VariTrane VAV Terminal Unit. Single-Duct Series Fan-Powered Parallel Fan-Powered

VariTrane VV Terminal Unit Single-uct Series Fan-Powered Parallel Fan-Powered

Contents VV System Overview VariTrane VV Terminal Unit Overview Model escription Single-uct Terminal Units Model escription Fan-Powered Terminal Units Performance ata Single-uct Terminal Units Performance ata Series Fan-Powered Terminal Units Performance ata Parallel Fan-Powered Terminal Units 3 5 8 9 0 5

VV System Overview System Introduction In a Variable ir Volume (VV) system, air delivery volume varies directly with the changing cooling or heating load, thus saving energy at part load conditions. nother benefit that makes VV a popular choice in VC design is its capability to control temperature in multiple zones. Compared to conventional constant volume system, VV system has multiple VV terminal boxes each serving a zone controlling air flow to that zone and maintaining the set-point temperature. Trane leads in VV technology with its innovative range of VariTrane units (Single-duct and Fan-powered types) that are designed for diverse applications and environments. pplications include office space, hospitals, hotels, retail stores, malls and educational facilities. VariTrane provides the most reliable and flexible products available, further enhanced by Trane C controls in implementing systems-level control strategies like ventilation reset and Static Pressure Optimization to improve systems performance and efficiency. VV System Features and enefits VV systems have the following features and benefits: conditioning systems, VV systems can utilize the outdoor fresh air as much as possible during transitional seasons, which not only saves energy consumption, but also improves indoor air quality. It is estimated that over 30% of the annual energy consumption can be saved and 0-30% of total equipment capacity can be reduced by using VV system.. Improved Indoor ir Quality and Comfort ith the integrated C control, VariTrane VV terminal units can keep room temperature and air volume within the pre-set range per actual cooling or heating load requirement and enhance control accuracy of the terminal unit. It allows room temperature to be adjusted per application requirement. Supply air of VV system can be remote and centralized controlled to improve the system efficiency and room air quality. 3. Reliable Operation, Simple Construction VV system is an all-air system. There is no water piping passing through the ceiling of the room, which can avoid problems such as condensation, water leakage and bacteria breeding which may happen in the fan coil system. In addition, VariTrane VV boxes have simple casing construction, which makes installation simple and easy. 4. Flexible System Renovation always occurs in modern buildings. y using flexible duct connection, modification of VariTrane VV terminal unit position can be done according to the room partition and requirement with minimum field modification cost, labor and time. 5. Compatible System VV systems can be integrated with other air conditioning systems to optimize performance efficiency. For example, when integrated with ice storage system, the application of cold air distribution can reduce the initial investment of ice storage system effectively; when integrated with heat pump system it can reduce the initial investment, reducing the noise level by installing several water heat pumps in central location and avoid costly installation of heat pump at each floor. 6. Easy to get integrated with uilding utomation () system VV systems can be integrated to system via C control. System optimization and monitoring of the whole system can be achieved by computerized control. VV System Structure typical VV System consists of:.ir handling units.ir duct system 3.VariTrane VV terminal nuit. Economical Operation VV systems can change the supply air volume according to the cooling and heating load variation to enable the cooling, heating capacity and fan power to meet actual load requirement. Therefore, the system energy consumption can be significantly reduced. Meanwhile, if compared with traditional air User management VV System Schematic ir supply duct ir return duct Communication cable 3

VV System Overview System Control Introduction The VariTrane VV box can be connected to Trane s uilding utomation System through two types of control systems. orking station (Optional) ial-up connection or Ethernet/IP connection CU Tracer System In Tracer, the work station using Tracer Summit software monitors the whole system and has many functions such as operating parameter setting, data acquisition, alarming, reports, clock, etc. The uilding control Unit (CU) provides control logic for the whole system and coordinates the operation between equipment level controllers such as MP58 and VV controllers. VV controllers are connected to each other by using RS485, and then connected to CU. The whole control system structure is simple, compatible and designed to accommodate future extension requirements. In addition, using ontalk C controllers, VariTrane VV terminal units can be connected to third party control systems which have ontalk protocol. Tracker system In Tracker, the work station is connected to a Tracker controller. It acquires equipment status, system data information, control command and monitors the system equipment. The Tracker controller provides control logic for the whole system. It coordinates the rooftop equipment (Voyager) & VariTrane VV terminal unit control through the CCP (central control panel). One Tracker controller can be connected to several CCPs, and each CCP is connected to one rooftop unit (Voyager) and several VariTrane VV boxes. Inter communication is possible between CCPs. ll equipment connections in the system are PnP (plug and play), making it convenient for installation and application. VariTrane VV terminal unit VariTrane VV terminal unit Zone sensor Voyager III VV RTU ork station (Optional) ial-up connection or Ethernet/IP connection VariTrac CCP VariTrane VV terminal unit VariTrane VV terminal unit Voyager III VV RTU Tracker controller VariTrac CCP Zone sensor Zone sensor Zone sensor Zone sensor VV system VV system Zone sensor VariTrane VV terminal unit VV system MP58 U VariTrane VV terminal unit 4

VariTrane VV Terminal Unit Overview VV Terminal Unit Classification VV terminal unit controls the air valve opening and regulates the air volume in the room by measuring the temperature difference between room and set point. There are two basic working principles of a VV box: pressure-dependent and pressure-independent. pressure-dependent VV control scheme uses the space temperature sensor to control the position of the modulating device directly. The actual airflow delivered to the space depends on the duct system static pressure at the inlet of the terminal unit. lthough the space temperature sensor will continually correct the position of the modulating device, the response can be sluggish and cause unacceptable temperature variations within the space. In contrast, a pressure-independent VV control scheme controls the actual volume of primary air that flows to the space. n airflow-measuring device on the terminal unit makes it possible. The position of the modulation device is not directly controlled and is basically a by-product of regulating the airflow through the unit. ecause the airflow delivered to the space is directly controlled, it is independent of inlet static pressure. Pressure-independent control increases the stability of airflow control and allows minimum and maximum airflow settings to become actual airflows rather than physical positions of the modulation device. It is clearly most popular in all VV terminal unit controls. VV terminal VV terminal ir intake ir outgoing ir intake ir outgoing ir valve Flow ring ir valve Temperature sensor Controller/air valve drive Controller/air valve drive/differential pressure transmitter Temperature sensor Pressure-dependent Pressure-independent There are three basic types of VariTrane VV terminal units, Single-duct (without fan), Series Fan-Powered and Parallel Fan-Powered. Single-duct Series fan-powered Parallel fan-powered 5

