IMVF Engineering Data Manual 20150213

ENGINEERING DATA MANUAL

VERSION: C DATA: Feb12th 2015 ,

CONTENTS PART 1General Information-------------------------------------------------------------------- 1 PART 2 Engineering data----------------------------------------------------------------------- 11 APPENDIX---------------------------------------------------------------------------------------- 223

1

PART 1 General I nfo rm ation 1. Indoor models---------------------------------------- --------------------------------------

3

2. External appearanc e----------------------------------------------------------------------

4

3.

6

Features ---------------------------------------------------------------------------------------

2

1.Indoor/outdoor models Indoor units

Model

Type

112 140 224 280 22

28

36

45

4-way cassette type( PB-700IB)

CK43BV*- CYJ1H

4-way cassette type( PB-950JB)

CK43BV*-4YJ1H

2-way cassette type( PB-1055IB)

CK43BV*-2YJ1H ▲ ▲ ▲ ▲ ▲

▲

▲

56

CF43BV*-MYJ1H ▲ ▲ ▲ ▲

Slim low ESP duct type

CC43BV*LLYJ1H ▲ ▲ ▲ ▲ ▲ ▲ CC43BV*MHYJ1H

HighESPducttype

CC43BV*HHYJ1H

High wall（EEV inside）type Consoletype

80

90

▲ ▲ ▲ ▲ ▲ ▲

Convertible type

MedESPducttype

71

▲

▲▲▲

▲▲ ▲

▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲

CH43BV*-HYJ1H ▲ ▲ ▲ ▲ ▲ ▲ CJ43BV*-MYJ1H ▲ ▲ ▲

3

▲

2.External appearance

Outdoor

CA43BV224/280-V5(6)J1H

CA43BV335/400/450- V5(6)J1H

CA43BV504/560-V5(6)J1H

CA43BV615/680/730-V5(6)J1H

CA43BV800/850/900-V5(6)J1H

CA43BV960/1010-V5(6)J1H

CA43BV1080/1130/1180-V5(6)J1H

CA43BV1235/1300/1350-V5(6)J1H

Model Combination model

Model

Combination model

504

560

615

680

730

800

850

900

224

280

280

280

280

400

400

450

280

280

335

400

450

400

450

450

960

1010

1080

1130

280

280

335

280

280

280

400

400

450

400

1180

1235

280

335

400

450

450

450

4

1300

1350

400

450

450

450

450

450

450

450

Appearance

MODEL

Appearance

MODEL CH43BV022-HYJ1H CH43BV028-HYJ1H

CK43BV028-CYJ1H

CH43BV036-HYJ1H

CK43BV036-CYJ1H

CH43BV045-HYJ1H

CK43BV045-CYJ1H

CH43BV056-HYJ1H

4-way Cassette

HI WALL

CK43BV028-4YJ1H

CH43BV071-HYJ1H

CC43BV090MHYJ1H

CK43BV036-4YJ1H

CC43BV112MHYJ1H

DUCT (MIDDLE ESP 80~100Pa)

CK43BV045-4YJ1H

4-way Cassette

CC43BV140MHYJ1H

CC43BV056HHYJ1H CC43BV071HHYJ1H

CK43BV090-4YJ1H

CC43BV080HHYJ1H

CK43BV112-4YJ1H

CC43BV090HHYJ1H

CK43BV140-4YJ1H

DUCT (HIGH ESP 100~196Pa)

4-way Cassette

CC43BV112HHYJ1H CC43BV140HHYJ1H

CF43BV028-MYJ1H CF43BV036-MYJ1H

Floor Ceiling

CC43BV224HHYJ1H

CF43BV045-MYJ1H CF43BV056-MYJ1H

DUCT (HIGH ESP 100~196Pa)

CF43BV071-MYJ1H

CK43BV022-2YJ1H

CF43BV080-MYJ1H

CK43BV028-2YJ1H

CF43BV090-MYJ1H

CK43BV036-2YJ1H

CF43BV112-MYJ1H

Floor Ceiling

CK43BV045-2YJ1H

CF43BV140-MYJ1H

2-Way Cassette

CC43BV022LLYJ1H CC43BV028LLYJ1H CC43BV036LLYJ1H CC43BV045LLYJ1H CC43BV056LLYJ1H

Slim Duct

CC43BV280HHYJ1H

CC43BV071LLYJ1H

5

CK43BV056-2YJ1H

3. Features 3.1

High efficiency DC inverter scroll compressor, high efficiency, low noise.

The highly efficient scroll compressor is equipped with a "Frame Compliance Mechanism "that allows movement in the axial direction of the frame supporting the cradle scroll. This greatly reduces both leakage and friction loss, ensuring very high efficiency throughout the speed range.

3.2

New big diameter "aviation" fan

The new fan could r educe air loss, air r esistance and noise, incr ease heat exchan ge efficiency Adopt the 4-way air returned heat exchanger technology; the compressor and condenser are placed in separated compartments; this structure of outdoor unit can realize lower air resistance, higher heat efficiency and lower noise level.

3.3

High efficiency DC fan motor

The speed of wide range DC fan motor can be adjust from 0 r/min to 1000 r/min. Compared to convertions AC motors, a DC fan motor offers greater efficiency, especially during low-speed rotation. The effiency shall be 90%.

3.4

Efficient exchanger

W-mode Ф7.94 inner grooved tube, Hydrophilic Aluminum coil fin, it will increase efficiency of heat exchange by 5%

6

Max. length

Singlewaytotalpipelength

Pipe in above figure L1+L2+ L3+ L4+ L5+ L6+ L7+L8+ L9+ L10+ L11+ L12+ L13+ L14+ L15

300

Single way max. pipe equivalent length

175

L1+L3+L5+L7+L14+L13

Max. pipe length after 1st branch pipe

40

L7+L13+L14

Main pipe equivalent length

135

L5

Heightdifferencebetweenindoors

15

—

Heightdifferencebetweenoutdoors

5

—

3.5

Easier maintenance

a. Backup operation If one outdoor unit malfunction happens, the other units keep emergent operation until repair achieved. In one model system also can realize back up operation when fix speed compressor error happens. b. Auto check function. ，

Failure codes displayed by LED in outdoor PCB or controllers are so detailed for us to find the fail place more quickly and can judge the failure content easily. 3.6 Reliable performance a. Approved for RoHS certificate All the parts in the unit have been approved for RoHS certificate. The parts are in conformance with RoHS directive. Thus York Amazon VRF will be environmental for human and nature. The directive is to approximate the laws of the Member States on the restrictions of the use of hazardous substances in electrical and electronic equipment and to contribute to the protection of human health and the environmentally sound recovery and disposal of waste electrical and electronic equipment. b. Less chance of refrigerant leakage The connection type of outdoor gas check valve is brazed, therefore it is not easy to leak any refrigerant.

，

7

3.7

Control system

a. Individual control system Wired controller YR-E14            

                                                                                                                                          



   

8

  

Wired controller YR-E16 4.3 inch big TFT-LCD screen. Backlight design. Cross keys, easy to operate. The large fonts and user-friendly interface, fashion and taking into operation for the elderly. Built-in weekly timer function: when a power failure occurs, all settings remain stored up to 72 hours. Energy saving and the child lock function. Mode memory function. Can realize dual controllers to control one unit, or one controller to control multiple indoor units.



   

7 Wired controller YR-E1

  

Compact design: 86*86mm, Separate the up/down and left/right swing, Back light Clock setting Timer Setting Static Pressure Grade Inquiry Temp. Compensation Setting

.Forcing Cooling/Heating



   

9

  

      Realize to control 16 indoor units ON/OFF synchronously. Set indoor units at the same mode. Note: When the indoor unit is in group control, it CAN NOT be controlled by its individual controller (wired controller or infrared controller).

YR-E14

YR-E16

Indoor unit

Group controller

                      

                   



10

Part 2 Engin eeri ng d ata 12

1. Outdoor specification------------- --------------------------------------------------------

2. Indoor specification------------------- ----------------------------------------------------- 30 3. Dimens io n-------------------------------------------------------------------------------------- 48 68

4. Selecti on data-------------------------------------------------------------------------------4.1 Oper ation sp ace-------------------------------------------------------------------------

68

4.2 Capacity calculation due to capacity m odif ication coeffici ent---------

76

4.3 Air fl ow and s tati c p ress ur e cur ves---------------------------------------------

80

4.4 Air velocity and temperature distribution-------------------------------------

88

4.5 Sou nd data------------------------------------------------------------------------------- 100 5. Operation l imit ---------------------------------------------------------------------------------109 6. Electric data-----------------------------------------------------------------------------------110 7. Wiring diagram------------------------------------------------------------------------------ 117 8. Field diagram----------------------------------------------------------------------------------133 9. Refrig erant pipi ng sy stem---------------------------------------------------------------- 134 10.Electric system------------------------------------------------------------------------------ 148 10.1 Electric installation------------------------------------------------------------------6148 10.2 Specs f or pow er c able and com mun icati on wir e------------------------- 151 10.3 Control function---------------------------------------------------------------------- 152 10.4 Dip switch setting--------------------------------------------------------------------

157

10.5 Outdoor unit control----------------------------------------------------------------

177

10.6 Failure co de----------------------------------------------------------------------------

179

10.7 Failure diag no se----------------------------------------------------------------------

189

11

1. Outdoor Unit

Specification

208V outdoor unit Model

CA43BV224-V5J1H Capacity range

Capacity

HP

Cooling

kW

Heating

kW

Powersupply Ratedpowerinput Cooling

kW

Maxpowerinput

kW

Rated current

A

Max current

Electrical Parameters Heating

A

33.5

31.5

37.5

3/208-230/60

3/208-230/60

3/208-230/60

5.6

8.5

10

12.5

14.5

16.5

15.15

23.35

27.55

38.6

44.7

50.9

kW

5.9

8.8

10.3

kW

12.5

14.5

16.5

Rated current

A A

16.05

24.25

28.45

38.6

44.7

50.9

EER

4.04

COP

4.24

3.58

3.64

11100

11100

14100

Sound pressure level (H)

3

m

/h

dB(A)

Soundpowerlevel(H)

57

3.29

57

dB(A)

73

3.35

60 73

76

Externaldimensions(W/D/H)

mm

990/750/1808

990/750/1808

1390/750/1808

Shipping dimensions(W/D/H) Net/Shippingweight

mm kg

1090/860/1990 240/255

1090/860/1990 240/255

1490/860/1990 368/386

Compressor type

DC INV SCROLL

Compressor brand

INV 1

Refrigerant type

R410A

Refrigerant charge Refrigerant liquid pipe Refrigerant gas pipe

10

9.52

9.52

12.7

mm m

Ratio

Maximum number of indoor units Cooling Heating

R410A

mm

Max.pipelength(Equivalent/Actual)

Connectableindoorunitratio

INV 1 +1 FIX

R410A 10

Total pipe length

External static pressure

INV 1

10

mm

Connection

DC INV SCROLL

kg

Oilequalizationpipe

MaxdropbetweenI.U.&O.U*1

DC INV SCROLL

MITSUBISHI ELECTRIC MITSUBISHI ELECTRIC MITSUBISHI ELECTRIC

Compressor quantity

Working temp.

28

Maxpowerinput

Air flow (H)

Installation

12

22.6

Ratedpowerinput

Max current

Performance

CA43BV335-V5J1H

10

25

Ph/V/Hz

CA43BV280-V5J1H

8

22.22

22.22

9.52

9.52

300 m

300

175/150

m

50/40 Pa

300

175/150 50/40

50

%

25.4 9.52

50

175/150 50/40 50

50%-130%

50%-130%

50%-130%

℃

13 -5~43

16 -5~43

19 -5~43

℃

-15~21

-15~21

-15~21

12

Model


Capacity

HP

Cooling

kW

Heating

Cooling

Heating

56.5

3/208-230/60

3/208-230/60

kW

12

14

14.1

kW

18.5

20

27

Rated current

A A kW

Max power input Rated current

32.75

38.95

57.1

61.7

12.6

kW A

38.5 83.3

14.5

18.5

A

Max current

14.7

20

27

34.65

39.85

57.1

61.7

40.3 83.3

EER

3.33

COP

3.57

3.45

3.84

14100

14100

22200

Air flow (H) Performance

50

3/208-230/60

Max power input

Ratedpowerinput

Parameters

50.6

Ratedpowerinput

Max current

Electrical

18

45

45

Ph/V/Hz

CA43BV504-V5J1H

16

40

kW

Powersupply

CA43BV450-V5J1H

14


3

/h

m dB(A)

Soundpowerlevel(H)

60

dB(A)

External dimensions(W/D/H)

3.59

60 76

mm

3.21

1390/750/1808

60 76

77 990/750/1808+

1390/750/1808

990/750/1808 Shippingd imensions(W/D/H)

mm

Net/Shippingweight

kg

1490/860/1990 368/386

Compressor type 1INV+1FIX

Refrigerant type

R410A

Refrigerant liquid pipe

1INV+1FIX R410A

20

mm

12.7

12.7

15.88 28.58

mm

25.4

28.58

9.52

9.52

Total pipe length

m


Ratio

Maximum number of indoor units

R410A

10

mm

External static pressure Connectableindoorunitratio

1INV+1INV

10

Oilequalizationpipe

Connection

480/510

kg

Refrigerant gas pipe


1090/860/1990

368/386 MITSUBISHI ELECTRIC

Compressorquantity Refrigerant charge

Working temp.

1490/860/1990

DC INV SCROLL

Compressor brand Installation

1090/860/1990+

300 m

300

175/150

m Pa %

9.52 300

175/150

175/150

50/40

50/40

50/40

50 50%-130%

50 50%-130%

50 50%-130%

Cooling

℃

23 -5~43

26 -5~43

29 -5~43

Heating

℃

-15~21

-15~21

-15~21

13

Model


Capacity

HP

24

kW

56

61.5

68

Heating

kW

63

69

76.5

Cooling Electrical

Max power input

Ph/V/Hz kW kW

Heating

3/208-230/60 17 29

3/208-230/60 18.5 31

3/208-230/60 20.5 33

Rated current

A

46.7

50.9

56.1

Max current

A

89.4

95.6

101.8

Ratedpowerinput

Parameters

Max power input

kW

17.6

kW

19.1

29

21.4

31

33

Rated current

A

48.5

52.7

58.9

Max current

A

89.4

95.6

101.8

EER

3.29

COP

3.58

3.61

3.57

22200

25200

25200

Air flow (H) Sound pressure level (H)

3

m

/h

dB(A)

Soundpowerlevel(H)

60

dB(A)


mm

Shipping dimensions(W/D/H)

mm

Net/Shippingweight

kg

3.32

61 78

78

" 990/750/1808+

" 990/750/1808+

" 990/750/1808+

990/750/1808" "1090/860/1990+

1390/750/1808" "1090/860/1990+

1390/750/1808" "1090/860/1990+

1090/860/1990"

1490/860/1990"

1490/860/1990"

480/510

608/641

608/641

DC INV SCROLL

Compressor brand

MITSUBISHI ELECTRIC

Compressorquantity

1INV+1INV

Refrigerant type

R410A

Refrigerant charge Refrigerant liquid pipe Refrigerant gas pipe

(1INV)+(1INV+1FIX) (1INV)+(1INV+1FIX) R410A

R410A

kg

20

20

20

mm

15.88

15.88

15.88

mm

Oilequalizationpipe

mm

Total pipe length

m

Max.pipelength(Equivalent/Actual) MaxdropbetweenI.U.&O.U*1

3.32

61 77

Compressor type

Installation

CA43BV680-V5J1H

22

Cooling

Powersupply Ratedpowerinput

Performance

CA43BV615-V5J1H

20

28.58

28.58

28.58

9.52

9.52

9.52

300 m

m

300

175/150

300

175/150

175/150

50/40

50/40

50/40

50 50%-130%

50 50%-130%

50 50%-130%

Connection

External static pressure Connectableindoorunitratio

Ratio


Pa %

Working

Cooling

℃

33 -5~43

36 -5~43

39 -5~43

temp.

Heating

℃

-15~21

-15~21

-15~21

14

Model


Capacity

HP

Cooling

kW

Heating

Cooling

Maxpowerinput

22.5

24

34.5

37

Ratedcurrent

A A

Heating

kW

Maxpowerinput Ratedcurrent

62.3

65.5

106.4

114.2

23.3

kW

25.2

34.5 A

Maxcurrent

A

37 64.1

69.3

106.4

114.2

EER

3.24

COP

3.50

3.57

25200

28200


3/208-230/60

kW

Ratedpowerinput

Parameters

90

3/208-230/60

k W

Maxcurrent

Electrical

80

81.5

Ph/V/Hz Ratedpowerinput

28

73

kW

Powersupply

CA43BV800-V5J1H

26


3

m

/h

dB(A)

Soundpowerlevel(H)

61

dB(A) mm


mm

Net/Shipping weight

62 78


kg

"1390/750/1808+

1390/750/1808" "1090/860/1990+

1390/750/1808" "1490/860/1990+

1490/860/1990"

1490/860/1990"

DCINVSCROLL

Compressor brand

79

" 990/750/1808+

608/641

Compressor type

3.33

MITSUBISHI ELECTRIC

736/772 DCINVSCROLL

MITSUBISHI ELECTRIC

Installation Compressorquantity

(1INV)+(1INV+1FIX)

Refrigerant type

R410A

Refrigerant charge

kg


20

mm

19.05

(1INV+1FIX)+(1INV+1FIX) R410A 20 19.05


mm

31.8

31.8

Oil equalization pipe

mm

9.52

9.52

Total pipe length m Max.pipelength(Equivalent/Actual) MaxdropbetweenI.U.&O.U*1 Externalstaticpressure

m

m Pa

300 175/150

300 175/150

50/40

50/40 50

%

50%-130%

50

Connection


Ratio


Working

Cooling

℃

43 -5~43

46 -5~43

temp.

Heating

℃

-15~21

-15~21

15

50%-130%

Model


Capacity

HP

Cooling

kW

Heating

Cooling Electrical

kW

26

Maxpowerinput

kW

38.5

A

Heating

Maxpowerinput

40 71.7

77.9

118.8

123.4

k W

27.1

29

kW

38.5

40

Ratedcurrent

A

Maxcurrent

A

74.5

79.7

118.8

123.4

EER

3.27

COP

3.51

3.45

28200

28200


3/208-230/60 28

A

Ratedpowerinput

Parameters

100

3/208-230/60

Ratedpowerinput

Maxcurrent

90

95

Ph/V/Hz

Ratedcurrent

32

85

kW

Powersupply

CA43BV900-V5J1H

30


3

m

/h

dB(A)

Soundpowerlevel(H)

62

dB(A) mm


mm

Net/Shipping weight

62 79


kg

"1390/750/1808+

1390/750/1808"

1390/750/1808"

"1490/860/1990+

"1490/860/1990+

1490/860/1990"

1490/860/1990"

DCINVSCROLL

Compressor brand

79

"1390/750/1808+

736/772

Compressor type

3.21

MITSUBISHI ELECTRIC

736/772 DCINVSCROLL

MITSUBISHI ELECTRIC


(1INV+1 FIX)+(1 INV+1FIX)

Refrigerant type

R410A

Refrigerant charge

kg


(1INV+1 FIX)+(1 INV+1FIX) R410A

20

mm

19.05

20 19.05


mm

31.8

31.8


mm

9.52

9.52

Total pipe length

m

Max.pipelength(Equivalent/Actual) MaxdropbetweenI.U.&O.U*1 Externalstaticpressure

300 m

300

175/150

m

50/40 Pa

50

%

175/150 50/40

50%-130%

50

Connection


Ratio


Working

Cooling

℃

50 -5~43

53 -5~43

temp.

Heating

℃

-15~21

-15~21

16

50%-130%

Model


Capacity

HP

Cooling

kW

Heating

kW

Powersupply

Cooling

kW

29

kW

47.5

Ratedcurrent

A

Heating

kW

Ratedcurrent

A

32.1 49

83.2

88.4

146.5

151.1

3.31

COP

3.58

3.52

36300

36300


3

m

/h

dB(A)

Soundpowerlevel(H)

63

dB(A)


mm

Net/Shipping weight

kg

990/750/1808+

990/750/1808+

1390/750/1808

1390/750/1808

1090/860/1990+

"1090/860/1990+

1090/860/1990+

1090/860/1990+

1490/860/1990"

1490/860/1990"

MITSUBISHI ELECTRIC

Compressorquantity

1INV+1INV+(1INV+1FIX)

Refrigerant type

R410A

Refrigerant charge Refrigerant liquid pipe Refrigerant gas pipe Oil equalization pipe Total pipe length

990/750/1808+

DCINVSCROLL

Compressor brand

DCINVSCROLL

MITSUBISHI ELECTRIC 1INV+1INV+(1INV+1FIX) R410A

30

30

mm

19.05

19.05

31.8 9.52

m

Max.pipelength(Equivalent/Actual) Externalstaticpressure

848/896

kg

mm mm


81

990/750/1808+

848/896

Compressor type

3.26

63 81

mm


Installation

151.1

EER Air flow (H) Performance

85.7

146.5 47.5

A

Maxcurrent

49 79.5

30.2

kW

3/208-230/60 31

A

Maxpowerinput

113

3/208-230/60

Maxpowerinput

Ratedpowerinput

Parameters

101

Ratedpowerinput

Maxcurrent

Electrical

36

96 108

Ph/V/Hz

CA43BV1010-V5J1H

34

38.1 9.52

300 m

300

175/150

m

50/40 Pa

50

%

175/150 50/40

50%-130%

50

Connection


Ratio


Working

Cooling

℃

56 -5~43

59 -5~43

temp.

Heating

℃

-15~21

-15~21

17

50%-130%

Model


Capacity

HP

Cooling

kW

Heating

kW


A

Heating

Maxpowerinput

34

kW

51.5

163.5 35.9 53

A

93.6

98.8

Maxcurrent

A

158.9

163.5

EER

3.32

COP

3.57

3.52

39300

39300


3

m

/h

dB(A)

Soundpowerlevel(H)

63

dB(A)


mm


mm

Net/Shipping weight

kg

1390/750/1808+

1390/750/1808+

1390/750/1808

1390/750/1808

1090/860/1990+ 1490/860/1990+

1090/860/1990+ 1490/860/1990+

1490/860/1990

1490/860/1990

MITSUBISHI ELECTRIC

1INV+(1INV+1FIX)+(1INV+1FIX)

Refrigerant type

R410A

Refrigerant charge

976/1027 DCINVSCROLL

MITSUBISHI ELECTRIC 1 INV+(1 INV+1 FIX)+(1 INV+1 FIX) R410A

kg

30

30

mm

19.05

19.05

mm

38.1

38.1

mm m

9.52 300

9.52 300

Refrigerant liquid pipe Refrigerant gas pipe Oil equalization pipe Total pipe length

990/750/1808+

DCINVSCROLL

Compressorquantity

81

990/750/1808+

976/1027

Compressor brand

3.28

63 81

Compressor type

Installation

53 95.1

Ratedcurrent


88.9 158.9

k W

126.5 3/208-230/60 34.5

51.5

A

Ratedpowerinput

Parameters

32.5

kW

Maxcurrent

Electrical

113

3/208-230/60

kW


40

108 121.5

Ph/V/Hz

CA43BV1130-V5J1H

38


m

175/150

m

50/40 Pa

50

%

175/150 50/40

50%-130%

50

Connection


Ratio


Working

Cooling

℃

63 -5~43

64 -5~43

temp.

Heating

℃

-15~21

-15~21

18

50%-130%

Model


Capacity

HP

Cooling

kW

Heating

kW

Powersupply Ratedpowerinput

Parameters Heating

38

54.5

56.5

Ratedcurrent

A A

101.3

105.5

168.1

174.3

Ratedpowerinput

kW

37.8

39.3

Maxpowerinput

kW

54.5

56.5

Ratedcurrent

A A

104.0

108.2

168.1

174.3

EER

3.23

COP

3.48

3.50

39300

42300

Air flow (H) Sound pressure level (H)

3

m

/h

dB(A)

Soundpowerlevel(H)

63

dB(A)


mm

Net/Shippingweight

kg

990/750/1808+

1390/750/1808+ 1390/750/1808+

1390/750/1808

1390/750/1808

1090/860/1990+

1490/860/1990+

1490/860/1990+

1490/860/1990+

1490/860/1990

1490/860/1990

DCINVSCROLL

Compressor brand

MITSUBISHI ELECTRIC

Compressorquantity


Refrigerant type Refrigerant charge

82

1390/750/1808+

976/1027

Compressor type

3.25

64 81

mm


Installation

137.5 3/208-230/60

36.5

Maxcurrent

Performance

3/208-230/60

kW

Maxcurrent

Electrical

123.5

k W

Maxpowerinput Cooling

44

118 131.5

Ph/V/Hz

CA43BV1235-V5J1H

42


MITSUBISHI ELECTRIC

(1 INV+1 FIX)+ (1 INV+1 FIX)+(1 INV+1 FIX)

R410A

R410A

30

30

kg

Refrigerant liquid pipe Refrigerant gas pipe

mm mm

19.05 38.1

19.05 38.1


mm

9.52

9.52

Total pipe length

m


300 m

300

175/150

m

50/40 Pa

50

%

175/150 50/40

50%-130%

50

Connection


Ratio


Working

Cooling

℃

64 -5~43

64 -5~43

temp.

