Applied Systems Technical Data SEHVX-BAW, SERHQ-BAW1 · 2018. 6. 25. · applied systems technical...
Transcript of Applied Systems Technical Data SEHVX-BAW, SERHQ-BAW1 · 2018. 6. 25. · applied systems technical...
Applied SystemsTechnical Data
SEHVX-BAW, SERHQ-BAW1
> SEHVX20BAW> SEHVX32BAW> SEHVX40BAW> SEHVX64BAW> SERHQ020BAW1> SERHQ020BAW1 + SERHQ020BAW1
> SERHQ032BAW1> SERHQ032BAW1 + SERHQ032BAW1
• Chillers • SEHVX-BAW, SERHQ-BAW1 1
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
TABLE OF CONTENTSSEHVX-BAW, SERHQ-BAW1
1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
SEHVX-BAW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
SERHQ-BAW1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Technical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Electrical specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
3 Electrical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
4 Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
5 Combination table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
6 Capacity tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Cooling Capacity Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Heating Capacity Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
7 Dimensional drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
8 Piping diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
9 Wiring diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Wiring Diagrams - Three Phase . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
10 External connection diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
11 Sound data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Sound Pressure Spectrum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
12 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Water Charge, Flow and Quality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
13 Operation range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
14 Hydraulic performance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
Static Pressure Drop Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
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1 Features1 - 1 SEHVX-BAW
oor Unit
Ind• Ideal for colder climates as the lack of glycol will allow for highefficiencies
• Hydronic module for indoor installation eliminating the need for glycol
• Compact dimensions and limited pipework allow for installation in very restricted spaces
• Easy transportation as separate units will fit in an elevator
Inverter
• Chillers • SEHVX-BAW, SERHQ-BAW1
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1
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
1 Features1 - 2 SERHQ-BAW1
• Ideal for colder climates as the lack of glycol will allow for high efficiencies
• Hydronic module for indoor installation eliminating the need for glycol
• Compact dimensions and limited pipework allow for installation in very restricted spaces
• Easy transportation as separate units will fit in an elevator
Inverter Scroll compressor
• Chillers • SEHVX-BAW, SERHQ-BAW1 3
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
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2 Specifications
2-1 Technical Specifications SEHVX20BAW / SERHQ020BAW1
SEHVX32BAW / SERHQ032BAW1
SEHVX40BAW / SERHQ020BAW1 + SERHQ020BAW1
SEHVX64BAW / SERHQ032BAW1 + SERHQ032BAW1
Cooling capacity Nom. kW 21,2 (1) 31,8 (1) 42,3 (1) 63,3 (1)
Max. kW 25,2 37,8 50,3 75,3
Heating capacity Nom. kW 20,8 (2) 31,2 (2) 41,7 (2) 62,7 (2)
Max. kW 24,8 37,2 49,7 74,7
Capacity control Method Inverter controlled Inverter controlled Inverter controlled Inverter controlled
Minimum capacity % 25 25 25 25
Maximum capacity % 120 120 120 120
Power input Cooling Nom. kW 7,47 (1) 12,7 (1) 15,1 (1) 25,5 (1)
Heating Nom. kW 6,76 (2) 10,6 (2) 13,7 (2) 21,4 (2)
EER 2,84 2,5 2,8 2,48
COP 3,07 2,93 3,03 2,93
ESEER 4,7 4,1 4,4 4,05
Packing Material Carton|Wood|Plastic Carton|Wood|Plastic Carton|Wood|Plastic Carton|Wood|Plastic
Weight kg 27 31 45 53
Casing Colour Daikin White Daikin White Daikin White Daikin White
Material Polyester coated galvanised steel
plate
Polyester coated galvanised steel
plate
Polyester coated galvanised steel
plate
Polyester coated galvanised steel
plate
Hydraulic components Expansion vessel Volume L 12 12 12 12
Water heat exchanger Type Brazed plate Brazed plate Brazed plate Brazed plate
Quantity 1 1 2 2
Filter Diameter perforations mm 1 1 1 1
Material Brass Brass Brass Brass
Water flow rate Min. l/min 23 36 46 72
Cooling Nom. l/min 60,2 (3) 90,3 (3) 120,4 (3) 180,6 (3)
Heating Nom. l/min 60,2 (2) 90,3 (2) 120,4 (2) 180,6 (2)
Cooling Max l/min 90,3 135,5 180,6 270,9
Heating Max l/min 90,3 135,5 180,6 270,9
Total kPa 10 8 10 8
Water volume l 3,06 4,59 6,12 9,18
Insulation material Nitrile rubber based elastomeric
foam
Nitrile rubber based elastomeric
foam
Nitrile rubber based elastomeric
foam
Nitrile rubber based elastomeric
foam
Air heat exchanger Type Air cooled coil Air cooled coil Air cooled coil Air cooled coil
Fin Type Non-symmetric waffle louvre
Non-symmetric waffle louvre
Non-symmetric waffle louvre
Non-symmetric waffle louvre
Treatment Hydrophylic and anti-corrosion
Hydrophylic and anti-corrosion
Hydrophylic and anti-corrosion
Hydrophylic and anti-corrosion
Fin pitch mm 2 2 2 2
Fan Type Axial Axial Axial Axial
Quantity 1 2 2 4
m³/min 185 233 370 466
m³/min 185 233 370 466
Discharge direction Vertical Vertical Vertical Vertical
Max. Pa 78 78 78 78
Fan motor Model Brushless DC motor
Brushless DC motor
Brushless DC motor
Brushless DC motor
Drive Direct drive Direct drive Direct drive Direct drive
Quantity 1 2 2 4
Refrigerant oil Type Synthetic (ether) oil
Synthetic (ether) oil
Synthetic (ether) oil
Synthetic (ether) oil
• Chillers • SEHVX-BAW, SERHQ-BAW1
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• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
2 Specifications
Compressor Type Hermetically sealed scroll compressor
Hermetically sealed scroll compressor
Hermetically sealed scroll compressor
Hermetically sealed scroll compressor
Quantity 2 3 4 6
Motor (INV) Crankcase heater W 33 33 33 33
Model Inverter Inverter Inverter Inverter
Quantity 1 1 2 2
Motor (ON-OFF) Crankcase heater W 33 33 33 33
Model ON/OFF ON/OFF ON/OFF ON/OFF
Quantity 1 2 2 4
Operation range Air side Cooling Min. °CDB -5 -5 -5 -5
Max. °CDB 43 43 43 43
Heating Min. °CDB -15 -15 -15 -15
Max. °CDB 35 35 35 35
Operation range Water side Cooling Min. °CDB 5 @ 1139 5 @ 1139 5 @ 1139 5 @ 1139
Max. °CDB 20 20 20 20
Heating Min. °CDB 25 25 25 25
Max. °CDB 50 50 50 50
Sound power level Cooling Nom. dBA 78 80 81 83
Refrigerant Type R-410A R-410A R-410A R-410A
GWP 2087,5 2087,5 2087,5 2087,5
Refrigerant charge Per circuit kg 7,6 9,6 7,6 9,6
tCO2Eq 15,865 20,04 15,865 20,04
Refrigerant Circuits Quantity 1 1 2 2
Control Electronic expansion valve
Electronic expansion valve
Electronic expansion valve
Electronic expansion valve
Water circuit Air purge valve Yes Yes Yes Yes
Drain valve / fill valve Yes Yes Yes Yes
flowswitch yes yes yes yes
Minimum water volume in the system for cooling l 33 (5) 33 (5) 66 (5) 66 (5)
Minimum water volume in the system for heating l 76 (6) 110 (6) 152 (6) 220 (6)
Safety valve bar 3 3 3 3
Shut off valve Yes Yes Yes Yes
PED Category Category II Category II Category II Category II
Most critical part Name Accumulator Accumulator Accumulator Accumulator
Ps*V Bar*l 335 385 335 385
Defrost method Reversed cycle Reversed cycle Reversed cycle Reversed cycle
Safety devices High pressure switch
High pressure switch
High pressure switch
High pressure switch
Overcurrent relay Overcurrent relay Overcurrent relay Overcurrent relay
Inverter overload protector
Inverter overload protector
Inverter overload protector
Inverter overload protector
Fuse Fuse Fuse Fuse
General Supplier/Manufacturer details
Name or trademark Daikin Europe N.V. Daikin Europe N.V. Daikin Europe N.V. Daikin Europe N.V.
