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Daikin FXM250LVE [4/56] 1 indoor unit capacity index
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2
• Systems • Introduction
3
• Introduction
2Indoor units using R-407C
3 Outdoor units using R-407C
3-1 Indoor unit capacity index
NOTE
1e.g. Selected indoor units: FXYCP25 + FXYCP100 + FXYMP200 + FXYSP40
Connection ratio: 25 + 100 + 200 + 40 = 365
→
Possible outdoor unit: RSXYP24KJ
Description Indoor unit
Size
20 25 32 40 50 63 71 80 100 125 200 250
2-way blow ceiling mounted cassette FXYCP-K7V19 xxxxxx x x
4-way blow ceiling mounted cassette FXYFP-KB7V19 xxxxxx xxx
Ceiling mounted corner cassette FXK-LVE x x x x
Concealed ceiling unit FXYSP-KA7V19 xxxxxx xxx
Concealed ceiling unit (small) FXYBP-KC7V19 x x
Concealed ceiling unit (large) FXM-LVE x x x xxxxx
4-way blow ceiling suspended unit FUYP-BV17 x x x
Ceiling suspended unit FXH-LVE x x x
Wall mounted unit
FXA-LVE x x x
FXYAP-KV19 x x x
Floor standing unit FXL-LVE xxxxxx
Concealed floor standing unit FXN-LVE xxxxxx
Description Outdoor unit
Maximum number of connectable indoor units
Total capacity index
range
Capacity
steps
813162032
Inverter cooling only
RSXP5L7 x 62.5 - 162.5 20
RSXP8L7 x 100 - 260 31
RSXP10L7 x 125 - 325 31
Inverter cooling only
RSXP5K7 x 62.5 - 162.5 13
RSXP8K7 x 100 - 260 20
RSXP10K7 x 125 - 325 20
Inverter heat pump
RSXYP5L7 x 62.5 - 162.5 20
RSXYP8L7 x 100 - 260 31
RSXYP10L7 x 125 - 325 31
Inverter heat pump
RSXYP5K7 x 62.5 - 162.5 13
RSXYP8K7 x 100 - 260 20
RSXYP10K7 x 125 - 325 20
Inverter heat pump
RSXYP16KJ x 200 - 520 26
RSXYP18KJ x 225 - 585 26
RSXYP20KJ x 250 - 650 26
RSXYP24KJ x 300 - 780 29
RSXYP26KJ x 325 - 845 29
RSXYP28KJ x 350 - 910 29
RSXYP30KJ x 375 - 975 29
Heat recovery
RSEYP8K7 x 100 - 260 20
RSEYP10K7 x 125 - 325 20
Heat recovery
RSEYP16KJ x 200 - 520 26
RSEYP18KJ x 225 - 585 26
RSEYP20KJ x 250 - 650 26
RSEYP24KJ x 300 - 780 29
RSEYP26KJ x 325 - 845 29
RSEYP28KJ x 350 - 910 29
RSEYP30KJ x 375 - 975 29
Model 20 25 32 40 50 63 71 80 100 125 200 250
Capacity index 20 25 31.25 40 50 62.5 71 80 100 125 200 250
Содержание
- Systems 1
- Technical data 1
- I introduction table of contents 2
- Introduction 3
- Survey of different vrv systems 3
- Systems introduction 3
- 1 indoor unit capacity index 4
- Indoor units using r 407c 4
- Introduction 4
- Outdoor units using r 407c 4
- Systems introduction 4
- 1 indoor units 5
- Nomenclature 5
- V1 ka7 40 s p 9 fxy 5
- 2 outdoor units 6
- Introduction 6
- Nomenclature 6
- Systems introduction 6
- 1 features 7
- Explanation of different systems 7
- No 1 cop 7
- 1 features 8
- Din din 8
- Features 8
- 1 features 9
- An energy efficiency increase of approximately 20 achieved by the adoption of diverse new technologies 9
- Features 9
- Reluctance dc compressor 9
- Features 10
- 2 inverter cooling only heat pump systems 11
- Features 11
- Introduction 11
- Systems introduction 11
- 2 inverter cooling only heat pump systems 12
- Explanation of different systems 12
- Introduction 12
- Systems introduction 12
- 2 inverter cooling only heat pump systems 13
- Explanation of different systems 13
- Introduction 13
- Systems introduction 13
- 2 inverter cooling only heat pump systems 14
- Explanation of different systems 14
- Introduction 14
- Systems introduction 13 14
- 2 inverter cooling only heat pump systems 15
- Explanation of different systems 15
- Introduction 15
- Systems introduction 14 15
- 2 inverter cooling only heat pump systems 16
- Explanation of different systems 16
- Introduction 16
- Systems introduction 15 16
- 2 inverter cooling only heat pump systems 17
- Explanation of different systems 17
- Introduction 17
- Systems introduction 16 17
- 2 inverter cooling only heat pump systems 18
- Explanation of different systems 18
- Introduction 18
- Systems introduction 17 18
- 3 inverter heat recovery systems 19
- Explanation of different systems 19
- 3 inverter heat recovery systems 20
- Explanation of different systems 20
- Introduction 20
- Systems introduction 19 20
- 3 inverter heat recovery systems 21
- Explanation of different systems 21
- Introduction 21
- Systems introduction 20 21
- 3 inverter heat recovery systems 22
- Explanation of different systems 22
- Introduction 22
- Systems introduction 21 22
- 3 inverter heat recovery systems 23
- Explanation of different systems 23
- Introduction 23
- Systems introduction 22 23
- 4 inverter heat pump heat recovery systems 24
- Explanation of different systems 24
