
controller) and operate at test operation mode for 3 minutes.
Press the [Airflow Direction Adjust] button (
) to make sure the unit is in
operation.
Press the [Inspection / Test] button (
) and operate normally.
Confirm all the function of unit according to the operation manual.
If the decoration panel has not been installed, turn off the power after the test
operation.
TEST
TEST
302
Field Settings
SiBE12-816_D
4. Field Settings
4.1
RA Indoor Unit - F(C)TXG, FTXS, FVXS, FLK(X)S,
FDK(X)S Series
4.1.1 Model Type Setting
<ARC452A1, ARC452A3>
„ This remote controller is common to the heat pump model and cooling only model. Use the
DIP switch on the remote controller to set the heat pump model or cooling only model.
„ Make the setting as shown in the illustration. (The factory set is the heat pump side.)
• Heat pump model: Set the DIP switch to H/P.
• Cooling only model: Set the DIP switch to C/O.
DIP switch
H/P
C/O
(R12755)
4.1.2 When 2 Units are Installed in 1 Room
When 2 indoor units are installed in 1 room, 1 of the 2 pairs of indoor unit and wireless remote
controller can be set for different address.
Both the indoor unit PCB and the wireless remote controller need alteration.
Indoor Unit PCB
<Wall Mounted Type>
(1) Remove the front grille.
(2) Remove the electrical box.
(3) Remove the shield plate of the electrical box.
(4) Cut the address setting jumper JA on the PCB.
FTXG-E, CTXG-E Series
FTXG-J, CTXG-J Series
PCB
ADDRESS : JA
EXIST : 1
CUT : 2
JA
Cut JA.
(Bottom of electrical box)
(R12036)
Electrical box
JA ADDRESS
EXIST
1
2
CUT
303
Shield plate
(R12756)
Trial Operation and Field Settings
SiBE12-816_D
Field Settings
FTXS-G, FTXS-J Series
ADDRESS
JA
JA ADDRESS
EXIST
CUT
1
2
(R12216)
< Floor Standing Type>
1) Remove the front grille.
2) Lift the sensor PCB fixing plate and remove the front shield plate.
3) Disconnect the connectors [S1] [S41] [S42].
4) Remove the electric box (1 screw).
5) Pull out the indoor heat exchanger thermistor.
6) Remove the shield plate (8 tabs).
7) Cut the address setting jumper JA on the indoor unit PCB.
8) Cut the address setting jumper in the remote controller.
(Refer to “Wireless remote controller”.)
5) Indoor heat exchanger
thermistor
3) Connector [S42]
3) Connector [S41]
3) Connector [S1]
4) Remove the screw.
JC
JA
JB
JA Address
EXIST
1
CUT
2
2) Sensor
PCB fixing
plate
6) Shield plate
2) Front shield plate
Trial Operation and Field Settings
(R11692)
304
Field Settings
SiBE12-816_D
< Floor / Ceiling Suspended Dual Type >
„ Cut the jumper JA on PCB.
ADDRESS JA
EXIST
1
CUT
2
(R11732)
< Duct Connected Type >
„ Cut the jumper JA on PCB.
1
2
3
ADDRESS : JA
JA
EXIST 1
2
ADDRESS JB CUT
JC
(R10276)
Wireless Remote
Controller
(1) Remove the cover and take it off.
(2) Cut the address setting jumper.
<ARC466 series>
<ARC452 series>
Jumper
Jumper
ADDRESS
EXIST 1
CUT
2
(R12037)
ADDRESS
EXIST 1
CUT
2
(R12065)
<ARC433 series>
Jumper
ADDRESS
EXIST 1
CUT
2
305
(R6573)
Trial Operation and Field Settings
SiBE12-816_D
Field Settings
4.1.3 Jumper and Switch Settings
Jumper
(on indoor unit PCB)
Function
JB
Fan speed setting
when compressor
stops for thermostat
OFF. (effective only
at cooling operation)
Power failure
recovery function
JC
When connected
(factory set)
When cut
Fan speed setting ; Fan speed setting; “0” (The fan
Remote controller
stops.)
setting
Auto-restart
The unit does not resume
operation after recovering from a
power failure. Timer settings are
cleared.
<Floor Standing Type>
Switch
(on indoor unit PCB)
SW2-4
Function
OFF
(factory set)
Upward airflow limit Exposed or half
setting
embedded
installation
ON
Set the switch to ON position
when you install the indoor unit
embedded in the wall to avoid
condensation.
<Floor / Ceiling Suspended Dual Type>
Switch
(on indoor unit PCB)
SW2
Function
Installation style
changeover
FLOOR
(factory set)
When installed as
the floor mounted
type
CEILING
When installed as the ceiling
suspended type
For the location of the jumper and the switch, refer to the following pages.
Wall mounted type: page 33, 35, 38
Floor Standing Type: page 41
Floor / Ceiling Suspended Dual Type: page 43
Duct connected type: page 45
Trial Operation and Field Settings
306
Field Settings
4.2
SiBE12-816_D
SA Indoor Unit - FFQ Series
4.2.1 How to Change the Field Settings
Outline
If optional accessories are mounted on the indoor unit, the indoor unit setting may have to be
changed. Refer to the instruction manual for each optional accessory.
Wired remote
controller
Unit No.
Mode No.
Second
code No.
Field
setting
mode
First
code No.
(4)
(3)
(1) (7)
(6)
(5)
(2)
(R14425)
To set the field settings, you have to change:
„ Mode No.
„ First code No.
„ Second code No.
Step
1
2
3
4
5
6
7
307
Action
Press the [INSPECTION / TEST] button for 4 seconds during normal mode to
enter the field setting mode.
Press the [TEMPERATURE ADJUST] button to select the desired mode No.
„ If the indoor unit is under group control, all settings for all the indoor units are
set at the same time. Use the codes 10 to 15 to apply this group control and
proceed to the next step.
„ If you want to set the indoor units of one group individually or if you want to
read out the last settings, use the codes 20 to 25 which are displayed in
brackets. Press the [PROGRAMMING] button to select the indoor unit No. for
which you want to adjust the field settings.
Press the upper part of the [TIME ADJUST] button to select the first code No.
Press the lower part of the [TIME ADJUST] button to select the second code No.
Press the [SCHEDULE TIMER] button to confirm the setting.
Press the [INSPECTION / TEST] button to return to normal mode.
Trial Operation and Field Settings
SiBE12-816_D
Field Settings
Wireless remote
controller
Mode No.
Field setting mode
10
UP button
DOWN button
RESERVE button
First code No.
1-0
MODE button
Second code No.
[Inspection / Test] button
(R14426)
To set the field settings, you have to change:
„ Mode No.
„ First code No.
„ Second code No.
Step
1
2
3
4
5
6
Trial Operation and Field Settings
Action
Press the [Inspection / Test] button for 4 seconds during normal mode to enter the
field setting mode.
Press the [MODE] button to select the desired mode No.
Press the [UP] button to select the first code No.
Press the [DOWN] button to select the second code No.
Press the [RESERVE] button to confirm the setting.
Press the [Inspection / Test] button to return to the normal mode.
308
Field Settings
SiBE12-816_D
4.2.2 Overview of the Field Settings
0
10
(20)
12
(22)
2
3
Remote controller thermistor
Filter cleaning sign
Indoor unit number of
simultaneous operation
system
Simultaneous operation
system individual setting
1
7
External static pressure
setting
1
Forced ON/OFF function
2
1
13
(23)
3
4
6
Note:
309
Longlife
filter
Longlife filter type
0
15
(25)
Filter cleaning
sign interval
Ultra
longlife
filter
1
0
11
(21)
Second Code No.
Description of setting
3
01
02
Approx.
Approx.
10,000
5,000
hrs.
hrs.
Approx.
Approx.
2,500
1,250
hrs.
hrs.
