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r Inverte C D l l Fu Fujithermar VRF Plus series inverter-driven multi-split central air conditioning adopts full DC fan motors adopt variable speed motors, which can bring extraordinary user experience--high high flexibility of installation and maintenance, and high intelligent control and management, capacity is from 8HP to 54HP in 2HP increments, various models can serve the government occasions better,which can improve the environmental quality and create a healthy life. CONTENTS High flexibility of installation and maintenance High intelligence and reliable operation High intelligent control system High quality user experience High quality product lineup Optional Parts High Efficiency Performance High Efficiency Performance Air conditioning is a big power consumer in our daily life. Authoritative statistics show that the energy consumption of central air conditioning generally accounts for 40 % to 60% in the whole building energy consumption, thus energy saving of air-conditioning has important social significance. ○ Fujitherma VRF Plus series inverter central air conditioner, all the compressors adopt DC variable speed compressors, and all the fan motors adopt DC motors. The leading full-DC inverter control technology and a variety of intelligent energy-saving technologies realize the optimal energy saving performance of VRF Plus series. High efficiency high-pressure chamber scroll compressors The asymmetrical scroll structure of Outdoor units of Fujitherma VRF Plus series adopt large capacity high efficiency high-pressure chamber scroll compressors with an interior oil separating the refrigerant gas leakage loss in the section, which maintains most of lubricating oil in compressor by the use of process of suction and compression, Special scroll disc design interior oil moist separator and oil-returning pipe design. Only much less oil is discharged from compressor along with refrigerant, which avoids cooling reliability. capacity decrease due to redundant oil in refrigeration cycle, further □ New type scroll compressor Inside chamber Pi=Ps Outside chamber Po=Ps Suction completed Asymmetric scroll disc Interior oil separation mechanism Inside chamber Pi=Ps suction completed supply with high stability Outside chamber Po> Pi condition from the suction to 180°on the way of compression DC variable speed motor low noise Suction losses decreased Leakage losses decreased □ The compressor stator adopts centralized winding stator that can reduce coil height and copper loss;the compressor rotor adopts the latest ncy dramatically. By the use of DC motor, the performance is improved at around 20~80Hz where the operation time of the inverter compressor is longest. Meanwhile, the rotor of compressor is divided into two parts to suppress electromagnetic interference(EMI) which achieves low noise. Low height Low copper loss Using Neodymium Magnetic Materials Optimized rotor shape Rev/min (rpm) 7200 6000 4800 3600 speed controls Unique magnetic noise of DC compressor is removed Centralized winding stator 2400 1200 0 DC motor rotor AC motor 02 Distributed DC motor Centralized DC motor DC Inverter-Driven Technique □ Precise Room Temperature Control □ Latest 180-degree sine wave DC Inverter-Driven Technique The operating speed of DC motor in compressor can be adjusted continuously and freely relating to the variability of system capacity. This technique integrated auto-adaptive control technique automatically adjusts capacity output according to actual air conditioning load in order to achieve a smoother curve of temperature fluctuation to satisfy higher requirements of coziness. Industry-leading inverter controller is adopted in VRF Plus series , it is the upgrade product of mainstream type IGBT inverter controller with small volume and high precision, and it has internal multi-protection controls (over voltage, under voltage, phase loss, phase error, over-current, overheating, etc.), so the control accuracy and reliability of the inverter are improved dramatically. 30° 120° 60° 120° 120° Rectangular wave Load % Electric current Air conditioning capacity output Indoor load Voltage Time Traditional control method Fujitherma Precise Inverter Control Time (h) Load % Electric current Air conditioning capacity output Indoor load 180° 180° Sine wave Voltage Time 180° Sine wave DC Inverter-Driven Technique Conventional Inverter Control Time (h) Stepless fan speed regulation technology ◎ Stepless frequency conversion adjustment of the fan Fan speed High 1050rpm Outdoor unit fan motor adopts DC inverter-driven motor which Stepless speed regulation significantly. The outdoor unit fan can achieve stepless speed regulation according to the ambient temperature changes. Common speed regulation Low ◎The stability of discharge pressure and suction pressure of the compressor is assured; ◎The stability of the indoor unit flow (capacity) dynamic allocation is assured and the fluctuation is reduced; ◎Quick response of control systems is improved, accordingly the stability, durability and reliability of units are assured. ◎ Fan Protection Function In case that the external forces make outdoor unit fan rotate inversely , the fan will be stopped first when the air conditioner is started, and then the fan will rotate normally in accordance with procedures to protect the blades from damage. Convention External forces make the fan counter-rotating Instantaneous reverse rotation with sudden increased torque may cause damage to the blades External forces make the fan counter-rotating Stop the fan before start the unit Anti-backwind Streamlined air grille 0 Forward rotation with small starting torque, protect fan blades 03 Two-stage Supper-cooling Circulation A sub-cooling section is designed in the heat exchanger of outdoor unit to realize the first stage supper-cooling. Furthermore, is applied to achieve the second-stage supper-cooling. The total supper-cooling degree is up to 27℃. □ Two-stage super-cooling cycle diagram □ Two-stage super-cooling pressure enthalpy diagram First stage of super-cooling Second stage of super-cooling Sub-cooler The increased cooling capacity in super-cooling cycle Heat exchanger super-cooling section ○ The two-stage super-cooling cycle improves cooling capacity; ○ The pressure loss of the refrigerant flowing in the pipe is reduced ○ The Increased super-cooling degree promotes the stable operation of the electronic expansion valve; ○ The increased super-cooling degree helps increase the total piping length. Cooling capacity New type efficient heat exchanger Φ7.0mm and new type fins, which reduces the air-flow resistance, of frost on Optimized refrigerant circuit design Common refrigerant circuit Gas Liquid refrigerant refrigerant Liquid refrigerant Gas refrigerant Liquid refrigerant Gas refrigerant Liquid refrigerant Liquid phase Gas-liquid mixed phase Liquid phase Gas refrigerant Gas phase refrigerant Gas phase Gas Gas refrigerant Optimized refrigerant circuit Gas-liquid mixed phase Liquid refrigerant Increase the proportion of liquid refrigerant in the heat exchanger to Gas refrigerant Gas-liquid mixed phase Liquid refrigerant Previous fins The latest developed fins Hierarchical diagram of hydrophilic aluminum foil Lubricating layer Hydrophilic coating copper tube Ő Fin Ő Overlapping section surface of fins Overlapping section surface of fins Thick 04 Wind direction Corrosion-resistant coating Thin Wind direction down flow speed of defrost water or condensate water and improves the air conditioning performance. ○ Central air conditioning system is working under partial load most of the time; VRF Plus series optimizes condition. Smart and precise unit capacity allocation tion is lowest.Take 20HP units (double module) as an example, when the units operate under 12HP load, the load distribution of each module: common product is 10HP (full load) +2HP (ultra-low load); Fujitherma VRF Plus series is 6HP+6 HP (intermediate load). VS Fujitherma VRF Plus Series: Common product: d t be lowest when each module unit is working at 40% - 75% partial load. In normal operation, the module combination is operated at full load + ultra-low load, which influences the service life of units and consumes more power. Demand mode (Energy saving mode) The intelligent demand mode can adjust the air conditioning operation automatically according to peak-valley requirements of electricity. It achieves balance between the comfort and energy saving while meeting the power demand for daily work. Power Consumption When the power consumption value exceeds the set range, it will be restricted Power Saving 20% t ting cos era Setting Power Operati ng cost Daily running time Morning Op Night For mode settings, please contact your local service engineer. The output capacity of the unit at this moment is less than the rated value because operating power is limited. 