Set Free Modular FSXN. Engineering for tomorrow. And the tomorrow after that.

Size: px

Start display at page:

Download "Set Free Modular FSXN. Engineering for tomorrow. And the tomorrow after that."

Rosalyn Simmons
5 years ago
Views:

1 Set Free Modular FSXN Engineering for tomorrow. And the tomorrow after that.

0 03 Introducing a new addition to Hitachi s Set Free range of VRF air conditioning units - enhancing efficiency and user experience Hitachi air conditioning successfully meets installer and customer

cooling and heating, adapting to the different seasons and various temperature requirements of rooms.

And of course there is a growing demand for air conditioning to be as environmentally friendly as possible enabled through an air-conditioning management system that makes it easier for users to have

To meet and exceed these important requirements, Hitachi has developed the Set Free FSXN air conditioning system.

2 0 03 Introducing a new addition to Hitachi s Set Free range of VRF air conditioning units - enhancing efficiency and user experience Hitachi air conditioning successfully meets installer and customer demands offering greater functionality, control and cost savings There is increasing demand for a holistic approach to air conditioning in modern offices units that are capable of simultaneously cooling and heating, adapting to the different seasons and various temperature requirements of rooms. Customers also want to save time, money and space with their air conditioning and have the flexibility to extend or modify their air conditioning set-up to suit changing needs. And of course there is a growing demand for air conditioning to be as environmentally friendly as possible enabled through an air-conditioning management system that makes it easier for users to have simple, effective control of their air conditioning units to avoid unnecessary energy wastage, including overheating, overcooling and unattended operation. To meet and exceed these important requirements, Hitachi has developed the Set Free FSXN air conditioning system. Needs of end user Heat recovery operation Energy efficient Greater user control Flexibility to extend system Needs of consultants Time saving with equipment layout design Flexible, modular system designs Intelligent controls Needs of contractor and installer Modular and lightweight for quicker (or phased) installations Increased piping lengths for flexibility Set Free FSXN Capable of heat recovery and -pipe heat pump operations Set Free FSXN benefits Compatible with Hitachi s system free indoor units and heat recovery ventilation units Hitachi s outdoor units feature a heat recovery operation system as well as a -pipe heat pump operation system. This avoids the need for review work when designing the equipment layout, while reducing the workload and time spent installing the units on site. Wide product range - All models (8 to 54HP) When used as a heat recovery operation system Set Free FSXN (Module Type) When used as a -pipe heat pump operation system Energy saving - Heat recovery and DC Inverter Driven Flexibility of installation - Compact and lightweight design and flexible refrigerant piping Comfort and reliability - Capable of impressively low noise levels with noise reduction preference mode (option) Control by Network System CH units pipes Heat Recovery and -pipe heat pump operations Common Unit 8 to 54HP 4 models (Outdoor unit: 6 models) pipes Off coil temperature control The heat recovery and -pipe heat pump operation systems cannot be switched over after installation is complete.

04 05 Heat recovery operation Heat recovery operation - the most important requirement Heat recovery operation system - meeting different

There s increasing customer demand for the need to switch between cooling and heating, depending on time of day and external environmental

Therefore, heat recovery operation is often a top priority when considering air conditioning systems for buildings.

ased on our existing heat recovery operation system Set Free FXN - we have expanded the range; enhancing efficiency, reducing the

In office buildings The heat inside buildings is less likely to be released due to improvements in building structures, such as heat

Cooling is required throughout the year where there are lighting fixtures and IT equipment; equally other areas can be affected by ambient

Compensate and adjust when there are hot and cold rooms in the same building, depending on the direction of sunshine.

requirements. Heat recovery operation is essential in commercial buildings where, for example, restaurants and shops co-exist.