Longlife
Ultra
filter
longlife filter
Enabled
Disabled
Display
No display
Heavy
First
Code
No.
Light
Mode
No.
Pair
Twin
Unified
Individual
setting
setting
Airflow
Completion
adjustment
of airflow
is OFF
adjustment
Forced
ON/OFF
OFF
operation
03
04
—
—
—
—
—
—
—
—
Triple
Double twin
—
—
Start of
airflow
adjustment
—
—
—
Thermostat differential
1°C
0.5°C
—
—
changeover (setting for when
using remote sensor)
High air outlet velocity (for
≤ 2.7 m
2.7 ~ 3.0 m 3.0 ~ 3.5 m
—
high ceiling applications)
Selection of airflow direction
4-way flow 3-way flow 2-way flow
—
(setting for when a blocking
pad kit has been installed)
Selection of airflow function
(setting for when using a
Equipped Not equipped
—
—
decoration panel for outlet)
Airflow direction range setting
Upper
Normal
Lower
—
External static pressure
Standard
High
Low
—
Drain pump operation with
Not equipped Equipped
—
—
humidifying
: factory setting
Any function that is not available on the indoor unit is not displayed.
Trial Operation and Field Settings
SiBE12-816_D
Field Settings
4.2.3 MAIN / SUB Setting when Using 2 Wired Remote Controllers
Outline
The MAIN / SUB setting is necessary when 1 indoor unit is controlled by 2 remote controllers.
When you use 2 remote controllers (control panel and separate remote controller), set one to
MAIN and the other to SUB.
Detail
The remote controllers are factory set to MAIN, so you only have to change one remote
controller from MAIN to SUB.
Step
1
Action
Insert a flat screwdriver into the groove between the upper and lower part of the
remote controller, as shown in the illustration below. Gently pry off the upper part
of the controller, working from the two possible positions.
Upper part of the
remote controller
Lower part of the
remote controller
(R11738)
2
Set the [MAIN / SUB changeover] switch on the PCB to “S”.
The switch is set to
MAIN (factory setting)
Set the switch to SUB.
(R11739)
Trial Operation and Field Settings
310
Field Settings
SiBE12-816_D
4.2.4 Address and MAIN / SUB Setting for Wireless Remote Controller
Outline
If several wireless remote controller units are used together in the same room (including the
case where both group control and individual remote controller control are used together), be
sure to set the addresses for the receiver and wireless remote controller. (For group control, see
the attached installation manual for the indoor unit.) If using together with a wired remote
controller, you have to change the MAIN / SUB setting on the signal receiver PCB.
Signal Receiver
PCB
Set the address setting switch (SS2) on the signal receiver PCB according to the table below.
Unit No.
Address setting switch
(SS2)
No.1
No.2
No.3
When using both a wired and a wireless remote controller for 1 indoor unit, the wired controller
should be set to MAIN. Therefore, set the MAIN / SUB setting switch (SS1) on the signal
receiver PCB to SUB.
MAIN
SUB
MAIN / SUB setting
switch (SS1)
3
12
MS
SS2
SS1
(S1940)
After completing setting, seal off the opening of the address setting switch (SS2) and the MAIN /
SUB setting switch (SS1) with the attached sealing pad.
311
Trial Operation and Field Settings
SiBE12-816_D
Wireless Remote
Controller
(Factory Set is
“1”)
Field Settings
1. Hold down the “
” button and the “
” button at the same time for at least
4 seconds to enter the field setting mode. (“SETTING” is indicated on the display).
2. Press the “
” button and select “A” or “b”. Each time the button is pressed, the
display switches between “A” and “b”.
3. Press the “
” button and “
” button to set the address.
Address can be set from 1 ~ 6, but set it to 1 ~ 3 and to same address as the receiver. (The
receiver does not work with address 4 ~ 6.)
4. Press the “
” button to confirm the setting.
5. Hold down the “
” button for at least 1 second to exit the field setting mode and
return to the normal display.
Field setting mode
Address
1
A
Multiple setting
(R14401)
Multiple Settings
A/b
When the indoor is controlled by outside controller (central remote controller, etc.), it sometimes
does not respond to ON/OFF command or temperature setting command from the remote
controller. Check what setting the customer needs and make the multiple setting as shown
below.
Remote Controller
Multiple Setting
Remote Controller
Display
A: Standard
b: Multiple display
Trial Operation and Field Settings
Indoor Unit
Controlled by other air
Other condition
conditioners or devices
All items are displayed. ON/OFF command and
temperature setting
command cannot be
accepted. (1 long beep
or 3 short beeps
emitted)
Operations set only is All the commands can be accepted (2 short
displayed shortly after beeps)
execution.
312
Field Settings
SiBE12-816_D
After Setting
Stick the unit No. label at the decoration panel air discharge outlet as well as on the back of the
wireless remote controller.
Wireless remote controller
1
Unit No. label
Decoration
panel
(R12961)
Note:
313
Set the unit No. of the receiver and the wireless remote controller to be the same. If the settings
differ, the signal from the remote controller cannot be received.
Trial Operation and Field Settings
SiBE12-816_D
4.3
Field Settings
Outdoor Unit
4.3.1 Jumper Settings
Jumper
Function
(on outdoor unit PCB)
J3
ECONO mode
prohibition setting
When connected
When cut
(factory set)
ECONO operation is ECONO operation is disabled.
available.
J4
Maximum power
input limitation
setting
Standard control
J5
Improvement of
defrost performance
Standard control
The power input is limited to
1700 W. It is recommended for
the areas with circuit breakers
of low-capacity.
Reinforced control
(ex. The frequency increases,
the duration time of defrost
lengthens.)
Location of the jumpers
1) Remove the
2 screws.
Top panel
Electrical
box cover
2) Remove the
screw.
Insulation
sheet
4) Remove the
insulation
sheet.
Fan motor lead wire
Hook
Notch
Electrical box
3) Remove the
electrical box cover
from the hook.
PCB
J3
J4
J5
PCB
5) Cut the jumper.
(You can cut the jumper
with the PCB mounted.)
(R14361)
Trial Operation and Field Settings
314
Application of Silicon Grease to a Power Transistor and a Diode Bridge
SiBE12-816_D
5. Application of Silicon Grease to a Power
Transistor and a Diode Bridge
Applicable
Models
All outdoor units using inverter type compressor for room air conditioner.
When the printed circuit board (PCB) of an outdoor unit is replaced, it is required that silicon
grease (*1) is certainly applied to the heat radiation part (the contact point to the radiation fin) of
the power transistor and diode bridge.
*1: Parts number of the silicon grease – 1172698 (Drawing number 3FB03758-1)
Details
The silicon grease is an essential article for encouraging the heat radiation of the power
transistor and the diode bridge. Applying the paste should be implemented in accordance with
the following instruction.
Remark: There is the possibility of failure with smoke in case of bad heat radiation.
„ Wipe off the old silicon grease completely on a radiation fin.
„ Apply the silicon grease evenly to the whole.
„ Do not leave any foreign object such as solder or paper waste between the power transistor
and the radiation fin, and also the diode bridge, and the radiation fin.
„ Tighten the screws of the power transistor and the diode bridge, and contact to the radiation
fin without any gap.
<Example>
The shape of electrical box and PCB vary depending on the model.
Take out a PCB
Power transistor
(TRM, TPM, IGBT, IPM, SPM, etc.)
Diode bridge
(Diode bridge, Rectifier stack, etc.)
Not applied.
OK : Evenly applied
silicon grease.
