Manual de Instrucciones Baja Silueta Inverter

Rev. 28AGO17
Manual de Instrucciones
Baja Silueta Inverter
Lea atentamente todo este manual
antes de utilizar su nuevo equipo de aire acondicionado.
Modelos: (DC Series)
BSBSI36CTM
BSBSI48CTM
BSBSI60CTM
IMPRESO EN
PAPEL ECOLÓGICO
Part 1 General Information ........................................................................................... 1
Part 2 Indoor Units ........................................................................................................ 7
Part 3 Outdoor Units ................................................................................................... 22
Part 4 Installation ........................................................................................................ 33
Part 5 Electrical Control System................................................................................ 53
※The specifications, designs, and information in this book are subject to change without notice for
product improvement.
ii
General Information
Part 1
General Information
1. Model Lists .................................................................................................2
2. External Appearance ..................................................................................3
2.1 Indoor Units .......................................................................................... 3
2.2 Outdoor Units ....................................................................................... 4
3. Nomenclature ............................................................................................. 5
4. Features ......................................................................................................6
General Information
1
Model Lists
1. Model Lists
1.1 Indoor Units
R410A
Capacity multiplied by 1000Btu/h
Type
High
duct
Function
static
pressure
12
18
Cooling and heating
24
30
36
48
60
●
●
●
1.2 Outdoor Units
2
Universal Outdoor unit Model
Compressor type
Compressor Brand
Matched indoor units
BSBSIC36CTM
Rotary DC Inverter
GMCC
BSBSIE36CTM
BSBSIC48CTM
Rotary DC Inverter
GMCC
BSBSIE48CTM
BSBSIC60CTM
Rotary DC Inverter
GMCC
BSBSIE60CTM
General Information
External Appearance
2. External Appearance
2.1 Indoor Units
Duct
General Information
3
External Appearance
2.2 Outdoor Units
Single fan outdoor unit
4
Double fan outdoor unit
General Information
Nomenclature
3. Nomenclature
3.1 Indoor Unit
3.2 Outdoor Unit
General Information
B M BS I E 24 C T M
B M BS I C 24 C T M
5
Features
4. Features
4.1 Universal outdoor unit design
Indoor unit with the same capacity can match with the same outdoor unit.
4.2 High efficiency and energy saving.
Thanks to the DC inverter technology and optimized piping system, the EER and COP of whole
series can easily reach A-class.
4.3 Full range of products from 12K to 60K, including Med duct(A5), cassette, console, ceiling and floor,
more choice for you
4.4 Low ambient kit is standard for outdoor units (except 12K)
4.5 Network control function is standard for the indoor units (except 12K)
4.6 Standard auto restart function and follow me function
4.7 Cassette, ceiling & floor, console and compact cassette with standard remote controller, wire controller
and CCM for optional. Med Duct with standard wired controller, remote controller and CCM for
optional.
4.8 Standard anti-cold air function
4.9 Standard auto defrosting function
4.10 Standard self-diagnose function.
4.11 Standard timer function and sleep mode function controlled by controller.
6
General Information
¡Error! No hay texto con el estilo especificado en el documento.
Part 2
Indoor Units
Duct Type
1. Features .........................................................................................................8
2. Dimensions ................................................................................................. 11
3. Service Space.............................................................................................. 12
4. Wiring Diagrams ......................................................................................... 13
5. Static Pressure ............................................................................................ 14
6. Electric Characteristics .............................................................................. 16
7. Sound Levels............................................................................................... 17
8. Accessories ................................................................................................. 18
9. The Specification of Power ........................................................................ 19
10. Field Wiring ............................................................................................... 20
¡Error! No hay texto con el estilo especificado en el documento.
7
Features
1. Features
1.1 Installation accessories: (Optional)

Front Board, Canvas Air Passage, Filter, Panel, for easy installation
Front Board
Canvas Air Passage
Filter (Standard)
Panel (Standard)
1.2 Easy Installation: Two air inlet styles (Bottom side or Rear side)


Air inlet from rear is standard for all capacity; air inlet from bottom is optional.
The size of air inlet frame from rear and bottom is same, it’s very easy to move the cover from bottom to
rear side, or from rear to the bottom, in order to matching the installation condition.
Air intake from rear (Standard)
Air intake from bottom (Optional)
1.3 Easy maintenance

Clean the filter (Optional, standard product without filter)
It is easy to draw out the filter from the indoor unit for cleaning, even the filter is installed in rear side or
bottom side.

Replace the motor or centrifugal fan
Remove the ventilated panel firstly. Remove a half of blower housing and take out the motor with
centrifugal fan. Directly remove two bolts, and then replace the motor or centrifugal fan easily.
8
Duct Type
Features
Motor
Blower Housing
Ventilated Panel
1.4 Reserved remote on-off and central control ports

Reserved remote on-off ports and central control ports, can connect the cable of an on-off controller or a
central controller to realize remote on-off control function or group control function.
Remote on-off ports
Central control ports
1.5 Built-in drain pump (Optional):
Built-in drain pump can lift the water to 750mm upmost. It’s convenient to install drainage piping under
most space condition.
750mm upmost

9
Features
1.6 Built-in display board



The standard indoor unit can be controlled by wired controller.
There is a display board with a receiver in the E-box. Move out the display, and fix it in other place, even
in the distance of 10m. The unit will realized remoter control.
The wired controller and the display board can display the error code or production code when the chips
detect some failure.
Wired Controller (Optional)
Remote Controller (Standard)
Display
10
Duct Type
Dimensions
2. Dimensions
air inlet from rear side
J
Air filter (Standard )
I
L
4-install hanger
B
A
Liquid side
M
Test mouth & Test cover
25 Drain pipe
C
Gas side
25 Drain pipe
D
W1
W2
H2
H1
25 Drain connecting pipe
( for pump )
Fresh air intake
Electric control box
F
H
G
E
K
Air filter ( optional )
air inlet from bottom side
U nit: mm
Air outlet opening size
A
B
C
D
E
F
G
H
I
J
K
L
M
H1
H2
W1
W2
18K
920
210
635
570
65
713
35
119
815
200
80
960
350
120
143
95
150
24K
920
270
635
570
65
713
35
179
815
260
20
960
350
120
143
95
150
36K
1140
270
775
710
65
933
35
179
1035
260
20
1240
500
120
143
95
150
48K/60K
1200
300
865
800
80
968
40
204
1094
288
45
1240
500
175
198
155
210
Model(Btu/h)
Air return opening size
Size of install
hanger
Outline dimension(mm)
Size of refrigerant pipe
11
Service Space
3. Service Space
Ensure enough space required for installation and maintenance.
12
Duct Type
Wiring Diagrams
4. Wiring Diagrams
BSBSIE36CTM BSBSIE48CTM BSBSIE60CTM
13
Static Pressure
5. Static Pressure
36K
2500
Air flow rate (m3/h)
2000
1500
1000
500
0
0
10
20
30
40
50
60
70
80
90
100
110
120
130
90
100
110
120
130
External static pressure (Pa)
48K
3000
Air flow rate (m3/h)
2500
2000
1500
1000
500
0
0
10
20
30
40
50
60
70
80
External static pressure (Pa)
14
Duct Type
Static Pressure
60K
3000
Air flow rate (m3/h)
2500
2000
1500
1000
500
0
0
10
20
30
40
50
60
70
80
90
100
110
120
130
External static pressure (Pa)
15
Electric Characteristics
6. Electric Characteristics
Model
16
Indoor Unit
Hz
Voltage
Min.
Max.
BSBSIE36CTM
50
220-240
198
254
BSBSIE48CTM
50
220-240
198
254
BSBSIE60CTM
50
220-240
198
254
Duct Type
Sound Levels
7. Sound Levels
Concealed Duct Type
Discharge
Suction
Duct
Duct
1.4m
Microphone
Model
Noise level dB(A)
H
M
L
BSBSIE36CTM
48
44
38
BSBSIE48CTM
48
42
39
BSBSIE60CTM
49
44
42
17
Accessories
8. Accessories
Name
Shape
Quantity
Soundproof / insulation sheath
2
Binding tape
1
Seal sponge
1
Drain joint
1
Seal ring
1
Wired controller
1
Owner s manual
1
Installation manual
1
Tubing & Fittings
Drainpipe Fittings
(for cooling & heating)
Wired controller & Its Frame
,
Others
18
Duct Type
The Specification of Power
9. The Specification of Power
Model
INDOOR
UNIT
POWER
36000Btu/h
Phase
Frequency and
Voltage
CIRCUIT BREAKER
/FUSE (A)
Phase
OUTDOOR
UNIT
POWER
Frequency and Voltage
CIRCUIT BREAKER /FUSE(A)
48000Btu/h
60000Btu/h
1-phase
1-phase
1-phase
220-240V, 50Hz
220-240V, 50Hz
220-240V, 50Hz
15/10
15/10
15/10
3-phase
3-phase
3-phase
380-415V, 50Hz
380-415V, 50Hz
30/20
30/25
380-415V, 50Hz
30/25
Outdoor unit power wiring
3×2.5
5×2.5
5×2.5
Strong electric signal
4×1.0
4×1.0
4×1.0
Weak electric signal
19
Field Wiring
10. Field Wiring
20
Duct Type
Outdoor Units
Part 3
Outdoor Units
1. Dimensions ....................................................................................... 23
2. Service Space ................................................................................... 26
3. Piping Diagrams ............................................................................... 27
4. Wiring Diagrams ............................................................................... 28
5. Electric Characteristics .................................................................... 30
6. Operation Limits ............................................................................... 31
7. Sound Levels .................................................................................... 32
21
Outdoor Units
Dimensions
1. Dimensions
W1
W
H
A
B
D
Model
Unit:mm
W
D
H
W1
A
B
BSBSIC36CTM
946
410
810
1030
673
403
BSBSIC48CTM
946
410
810
1030
673
403
Outdoor Units
22
Dimensions
Model
BSBSIC60CTM
23
Unit:mm
W
D
H
W1
A
B
952
415
1333
1045
634
404
Outdoor Units
Service Space
2. Service Space
(Wall or obstacle)
Air inlet
More than 30cm
Air inlet
More than 60cm
Maintain channel
More than 60cm
Air outlet
24
More than 30cm
More than 200cm
Outdoor Units
Piping Diagrams
3. Piping Diagrams
BSBSIC36CTM
BSBSIC48CTM
BSBSIC60CTM
INDOOR
OUTDOOR
LIQUID SIDE
Throttle orifice
2-WAY VALVE
HEAT
EXCHANGE
(EVAPORATOR)
T3 Condenser
temp. sensor
T4 Ambient
temp. sensor
T1 Room temp.
sensor
HEAT
EXCHANGE
(CONDENSER)
T2 Evaporator
temp. sensor
GAS SIDE
3-WAY VALVE
4-WAY VALVE
High pressure
switch
T5 Discharge
temp. sensor
Accumulator
Low pressure
switch
Compressor
COOLING
HEATING
Outdoor Units
27
Wiring Diagrams
4. Wiring Diagrams
BSBSIC36CTM BSBSI48CTM
BSBSIC60CTM
28
Outdoor Units
Electric Characteristics
5. Electric Characteristics
Model
Power Supply
Hz
Voltage
Min.
Max.
MFA
BSBSIC36CTM
50
380-415V
342V
440V
20
BSBSIC48CTM
50
380-415V
342V
440V
25
50
380-415V
342V
440V
25
BSBSIC60CTM
Notes:
MFA: Max. Fuse Amps. (A)
29
Outdoor Units
Outdoor Units
Operation Limits
6. Operation Limits
Mode
Temperature
Room temperature
Cooling operation
Heating operation
Drying operation
17℃~32℃
0℃~30℃
17℃~32℃
-15℃~24℃
0℃~50℃
0℃~50℃
Outdoor temperature
(-15℃~50℃:For
the models with low
temperature cooling
system)
CAUTION:
1. If the air conditioner is used beyond the above conditions, certain safety protection features may
come into operation and cause the unit to operate abnormally.
2. The room relative humidity should be less than 80%. If the air conditioner operates beyond this figure,
the surface of the air conditioner may attract condensation. Please set the vertical air flow louver to its
maximum angle (vertically to the floor), and set HIGH fan mode.
3. The optimum performance will be achieved during this operating temperature zone.
Outdoor Units
30
Sound Levels
7. Sound Levels
Outdoor Unit
Microphone
H
1.0m
Note: H= 0.5 × height of outdoor unit
Model
31
Noise level
dB(A)
H
BSBSIC36CTM
62
BSBSIC48CTM
65
BSBSIC60CTM
66
Outdoor Units
Installation
Part 4
Installation
1. Installation Procedure........................................................................ 34
2. Location selection .............................................................................. 35
3. Indoor unit installation.......................................................................36
4. Outdoor unit installation (Side Discharge Unit) .............................. 39
5. Refrigerant pipe installation .............................................................. 40
6. Drainage pipe installation.................................................................. 44
7. Vacuum Drying and Leakage Checking ........................................... 48
8. Additional refrigerant charge ............................................................ 49
9. Engineering of insulation .................................................................. 50
10.Engineering of electrical wiring ........................................................ 51
11. Test operation ..................................................................................... 52
Installation
33
Installation Procedure
1. Installation Procedure
Indoor unit installation
location selection
Outdoor unit installation
location selection
Indoor unit installation
Outdoor unit installation
Refrigerant pipe
installation and insulation
Drainage pipe installation
and insulation
Refrigerant pipe
installation and insulation
Drainage pipe installation
and insulation
Vacuum drying and leakage checking
Additional refrigerant charge
Insulation the joint part of refrigerant pipe
Wiring connection and electric safety checking
Test operation
34
Installation
Installation
2. Location selection
2.1 Indoor unit location selection