3 04 05 Heat recovery operation Heat recovery operation - the most important requirement Heat recovery operation system - meeting different air conditioning needs in the same building Temperature control in today s modern spaces is vitally important. There s increasing customer demand for the need to switch between cooling and heating, depending on time of day and external environmental conditions. And of course, equipment such as computers and terminal devices can also add to the heat in spaces. Therefore, heat recovery operation is often a top priority when considering air conditioning systems for buildings. To meet these needs, Hitachi has developed the Set Free FSXN, offering effective heat recovery operation. ased on our existing heat recovery operation system Set Free FXN - we have expanded the range; enhancing efficiency, reducing the dimensions and improving workability. As a result, Set Free FSXN offers superb energy-saving efficiency and better comfort. In office buildings The heat inside buildings is less likely to be released due to improvements in building structures, such as heat insulator performance and doubleglazed windows. Cooling is required throughout the year where there are lighting fixtures and IT equipment; equally other areas can be affected by ambient temperatures and sunshine, so either cooling or heating is required according to changes in the flow of heat. Compensate and adjust when there are hot and cold rooms in the same building, depending on the direction of sunshine. In commercial buildings Meeting Room Offices Control the air temperature separately from room to room because of different heating/ cooling requirements. Heat recovery operation is essential in commercial buildings where, for example, restaurants and shops co-exist. Handle changes in airconditioning needs (differences in cooling/heating requirements) due to changing tenants or the alteration of partitions. Restaurant Retail Manage rooms that need to be cooled all through the year. Reduce annual power consumption. In hotels Room temperatures should be set independently according to the personal preferences of the guests, with different requirements in the open public areas. Reception Guest Room

06 07 Heat Recovery Operation Heat recovery operation significantly enhancing energy efficiency System configuration A heat recovery system offers high energy-saving efficiency by drawing heat from

Q Existing system (-pipe heat pump operation) 6HP heat radiation Outdoor unit Refrigerant piping Transmission Q Heat recovery and -pipe heat pump operations common unit (auto-recognition).

required when there are different air conditioning needs in one building.

capacity Q Advanced system (3 pipe heat pump operation) With the heat recovery operation, the heat is effectively used as a source of heating.

4 06 07 Heat Recovery Operation Heat recovery operation significantly enhancing energy efficiency System configuration A heat recovery system offers high energy-saving efficiency by drawing heat from the rooms to be cooled, and effectively using it as a heat source for the rooms to be heated. Q Existing system (-pipe heat pump operation) 6HP heat radiation Outdoor unit Refrigerant piping Transmission Q Heat recovery and -pipe heat pump operations common unit (auto-recognition). Max length: 65m Q Corresponding to H-LINK Total length:,000m Height dfference: 50m Max 64 refrigerant groups Max 60 indoor units Q Module type (external connection) Multiple -pipe heat pump units are required when there are different air conditioning needs in one building. 6HP Connectable Indoor Units heat absorption Max: 64 units Connection ratio: 50-30% heat release heat release ON OFF Cooling with 50% capacity heat absorption ON heat absorption OFF Heating with 50% capacity Q Advanced system (3 pipe heat pump operation) With the heat recovery operation, the heat is effectively used as a source of heating. heat release 6HP heat release heat absorption heat absorption ON OFF Cooling with 50% capacity Lower equipment cost and power consumption compared with existing system* * If the ratio of cooling and heating loads is 50:50, the power consumption of one heat recovery unit can cover the operation of two -pipe heat pump units. ZZZ KLWDFKLDLUFRQ FRP CH unit (heat recovery system only) Q Changeover box for heat recovery application Q Compact and light design Dimensions: 30(W) x 9(H) x 4(D) mm Weight: 7kg Integrated Remote Controller

5 08 09 Product range Choose from a selection of 6 models used individually or in combinations (8 to 54HP) all integrating heat recovery and heat pump operation to suit customer requirements. Indoor unit 0.8HP.0HP.3HP.5HP.8HP.0HP.3HP.5HP 3.0HP 4.0HP 5.0HP 6.0HP 8.0HP 0.0HP Hitachi s Set Free FSXN Series offers 6 types of modular outdoor units and 0 types (5 models) of indoor units. y combining units from a wide selection of models, you can create a tailored air conditioning environment to satisfy your specific building conditions. Outdoor unit capacity has been extended up to 54HP by combining the outdoor units (max. 3). This system can provide heat recovery operation or -pipe heat pump operation systems as follows: Outdoor unit Mini in-the-ceiling In-the-ceiling (Low Height) In-the-ceiling A RAS 8.0FSXN ~.0FSXN Outer dimensions Width: 950 mm Depth: 765 mm Height:,70 mm Net weight 0 kg RAS 4.0FSXN ~ 8.0FSXN Outer dimensions Width:,0 mm Depth: 765 mm Height:,70 mm Net weight 4 & 6HP: 95 kg 8HP: 35 kg Mini 4-way cassette 4-way cassette -way cassette Wall mounted A A A A Ceiling 8HP 4HP 0HP HP 0HP 6HP 4HP Floor mounted HP 8HP 6HP Floor-concealed A A A Capacity available with dip switch setting capacity range (HP) Adjustable by dip switch setting 8HP 38HP 44HP 50HP System equipment 30HP 40HP 46HP 5HP 50m 3 /h 500m 3 /h 800m 3 /h,000m 3 /h,500m 3 /h,000m 3 /h 3,000m 3 /h 3HP 4HP 48HP 54HP 34HP 36HP Refer to General data for information on the combination of outdoor units. Total heat exchanger

0 Energy-saving and comfort - - Energy-saving technology delivers outstanding performance Refrigerant cycle and control achieve a high level of efficiency and energy-saving performance.

