| EWYT085B-SRA1 | EWYT105B-SRA1 | EWYT135B-SRA1 | EWYT175B-SRA1 | EWYT205B-SRA2 | EWYT215B-SRA1 | EWYT235B-SRA2 | EWYT255B-SRA2 | EWYT300B-SRA2 | EWYT340B-SRA2 | EWYT390B-SRA2 | EWYT430B-SRA2 | EWYT490B-SRA2 | EWYT540B-SRA2 | EWYT590B-SRA2 | EWYT630B-SRA2 | ||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Cooling capacity | Nom. | kW | 74 | 96 | 119 | 150 | 186 | 189 | 209 | 226 | 265 | 311 | 344 | 368 | 424 | 470 | 519 | 557 | |
| Heating capacity | Nom. | kW | 80.91 | 105.24 | 131.02 | 167.11 | 207.27 | 209.99 | 233.05 | 251.28 | 295.81 | 335.24 | 384.62 | 426.79 | 477.49 | 528.73 | 581.03 | 615.34 | |
| Capacity control | Method | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | Step | ||
| Minimum capacity | % | 50 | 38 | 50 | 38 | 19 | 50 | 17 | 25 | 22 | 19 | 17 | 25 | 22 | 19 | 18 | 17 | ||
| Power input | Cooling | Nom. | kW | 28.7 | 37.4 | 45.5 | 59.5 | 73.2 | 74.3 | 80.7 | 88.8 | 102 | 117 | 131 | 147 | 172 | 195 | 207 | 221 |
| Heating | Nom. | kW | 27.99 | 36.24 | 44.84 | 58.45 | 71.9 | 73.28 | 81.39 | 86.29 | 102.09 | 113.54 | 132.02 | 144.34 | 160.28 | 178.33 | 194.13 | 206.57 | |
| EER | 2.56 | 2.58 | 2.61 | 2.53 | 2.54 | 2.55 | 2.59 | 2.55 | 2.59 | 2.64 | 2.61 | 2.5 | 2.46 | 2.41 | 2.5 | 2.51 | |||
| COP | 2.891 | 2.904 | 2.922 | 2.859 | 2.883 | 2.866 | 2.863 | 2.912 | 2.898 | 2.953 | 2.913 | 2.957 | 2.979 | 2.965 | 2.993 | 2.979 | |||
| Dimensions | Unit | Depth | mm | 2,225 | 2,825 | 3,425 | 3,425 | 4,350 | 4,025 | 4,950 | 4,950 | 3,225 | 3,225 | 4,125 | 4,125 | 4,125 | 4,125 | 5,025 | 5,025 |
| Height | mm | 1,800 | 1,800 | 1,800 | 1,800 | 1,800 | 1,800 | 1,800 | 1,800 | 2,514 | 2,514 | 2,514 | 2,514 | 2,514 | 2,514 | 2,514 | 2,514 | ||
| Width | mm | 1,195 | 1,195 | 1,195 | 1,195 | 1,195 | 1,195 | 1,195 | 1,195 | 2,282 | 2,282 | 2,282 | 2,282 | 2,282 | 2,282 | 2,282 | 2,282 | ||
| Weight | Operation weight | kg | 992 | 1,102 | 1,202 | 1,357 | 1,541 | 1,541 | 1,841 | 1,869 | 2,274 | 2,430 | 3,360 | 3,370 | 3,367 | 3,557 | 4,462 | 4,468 | |
| Unit | kg | 985 | 1,095 | 1,195 | 1,350 | 1,530 | 1,530 | 1,830 | 1,855 | 2,260 | 2,410 | 3,340 | 3,350 | 3,340 | 3,530 | 4,427 | 4,427 | ||
| Water heat exchanger | Type | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | ||
| Water volume | l | 7 | 7 | 7 | 7 | 11 | 11 | 11 | 14 | 14 | 20 | 20 | 20 | 27 | 27 | 35 | 41 | ||
| Air heat exchanger | Type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | High efficiency fin and tube type | ||
| Fan | Air flow rate | Nom. | l/s | 6,026 | 9,483 | 12,644 | 12,052 | 15,064 | 15,065 | 18,078 | 18,078 | 23,608 | 28,330 | 39,446 | 39,446 | 38,610 | 37,774 | 48,262 | 47,216 |
| Speed | rpm | 1,200 | 1,200 | 1,200 | 1,200 | 1,200 | 1,200 | 1,200 | 1,200 | 780 | 780 | 780 | 780 | 780 | 780 | 780 | 780 | ||
| Compressor | Quantity | 2 | 2 | 2 | 2 | 4 | 2 | 4 | 4 | 4 | 4 | 4 | 4 | 5 | 6 | 6 | 6 | ||
| Type | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | Scroll compressor | |||
| Sound power level | Cooling | Nom. | dBA | 78 | 82 | 84 | 85 | 84 | 87 | 86 | 86 | 87 | 88 | 89 | 89.3 | 89.4 | 89.5 | 90.4 | 90.5 |
| Sound pressure level | Cooling | Nom. | dBA | 60 | 64 | 65 | 67 | 66 | 68 | 67 | 67 | 68 | 68 | 69 | 69.3 | 69.4 | 69.5 | 70 | 70.1 |
| Refrigerant | Type | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | R-32 | ||
| Circuits | Quantity | 1 | 1 | 1 | 1 | 2 | 1 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | ||
| Charge | kg | 11 | 19 | 27 | 27 | 35 | 35 | 43 | 43 | 27.5 | 42 | 71 | 71 | 71 | 71 | 85.5 | 100 | ||
| Power supply | Phase | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | 3~ | ||