VariTrane VV Terminal Unit Overview Features and enefits Flow ring: ocated closely in front of the air valve, it can measure air volume accurately Metal encapsulated edge: prevents cut fibers of the insulating plate falling off, and avoids erosion in the air stream by foreign matter Controller: C controller developed by Trane, perfectly matches with other Trane products. ir valve actuator: Equipped with position indicator Interlocking panel: Smooth surface, ruggedness and rigidity are assured with Trane s interlocking panel construction ir valve: It enables air flow passing through the flow ring evenly while changing the air volume Energy Efficiency VV systems can save energy significantly, comply with ventilation requirements, and provide reliable and personalized occupant control. Energy saving features of VariTrane VV terminal units include:. System strategies like Ventilation Reset, and Static Pressure Optimization, etc. Night setback 3. Occupied/unoccupied control 4. emand controlled ventilation 5. Earthise System utilizing low temperature air and system energy optimization. dvanced Control ith years of working experience and understanding of VV system characteristic, Trane has developed a reliable C controller for VV system which has unique functions:. dvanced system integration VariTrane VV terminal unit C controller uses pressure-independent control mode, which can obtain precise air valve opening by doing two-time PI calculation according to the temperature and air flow to control air volume accurately and provide excellent indoor air quality and comfort control. It can also be integrated with Trane Tracer Summit uilding utomation System. It is the most advanced VV control system in the field. This system has a series of unique control modes such as fresh air volume / ventilation reset, static pressure optimization control which can meet the current industry regulations and standards, able to adjust air duct static pressure effectively and reduce energy consumption of the fan to improve the whole VV system efficiency.. Superior product quality oth VariTrane VV system terminal units and control devices are provided by Trane, which ensures the product quality, system compatibility and perfect system integration. 6

VV Terminal Unit Overview Controls Parts and Options UCM4 is a microprocessor-based C controller using pressure-independent control mode to control the supply air volume accurately to make room temperature reach the set condition. In addition, UCM4 also has additional functions, such as optional CO sensor, wireless sensor, to fulfill various customer and application requirements. VV550/55 is a ontalk protocol-based C controller which can provide precise control to VariTrane VV terminal unit. It also has good universality and compatibility, especially in connecting to the third party uilding utomation System with ontalk protocol. ireless sensor eliminates the wiring difficulty at the field and provides more flexibility for layout and sensor positioning. Trane wireless sensor is based on wide spectrum technology, This enhances system security greatly and avoids interference problem when using different system with the same frequency in the same area. UCM4 CO sensor is used to measure CO concentration in the air, converts it into electrical signal and then transmit the signal to the controller which will reset fresh air volume accordingly to ensure indoor air quality and comfort. VV550/55 uxiliary temperature sensor helps VariTrane VV terminal unit changeover between heating and cooling mode automatically without the system controller. Terminal unit controller will compare the temperature differences between the supply air temperature provided by auxiliary temperature sensor and the room temperature provided by zone sensor. It will determine the working mode automatically according to the result without manual adjustment. ireless sensor uxiliary temperature sensor all mounted uct mounted rea sensor Model Zone sensor Occupied / Unoccupied Mode Temperature setting Internal sensor ON CNCE C 490 090 490 0 490 090 490 0 7

VariTrane Model escription Single-uct VCCT0600000000000000000000 3 4 5 6 7 8 9 0 3 4 5 6 7 8 9 0 3 4 6 7 8 9 30 3 3 igit ~ Unit Type VC Single duct igit 3 Terminal eating Mode C None E Electric heating ot water heating igit 4 evelopment Series No. T China plant igit 5~6 imension of Primary ir Valve Inlet 05 5'' 06 6'' 08 8'' 0 0'' '' 4 4'' 6 6'' igit 7~8 Reserved 00 N/ igit 9 Reserved 0 N/ igit 0~ esign No. 0 Initial development igit ~5 Control Mode 00 Trane elec actuator only 0 C cooling only 0 C N.C. on/off water valve 03 C prop hot water valve 04 C on/off electric heat control ontalk C cooling only ontalk C N.C. on/off water valve 3 ontalk C prop hot water valve 4 ontalk C on/off electric heat control FM00 Customers supply the air valve actuator and controller by themselves igit 6 Insulation " Matte-faced '' foil faced F " ouble-wall G 3/4" Closed-cell igit 7 Reserved 0 N/ igit 8 Reserved 0 N/ igit 9 Reserved 0 N/ igit 0 Reserved 0 N/ igit ot ater Coil 0 N/ row rows igit Electric Connection eft type igit 3 Transformer 0 N/ 5VC/4V C transformer 3 30VC/4V C transformer igit 4 Power isconnect 0 N/ ith igit Power Fuse 0 N/ ith igit 6 Electric eating Voltage 0 N/ C Single-phase 0V J Three-phase 380V igit 7~9 Electric eating Power 000 N/ 00.0k 00.0k 300 30k Note: For detailed specification, refer to the electric heater information igit 30 Electric eat Stage 0 N/ stage stages 3 3 stages igit 3 Reserved 0 N/ igit 3 Reserved 0 N/ 8

VariTrane Model escription Fan-Powered VSCT0600P005000000000000 3 4 5 6 7 8 9 0 3 4 5 6 7 8 9 0 3 4 6 7 8 9 30 3 3 igit ~ Unit Type VP Parallel fan-powered VS Series fan-powered igit 3 Terminal eating Mode C None E Electric heating ot water heating igit 4 evelopment Series No T China plant igit 5~6 Primary ir Valve 05 5'' 06 6'' 08 8'' 0 0'' '' 4 4'' 6 6'' igit 7~8 Reserved 00 N/ igit 9 P 0SQ Q R S T U igit 0~ esign No. 0 Initial development igit ~5 Control Mode 00 Trane elec actuator only 0 C cooling only 0 C N.C. on/off water valve 03 C prop hot water valve 04 C on/off electric heat control ontalk C cooling only ontalk C N.C. on/off water valve 3 ontalk C prop hot water valve 4 ontalk C on/off electric heat control FM00 Customers supply the air valve actuator and controller by themselves igit 6 Thermal Insulation " Matte-faced '' foil faced F " ouble-wall G 3/4" Closed-cell igit 7 Motor Type Standard motor igit 8 Motor Voltage 5V/60z/P 4 30V/60z/P 5 30V/50z/P igit 9 Outlet Connection Flange connection Slip & rive igit 0 ttenuator 0 N/ ith igit ot ater Coil 0 N/ row inlet (only for parallel fan-powered) rows inlet (only for parallel fan-powered) 3 row Outlet eft 5 rows Outlet eft igit Electrical Connections left igit 3 Reserved 0 N/ igit 4 Power isconnect 0 N/ with igit Power Fuse 0 N/ with igit 6 Electric eating Voltage 0 N/ C Single-phase 0V J Three-phase 380V igit 7~9 Electric eating Power 000 N/ 00.0k 00.0k ~ ~ 00 0k Note: For detailed specification, refer to the electric heater information igit 30 Electric eat Stage 0 N/ stage stages 3 3 stages igit 3 Reserved 0 N/ igit 3 irflow Switch 0 N/ ith 9