Name and address Daikin Europe N.V. - Zandvoordestraat
300, 8400 Oostende, Belgium
Daikin Europe N.V. - Zandvoordestraat
300, 8400 Oostende, Belgium
Daikin Europe N.V. - Zandvoordestraat
300, 8400 Oostende, Belgium
Daikin Europe N.V. - Zandvoordestraat
300, 8400 Oostende, Belgium
Product description Air-to-water heat pump Yes Yes Yes Yes
Water-to-water heat pump No No No No
Brine-to-water heat pump No No No No
Low-temperature heat pump Yes Yes Yes Yes
Supplementary heater integrated No No No No
Heat pump combination heater No No No No
LW(A) Sound power level (according to EN14825) dB(A) 78 80 81 83
Sound power level indoor LWC35°C (DT=5°C) dB(A) 63 63 66 66
2-1 Technical Specifications SEHVX20BAW / SERHQ020BAW1
SEHVX32BAW / SERHQ032BAW1
SEHVX40BAW / SERHQ020BAW1 + SERHQ020BAW1
SEHVX64BAW / SERHQ032BAW1 + SERHQ032BAW1
• Chillers • SEHVX-BAW, SERHQ-BAW1 5
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
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2 Specifications
Sound condition Ecodesign and energy label Sound power in heating mode, measured according to the EN12102 under conditions of the EN14825
Space heating general Air to water unit Rated airflow (outdoor) m³/h 11100 13980 22200 27960
Other Capacity control Inverter Inverter Inverter Inverter
Poff (Off mode) kW 0,074 0,104 0,148 0,208
Pto (Thermostat off) kW 0,09 0,123 0,18 0,246
Psb (Standby mode) kW 0,074 0,104 0,148 0,208
Pck (Crankcase heater mode) kW 0,074 0,104 0,148 0,208
Cdh (Degradation heating) 1 1 1 1
Integrated supplementary heater
Psup kW 0 0 0 0
Type of energy input Electrical Electrical Electrical Electrical
NOx emission mg/kWh 0 0 0 0
Space heating - Average climate water outlet 35°C
General Prated at -10°C kW 21 31,5 42 63
?s (Seasonal space heating efficiency)
% 154 138 149 138
SCOP 3,925 3,525 3,8 3,525
Seasonal space heating eff. class A++ A+ A+ A+
Qhe Annual energy consumption (GCV)
Gj 39,72282217 66,46868251 82,14902808 132,6385889
Annual energy consumption kWh 11035 18465 22821 36847
A Condition (-7°CDB/-8°CWB)
Pdh kW 18,2 26,5 36,5 53,2
COPd 2,44 2,13 2,42 2,14
PERd % 97,6 85,2 96,8 85,6
Cdh (Degradation heating) 1 1 1 1
B Condition (2°CDB/1°CWB)
Pdh kW 11,2 16,7 22,7 33,6
COPd 3,6 3,19 3,52 3,2
PERd % 144 127,6 140,8 128
Cdh (Degradation heating) 1 1 1 1
C Condition (7°CDB/6°CWB)
Pdh kW 7,14 10,6 14,5 21,4
COPd 5,68 5,62 5,34 5,63
PERd % 227,2 224,8 213,6 225,2
Cdh (Degradation heating) 1 1 1 1
D Condition (12°CDB/11°CWB)
Pdh kW 5,81 5,71 11,8 11,6
COPd 8,12 7,25 7,26 7,25
PERd % 324,8 290 290,4 290
Cdh (Degradation heating) 0,9 0,9 0,9 0,9
Tol (temperature operating limit)
TOL °C -10 -10 -10 -10
Pdh kW 18,7 23,3 37,6 46,9
COPd 2,16 1,86 2,15 1,87
PERd % 86,4 74,4 86 74,8
WTOL °C 35 35 35 35
Tbiv (bivalent temperature)
Tbiv °C -8 -6 -8 -6
Pdh kW 19,8 26,5 39,9 53,2
COPd 2,29 2,15 2,28 2,15
PERd % 91,6 86 91,2 86
Rated heat output supplementary capacity
Psup (at Tdesign -10°C) kW 2,3 8,2 4,4 16,1
Space heating - Cold climate water outlet 35°C
General Annual energy consumption kWh 18158 36359 36042 75408
Qhe Annual energy consumption (GCV)
Gj 65,36357091 130,8819294 129,7408207 271,4470842
?s (Seasonal space heating efficiency)
% 113 111 114 106
Prated at -22°C kW 21,4 41,9 42,7 83,7
2-1 Technical Specifications SEHVX20BAW / SERHQ020BAW1
SEHVX32BAW / SERHQ032BAW1
SEHVX40BAW / SERHQ020BAW1 + SERHQ020BAW1
SEHVX64BAW / SERHQ032BAW1 + SERHQ032BAW1
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
2
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
2 Specifications
Space heating - Warm climate water outlet 35°C
General Annual energy consumption kWh 6981 10830 13961 21354
Qhe Annual energy consumption (GCV)
Gj 25,12958963 38,98488121 50,25557955 76,86825054
?s (Seasonal space heating efficiency)
% 158 154 158 156
Prated at 2°C kW 21 31,8 42,1 63,7
Space cooling B Condition 30°C Cdc 1680 1680 1680 1680
C Condition 25°C Pdc kW 765 765 765 765
EERd 930 1240 930 1240
Cdc 1573 1573 1573 1573
D Condition 20°C Pdc kW 396 396 396 396
EERd 766 766 766 766
Cdc 1705 1705 1705 1705
2-1 Technical Specifications SEHVX20BAW SEHVX32BAW SEHVX40BAW SEHVX64BAW
Dimensions Packed unit Height mm 1,831
Width mm 865
Depth mm 495
Unit Height mm 1,573
Width mm 766
Depth mm 396
Weight Packed unit kg 109 117 149 165
Unit kg 97.0 105 137 153
Water heat exchanger Type Brazed plate
Water flow rate Cooling Nom. l/min 60 (1) 90 (1) 120 (1) 181 (1)
Heating Nom. l/min 60 (2) 90 (2) 120 (2) 181 (2)
Water volume l 3 5 6 9
Operation range Water side Cooling Max. °CDB 20
Min. °CDB 5 (3)
Heating Max. °CDB 50
Min. °CDB 25
Refrigerant charge Per circuit TCO2eq 0.0
Water circuit Nominal water pressure drop
Cooling kPa 17 (4) 24 (4) 19 (4) 29 (4)
Piping inch 1-1/4" 1-1/2"
Piping connections diameter inch 1-1/4" (female) 2" (female)