The place shall easily support the indoor unit’s weight.
The place can ensure the indoor unit installation and inspection.
The place can ensure the indoor unit horizontally installed.
The place shall allow easy water drainage.
The place shall easily connect with the outdoor unit.
The place where air circulation in the room should be good.
There should not be any heat source or steam near the unit.
There should not be any oil gas near the unit
There should not be any corrosive gas near the unit
There should not be any salty air neat the unit
There should not be strong electromagnetic wave near the unit
There should not be inflammable materials or gas near the unit
There should not be strong voltage vibration.
2.2 Outdoor unit location selection
The place shall easily support the outdoor unit’s weight.
Locate the outdoor unit as close to indoor unit as possible
The piping length and height drop can not exceed the allowable value.
The place where the noise, vibration and outlet air do not disturb the neighbors.
There is enough room for installation and maintenance.
The air outlet and the air inlet are not impeded, and not face the strong wind.
It is easy to install the connecting pipes and cables.
There is no danger of fire due to leakage of inflammable gas.
It should be a dry and well ventilation place
The support should be flat and horizontal
Do not install the outdoor unit in a dirty or severely polluted place, so as to avoid blockage of the heat
exchanger in the outdoor unit.
 If is built over the unit to prevent direct sunlight, rain exposure, direct strong wend, snow and other scraps
accumulation, make sure that heat radiation from the condenser is not restricted.











More than 30cm
More than 30cm
More than 60cm
(Service space)
Fe
n
ob ce o
sta r
cle
s
More than 60cm
More than 200cm
Installation
35
Location selection
Indoor unit installation
3.1 A5 duct indoor unit installation
3
3.3.1 Service space for indoor unit
3.3.2 Bolt pitch
Capacity (KBtu)
Size of outline dimension mounted plug
L
M
36
1240
500
48/60
1240
500
3.3.3 Install the pendant bolt
Select the position of installation hooks according to the hook holes positions showed in upper picture.
36
Installation
Installation
Drill four holes of Ø12mm, 45~50mm deep at the selected positions on the ceiling. Then embed the
expansible hooks (fittings).
3.3.4 Install the main body
Make the 4 suspender through the 4 hanger of the main body to suspend it. Adjust the hexangular nuts on
the four installation hooks evenly, to ensure the balance of the body. Use a leveling instrument to make sure
the levelness of the main body is within ±1°.
3.3.5 Install the air filter
Insert the air filter through the filter slot and fix it with 2 screws.
3.3.6 Install the air duct
Please design the air duct as below recommended picture
Installation
37
Location selection
3.3.7 Change the air inlet direction
① Take off ventilation panel and flange, cut off the staples at side rail.
② Stick the attached seal sponge as per the indicating place in the following fig, and then change the
mounting positions of air return panel and air return flange .
③ When install the filter mesh, please plug it into flange inclined from air return opening, and then push up.
④ The installation has finish, upon filter mesh which fixing blocks have been insert to the flange positional
holes.
38
Installation
Installation
3. Outdoor unit installation (Side Discharge Unit)
4.1 Service space for outdoor unit
(Wall or obstacle)
Air inlet
More than 30cm
More than 30cm
More than 60cm
Maintain channel
Air inlet
More than 60cm
Air outlet
More than 200cm
4.2 Bolt pitch
A
B
D
Model
A
B
D
36
48
60
673
673
634
403
403
404
410
410
415
4.3 Install the Unit
Since the gravity center of the unit is not at its physical center, so please be careful when lifting it with a sling.
Never hold the inlet of the outdoor unit to prevent it from deforming.
Do not touch the fan with hands or other objects.
Do not lean it more than 45, and do not lay it sidelong.
Make concrete foundation according to the specifications of the outdoor units.
Fasten the feet of this unit with bolts firmly to prevent it from collapsing in case of earthquake or strong wind.
Installation
39
Refrigerant pipe installation
4. Refrigerant pipe installation
5.1 Maximum pipe length and height drop
Considering the allowable pipe length and height drop to decide the installation position. Make sure the
distance and height drop between indoor and outdoor unit not exceeded the date in the following table.
Model
30.000 Btu/h~36.000 Btu/h
Max. Length
30m
Max. Elevation
20m
42.000Btu/h ~60.000Btu/h
50m
30m
5.2 The procedure of connecting pipes
90
o
5.2.1 Choose the pipe size according to the specification table.
5.2.2 Confirm the cross way of the pipes.
5.2.3 Measure the necessary pipe length.
5.2.4 Cut the selected pipe with pipe cutter
 Make the section flat and smooth.
Lean
Crude
Burr
5.2.5 Insulate the copper pipe
 Before test operation, the joint parts should not be heat insulated.
5.2.6 Flare the pipe
 Insert a flare nut into the pipe before flaring the pipe
 According to the following table to flare the pipe
40
Installation
Installation
Pipe diameter
Flare dimension A (mm)
Min
Max
1/4" (6.35)
8.3
8.7
3/8" (9.52)
12.0
12.4
1/2" (12.7)
15.4
15.8
5/8" (15.9)
18.6
19.1
3/4" (19)
22.9
23.3
Flare shape
+- 4
90°
A
45¡
ã
R0.4~0.8
After flared the pipe, the opening part must be seal by end cover or adhesive tape to avoid duct or
exogenous impurity come into the pipe.
5.2.7 Drill holes if the pipes need to pass the wall.
5.2.8 According to the field condition to bend the pipes so that it can pass the wall smoothly.
5.2.9 Bind and wrap the wire together with the insulated pipe if necessary.
5.2.10 Set the wall conduit
5.2.11 Set the supporter for the pipe.
5.2.12 Locate the pipe and fix it by supporter
 For horizontal refrigerant pipe, the distance between supporters should not be exceed 1m.
 For vertical refrigerant pipe, the distance between supporters should not be exceed 1.5m.
5.2.13 Connect the pipe to indoor unit and outdoor unit by using two spanners.
 Be sure to use two spanners and proper torque to fasten the nut, too large torque will damage the
bellmouthing, and too small torque may cause leakage. Refer the following table for different pipe
connection.

Pipe Diameter
Torque
Sketch map
(kgf.cm)
(N.cm)
1/4" (6.35)
144~176
1420~1720
3/8" (9.52)
333~407
3270~3990
1/2" (12.7)
504~616
4950~6030
5/8" (15.9)
630~770
6180~7540
3/4" (19)
990~1210
9270~11860
5.3 For Units with Twins Function
5.3.1 Length and drop height permitted of the refrigerant piping
Note: Reduced length of the branching tube is the 0.5m of the equivalent length of the pipe.
Installation
41
Refrigerant pipe installation
Drop
Height
Pipe
Length
Note: All used branch pipe must be produced by Midea, otherwise it causes malfunction.
The indoor units should be installed equivalently at the both side of the U type branch
pipe.
Total pipe length (Actual)
Max. branch pipe length
Max. branch pipe length difference
Max. height difference between
indoor unit and outdoor unit
Max. height difference between
indoor units
Permitted Value
18K+18K
30m
24K+24K
50m
30K+30K
50m
15m
10m
Piping
L+L1+L2
L1, L2
L1-L2
20m
H1
0.5m
H2
5.3.2 Size of joint pipes for indoor unit (R410a)
5.3.3 Size of joint pipes for outdoor unit (R410a)
5.3.4 The branching pipe must be installed horizontally, error angle of it should not large than 10°. Otherwise,
malfunction will be caused.
42
Installation
Installation
Installation
43
Drainage pipe installation
5. Drainage pipe installation
Install the drainage pipe as shown below and take measures against condensation. Improperly installation
could lead to leakage and eventually wet furniture and belongings.
6.1 Installation principle



Ensure at least 1/100 slope of the drainage pipe
Adopt suitable pipe diameter
Adopt nearby condensate water discharge
6.2 Key points of drainage water pipe installation
6.2.1 Considering the pipeline route and elevation
 Before installing condensate water pipeline, determine its route and elevation to avoid intersection with
other pipelines and ensure slope is straight.
6.2.2 Drainage pipe selection
 The drainage pipe diameter shall not small than the drain hose of indoor unit
 According to the water flowrate and drainage pipe slope to choose the suitable pipe, the water flowrate
is decided by the capacity of indoor unit.
Relationship between water flowrate and capacity of indoor unit
Capacity (x1000Btu)
Water flowrate (l/h)
12
2.4
18
4
24
6
30
7
36
8
42
10
48
12
60
14
According to the above table to calculate the total water flowrate for the confluence pipe selection.
For horizontal drainage pipe (The following table is for reference)
PVC pipe
Reference value of inner
diameter of pipe (mm)
PVC25
Allowable maximum water flowrate (l/h)
Slope 1/50
Slope 1/100
20
39
27
PVC32
25
70
50
PVC40
31
125
88
PVC50
40
247
175
PVC63
51
473
334
Remark
For branch pipe
Could be used for confluence pipe
Attention: Adopt PVC40 or bigger pipe to be the main pipe.
For Vertical drainage pipe (The following table is for reference)
PVC25
Reference value of inner
diameter of pipe (mm)
20
PVC32
25
PVC40
31
730
PVC50
40
1440
PVC63
51
2760
PVC75
67
5710
PVC90
77
8280
PVC pipe
Allowable maximum water flowrate (l/h)
220
410
Remark
For branch pipe
Could be used for confluence pipe
Attention: Adopt PVC40 or bigger pipe to be the main pipe.
44
Installation
Installation
6.2.3 Individual design of drainage pipe system
 The drainage pipe of air conditioner shall be installed separately with other sewage pipe, rainwater pipe
and drainage pipe in building.
 The drainage pipe of the indoor unit with water pump should be apart from the one without water pump.
6.2.4 Supporter gap of drainage pipe
 In general, the supporter gap of the drainage pipe horizontal pipe and vertical pipe is respectively
1m~1.5m and 1.5m~2.0m.
 Each vertical pipe shall be equipped with not less than two hangers.
 Overlarge hanger gap for horizontal pipe shall create bending, thus leading to air block.
Too long distance
Gas bag
6.2.5 The horizontal pipe layout should avoid converse flow or bad flow
Drainage pipe
Drainage pipe
Water flow
Water flow
Water flow
Drain tee
Drain tee
Water flow
Water flow
Water flow
Gas
Gas
Water flow
Keep a certain degree
Water flow
Water flow
Water flow
Water flow
Branch pipe
Drain tee
Drainage pipe
Main pipe
Main pipe
Branch pipe
The correct installation will not cause converse water flow and the slope of the branch pipes can be
adjusted freely
 The false installation will cause converse water flow and the slope of the branch pipe can not be
adjusted.
6.2.6 Water storage pipe setting
 If the indoor unit has high extra static pressure and without water pump to elevate the condensate water,
such as high extra static pressure duct unit , the water storage pipe should be set to avoid converse flow
or blow water phenomena.