Performance ata VariTrane Single-uct Performance ata ir valve Inlet diameter mm irflow range m 3 /h Min. airflow m 3 /h imension mm( ) eight (kg) 05 7 68-595 68 443 433 4 9.5 06 5 0-850 0 4 433 4 9.5 08 03 80-530 80 398 458 9 0 VCCT single-duct terminal device (cooling only) 0 4 77-380 77 44 534 343 4 305 400-3400 400 449 60 394 7 4 356 544-500 544 475 66 495 6 73-6800 73 500 763 495 3 ir Pressure rop (Pa) Single-duct VV terminal device VCT heating-water heating terminal device VCET electric heating terminal device ir valve 05 06 08 0 4 6 eating coil irflow (m 3 /h) Casing Electric heater row row 6 3 5 8 5 34 3 9 8 8 504 3 9 38 0 595 4 50 5 6 3 5 8 5 43 3 6 30 8 594 6 9 53 0 850 55 57 00 5 34 3 5 0 5 684 4 39 0 008 9 40 74 5 530 78 48 5 846 3 3 6 0 350 3 34 60 5 87 3 64 07 0 380 3 0 6 0 350 3 44 0 034 3 44 85 0 78 3 73 35 0 3400 3 08 9 0 3 3 5 5 340 3 37 86 0 448 3 53 4 0 500 3 7 68 3384 3 70 0 448 3 37 0 5094 3 5 59 6800 3 84 8 Note: The air pressure drops in the table refer to the pressure drops of the parts. 0

Performance ata VariTrane Single-uct eating Capacity of ot ater Coil (k) ir Valve 05/ 06 Coil Rows Row Row ater volume (/s) ater pressure drop (kpa) Scope Size 05 Size 06 ir volume (m 3 /h) 76 0 53 70 5 340 4 595 680 850 0.03.57.0.38.66.73.05.30.5.86 3.0 3.6 0.06 5.6.7.49.8.9.3.64.93 3.4 3.63 4.0 0.09 0.7.30.53.88.98.4.78 3.0 3.65 3.9 4.35 0.3 7.8.3.55.9.0.47.86 3.0 3.78 4.06 4.54 0.6 6.47.3.56.93.04.5.9 3.6 3.87 4.6 4.67 0.06.85.48.88.54.73 3.53 4.4 4.6 5.9 5.58 6.00 0.3 6.39.5.94.68.90 3.84 4.60 5. 6.5 6.56 7.9 0.9 3.8.53.96.7.95 3.96 4.77 5.45 6.49 6.96 7.69 0..39.54.97.75.98 4.0 4.86 5.57 6.68 7.8 7.96 0.3 33.6.54.98.76 3.00 4.05 4.9 5.65 6.80 7.3 8.4 ir Valve 08 Coil Rows Row Row ir volume (m 3 /h) ater volume ater (/s) pressure drop (kpa) 80 340 50 680 850 09 89 359 530 0.03..47.66 3. 3.47 3.75 3.99 4.8 4.35 4.50 0.06 7.05.8 3.06 3.68 4.8 4.6 4.99 5.33 5.63 5.90 0.09 4.35.94 3. 3.9 4.49 4.99 5.44 5.84 6. 6.56 0.3 3.8 3.0 3.3 4.05 4.67 5. 5.7 6.5 6.56 6.93 0.6 35.35 3.06 3.37 4.3 4.78 5.36 5.88 6.35 6.79 7.0 0.3 0.98 4.40 4.97 6. 7.8 7.88 8.44 8.89 9.6 9.58 0. 3.48 4.54 5.8 6.67 7.79 8.69 9.4 0.03 0.55.0 0.38 7.37 4.65 5.33 6.9 8.6 9.6 9.99 0.70.30.83 0.50.56 4.70 5.40 7.06 8.36 9.4 0.3.07.7.9 0.63 9.04 4.74 5.45 7.5 8.49 9.59 0.5.30.99.59 0.79 8.90 4.77 5.49 7. 8.60 9.73 0.68.50..84 ir Valve 0 Coil Rows Row Row ir volume (m 3 /h) ater volume ater (/s) pressure drop (kpa) 595 765 934 04 74 444 699 869 09 380 0.04 5.9 4.36 4.83 5. 5.54 5.83 6.08 6.4 6.6 6.94 7.09 0.06 9.8 4.74 5.7 5.75 6.7 6.54 6.88 7.33 7.60 8.07 8.8 0.09 9.90 5.09 5.7 6.6 6.75 7. 7.63 8. 8.55 9.8 9.47 0.3 33.00 5.8 5.96 6.56 7.0 7.60 8.07 8.7 9. 9.84 0.7 0.6 48.93 5.40 6. 6.75 7.33 7.87 8.37 9.06 9.48 0.8 0.64 0.3.07 7.87 8.98 9.87 0.59.0.7.36.73 3.34 3.60 0. 7.53 8.64 0.06.3.3 3.0 3.85 4.8 5.37 6.34 6.75 0.38 6.5 8.93 0.46.76.88 3.86 4.7 5.83 6.49 7.6 8. 0.50 7.83 9.07 0.68.05 3.3 4.7 5.9 6.40 7.0 8.34 8.88 0.63 4.50 9.7 0.8. 3.45 4.53 5.49 6.75 7.50 8.80 9.38 ir Valve Coil Rows Row Row ater ir volume (m 3 /h) ater volume pressure drop (/s) (kpa) 680 09 359 699 039 379 78 3058 3400 0.06.04 5.30 6.9 6.88 7.44 7.90 8.9 8.64 8.93 9.0 0.3 7.08 6.08 7.8 8. 9.0 9.85 0.5..65.4 0.9 4.79 6.40 7.74 8.86 9.84 0.7.50.3.90 3.5 0..04 6.57 8.00 9.0 0.6..09.89 3.63 4.33 0.3 37.73 6.68 8.6 9.4 0.54.55.48 3.33 4.3 4.87 0.3 0.74 9.7.3.7 3.7 4.47 5.07 5.56 5.97 6.30 0.3 4. 0.4 3.37 5.59 7.33 8.74 9.9 0.9.77.5 0.50 0.0 0.8 4.09 6.63 8.68 0.37.80 3.03 4.0.04 0.69 8.35.0 4.44 7.5 9.35.0.77 4.3.3 6.38 0.88 9.06. 4.65 7.46 9.77.7 3.37 4.8 6.08 7..0 44.53. 4.8 7.70 0.08.0 3.83.34 6.67 7.86