NG : Not evenly
applied
Paper waste
NG : Foreign object
(R9056)
315
Trial Operation and Field Settings
SiBE12-816_D
Part 9
Appendix
1. Piping Diagrams..................................................................................317
1.1 Indoor Unit............................................................................................317
1.2 Outdoor Unit .........................................................................................321
2. Wiring Diagrams..................................................................................323
2.1 Indoor Unit............................................................................................323
2.2 Outdoor Unit .........................................................................................327
Appendix
316
Piping Diagrams
SiBE12-816_D
1. Piping Diagrams
1.1
Indoor Unit
1.1.1 Wall Mounted Type
FTXG25/35EV1BW(S)
CTXG50EV1BW(S)
INDOOR UNIT
INDOOR UNIT
7.0CuT
7.0CuT
HEAT EXCHANGER
7.0CuT
7.0CuT
7.0CuT
7.0CuT
FIELD PIPING
(6.4CuT)
HEAT EXCHANGER
7.0CuT
THERMISTOR
ON HEAT EXCH.
THERMISTOR
ON HEAT EXCH
7.0CuT
7.0CuT
7.0CuT
FIELD PIPING
(6.4CuT)
CROSS FLOW FAN
M
CROSS FLOW FAN
M
FAN MOTOR
FAN MOTOR
9.5CuT
FIELD PIPING
(12.7CuT)
9.5CuT
FIELD PIPING
(9.5CuT)
REFRIGERANT FLOW
COOLING
HEATING
REFRIGERANT FLOW
COOLING
HEATING
4D050924
4D045301C
FTXG25/35JV1BW(S)
CTXG50JV1BW(S)
INDOOR UNIT
INDOOR UNIT
6.4CuT
6.4CuT
HEAT EXCHANGER
HEAT EXCHANGER
FIELD PIPING
6.4CuT
FIELD PIPING
9.5CuT
CROSS FLOW FAN
THERMISTOR
ON HEAT EXCH.
FIELD PIPING
6.4CuT
M
FAN MOTOR
FIELD PIPING
12.7CuT
9.5CuT
THERMISTOR
ON HEAT EXCH.
M
FAN MOTOR
9.5CuT
REFRIGERANT FLOW
COOLING
HEATING
REFRIGERANT FLOW
COOLING
HEATING
4D065855
317
CROSS FLOW FAN
4D065856A
Appendix
SiBE12-816_D
Piping Diagrams
FTXS20/25/35/42G2V1B
FTXS20/25/35/42J2V1B
FTXS50G2V1B
FTXS50J2V1B
INDOOR UNIT
INDOOR UNIT
6.4CuT
6.4CuT
HEAT EXCHANGER
HEAT EXCHANGER
THERMISTOR
ON HEAT EXCH.
CROSS FLOW FAN
FIELD PIPING
6.4CuT
M
FAN MOTOR
FIELD PIPING
9.5CuT
CROSS FLOW FAN
FIELD PIPING
6.4CuT
M
FAN MOTOR
FIELD PIPING
12.7CuT
9.5CuT
THERMISTOR
ON HEAT EXCH.
9.5CuT
REFRIGERANT FLOW
REFRIGERANT FLOW
COOLING
HEATING
COOLING
HEATING
4D058898E
4D058897E
1.1.2 Floor Standing Type
FVXS25/35FV1B
FVXS50FV1B
INDOOR UNIT
MUFFLER ASSY
7.0CuT
INDOOR UNIT
6.4CuT
HEAT EXCHANGER
MUFFLER ASSY
7.0CuT
THERMISTOR
ON HEAT EXCH.
M
FIELD PIPING
(6.4CuT)
TURBO FAN FAN MOTOR
M
9.5CuT
FIELD PIPING
(9.5CuT)
REFRIGERANT FLOW
FIELD PIPING
(6.4CuT)
TURBO FAN FAN MOTOR
FIELD PIPING
(12.7CuT)
9.5CuT
6.4CuT
6.4CuT
6.4CuT
REFRIGERANT FLOW
COOLING
COOLING
HEATING
HEATING
4D056137B
Appendix
THERMISTOR
ON HEAT EXCH.
6.4CuT
6.4CuT
HEAT EXCHANGER
6.4CuT
6.4CuT
6.4CuT
6.4CuT
6.4CuT
6.4CuT
4D056138B
318
Piping Diagrams
SiBE12-816_D
1.1.3 Floor / Ceiling Suspended Dual Type
FLKS25/35BAVMB
FLKS50BAVMB
INDOOR UNIT
INDOOR UNIT
(9.5CuT)
(6.4CuT)
HEAT EXCHANGER
HEAT EXCHANGER
FIELD PIPING
(6.4CuT)
SIROCCO FAN
THERMISTOR
ON HEAT
EXCH.
FIELD PIPING
(6.4CuT)
M
FAN MOTOR
M
FAN MOTOR
FIELD PIPING
(12.7CuT)
(9.5CuT)
FIELD PIPING
(9.5CuT)
THERMISTOR
ON HEAT
EXCH.
SIROCCO FAN
(12.7CuT)
REFRIGERANT FLOW
COOLING
REFRIGERANT FLOW
COOLING
4D048723A
4D034012E
FLXS25/35BAVMB
FLXS50BAVMB
INDOOR UNIT
INDOOR UNIT
(9.5CuT)
(6.4CuT)
HEAT EXCHANGER
HEAT EXCHANGER
FIELD PIPING
(6.4CuT)
SIROCCO FAN
THERMISTOR
ON HEAT
EXCH.
FIELD PIPING
(6.4CuT)
M
M
FAN MOTOR
FAN MOTOR
FIELD PIPING
(9.5CuT)
(9.5CuT)
FIELD PIPING
(12.7CuT)
(12.7CuT)
REFRIGERANT FLOW
COOLING
HEATING
REFRIGERANT FLOW
COOLING
HEATING
4D048722B
319
SIROCCO FAN
THERMISTOR
ON HEAT
EXCH.
4D048724B
Appendix
SiBE12-816_D
Piping Diagrams
1.1.4 Duct Connected Type
FDK(X)S25/35EAVMB, FDK(X)S50CVMB
INDOOR UNIT
(6.4CuT)
HEAT EXCHANGER
FIELD PIPING
(6.4CuT)
THERMISTOR
ON HEAT
EXCH.