Installation
45
Drainage pipe installation
Indoor unit
More than 50mm
Plug
More than 25mm
Water storage pipe
6.2.7 Lifting pipe setting of indoor unit with water pump
 The length of lifting pipe should not exceed the pump head of indoor unit water pump.
Pump head of big four way cassette: 750mm
Pump head of compact four way cassette: 500mm
 The drainage pipe should be set down inclined after the lifting pipe immediately to avoid wrong
operation of water level switch.
 Refer the following picture for installation reference.
Hanger
A
B
Down incline pipe
A:Length of horizontal pipe≤150mm
B: Lift height≤the pump head of water pump
Flexible pipe 300mm
6.2.8 Blowhole setting
 For the concentrated drainage pipe system, there should design a blowhole at the highest point of main
pipe to ensure the condensate water discharge smoothly.
 The air outlet shall face down to prevent dirt entering pipe.
 Each indoor unit of the system should be installed it.
 The installation should be considering the convenience for future cleaning.
Blowhole
Indoor unit
Plug
Indoor unit
Plug
6.2.9 The end of drainage pipe shall not contact with ground directly.
46
Installation
Installation
6.3 Drainage test
6.3.1 Water leakage test
After finishing the construction of drainage pipe system, fill the pipe with water and keep it for 24 hours to
check whether there is leakage at joint section.
6.3.2 Water discharge test
1. Natural drainage mode(the indoor unit with outdoor drainage pump)
Infuse above 600ml water through water test hole slowly into the water collector, observe whether the
water can discharge through the transparent hard pipe at drainage outlet.
2. Pump drainage mode
2.1 Disconnect the plug of water level switch, remove the cover of water test hole and slowly infuse about
2000ml water through the water test hole, be sure that the water will not touch the motor of drainage
pump.
2.2 Power on and let the air conditioner operate for cooling. Check operation status of drainage pump, and
then connect the plug of water level switch, check the operation sound of water pump and observe
whether the water can discharge through the transparent hard pipe at drainage outlet. (In light of the
length of drainage pipe, water shall be discharged about 1 minute delayed)
2.3 Stop the operation of air conditioner, power off the power supply and put the cover of water test hole
back to the original place.
a. After stopped the air conditioner 3 minutes, check whether there is anything abnormal. If drainage pipes
have not been distributed properly, over back-flow water shall cause the flashing of alarm indicator at
remote-controlled receiving board and even water shall run over the water collector.
b. Continuously infusing water until water level alarmed, check whether the drainage pump could
discharge water at once. If water level does not decline under warning water level 3 minutes later, it
shall cause shutdown of unit. When this situation happens, the normal startup only can be recovered by
turning down power supply and eliminating accumulated water.
Note: Drain plug at the main water-containing plate is used for eliminating accumulated water in
water-containing plate when maintaining air conditioner fault. During normal operation, the plug shall be
filled in to prevent leakage.
6.4 Insulation work of drainage pipe
Refer the introduction to the insulation engineering parts.
Installation
47
Vacuum Drying and Leakage Checking
6. Vacuum Drying and Leakage Checking
7.1 Purpose of vacuum drying


Eliminating moisture in system to prevent the phenomena of ice-blockage and copper oxidation.
Ice-blockage shall cause abnormal operation of system, while copper oxide shall damage compressor.
Eliminating the non-condensable gas (air) in system to prevent the components oxidizing, pressure
fluctuation and bad heat exchange during the operation of system.
7.2 Selection of vacuum pump


The ultimate vacuum degree of vacuum pump shall be -756mmHg or above.
Precision of vacuum pump shall reach 0.02mmHg or above.
7.3 Operation procedure for vacuum drying
Due to different construction environment, two kinds of vacuum drying ways could be chosen, namely
ordinary vacuum drying and special vacuum drying.
7.3.1 Ordinary vacuum drying
1. When conduct first vacuum drying, connect pressure gauge to the infusing mouth of gas pipe and liquid
pipe, and keep vacuum pump running for 1hour (vacuum degree of vacuum pump shall be reached
-755mmHg).
2 If the vacuum degree of vacuum pump could not reach -755mmHg after 1 hour of drying, it indicates
that there is moisture or leakage in pipeline system and need to go on with drying for half an hour.
3 If the vacuum degree of vacuum pump still could not reach -755mmHg after 1.5 hours of drying, check
whether there is leakage source.
4 Leakage test: After the vacuum degree reaches -755mmHg, stop vacuum drying and keep the pressure
for 1 hour. If the indicator of vacuum gauge does not go up, it is qualified. If going up, it indicates that
there is moisture or leak source.
7.3.2 Special vacuum drying
The special vacuum drying method shall be adopted when:
1. Finding moisture during flushing refrigerant pipe.
2. Conducting construction on rainy day, because rain water might penetrated into pipeline.
3. Construction period is long, and rain water might penetrated into pipeline.
4. Rain water might penetrate into pipeline during construction.
Procedures of special vacuum drying are as follows:
1. Vacuum drying for 1 hour.
2. Vacuum damage, filling nitrogen to reach 0.5Kgf/cm2 .
Because nitrogen is dry gas, vacuum damage could achieve the effect of vacuum drying, but this
method could not achieve drying thoroughly when there is too much moisture. Therefore, special
attention shall be drawn to prevent the entering of water and the formation of condensate water.
3. Vacuum drying again for half an hour.
If the pressure reached -755mmHg, start to pressure leakage test. If it can not reached the value,
repeat vacuum damage and vacuum drying again for 1 hour.
4 Leakage test: After the vacuum degree reaches -755mmHg, stop vacuum drying and keep the pressure
for 1 hour. If the indicator of vacuum gauge does not go up, it is qualified. If going up, it indicates that
there is moisture or leak source.
48
Installation
Installation
7. Additional refrigerant charge


After the vacuum drying process is carried out, the additional refrigerant charge process need to be
performed.
The outdoor unit is factory charged with refrigerant. The additional refrigerant charge volume is decided
by the diameter and length of the liquid pipe between indoor and outdoor unit. Refer the following
formula to calculate the charge volume.
Diameter of liquid pipe (mm)
Formula
Φ6.35
Φ9.52
Φ12.7
V=15g/m×(L-5)
V=30g/m×(L-5)
V=65g/m×(L-5)
V: Additional refrigerant charge volume (g).
L : The length of the liquid pipe (m).
Note:
 Refrigerant may only be charged after performed the vacuum drying process.
 Always use gloves and glasses to protect your hands and eyes during the charge work.
 Use electronic scale or fluid infusion apparatus to weight refrigerant to be recharged. Be sure to avoid
extra refrigerant charged, it may cause liquid hammer of the compressor or protections.
 Use supplementing flexible pipe to connect refrigerant cylinder, pressure gauge and outdoor unit. And
The refrigerant should be charged in liquid state. Before recharging, The air in the flexible pipe and
manifold gauge should be exhausted.
 After finished refrigerant recharge process, check whether there is refrigerant leakage at the connection
joint part.(Using gas leakage detector or soap water to detect).
Installation
49
Engineering of insulation
8. Engineering of insulation
9.1 Insulation of refrigerant pipe
9.1.1 Operational procedure of refrigerant pipe insulation
Cut the suitable pipe → insulation (except joint section) → flare the pipe → piping layout and connection→
vacuum drying → insulate the joint parts
9.1.2 Purpose of refrigerant pipe insulation
 During operation, temperature of gas pipe and liquid pipe shall be over-heating or over-cooling
extremely. Therefore, it is necessary to carry out insulation; otherwise it shall debase the performance
of unit and burn compressor.
 Gas pipe temperature is very low during cooling. If insulation is not enough, it shall form dew and cause
leakage.
 Temperature of gas pipe is very high (generally 50-100℃) during heating. Insulation work must be
carried out to prevent hurt by carelessness touching.
9.1.3 Insulation material selection for refrigerant pipe
 The burning performance should over 120℃
 According to the local law to choose insulation materials
 The thickness of insulation layer shall be above 10mm.If in hot or wet environment place, the layer of
insulation should be thicker accordingly.
9.1.4 Installation highlights of insulation construction
 Gas pipe and liquid pipe shall be insulated separately, if the gas pipe and liquid pipe were insulated
together; it will decrease the performance of air conditioner.
Liquid pipe





Insulation meterial
Gas pipe
The insulation material at the joint pipe shall be 5~10cm longer than the gap of the insulation material.
The insulation material at the joint pipe shall be inserted into the gap of the insulation material.
The insulation material at the joint pipe shall be banded to the gap pipe and liquid pipe tightly.
The linking part should be use glue to paste together
Be sure not bind the insulation material over-tight, it may extrude out the air in the material to cause bad
insulation and cause easy aging of the material.
9.2 Insulation of drainage pipe
9.2.1 Operational procedure of refrigerant pipe insulation
Select the suitable pipe → insulation (except joint section) → piping layout and connection→ drainage test→
insulate the joint parts
9.2.2 Purpose of drainage pipe insulation
The temperature of condensate drainage water is very low. If insulation is not enough, it shall form dew and
cause leakage to damage the house decoration.
50
Installation
Installation
9.2.3 Insulation material selection for drainage pipe
 The insulation material should be flame retardant material, the flame retardancy of the material should
be selected according to the local law.
 Thickness of insulation layer is usually above 10mm.
 Use specific glue to paste the seam of insulation material, and then bind with adhesive tape. The width
of tape shall not be less than 5cm. Make sure it is firm and avoid dew.
9.2.4 Installation and highlights of insulation construction
 The single pipe should be insulated before connecting to another pipe, the joint part should be insulated
after the drainage test.
 There should be no insulation gap between the insulation material.
9.
Engineering of electrical wiring
10.1 Highlights of electrical wiring installation











All field wiring construction should be finished by qualified electrician.
Air conditioning equipment should be grounded according to the local electrical regulations.
Current leakage protection switch should be installed.
Do not connect the power wire to the terminal of signal wire.
When power wire is parallel with signal wire, put wires to their own wire tube and remain at least 300mm
gap.
According to table in indoor part named “the specification of the power” to choose the wiring, make sure
the selected wiring not small than the date showing in the table.
Select different colors for different wire according to relevant regulations.
Do not use metal wire tube at the place with acid or alkali corrosion, adopt plastic wire tube to replace it.
There must be not wire connect joint in the wire tube If joint is a must, set a connection box at the place.
The wiring with different voltage should not be in one wire tube.
Ensure that the color of the wires of outdoor and the terminal No. are same as those of indoor unit
respectively.
Installation
51
Test operation
10. Test operation
11.1 The test operation must be carried out after the entire installation has been
completed.
11.2 Please confirm the following points before the test operation.










The indoor unit and outdoor unit are installed properly.
Tubing and wiring are correctly completed.
The refrigerant pipe system is leakage-checked.
The drainage is unimpeded.
The ground wiring is connected correctly.
The length of the tubing and the added stow capacity of the refrigerant have been recorded.
The power voltage fits the rated voltage of the air conditioner.
There is no obstacle at the outlet and inlet of the outdoor and indoor units.
The gas-side and liquid-side stop values are both opened.
The air conditioner is pre-heated by turning on the power.
11.3 Test operation
Set the air conditioner under the mode of "COOLING" by remote controller, and check the following points.
Indoor unit
 Whether the switch on the remote controller works well.
 Whether the buttons on the remote controller works well.
 Whether the air flow louver moves normally.
 Whether the room temperature is adjusted well.
 Whether the indicator lights normally.
 Whether the temporary buttons works well.
 Whether the drainage is normal.
 Whether there is vibration or abnormal noise during operation.
Outdoor unit
 Whether there is vibration or abnormal noise during operation.
 Whether the generated wind, noise, or condensed of by the air conditioner have influenced your
neighborhood.
 Whether any of the refrigerant is leaked.
52
Installation
Electrical Control System
Part 5
Electrical Control System
1. Electrical Control Function ...................................... 54
2. Troubleshooting ........................................................ 69
3. Controller ................................................................... 97
Electrical Control System
53
Electrical Control Function
1. Electrical Control Function
1.1 Definition
T1: Indoor room temperature
T2: Coil temperature of evaporator
T3: Coil temperature of condenser
T4: Outdoor ambient temperature
T5: Compressor discharge temperature
Ts: Setting Temperature
1.2 Main Protection
1.2.1 Time delay at restart for compressor. 1.2.2
Sensor protection at open circuit and
breaking disconnection.
1.2.3 Phase check function(for 3-phase models)
36~60K:
T5
Compressor off
If the phase sequence is detected wrong or lack of
1 or 2 phase, the unit won’t start and there is error
code displayed on outdoor PCB.
Frequency limit
Frequency holding
1.2.4 Temperature protection of compressor
discharge
Normal
When the compressor discharge temp. is getting
higher, the running frequency will be limited as
below rules:
18~24K:
1.2.5 Low pressure check function(for 36-60K
models)
The low pressure switch should be always closed. If
it is open, the system will stop until the fault is
cleared. Within 5 minutes after the compressor
starts and 4 minutes after defrosting ends, low
pressure switch won’t be checked.
Note: If this protection occurs 3 times within 20
minutes, it won’t recover automatically until the
main power is cut off.
54
Electrical Control System
Electrical Control Function
1.3 Operation Modes and Functions
1.3.1 Fan mode
(1) Outdoor fan and compressor stop.
(2) Temperature setting function is disabled, and no setting temperature is
displayed.
(3) Indoor fan can be set to high/(med)/low/auto.
(4) The louver operates same as in cooling mode.
(5) Auto fan:
T1
27.5
High
27
25.5
Medium
25
Low
T1-24
5.0
4.0
3.0
High
Medium
2.0
Low
1.3.2 Cooling Mode
1.3.2.1 Outdoor PMW open angle control
The unit is working in cooling mode with the EXV open 300P for 3 minutes, then adjusting PMW open angle
according to the temperature of compressor discharge every 2 minutes.
1.3.2.2 Outdoor fan running rules
High
27
25
20
Low
15
low temperature cooling
Electrical Control System
55
Electrical Control Function
Outdoor fan in low temperature cooling mode acts as follow:
T3
Exit low temperature
cooling mode, High
fan running for 1
minute
38
Low
30
Off
23
27
1.3.2.3 Indoor fan running rules
In cooling mode, indoor fan runs all the time and the speed can be selected as high, (medium), low and auto.
The auto fan:
T1-Ts Actual fan speed
Setting fan
T1-Td ℃(°F)
speed
H+(H+=H+G)
H(=H)
A
B
C
H
4
H-(H-=H-G)
3 M+(M+=M+Z)
D
E
F
M
M(M=M)
1.5M-(M-=M-Z)
High
Medium
1 L+(L+=L+D)
G
H
I
L
L(L=L)
L-(L-=L-D)
Low
The auto fan acts as below rules:
T1-Ts
High
Medium
Low
56
Electrical Control System
Electrical Control Function
1.3.2.4 Evaporator low temperature T2 protection.
When T2<2℃ and lasts for 3 minutes, the indoor has no capacity demand and resume till T2≥7℃.
T2
On
1.3.2.5 Condenser high temperature T3 protection
When T3≥65℃ for 3 seconds, the compressor will shut off. When T3 <52,the compressor will restart.
30~36K
T3
Off
Decrease
Hold
Resume
1.3.3 Heating Mode
1.3.2.1 Outdoor PMW open angle control
The unit is working in heating mode with the EXV open 300P for 3 minutes, then adjusting PMW open
angle according to the temperature of compressor discharge every 2 minutes.
1.3.3.2 Outdoor fan running rules:
Electrical Control System
57
Electrical Control Function
Frequency of
compressor operation
Frequency linkage area:
High
Low
36~60K:
T4
Low
High
1.3.3.3 Indoor fan running rules:
When the compressor is on, the indoor fan can be set to high/(med)/low/auto. And the anti-cold
wind function has the priority.
Setting fan
T1-Td℃
speed
Actual fan speed
H-(H-=H-G)
H
H(=H)
H+(H+=H+G)
M-(M-=M-Z)
M
M(M=M)
M+(M+=M+Z)
L-(L-=L-D)
L
L(L=L)
L+(L+=L+D)
Auto fan action:
T1-Ts
Low
Medium
High
58
Electrical Control System
Electrical Control Function
1.3.3.4 Defrosting mode:
AC will enter the defrosting mode according to the value of temp. of T3 and the value
range of temp. change of T3 and also the compressor running time.
Condition of ending defrosting:
If any one of the following items is satisfied, the defrosting will finish and the
machine will turn to normal heating mode.
----T3 rises to be higher than TCDE1℃.
----T3 keeps to be higher than TCDE2℃ for 80 seconds.
----The machine has run for 15 minutes(18~24K) or 10 minutes (36~60k) in defrosting
mode.