Performance ata VariTrane Single-uct ir Valve 4 Coil Rows Row Row ir volume (m 3 /h) ater volume ater (/s) pressure drop (kpa) 89 59 869 09 49 888 3398 3908 447 500 0.3 3.69 9.3 0.3..99.68 3.30 4. 4.84 5.47 6.0 0.9 7.67 0.07.6.3 3.4 4. 4.9 5.98 6.94 7.80 8.8 0..93 0.49.80.97 4.0 4.97 5.86 7.08 8.0 9. 0.43 0.3 9.43 0.76.5 3.39 4.5 5.55 6.5 7.83 9.04 0.6.5 0.38 7.3 0.95.40 3.69 4.88 5.97 6.98 8.39 9.67 0.85.3 0.44 36.0.09.58 3.9 5.4 6.8 7.33 8.80 0.5.40.9 0.3 3.4 6.3 8.74 0.7.34 3.7 4.89 6.38 7.6 8.66 9.83 0.57 9.93 7.50 0.4.85 4.9 6.7 8.8 30.3 3.03 33.5 35.0 0.8 0.07 8.00.3 3.78 6.06 8.06 9.8 3. 34.08 35.80 37.76.07 33.6 8.7.5 4.30 6.7 8.8 30.70 33.6 35.8 37.4 39.8.3 50.49 8.45.78 4.64 7.3 9.3 3.8 33.85 36.07 38.0 40.8.4 57.67 8.50.85 4.73 7. 9.47 3.44 34.05 36.30 38.8 40.58 ir Valve 6 Coil Rows Row Row ir volume (m 3 /h) ater volume ater (/s) pressure drop (kpa) 59 039 49 3058 3398 4078 4757 5437 66 6800 0.3 4.0..6 3.75 4.7 5.9 6.9 7.4 7.87 8.5 9.09 0.9 8.48.6 3.90 5.3 6.57 7.33 8.68 9.86 0.90.83.67 0. 4.6.86 4.68 6. 7.65 8.5 0..5.77 3.90 4.93 0.3.39 3. 5.0 6.89 8.4 9.34.06.6 4.03.3 6.49 0.38 9.83 3.5 5.56 7.35 8.95 9.95.77 3.4 4.95 6.35 7.63 0.47 44.89 3.80 5.94 7.8 9.53 0.59.54 4.3.94 7.45 8.87 0.3 3.44 0.3 3.37.88 7.88 9.00 30.89 3.4 33.67 34.73 35.64 0.57 0.45.84.85 9.08 3.76 33.30 35.94 38.4 39.99 4.59 4.98 0.8.07.55 6.9 30.50 33.50 35. 38.8 40.84 43.0 44.9 46.57.07 35..95 7.5 3.30 34.50 36.37 39.64 4.4 44.79 46.87 48.7.3 5.8 3.0 7.90 3.8 35.4 37.0 40.53 43.45 45.97 48.8 50.3.4 60.3 3.7 8.0 3.97 35.33 37.3 40.79 43.75 46.3 48.56 50.55 Note:, ET=.8 C, ET= 8. C., Capacity based on.8 C entering air temperature and 8. C entering water temperature. Refer to correction factors for different entering conditions. ctual eating capacity = ata in the above table x Temperature Conrection factor Entering water temperature minus entering air temperature ET-ET 8 33 39 44 56 69 78 83 89 00 Temperature correction factor 03 0.40 0.48 0.56 0.64 0.80.0..0.9.45.6 Please use the following equation to calculate the leaving air temperature and the difference between entering water temperature and leaving water temperature. K x 988 T = ET + [ M 3 / (ir volume) ] T = ET - T = [ 4.9 x / S (ater volume) ] Outlet air temperature Inlet air temperature ifference between inlet water and outlet water Inlet water Outlet water temperature temperature K

imensional ata VariTrane Single-uct imension for Single uct with ot ater Coil Overall dimension (mm) ir Valve Z (h) (w) Electrical control box ead for flow ring Z C ir stream ir valve 0 mm 05 is 46 Z mm 05 06 08 0 4 6 9 4 9 7 70 03 4 9 4 9 7 70 03 4 79 9 38 40 57 4 79 305 330 356 38 343 394 495 495 394 470 5 6 7 4 4 89 70 83 83 08 305 356 457 457 356 43 483 584 65 mm ctuator Top view Notch connection ot water coil 05, 06 (96 mm) Other(88 mm) 40 mm ccess opening of coil 76 mm x 78 mm 0 mm lock view Rear view ir Valve 05 06 08 0 4 6 without coil header with coil header 78 78 9 79 48 400 400 7 7 64 38 38 imension of coil (mm) Row Row C 3 3 53 7 7 03 03 4 03 356 457 457 4 4 79 356 43 48 584 with coil header Note: Outer diameter of coil connection for without coil head is 0mm; and Outer diameter of coil for with coil head is 0mm 58 58 0 60 3 43 43 7 308 359 460 460 86 mm ater outlet pipe C 86 mm ater outlet pipe 9 mm C 86 mm 9mm ater outlet pipe mm 86 mm ater outlet pipe 9 mm 7 mm ir stream 98mm ir stream 98mm ir stream 98mm ir stream 98mm ater inlet pipe ater inlet pipe 9 mm ater inlet pipe 44 mm 57 mm 64 mm 0 mm 0 mm 0 mm 0 mm without coil header with coil header without coil header with coil header ater inlet pipe mm 79 mm E E C C ir stream (FIG ) ir stream (FIG ) (FIG ) (FIG ) ir stream ir stream Single row ouble row 3

imensional ata VariTrane Single-uct imension for Single uct with Electric eating ir Valve 05 06 08 0 4 6 Overall dimension (mm) 56 4 40 03 ir outlet dimension (h) (w) 4 56 4 40 03 4 05 9 53 40 4 79 05 343 7 305 356 05 394 584 4 356 43 05 495 635 4 457 483 05 495 737 89 457 584 Electric heater control box lock view Electric eater (k) Model 05 06 08 eating Stages 0V 380V //3 - - 3 - - //3/4-4 - 3 3 - //3/4 6/7 - - //4 6 7 65 mm ctuator Electrical control box C ead for ir stream flow ring ir valve 0 mm 05 is 46 Z mm 0 4 6 3 3 3 3 //3/4 9 //3/4 9 //3/4 9 //3/4 9 //4 0 //4 / /6 /4/6 8/0/ / /4/6 8/0//6 8//6/30 Notch connection 40 mm 0 mm ir stream outlet Top view Rear view eft 4