65 4% FXN FSN SET-FREE FSXN FXN FSN SET-FREE FSXN Comparison when COP of FXN series is 00%.

6 0 Energy-saving and comfort - - Energy-saving technology delivers outstanding performance Refrigerant cycle and control achieve a high level of efficiency and energy-saving performance. EER comparison for cooling operation [ HP (50Hz) ] 00% 04% % 00% 03% 3.6 COP comparison for heating operation [ HP (50Hz) ] % FXN FSN SET-FREE FSXN FXN FSN SET-FREE FSXN Comparison when COP of FXN series is 00%. For a single outdoor unit The cooling and heating performances shown are the values when combined with our specified indoor units Capacity control by Hz steps Performance is greatly improved by the high efficiency DC inverter compressor and 00% load compressor, and lossless energy-saving operation is achieved (depending on the building). Wide operating range The Set Free FSXN can operate within a wide range of ambient conditions, extending the flexibility of the installation. Self-demand control A newly developed self-demand function has largely improved energy-saving capabilities. Since the current is self-detected and demand control performed automatically, no signal wiring work is required. Conventional demand control using demand signals is also available and you can select various operations as required. Control Capacity Power consumption 00% 0% Max. 0Hz~00Hz 80Steps No. Inverter Cooling Load -0 C Min. Power setting Selectable from 00%, 80%, 70% and 60% of the rated power consumption for cooling operation. Morning Power consumption Control Capacity 00% 0% Heating Max. 80Steps No. Inverter 5 C No. compressor 0Hz~00Hz Cooling Load Cooling Excessive -5 C power supply 43 C consumption exceeding the power setting range is restricted. Min Power setting Selectable from 00%, 80%, 70% and 60% of the rated power consumption for cooling operation. Maximum efficiency is secured within the power setting NEW range. Excessive power supply consumption exceeding the power setting range is restricted. Night Operation hours Maximum efficiency is secured within the power setting NEW range. Wave function Cutting-edge DC inverter high pressure scroll compressor Intermediate pressure performance is greatly improved with the new compression mechanism s release valve and optimising orbiting scroll-lifting force. This increases the system s energy efficiency. The release valve prevents the occurrence of over-compression and the orbiting scroll lifting force optimisation minimises leakage loss. Wave mode Morning Operation hours Wave mode turns demand control ON and OFF alternately at intervals of 0 or 0 minutes. While power consumption is reduced temperature changes are minimised to maintain a comfortable room temperature. Without demand control Average power consumption That's the demand effect! With demand control Night Average power consumption Power consumption Power setting Power consumption Power setting (Min.) (Min.)

3 Flexibility Flexibility of of of Installation Flexibility of Installation Flexible installation Compact and lightweight design Set-Free FSXN outdoor unit 8HP: RAS-8FSXN 0HP: RAS-0FSXN HP: RAS-FSXN

installation is further enhanced by the outdoor unit s lightweight and compact design.