Defrosting action:
Compressor
on
off
4-way valve on
off
Outdoor fan on
Off
Indoor fan on
off
60
no longer than 10min
60s
10s
F8
F2
30s
breeze 10s
Electrical Control System
Electrical Control Function
For 18-36K(1-Phase) models:
Condition of defrosting:
T3≤TempEnterDefrost_ADD ℃ and lasts for 40 minutes.
Defrosting action:
4-Way valve
no longer than 10min
Compressor
Indoor fan
TimeA 10S
10S 30S
Outdoor fan
PMV running
6 mins with 300P
PMV
480P
Condition of ending defrosting:
If any one of following items is satisfied, defrosting will stop and the machine will turn to normal heating
mode.
① T3 > TempQuitDefrost_ADD ℃;
②The defrosting time achieves 10min.
For 48K(1-Phase)、36-60K(3-Phase) models:
Condition of defrosting:
Electrical Control System
61
Electrical Control Function
T4
Time1
3℃
Time2
Time conditions:
time1
Time conditions(Meet the following conditions)
1.Running in heating mode
2. T4≥3℃
3. Compressor is on
4. T3≤TempEnterDefrost_ADD ℃
Cleared conditions (Meet any one of the following conditions)
1. Compressor is off.
2. T3>TempEnterDefrost_ADD ℃
Time2
Time conditions (Meet the following conditions)
1.Running in heating mode
2. T4<3℃
3. Compressor is on
4. T3≤TempEnterDefrost_ADD ℃
Cleared conditions (Meet any one of the following conditions)
1. Compressor is off and T3>TempEnterDefrost_ADD +2℃ last for 20 minutes
2. Running in cooling mode.
3. Compressor is off for 1 hour.
Condition of entry defrosting:
time1+ time2≥40 minutes, When defrosting is end,time1 and time2 are cleared.
Defrosting action:
62
Electrical Control System
Electrical Control Function
4-Way valve
no longer than 10min
Compressor
Indoor fan
TimeA 10S
10S 30S
Outdoor fan
PMV running
8 mins with 300P
PMV
480P
Condition of ending defrosting:
If any one of following items is satisfied, defrosting will stop and the machine will turn to normal heating
mode.
① The defrosting time achieves 10min;
② T3 ≥15℃;
③ T3 ≥7℃ for 60seconds.
1.3.3.5 High evaporator coil temp.T2 protection:
T2>60℃, the compressor will stop and restart when T2<54℃.
1.3.4 Auto-mode
This mode can be chosen with remote controller and the setting temperature can be changed between
17~30℃.
In auto mode, the machine will choose cooling, heating or fan-only mode according to ΔT (ΔT =T1-Ts). For
12k models:
Electrical Control System
ΔT=T1-Ts
Running mode
ΔT>1℃
Cooling
-1<ΔT≤1℃
Fan-only
ΔT≤-1℃
Heating
63
Electrical Control Function
For other models:
ΔT=T1-Ts
Running mode
ΔT≥2℃
Cooling
-1≤ΔT<2℃
Fan-only
ΔT<-1℃
Heating
Indoor fan will run at auto fan of the relevant mode.
The louver operates same as in relevant mode.
If the machine switches mode between heating and cooling, the compressor will keep stopping for 15
minutes and then choose mode according to T1-Ts.
If the setting temperature is modified, the machine will choose running function again.
1.3.5 Drying mode
1.3.5.1
Indoor fan speed is fixed in low(for console, it is fixed in breeze) and can’t be changed. The louver
angle is the same as in cooling mode.
1.3.5.2 Low indoor room temperature protection
In drying mode, if room temperature is lower than 10℃, the compressor will stop and not resume until room
temperature exceeds 12℃.
1.3.5.3 Evaporator anti-freezing protection, condenser high temperature protection and outdoor unit
frequency limit are active and the same as that in cooling mode.
For other models:
Drying mode works the same as cooling mode in low speed.
All protections are active and the same as that in cooling mode.
1.3.6 Timer function
1.3.6.1 Timing range is 24 hours.
1.3.6.2 Timer on. The machine will turn on automatically when reaching the setting time.
1.3.6.3 Timer off. The machine will turn off automatically when reaching the setting time.
1.3.6.4 Timer on/off. The machine will turn on automatically when reaching the setting “on” time, and then
turn off automatically when reaching the setting “off” time.
1.3.6.5 Timer off/on. The machine will turn off automatically when reaching the setting “off” time, and
then turn on automatically when reaching the setting “on” time.
The timer function will not change the AC current operation mode. Suppose AC is off now, it will not start
up firstly after setting the “timer off” function. And when reaching the setting time, the timer LED will be off
and the AC running mode has not been changed.
64
Electrical Control System
Electrical Control Function
1.3.6.7 The setting time is relative time.
1.3.7 Economy function
1.3.7.1 The sleep function is available in cooling, heating or auto mode.
1.3.7.2. Operation process in sleep mode is as follow:
When cooling, the setting temperature rises 1℃ (be lower than 30℃) every one hour, 2 hours later the
setting temperature stops rising and the indoor fan is fixed at low speed.
When heating, the setting temperature decreases 1℃ (be higher than 17℃) every one hour, 2 hours later
the setting temperature stops rising and indoor fan is fixed at low speed. (Anti-cold wind function has the
priority).
1.3.7.3 Operation time in sleep mode is 7 hours. After 7 hours the AC quits this mode but doesn’t turns off
Electrical Control System
65
Electrical Control Function
1.3.7.4 Timer setting is available
1.3.8 Auto-Restart function
The indoor unit is equipped with auto-restart function, which is carried out through an auto-restart module. In
case of a sudden power failure, the module memorizes the setting conditions before the power failure. The
unit will resume the previous operation setting (not including Swing function) automatically after 3 minutes
when power returns.
1.3.9 Drain pump control
Adopt the water-level switch to control the action of drain pump.
Main action under different condition :( every 5 seconds the system will check the water level one time)
1. When the A/C operates with cooling (including auto cooling), dehumidifying, and forced cooling mode, the
pump will start running immediately and continuously, till stop cooling.
2. Once the water level increase and up to the control point, LED will alarm and the drain pump open and
continue checking the water level. If the water level fall down and LED disalarmed (drain pump delay close 1
minute) and operate with the last mode. Otherwise the entire system stop operating ( including the pump)
and LED remain alarming after 3 minutes,
1.3.10 Point Check Function(Except 12k models)
There is a check switch in outdoor PCB.
Press the switch SW1 to check the states of unit when the unit is running.
Press the switch N times it will display the content corresponding to No. N. After getting into the check
function, it will display No. N with 1.5s, meanwhile the low bit decimal of digit display flashing, indicated to
get into the check function display. After 1.5s, it will display the content corresponding to No. N.
the digital display tube will display the follow procedure when push SW1 each time.
N
66
Display
00
Normal display
01
Indoor unit capacity demand code
Remark
Display running frequency, running state or malfunction code
Actual data*HP*10
If capacity demand code is higher than 99, the digital display
tube will show single digit and tens digit. (For example, the
Electrical Control System
Electrical Control Function
digital display tube show “5.0”,it means the capacity demand
is 15. the digital display tube show “60”,it means the capacity
demand is 6.0)
02
04
Amendatory capacity demand code
The frequency after the capacity requirement
transfer
The frequency after the frequency limit
05
The frequency of sending to 341
06
Indoor unit evaporator outlet temp.(T2)
07
Condenser pipe temp.(T3)
08
Outdoor ambient temp.(T4)
09
Compressor discharge temp.(Tp)
10
AD value of current
11
AD value of voltage
12
Indoor unit running mode code
13
Outdoor unit running mode code
03
14
EXV open angle
15
Frequency limit symbol
16
DC fan motor speed
If the temp. is lower than 0 degree, the digital display tube will
show “0”.If the temp. is higher than 70 degree, the digital
display tube will show “70”.
If the temp. is lower than -9 degree, the digital display tube will
show “-9”.If the temp. is higher than 70 degree, the digital
display tube will show “70”. If the indoor unit is not connected,
the digital display tube will show: “――”
The display value is between 30~120 degree. If the temp. is
lower than 30 degree, the digital display tube will show “30”.If
the temp. is higher than 99 degree, the digital display tube will
show single digit and tens digit. (For example, the digital
display tube show “0.5”,it means the compressor discharge
temp. is 105 degree. the digital display tube show “1.6”,it
means the compressor discharge temp. is 116 degree)
The display value is hex number.
Off:0, Fan only 1,Cooling:2, Heating:3, Forced cooling:4
Actual data/4.
If the value is higher than 99, the digital display tube will show
single digit and tens digit.
For example ,the digital display tube show “2.0”,it means the
EXV open angle is 120×4=480p.)
Frequency limit
Bit7
caused by IGBT
radiator
Frequency limit
Bit6
caused by PFC
The display value is hex
Frequency limit
Bit5
number. For example,
caused by T4.
the digital display tube
Frequency limit
Bit4
show 2A,then Bit5=1,
caused by T2.
Bit3=1, Bit1=1.
Frequency limit
It means frequency limit
Bit3
caused by T3.
caused by T4,T3 and
Frequency limit
current.
Bit2
caused by Tp.
Frequency limit
Bit1
caused by current
Frequency limit
Bit0
caused by voltage
The display value is between 13~120 degree. If the temp. is
lower than 13 degree, the digital display tube will show “13”.If
the temp. is higher than 99 degree, the digital display tube will
show single digit and tens digit. (For example, the digital
display tube show “0.5”,it means the IGBT radiator temp. is
105 degree. the digital display tube show “1.6”,it means the
IGBT radiator temp. is 116 degree)
The indoor unit can communicate with outdoor unit well.
17
IGBT radiator temp.(Reserved)
18
Indoor unit number
19
Condenser pipe temp. of
1# indoor unit
If the temp. is lower than 0 degree, the digital display tube will
20
Condenser pipe temp. of
2# indoor unit
show “0”.If the temp. is higher than 70 degree, the digital
display tube will show “70”. If the capacity demand is 0, , the
21
Condenser pipe temp. of
3# indoor unit
digital display tube will show “0. If the indoor unit is not
connected, the digital display tube will show: “――”
22
1# Indoor unit capacity demand code
Electrical Control System
Actual data*HP*10
67
Electrical Control Function
68
23
2# Indoor unit capacity demand code
24
3# Indoor unit capacity demand code
If capacity demand code is higher than 99, the digital display
tube will show single digit and tens digit. (For example, the
digital display tube show “5.0”,it means the capacity demand
is 15. the digital display tube show “60”,it means the capacity
demand is 6.0). If the indoor unit is not connected, the digital
display tube will show: “――”
Electrical Control System
Troubleshooting
2. Troubleshooting
2.1 Display board
2.1.1 Icon explanation on indoor display board (A5 Duct & High static pressure Duct)
PRE-DEF indicator(cooling and heating type)
or fan only indicator(cooling only type)
Timer indicator
Alarm indicator
Operation lamp
Infrared signal receiver
Display digital tube
Temporary button
MANUAL OPERATION TIMER DEF./FAN ALARM
Electrical Control System
69
Troubleshooting
2.2 Indoor unit malfunction
Indoor EEPROM malfunction
E0
X
Operation Lamp
(flashes)
1
Communication malfunction between indoor and outdoor units
E1
X
2
Open or short circuit of T1 temperature sensor
E4
X
5
Open or short circuit of T2 temperature sensor
E5
X
6
