| EWAH180TZXSB1 | EWAH220TZXSB1 | EWAH270TZXSB1 | EWAH300TZXSB1 | EWAH350TZXSB2 | EWAH390TZXSB2 | EWAH430TZXSB2 | EWAH480TZXSB2 | EWAH580TZXSB2 | EWAH620TZXSB2 | EWAH670TZXSB2 | EWAH710TZXSB2 | EWAH760TZXSB2 | EWAH820TZXSB2 | EWAH930TZXSB2 | EWAH990TZXSB2 | ||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Cooling capacity | Nom. | kW | 180 | 225 | 271 | 300 | 355 | 392 | 428 | 482 | 574 | 620 | 673 | 714 | 759 | 825 | 926 | 988 | |
| Capacity control | Method | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | Variable | ||
| Minimum capacity | % | 33.4 | 26.7 | 21.6 | 18.7 | 16.7 | 15.4 | 14.3 | 12.5 | 10.8 | 10 | 10 | 10 | 10 | 11.7 | 10 | 10 | ||
| Power input | Cooling | Nom. | kW | 51.8 | 66.3 | 79 | 89.6 | 103 | 114 | 125 | 144 | 164 | 181 | 194 | 209 | 224 | 243 | 274 | 307 |
| EER | 3.49 | 3.39 | 3.43 | 3.35 | 3.44 | 3.42 | 3.42 | 3.33 | 3.5 | 3.41 | 3.45 | 3.4 | 3.38 | 3.39 | 3.37 | 3.22 | |||
| ESEER | 5.14 | 5.21 | 4.95 | 5.16 | 4.94 | 4.95 | 5.06 | 5.05 | 5.05 | 5.08 | 4.96 | 5.13 | 5.23 | 5.26 | 5.32 | 5.08 | |||
| Dimensions | Unit | Depth | Mm | 3,183 | 4,083 | 3,183 | 4,083 | 5,883 | 5,883 | 6,783 | 7,776 | 6,783 | 7,683 | 7,683 | 8,583 | 9,483 | 10,383 | 11,283 | 11,283 |
| 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 | ||
| Width | Mm | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | 2,258 | ||
| Weight | Operation weight | kg | 2,484.35 | 2,862.5 | 2,606.5 | 2,972.5 | 4,598.2 | 4,870.2 | 5,237.6 | 5,981.6 | 6,021 | 6,656.8 | 6,647.8 | 7,625.2 | 7,884 | 8,343 | 8,631.2 | 8,631.2 | |
| Unit | kg | 2,447 | 2,813 | 2,557 | 2,923 | 4,445.2 | 4,629.2 | 5,004.6 | 5,748.6 | 5,720 | 6,364.8 | 6,364.8 | 7,140.2 | 7,431 | 7,879 | 8,178.2 | 8,178.2 | ||
| Water heat exchanger | Type | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | Plate heat exchanger | 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 | 37 | 50 | 50 | 50 | 153 | 241 | 233 | 233 | 301 | 292 | 283 | 485 | 453 | 464 | 453 | 453 | ||
| Air heat exchanger | Type | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | Microchannel | ||
| Fan | Air flow rate | Nom. | l/s | 26,172 | 34,896 | 26,172 | 34,896 | 52,344 | 52,344 | 61,068 | 69,792 | 61,068 | 69,792 | 69,792 | 78,516 | 87,240 | 95,964 | 104,688 | 104,688 |
| Speed | rpm | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | 760 | ||
| Compressor | Quantity | 1 | 1 | 1 | 1 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | ||
| Type | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | Driven vapour compressor | |||
| Sound power level | Cooling | Nom. | dBA | 97.19 | 98.16 | 101.14 | 101.19 | 100.19 | 100.4 | 100.7 | 101.94 | 104.14 | 104.19 | 104.19 | 104.21 | 104.22 | 104.34 | 105.79 | 106.49 |
| Sound pressure level | Cooling | Nom. | dBA | 77.7 | 78.21 | 81.66 | 81.23 | 79.42 | 79.63 | 79.57 | 80.45 | 83.37 | 82.73 | 82.73 | 82.45 | 82.17 | 82.3 | 83.22 | 83.92 |
| Refrigerant | Type | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | R-1234(ze) | ||
| GWP | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | 7 | |||
| Circuits | Quantity | 1 | 1 | 1 | 1 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | 2 | ||
| Charge | kg | 39 | 52 | 39 | 52 | 73.2 | 73.2 | 84.6 | 97.6 | 102 | 116.8 | 116.8 | 131.2 | 146 | 160 | 175.2 | 175.2 | ||
| 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 | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | Inverter | ||
| 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 | |||
| (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | (2) - The value refers to the pressure drop in the evaporator only | ||||
| (3) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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) - 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 | ||||
| (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | (4) - The sound pressure level is measured via a microphone at 1m distance of the unit. | ||||
| (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | (5) - The minimum capacity indicated is referred to unit operating at standard Eurovent condition | ||||
| (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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. | (6) - 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) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | (7) - All data refers to the standard unit without options. | ||||
| (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. | ||||
| (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 | ||||
| (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 | ||||
| (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 | ||||
| (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | (15) - All data are subject to change without notice. Please refer to the unit nameplate data. | ||||
| (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | (16) - For more details on the operating limits please refer to the Chiller Selection Software (CSS). | ||||
| (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | (17) - The sound pressure level is calculated from the sound power level and is for information only and not considered binding | ||||
| (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | (18) - Fluid: Water | ||||
| (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | (19) - Equipment contains fluorinated greenhouse gases. Actual refrigerant charge depends on the final unit construction, details can be found on the unit labels. | ||||