05 High Intelligence and Reliable Operation High intelligence and reliable operation Fujitherma VRF Plus series innovatively applies a variety of intelligent technology and realizes a series of intelligent operation from component selection to the unit operation. Comprehensive intelligent control capacity ensures Hi quality of the system. Meanwhile, based on the high-end technology support platform of Fujitherma inverter central air-conditioning, the operation of VRF Plus Series is more reliable. Intelligent operation and control □ Operation mode control The system can be locked to the heating mode only or cooling □ Access Management There are room cards and access management function settings, which can realize linkage control in Hotel Management System or Smart Home System,that is,the air conditioner will start working under the previous operation mode when the card is inserted, avoiding the waste running. transitional season. For example, when this function starts, it can be locked to cooling mode only in summer or heating mode only in winter. Cooling mode only in hot summer □“Preconceived” Control While the system is running,if there are some indoor units are set to indoor units will give an alarm "operation restriction", the other units are in normal operation without stopping or alarm. Heating Operating limited Heating mode only in chilly winter 06 □ VIP Service Control The "VIP" mode is designed for the important rooms in the system, that is, giving priority to ensuring heating and cooling needs of VIP room under special power supply circumstances. Power supply shortage ○It is a customized feature, the VIP Room is a room with capacity priority assurance; setting VIP service priority mode VIP Room Capacity priority assurance under harsh working conditions. ON ON ON ON ON □ Automatic addressing System can assign indoor unit addresses without manual setting automatically, it is suitable for the use of multiple indoor units of large system. □ Operating data, fault data displaying channels and display the data. There are four 7-segment high brightness digital tubes to display the real-time fault parameters through adjusting the master PCB buttons of outdoor unit, it is very convenient for commissioning and maintenance □ Service Checker Service Checker is designed to quickly inspect the units operating status. Problems can be found out as early as possible, then solution can be taken accordingly. □ The operating data can be recorded automatically as power failure occurs. When the power supply is restored, the system can fulfill automatic start-up(Manual operation is also allowed), the previous operation mode can be renewed without being reset, which brings more intelligent and considerate service to users. The system operates normally system stops running 01 02 Restore to the previous state when the power supply is recovered. 03 07 Accurate self-diagnosis and self-control of system pressure and temperature □ Fast, accurate pressure sensing technology □ 32-bit MCU and high-speed transmission bus The system pressure is controlled by the use of precise high & low pressure sensors, which can collect the system pressure parameter in high frequency continuously,and the give real-time feedback of measurement results,realizing precise controls in the output through the master controller at first time. Adopting 32-bit MCU data processing, together with the high-speed transfer bus can make up to dozens of multitasking perfect signal processing of outdoor unit control, indoor unit control, temperature control, compressor frequency, fan motor speed and switches, etc. maintain the operation stability. Pressure Sensor Combined with compressor frequency control, fan speed, electronic expansion valve opening degree, the pressure sensing technology puts the condensing pressure and evaporating pressure of system in the best condition, so as to ensure the unit more stable running, more timely protection and longer service life. 32-bit Data processing MCU □ Refrigerant flow control Indoor units adopt microcomputer electric expansion valve with 2000-stage automatic adjustment function, which can make precise flow adjustment automatically according to the actual load of indoor units with more accurate temperature regulation and 01 02 01 Compressor frequency control 02 Fan operation control 03 Electronic expansion valve opening degree control 03 2000-Stage Electric Expansion Valve Unique Design outlet air temperature sensor □ Temperature sensing There are multiple thermal probes in the system, which will make real-time detection and feedback on the outdoor temperature, indoor temperature and outlet air temperature etc,the system output is adjusted by the master controller. 08 Intelligent defrosting mode The outdoor unit adopts outdoor temperature sensor and heat exchanger temperature sensor to make variable-parameter defrosting, accurately grasp the defrosting opportunity, and significantly reduce the amount of frost, only 1/3 of that under ordinary defrosting mode. Meanwhile together with unique bottom anti-frost design structure, “2 in 1” heat exchanger, it can ensure that there is no frost at the bottom of outdoor heat exchanger during winter heating. When defrosting, the mixture of ice and water left along the fins is heated fully to liquid and discharged through the bottom drain hole, so as to avoid accumulation of frost at the bottom leading to poor heating performance. defrosting Fujitherma optimal defrost mode Heating operation Little frost Heating operation Still not much frost Little frost Still not much frost Heating operation Heating operation Heating operation Heating operation Heating operation Common defrosting Heating operation Heating operation Heating operation Heating operation Heating operation Bottom anti-frost design when heating Common multi-split AC defrosting mode only refers to Time and Temperature parameter , besides these, Fujitherma adopts the pressure defrosting mode, which adopts the pressure sensor to get the pressure signal and completes the variable parameters defrosting operation through the Pressure, Temperature and Time parameter. Multiple oil circuit protection Oil balance between outdoor units is realized through two-stage oil separation technology, double oil control technology, and oil balancing control, which ensures more secure and reliable operation of the system. □ The first-stage oil separation □ The second-stage oil separation structure inside high-pressure chamber compressor, only a small amount of oil is brought out of the compressor. A small amount of oil discharged from the compressor is separated by the second-stage oil separation through large-capacity, high over 99%. First-stage oil separation Second-stage oil separation Outdoor unit 1 □ The first-stage oil-return control The accumulator adopts porous oil return technology Outdoor unit 2 4 the oil balance between the compressors within the module, but also plays a role in the oil balance between the modules. 3 2 1 Accumulator 09 □ The second-stage oil-return operation ○ The system implements oil-return operation based on the compressor frequency and corresponding operation time, which avoids the oil retention in the indoor heat exchanger and outdoor heat exchanger when the system is running at low load for a long time, and avoids compressor failure due to lack of refrigeration oil. The oil-return operation time is only 60 seconds, after the oil-return control, it will automatically return to the previous operation state. High Time Z : Low ○ In winter under heating mode, the oil return operation is implemented without changing to the cooling, □ Oil balancing control between outdoor units Oil return operation Compressor Frequency Z Without oil balance piping in outdoor unit, making the oil return more stable, more Through adjusting the relationship between the amount of discharge oil and return oil in the compressor, accumulator and the oil separator, it can realize automatic balance of lubricants between the various outdoor units without oil balance pipes, avoid fluctuations of system pressure and temperature caused by oil balance pipe mode, and simplify the construction and improve the operational stability and comfort of system. for installation. Without oil balance pipe Liquid pipe e Gas pipe Multiple operation mode, ensure long life and reliable operation This time □ Rotational operation By rotational operation technique, the running time of each outdoor unit module is balanced,the unit durability is improved,and the life of the air conditioning system is extended. 2)) Last time 2)) 21 21 2 Next time Rotational 2)) 2)) 21 operation 2)) 2 1 21 2)) □ Dual backup operation The backup operation function that prevents the system from coming to a complete stop can be fulfilled in two ways. 1.as one compressor breaks down, the other compressor in the same outdoor units can be set to emergency operation mode(for 114kBtu/h upward models). 2.As one of the outdoor units breaks down, the rest of outdoor units in the same refrigerant system can turn to operate urgently (For 154kBtu/h upward models). Standby status The first-stage backup Running status Fault Status The second-stage backup Anti-snow Function Connector Outdoor Unit PCB SS3:Snow sensor SS3 In the event of bad weather like snowstorm, even if outdoor unit is not operating, the sensor for snow on outdoor PCB can still be shorted because of natural snowflake, then the outdoor fan motor starts rotating at full speed to prevent outdoor unit from being covered by snow.When air conditioning starts up, the fan motor will turn to normal speed. Power Supply X1 Control Circuit Anti-snow Function Graph *This Function Needs Optional Accessory 10 In order to make the relation between people and air, people and the environment more friendly and natural, Fujitherma VRF Plus focuses on user experience in product design and improving the environment - processing and control of air temperature, humidity, speed, cleanliness; moreover, G series pay much attention to the customer's health - fresh air and quiet and customer’s convenience in use. Smart controllers, simple human-machine interaction Fujitherma has a variety of controllers with smart and beautiful shape, flexible and easy to use. Users can experience a new sense of comfort and smart by making choice according to their personal needs. Advocate and practitioner of low-carbon living space □ Actively respond to RoHS directive RoHS is called [Reduction of the following six Hazardous Substances in Electrical and Electronic Equipment]. This directive prohibits the use of the following six hazardous substances in electrical and electronic equipment [lead, mercury, cadmium, hexavalent chromium, poly-brominated diphenyl ethers (PBDE) or (PBB)]. Fujitherma responds to European RoHS directive actively and carries out a series of procedures and interventions to control hazardous substances. This directive aims to protect human health and ensure recycling and disposal of waste electrical and electronic