Refrigerant leakage detection
EC
X
7
Water level alarm
EE
X
8
Malfunction
Error Code
Timer Lamp
Communication error between master and slave unit (for twins system)
E8
X
9
Another indoor unit malfunction (for twins system)
E9
X
10
Outdoor unit is faulty (for old communication protocol)
Ed
X
11
Overcurrent protection (For some units)
F0
O
1
Open or short circuit of T4 temperature sensor
F1
O
2
Open or short circuit of T3 temperature sensor
F2
O
3
Open or short circuit of T5 temperature sensor
F3
O
4
Outdoor EEPROM malfunction (For some units)
F4
Communication error between auto-lifting panel and slim cassette (For
F7
slim cassette with auto-lifting panel)
Auto-lifting panel is faulty (For slim cassette with auto-lifting panel)
F8
Auto-lifting panel is not closed (For slim cassette with auto-lifting
F9
panel)
DC voltage too high or too low protection
P1
Too low ambient temperature protection
P3
Inverter compressor drive protection
P4
Voltage protection of compressor
P6
O (on)
X(off) ☆(flash at 2Hz)
O
5
O
8
O
9
O
10
☆
☆
☆
☆
2
4
5
7
70
Electrical Control System
Troubleshooting
2.3 Outdoor unit malfunction
12k
Indoor Display
Malfunction or Protection
LED6
(Green)
LED5
(Red)
P0
IGBT over-strong current protection
☆
X
P1
Voltage protection of compressor
O
O
☆
☆
P4
Communication malfunction between indoor and outdoor
units.
O(light)
X(off) ☆(flash at 2.5Hz)
18~60k
Display
Malfunction or Protection
E0
Outdoor EEPROM malfunction
E2
Communication malfunction between indoor and outdoor units.
E3
Communication malfunction between IPM board and outdoor main board
E4
Open or short circuit of T3 or T4 temperature sensor
E5
Voltage protection of compressor
E6
PFC module protection (Only for 36K, 48K with 1 phase)
P0
Top temperature protection of compressor
P1
High pressure protection(Only for 30K~60K)
P2
Low pressure protection(Only for 30K~60K)
P3
Current protection of compressor
P4
Discharge temperature protection of compressor
P5
High temperature protection of condenser
P6
IPM module protection
P7
High temperature protection of evaporator
In low ambient cooling mode, the LED displays“LC” or alternative displays between running frequency
and “LC”(each displays 0.5s)
72
Electrical Control System
Troubleshooting
2.4 Solving steps for typical malfunction
2.4.1 For the indoor unit
2.4.1.1 Open or short circuit of temperature sensor
Check
Check the
the connections
connections
between
between temperature
temperature
sensor
sensor and
and PCB.
PCB. Are
Are the
the
connections
good?
connections good?
No
Correct
Correct the
the connections.
connections.
Yes
Measure
Measure the
the resistance
resistance value
value
of
of the
the sensor
sensor via
via Appendix
Appendix 11
IsIs itit normal?
normal?
No
Replace
Replace the
the sensor.
sensor.
Yes
Replace
Replace the
the indoor
indoor PCB
PCB
2.4.1.2. Outdoor unit malfunction
Whether
Whether the
the outdoor
outdoor
main
main board
board has
has error
error
displayed
displayed
No
Power
Power off,
off, then
then restart
restart the
the unit
unit 22
minutes
later.
If
the
outdoor
main
minutes later. If the outdoor main board
board
displays
displays error
error code
code several
several minutes
minutes
later?
later?
Yes
Yes
Refer
Refer to
to corresponding
corresponding
solving
solving steps
steps
Electrical Control System
73
Troubleshooting
2.4.1.3. Indoor EEPROM malfunction
Power off, then restart the
unit 2 minutes later
Yes
Replace the indoor main PCB
EEPROM: An electrically erasable programmable read-only memory whose contents can be erased and
reprogrammed using a pulsed voltage.
2.4.1.4. Water-level alarm malfunction
Power
Power off,
off, then
then restart
restart the
the unit
unit 22 minutes
minutes
later.
later. Is
Is itit still
still displaying
displaying the
the error
error code?
code?
Yes
IfIf the
the water-level
water-level switch
switch
is
inserted
is inserted well?
well?
No
Insert
Insert the
the water-level
water-level switch
switch well
well
Yes
Replace
Replace the
the water-level
water-level switch
switch
Yes
IfIf the
the water-level
water-level switch
switch
is
is broken?
broken?
No
Replace
Replace the
the water
water pump,
pump, IfIf
malfunction
malfunction is
is still
still not
not
solved
solved
Yes
Replace
Replace the
the indoor
indoor main
main PCB
PCB
74
Electrical Control System
Troubleshooting
2.4.1.5. Indoor fan Speed has been out of control.(Only for console 12k)
Power
Power off,
off, then
then restart
restart the
the
unit
unit 22 minutes
minutes later.
later. IsIs itit still
still
displaying
displaying the
the error
error code?
code?
No
The
The unit
unit operates
operates normally.
normally.
Yes
Shut
Shut off
off the
the power
power supply,
supply,
rotate
the
fan
rotate the fan by
by hand.
hand. Does
Does
itit rotate
rotate properly?
properly?
No
Find
Find out
out the
the cause
cause and
and
have
it
solved.
have it solved. For
For
example,
example, whether
whether the
the fan
fan
No
Correct
Correct the
the connections.
connections.
isis blocked
blocked or
or the
the screws
screws
which
which fix
fix the
the fan
fan are
are
tighten.
tighten.
Yes
Check
Check the
the wiring
wiring of
of fan
fan
motor.
Are
all
the
motor. Are all the
connections
connections good?
good?
Yes
Check
Check whether
whether the
the main
main PCB
PCB
isis normal
normal through
through index
index 1?
1?
No
Replace
Replace the
the main
main PCB
PCB
Yes
Replace
Replace the
the fan
fan motor
motor
No
Index 1:
1. Indoor DC fan motor(control chip is inside fan motor)
Power on and when the unit is in standby, measure the voltage of pin1-pin3, pin4-pin3 in fan motor
connector. If the value of the voltage is not in the range showing in below table, the PCB must have
problems and need to be replaced.
For other models:
DC motor voltage input and output
NO.
1
2
3
4
5
6
Color
Red
--Black
White
Yellow
Blue
Electrical Control System
Signal
Vs/Vm
--GND
Vcc
Vsp
FG
Voltage
192V~380V
--0V
13.5-16.5V
0~6.5V
13.5-16.5V
75
Troubleshooting
2.4.1.6. Inverter compressor drive protection (Only for compact cassette 12k & console 12k)
Refer to the outdoor unit P6 malfunction part to solve this problem.
2.4.1.7 Communication malfunction between indoor and outdoor units.
The same as E2 in outdoor.
2.4.2 For the super-slim cassette with up-down panel
2.4.2.1 Communication error between indoor unit and up-down panel
F0
F0 Displayed
Displayed
Communication
Communication failure
failure between
between
indoor
indoor unit
unit and
and up-down
up-down panel
panel
Check
Check the
the wire
wire connection
connection
between
between up-down
up-down panel
panel and
and
indoor
indoor unit,
unit, isis itit right?
right?
No
Correct
Correct the
the connection
connection
Yes
Replace
Replace the
the up-down
up-down panel
panel
Replace
Replace the
the indoor
indoor main
main PCB
PCB
No
2.4.2.2 Up-down panel is defective
F1
F1 Displayed
Displayed
Up-down
Up-down panel
panel is
is defective
defective
IfIf panel
panel can
can not
not move
move
slightly,
slightly, check
check the
the wiring
wiring
of
of louver
louver motors
motors
No
Reconnect
Reconnect
No
Retry
Retry ifif panel
panel can
can up
up and
and
down
normally?
down normally?
No
IfIf panel
panel can
can move
move slightly,
slightly, power
power
off,
off, then
then restart
restart the
the unit
unit 22 minutes
minutes
later.
later. IfIf the
the error
error still
still exists?
exists?
Yes
No
Replace
Replace the
the louver
louver
motors
motors
Check
Check the
the wiring
wiring of
of
left
and
right
left and right sensors
sensors
No
Reconnect
Reconnect
Yes
No
76
The
The up-down
up-down panel
panel is
is defective.
defective.
replace
it
replace it
No
Electrical Control System
Troubleshooting
2.4.3 For the unit with TWINS function(For the super-slim cassette & A5 duct)
2.4.3.1 Communication malfunction between master unit and indoor unit
F3
F3 Displayed
Displayed
Communication
Communication failure
failure between
between
master
master unit
unit and
and slave
slave unit
unit
Check
Check the
the dial
dial switch
switch settings
settings of
of
master
unit
and
slave
unit,
master unit and slave unit, isis itit right?
right?
No
Correct
Correct the
the
settings
settings
Yes
Check
Check the
the PQE
PQE communication
communication wires
wires
connection,
connection, isis itit good
good enough?
enough?
No
Correct
Correct the
the wire
wire
connections
connections
Yes
One
One of
of the
the 22 indoor
indoor PCBs
PCBs isis defective.
defective.
Connect
Connect only
only one
one indoor
indoor unit
unit to
to the
the outdoor
outdoor
unit
unit separately.
separately. The
The one
one caused
caused E1
E1 error
error code
code
isis defective
defective
2.4.3.2 Other malfunction between master unit and indoor unit
One indoor unit displays ”F4”, which means another indoor unit is faulty. Check another indoor unit’s error
code and then follow the appropriate solutions to solve the malfunction.
Electrical Control System
77
Troubleshooting
2.4.4 For the outdoor unit
2.4.4.1 IGBT over-strong current protection(Only for 12k)
Check if the wiring between
module PCB and compressor
connected correctly.
No
Correct the connection.
Yes
IPM continuity check. Check if the IPM
terminal resistance values are uniform.
No
Replace the module PCB.
Yes
Check if the IPM installed correctly.
No
Correct the installation, tighten the
screws and apply silicon grease.
Yes
Check if the outdoor fan
can run properly.
No
Correct the connection of fan motor
or replace the fan motor.
Yes
Replace outdoor control PCB.
Does the problem still remain?
Yes
Replace the compressor.
2.4.4.2. E0 malfunction
E0
E0 display
display
Outdoor
Outdoor EEPROM
EEPROM malfunction
malfunction
Power
Power off,
off, then
then restart
restart the
the unit
unit 22
minutes
minutes later
later
Yes
Replace
Replace the
the outdoor
outdoor main
main PCB
PCB
EEPROM: An electrically erasable programmable read-only memory whose contents can be erased and
reprogrammed using a pulsed voltage.
78
Electrical Control System
Troubleshooting
2.4.4.3. E2 malfunction(Only for 12k)
Power
Power off,
off, then
then restart
restart the
the unit
unit 22 minutes
minutes later
later
Yes
Measure
Measure Vs,
Vs, is
is itit positive
positive fluctuation?
fluctuation?
(Vs
(Vs is
is the
the voltage
voltage between
between S
S and
and N
N of
of
outdoor
outdoor unit.
unit. Red
Red pan-S,
pan-S, Black
Black pan-N)
pan-N)
No
Yes
Check
Check the
the outdoor
outdoor wiring
wiring connection
connection
Yes
Check
Check the
the indoor
indoor wiring
wiring connection
connection
Yes
Replace
Replace the
the reactor
reactor
No
Check
Check whether
whether reactor
reactor
is
is normal?
normal?
Replace
Replace the
the indoor
indoor main
main PCB.
PCB.
Power
Power on.
on. Is
Is the
the error
error
extinguished?
extinguished?
Yes
No
Replace
Replace the
the outdoor
outdoor main
main PCB.
PCB.
Power
Power on.
on. Is
Is the
the error
error
extinguished?
extinguished?
Replace
Replace the
the outdoor
outdoor main
main PCB.
PCB.
No
Replace
Replace the
the indoor
indoor main
main PCB.
PCB.
Electrical Control System
79
Troubleshooting
2.4.4.4. E2 malfunction(For 18-60k)
E2
E2 display
display
Communication
Communication malfunction
malfunction between
between indoor
indoor
and
and outdoor
outdoor units
units
Power
Power off,
off, then
then restart
restart the
the unit
unit 22
minutes
later
minutes later
Yes
Check
Check whether
whether there’s
there’s any
any
interference.
interference.
Such
Such as
as too
too many
many lamps,
lamps, power
power
transformers?
transformers? Or
Or the
the signal
signal wire
wire
is
is too
too long?
long?
Yes
Remove