Total water volume l 4.2 (5) 5.8 (5) 7.9 (5) 11.0 (5)
2-1 Technical Specifications SERHQ020BAW1 SERHQ020+020BAW1 SERHQ032BAW1 SERHQ032+032BAW1
Dimensions Packed unit Height mm 1,855
Width mm 860
Depth mm 995 1,305
Unit Height mm 1,680
Width mm 765
Depth mm 930 1,240
Weight Packed unit kg 273 356
Unit kg 240 316
2-1 Technical Specifications SEHVX20BAW / SERHQ020BAW1
SEHVX32BAW / SERHQ032BAW1
SEHVX40BAW / SERHQ020BAW1 + SERHQ020BAW1
SEHVX64BAW / SERHQ032BAW1 + SERHQ032BAW1
• Chillers • SEHVX-BAW, SERHQ-BAW1 7
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
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2 Specifications
Notes
(1) Condition: Ta 35°C - LWE 7°C ( DT = 5°C)
(2) Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C)
(3) Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or
ethylene) has to be used (see installation manual and information related to OPZL option)
(4) This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop.
(5) Including piping + PHE; excluding expansion vessel
Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C
Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra
water volume might be required. Refer to operation range for more info.
Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint is
≥ 45° C (eg. Fan coils)
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
2
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
2 Specifications
Notes
(1) Cooling: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C
(2) Condition: Ta DB/WB 7°C/6°C - LWC 45°C (Dt=5°C)
(3) Condition: Ta 35°C - LWE 7°C ( DT = 5°C)
(4) Water can be used above 5°C. Between 0°C and 5°C a 30% glycol solution (propylene or ethylene) has to be used. Between 0°C and -10°C a 40% glycol solution (propylene or
ethylene) has to be used (see installation manual and information related to OPZL option)
(5) Excluding water volume in the unit. In most applications this minimum water volume will have a satisfying result. In critical processes or in rooms with a high heat load though, extra
water volume might be required. Refer to operation range for more info.
(6) Excluding the water volume in the unit. This volume will guarantee suficient defrost energy for all applications, however, this volume can be multiplied by 0,66 if the heating sepoint
is ? 45° C (eg. Fan coils)
(7) This is PD between inlet & outlet connections of unit. It includes the water side heat exchanger pressure drop.
(8) Including piping + PHE; excluding expansion vessel
2-2 Electrical specificationsSEHVX20BAW /
SERHQ020BAW1SEHVX32BAW /
SERHQ032BAW1
SEHVX40BAW / SERHQ020BAW1 + SERHQ020BAW1
SEHVX64BAW / SERHQ032BAW1 + SERHQ032BAW1
Power supply Name W1 W1
Phase 3N~ 3N~
Frequency Hz 50 50
Voltage V 400 400
Voltage range Min. % -10 -10
Max. % 10 10
Unit Starting current Max A 80 91
Current Zmax Text 0,27 0,24
Running current Max A 27,1 37
Minimum Ssc value 853 840
Recommended fuses A 32 40
Cable requirements Power supply Required number of conductors 4 + GND 4 + GND
Remote control Quantity of wires 2 2
Maximum running current Minimum cable section 0.75 mm2 Minimum cable section 0.75 mm2
Cooling/Heating output
Quantity of wires 2 2
Maximum running current A 0,3 0,3
Operation ON/OFF output
Quantity of wires 2 2
Maximum running current A 0,3 0,3
Error output Quantity of wires 2 2
Maximum running current A 0,3 0,3
Pump ON/OFF output
Quantity of wires 2 2
Maximum running current A 0,3 0,3
2-2 Electrical Specifications SEHVX20BAW SEHVX32BAW SEHVX40BAW SEHVX64BAW
Power supply Name W1
Phase 3N~
Frequency Hz 50
Voltage V 400
2-2 Electrical Specifications SERHQ020BAW1 SERHQ020+020BAW1 SERHQ032BAW1 SERHQ032+032BAW1
Power supply Name W1
Phase 3N~
Frequency Hz 50
Voltage V 400
• Chillers • SEHVX-BAW, SERHQ-BAW1 9
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
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3 Electrical data3 - 1 Electrical Data
SEHVX-BAW
(1) The sound pressure level is measured with a microphone at 1 m from the unit.
It is a relative value, depending on the distance and the acoustic environment.
(2) DB/WB 7/6°C - LWC 35°C (ΔT = 5°C)
Sound pressure Sound powerdBa (1) dBa (2)
SEHVX20BAW 47 63
SEHVX64BAW 50 66
SEHVX32BAW 47 63
SEHVX40BAW 50 66
4D112931
• Chillers • SEHVX-BAW, SERHQ-BAW1
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• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
4 Options4 - 1 Options
SEHVX-BAW
Option availability
- Standard hydraulic package o o o o Factory-mounted
EKRP1AHT* Demand PCB o o o* o* Option kitAdditional inputs for:Remote ON/OFFRemote cooling/heatingRemote thermo ON/OFF
DTA104A62 External control adapter o o o* o* Option kitDemand controlLow-noise control
* : ·2· option kits are required per unit.