equipment to meet the environmental requirements. Substance RoHS limit value Typical Test Method Lead 1000ppm Wet chemical treatment or X-ray fluorescence Cadmium 100ppm Wet chemical treatment or X-ray fluorescence Hexavalent chrome 1000ppm Wet chemical treatment or X-ray fluorescence Mercury 1000ppm Wet chemical treatment or X-ray fluorescence PBB/PBDE 1000ppm GCMS, FTTR, or X-ray fluorescence □ Use environment-friendly refrigerant R410A refrigerant R410A , which is non-toxic to humans and will not damage the Earth's ozone layer, create a comfortable, clean living environment for you. High Quality User Experience High Quality User Experience Environment-friendly Refrigerant 11 Precise temperature control, comfortable air supply □ Three-dimensional temperature sensing design □ 360°around air supply, more even temperature The refrigerant flow is regulated by supply air temperature sensor, return air temperature sensor, remote control temperature sensor set in the indoor unit, the air temperature is controlled within the optimum range, satisfying human comfort better by combining with microcomputer controlled high-precision electronic expansion valve of 2000 pulses; while meeting indoor temperature control accuracy of ±0.5℃. Fujitherma 4-way cassette type indoor unit expands supply air flow to every corner of the interior space through 360 degrees all-around supply air and adjustment of the louver position, which forms all-around surround airflow, without dead angle for air supply and ensures the most comfortable space with more even indoor temperature. :XGJOZOUTGRZKSVKXGZ[XK IUTZXURZKINTURUM_ 360° :UUNUZ (KYZ)USLUXZ r 9UIUSLUXZGHRK :UUIURJ 9KZZKSVKXGZ[XK :NXKKJOSKTYOUTGRZKSVKXGZ[XK IUTZXURZKINTURUM_ ॹѽ І Ӓд ן Excellent mute design, achieve ideal quiet environment □ Indoor unit noise control Techniques and installation methods of reducing operating noise of indoor units are researched according to the using occasions, structural features, fan motor, fan blades and duct layout etc, which ensures to provide a most quiet and comfortable air-conditioning environment for the users. 20dB(A) 21 Whisper 30 dB(A) dB(A) In operation In bedroom noise of 30dB (A) 40 dB(A) 70 dB(A) Quiet library Bustling street Noise level of Slim Ceiling Ducted type AVE-07/09* at low speed. □ Noise control of outdoor units Adopt high quality scroll compressor —— Sophisticated manufacturing technology, with characteristics of little vibration and low noise. 12 Silence process of fan motor ——Select cast aluminum as manufacturing material of the fan motor. Motor bracket adopts non-resonant hanger structure to ensure stable electrical motor performance and reducing vibration noise. New type efficient axial fan Night Silence Mode around the fan, uses special materials to absorb vibration and noise, which can significantly reduce "buzzing" sound. ——The outdoor unit has a unique Night Mode setting function, the Max.noise level in full load operation at night is 15dB(A) lower than that in normal operation in daytime, only 41dB (A) (take AVWT-76 for example). Environmental load change curve Temperature change curve The maximum temperature Optimizing axial angle of the wind 8 hours Noise change curve New type blades Optimizing radial angle of the wind 9 hours Decline 15dB(A) 41dB(A) Quick start, quickly meet the needs of the space comfort □ Rapid cooling and heating □ Wide operating range Through quick start technology of the compressor, the unit can achieve 100% output of heating capacity in a very short period of time, and meet the demand for air conditioning in the space quickly. The system can run within a wide temperature range, the lowest heating operation can reach -23℃ in winter. -23℃ WB Heating operation range Need about 90 seconds to reach 100% capacity output (Data of 48HP Model) +19℃WB +50℃DB Cooling operation range -5℃ DB 90 seconds -20 -10 0 10 20 30 40 50 13 High Flexibility of Installation and Maintenance 14 High Flexibility of Installation and Maintenance VRF Plua series pay much attention to every detail in product design, taking full account of the realities of engineering application. The installation flexibility of the product design is greatly improved through a series of technical upgrading. Small size, light weight, saving space in transportation and installation the elevator can be used to uplift the base unit(MAX.170kBtu/h) separately. Easy and flexible transportation and installation are further enhanced by adopting the lightweight and compact design of outdoor units Outside dimension of model 16HP The door size of elevator car with a load of more than 630kg is 800mm×2100mm, the car depth is greater than 1250mm, a single module can be moved in, so it is easy to transport in high-rise buildings. Transportation mode Note:The size of the elevator car is for reference only. Elevator Transportation mode □ Super-long piping conditions, more convenient design Actual piping length: Max. Piping Length: 165m Total Piping Length: 1000m 165m and lowest indoor units: Outdoor Units and Indoor Units: 70m 15m (when outdoor units are higher than indoor units) 70m Between 1st Branch and Indoor Unit: 90m or less Between Indoor Units: 15m (when outdoor units are lower than indoor units) 90m Note: 50m when the ODU is higher than IDU 40m when the ODU is lower than IDU Long Piping Length value, please contact our technique engineer. □ Layered installation, flexibly corresponding to high-rise buildings For high-rise buildings, machine layer can be left to place outdoor units, or machine room can be set up on each floor. By using exhaust duct to outdoor units. Temperature 46.9443 45.4512 43.9582 42.4651 40.9721 39.4790 37.9859 36.4929 34.9998 Airflow Schematic Exhaust duct installation Extra-high external static pressure design Max. 80Pa method, aviation dynamic fluid simulation analysis and other advanced concepts; its air inlet angle and outlet angle are optimized; together with unique horn air vent design, the external static pressure of outdoor unit is higher, which can better exhaust air and ensure smooth air flow. Max. 80Pa ◎ ◎ ◎ Can achieve industry-leading level of external static pressure 80Pa 15 □ Various models, super multi-connected, easily correspond to the changes in spacial layout A wide range of outdoor units can be selected according to the actual situation of the building; there are 9 types of indoor unit to choose from; outdoor units and indoor units can be matched and connected freely, which can be selected rationally according to floor location of the owners, interior room □ Various modes of supply and return air to coordinate with room decoration designs g ducted types, on the he maximum extent. Return air grille Return air grille Duct Duct Duct Duct Return air Return air Return air Check grille Supply air Supply air Supply air Check grille Check grille Supply air Return air Return air hose Supply air Ceiling Supply Ceiling Return Side Supply Ceiling Return Side Supply Side Return * Adopting direct bottom return will make indoor noise increasing 5-8dB (A) □ Adjustable indoor unit static pressure Indoor unit can adjust static pressure automatically according to the house structure and installation condition, ensure that the indoor unit operates in the optimum exhaust state. Duct When the required duct is short, the static pressure can be set lower. 16 Duct When the required duct is long, the static pressure can be set higher; Side Supply bottom Return * Refrigerant judgment and automatic charge function The outdoor unit refrigerant charge state can be judged precisely by the overall judgement for the outdoor temperature, indoor unit air inlet and outlet temperature,supper cooling degree, operating pressure and other factors. Refrigerant One-touch test run The one-touch test run can be operated at the outdoor unit side, and it can also be operated at the indoor unit side, which makes it much earlier for the commissioning. ON ON Realizing test run Realizing test run through the controller through the controller at the indoor unit side 1 2 3 4 5 Cooling mode test run 6 1 2 3 4 5 6 at the indoor unit side Heating mode test run Anti-corrosion teratment for Outdoor Units (Optional) The anti-corrosion treated outdoor units have been designed to provided corrosion resistance against acid rain and salt corrosion.If you need the anti-corrosion type, please contact us. 17 Highly Intelligent Control System Highly Intelligent Control System Fujitherma inverter central air-conditioning intelligent control system can be controlled automatically all by a computer; the overall operation of the system can be easily learned; it can identify and solve problems in time; meanwhile achieve users’ sub-metering of electricity bill, and make intelligent control more humane. Various Controllers Item Wired controller Model name Central controller Wireless controller FHYJ-J01HX FHYJE-D02HX FHYE-Q01X 120*120*68 125*55*16.5 FHYXE-J01HX FHYXE-F01HX FHYXE-G01HX Product dimension (mm) 120*120*16 120*120*19 86*86*12.4 120*120*52.5 Power supply DC 12 ~ 17 V DC 12 ~ 17 V DC 12 ~ 17 V AC1Φ85 ~ 265V 50/60Hz MAX.number of connectable indoor units 16 16 1 128 Appearance ON/OFF Heat/Cool Automatic mode Dehumidification Fan speed Louver Setting Temperature setting 7-Day timer Main Function Auto test run Error code display Operation monitoring Central control Timer Group control (ON/OFF) Mode lock Air filter cleaning reminding Wireless controller disable Check 18 controller AC1Φ220V, 50/60Hz 2 AAA Batteries 160 16 Controllers with more choices, more intelligent and convenient control Fujitherma Mobile Intelligent Terminal Wireless router LAN IPAD FHYJE-H01HX There are two system connection patterns: 1.The converter is connected to the router or switch through wired Ethernet. 