7 3 Flexibility Flexibility of of of Installation Flexibility of Installation Flexible installation Compact and lightweight design Set-Free FSXN outdoor unit 8HP: RAS-8FSXN 0HP: RAS-0FSXN HP: RAS-FSXN 950mm 950mm Even the largest unit (8HP model) can be carried in an elevator Elevator Door opening: 800mm Depth:,350mm 4HP: RAS-4FSXN 6HP: RAS-6FSXN 8HP: RAS-8FSXN,0mm,0mm Ease and flexibility of installation is further enhanced by the outdoor unit s lightweight and compact design. 8HP RAS-8FSN (8FXN) 460kg (570kg) 460kg (570kg) 460kg (570kg),90mm,90mm 950mm 950mm,745mm,745mm 750mm,90mm 750mm Transportation and handling using elevator An elevator can be used to transport the outdoor unit separately.,745mm 750mm,745mm 8HP RAS-8FSXN 35kg 35kg 35kg,0mm,0mm,0mm,0mm,0mm Installation space: Reduced by 35% Weight: Reduced by 3% (45%) Increased flexibility of refrigerant piping work Improved flexibility of design by increasing the pipe length to 65m maximum (equivalent length of 90m) in FSXN series. 3 4 Max. piping length: 65m* etween first branch and indoor unit: 90m or less Height difference between highest and lowest indoor units: 5m or less Height difference between outdoor and indoor units: 50m** 5 Max. length after branch: 40m Total maximum piping length Maximum piping length Distance between first branch and indoor unit Maximum piping length after branch Connectable to 64 indoor units The number of connectable indoor units has been increased to 64 maximum* Maximum number of connectable Indoor units Maximum number of connectable Indoor units Current model (FSN) New model (FSXN) 300m,000m 50m 40m 30m 65m 90m 40m * For 00m or more, the pipe diameter will be one size larger. ** In case the outdoor unit is installed at a higher level than indoor units. If the outdoor unit is installed lower than indoor units, the maximum height difference is 40m. HP Current models New model FSN() Series FSN Series FSXN Series HP Current models New model For a system in which all indoor units are operated simultaneously, the maximum total capacity will be 00%. Determine the number of indoor units carefully so that a problem such as decreased outlet air temperature will not occur. Refer to Technical Catalogue for more details. Compared to indoor units of over.5hp, indoor units of 0.8 and.0hp are set with higher air flow. Do not install these units in a place where a cold draft may occur during heating operation. Determine the usage environment and installation location carefully. Connection ratio: 50-30% FSN() Series FSN Series FSXN Series *Maximum number of connectable indoor units. Values may be varied in accordance with the total length of refrigerant piping. Refer to the technical manual for more details.

8 4 5 Other advanced technologies Rotational operation* to distribute load of outdoor units Regulating the operation time of each outdoor unit leads to load reduction on compressors**. During multiple unit operation, the same rotation frequency of inverter compressor results in an equivalent load on each compressor. Therefore, outdoor unit endurance is improved. Inverter compressor rotation frequency control inverter of inverter compressor One unit operation One unit operation Low Low inverter compressor Two units One unit operation Two operation units operation Operating Low load Three units Two units operation Three operation units operation 3 Hi Operating Hi load Three units operation It is operated so that the revolution of the inverter compressor and may become the same. Operating load * At least outdoor units are required for this function. ** Comparison between rotation operation function and non-rotation