Heating

℃

-15~21

-15~21

19

50%-130%

Model


Capacity

HP

Cooling

kW

Heating

kW


A

Heating

60 116.9

41.6

kW

185.1 43.5

58.5

60

A

114.4

119.6

Maxcurrent

A

180.5

185.1

EER

3.25

COP

3.49

3.45

42300

42300


3

m

/h

dB(A)

Soundpowerlevel(H)

64

dB(A)


mm

Net/Shippingweight

kg

1390/750/1808+

1390/750/1808+

1390/750/1808"

1390/750/1808

1490/860/1990+

1490/860/1990+

1490/860/1990+

1490/860/1990+

1490/860/1990

1490/860/1990

MITSUBISHI ELECTRIC


MITSUBISHI ELECTRIC

(1 INV+1 FIX)+(1 INV+1 FIX)+(1 (1 INV+1 FIX)+(1 INV+1 FIX)+(1

Compressor quantity

INV+1 FIX)

Refrigerant type

R410A

Refrigerant charge Refrigerant liquid pipe Refrigerant gas pipe Oilequalizationpipe Total pipe length

1390/750/1808+

DCINVSCROLL

Compressor brand

82

1390/750/1808+

1104/1158

Compressor type

3.21

64 82

mm


kg

30

30

19.05

19.05

38.1 9.52

38.1 9.52

mm mm m

MaxdropbetweenI.U.&O.U*1 Externalstaticpressure Connectableindoorunitratio

INV+1 FIX) R410A

mm


Connection

42

Ratedcurrent

Air flow (H)

Installation

40

180.5

kW

Maxpowerinput

150 3/208-230/60

58.5 110.7

A

Ratedpowerinput

Parameters

Performance

kW

Maxcurrent

Electrical

135

3/208-230/60

k W


48

130 145

Ph/V/Hz

CA43BV1350-V5J1H

46

300 m

300

175/150

m

50/40 Pa

50

%

175/150 50/40

50%-130%

50 50%-130%

Ratio


Working

Cooling

℃

64 -5~43

64 -5~43

temp.

Heating

℃

-15~21

-15~21

20

460V Outdoor units Model


Capacity

HP

Cooling

kW

Heating

kW

Powersupply

Cooling Electrical Parameters Heating

Ph/V/Hz

CA43BV335-V6J1H

10

12

22.4

28

33.5

25

31.5

37.5

3/460/60

3/460/60

3/460/60

Rated power input

kW

5.27

7.36

Max power input

kW

13.00

15.00

Rated current

A

6.96

9.72

13.21

Max current

A

17.18

19.82

22.46

Rated power input

kW

5.89

7.97

Max power input

kW

10.27

12.40

Rated current

A

7.78

Max current

A

13.57

EER

4.25

COP

10.00 17.00

10.00 15.10

10.53

13.21

16.38 3.80

19.95 3.35

4.24

3.95

3.75

3

11000

11000

14100


dB(A)

57

Sound power level (H)

dB(A)

73


CA43BV280-V6J1H

8

m

/h

57 73

60 76


mm

990/750/1808

990/750/1808

1390/750/1808


mm

1090/860/1990

1090/860/1990

1490/860/1990

kg

240/255

240/255

368/386

Net/Shipping weight Compressor type

DC INV. SCROLL

Compressor brand

MITSUBISHI ELECTRIC

Compressor quantity

INV 1

Refrigerant type

R410A

R410A

kg

10

10

10


mm

9.52

9.52

12.7


mm

22.22

22.22

25.4


mm

9.52

9.52

9.52

Total pipe length

m

300

300

300

Max. pipe length(Equivalent/Actual)

m

175/150

175/150

175/150

Max drop between I.U.&O.U *1

m

50/40

50/40

50/40


Pa

50Pa

50Pa

50Pa

Connection

Connectable indoor unit ratio

%

50~130%

50~130%

50~130%

Ratio

Maximum number of indoor units Cooling

℃

13 -5~43

16 -5~43

19 -5~43

Heating

℃

-15~21

-15~21

-15~21

Installation

Working temp.

Refrigerant charge

21

INV 1

INV 1 +1 FIX R410A

Model


Capacity

HP

Cooling

kW

Heating


Ph/V/Hz

CA43BV504-V6J1H 18.0

45

50.4 56.5

45

50

3/460/60

3/460/60

3/460/60 12.63

Rated power input

kW

11.40

13.40

Max power input

kW

19.00

20.50

Rated current

A

15.06

17.70

16.69

Max current

A

25.10

27.08

37.00

Rated power input

kW

11.60

13.50

Max power input

kW

17.10

18.30

Rated current

A

15.33

Max current

A

22.59

EER

3.51

COP Air flow (H) Performance

CA43BV450-V6J1H 16

40

kW

Powersupply

Cooling

14

m

3

/h

28.00

13.86 22.67

17.84

18.31

24.18 3.36

29.95 3.99

3.88

3.70

4.08

14100

14100

22000


dB(A)

60

Sound power level (H)

dB(A)

76


mm

1390/750/1808

1390/750/1808

(990*1808*750)*2


mm

1490/860/1990

1490/860/1990

(1090*1990*860)*2

kg

368/386

368/386

240/255+240/255

Net/Shipping weight Compressor type

60 76

60 77

DC INV. SCROLL

Compressor brand

MITSUBISHI ELECTRIC

Compressor quantity

1INV+1FIX

Refrigerant type

1INV+1FIX

1INV+1INV

R410A

R410A

kg

10

10

20


mm

12.7

12.7

Ф15.88


mm

25.4

28.58

Ф28.58


mm

9.52

9.52

9.52

Total pipe length

m

300

300

300

Max. pipe length(Equivalent/Actual)

m

175/150

175/150

175/150

Max drop between I.U.&O.U *1

m

50/40

50/40

50/40


Pa

50Pa

50Pa

50Pa

Connection

Connectable indoor unit ratio

%

50~130%

50~130%

50~130%

Ratio

Maximum number of indoor units Cooling

℃

23 -5~43

26 -5~43

26 -5~43

Heating

℃

-15~21

-15~21

-15~21

Installation

Working temp.

Refrigerant charge

22

R410A

Model

CA43BV560-V6J1H Capacityrange

Capacity

HP

20.0

24.0

kW

56.0

61.5

68.0

Heating

kW

63.0

69.0

76.5


3/460/60

3/460/60

Rated power input

Ph/V/Hz kW

14.72

17.36

18.76

Max power input

kW

30.00

32.00

34.00

3/460/60

Rated current

A

19.45

22.94

24.79

Max current

A

39.64

42.28

44.92

Rated power input

kW

15.94

17.97

Max power input

kW

24.80

27.50

Rated current

A

21.06

Max current

A

32.77

EER

3.80

COP Air flow (H)

3

m

/h

29.50

23.74

25.86

36.33

38.98

3.54

3.62

3.95

3.84

3.91

25100

25100

Soundpressurelevel(H)

dB(A)

60

Soundpowerlevel(H)

dB(A)

77


mm

(990/750/1808)*2


mm

(1090/860/1990)*2

Net/Shippingweight

kg

(240/255)*2

61

61

78

78

990/750/1808

990/750/1808

+1390/750/1808 1090/860/1990

+1390/750/1808 1090/860/1990

+1490/860/1990

+1490/860/1990

240/255+368/386

240/255+368/386

DC INV. SCROLL

Compressor brand

MITSUBISHI ELECTRIC

Compressorquantity

1INV*2

Refrigerant type

R410A

Refrigerant charge

kg

Refrigerantliquidpipe Refrigerantgaspipe

R410A

20

R410A

20

20

Ф15.88

Ф15.88

Ф15.88

mm

Ф28.58

Ф28.58

Ф28.58

mm

Total pipe length

m


1INV+(1INV+1FIX) 1INV+(1INV+1FIX)

mm

Oilequalizationpipe


19.57

22000

Compressor type

Installation

CA43BV680-V6J1H

22.0

Cooling Powersupply

Performance

CA43BV615-V6J1H

9.52 300 m

m

300

175/150 50/40

Pa %

9.52

50Pa 50~130%

9.52 300

175/150 50/40

Connection

Externalstaticpressure Connectableindoorunitratio

Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

-15~21

23

50Pa 50~130%

175/150 50/40 50Pa 50~130%

Model


Capacity

HP

28.0

Cooling

kW

73.0

Heating

kW

81.5

90.0

Ph/V/Hz

3/460/60

3/460/60

Rated power input

kW

20.76

22.80

Max power input

kW

35.50

Power supply

Cooling

Ratedcurrent

A

Maxcurrent


A

46.90

50.20

kW

21.47

Max power input

kW

30.70

A

Maxcurrent

23.20 34.20

28.37

A

30.65

40.56

45.19

3.52

COP Air flow (H)

38.00 30.12

Rated power input Ratedcurrent

80.0

27.43

EER

Performance

CA43BV800-V6J1H

26.0

3

m

/h

3.80

3.88

25100

28200.0


dB(A)

61

Soundpowerlevel(H)

dB(A)

78


mm


mm

Net/Shippingweight

kg

Compressor type

3.51

62 79

990/750/1808

1390/750/1808

+1390/750/1808

+1390/750/1808

1090/860/1990

1490/860/1990

+1490/860/1990

+1490/860/1990

240/255+368/386

368/386+368/386

DC INV. SCROLL

DC INV. SCROLL

Compressor brand

MITSUBISHI ELECTRIC

MITSUBISHI ELECTRIC

Compressorquantity

1INV+(1INV+1FIX)

Installation Refrigerant type Refrigerant charge

kg

Refrigerantliquidpipe Refrigerantgaspipe Oil equalization pipe Total pipe length

Ф19.05

mm

Ф31.8

mm

Externalstaticpressure Connectableindoorunitratio

Ф31.8

9.52

300 m

300

175/150

m

20 Ф19.05

9.52

m


R410A

20

mm


Connection

(1INV+1FIX)+(1INV+1FIX)

R410A

50/40

175/150 50/40

Pa

50Pa

50Pa

%

50~130%

50~130%

Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

24

Model


Capacity

HP

32

Cooling

kW

85

90

Heating

kW

95

100

Power supply

Cooling

Ph/V/Hz

3/460/60

3/460/60

Rated power input

kW

24.80

26.80

Max power input

kW

39.50

Ratedcurrent

A

Maxcurrent


A

35.41

52.18

54.16

Rated power input

kW

25.10

Max power input

kW

35.40

Ratedcurrent

A

Maxcurrent

27.00 36.60

33.16

A

35.67

46.77

48.36

3.43

COP Air flow (H)

41.00

32.77

EER

Performance

CA43BV900-V6J1H

30

3

m

/h

3.36

3.78

3.70

28200

28200


dB(A)

62

Soundpowerlevel(H)

dB(A)

79

62 79


mm

1390/750/1808+1390/750/1808

(1390/750/1808)*2


mm

1490/860/1990+1490/860/1990

(1490/860/1990)*2

Net/Shippingweight

kg

368/386+368/386

Compressor type

Compressor brand

(368/386)*2

DC INV. SCROLL

DC INV. SCROLL

MITSUBISHI ELECTRIC

MITSUBISHI ELECTRIC


(1INV+1FIX)+(1INV+1FIX)


kg


(1INV+1FIX)*2

R410A mm

Ф19.05

mm

Ф31.8

mm

MaxdropbetweenI.U.&O.U*1 Externalstaticpressure

Ф31.8

9.52

300 m

300

175/150

m

20 Ф19.05

9.52

m


R410A

20

50/40

175/150 50/40

Pa

50Pa

50Pa

%

50~130%

50~130%

Connection


Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

25

Model


Capacity

HP

Cooling

kW

96

Heating

kW

108

Power supply


36 101 113

Ph/V/Hz

3/460/60

3/460/60

Rated power input

kW

26.12

28.12

Max power input

kW

49.00

50.50

Ratedcurrent

A

34.51

37.15

Maxcurrent

A

64.74

66.72

Rated power input

kW

27.54

Max power input

kW

41.90

Ratedcurrent

A

36.39

Maxcurrent

A

55.36

EER

29.44 43.10 38.90 56.94

3.68


CA43BV1010-V6J1H

34

3

m

/h

3.92

3.84

36100

36100


dB(A)

63

Soundpowerlevel(H)

dB(A)

81


mm

3.59

990/750/1808*2+1390/750/1808

63 81 (990/750/1808)*2+(1390/750/1 808) (1090/860/1990)*2+(1490/860/


mm

1090/860/1990*2+1490/860/1990

Net/Shippingweight

kg

240/255*2+368/386

240/255*2+368/386

DC INV. SCROLL

DC INV. SCROLL

MITSUBISHI ELECTRIC

MITSUBISHI ELECTRIC

Compressor type

Compressor brand

1990)


1INV*2+(1INV+1FIX)


kg


1INV*2+(1INV+1FIX)

R410A mm

Ф19.05

mm

Ф31.8

mm

MaxdropbetweenI.U.&O.U*1 Externalstaticpressure

Ф38.1

9.52

300 m

300

175/150

m

30 Ф19.05

9.52

m


R410A

30

50/40

175/150 50/40

Pa

50Pa

50Pa

%

50~130%

50~130%

Connection


Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

26

Model


Capacity

HP

40

Cooling

kW

108.0

Heating

kW

121.5

Ph/V/Hz

3/460/60

3/460/60

Rated power input

kW

30.16

32.16

Max power input

kW

53.00

Power supply


113 127

54.50

Ratedcurrent

A

39.85

42.49

Maxcurrent

A

70.02

72.00

Rated power input

kW

31.17

Max power input

kW

46.60

Ratedcurrent

A

41.18

Maxcurrent

A

61.57

EER

33.07 47.80 43.69 63.15

3.58


CA43BV1130-V6J1H

38.0

3

m

/h

3.90

3.83

39200.0

39200


dB(A)

63

Soundpowerlevel(H)

dB(A)

81


mm


mm

Net/Shipping weight

kg

63 81

(990/750/1808)+(1390/750/1808)+(1(990/750/1808)+(1390/750/180 390/750/1808) 8)+(1390/750/1808) (1090/860/1990)+(1490/860/1990)+((1090/860/1990)+(1490/860/19

Compressor type

Compressor brand

1490/860/1990)

90)+(1490/860/1990)

240/255+368/386+368/386

240/255+368/386+368/386

DC INV. SCROLL

DC INV. SCROLL

MITSUBISHI ELECTRIC

MITSUBISHI ELECTRIC


3.51


Refrigerant type

1 INV+(1 INV +1 FIX)+(1 INV +1 FIX)

R410A

Refrigerant charge

kg

R410A

30

30

Refrigerantliquidpipe

mm

Ф19.05

Ф19.05

Refrigerantgaspipe

mm

Ф38.1

Ф38.1

Oil equalization pipe Total pipe length

mm m


9.52 300 m

9.52 300

175/150

m

50/40

175/150 50/40

Pa

50Pa

50Pa

%

50~130%

50~130%

Connection


Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

27

Model


Capacity

HP

44.0

Cooling

kW

118.0

123.5

Heating

kW

131.5

137.5

Ph/V/Hz kW

3/460/60 34.16

3/460/60 36.80

Power supply Cooling Electrical Parameters Heating

Rated power input Max power input

kW

56.00

58.00

Ratedcurrent

A

45.13

48.62

Maxcurrent

A

73.98

76.62

Rated power input

kW

34.97

Max power input

kW

49.00

Ratedcurrent

A

46.20

Maxcurrent

A

64.74

EER Air flow (H)

37.00 51.70 48.88 68.31

3.45

COP Performance

CA43BV1235-V6J1H

42.0

3

m

/h

3.36

3.76

3.72

39200

42300


dB(A)

63

Soundpowerlevel(H)

dB(A)

81

64 82 (1390/750/1808)+(1390/750/18


mm

(990/750/1808)+(1390/750/1808)*2


mm

(1090/860/1990)+(1490/860/1990)*2

Net/Shippingweight

kg

240/255+368/386*2

368/386+368/386*2

DC INV. SCROLL

DC INV. SCROLL

MITSUBISHI ELECTRIC

MITSUBISHI ELECTRIC

Compressor type

Compressor brand

08)*2 (1490/860/1990)+(1490/860/19 90)*2


1INV+(1INV+1FIX)*2


kg

Refrigerantliquidpipe Refrigerantgaspipe Oil equalization pipe

Externalstaticpressure

R410A

30

mm

Ф19.05

mm

Ф38.1

mm

Total pipe length m Max.pipelength(Equivalent/Actual) MaxdropbetweenI.U.&O.U*1

(1INV+1FIX)+(1INV+1FIX)*2

R410A

Ф38.1

9.52 m

m

30 Ф19.05

9.52

300 175/150

300 175/150

50/40

50/40

Pa

50Pa

50Pa

%

50~130%

50~130%

Connection


Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

28

Model


Capacity

HP

48.0

Cooling

kW

130.0

Heating

kW

145.0

150.0

Ph/V/Hz

3/460/60

3/460/60

Rated power input

kW

38.20

40.20

Max power input

kW

60.00

Power supply


135.0

61.50

Ratedcurrent

A

50.47

53.11

Maxcurrent

A

79.26

81.24

Rated power input

kW

38.60

Max power input

kW

53.70

Ratedcurrent

A

51.00

Maxcurrent

A

70.95

EER

40.50 54.90 53.51 72.53

3.40


CA43BV1350-V6J1H

46.0

3

/h

m

3.36

3.76

3.70

42300

42300


dB(A)

64

Soundpowerlevel(H)

dB(A)

82

64 82


mm

(1390/750/1808)+(1390/750/1808)*2

(1390/750/1808)*3


mm

(1490/860/1990)+(1490/860/1990)*2

(1490/860/1990)*3

Net/Shippingweight

kg

368/386+368/386*2

Compressor type

Compressor brand

(368/386)*3

DC INV. SCROLL

DC INV. SCROLL

MITSUBISHI ELECTRIC

MITSUBISHI ELECTRIC


(1INV+1FIX)+(1INV+1FIX)*2

Refrigerant type

(1INV+1FIX)*3

R410A

Refrigerant charge

kg

R410A

30

30

Refrigerantliquidpipe

mm

Ф19.05

Ф19.05

Refrigerantgaspipe

mm

Ф38.1

Ф38.1

Oil equalization pipe Total pipe length

mm m


9.52 300 m

9.52 300

175/150

m

50/40

175/150 50/40

Pa

50Pa

50Pa

%

50~130%

50~130%

Connection


Ratio


Working

Cooling

℃

26 -5~43

26 -5~43

temp.

Heating

℃

-15~21

-15~21

29

2. Indoor Unit

Specification

4-way cassette type indoor unit Model

CK43BV028-CYJ1H

CK43BV036-CYJ1H CK43BV045-CYJ1H

Nominal cooling capacity (kW )

2.8

3.6

4.5

Nominal heating capacity (kW )

3.2

4.0

5.0

Electrical heating power (kW) / Current (A) Heatingcapacityatlowtemp.(kW) Power source (PH, V, Hz) Electrical Operating current (A) chara cteristics Powerconsumption(kW) FantypeandQty Fan motor output (kW) Fan Standard airfow (m3/h) characteristics Standard static pressure (Pa) Max.staticpressure(Pa)

---2.5

---3.2

1,2 08-230,50/60

---4.0

1,208-230,50/60

0.47

1,208-230,50/60

0.47

0.08 centrifugal*1 0.04



700 0

0.47

700 0

700 0

----

----

----

Exterior dimensions (mm)

570*570*260

570*570*260

570*570*260

Panel exterior dimensions (mm)

700*700*60

700*700*60

700*700*60

Weight (unit, net / gross, kg)

17/21

19/23

19/23

Weight(panel, net / gross, kg)

2.8/4.5

2.8/4.5

2.8/4.5

Expansion mode Controller Gas piping (mm) Piping dimension

Liquid piping (mm) Drain hose (mm)

Noiselevel(dB(A))H/M/L

Electronic expansion valve Wired controller / Remote controller (optional) 9.52 6.35

12.7 6.35

12.7 6.35

32

32

32

32/30/29

32/30/29

33/30/29

Norminal condition: indoor temperature (cooling): 27 ℃ DB/19℃ WB, indoor temperature (heating): 20 ℃ DB Outdoor temperature(cooling): 35℃ DB/24℃ WB, outdoor temperature(heating): 7℃ DB/6℃ WB The noise level will be measured in the third octave band limited values, using a Real Time Analyser calibrated sound intensity meter. It is a sound pressure noise level.

30

Model

CK43BV056-4YJ1H

CK43BV071-4YJ1H CK43BV080-4YJ1H


5.6

7.1

8


6.3

8

9

Electrical heating power (kW) / Current (A)

----

Heating capacity at low temp. (kW)

5

Power source (PH, V, Hz) Electrical Operating current (A) chara cteristics Power consumption (kW)

1, 208-230,50/60

FantypeandQty Fan motor output (kW) Fan Standard airfow (m3/h) characteristics Standard static pressure (Pa) Max.staticpressure(Pa)

---6

---7.0

1,208-230,50/60

0.67

1,208-230,50/60

0.51

0.09

0.51

0.1

centrifugal*1 0.05

centrifugal*1 0.05

1200 0


1200 0

1200 0

----

----

----


840*840*240

840*840*240

840*840*240


950*950*60

950*950*60

950*950*60

30/32.5

30/32.5

30/32.5

6/7.5

6/7.5

6/7.5

Weight (unit, net / gross, kg) Weight(panel, net / gross, kg) Expansion mode Controller

Piping dimension

Electronic expansion valve Wired controller / Remote controller (optional)

Gas piping (mm)

12.7

15.88

15.88

Liquid piping (mm)

6.35

9.52

9.52

Drain hose (mm) Noiselevel(dB(A))H/M/L

32

32

32

34/32/30

35/34/31

37/35/31


31

Model

CK43BV090-4YJ1H



9

11.2

14


10

12.5

16


----

Heatingcapacityatlowtemp.(kW)

8.0

Power source (PH, V, Hz) Electrical Operating current (A) chara cteristics Powerconsumption(kW)

1, 208-230,50/60

FantypeandQty Fan motor output (kW) Fan Standard airfow (m3/h) characteristics Standard static pressure (Pa)

---10 1,208-230,50/60

0.76

0.76


---12.5 1,208-230,50/60 0.76

0.15

0.15

centrifugal1

centrifugal1

0.09 1800

0.09 1800

1800

0

0

0

----

----

----


840*840*295

840*840*295

840*840*295


950*950*60

950*950*60

950*950*60


38/40

38/40

38/40


6/7.5

6/7.5

6/7.5

Max.staticpressure(Pa)

Expansion mode Controller

Piping dimension

Electronic expansion valve Wired controller / Remote controller (optional)

Gas piping (mm)

15.88

15.88

15.88

Liquid piping (mm)

9.52

9.52

9.52


32

32

32

37/35/31

37/35/31

42/39/35


32

2-way cassette type indoor unit Model

CK43BV022-2YJ1H



2.2

2.8

3.6


2.5

3.2

4

Electrical heating power (kW) / Current (A) Heating capacity at low temp. (kW)

---2.5

Powersource(PH,V,Hz) Electrical Operating current (A) chara cteristics Powerconsumption(kW) Fan type and Qty Fan motor output (kW)

1,


0.43

0.43

0.43

0.09

0.09

0.09

0.035

0.035

840

840

0 ----


----

817*220*620

817*220*620

1055*68*680

1055*68*680

21/23

21/23

21/23

7/8

7/8

7/8

6/7.5

6/7.5

6/7.5

Expansion mode Controller

Drain hose (mm)

0

1055*68*680


Liquid piping (mm)

0

---817*220*620


Gas piping (mm)

208-230,50/60

840


Piping dimension

---3.2

0.035

Fan Standard airfow (m3/h) characteristics Standardstaticpressure(Pa) Max. static pressure (Pa)

----

2

Electronic expansion valve Wired controller / Remote controller (optional) 9.52

9.52

6.35

6.35

12.7 6.35

32

32

32

42/37/33

42/37/33

42/37/33


33

Model

CK43BV045-2YJ1H


4.5


5

Electricalheatingpower(kW)/Current(A) Heating capacity at low temp. (kW)

CK43BV056-2YJ1H 5.6 6.3

----

----

4

5

Power source (PH, V, Hz) Electrical Operating current (A) chara cteristics Powerconsumption(kW)

1,208-230,50/60 0.56

0.56

0.11

0.11

Fan type and Qty Fan motor output(kW) Fan Standard airfow (m3/h) characteristics Standardstaticpressure(Pa)

0.035

0.035 840


840

0

0

----

----

Exteriordimensions(mm)

817*220*620

817*220*620

Panelexteriordimensions(mm)

1055*68*680

1055*68*680

Weight(unit,net gross, / kg) Weight(panel, net gross, / kg) Expansionmode Controller

21/23

7/8

7/8

Electronicexpansionvalve Wiredcontroller/Remotecontroller(optional) Gas piping (mm)

Piping dimension

21/23

12.7



6.35

12.7 6.35

32

32

44/39/34

44/39/34

Norminal condition: indoor temperature (cooling): 27 ℃ DB/19℃ WB, indoor temperature (heating): 20 ℃ DB Outdoor temperature(cooling): 35℃ DB/24℃ WB, outdoor temperature(heating): 7℃ DB/6℃ WB The noise level will be measured in the third octave band limited values, using a Real Time Analyser calibrated sound intensity meter. It is a sound pressure noise level.