Performance ata VariTrane Series Fan-Powered Performance ata VSCT Series Fan-powered terminal device for cooling only VST Series Fan-Powered terminal device with hot water coil VSET Series Fan-Powered terminal device with Electric heating ir Valve 05 06 08 0 4 6 Inlet diameter (mm) 7 5 03 4 305 356 ir volume of fan m 3 /h ir volume range for primary air m 3 /h Overall dimension mm ( ) eight (kg) 0SQ 90 595 994 699 394 35 0SQ 90 850 994 699 394 35 580 850 46 750 39 0SQ 90 90 994 699 394 35 580 530 46 750 39 80 530 46 750 39 0SQ 90 90 994 699 394 35 580 580 46 750 39 80 80 46 750 39 660 380 46 90 45 3700 380 46 90 546 53 480 380 46 90 546 57 580 580 46 750 39 80 80 46 750 39 660 660 46 90 45 3700 3400 46 90 546 53 480 3400 46 90 546 57 80 80 46 750 39 660 660 46 90 45 3700 3700 46 90 546 53 480 480 46 90 546 57 3700 3700 46 90 546 53 480 480 46 90 546 57 ot ater Coil (k) 0SQ Coil Rows Row Row ater volume (/s) ater pressure drop (kpa) ir volume (m 3 /h) 5 340 4 50 595 680 765 850 90 0.06.59.68 3.03 3.3 3.58 3.80 4.0 4.0 4.38 4.5 0.3 5.5.9 3.34 3.70 4.0 4.3 4.59 4.84 5.08 5.7 0.9.5 3.00 3.46 3.85 4.0 4.5 4.8 5.0 5.37 5.58 0. 9.45 3.05 3.5 3.93 4.30 4.63 4.95 5. 5.53 5.75 0.3 9.7 3.08 3.56 3.98 4.36 4.7 5.03 5.34 5.63 5.86 0.06 3.00 3.69 4.46 5.0 5.63 6.08 6.46 6.80 7.09 7.30 0.3 0. 3.93 4.86 5.67 6.37 6.99 7.54 8.03 8.47 8.8 0.9.07 4.0 5.0 5.87 6.64 7.33 7.95 8.5 9.0 9.4 0. 35.33 4.06 5.08 5.98 6.78 7.5 8.6 8.76 9.3 9.73 0.3 5.84 4.09 5. 6.04 6.87 7.6 8.30 8.9 9.50 9.94 5

Performance ata VariTrane Series Fan-Powered ot ater Coil (k) - contiune / Coil Rows Row Row ater volume (/s) ater pressure drop (kpa) ir volume (m 3 /h) 340 50 680 934 89 444 580 954 80 0.3 3.0 4.40 5.33 6.04 6.9 7.6 8.3 8.53 9.9 9.70 0.9 6.56 4.60 5.64 6.45 7.45 8.9 9.03 9.39 0.30 0.79 0..39 4.7 5.80 6.67 7.75 8.67 9.49 9.89 0.9.47 0.3 7.49 4.77 5.9 6.8 7.94 8.9 9.79 0..3.9 0.38 4.86 4.8 5.98 6.9 8.08 9.09 0.00 0.44.60.4 0.44 33.49 4.85 6.03 6.98 8.8 9. 0.6 0.6.8.48 0.50 43.36 4.88 6.08 7.04 8.6 9.3 0.8 0.75.98.66 0.57 54.46 4.90 6. 7.08 8.3 9.40 0.38 0.86..8 0.63 66.80 4.9 6.3 7. 8.37 9.47 0.46 0.94..94 0.3 4. 5.55 7.50 9.07 0.90.3 3.4 3.90 5.06 5.6 0.9 8.99 5.70 7.83 9.6.78 3.5 4.94 5.57 7.3 7.90 0. 5.4 5.78 8.00 9.89. 4.8 5.79 6.5 8.33 9.4 0.3 3.45 5.83 8.0 0.06.54 4.60 6.33 7.3 9. 0. 0.38 33.07 5.86 8.7 0.8.74 4.88 6.7 7.55 9.67 0.75 0.44 44.6 5.88 8. 0.6.88 5.09 6.99 7.86 0.07. 0.50 57.00 5.90 8.6 0.33.99 5. 7.0 8.0 0.39.57 Coil Rows Row Row ater volume (/s) ater pressure drop ir volume (m 3 /h) (kpa) 595 850 04 359 699 039 379 660 0.3 3. 6.35 7.40 8.3 8.94 9.76 0.49..59 0.9 6.95 6.75 7.95 8.94 9.78 0.77.64.4 3.03 0..04 6.96 8.6 9.33 0.7.37.34 3.3 3.90 0.3 8.46 7.0 8.46 9.59 0.58.76.8 3.77 4.50 0.38 6.0 7.9 8.60 9.77 0.80.03 3.4 4.5 4.93 0.44 35.3 7.6 8.70 9.90 0.97.4 3.39 4.44 5.6 0.50 45.57 7.3 8.78 0.0.09.40 3.58 4.67 5.5 0.3 4.6 8.78.05.78 4.6 5.58 6.69 7.57 8.7 0.9 8.85 9.0.83 3.94 5.68 7.57 9.0 0.35.3 0. 5.7 9.4.3 4.56 6.5 8.69 0.48.99 3.06 0.3 3.09 9.55.48 4.95 7.04 9.4.38 3.07 4.8 0.38 3.57 9.63.65 5. 7.40 9.90.0 3.83.4 0.44 43.60 9.70.77 5.39 7.67 0.6.48 4.39.78 0.50 56.6 9.74.86 5.54 7.87 0.54.83 4.8 6.7 / Coil Rows Row Row ater volume (/s) ater pressure drop (kpa) ir volume (m 3 /h) 89 59 869 09 49 888 38 3568 0 480 0.3 4.0 9.5 0. 0.98.74.4 3.00 3.54 4.03 4.67 4.8 0.9 8.46 9.9.07.07.97 3.80 4.58 5.9 5.94 6.8 7.0 0. 4. 0.34.6.73 3.73 4.66 5.5 6.30 7.07 8.08 8.3 0.3.30 0.6.96 3.5 4.3 5.3 6.5 7.0 7.83 8.93 9.9 0.38 9.68 0.80.0 3.45 4.59 5.64 6.6 7.54 8.40 9.57 9.84 0.3 7.7 4.0 5.83 7.3 8.33 9.3 9.97 0.59..75.89 0.9 5.74 5.7 7.6 9.49.04.33 3.43 4.38.0 6. 6.44 0. 6.4 5.94 8.58 0.75.58 4.4.49 6.67 7.7 9.00 9.9 0.3 39.08 6.34 9.8.55 3.58.3 6.85 8.9 9.38 30.88 3.3 0.38 54.9 6.6 9.59. 4.7 6.5 7.80 9.7 30.58 3.4 3.6 Note: eaving water temperature of hot water coil T should not exceed 60 C. eating capacity is based on entering air temperature of C and entering water temperature of 8 C. Refer to correction factors different entering condifions, actual heating capacity = data in the table above temperature correction factor Entering water temperature minus entering air temperature ET-ET Correction factor 7 33 38 44 50 55 6 67 7 0.355 0.446 0.537 0.69 0.7 0.84 0.907.000.093.87 y using the following equation, eaving air temperature T and difference between entering water temperature and leaving water T temperature can be calculated. K x 988 T = ET + [ M 3 / (ir volume) ] T = ET - T = [ 4.9 x / S (ater volume) ] Outlet air temperature Inlet air temperature ifference between inlet water and outlet water Entering water temperature eaving water temperature K 6