operation function based on the same system. Emergency backup operation function The backup operation function prevents the system from coming to a complete stop when an outdoor unit failure occurs*. Emergency operation starts with the remote control switch after an alarm***. * At least outdoor units are required for this function. ** Emergency operation can be performed within 8 hours after unit stoppage. After 8 hours passed from unit stoppage, emergency operation can not be performed. *** Emergency operation can be performed when the specified alarm code occurs. Refer to Alarm Code for Emergency Operation. Hi At the time of compressor start-up, or when hours has passed from start of operation. Failed outdoor unit Press TEMP. simultaneously for 3 seconds. Last time Last time This time This time Next time Next time 3 3 Last time This time Next time 3 Even if one unit fails, the other can be operated continuously** Emergency operation indication Emergency operation indication Emergency operation indication Noise reduction mode With the new noise reduction preference mode, the sound pressure level for a particular time zone can be set based upon the environment*. Therefore, the operation/management of air conditioners is facilitated in areas where the noise level at night time is restricted by laws and regulations. You can select from 3 sound pressure levels Optional noise reduction function 3 Setting from outdoor unit input and output function Setting (standard value - d) Setting (standard value - 5d) Setting 3 (standard value - 8d) Sound pressure level (d) (Approx. Value**) * The range of performance and operation is restricted, because the rotation frequency of the compressor and outdoor fan is forcibly decreased. Target Capacity of Each Setting Noise Reduction Setting : 80% of Standard Capacity Noise Reduction Setting : 60% of Standard Capacity Noise Reduction Setting 3: 40% of Standard Capacity ** The table above shows an approximate value of 0HP. In some cases, the value may temporarily become higher than the approximate value in the table above due to operation control conditions. Automatic refrigerant assessment system Use this automatic assessment system to check whether or not the refrigerant amount is sufficient in one refrigerant cycle. Factors for judgement The appropriate refrigerant amount is calculated based upon the following data. Refrigerant cycle temperature Refrigerant saturation temperature 3 Outdoor unit expansion valve data 4 Indoor unit data Setting example Low-sound operation during night time only by using timer Input signal * Input signal * Input signal * Input signal * Night time Night time Rotation Frequency Night time Night time 53d equivalent rotation 53d equivalent rotation 53d equivalent rotation 53d equivalent rotation Outdoor Unit Fan Night time Night time Rotation Frequency Night time Night time 53d equivalent rotation 53d equivalent rotation 53d equivalent rotation 53d equivalent rotation Time Time Time * Perform the electrical wiring work on site when setting input Time signal Refrigerant cycle configuration [schematic diagram] Pressure sensor Pressure Refrigerant leakage sensor P occurs Thermistor P Thermistor Thermistor Measure adequate refrigerant quantity Accumulator P Pressure sensor Adjustment Adjustment Accumulator Correct Incorrect Correct Incorrect Adjustment Correct Incorrect EMG is displayed on the LCD at the remote control switch, and emergency operation starts. Work quantity improvement Work quantity improvement Work quantity improvement Overcooler Overcooler Outdoor heat Overcooler exchanger Outdoor heat exchanger Outdoor heat exchanger

