Specifications Table for VAM-FA/FB

VAM150FA8VE VAM150FA8VE1 VAM250FA8VE VAM250FA8VE1 VAM350FB7VE VAM500FB7VE VAM650FB7VE VAM800FB7VE VAM1000FB7VE VAM1500FB7VE VAM2000FB7VE
Standard Accessories Standard_Accessories-=-Item Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual Installation and operation manual
Enthalpy exchange efficiency - 60Hz Heating Ultra high % 64   64                
    Low % 71   69                
    High % 64   64                
  Cooling High % 58   58                
    Low % 66   63                
    Ultra high % 58   58                
Temperature exchange efficiency - 50Hz Ultra high % 74   72                
  High % 74   72                
  Low % 79   77                
Fan motor Output 50 Hz W 30   30                
    60 Hz W 30   30                
  Quantity 2   2                
Operation range Min. °CDB -15 -15 -15 -15 -15 -15 -15 -15 -15 -15 -15
  Max. °CDB 50 50 50 50 50 50 50 50 50 50 50
  Relative humidity % 80% or less 80% or less 80% or less 80% or less 80% or less 80% or less 80% or less 80% or less 80% or less 80% or less 80% or less
Power input - 50Hz Heat exchange mode Nom. Ultra high kW 0.116 0.116 0.141 0.141 0.132 0.178 0.196 0.373 0.375 0.828 0.852
      Low kW 0.056   0.062                
      High kW 0.100   0.112                
  Bypass mode Nom. High kW 0.100   0.112                
      Ultra high kW 0.116 0.116 0.141 0.141 0.132 0.178 0.196 0.373 0.375 0.828 0.852
      Low kW 0.056   0.062                
Sound pressure level - 50Hz Heat exchange mode Ultra high dBA 27, 28.5 27 (0.000), 28.5 (0.000) 28, 29 28 (0.000), 29 (0.000) 32 (0.000) 33 (0.000) 34.5 (0.000) 36 (0.000) 36 (0.000) 39.5 (0.000) 40 (0.000)
    High dBA 26, 27.5   26, 27                
    Low dBA 20.5, 21.5   21, 22                
  Bypass mode Ultra high dBA 27, 28.5 27 (0.000), 28.5 (0.000) 28, 29 28 (0.000), 29 (0.000) 32 (0.000) 33.5 (0.000) 34.5 (0.000) 36 (0.000) 36 (0.000) 40.5 (0.000) 40 (0.000)
    High dBA 26.5, 27.5   27, 28                
    Low dBA 20.5, 21.5   21, 22                
Air filter Type Multidirectional fibrous fleeces   Multidirectional fibrous fleeces                
Dimensions Unit Width mm 776 776 776 776 828 828 1,004 1,004 1,004 1,512 1,512
    Depth mm 525 525 525 525 816 816 868 868 1,156 868 1,156
    Height mm 285 285 285 285 301 301 364 364 364 726 726
Enthalpy exchange efficiency - 50Hz Heating Ultra high % 64   64                
    Low % 69   68                
    High % 64   64                
  Cooling High % 58   58                
    Ultra high % 58   58                
    Low % 64   62                
Casing Material Galvanised steel plate   Galvanised steel plate                
Weight Unit kg 24 24 24 24 33 33 52 55 64 131 152
Temperature exchange efficiency - 60Hz Ultra high % 74   72                
  High % 74   72                
  Low % 80   77                
Power input - 60Hz Heat exchange mode Nom. Low kW 0.056   0.062                
      High kW 0.099   0.119                
      Ultra high kW 0.117 0.117 0.138 0.138 0.132 0.178 0.196 0.373 0.375 0.828 0.852
  Bypass mode Nom. Ultra high kW 0.117 0.117 0.138 0.138 0.132 0.178 0.196 0.373 0.375 0.828 0.852
      Low kW 0.056   0.062                
      High kW 0.099   0.119                
Fan External static pressure - 50Hz High Pa 39   39                
    Low Pa 20   20                
    Ultra high Pa 69 69 (0.000) 64 64 (0.000) 98 (0.000) 98 (0.000) 93 (0.000) 137 (0.000) 157 (0.000) 137 (0.000) 137 (0.000)
  External static pressure - 60Hz High Pa 54   54                
    Low Pa 24   20                
    Ultra high Pa 98 98 98 98              
  Air flow rate - 50Hz Heat exchange mode Ultra high m³/h 150 150 (0.000) 250 250 (0.000) 350 (0.000) 500 (0.000) 650 (0.000) 800 (0.000) 1,000 (0.000) 1,500 (0.000) 2,000 (0.000)
      High m³/h 150   250                
      Low m³/h 110   155                
    Bypass mode Low m³/h 110   155                
      Ultra high m³/h 150 150 (0.000) 250 250 (0.000) 350 (0.000) 500 (0.000) 650 (0.000) 800 (0.000) 1,000 (0.000) 1,500 (0.000) 2,000 (0.000)
      High m³/h 150   250                
  Air flow rate - 60Hz Bypass mode Ultra high m³/h 150 150 250 250              
      High m³/h 150   250                
      Low m³/h 110   145                
    Heat exchange mode Ultra high m³/h 150 150 250 250              
      High m³/h 150   250                
      Low m³/h 110   145                
  Type Sirocco fan   Sirocco fan                
Sound pressure level - 60Hz Bypass mode Low dBA 20   20.5                
    Ultra high dBA 28 28 29 29 34 34.5 35.5 37 37 41.5 42.5
    High dBA 27   27                
  Heat exchange mode Low dBA 19   19.5                
    High dBA 26.5   26                
    Ultra high dBA 28.5 28.5 29.5 29.5 34 34.5 35.5 37 37 41.5 42.5
Connection duct diameter mm 100 100 150 150 150 200 200 250 250 350 350
Insulation material Air to air cross flow total heat (sensible + latent heat) exchange   Air to air cross flow total heat (sensible + latent heat) exchange                
Voltage range Min. % -10   -10                
  Max. % 10   10                
Power supply Frequency Hz 50/60 50/60 50/60 50/60 50/60 50/60 50/60 50/60 50/60 50/60 50/60
  Voltage V 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220 220-240/220
  Phase 1~   1~                
Current Minimum circuit amps (MCA) A 0.9   0.9                
  Full load amps (FLA) Fan motor 2 A 0.4   0.4                
    Fan motor A 0.4   0.4                
  Normal amps - 60Hz Bypass mode High A 0.59   0.56                
      Low A 0.33   0.29                
      Ultra high A 0.66   0.64                
    Heat exchange mode Low A 0.33   0.29                
      High A 0.59   0.56                
      Ultra high A 0.66   0.64                
  Fan motor rated output kW 0.03x2   0.03x2                
  Normal amps - 50Hz Bypass mode Low A 0.33   0.32                
      Ultra high A 0.67   0.72                
      High A 0.57   0.57                
    Heat exchange mode High A 0.57   0.57                
      Ultra high A 0.67   0.72                
      Low A 0.33   0.32                
  Maximum fuse amps (MFA) A 15   15                
Notes Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body. Operation sound is measured at 1.5m below the center of the body.
  Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode. Air flow rate can be changed to Low mode or High mode.
  Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions. Normal amplitude, input and efficiency depend on the mentioned conditions.
  Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise. Sound values are measured in an anechoic chamber. Operating sound level generally becomes higher than this value depending on the operating conditions, reflected sound, and peripheral noise.
  The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit. The noise level at the air discharge port is about 8dB higher than the operating sound of the unit.
  The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice. The specifications, designs and information here are subject to change without notice.
  Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits. Voltage range: units are suitable for use on electrical systems where voltage supplied to unit terminal is not below or above listed range limits.
  Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%. Maximum allowable voltage range variation between phases is 2%.
  MCA/MFA: MCA = 1.25 x FLA(FM1) + FLA(FM2); MFA ≤ 4 x FLA; (VAM2000 is regarded as 2x VAM1000) MCA/MFA: MCA = 1.25 x FLA(FM1) + FLA(FM2); MFA ≤ 4 x FLA; (VAM2000 is regarded as 2x VAM1000) MCA/MFA: MCA = 1.25 x FLA(FM1) + FLA(FM2); MFA ≤ 4 x FLA; (VAM2000 is regarded as 2x VAM1000) MCA/MFA: MCA = 1.25 x FLA(FM1) + FLA(FM2); MFA ≤ 4 x FLA; (VAM2000 is regarded as 2x VAM1000) MCA = 1.25 x FLA (FM1) + FLA (FM2) MCA = 1.25 x FLA (FM1) + FLA (FM2) MCA = 1.25 x FLA (FM1) + FLA (FM2) MCA = 1.25 x FLA (FM1) + FLA (FM2) MCA = 1.25 x FLA (FM1) + FLA (FM2) MCA = 1.25 x FLA (FM1) + FLA (FM2) MCA = 1.25 x FLA (FM1) + FLA (FM2)
  Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA MCA represents maximum input current. MFA represents capacity which may accept MCA. MCA represents maximum input current. MFA represents capacity which may accept MCA. MCA represents maximum input current. MFA represents capacity which may accept MCA. MCA represents maximum input current. MFA represents capacity which may accept MCA. MCA represents maximum input current. MFA represents capacity which may accept MCA. MCA represents maximum input current. MFA represents capacity which may accept MCA. MCA represents maximum input current. MFA represents capacity which may accept MCA.
  Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Next lower standard fuse rating minimum 16A Next lower standard fuse rating minimum 16A Next lower standard fuse rating minimum 16A Next lower standard fuse rating minimum 16A Next lower standard fuse rating minimum 16A Next lower standard fuse rating minimum 16A Next lower standard fuse rating minimum 16A
Casing Material     Galvanised steel plate   Galvanised steel plate Galvanised steel plate Galvanised steel plate Galvanised steel plate Galvanised steel plate Galvanised steel plate Galvanised steel plate Galvanised steel plate
Heat exchange system   Air to air cross flow total heat (sensible + latent heat) exchange   Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange Air to air cross flow total heat (sensible + latent heat) exchange
Heat exchange element   Specially processed non-flammable paper   Specially processed non-flammable paper Specially processed non-flammable paper Specially processed non-flammable paper Specially processed non-flammable paper Specially processed non-flammable paper Specially processed non-flammable paper Specially processed non-flammable paper Specially processed non-flammable paper
Operation mode   Heat exchange mode, Bypass mode, Fresh-up mode   Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode Heat exchange mode, Bypass mode, Fresh-up mode
Power supply Name     VE   VE VE VE VE VE VE VE VE
  Phase     1~   1~ 1~ 1~ 1~ 1~ 1~ 1~ 1~
Notes         Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA Select wire size based on the value of MCA
          Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker Instead of a fuse, use a circuit breaker
          Specifications measured at fan curve 8 (factory settings) Specifications measured at fan curve 8 (factory settings) Specifications measured at fan curve 8 (factory settings) Specifications measured at fan curve 8 (factory settings) Specifications measured at fan curve 8 (factory settings) Specifications measured at fan curve 8 (factory settings) Specifications measured at fan curve 8 (factory settings)