SIROCCO FAN
M
FAN MOTOR
FIELD PIPING
(A CuT)
(A CuT)
REFRIGERANT FLOW
COOLING
HEATING
A
FDXS25EAVMB
FDXS35EAVMB
FDKS25EAVMB
FDKS35EAVMB
9.5
A
FDXS50CVMB
FDKS50CVMB
12.7
C: 4D045449L
1.1.5 Ceiling Mounted Cassette Type
FFQ25/35/50B8V1B
Indoor heat exchanger
Field piping φ A C1220T-O
To
Field piping φ B C1220T-O Outdoor unit
Indoor unit
MODEL
A
B
FFQ25/35B8V1B
6.4
9.5
FFQ50B8V1B
6.4
12.7
C: 4D039335A
Appendix
320
Piping Diagrams
1.2
SiBE12-816_D
Outdoor Unit
1.2.1 Cooling Only
2MKS40GV1B, 2MKS40G2V1B
OUTDOOR UNIT
OUTDOOR TEMPERATURE
THERMISTOR
BRANCH
PIPE 7.0CuT HEAT EXCHANGER
7.0CuT
MOTOR OPERATED VALVE MUFFLER
LIQUID PIPE
LIQUID LINE
WITH
THERMISTOR STOP VALVE
EVA
FILTER MUFFLER
6.4CuT
6.4CuT
6.4CuT
6.4CuT
BRANCH
PIPE
6.4CuT
MUFFLER
WITH
BRANCH
HEAT EXCHANGER
THERMISTOR
MOTOR OPERATED VALVE MUFFLER
LIQUID PIPE
LIQUID LINE
WITH
STOP VALVE
EVB
FILTER MUFFLER THERMISTOR
6.4CuT
4.8CuT
ROOM A
(6.4 CuT)
FIELD
PIPING
LIQUID
ROOM B
(6.4 CuT)
4.8CuT
M
FAN MOTOR
9.5CuT
PROPELLER FAN
GAS LINE
STOP VALVE
GAS PIPE
MUFFLER
THERMISTOR
9.5CuT
9.5CuT
9.5CuT
9.5CuT
BRANCH
MUFFLER PIPE
9.5CuT
MUFFLER
9.5CuT
FOUR WAY VALVE
NORMALLY:OFF
7.9CuT
MUFFLER
DISCHARGE PIPE
THERMISTOR
7.9CuT
REFRIGERANT FLOW
COOLING
GAS LINE
STOP VALVE
GAS PIPE
THERMISTOR
9.5CuT
ROOM A
(9.5 CuT)
FIELD
PIPING
GAS
ROOM B
(9.5 CuT)
9.5CuT
BRANCH
PIPE
ACCUMULATOR
COMPRESSOR
3D055809C
2MKS50GV1B, 2MKS50G2V1B
OUTDOOR UNIT
OUTDOOR TEMPERATURE
THERMISTOR
BRANCH
HEAT
EXCHANGER
7.9CuT
PIPE
MOTOR OPERATED VALVE
EVA
FILTER
6.4CuT
LIQUID PIPE
LIQUID LINE
THERMISTOR
STOP VALVE
6.4CuT
7.9CuT
6.4CuT
MUFFLER
WITH
BRANCH
HEAT EXCHANGER
THERMISTOR
BRANCH
PIPE
MOTOR OPERATED VALVE
LIQUID PIPE
LIQUID LINE
THERMISTOR
STOP VALVE
FILTER
EVB
6.4CuT
6.4CuT
4.8CuT
ROOM A
(6.4 CuT)
ROOM B
(6.4 CuT)
FIELD
PIPING
LIQUID
4.8CuT
M
FAN MOTOR
9.5CuT
PROPELLER FAN
GAS LINE
STOP VALVE
GAS PIPE
MUFFLER
THERMISTOR
9.5CuT
9.5CuT
9.5CuT
9.5CuT
9.5CuT
FOUR WAY VALVE
NORMALLY:OFF
7.9CuT
REFRIGERANT FLOW
COOLING
DISCHARGE PIPE
THERMISTOR
7.9CuT
BRANCH
PIPE
GAS LINE
STOP VALVE
MUFFLER
9.5CuT
GAS PIPE
THERMISTOR
9.5CuT
ROOM A
(9.5 CuT)
ROOM B
(12.7 CuT)
FIELD
PIPING
GAS
MUFFLER
9.5CuT
ACCUMULATOR
COMPRESSOR
3D057468C
321
Appendix
SiBE12-816_D
Piping Diagrams
1.2.2 Heat Pump
2MXS40GV1B, 2MXS40G2V1B
OUTDOOR UNIT
OUTDOOR TEMPERATURE
THERMISTOR
BRANCH
HEAT EXCHANGER
PIPE 7.0CuT
7.0CuT
BRANCH
PIPE
6.4CuT
MUFFLER
WITH
BRANCH
HEAT EXCHANGER
THERMISTOR
MOTOR OPERATED VALVE MUFFLER
LIQUID PIPE
LIQUID LINE
WITH
THERMISTOR
STOP VALVE
EVA
FILTER MUFFLER
6.4CuT
6.4CuT
6.4CuT
6.4CuT
MOTOR OPERATED VALVE MUFFLER
LIQUID PIPE
LIQUID LINE
WITH MUFFLER THERMISTOR
EVB
STOP VALVE
FILTER
6.4CuT
4.8CuT
ROOM A
(6.4 CuT)
FIELD
PIPING
LIQUID
ROOM B
(6.4 CuT)
4.8CuT
M
FAN MOTOR
9.5CuT
PROPELLER FAN
GAS LINE
STOP VALVE
GAS PIPE
MUFFLER
THERMISTOR
9.5CuT
9.5CuT
9.5CuT
9.5CuT
BRANCH
MUFFLER PIPE
9.5CuT
MUFFLER
FOUR WAY VALVE
ON:HEATING
MUFFLER
7.9CuT
REFRIGERANT FLOW
DISCHARGE PIPE
THERMISTOR
7.9CuT
COOLING
HEATING
9.5CuT
GAS LINE
STOP VALVE
GAS PIPE
THERMISTOR
9.5CuT
ROOM A
(9.5 CuT)
ROOM B
(9.5 CuT)
FIELD
PIPING
GAS
9.5CuT
BRANCH
PIPE
ACCUMULATOR
COMPRESSOR
3D055808D
2MXS50GV1B, 2MXS50G2V1B
OUTDOOR UNIT
OUTDOOR TEMPERATURE
THERMISTOR
BRANCH
PIPE 7.9CuT HEAT EXCHANGER
7.9CuT
6.4CuT
MUFFLER
WITH
BRANCH
HEAT EXCHANGER
THERMISTOR
MOTOR OPERATED VALVE
EVA
FILTER
6.4CuT
BRANCH
PIPE
LIQUID PIPE
LIQUID LINE
THERMISTOR
STOP VALVE
6.4CuT
ROOM A
(6.4 CuT)
FIELD
PIPING
LIQUID
MOTOR OPERATED VALVE
LIQUID PIPE
LIQUID LINE
THERMISTOR
STOP VALVE
FILTER
6.4CuT
6.4CuT
EVB
4.8CuT
ROOM B
(6.4 CuT)
4.8CuT
M
FAN MOTOR
9.5CuT
PROPELLER FAN
GAS LINE
STOP VALVE
GAS PIPE
MUFFLER
THERMISTOR
9.5CuT
9.5CuT
9.5CuT
9.5CuT
9.5CuT
FOUR WAY VALVE
ON:HEATING
7.9CuT
REFRIGERANT FLOW
COOLING
HEATING
DISCHARGE PIPE
THERMISTOR
7.9CuT
BRANCH
PIPE
9.5CuT
MUFFLER
GAS PIPE
THERMISTOR
9.5CuT
GAS LINE
STOP VALVE
ROOM A
(9.5 CuT)
ROOM B
(12.7 CuT)
FIELD
PIPING
GAS
MUFFLER
9.5CuT
ACCUMULATOR
COMPRESSOR
3D057467E
Appendix
322
Wiring Diagrams
SiBE12-816_D
2. Wiring Diagrams
2.1
Indoor Unit
2.1.1 Wall Mounted Type
FTXG25/35EV1BW(S), CTXG50EV1BW(S)
PCB2
LED4 LED3 LED2
SIGNAL
RECEIVER
H4P H3P H2P
WIRELESS
REMOTE
CONTROLLER
PCB3
S47
FIELD WIRING.
GRN / YLW
S1W
R2T
E2
E1
X1M
3
2
1
FG
PCB1
S36
GRN / YLW
t°
TRANSMISSION
CIRCUIT
S46
S36
RED
WHT
BLK
H3
INTELLIGENT
EYE SENSOR
H2
3
2
1
CAUTION
NOTE THAT OPERATION WILL
RESTART AUTOMATICALLY IF
THE MAIN POWER SUPPLY IS
TURNED OFF AND THEN BACK
ON AGAIN.