9 6 7 General data RAS-8FSXN RAS-0FSXN RAS-FSXN RAS-4FSXN RAS-6FSXN RAS-8FSXN RAS-0FSXN RAS-FSXN RAS-4FSXN RAS-6FSXN RAS-8FSXN RAS-30FSXN (RAS-8FSXN + RAS-FSXN) (RAS-8FSXN + RAS-4FSXN) (RAS-0FSXN + RAS-4FSXN) (RAS-FSXN + RAS-4FSXN) (RAS-4FSXN + RAS-4FSXN) (RAS-4FSXN + RAS-6FSXN) Power supply (kw) AC 3Ø, 400V/50Hz (380-45V / 50Hz), 380V/60Hz, 0V/60Hz AC 3Ø, 400V/50Hz (380-45V / 50Hz), 380V/60Hz, 0V/60Hz Nominal capacity (kw) EER/COP (50/60Hz) Cooling Heating Cooling 3.85 / / / / / / / / / / / / 3.0 Heating 4.7 / / / / / / / / / / / / 3.9 Cabinet color (munsell code) Natural grey (.0Y 8.5/0.5) Natural grey (.0Y 8.5/0.5) Maximum sound pressure level d(a) Outer Dimensions (mm) & Weight (Kg) Overall A scale Night-shift Height Width Depth Weight Refrigerant (flow control) R40A (micro-computer control expansion valve) R40A (micro-computer control expansion valve) (Hermetic (scroll)) Model E656DHD E656DHD + E655DH E656DHD + E855DH E656DHD + E656DHD E656DHD + E656DHD + E655DH E656DHD + E655DH + E656DHD + E655DH Quantity Motor output (pole) 4.8(4) 6.0(4) 7.(4) 4.8(4) + 4.4() 6.0(4) + 4.4() 6.0(4) + 5.6() 4.8(4) + 7.(4) 4.8(4) + 4.8(4) + 4.4() 6.0(4) + 4.8(4) + 4.4() 4.8(4) + 4.8(4) + 4.4() 4.8(4) + 4.4() + 4.8(4) + 4.4() 4.8(4) + 4.4() + 6.0(4) + 4.4() Heat exchanger Multi-pass cross-finned tube Multi-pass cross-finned tube Main refrigerant piping cooling/heating changeover operation system (mm (in)) Main refrigerant piping cooling/heating simultaneous operation system (mm (in)) Liquid line Ø9.53* (3/8in) Ø.7* (/in) Ø5.88* (5/8in) Ø9.05* (3/4in) pipes Ø Ø.7 (3/8in - /in) Ø.7 - Ø5.88 (/in - 5/8in) Ø Ø9.05 (5/8in - 3/4in) Ø Ø. (3/4in - 7/8in) Gas line Ø9.05* (3/4in) Ø.* (7/8in) Ø5.4* (in) Ø8.6* ( /8in) Ø8.6* ( /8in) Ø3.75* ( /4in) pipes Ø Ø. (3/4in - 7/8in) Ø. - Ø5.4 (7/8in - in) Ø5.4 - Ø8.6 (in - /8in) Ø8.6 - Ø3.75 ( /8in - /4) Ø8.6 - Ø3.75 ( /8in - /4) Ø Ø34.9 ( /4in - 3/8) Liquid line Ø9.53* (3/8in) Ø.7* (/in) Ø5.88* (5/8in) Ø9.05* (3/4in) 3 pipes Ø Ø.7 (3/8in - /in) Ø.7 - Ø5.88 (/in - 5/8in) Ø Ø9.05 (5/8in - 3/4in) Ø Ø. (3/4in - 7/8in) Gas line low pres. Ø9.05* (3/4in) Ø.* (7/8in) Ø5.4* (in) Ø8.6* ( /8in) Ø8.6* ( /8in) Ø3.75* ( /4in) 3 pipes Ø Ø. (3/4in - 7/8in) Ø. - Ø5.4 (7/8in - in) Ø5.4 - Ø8.6 (in - /8in) Ø8.6 - Ø3.75 ( /8in - /4) Ø8.6 - Ø3.75 ( /8in - /4) Ø Ø34.9 ( /4in - 3/8) Gas line high pres. Ø5.88* (5/8in) Ø9.05* (3/4in) Ø.* (7/8in) Ø.* (7/8in) Ø5.4* (in) Ø8.6* ( /8in) 3 pipes Ø Ø9.05 (5/8in - 3/4in) Ø Ø. (3/4in - 7/8in) Ø. - Ø5.4 (7/8in - in) Ø. - Ø5.4 (7/8in - in) Ø5.4 - Ø8.6 (in - /8in) Ø8.6 - Ø3.75 ( /8in - /4) Refrigerant charge (Kg) Packing dimensions (mm) Height,895, Width 990,50, Depth Approximate packing measurement (m 3 ) NOTES:. The cooling and heating performances are the values when combined with our specified indoor units. (00% rating) Cooling operation conditions Heating operation conditions Indoor air inlet temperature: 7 C D (80 F D) Indoor air inlet temperature: 0 C D (68 F D) 9.0 C W (66. F W) Outdoor air inlet temperature: 7 C D (45 F D) Outdoor air Inlet temperature: 35 C D (95 F D) Piping length: 7.5 meters / Piping lift: 0 meter 6 C W (43 F W) NOTES:. The sound pressure is based on the following conditions. meter from the unit service cover surface, and.5 meters from floor level. The above data is based on the cooling mode. In case of heating mode, the sound pressure level increases by approximately ~ d. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. 3. *If the specified main refrigerant piping on the table is not available on site, follow the allowable piping size in parentheses. When using the main refrigerant piping indicated in parentheses, prepare an appropriate reducer on site. 4. Except for the specified combination in the table (0~30HP), there is no other combination of the base unit. 5. The width of outer dimension, it is the value when each distance between the base outdoor units is specified to 0mm.