Reference DescriptionSEHVX*BAW
Availability20 32 40 64
3D112936A
• Chillers • SEHVX-BAW, SERHQ-BAW1 11
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
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5 Combination table5 - 1 Combination Table
SEHVX-BAW
Gas side Ø Liquid side Ø Gas side Ø Liquid side Ø G/G1 L/L1 G2 L2SEHVX20* SERHQ20* 1 22,2 9,52 9,52SEHVX32* SERHQ32* 1 28,6 12,7 12,7SEHVX40* SERHX20* 2 22,2 9,52 9,52 9,52SEHVX64* SERHX32* 2 28,6 12,7 12,7 12,7
Maximum height difference between outdoor unit and indoor unit: ·10·m.The outdoor units should be installed on the same level
Piping restrictions ·30m·
Outdoor unitG
L
Outdoor unit ·1·G1
L1
G2 Outdoor unit ·2·
L2
- -
28,6
Indoor unitIndoor unit connections
Outdoor unit QuantityOutdoor unit connections Piping diameter requirements
Indoor unit
Indoor unit
25,4 12,7 28,6
3D112937
• Chillers • SEHVX-BAW, SERHQ-BAW1
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• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
6 Capacity tables6 - 1 Cooling Capacity Tables
SEHVX-BAW
LWE Size CC PI CC PI CC PI CC PI CC PI20 21,2 5,68 21,2 6,23 21,2 6,99 21,2 7,90 21,2 8,9732 31,8 9,43 31,8 10,7 31,8 12,0 31,7 14,0 30,8 16,040 42,3 11,5 42,3 12,7 42,3 14,3 42,3 16,2 42,3 18,364 63,3 18,9 63,3 21,3 63,3 24,2 63,3 28,3 59,6 31,420 21,2 5,40 21,2 5,99 21,2 6,69 21,2 7,47 21,2 8,3332 31,8 9,00 31,8 10,1 31,8 11,3 31,8 12,7 31,5 15,340 42,3 11,0 42,3 11,9 42,3 13,4 42,3 15,1 42,3 16,964 63,3 17,9 63,3 20,1 63,3 22,5 63,3 25,5 63,3 30,120 21,2 5,04 21,2 5,59 21,2 6,17 21,2 6,93 21,2 7,7732 31,8 8,07 31,8 9,25 31,8 10,3 31,8 11,7 31,8 13,940 42,3 10,1 42,3 11,1 42,3 12,3 42,3 13,7 42,3 15,464 63,3 16,2 63,3 18,6 63,3 20,7 63,3 23,9 63,3 28,020 21,2 4,12 21,2 4,77 21,2 5,31 21,2 5,97 21,2 6,7232 31,8 6,70 31,8 7,64 31,8 8,73 31,8 9,82 31,8 11,340 42,3 8,37 42,3 9,72 42,3 10,8 42,3 12,1 42,3 13,564 63,3 13,5 63,3 15,3 63,3 17,6 63,3 19,7 63,3 23,020 21,2 3,53 21,2 4,18 21,2 4,78 21,2 5,36 21,2 6,0532 31,8 6,17 31,8 7,04 31,8 7,97 31,8 9,05 31,8 10,240 42,3 7,24 42,3 8,52 42,3 9,62 42,3 10,8 42,3 12,364 63,3 12,2 63,3 14,0 63,3 16,2 63,3 18,0 63,3 20,3
Symbols :
CC : PI :
LWE :Tamb :
Notes :
10
15
1. Cooling capacity [kW]Capacity according to standard EN 14511 and valid for chilled water range ΔT = 3~8°C.
2. Power input [kW]
18
The power input is the total input according to ·EN 14511:2013·
5
7
Cooling capacity [kW]Power input [kW]Leaving water evaporator temperature [°C]Ambient temperature [°C]
Nominal cooling capacity
Tamb (°C) 20 25 30 35 40
3D113311
• Chillers • SEHVX-BAW, SERHQ-BAW1 13
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
6
14
6 Capacity tables6 - 1 Cooling Capacity Tables
SEHVX-BAW
LWE Size CC PI CC PI CC PI CC PI CC PI
20 25,2 7,71 25,2 8,48 25,2 9,37 25,2 10,3 25,2 12,232 37,8 12,6 37,8 14,6 37,3 16,3 36,1 17,9 30,6 16,140 50,3 15,8 50,3 17,0 50,3 18,9 50,3 21,3 50,3 25,2
64 74,2 25,6 73,1 28,5 72,0 31,6 69,3 34,6 59,2 31,7
20 25,2 7,13 25,2 7,82 25,2 8,66 25,2 9,55 25,2 11,1
32 37,8 11,5 37,8 13,4 37,8 15,8 37,8 17,9 31,4 15,5
40 50,3 14,5 50,3 15,8 50,3 17,4 50,3 19,5 50,3 22,7
64 75,3 24,4 75,3 27,8 75,3 32,0 75,3 37,6 60,3 29,9
20 25,2 6,50 25,2 7,20 25,2 7,96 25,2 8,79 25,2 9,84
32 37,8 10,4 37,8 12,0 37,8 14,3 37,8 16,0 32,3 14,3
40 50,3 12,9 50,3 14,3 50,3 15,8 50,3 17,6 50,3 19,9
64 75,3 22,1 75,3 24,9 75,3 29,3 75,3 33,6 62,8 28,1
20 25,2 5,53 25,2 6,20 25,2 6,93 25,2 7,68 25,2 8,46
32 37,8 9,03 37,8 10,3 37,8 11,8 37,8 13,6 33,4 12,4
40 50,3 11,0 50,3 12,3 50,3 13,7 50,3 15,2 50,3 16,8
64 75,3 18,8 75,3 20,9 75,3 24,0 75,3 27,6 65,4 24,5
20 25,2 5,04 25,2 5,68 25,2 6,47 25,2 7,22 25,2 7,97
32 37,8 8,12 37,8 9,33 37,8 10,6 37,8 12,3 34,4 11,540 50,3 10,2 50,3 11,5 50,3 12,9 50,3 14,2 50,3 15,864 75,3 17,0 75,3 18,9 75,3 21,8 75,3 25,3 68,0 23,1
Symbols :
HC :
PI :
LWE:
Tamb :
Notes :
2. Power input [kW]
The power input is the total input according to ·EN 14511:2013·
Power input [kW]
Leaving water evaporator temperature [°C]
Ambient temperature [°C]
1. Cooling capacity [kW]
Capacity according to standard EN 14511 and valid for heated water range ΔT = 3~8°C.