Remove interference
interference or
or
add
add magnet
magnet ring
ring on
on power
power
wire
wire
No
Adopt
Adopt shield
shield cable/Shield
cable/Shield
cable
cable earthing.
earthing.
No
Check
Check whether
whether the
the signal
signal wire
wire
is
is shield
shield cable
cable or
or whether
whether the
the
shield
shield cable
cable is
is earthing?
earthing?
Yes
Check
Check whether
whether the
the wire
wire is
is
correct
polarity?
P
to
P,
correct polarity? P to P, Q
Q to
to Q,
Q,
E
E to
to E?
E?
No
Correct
Correct the
the connection.
connection.
Yes
Replace
Replace the
the signal
signal wire.
wire.
No
Pull
Pull out
out and
and insert
insert back.
back.
Yes
Check
Check whether
whether the
the signal
signal wire
wire
is
broken?
is broken?
No
Check
Check whether
whether the
the signal
signal wires
wires
insert
on
PCB
insert on PCB well?
well?
Yes
Replace
Replace indoor
indoor main
main PCB,
PCB, is
is the
the
error
distinguished?
error distinguished?
No
Replace
Replace the
the outdoor
outdoor Main
Main PCB.
PCB.
80
Electrical Control System
Troubleshooting
2.4.4.5. E3 malfunction
E3 display
Communication malfunction between
IPM board and outdoor main board
Is there at least one LED in
the IPM board light?
No
Check the signal wire between
the IPM board and the main
board, is it connected good?
Yes
No
Yes
Reconnect and retry. Is
error still display?
No
No
Replace IPM board, and
then check whether the
system can run normally
Yes
No
Replace outdoor main
board, and then check
whether the system can run
normally
Yes
No
Replace the electric control
box
Electrical Control System
Trouble is solved
81
Troubleshooting
2.4.4.6. E4 malfunction
E4
E4 display
display
Judge
Judge 1:
1: Outdoor
Outdoor condenser
condenser temp.
temp. sensor
sensor (T3)
(T3) isis malfunction
malfunction
Check
Check whether
whether the
the wiring
wiring of
of the
the
condenser
condenser temp.
temp. sensor(T3)
sensor(T3) isis
broken
broken off
off
Yes
Connect
Connect the
the wiring
wiring well
well
Yes
Replace
Replace condenser
condenser temp.
temp. sensor(T3)
sensor(T3)
No
Check
Check whether
whether the
the resistance
resistance of
of
condenser
condenser temp.
temp. sensorT3)
sensorT3) isis wrong
wrong
refer
refer to
to the
the Appendix
Appendix 11
No
Judge
Judge 2:
2: Outdoor
Outdoor ambient
ambient temp.
temp. sensor
sensor (T4)
(T4) isis malfunction
malfunction
Check
Check whether
whether the
the wiring
wiring of
of the
the
outdoor
outdoor ambient
ambient temperature
temperature
sensor
sensor (T4)
(T4) isis broken
broken off
off
Yes
Connect
Connect the
the wiring
wiring well
well
No
Check
Check whether
whether the
the resistance
resistance of
of
outdoor
outdoor ambient
ambient temperature
temperature
sensor
sensor (T4)
(T4) isis wrong
wrong refer
refer to
to the
the
Appendix
Appendix 11
Yes
Replace
Replace outdoor
outdoor ambient
ambient
temperature
temperature sensor
sensor (T4)
(T4)
No
Judge
Judge 3:
3: Compressor
Compressor discharge
discharge temp.
temp. sensor
sensor (T5)
(T5) isis malfunction
malfunction
Check
Check whether
whether the
the wiring
wiring of
of the
the
compressor
compressor discharge
discharge temperature
temperature
sensor
sensor (T5)
(T5) isis broken
broken off
off
Yes
Connect
Connect the
the wiring
wiring well
well
Yes
Replace
Replace compressor
compressor discharge
discharge
temperature
temperature sensor
sensor (T5)
(T5)
No
Check
Check whether
whether the
the resistance
resistance of
of
compressor
compressor discharge
discharge temp.
temp. sensor
sensor
(T5)
(T5) isis wrong
wrong refer
refer to
to the
the Appendix
Appendix 22
No
Replace
Replace outdoor
outdoor main
main PCB
PCB
82
Electrical Control System
Troubleshooting
2.4.4.7. E5 malfunction
E5
E5 display
display
Voltage
Voltage protection
protection of
of compressor
compressor
Check
Check whether
whether the
the power
power
voltage
voltage is
is normal.
normal.
No
Restart
Restart the
the unit
unit when
when the
the power
power
supply
supply gets
gets normal
normal
Yes
Measure
Measure whether
whether outdoor
outdoor
terminal
terminal voltage
voltage is
is normal?
normal?
No
Check
Check the
the wiring
wiring of
of
power
power wires
wires well
well or
or
correctly
correctly
Reconnect
Reconnect itit well
well
No
Check
Check the
the wiring
wiring of
of
LL and
and N
N well
well or
or
correctly
correctly
Reconnect
Reconnect itit well
well
Yes
Measure
Measure whether
whether the
the voltage
voltage
between
between LL and
and N
N is
is normal?
normal?
Yes
Measure
Measure whether
whether input
input voltage
voltage
of
of bridge
bridge rectifier
rectifier is
is normal?
normal?
No
Check
Check the
the wiring
wiring of
of
bridge
bridge rectifier
rectifier well
well
or
or correctly
correctly
Reconnect
Reconnect itit well
well
Yes
Measure
Measure whether
whether the
the voltage
voltage
between
between P
P and
and N
N is
is normal
normal
refer
refer to
to the
the Appendix
Appendix 3?
3?
No
Check
Check whether
whether
bridge
bridge rectifier
rectifier is
is
normal
normal
Replace
Replace the
the bridge
bridge
rectifier
rectifier
No
Yes
Replace
Replace the
the PFC
PFC module(If
module(If has)
has)
No
Yes
Check
Check the
the wiring
wiring of
of
reactor
reactor or
or inductance
inductance
No
Reconnect
Reconnect the
the
wiring
wiring
Yes
Replace
Replace the
the IPM
IPM board,
board, IfIf the
the IPM
IPM board
board
and
and main
main board
board is
is in
in aa board,
board, replace
replace the
the
outdoor
outdoor main
main PCB
PCB
Electrical Control System
Yes
Check
Check whether
whether reactor
reactor
or
or inductance
inductance is
is normal
normal
No
Replace
Replace reactor
reactor or
or
inductance
inductance
83
Troubleshooting
2.4.4.8. E6 malfunction (Only for 36K, 48K with 1 phase)
E6 display
PFC module protection
Check whether the
connecting line between
main board and the PFC
module is connected tightly
Yes
Measure whether the
voltage between P and N is
normal refer to the Appendix
3?
No
Connect it tightly, check
normal or not
No
Yes
Replace the outdoor main board
No
Replace the inductance
Yes
No
Check
whether
the
inductance of PFC module
is good? If the inductance is
good, the resistance of the
two ports is 0
Yes
Replace the PFC module
84
Trouble is solved
Electrical Control System
Troubleshooting
Electrical Control System
85
Troubleshooting
2.4.4.9. P0 malfunction
P0
P0 display
display
Temperature
Temperature protection
protection of
of compressor
compressor
top
top
Check
Check the
the air
air flow
flow system
system
of
of indoor
indoor and
and outdoor
outdoor units
units
Clear
Clear up
up the
the air
air inlet
inlet and
and outlet
outlet or
or the
the heat
heat
exchanger
exchanger of
of indoor
indoor and
and outdoor
outdoor units.
units.
Yes
No
Power
Power off,
off, then
then restart
restart the
the unit
unit 10
10
minutes
minutes later
later
Yes
Check
Check whether
whether the
the
temperature
temperature of
of
compressor
compressor top
top is
is more
more
than
than 100℃
100℃
Check
Check wiring
wiring connection
connection
of
of the
the overload
overload protector
protector
No
No
Correct
Correct the
the connection.
connection.
Yes
Yes
Measure
Measure the
the resistance
resistance
between
between the
the two
two ports
ports of
of
the
the OLP.
OLP. Is
Is itit zero?
zero?
Check
Check the
the refrigerant
refrigerant
volume
volume charge
charge
No
Replace
Replace the
the OLP.
OLP.
No
Yes
Yes
Refrigerant
Refrigerant system
system is
is blocked,
blocked, such
such
as
as capillary
capillary or
or welded
welded point
point of
of pipes.
pipes.
86
Replace
Replace the
the outdoor
outdoor main
main PCB.
PCB.
Recharge
Recharge the
the correct
correct
refrigerant
refrigerant volume.
volume.
Electrical Control System
Troubleshooting
2.4.4.10. P1 malfunction (Only for 30K~60K)
P1
P1 display
display
High
High pressure
pressure protection
protection
Whether
Whether the
the wiring
wiring
between
between the
the high
high pressure
pressure
switch
switch and
and main
main control
control
board
board is
is connected
connected well
well or
or
correctly
correctly
No
Connect
Connect itit well
well
Yes
Whether
Whether the
the high
high
pressure
pressure protector
protector
is
is broken
broken
Method:
Method: Disconnect
Disconnect the
the plug.
plug.
Measure
Measure the
the resistance
resistance of
of the
the
high
high pressure
pressure protector,
protector, ifif
the
the protector
protector is
is normal
normal the
the
value
value is
is o,
o,
No
Replace
Replace high
high pressure
pressure protector
protector
Yes
Stop
Stop the
the unit
unit
Yes
Check
Check whether
whether the
the outdoor
outdoor
ambient
ambient temperature
temperature is
is
higher
higher than
than 50℃
50℃
No
Check
Check ifif the
the outdoor
outdoor unit
unit
ventilation
ventilation isis good
good
NO
Make
Make the
the outdoor
outdoor unit
unit ventilate
ventilate well
well
Yes
Check
Check ifif the
the outdoor
outdoor fan
fan runs
runs
properly
properly
No
please
please refer
refer to
to the
the solution
solution of
of fan
fan
speed
speed has
has been
been out
out of
of control
control
malfunction
malfunction .. Find
Find out
out the
the cause
cause and
and
have
have itit solved.
solved.
Yes
Check
Check whether
whether the
the heat
heat
exchanger
exchanger is
is dirty
dirty
Yes
Clean
Clean the
the heat
heat exchanger
exchanger
No
Replace
Replace outdoor
outdoor main
main
board
board
No
Check
Check whether
whether the
the refrigerant
refrigerant
system
system is
is ok
ok
Electrical Control System
87
Troubleshooting
2.4.4.11. P2 malfunction (Only for 30K~60K)
P2
P2 display
display
Low
Low pressure
pressure protection
protection
Whether
Whether the
the wiring
wiring
between
between the
the low
low pressure
pressure
protector
protector and
and main
main control
control
board
board is
is connected
connected well
well or
or
correctly
correctly
No
Connect
Connect itit well
well
Yes
Whether
Whether the
the low
low
pressure
pressure protector
protector
is
is broken
broken
Method:
Method: Disconnect
Disconnect the
the plug.
plug.
Measure
Measure the
the resistance
resistance of
of the
the
low
low pressure
pressure protector.
protector. If
If the
the
protector
protector is
is normal
normal the
the value
value is
is
oo
No
Replace
Replace low
low pressure
pressure protector
protector
Yes
Stop
Stop the
the unit
unit
Yes
Check
Check whether
whether the
the outdoor
outdoor
ambient
ambient temperature
temperature is
is too
too
low
low
No
Check
Check whether
whether valve
valve core
core
of
of high
high pressure
pressure valve
valve is
is
opened
opened
No
Open
Open fully
fully valve
valve core
core of
of
high
pressure
valve
high pressure valve
No
please
please refer
refer to
to the
the solution
solution of
of fan
fan
speed
speed has
has been
been out
out of
of control
control
malfunction.
malfunction. Find
Find out
out the
the cause
cause and
and
have
have itit solved.
solved.
Yes
Check
Check ifif the
the indoor
indoor fan
fan runs
runs
properly
in
cooling
properly in cooling mode
mode
Yes
Replace
Replace outdoor
outdoor main
main board
board
No
Refrigerant
Refrigerant isis not
not enough
enough add
add the
the
refrigerant
refrigerant
No
Check
Check whether
whether the
the refrigerant
refrigerant
system
system isis ok
ok
88
Electrical Control System
Troubleshooting
2.4.4.12. P3 malfunction
P3
P3 display
display
Current
Current protection
protection of
of compressor
compressor
The
The protection
protection occurred
occurred in
in
standby
standby
Yes
No
Check
Check whether
whether the
the power
power
voltage
voltage is
is normal.
normal.
Restart
Restart the
the unit
unit when
when the