Performance ata VariTrane Series Fan-Powered Series Fan Curve Series 0SQ-50 z Series -50 z 00 40 80 External Static Pressure (Pa) 0 00 80 60 40 0 External Static Pressure (Pa) 60 40 0 00 80 60 40 0 0 80 360 540 70 900 080 60 0 80 540 900 60 60 980 ir volume(m 3 /h) ir volume(m 3 /h) 00 Series -50 z Series -50 z External Static Pressure (Pa) 80 60 40 0 00 80 60 40 External Static Pressure (Pa) 00 50 00 50 0 0 80 540 900 60 60 980 340 700 ir volume(m 3 /h) 0 540 900 60 60 980 340 700 3060 340 ir volume(m 3 /h) Series -50 z Series -50 z External Static Pressure (Pa) 00 50 00 50 External Static Pressure (Pa) 00 50 00 50 0 540 60 980 700 340 440 4860 ir volume(m 3 /h) 0 540 60 980 700 340 440 4860 5580 ir volume(m 3 /h) Max. air volume Min. air volume Max. air volume for row coil Max. air volume for row coil 7

imensional ata VariTrane Series Fan-Powered imension for Series Fan Powered with ot ater Coil 0SQ 864 (h) (w) C E 394 559 60 305 483 356 7 64 7 9 7 73 546 546 60 76 76 76 483 60 60 60 457 457 64 76 76 76 9 9 4 4 73 73 7 7 4"-4" ir volume (0 mm) 6" ir volume (5 mm) Flow Ring Tubing Primary air ir volume0 mm 4"-5" ir volume (65 mm) Max 479 mm Silencer (optional) Field installation Return air inlet Filter mm Coil ccess 76 mm x 78 mm ot water coil E 76 mm Coil connection Top view ir outlet Max 40 mm Filter Size (standard configuration) 0SQ 356 mm x 356 mm x 5 mm mm x mm x 5 mm mm x mm x 5 mm Max 87 mm C Rear view 8

imensional ata VariTrane Series Fan-Powered imension for ot ater Coil imension of coil (mm) 0SQ 48 400 400 5 5 5 5 Row 30 533 533 60 60 60 356 7 73 73 73 457 7 457 7 60 5 5 5 5 400 400 Row 30 533 533 60 60 60 356 457 457 7 73 73 73 7 7 ater pipe - outlet ater pipe - outlet 98 mm ir stream 98 mm ccess panel ccess panel 86 mm 9 mm 86 mm 9 mm ater pipe - inlet 9 mm 5 mm ater pipe - inlet 9

imensional ata VariTrane Series Fan-Powered imension for Series Fan-Powered with Electric eating 0SQ 864 Overall dimension (mm) ir outlet dimension (h) (w) C E 394 559 60 305 305 4 305 7 0 457 457 470 470 546 546 60 76 76 76 483 483 305 305 356 356 0 4 40 40 559 559 635 635 470 470 43 43 5"-4" ir volume (0 mm) 6" ir volume (5 mm) Flow Ring Tubing Primary air 5" ir volume (65 mm) ir volume 0 mm Silencer (optional) Field installation Silencer (optional) Field installation 479 mm Return air inlet Filter mm 0SQ fan mm - fan 5mm - fan 5mm ctuator, controller and electrical controls of the fan 76 mm E Electric heater Top view Electric eater (k) 57 mm ir outlet Model 0SQ eating Stages 0V 380V //3/4 6 //3/4 //3/4 6 //3/4 //3/4 /0 //3/4 8/0//4 Max 40 mm Max 87 mm C 0SQ fan 38mm - fan 38mm - fan 76mm //3/4 /4/ 0//4/6 //3/4 /4/ 0//4/6/0 Rear view //3/4 /4/ 0//6/0 Filter Size (standard configuration) 0SQ 356 mm x 356 mm x 5 mm mm x mm x 5 mm mm x mm x 5 mm 0