Cooling capacity [kW]
Maximum cooling capacity
Tamb (°C) 20 25 30 35 40
5
7
10
15
18
3D113312
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
6
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
6 Capacity tables6 - 2 Heating Capacity Tables
SEHVX-BAW
-15 -10 -7 -2 2 7 15LWC Size HC PI HC PI HC PI HC PI HC PI HC PI HC PI30 20 17,7 7,12 20,3 7,30 20,8 6,88 20,8 5,99 20,8 5,36 20,8 4,88 20,8 3,79 Symbols
32 29,9 12,5 31,2 11,6 31,2 10,6 31,2 9,34 31,2 8,48 31,2 7,30 31,2 5,9340 35,5 14,5 40,7 14,8 41,7 14,0 41,7 12,2 41,7 10,9 41,7 10,0 41,7 7,79 HC :64 60,0 25,1 62,7 23,2 62,7 21,3 62,7 18,8 62,7 17,0 62,7 14,7 62,7 11,9 PI :
35 20 17,6 7,84 20,1 8,03 20,8 7,73 20,8 6,69 20,8 6,02 20,8 5,49 20,8 4,29 LWC :32 30,1 13,8 31,2 12,9 31,2 11,7 31,2 10,4 31,2 9,54 31,2 8,21 31,2 6,72 Tamb :40 35,5 15,9 40,4 16,3 41,7 15,7 41,7 13,6 41,7 12,3 41,7 11,2 41,7 8,7964 60,5 27,7 62,7 25,9 62,7 23,6 62,7 20,9 62,7 19,2 62,7 16,5 62,7 13,5
40 20 17,6 8,69 19,9 8,88 20,8 8,74 20,8 7,65 20,8 6,85 20,8 6,01 20,8 5,05 Notes :32 30,2 15,3 31,2 14,3 31,2 13,0 31,2 11,7 31,2 10,7 31,2 9,29 31,2 7,6440 35,3 17,6 39,9 18,0 41,7 17,7 41,7 15,5 41,7 13,9 41,7 12,2 41,7 10,364 60,6 30,8 62,7 28,7 62,7 26,1 62,7 23,6 62,7 21,5 62,7 18,7 62,7 15,4
45 20 17,4 9,68 19,6 9,87 20,8 9,84 20,8 8,62 20,8 7,80 20,8 6,76 20,8 5,7632 30,1 17,1 31,2 16,0 31,2 14,8 31,2 13,4 31,2 12,4 31,2 10,6 31,2 8,7240 35,0 19,6 39,3 20,0 41,7 19,9 41,7 17,5 41,7 15,8 41,7 13,7 41,7 11,764 60,4 34,3 62,7 32,2 62,7 29,7 62,7 26,9 62,7 25,0 62,7 21,4 62,7 17,5
50 20 17,2 10,8 17,6 9,80 17,7 9,80 17,8 8,31 18,1 7,68 18,3 6,86 18,7 5,6632 26,8 16,6 26,9 15,3 27,1 14,4 27,5 12,9 27,6 11,7 27,9 10,4 28,1 8,7340 34,5 21,8 35,3 19,9 35,5 19,9 35,8 16,8 36,3 15,6 36,8 14,0 37,6 11,564 53,7 33,3 54,1 30,6 54,4 29,0 55,2 25,9 55,5 23,4 56,0 20,9 56,3 17,5
Note ·1 :·
The heating capacity does not include the capacity drop that occurs during a frosting period and defrost operation.
The integrated heating capacity takes into acccount the capacity drop that occurs during a frosting period and defrost operation.
Integrated heating capacity = (·HC·) * (integrated correction factor during frosting period)
The integrated heating capacity is the heating capacity for a single cycle (from one defrost operation to the next), integrated and converted to heating capacity per hour.
Integrated correction factor Integrated heating capacity graph
Size -15 -10 -7 -2 2 720 0,87 0,83 0,80 0,83 0,85 1,0032 0,88 0,84 0,82 0,85 0,86 1,0040 0,87 0,83 0,80 0,83 0,85 1,0064 0,88 0,84 0,82 0,85 0,86 1,00
Note ·2:·
If the surface of the heat exchanger is covered with snow, the heating capacity drops temporarily.The heating capacity varies according to the outdoor temperature (°C DB), relative humidity (RH) and the frosting volume.
Tamb (°CDB)
Heating capacity [kW]Power input [kW]Leaving water condensor temperature [°C]
Ambient temperature; RH (heating) = 85%
1. Heating capacityCapacity according to standard EN 14511 and valid for heated water range ΔT = 3~8°C.
Ambient temperature [°C]
Nominal heating capacity
The power input is the total input according to ·EN 14511:2013·Power input [kW]2.
Correction factor
Defrost operation
Defrost operationHeating operation
Heating capacity
Time [h]
·1· cycle
3D113311SEHVX-BAW
-15 -10 -7 -2 2 7 15LWC Size HC PI HC PI HC PI HC PI HC PI HC PI HC PI
30 20 17,7 7,08 20,3 7,24 21,9 7,33 24,8 7,54 24,8 6,65 24,8 5,79 24,8 4,99 Symbols :32 29,8 12,4 33,8 12,7 36,5 12,9 37,2 11,5 37,2 10,4 37,2 9,27 37,2 7,4440 35,5 14,4 40,7 14,7 43,9 14,9 49,7 15,3 49,7 13,5 49,7 11,8 49,7 10,2 HC :64 59,7 24,9 67,9 25,6 73,2 26,0 74,7 23,1 74,7 20,8 74,7 18,6 74,7 15,0 PI :
35 20 17,6 7,79 20,1 7,96 21,6 8,06 24,3 8,22 24,8 7,53 24,8 6,51 24,8 5,46 LWC :32 30,0 13,7 33,9 14,0 36,4 14,2 37,2 12,9 37,2 11,6 37,2 10,3 37,2 8,37 Tamb :40 35,4 15,8 40,3 16,2 43,4 16,4 48,9 16,7 49,7 15,3 49,7 13,2 49,7 11,164 60,3 27,5 67,9 28,2 72,9 28,6 74,7 25,9 74,7 23,3 74,7 20,8 74,7 16,8
40 20 17,5 8,63 19,8 8,80 21,3 8,91 23,9 9,08 24,8 8,55 24,8 7,47 24,8 6,13 Notes :32 30,1 15,2 33,7 15,5 36,1 15,8 37,2 14,5 37,2 13,1 37,2 11,7 37,2 9,640 35,2 17,5 39,8 17,8 42,8 18,1 48,0 18,4 49,7 17,3 49,7 15,2 49,7 12,564 60,5 30,5 67,7 31,2 72,4 31,7 74,7 29,2 74,7 26,3 74,7 23,4 74,7 19,2
45 20 17,4 9,60 19,5 9,78 21,0 9,9 23,5 10,1 24,8 9,75 24,8 8,55 24,8 7,0532 30,0 16,9 33,4 17,3 35,6 17,5 37,2 16,5 37,2 14,8 37,2 13,3 37,2 11,040 34,9 19,4 39,3 19,8 42,1 20,0 47,1 20,4 49,7 19,7 49,7 17,3 49,7 14,364 60,3 34,0 67,0 34,7 71,5 35,1 74,7 33,1 74,7 29,8 74,7 26,7 74,7 22,1
50 20 17,2 10,7 18,5 10,3 18,7 9,77 18,9 8,82 19,1 8,09 18,9 7,12 19,6 6,0932 27,6 17,3 28,2 15,9 28,6 15,1 28,7 13,6 29,0 12,4 29,3 10,9 29,4 9,1340 34,5 21,7 37,2 20,9 37,6 19,8 38,0 17,9 38,4 16,4 37,9 14,5 39,4 12,464 55,4 34,6 56,6 31,9 57,3 30,4 57,7 27,4 58,2 24,9 58,7 21,9 59,0 18,4
Note ·1 :·
Integrated correction factor
Size -15 -10 -7 -2 2 720 0,87 0,83 0,80 0,83 0,85 1,0032 0,88 0,84 0,82 0,85 0,86 1,0040 0,87 0,83 0,80 0,83 0,85 1,0064 0,88 0,84 0,82 0,85 0,86 1,00
Note ·2:·The heating capacity varies according to the outdoor temperature (°C DB), relative humidity (RH) and the frosting volume. If the surface of the heat exchanger is covered with snow, the heating capacity drops temporarily.