the power
power
supply
supply gets
gets normal
normal
No
Yes
Measure
Measure whether
whether outdoor
outdoor
terminal
terminal voltage
voltage is
is normal?
normal?
No
Check
Check the
the wiring
wiring of
of
power
power wires
wires well
well or
or
correctly
correctly
Reconnect
Reconnect itit well
well
No
Check
Check the
the wiring
wiring of
of
LL and
and N
N well
well or
or
correctly
correctly
Reconnect
Reconnect itit well
well
No
Check
Check the
the wiring
wiring of
of
bridge
bridge rectifier
rectifier well
well
or
correctly
or correctly
Reconnect
Reconnect itit well
well
Yes
Measure
Measure whether
whether the
the voltage
voltage
between
between LL and
and N
N is
is normal?
normal?
Yes
Measure
Measure whether
whether input
input voltage
voltage
of
of bridge
bridge rectifier
rectifier is
is normal?
normal?
Yes
Measure
Measure whether
whether the
the
current
current is
is normal?
normal?
Yes
Replace
Replace the
the outdoor
outdoor main
main PCB
PCB
No
Measure
Measure whether
whether the
the voltage
voltage
between
between P
P and
and N
N is
is normal
normal
refer
refer to
to the
the Appendix
Appendix 3?
3?
Check
Check whether
whether
bridge
bridge rectifier
rectifier is
is
normal
normal
No
Yes
Check
Check whether
whether the
the outdoor
outdoor
ambient
ambient temperature
temperature is
is
higher
higher than
than 50℃
50℃
Replace
Replace the
the bridge
bridge
rectifier
rectifier
No
Yes
Yes
Replace
Replace the
the PFC
PFC module(If
module(If has)
has)
Stop
Stop the
the unit
unit
No
No
Check
Check ifif the
the outdoor
outdoor unit
unit
ventilation
ventilation is
is good
good
No
Make
Make the
the outdoor
outdoor unit
unit ventilate
ventilate well
well
No
Reconnect
Reconnect the
the
wiring
wiring
Yes
Yes
Check
Check ifif the
the outdoor
outdoor fan
fan
runs
runs properly
properly
Check
Check the
the wiring
wiring of
of
reactor
reactor or
or inductance
inductance
please
please refer
refer to
to the
the solution
solution of
of fan
fan
speed
speed has
has been
been out
out of
of control
control
malfunction
malfunction .. Find
Find out
out the
the cause
cause and
and
have
have itit solved.
solved.
No
Check
Check whether
whether reactor
reactor
or
or inductance
inductance is
is normal
normal
No
Replace
Replace reactor
reactor or
or
inductance
inductance
Yes
Check
Check whether
whether the
the heat
heat
exchanger
exchanger is
is dirty
dirty
Yes
Clean
Clean the
the heat
heat exchanger
exchanger
No
Replace
Replace outdoor
outdoor main
main
board
board
Yes
No
Check
Check whether
whether system
system pressure
pressure
is
is too
too high
high
Yes
Recycle
Recycle the
the over
over charged
charged
refrigerant
refrigerant
No
Check
Check whether
whether the
the refrigerant
refrigerant
system
system is
is ok
ok
Electrical Control System
89
Troubleshooting
2.4.4.13. P4 malfunction
When compressor discharge temperature is higher than 115°C, the unit will stop, and unit runs again when
compressor discharge temperature is lower than 90°C.
P4
P4 display
display
Temperature
Temperature protection
protection of
of
compressor
compressor discharge
discharge
Check
Check whether
whether the
the
compressor
compressor discharge
discharge temp.
temp. isis
more
than
115°C
more than 115°C ??
No
Check
Check whether
whether the
the
refrigerant
refrigerant isis leak
leak
Yes
Yes
Stop
Stop leaking
leaking and
and add
add refrigerant
refrigerant
No
Check
whether
the
Check
whether
the
connection
connection is
is right
right between
between
compressor
compressor discharge
discharge temp.
temp.
sensor
sensor and
and PCB
PCB according
according
to
to wiring
wiring diagrams?
diagrams?
No
Correct
Correct the
the wiring
wiring connection
connection
Yes
M
M easure
easure the
the resistance
resistance value
value
of
of compressor
compressor discharge
discharge
temp.
temp. sensor
sensor.. IfIf the
the value
value is
is
not
not normal
normal is
is no
normal
rmal refer
refer to
to
No
Replace
Replace the
the compressor
compressor discharge
discharge temp.
temp. sensor
sensor
the
the Appendix
Appendix 2?
2?
Yes
Replace
Replace outdoor
outdoor main
main PCB
PCB
No
Replace
Replace high
high pressure
pressure valve
valve assy
assy
90
Electrical Control System
Troubleshooting
2.4.4.14. P5 malfunction
When condenser high temp. is more than 65°C, the unit will stop, and unit runs again when outdoor pipe
temp. less than 52°C.
P5
P5 display
display
High
High temperature
temperature protection
protection of
of
condenser
condenser
Check
Check the
the connection
connection
between
between temperature
temperature
sensor
sensor and
and PCB.
PCB.
No
No
Correct
Correct the
the connection
connection
Yes
Check
Check whether
whether the
the
condenser
condenser temperature
temperature is
is
Higher
Higher than
than 65°C
65°C
Check
Check whether
whether the
the
resistance
resistance of
of condenser
condenser
temp.
temp. sensor
sensor is
is normal
normal
refer
refer to
to the
the Appendix
Appendix 11
No
Replace
Replace the
the temperature
temperature sensor
sensor
Yes
Check
Check whether
whether the
the outdoor
outdoor
ambient
ambient temperature
temperature is
is
higher
higher than
than 50℃
50℃
Yes
Stop
Stop the
the unit
unit
No
Check
Check ifif the
the outdoor
outdoor unit
unit
ventilation
ventilation isis good
good
No
Make
Make the
the outdoor
outdoor unit
unit ventilate
ventilate well
well
Yes
Check
Check ifif the
the outdoor
outdoor fan
fan runs
runs
properly
properly
No
please
please refer
refer to
to the
the solution
solution of
of fan
fan
speed
speed has
has been
been out
out of
of control
control
malfunction
malfunction .. Find
Find out
out the
the cause
cause and
and
have
have itit solved.
solved.
Yes
Check
Check whether
whether the
the heat
heat
exchanger
exchanger is
is dirty
dirty
Yes
Clean
Clean the
the heat
heat exchanger
exchanger
Yes
No
Replace
Replace outdoor
outdoor main
main
board
board
No
Refrigerant
Refrigerant isis not
not enough
enough add
add the
the
refrigerant
refrigerant
No
Check
Check whether
whether the
the refrigerant
refrigerant
system
system is
is ok
ok
Electrical Control System
91
Troubleshooting
2.4.4.15. P6 malfunction
At first test the resistance between every two ports of U, V, W of IPM and P, N. If any result of them is 0 or
close to 0, the IPM is defective. Otherwise, please follow the procedure below:
P6
P6 display
display
IPM
IPM module
module protection
protection
No
Check
Check whether
whether the
the power
power voltage
voltage
is
is normal.
normal.
Restart
Restart the
the unit
unit when
when the
the power
power supply
supply
gets
gets normal
normal
No
Yes
Measure
Measure whether
whether outdoor
outdoor terminal
terminal
voltage
voltage is
is normal?
normal?
No
Check
Check the
the wiring
wiring of
of
power
power wires
wires well
well or
or
correctly
correctly
Reconnect
Reconnect itit well
well
No
Check
Check the
the wiring
wiring of
of LL
and
and N
N well
well or
or correctly
correctly
Reconnect
Reconnect itit well
well
No
Check
Check the
the wiring
wiring of
of
bridge
bridge rectifier
rectifier well
well or
or
correctly
correctly
Reconnect
Reconnect itit well
well
Yes
Measure
Measure whether
whether the
the voltage
voltage
between
between LL and
and N
N is
is normal?
normal?
Yes
Measure
Measure whether
whether input
input voltage
voltage of
of
bridge
bridge rectifier
rectifier is
is normal?
normal?
Yes
Measure
Measure whether
whether the
the voltage
voltage
between
between P
P and
and N
N is
is normal
normal
refer
refer to
to the
the Appendix
Appendix 3?
3?
Check
Check whether
whether bridge
bridge
rectifier
rectifier is
is normal
normal
No
No
Replace
Replace the
the bridge
bridge rectifier
rectifier
Yes
Yes
Check
Check whether
whether the
the connecting
connecting
wire
wire between
between main
main board
board and
and the
the
IPM
IPM board
board isis connected
connected tightly
tightly
No
Replace
Replace the
the PFC
PFC module(If
module(If has)
has)
Reconnect
Reconnect itit well
well
No
Yes
Check
Check whether
whether the
the connecting
connecting
wire
wire of
of the
the compressor
compressor isis
connected
connected correctly
correctly or
or tightly
tightly
No
Reconnect
Reconnect itit well
well
Check
Check the
the wiring
wiring of
of reactor
reactor
or
or inductance
inductance
No
Reconnect
Reconnect the
the wiring
wiring
No
Replace
Replace reactor
reactor or
or
inductance
inductance
Yes
Check
Check ifif the
the outdoor
outdoor unit
unit
ventilation
ventilation is
is good
good
No
Make
Make the
the outdoor
outdoor unit
unit ventilate
ventilate well
well
Yes
Yes
Check
Check ifif the
the outdoor
outdoor fan
fan runs
runs
properly
properly
No
please
please refer
refer to
to the
the solution
solution of
of fan
fan speed
speed
has
has been
been out
out of
of control
control malfunction
malfunction ..
Find
Find out
out the
the cause
cause and
and have
have itit solved.
solved.
Check
Check whether
whether reactor
reactor or
or
inductance
inductance is
is normal
normal
Yes
Replace
Replace IPM
IPM board
board
Yes
No
Replace
Replace the
the outdoor
outdoor main
main PCB
PCB
No
Check
Check the
the compress
compress is
is
normal
normal
No
Replace
Replace the
the compressor
compressor
Yes
Check
Check whether
whether the
the refrigerant
refrigerant system
system is
is ok
ok
92
Electrical Control System
Troubleshooting
2.4.4.16. P7 malfunction
P7
P7 display
display
High
High temperature
temperature protection
protection of
of
evaporator
evaporator
Whether
Whether compressor
compressor
operates?
operates?
No
Check
Check the
the connection
connection
between
between T2
T2 and
and PCB.
PCB.
Check
Check whether
whether T2
T2 and
and T2B
T2B
Is
Is reversed
reversed
No
Correct
Correct the
the connection
connection
No
Replace
Replace the
the temperature
temperature sensor
sensor
Yes
Yes
Check
Check whether
whether the
the outdoor
outdoor
ambient
ambient temperature
temperature isis higher
higher
than
than 30℃
30℃
Yes
Stop
Stop the
the unit
unit
Check
Check whether
whether the
the
resistance
resistance of
of T2
T2 isis normal
normal
refer
refer to
to the
the Appendix
Appendix 11
No
Check
Check whether
whether the
the air-outlet
air-outlet isis
blocked?
blocked?
Yes
Clean
Clean the
the air-outlet
air-outlet
No
Check
Check whether
whether the
the indoor
indoor fan
fan
isis running
running normal?
normal?
No
please
please refer
refer to
to the
the solution
solution of
of fan
fan
speed
speed has
has been
been out
out of
of control
control
malfunction
malfunction .. Find
Find out
out the
the cause
cause and
and
have
have itit solved.
solved.
Yes
Check
Check whether
whether the
the heat
heat
exchanger
exchanger and
and filter
filter are
are
dirty?
dirty?
Yes
Clean
Clean the
the heat
heat exchanger
exchanger and
and filter
filter
No
Replace
Replace the
the indoor
indoor main
main
PCB
PCB
Electrical Control System
Yes
93
Troubleshooting
Appendix 1 Temperature Sensor Resistance Value Table (℃--K)
94
℃
K Ohm
℃
-20
20
K Ohm
12.6431
60
K Ohm
2.35774
100
K Ohm
0.62973
-19
115.266
108.146
℃
℃
21
12.0561
61
2.27249
101
0.61148
-18
101.517
22
11.5000
62
2.19073
102
0.59386
-17
96.3423
23
10.9731
63
2.11241
103
0.57683
-16
89.5865
24
10.4736
64
2.03732
104
0.56038
-15
84.2190
25
10.000
65
1.96532
105
0.54448
-14
79.3110
26
9.55074
66
1.89627
106
0.52912
-13
74.5360
27
9.12445
67
1.83003
107
0.51426
-12
70.1698
28
8.71983
68
1.76647
108
0.49989
-11
66.0898
29
8.33566
69
1.70547
109
0.48600
-10
62.2756
30
7.97078
70
1.64691
110
0.47256
-9
58.7079
31
7.62411
71
1.59068
111
0.45957
-8
56.3694
32
7.29464
72
1.53668
112
0.44699
-7
52.2438
33
6.98142
73
1.48481
113
0.43482
-6
49.3161
34
6.68355
74
1.43498
