Split DC Inverter Air Conditioner · 2018-03-13 · Split DC Inverter Air Conditioner Troubleshooting . WARNING Installation MUST conform with local building codes or, in the absence

Split DC Inverter Air Conditioner Troubleshooting

WARNING

Installation MUST conform with local building codes or, in the absence of local codes, with the

National Electrical Code NFPA70/ANSI C1-1993 or current edition and Canadian Electrical

Code Part1 CSA C.22.1.

The information contained in the manual is intended for use by a qualified service technician

familiar with safety procedures and equipped with the proper tools and test instruments

Installation or repairs made by unqualified persons can result in hazards to you and others.

Failure to carefully read and follow all instructions in this manual can result in equipment

malfunction, property damage, personal injury and/or death.

This service is only for service engineer to use.

Model Numbers: KSIQ012-H118-I, KSIQ018-H216-I, KSIQ024-H216-I, KSIQ036-H216-I

SERIES

Mark of Superior Quality

2

Troubleshooting

Safety

Electricity power is still kept in capacitors even the power supply is shut off. Do not forget to discharge the electricity

power in capacitor.

Electrolytic Capacitors

(HIGH VOLTAGE! CAUTION!)

For other models, please connect discharge resistance (approx.100Ω 40W) or soldering iron (plug) between +, -

terminals of the electrolytic capacitor on the contrary side of the outdoor PCB.

Note: The picture above is only for reference. The plug of your side may be different.

3

9.1 Indoor Unit Error Display

Operation lamp

Timer lamp Display LED STATUS

1 time X E0 Indoor unit EEPROM parameter error

2 times X E1 Indoor / outdoor units communication error

3 times X E2 Zero-crossing signal detection error

4 times X E3 Indoor fan speed has been out of control

5 times X E4 Indoor room temperature sensor T1 open circuit or short circuit

6 times X E5 Evaporator coil temperature sensor T2 open circuit or short circuit

7 times X EC Refrigerant leakage detection

1 times O F0 Overload current protection

2 times O F1 Outdoor ambient temperature sensor T4 open circuit or short circuit

3 times O F2 Condenser coil temperature sensor T3 open circuit or short circuit

4 times O F3 Compressor discharge temperature sensor TP open circuit or short circuit

5 times O F4 Outdoor unit EEPROM parameter error

6 times O F5 Outdoor fan speed has been out of control

1 times P0 IPM malfunction or IGBT over-strong current protection

2 times P1 Over voltage or over low voltage protection

3 times P2 High temperature protection of IPM module or compressor top

4 times P3* Outdoor ambient temperature too low.

5 times P4 Inverter compressor drive error

6 times P5 Indoor units mode conflict (multi-zone ONLY)

7 times P6 Low pressure protection(Only for 36K) O（light） X（off）（flash）

*P31) In heating mode, when the outdoor temperature is lower than -25 for 1 hour, the indoor unitdisplay error code P3.2) If the outdoor temperature is higher than -22 for 10 minutes and compressor stop for 1 hour oroutdoor temperature is higher than -5 for 10 minutes, then the unit will return to work.

* Fault Symptom: The display board shows a garbled code or a code that is not an error code foundin the service manual nor a temperature reading.

4

Trouble shooting: Use the remote controller. If the unit does not respond to the remote, the indoor PCB needs to be replaced; if the unit does respond, then the display board needs to be replaced.

