Specifications Table for EWAD-T-XLB

EWAD350T-XLB2 EWAD380T-XLB2 EWAD400T-XLB2 EWAD420T-XLB2 EWAD440T-XLB2 EWAD490T-XLB2 EWAD540T-XLB2 EWAD570T-XLB2 EWAD730T-XLB2 EWAD820T-XLB2 EWAD950T-XLB2 EWADH10T-XLB2 EWADC10T-XLB2 EWADH11T-XLB2 EWADC13T-XLB2 EWADH13T-XLB2 EWADC14T-XLB2 EWADH15T-XLB3 EWADH16T-XLB3 EWADC17T-XLB3 EWADH18T-XLB3 EWADC19T-XLB3 EWADC20T-XLB3
Cooling capacity Nom. kW 351.5 376.9 398.3 415.2 437.9 491.7 541.2 564.8 725.4 831.9 943.5 1,077 1,008 1,164 1,308 1,390 1,454 1,606 1,705 1,836 1,952 2,027 2,088
Capacity control Method   Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Fixed Stepless Stepless Stepless Stepless Stepless Stepless
  Minimum capacity % 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 12.5 8.3 8.3 8.3 8.3 8.3 8.3
Power input Cooling Nom. kW 106.1 114.9 121.4 128.8 138.5 159.1 166.6 177.8 234.6 267.5 299.3 347.2 333.1 374.7 421.1 447.1 481.7 520.7 552.3 589.3 624.4 662.6 699
EER 3.314 3.28 3.28 3.224 3.163 3.091 3.248 3.177 3.092 3.11 3.152 3.103 3.027 3.108 3.107 3.109 3.019 3.085 3.088 3.115 3.126 3.059 2.987
ESEER 4.01 3.98 4.15 3.97 3.96 4.11 4.13 4.05 3.94 3.95 4.05 3.89 3.95 3.88 3.95 3.94 3.87 3.94 3.84 3.88 3.97 3.92 3.93
Dimensions Unit Depth mm 4,130 4,130 5,030 5,030 5,030 5,030 5,878 5,878 5,976 5,976 7,776 8,676 7,776 9,576 9,576 10,476 10,476 11,409 12,309 13,209 14,109 14,109 14,109
    Height mm 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537 2,537
    Width mm 2,258 2,258 2,258 2,258 2,258 2,258 2,258 2,258 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282 2,282
Weight Operation weight kg 4,224 4,234 4,530 4,530 4,530 5,030 5,567 5,557 5,604 5,825 6,451 8,259 6,451 8,587 8,878 9,232 9,235 11,446 11,712 11,233 11,453 12,461 12,461
  Unit kg 4,054 4,064 4,360 4,360 4,360 4,860 5,397 5,387 5,315 5,525 6,121 7,798 6,121 8,126 8,386 8,751 8,765 10,575 10,841 10,711 10,931 11,451 11,451
Water heat exchanger Type   Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube Shell and tube
  Water volume l 134 129 129 170 170 170 164 170 289 300 330 461 330 461 492 481 470 871 871 522 522 1,010 1,010
Air heat exchanger Type   Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel Microchannel
Fan Air flow rate Nom. l/s 44,172 44,172 55,214 55,214 55,214 55,214 66,257 66,257 66,257 66,257 88,343 99,386 88,343 110,429 110,429 121,472 121,472 132,515 143,557 154,600 165,643 165,643 165,643
  Speed rpm 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900 900
Compressor Quantity   2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3
  Type   Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression Driven vapour compression
Sound power level Cooling Nom. dBA 95 95 95 95 95 97 97 97 97 97 98 98 98 98 99 99 99 100 100 100 100 98 99
Sound pressure level Cooling Nom. dBA 75 75 75 75 75 77 77 77 79 80 79 79 80 79 80 79 79 77 77 77 77 77 77
Refrigerant Type   R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a R-134a
  GWP   1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430 1,430
  Circuits Quantity   2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 3 3 3 3 3 3
  Charge kg 52 54 65 66 66 66 72 72 93.6 93.6 124.8 140.4 124.8 156 156 171.6 171.6 187 203 218 234 234 234
Charge Per circuit TCO2Eq 37.18 38.61 46.48 47.19 47.19 47.19 51.48 51.48 66.92 66.92 89.23 100.39 89.23 111.54 111.54 122.69 122.69            
Power supply Phase   3~ 3~ 3~ 3~ 3~ 3~ 3~ 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 50 50 50 50 50 50 50
  Voltage V 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400 400
Compressor Starting method   Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta Wye-Delta
Notes (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0 (1) - All the performances (Cooling capacity, unit power input in cooling and EER) are based on the following conditions: evaporator 12.0/7.0°C; ambient 35.0°C, unit at full load operation, operating fluid: water, fouling factor = 0
  (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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 (2) - 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
  (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition (3) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition
  (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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. (4) - 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.
  (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options. (5) - All data refers to the standard unit without options.
  (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data. (6) - All data are subject to change without notice. Please refer to the unit nameplate data.
  (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water (7) - Fluid: Water
  (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%. (8) - Allowed voltage tolerance ± 10%. Voltage unbalance between phases must be within ± 3%.
  (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced. (9) - Maximum starting current: starting current of biggest compressor + current of the other compressors at maximum load + fans current at maximum load. In case of inverter driven units, no inrush current at start up is experienced.
  (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current. (10) - Nominal current in cooling mode: entering evaporator water temp. 12°C; leaving evaporator water temp. 7°C; ambient air temp. 35°C. Compressor + fans current.
  (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current (11) - Maximum running current is based on max compressor absorbed current in its envelope and max fans absorbed current
  (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage. (12) - Maximum unit current for wires sizing is based on minimum allowed voltage.
  (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1 (13) - Maximum current for wires sizing: (compressors full load ampere + fans current) x 1.1
  (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book (14) - For the electrical data of the hydronic kit refer to "Options technical data" part in the data book