Specifications Table for RWEYQ-T

RWEYQ8T7Y1B (Archived) RWEYQ10T7Y1B (Archived) RWEYQ16T7Y1B (Archived) RWEYQ18T7Y1B (Archived) RWEYQ20T7Y1B (Archived) RWEYQ24T7Y1B (Archived) RWEYQ26T7Y1B (Archived) RWEYQ28T7Y1B (Archived) RWEYQ30T7Y1B (Archived)
Sound pressure level Cooling Nom. dBA 50 51 53 54 54 55 55 55 56
Standard Accessories Installation manual Installation manual Installation manual
  Operation manual Operation manual Operation manual
  Connection pipes Connection pipes Connection pipes
Capacity range HP 8 10 16 18 20 24 26 28 30
Maximum number of connectable indoor units 36 (5) 36 (5) 36 (5) 36 (5) 36 (5) 36 (5) 36 (5) 36 (5) 36 (5)
Compressor Type   Hermetically sealed scroll compressor Hermetically sealed scroll compressor
Weight Unit kg 137 137
EER 5.07 (1), 5.03 (2) 4.56 (1), 4.33 (2) 5.07 (1), 5.03 (2) 4.77 (1), 4.62 (2) 4.56 (1), 4.33 (2) 5.07 (1), 5.03 (2) 4.86 (1), 4.74 (2) 4.69 (1), 4.51 (2) 4.56 (1), 4.33 (2)
Refrigerant Charge TCO2Eq 7.3 8.8
  GWP   2,087.5 2,087.5
  Charge kg 3.5 4.2
  Type   R-410A R-410A
System Outdoor unit module 2       RWEYQ8T RWEYQ10T RWEYQ10T RWEYQ8T RWEYQ8T RWEYQ10T RWEYQ10T
  Outdoor unit module 3             RWEYQ8T RWEYQ10T RWEYQ10T RWEYQ10T
  Outdoor unit module 1   RWEYQ8T RWEYQ10T RWEYQ8T RWEYQ8T RWEYQ10T RWEYQ8T RWEYQ8T RWEYQ8T RWEYQ10T
Power input - 50Hz Cooling Nom. kW 4.42 (1), 4.45 (2) 6.14 (1), 6.35 (2) 8.8 (1), 8.9 (2) 10.6 (1), 10.8 (2) 12.3 (1), 12.7 (2) 13.3 (1), 13.4 (2) 15.0 (1), 15.3 (2) 16.7 (1), 17.2 (2) 18.4 (1), 19.1 (2)
  Heating Nom. kW 4.21 (3), 4.30 (4) 6.00 (3), 6.20 (4) 8.4 (3), 8.6 (4) 10.2 (3), 10.5 (4) 12.0 (3), 12.4 (4) 12.6 (3), 12.9 (4) 14.4 (3), 14.8 (4) 16.2 (3), 16.7 (4) 18.0 (3), 18.6 (4)
Indoor index connection Nom.   200 250 400 450 500 600 650 700 750
  Min.   100 125 200 225 250 300 325 350 375
  Max.   260 325 520 585 650 780 845 910 975
Cooling capacity Nom. kW 22.4 (1), 22.4 (2) 28.0 (1), 27.5 (2) 44.8 (1), 44.8 (2) 50.4 (1), 49.9 (2) 56.0 (1), 55.0 (2) 67.2 (1), 67.2 (2) 72.8 (1), 72.3 (2) 78.4 (1), 77.4 (2) 84.0 (1), 82.5 (2)
Piping connections Liquid OD mm 9.52 9.52 12.7 15.9 15.9 15.9 19.1 19.1 19.1
    Type   Flare connection Flare connection Flare connection Flare connection Flare connection Flare connection Flare connection Flare connection Flare connection
  Total piping length System Actual m 300 300 300 300 300 300 300 300 300
  Gas OD mm 19.10 (9) 22.2 (9) 28.6 (8) 28.6 (8) 28.6 (8) 34.9 (8) 34.9 (8) 34.9 (8) 34.9 (8)
    Type   Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection
  Drain Outlet   PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread PS 1/2B internal thread
  Level difference OU - IU Outdoor unit in highest position m 50 50 50 50 50 50 50 50 50
      Indoor unit in highest position m 40 40 40 40 40 40 40 40 40
    IU - IU Max. m 15 15 15 15 15 15 15 15 15
  Discharge gas OD mm 15.9 (10), 19.10 (11) 19.1 (10), 22.10 (11) 22.2 (9), 28.60 (10) 22.2 (9), 28.60 (10) 22.2 (9), 28.60 (10) 28.6 (9), 34.90 (10) 28.6 (9), 34.90 (10) 28.6 (9), 34.90 (10) 28.6 (9), 34.90 (10)
    Type   Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection Braze connection
  Heat insulation   Liquid, Suction gas and HP/LP gas Liquid, Suction gas and HP/LP gas
  Water Inlet   PT1 1/4B internal thread PT1 1/4B internal thread
    Outlet   PT1 1/4B internal thread PT1 1/4B internal thread
COP 5.94 (3), 5.81 (4) 5.25 (3), 5.08 (4) 5.94 (3), 5.81 (4) 5.53 (3), 5.38 (4) 5.25 (3), 5.08 (4) 5.94 (3), 5.81 (4) 5.65 (3), 5.51 (4) 5.43 (3), 5.27 (4) 5.25 (3), 5.08 (4)
Dimensions Unit Width mm 780 780
    Depth mm 550 550
    Height mm 1,000 1,000