5

9.2 Outdoor unit error display(TBD) For KSIQ012-H118-O,

N

1

17122000019195

1

1

[1.6] 2015-09-30

US-KFR-35W/BP3N1-(115V+RX62T+41560).D.13.WP2-1

L-IN

N-IN

7805

S

HEAT1

4-WA

Y

AC-FAN

HEAT2

Ear

th

DC-FAN

PMV

TESTPORT

BLACKW

REDV

BLUEU

CN4_1CN4_2 CN4_3CN4_4

REACTOR

CAP

T3T4TP

NN

N

H

L

CN25

CN31

AC

A C

+-

BR1

+E2

CN21

RC1

E304

ZR2

+- AC

OUTIN

~~

RY3ASJ-S-112DMG

R191

IC105

CN15

ZR5

ZR4

R628

C618

R118

R 123

R122

C324

IC2

R421

R621

D103

C 413

C306

C 319

IPM301

R176

R175

+

E109

C107

T401

R410

R409

R316

3W-10mΩ ± 1%

D407++

C110

R 623

R602

C624

RY3

R196

D610

C318

C 316 C314

C134

+

E605

E303

E208

E206E302

E300

CN50

R523

R522

R 521

R520

R 519

R518

R517

R 323

R322

R321

R320

R319

R318

R317

I C301

C513

C512C511

C323

C 321

C320

R426

R 314R306

R305

R304

R303C311

C310

C 309

C308

C307

C N28

CN29

CN30 C520

C1

+E106

C101

D101

C611

R171

D602

I C102

Rdi

D404

D401

CN6

ZR1

RY2

R626

R620

R619

R 618

R617

R616

R615

R612R611 R610R608

R607

R605

R603

R601

R528

R 516

R513

R 508

R506

R504

R502

R429

R428

R427

R 408

R407

R406

R405

R404

R 403

R315

R301

R190

R 188R187

R186

R185

R182

R 181R180

R179

R178

R174

R173 R

170

R169

R168

R165

R157

R 155R154

R152

R150

R149

R148

R147

R144

R143

R142R140

R138

R137

R136

R135

R133

R 132

R131

R130

R129

R 128

R127R126

R125

R124

R121

R120

R117

R116

R115

R114 R112

R111

R110

R 108

R107

R106

R105

R102

R101

R 2

Q101

OSC101

NTC2

+LED101

IC6

03

IC6

02

IC6

01

I C403

IC401

IC1

+

E602

+

E401

+

E108 +

E107

+

E105

+

E103

+

E102

+

E101

+

E1

+

E3

+

DZ601

DZ304 DZ303 DZ302DZ301

+DZ203

+

DZ202

D406

D402

+

D2

+

D1

1CN505

CN7

C615

C614

C612

C606

C605

C601

C509

C508

C507

C506

C505

C504

C503

C 412

C410

C 409

C408

C405

C404

C403

C402

C401

C322C312

C305

C303

C 302

C274

C273

C272

C271

C133

C 132

C131

C130C129

C128

C127

C126

C125

C124

C123

C 121

C120

C119

C 118

C116

C115

C114

C 113

C112

C111

C 106

C105C104

C103

C102

C16

C11 C10C7 C6

C5

C4

C3

C2

+ E280 +

E281

+ E282

+

E283

+

E404

+

E407

PTC1

+

E409D104

R401

R103

C117

R195

R172

+

DZ204 C275

R 156

R604

R104

I C101

IC104

RY4

+

E410

+

E405

FUSE1

T20A/250VAC

C9A

CN1A

IC404

+

D403

IC103

C613

CN3

CN2

CN1

CN16

+

DZ201

L2L3L4L5

C135

CN17

R21 R23

R158

RY5

21 4

3

3 4

ON

1 2

ON

SW2

RC2

DSA1

IC405

+

CN60

C8

L1

R1

IPM501

C122

Comment

Comment

RY1

CN507

R606

3W-1

0mΩ

±1%

R2530.75Ω /1W

R2540.75Ω /1W

connect to compressor heater

when is on, 100-130V AC output

connect to 4-way Valve

when is on, 100-130VAC OUTPUT

connect to PFC Capacitorwhen is on, 100-130V ACoutput

connect to reactor

when is on, 100-130V AC output

connect to

Ground

connect to N-line

(100-130VAC INPUT)

connect to L-line

(100-130VAC INPUT)

connect to indoor unitcommunication

U

V

W

10-230VAC’ (running)

0VAC (standby)

connect to DC Motor

external driver motor

connect to Electric Expansion Valve

pipe temp.sensor& room temp.sensor&Exaust temp. sensor

6 5 4 3 2 1

TP T4 T3

RT

RT+5VDC

RT

+5VDC

+5VDC

+12V DC pulse wave between (+1)-GND

+12V DC pulse wave between (+2)-GND+12V DC pulse wave between (+3)-GND


+12V DC+12V DC

6 5 4 3 2 1

AC fan motor5

4

3

2

1low speed

N linehigh speed

FAN Starting Capacitor

FAN Starting Capacitor

connect to chassis heaterwhen is on, 100-130VAC OUTPUT

UVW0VAC(standby)

10-230VAC’(running)

connect tocompressor

connect to PCcommunication

EEPROM Programmer

PortTest Port

bridge

IPM for compressor

IPM for DC FAN

P

6

For KSIQ018-H216-O, KSIQ024-H216-O,

After power on, LED3(Green color) and LED2(Red color) will be flash if the unit has some problems.

No. Problems LED3 (Green)

LED2 (Red)