- 4 inverter heat pump heat recovery systems 25
- Explanation of different systems 25
- Introduction 25
- Systems introduction 24 25
- 4 inverter heat pump heat recovery systems 26
- Explanation of different systems 26
- Introduction 26
- Systems introduction 25 26
- 4 inverter heat pump heat recovery systems 27
- Explanation of different systems 27
- 1 1 indoor unit selection 28
- 1 2 outdoor unit selection 28
- 1 3 actual performance data 28
- 1 selection procedure standard system based on cooling load 28
- Introduction 28
- Selection procedure 28
- Systems introduction 27 28
- 1 4 selection example based on cooling load 29
- 1 selection procedure standard system based on cooling load 29
- Introduction 29
- Selection procedure 29
- Systems introduction 28 29
- 2 1 rsx y p5l7w1 30
- 2 vrv capacity correction ratio 30
- Introduction 30
- Selection procedure 30
- Systems introduction 29 30
- 2 2 rsx y p8l7w1 31
- 2 vrv capacity correction ratio 31
- Introduction 31
- Selection procedure 31
- Systems introduction 30 31
- 2 3 rsx y p10l7w1 32
- 2 vrv capacity correction ratio 32
- Introduction 32
- Selection procedure 32
- Systems introduction 31 32
- 2 4 rsx y p5k7w1 33
- 2 vrv capacity correction ratio 33
- Introduction 33
- Selection procedure 33
- Systems introduction 32 33
- 2 5 rsx y p8k7w1 34
- 2 vrv capacity correction ratio 34
- Introduction 34
- Selection procedure 34
- Systems introduction 33 34
- 2 6 rsx y p10k7w1 35
- 2 vrv capacity correction ratio 35
- Introduction 35
- Selection procedure 35
- Systems introduction 34 35
- 2 7 rseyp8k 36
- 2 vrv capacity correction ratio 36
- Introduction 36
- Selection procedure 36
- Systems introduction 35 36
- 2 8 rseyp10k 37
- 2 vrv capacity correction ratio 37
- Introduction 37
- Selection procedure 37
- Systems introduction 36 37
- 3 1 indoor unit selection 38
- 3 2 outdoor unit selection 38
- 3 3 actual performance data 38
- 3 selection procedure system based on cooling load 38
- Introduction 38
- Selection procedure 38
- Systems introduction 37 38
- 3 4 selection example based on cooling load 39
- 3 selection procedure system based on cooling load 39
- Introduction 39
- Selection procedure 39
- Systems introduction 38 39
- 3 4 selection example based on cooling load 40
- 3 selection procedure system based on cooling load 40
- Introduction 40
- Selection procedure 40
- Systems introduction 39 40
- 4 1 rsxyp16 18 26kjy1 41
- 4 vrv plus capacity correction ratio 41
- Introduction 41
- Selection procedure 41
- Systems introduction 40 41
- 4 2 rsxyp24kjy1 42
- 4 vrv plus capacity correction ratio 42
- Introduction 42
- Selection procedure 42
- Systems introduction 41 42
- 4 3 rsxyp20 28 30kjy1 43
- 4 vrv plus capacity correction ratio 43
- Introduction 43
- Selection procedure 43
- Systems introduction 42 43
- 4 4 rseyp16 18 26kjy1 44
- 4 vrv plus capacity correction ratio 44
- Introduction 44
- Selection procedure 44
- Systems introduction 43 44
- 4 5 rseyp24kjy1 45
- 4 vrv plus capacity correction ratio 45
- Introduction 45
- Selection procedure 45
- Systems introduction 44 45
- 4 6 rseyp20 28 30kjy1 46
- 4 vrv plus capacity correction ratio 46
- Introduction 46
- Selection procedure 46
- Systems introduction 45 46
- 5 1 unified refnet joints 47
- 5 refnet pipe system 47
- Introduction 47
- Selection procedure 47
- Systems introduction 46 47
- 5 2 unified refnet headers 48
- 5 refnet pipe system 48
- Introduction 48
- Selection procedure 48
- Systems introduction 47 48
- 5 3 example of refnet piping layouts 49
- 5 refnet pipe system 49
- Introduction 49
- Selection procedure 49
- Systems introduction 48 49
- 6 1 rsx y p5 10l 50
- 6 refrigerant pipe selection 50
- Introduction 50
- Selection procedure 50
- Systems introduction 49 50
- 6 2 rsx y p5 10k 51
- 6 refrigerant pipe selection 51
- Introduction 51
- Selection procedure 51
- Systems introduction 50 51
- 6 3 rsxyp16 30k 52
- 6 refrigerant pipe selection 52
- Introduction 52
- Selection procedure 52
- Systems introduction 51 52
- 6 4 rseyp8 10k 53
- 6 refrigerant pipe selection 53
- Introduction 53
- Selection procedure 53
- Systems introduction 52 53
- 6 5 rseyp16 30k 54
- 6 refrigerant pipe selection 54
- Introduction 54
- Selection procedure 54
- Systems introduction 53 54
- Eede02 2 2a 08 2002 prepared in belgium by vanmelle 56
- Specifications are subject to change without prior notice 56
- Systems 56
- Zandvoordestraat 300 b 8400 ostend belgium internet http www daikineurope com 56
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