Performance ata VariTrane Parallel Fan-Powered Performance ata VPCT Parallel Fan-Powered terminal device for cooling only VPT Parallel Fan-Powered terminal device with hot water coil VPET Parallel Fan-Powered terminal device with electric heating ir valve 05 06 08 0 4 6 Inlet diameter (mm) 7 5 03 4 305 356 ir volume of fan m 3 /h ir volume range for primary air m 3 /h Overall dimension mm ( ) eight (kg) 0SQ 30 68-595 864 56 394 35 0SQ 30 0-850 864 56 394 35 470 0-850 97 56 43 0SQ 30 80-530 864 56 394 35 470 80-530 97 56 43 830 80-530 97 56 44 0SQ 30 77-380 64 56 394 35 470 77-380 97 56 43 830 77-380 97 56 44 900 77-380 97 56 50 300 77-380 8 56 546 53 50 77-380 8 56 546 57 470 400-3400 97 56 43 830 400-3400 97 56 44 900 400-3400 97 56 50 300 400-3400 8 56 546 53 50 400-3400 8 56 546 57 830 544-500 97 56 44 900 544-500 97 56 50 300 544-500 8 56 546 53 50 544-500 8 56 546 57 300 73-6800 8 56 546 53 50 73-6800 8 56 546 57

Performance ata VariTrane Parallel Fan-Powered ot ater Coil Performance ata (k) 0SQ Coil Rows Row Row ater volume (/s) ater pressure drop (kpa) ir volume (m 3 /h) 70 5 340 4 50 595 680 765 850 934 00 0.03 0.66.4.67 3.4 3.5 3.73 3.9 4.07 4.0 4.3 4.4 4.5 0.06.6.69 3.37 3.85 4.4 4.56 4.84 5.09 5.3 5.55 5.76 5.95 0.3 7.9.87 3.66 4.6 4.74 5.6 5.53 5.87 6.8 6.47 6.75 7.00 0.9 6.57.93 3.77 4.4 4.93 5.39 5.80 6.8 6.5 6.85 7.6 7.46 0. 8.08.97 3.83 4.49 5.04 5.5 5.95 6.34 6.7 7.06 7.39 7.7 0.3 4.34.99 3.87 4.54 5.0 5.59 6.04 6.45 6.83 7.9 7.53 7.86 0.06 3.89.9 4.05 5.00 5.80 6.49 7.07 7.58 8.0 8.40 8.74 9.05 0.3 3.9 3.0 4.7 5.39 6.38 7.7 8.08 8.80 9.46 0.06 0.60. 0.9 7.3 3.05 4.35 5.5 6.58 7.55 8.43 9.4 9.99 0.68.3.9 0. 45.38 3.06 4.38 5.58 6.68 7.69 8.6 9.47 0.7.0.70.35 0.3 67.73 3.07 4.40 5.6 6.74 7.77 8.73 9.6 0.44..93.6 / / Coil Rows Row Row ater ater volume pressure drop ir volume (m 3 /h) (/s) (kpa) 5 50 765 09 74 59 784 039 94 49 804 0.06 0.8 3.49 4.7 5.45 6.03 6.49 6.86 7.8 7.45 7.69 7.90 8.09 0.3 3.06 3.85 5.46 6.5 7.33 8.0 8.6 9.7 9.67 0. 0.53 0.9 0.9 6.63 3.99 5.77 6.97 7.93 8.75 9.48 0.4 0.74.9.8.3 0..5 4.07 5.94 7. 8.7 9.7 9.97 0.7.38.0.60 3.5 0.3 7.68 4. 6.05 7.39 8.48 9.44 0.30.08.8.49 3.3 3.73 0.38.3 4.5 6. 7.50 8.64 9.63 0.53.35..84 3.5 4.5 0.44 33.83 4.7 6.8 7.58 8.75 9.77 0.70.55.35 3.09 3.80 4.47 0.50 43.79 4.9 6. 7.65 8.83 9.88 0.83.7.5 3.9 4.0 4.7 0.57 55.00 4.0 6. 7.70 8.90 9.97 0.93.83.67 3.46 4.0 4.9 0.63 67.45 4. 6.8 7.74 8.96 0.04.0.93.78 3.59 4.35 5.08 0.06.06 4.0 6.5 8.0 9.06 9.78 0.3 0.70.0.7.48.65 0.3 3.83 4.4 7.58 9.88.60.93 4.00 4.87 5.59 6.0 6.73 7.8 0.9 8.0 4.50 7.9 0.53.60 4.7 5.65 6.8 7.80 8.66 9.40 0.07 0. 4. 4.54 8.08 0.88 3.4 5.0 6.58 7.9 9.09 0..0.8 0.3.5 4.57 8.8.09 3.47 5.47 7.7 8.64 9.9.06.07.97 0.38 30.4 4.58 8..3 3.70 5.79 7.58 9.4 0.5.73.8 3.8 0.44 40.78 4.60 8.30.33 3.87 6.0 7.88 9.5 0.95.3 3.39 4.43 0.50 5.59 4.6 8.33.4 3.99 6.0 8. 9.80.9.6 3.8 4.9 0.57 65.84 4.6 8.36.47 4.09 6.34 8.30 0.0.56.93 4.7.30 0.63 80.5 4.6 8.39.5 4.7 6.45 8.45 0..77 3.8 4.46.6 Coil Rows / Row Row ater volume ater pressure drop ir volume (m 3 /h) (/s) (kpa) 59 699 869 039 09 379 49 78 888 3058 330 0.03 0.33 5.8 5.7 5.35 5.4 5.48 5.54 5.59 5.64 5.68 5.7 5.76 0.06.09 7.74 7.98 8.0 8.4 8.59 8.76 8.9 9.06 9.0 9.3 9.44 0.3 3.7 9.43 9.85 0.4 0.60 0.94.6.57.86.3.39.64 0.9 7.68 0.9 0.77.3.66.06.46.84 3. 3.56 3.90 4. 0..9 0.78.3.8.30.75 3.9 3.6 4.0 4.40 4.78 5.5 0.3 9.39.0.66.0.7 3.0 3.67 4.3 4.57 4.99 5.40 5.79 0.38 7.04.3.9.47 3.0 3.5 4.0 4.50 4.96 5.40 5.84 6.6 0.44 35.84.48.09.67 3.3 3.76 4.7 4.77 5. 5.7 6.7 6.6 0.06.0.6.57.84.06.6.43.58.7.83.93 3.03 0.3 6.70 4.96 5.64 6. 6.80 7.8 7.7 8. 8.48 8.8 9. 9.40 0.9 3.65 6.60 7.5 8.33 9.07 9.74 0.36 0.93.45.94.39.8 0..70 7.5 8.54 9.49 0.36.5.89.57 3.0 3.80 4.35 4.87 0.3 33.76 8.07 9.0 0.3.8.06.88 3.64 4.35.0.64 6.3 0.38 46.74 8.46 9.65 0.75.76.70 3.58 4.39.6.88 6.56 7.0 0.44 6.6 8.75 9.98..8 3.7 4.09 4.95.76 6.5 7.4 7.93 Note: eaving water temperature of hot water coil T should not exceed 60 C. eating capacity is based on entering air temperature of C and entering water temperature of 8 C. Refer to correction factors for different entering condifions, actual heating capacity = data in the table above temperature correction factor In case the data required by customer exceeds the range in the table, please contact our technical support. Entering water temperature minus entering air temperature ET-ET 7 33 39 44 50 55 6 67 7 Correction factor 0.355 0.446 0.537 0.69 0.7 0.84 0.907.000.093.87 y using the following equation, eaving air temperature T and difference between entering water temperature and outlet water temperature T can be calculated. K x 988 T = ET + [ M 3 / (ir volume) ] T = ET - T = [ 4.9 x / S (ater volume) ] Outlet air temperature Inlet air temperature ifference between inlet water and outlet water Entering water temperature eaving water temperature K