H1B
3.15A
F1U
~
~
RECTIFIER
t°
R1T
S51
S1 4
7
RED
S21
HA
RED
ORG
YLW
PNK
BLU
WHT
ORG
BRN
BLU
S32
S49
RED
ORG
YLW
PNK
BLU
BLK
WHT
RED
ORG
YLW
PNK
BLU
S41
M
S2W
M1S
M
M
M
M3S
M1F
FG
F1U
H2P~H4P
M1F
M1S, M2S, M3S
PCB1, PCB2, PCB3
R1T, R2T
S1~S51
S1W
S2W
X1M
indoor
M2S
outdoor
: FLAME GRUND
: FUSE
: PILOT LAMP
: FAN MOTOR
: SWING MOTOR
: PRINTED CIRCUIT BOARD
: THERMISTOR
: CONNECTOR
: OPERATION SWITCH
: PANEL LIMIT SWITCH
: TERMINAL STRIP
: PROTECTIVE EARTH
: EARTH TERMINAL(SHIELD PLATE)
: EARTH TERMINAL(HEAT. EX)
E1
E2
3D050493B
FTXG25/35JV1BW(S), CTXG50JV1BW(S)
S1W
SIGNAL
RECEIVER
9
BZ
BLK
BLK
BLK
BLK
BLK
BLK
BLK
BLK
BLK
S46
1
7
8
9
MR10
H2
FG
GRN
/YLW
GRN/
YLW
X1M
1
2
3
1
3
M
M1
H3
TRANSMISSION
CIRCUIT
S42
BLK
WHT
RED
S1C
S32
S41
1 2 1 2 3 4 5 10 6 7 8 9
1
BLK
RED
ORG
YLW
PNK
BLU
RED
ORG
YLW
PNK
BLU
3
H1P
H2P
WIRELESS
REMOTE
CONTROLLER
C101
BLK
S51
1
V1
H1
BLK
BLK
R1T
S52
1
3
A2P
t˚
C102
F1U
3.15A
BLK
BLK
3
~
HA
BLK
BLK
BLK
BLK
BLK
INTELLIGENT EYE
SENSOR
S25
1
BLK
BLK
BLK
1
S36
BLK
BLK
BLK
BLK
BLK
A3P
A1P
S21
t˚
MSW
MSW
R2T
M1S
(MAIN)
M2S
(SUB)
FG
: FRAME GROUND
F1U
: FUSE
H1P, H2P : PILOT LAMP
M1F
: FAN MOTOR
OUTDOOR
M1S, M2S : SWING MOTOR
M1
: STEPPING MOTOR
A1P~A3P : PRINTED CIRCUIT BOARD
FIELD WIRING.
R1T, R2T : THERMISTOR
S25~S200 : CONNECTOR
: OPERATION SWITCH
S1W
S200
: LIMIT SWITCH
S1C
7
RED
: TERMINAL STRIP
X1M
M
: BUZZER
BZ
4
: PROTECTIVE EARTH
BLU
M1F
BRN
CAUTION
ORG
WHT
NOTE THAT OPERATION WILL
1
RESTART AUTOMATICALLY IF
THE MAIN POWER SUPPLY IS
TURNED OFF AND THEN BACK
INDOOR
ON AGAIN.
1
2
3
3D065507B
323
Appendix
SiBE12-816_D
Wiring Diagrams
FTXS20/25/35/42/50G2V1B, FTXS20/25/35/42/50J2V1B
1
PCB3
S49
BLK
BLK
BLK
BLK
BLK
BLK
BLK
BLK
BLK
1
LED1
H1P
LED2
H2P
LED3
H3P
9
SW1
FU1
F1U
PCB1
S46
1
H1
3.15A
~
C102
V1
H2
MR10
C101
t˚
HA
BZ
7
RTH1
R1T
S1
1
4
S41
S47
S32
1 3 1
2 16 8 10 12 14 2 5 3 4 6 15 13 11 9 7 1
BLK
BLK
BLK
BLK
INTELLIGENT EYE
SENSOR
PCB2
S48
1
WIRELESS
REMOTE
CONTROLLER
SIGNAL
RECEIVER
3
BLK
4
MS
3~
M1F
RED
ORG
YLW
PNK
BLU
RED
ORG
YLW
PNK
BLU
RED
ORG
YLW
PNK
BLU
S26
BLU
BRN
ORG
WHT
S25
1
BLK
BLK
BLK
BLK
t˚
R2T
MSW
MSW
MSW
M1S
M2S
M3S
1
2
RED
GRN
3
OUTDOOR
FIELD WIRING.
BZ
: BUZZER
C101, C102 : CAPACITOR
FG
: FRAME GROUND
F1U
: FUSE
H1P~H3P
: PILOT LAMP
MR10
: MAGNETIC RELAY
M1F
: FAN MOTOR
M1S~M3S : SWING MOTOR
PCB1~PCB4 : PRINTED CIRCUIT BOARD
R1T, R2T
: THERMISTOR
S1~S49
: CONNECTOR
SW1
: OPERATION SWITCH
V1
: VARISTOR
X1M
: TERMINAL STRIP
: PROTECTIVE EARTH
RED
4
1
PCB4
3
BLK
WHT
CAUTION
NOTE THAT OPERATION WILL RESTART
AUTOMATICALLY IF THE MAIN POWER SUPPLY
IS TURNED OFF AND THEN BACK ON AGAIN.
FG
S21
2
GRN
/
YLW
H3
TRANSMISSION
CIRCUIT
9
X1M
INDOOR
3D058246D
2.1.2 Floor Standing Type
FVXS25/35/50FV1B
PCB3
S27
S2W(4)
PCB2
S26
V1 F1U
~
~
RECTIFIER
H1
3.15A
H2
S4W
WIRELESS
REMOTE
CONTROLLER
TRANSMISSION
CIRCUIT
PCB4
H1P
S1W
S47
7
E1
4
H2P
1
M1S
M2S
indoor
M
M
RED
ORG
YLW
PNK
BLU
RED
ORG
YLW
PNK
BLU
S42
1
S21
GRN
S1
E3
RED
BLU
BRN
ORG
WHT
M
HA
S48
S49
t°
PCB1
S32
5
outdoor
FIELD WIRING.
CAUTION
NOTE THAT OPERATION WILL
RESTART AUTOMATICALLY IF
THE MAIN POWER SUPPLY IS
TURNED OFF AND THEN BACK
ON AGAIN.
M1F
R1T
6
S41
1
1
2 →
3
X1M
1
2
3
E3
E4
V2
S46
LED2
GRN
GRN/YLW
H3
SA1
SIGNAL
RECEIVER
LED1
BLK
WHT
RED
t°
R2T
F1U
H1P,H2P
M1F
M1S
M2S
PCB1~PCB4
R1T,R2T
S1~S49
S1W
S2W(4)
S4W
X1M
E3
E4
: PROTECTIVE EARTH
: FUSE
: PILOT LAMP
: FAN MOTOR
: SWING MOTOR
: LOWER AIR OUTLET MOTOR
: PRINTED CIRCUIT BOARD
: THERMISTOR
: CONNECTOR
: OPERATION SWITCH
: UPWARD AIR FLOW LIMIT SWITCH
: AIR OUTLET SELECTION SWITCH
: TERMINAL STRIP
: EARTH TERMINAL (HEAT EX.)
: EARTH TERMINAL (SHIELD PLATE)
3D055953A
Appendix
324
Wiring Diagrams
SiBE12-816_D
2.1.3 Floor / Ceiling Suspended Dual Type
FLK(X)S25/35/50BAVMB
PCB3
S25
PCB1
S24
S37
PCB2
S36
H1
LED LED LED
Fu
3.15A
H1P H2P H3P
H2
PCB4
C70
S1W
SIGNAL
RECEIVER
BLK
WHT
RED
GRN/
YLW
TRANSMISSION
CIRCUIT
HA
S27
S26
S31
S32
t°
t°
R1T
R2T
H4
S7
S21
H5
H3
X1M
1
2
3
1
2
3
→
outdoor
FIELD WIRING.