IU display

1 standby for normal O X

2 Operation normally X O

3 IPM malfunction or IGBT over-strong current protection X P0

4 Over voltage or too low voltage protection O O P1

5 EEPROM parameter error O E5

6 Inverter compressor drive error X P4

7 Inverter compressor drive error O P4

8 Inverter compressor drive error P4

O（light） X（off）（2.5Hz flash）

Suction

Exhaust

+

17122200000309

HuiQi

TestPort

1

1

HEAT

4-WAY

W

BLUE

BLACK

REDV

U

TP T3T4

No

NO

NOYES

Low-Fre

No

Have

YESHaveTemp-Pro

Rdi

Ripm

11

PMV

44

15V17V

[V1.8] 2015-01-16

7815

22

1

34

REACTOR

311 TEST

7805

N-IN

DC-FAN

AC-F

AN

L-IN

S

KFR-72W/BP2-(311+0515+6061HD+PSS30S92F6-AG+6822+HEAT).D.13.WP2.1

12V 5V

CN3

DSA1

K

A

K

D5

R18

R46

R107A

R515A

R316A

R18A

IC403

D4

C21

R54

R55

R68 R69 R56

R90

C14

J4 R16

R52

J5

+LED1

R78

R142

R141

R155

R154

R153

R152

R151

R150

C3

R108

R107

RC2

RC4

RC1

RC3C1

FUSE1

65T 250V30A

ZR1

ZR2

CN30

R109

R58 R61

R60R59

C301

C76

C312

R315

C83C85

C86

C91

R156R158

R169

R170

R171

R172

IC34

D11

R157

R159

C310

C306

C308

C311 C307

C309

R110

E305

C302

+

DZ301Q3

R75

R84

C103

CN28

CN29

CN6-1

CN6

CN13

CN12

CN2

CN8

CN7

CN22DR

CN21DR

R102

J6

PTC1

CN414

R127 C105

+

E5

IPM2

C501

C503

C507

C508

C509

C510

C511

C512

C517

+DZ501 R501

R502

R503

R504

R505

R506

R509

R510

R511

R512

R513R514

R523

C502

C505

+

DZ502

R515

R522

+

DZ504

C504

R316

~ ~

IN

AC-

+

R101

R100

R71

C42

CN20

RY5

CN16

CN18

NTC4

C8

C513

C514

C515

C516

R516R517

R518R519

R520

R521

C27

IC7 24LC512

33

49

17

1

IC9

R53

IC101

R160

+

E4

+

E3

R83

R82R81

R80

R79

R50

C47

C20

R322R321

R320

Q2

IC405

+

E10

R120

R167

R166

R32

+

E1

R12 +LED3

R412

R413

R414

R415

Rdi

Ripm

R13

CN24

R72

R8

R87R74

J3

IC17

+

E24

D2

R124

C2

J2 J1

C77

AC

AC

+-

BR1

C13

D3

R7

RY3

RY4

RY2

CN5

R23

R24

R25

R26

R27

C74

C75

RY1

+

E14C9

C17

C18

C19

C23

C24

C26

C32

C33

C35

C36

C37

C39

C43

C48

C49

C52

C65

C67

C78

C87

C89

C90

C92

C147

C153

C25

CN9

CN23

CN39

+

E17

+

E23

+

E28

IC824LC08

IC1224LC08

IC14

+

LED2

OSC1

R5

R30

R31

R40

R41

R42

R48

R49

R62

R64

R65

R66

R70

R73

R76

R77

R86

R92

R97

R161

R162

R163

R164

R165

R176

R177

R419

X1

C58

+

+

E405

IC404

R45

Q1

C15

C22

R21

R22

R28

R29

R33

+

E22

R3R4

R121

C5

+

E6

R10

C28

C4

CN38

IC10

C79

C80

D7

C6

R148

R63

C506

R507

R508

+

E11

R106C73

IC21 PC817

IC31PC817

R175

R178

C409

IC402

C403

IC11

+

E402

D401

C401

R403

C411

C40

C50

D403

R401

R405

R406

R404

+

E404

D402

D404

C408

C402

+

E403R407

R408

C404

C110

+

E409

+E401

R402

C405

10

9

7

65

4

3

1

T401

C406

C407

D13

D14

+

E406

+

E407

+

E408

+

E502

+

E503

+

E504

+

DZ503

CN25

R6R9

CN60

IC406

IC407

C7

D1

R1

R137

IC2

PC851

IC1

PC817

R2

R126

R125

R123R122

R119

R118

R117

R15

R14

C99

C98

C97

C96C95

C94

C93

C66

D20

R17

CN17

CN10

CN1

C41

R38

C45

C44

R136

R135

R134

R104

D12

D10

C54

+

D8

D9

R57

R20

C242

C243

C244

R89

E2

R67

C84

C10

C11

IC4

C12

C38

R34

R47R88

IC32

R39

R35

R36

R19

+

DZ6

R37

C46

C51

C53

CN19+DZ2

+

E27

IC3 PC817

IC5PC817

Q8

R43

R44

R85

R91

R93

R95R96

R99

D15

R51

+E410

+

E8

C60

C61

E302

E303

E304 C62

VN1

VP1

U

P

VUB

U+

W

V+

V

W+

U-

VVB

VWB

FO

W-V-

NV

NW

NU

VNCCIN

IPM1

+

DZ304

+ DZ303

+ DZ302C314

C316

C318

C30

C34

C31

ZR3

ZR4

C82

L1

R11

R140

CN27

E301R168

IGBT1

connect to the DR moduleconnect to earth

fuse 250V 30Aconnect to reactance

290-330VDC standby210-300VDC running

power supply 208-230V AC connect to the terminal

connect to 4-way val vewhen 4-way is on, output 208-230V AC

AC FAN mototr

connect to compressor heaterwhen heater is on, output 208-230V AC

1 low speed

2 hign speed3 ground

external drive motorconnect to DC motor0V AC standby10~200V AC’ running

UVW

connect to electric expansion valve

6 5 4 3 2 1

+12VDC

+12VDC

+12V DC pulse wave between( +4)-GND




EEPROM Programmer Port

reserve

test port

Connect to PCcommunication

V

U

W

connect to PC communication test port

LED2 （red）&LED3（green）: status lightcombination LED2 and LED3 show errors

（refer to the attechment Word ）

LED: status light（yellow）

slow flicker：standby（0.5Hz）quick flicker：error （2Hz）continuous light: running

internal drive motor

6 5 4 3 1

rotate speed feedback signal0-15V

square signaldrive pow

er voltage: +15VD

CD

C negative pole: GN

D

DC positive pole P: 315VDC

exhaust temp. sensor

pipe temp.sensor& room temp. sensorTP T4 T3

7 6 5 4 3 2 1

RT+5V

DC

RT RT

+5V D

C+5V

DC

CN5/CN4 connect to chassis heaterwhen heater is on, output 208-230V AC

connect to DC motor

0V AC standby

10~200V AC’ running

bridge

IGBT

fast recovery diode(FRD)

IPM for compressor

IPM for DC FAN

reserve

P

N

7

For KSIQ036-H216-O,

N L

SHOW/SW

EARTH

[1.4]2014.06.26

EU-KFR105W/BP3T5N1-350S.D.13.WP1-1

L-OUT

N-OUT

CONNECT TO INVERTER driver

HIGH

LOW

T2B-E T2B-DT2B-C T2B-BT2B-A

TP

T4

T3

S-E

S-D

S-C

S-B

S-A

FAN_OUTFAN_IN

ABCDE

202302141206

CN19

CN10

N

CN9

S

CN44

HEAT2

CN43

FAN

CN42 C

CN41C

CN40

HEAT1

CN34

CN33

CN30

CN29

CN28

CN27

CN26

CN22

4-WAY

CN20CN18 CN17

CN16

CN14

CompTop

CN12 CN11

CN8

CN6

CN5

CN4

N

CN3

N

CN2N-IN

CN1

L-IN

CN23

CN7

CN13

P-1

CN35 N

CN37FAN-L

CN36

FAN-H

CN21

Electric ExpansionValue B

Electric ExpansionValue E

Electric ExpansionValue D

Electric Expansion

Value CElectric ExpansionValue A

485communication

testPortconnect to detector external drive DC fan

motor input terminal

external drive DC fanmotor ouput terminal

current loopcommunication A

current loopcommunication B

current loopcommunication C

current loopcommunication D

current loopcommunication E

digital display

FuseT30A/250V

connect to high and low

pressure sensor

connect totrmp. sensor

Fuse 5A/250V

connect to earth

CN23 reserve

digital display button

test reportconnect to detector

CN43-5,CN43-1/CN41,CN42AC fan motor capacitorconnector

CN43-4/CN37 CONNECT TOAC FAN MOTOR(LOW SPEED)

CN43-3/CN36AC fan motor low speedconnectorCN43-2/CN35AV fan motor N phase

current loopcommunication C

Signal wire

24VDC Pulse wave

connect to the terminal


208-230V AC

power supply

room temp sensor

pipe temp sensor

(3.3V)

(3.3V)

high pressure sensor

low pressure sensor

Connect to the Indoor evap.pipeout temp. sensor

T2B-A、T2B-B、T2B-C、T2B-D、T2B-E





+12V DC

+12V DC

6 5 4 3 2 1

when 4-way is ON, output 208-230VACconnect to the 4-WAY

when heater is ON, output 208-230V AC

connect to compressor heater

CN44 LCN10 N

CN40 LCN4 N

CN22 LCN3 N

connect to exhausttemp. sensor


208-230V AC

external drive DC fanmotor connector

T3

T4

electricheater1

electricheater 2

8

IPM board,

202302141237

PFC-L2

[ 1.6]2014.10.16

EU-KFR105W/BP2T3N1-350(767).D.13.MP2-1

PFC-L1 EARTH

+

CN55

TO-MAIN

W

V

U

IPM2

IPM1

IC14

24C0

8

C N 54

L-IN2

N-I

N2

OUTFAN(DC)

IC1

CN53power supply

connect to the terminal208-230V AC

CN54CN51CN52

PFC

inductanceterminal

CN58EATTH

-+210-300VDC (Running)

CAPACITOR Voltage

290-330VDC (standby)

CN55TO MAIN

CN19

connect to DC fan motor

U

V

W

10-200VAC (running)

0VAC (standby)

connect to the compressor

U

V

W10-200VAC (running)0VAC (standby)

CN57Debug

9

9.3 Diagnosis and Solution 9.3.1 EEPROM parameter error diagnosis and solution(E0/F4) Error Code E0/F4

Malfunction decision conditions

Indoor or outdoor PCB main chip does not receive feedback from EEPROM chip.