34

Convertible type indoor unit Model

CF43BV028-MYJ1H CF43BV036-MYJ1H CF43BV045-MYJ1H


2.8


3.2

4

5


----

----

----


2.5

3.2

Powersource(PH,V,Hz) Electrical chara cteristics

1,

Operating current (A)

0.3

Power consumption (kW)

0.1

FantypeandQty FanmotoroutputkW) Fan characteristics

4.5

4 208-230,50/60

0.3

0.3

0.1

0.1

centrifugal×2 0.028

Standard airfow (m3/h)

0.028

800

Standardstaticpressure(Pa) Max.staticpressure(Pa)

3.6

0.028

800

----

800

----

----

----

----

----


990*655*199

990*655*199

990*655*199

Air outlet dimensions (mm)

----

----

----

Weight(unit,net/gross,kg)

28.3/34.3

Controller

28.3/36.4

28.3/36.4

Wiredcontroller/Remotecontroller(optional) Gas piping (mm)

Piping dimension Liquid piping (mm) Drain hose (mm) Noiselevel(dB(A))H/M/L

9.52 6.35

12.7 6.35

12.7 6.35

20

20

20

38/35/33

38/35/33

40/37/35


35

Model



5.6


6.3

8

9


----

----

----


5

6.3


1,

8

7.1 208-230,50/60


0.3

0.3

1.8


0.1

0.1

0.4


7.1



800

Standardstaticpressure(Pa) Max.staticpressure(Pa) Exterior dimensions (mm)

0.105 800

----

----

----

990*655*199

990*655*199

---28.3/36.4

Controller

2040

----

----

Air outlet dimensions (mm) Weight(unit,net/gross,kg)


---1580*700*240

---28.3/36.4

---50/57



12.7

15.88

15.88

6.35

9.52

9.52

20

20

25

40/37/35

40/37/35

43/40/38


36

Model



9

11.2

14


10

12.5

16

Electricalheatingpower(kW)/Current(A) Heating capacity at low temp. (kW)

----

----

8


1,

12.5 208-230,50/60


1.8

1.8

1.8


0.4

0.4

0.4


----

10



2040

Standardstaticpressure(Pa) Max.staticpressure(Pa) Exteriordimensions(mm)

0.105

2040

----

2040

----

----

----

----

1580*700*240

Air outlet dimensions (mm) Weight(unit,net gross, / kg)

0.105

1580*700*240

---50/57

Controller

---1580*700*240

---54/61

---54/61



15.88

15.88

15.88

9.52

9.52

9.52

25

25

25

43/40/38

46/42/38

46/42/38


37

Slim duct type indoor unit Model

CC43BV022LLYJ1H CC43BV028LLYJ1H

CC43BV036LLYJ1H


2.2

2.8

3.6


2.5

3.2

4.0

Electrical heating power (kW) / Current (A) Heatingcapacityatlowtemp.(kW) Electrical chara cteristics

1.0/4.6 2.5

Powersource(PH,V,Hz)

208-230,50/60


0.23

0.23

0.26

Powerconsumption(kW)

0.05

0.05

0.056

Fanmotoroutput(kW)

centrifugal*2 0.014

Standard airfow (m3/h

0.014

480

0.023

480

550

Standard static pressure (Pa)

0

0

0

Max. static pressure (Pa)

30

30

30


850*420*185


640*90

Air return dimensions (mm)

760*152


Piping dimension

1.0/4.6 3.2

1,

FantypeandQty Fan characteristics

1.0/4.6

2.0

16.5/21.5

16.5/21.5

17.5/22.5

Expansion mode

Electronic expansion valve

Controller

Wired controller / Remote controller (optional)

Gas piping (mm)

9.52

9.52

12.7

Liquid piping (mm)

6.35

6.35

6.35

Drain hose (mm)

25

25

27/24/21

27/24/21

Piping connection Noiselevel(dB(A))H/M/L

25 fared 30/28/25


38

Model


CC43BV071LLYJ1H

Nominalcoolingcapacity(kW)

4.5

5.6

7.1

Nominalheatingcapacity(kW)

5.0

6.3

8.0

Electricalheatingpower(kW)/Current(A) Heatingcapacityatlowtemp.(kW) Electrical chara cteristics

1.8/8.2


Fanmotoroutput(kW)

6.3

1,


1.8/8.2

5.0

Powersource(PH,V,Hz)

Fan type and Qty Fan characteristics

1.0/4.6 4.0

0.3

208-230,50/60

0.37

0.065

0.08

centrifugal*2 0.051

Standard airfow (m3/h

0.54 0.117

centrifugal*3 0.044

600

0.055

800

930


0

0

0


30

30

30


850*420*185

1170*420*185


640*90

960*90


760*152

1080*152


Piping dimension

18.5/23.5

22.2/28.2

24/30

Expansionmode

Electronicexpansionvalve

Controller

Wiredcontroller /Remotecontroller (optional)

Gas piping (mm)

12.7

12.7

15.88

Liquid piping (mm)

6.35

6.35

9.52

Drain hose (mm)

25

25

Piping connection Noiselevel(dB(A))H/M/L

25 fared

33/30/27

33/30/28

36/33/31


39

Med ESP duct type indoor unit Model

CC43BV056MHYJ1H CC43BV071MHYJ1H CC43BV080MHYJ1H


5.6

7.1

8.0


6.3

8.0

9.0

Electrical heating power (kW) / Current (A) Heatingcapacityatlowtemp.(kW)

----

Fan motor output (kW)

----

6.3

Powersource(PH,V,Hz) Electrical chara Operating current (A) cteristics Powerconsumption(kW) FantypeandQty

----

5.0 1,

7.1 208-230,50/60

1.2 0.263 centrifugal*3 0.15

Fan Standard airfow (m3/h characteristics Standardstaticpressure(Pa)

centrifugal*3

centrifugal*3

0.15 1200

0.15 1200

1200

50


96


990*655*300


200*3

Weight (unit,net gross, / kg)

39/45

Controller

Piping dimension


12.7

Liquid piping (mm)

6.35


15.88 9.52 32

36/34/31

36/34/31

39/37/35

Norminal condition: indoor temperature (cooling): 27 ℃ DB/19℃ WB, indoor temperature (heating): 20 ℃ DB Outdoor temperature(cooling): 35℃ DB/24℃ WB, outdoor temperature(heating): 7℃ DB/6℃ WB The noise level will be measured in the third octave band limited values, using a Real Time Analyser calibrated sound intensity meter. It is a sound pressure noise level.

40

Model

CC43BV090MHYJ1H CC43BV112MHYJ1H CC43BV140MHYJ1H


9

11.2


10

12.5

16


----

----

----


8

10

Powersource(PH,V,Hz) Electrical chara Operating current (A) cteristics Power consumption(kW)

1,

Fanmotoroutput(kW) Fan Standard airfow (m3/h characteristics Standard static pressure (Pa) Max. static pressure (Pa)

12.5 208-230 ,50/60

2.2 0.49

Fan type and Qty

14

2.2

2.2

0.49

0.49

centrifugal*2 0.24/0.28

0.24/0.28

1600

0.24/0.28

1600

1600

80

80

80

120

120

120


1135*742*270


205*4

205*4

205*4


1015*240

1015*240

1015*240

50/56

50/56

50/56

Weight (unit, net / gross, kg) Expansion mode

Electronic expansion valve

Controller

Wired controller / Remote controller (optional) Gas piping (mm)

Piping dimension



15.88 9.52

15.88 9.52

15.88 9.52

38

38

38

49/47/43

49/47/43

49/47/43

41

High ESP duct type indoor unit Model

CC43BV056HHYJ1H CC43BV071HHYJ1HC C43BV080HHYJ1H


5.6

7.1

8


6.3

8

9

Electrical heating power (kW) / Current (A) Heatingcapacityatlowtemp.(kW)

2.6/11.9 6.3

Powersource(PH,V,Hz) Electrical chara Operating current (A) cteristics Powerconsumption(kW) FantypeandQty Fan motor output (kW) Fan characteristics

1,


2.6/11.9 7.1

208-230,50/60

2.2

2.2

2.2

0.49

0.49

0.49

centrifugal*2 0.26

Standard airfow (m3/h Standardstaticpressure(Pa)

2.6/11.9

5.0

centrifugal*2 0.26

1500 100

centrifugal*2 0.26

1500 100

1500 100

196

196

196


970*360*906

970*360*906

970*360*906


600*250

600*250

600*250

Weight(unit,net gross, / kg)

48/58

Controller Gas piping (mm) Piping dimension


Noise level (dB(A)) H/L

48/58

48/58

Wiredcontroller/Remotecontroller(optional) 12.7 6.35

15.88 9.52

15.88 9.52

32

32

32

42/40

42/40

42/40


42

Model

CC43BV090HHYJ1H CC43BV112HHYJ1H CC43BV140HHYJ1H


9.0

11.2

14.0


10.0

12.5

16.0

Electrical heating power (kW) / Current (A) Heatingcapacityatlowtemp.(kW) Powersource(PH,V,Hz) Electrical chara Operating current (A) cteristics Powerconsumption(kW) FantypeandQty Fan motor output (kW) Fan characteristics

---10.0 1,


---12.5

208-230,50/60

2.6

2.6

2.6

0.58

0.58

0.58

centrifugal*2 0.27


----

8.0

centrifugal*2 0.27

1560 100

centrifugal*2 0.27

1600 100

2100 100

196

196

196


1350*360*875

1350*360*875

1350*360*875


850*250

850*250

850*250

Weight(unit,net gross, / kg)

62/77

62/77

Controller

Piping dimension

Gas piping (mm)

15.88

15.88

15.88

Liquid piping (mm)

9.52

9.52

9.52

Drain hose (mm) Noise level (dB(A)) H/L

62/77

Wiredcontroller/Remotecontroller(optional)

32

32

32

45/40

45/40

45/40


43

Model

CC43BV224HHYJ1H

CC43BV280HHYJ1H


22.6

28


25

31

Electrical heating power (kW) / Current (A) Heatingcapacityatlowtemp.(kW) Powersource(PH,V,Hz) Electrical chara Operating current (A) cteristics Powerconsumption(kW) FantypeandQty Fanmotoroutput(kW) Fan characteristics

----1, 4.1

Max.staticpressure(Pa) Exterior dimensions (mm)

Controller

0.895 centrifugal*4

0.238*2


Noise level (dB(A)) H/L

0.238*2

4050 100

4050 100

196

196

1720*360*880

1720*360*880

1515*250 92/100

1515*250 92/100


Piping dimension

4.1

0.895

Air outlet dimensions (mm) Weight(unit,net gross, / kg)

208-230,50/60

centrifugal*4


---

---

25.4 9.52

25.4 9.52

32

32

54/49

54/49


44

Console type indoor unit Model

CJ43BV022-MYJ1H

CJ43BV028-MYJ1H

CJ43BV036-MYJ1H

CJ43BV050-MYJ1H


2.2

2.8

3.6

5.6


2.5

3.2

4.0

6.0


2.0

2.5

3.2

Power source (PH, V, Hz) Electrical chara cteristics

Fan characteristics


0.45

0.45

0.45

0.45


0.08

0.08

0.08

0.08

FantypeandQty

cross*2

cross*2

cross*2

cross*2

Upper motor output (kW)

0.020

0.020

0.020

0.020

Lower motor output (kW)

0.011


Max. static pressure (Pa) Exterior dimensions (mm) Shipping dimensions (mm) Weight(unit, net gross, / kg)

0.011 460


0.011 460

0 0

0

0

0

720*255*640

784*305*720

720*255*640

784*305*720

18/20

580

0

0 720*255*640

0.011 520

0

18/20

Controller

Piping dimension

4.5

208-230,50/60

1,

784*305*720 18/20

720*255*640 784*305*720 18/20

Remote controller

Gas piping (mm)

12.7

12.7

12.7

12.7

Liquid piping (mm)

6.35

6.35

6.35

6.35


16.5

16.5

16.5

16.5

43/39/36

43/39/36

43/39/36

48/46/42

Norminal condition: indoor temperature (cooling): 27 ℃ DB/19℃ WB, indoor temperature (heating): 20 ℃ DB Outdoor temperature(cooling): 35℃ DB/24℃ WB, outdoor temperature(heating): 7 ℃ DB/6℃ WB The noise level will be measured in the third octave band limited values, using a Real Time Analyser calibrated sound intensity meter. It is a sound pressure noise level.

45

High wall type indoor unit Model

CH43BV022-HYJ1H CH43BV028-HYJ1H

CH43BV036-HYJ1H


2.2

2.8

3.6


2.5

3.2

4.0


----

----

2

2.5


1,

208-230,50/60


0.25

0.25

0.25


0.05

0.05

0.05

cross*1

cross*1

cross*1

FantypeandQty Fan motor output kW) Fan characteristics

---3.2

0.04

0.04


600

Standard static pressure (Pa) Max. static pressure (Pa)

0.025 600

0

600

0

0

0

0

0


938*187*265

938*187*265

938*187*265

Net weight( kg)

10.9

10.9

10.9

Gross weight (kg)

13.1

13.1

Refrigerantcontrolmethod model EEV

Electronicexpansionvalve 2.4

2.4

Controller

2.4

RemoteYR-H71/wiredcontroller(optional)

Accessories

Used for installation Gas piping (mm) Liquid piping (mm)

Piping dimension

13.1

Drain hose (mm) Connection method


12.7 6.35 16.8 fared 37/33/31

12.7 6.35 16.8 fared 37/34/31

12.7 6.35 16.8 fared 41/36/33


46

Model

CH43BV045-HYJ1H CH43BV056-HYJ1H CH43BV071-HYJ1H


4.5

5.6

7.1


5

6.3

8


---5


Fan motor output kW) Fan characteristics

0.05 cross*1

Net weight( kg)

cross*1 0.04 800

0

0

0

0

938*187*265

0

1046*239*299

1046*239*299

13

13

16.5

Refrigerantcontrolmethod

16.5

Electronicexpansionvalve 2.4

2.4

Controller

2.4

RemoteYR-H71/wiredcontroller(optional)

Accessories

Piping dimension

0.07

800

0

13.1

model EEV

0.07

0.04

10.9

Gross weight (kg)

0.3

600



0.3

cross*1

0.04



208-230,50/60

0.25


---6.3

1,


FantypeandQty

----

4

Used for installation Gas piping (mm)

12.7

15.88

15.88

Liquid piping (mm)

6.35

9.52

9.52

Drain hose (mm)

16.8

Connection method Noiselevel(dB(A))H/M/L

fared 41/36/33

16.8 fared 43/39/34

16.8 fared 48/39/37


47

3.

Dimension

Outdoor unit

Single unit

CA43BV224/280-V5J1H CA43BV224/280-V6J1H  

 

    

 

  

  

  

  

  

      

 





   

       



 

 

   

      

 

CA43BV335/400/450-V5J1H CA43BV335/400/450-V6J1H   

 

  

  

  

  

      

 



  

 

   

      

 

48

  

      

 



 

       

Combined outdoor unit                                                                                                    CA43BV504/560-V5J1H CA43BV504/560-V6J1H

49

CA43BV615/680/730-V5J1H CA43BV615/680/730-V6J1H

CA43BV800/850/900-V5J1H CA43BV800/850/900-V6J1H

50

CA43BV960/1010-V5J1H CA43BV960/1010-V6J1H

51

CA43BV1080/1130/1180--V5J1H CA43BV1080/1130/1180--V6J1H

52

CA43BV1235/1300/1350--V5J1H CA43BV1235/1300/1350--V6J1H

53

4-way cassette type indoor unit

Model

A

CK43BV056~80-4YJ1H 680

B

C

840

D 890

950

CK43BV056/71/80-4YJ1H

NB: The size of ceiling hole with can be up to 910mm,but the overlapping part of ceiling and decorated board should be kept above 20mm

CK43BV090/112/140-4YJ1H

Note: Before suspending the indoor unit, select the installation location according to the piping and wiring in the ceiling, and determine the lead direction of the piping. Prepare all pipes (refrigerator and drainage) and wiring (connection line for remote control and connection line of indoor units and outdoor units) connected to indoor units before suspending the indoor unit so as to make the connections right after the installation. In the situation with the ceiling, before suspending the unit, set refrigerant pipe, drainpipe, connection line in the room, lead wire of line control to the locations of piping and wiring. Confirm the size of the indoor unit and fix it according to the requirements in the manual.

54


Model

CK43BV022~056-2YJ1H

Model

CK43BV022~056-2YJ1H

1 1015

12 148

2

885

13 227

3

468

14 98

4

5

417

6

7

817

8

460

9

178

161

15

16

17

18

19

91

47

120

56

74

55

11

10

220

207

20

124

130

405

21

Convertible type indoor unit CF43BV028~071-MYJ1H    

 

 



  

  

 

  



   

  





 

  







  



  

  

 

  

 

     

56

CF43BV080~140-MYJ1H 

   







 





 

 







  

 







   

  



  

57

Slim low ESP duct type indoor unit model

a

b

c

ed

f

g

h

i

CC43BV022LLYJ1H CC43BV028LLYJ1H CC43BV036LLYJ1H

420

892

370

850

185

640

90

760

152

1080

152

CC43BV045LLYJ1H


2 40

1212

370

1170

185

960

90













 

   





    

58



Med ESP duct type indoor unit (50/96Pa)    



CC43BV056~080MHYJ1H

  

          

           

  

  



     

  

 



  



  



 

 

 



  

 

 

 

 

  

   

   

  

  

  

 



 

59

CC43BV090~140MHYJ1H

  

 







 





    

  vent

   

 

  

    drain pipe  



  

  

 

air return

60

  

  

     

High ESP duct type indoor unit CC43BV056HHYJ1H

CC43BV071HHYJ1H

CC43BV080HHYJ1H

C 906 53

air inlet

830

245

23

air outlet

80

0 5

794

A

B 0 1 1

304 0 3 0 9 8

1 3

5 5 2

0 8

650 90

60

205

5 5

150

0 0 3

820 970 0 0 9

view A

n a h t

check hole (more than 600*600)

0 6 3

e r o m

5 5 2

4 6

more than 830 750

view C

820

view B

61

CC43BV090~140HHYJ1H

C

875 22.5

air inlet

830 245

22.5

794

air outlet

80

0 5

A

B 0 1 1

304 0 3 0 7 2 1 1 3

5 5 2

853 90

60

1200

0 8

1350

205

5 5

view A

150

0 0 3

0 0 9

0 6 3

n a h t

check hole (more than 600*600)

5 5 2

e r o m

4 6

1103 1200 more than 830

view B

view C

62

CC43BV224~280HHYJ1H



C

880 25

air inlet

B

830 245

25

80

0 5

air outlet

A 8 3 0 1 1

304

5 5 2

view C

5 7

90

1510

60

1570 1720 more than 900

view A

1498

300

0 5 1

1622 1572

5 0 2

1510 95

0 0 8

0 6 3

0 3 8 n a h t e r o m

5 5 2

85 55

4 6

view B

check hole (more than 600*600) 1510 1622

63

Console type indoor unit



 

  

  

  

64



High wall type indoor unit









CH43BV022~045-HYJ1H



187



CH43BV056~071-HYJ1H

1046

239



65

4. Selection data 4.1 Operation space Outdoor unit (1) When outer wall is lower than the outdoor condenser A. Sites for one-row layout

      

   

    

         

 

     

        

    

                    

 

         

 

    

     

        

    

                 

 

 

        

   

    

        

 

     

68

                                

 

 

        

    

    

 



      

                   

   

        

    

    



 

     

69

       

         

4-way cassette type indoor unit Ensure the required space for installation and maintenance (refer to the following drawings). The installation height should be kept within 2.7m. When the height of the ceiling exceeds 2.7m, the warm air is hard to blow to the ground.

Model CK43BV028~045-CYJ1H CK43BV056~080-4YJ1H CK43BV090~140-4YJ1H

CK43BV028~140-4YJ1H

2-way cassette type indoor unit Select the following places to install indoor unit (1)The places where cool or warm air can ventilate smoothly. If the place is higher than 3m, the warm air will gather around the ceiling. A circulator is necessary for this case. (2)The places where the wires and pipes are easy to outdoor. (3)The places where the condensate water can be drained out smoothly and the drainage pipe can lean appropriately. (4)The places where there is no obstacle at air inlet or outlet. And the places which will not alarm or not be in short circuit. (5)The place where the sunshine will not shoot directly. (6)The places around which the frosting temperature is below 28 and the relative humidity is below 80% (when the unit is installed at place with high temperature, pay main attention to frosting issues, for example the unit can be equipped with heat insulation) Take it into account that if the place is strong enough to support the unit. If not, please strengthen it with reinforced plate and horizontal plate.

70

A(mm) 310 280 320

Convertible type indoor unit

               





 

 

Ceiling Installation 











Model CF43BV028~071-MYJ1H CF43BV080~140-MYJ1H

a Over 30cm Over 80cm

b

c Over 30cm Over 150cm

Over 2cm Over 10cm

 

                

        

 



        

           



   

                 

 

Model CF43BV028~071-MYJ1H

A(mm) 990

B(mm) 900

71

C(mm) 655

  

D(mm) 200

E(mm) 175

   CF43BV080~140-MYJ1H





      

   





   



    



72

Slim duct type indoor unit

Med ESP duct type indoor unit CC43BV056~080MHYJ1H 

 

   

            

    

 



           

               

                

             

 

 

 

 





           

  

   





                       

    

CC43BV090~140MHYJ1H

maintenance hole

maintenance hole

intake panel electrical control box

electrical control box

73

High ESP duct type indoor unit



CC CC43BV224~280HHYJ1H

74

Console type indoor unit 

 

     















  





 

 



 





  





75

4.2.

Capacity calculation due to capacity modification coefficient                                 

 

                           





         

                         

















 

   



   

                                        

  

    

  

                                   

    

      

 

 

       

    

     

76

          CA43BV224 r to c 1.00 fa n o it 0.95 a s n0.90 e p

CA43BV280

liquid pipe :φ12.7 gas pipe :φ22.22

n 0.95 io t a s n0.90 e liquid pipe :φ9.52 p

liquid pipe :φ9.52

m0.85 o c g n li 0.80 o 0 o c

m0.85 gas pipe :φ22.22 o c g 0.80 n li o 0 20 40 60 o c

gas pipe :φ19.05

20 40 60 80 100 120 140 160 180 pipe length of single way (m )

CA43BV335

CA43BV400

n o 0.95 ti a s liquid pipe :φ12.7 n 0.90 e gas pipe :φ28.58 p m liquid pipe :φ12.7 o 0.85 c gas pipe :φ25.4 g iln 0.80 o 0 20 40 60 80 100 120 140 o c

r to c 1.00 a f n o 0.95 ti a s n e 0.90 p m o c 0.85 g in l 0.80 o 0 o c

160 180

pipe length of single way (m )

CA43BV450

g in l o o c

0.85


r to c 1.00


gas pipe :φ28.58


g in l o o c

0.85


100 120 140 160 180


gas pipe :φ28.58

0.80 0 20 40 60 80 100 120 140 160 180 pipe length of single way (m )


g iln 0.80 o o 0 c

CA43BV504

CA43BV615 r to c a f 1.00 n o ti 0.95 a s n e 0.90 p m liquid pipe :φ15.88 o c

0 20 40 60 80 100 120 140 160 180

CA43BV680

(m )


0.80

r to c 1.00 a f n o ti 0.95 a s n e 0.90 p m o c 0.85

20 40 60 80 100 120 140 160 180

fa n o ti 0.95 a s n e 0.90 p m liquid pipe :φ15.88 o 0.85 c gas pipe :φ28.58 g n li 0.80 o o 0 20 40 60 80 c

20 40 60 80 100 120 140 160 180



pipe length of single way


CA43BV560 r to c a f 1.00 n o ti 0.95 a s n e 0.90 p m o liquid pipe :φ15.88 c

80 100 120 140 160 180


r o t c 1.00 a f

r to1.00 c fa n o it0.95 a s n0.90 e p m o0.85 c g 0.80 n li o 0 o c


r to1.00 c fa


r to c a f 1.00 n o it 0.95 a s n e0.90 p m o c0.85 g n li 0.80 o o c


20 40 60 80 100 120 140 160 180

CA43BV730



0 20 40 60 80 100 120 140 160 180 pipe length of single way (m )


77

CA43BV800

r to c a f 1.00 n io t 0.95 a s n e0.90 p m liquid pipe :φ19.05 o c 0.85 gas pipe :φ31.8 g n li 0.80 o o 0 20 40 60 80 c

CA43BV850

r to c fa 1.00


n o ti 0.95 a s n e p 0.90 m o c

0.85

g in l o 0.80 o c

100 120 140 160 180




pipe length of single way (m ) r to c a f n o ti a s n e p m o c g in l o o c

CA43BV900

n0.95 io t a s n0.90 e p m o0.85 c g n0.80 li o o c

0.95 0.90 0.85 liquid pipe :φ19.05


gas pipe :φ31.8

0.80

0 20 40 60 80 100 120 140 160 180

CA43BV1010

n0.95 o ti a s n0.90 e p

liquid pipe :φ22.22 m o0.85 c gas pipe :φ38.1

100 120 140 160 180 (m )

CA43BV1130

g n0.80 li o o c

r to c

liquid pipe :φ22.22 fa gas pipe :φ38.1 n

tio 0.95 a s n 0.90 e p liquid pipe :φ19.05 m o 0.85 gas pipe :φ38.1 c g 0.80 n li o 0 20 40 60 80 o c



CA43BV1080

r o t c 1.00 fa

pipe length of single way r o t 1.00 c a f n


(m )

pipe length of single way r to c 1.00 a f n o it 0.95 a s n e 0.90 p m liquid pipe :φ19.05 o c 0.85 gas pipe :φ38.1 g n li 0.80 o o 0 20 40 60 80 c

CA43BV960

r tc1.00 o fa

1.00

100 120 140 160 180



CA43BV1180 1.00

o ti 0.95 a s n e 0.90 p m o c 0.85 g in l o o c



0 20 40 60 80 100 120 140 160 180


CA43BV1300


100 120 140 160 180

r to c1.00 a f n0.95 o ti a s n0.90 e p liquid pipe :φ19.05 m o0.85 gas pipe :φ38.1 c g0.80 n li o 0 20 40 60 80 o c


r to c a f

(m )


CA43BV1235

r o t c 1.00 fa n0.95 o ti a s n e0.90 p liquid pipe :φ19.05 m o0.85 c gas pipe :φ38.1 g n0.80 li o 0 20 40 60 80 o c


0.80


100 120 140 160 180


(m )

CA43BV1350 1.00

n 0.95 o ti a s n 0.90 e p m o c 0.85 g n 0.80 li o o c




                                                       











 











78

 

35



 









(2) Calculation method of heating capacity---Heating capacity to be known = Heating capacityx (A x B x C x D x E x F) W B. Capacity modification value under outdoor air wet-bulb C. Capacity modification value temperature condition under airflow variation rate of 1.2 indoor unit group

A. Capacity modification value under indoor air dry-bulb temperature condition

C a p a 1.1 ity c m o d 1.0 if ic a t io n 0.9 v a lu e

1.1

1.2

1.0 1.1

0.9

1.0

0.8

0.9

0.7

20

0.5

24

Indoor air dry-bulb temperature

-15

-1 0

-5

c a p a c tiy

20 40

0

5

10

1 5

Outdoor air wet-bulb temperature

D. Capacity com pensation suitable for total capability of indoor unit group (heating) t 1.2 n e i ic ff 1.0 e o c n 0.8 o ti a 0.6 ic ifd o 0.4 m y ti c 0.2 a p a C 0

80 90 100 110 120

airflow variation rate(% )

0.6

0.8 15

S ta n d a r d

60 80 100 120 140

E. Capacity compensation coefficient for defrost capability of outdoor heat exchanger

t n 1.0 ie ic ff e o c n io t a 0.9 ic ifd o m ty i c a p 0.8 a C -15

-10

-5

0

5

Outdoor air wet-bulb temperature

Total capacity of indoor unit group(%) F. Heating compensation factor at different pipe length for all modules r o t 1.00 c fa n o ti 0.98 a s n e p 0.96 m o c g 0.94 n ti a e h 0.92

0.90 0

20

40

60 80 100 120 140 160 180

pipe length of single way(m)

(3) Calculation method of refrigerating capacity---Only one indoor unit running standby indoor nominal capacity Outdoor modified capacity withindoor a single running =outdoor modified capacity * Indoor total nominal capacity (Outdoor modified capacity: heating or cooling capacity after modify item 1 and 2)

79

10

4.3.