10 8 9 General data RAS-3FSXN RAS-34FSXN RAS-36FSXN RAS-38FSXN RAS-40FSXN RAS-4FSXN RAS-44FSXN RAS-46FSXN RAS-48FSXN RAS-50FSXN RAS-5FSXN RAS-54FSXN (RAS-6FSXN + RAS-6FSXN) (RAS-6FSXN (RAS-8FSXN (RAS-FSXN + RAS-FSXN + RAS-4FSXN) (RAS-FSXN + RAS-FSXN + RAS-6FSXN) (RAS-FSXN + RAS-FSXN (RAS-FSXN + RAS-4FSXN (RAS-FSXN + RAS-6FSXN (RAS-FSXN + RAS-8FSXN Power supply (kw) AC 3Ø, 400V/50Hz (380-45V / 50Hz), 380V/60Hz, 0V/60Hz AC 3Ø, 400V/50Hz (380-45V / 50Hz), 380V/60Hz, 0V/60Hz (RAS-4FSXN + RAS-8FSXN (RAS-6FSXN + RAS-8FSXN (RAS-8FSXN + RAS-8FSXN Nominal capacity (kw) EER/COP (50/60Hz) Cooling Heating Cooling 3.3 / / / / / / / / / / / / 3.35 Heating 3.90 / / / / / / / / / / / / 4.03 Cabinet color (munsell code) Natural grey (.0Y 8.5/0.5) Natural grey (.0Y 8.5/0.5) Maximum sound pressure level d(a) Outer dimensions (mm) & Weight (Kg) Overall A scale Night-shift Height,70,70 Width,440 3, 50 3, 50 3,40 3,670 Depth Weight Refrigerant (flow control) R40A (Micro-computer control expansion valve) R40A (Micro-computer control expansion valve) (hermetic scroll) Model E656DHD + E655DH + E656DHD + E655DH E656DHD + E655DH + E656DHD + E855DH E656DHD + E855DH + E656DHD + E855DH E656DHD + E656DHD + E656DHD + E655DH E656DHD + E656DHD + E656DHD + E855DH E656DHD + E656DHD + E655DH + E656DHD + E855DH E656DHD + E656DHD + E855DH + E656DHD + E855DH E656DHD + E655DH + E656DHD + E855DH + E656DHD + E855DH Quantity Motor output (pole) 6.0(4) + 4.4() + 6.0(4) + 4.4() 6.0(4) + 4.4() + 6.0(4) + 5.6() 6.0(4) + 5.6() + 6.0(4) + 5.6() 7.(4) + 7.(4) + 4.8(4) + 4.4() 7.(4) + 7.(4) + 6.0(4) + 4.4() 7.(4) + 7.(4) + 6.0(4) + 5.6() 7.(4) + 4.8(4) + 4.4() + 6.0(4) + 5.6() 7.(4) + 6.0(4) + 4.4() + 6.0(4) + 5.6() 7.(4) + 6.0(4) + 5.6() + 6.0(4) + 5.6() Heat exchanger Multi-pass cross-finned tube Multi-pass cross-finned tube Main refrigerant piping cooling/heating changeover operation system (mm (in)) Main refrigerant piping cooling/heating simultaneous operation system (mm (in)) Liquid line Ø9.05* (3/4in) Ø9.05* (3/4in) pipes Ø Ø. (3/4in - 7/8in) Ø Ø. (3/4in - 7/8in) Gas line Ø3.75* ( /4in) Ø38.* ( /in) Ø38.* ( /in) pipes Ø Ø34.9 ( /4in - 3/8) Ø38. - Ø4.3 ( 5/8in) Ø38. - Ø4.3 ( 5/8in) Liquid line Ø9.05* (3/4in) Ø9.05* (3/4in) 3 pipes Ø Ø. (3/4in - 7/8in) Ø Ø. (3/4in - 7/8in) Gas line low pres. Ø3.75* ( /4in) Ø38.* ( /in) Ø38.* ( /in) 3 pipes Ø Ø34.9 ( /4in - 3/8) Ø38. - Ø4.3 ( 5/8in) Ø38. - Ø4.3 ( 5/8in) Gas line high pres. Ø5.88* (5/8in) Ø9.05* (3/4in) Ø.* (7/8in) Ø3.75* ( /4in) 3 pipes Ø Ø9.05 (5/8in - 3/4in) Ø Ø. (3/4in - 7/8in) Ø. - Ø5.4 (7/8in - in) Ø Ø34.9 ( /4in - 3/8) 4.8(4) + 4.4() + 6.0(4) + 5.6() + 6.0(4) + 5.6() 6.0(4) + 4.4() + 6.0(4) + 5.6() + 6.0(4) + 5.6() Refrigerant charge (Kg) Packing dimensions (mm) Height Width Depth Approximate packing measurement (m 3 ) E656DHD + E855DH + E656DHD + E855DH + E656DHD + E855DH 6.0(4) + 4.4() + 6.0(4) + 5.6() + 6.0(4) + 5.6() NOTES:. The cooling and heating performances are the values when combined with our specified indoor units. (00% rating) Cooling operation conditions Heating operation conditions Indoor air inlet temperature: 7 C D (80 F D) Indoor air inlet temperature: 0 C D (68 F D) 9.0 C W (66. F W) Outdoor air inlet temperature: 7 C D (45 F D) Outdoor air inlet temperature: 35 C D (95 F D) Piping length: 7.5 meters / Piping lift: 0 Meter 6 C W (43 F W) NOTES:. The sound pressure is based on the following conditions. meter from the unit service cover surface, and.5 meters from floor level. The above data is based on the cooling mode. In case of heating mode, the sound pressure level increases by approximately ~ d. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. 3. *If the specified main refrigerant piping on the table is not available on site, follow the allowable piping size in parentheses. When using the main refrigerant piping indicated in parentheses, prepare an appropriate reducer on site. 4. Except for the specified combination in the table (3~54HP), there is no other combination of the base unit. 5. The width of outer dimension, it is the value when each distance between the base outdoor units is specified to 0mm.