Supposed causes Installation mistake PCB faulty

Trouble shooting:

Yes

Replace the indoor/outdoor main PCB.

Power off, then restart the unit 2 minutes later.

EEPROM: a read-only memory whose contents can be erased and reprogrammed using a pulsed voltage. For the location of EEPROM chip, please refer to the below photos.

Indoor PCB Outdoor PCB

Note: The two photos above are only for reference, it’s may be not same totally with the ones on your side.

10

9.3.2 Indoor / outdoor unit’s communication diagnosis and solution(E1) Error Code E1


Indoor unit does not receive the feedback from outdoor unit during 110 seconds and this condition happens four times continuously.

Supposed causes Wiring mistake Indoor or outdoor PCB faulty

Trouble shooting:

Measure Vs. Is the voltage moving alternately between -25V to 25V?Measure Vs. Is the voltage moving alternately between -25V to 25V?

Yes

Power off, then restart the unit 2 minutes later. Is the error extinguished?

Power off, then restart the unit 2 minutes later. Is the error extinguished?

No

Replace the outdoor main PCB.Power on. Is the error

extinguished?

Replace the outdoor main PCB.Power on. Is the error

extinguished?

Check the outdoor wiring connection。Is the wiring correctly?

Check the outdoor wiring connection。Is the wiring correctly?

Replace the indoor main PCB.Power on. Is the error

extinguished?

Replace the indoor main PCB.Power on. Is the error

extinguished?

Yes

Replace the outdoor main PCB.Replace the outdoor main PCB.

No

Replace the indoor main PCB.Replace the indoor main PCB.

No

Check the indoor wiring connection。Is the wiring correctly?

Check the indoor wiring connection。Is the wiring correctly?

Yes

No

Check whether reactor is normal?Check whether reactor is normal?

Yes

Replace the reactorReplace the reactor No

11

Remark: Use a multimeter to test the DC voltage between 2 port and 3 port of outdoor unit. The red pin of multimeter connects with 2 port while the black pin is for 3 port.

When AC is normal running, the voltage will move alternately between -25V to 25V.

If the outdoor unit has malfunction, the voltage will move alternately with positive value.

While if the indoor unit has malfunction, the voltage will be a certain value.

Remark: Use a multimeter to test the resistance of the reactor which does not connect with capacitor. The normal value should be around zero ohm. Otherwise, the reactor must have malfunction.

12

9.3.3 Zero crossing detection error diagnosis and solution (E2) Error Code E2


When PCB does not receive zero crossing signal feedback for 4 minutes or the zero crossing signal time interval is abnormal.

Supposed causes Connection mistake PCB faulty

Trouble shooting:

Check if the connections and power supply is normal?

Correct the connections. Turn on the unit when the power supply is good.No

Yes

Indoor main PCB is defective. Replace indoor

main PCB.

13

9.3.4 Fan speed has been out of control diagnosis and solution(E3) Error Code E3/F5


When indoor fan speed keeps too low (300RPM) for certain time, the unit will stop and the LED will display the failure.

Supposed causes Wiring mistake Fan ass’y faulty Fan motor faulty PCB faulty

Trouble shooting:

Power off, then restart the unit 2 minutes later

Shut off the power supply, Rotate the fan by hand.

The unit operates normally.

Find out the cause and have it solved

Check the wiring of fan motor

No

Yes

No

Correct the connections.No

NoReplace the fan motor

Yes

Yes

Measure the voltage for the fan motor from the main

PCB refer to the Appendix 1

Yes

Replace the main PCBNo

14

Index 1:

1:Indoor or Outdoor DC Fan Motor(control chip is in 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 has

problems and need to be replaced.

DC motor voltage input and output(voltage: 220-240V~) NO. Color Signal Voltage

1 Red Vs/Vm 280V~380V 2 --- --- --- 3 Black GND 0V 4 White Vcc 14-17.5V5 Yellow Vsp 0~5.6V 6 Blue FG 14-17.5V

DC motor voltage input and output(voltage :115V~) NO. Color Signal Voltage

1 Red Vs/Vm 140V~190V 2 --- --- --- 3 Black GND 0V 4 White Vcc 14-17.5V5 Yellow Vsp 0~5.6V 6 Blue FG 14-17.5V

2. Outdoor DC Fan Motor (control chip is in outdoor PCB)

Power on ,and check if the fan can run normally, if the fan can run normally, the PCB must has

problems and need to be replaced, If the fan can’t run normally, measure the resistance of each two

pins. If the resistance is not equal to each other, the fan motor must have problems and need to be

replaced, otherwise the PCB must has problems and need to be replaced.

3. Indoor AC Fan Motor

Power on and set the unit running in fan mode at high fan speed. After running for 15 seconds,

measure the voltage of pin1 and pin2. If the value of the voltage is less than 100V(208~240V power

supply)or 50V(115V power supply), the PCB must has problems and need to be replaced.

15

9.3.5 Open circuit or short circuit of temperature sensor diagnosis and solution(E5) Error Code E4/E5/F1/F2/F3


If the sampling voltage is lower than 0.06V or higher than 4.94V, the LED will display the failure.

Supposed causes Wiring mistake Sensor faulty PCB faultyTrouble shooting:

Check the connection between temperature

sensor and PCB.Correct the connectionNo

Yes

Replace indoor or outdoor main PCB

Measure the resistance value of the sensor Repalce the sensorNo

Yes

16

9.3.6 Refrigerant Leakage Detection diagnosis and solution(EC) Error Code EC


Define the evaporator coil temp.T2 of the compressor just starts running as Tcool. In the beginning 5 minutes after the compressor starts up, if T2 ＜Tcool－2°C (Tcool－35.6°F) does not keep continuous 4 seconds and this situation happens 3 times, the display area will show “EC” and AC will turn off.

Supposed causes T2 sensor faulty Indoor PCB faulty System problems, such as leakage or blocking.