Heating capacity Nom. kW 25.0 (3), 25.0 (4) 31.5 (3), 31.5 (4) 50.0 (3), 50.0 (4) 56.5 (3), 56.5 (4) 63.0 (3), 63.0 (4) 75.0 (3), 75.0 (4) 81.5 (3), 81.5 (4) 88.0 (3), 88.0 (4) 94.5 (3), 94.5 (4)
Power supply Phase   3N~ 3N~
  Name   Y1 Y1
  Frequency Hz 50 50
  Voltage V 380-415 380-415
Notes (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol) (1) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol)
  (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (2) - Cooling: Indoor temp. 27°CDB; 19°CWB; inlet water temp.: 30°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol.
  (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol). (3) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 100% water (no glycol).
  (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol. (4) - Heating: Indoor temp. 20°CDB; inlet water temp.: 20°C; equivalent refrigerant piping: 7,5m; level difference: 0m. Rated values are with 30% glycol.
  (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%) (5) - Actual number of connectable indoor units depends on the indoor unit type (VRV indoor, Hydrobox, RA indoor, etc.) and the connection ratio restriction for the system (50% <= CR <= 130%)
  (6) - Operation range extension in case of Glycol is used in combination with fieldsettings (see installation manual). (6) - Operation range extension in case of Glycol is used in combination with fieldsettings (see installation manual). (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (6) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings.
  (7) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (7) - Sound pressure level is a relative value, depending on the distance and acoustic environment. For more details, please refer to the sound level drawings. (7) - Sound values are measured in a semi-anechoic room. (7) - Sound values are measured in a semi-anechoic room. (7) - Sound values are measured in a semi-anechoic room. (7) - Sound values are measured in a semi-anechoic room. (7) - Sound values are measured in a semi-anechoic room. (7) - Sound values are measured in a semi-anechoic room. (7) - Sound values are measured in a semi-anechoic room.
  (8) - Sound values are measured in a semi-anechoic room. (8) - Sound values are measured in a semi-anechoic room. (8) - In case of heat pump system, gas pipe is not used (8) - In case of heat pump system, gas pipe is not used (8) - In case of heat pump system, gas pipe is not used (8) - In case of heat pump system, gas pipe is not used (8) - In case of heat pump system, gas pipe is not used (8) - In case of heat pump system, gas pipe is not used (8) - In case of heat pump system, gas pipe is not used
  (9) - In case of heat recovery system (9) - In case of heat pump system, gas pipe is not used (9) - In case of heat recovery system (9) - In case of heat recovery system (9) - In case of heat recovery system (9) - In case of heat recovery system (9) - In case of heat recovery system (9) - In case of heat recovery system (9) - In case of heat recovery system
  (10) - In case of heat pump system (10) - In case of heat recovery system (10) - In case of heat pump system (10) - In case of heat pump system (10) - In case of heat pump system (10) - In case of heat pump system (10) - In case of heat pump system (10) - In case of heat pump system (10) - In case of heat pump system
  (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - In case of heat pump system (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (11) - This unit should not be installed outdoors, but indoors e.g. in a machine room.