2.The adapter is connected to the router through WiFi. Note: The first pattern has better stability, so it is the recommended connection pattern. * The standard parts of this system includes the converter FHYJE-H01HX and the client control software HRM-G01 (it can be downloaded and installed in the APP STORE), The IPAD is the registered trademark of Apple Inc. Main function Operate according to a schedule. Display the alarm code. Max.16 indoor units can be controlled. Adapter specifications Model name FHYJE-H01HX Isolation Voltage AC 3000V Input voltage AC 110~240V 50/60Hz Operating temperature 0℃~40℃ Maximum operating current 10mA(220 V) Operating humidity 30%RH~60%RH 19 Hi-Dom air conditioning management system Hi-Dom air conditioning management system adopts communication bus connection, air conditioning indoor units are connected to the computer through network converter; the system is all controlled automatically by a computer with powerful functions and simple operation. One single computer control system can manage 2,048 indoor units. Main functions ○ Running-state monitoring ○ Determine the temperature limit ○ Running records display ○ Controller prohibition function ○ Access control ○ Automatic operation according to settings ○ Multifunction alarm ○ Service Monitoring Adapter Indoor unit Outdoor Unit Wired controller Master remote controller Wireless remote controller Assistant remote controller Monitoring Center Indoor unit cations Communi network Wired controller Wired controller Client Management Center All the indoor units and outdoor units connected with one adapter comprise one communication BUS system . Max.128 indoor units can be connected to a BUS system. Max.16 adapters can be controlled by one computer. Max.2048 indoor units are under control. Air conditioning electric charge allocation system Fujitherma electric charge allocation system consists of meter reading system and air conditioning management system. In accordance with the operation time and capacity output of indoor and outdoor units, the opening degree of EEV, the electric charge allocation software allocates the total power consumption to each indoor unit. Electric meter Adapter Meter data collector AC system Power supply cable Adapter Main features LAN ○ Accurate and timely electricity calculation Adapter Network connector AC system ○ User’s electricity bill reading by the hour Note: Fujitherma electrical charge calculation software need to customize processing in project according to the users' requirement. Shielded twisted pair cable AC system Electric Charge Allocation System Hi-Dom System Specifications Adapter (Hi-Dom) 20 Model name Power Supply Dimension(mm) Charging Function FHCCS-H128H2C1YMX DC 12V 180*110*40 With charging function FHCCS-H128H2C1NMX DC 12V 180*110*40 Without charging function Building Management System Compatible to multiple communication protocol of BACnet, RS-485 etc. Connectible to BMS or Smart Home System via FHC-A64BNPX or FHLRSCONX all of which can connect to Max. 64 indoor units. Real-time operation status monitoring for inquiry Operation order from monitoring center BACnet FHC-A64BNPX BACnet (Ethernet(LAN)) Intranet Intranet Central Monitoring BMS UPS HC-A64BNP Fire Alarm Disaster Illumination Prevention Air Conditioning i i Fujitherma Supply Air Conditioning i i Air Conditioning Central Station Modbus FHLRSCONX Outdoor Units Indoor Units RS-485(232)network Fujitherma BMS FHLRSCONX Smart Home Controller Converter specifications FHC-A64BNPX FHLRSCONX Converter Item BMS connection Power supply Connectable central controller MAX.number of connectable indoor units Dimension(L*W*H) BACnet AC100~240V±10%(50/60Hz) FHYJE-D02HX 64 240mm*204mm*70mm Modbus AC100~240V±10%(50/60Hz) FHYJE-D02HX 64 171mm*140mm*43mm 21 High quality product lineup Fujitherma VRF Plus series provides a wide selection of indoor units for indoor decoration and creates a personalized living space. Higher Reliability Fujitherma VRF Plus central air conditioning meets all the needs of people for space environment, interior decoration and human health with high-quality multi-choice indoor units, outdoor units and fresh air units, providing people with a new central air-conditioning experience. 22 Extensive outdoor unit products, a single module unit is up to a maximum of 18HP, combined module is up to a maximum of 54HP, which can meet the actual needs of larger and more space. Taking full consideration of the various requirements of people for the indoor products can solve the problems of indoor units well, and make your work and life more healthy. There are up to 8 types of indoor units for consumers to choose. Consumers can select in accordance with the interior decoration and design, which brings a perfect combination from comfort to aesthetic experience. Diverse selection of outdoor units Fujitherma Plus 16HP, 18HP, the capacity of combination module is up to 54HP, with small size, light combinations to meet their own space requirements according to their actual needs. Capacity Model Cooling capacity (kBtu/h) Outdoor unit combination 8HP 10HP 12HP 14HP 16HP 18HP MAX. Number of Connectable indoor units 8HP THX224WDCXXHX 76.5 13 10HP THX280WDCXXHX 95.6 16 12HP THX335WDCXXHX 114.3 19 14HP THX400WDCXXHX 136.5 23 16HP THX450WDCXXHX 153.6 26 18HP THX500WDCXXHX 170.6 26 20HP THX559WDCXXHX 191.1 33 22HP THX624WDCXXHX 209.9 36 24HP THX680WDCXXHX 235.5 40 26HP THX735WDCXXHX 249.1 43 28HP THX800WDCXXHX 273.0 47 30HP THX850WDCXXHX 290.1 50 32HP THX900WDCXXHX 307.2 53 34HP THX950WDCXXHX 324.2 56 36HP THX1000WDCXXHX 341.3 59 38HP THX1070WDCXXHX 372.0 64 40HP THX1120WDCXXHX 382.3 64 42HP THX1170WDCXXHX 402.7 64 44HP THX1235WDCXXHX 426.6 64 46HP THX1285WDCXXHX 450.5 64 48HP THX1335WDCXXHX 464.2 64 50HP THX1400WDCXXHX 477.8 64 52HP THX1450WDCXXHX 494.9 64 54HP THX1500WDCXXHX 511.9 64 23 Outdoor Unit Data Outdoor Unit Items HP. 8HP Model Power Supply AC3Φ380 ~450V/50Hz THX224WCMXXHX 10HP THX280WCMXXHX 12HP 14HP 16HP 18HP THX335WCMXXHX THX400WCMXXHX THX450WCMXXHX THX500WCMXXHX Combination KW 22.4 28.0 33.5 40.0 45.0 50.2 kBtu/h 76.5 95.6 114.3 136.5 153.6 170.6 Consumption Power KW 5.2 7.2 8.5 10.9 13.1 15.1 EER W/W 4.31 3.89 3.95 3.67 3.44 3,33 KW 25.0 31.5 37.5 45.0 50.0 56.0 kBtu/h 85.3 107.5 128.0 153.6 170.6 191.1 Consumption Power KW 5.5 7.4 9.3 10.9 12.4 14.5 COP W/W 4.55 4.26 4.04 4.13 4.04 3.87 Air Flow Rate m³/h 9300 10200 10500 11700 11700 11700 Outer Dimension mm Net Weight kg 224 225 227 312 315 318 Gross Weight kg 237 238 240 327 330 333 Compressor Quantity 1 1 1 2 2 2 Condenser Fan Quantity 1 1 1 1 1 1 Capacity Cooling Capacity Heating 1720×950×750 1720×1210×750 Cabinet Color Ivory White Gas Line mm Ф19.05 Ф22.2 Ф25.4 Ф25.4 Ф28.6 Ф28.6 Liquid Line mm Ф9.53 Ф9.53 Ф12.7 Ф12.7 Ф12.7 Ф15.88 13 16 19 23 26 26 Max. number of connectable IDU Max. Piping Length m 165 165 165 165 165 165 Height Between ODU & IDU m 90(70) 90(70) 90(70) 90(70) 90(70) 90(70) Between IDUs m 15 15 15 15 15 15 dB(A) 56 57 59 59 59 60 Noise Operation Cooling ℃ DB -5 ~50 -5 ~50 -5~50 -5 ~50 -5 ~50 -5 ~50 Range Heating ℃ WB -23~19 -23 ~19 -23~19 -23 ~19 -23 ~19 -23 ~19 mm 1882×1018×828 1882×1018×828 1882×1018×828 1882×1278×828 1882×1278×828 Packing Dimension Note: 1. Rated cooling capacity and rated heating capacity are tested in the following conditions: Cooling conditions: indoor air inlet temperature: 27 DB 19 WB, Outdoor air inlet temperature: 35 Heating conditions: indoor air inlet temperature: 20 DB, Outdoor air inlet temperature: 7 DB 6 2.The above noise values are measured in the anechoic chamber without reflected echo, therefore the impact of the reflected echo must be included at the scene. 3.The final appearance of outdoor units is subject to the actual products. 24 1882×1278×828 20HP 22HP THX559WDCXXHX THX624WDCXXHX 24HP THX680WDCXXHX 26HP THX735WDCXXHX 28HP THX800WDCXXHX 30HP THX850WDCXXHX THX224WDCXXHX THX224WDCXXHX THX280WDCXXHX THX335WDCXXHX THX400WDCXXHX THX400WDCXXHX THX335WDCXXHX THX400WDCXXHX THX400WDCXXHX THX400WDCXXHX THX400WDCXXHX THX450WDCXXHX 56.0 61.5 69.0 73.0 80.0 85.0 191.1 209.9 235.5 249.1 273.0 290.1 13.9 16.2 18.2 19.7 21.9 24.0 4.03 3.80 3.80 3.71 3.66 3.55 63.0 69.0 77.5 82.5 90.0 95.0 215.0 235.5 264.5 281.6 307.2 324.2 14.9 16.5 18.4 20.3 22.0 23.4 4.23 4.19 4.22 4.07 4.10 4.06 19800 21000 21900 22200 23400 23400 1720×(950+950)×750 1720×(1210+1210)×750 1720×(950+1210)×750 224+227 224+312 225+312 227+312 312+312 312+315 237+240 237+327 238+327 240+327 327+327 327+330 2 3 3 3 4 4 2 2 2 2 2 2 Ivory White Ф28.6 Ф28.6 Ф28.6 Ф31.75 Ф31.75 Ф31.75 Ф15.88 Ф15.88 Ф15.88 Ф19.05 Ф19.05 Ф19.05 33 36 40 43 47 50 165 165 165 165 165 165 90(70) 90(70) 90(70) 90(70) 90(70) 90(70) 15 15 15 15 15 15 61 61 61 62 62 62 -5 ~50 -5 ~50 -5 ~50 -5 ~50 -5 ~50 -5 ~50 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -- -- -- -- -- -- 25 Outdoor unit comprehensive parameters Outdoor Unit Items HP. 32HP 34HP THX900WDCXXHX THX950WDCXXHX 36HP 38HP 40HP 42HP Model AC3Φ380~450V/50Hz Power Supply THX1000WDCXXHX THX1070WDCXXHX THX1120WDCXXHX THX1170WDCXXHX THX335WDCXXHX THX335WDCXXHX THX335WDCXXHX THX335WDCXXHX THX335WDCXXHX THX335WDCXXHX THX400WDCXXHX THX450WDCXXHX THX500WDCXXHX 100.0 109.0 112.0 118.0 324.2 341.3 372.0 382.3 402.7 26.2 28.2 30.2 28.4 30.5 32.5 W/W 3.44 3.37 3.32 3.84 3.68 3.64 KW 100.0 106.0 112.0 118.0 125.0 132.0 kBtu/h 341.3 361.8 382.3 402.7 426.6 450.5 24.8 27.1 29.4 29.7 31.1 33.3 W/W 4.04 3.92 3.81 3.98 4.02 3.97 Air Flow Rate m³/h 23400 23400 23400 32700 32700 32700 Outer Dimension mm Net Weight kg 315+315 315+318 318+318 227+227+312 227+227+315 227+227+318 Gross Weight kg 330+330 330+333 333+333 240+240+327 240+240+330 240+240+333 Compressor Quantity 4 4 4 4 4 4 Condenser Fan Quantity 2 2 2 3 3 3 THX450WDCXXHX THX450WDCXXHX THX500WDCXXHX THX450WDCXXHX THX500WDCXXHX THX500WDCXXHX KW 90.0 95.0 kBtu/h 307.2 Consumption Power KW Combination Capacity Cooling EER Capacity Heating Consumption Power KW COP 1720×(1210+1210)×750 1720×(950+950+1210)×750 Ivory White Cabinet Color Gas Line mm Ф31.75 Ф31.75 Ф38.1 Ф38.1 Ф38.1 Ф38.1 Liquid Line mm Ф19.05 Ф19.05 Ф19.05 Ф19.05 Ф19.05 Ф19.05 53 56 59 64 64 64 m 165 165 165 165 165 165 Between ODU & IDU m 90(70) 90(70) 90(70) 90(70) 90(70) 90(70) Between IDUs m 15 15 15 15 15 15 dB(A) 62 63 63 64 64 64 Max. number of connectable IDU Max. Piping Length Height Noise Operation Cooling ℃ DB -5 ~ 50 -5~50 -5 ~ 50 -5~50 -5 ~ 50 -5 ~ 50 Range Heating ℃ WB -23 ~19 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -23 ~19 mm -- -- -- -- Packing Dimension Note: 1. Rated cooling capacity and rated heating capacity are tested in the following conditions: Cooling conditions: indoor air inlet temperature: 27 DB 19 WB, Outdoor air inlet temperature: 35 Heating conditions: indoor air inlet temperature: 20 DB, Outdoor air inlet temperature: 7 DB 6 2.The above noise values are measured in the anechoic chamber without reflected echo, therefore the impact of the reflected echo must be included at the scene. 