Air flow and static pressure curves C43BV022LLYJ1H

700

600

) h / 3 500 (m w 400 o fl ir a 300

Uhi Hi Me Lo

200

100

0 0

10

20

30

Static pressure (Pa)

C43BV028LLYJ1H 700

600

) 500 h / (m 400

3

w o fl ri a

Uhi Hi

300

Me Lo

200

100

0 0

10

20


80

30

C43BV036LLYJ1H 700

600

) 500 h / m ( 400

3

Uhi Hi

w o lf 300 ri a

Me Lo

200

100

0 0

10

20

30


C43BV045LLYJ1H 800 700

) 600 h / 500 (m

3

w lfo ri a

Uhi Hi

400

Me 300 Lo 200 100 0 0

10

20


81

30

C43BV056LLYJ1H 1200

1000

) h

800

3/

m ( w o fl ri a

Uhi Hi

600

Me 400

Lo

200

0 0

10

20

30


C43BV071LLYJ1H 1400

1200

) h / 3 m ( w lo f ir a

1000 Uhi

800

Hi 600

Me Lo

400

200

0 0

10

20


82

30

CC43BV056MHYJ1H

air flow and static pressure curves

1400 1300 3

)h /

1200

super high

m ( w1100 o fl 1000 ri a

high med low

900 800 40

50

60

70

80

100

90

static pressure(Pa)

CC43BV071MHYJ1H


1400 1300

) h / 1200 3 m ( 1100 w o fl 1000 ir a

super high high med low

900 800 40

50

60

70

80

static pressure(Pa)

83

90

100

CC43BV080MHYJ1H


1400 1300

) /h 1200 3 (m1100 w lo f 1000 ir a


900 800 40

50

60

70

80

90

100

static pressure(Pa)

CC43BV090~140MHYJ1H


2400

super high

2200

high

) h / 2000 3 m ( 1800 w o fl 1600 ri a 1400

med

low

1200 1000 10

20

30

40

50

60

70

static pressure (Pa)

84

80

90

100 110

CC43BV056HHYJ1Hair

flow and static pressure curves

2200 2000

) 1800 h 1600 3/ m ( 1400 w1200 o fl ir 1000 a 800


600 400 200 80

100

120

140

160

180

200


CC43BV071HHYJ1H


2200 2000 1800

) h / 1600 3 1400 m ( w1200 o lf 1000 ri a 800


600 400 200 80

100

120

140

160

180


85

200

CC43BV080HHYJ1H


2200 2000 1800 ) 1600 h / 3 1400 m (

super high high

1200

w lo f 1000 ir 800 a

med

600

low

400 200 80

100

120

140

160

180

200


CC43BV090HHYJ1H


2600 2400 super high high

2200 ) 2000 h / 1800 m (

3

med

w1600 o lf ir 1400 a

low

1200 1000 800 80

100

120

140

160


86

180

200

CC43BV112HHYJ1H


2600

) 2400 h / 2200 m ( 2000 w o 1800 fl ri 1600 a

3

super high high

1400

med

1200

low

1000 800 80

100

120

140

160

180

200


CC43BV140HHYJ1H


2600 2400

) 2200 h / 3 2000 (m w 1800 lo f 1600 ir a 1400


1200 1000 800 80

100

120

140

160


87

180

200

4.4 Air velocity and temperature distribution 4-WAY CASSETTE CK43BV028/036/045-CYJ1H

a. Cooling / Air Velocity Distribution Cooling Blowy angle:40 Air Velocity Distribution

2.7m

2m

1.5m/s

1.5m/s 1.0m/s

1.0m/s 1m

0.5m/s

0.5m/s

4m

3m

2m

1m

0m

1m

2m

3m

0m 4m

b. Cooling / Temperature Distribution Cooling Blowy angle:40 Temperature Distribution

2.7m

2m 22

22

25

25

27

1m

27

0m 4m

3m

2m

1m

0m

88

1m

2m

3m

4m

c. Heating / Air Velocity Distribution Heating Blowy angle:70 Air velocity Distribution 2.7m

2m

1.5m/s

1.5m/s

1.0m/s

1.0m/s

1m

0.5m/s

0.5m/s

0m 4m

3m

2m

1m

0m

1m

2m

3m

4m

d. Heating / Temperature Distribution Heating Blowy angle:70 Temperature Distribution 2.7m

2m

27

27

25

25

1m

22

22

4m

3m

2m

1m

0m

89

1m

2m

3m

4m

0m

CK43BV056~140-4YJ1H


2.7m

2m 1.5m/s

1.5m/s

1.0m/s

1.0m/s

1m 0.5m/s

0.5m/s

0m 4m

3m

2m

1m

0m

1m

2m

3m

4m


2.7m

2m

22

22

25

25

1m 27

27

0m 4m

3m

2m

1m

0m

90

1m

2m

3m

4m

c. Heating / Air Velocity Distribution Heating Blowy angle:70 Air velocity Distribution

2.7m

2m 1.5m/s

1.5m/s 1.0m/s

1.0m/s

0.5m/s

4m

3m

1m

0.5m/s

1m

2m

0m

2m

1m

3m

0m 4m

d. Heating / Temperature Distribution Heating Blowy angle:70 Temperature Distribution

2.7m

2m 27

27

25

25

22

4m

3m

2m

1m

22

1m

0m

1m

91

2m

3m

0m 4m

2-WAY CASSETTTE



92



93

CONVERTIBLE CF43BV028~140-MYJ1H

a) On the floor a. Cooling / Air Velocity Distribution Cooling Blowy angle:25 Air Velocity Distribution

2.4m 0.5m/s 1.0m/s

1.5m/s

0m

5.5m


2.4m 27 25

22

5.5m

0m

94


2.4m 0.5m/s

1.0m/s

1.5m/s

5.5m

0m


2.4m 22

25

27

0m

5.5m

95

b) Ceiling a. Cooling / Air Velocity Distribution Cooling Blowy angle:25 Air Velocity Distribution

2.4m 1.5m/s

1.0m/s

0.5m/s

0m

5.5m


2.4m 22

25

27

0m

5.5m

96


2.4m

1.5m/s

1.0m/s

0.5m/s

0m

5.5m


2.4m

27

25

22

0m

5.5m

97

CONSOLE CJ43BV022~050MYJ1H


2.4m 0.4m/s 0.8m/s

1.2m/s

0m

5.5m


2.4m 26 24

21

0m

5.5m

98


2.4 0.4m/s

0.8m/s

1.2m/s

0

5.5


2.4 21

24

26

0

5.5

99

4.5 Sound data Outdoor unit   

  



                                  





  



     













    CA43BV224/280-V5J1H

B D l e v e l e

B D l e v e l

r u s s e r p d n u o s d n a b e v a t c O

e r u s s e r p d n u o s d n a b e v a t c O

CA43BV335/400/450-V5J1H

limit of audible continuous noise

Octave band center frequency(HZ)


CA43BV224/280-V6J1H

B D l e v e l e r u s s e r p d n u o s d n a b e v a t c O


CA43BV335/400/450-V6J1H

B D l e v le e r u s s e r p d n u o s


d n a b e v a t c O




100


  

                            

CK43BV028/036-CYJ1H

CK43BV071-4YJ1H

CK43BV045-CYJ1H

CK43BV080~112-4YJ1H

101

CK43BV056-4YJ1H

CK43BV140-4YJ1H


  

                            

CK43BV022~036-2YJ1H

CK43BV045/56-2YJ1H

102

Convertible type indoor unit (1) Testing illustrate:

                            

    CF43BV080/090-MYJ1H

CF43BV028~071-MYJ1H B d l e v le

B d l e v le e rs u s e r p d n u o s

ru e s s e r p d n u o s d n a b e v a t c O

d n a b e v a t c O

Octave band center frequency (Hz)

CF43BV112/140-MYJ1H

Limit of audible continuous noise


B d l e v le e r u s re p d n u o s d n a b e v a t c O


103

Slim duct type indoor unit

(1)Testing illustrate:

M .5 1

(2) Testing condition: a: Unit running in the normal condition b: Test in the semi-anechoic chamber c: Noise level varies from the actual factors such as room structure, etc.

(3)Octave band level:

C43BV022~036LLYJ1H

C43BV045/056LLYJ1H

104

C43BV071LLYJ1H

Med ESP duct type indoor unit

       

                                

CC43BV090~112MHYJ1H

CC43BV056~080MHYJ1H

B d l e v le e r u s s e r p d n u o s d n a b e v a t c O

Limit audib of continu le nois ous e

    HZ)

105

High ESP duct type indoor unit

(1)Testing illustrate: Air outlet

(2)Testing condition:

duct

a: Unit running in the normal condition b: Test in the semi-anechoic chamber c: Noise level varies from the actual factors such as room structure, etc.

(3)Octave band level: CC43BV056~080HHYJ1H

CC43BV112HHYJ1H

CC43BV224HHYJ1H

CC43BV090HHYJ1H

CC43BV140HHYJ1H

CC43BV280HHYJ1H

106

Air inlet

M 5 . 1


(1) Testing illustrate:

                            

    CJ43BV050-MYJ1H

CJ43BV022/028/036-MYJ1H

B d

B d

l e v e l

l e v e l

e r u s s e r p

e r u s s e r p

d n u o s

d n u o s

d n a b

d n a b e v a t c o

e v a t c o





107

High wall type indoor unit

  

                            

   

CH43BV022~045-HYJ1H

CH43BV056~071-HYJ1H

80

80

NC-70

NC-70

70

70

NC-60

NC-60

60

60

NC-50

NC-50

50

50

NC-40

NC-40

40

40

NC-30

NC-30

30

30

NC-20

NC-20

20

20

63

125

250

500

1000 2000 4000 8000

63

108

125

250

500

1000 2000 4000 8000

5. Operation limit

Cooling 45

40

Heating 20

35

)

℃ ( B D r i a r o o d t u o

30

15

C o n s e c u t iv e o p e r a t io n

25

20 15

10

℃ ( B D ir a r o o td u o

10

5

0

-5

5

-10

0

-15

-5 10

15

20

C o n s e c u ti v e o p e r a ito n

)

25

10

30

Indoor air DB(℃ )

15

20

Indoor air DB(

109

25 ℃

30

)

6. Electric data

Power supply

Units Model

Phase

CK43BV028-CYJ1H

1

CK43BV036-CYJ1H CK43BV045-CYJ1H

1 1

FQY 50/60

50/60 50/60

Voltage Volt range

Indoor fan motor Output （W）

MCA

FLA

Power input(W) Cooling

Heating

208-230

198-242

0.4

20

0.3

80

80

208-230 208-230

198-242 198-242

0.4 0.4

20 20

0.3 0.3

80 80

80 80

CK43BV056-4YJ1H

1

50/60

208-230

198-242

0.73

45

0.5

145

145

CK43BV071-4YJ1H

1

50/60

208-230

198-242

0.73

45

0.5

145

145

CK43BV080-4YJ1H

1

50/60

208-230

198-242

0.73

45

0.5

145

145

CK43BV090-4YJ1H

1

50/60

208-230

198-242

0.75

55

0.65

150

150

CK43BV112-4YJ1H

1

50/60

208-230

198-242

0.75

55

0.65

150

150

CK43BV140-4YJ1H

1

50/60

208-230

198-242

0.75

55

0.65

150

150

Symbols: MCA: Min. circuit amps (A) MFA: Max. fuse amps of circuit breaker W: Fan motor rated output(W) FLA: Full load amps(A)

Notes: 1.Voltage range The units are applicable for the electrical systems where voltage supplied to unit is in the range. 2.Maximum allowable voltage unbalance between phases is 2%. 3.MCA=1.25*FLA MFA ≤4*FLA 4.Power supply uses the circuit breaker

110

Units Model

IndoorFanMotor Output

PowerInput(W)

Phase

FQY

Voltage

CK43BV022/28-2YJ1H

1

50/60

208-230

198~242

35

0.4

90

90

CK43BV036-2YJ1H

1

50/60

208-230

198~242

35

0.4

90

90

CK43BV045-2YJ1H

1

50/60

208-230

198~242

35

0.4

110

110

CK43BV056-2YJ1H

1

50/60

208-230

198~242

35

0.4

110

110

Volt range

FLA

（ W）

Cooling


Notes: 1.Voltage range The units are applicable for the electrical systems where voltage supplied to unit is in the range. 2.Maximum allowable voltage unbalance between phases is 2%. 3.MCA=1.25*FLA MFA ≤4*FLA

4.Power supply uses the circuit breaker

111

Heating

Power supply

Units Model

Phase

FQY

Voltage

Volt range

MCA

Indoor fan motor Output (W)

FLA

Power input(w) Cooling

Heating

CF43BV028-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV036-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV045-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV056-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV071-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV080-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV090-MYJ1H

1

50/60

208-230

198-242

0.46

30

0.37

100

100

CF43BV112-MYJ1H

1

50/60

208-230

198-242

1.5

120

1.21

400

400

CF43BV140-MYJ1H

1

50/60

208-230

198-242

1.5

120

1.21

400

400



112

Power Supply

Units

Indoor Fan Motor Output(W)

FLA

Power Input(W)

Model

Phase

FQY

Voltage

VoltRange

MCA

CC43BV022LLYJ1H

1

50/60

208-230

198-242

0.3

14

0.23

Cooling 58

58

CC43BV028LLYJ1H

1

50/60

208-230

198-242

0.3

14

0.23

58

58

CC43BV036LLYJ1H

1

50/60

208-230

198-242

0.3

14

0.23

58

58

CC43BV045LLYJ1H

1

50/60

208-230

198-242

0.41

14

0.33

80

80

CC43BV056LLYJ1H

1

50/60

208-230

198-242

0.6

33

0.42

116

116

CC43BV071LLYJ1H

1

50/60

208-230

198-242

0.6

33

0.42

116

116




113

Heating

Power Supply

Units Voltage

V olt Range

MCA

Indoor Fan Motor Output(W)

FLA

Power Input(W)

Model

Phase

FQY

CC43BV056MHYJ1H

1

50/60

208-230

198-242

1.2

96

1.06

235

Cooling

235

Heating

CC43BV071MHYJ1H

1

50/60

208-230

198-242

1.2

96

1.06

235

235

CC43BV080MHYJ1H

1

50/60

208-230

198-242

1.2

96

1.06

235

235

CC43BV090MHYJ1H

1

50/60

208-230

198-242

2.2

250

1.7

490

490

CC43BV112MHYJ1H

1

50/60

208-230

198-242

2.2

250

1.7

490

490

CC43BV140MHYJ1H

1

50/60

208-230

198-242

2.2

250

1.7

490

490



114

Units

Power Supply

Indoor Fan Motor Power Input(W) Output（W）

FLA

Cooling

Heating

2.5

240

2

450

450

198-242

2.5

240

2

450

450

208-230

198-242

2.5

240

2

450

450

50/60

208-230

198-242

3.25

270

2.6

560

560

1 1 1

50/60 50/60 50/60

208-230

208-230

198-242 198-242 198-242

3.25 3.25 6.25

270 270 250*2

2.6 2.6 2.5*2

560 560 1110

560 560 1110

1

50/60

208-230

198-242

6.25

250*2

2.5*2

1110

1110

Model

Phase

FQY

Voltage

VoltRange

MCA

CC43BV056HHYJ1H

1

50/60

208-230

198-242

CC43BV071HHYJ1H

1

50/60

208-230

CC43BV080HHYJ1H

1

50/60

CC43BV090HHYJ1H

1

CC43BV112HHYJ1H CC43BV140HHYJ1H CC43BV224HHYJ1H CC43BV280HHYJ1H

208-230




115

Power Supply

Units Model

Phase

FQY

Voltage

CJ43BV022-MYJ1H

1

50/60

CJ43BV028-MYJ1H

1

50/60

208-230

CJ43BV036-MYJ1H

1

50/60

CJ43BV050-MYJ1H

1

50/60

LtRange

Indoor Fan Motor

MCA

Output(A)

198-242

0.5

20+11

198-242

0.5

20+11

208-230

198-242

0.5

208-230

198-242

0.5

Fla

Power Input(W) Cooling

Heating

0.25+0.15

100

100

0.25+0.15

100

100

20+11

0.25+0.15

100

100

20+11

0.25+0.15

100

100

208-230


Notes: 1.Voltage range The units are applicable for the electrical systems where voltage supplied to unit is in the range. 2.Maximum allowable voltage unbalance between phases is 2%. 3.MCA=1.25*FLA MFA≤4*FLA


116

7. Wiring diagram CA43BV224/280-V5J1H

r o it c a p a C

L B

Y

e c n a t s i s e R

t n u h S

r o t c a e R

Y

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W

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r e t r e v n I

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L B

B

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Y

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117

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CA43BV224/280-V6J1H

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O T Y L N O D IE L P P A S I M A R G A I D G IN R I W S I H T . 1

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r e ll o it g tr n tin n u t o cl r o e o ss a rt d s n in e f re d c o g d n d a i n a ttn io D se ss I. n yti i e c m e a s tw p rn a e a c T b ) ) P P 8 ( 8 ( h ch tci ti w w S S ip p i D D 1 2 0 0 W W S S

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8. Field wi ring

133

9. Refrigerant piping system 9.1 Piping system Examplesofpipingsystem

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                                                          

134

Long pipe and high drop 1. Applicable range

Model

Item

All outdoors

Single way total pipe length Single way pipe length

300m

Max.: 175m (Equivalent length) Max.: 135m (Equivalent length)

Main pipe between outdoor to 1st branch Pipe length between outdoors Height difference between indoor and outdoor

Less than 10m to 1st branch pipe Outdoor is above

Max. 50m

Outdoor is below

Max. 40m

Height difference between outdoors

Within 5m (better be horizontal)

(in the same system) Max. pipe length from 1st branch pipe to indoor

Max. 40m

Height difference between indoors

Max. 15m

2. Pipe leng th between outdoors

Gas/liquid pipe: L1+L3 10m, L2+L3 10m Oil equalization pipe: L5+L6 10m Height difference between outdoors: h 5m

135

Note:

a. HZG-30A includes HZG-20A; b. The connection pipe among outdoors can't be higher than the outdoor unit stop valve to avoid over oil return to compressor; c. The piping should be installed horizontal or with slope toward the interior units (less than 15degree).

Installation procedure Piping installation with positive slope is not allowed.

136

d. For installations with outdoors at different heights, please follow either of the layouts below:

Installation p rocedure When changing the height of the pipe connecting different outdoors at different heights,please do as the figure shows: Oil trap (upright projecting pipe, 200mm high), for maximum outdoor unit height difference,please refer to

Installation below is not allowed

137

3. Allowable piping length and drop between indoor and outdoor

138

Installation procedure Max. length

Pipe in above figure

Single way total pipe length

300

L1+L2+ L3+ L4+ L5+ L6+ L7+L8+ L9+ L10+ L11+ L12+ L13+ L14+ L15

Single way max. pipe equivalent length Max. pipe length after 1st branch pipe Main pipe equivalent length

175 40

L1+ L3+ L5+ L7+ L14+ L13 L7+L13+L14

135

L5

Height difference between indoors

15

Height difference between outdoors

5

---

Outdoor pipe dimension

The pipe " a, b, c, d” should be confirmed as to the below table. Total outdoor capacity before the gather pipe (kW)

Liquid pipe(a, c) (mm)

Gas pipe(b, d) (mm)

~62.0

12.7

28.58

62.0~96.0

15.88

31.8

96.0~101.0

15.88

38.1

over 101.0

19.05

38.1

Note: When the single pipe length is over 90m, the above pipe should be enlarged as the former information.

Oil equalization pipe connection

139

Installation p rocedure

Unit pipe spec and connection method (unit: mm) A. Outdoor unit

Liquid pipe

Gas pipe Diameter

Model

(mm)

Connecting method

Diameter

(mm)

CA43BV224-V5(6)J1H

19.05

9.52

CA43BV280-V5(6)J1H CA43BV350-V5(6)J1H CA43BV400-V5(6)J1H CA43BV450-V5(6)J1H

22.22

9.52

25.4

Braze

12.7

Oil pipe

Connecting method

Diameter

Connecting method

(mm)

9.52 9.52 Flared

9.52

25.4

12.7

9.52

28.58

12.7

9.52

Flared

B. Indoor unit

(kBtu/h)

Liquid pipe

Gas pipe

Model Capacity

Diameter (mm)

Connectingmethod

Diameter (mm)

07

9.52

6.35

09

9.52

6.35

12

12.7

6.35

16

12.7

6.35

18

12.7

24

15.88

28

15.88

9.52

30

15.88

9.52

38

15.88

9.52

48

15.88

9.52

72

25.4

96

25.4

Connectingmethod

6.35 9.52

Flared

Flared

9.52

Braze

9.52

CH43BV022-HYJ1H, CH43BV028-HYJ1H gas pipe: 12.7mm CH43BV056-HYJ1H gas pipe/ liquid pipe: 15.88mm/9.52mm C. Pipe spec and the torque Diameter (mm)

Torque (N·m)

6.35 9.52

16~20 40~50

12.7

90~120 100~140 No requirement, due to braze connector

15.88 19.05 Not less than

22.22

140

Installation procedure Anti-fouling measures First, clean the pipe. Position

Installation period

Measures

Outdoor

More than 1 month

Flat the pipe end Flat the pipe end or Seal with adhesive tape

Indoor

Less than 1 month Nothing to do with period

Pipe specification:

1. Pipe " a" diameter (between indoor and branch pipe) (depends on indoor pipe) Indoor (x100W) 22~28 36~56 71~140

Gas pipe (mm)

Liquid pipe (mm)

9.52

6.35

12.7

6.35

15.88

9.52

Note:

CH43BV022-HYJ1H CH43BV028-HYJ1H gas pipe: Φ 12.7mm CH43BV056-HYJ1H gas pipe/ liquid pipe: Φ 15.88mm/9.52mm

141

Installation procedure 2. Pipe “b” diam eter (between branch pipes) Total indoor capacity after the branch pipe (kW)

Gas pipe (mm)

<16.8kW

Liquid pipe (mm)

15.88

9.52

16.8kW≤X<22.4kW

19.05

22.4kW≤X<33.0kW

22.22

9.52

33.0kW≤X<47.0kW

28.58

12.7

47.0kW≤X<71.0kW

28.58

15.88

71.0kW≤X<101.0kW

31.8

19.05

38.1

19.05

≥101.0kW

9.52

Adjust the diameter on field (changing pipe is needed) When the latter indoor total capacity is less than 14.0kW, pipe b will use the specs as the pipe a. Note:

3. Pipe “c” diameter (main pipe, between outdoor gather pipe and the first branch pipe) Outdoor capacity 22.6kW

Main pipe

Enlarged main pipe

Gas pipe (mm)

Liquidpipe(mm)

19.05

9.52

Gas pipe (mm)

Liquidpipe(mm)

22.2

12.7

9.52

25.4

12.7

28.0kW

22.2

33.5kW

25.4

12.7

28.58

12.7

40.0kW

25.4

12.7

28.58

12.7

45.0kW

28.58

12.7

31.8

12.7

50.6kW

28.58

15.88

31.8

15.88

56.0kW

28.58

15.88

31.8

15.88

61.5kW

28.58

15.88

31.8

15.88

68.0kW

28.58

15.88

31.8

15.88

73.0kW

31.8

19.05

38.1

19.05

78.5kW

31.8

19.05

38.1

19.05

85.0kW

31.8

19.05

38.1

19.05

90.0kW

31.8

19.05

38.1

19.05

96.0kW

31.8

19.05

38.1

19.05

101.0kW

38.1

19.05

38.1

22.22

106.5kW

38.1

19.05

38.1

22.22

113.0kW 118.0kW

38.1 38.1

19.05 19.05

38.1 38.1

22.22 22.22

123.5kW

38.1

19.05

38.1

22.22

130.0kW

38.1

19.05

38.1

22.22

135.0kW

38.1

19.05

38.1

22.22

Note : When the distance from outdoor to the longest indoor is over 90m, the main pipe should be the enlarged diameter.