114
0.42304
-5
46.5725
35
6.40021
75
1.38703
115
0.41164
-4
44.0000
36
6.13059
76
1.34105
116
0.40060
-3
41.5878
37
5.87359
77
1.29078
117
0.38991
-2
39.8239
38
5.62961
78
1.25423
118
0.37956
-1
37.1988
39
5.39689
79
1.21330
119
0.36954
0
35.2024
40
5.17519
80
1.17393
120
0.35982
1
33.3269
41
4.96392
81
1.13604
121
0.35042
2
31.5635
42
4.76253
82
1.09958
122
0.3413
3
29.9058
43
4.57050
83
1.06448
123
0.33246
4
28.3459
44
4.38736
84
1.03069
124
0.32390
5
26.8778
45
4.21263
85
0.99815
125
0.31559
6
25.4954
46
4.04589
86
0.96681
126
0.30754
7
24.1932
47
3.88673
87
0.93662
127
0.29974
8
22.5662
48
3.73476
88
0.90753
128
0.29216
9
21.8094
49
3.58962
89
0.87950
129
0.28482
10
20.7184
50
3.45097
90
0.85248
130
0.27770
11
19.6891
51
3.31847
91
0.82643
131
0.27078
12
18.7177
52
3.19183
92
0.80132
132
0.26408
13
17.8005
53
3.07075
93
0.77709
133
0.25757
14
16.9341
54
2.95896
94
0.75373
134
0.25125
15
16.1156
55
2.84421
95
0.73119
135
0.24512
16
15.3418
56
2.73823
96
0.70944
136
0.23916
17
14.6181
57
2.63682
97
0.68844
137
0.23338
18
13.9180
58
2.53973
98
0.66818
138
0.22776
19
13.2631
59
2.44677
99
0.64862
139
0.22231
Electrical Control System
Troubleshooting
Appendix 2
Unit: ℃---K
Discharge temp. sensor table
-20
542.7
20
68.66
60
13.59
100
3.702
-19
511.9
21
65.62
-18
483
22
62.73
61
13.11
101
3.595
62
12.65
102
3.492
-17
455.9
23
59.98
63
12.21
103
3.392
-16
430.5
-15
406.7
24
57.37
64
11.79
104
3.296
25
54.89
65
11.38
105
3.203
-14
384.3
26
52.53
66
10.99
106
3.113
-13
363.3
27
50.28
67
10.61
107
3.025
-12
343.6
28
48.14
68
10.25
108
2.941
-11
325.1
29
46.11
69
9.902
109
2.86
-10
307.7
30
44.17
70
9.569
110
2.781
-9
291.3
31
42.33
71
9.248
111
2.704
-8
275.9
32
40.57
72
8.94
112
2.63
-7
261.4
33
38.89
73
8.643
113
2.559
-6
247.8
34
37.3
74
8.358
114
2.489
-5
234.9
35
35.78
75
8.084
115
2.422
-4
222.8
36
34.32
76
7.82
116
2.357
-3
211.4
37
32.94
77
7.566
117
2.294
-2
200.7
38
31.62
78
7.321
118
2.233
-1
190.5
39
30.36
79
7.086
119
2.174
0
180.9
40
29.15
80
6.859
120
2.117
1
171.9
41
28
81
6.641
121
2.061
2
163.3
42
26.9
82
6.43
122
2.007
3
155.2
43
25.86
83
6.228
123
1.955
4
147.6
44
24.85
84
6.033
124
1.905
5
140.4
45
23.89
85
5.844
125
1.856
6
133.5
46
22.89
86
5.663
126
1.808
7
127.1
47
22.1
87
5.488
127
1.762
8
121
48
21.26
88
5.32
128
1.717
9
115.2
49
20.46
89
5.157
129
1.674
10
109.8
50
19.69
90
5
130
1.632
11
104.6
51
18.96
91
4.849
12
99.69
52
18.26
92
4.703
13
95.05
53
17.58
93
4.562
14
90.66
54
16.94
94
4.426
15
86.49
55
16.32
95
4.294
16
82.54
56
15.73
96
4.167
17
78.79
57
15.16
97
4.045
18
75.24
58
14.62
98
3.927
19
71.86
59
14.09
99
3.812
Electrical Control System
B(25/50)=3950K
R(90℃)=5KΩ±3%
95
Appendix 3
Normal voltage of P and N
In standby
In operation
208-240V(1-phase,3-phase)
380-420V(3-phase)
around 310VDC
around 530VDC
With passive PFC
module
>200VDC
96
With partial active
PFC module
>310VDC
With fully active
PFC module
>370VDC
/
>450VDC
Electrical Control System
Controller
3. Controller
3.1Wireless Remote Controller
3.1.1RG51Q1/BGE
General Function for wireless remote controller:
Model
RG51Q1/BGE
Rated voltage
3.0V(2pieces of LR03 7# batteries)
Min voltage for sending signal of CPU
2.4V
Effective receiving distance
8m~11m
Operation condition
-5~60℃
Electrical Control System
97
Controller
Buttons and functions
: Decrease the set temp. Keeping pressing will decrease the temp with 1℃ per 0.5s.
1. Adjust
2. Adjust
: Increase the set temp. Keeping pressing will increase the temp with 1℃ per 0.5s.
3. MODE: Once pressing, running mode will be selected in the following sequence:
AUTO
COOL
DRY
HEAT
FAN
NOTE: No heating mode for cool only type unit.
4. VERT SWING: Used to stop or start horizontal louver movement or set the desired up/down air flow
direction. The louver changes 6 degree in angle for each press. If keep pushing more than 2 seconds, the
louver will swing up and down automatically.
5. HORIZ SWING: Used to stop or start vertical louver movement.
6. AIR DIRECTION: Used to set the desired up/down air flow direction. The louver changes 6 degree in
angle for each press.
7. ON/OFF: For turning on or turning off the air conditioner.
8. FAN SPEED: Fan speed will be selected in following sequence once pressing this button:
AUTO
LOW
MED
HIGH
9. TIME ON: For time ON setting. Once pressing this button, the time will increase by 0.5 hour. When the set
time exceeds 10 hours, pressing the button will increase the time by 1 hour. Adjusting the figure to 0.00 will
cancel time ON setting.
10. ECO: Activate or turn off economic operation mode. It is suggested to turn on this function when sleeping.
(Only available when remote controller is used with corresponding unit.)
11. TIME OFF: For time OFF setting. Once pressing this button, the time will increase by 0.5 hour. When the
set time exceeds 10 hours, pressing the button will increase the time by 1 hour.
Adjust the figure to 0.00 will cancel time ON setting.
12. C/H (inner located): Press this button with a needle of 1mm to shift the mode between Cooling only and
Cooling & Heating according to the feature of the machine.
13.RESET (inner located): Press this button with a needle of 1mm to cancel the current setting and reset
remote controller.
98
Electrical Control System
Controller
3.1.2 RG51C/E
Remote Controller Specifications
Model
RG51C/E
Rated Voltage
3.0V
Lowest Voltage of CPU Emitting Signal
2.0V
Reaching Distance
8m (when using 3.0 voltage, it can get 11m)
Environment Temperature Range
-5℃~60℃
Introduction of Function Buttons on the Remote Controller
SET TEMPERATURE( C)
FAN
HIGH
MED
LOW
AUTO
COOL
DRY
HEAT
ADJUST
Adjust
1
2
ON/OFF FAN SPEED
MODE
Mode setting
3
4
SWING
ECO
TIMER ON
SWING
RESET LOCK
TIMER OFF
5
AIR
DIRECTION
1. Adjust
7
Adj ust
ON/OFF
8
Fan speedse tting
9
TIMER ON
10
Economic operation
11
TIMER OFF
12
Lock
13
Reset
: Decrease the set temp. Keeping pressing will decrease the temp with 1℃ per 0.5s.
2. Adjust
: Increase the set temp. Keeping pressing will increase the temp with 1℃ per 0.5s.
3. MODE: Once pressing, running mode will be selected in the following sequence:
AUTO
COOL
DRY
HEAT
FAN
NOTE: No heating mode for cool only type unit.
4. VERT SWING: Used to stop or start horizontal louver movement. The louver will swing up and down
automatically if push this button.
AIR DIRECTION: Used to set the desired up/down air flow direction. The louver changes 6 degree in
angle for each press.
5. HORIZ SWING: Used to stop or start vertical louver movement.
6. FAN SPEED+ MODE: Press the Mode and Fan speed button simultaneously for 2 seconds. The remote
Electrical Control System
99
Controller
controls into faceplate setting state and the LCD shows F2.Press the TEMPUP( ) to control the faceplate
up and press the TEMP DOWN( ) to control the faceplate down. Press any button to exit the faceplate
setting state, then the LCD back to the normal display.
7. ON/OFF: For turning on or turning off the air conditioner.
8. FAN SPEED: Fan speed will be selected in following sequence once pressing this button:
AUTO
LOW
MED
HIGH
9. TIME ON: For time ON setting. Once pressing this button, the time will increase by 0.5 hour. When the set
time exceeds 10 hours, pressing the button will increase the time by 1 hour. Adjusting the figure to 0.00 will
cancel time ON setting.
10. ECO: Select this function during the sleeping time. It can maintain the most comfortable temperature
and save energy. This function is available on COOL, HEAT or AUTO mode only .
NOTE: While the unit is running under Energy-saving mode, it would be cancelled if press MODE, FAN
SPEED or ON/OFF button.
11. TIME OFF: For time OFF setting. Once pressing this button, the time will increase by 0.5 hour. When the
set time exceeds 10 hours, pressing the button will increase the time by 1 hour.
Adjust the figure to 0.00 will cancel time ON setting.
12. LOCK (inner located): Push this button to lock in all the current settings, and the remote controller will
not accept any operation except that of the LOCK. Use the LOCK mode when you want to prevent settings
from being changed accidentally. Press the LOCK button again to cancel the LOCK function. A lock symbol
will appear on the remote controller display when the lock function is activated.
13.RESET (inner located): Once the recessed RESET button is pressed, all of the current settings will be
cancelled and the controller will return to the initial settings..
3.1.3 R51M/(C)E
Remote Controller Specifications
100
Model
R51M/(C)E
Rated Voltage
3.0V
Reaching Distance
8m
Environment Temperature Range
-5℃~60℃
Electrical Control System
Controller
Introduction of Function Buttons on the Remote Controller
1. Adjust
: Decrease the set temp. Keeping pressing will decrease the temp with 1℃ per 0.5s.
2. Adjust
: Increase the set temp. Keeping pressing will increase the temp with 1℃ per 0.5s.
3. MODE: Once pressing, running mode will be selected in the following sequence:
AUTO
COOL
DRY
HEAT
FAN
NOTE: No heating mode for cool only type unit.
4. SWING: Used to stop or start horizontal louver movement. The louver will swing up and down
automatically if push this button.
5. RESET (inner located): Once the recessed RESET button is pressed, all of the current settings will be
cancelled and the controller will return to the initial settings.
6. AIR DIRECTION: P Press this button to change the swing angle of the louver. The swing angle of the
louver is 6o for each press. When the louver swing at a certain angle which would affect the cooling and
heating effect of the air conditioner, it would automatically change the swing direction . No symbol will
appear in the display area when press this button. (Not applicable to units without this function).
7. LED: Press this button to clear the digit display in the air conditioner, press it again to activate it (Not
available for the units without LED display window).
8. FAN SPEED: Fan speed will be selected in following sequence once pressing this button:
AUTO
LOW
MED
HIGH
9. ON/OFF: For turning on or turning off the air conditioner
10. TIME ON: For time ON setting. Once pressing this button, the time will increase by 0.5 hour. When the
set time exceeds 10 hours, pressing the button will increase the time by 1 hour. Adjusting the figure to 0.00
will cancel time ON setting.
Electrical Control System
101
Controller
11.SLEEP: Press this button to go into the Energy-Saving operation mode. Press it again to cancel. This
function is only can be used on COOL, HEAT and AUTO mode and maintain the most comfortable
temperature for you.
12. TIME OFF: For time OFF setting. Once pressing this button, the time will increase by 0.5 hour. When the
set time exceeds 10 hours, pressing the button will increase the time by 1 hour.
Adjust the figure to 0.00 will cancel time ON setting.
13. LOCK (inner located): Push this button to lock in all the current settings, and the remote controller will
not accept any operation except that of the LOCK. Use the LOCK mode when you want to prevent settings
from being changed accidentally. Press the LOCK button again to cancel the LOCK function. A lock symbol
will appear on the remote controller display when the lock function is activated.
14. TURBO: Push this button to activate/cancel the Turbo function which enables the unit to reach the
preset temperature in the shortest time. On cooling mode, the unit will blow strong cooling air with super high
fan speed. On heating mode (applicable to the unit adopts PTC only), the PTC will bring fast heating
operation.
102
Electrical Control System
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