CAUTION
H6
NOTE THAT OPERATION WILL
RESTART AUTOMATICALLY IF
THE MAIN POWER SUPPLY IS
TURNED OFF AND THEN BACK
ON AGAIN.
indoor
S6
X11A
X21A
1~
t°
M1S
WIRELESS
REMOTE
CONTROLLER
C70
FU
H1P~H3P
M1F
M1S
M
M
M1F
100°C
: PROTECTIVE EARTH
: RUNNING CAPACITOR
: FUSE
: PILOT LAMP
: FAN MOTOR
: SWING MOTOR
PCB1~PCB4
R1T~R2T
S6~S37, X11A, X21A
S1W
X1M
: PRINTED CIRCUIT BOARD
: THERMISTOR
: CONNECTOR
: OPERATION SWITCH(SW7)
: TERMINAL STRIP
3D033909F
2.1.4 Duct Connected Type
FDK(X)S25/35EAVMB, FDK(X)S50CVMB
X1M
PCB1
PCB2
H1
F1U
3.15A
V1TR
LED LED LED S1
1
H1P H2P H3P
S26
1
)
10
10
2 S32 1
t°
BRN BRN
3
1
S1
RED
S7
2 RTH11
H3
6
S21
S1W
SIGNAL
RECEIVER
TERMINAL FOR
CENTRALIZED CONTROL
1
GRY
TRANSMISSION
GND
CIRCUIT
BLK
YLW
3
C1
WHT
R1T
t°
PPL
BLU
R2T
WIRELESS
REMOTE
CONTROLLER
M
1~
indoor
:
C1 :
F1U :
PROTECTIVE EARTH
CAPACITOR (M1F)
FUSE
M1F
Q1M
130°C
1
WHT
2
RED
3
1
2
3
outdoor
Z1C
H2
(
BLK
H1P ~ H3P
M1F
PCB1 ~ PCB2
Q1M
R1T ~ R2T
S1 ~ S32, RTH1
S1W
V1TR
X1M
Z1C
N=2
GRN / YLW
GRN / YLW
FIELD WIRING.
CAUTION
NOTE THAT OPERATION WILL
RESTART AUTOMATICALLY IF
THE MAIN POWER SUPPLY IS
TURNED OFF AND THEN BACK
ON AGAIN.
: PILOT LAMP
: FAN MOTOR
: PRINTED CIRCUIT BOARD
: THERMAL PROTECTOR (M1F EMBEDDED)
: THERMISTOR
: CONNECTOR
: OPERATION SWITCH
: PHASE CONTROL CIRCUIT
: TERMINAL BLOCK
: NOISE FILTER (FERRITE CORE)
3D045012L
325
Appendix
SiBE12-816_D
Wiring Diagrams
2.1.5 Ceiling Mounted Cassette Type
NOTES)
1.
: TERMINAL
: FIELD WIRING
R2T
t˚
t˚
t˚
YLW
WHT
A1P
YLW
X19A
X18A
X24A
NOTE)3
X17A
X61A
X10A
X60A
T1R
t˚
X11A
KPR
V1TR
GRN
NE
NOTE)5 WIRED
REMOTE
CONTROLLER
F2
SS1
F1
P2
P2
P1 R1T
P1
X5A X1M
C1
X20A
RED
X25A
RC
TC
X40A
,
: CONNECTER DISCRIMINATION COLOUR FOR COMPONENTS.
: CONNECTER COLOUR FOR COMPONENTS.
: CONNECTER COLOUR FOR PRINTED CIRCUIT BOARD.
R3T
WHT
IN CASE OF SIMULTANEOUS
OPERATION SYSTEM
INDOOR UNIT INDOOR UNIT
(MASTER)
(SLAVE)
TO OUTDOOR X2M
F1U
1 BLK
UNIT
1
1
2 WHT
2
2
3
3
3
RED
GRN/YLW X27A
X2M
X2M
H05VV-U4G2.5
REMOTE
A1P A3P
A4P
CONTROLLER
SS1
H1P
H2P BS1
SS2
H3P
X24A
X2A
H4P
NOTE)3
X1A
X1A
RECEIVER/DISPLAY UNIT
R1T
YLW
TO OUTDOOR UNIT
FFQ25/35/50B8V1B
: CONNECTOR
2. IN CASE USING CENTRAL REMOTE CONTROLLER, CONNECT IT TO THE UNIT
IN ACCORDANCE WITH THE ATTACHED INSTALLATION MANUAL.
3. X24A IS CONNECTED WHEN THE WIRELESS REMOTE CONTROLLER KIT IS BEING USED.
4. REMOTE CONTROLLER MODEL VARIES ACCORDING TO THE COMBINATION SYSTEM, CONFIRM ENGINEERING MATERIALS
AND CATALOGS, ETC. BEFORE CONNECTING.
5. GROUND THE SHIELD OF THE REMOTE CONTROLLER CORD TO THE INDOOR UNIT(IN CASE OF USING SHIELD WIRE).
6. SYMBOLS SHOW AS FOLLOWS: RED: RED BLK: BLACK WHT: WHITE YLW: YELLOW PRP: PURPLE GRY: GRAY BLU: BLUE
YLW
YLW
M
~
BLK
M
~
M1P
MSW
X36A
X33A
X35A
Q1M
M1F
M1S
HAP
X15A
S1L
C1
T1R
X1M
A1P
X2M
CONTROL BOX
A1P
C1
F1U
HAP
PRINTED CIRCUIT BOARD
CAPACITOR (M1F)
FUSE (F5A 250V)
LIGHT EMITTING DIODE
(SERVICE MONITOR GREEN)
KPR MAGNETIC RELAY(M1P)
M1F MOTOR (INDOOR FAN)
M1P MOTOR (DRAIN PUMP)
M1S MOTOR (SWING FLAP)
Q1M THERMO SWITCH (M1F EMBEDDED)
R1T THERMISTOR (AIR)
R2T THERMISTOR (COIL-1)
R3T THERMISTOR (COIL-2)
S1L FLOAT SWITCH
T1R TRANSFORMER (220-240V/22V)
V1TR PHASE CONTROL CIRCUIT
X1M TERMINAL STRIP
X2M TERMINAL STRIP
RC
SIGNAL RECEIVER CIRCUIT
SIGNAL TRANSMISSION CIRCUIT
TC
WIRED REMOTE CONTROLLER
R1T THERMISTOR (AIR)
SS1 SELECTOR SWITCH (MAIN/SUB)
WIRELESS REMOTE CONTROLLER
(RECEIVER/DISPLAY UNIT)
A3P PRINTED CIRCUIT BOARD
A4P PRINTED CIRCUIT BOARD
Appendix
PUSH BUTTON(ON/OFF)
LIGHT EMITTING DIODE
(ON-RED)
H2P LIGHT EMITTING DIODE
(TIMER-GREEN)
H3P LIGHT EMITTING DIODE
(FILTER SIGN-RED)
H4P LIGHT EMITTING DIODE
(DEFROST-ORANGE)
SS1 SELECTOR SWITCH
(MAIN/SUB)
SS2 SELECTOR SWITCH
(WIRELESS ADDRESS SET)
CONNECTOR FOR OPTIONAL PARTS
X33A CONNECTOR
(ADAPTOR FOR WIRING)
X35A CONNECTOR
(GROUP CONTROL ADAPTOR)
X40A CONNECTOR
(ON/OFF INPUT FROM OUTSIDE)
X60A CONNECTOR
X61A (INTERFACE ADAPTOR
FOR SKYAIR SERIES)
BS1
H1P
3D038357B
326
Wiring Diagrams
2.2
SiBE12-816_D
Outdoor Unit
2.2.1 Cooling Only
2MKS40GV1B, 2MKS40G2V1B
L1R
M
Y1E
(ROOM-A)
Y2E
(ROOM-B)
MRCW
S90
1
6
1
t°
t°
t°
S70
1
_
WV U
S40
2 1
7
Z1C
N=3
t°
BLU
YLW
RED
M
1~
R1T R2T R3T
(OUTDOOR) (DISCHARGE) M1F
(CONDENSER)
X11A
Q1L
U
W V
M
3~
M1C
FIELD WIRING
C74, C75, C94
C95, C100
DB1, DB2
FU1, FU2, FU3
IC11
IPM1
L
L1
L1R
M1C
W V U
BLU
R5T R6T
R7T R8T
(ROOM-A) (ROOM-A)
(ROOM-B) (ROOM-B)
(LIQUID PIPE) (GAS PIPE)
outdoor
S80
3
FU2
3.15A
RED
M
C75 C95
+ +
_ _
YLW
t°
t°
WHT
YLW
ORG
BLU
BRN
RED
t°
WHT
YLW
ORG
BLU
BRN
RED
GRN/YLW
GRN
TFU
102°C