38 142

Installation procedure 4. Pipe “d”diameter (between outdoor branch pipe) Liquid pipe(a, c) (mm)

Total outdoor capacity before the gather pipe

Gas pipe(b, d) (mm)

~68.0kW

15.88

28.58

69.0~90.0kW

19.05

31.8

5. Pipe “e”diameter (between outdoor and the outdoor branch pipe) Gas pipe (mm)

Outdoor capacity CA43BV224-V5(6)J1H

19.05

CA43BV280-V5(6)J1H

22.2

CA43BV335/400-V5(6)J1H

25.4

CA43BV450-V5(6)J1H

28.58

Liquid pipe (mm)

Oil equalization pipe (mm)

9.52 9.52 12.7

Copper pipe selection:

Material

O type pipe: soft pipe

Pipe diameter (mm)

6.35

9.52

12.7

15.88

19.05

Thickness (mm)

0.8

0.8

1.0

1.0

1.1

Material

Hard pipe

Pipe diameter (mm)

19.05

22.2

25.4

28.58

Thickness (mm)

1.0

1.0

1.0

1.0

143

31.8 .11

34.9 1.3

38.1

41.3

1.4

1.5

9.2 Field refrigerant piping Treatment for pipes to prevent compressor being blocked Compressor failure includes being blocked and motor burnt. It manybe because of damaged parts but mainly it is relative to the installation and the pipe specification. Measures to prevent piping failure A. Charge nitrogen fluently 1) Non-flow nitrogen will produce the film (CU20). The oxide film will cause the serious failure. ，

2) The exterior substance will cause the capillary or the expansion valve blocked abnormal discharging temperature not cooling or heating, compressor locked, etc. B. Do not let water into the pipe. 1) Do not install the pipe when raining. 2) Hang and fix the outdoor pipe to prevent water into it. The water in pipe will cause the following effect: the capillary or the expansion valve blocked refrigerant hydrolized into acid substance cause abnormal crystal by refrigerant oil reaction. C. Do not let dust or other matter such as the concrete fragment sand or the clinker etc into the pipe. Please deal with them carefully. D. Adopt the specified copper pipe. ，

,

，

，

，

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  

                                        Heat insulation

Gas pipe and liquid pipe should be heat insulated separately. Liquid pipe shall be heat insulated at all times and the only exception when the customer is totally sure the unit will only deliver COOLING. The material for gas pipe should endure the high temperature over 120℃ . That for liquid pipe should be over 70℃ .

The material thickness should be over 10mm, when ambient temp. is 30 ℃ , and the relative humidity is over 80%, the material thickness should be over 20mm. The material should cling the pipe closely without gap, then be wrapped with adhesive tape. The connection wire cannot be put together with the heat insulation material and should be far at least 20cm.

144

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Introduction of branch pipe

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       



                                                                                                                   

145

            

  



  

     

     



  

    

 





  

       

  

  



       



       



   



146

9.3

Refrigerant charging and additional charging

Additional refrigerant charging Charge the additional refrigerant as liquid state with the gauge. If the additional refrigerant cannot be charged totally when the outdoor stops, charge it at the trial mode. If the unit runs for a long period in the state of lack of refrigerant, compressor will occur failure.

( the charging must be finished within 30 minutes especially when the unit is running, meanwhile charging the refrigerant). The unit is charged only part of the refrigerant at the factory, also need additional refrigerant at the installation site. W1: Refrigerant charging volume to outdoor unit at factory. W2: Refrigerant charging volume to outdoor unit on site.

W3: Refrigerant charging volume to liquid pipe base on different piping length calculation. W3=actual length of liquid pipe×additional amount per meter liquid pipe= L1×0.35+L2×0.25+L3×0.17+L4×0.11+L5×0.054+L6×0.022 L1: Total length of 22.22 liquid pipe; L2: Total length of 19.05 liquid pipe; L3: Total length of 15.88 liquid pipe; L4: Total length of 12.7 liquid pipe; L5: Total length of 9.52 liquid pipe; L6: Total length of 6.35 liquid pipe; Total refrigerant volume charging on site during installation=W2+W3 W: Total refrigerant volume charging on site for maintenance. Refrigerant record form

Model

CA43BV224-V 5(6)J1H CA43BV280-V5(6)J1H CA43BV350-V5(6)J1H CA43BV400-V5(6)J1H CA43BV450-V5(6)J1H

W2: W1: Refrigerant Refrigerant charging charging volume to volume to outdoor unit outdoor unit on site at factory 10kg

0kg

W3: Refrigerant charging volume to

liquid pipe base on different piping length calculation

Liquid pipe diameter

(mm)

10kg

1kg

9.52

2kg

12.7

10kg

2kg

15.88

10kg

4.5kg

19.05

(kg)

W: Total refrigerant volume charging on site for maintenance

0.022kg/m×__m=__kg 0.054kg/m×__m=__kg

6.35

10kg

Additional refrigerant amount

Total refrigerant volume charging on site during installation

0.11kg/m×__m=__kg 0.17kg/m×__m=__kg 0.25kg/m×__m=__kg 0.35kg/m×__m=__kg W3=___kg

22.22

W2+W3= ___kg

W1+W2+

W3=___kg

Note:

To prevent the different oil into the pipe, please use the special tool for R-410A, especially for gauge manifold and charging hose. Mark the refrigerant type in different colour on the tank. R-410A is pink. Must not use the charging cylinder, because theR-410A will change when transferring to thecylinder. When charging refrigerant, the refrigerant should be taken out from the tank as liquid state. Mark the counted refrigerant volume due to the distributing pipe length on the label.

147

10. Electric system 10.1 Electric installation                      For other area, pls. comply with local regulation requirement. Electric wiring should be executed by the specialized well-trained person. Warnings: A.Do not take the other wire except for copper wire as the power cable. B.All indoor/outdoor units must be connected with the ground wire of power cable. The ground wire can not be connected onto the ground wire of coal gas pipe, water pipe, lightning rod, or telephone. Or the electric shock or fire will occur. C.Must install the leakage breaker and the over current breaker, or electric shock will occur. D.Before finishing electric installation, do not electrify the unit. E.Indoor and outdoor use their individual power source. All indoors use one power source. F.The communication wire and the power cable must be individual and cannot use one multi-core cable, or the communication wire will be interfered to cause abnormal. Note: When one wired controller controls multiple indoors, the connected indoor units must use the common phase of power source, or the communication will be abnormal. For example, the power source is L1, L2, L3, and N; all the indoor units must use L1/N or L2/N or L3/N.

   (1) Power wiring figure(208V)





  



  

    

  

 

  

    

  

   

  

  

   

    

    

 

    

  

    

  

                            

148

Power wiring figure(460V)

power source: 3~,460V,60Hz

power source:1~,208~230V,60Hz • • •



power source:1~,208~230V,60Hz power source: 1~,208~230V,60Hz

Indoor and outdoor use their individual power source. All indoors use one power source. Must install the leakage breaker and the over current breaker, or electric shock will occur.

                            

149

     

 

 





 

   

  

 

 

 

 









      

   



 





 



 



 

 

 

  

    

 



  





   



 



   

  

 



 

  

 

  





   



 



     

   

      

   

  

Outdoor units are in parallel through 3 polarwires. The outdoor and all indoor units arein parallel through 2 nonpolar wires. Three wiring methods between wired controller andindoor unit: A. 1 to multi (group control): one wired controller controls 2 16 indoors, as shown in above figure, indoor 1 ～

～

indoor 5: indoor 5 is wired control master unit, the others are wired control slave units. Wired controller and the master indoor (directly connected to wired controller) is connected by 3 polar wires; the other indoors and the master indoors are connected by 2polar wires. NOTE:when using group control, indoor units must uessame phase power supply B. 1 to 1 (one wired controller controls one indoor): as shown in abovefigure, indoor 6 indoor 19, indoor and ～

wired controller are connected by 3 polar wires. C. 2 to 1 (two wired controller controls one indoor): as shown in abovefigure, indoor 20. Either of wired controllers can be set as master wired controller, and theother is slave wired controller. Master/slave wired controller, and master/indoor are connected by 3 polar wires. When indoor is controlled by remote controller, refer tothe”wired control master unit/wired control slave unit/ remote control unit table”. A, B, C on signalterminal block need not wires and notconnect the wired controller.

150

10.2 Specs for power cable and communication wire (1) Outdoor power source and power cable Item Power source Model

Power Wire Circuit cable length breaker section (m) (A) 2 (mm )

CA43BV224-V 5 J1 H

10 16

60 60

38.6 44.7

40A30mAbelow0.1S 50A30mAbelow0.1S

3.5 3.5

M5 M5

16

60

50.9

60A30mAbelow0.1S

3.5

M5

16

60

57.1

60A30mAbelow0.1S

3.5

M5

CA43BV450-V 5 J1 H

25

60

61.7

70A30mAbelow0.1S

CA43BV224-V 6 J1 H

10

60

25

25

A 30mA below 0.1S

3.5

M5

CA43BV280-V 6 J1 H

10

60

25

25

A 30mA below 0.1S

3.5

M5

16

60

40

40

A 30mA below 0.1S

3.5

16

60

40

40A30mAbelow 0.1S

3.5

M5

16

60

40

40A30mAbelow0.1S

3.5

M5

CA43BV280-V 5 J1 H CA43BV335-V 5 J1 H

r e w o p l a u d i v i d In

Rated current of residual Ground wire circuit breaker(A) Ground fault Section Screw interruptor(mA) (mm2) response time(S)

CA43BV400-V 5 J1 H

CA43BV335-V 6 J1 H CA43BV400-V 6 J1 H

3~, 208-230V, 60Hz

3~, 460±10%V, 60Hz

CA43BV450-V 6 J1 H

3.5

M5

M5

a.Power cable m ust be fixed firmly. b. Each outdoor must be earthed well. c. When pow er cable exceeds the range, thicken it appropriately.                  <



 

      

 <  <  <

   

       

  

      

   

    







   







   







   







   

a. Power cable and communication wire must be fixed firmly. b. Each indoor must be earthed well. c.When power cable exceeds the range, thicken it appropriatel y. d.Shield ed layer of comm unicatio n wires must be connected together and be e.Communication wire total length cannot exceed 1000m.

    

earthed at single point.

       

 

 

    

  

<

 

<

 

         

 

   

    

   

    

a. Shielded layer of communication wire must be earthed at one end. b. The total length cannot exceed 600m. (4) Control type and switchover a) Indoor unit can be controled by wired controller or remote controller. b) When installation, the installer must set the unit due to the control type and wiring type.Switchover between wired control (master / slave) and remote control

151

10.3 Control function                                                              

 

    

                                                                                                                            

152

                                                      





                                              

 

153

                                                      

 

                            

  

 

 









            

154

Connecting board address setting method OFF: 0 ON:1  

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155



     

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156

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10.4 Dip switch setting 0151800113 PCB dip switch setting((CK43BV*-4YJ1H, CF43BV*-MYJ1H, CC43BV*MHYJ1H, CC43BV*HHYJ1H) In the following table, 1 is ON, 0 is OFF. SW01 is used for indoor unit group control address setting and capacity selection. CN44,CN42,CN43 are used for indoor unit type selection. CN41 is used for addressing by wired controller. SW03 is used for indoor unit address setting (including physical address and central address). SW07 is used for running mode setting. J1-J8 are used for fan motor setting. (1) Description of SW01

(2) CN41,CN42,CN43,CN44 plug explanation

wired control [1] [2] [3] [4] address master unit in 0000 group control slave unit 1 in 0001 SW01_1 group control wired SW01_2 control slave unit 2 in SW01_3 0010 address group control SW01_4 slave unit 3 in 0011 group control … … … … …… slave unit 15 in 1111 group control indoor unit [5] [6] [7] [8] capacity 0 0 0 0 0 0 SW01_5 indoor 0 SW01_6 unit SW01_7 0 capacity SW01_8 1 1 1 1 1 1 1 1

0 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1

0 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1

0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1

0.6HP 0.8HP 1.0HP 1.2HP 1.5HP 1.7HP 2.0HP 2.5HP 3.0HP 3.2HP 4.0HP 5.0HP 6.0HP 8.0HP 10.0HP 15.0HP

set the address with wired controller is unavailable(default) set the address with wired 1 controller is available(When SW03_1 is off) CN44 CN42 CN43 indoor type normal indoor 0 0 0 (default) 0 0 1 wallmounted 0 1 0 Freshairunit 0 1 1 OEM(HRV) 1 0 0 Ceilingfloor CN42 indoor reserve CN43 type 1 0 1 (general CN44 indoor unit) reserve 1 1 0 (general indoor unit) reserve 1 1 1 (general indoor unit) Set address CN41 by wired controller

0

*Note1* 1.0 stands for open circuit,1 stands for socket short circuit connection 2.CN41 must be in short circuit, and SW03_1 at OFF when addressing by wired controller 3.Using wired controller modifying physical address or central control address, the other corresponding address can change automatically, meeting as follows: Central control address equals to physical address plus 0 or 64

157

(3) Description of SW03 Set the address with wired controller or automatism(default) 1 Set the address with dip switch Commun- Central [2] [3] [4] [5] [6] [7] [8] ication control address address 1# 1# Set the Commun0000000 (default) (default) ication 0000001 2# 2# and SW03_2 3# 3# Central 0000010 ~ … … control … … … … … … … SW03_8 address 0 1 1 1 1 1 1 64# 64# with dip 1000000 1# 65# switch 1000001 2# 66# (*Note 2) 1000010 3# 67# … … … … … … … … … 1 1 1 1 1 1 1 64# 128# SW03_1

Manner of set address

0

*Note 2 1. The ad dress m ust be s et by dip switch if central control is used. 2. SW03 -2=O FF, central cont rol address = physical address +0 SW03-2=ON, central control address=physical address 3. The address must be set+64 bymanual if the 0151800113 and 0010451181A used in one system.

(4) Description of SW07

SW07_1 SW07_2

SW07_3

SW07_4 SW07_5

SW07_6

SW07_7 SW07_8

[1] [2] Tdiff correctionvalveinAUTOmode Tdiff Tdiff:0 correction 0 0 valve in 0 1 Tdiff:1 AUTO 1 0 Tdiff:2 mode 1 1 Tdiff:3(default) 1 normally, without 26 degree lock function(defaulted) 26 degree lock function is available(In cooling mode, though set temp. is 26℃ lock 0 below 26 degree,count as 26 degree. In heating mode, though set temp. exceeds 20 degree, count as 20 degree) In heat- [4] [5] Inlet air temp. Tai correction valve Tcomp2(EEPROM) ing,inlet 0 0 Taicorrectionvalve=12 ℃ air temp. 0 1 Taicorrectionvalve=4 ℃ Tai correc- 1 0 Taicorrectionvalve=8 ℃ tion valve 1 1 Tai correction valve=0 ℃ (default) Tcomp2 room card. 1 room card function is unavailable, HRV linkage function is unavailable(default) OEM HRV 0 room card function and HRV linkage function is available linkage operation [7] [8] Function mode 0 0 [FAN][COOL][DRY][HEAT] change- 0 1 [FAN] [COOL] [DRY] over of 1 0 [FAN] [COOL] [DRY] [HEAT] [ ELECTRIC-HEAT] wired [AUTO] [FAN] [COOL] [DRY] [HEAT](default) controller 1 1

158

(5) Description of jump wire:SW08(1:ON, 2:OFF)

J1

J2

J3

J4

J5

1

Normal mode(default)

0

Air volume is fixed at high speed(for duct type)

Fix air volum

In heating,run at Midis speed when Hi speed selected

1


0

In heating, run at Mid speed when Hi speed is selected

1


0

Quiet running mode

Quiet running mode This Indoor has highest priority

1


0

This Indoor has highest priority

Indoor and outdoor 90 meters drop selection

1


0

High drop

J6

Reserved

J7

Indoor installation height selection

1


0

Above 2.7m, uses next higher fan speed(indoor fan speed improve 1 grade)

J8

Reserved

Note:0 indicates disconnection, indicates short circuit. Default position: SW01: depend on unit capacity CN41, CN42, CN43: open circuit. CN44: open circuit except of floor ceiling unit SW07: all ON J1-J8: all ON (6) Jumper explanation a) EEV operation manually (CN27, CN29) CN27: short circuit CN27 2 seconds continuously, EEV is opened fully.. CN29: short circuit CN29 2 seconds continuously, EEV is closed fully b) time-short and self-check (CN28) Short circuit CN28 2 seconds after power ON, process into time-short Short circuit CN28 before power ON, process into self-check.

159

0151800161 PCB dip switch setting(CC43BV*LLYJ1H) “1”shows dip switch is ON or jumper is short connected; “0”shows dip switch is OFF or jumper is disconnected (1) SW01 definition： setting the capacity of master and slave indoor unit

SW01_1

Operating mode

SW01_2 SW01_3

Wired control address (note 1)

SW01_4

SW01_5 SW01_6 SW01_7 SW01_8

Indoor unit capacity

1 0

[FAN][COOL][DRY][HEAT] [AUTO] [FAN] [COOL] [DRY] [HEAT]

[2]

[3]

[4]

Wiredcontroladdress

0

0

0

1

# （Wired control master unit

0

0

1

2

# （Wired control slave unit）

0

1

0

3


0

1

1

4


1

0

0

5


1

0

1

6


1

1

0

7


1

1

1

8

[5]

[6]

[7]

[8]

Indoor unit capacity

00

0

0

0.6HP

00

0

1

0.8HP

00

1

0

1.0HP

00

1

1

1.2HP

01

0

0

1.5HP

01

0

1

1.7HP

01

1

0

2.0HP

01

1

1

2.5HP

10

0

0

3.0HP

10

0

1

3.2HP

10

1

0

4.0HP

10

1

1

5.0HP

11

0

0

6.0HP


11 1

1

0 1

1 0

8.0HP 10.0HP

1

1

1

1

15.0HP

Note 1： One wired controller can connect eight indoor unit maximum.

160

Default）

(2) SW03 definition: setting indoorunit address (Original communication address and centralized control

address combination)

SW03_1

Address setting type

[1]

Address setting type

0

set address automatically（Default）

1

Dip switch setting address Central

[2]

[3]

[4]

[5]

[6]

[7]

[8]

0

0

0

0

0

0

0

~

communication

0

0

0

0

0

0

1

2#

2#

address and

0

0

0

0

0

1

0

3#

3#

central control

…

…

…

SW03_8

address

0

1

setting(note 2)

1

0

0

0

0

0

1

0

0

0

0

0

1

0

0

0

0

1

…

…

…

1

1

1

1

… 1

1

… 1

…

1

1

…

1

…

…

…

6

4#

64#

0

1#

65#

1

2#

66#

0

3#

67#

1

…

control address

1#（Default） 1#（Default）

Indoor SW03_2

Indoor unit address

… 1

…

…

…

6

4#

128#

Note 2： 1) Connected to a central controller or gatewayor billing system, you must use the dip switch setting address 2) Central control address = communication address add 0 or add 64 SW03_2 = OFF , central control address = communication address add 0 = communication address SW03_2 = ON , central control address = communication address add 64（central control and the indoor unit more than 64） 3) If using 0010451181A in same time，must use the dip switch setting address SW03_1 = ON ; SW03_2 = OFF ; SW03_3、SW03_4、SW03_5、SW03_6、SW03_7、SW03_8 are address setting it correctly. ,

4) Address setting function of wired controller for slim duct is unavailable. （3） SW08 definition: setting room card and26 degree lock

1 SW08_1

26 degree lock function

0

Normal mode 26 degree lock is available (in cooling mode ,if set temp. lower than 26 degree, count as 26 degree; in heating mode if set temp. exceeds 20 degree, count as 20 degree.)

SW08_2 SW8_3

SW8_4

Room card

1

Not available

0 Indoor priority

1

selection

0

Indoor

1

installation high drop is 90 m

Available Normalmode(default) High priority Normal mode (default)

0

High drop 161

0151800161B PCB (CK43BV*-2YJ1H ) (1) Description of SW01 SW01-1

Mode selection

OFF

[AUTO][FAN][COOL][DEHUMIDIFY][HEAT]

ON

[FAN] [COOL] [DEHUMIDIFY]

OFF

OFF

OFF

0# master unit (default)

OFF

OFF

ON

1# slave unit 2# slave unit

OFF

ON

OFF

SW01-2~

Wired control

OFF

ON

O

SW01-4

address

ON

OFF

OFF

4# slave unit

ON

OFF

ON

5# slave unit

ON

ON

OFF

6# slave unit

ON

ON

O

OFF

OFF

ON

0.8HP (

CK43BV022-2YJ1H)

OFF O FF

ON

OFF

1.0HP (

CK43BV028-2YJ1H)

OFF OFF

ON N ON

1.2HP (

CK43BV036-2YJ1H)

OFF OFF

OFF

ON

ON

OFF

SW01-5~

Indoor unit

SW01-8

capacity

OFF

ON

slaveunit

slaveunit

1.7HP( 2.0HP (

CK43BV045-2YJ1H) CK43BV056-2YJ1H)

(2) Description of SW03 SW03-1

Address setting

OFF

Auto（default）

type

ON

Setting by dip switch

[2]

[

[5]][6]

[7]

[

Communication

OFF

OFF

OFF

OFF

OFF

OFF

OFF

SW03-2~

address and

OFF

OFF

OFF

OFF

OFF

OFF

ON ON

SW03-8

central control

_

_

_

_

_

_

address

OFF

ON

ON

ON

ON

ON

ON

OFF

OFF

OFF

OFF

OFF

_

_

_

_

ON

ON

ON

ON

ON _

O _

ON ON

ON

(3) Description of SW08 SW08-1

WIFI mode

OFF

One to multi

selection

ON

One to one

OFF

Available

ON

Unavailable

SW08-2

Rome card

SW08-3

Reserved

ON

Default

SW08-4

Reserved

ON

Default

162

(default)

Communicat ion address 0# 1

central control address 0# 1#

_

_

63#

63#

1#

64# _

63#

_ 1 27#

0151800086 PCB dip switch setting(AF*MAERA) 

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    



                      

 































      

















                        









































     

 















   26 ℃ lock function invalid





26 ℃ lock function valid

  

163

0010451751AF / 0151800141APCB (CH43BV022~045-HYJ1H) The code is dialed to ON position with the overline at the state of strapping if the code or overline status is 1 ; The code is dialed to OFF position with the overline at the state of disconnection if the code or overline status is 0 .  In the table below, the choice in the box  refers to the setting of the socket/overline before delivery. 

“

“

”

”

“

”

“

“

”

”

A. SW01 definition: SW01: function selection, WIFI mode control choice, passive element setting and indoor capacity setting.

SW01_1

default: Allow the wired controller setting address. If power again, the address conflicts can be automatically set.

0

wired controller setting Address

wired controller is forced to set fixed address. Do not set automatically.

1 SW01_2 SW01_3 SW01_4

SW01_5 SW01_6 SW01_7 SW01_8

function selection WIFI control

mode

0

[AUTO] [HEAT] [DRY] [COOL] [FAN]

1 1

[DRY] [COOL] [FAN] one to one one to multi

0

indoor capacity setting

passive element null passive element valid indoor capacity setting

0 1

passive element setting [5]

[6]

[7]

[8]

0

0

0

0

0 0 0 0

0 0 0 1

0 1 1 0

1 0 1 0

0

1

0

1

0 0

1 1

1 1

0 1

1 1 1 1

0 0 0 0

0

0

0 1 1

1 0 1

1 1 1

1 1 1

0 0 1

0 1 0

6.0HP 8.0HP 10.0HP

1

1

1

1

15.0HP

0.6HP 0.8HP(CH43BV022-HYJ1H) 1.0HP(CH43BV028-HYJ1H) 1.2HP(CH43BV036-HYJ1H) 1.5HP 1.7HP(CH43BV045-HYJ1H) 2.0HP(CH43BV056-HYJ1H) 2.5HP(CH43BV071-HYJ1H) 3.0HP 3.2HP 4.0HP 5.0HP

Setting methods of 26 lock function: Power on the unit, in cooling mode, low speed, setting the temperature 26 ℃. Press the "HEALTH" button of the remote controller 8 times in 5 minutes, buzzer echoes 4 times, the 26℃ lock function is available; repeat above operations, buzzer echoes 2 times, the 26℃ lock function is unavailable. Factory default the 26℃ lock function is unavailable.

164

B. SW02 dip switch definition instruction:

SW02_1 SW02_2 SW02_3 SW02_4

wired controller indoor address (group address)

[1]

[2]

[3]

[4]

0

0

0

0

Wired controller indoor address (group address) 0# (wired controller master) (default)

0

0

0

1

0 0

0 0

1 1

0 1

1# (wired controller slave) 2# (wired controller slave)









1

1

1

1

3# (wired controller slave) 

15# (wired controller slave)

C. SW08 definition: SW08: temperature compensation selection and quiet function selection SW08_1

SW08_2

temperature compensation selection

0

temperature compensation 3 select (heating) (default)

1

temperature compensation 3 cancel (heating)

quiet function selection

0 1

quiet function valid quiet function null (default)

D. SW03 definition: SW03: communication address setting between indoor and outdoor SW03_1

address setting type

auto setting or Wired controller setting (default) dip switch setting

0 1

[2] [3] [4]

SW03_2 ~ SW03_8

communication address and central control address by dip switch (*note)

communication central control address address

[5] [6] [7][8]

0

0

0

0

0

0

0

0#(default)

0#(default)

0 0

0 0

0 0

0 0

0 0

0 1

1 0

1#

1#

2#

2#



















63# 0#

63# 64#

0 1

1 1 111 0 0 0

0

0

1 0

1 1

0 0

0 0

0 0

0 0

0 1

1 0

1#

65#

2#

66#



















1

63#

127#

1

1 1

111

*Note: When connecting central controller, gateway or counting system, set address by dip switch.