Trouble shooting:

Is there cool air blowing out from indoor air outlet?

Yes

Yes

Check if T2 sensor is well fixed. Correct the installation or replace T2 sensor. Does the problem remain again?

No

Is there any leakage? Especially the connection parts, such as the gas valve and the liquid valve.

No

Shut off the power supply and turn it on 2 minutes later. Is it still displaying the error code?

Replace indoor PCB.

Yes

Repair the leakage and recharge the refrigerant.

Yes

Clear the blocking.

Yes

Is there any block i n g ? (Such as the capillary or the welded points of the pipes.)

17

9.3.6 Overload current protection diagnosis and solution(F0) Error Code F0


An abnormal current rise is detected by checking the specified current detection circuit.

Supposed causes Power supply problems. System blockage PCB faulty Wiring mistake Compressor malfunction

Trouble shooting:

Check the power supply. Is it normal?

Check the connections and wires .Is it well connection?

Stop the unit. Check the power supplyNo

Yes

No Correct the connections or replace the wires.

Yes

Replace the outdoor main PCB

Yes

Check the reactor .Is it normal? No Replace the reactor

Is there any blocking?

No

Yes Clear the blockage

Check the compressor resistance values refer to the

[Compressor checking]. Is it normal?

Yes

No Replace the compressor

18

9.3.7 IPM malfunction or IGBT over-strong current protection diagnosis and solution(P0) Error Code P0


When the voltage signal that IPM send to compressor drive chip is abnormal, the display LED will show “P0” and AC will turn off.

Supposed causes Wiring mistake IPM malfunction Outdoor fan ass’y faulty Compressor malfunction Outdoor PCB faulty

Trouble shooting: For 9K~24K:

Check if the wiring between main PCB and compressor . If the wires and connectors are broken?

Correct the connection or replace the wires and connectors.Yes

No

IPM continuity check. Check if the IPM terminal resistance values are uniform.

Replace the IPM board or replace the main PCB if the IPM board and main

PCB are integrated together.No

Check if the outdoor fan runs properly or the outdoor unit

ventilation is good.

Yes

No Please refer to the solution of 【Fan Speed Has Been Out Of Control】malfunction

Yes

Check if the compressor resistance values are uniform . No Replace the compressor.

Yes

Replace the outdoor main PCB if the main PCB and IPM are separate.

19

For example:

P-U

P-V

Note: The photos below are only for reference, it’s may be not same totally with the ones on your side.

20

P-W

N-U

21

N-V

N-W

22

For 30K~36K: 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:

Yes

Check whether the power voltage is normal.


Measure whether outdoor terminal voltage is normal？


Restart the unit when the power supply gets normal

Restart the unit when the power supply gets normalNo

Yes

No Reconnect it wellReconnect it well

Yes

Measure whether the voltage between L and N is normal？Measure whether the voltage between L and N is normal？

Yes

Measure whether input voltage of bridge rectifier is normal？


No

No

Check the wiring of power wires well or

correctly


correctly

Reconnect it wellReconnect it wellCheck the wiring of L and N well or correctlyCheck the wiring of L

and N well or correctly

Reconnect it wellReconnect it well Check the wiring of

bridge rectifier well or correctly

Check the wiring of bridge rectifier well or

correctly

No

Yes

Replace the PFC module(If has)Replace the PFC module(If has)

No

Measure whether the voltage between P and N is normal

refer to the Appendix 4？


refer to the Appendix 4？Replace the bridge rectifierReplace the bridge rectifierNoCheck whether bridge

rectifier is normalCheck whether bridge

rectifier is normal

Check the wiring of reactor or inductance

Check the wiring of reactor or inductance Reconnect the wiring Reconnect the wiring No

Check whether reactor or inductance is normal


Yes

Replace reactor or inductance

Replace reactor or inductanceNo

Check whether the connecting wire between main board and the

IPM board is connected tightly


IPM board is connected tightlyReconnect it wellReconnect it wellNo

Check if the outdoor unit ventilation is good


Yes

Make the outdoor unit ventilate wellMake the outdoor unit ventilate well

Check whether the refrigerant system is okCheck whether the refrigerant system is ok

No

Check if the outdoor fan runs properly


please refer to the solution of [fan speed has been out of control malfunction] . Find out the cause and have it solved.


No

Yes

No

Yes

Yes

Check the compress is normal


Yes

Replace the compressorReplace the compressorNo

Replace IPM board Replace IPM board

Replace the outdoor main PCB Replace the outdoor main PCB

No

Check whether the connecting wire of the compressor is

connected correctly or tightly


connected correctly or tightlyReconnect it wellReconnect it wellNo

Yes

Yes

23

9.3.8 Over voltage or too low voltage protection diagnosis and solution(P1) Error Code P1


An abnormal voltage rise or drop is detected by checking the specified voltage detection circuit.

Supposed causes Power supply problems. System leakage or block PCB faulty

Trouble shooting:

Check the power supply

Check the connections and wires

Stop the unitNo

Yes

No Correct the connections or replace the wires.

Yes

Replace the reactor

Yes

No Replace the IPM board Check the voltage between P

and N

Check the reactor

Yes

No Replace outdoor main PCB

Remark: Measure the DC voltage between P and N port. The normal value should be around 310V.

P N

24

9.3.9 High temperature protection of compressor top diagnosis and solution(P2) Error Code P2


If the sampling voltage is not 5V, the LED will display the failure.

Supposed causes Installation mistake Power supply problems. System leakage or block PCB faulty

Trouble shooting: For 18K,24K,

Yes

Fix the Fastening screws wellFix the Fastening screws well Replace the outdoor control PCB.Replace the outdoor control PCB.

No

Check if the Fastening screws on the PCB and radiator are

fixed well.

For other models,

Check if the air flow system of indoor and outdoor units

are obstructed?

Clear up the air inlet and outlet or the heat exchanger of indoor and outdoor units.Yes

No

Yes

Yes

Turn off the power supply and turn it on 10 minutes later.

Check if the temperature of compressor Top

Is more than 90？

No

Check if the refrigerant system

is normal?

Repair the refrigerant system .Replace the outdoor control PCB.

Yes

Check if all the connection, especially the connection of OLP (Over Load

Protector) sensor is good.Correct the connection.No

Measure the resistance between the two ports of the OLP. Is it zero?