Ambient temperature; RH (heating) = 85%
Correction factor
The heating capacity does not include the capacity drop that occurs during a frosting period and defrost operation.
The integrated heating capacity takes into acccount the capacity drop that occurs during a frosting period and defrost operation.
Integrated heating capacity = (·HC·) * (integrated correction factor during frosting period)
The integrated heating capacity is the heating capacity for a single cycle (from one defrost operation to the next), integrated and converted to heating capacity per hour.
Integrated heating capacity graph
1. Heating capacityCapacity according to standard EN 14511 and valid for heated water range ΔT = 3~8°C.
2. Power input [kW]The power input is the total input according to ·EN 14511:2013·
Ambient temperature [°C]
Maximum heating capacity
Tamb (°CDB)
Heating capacity [kW]Power input [kW]Leaving water condensor temperature [°C]
Heating capacity
[kW]Time [h]
Defrost Defrost operation
·1· cycle
Heating operation
3D113312
• Chillers • SEHVX-BAW, SERHQ-BAW1 15
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
7
16
7 Dimensional drawings7 - 1 Dimensional Drawings
01020304050607
101112131415161718192021222324252627282930
0809
365
235396
500
200 500766.5
35
45
400
65 55
23 3504 x O15
11
12
13
760
59380.5
81.5148
766.5
856.5
25
26
134
215
592
1573
396
120
175
635
626
3
1
14
5
20
4
15
2
10
9
19 6 17
18
7
8
28
29
30
27
21
22
23 24
16
SEHVX20BAWSEHVX32BAW
3D112934
01020304050607
101112131415161718192021222324252627282930
0809
4 x O15
11
12
13
25
26
3
1
5
20
4
15
2
16
10
9
19 6 17
18
7
8
28
29 30
27
21
22
23 24
23 350
400
55
65
710
593 127
148262
396766.5
856.5
1573
215
592
134
410
225396
500
200 500766.5
1
14
SEHVX40BAWSEHVX64BAW
3D112935
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
8
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
8 Piping diagrams8 - 1 Piping Diagrams
SEHVX20BAWSEHVX32BAW
3D112932SEHVX40BAWSEHVX64BAW
3D112933
• Chillers • SEHVX-BAW, SERHQ-BAW1 17
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
9
18
9 Wiring diagrams9 - 1 Wiring Diagrams - Three Phase
4D112957
SEHVX20BAWSEHVX32BAW
NOTES to go through before starting the unit
X1M : TerminalX2M : Field wiring terminal for high voltageX3M : Field wiring terminal for low voltageX4M : Factory wiring terminal for low voltage
: Earth wiring : Field supply
: Option
: Wiring depending on model
: Not mounted in switch box
: PCB
: Connection ** continues on page 12 column 2
: Several wiring possibilities
User installed options: □ EKRUAHT* = Remote user interface □ 1 x EKRP1AHT* = Demand PCB
POSITION IN SWITCH BOX
A5P
A1P
A3PX1M
K1P
K1S
X2MX3M
X4MA4P
4D112957
SEHVX20BAWSEHVX32BAW
LEGEND
Part n° DescriptionA1P Main PCB (master)A2P User interface PCBA3P Control PCBA4P * Demand PCBA5P Main PCB (slave)A7P * Remote user interface PCBC1 - C3 Filter capacitorF1U (A*P) Fuse (T, 3.15A 250V)HAP (A*P) PCB LEDK11E Electronic expansion valve (Circuit 1)K1P Pump contactorK1S Pump overcurrent relayK*R (A3P) PCB relayM1P PumpPS (A*P) Switching power supplyQ1DI # Earth leakage circuit breakerR11T Leaving water thermistor (Circuit 1)
Part n° DescriptionR12T Returning water thermistor (Circuit 1)R13T Refrigerant liquid thermistor (Circuit 1)R14T Refrigerant gas thermistor (Circuit 1)S1L Flow switch (Circuit 1)S1S # Thermostat input 1S2S # Thermostat input 2S3S # Operation ON inputS4S # Operation OFF inputSS1 (A1P, A5P) Selector switch (emergency)SS1 (A2P) Selector switch (main / sub)SS1 (A7P) * Selector switch (main / sub)V1C - V2CX1M - X4M Terminal stripX801M (A*P) * PCB terminal stripZ1F - Z2F (A*P)
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
9
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
9 Wiring diagrams9 - 1 Wiring Diagrams - Three Phase
4D112957
SEHVX20BAWSEHVX32BAW NL1 L2 L3
1 2X1M 3 4
F1F2Q1Q2
F1X4M
F2
Q1DI
5 L33 L2
U V W
M1P M3˜
PE
1 L1
K1P
2 T1 4 T2 6 T3K1S
X1M:4X1M:1
X4M:F1X4M:F2
3N~50Hz 400 VACpower supply
OUTDOOR UNIT 1
4D112957
SEHVX20BAWSEHVX32BAW