| Frequency | Hz | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | 50 | ||
| Voltage | V | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | 400 | ||
| Compressor | Starting method | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | Direct on line | ||
| Notes | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: 12,0/7,0°C; ambient 35,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | |||
| (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | (2) - All the performances (Heating capacity, unit power input in heating and COP) are based on the following conditions: 40,0/45,0°C; ambient 7,0°C, unit at full load operation; operating fluid: Water; fouling factor = 0. EN14511:2018 | ||||
| (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | (3) - SCOP is based on the following conditions: Tbivalent -5 °C, Tdesign -10 °C, Average ambient conditions, Ref. EN14825. In accordance with standard EN14825, comfort low temperature, average climate, SEER and µs values applicable Ecodesign regulation: (EU) No 2016/2281; | ||||
| (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | (4) - PHE: Plate Heat Exchanger; S&T: Single Pass Shell & Tube; MCH: Microchannel; DPT: Direct Propeller Type; DOL: Direct On Line - VFD: Inverter | ||||
| (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | (5) - Sound power (evap. 12/7°C, ambient 35°C full load operation) in accordance with ISO9614 and Eurovent 8/1 for Eurovent certified units. Certification refers only to the overall sound power, sound pressure is calculated from sound power level and used for info only, not considered bounding | ||||
| (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (6) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | ||||
| (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | (7) - Dimensions and weights are for indication only and are not considered binding. Before designing the installation, consult the official drawings available from the factory on request. | ||||
| (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | (8) - The data are referred to the unit without additional options. | ||||
| (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | (9) - The values of the Pressure Drops refers to the pressure drops in the Water heat exchanger only. | ||||
| (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | (10) - Fluid: Water | ||||
| (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | (11) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. | ||||
| (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | (12) - Maximum starting current: In case of inverter driven units, no inrush current at start up is experienced. | ||||
| (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | (13) - Nominal current in cooling mode is referred to the following conditions: Water Side Heat Exchanger 12/7°C; ambient 35°C; compressors + fans current | ||||
| (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | (14) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current. | ||||
| (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | (15) - Maximum unit current for wires sizing is based on minimum allowed voltage. | ||||
| (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | (16) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 | ||||
| (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | (17) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book | ||||
| (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | (18) - All data are subject to change without notice. Please refer to the unit nameplate data. | ||||