Yes

Replace the OLP.No

Replace the outdoor control PCB.YesNo

25

9.3.10 Inverter compressor drive error diagnosis and solution(P4) Error Code P4


An abnormal inverter compressor drive is detected by a special detection circuit, including communication signal detection, voltage detection, compressor rotation speed signal detection and so on.

Supposed causes Wiring mistake IPM malfunction Outdoor fan ass’y faulty Compressor malfunction Outdoor PCB faulty

Trouble shooting: For 9K~24K:

Check if the wiring between main PCB and compressor connected well?

Correct the connection or replace the wires and

connectors.No

Check if the IPM installed correctly.Correct the installation, tighten the screws and apply silicon grease.

No

IPM continuity check. Check if the IPM terminal resistance values are uniform.

Yes

Replace the IPM board or replace the main PCB if the IPM board and main PCB are integrated together.

No

Check if the outdoor fan runs properly or the outdoor unit

ventilation is good.

Yes

NoPlease refer to the solution of 【Fan Speed Has Been Out Of Control】

malfunction

Yes

Check if the compressor resistance values are uniform . No Replace the compressor.

Yes

Replace the outdoor main PCB if the main PCB and IPM are separate.

Check the reactor or Inductance .Is it normal? No Replace the reactor or

Inductance

Yes

Yes

26

IPM continuity check Turn off the power, let the large capacity electrolytic capacitors discharge completely, and dismount the IPM. Use a digital

tester to measure the resistance between P and UVWN; UVW and N.

Digital tester Normal resistance value Digital tester Normal resistance value (+)Red (-)Black

∞ (Several MΩ)

(+)Red (-)Black

∞ (Several MΩ)

P

N U

N U V

V W

W (+)Red

27

For 30K~36K: 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:

Yes





Restart the unit when the power supply gets normal

Restart the unit when the power supply gets normalNo

Yes

No Reconnect it wellReconnect it well

Yes

Measure whether the voltage between L and N is normal？Measure whether the voltage between L and N is normal？

Yes



No

No


correctly


correctly

Reconnect it wellReconnect it wellCheck the wiring of L and N well or correctlyCheck the wiring of L

and N well or correctly

Reconnect it wellReconnect it well Check the wiring of

bridge rectifier well or correctly

Check the wiring of bridge rectifier well or

correctly

No

Yes

Replace the PFC module(If has)Replace the PFC module(If has)

No


refer to the Appendix 4？


refer to the Appendix 4？Replace the bridge rectifierReplace the bridge rectifierNoCheck whether bridge

rectifier is normalCheck whether bridge

rectifier is normal

Check the wiring of reactor or inductance

Check the wiring of reactor or inductance Reconnect the wiring Reconnect the wiring No



Yes

Replace reactor or inductance

Replace reactor or inductanceNo


IPM board is connected tightly


IPM board is connected tightlyReconnect it wellReconnect it wellNo



Yes

Make the outdoor unit ventilate wellMake the outdoor unit ventilate well

Check whether the refrigerant system is okCheck whether the refrigerant system is ok

No





No

Yes

No

Yes

Yes



Yes

Replace the compressorReplace the compressorNo

Replace IPM board Replace IPM board

Replace the outdoor main PCB Replace the outdoor main PCB

No


connected correctly or tightly


connected correctly or tightlyReconnect it wellReconnect it wellNo

Yes

Yes

28

9.3.11 Low pressure protection diagnosis and solution(P6) Error Code P6


When the pressure of system reach a certain value, the low pressure protector will switch off. After the pressure resume to normal ,the protection code will disappear.

Supposed causes Wiring mistake Pressure protector faulty Fan motor faulty PCB faulty System problems.

Trouble shooting:

Whether the wiring between the low pressure protector and main control board is connected well or

correctly

Whether the wiring between the low pressure protector and main control board is connected well or

correctly

Method: Disconnect the plug. Measure the

resistance of the low pressure protector. If the

protector is normal the value is o

Method: Disconnect the plug. Measure the

resistance of the low pressure protector. If the

protector is normal the value is o

Yes

Yes

Connect it wellConnect it well

Replace outdoor main boardReplace outdoor main board

No

Replace low pressure protectorReplace low pressure protectorNo

Whether the low pressure protector

is broken

Whether the low pressure protector

is broken

Check whether the outdoor ambient temperature is too

low

Check whether the outdoor ambient temperature is too

low

No

Stop the unit Stop the unit Yes

Open fully valve core of high pressure valve

Open fully valve core of high pressure valveNo

Check whether valve core of high pressure valve is

opened

Check whether valve core of high pressure valve is

opened

Check if the indoor fan runs properly in cooling mode

Check if the indoor fan runs properly in cooling mode

please refer to the solution of [fan speed has been out of control

malfunction]. Find out the cause and have it solved.

please refer to the solution of [fan speed has been out of control

malfunction]. Find out the cause and have it solved.

No

Yes

Yes

No

Check whether the refrigerant system is ok

Check whether the refrigerant system is ok

Refrigerant is not enough add the refrigerant

Refrigerant is not enough add the refrigerant

No

29

Main parts check 1. Temperature sensor checking

Disconnect the temperature sensor from PCB, measure the resistance value with a tester.

Temperature sensors.

Room temp.(T1) sensor,

Indoor coil temp.(T2) sensor,

Outdoor coil temp.(T3) sensor,

Outdoor ambient temp.(T4) sensor,

Compressor discharge temp.(TP) sensor.

Measure the resistance value of each winding by using the multi-meter.

30

Appendix 1 Temperature Sensor Resistance Value Table for T1,T2,T3,T4 (°C --K) °C °F K Ohm °C °F K Ohm °C °F K Ohm °C °F K Ohm -20 -4 115.266 20 68 12.6431 60 140 2.35774 100 212 0.62973