3.The final appearance of outdoor units is subject to the actual products. 4." * " Means the main model of outdoor unit, For example, the main outdoor unit model of 8HP product is HVR-252W, the model is HVR-252W/SG1FZBp. 26 -- -- 44HP 46HP 48HP 50HP 52HP 54HP THX1235WDCXXHX THX1285WDCXXHX THX1335WDCXXHX THX1400WDCXXHX THX1450WDCXXHX THX1500WDCXXHX THX335WDCXXHX THX335WDCXXHX THX335WDCXXHX THX400WDCXXHX THX450WDCXXHX THX500WDCXXHX THX400WDCXXHX THX450WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX THX500WDCXXHX 125.0 132.0 136.0 140.0 145.0 150.0 426.6 450.5 464.2 477.8 494.9 511.9 34.8 36.9 38.8 41.2 43.3 45.3 3.60 3.58 3.51 3.40 3.35 3.32 140.0 145.0 150.0 155.0 160.0 165.0 477.8 494.9 511.9 529.0 546.1 563.1 35.0 36.5 38.8 40.3 41.8 44.1 4.00 3.98 3.87 3.85 3.83 3.75 33900 33900 33900 35100 35100 35100 1720×(950+1210+1210)×750 1720×(1210+1210+1210)×750 227+312+318 227+315+318 227+318+318 312+318+318 315+318+318 318+318+318 240+327+333 240+330+333 240+333+333 327+333+333 330+333+333 333+333+333 5 5 5 6 6 6 3 3 3 3 3 3 Ivory White Ф38.1 Ф38.1 Ф38.1 Ф38.1 Ф38.1 Ф38.1 Ф19.05 Ф19.05 Ф19.05 Ф19.05 Ф19.05 Ф19.05 64 64 64 64 64 64 165 165 165 165 165 165 90(70) 90(70) 90(70) 90(70) 90(70) 90(70) 15 15 15 15 15 15 64 64 65 65 65 65 -5 ~ 50 -5 ~ 50 -5 ~ 50 -5~ 50 -5 ~50 -5 ~ 50 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -23 ~19 -- -- -- -- -- -- 27 Piping Connection Kit Double Module Combination Model Outdoor Unit A Outdoor unit THX559 ~680 THX735~1000 Branch Pipe FHFQ-M22FX FHFQ-M32FX To Indoor Units Outdoor Unit B Outdoor Unit B Branch Pipe Branch Pipe Outdoor Unit A To Indoor Units Three Module Combination Model Outdoor Unit A Outdoor Unit THX1070~1500 Branch Pipe 1 FHFQ-M32FX Branch Pipe 2 FHFQ-M32FX To Indoor Units Outdoor Unit C Outdoor Unit B Outdoor Unit C Branch Pipe 1 Branch Pipe 2 Outdoor Unit B Outdoor Unit A To Indoor Units Branch Pipe 2 Branch Pipe 1 First Branch Pipe Outdoor unit THX240~280 THX335 ~450 THX500 ~680 THX735 ~1500 Branch Pipe FHFQ-102FX FHFQ-162FX FHFQ-242FX FHFQ-302FX First Branch Pipe~Last Branch Pipe Total Indoor Unit (kBtu/h) Q<57.3 57.3≤Q<86.0 86.0≤Q<114.3 114.3≤Q<153.6 Gas (Фmm) Ф15.88 Ф19.05 Ф22.2 Ф25.4 Ф28.6 Ф28.6 Ф31.75 Ф38.1 Liquid (Фmm) Ф9.53 Ф9.53 Ф9.53 Ф12.7 Ф12.7 Ф15.88 Ф19.05 Ф19.05 Branch Pipe FHFQ-102FX FHFQ-102FX FHFQ-102FX FHFQ-162FX FHFQ-162FX FHFQ-242FX 153.6≤Q<172.0 172.0≤Q<248.5 248.5≤Q<344.7 FHFQ-302FX Q≥344.7 FHFQ-302FX Last Branch Pipe~Indoor Unit Pipe Size (Φmm) Indoor Unit(kBtu/h) Gas Pipe Liquid Pipe 7~14 12.7 6.35 15 17~18 15.88 6.35*1 15 22~54 15.88 9.53 40 76 19.05 9.53 40 96 22.2 9.53 40 NOTES: 1. When liquid pipe length of indoor unit(07~18kBtu/h) is more than 15m, please change the liquid pipe dimension from Φ6.35 into Φ9.53. 28 Max. Liquid Pipe Length Extensive indoor unit products Meet the needs of individual space experience Fujitherma VRF Plus series has a variety of indoor units to choose from, together with interior decoration, it brings you individual home space to enjoy what you want. Indoor Units HP Type 0.8 1.0 1.3 1.5 1.8 2.0 2.3 2.5 3.0 3.3 4.0 5.0 6.0 8 10 7 9 12 14 17 18 22 24 27 30 38 48 54 76 96 Model kBtu/h Ceiling Ducted (Low Static Pressure) Ceiling Ducted (High Static Pressure) Low-Height Ceiling Ducted Slim Ceiling Ducted 4-Way Cassette Compact 4-Way Cassette Ceiling & Floor Wall Mounted Wall Mounted Floor Concealed 29 Ceiling Ducted Type (Low Static Pressure) Installation Space-saving Fresh indoor Air less than 270mm in height can be easily fit into the limited space in the false ceiling (7.5-24.2KBtu/h). By introducing fresh outdoor air and being equipped with air filter to keep indoor air clean. Minimum 5mm 270mm Excellent Air Flow 7.5-24.2Btu/h False Ceiling Cooling/heating air distributed from the unit to indoor space through ducts, which creates a comfortable environment. Flexibly supports a wide range of installation Optional Parts Drain-up mechanism can be supplied as optional part. Indoor Unit Duct Canvas Duct(Field-supplied) Air Inlet Maximum 900mm Air Filter,Air Grid (Field-supplied) NOTE: When bottom air inlet is adopted, sound pressure will increase according to factors such as installation mode and the room structure. Condensate Drain-up Ceiling Ducted Type (Low Static Pressure) Indoor Unit Model Power Supply AC1Φ 220 ~240V /50Hz DTHX DTHX 22HHX 28HHX DTHX 36HHX DTHX 43HHX DTHX 50HHX DTHX 56HHX DTHX 63HHX DTHX 71HHX DTHX 84HHX DTHX 90HHX DTHX 112HHX DTHX 142HHX DTHX 160HHX DTHX 250HHX DTHX 280HHX kW 2.2 2.8 3.6 4.3 5.0 5.6 6.3 7.1 8.4 9.0 11.2 14.2 16.0 22.4 28.0 kcal/h 1,900 2,400 3,100 3,700 4,300 4,800 5,400 6,100 7,200 7,700 9,600 12,200 13,800 19,300 24,100 Btu/h 7,500 9,600 12,300 14,700 17,100 19,100 21,500 24,200 28,700 30,700 38,200 48,500 54,600 76,500 95,600 kW 2.8 3.3 4.2 4.9 5.6 6.5 7.5 8.5 9.6 10.0 13.0 16.3 18.0 25.0 31.5 kcal/h 2,400 2,800 3,600 4,200 4,800 5,600 6,500 7,300 8,300 8,600 11,200 14,000 15,500 21,500 27,100 Btu/h 9,600 11,300 14,300 16,700 19,100 22,200 25,600 29,000 32,800 34,100 44,400 55,600 61,400 85,300 107,500 39-35-31 41-38-33 43-39-34 50 52 Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) dB(A) Outer Dimensions (H x W x D) mm Net Weight kg 30-26-24 30-26-24 32-30-28 32-30-28 33-31-29 33-31-29 34-32-30 34-32-30 38-34-30 38-34-30 270×(650+75)×720 25 25 25 270×(900+75)×720 25 34 Refrigerant Indoor Fan Air Flow Rate (High/Medium/Low) 34 34 44 44 44 350×(1300+75) ×800 56 56 470×1060 470×1250 ×1120 ×1120 94 106 3480 4320 950 1120 R410A(Nitrogen-charged for Corrosion-resistance) 3 m /h Motor Power W 480/420 480/420 780/660 780/660 900/780 900/780 960/840 960/840 1550/1350 1550/1350 1550/1350 2150/1800 2200/1900 /1500 /660 /1500 /360 /660 /360 /720 /1150 /1150 /720 /540 /540 /1150 110 110 150 150 150 150 150 190 300 300 300 430 430 Flare-nut Connection(with Flare Nuts) Refrigerant Piping Connection Brazing Liquid Line mm Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Gas Line mm Φ12.7 Φ12.7 Φ12.7 Φ12.7 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ19.05 Φ22.2 VP25(Outer Diameter Φ32 ) Condensate Drain External Static Pressure Pa Approximate Packing Measurement m 3 30 30 30 30 30 30 30 30 60 60 60 60 60 100 100 0.21 0.21 0.21 0.21 0.27 0.27 0.27 0.27 0.38 0.38 0.38 0.52 0.52 0.90 1.06 NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 30 34 350×(900+75)×800 2. The sound pressure level is based on following conditions: 1.5m beneath the unit. With discharge duct (2.0m) and return duct(1.0m) The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. When bottom air inlet is adopted, sound pressure will increase according to factors such as installation mode and the room structure. 3. *1: AC3Φ, 380 ~ 415V/50Hz, *2: AC3Φ, 380V/60Hz Ceiling Ducted Type (High Static Pressure) Installation Space-saving Fresh indoor Air less than 270mm in height can be easily fit into the limited space in the false ceiling (7.5-24.2KBtu/h). By introducing fresh outdoor air and being equipped with air filter to keep indoor air clean. Minimum 5mm 270mm Excellent Air Flow 7.5-24.2Btu/h False Ceiling Cooling/heating air distributed from the unit to indoor space through ducts, which creates a comfortable environment. Flexibly supports a wide range of installation conditions at site Optional Parts Drain-up mechanism can be supplied as optional part. Indoor Unit Duct Canvas Duct(Field-supplied) Air Inlet Maximum 900mm Air Filter,Air Grid (Field-supplied) NOTE: When bottom air inlet is adopted, sound pressure will increase according to factors such as installation method and the room structure. Condensate Drain-up Indoor Unit Model Power Supply Ceiling Ducted Type (High Static Pressure) AC1Φ 220 ~240V /50Hz Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) DHTHX 22HHX DHTHX 28HHX DHTHX 36HHX DHTHX 43HHX DHTHX 50HHX DHTHX 56HHX DHTHX 63HHX DHTHX 71HHX DHTHX 84HHX DHTHX 90HHX DHTHX 112HHX DHTHX 142HHX DHTHX 160HHX kW 2.2 2.8 3.6 4.3 5.0 5.6 6.3 7.1 8.4 9.0 11.2 14.2 16.0 22.4 28.0 kcal/h 1,900 2,400 3,100 3,700 4,300 4,800 5,400 6,100 7,200 7,700 9,600 12,200 13,800 19,300 24,100 Btu/h 7,500 9,600 12,300 14,700 17,100 19,100 21,500 24,200 28,700 30,700 38,200 48,500 54,600 76,500 95,600 kW 2.8 3.3 4.2 4.9 5.6 6.5 7.5 8.5 9.6 10.0 13.0 16.3 18.0 25.0 31.5 kcal/h 2,400 2,800 3,600 4,200 4,800 5,600 6,500 7,300 8,300 8,600 11,200 14,000 15,500 21,500 27,100 Btu/h 9,600 11,300 14,300 16,700 19,100 22,200 25,600 29,000 32,800 34,100 44,400 55,600 61,400 85,300 107,500 44-41-36 43-40-37 52 54 dB(A) 33-31-29 33-31-29 33-31-29 33-31-29 34-32-30 34-32-30 36-34-32 36-34-32 41-39-34 Outer Dimensions (H x W x D) mm Net Weight kg 270×(650+75) ×720 25 25 25 270×(900+75)×720 25 34 Refrigerant Indoor Fan Air Flow Rate (High/Medium/Low) Motor Power 34 34 41-39-34 43-40-36 350×(1300+75)×800 350×(900+75)×800 34 44 44 44 56 56 DHTHX DHTHX 250HHX 280HHX 470×1060 470×1250 ×1120 ×1120 94 106 3480 4650 1030 1280 R410A(Nitrogen-charged for Corrosion-resistance) m3/h W 480/420 480/420 780/660 780/660 900/780 900/780 960/840 960/840 1600/1400 1600/1400 1600/1400 2100/1750 2150/1800 /540 /660 /720 /1150 /1150 /360 /360 /540 /660 /720 /1150 /1450 /1550 110 110 150 150 150 150 Refrigerant Piping Connection 150 190 300 300 300 430 430 Flare-nut Connection(with Flare Nuts) Brazing Liquid Line mm Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Gas Line mm Φ12.7 Φ12.7 Φ12.7 Φ12.7 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ19.05 Φ22.2 VP25(Outer Diameter Φ32 ) Condensate Drain External Static Pressure Pa 50(80) 50(80) 50(80) 50(80) 50(80) 50(80) 50(80) 50(80) 120(90) 120(90) 120(90) 120(90) 120(90) 220 220 Approximate Packing Measurement m3 0.21 0.21 0.21 0.21 0.27 0.27 0.27 0.27 0.38 0.38 0.38 0.52 0.52 0.90 1.06 NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 2. The sound pressure level is based on following conditions: 1.5m beneath the unit. With discharge duct (2.0m) and return duct(1.0m) The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. When bottom air inlet is adopted, sound pressure will increase according to factors such as installation mode and the room structure. 