165

Dip switch setting of YR-E14 wired controller  





   

      

 

   







   

         



  



    

     



 



   









  



   

 

    

 



    







 



    

                                         

                                                                                 

166

Outdoor selection switch instruction

Selection switch and the display

Introduction of dip switch on outdoor connecting board: BM1,BM2,BM3,BM4,BM5: 8-bit dip switch Identification: Master unit: by setting dip switch, the unit number is 0. It is used to communicate with indoor unit, also it is the organizer of outdoor communications as communication master unit. Slave unit: by setting dip switch, the unit number is not 0. Dip switch definition: BM1 is usually set by the personnel on site; BM2, BM3, BM4 are pre-set in the factory. BM1_1: Master outdoor unit searches the total outdoor units after power ON at first time. The quantity of total outdoor units is floating from right to left on LED. "1=0" is one outdoor unit, "2=01" is two outdoor units, "3=012" is three outdoor units. BM1_2: Master outdoor unit searches the total indoor units after power ON at first time. The quantity of total indoor units is floating from right to left on LED. "-04-" is 4 indoor units, "-06-" is 6 indoor units, "-15-" is 15 indoor units. BM1_3: The setting is 0 or 1.Default is 0. Once power off,unit software shall reset to"OFF"automatically ignoring BM1_3 setting.

167

1)BM1 instruction Outdoor searching

BM1-1 BM1-2

after startup Indoor searching

0 1 0

Stop searching outdoor and lock the quantity

Begin to search outdoor

after startup

1

Stop searching indoor and lock the quantity

Begin to search indoor Default condition: Unit shall startup after 6 h ours preheat or oil superheat above 20℃ .

Start

BM1-3

up

Power on, no action

(Oil Superheat=Oil temperature@compressor sink-Refrigerant saturation temperature@ambient)

Power on, Change 0 to 1 or change

Unit shall startup after 6 hours preheat or oil superheat above 15℃ .

from 1 to 0 then to 1 0

BM1-4

AmbientTemp.>25

1

BM1-5 BM1-6

BM1-7 BM1-8

℃

heating function normally

℃

,heating running forbidden

Heating function

Over match setting Sensor backup running

Address setting

AmbientTemp.>25

Indoor capacity divisity >130%, system function normally Indoor capacity>130%, system alarm

0 1 0

Allow

1

use notDo

BM1-7

BM1-8

Unit number

0 0 1

0 1 0

0# (physical master unit)

1

1

3#

1# 2#

Note: 1. Sensor backup running a. When an switch outdoorBM1-6 unit isisinincombination or asthe a single unit,automatically if the outdoor unit shows a failure, as described in 1-b, and the dip position 0, then unit will switch to backup mode. b. Backup running condition: When system is working, the following failures will make the unit to run in backup mode: Cooling: 20(Tdef: defrost sensor failure), 25-1(Toci1: sensor 1 of condenser piping temperature failure), 25-2(Toci2: sensor 2 of condenser piping temperature failure ), 35 (4-way valve reversing failure) Heating: 22-1(Ts: suction temperature sensor failure), 32-1(Tsco: branch sub cooler sensor failure), 32-2(Tliqsc: sub cooler sensor failure) 2. Oil temperature too low protection See BM1-3(BM1 introduction table)

168

2)BM2 instruction

BM2

Definition

BM2-1

Quiet running function

Introduction 0

System function normally without quiet function

1

Quiet running function

0

System function normally without anti-snow function

BM2-2

Anti-snow function

BM2-3

Nodefinition

0

Default is 0,1 is Forbidden

BM2-4

Nodefinition

0


Anti-snow function

1

BM2-5 BM2-6

BM2-7 BM2-8

Outdoor installation condition selection

Piping length selection

BM2-5

BM2-6

0

0

Default setting (Normal installation condition )

0

1

Lowhumidificationinwintercondition

1

0

High humidificationinwintercondition

1

1

BM2-7

BM2-8

0

0

0

1

1

0

1

1

Default setting (Normal installation condition )

Default setting (Medium piping length) Long piping length Short piping length

Default setting (Medium piping length)

3)BM3 instruction

BM3

Definition

BM3-1

No definition

0


BM3-2

No definition

0


BM3-3

No definition

0


BM3-4

No definition

0


BM3-5

Switch over power supply of 50/60Hz

BM3-6 BM3-7 BM3-8

Introduction

Outdoor horse power setting

169

0

50Hz

1

60Hz

BM3-6

BM3-7

BM3-8

T1

0

0

0

6HP

0

0

1

8HP

0

1

0

10HP

8HP

0

1

1

12HP

10HP

1

0

0

14HP

1

0

1

16HP

1

1

0

18HP

1

1

1

20HP

T3

12HP

4)BM4 instruction

BM4

Definition

Introduction

Locking indoor

BM4-1

connection quantity

BM4-2

0

pressure selection

1

BM4-5

Switch over power supply

S

BM4-8

80Pa T1

1

T3

0

380 ～ 400V 208 ～ 230V

1

Nodefinition

BM4-7

50Pa

0

Condition selection

BM4-6


0

Outdoor external

BM4-4

Do not Lock indoor connection quantity

1

Nodefinition

BM4-3

Locking indoor connection quantity

0

witch overpower supply

0


0


0

Nodefinition

is 1460V

5)BM5 instruction BM5-1 ~ BM5-4 BM5-5 ~ BM5-8

Outdoor motor selection

Inverter board selection

BM5-1

BM5-2

1

1

BM5-3

BM5-4

Selection item

Dual fan motor(375W) Single fan motor(750W)

00

0

0

1

1

BM5-5

BM5-6

BM5-7

BM5-8

1 0

1 0

0 1

0 1

Selection item inverter board APY inverter board

Monitor tooIs The following switches are included in the master PCB board of the outdoor unit.

Press button: SW2, SW1 are the button switch Rotary switch: SW9, SW10, SW11, 0~15 can be set. Display section: LD1, LD2, LD3, LD4, nixie tube. During start-up and commissioning, you can identify failures in the system by selecting the indoor unit to review with switch as SW9 and SW10, and to select the function to review with SW11. Indoor parameter Check the parameters of indoor whose address is from 1 to 64.

SW11 is set from 3~15 to check indoor parameter. SW9 and SW10 shows indoor unit number. SW9 0 1 2

SW10

System address

1-16 17-32 33-48

0-15

49-64

3

170

SW11

Function

3

Indoor communication c hecking

4

Indoorabnormal

5

Indoorcapacity

6 7 8 9 10 11 12 13 14 15

IndoorEEVopenangle Indoor ambient temp.Tai Indoor gaspipe temp.Tc1

Indoor liquid pipe temp. Tc2 Indoormode Indoorsettemp.Tset IndoorSCODEcode Wrong wiring inspection No definition No definition

Digital tube LD1~4 display Communication available, display 1111; Indoor unavailable, display ---Display indoor failure code; no failure, display 0 Indoor capacity, 1.5HP displays 1.5 Electronic expansion valve(EEV) open angle Ambient temperature -2degree displays -2 Gas pipe temperature -2degree displays -2 Liquid pipe temperature -2degree displays -2 Cooling: COOL; heating: HEAT, shutoff: OFF Set temperature, 16 degree displays 16 0~15 0 shows no failure, 79 shows wiring connection failure (indoor no display) insignificance insignificance

Outdoor parameter

SW9 is used to select outdoor unit number, SW10 and SW11 working together to show outdoor parameter. For example, SW9 is set 0, that shows No.0 outdoor parameter; set as 1, that shows No.1 outdoor parameter... (master unit can display the other outdoor parameter and indoor parameter, but the slave unit only displays itself parameter). Start up for commissioning, search slave units and display flashing 0 from left to right. If one slave unit is found, display 1, two slave units are found, display 2, and so on, the max. number is 8. After searching slave units, display outdoor failure code; if no failure, display 0. 0~2 of SW9 is used to select outdoor unit number.

171

SW9 Unit No.

0-2

SW10

SW11

Digital tube LD1~4 display

Function

0

0

2

0

3

0

Displayoperationmode

HEAT: heating; COOL: cooling; OFF: stop

4 5

0 0

Outdoorcapacity Outdoorcapacityoutputratio

16.0 shows 16HP, 8.0 shows 8HP 60 shows 60% of capacity output

1

0

Displayoutdoorfailurecode

Failure code transmitted by outdoor bus data. If no failure, display the time as second counting down fromt the 6 hours for pre-heating

Display priority of outdoor

Display outdoor priority

number

Current frequency of Inverter compressor

110.0 shows 110.0HZ. Press SW2(UP) for 2s continuously, display 1111, then to set: flashing and press SW2(UP) once, the frequency will go up 1Hz; press SW1(DN) once, the frequency will decrease 1Hz; 5 min later, quit the setting state automatically.

Press SW1(DN) for 2s continuously, display 0000, then quit the setting state, and stop flashing. When system failures, compressor is forbidden to start up.

6

0

Speedofoutdoorfanmotor1 345 shows 345rpm.

Press SW2(UP) for 2s continuously, display 1111, then to set: flashing and press SW2(UP) once, the frequency will go up 1Hz; press SW1(DN) once, the frequency will decrease 1Hz; 5 min later, quit the setting state 7

0

Speed of outdoor fan Motor 2

automatically.

Press SW1(DN) for 2s continuously, display 0000, then quit the setting state, and stop flashing.

LD1: 4WV: 1 ON 0 OFF--left side 8

0

Outdoor solenoid valve output

LD2: SV1: 1 ON 0 OFF

indication

LD3: SV6: 1 ON 0 OFF LD4: SV9: 1 ON 0 OFF

172

SW9

SW10

SW11

9

0


Function

LD1: SV10: 1 ON 0 OFF Outdoor solenoid valve

LD2: SV11: 1 ON 0 OFF

output indication

LD3: SV13i: 1 ON 0 OFF LD4: SV3i:

10

0

11

0

Outdoor LEVa1 valve open angle

Outdoor LEVa2 valve open angle

0--500 steps. Press SW2(UP) for 2s continuously, display 1111, then to set: flashing and press SW2(UP), valve opens fully; press SW1(DN), valve closes fully; 2 mins later, quit the setting state automatically. Press SW1(DN) for 2s continuously, display 0000, then quit the setting state, and stop flashing. LD1: LD2: LD3: LD4:

Outdoor solenoid valve output 12

0

indication fixed frequency compressor output indication

SV3(pump): 1 ON 0 OFF FAN_PTC: 1 ON 0 OFF COMP1: 1 ON 0 OFF COMP2: 1 ON 0 OFF

LD1: CHi: 13

0

1 ON 0 OFF

1 ON 0 OFF

LD2: CHa: 1 ON 0 OFF

Heater output

LD3: CH1: 1 ON 0 OFF LD4: CH2: 1 ON 0 OFF

14

0

15 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 15

0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

Outdoor LEV b valve open angle

0--500 steps. Press SW2(UP) for 2s continuously, display 1111, then to set: flashing and press SW2(UP), valve opens fully; press SW1(DN), valve closes fully; 2 min later, quit the setting state automatically. Press SW1(DN) for 2s continuously, display 0000, then quit the setting state, and stop flashing.

Unit number address Pd pressure Ps pressure Tdidischargingtemp. Tsi suction temp. Tdefdefrostingtemp. Tao ambient temp. Toilp temp. Toil temp. Toci1 temp. Toci2 temp. Tsco temp.

shows 1 1# unit 10.00 shows 10.00kg 10.00 shows 10.00kg 25shows25degree 25 shows 25degree 25shows25degree 25 shows 25degree 25 shows 25degree 25 shows 25degree 25 shows 25degree 25 shows 25degree 25 shows 25degree 25 shows 25degree 25 shows 25degree 25shows25degree 10.2shows10.2A 10.2 shows 10.2A

Tliqsc temp. Td1 temp. Tsuctemp. Imcompressorcurrent

CT1 fixed compressor current

---- outdoor normal operation 1111 outdoor backup operation

backuprunning

173

Master unit information center: display parameters of the whole system Digital tube LD1~4 display

SW9

SW10

SW11

Function

0

0

2

0

1

2

0

2

2

Outdoor QTY in one system

0

3

2

Indoor QTY in one system

e.g.: 64 indoors

0

4

2

Running indoor QTY

Thermostat ON indicates indoor running

407C stands for R407C

410A stands for R410A(default)

Refrigerant type

R22 stands for R22 Outdoortotalcapacity

48.0standsfor48HP

e.g.: 4 outdoors (including master outdoor)

Indoor QTY whose operation modes

0

5

2

e.g.: 13 indoors

0

6

2

Pre-set

--

0

7

2

Pre-set

--

are as the same as that of outdoor

Refrigerant evacuation setting 0

8

2

*only for outdoor evacuation. If indoor evacuation, do not set. When it finishes, cancel the setting or re-

Press SW2(UP) for 2s continuously, display 1111 and start up; digital tube displays "YES", detailed response: SV9, SV10, SV11 open; LEVa1,2, LEVb open for 100pls, the other valves close compulsorily. Press SW1(DN) for 2s continuously, display 0000 and stops (setting is invalid when unit is running)

electricity. Refrigerant charging setting

Press SW2(UP) for 2s continuously, display 1111 and start up; digital tube *only for gas charged outdoor. If displays "YES", detailed response: LEVa1,2 open for 500pls, the other valves indoor is charged, do not set. When it close compulsorily. Press SW1(DN) for 2s continuously, display 0000 and finishes, stops (setting is invalid when unit is running) cancel the setting or re-electricity.

0

9

2

0

10

2

Wrongwiringinspectionincooling

0

11

2

Wrongwiringinspectioninheating

Press SW2(UP) for 2s continuously, display 1111 and start up; digital tube counts down judging time at second; after time arrives, display the result: "00.00" shows the result is in conformity with the actual connection; "01.05" shows one outdoor and 5 indoors are abnormal, to check the abnormal units by digital tube (indoor: X_X_13, outdoor X_0_0); Press SW1(DN) for 2s continuously, display 0000 and stops

174

SW9

SW10

SW11

0

12

2

0

13

2

0

14

2

0

15

2

15

0

2

15

1

2

15

2

2

15

3

2

Function


Indoor expansion valve

Press SW2(UP) for 2s continuously, display 1111 and indoor valves open fully for 2 minutes, then indoor valves close automatically. Press SW2(UP) for 2s continuously, display 1111 and start up; Press SW1(DN) for 2s continuously, display 0000 and stops. Press SW2(UP) for 2s continuously, display 1111 and start up; Press SW1(DN) for 2s continuously, display 0000 and stops. Press SW2(UP) for 2s continuously, display 1111 and start up; Press SW1(DN) for

open fully All indoor units running in cooling All indoor units running in heating

Cancel all manual

controls(running type) Capacity correction class Defrosting

2

5

2

Overmatchinspection Heating limit when

15

6

2

outdoor temp.over 25degree Silentoperationsetting

7

2 2

15

13

2

15

14

2

15

15

2

15

25 shows 25 degree 25 shows 25 degree

heating Electricity limitation

4

8

10, 8, 6

cooling Set temperature in

15

15

2 shows long piping length

compensation Set temperature in

15

15

continuously, display stops. Cancel items: wrong wiring inspection in2scooling/heating mode; 0000 indoorand running/stop totally; compulsory operation; rated operation, etc. 0 shows short piping length; 1 shows medium piping length;

100 show 100% output,

(allow max.output)

Snow-proof operation

0 shows no output allowed

135 stands for limitation; 0: without limitation 25 shows limitation; 0 shows no limitation 0: without silent operation; 1: with silent operation 0: without snow-proof operation; 1: with snow-proof operation

setting Inverterboardselection Outdoor model

0: inverter board; 1: APY inverter board 01: single unit; the others are in combination

selection Software version

1.0 shows Ver 1.0

50 shows 50Hz 60 shows 60Hz

Power supply of

12

2

15

13

2

No definition

Insignificance

15

14

2

No definition

Insignificance

15

15

2

Software version

50/60hz

1.0 shows Ver 1.0

175

In each outdoor we’re able to review the following functions SW9

SW10

6

0

2

SV1 open by hand

6

1

2

SV6 open by hand

6

2

2

SV9 open by hand

6

3

2

SV10 open by hand

6

4

2

SV11 open by hand

6

5

2

SV13 open by hand

6

6

2

No definition

6

7

2

No definition

6

8

2

6

9

2

No definition

6

10

2

4WVopen byhand

6

11

2

No definition

Insignificance

6

12

2

No definition

Insignificance

6

13

2

No definition

Insignificance

6

14

2

No definition

Insignificance

6

15

SW11

2

Function

COMP1 running by hand

DigitaltubeLD1

～

4 display

Display current state of components; 1: open; 0: close. Press SW2(UP) for 2s continuously, display 1111 then to set and flash. Press SW2(UP) to open; press SW1 (DN) to close; 2 minutes later, quit the setting state automatically. Press SW1(DN) for 2s continuously, display 0000 then quit the set, and stop flashing(if system failures, compressor is forbidden to start up).

Insignificance Control method the same as electromagnetic valve open manually Insignificance Controlmethodthesameaselectromagneticvalveopen manually

Press SW2(UP) for 2s continuously, display 1111 then to quit. Or press SW1(DN) to 2s continuously, display 0000 then quit the set, Cancel items: movable Cancel all the manual controls component control by hand, such as compressor, motor, electronic expansion (component type) valve LEV, solenoid valve SV and so on (including evacuation, charging, excluding rated operation, compulsory operation, indoor run/stop etc.)

176

10.5 Outdoor unit control 3.2.1 Compressor startup control

On startup, inverter compressor will keep for 3 min at 60rps, then if TdiSH is still less than 25degree, compressor will increase frequency up to 100rps. If startup is for 15min or TdiSH is more than 25degree, quit startup and enter normal operation. In startup operation, the limitation frequency operation will be in priority, such as high pressure too high, discharging temp. too high, suction pressure too low, over current. After entering normal operation, when inverter compressor frequency arrives 100rps, fixed frequency compressor starts up, but if inverter compressor frequency is down to below 30rps, fixed frequency compressor is OFF. 3.2.2 Compressor operation control

It will be controlled by the target pressure. In heating mode, the target high pressure: When Ta>-7degree, target high pressure is 28Kg 0.8Kg; When Ta<=-7degree, target high pressure is 24Kg 0.8Kg In cooling mode, the target low pressure When the running indoor capacity is over 5HP, if Ta>=21degree, target pressure Ps=8Kg (4degree) 0.5Kg; if 21degree>Ta>=15degree, target pressure Ps=7Kg(0degree) 0.5Kg. 3.2.3 Fan motor control a. In cooling mode

Startup procedure: When compressor starts up, outdoor motor will not run right now, when high pressure reaches 2.1MPa, outdoor motor begins to run. In operation, the motor will be controlled by high pressure. When high pressure reaches 2.1MPa, outdoor motor will run at class-1 speed; if pressure is more than 2.1MPa, outdoor motor will increase one class at interval of 60 seconds; if pressure is over 2.6MPa, outdoor motor will rise up to class-7. If pressure is less than 1.9MPa for 60 seconds, fan motor will decrease one class. If less than 1.8MPa for 60 seconds, fan motor will stop. b. In heating mode

Motor control in startup procedure: Pd=(set pressure +0.50MPa), outdoor motor stops. When defrosting is over, after 4-way valve opens, fan motor starts up.

In operation, the motor will be controlled by low pressure. When low pressure is over 0.95MPa, fan motor will stop; when low pressure is less than 0.75MPa, for every 60 seconds, fan speed will increase one class; when it is less than 0.65MPa for 60 seconds, fan speed will be class-7 directly. In defrosting, outdoor motor will stop. After the defrosting is over, 4-way vavle opens, outdoor motor will start up at heating mode.

3.2.4 Rosting control

When one of the running outdoors reaches the defrosting condition, it will send defrosting signal to the master unit. After the master unit receives defrosting signal, it will send defrosting signal to the running outdoor. Then the slave outdoor will begin defrosting. Entering condition: When the unit has run in heating mode for 33 minutes and the compressor has run for 50 minutes accumulatively since

the last defrosting. By measuring the defrosting sensor TE and outdoor ambient temp. sensor TA, any outdoor can meet the below conditions for 5 minutes, all the outdoors will enter defrosting operation. a. When TE<= -6degree for 5 minutes; b. When -6
177

In defrosting operation:

a.4-way valve OFF b. Outdoor motor OFF

c. Anti-cold air control of indoor motor OFF d. Outdoor EEV OFF

Quit defrosting Any of the below conditions be met, thedefrosting unit will quit defrosting. a. After defrosting begins, 10can minutes later, is over; b. Detect the defrosting condition of outdoor heat exchanger by TE, all the temperatures at the defrosting point are over 10 degree for 60 seconds or reaches 15 degree or 10 seconds, quit defrosting; c. High pressure Pd is over 35kgG/cm2, quit defrosting. 3.2.5 Oil return operation control 1.Entering condition

When outdoor total running capacity is over 25% and less than 75% for 4 hours, or outdoor total running capacity is less than 25% for 2 hours, the system will enter oil return operation. *When outdoor total running capacity is over 75% for 10 minutes continuously, the oil return time will be cleared. *In defrosting operation, when outdoor total running capacity is over 75% for 5 minutes continuously, the oil return time will be cleared. 2.Oil return procedure:

All outdoors start up, and run with 75% of total capacity in cooling mode; In oil return course, outdoor leva1, 2 open to 250pls; In oil return course, THERMO ON, indoor valves 250pls, THERMO OFF, indoor valves 125pls; when Tdi or Toil is over 105degree, indoor valve will open larger 10%. In oil return, Levb OFF.

178

10.6 Failure code

Failure code description: (failure code of the whole system is showed as 8 bits, so totally 256 codes. Indoor failure code should be judged by the table and the unit number) Outdoor failure code exists in EEPROM, in which 5 failure codes can be kept. Indoor failure code exists in EEPROM, in which 5 failure codes can be kept. Failure codes are distributed as following:

0~19: indoor failure code 20~99: outdoor failure code 100~109: DC motor failure code 110~125: inverter module failure code 126~127: software auto-check failure code Physical master unit:

Dip switches SW9, SW10, SW11 are at 0, 0, 0, LD displays failure code 20~127, it is the master failure code. Dip switches SW9, SW10, SW11 are 1, 0, 0, LD displays failure code 20~127, it is failure code of No. 1 slave unit. Dip switches SW9, SW10, SW11 are 2, 0, 0, LD displays failure code 20~127, it is failure code of No. 2 slave unit. Physical slave unit:

Dip switches SW9, SW10, SW11 are at 0, 0, 0, LD displays failure code 20~127, it is single slave unit failure code. Outdoor failure code display principle on wired controller:

When outdoor compressor is running, indoor wired controller will display the failure code of outdoor with higher priority. When compressor stops, it displays all indoor failures. The indoor failures will be classified as below: sensor failure, inverter board failure, fan motor driving board failure, any protections etc. Inverter outdoor unit failure code

Digital tube Indication on wired indication on controller (hex) master unit

20

14

21

15

22-0

16

Failure code definition

Failuredescription

AD value is below 11(open circuit) or over 1012(short circuit) for 60seconds, in cooling mode, if the sensor is abnormal, the unit sensor Tdef failure does not deal with it, besides, in defrosting and within 3 minutes after defrosting, no alarm Defrosting temp.

Ambient temp. sensor Ta failure

Suction temp. sensor Tsi failure

AD value is below 11(open circuit) or over 1012(short circuit) for 60seconds, in defrosting and within 3 minutes after defrosting, no

Remarks

Resumable

Resumable

alarm

AD value is below 11(open circuit) or over 1012(short circuit) for 60seconds, in defrosting and within 3 minutes after defrosting, no alarm

179

Resumable

Digital tube Indication on indication on wired controller master unit (hex) 22-1

16


16

23-0

17

23-1

17

23-2

17

24-1

18

24-2

18

25-1

19

25-2

19

26-0

1A

26-1

1A

failure

AD value is below 11(open circuit) or over 1012(short circuit) for 60seconds, in defrosting and within 3 minutes after defrosting,

Discharging temp. sensor Tdi failure Discharging temp. sensor Td1 failure

After compressor is running for 5 minutes, AD value is below 11(open circuit) or over 1012(short circuit) for 60seconds, in course of startup, defrosting and within 3 minutes after defrosting, no alarm

Resumable

AD value is below 11(open circuit) or over 1012(short circuit) for 60seconds, if Ta<=-10degree or ET<=-10degree, within 5 minutes, no alarm

Resumable

Discharging temp. sensor Td2 failure Oil temp.sensor Toilp failure Oil temp.sensor Toil failure

AD value is below 11(open circuit) or over 1012(short circuit)

exchanger Toci1 failure for 60seconds, in cooling mode, if the sensor is abnormal, the unit does not deal with it, besides, in defrosting and within 3 Inlet temp.of heat minutes after defrosting, no alarm exchanger Toci2 failure

27

1B

Resumable

For continuous 200 cycles, can not find connected indoors

Indoor communication

For continuous 270seconds, the searched indoor quantity is less than the set quantity.

failure

1A

Resumable

no alarm

Tsuc failure

Inlet temp.of heat

26-2

Remarks

Suction temp.sensor Ts

Suction temp.sensor

22-2

Failuredescription

Resumable

For continuous 170seconds, the searched indoor quantity is more than the set quantity.