-19 -2 108.146 21 70 12.0561 61 142 2.27249 101 214 0.61148

-18 0 101.517 22 72 11.5 62 144 2.19073 102 216 0.59386

-17 1 96.3423 23 73 10.9731 63 145 2.11241 103 217 0.57683

-16 3 89.5865 24 75 10.4736 64 147 2.03732 104 219 0.56038

-15 5 84.219 25 77 10 65 149 1.96532 105 221 0.54448

-14 7 79.311 26 79 9.55074 66 151 1.89627 106 223 0.52912

-13 9 74.536 27 81 9.12445 67 153 1.83003 107 225 0.51426

-12 10 70.1698 28 82 8.71983 68 154 1.76647 108 226 0.49989

-11 12 66.0898 29 84 8.33566 69 156 1.70547 109 228 0.486

-10 14 62.2756 30 86 7.97078 70 158 1.64691 110 230 0.47256

-9 16 58.7079 31 88 7.62411 71 160 1.59068 111 232 0.45957

-8 18 56.3694 32 90 7.29464 72 162 1.53668 112 234 0.44699

-7 19 52.2438 33 91 6.98142 73 163 1.48481 113 235 0.43482

-6 21 49.3161 34 93 6.68355 74 165 1.43498 114 237 0.42304

-5 23 46.5725 35 95 6.40021 75 167 1.38703 115 239 0.41164

-4 25 44 36 97 6.13059 76 169 1.34105 116 241 0.4006

-3 27 41.5878 37 99 5.87359 77 171 1.29078 117 243 0.38991

-2 28 39.8239 38 100 5.62961 78 172 1.25423 118 244 0.37956

-1 30 37.1988 39 102 5.39689 79 174 1.2133 119 246 0.36954

0 32 35.2024 40 104 5.17519 80 176 1.17393 120 248 0.35982

1 34 33.3269 41 106 4.96392 81 178 1.13604 121 250 0.35042

2 36 31.5635 42 108 4.76253 82 180 1.09958 122 252 0.3413

3 37 29.9058 43 109 4.5705 83 181 1.06448 123 253 0.33246

4 39 28.3459 44 111 4.38736 84 183 1.03069 124 255 0.3239

5 41 26.8778 45 113 4.21263 85 185 0.99815 125 257 0.31559

6 43 25.4954 46 115 4.04589 86 187 0.96681 126 259 0.30754

7 45 24.1932 47 117 3.88673 87 189 0.93662 127 261 0.29974

8 46 22.5662 48 118 3.73476 88 190 0.90753 128 262 0.29216

9 48 21.8094 49 120 3.58962 89 192 0.8795 129 264 0.28482

10 50 20.7184 50 122 3.45097 90 194 0.85248 130 266 0.2777

11 52 19.6891 51 124 3.31847 91 196 0.82643 131 268 0.27078

12 54 18.7177 52 126 3.19183 92 198 0.80132 132 270 0.26408

13 55 17.8005 53 127 3.07075 93 199 0.77709 133 271 0.25757

14 57 16.9341 54 129 2.95896 94 201 0.75373 134 273 0.25125

15 59 16.1156 55 131 2.84421 95 203 0.73119 135 275 0.24512

16 61 15.3418 56 133 2.73823 96 205 0.70944 136 277 0.23916

17 63 14.6181 57 135 2.63682 97 207 0.68844 137 279 0.23338

18 64 13.918 58 136 2.53973 98 208 0.66818 138 280 0.22776

19 66 13.2631 59 138 2.44677 99 210 0.64862 139 282 0.22231

31

Appendix 2 Temperature Sensor Resistance Value Table for TP (°C --K) °C °F K Ohm °C °F K Ohm °C °F K Ohm °C °F K Ohm

-20 -4 542.7 20 68 68.66 60 140 13.59 100 212 3.702

-19 -2 511.9 21 70 65.62 61 142 13.11 101 214 3.595

-18 0 483 22 72 62.73 62 144 12.65 102 216 3.492

-17 1 455.9 23 73 59.98 63 145 12.21 103 217 3.392

-16 3 430.5 24 75 57.37 64 147 11.79 104 219 3.296

-15 5 406.7 25 77 54.89 65 149 11.38 105 221 3.203

-14 7 384.3 26 79 52.53 66 151 10.99 106 223 3.113

-13 9 363.3 27 81 50.28 67 153 10.61 107 225 3.025

-12 10 343.6 28 82 48.14 68 154 10.25 108 226 2.941

-11 12 325.1 29 84 46.11 69 156 9.902 109 228 2.86

-10 14 307.7 30 86 44.17 70 158 9.569 110 230 2.781

-9 16 291.3 31 88 42.33 71 160 9.248 111 232 2.704

-8 18 275.9 32 90 40.57 72 162 8.94 112 234 2.63

-7 19 261.4 33 91 38.89 73 163 8.643 113 235 2.559

-6 21 247.8 34 93 37.3 74 165 8.358 114 237 2.489

-5 23 234.9 35 95 35.78 75 167 8.084 115 239 2.422

-4 25 222.8 36 97 34.32 76 169 7.82 116 241 2.357

-3 27 211.4 37 99 32.94 77 171 7.566 117 243 2.294

-2 28 200.7 38 100 31.62 78 172 7.321 118 244 2.233

-1 30 190.5 39 102 30.36 79 174 7.086 119 246 2.174

0 32 180.9 40 104 29.15 80 176 6.859 120 248 2.117

1 34 171.9 41 106 28 81 178 6.641 121 250 2.061

2 36 163.3 42 108 26.9 82 180 6.43 122 252 2.007

3 37 155.2 43 109 25.86 83 181 6.228 123 253 1.955

4 39 147.6 44 111 24.85 84 183 6.033 124 255 1.905

5 41 140.4 45 113 23.89 85 185 5.844 125 257 1.856

6 43 133.5 46 115 22.89 86 187 5.663 126 259 1.808

7 45 127.1 47 117 22.1 87 189 5.488 127 261 1.762

8 46 121 48 118 21.26 88 190 5.32 128 262 1.717

9 48 115.2 49 120 20.46 89 192 5.157 129 264 1.674

10 50 109.8 50 122 19.69 90 194 5 130 266 1.632

11 52 104.6 51 124 18.96 91 196 4.849

12 54 99.69 52 126 18.26 92 198 4.703

13 55 95.05 53 127 17.58 93 199 4.562

14 57 90.66 54 129 16.94 94 201 4.426

15 59 86.49 55 131 16.32 95 203 4.294

16 61 82.54 56 133 15.73 96 205 4.167

17 63 78.79 57 135 15.16 97 207 4.045

18 64 75.24 58 136 14.62 98 208 3.927

19 66 71.86 59 138 14.09 99 210 3.812

32

Appendix 3:

ΔT() =9ΔT()

