Specifications Table for SB

MSB005EA11XX MSB106EA11XX BSB0870Y1AA BSB010DA11XX MSB107EA11XX BSB120NO261D MSB120TO261E BSB117DA11XX BSB125N261Y BSB125T261D MSB125N261E MSB125T261E MSB125T261Y MSB1310Y1AA BSB135T38D BSB135T38Y MSB135N38E MSB135N38Y MSB135T38E MSB135T38Y MSB140T38E BSB1710Y2AA MSB210EA11XX MSB2180Y1AA BSB220DB11XX BSB225T38D MSB212EB11XX MSB225N261E MSB225T261Y MSB225T38E MSB235T38E BSB2650Y3AC BSB330DB11XX MSB315EB11XX MSB320EB11XX MSB425EB11XX MSB530EB11XX MSB3370Y2AA MSB5820Y3AB
Refrigerant GWP   1,430.0 1,430.0 3 2,141.0 1,430.0 2,141.0 1,430.0 2,141.0 3.0 2,141.0 1,430.0 1,430.0 3.0 3 2,141.0 3.0 1,430.0 3.0 1,430.0 3.0 1,430.0 3 1,430.0 3 2,141.0 2,141.0 1,430.0 1,430.0 3.0 1,430.0 1,430.0 3 2,141.0 1,430.0 1,430.0 1,430.0 1,430.0 3 3
  Type   R-134a R-134a R-290 R-452A R-134a R-452A R-134a R-452A R-290 R-452A R-134a R-134a R-290 R-290 R-452A R-290 R-134a R-290 R-134a R-290 R-134a R-290 R-134a R-290 R-452A R-452A R-134a R-134a R-290 R-134a R-134a R-290 R-452A R-134a R-134a R-134a R-134a R-290 R-290
Refrigerating capacity Medium temperature R-134a Nom kW 0.857 (1) 1.120 (1)     1.338 (1)   0.857 (1)       1.120 (1) 1.338 (1)         3.282 (1)   3.550 (1)   3.774 (1)   1.799 (1)       2.022 (1) 1.799 (1)   2.022 (1) 4.871 (1)     3.282 (1) 3.550 (1) 3.774 (1) 4.871 (1)
    R-290 Nom kW                         1.225 (1) 1.309 (1)       2.600 (1)   3.428 (1)       2.179 (1)         2.070 (1)                 3.367 (1) 5.821 (1)
  Low temperature R-290 Nom kW     0.873 (1)           0.871 (1)             2.693 (1)           1.713 (1)                   2.653 (1)
    R-452A Nom kW       0.628 (1)   0.628 (1)   1.029 (1)   1.029 (1)         2.472 (1)                   1.699 (1) 1.699 (1)             2.472 (1)
Operation range Cold room temperature Min. °C -5 -5   -25 -5 -25 -5 -25 -25 -25 -5 -5 -5   -25 -5 -5 -5 -5 -5 -5   -5   -25 -25 -5 -5 -5 -5 -5   -25 -5 -5 -5 -5
    Max. °C 10 10   -15 10 -15 10 -15 -15 -15 10 10 10   -15 10 10 10 10 10 10   10   -15 -15 10 10 10 10 10   -15 10 10 10 10
Defrost Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas   Hot gas Hot gas Hot gas   Hot gas Hot gas   Hot gas   Hot gas   Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas   Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas Hot gas
Dimensions Unit Width mm 430 620 620 430 620 430 430 620 620 620 620 620 620 620 820 820 820 820 820 820 920 1,075 820 820 820 820 820 820 820 820 1,075 1,300 820 820 820 920 1,075 1,300 1,300
    Depth mm 771 719 719 771 719 771 771 719 719 719 719 719 719 719 929 929 929 929 929 929 1,042 924 809 809 809 809 809 809 809 809 1,046 1,044 929 929 929 1,042 1,046 1,044 1,044
    Height mm 525 506 506 525 506 525 525 506 507 506 506 506 507 506 645 647 645 647 645 647 760 503 540 540 540 540 540 540 540 540 785 762 645 645 645 760 785 652 652
Compressor Nominal power kW 0.5 0.6 0.9 0.6 0.7 0.6 0.5 1.3   1.3 0.6 0.7   0.56 2.2   2.2   2.6   2.9 1.8 0.9 0.9 1.5 1.5 1.7 0.9   1.7 3.7 2.7 2.2 2.2 2.6 2.9 3.7 1.12 2.7
  Type   Hermetic Reciprocating Hermetic Reciprocating Hermetic Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Hermetic Reciprocating Hermetic Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Reciprocating Hermetic Hermetic
  Starting method   Direct Direct Direct Direct Direct Direct Direct Direct   Direct Direct Direct   Direct Direct   Direct   Direct   Direct Direct Direct Direct Direct Direct Direct Direct   Direct Direct Direct Direct Direct Direct Direct Direct Direct Direct
Weight Unit kg 42 59 68 48 59 48 42 68 68 68 59 59 59 59 102 92 92 92 92 92 110 102 74 75 87 87 75 74 75 75 151 200 102 92 92 110 151 75 75
Condenser Air flow m³/h 400 750   400 750 400 400 750   750 750 750     1,500   1,500   1,500   3,100   1,400   1,400 1,400 1,400 1,400   1,400 3,200   1,500 1,500 1,500 3,100 3,200
Evaporator Air flow m³/h 500 550   500 550 500 500 550   550 550 550     2,300   2,300   2,300   2,300   1,100   1,100 1,100 1,100 1,100   1,100 3,450   2,300 2,300 2,300 2,300 3,450
  Air throw m 3 (2) 4 (2) 4 3 (2) 4 (2) 3 (2) 3 (2) 4 (2)   4 (2) 4 (2) 4 (2)   4 10 (2)   10 (2)   10 (2)   10 (2) 4 4 (2) 4 4 (2) 4 (2) 4 (2) 4 (2)   4 (2) 10 (2) 4 10 (2) 10 (2) 10 (2) 10 (2) 10 (2) 4 4
Power supply Phase   1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~ 3N~ 3N~ 3N~ 3N~ 3N~ 3N~ 3N~ 1~ 1~ 1~ 3N~ 3N~ 3N~ 1~ 1~ 3N~ 3N~ 3N~ 3N~ 3N~ 3N~ 3N~ 3N~ 1~ 3N~
  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 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50
  Voltage V 230 230 230 230 230 230 230 230 230 230 230 230 230 230 400 400 400 400 400 400 400 230 230 230 400 400 400 230 230 400 400 400 400 400 400 400 400 230 400
Notes (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: -20°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C (1) - When normally running: 0°C / +30°C
  (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc. (2) - Use air throw as a base. Air throw is affected by many factors such as height of room, product storage, location of evaporator, etc.
  (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases (3) - Contains fluorinated greenhouse gases