Oil temp. too high

protection(Toil)

Toil>=120degree(E) at interval of 25msec for twice continuously, and over the set value, then stop and alarm; 3 minutes later, resume automatically. If it occurs 3 times in an hour, confirm the failure.

180

Once

confirmation, un-resumable

LD indication on master unit

28

Indication on wired controller


Failure description

High pressure sensor Pd

AD value is below 11(open circuit) or over 1012(short circuit) for 30seconds, in defrosting and within 3 minutes

failure

after defrosting, no alarm

Remarks

(hex)

1C

29

1D

30-0

1E

30-1

1E

30-2

1E

32-1

20

32-2

20

33-0

21

33-1

21

33-2

21

34-0

22

Low pressure sensor Ps failure


Resumable

Resumable

High pressure switch HPSi failure

High pressure switch HPS1 If disconnect for 50ms continuously, alarm. If alarm 3 times failure in an hour, confirm the failure

Once


High pressure switch HPS2 failure

Outlet temp.of subcooler Tsco failure

Liquid pipe SC temp.of subcooler Tliqsc failure


Resumable

EEPROM communication failure

EEPROM (AT24C04) failure

EEPROM data check failure(model code, check sum etc.)

Once


EEPROM data check failure(data beyond limit, reverse sequence etc.)

Discharging temp.too high

protection (Tdi)

34-1

22

34-2

22


protection (Td1)

Toil>=120degree(E) at interval of 25msec for twice Once continuously, and over the set value, then stop and alarm; confirmation, 3 minutes later, resume automatically. If it occurs 3 times in un-resumable an hour, confirm the failure.


protection (Td2)

181

Ld indication On master unit

35

36


23

24

4-way valve reversing failure

Oil temp. too low

protection (Toil)

25

1. this outdoor compressor is running normally

2. Tsuc-Tdef¨R10¡æ or Pd-Ps¨R0.6MPa Otherwise, the system alarms reversing failure.

Remarks

Lack of phase S Lack of phase T

or wrong phase

sensor Pd too low protection

Low pressure 27

sensor Ps too low protection

39-1

27

39-2

27

Compression ratio too high protection

Compression ratio too low protection

Once confirmation, un-resumable

reverse in Phase t s,

sequence

26


In normal operation, if Td
3N power supply

High pressure

39-0

After 4-way valve is electrified for 3 minutes, if the below conditions can be met for continuous 10 seconds, that is conversing successfully:

Lack of phase of

37-3

38

Failure description

(hex)

37-1 37-2


In normal operation, Pd<1.5Mpa for continuous 5 minutes, alarm and Once confirmation, stop. 2 minutes and 50 seconds later, resume automatically, if it occurs un-resumable 3 times in an hour, confirm the failure.

After compressor is running (except for residual operation), if in cooling, Ps<0.10Mpa; in heating, Ps<0.05Mpa; in oil return, Ps<0.035Mpa for Once confirmation, continuous 5 minutes, alarm and stop. 2 minutes and 50 seconds later, un-resumable resume automatically, if it occurs 3 times in an hour, confirm the failure.

After compressor is running, compression ratio 8. for continuous 5 minutes stop and alarm.2 minutes and 50 seconds later, resume automatically, if it occurs 3 times in an hour, confirm the failure.

In normal operation, compression ratio <1. for continuous 5 minutes,s stop and alarm.2 minutes and 50 seconds later, resume automatically, if it occurs 3 times in an hour, confirm the failure.

182



LD indication on master unit


(hex)

40

28

43-0

2B


High pressure sensor Pd too high protection

2B

sensor Td1 too low protection

Discharging temp.

43-2

2B

Remarks

In normal operation, Pd>=4.15Mpa for continuous 50ms, alarm and stop. 2 minutes and 50 seconds later, resume automatically, if it occurs 3 times in an hour, confirm the failure.


Discharging temp. sensor Tdi too low protection Discharging temp.

43-1

Failuredescription

sensor Td2 too low

In normal operation, if Td
protection

44

2C

45

2D

46

2E

48

30

53-1

35

53-2

35

Low pressure sensor PS too high protection Communication among outdoors failure Communication with inverter board failure Unloading valve SV1 failure Current detector CT1 failure

Current detector CT2 failure


In normal operation, if Ps>1.05MPa for continuous 5 minutes, unit stops and alarms, 2 minutes and 50 seconds later, resume automatically. If it occurs 3 times in an hour, alarm and confirm the failure.


No communication within 3 minutes continuously

Resumable

No communication within 30 seconds continuously

Resumable

Before startup, SV1 opens for 2 minutes, if PdPs>=0.2MPa, display failure code, when PdPs<0.2MPa, resume. Fixed frequency compressor is OFF, if CT>=4.0(EE)3.0A for 2s(not detecting in 90s after fixed frequency compressor is from ON to OFF); fixed frequency compressor is ON, if CT<=2.0(EE) for 2s(not detecting in 90s after fixed frequency compressor is from OFF to ON), it alarms failure of CT in short circuit.

183

Resumable

Resumable

LD indication Indication on wired on master unit controller (hex) 64-1

40

64-2

40

67

43

Failure code definition CT1overcurrent

CT2overcurrent

Failuredescription Current of fixed frequency compressor is over the limitation twice at the interval of 25msecond, unit will stop, but 3 minutes later, resume to be normal automatically. If it occurs 3 times in an hour, alarm and stop. But, in 4 seconds after startup, not detect.

Communication with motor driving board

Remarks Once


Without communication for 4 minutes

failure

71-1

47

71-2

47

75-0

4B

Left DC motor blocked

Once


Right DC motor blocked

No pressure drop between high pressure and low one

76-1

Running at speed below 20rpm for 30s, or at speed of 70% lower than the target for 2 minutes, 2 minutes and 50 seconds later after stop, resume automatically. It occurs 3 times in an hour, confirm the failure.

In 1 minute after inverter compressor starts up, PdPs<=0.1MPa. 2 minutes and 50 seconds later after unit stops, resume automatically, if it occurs twice continuously, confirm the failure.

Once


Slave unit quantity/address/horse power are not in conformance with data in EEPROM of master unit: quantity

4C

incorrect.

76-2

4C

Incorrect outdoor

Slave unit quantity/address/horse power are not in conformance with data in EEPROM of master unit: address

address or capacity

incorrect.

Reset

setting

76-3

Slave unit quantity/address/horse power are not in conformance with data in EEPROM of master unit: horse

4C

power incorrect.

Oil equalization 77

4D

ToilA - ToilB<=10degree, unit alarms and stops, not detecting in the course of startup, defrosting and oil return control,

protection among

and in 10 minutes after oil return finishes. 2 minutes and

outdoors

50 seconds later after unit stops, resume automatically. If it alarms twice continuously, confirm the failure.

184

Once


LD Indication on indication wired controller on master (hex) unit

78

4E

Failurecodedefinition

Lackofrefrigerant

Failuredescription

Compressor running in cooling mode, Ps<0.1MPa for 30 minutes; compressor running in heating mode, Tsi - ET>20; LEV will fully open for 60 minutes, the

Remarks

--

unit will output lack of refrigerant alarm, unit will not stop.

79

4F

Incorrect wiring

99-X (X=0~5)

63

Softwareself-check

30 minutes later after incorrect wiring is inspected, outdoor: if Tdi<=Tao+30K, display failure code. indoor: if in cooling, Tc2>=Tai - 20K, display failure code; in heating, Tc1<=Tai+20K, display failure code. Softwareself-check

Resumable

Resumable

DC motor driving board alarms because of over 100

64

DC motor driving board IPM alarm

current or modular temperature too high, resume automatically 2 minutes and 50 seconds later after

unit stops. It occurs 3 times in an hour, confirm the

Once confirmation, unresumable

failure.

101

65

DC motor driving board

Resume automatically 2 minutes and 50 seconds

later after unit stops. It occurs 3 times in an hour,

detecting out of control

102

66

DC motor driving board EEPROM faulty

DC motor driving board over 103

67

current or current detector damaged

confirm the failure.

Resume automatically 2 minutes and 50 seconds

later after unit stops. It occurse 3 times in an hour, confirm the failure.



If current of DC motor driving board is over 5A, unit alarms. 2 minutes and 50 seconds later after unit Once confirmation, un-

stops, resume automatically, if it occurs three times in an hour, confirm the failure.

resumable

If voltage of DC motor driving board is below 280V, 104

68

105

69

Voltage too low protection of DC unit alarms. 2 minutes and 50 seconds later after Once confirmation, unmotor driving board

unit stops, resume automatically, if it occurs three times in an hour, confirm the failure.

resumable

If voltage of DC motor driving board is over 400V, Voltage too high protection of DC motor driving board

unit alarms. 2 minutes and 50 seconds later after Once confirmation, un-

unit stops, resume automatically, if it occurs three times in an hour, confirm the failure.

185

resumable

Ld indication on master unit


(hex)


Failure description

Remarks

Fan motor rate can not be detected. 2 minutes 106

6A

and 50 seconds later after unit stops, resume Once confirmation, automatically, if it occurs three times in an hour, un-resumable

DC motor driving board blocked

confirm the failure.

107

6B

110

6E

111

6F

Protection of motor rate over Fan motor rate is higher than 1100 for 5 seconds, Once confirmation, limitation

unit alarms.

IPM modular protection (F0)

IPM modular over current, in short circuit, over heat, voltage too low of control circuit.

un-resumable

In the course of compressor startup or running, the unit can not detect the rotor position, or not

Compressoroutofcontrol

connecting compressor.

112

70

113

71

114

72

115

73

116

74

Radiator of transducer temp.

Radiator temp. too high

too high

Transduceroverload

3 times in an hour, confirm failure; once confirmation, un-resumable

Outputcurrentoftransduceristoohigh

Voltage too low of DC bus

Voltage of power source is too low

line of transducer

Voltage too high of DC bus

Voltage of power source is too high

line of transducer

Communication abnormal between transducer and

Communication i s disconnected

Resumable

control PCB

117

75

Transducer over current

(software)

Compressor startup fails for 5 times continuously, or compressor is running down till stops caused by over current or over heat The sensor used for current detecting of

118

76

transducer is abnormal, disconnected or incorrectly

Compressorstartupfailure

connection

119

77

120

78

Inverter current detect circuit abnormal

Current sensor not connected or abnormal

Power supply of transducer

Power supply of transducer is broken down

abnormal

instantly

186

3 times in an hour, confirm failure; once confirmation, un-resumable

Ld indication on master unit



Failure description

Remarks

(hex) Power supply of

121

79

inverter board is

Power supply of inverter board is broken down instantly

abnormal

122

7A

Radiator temp. sensor of

Resistor of temp.sensor abnormal or temp.sensor

transducer

disconnected

3 times in an hour, confirm failure; once confirmation, unresumable

abnormal 125

7D

127

7F

128

80

Frequency not

Software need

Current frequency target frequency+3Hz, or target frequency 0, but current frequency=0 If master unit inspects that MCU of slave unit is reset, and the slave unit is running, master unit will alarm MCU reset failure, then the whole system will stop; if in heating mode, when restart up, 4-way valve will be not electrified, the whole system will execute 4-way valve reversing operation again. if it occurs three times in an hour, alarm and confirm the failure. The software is not compatible, you need to update the

updating

software

matching

MCU reset abnormal

Resumable


When there is no failure, if the starting condition can not be met, digital tube on master unit will display stand-by code: 555.0

Standby state of capacity overmatch

555.1

Standby state of 26 degree heating mode

555.2

Standby state of super low pressure (lack of refrigerant)

555.3

54Degreecooling standby

When capacity is over 135% or lower than 50%, the system is standby. When it is in heating mode with ambient temperature over 26 degree, the system is standby.

When the unit starts in cooling with ps<0.23Mpa or heating with ps<0.12Mpa, the system is standby.

High ambient models, the unit can't open if ambient temp. above 54 degree ,7segment board display :"555.3"

187

Indication on master unit


Flash times of LED on indoor PCB/ Timer LED on remote receiver

1

1

1

Indoorambienttemp.sensorTAfailure

2

2

2

Indoor coil pipe temp. sensor TC1 failure

Failure code defination

Remark

Resumable

3

3

3


5

5

5

Indoor EEPROM failure

6

6

6

Communication between indoor and outdoor failure

Resumable Resumable

7

7

7

Communication between indoor and wired controller failure

8

8

8

Indoorfloatswitchfailure

9

9

9

Indooraddressrepeatedfailure

0C

0C

12

No50Hzzeropassagesignal

Outdoor failure

Outdoor failure code

20

Outdoorfailurecode

Unresumable

Resumable Resumable Resumable Resumable

CH43BV*-HYJ1H failure code

PCB LED Digital tube flash times display

Failurecodedefination

Remark

1

E1

Indoor ambient temp. sensor TA failure

2

E2


3

E3


5

E5

Indoor EEPROM EEPROM failure

6

E6

Communication between indoor and outdoor failure

7

E7

Communication between indoor and wired controller failure

8

E8

Indoorfloatswitchfailure

9

E9

Indoor address address repeated repeated failure failure

Resumable Resumable

Resumable

Unresumable Resumable Resumable Resumable

12

E12

No 50Hz zero passage signal or wired controller DCSHORT protect

14

E14

DC motor failure

20

E20

Outdoor failure code

Resumable Resumable

188

10.7

Failure diagnose

            

     



     

     



     

 

       



   

   

    



   

[1/2/3/4/15] indoor sensor failure

     





      

  

         

189

     

  

      



 

 

    

         

  

       



  





       

   



       



        

190

     

           

   

 

         

  

           



       

  

     

    

    



       

191

   

      



       

  

     

         

  

    



        

                 







      

               



    





               



      

                 

192

       

[12] No 50Hz zero passage signal

NO Check if the transformer is well

Replace transformer

YES

Check if the wiring Of the wired controller connect well

NO Reconnect

YES

Replace PCB

193

194

195

196

197

198

199

200

201

202

203

204

205

206

207

208

209

210

211

212

213

214

215

216

217

218

219

220

221

222

Appendix I: Sensor Resistance Table Code

Resistance

Description

10450194

10K

10451307

10K

Sunction air temp.sensor

10450192

10K

Outdoor ambient temp.sensor

10451329

10K

10451303

50K

10450949

10K

10451328

10K

Defrosting temp.sensor

Pipe temp.sensor Discharging temp.sensor Indoor pipe temp.sesor Pipe temp.sensor

10452099

10K

10400885

23K

10401922

10K

Indoor coil pipe temp.sensor

10451305

10K

Oil temp.sensor

Gas pipe temp.sensor Sensor

10451327

23K

10451591

10K

10452298

10K

10403671

10K

Indoor temp.sensor Pipe temp.sensor

10451329

10K

10452099

10K

10451327

23K

Ambient temp.sensor Sensor Gas pipe temp.sensor

Gas pipe temp.sensor Ambient temp.sensor

223

R80=50KΩ±3% B25/80=4450K±3% Resistance(KΩ)

Temp

(℃ )

Rmax

0

1749.014

1921.993

1

1651.431

1813.265

2

1560.165

3

%(Resist.tol)

R(t)Normal

Rmin 2094.972

MAX(+)

MIN(-)

9

9

1975.099

8.93

8.93

1711.646

1863.127

8.85

8.85

1474.737

1616.593

1758.449

8.78

8.78

4

1394.709

1527.611

1660.513

8.7

8.7

5

1319.683

1444.25

1568.817

8.63

8.63

6

1249.295

1366.096

1482.897

8.55

8.55

7

1183.21

1292.773

1402.336

8.48

8.48

8

1121.124

1223.935

1326.746

8.4

8.4

9

1062.756

1159.265

1255.774

8.33

8.33

10

1007.85

1098.474

1189.098

8.25

8.25

11

956.167

1041.293

1126.419

8.18

8.18

12

907.491

987.477

1067.463

8.1

8.1

13

861.621

936.799

1011.977

8.03

8.03

14

818.372

889.052

959.732

7.95

7.95

15

777.574

844.042

910.51

7.88

7.88

16 17

739.066 702.705

801.59 761.533

864.114 820.361

7.8 7.73

7.8 7.73 7.65

18

668.353

723.717

779.081

7.65

19

635.885

688.001

740.117

7.58

7.58

20

605.185

654.254

703.323

7.5

7.5

21

576.145

622.355

668.565

7.43

7.43

22

548.663

592.189

635.715

7.35

7.35

23

522.645

563.651

604.657

7.28

7.28

24

498.006

536.644

575.282

7.2

7.2 7.13

25

474.662

511.076

547.49

7.13

26

452.538

486.862

521.186

7.05

7.05

27

431.563

463.922

496.281

6.98

6.98

28

411.671

442.182

472.693

6.9

6.9

29

392.8

421.572

450.344

6.83

6.83

30

374.891

402.028

429.165

6.75

31

357.891

383.489

409.087

6.68

6.68

32

341.749

365.898

390.047

6.6

6.6

33

326.416

349.201

371.986

6.53

6.53

34

311.848

333.349

354.85

6.45

6.45

6.75

35

298.004

318.295

338.586

6.38

6.38

36

284.843

303.995

323.147

6.3

6.3

224

Resistance(KΩ)

Temp

%(Resist.tol)

(℃ )

Rmax

R(t)Normal

37

272.329

290.407

38

260.427

277.493

294.559

6.15

6.15

39

249.104

265.216

281.328

6.08

6.08

40

238.329

41

228.073

242.437

256.801

5.93

42

218.308

231.873

245.438

5.85

43

209.01

221.82

234.63

5.78

5.78

44

200.154

212.252

224.35

5.7

5.7

45

191.715

203.142

214.569

5.63

5.63

46

183.674

194.467

205.26

5.55

5.55

Rmin 308.485

253.541

268.753

MAX(+)

MIN(-)

6.23

6.23

6

6 5.93 5.85

47

176.009

186.204

196.399

5.48

5.48

48

168.703

178.333

187.963

5.4

5.4

49

161.735

170.832

179.929

5.33

5.33

50

155.089

163.682

172.275

5.25

5.25

51

148.748

156.866

164.984

5.18

5.18

52

142.698

150.367

158.036

5.1

5.1

53

136.924

144.168

151.412

5.03

5.03

54

131.411

138.255

145.099

4.95

4.95

55

126.148

132.613

139.078

4.88

4.88

56

121.122

127.229

133.336

4.8

4.8

57

116.32

122.089

127.858

4.73

4.73

58

111.732

117.181

122.63

4.65

4.65

59

107.347

112.494

117.641

4.58

4.58

60

103.157

108.018

112.879

4.5

4.5

61

99.15

103.741

108.332

4.43

4.43

62

95.319

99.654

103.989

4.35

4.35

63

91.655

95.748

99.841

4.28

4.28

64

88.149

92.014

95.879

4.2

4.2

65

84.795

88.443

92.091

4.13

4.13

66

81.584

85.028

88.472

4.05

4.05

67

78.511

81.761

85.011

3.98

3.98

68

75.569

78.636

81.703

3.9

3.9

69

72.752

75.645

78.538

3.83

3.83

70

70.052

72.781

75.51

3.75

3.75

71

67.466

70.04

72.614

3.68

3.68

225


Temp

(℃ )

Rmax

%Resist.tol)

R(t)Normal

AX(+) M

Rmin

MIN(-)

72

64.988

67.415

69.842

3.6

73

62.613

64.901

67.189

3.53

3.53

74

60.337

62.493

64.649

3.45

3.45

75

58.154

60.185

62.216

3.38

3.38

76

56.06

57.973

77

54.051

55.852

57.653

3.23

3.23

78

52.125

53.82

55.515

3.15

3.15

79

50.275

51.87

53.465

3.08

3.08

80

48.5

50

59.886

51.5

3.6

3.3

3

3.3

3

81

46.728

48.206

49.684

3.07

3.07

82

45.028

46.484

47.94

3.13

3.13

83

43.397

44.832

46.267

3.2

3.2

84

41.833

43.246

44.659

3.27

3.27

85

40.332

41.723

43.114

3.33

86

38.891

40.26

41.629

3.4

87

37.509

38.856

40.203

3.47

3.33 3.4 3.47

88

36.181

37.506

38.831

3.53

3.53

89

34.905

36.209

37.513

3.6

3.6

90

33.68

34.962

36.244

3.67

3.67

91

32.503

33.764

35.025

3.73

3.73

92

31.373

32.612

33.851

3.8

3.8

93

30.286

31.504

32.722

3.87

3.87

94

29.242

30.439

31.636

3.93

3.93

95

28.236

96

27.271

29.413 28.427

30.59 29.583

4

4 4.07

97

26.342

27.478

28.614

4.13

98

25.448

26.564

27.68

4.2

4.07 4.13 4.2

99

24.589

25.685

26.781

4.27

4.27

100

23.762

24.838

25.914

4.33

4.33

101

22.966

24.023

25.08

4.4

102

22.199

23.237

24.275

4.47

103

21.462

22.481

23.5

4.53

4.53

104

20.751

21.752

22.753

4.6

4.6

226

4.4 4.47

Resistance(KΩ)

Temp

(℃ )

Rmax

105

20.067

21.049

106

19.408

20.372

107

18.773

19.72

108

18.162

19.091

109

17.573

18.485

110

17.005

111

16.459

%(Resist.tol)

R(t)Normal

17.9 17.337

AX(+) M

MIN(-)

22.031

4.67

4.67

21.336

4.73

Rmin

20.667

4.73

4.8

4.8

20.02

4.87

4.87

19.397

4.93

18.795

4.93

5

18.215

5 5.07

5.07

112

15.931

16.793

17.655

5.13

5.13

113

15.422

16.268

17.114

5.2

5.2

114

14.933

15.763

16.593

5.27

115

14.46

15.275

16.09

5.33

5.33

116

14.005

14.804

15.603

5.4

5.4

117

13.565

14.349

15.133

5.47

5.47

118

13.141

13.911

14.681

5.53

5.53

119

12.733

13.488

14.243

5.6

5.6

120

12.339

13.08

13.821

5.67

5.67

5.27

121

11.958

12.685

13.412

5.73

5.73

122

11.591

12.305

13.019

5.8

5.8

123

11.238

11.938

12.638

5.87

5.87

124

10.897

11.584

12.271

5.93

5.93

125

10.567

126

10.249

11.242 10.911

11.917 11.573

6 6.07

6 6.07

127

9.943

10.593

11.243

6.13

6.13

128

9.647

10.285

10.923

6.2

6.2

129

9.362

9.988

10.614

6.27

6.27

130

9.087

9.701

10.315

6.33

6.33

131

8.822

9.425

10.028

6.4

6.4

132

8.566

9.158

9.75

6.47

6.47

133

8.319

8.9

9.481

6.53

6.53

134

8.08

8.651

9.222

6.6

6.6

135

7.85

8.411

8.972

6.67

6.67

136

7.629

8.18

8.731

6.73

6.73

137

7.416

7.957

8.498

6.8

6.8

138

7.209

7.741

8.273

6.87

6.87

139

7.011

7.533

8.055

6.93

140

6.82

7.333

7.846

227

7

6.93 7


Temp

(℃ ) -30

Rmax 145.819

R(t)Normal 135.018

124.217

%(Resist.tol) MAX(+)

Rmin 7

MIN(-) 7

-29

38.071 1

129.126

120.181

6.93

6.93

-28

31.7931

123.339

114.885

6.85

6.85

-27

25.6651

117.684

109.703

6.78

6.78

-26

19.706 1

112.18

104.654

6.71

6.71

-25

13.9331

106.843

99.753

6.64

6.64

-24

08.361 1

101.687

95.013

6.56

6.56

-23

02.997 1

96.719

90.441

6.49

6.49

-22

7.8479

91.946

86.045

6.42

6.42

-21 -20 -19

2.9159 88.2 3.7028

87.371 82.994

81.827 77.788

78.815

73.928

6.35 6.27 6.2

6.35 6.27 6.2

-18

9.417 7

74.832

70.247

6.13

6.13

-17

5.342 7

71.041

66.74

6.05

6.05

-16

1.471 7

67.437

63.403

5.98

5.98

-15

7.798 6

64.015

60.232

5.91

5.91

-14

4.3166

60.769

57.222

5.84

5.84

-13

1.017 6

57.692

54.367

5.76

5.76

-12

7.8955

54.778

51.661

5.69

5.69

-11

4.9425

52.019

49.096

5.62

5.62

-10 -9

2.1495 49.51

49.409 46.941

46.669 44.372

5.55 5.47

5.55 5.47

-8

7.0164

44.607

42.198

5.4

5.4

-7

4.6594

42.4

40.141

5.33

5.33

-6

42.433

40.315

38.197

5.25

5.25

-5

0.3324

38.345

36.358

5.18

5.18

-4

8.3463

36.482

34.618

5.11

5.11

-3

36.472

34.723

32.974

5.04

-2

34.7

33.059

31.418

4.96

-1

33.027

31.487

29.947

228

4.89

5.04 4.96 4.89

Resistance(KΩ)

Temp

(℃ ) 0

Rmax

%(Resist.tol)

R(t)Normal

31.445

MAX(+)

Rmin

30

28.555

MIN(-)