5°C °F °C °F °C °F °C °F °C °F-5 23 21 69.8 51 123.8 82 179.6 113 235.4

-4 24.8 22 71.6 52 125.6 83 181.4 114 237.2

-3 26.6 23 73.4 53 127.4 84 183.2 115 239

-2 28.4 24 75.2 54 129.2 85 185 116 240.8

-1 30.2 25 77 55 131 86 186.8 117 242.6

0 32 25.5 77.9 56 132.8 87 188.6 118 244.4

0.5 32.9 26 78.8 57 134.6 88 190.4 119 246.2

1 33.8 27 80.6 58 136.4 89 192.2 120 248

1.5 34.7 28 82.4 59 138.2 90 194 121 249.8

2 35.6 29 84.2 60 140 91 195.8 122 251.6

2.5 36.5 30 86 61 141.8 92 197.6 123 253.4

3 37.4 31 87.8 62 143.6 93 199.4 124 255.2

3.5 38.3 32 89.6 63 145.4 94 201.2 125 257

4 39.2 33 91.4 64 147.2 95 203 126 258.8

4.5 40.1 34 93.2 65 149 96 204.8 127 260.6

5 41 35 95 66 150.8 97 206.6 128 262.4

6 42.8 36 96.8 67 152.6 98 208.4 129 264.2

7 44.6 37 98.6 68 154.4 99 210.2 130 266

8 46.4 38 100.4 69 156.2 100 212 131 267.8

9 48.2 39 102.2 70 158 101 213.8 132 269.6

10 50 40 104 71 159.8 102 215.6 133 271.4

11 51.8 41 105.8 72 161.6 103 217.4 134 273.2

12 53.6 42 107.6 73 163.4 104 219.2 135 275

13 55.4 43 109.4 74 165.2 105 221 136 276.8

14 57.2 44 111.2 75 167 106 222.8 137 278.6

15 59 45 113 76 168.8 107 224.6 138 280.4

16 60.8 46 114.8 77 170.6 108 226.4 139 282.2

17 62.6 47 116.6 78 172.4 109 228.2 140 284

18 64.4 48 118.4 79 174.2 110 230 141 285.8

19 66.2 49 120.2 80 176 111 231.8 142 287.6

20 68 50 122 81 177.8 112 233.6 143 289.4

33

Appendix 4 Normal voltage of P and N

208-240V(1-phase,3-phase) 380-420V(3-phase)

In standby around 310VDC around 530VDC

In operation With passive PFC

module With partial active

PFC module With fully active

PFC module /

>200VDC >310VDC >370VDC >450VDC

34

2.Compressor checkingMeasure the resistance value of each winding by using the tester.

Position Resistance Value

ASN98D22UFZ ASM135D23UFZ ATF235D22UMT ATF250D22UMT Blue - Red

1.75 Ω 0.75 Ω 0.75 ΩBlue - Black

Red - Blue

1.57Ω

35

3. IPM continuity checkTurn off the power, let the large capacity electrolytic capacitors discharge completely, and dismount the IPM. Use a digital

tester to measure the resistance between P and UVWN; UVW and N.

Digital tester Normal resistance value Digital tester Normal resistance value (+)Red (-)Black

∞ (Several MΩ)

(+)Red (-)Black

∞ (Several MΩ)

P

N U

N U V

V W

W (+)Red

4: Fan MotorMeasure the resistance value of each winding by using the tester.

Model YKT-32-6-202L YKT-32-6-3L YKT-48-6-206 YKT-63-6-200L

Brand Tongde Welling Welling Welling

Black – Red

Main

Ω 86 213 152 88.5

Blue –Black

AUX

Ω 64 156 142 138

36

5: Pressure On Service Port Cooling chart:

°F(°C ) ODT

IDT 75

(23.89) 85

(29.44) 95

(35) 105

(40.56) 115

(46.11) BAR 70/59 8.2 7.8 8.1 8.6 10.1 BAR 75/63 8.6 8.3 8.7 9.1 10.7 BAR 80/67 9.3 8.9 9.1 9.6 11.2

°F(°C ) ODT

IDT 75

(23.89) 85

(29.44) 95

(35) 105

(40.56) 115

(46.11) PSI 70/59 119 113 117 125 147 PSI 75/63 124 120 126 132 155 PSI 80/67 135 129 132 140 162

°F(°C ) ODT

IDT 75

(23.89) 85

(29.44) 95

(35) 105

(40.56) 115

(46.11) MPA 70/59 0.82 0.78 0.81 0.86 1.01 MPA 75/63 0.86 0.83 0.87 0.91 1.07 MPA 80/67 0.93 0.89 0.91 0.96 1.12

0.0

2.0

4.0

6.0

8.0

10.0

12.0

75 （23.89） 85 （29.44） 95 （35） 105 （40.56） 115 （46.11）

70/59

75/63

80/67

37

Heating Chart:

°F (°C )

ODT IDT

57/53 (13.89/11.67)

47/43 (8.33/6.11)

37/33 (2.78/0.56)

27/23 (-2.78/-5)

17/13 (-8.33/-10.56)

BAR 55 30.3 28.5 25.3 22.8 20.8 BAR 65 32.5 30.0 26.6 25.4 23.3 BAR 75 33.8 31.5 27.8 26.3 24.9

°F (°C )

ODT IDT

57/53 (13.89/11.67)

47/43 (8.33/6.11)

37/33 (2.78/0.56)

27/23 (-2.78/-5)

17/13 (-8.33/-10.56)

PSI 55 439 413 367 330 302 PSI 65 471 435 386 368 339 PSI 75 489 457 403 381 362

°F (°C )

ODT IDT

57/53 (13.89/11.67)

47/43 (8.33/6.11)

37/33 (2.78/0.56)

27/23 (-2.78/-5)

17/13 (-8.33/-10.56)

MPA 55 3.03 2.85 2.53 2.28 2.08 MPA 65 3.25 3.00 2.66 2.54 2.33 MPA 75 3.38 3.15 2.78 2.63 2.49

0.0

5.0

10.0

15.0

20.0

25.0

30.0

35.0

40.0

57/53(13.89/11.67)

47/43(8.33/6.11)

37/33(2.78/0.56)

27/23 (-2.78/-5)

17/13 (-8.33/-10.56)

55

65

75

The design and specifications are subject to change without prior notice for product improvement. Consult with the sales agency or manufacturer for details.

Tel: (305) 594 - 4972www.klimaire.com

Fax (305) [email protected]

The Klimaire logo is a registered Trademark of Klimaire Products inc.

Copyright 2017 Klimaire Products Inc.

2190 NW 89 Place, Doral, FL 33172 - USA

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