Only for EKRP1AHT*
NORMEMG
A1P
WH
TYL
WO
RGBL
URE
DBR
N
Z1F
PS
HAPSS1
P1P2
P1P2
SS1SM
A2P
1X801M
2345
A4P
3X4M
15 16X2M
HAP
A3P
56
X2M
34
X2M
X2M12
V2CN=2
V1CN=1
P1P2
SS1SM
A7P
4
X12A:1 2X17A:1 2
X70A:12
X7A:1 2 3 4 5
K11E M
6
3
NE
X27A:(L) 1(N) 3
5
F1U
R13T-t°
R12T-t°
R11T-t°
X30A:1 2 3 4 5 6 7 8
3
1:X85A2
456
X80A:123456789
101112
S1SS2SS3SS4S
X18A:1 2
R14T-t°
X16A:1 2 3 4
X15A:1
X14A:1 2
X3A:1 2
C1 C2
X8A:1 2K1RK6R
S1L
X1A:1234
F1U
2
2X10A:1
2X16A:1
X23A:1
2
34
X7A:1
2K5R
K7R
2K2R
X4A:1
X35A:12
A1
A2K1P
96
95K1S
X4M:F1X4M:F2
X1M:4
X1M:1
Only for EKRUAHT*
Remote user interface
User interface
Cooling / heating output: max 0.3A, 230V AC
Operation on/off output: max 0.3A, 230V AC
Error output: max 0.3A, 230V AC
• Chillers • SEHVX-BAW, SERHQ-BAW1 19
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
9
20
9 Wiring diagrams9 - 1 Wiring Diagrams - Three Phase
4D112958
SEHVX40BAWSEH X64BAW
NOTES to go through before starting the unit
X1M : TerminalX2M : Field wiring terminal for high voltageX3M : Field wiring terminal for low voltage (circuit 1)X4M : Factory wiring terminal for low voltage (circuit 2)
: Earth wiring : Field supply : Connection ** continues on page 12 column 2
: Several wiring possibilities
User installed options: □ EKRUAHT* = Remote user interface
□ 1 x EKRP1AHT* = Demand PCB’s
: Option
: Wiring depending on model
: Not mounted in switch box
: PCB
POSITION IN SWITCH BOX SYSTEM LAYOU
EVAPC2
SWB
EVAPC1
X1M
K1P
K1S
X2MX3M
X4MA4P
A6P
A1PC1
A5PC2
A8PC2
A3PC1
SEHVX(40~64)BAW
OUTDOOR UNIT 2
Pump
OUTDOOR UNIT 1
LEGEND
Part n° DescriptionA1P Main PCB circuit 1A2P User interface PCBA3P Control PCB circuit 1A4P * Demand PCBA5P Main PCB circuit 2A6P * Demand PCBA7P * Remote user interface PCBA8P Control PCB circuit 2C1 - C3 Filter capacitorF1U (A*P) Fuse (T, 3.15A 250V)HAP (A*P) PCB LEDK11E Electronic expansion valve (Circuit 1)K21E Electronic expansion valve (Circuit 2)K1P Pump contactorK1S Pump overcurrent relayK*R (A3P) PCB relayM1P PumpPS (A*P) Switching power supplyQ1DI # Earth leakage circuit breakerR11T Leaving water thermistor (Circuit 1)R12T Returning water thermistor (Circuit 1)R13T Refrigerant liquid thermistor (Circuit 1)R14T Refrigerant gas thermistor (Circuit 1)R21T Leaving water thermistor (Circuit 2)R22T Returning water thermistor (Circuit 2)R23T Refrigerant liquid thermistor (Circuit 2)R24T Refrigerant gas thermistor (Circuit 2)S1L Flow switch (Circuit 1)S2L Flow switch (Circuit 2)S1S # Thermostat input 1S2S # Thermostat input 2S3S # Operation ON inputS4S # Operation OFF inputSS1 (A1P, A5P) Selector switch (emergency)SS1 (A2P) Selector switch (main / sub)SS1 (A7P) * Selector switch (main / sub)V1C - V2CX1M - X4M Terminal stripX801M (A*P) * PCB terminal stripZ1F - Z2F (A*P)
3N~50Hz 400 VACpower supply
OUTDOOR UNIT 1
OUTDOOR UNIT 2
4D112958
SEHVX40BAWSEH X64BAW NL1 L2 L3
1 2X1M 3 4
F1F2
F1X3M
F2
F1F2
F1X4M
F2
Q1DI
5 L33 L2
U V W
M1P M3˜
PE
1 L1
K1P
2 T1 4 T2 6 T3K1S
C3
X1M:4
X1M:1
X3M:F1X3M:F2
X4M:F1X4M:F2
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
9
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
9 Wiring diagrams9 - 1 Wiring Diagrams - Three Phase
Only for EKRP1AHT*
NORM.EMG.
Only for EKRUAHT*
Remote user interface
User interface
Cooling / heating output: max 0.3A, 230V AC
Operation on/off output: max 0.3A, 230V AC
Error output: max 0.3A, 230V AC
4D112958
SEHVX40BAWSEH X64BAW
WH
TYL
WO
RGBL
URE
DBR
NZ1F
PS
HAPSS1
NORM.EMG.
SS1SM
HAP
V2CN=2
V1CN=1
SS1SM
1X12A
21X17A
2
X70A12
1X7A
2 3 4 5
K11E M
6
3
NE
X27A(L) 1(N) 3
5
F1U
R13T-t°
R12T-t°
R11T-t°
1X30A
2 3 4 5 6 7 8
3
1X85A
2
456
X80A
123456789
101112
S1SS2SS3SS4S
1X18A
2
R14T-t°
1
X16A
2 3 4
X15A1
1X14A
2
X3A1 2
C1 C2
1X8A
2
K1RK6R
S1L
X1A1234
F1U
2
21
X10A
2
X16A1
X23A1234
1X7A
2K5R
K7R
2
K2R
X4A1
1X35A
2
A1
A2K1P
X4M 3 4
3X2M
4
5X2M
6
1X2M
2P1
P1P2
P1X3M
P2
X2M 15 16
1X801M
2345
A4P
A1P A3P
A7P
A2P
P2
96
95K1S
X3M:F1
X3M:F2
X1M:4X1M:1
X2M:15X2M:16
X2M:5
X2M:6
X3M:P1X3M:P2
X2M:3X2M:4
X801M:1
X801M:2
X801M:3
X801M:4X801M:5
Only for EKRP1AHT*
NORM.EMG.