YLW
YLW
~ _
1C11
V1
S45
1 S92 RED S91WHT S20 WHT S21 RED
3 1
1
4
1
6 1
6
4
C74 C94
+
_ +
_
BLK
BLK
SA1
DB2
~ +
RED
FU1
3.15A
E
L
N
POWER
SUPPLY
~ _
V3
IPM1
+
WHT
ORG
BRN
BLU
GRN/YLW
WHT
BLK
L
N
X2M
1
2
3
MRM10
20A V4
C100
DB1
~ +
L1
HN1
YLW
BLK
WHT
ROOM B
1
2
3
HR2
HR1
MRM20
PCB1
S-A
S-B
HL1 FU3
BLK
BLK
BLK
BLK
BLK
BLK
RED
ROOM A
ORG
BRN
X1M
1
2
3
BLK
BLK
GRY
GRY
1
2
3
BLK
BLK
GRY
GRY
indoor
: CAPACITOR
: DIODE BRIDGE
: FUSE
: TRIAC
: INTELLIGENT POWER MODULE
: LIVE
: COIL
: REACTOR
: COMPRESSOR MOTOR
M1F
MRCW, MRM10,
MRM20
N
PCB1
Q1L
R1T~R8T
SA1
TFU
V1,V3,V4
X1M, X2M
Y1E, Y2E
Z1C
: FAN MOTOR
: MAGNETIC RELAY
: NEUTRAL
: PRINTED CIRCUIT BOARD
: OVERLOAD PROTECTOR
: THERMISTOR
: SURGE ARRESTER
: THERMAL FUSE
: VARISTOR
: TERMINAL STRIP
: ELECTRONIC EXPANSION VALVE COIL
: FERRITE CORE
: PROTECTIVE EARTH
S20, S21, S40,
S70, S80, S45,
S90, S91, S92,
: CONNECTOR
X11A
BLK : BLACK
BLU : BLUE
BRN : BROWN
GRY : GREY
ORG : ORANGE
RED : RED
WHT : WHITE
YLW : YELLOW
GRN : GREEN
3D055671D
2MKS50GV1B, 2MKS50G2V1B
HR1 HR2
MRM10
+
V3
FU1
3.15A
SA1
~ −
V1
E2
3
MRCW
S90
6
1
1
S70
1
S40
7 2 1
M
M
t°
BLK
BLK
BLK
BLK
BLK
BLK
WHT
YLW
ORG
BLU
BRN
RED
t°
t°
R5T R6T
R7T R8T
Y1E
(ROOM-A) (ROOM-A)
(ROOM-B) (ROOM-B) (ROOM-A)
(LIQUID PIPE) (GAS PIPE)
Y2E
(ROOM-B)
t°
327
: CAPACITOR
: DIODE BRIDGE
: FUSE
: INTELLIGENT POWER MODULE
: LIVE
: COIL
: REACTOR
: COMPRESSOR MOTOR
Z1C
N=7
t°
M
1~
R1T R2T R3T
(OUTDOOR) (DISCHARGE) M1F
(CONDENSER)
X11A
Q1L
WV U
M
3~
M1C
FIELD WIRING
C74, C75, C94
C95
DB1, DB2
FU1, FU2, FU3
IPM1
L
L1
L1R
M1C
W V U
BLU
outdoor
S21 RED
1
6
S80
t°
t°
S20 WHT
1
6
WHT
YLW
ORG
BLU
BRN
RED
YLW
YLW
S91 WHT
1
4
BLK
BLK
GRY
GRY
TFU
102°C
1 S92RED
3 1
4
S45
BLK
BLK
GRY
GRY
POWER
SUPPLY
L
N
GRN/YLW
GRN
L
N
BLU
YLW
RED
Z3C
N=3 E
BLK
BLK
HN1
C74
+ C94 C95
− + + FU2
− − 3.15A
C75
+
−
−
Z4C W V U
N=3
DB2
~ +
~ −
RED
V4
IPM1
DB1
~ +
YLW
MRM20
L1
RED
X2M
1
2
3
PCB1
S-A
S-B
Z2C
N=3 HL1 FU3
30A
WHT
ORG
BRN
BLU
ROOM B
1
2
3
RED
GRN/YLW
WHT
BLK
ROOM A
L1R
ORG
X1M
1
2
3
BRN
1
2
3
YLW
BLK
WHT
indoor
M1F
MRCW, MRM10,
MRM20
N
PCB1
Q1L
R1T~R8T
SA1
TFU
: FAN MOTOR
: MAGNETIC RELAY
: NEUTRAL
: PRINTED CIRCUIT BOARD
: OVERLOAD PROTECTOR
: THERMISTOR
: SURGE ARRESTER
: THERMAL FUSE
V1, V3, V4
X1M, X2M
Y1E, Y2E
Z1C, Z2C, Z3C
Z4C
S20, S21, S40,
S70, S80, S45,
S90, S91, S92,
X11A
: VARISTOR
: TERMINAL STRIP
: ELECTRONIC EXPANSION VALVE COIL
: FERRITE CORE
: PROTECTIVE EARTH
: CONNECTOR
BLK
BLU
BRN
GRY
ORG
RED
WHT
YLW
GRN
: BLACK
: BLUE
: BROWN
: GREY
: ORANGE
: RED
: WHITE
: YELLOW
: GREEN
3D057046D
Appendix
SiBE12-816_D
Wiring Diagrams
2.2.2 Heat Pump
2MXS40GV1B, 2MXS40G2V1B
indoor
ORG
WHT
YLW
ORG
BLU
BRN
RED
WHT
YLW
ORG
BLU
BRN
RED
t° t°
S40
7 2 1
WV U
Z1C
N=3
t° t° t°
M
M
1~
Y1R
BLU
YLW
RED
M
R1T R2T R3T
(OUTDOOR) (DISCHARGE) M1F
(CONDENSER)
Y2E
(ROOM-B)
X11A
Q1L
BLU
R5T R6T
R7T R8T
Y1E
(ROOM-A) (ROOM-A)
(ROOM-B) (ROOM-B) (ROOM-A)
(LIQUID PIPE) (GAS PIPE)
outdoor
S70
RED
BLK
BLK
GRY
GRY
t°
1
YLW
t°
1
WHT
ORG
BRN
BLU
S80
YLW
YLW
MRCW
S90
1
6
3
_
W V U
BLK
BLK
~ _
1C11
V1
S45
1 S92 RED S91WHT S20 WHT S21 RED
3 1
4
4
1
1
6 1
6
TFU
102°C
C74 C94
+
_
_ +
FU2
3.15A
C75 C95
+
_
_ +
DB2
~ +
RED
FU1
3.15A
SA1
E
GRN/YLW
GRN
POWER
SUPPLY
V3
IPM1
+
~ _
HN1
L
N
L
N
MRM10
V4
20A
C100
DB1
~ +
L1
BLU
BLU
X2M
1
2
3
HR2
HR1
MRM20
PCB1
BLK
BLK
BLK
BLK
BLK
BLK
S-A
S-B
HL1 FU3
BLK
BLK
GRY
GRY
ROOM B
1
2
3
RED
GRN/YLW
WHT
BLK
ROOM A
L1R
BRN
X1M
1
2
3
YLW
BLK
WHT
1
2
3
W V
FIELD WIRING
U
M
3~
M1C
C74, C75, C94
C95, C100
DB1, DB2
FU1, FU2, FU3
IC11
IPM1
L
L1
L1R
M1C
M1F
MRCW, MRM10,
MRM20
N
PCB1
Q1L
R1T~R8T
SA1
TFU
: CAPACITOR
: DIODE BRIDGE
: FUSE
: TRIAC
: INTELLIGENT POWER MODULE
: LIVE
: COIL
: REACTOR
: COMPRESSOR MOTOR
V1,V3,V4
X1M, X2M
Y1E, Y2E
Y1R
Z1C
: FAN MOTOR
: MAGNETIC RELAY
: NEUTRAL
: PRINTED CIRCUIT BOARD
: OVERLOAD PROTECTOR
: THERMISTOR
: SURGE ARRESTER
: THERMAL FUSE
: VARISTOR
: TERMINAL STRIP
: ELECTRONIC EXPANSION VALVE COIL
: REVERSING SOLENOID VALVE COIL
: FERRITE CORE
: PROTECTIVE EARTH
BLK : BLACK
BLU : BLUE
BRN : BROWN
GRY : GREY
ORG : ORANGE
RED : RED
WHT : WHITE
YLW : YELLOW
GRN : GREEN
S20, S21, S40,
S70, S80, S45,
S90, S91, S92,
: CONNECTOR
X11A
3D055486D
2MXS50GV1B, 2MXS50G2V1B
L1R
IPM1
DB1
~ +
MRM10
+
V3
Z3C
N=3 E
FU1
3.15A
SA1
C74
+ C94 C95
− + + FU2
− − 3.15A
C75
+
−
DB2
~ +
~ −
HN1
~ −
V1
−
Z4C W V U
N=3
E2
WHT
YLW
ORG
BLU
BRN
RED
BLU
BLU
t°
M
M
Y1R
t°
S80
1
3
t°
MRCW
S90
6
1
t°
R5T R6T
R7T R8T
Y1E
(ROOM-A) (ROOM-A)
(ROOM-B) (ROOM-B) (ROOM-A)
(LIQUID PIPE) (GAS PIPE)
Y2E
(ROOM-B)
t°
S70
1
S40