3. *1: AC3Φ, 380 ~ 415V/50Hz, *2: AC3Φ, 380V/60Hz 31 Low-height Ceiling Ducted Type Installation Space-saving Broad Range of External Static Pressure 10Pa(0r30pa), flexibly supports a wide range of installation conditions at site, e.g. longer ducts and shorter ducts supplied. Minimum 5mm With a height of 192mm may be easily installed inside the low height residential ceiling. 192mm False Ceiling Satisfy Varied Requests on Installation Available air inlet as rear or bottom entry, consumers can choose relevant air inlet mode according to the practical installation space. Drain-up Mechanism as Standard part Drain-up length achieves 900mm which enables convenient drain piping and enlarges the flexibility of installation. Indoor Unit Elastic Hose Duct Drain-up Length 900mm Canvas Duct(Field-supplied) Air Inlet Air Filter,Air Grid (Field-supplied) (Installation Diagram of Air Bottom Inlet) Indoor Unit Low-height Ceiling Ducted Type AC1Φ 220~240V /50Hz DHTHXSL 22HHX DHTHXSL 28HHX DHTHXSL 36HHX DHTHXSL 43HHX DHTHXSL 50HHX DHTHXSL 56HHX DHTHXSL 63HHX DHTHXSL 71HHX kW 2.2 2.8 3.6 4.3 5.0 5.6 6.3 7.1 kcal/h 1,900 2,400 3,100 3,700 4,300 4,800 5,400 6,100 Btu/h 7,500 9,600 12,300 14,700 17,100 19,100 21,500 24,200 kW 2.8 3.3 4.2 4.9 5.6 6.5 7.5 8.5 kcal/h 2,400 2,800 3,600 4,200 4,800 5,600 6,500 7,300 Btu/h 9,600 11,300 14,300 16,700 19,100 22,200 25,600 29,000 dB(A) 27-24-21 27-24-21 32-30-27 32-30-27 34-30-28 34-30-28 36-32-29 36 -32-29 Outer Dimensions (H x W x D) mm 192×900×447 192×900×447 192×900×447 192×900×447 192×1170×447 192×1170×447 192×1170×447 192×1170×447 Net Weight kg 20 20 21 21 26 26 26 26 Model Power Supply Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) R410A(Nitrogen-charged for Corrosion-resistance) Refrigerant Indoor Fan Air Flow Rate (High/Medium/Low) Motor Power m3/h 500/440/350 500/440/350 640/590/520 640/590/520 870/750/630 870/750/630 950/820/170 950/820/170 W 50 50 70 70 100 100 110 110 Flare-nut Connection(with Flare Nuts) Refrigerant Piping Connection Liquid Line mm Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ9.53 Φ9.53 Gas Line mm Φ12.7 Φ12.7 Φ12.7 Φ12.7 Φ15.88 Φ15.88 Φ15.88 Φ15.88 VP25(Outer Diameter Φ32 ) Condensate Drain External Static Pressure Approximate Packing Measurement Pa 3 m 10(30) 10(30) 10(30) 10(30) 10(30) 10(30) 10(30) 10(30) 0.15 0.15 0.15 0.15 0.18 0.18 0.18 0.18 NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 32 2. The sound pressure level is based on following conditions: 1.5m beneath the unit. With discharge duct (2.0m) and return duct(1.0m) The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. When bottom air inlet is adopted, sound pressure will increase according to factors such as installation mode and the room structure. Slim Ceiling Ducted Type Installation Space-saving Broad Range of External Static Pressure Minimum 5mm With a width of 700mm may be easily installed inside narrow residential ceiling. 10Pa(0r30pa), flexibly supports a wide range of installation conditions at site, e.g. longer ducts and shorter ducts supplied. 700mm False Ceiling Satisfy Varied Requests on Installation Available air inlet as rear or bottom entry, consumers can choose relevant air inlet mode according to the practical installation space. Drain-up Mechanism as Standard part Drain-up length achieves 900mm which enables convenient drain piping and enlarges the flexibility of installation. Indoor Unit Duct Elastic Hose Canvas Duct(Field-supplied) Air Inlet Air Filter,Air Grid (Field-supplied) Drain-up Length 900mm (Installation Diagram of Air Bottom Inlet) Indoor Unit Model Power Supply Slim Ceiling Ducted Type AC1Φ 220~ 240V/50Hz Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) DHTHXSSL22HHX DHTHXSSL28HHX DHTHXSSL36HHX DHTHXSSL43HHX kW 2.2 2.8 3.6 4.3 kcal/h 1,900 2,400 3,100 3,700 Btu/h 7,500 9,600 12,300 14,700 kW 2.8 3.3 4.2 4.9 kcal/h 2,400 2,800 3,600 4,200 Btu/h 9,600 11,300 14,300 16,700 dB(A) 27-23-21 27-23-21 31-29-27 31-29-27 Outer Dimensions (H x W x D) mm 192×700×602 192×700×602 192×700×602 192×700×602 Net Weight kg 21 21 21 21 Refrigerant Indoor Fan Air Flow Rate (High/Medium/Low) Motor Power R410A(Nitrogen-charged fo fforr Corrosion-resistance) m3/h 450/380/335 W 50 450/380/335 590/510/470 590/510/470 50 60 60 Flare-nut Connection(with Flare Nuts) Refrigerant Piping Connection Liquid Line mm Φ6.35 Φ6.35 Φ6.35 Φ6.35 Gas Line mm Φ12.7 Φ12.7 Φ12.7 Φ12.7 VP25(Outer Diameter Φ32 ) Condensate Drain External Static Pressure Pa 10(30) 10(30) 10(30) 10(30) Approximate Packing Measurement m3 0.15 0.15 0.15 0.15 NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 2. The sound pressure level is based on following conditions: 1.5m beneath the unit. . The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. When bottom air inlet is adopted, sound pressure will increase according to factors such as installation mode and the room structure. 33 4-Way Cassette Type Extremely Quit Operation By employing a super-high-stream turbo fan (Three-dimensional With broad range of air supply, is suitable to be used in high ceiling and great space has been improved. With the under damping slit mounted near the center of the revolving shaft, the abnormal noise which is unique to DC motors caused by the number of magnetic poles and revolution speed of the motor,is reduced. Unified Panel Sizes Panel sizes are unifide to a 950mm square, neat and elegance, and well harmonized with decoration. Compact and Thin Input power reduced by applying of new developed DC fan motor The height of the unit is just 248mm (Less than 24.2Btu/h), so it can be installed in a small space inside a ceiling. Employed several new technologies such as a ferritic magnetic surface-mounted rotor, centralized winding system and split core Drain-up Mechanism as Standard Part and lighter. Body height easily adjustable in the corner pockets A pocket is provided for each of the four panel corners, so that the body height can be adjusted easily without removing the panel. 4-Way Cassette Type Indoor Unit Model Power Supply AC1Φ 220~240V /50Hz Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) Outer Dimensions (H x W x D) Net Weight CTHX 28HHX CTHX 36HHX CTHX 43HHX CTHX 50HHX Motor Power CTHX 71HHX CTHX 84HHX CTHX 90HHX CTHX 112HHX CTHX 142HHX CTHX 160HHX kW 2.8 3.6 4.3 5.0 5.6 6.3 7.1 8.4 9.0 11.2 14.2 16.0 2,400 3,100 3,700 4,300 4,800 5,400 6,100 7,200 7,700 9,600 12,200 13,800 Btu/h 9,600 12,300 14,700 17,100 19,100 21,500 24,200 28,700 30,700 38,200 48,500 54,600 kW 3.3 4.2 4.9 5.6 6.5 7.5 8.5 9.6 10.0 13.0 16.3 18.0 kcal/h 2,800 3,600 4,200 4,800 5,600 6,500 7,300 8,300 8,600 11,200 14,000 15,500 Btu/h 11,300 14,300 16,700 19,100 22,200 25,600 29,000 32,800 34,100 44,400 55,600 61,400 dB(A) 30-29-27 31-29-27 31-29-27 32-30-27 32-30-27 33-31-29 33-31-29 36-34-32 36-34-32 41-38-35 44-39-36 44-42-38 22 22 22 23 23 23 24 24 27 248 x 840 x 840 mm kg 23 298 x 840 x 840 27 27 R410A(Nitrogen-charged for Corrosion-resistance) m3/h 780/720 /660 900/810 /720 900/810 /720 960/840 /720 W 40 50 50 50 Refrigerant Piping Connection 960/840 /720 1140/1020 /840 1200/1020 /900 1560/1380 /1200 1560/1380 /1200 1920/1680 /1440 50 60 60 90 90 120 2040/1740 2220/1920 /1500 /1620 150 160 Flare-nut Connection(with Flare Nuts) Liquid Line mm Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ6.35 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Φ9.53 Gas Line mm Φ12.7 Φ12.7 Φ12.7 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 m3 0.22 0.22 0.22 0.22 0.22 0.26 0..26 0.26 0.26 0.26 Condensate Drain Approximate Packing Measurement VP25(Outer Diameter Φ32 ) 0.22 0.22 Suspension Brackets Standard Accessories Panel Model HPE-A-NA Cabinet Color Neutral White Outer Dimensions (H x W x D) 37 x950 x 950 mm Net Weight kg 6 6 6 6 6 6 6 6 6 6 6 6 Approximate Packing Measurement m3 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08 NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 34 CTHX 63HHX kcal/h Refrigerant Indoor Fan Air Flow Rate (High/Medium/Low) CTHX 56HHX 2. The sound pressure level is based on following conditions: 1.5m beneath the unit. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. Compact 4-Way Cassette Type Compact Design Convenience for washing filter Panel sizes are unifide to a 650mm square, neat and elegance, and fit small ceiling panel, making installation easier in grid ceilings. “FILTER” will be shown on the display of the remote control switch after approximately 1200 hours operation. And the filter can be taken out conveniently. Broad range of air supply Drain-up Mechanism as Standard Part The recommended installation height is 2.5 meter, and it’s can also be adapted for high ceiling installation, by using the fan moter speed-up setting. To shift to SHi setting , connect cable terminal of SHi to the power line of the fan moter. Maximum Height 740mm Condensate Drain-up *The wireless remote controller HYE-Q01 is standard for Compact 4-Way Cassette Type Compact 4-Way Cassette Type Indoor Unit Model Power Supply AC1Φ 220 ~240V /50Hz CSTHX22HHX CSTHX28HHX CSTHX36HHX CSTHX43HHX CSTHX50HHX kW 2.2 2.8 3.6 4.3 5.0 kcal/h 1,900 2,400 3,100 3,700 4,300 Btu/h 7,500 9,600 12,300 14,700 17,100 kW 2.8 3.3 4.2 4.9 5.6 kcal/h 2,400 2,800 3,600 4,200 4,800 Nominal Heating Capacity Btu/h 9,600 11,300 14,300 16,700 19,100 Sound Pressure Level (High/Medium/Low) Nominal Cooling Capacity dB(A) 39-34-30 39-34-30 39-34-30 41-38-33 44-41-37 Outer Dimensions (H x W x D) mm 270×570×570 270×570×570 270×570×570 270×570×570 270×570×570 Net Weight kg 20 20 20 20 20 R410A(Nitrogen-charged for Corrosion-resistance) Refrigerant Indoor Fan Air Flow Rate (High/Medium/Low) m3/h 570/480/384 570/480/384 63 W 63 Liquid Line mm Φ6.35 Φ6.35 Gas Line mm Φ12.7 Φ12.7 Motor Power 654/564/456 792/690/588 71 89 Φ6.35 Φ6.35 Φ6.35 Φ12.7 Φ12.7 Φ15.88 0.18 0.18 0.18 63 Flare-nut Connection(with Flare Nuts) Refrigerant Piping Connection VP25(Outer Diameter Φ32 ) Condensate Drain Approximate Packing Measurement 570/480/384 m3 0.18 0.18 Standard Accessories Suspension Drackets Panel Model HPE-CR-NA Cabinet Color Neutral White Outer Dimensions (H x W x D) mm 30×650×650 30×650×650 30×650×650 30×650×650 30×650×650 Net Weight kg 2.4 2.4 2.4 2.4 2.4 Approximate Packing m3 0.07 0.07 0.07 0.07 0.07 NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 2. The sound pressure level is based on following conditions: 1.5m beneath the unit. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. 35 Ceiling & Floor Type New Fashion Design Appearance and High Quality 3D airflow, comfortable air circulation The fashionable design and streamline appearance make it a perfect choice for users.The integrative side panel makes the whole unit more concordant.Huge air outlet with an integrative large louver realizes high air volume and low noise. Vertical air flow and horizontal airflow can be adjusted; Fulfill the optimum air organization, more comfortable. Convenient installation & Comfortable air circulation Fresh air in-take design The unit can be installed either horizontally on the ceiling or vertically against the wall.The ceiling installation method saves room space, and the floor installation method helps prevent losing warm air. Vertical air flow and horizontal airflow can be adjusted; Fulfill the optimum airflow organization, more comfortable. The Ceiling & Floor type creates comfortable and healthy environment by introducing fresh outdoor air. *The wireless remote controller HYE-Q01 is standard for Ceiling & Floor Type Indoor Unit Ceiling & Floor type Model FTHXEV50HHX FTHXEV56HHX FTHXEV63HHX FTHXEV71HHX FTHXEV84HHX FTHXEV90HHX FTHXEV112HHX FTHXEV142HHX 220-240V/50HZ Power Source kW 5.0 5.6 6.3 7.1 8.4 9.0 11.2 14.2 kcal/h 4,300 4,800 5,400 6,100 7,200 7,700 9,600 12,200 Btu/h 17,100 19,100 21,500 24,200 28,700 30,700 38,200 48,500 kW 5.6 6.5 7.5 8.5 9.6 10.0 13.0 16.3 kcal/h 4,800 5,600 6,500 7,300 8,300 8,600 11,200 14,000 Btu/h 19,100 22,200 25,600 29,000 32,800 34,100 44,400 55,600 W 40 40 70 70 70 80 130 160 m³/min 13/11/9 13/11/9 16.1/14//11.3 16.1/14//11.3 18.2/15.2/12.2 19.4/16.3/13.3 24.8/20.5/16.3 33/28/23 dB(A) 39/35/30 39/35/30 45/41/37 45/41/37 43/39/34 45/40/36 51/46/40 50/46/42 mm 990×680×230 990×680×230 990×680×230 990×680×230 1285×680×230 1285×680×230 1285×680×230 1580×680×230 Net Weight kg 31 31 32 32 39 40 41 47 Gross Weight kg 38 38 39 39 46 47 48 56 Norminal Cooling Capacity Normal Heating Capacity Motor Power input Air Flow Rate Hi/Me/Lo Sound Pressure Outer Dimensions (H×W×D) R410A Refrigerant Flare-nut Connection(with Flare Nuts) Refrigerant Piping Connection Liquid Line Gas Line mm (in.) Φ6.35 (1/4) Φ6.35 (1/4) Φ9.53 (3/8) Φ9.53 (3/8) Φ9.53 (3/8) Φ9.53 (3/8) Φ9.53 (3/8) Φ9.53 (3/8) mm Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 Φ15.88 (in.) (5/8) (5/8) (5/8) (5/8) (5/8) (5/8) (5/8) (5/8) VP25(Outer Diameter Φ32) Condensate Drain Outer Dimensions of Package (H×W×D) Speed-up Setting HH1 Speed-up Setting HH2 mm 1110×830×340 1110×830×340 1110×830×340 1110×830×340 1400×830×340 1400×830×340 1400×830×340 1690×830×340 mm³/min 14.2 14.2 17.8 17.8 19.8 21.2 27 36 16 16 20 20 22.3 23.5 29.2 37.4 mm³/min NOTES: 1.The nominal cooling capacity and heating capacity are based on following condations: Cooling Operation Condations Indoor Air Inlet Temperature: 27℃ DB(80°F DB)19℃ WB(66.2°F DB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 5.0Meter Piping Lift: 0Meter Heating Operation Condations Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature:7℃ DB(45°F DB)6℃ DB(43°F DB) 36 2.The sound pressure level is based on following condations: 1.0m beneath the unit,1.0m from Discharge Grille. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. When bottom air inlet is adopted,sound pressure will increase according to factors such as installation mode and the room structure. Wall Mounted Type Use the new “Wonder Flap” Elegant design, harmonizing with any type of interior design Uses the “Wonder Flap” in its air outlet. The flap, provided with three flow guides each at its right and left sides, helps disperse the air flow. The quality of “elegance” is additionally provided to meet contemporary needs. Features a simple, smooth form that harmonizes with any interior style. throughout the room. Anti-mold filter Anti-mold filter is equipped as standard accessory. Compact and light weight, allowing easy installation Designed with ease of installation in mind, this new model adopts a slim design and uses a high proportion of lightweight resin parts. Unit weight has been vastly reduced. Wall Mounted Type Indoor Unit Model Power Supply *The wireless remote controller HYE-Q01 is standard for Wall Mounted Type AC1Φ 220~240V/50Hz Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) WTHXEV28HHX WTHXEV45HHX WTHXEV56HHX kW 2.8 4.0 5.6 6.3 kcal/h 2,400 3,400 4,800 5,400 Btu/h 9,600 13,700 19,100 21,500 kW 3.2 4.8 6.3 7.5 kcal/h 2,800 4,100 5,400 6,500 Btu/h 10,900 16,400 21,500 25,600 dB(A) 38-36-33 41-37-34 43-41-38 44-43-42 22 24 720/630/570 770/700/620 820/770/710 40 50 50 Cabinet Color Silky White Outer Dimensions (H x W x D) mm Net Weight kg 305 x 870 x 225 9 Motor Power m3/h 650/600/550 W 30 Flare-nut Connection(with Flare Nuts) Refrigerant Piping Connection Liquid Line Gas Line mm Φ6.35 Φ6.35 Φ6.35 Φ6.35 mm Φ12.7 Φ12.7 Φ15.88 Φ15.88 VP16 VP16 VP16 VP16 0.11 0.11 0.11 0.11 Condensate Drain Approximate Packing Measurement 16 R410A(Nitrogen-charged for Corrosion-resistance) Refrigerant Indoor Fan Air Flow Rate (Cooling/Heating) WTHXEV63HHX m3 Standard Accessories NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) Wall Mounting Bracket 2. The sound pressure level is based on following conditions: 1.0m beneath the unit and 1.0m from inlet grille. Voltage of the power source for the indoor fan motor is 220V. In case of the power sourse of 240V, the sound pressure level increases by about 1~2dB. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. 37 Floor Concealed Type Compact design for limited space inside of perimeter wall So compact that it fits into even a tiny space Special emphasis placed on interior design compatibility as well as space saving design,allowing it to fit perfectly into the space below a bay window. So compact that it fits into even a tiny space. Indoor Unit Model Power Supply Nominal Cooling Capacity Nominal Heating Capacity Sound Pressure Level (High/Medium/Low) Floor Concealed Type AC1Ф 220 ~240V /50Hz FTHXEV28COHX FTHXEV43COHX FTHXEV56COHX FTHXEV71COHX kW 2.8 4.3 5.6 7.1 kcal/h 2,400 3,700 4,800 6,100 Btu/h 9,600 14,700 19,100 24,200 kW 3.3 4.9 6.5 8.5 kcal/h 2,800 4,200 5,600 7,300 Btu/h 11,300 16,700 22,200 29,000 dB(A) 34-31-27 40-36-34 41-36-32 44-40-36 Silky White Cabinet Color Outer Dimensions (H x W x D) mm Net Weight kg 620 x 900 x 202 18 Motor Power 26 27 3 m /h 510/450/380 620/540/480 890/740/630 980/830/710 W 50 80 90 120 Refrigerant Piping Connection Flare-nut Connection(with Flare Nuts) Liquid Line mm Φ6.35 Φ6.35 Φ6.35 Φ9.53 Gas Line mm Φ12.7 Φ12.7 Φ15.88 Φ15.88 VP25 VP25 VP25 VP25 0.19 0.19 0.23 0.23 Condensate Drain Approximate Packing Measurement 3 m NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions: Cooling Operation Conditions Indoor Air Inlet Temperature: 27℃ DB(80°F DB), 19.0℃WB(66.2°F WB) Outdoor Air Inlet Temperature: 35℃ DB(95°F DB) Piping Length: 7.5 Meters Piping Lift: 0 Meter Heating Operation Conditions Indoor Air Inlet Temperature: 20℃ DB(68°F DB) Outdoor Air Inlet Temperature: 7℃DB(45°F DB), 6℃WB(43°F WB) 38 22 R410A(Nitrogen-charged for Corrosion-resistance) Refrigerant Indoor Fan Air Flow Rate (Cooling/Heating) 620 x 1170 x 202 2. The sound pressure level is based on following conditions: 1.5m meters from the unit and 1.5m meters from floor level. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the field. All Fresh Air Indoor Unit (Only For M/R/G Series) Create comfortable and healthy indoor environment Flexible line-up to Fujitherma VRF Plus series Create a comfortable and healthy indoor environment by introducing fresh outdoor air. By heating or cooling fresh outdoor air to almost the same temperature as room temperature, fresh ambient air can be adapted and then introduced into indoor room. Besides, after filtered, fresh outdoor air in transition seasons can be drawn to indoor room directly with no need of heating or cooling operation, While fresh outdoor air is introduced, other indoor units don’t bear fresh air load. All fresh air indoor unit is applicable to Fujitherma VRF Plus series outdoor units. Both Fujitherma , VRF Plus series indoor units and all fresh air indoor units can be used in Fujitherma VRF Plus series system. Higher external static pressure Advanced control Can be interfaced to Hi-Dom system. Easy electrical wiring design and installation. Better installation flexibility at site, longer duct can be connected. Model DHTHXFA90HHX DHTHXFA140HHX DHTHXFA224HHX Power Supply AC1Φ, 220~240V/50Hz AC1Φ, 220 240V/50Hz AC1Φ, 220~240V/50Hz DHTHXFA224HHX AC1Φ, 220V/60Hz DHTHXFA280HHX DHTHXFA280HHX AC1Φ, 220~240V/50Hz AC1Φ, 220/60Hz Fujitherma VRF Plus Combined Outdoor Unit Model kW 9.0 14.0 22.4 28.0 Btu/h 30,700 47,800 76,500 95,600 kW 8.6 13.7 21.9 24.5 Btu/h 29,400 46,800 74,700 83,600 kW 0.15 0.33 0.49 0.61 0.51 0.71 2.25 2.79 2.35 3.25 Cooling Capacity Heating Capacity Power Input A 0.65 1.45 H mm 370 370 486 486 W mm 920 1,320 1,270 1,270 D mm 800 800 1,069 1,069 dB 32 43 45 46 kg 46 60 97 97 Nominal Capacity Outer Dimensions Sound Pressurd Level Net Weight R410A Refrigerant Indoor Fan Air Flow Rate m3/h 660 1080 1680 2100 External Static Pressure Pa 60(120) 200 220 220 VP25,Outer Diameter: Φ32mm Drain Piping Size Refrigerant Liquid Line Size mm Refrigerant Gas Line Size mm Temperature Range of Fresh Air Drawn Φ9.53 Φ9.53 Φ15.88 Φ9.53 Φ9.53 Φ19.05 Φ22.2 Cooling: 20℃~43℃,Heating: -7℃~ 15℃ NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions Cooling operation conditions: 33℃ DB, 28℃ WB, piping length: 7.5m, piping lift: 0m Heating operation conditions: 0℃ DB, -9℃ WB, piping length: 7.5m, piping lift: 0m (Heating capacity is tested when defrosting is not available ) 2.The sound pressure level is based on following conditions: 1.5 Meter beneath the unit. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the filed. 4.When the resistance of the filed-supplied duct is small, it may cause abnormal stop, malfunction, spraying water, etc.Due to excessive air flow. And the duct, which is to be connected to this unit, shall be insulation for dew protection. 5.All fresh air indoor unit is for processing fresh air load and not for stabilizing the room temperature. For adjusting the air conditioning load of the room, the additional air conditioner is required. 6.This unit shall be connected to Fujitherma VRF Plus series outdoor units. In case of connecting this unit with other indoor units in the same refrigerant cycle,calculate t he capacity of this unit as 46.1KBtu/h(30.7KBtu/h),71.7KBtu/h(47.8KBtu/h), 114.6KBtu/h(76.5KBtu/h), 143.3KBtu/h(95.6KBtu/h). 7.When VRF Plus outdoor unit connected to only with all fresh air indoor unit, the configuration rate is 100% (Recommended ). 8.Under cooling mode,when outdoor temperature is lower than 20℃,the system will automatically shift to ventilation operation; Under heating mode, when outdoor temperature is higher than 15℃,the system will automatically shift to ventilation operation; In case inlet temperature is below -7℃,all fresh air unit will stop. 39 General Data for All Fresh Air Indoor Unit Model DHTHXFA335HHX AC3Φ, 380~415V/50Hz Power Supply DHTHXFA450HHX DHTHXFA560HHX AC3Φ, 380~415V/50Hz DHTHXFA560HHX AC3Φ, 380~ 415V/50Hz AC3Φ, 380~415V/50Hz Fujitherma VRF Plus Series Combined Outdoor Unit Model kW 33.5 45.0 56.0 56.0 Btu/h 114,300 153,600 191,100 191,100 kW 26.8 36.0 44.8 44.8 Btu/h 91,500 122,900 152,900 152,900 kW 0.74 1.12 1.33 1.62 A 1.47 1.92 2.45 2.96 H mm 486 635 735 735 W mm 1,270 1,950 1,950 1,950 D mm 1,069 805 805 805 dB 56 61 64 66 kg 97 196 222 222 Cooling Capacity Heating Capacity Power Input Nominal Capacity Outer Dimensions Sound Pressurd Level Net Weight R410A Refrigerant Indoor Fan Air Flow Rate 3 m /h 3000 4000 5000 6000 External Static Pressure Pa 220 300 320 300 Air Inlet Size mm 1,100×415 1,522×522 1,522×622 1,522×622 Air Outlet Size mm 1,106×338 850×272 850×272 850×272 VP25,Outer Diameter: Φ32mm Drain Piping Size RC1(Internal Screw) Refrigerant Liquid Line Size mm Φ12.7 Φ12.7 Φ15.88 Φ15.88 Refrigerant Gas Line Size mm Φ25.4 Φ25.4 Φ28.6 Φ28.6 Temperature Range of Fresh Air Drawn Cooling: 20℃~43℃,Heating: -7℃~ 15℃ NOTES: 1.The nominal cooling capacity and heating capacity are based on following conditions Cooling operation conditions: 33℃ DB, 28℃ WB, piping length: 7.5m, piping lift: 0m Heating operation conditions: 0℃ DB, -9℃ WB, piping length: 7.5m, piping lift: 0m (Heating capacity is tested when defrosting is not available ) 2.The sound pressure level is based on following conditions: 1.5 Meter beneath the unit. The above data was measured in an anechoic chamber so that reflected sound should be taken into consideration in the filed. 4.When the resistance of the filed-supplied duct is small, it may cause abnormal stop, malfunction, spraying water, etc.Due to excessive air flow. And the duct, which is to be connected to this unit, shall be insulation for dew protection. 5.All fresh air indoor unit is for processing fresh air load and not for stabilizing the room temperature. For adjusting the air conditioning load of the room, the additional air conditioner is required. 6.This unit shall be connected to Fujitherma,M and R series outdoor units. In case of connecting this unit with other indoor units in the same refrigerant cycle,calculate the capacity of this unit as 46.1KBtu/h(30.7KBtu/h),71.7KBtu/h(47.8KBtu/h), 114.6KBtu/h(76.5KBtu/h), 143.3KBtu/h(95.6KBtu/h). 7.When Fujitherma outdoor unit connected to only with all fresh air indoor unit, the configuration rate is 100% (Recommended ). 8.Under cooling mode,when outdoor temperature is lower than 20℃,the system will automatically shift to ventilation operation; Under heating mode, when outdoor temperature is higher than 15℃,the system will automatically shift to ventilation operation; In case inlet temperature is below -7℃,all fresh air unit will stop. 40 Optional Parts Branch Pipe Parameter Manifold Pipe Parameter Receiver Kit for Wireless Control Drain-up Mechanism Kit Selection Software Hotel Room Card Control Branch Pipe Parameter Model Gas Line Reducer for Gas Line Liquid Line Reducer for Liquid Line ID 22.2 ID 12.7 ID 19.05 ID 9.53 ID 9.53 ID 15.88 ID 15.88 Ø 12.7 OD 6.35 FHFQ-102FX Ø 25.4 Ø 19.05 ID 15.88 ID 12.7 ID 19.05 ID 22.2 Ø22.2 Ø 22.2 ID 25.4 Ø 9.53 ID 9.53 ID 6.35 ID 6.35 ID 9.53 Ø 9.53 Q'ty : 2 Ø 12.7 Ø 9.53 ID 28.6 ID 25.4 OD 28.6 ID 12.7 ID 15.88 ID 9.53 Ø 25.4 Ø 22.2 ID 22.2 ID 19.05 ID 15.88 ID 12.7 Ø 9.53 ID 28.6 ID 25.4 Ø 25.4 ID 15.88 Ø 25.4 Ø 22.2 ID 22.2 ID 19.05 ID 15.88 ID 12.7 ID 22.2 OD 6.35 ID 12.7 Q'ty: 1 ID 28.6 FHFQ-242FX ID 9.53 Q'ty: 1 Ø 22.2 ID 25.4 ID 12.7 ID 9.53 ID 6.35 ID 12.7 ID 19.05 ID 9.53 ID 12.7 ID 25.4 OD 28.6 ID 25.4 Ø 19.05 ID 15.88 ID 12.7 ID 9.53 ID 6.35 Ø19.05 Q'ty: 1 ID 38.1 ID 38.1 Ø31.75 FHFQ-302FX ID 32.0 Ø 28.6 ID 28.6 Ø19.05 ID 15.88 ID 12.7 ID 9.53 ID 6.35 Q'ty: 1 ID 28.6 ID 22.2 Ø31.75 Ø 25.4 ID 22.2 ID 19.05 OD 6.35 ID 19.05 OD 31.75 ID 32.0 ID 9.53 ID 12.7 ID 19.05 ID 22.2 ID 15.88 ID 28.6 ID 15.88 ID 25.4 ID 19.05 ID 15.88 ID 9.53 Q'ty: 1 ID 9.53 ID 25.4 OD 28.6 ID 12.7 ID 22.2 Ø 22.22 ID 22.2 ID 15.88 OD 6.35 ID 12.7 ID 19.05 Q'ty: 1 ID 34.92 Q'ty: 1 OD 38.1 Optional Parts FHFQ-162FX Q'ty:1 8QLWPP,',QQHU'LDPHWH 2'2XWHU'LDPHWHU 41 Manifold Pipe Parameter Model Gas Line ID 25.4 ID 9.53 ID 12.7 ID 15.88 ID 28.6 ID 25.4 ID 28.6 ID 15.88 FHFQ-M22FX ID 15.88 ID 12.7 ID 25.4 OD 28.6 ID 22.2 Ø25.4 Ø 22.2 Ø 25.4 ID 15.88 Ø 19.05 ID 15.88 Ø22.2 ID 22.2 ID 12.7 ID 19.05 ID 9.53 Q'ty : 2 ID 6.35 OD 31.75 ID 31.75 ID 22.2 ID 32.0 ID 19.05 ID 19.05 Ø19.05 ID 12.7 ID 38.1 Reducer for Liquid Line Reducer for Gas Line Liquid Line ID 22.2 ID 9.53 ID 15.88 ID 25.4 ID 28.6 ID 19.05 Q'ty: 1 Ø 31.75 ID 38.1 FHFQ-M32FX Ø25.4 Ø19.05 ID 15.88 Ø 31.75 ID 12.7 ID 22.2 Ø 22.2 ID 25.4 OD 28.6 ID 15.88 ID 12.7 ID 22.2 ID 19.05 Q'ty : ID 12.7 Ø 28.6 ID 9.53 ID 28.6 1 OD 38.1 ID 6.35 ID 34.92 Q'ty : 1 Receiver Kit for Wireless Control HYRE-V01H HYRE-T01H NOTE FHYRE-V01HX is for Low/High Static Pressure Ceiling Ducted Type. FHYRE-T01HX is for 4-Way Cassette Type. Drain-up Mechanism Kit—Optional 42 Model Power supply Consumption MAX. Lift (mm) Applicable models FHPS-132X AC 220~240V(50/60Hz) 9±1.5 W 900 For Ceiling ducted type(0.8~2.5Hp) FHPS-162X AC 220~240V(50/60Hz) 9±1.5 W 900 For Ceiling ducted type(3.0~6.0Hp) FHPS-151X AC 220~240V(50/60Hz) 9±1.5 W 600 External type,for general purpose(0.8~10Hp) FHPS-132/HPS-162X FHPS-151X Selection Software With the philosophy of All for Users, Fujitherma developed a Central Air Conditioning Selection Software which not only helps users to choose proper Fujitherma equipment but also to do the central air condition ing system design work. This software makes the specialized central air conditioning project design work more simply and realistic for nonspecialist. Whether you are a consultant or a sales people, you can work out a systematic piping and wiring diagram with its user-friendly interface. Furthermore, a quick quotation of a project can be provided with the selection of equipment and installation material. Project information Indoor unit selection Project information entering Choose power supply Choose temperature condition Room information entering Cooling and heating load calculation Automatic & manual indoor unit selection Outdoor unit selection Capacity correction Choose connection ratio Match indoor units and outdoor units Automatic & manual outdoor unit selection entering Indoor and outdoor unit correction Poor capacity tips Piping diagram Wiring diagram Automatic & manual outdoor and indoor unit pipe connection Branch pipe selection Segmental pipe length entering Automatic connection error tips Pipe size calculation Power and communication cable connection Cable size calculation Terminals connection Controller connection Central control diagram Reports output Central controller connection BMS diagram 43 The selection software operation interface It is very simple to connect the units by the selection software . Users and designers can see the relative position and connection mode between outdoor units and indoor units clearly . Though the report given by the software we can get much more details ,indoor and outdoor units specifications ,material list ,piping diagram ,wiring diagram and central-control diagram. which will be very helpful to the budgeting and installation . Hotel Room Card Control- Optional The "Room Card Control Function" of Fujitherma VRF Hotel Room Card Control Room card indoor unit through the room card. When under function, the AC system is powered on. The room card can control whether the room energy-saving by withdrawing the room card when people leave. 44
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