  (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - This unit should not be installed outdoors, but indoors e.g. in a machine room. (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (12) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP
  (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.64kW/8HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (13) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP
  (14) - Refer to refrigerant pipe selection or installation manual (14) - Hold ambient temperature at 0-40°C and humidity at 80%RH or less. Heat rejection from the casing: 0.71kW/10HP (14) - Refer to refrigerant pipe selection or installation manual (14) - Refer to refrigerant pipe selection or installation manual (14) - Refer to refrigerant pipe selection or installation manual (14) - Refer to refrigerant pipe selection or installation manual (14) - Refer to refrigerant pipe selection or installation manual (14) - Refer to refrigerant pipe selection or installation manual (14) - Refer to refrigerant pipe selection or installation manual
  (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - Refer to refrigerant pipe selection or installation manual (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (15) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C
  (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - RLA is based on following conditions: indoor temp. 27°CDB, 19°CWB; inlet water temp. 30°C (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (16) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current.
  (17) - Contains fluorinated greenhouse gases (17) - MSC means the maximum current during start up of the compressor. This unit uses only inverter compressors. Starting current is always ≤ max. running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (17) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current.
  (18) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (18) - Contains fluorinated greenhouse gases (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (18) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker).
  (19) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (19) - MCA must be used to select the correct field wiring size. The MCA can be regarded as the maximum running current. (19) - TOCA means the total value of each OC set. (19) - TOCA means the total value of each OC set. (19) - TOCA means the total value of each OC set. (19) - TOCA means the total value of each OC set. (19) - TOCA means the total value of each OC set. (19) - TOCA means the total value of each OC set. (19) - TOCA means the total value of each OC set.
  (20) - TOCA means the total value of each OC set. (20) - MFA is used to select the circuit breaker and the ground fault circuit interrupter (earth leakage circuit breaker). (20) - Maximum allowable voltage range variation between phases is 2%. (20) - Maximum allowable voltage range variation between phases is 2%. (20) - Maximum allowable voltage range variation between phases is 2%. (20) - Maximum allowable voltage range variation between phases is 2%. (20) - Maximum allowable voltage range variation between phases is 2%. (20) - Maximum allowable voltage range variation between phases is 2%. (20) - Maximum allowable voltage range variation between phases is 2%.
  (21) - Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. (21) - TOCA means the total value of each OC set. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (21) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value.
  (22) - Maximum allowable voltage range variation between phases is 2%. (22) - Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (22) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A
  (23) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (23) - Maximum allowable voltage range variation between phases is 2%. (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (23) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase
  (24) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (24) - In accordance with EN/IEC 61000-3-11, respectively EN/IEC 61000-3-12, it may be necessary to consult the distribution network operator to ensure that the equipment is connected only to a supply with Zsys ≤ Zmax, respectively Ssc ≥ minimum Ssc value. (24) - Ssc: Short-circuit power (24) - Ssc: Short-circuit power (24) - Ssc: Short-circuit power (24) - Ssc: Short-circuit power (24) - Ssc: Short-circuit power (24) - Ssc: Short-circuit power (24) - Ssc: Short-circuit power
  (25) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (25) - EN/IEC 61000-3-11: European/international technical standard setting the limits for voltage changes, voltage fluctuations and flicker in public low-voltage supply systems for equipment with rated ≤ 75A (25) - system impedance (25) - system impedance (25) - system impedance (25) - system impedance (25) - system impedance (25) - system impedance (25) - system impedance
  (26) - Ssc: Short-circuit power (26) - EN/IEC 61000-3-12: European/international technical standard setting the limits for harmonic currents produced by equipment connected to public low-voltage system with input current > 16A and ≤ 75A per phase (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (26) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911
  (27) - system impedance (27) - Ssc: Short-circuit power (27) - For more details on standard accessories refer to Installation/operation manual (27) - For more details on standard accessories refer to Installation/operation manual (27) - For more details on standard accessories refer to Installation/operation manual (27) - For more details on standard accessories refer to Installation/operation manual (27) - For more details on standard accessories refer to Installation/operation manual (27) - For more details on standard accessories refer to Installation/operation manual (27) - For more details on standard accessories refer to Installation/operation manual
  (28) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911 (28) - system impedance
  (29) - For more details on standard accessories refer to Installation/operation manual (29) - Multi combination (16-30HP) data is corresponding with the standard multi combination as mentioned on 3D084911
    (30) - For more details on standard accessories refer to Installation/operation manual