7 2 1
RED
WHT
YLW
ORG
BLU
BRN
RED
t°
S21 RED
6
WHT
ORG
BRN
BLU
1
Appendix
: CAPACITOR
: DIODE BRIDGE
: FUSE
: INTELLIGENT POWER MODULE
: LIVE
: COIL
: REACTOR
: COMPRESSOR MOTOR
Z1C
N=7
t°
M
1~
R1T R2T R3T
(OUTDOOR) (DISCHARGE) M1F
(CONDENSER)
X11A
Q1L
U
W V
M
3~
M1C
FIELD WIRING
C74, C75, C94
C95
DB1, DB2
FU1, FU2, FU3
IPM1
L
L1
L1R
M1C
W V U
BLU
outdoor
S20 WHT
6
1
BLK
BLK
GRY
GRY
TFU
102°C
YLW
YLW
S91 WHT
1
4
BLK
BLK
GRY
GRY
POWER
SUPPLY
1 S92 RED
3 1
4
S45
GRN/YLW
GRN
L
N
BLK
BLK
BLK
BLK
BLK
BLK
L
N
RED
V4
30A
YLW
BLK
WHT
X2M
1
2
3
HR1 HR2
MRM20
L1
YLW
GRN/YLW
WHT
BLK
ROOM B
1
2
3
PCB1
S-A
Z2C S-B
N=3 HL1 FU3
BLU
YLW
RED
RED
ROOM A
BLK
BLK
X1M
1
2
3
ORG
1
2
3
BRN
indoor
M1F
MRCW, MRM10,
MRM20
N
PCB1
Q1L
R1T~R8T
SA1
TFU
: FAN MOTOR
: MAGNETIC RELAY
: NEUTRAL
: PRINTED CIRCUIT BOARD
: OVERLOAD PROTECTOR
: THERMISTOR
: SURGE ARRESTER
: THERMAL FUSE
V1, V3, V4
X1M, X2M
Y1E, Y2E
Y1R
Z1C, Z2C, Z3C
Z4C
S20, S21, S40,
S70, S80, S45,
S90, S91, S92,
X11A
: VARISTOR
: TERMINAL STRIP
: ELECTRONIC EXPANSION VALVE COIL
: REVERSING SOLENOID VALVE COIL
: FERRITE CORE
: PROTECTIVE EARTH
: CONNECTOR
BLK
BLU
BRN
GRY
ORG
RED
WHT
YLW
GRN
: BLACK
: BLUE
: BROWN
: GREY
: ORANGE
: RED
: WHITE
: YELLOW
: GREEN
3D057045D
328
Revision History
Month / Year
Version
Revised contents
04/2008
SiBE12-816
–
06/2010
SiBE12-816_A
Addition of the wall mounted type FTXG-JV1BW(S), CTXG-JV1BW(S)
11/2010
SiBE12-816_B
M-10013: Correction of troubleshooting flowchart AF for SkyAir models
01/2011
SiBE12-816_C
Correction of data
02/2011
SiBE12-816_D
Addition of the wall mounted type FTXS-J2V1B for cooling only model
Warning
z Daikin products are manufactured for export to numerous countries throughout the world. Prior to
purchase, please confirm with your local authorised importer, distributor and/or retailer whether this
product conforms to the applicable standards, and is suitable for use, in the region where the product
will be used. This statement does not purport to exclude, restrict or modify the application of any local
legislation.
z Ask a qualified installer or contractor to install this product. Do not try to install the product yourself.
Improper installation can result in water or refrigerant leakage, electrical shock, fire or explosion.
z Use only those parts and accessories supplied or specified by Daikin. Ask a qualified installer or
contractor to install those parts and accessories. Use of unauthorised parts and accessories or
improper installation of parts and accessories can result in water or refrigerant leakage, electrical
shock, fire or explosion.
z Read the User's Manual carefully before using this product. The User's Manual provides important
safety instructions and warnings. Be sure to follow these instructions and warnings.
If you have any enquiries, please contact your local importer, distributor and/or retailer.
Cautions on product corrosion
1. Air conditioners should not be installed in areas where corrosive gases, such as acid gas or alkaline gas, are produced.
2. If the outdoor unit is to be installed close to the sea shore, direct exposure to the sea breeze should be avoided. If you need to install
the outdoor unit close to the sea shore, contact your local distributor.
Organization:
DAIKIN INDUSTRIES, LTD.
AIR CONDITIONING MANUFACTURING DIVISION
JMI-0107
Scope of Registration:
THE DESIGN/DEVELOPMENT AND MANUFACTURE OF
COMMERCIAL AIR CONDITIONING, HEATING, COOLING,
REFRIGERATING EQUIPMENT, COMMERCIAL HEATING
EQUIPMENT, RESIDENTIAL AIR CONDITIONING
EQUIPMENT, HEAT RECLAIM VENTILATION, AIR
CLEANING EQUIPMENT, MARINE TYPE CONTAINER
REFRIGERATION UNITS, COMPRESSORS AND VALVES.
Organization:
DAIKIN INDUSTRIES
(THAILAND) LTD.
JQA-1452
All of the Daikin Group’s business
facilities and subsidiaries in Japan
are certified under the ISO 14001
international standard for
environment management.
Scope of Registration:
THE DESIGN/DEVELOPMENT
AND MANUFACTURE OF AIR
CONDITIONERS AND THE
COMPONENTS INCLUDING
COMPRESSORS USED FOR THEM
Dealer
Head Office:
Umeda Center Bldg., 2-4-12, Nakazaki-Nishi,
Kita-ku, Osaka, 530-8323 Japan
Tokyo Office:
JR Shinagawa East Bldg., 2-18-1, Konan,
Minato-ku, Tokyo, 108-0075 Japan
http://www.daikin.com/global_ac/
c All rights reserved
zSpecifications, designs and other content appearing in this brochure are current as of February 2011 but subject to change without notice.
SiBE12-816_D
Printed in Japan 02/2011 B AK
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