Performance ata VariTrane Parallel Fan-Powered Parallel Fan Curve 70 Parallel 0SQ-50 z 85 Parallel -50 z External Static Pressure (Pa) 55 40 External Static Pressure (Pa) 65 45 05 85 65 45 80 360 540 70 900 ir volume(m 3 /h) 80 540 900 60 60 980 ir volume(m 3 /h) 85 Parallel -50 z 65 Parallel -50 z External Static Pressure (Pa) 65 45 05 85 65 45 External Static Pressure (Pa) 45 05 85 65 45 360 70 080 440 800 60 ir volume(m 3 /h) 540 900 60 60 980 340 ir volume(m 3 /h) Parallel -50 z Parallel -50 z External Static Pressure (Pa) 85 65 45 05 85 65 45 External Static Pressure (Pa) 85 65 45 05 85 65 45 70 080 440 800 60 0 880 ir volume(m 3 /h) 70 080 440 800 60 0 880 340 3600 ir volume(m 3 /h) Max. air volume Min. air volume Max. air volume for row Max. air volume for row 3

imensional ata VariTrane Parallel Fan-Powered imension for Parallel Fan-Powered with ot ater Coil Coil at Return ir Inlet 0SQ 76 86 86 86 Overall dimension (mm) ir outlet dimension (h) (w) 394 489 489 356 546 546 489 489 489 489 Silencer (optional) Field installation ctuator, controller and electrical controls of the fan ctuator, controller and electrical controls of the fan mm mm Coil connection Filter Size (standard configuration) ot water coil Return air inlet 60 mm 0SQ 356 mm x mm x 5 mm mm x mm x 5 mm mm x mm x 5 mm 6"-4" ir volume (0 mm 6" ir volume (5 mm) Flow Ring Tubing mm 5" ir volume (65 mm) Silencer (optional) Primary air Field installation 76 mm ir volume 0 mm Max 479 mm Max 40 mm mm Max 87mm ir outlet Top view Rear view 4

imensional ata VariTrane Parallel Fan-Powered imension for Parallel Fan-Powered ot ater Coil Coil at ir Outlet 0SQ 76 86 86 86 Overall dimension (mm) ir outlet dimension (h) (w) 394 356 546 546 Silencer (optional) Field installation ctuator, controller and electrical controls of the fan ctuator, controller and electrical controls of the fan mm Filter size (standard configuration) Return air inlet 0SQ 356 mm x mm x 5 mm 6"-4" ir volume (0 mm 6" ir volume (5 mm) Flow Ring Tubing mm 5" ir volume (65 mm) Primary air Silencer (optional) Field installation 76 mm mm x mm x 5 mm mm x mm x 5 mm ir volume 0 mm Max 479 mm Max 40 mm mm ir outlet 60 mm ot water coil Max 87mm mm Top view Rear view

imensional ata VariTrane Parallel Fan-Powered imension for ot ater Coil at ir Inlet imension of coil (mm) Row Row C C 0SQ 48 33 5 64 53 359 7 60 3 73 53 359 7 38 60 70 60 38 60 70 60 38 60 70 60 400 3 5 64 53 53 7 400 8 73 53 53 7 400 3 5 64 53 53 7 400 8 73 53 53 7 9 mm ater pipe - outlet C 9 mm ater pipe - outlet ir stream ir stream ater pipe - inlet 9 mm ater pipe - inlet 50mm C imension for ot ater Coil at ir Outlet imension of coil (mm) Row Row C 0SQ 48 4 53 359 7 48 4 73 5 53 359 7 4 60 70 60 4 60 70 60 4 60 70 60 400 4 53 53 7 400 3 73 5 53 53 7 400 4 53 53 7 400 3 73 5 53 53 7 ater pipe - outlet ater pipe - outlet 5 mm 98 mm ir stream 98 mm ir stream ccess panel 64 mm ccess panel ater pipe - inlet ater pipe - inlet 86 mm 86 mm 9 mm 50mm C 6

imensional ata VariTrane Parallel Fan-Powered imension of Parallel Fan-Powered with eater Overall dimension (mm) 0SQ 76 86 86 86 394 546 546 ir outlet dimension (h) (w) 356 ctuator, controller and electrical controls of the fan Silencer (optional) Field installation ctuator, controller and electrical controls of the fan mm Return air inlet Filter Size (standard configuration) mm 0SQ 356 mm x mm x 5 mm 0mm Flow Ring Tubing 5" ir volume (65 mm) Primary air ir volume 0 mm Silencer (optional) Field installation 76 mm mm x mm x 5 mm mm x mm x 5 mm Max 479 mm Max 40 mm mm 559 mm Terminal box Electric heater 5 mm Top view Max87mm ir outlet Rear view Outline Schematic of Electrical Control ox Electric eater (k) ir stream ir stream Model eating stages 0V 380V 49 mm 7 mm ir volume 65 mm ctuator 65 mm 40 mm ir volume E 0SQ //3 - //3/4 //3/4 //3/4 //3/4 //3/4 //3 - //3/4 //4/6 8/0/ //4/6 8/0//4 //4/6 8/0/ /4/ 0//4/6 Control type 0-04 0-04 FM00 0SQ Fan model E 7

www.trane.com iterature Order Number ate Supersedes VV-PRC00-EN October 008 March 008 For more information, contact your local Trane office or e-mail us at comfort@trane.com Trane has a policy of continuous product and data improvement and reserves the right to change design specific ations without notice.