4D112958
SEHVX40BAWSEH X64BAW
WH
TYL
WO
RGBL
URE
DBR
N
Z1F
PS
HAPSS1
HAP
V2CN=2
V1CN=1
1X12A
21X17A
2
X70A12
1X7A
2 3 4 5
K21E M
6
3
NE
X27A(L) 1(N) 3
5
F1U
R23T-t°
R22T-t°
R21T-t°
1X30A
2 3 4 5 6 7 8
3
1X85A
2
456
X80A
123456789
101112
1X18A
2
R24T-t°
1
X16A
2 3 4
X15A1
1X14A
2
X3A1 2
K1R
S2L
X1A1234
F1U
2
21
X10A
2
X16A1
X23A1234
1X7A
2
K5R
K7R
1X35A
2
X4M 5 6
1X801M
2345
A6P
A5PA8P
X4M:F1X4M:F2
X1M:4aX1M:1a
X3M:P1X3M:P2
X2M:5
X2M:6
X2M:15
X2M:16
X2M:3X2M:4
X801M:1X801M:2
X801M:3X801M:4X801M:5
• Chillers • SEHVX-BAW, SERHQ-BAW1 21
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
10
22
10 External connection diagrams10 - 1 External Connection Diagrams
Demand input 1
Demand input 2
Demand input 3
Low noise input
Operation OFF signal
Operation ON signal
Thermostat input 2
Thermostat input 1
External connection diagram
earth
HYDRO MODULE
X2M: 3-4
X2M: 1-2 Cooling/heatingon/off indication
X2M: 5-6
Error output
Operation on/off output
CHILLER UNIT
X1M: L1-L2-L3-NPower supply: 400V + earth
A(4/6)P:X801M:1-5
A(4/6)P:X801M:2-5
A(4/6)P:X801M:3-5
A(4/6)P:X801M:4-5
Only for EKRP1AHT*Required twice for SEHVX40~64 units
FIELD SUPPLY
FIELD SUPPLY
OUTDOOR MODULE 1OUTDOOR MODULE 2
Option PCB: 3-C
Option PCB: 2-C
Option PCB: 1-C
FIELD SUPPLY
Only for DTA104A62*Only for SEHVX40~64*
X3M: P1 -P2
P1 - P2User interface
OPTIONAL PARTS
Only for EKRUAHT*
User interfaceP1 - P2
Hydro module
X3M : P1- P2
Chiller unit n Chiller unit 2
X3M : P1- P2
Hydro module
(see note 2)
Only for multi-unit installation
Option PCB: L-N-O
STANDARD PARTS
Option PCB: 3-C
Option PCB: 2-C
Option PCB: 1-C
Option PCB: L-N-O
signal
2 core
signal
2 core
signal
2 core
signal
2 core
5 core
signal
2 core
signal
2 core
signal
2 core
signal
2 core
communication
2 core
communication
2 core
comm
unication
2 core
230V
2 core
230V
2 core
230V
2 core
Demand input 1
Demand input 2
Demand input 3
Low noise input
signal
2 core
signal
2 core
signal
2 core
signal
2 core
FIELD SUPPLY
Only for DTA104A62*
NOTES :
1.IN CASE OF SIGNAL CABLE, KEEP MINIMUM DISTANCE TO POWER CABLES > 5cm.
2. MAXIMUM OF 16 OUTDOOR MODULES CAN BE CONNECTED. - SEHVX20-32* COUNT AS 1 MODULE - SEHVX40-64* COUNT AS 2 MODULES
3. OPTION KITS DTA104A62* AND EKRP1AHT* : - SEHVX20-32* REQUIRES 1 OPTION KIT - SEHVX40-64* REQUIRES 2 OPTION KITS
A
A
A
A
SEHVX-BAW
3D112930A
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
11
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
11 Sound data11 - 1 Sound Pressure Spectrum
SEHVX-B W
(1) The sound pressure level is measured with a microphone at 1 m from the unit.It is a relative value, depending on the distance and the acoustic environment.
(2) DB/WB 7/6°C - LWC 35°C (ΔT = 5°C)
Sound pressure Sound powerdBa (1) dBa (2)
SEHVX20BAW 47 63
SEHVX64BAW 50 66
SEHVX32BAW 47 63SEHVX40BAW 50 66
4D112931
• Chillers • SEHVX-BAW, SERHQ-BAW1 23
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
12
24
12 Installation12 - 1 Water Charge, Flow and Quality
• Chillers • SEHVX-BAW, SERHQ-BAW1
3
13
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
13 Operation range13 - 1 Operation Range
SEHVX-BAW
Symbols
Ta: Ambient temperature [°C DB]LWE: Leaving water evaporator temperature [°C]
TaCooling
-5
5 20
43
7
Water
250
Pull-
dow
n ar
ea
LWE
0
4D113310
SEHVX-BAW
Standard
Symbols
Ta: Ambient temperature [°C DB]LWC: Leaving water condensor temperature [°C]EWC: Entering water condenser temperature [°C]
Heating
5 (EWC) 50LWC
5
35
-15
25
Pull-up area
Ta
20 35
0
25
4D113310
• Chillers • SEHVX-BAW, SERHQ-BAW1 25
• Indoor Unit • SEHVX-BAW, SERHQ-BAW1
14
26
14 Hydraulic performance14 - 1 Static Pressure Drop Unit
SEHVX-BAW
Unit with standard pump
Flow [l/min]
Warning
Selecting a flow outside the operating area can damage the unit or cause the unit to malfunction.Also see the minimum and maximum allowed water flow rate on the "Technical specifications" datasheet.
1 - Size: ·20·2 - Size: ·32·3 - Size: ·40·4 - Size: ·64·
Pres
sure
dro
p [k
Pa]
4D112928
• Chillers • SEHVX-BAW, SERHQ-BAW1
Daikin Europe N.V. Naamloze Vennootschap - Zandvoordestraat 300, B-8400 Oostende - Belgium - www.daikin.eu - BE 0412 120 336 - RPR OostendeDaikin Europe N.V. participates in the Eurovent CertifiedPerformance programme for Liquid Chilling Packagesand Hydronic Heat Pumps, Fan Coil Units and VariableRefrigerant Flow systems. Check ongoing validity of cer-tificate: www.eurovent-certification.com
EEDEN18 03/18
The present leaflet is drawn up by way of information only and does not constitute an offer bindingupon Daikin Europe N.V.. Daikin Europe N.V. has compiled the content of this leaflet to the best of itsknowledge. No express or implied warranty is given for the completeness, accuracy, reliability or fit-ness for particular purpose of its content and the products and services presented therein. Specifica-tions are subject to change without prior notice. Daikin Europe N.V. explicitly rejects any liability forany direct or indirect damage, in the broadest sense, arising from or related to the use and/or inter-pretation of this leaflet. All content is copyrighted by Daikin Europe N.V.