4.82

4.82

1

29.951

28.594

27.237

4.75

4.75

2

28.538

27.264

25.99

4.67

4.67 4.6

3

27.202

26.006

24.81

4.6

4

25.938

24.815

23.692

4.53

4.53

5

24.742

23.687

22.632

4.45

4.45

6

23.61

22.619

21.628

4.38

4.38

7

22.538

21.607

20.676

4.31

4.31

8

21.522

20.647

19.772

4.24

4.24 4.16

9

20.559

19.737

18.915

4.16

10

19.646

18.874

18.102

4.09

4.09

11

18.779

18.054

17.329

4.02

4.02

12

17.958

17.276

16.594

3.95

3.95

13

17.177

16.537

15.897

3.87

3.87

14

16.436

15.834

15.232

3.8

3.8

15

15.731

15.166

14.601

3.73

3.73

16

15.061

14.53

13.999

3.65

3.65 3.58

17

14.424

13.925

13.426

3.58

18

13.817

13.349

12.881

3.51

19

13.24

12.8

12.36

20

12.69

12.277

11.864

3.36

3.36

21

12.166

11.778

11.39

3.29

3.29

22

11.666

11.302

10.938

3.22

3.22

23

11.189

10.848

10.507

3.15

3.15

24

10.734

10.414

10.094

3.07

25

10.3

10

9.7

3.51

3.44

3

3.44

3.07 3

26

9.898

9.604

9.31

3.06

3.06

27

9.514

9.226

8.938

3.13

3.13

28

9.147

8.864

8.581

3.19

3.19

29

8.796

8.519

8.242

3.25

3.25

30

8.459

8.188

7.917

3.31

3.31

31

8.137

7.871

7.605

3.38

3.38

32

7.828

7.568

33

7.532

7.277

3.44

3.44

7.022

34

7.248

35

6.977

36

7.308

3.5

3.5

6.999

6.75

3.56

3.56

6.733

6.489

3.63

3.63

6.716

6.477

6.238

3.69

3.69 3.75

37

6.466

6.232

5.998

3.75

38

6.227

5.998

5.769

3.81

3.81

39

5.997

5.773

5.549

3.88

3.88

40 41

5.776 5.564

5.557 5.35

5.338 5.136

229

3.94 4

3.94 4


Temp

(℃ ) 42

Rmax

% (Resist.tol)

R(t)Normal

Rmin

MAX(+)

MIN(-)

5.36

5.151

4.942

4.06

4.06

43

5.166

4.961

4.756

4.13

4.13

44

4.978

4.778

4.578

4.19

4.19

45

4.799

4.603

4.407

4.25

4.25

46

4.625

4.434

4.243

4.31

4.31 4.38

47

4.46

4.273

4.086

4.38

48

4.301

4.118

3.935

4.44

49

4.148

3.969

50

4.001

3.826

3.651

4.56

4.56

51

3.86

3.689

3.518

4.63

4.63

52

3.724

3.557

3.39

4.69

4.69

53

3.594

3.431

3.268

4.75

4.75

54

3.468

3.309

3.15

4.81

4.81

55

3.349

3.193

3.037

4.88

4.88

56

3.233

3.081

2.929

4.94

4.94

2.974

3.79

2.825

4.44

4.5

5

4.5

57

3.123

58

3.015

2.87

2.725

5.06

5 5.06

59

2.913

2.771

2.629

5.13

5.13

60

2.815

2.676

2.537

5.19

5.19

61

2.721

2.585

2.449

5.25

5.25

62

2.63

2.497

2.364

5.31

5.31

63

2.543

2.413

2.283

5.38

5.38

64

2.459

2.332

2.205

5.44

5.44

65

2.379

2.255

2.131

5.5

66

2.301

2.18

2.059

5.56

5.5 5.56

67

2.228

2.109

1.99

5.63

5.63 5.69

68

2.156

2.04

1.924

5.69

69

2.088

1.974

1.86

5.75

5.75

70

2.021

1.91

1.799

5.81

5.81

71

1.958

1.849

1.74

5.88

5.88

72

1.897

1.791

1.685

5.94

73

1.839

74

1.782

1.735

1.631

1.68

1.578

230

6

5.94 6

6.06

6.06

Resistance(KΩ)

Temp

(℃ ) 75

Rmax

% (Resist.tol)

R(t)Normal

Rmin

MAX(+)

1.528

MIN(-)

1.728

1.628

6.13

6.13

76

1.676

1.578

1.48

6.19

6.19

77

1.626

1.53

1.434

6.25

6.25

78

1.578

1.484

1.39

6.31

6.31

79

1.531

1.439

1.347

6.38

6.38

80

1.486

1.396

1.306

6.44

6.44

81

1.443

1.355

6.5

6.5

82

1.401

1.315

1.229

6.56

6.56

83

1.362

1.277

1.192

6.63

6.63

84

1.323

1.24

1.157

6.69

6.69

1.267

85

1.285

1.204

1.123

6.75

6.75

86

1.249

1.169

1.089

6.81

6.81

87

1.214

1.136

1.058

6.88

6.88

88

1.181

1.104

1.027

6.94

6.94

89

1.148

1.073

0.998

7

7

90

1.116

1.042

0.968

7.06

7.06

91

1.085

1.013

0.941

7.13

7.13

92

1.056

0.985

0.914

7.19

7.19

93

1.026

0.957

0.888

7.25

7.25

94

0.998

0.93

0.862

7.31

7.31

95

0.971

0.904

0.837

7.38

7.38

96

0.944

0.879

0.814

7.44

7.44

97

0.918

98

0.893

99

0.867

100

0.843

0.854

0.79

7.5

7.5

0.83

0.767

7.56

7.56

0.806

0.745

7.63

7.63

0.783

0.723

7.69

7.69

101

0.819

0.76

0.701

7.75

7.75

102

0.796

0.738

0.68

7.81

7.81

103

0.772

0.716

0.66

7.88

7.88

104 105

0.749 0.727

0.694 0.673

0.639 0.619

231

7.94 8

7.94 8


Temp

(℃ ) -30

Rmax

Rmin

MAX(+)

MIN(-)

513.115

487.459

5

5

502.577

478.894

455.211

4.95

4.95

-28

469.29

447.408

425.526

4.89

4.89

-27

438.613

418.379

398.145

4.84

4.84

-29

-26

38.771 5

%(Resist.tol)

R(t)Normal

10.288 4

-25

384.088

-24 -23

391.564

372.84

4.78

4.78

366.751

349.414

4.73

4.73

359.817

343.754

327.691

4.67

4.67

337.296

322.407

307.518

4.62

4.62

-22

316.375

302.567

288.759

4.56

4.56

-21

296.916

284.105

271.294

4.51

4.51

-20

278.794

266.905

255.016

4.45

4.45

-19

61.904 2

-18

246.146

4.4

4.4

235.895

250.866

225.644

239.828

4.35

4.35

-17

231.433

221.911

212.389

4.29

4.29

-16

217.685

208.838

199.991

4.24

4.24

-15

204.831

196.609

188.387

4.18

4.18

-14

192.805

185.163

177.521

4.13

4.13

-13

181.548

174.443

167.338

4.07

4.07

-12

171.005

164.399

157.793

4.02

4.02

-11

161.126

154.983

148.84

3.96

3.96

-10

51.866 1

146.153

140.44

3.91

3.91

-9

143.184

137.87

132.556

3.85

3.85

-8

135.04

130.096

125.152

3.8

3.8

-7

127.398

122.799

118.2

3.75

3.75

-6

120.225

115.946

111.667

3.69

3.69

-5 -4

113.492

109.51

105.528

3.64

3.64

107.168

103.462

99.756

3.58

3.58

97.779

94.33

3.53

3.53

-3

01.228 1

-2

95.647

92.437

89.227

3.47

-1

90.403

87.415

84.427

3.42

0

85.472

82.691

79.91

232

3.47 3.42 3.36

3.36

Resistance(KΩ)

Temp

%(Resist.tol)

(℃ )

Rmax

R(t)Normal

MAX(+)

1

80.837

78.248

75.659

3.31

3.31

2

76.478

74.067

71.656

3.25

3.25

Rmin

MIN(-)

3

72.377

70.133

67.889

3.2

3.2

4

68.52

66.43

64.34

3.15

3.15

5

64.889

62.943

60.997

3.09

3.09

6

61.47

59.659

57.848

3.04

3.04

7

58.253

56.566

54.879

2.98

2.98

8

55.222

53.651

52.08

2.93

2.93 2.87

9

52.366

50.904

49.442

2.87

10

49.676

48.314

46.952

2.82

2.82

11

47.14

45.872

44.604

2.76

2.76

12

44.749

43.569

42.389

2.71

2.71

13

42.494

41.395

40.296

2.65

2.65

14

40.366

39.343

38.32

2.6

15

38.358

37.406

36.454

2.55

2.55

16

36.463

35.577

34.691

2.49

2.49

17

34.673

33.848

33.023

2.44

2.44

18

32.982

32.215

31.448

2.38

2.38

2.6

19

31.385

30.671

29.957

2.33

2.33

20

29.874

29.21

28.546

2.27

2.27 2.22

21

28.445

27.828

27.211

2.22

22

27.095

26.521

25.947

2.16

2.16

23

25.816

25.283

24.75

2.11

2.11

24 25

24.606 23.46

24.111 23

23.616 22.54

2.05 2

2.05 2

26

22.396

21.947

21.498

2.04

2.04

27

21.386

20.949

20.512

2.09

2.09

28

20.429

20.003

19.577

2.13

2.13

29

19.52

19.104

18.688

2.18

2.18

30

18.657

18.252

17.847

2.22

2.22

31

17.837

17.442

17.047

2.26

2.26

32

17.059

16.674

16.289

2.31

2.31

33

16.318

15.943

15.568

2.35

2.35

34

15.614

15.249

14.884

2.39

2.39

35 36

14.944 14.306

14.588 13.96

14.232 13.614

2.44 2.48

2.44 2.48 2.53

37

13.699

13.362

13.025

2.53

38

13.123

12.794

12.465

2.57

2.57

39

12.572

12.252

11.932

2.61

2.61

40

12.048

11.736

41

11.548

11.244

233

11.424

2.66

10.94

2.7

2.66 2.7


Temp

%(Resist.tol)

(℃ )

Rmax

R(t)Normal

42

11.072

10.776

10.48

2.74

2.74

43

10.617

10.329

10.041

2.79

2.79

44

10.184

9.904

45

9.77

9.497

9.224

2.88

2.88

Rmin

9.624

AX(+) M

2.83

MIN(-)

2.83

46

9.376

9.11

8.844

2.92

2.92

47

8.999

8.74

8.481

2.96

2.96

48

8.639

8.387

8.135

3.01

3.01

49

8.296

8.05

7.804

3.05

3.05

50

7.967

7.728

7.489

3.09

3.09

51

7.654

7.421

7.188

3.14

3.14

52

7.354

7.127

6.9

53

7.067

6.846

6.625

54

6.793

6.578

6.363

3.27

3.27

55

6.531

6.322

6.113

3.31

3.31

56

6.281

6.077

5.873

3.36

3.36

5.643

3.18 3.23

3.18 3.23

57

6.041

5.842

3.4

3.4

58

5.811

5.618

5.425

3.44

3.44

59

5.592

5.404

5.216

3.49

3.49

60

5.383

5.199

5.015

3.53

3.53

61

5.182

5.003

4.824

3.58

3.58

62

4.989

4.815

4.641

3.62

3.62

63

4.806

4.636

4.466

3.66

3.66

64

4.629

4.464

4.299

3.71

3.71

65

4.461

4.3

4.139

3.75

3.75

66

4.3

4.143

3.986

3.79

3.79

67

4.145

3.992

3.839

3.84

3.84

68

3.997

3.848

3.699

3.88

3.88

69

3.856

3.71

3.564

3.93

3.93

70

3.72

3.578

3.436

3.97

3.97

234

Resistance(KΩ)

Temp

(℃ ) 71

Rmax 3.591

%(Resist.tol)

R(t)Normal

Rmin

3.452

3.313

72

3.466

3.331

3.196

73

3.347

3.215

3.083

AX(+) M

MIN(-)

4.01

4.01

4.06

4.06

4.1

4.1 4.14

74

3.233

3.104

2.975

4.14

75

3.122

2.997

2.872

4.19

4.19

76

3.017

2.895

2.773

4.23

4.23 4.28

77

2.918

2.798

2.678

4.28

78

2.821

2.704

2.587

4.32

79

2.728

2.614

2.5

80

2.639

2.528

2.417

4.41

4.41

81

2.555

2.446

2.337

4.45

4.45

82

2.472

2.366

2.26

4.49

4.49

83

2.394

2.29

2.186

4.54

4.54

84

2.319

2.217

2.115

4.58

4.58

85

2.246

2.147

2.048

4.63

4.63

86

2.177

2.08

1.983

4.67

4.67

1.92

4.71

4.36

4.32 4.36

87

2.11

2.015

88

2.045

1.952

1.859

4.71

89

1.983

1.892

1.801

90

1.923

1.834

91

1.865

1.778

92

1.809

1.724

1.639

4.93

4.93

93

1.755

1.672

1.589

4.98

4.98

94

1.702

1.621

1.54

5.02

5.02

95

1.652

1.572

1.492

5.06

5.06

96

1.602

1.524

1.446

5.11

5.11

4.76

4.76

4.8

4.8

1.745

4.84

4.84

1.691

4.89

4.89

97

1.554

1.478

1.402

5.15

5.15

98

1.507

1.433

1.359

5.19

5.19

99

1.462

1.389

1.316

5.24

5.24

100

1.418

1.347

1.276

5.28

5.28

101

1.374

1.305

1.236

5.33

5.33

102

1.332

1.264

1.196

5.37

5.37

103

1.289

1.223

1.157

5.41

5.41

104

1.249

1.184

1.119

5.46

5.46

105

1.208

1.145

1.082

5.5

5.5

235

R25=5KΩ±3% B25/50=3450K±3% Temp

Resistance(KΩ)

(℃ )

Rmax

-30

7.148 6

-29

63.782

-28 -27

%(Resist.tol) R(t)Normal

62.209

MAX(+)

Rmin 57.268

7.94

MIN(-) 7.94

58.887

54.289

60.323

55.769

51.487

8.17

7.68

57.079

52.841

48.85

8.02

7.55

-26

54.036

50.088

46.367

7.88

7.43

-25

51.178

47.499

44.028

7.75

7.31

-24

8.4924

-23 -22

8.31

7.81

45.062

41.822

5.9684

42.768

39.742

7.48

7.07

3.5924

40.606

37.78

7.35

6.96

-21

41.357

38.568

35.927

-20

39.251

36.646

-19

37.266

34.833

7.61

7.19

7.23

6.85

34.176

7.11

6.74

32.522

6.99

6.63

-18

5.395 3

33.12

30.959

6.87

6.53

-17

3.6313

31.503

29.48

6.75

6.42

-16

31.965

29.975

28.081

6.64

6.32

-15

30.393

28.531

26.757

6.53

6.22

-14 -13 -12 -11 -10

8.9082 27.505 6.178 2 24.924 3.737 2

27.165

25.503

6.42

6.12

25.873

24.315

6.31

6.02

24.65

23.19

6.2

5.92

23.493

22.123

6.09

5.83

22.396

21.112

5.99

5.73

-9

22.614

21.358

20.153

5.89

-8

21.551

20.373

19.243

5.78

5.55

-7

20.545

19.44

18.379

5.68

5.46

-6

19.591

18.555

17.559

5.58

5.37

-5

18.687

17.716

16.781

5.49

5.28

-4

17.83

16.919

16.041

5.39

5.19

-3

17.018

16.163

15.338

5.29

5.1

-2

16.247

15.445

14.67

5.2

5.02

-1

15.516

14.763

14.035

5.1

0

14.822

14.115

13.431

236

5.64

4.93 5.01

4.85

Temp

Resistance(KΩ)

%(Resist.tol)

(℃ )

Rmax

1

14.163

R(t)Normal 13.499

12.856

MAX(+) 4.92

4.76

2

13.537

12.914

12.31

4.83

4.68

Rmin

MIN(-)

3

12.943

12.357

11.789

4.74

4.6

4

12.378

11.828

11.294

4.65

4.52

5

11.841

11.324

10.822

4.56

4.44

6

11.33

10.845

10.372

4.48

4.36

7

10.845

10.388

9.944

8

10.382

9.954

9.536

4.31

4.39

4.2

4.28

9.147

4.22

4.12

9

9.943

9.54

10

9.524

9.146

8.775

4.14

4.05

11

9.126

8.77

8.421

4.06

3.97

12

8.746

8.412

8.084

3.98

13

8.384

8.07

7.761

3.9

3.9 3.83

14

8.04

7.744

7.454

3.82

3.75

15

7.711

7.433

7.16

3.74

3.68

16

7.398

7.137

6.879

3.66

3.61

17

7.099

6.854

6.611

3.58

3.54

18

6.814

6.583

6.355

19

6.542

6.325

6.11

20

6.283

6.079

5.876

3.36

3.33

21

6.035

5.843

5.652

3.29

3.26

22

5.798

5.618

5.438

3.21

3.2

23

5.572

5.403

5.233

3.14

3.13

24

5.356

5.197

5.038

3.07

3.07

25

5.15

5

4.85

3.51

3.47

3.43

3

3.4

3

26

4.959

4.812

4.665

3.06

3.06

27

4.776

4.632

4.487

3.12

3.11

28

4.601

4.459

4.318

3.18

3.17

29

4.433

4.294

4.156

3.24

3.22

30

4.273

4.136

4.001

3.3

3.28

31

4.119

3.985

3.852

3.36

32

3.971

3.84

3.71

3.41

3.33 3.38

33

3.829

3.701

3.574

3.47

3.44

34 35

3.694 3.563

3.568 3.44

3.444 3.319

3.52 3.58

3.49 3.54

36

3.439

3.318

3.199

3.63

3.59

37

3.319

3.201

3.085

3.68

3.64

38

3.204

3.088

2.975

3.73

3.68

39

3.093

2.981

2.869

3.78

3.73

40

2.987

2.877

2.768

3.83

3.78

41

2.885

2.778

2.671

3.88

3.82

237

R25=5KΩ±3% B25/50=3450K±3% Temp

(℃ ) 42

Resistance(KΩ) Rmax


Rmin

MAX(+)

MIN(-)

2.788

2.682

2.578

3.93

3.87

43

2.694

2.591

2.489

3.98

3.91

44

2.604

2.503

2.404

4.03

3.96

45

2.517

2.418

46

2.433

2.337

2.321

4.07

4

2.243

4.12

4.05

47

2.353

2.259

2.167

4.16

4.09

48

2.276

2.184

2.094

4.21

4.13

49

2.202

2.112

2.024

4.25

4.17

50

2.131

2.043

1.957

4.3

4.21

51

2.062

1.976

1.892

4.34

4.25

52

1.996

1.912

1.83

4.38

4.29

53

1.933

1.851

1.771

4.42

4.33

54

1.871

1.791

1.713

4.46

4.37

55

1.813

1.734

1.658

4.5

4.4

56

1.756

1.68

1.605

4.54

4.44

57

1.701

1.627

1.554

4.58

4.48

58

1.649

1.576

1.505

4.62

4.51

59

1.598

1.527

1.457

4.65

4.55

60

1.549

1.48

1.412

4.69

4.58

61

1.502

1.434

1.368

4.73

4.62

62

1.456

1.39

1.326

4.76

4.65

63

1.413

1.348

1.285

4.8

4.68

64

1.37

1.307

1.245

4.83

4.72

65

1.33

1.268

1.208

4.87

66

1.29

1.23

1.171

4.9

67

1.252

1.193

68

1.216

69

1.18

70

1.146

1.136

1.158 1.124

1.102 1.069

1.091

1.038

238

4.94 4.97 5 5.03

4.75 4.78 4.81 4.85 4.88 4.91

Temp

Resistance(KΩ)

(℃ )

Rmax

71

1.113

72

1.081

73

1.05


Rmin

1.059

1.007

1.029 0.999

0.978 0.949

MAX(+) 5.07 5.1 5.13

MIN(-) 4.94 4.97 5

74

1.021

0.971

0.922

5.16

75

0.992

0.943

0.895

5.19

5.03 5.06

76

0.964

0.916

0.87

5.23

5.09 5.12

77

0.937

0.89

0.845

5.26

78

0.911

0.866

0.821

5.29

5.15

79

0.886

0.841

0.798

5.32

5.18

80

0.862

0.818

0.775

5.35

5.21

81

0.838

0.795

0.754

5.38

5.24 5.27

82

0.815

0.774

0.733

5.41

83

0.793

0.752

0.712

5.44

5.3

84

0.772

0.732

0.693

5.47

5.33

85

0.751

0.712

0.674

5.51

5.36

86

0.731

0.693

0.655

5.54

5.39

87 88

0.712 0.693

0.674 0.656

0.638 0.62

5.57 5.6

5.42 5.45 5.48

89

0.675

0.639

0.604

5.63

90

0.657

0.622

0.587

5.66

5.51

91

0.64

0.605

0.572

5.69

5.54 5.57

92

0.623

0.589

0.557

5.72

93

0.607

0.574

0.542

5.75

5.6

94

0.591

0.559

0.527

5.78

5.62

95

0.576

0.544

0.514

96

0.561

0.53

0.5

5.81 5.84

5.65 5.68

97

0.547

0.517

0.487

5.87

98

0.533

0.503

0.474

5.89

99

0.52

0.49

100

0.506

0.478

0.45

5.95

101

0.494

0.466

0.439

5.97

5.8

102

0.481

0.454

0.428

5.99

5.82 5.84

0.462

5.92

5.71 5.73 5.76 5.78

103

0.469

0.443

0.417

6.02

104

0.458

0.432

0.406

6.04

5.86

105

0.446

0.421

0.396

6.05

5.88

239

R50=17KΩ±2% B25/50=4170K±3% Temp(℃ )

Rmin

(t)Normal R

Rmax

Temp(

0

164.728

176.383

187.001

53

14.728

15.071

15.409

1

156.212

167.099

177.024

54

14.141

14.484

14.821

2

148.19

158.362

167.64

55

13.582

13.925

14.26

3

140.628

150.133

158.809

56

13.047

13.389

13.721

4

133.495

142.378

150.491

57

12.534

12.875

13.204

5

126.767

135.069

142.657

58

12.044

12.383

12.71

6

120.418

128.179

135.277

59

11.577

11.914

12.239

7

114.426

121.681

128.321

60

11.129

11.464

11.785

8

108.766

115.549

121.762

61

10.701

11.034

11.352

9

103.42

109.762

115.575

62

10.292

10.622

10.937

10

98.366

104.296

109.736

63

9.901

10.228

10.539

11

93.59

99.136

104.227

64

9.523

9.847

10.155

12

89.073

94.259

99.023

65

9.164

9.485

9.789

13

84.801

89.651

94.111

66

8.821

9.139

9.439

14

80.757

85.292

89.467

67

8.492

8.806

9.102

15

76.93

81.171

85.079

68

8.176

8.486

8.779

16

73.306

77.272

80.93

69

7.874

8.181

8.469

17

69.874

73.584

77.008

70

7.583

7.886

8.171

18

66.621

70.09

73.295

71

7.306

7.606

7.886

19

63.538

66.782

69.782

72

7.039

7.334

7.61

20

60.618

63.65

66.459

73

6.784

7.076

7.348

21

57.844

60.68

63.308

74

6.539

6.827

7.095

22

55.217

57.867

60.327

75

6.303

6.587

6.851

23

52.721

55.198

57.5

76

6.079

6.358

24

50.353

52.669

54.823

77

5.861

6.136

6.392

25

48.103

50.266

52.282

78

5.654

5.926

6.177

240

℃

)

Rmin

t)Normal R(

Rmax

6.618

Temp(℃ )

Rmin

(t)Normal R

26

45.967

47.989

Rmax

Temp(

49.874

79

℃

)

Rmin

t)Normal R(

Rmax

5.454

5.722

5.97

27

43.938

45.826

47.59

80

5.262

5.525

5.769

28

42.01

43.773

45.422

81

5.078

5.337

5.577

29

40.177

41.823

43.366

82

4.903

5.158

5.394

30

38.433

39.969

41.411

83

4.732

4.984

5.216

31

36.776

38.209

39.557

84

4.569

4.816

5.044

32

35.197

36.534

37.793

85

4.412

4.655

4.879

33

33.696

34.942

36.118

86

4.262

4.501

4.722

34

32.268

33.429

34.528

87

4.116

4.352

4.568

35

30.905

31.987

33.013

88

3.978

4.209

4.422

36

29.61

30.617

31.574

89

3.843

4.071

4.28

37

28.376

29.313

30.206

90

3.714

3.938

4.143

38

27.198

28.07

28.902

91

3.591

3.811

4.013

39

26.078

26.888

27.664

92

3.47

3.686

3.884

40

25.008

25.76

26.483

93

3.356

3.568

3.763

41

23.986

24.685

25.357

94

3.244

3.453

3.644

42

23.014

23.661

24.287

95

3.139

3.344

3.532

43

22.085

22.686

23.267

96

44

21.2

21.755

22.295

97

45

20.354

20.867

21.369

98

2.841

3.036

3.214

46

19.546

20.021

20.485

99

2.75

2.941

3.116

47

18.775

19.212

19.643

100

2.662

2.851

3.022

48

18.037

18.44

18.839

101

2.577

2.762

2.931

49

17.334

17.704

50

16.66

17

51

15.986

16.328

16.667

104

2.34

2.516

2.675

52

15.342

15.684

16.023

105

2.266

2.439

2.595

18.072 17.34

102 103

241

3.036 2.937

2.495 2.416

3.238 3.136

2.676 2.595

3.422 3.317

2.842 2.757

Appendix II 2. Enthalpy-humidity chart        

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 

  

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  

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242

               

  

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



  



3.Saturated R410A thermodynamic characteristic t

p’

p"

p’

kPa

kg/m3

p" kg/m3

s’

s"

kJ/kgK

kJ/kgK

h kJ/kg

h" kJ/kg

t’ kJ/KgK

t"

¡

kPa



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kJ/KgK



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243

CARRIER INTERAMERICA CORPORATION MIAMI, FLORIDA, USA C

CIAC 2015

IMVF Engineering Data Manual 20150213

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