Catalog Enfinity Large Horizontal Water Source Heat Pumps with R-410A Refrigerant

Catalog 1112-4 Enfinity Large Horizontal Water Source Heat Pumps with R-410A Refrigerant Horizontal Models CCH Standard Range & CCW Geothermal Range Unit Sizes 072 120 (6 to 10 Tons) R-410A Refrigerant Engineered for flexibility and performance

Contents Introduction... 3 Nomenclature... 3 CCH & CCW Features and Options... 4 Enfinity Large Horizontal Water Source Heat Pumps, Sizes 072-120 (6 to 10 Tons)...4 Cabinet Construction... 5 Refrigeration System... 5 Thermal Expansion Valve... 5 Fan Section... 5 Optional Factory Installed Features... 5 Control Options... 6 Control Choices And Added Functionality... 6 Control Features... 7 MicroTech III Unit Controller... 7 I/O Expansion Module... 8 MicroTech III Controller with LonWorks or BACnet Communication Module... 9 MicroTech III LonWorks Communication Module... 9 MicroTech III BACnet Communication Module... 9 MicroTech III Controller with Communication Modules Features... 9 Applications... 10 Unit Location... 10 Piping... 10 Condensate Drain Piping... 10 Ductwork and Sound Attenuation Considerations... 11 Typical Cooling and Heating Refrigeration Cycles Dual Compressors... 12 Systems... 13 Boiler / Tower Applications: ARI 320 / ISO 13256-1... 13 Open Loop Well Water Applications: ARI 325 / ISO 13256-1... 13 Closed Loop Geothermal Applications: ARI 330/ISO 13256-1... 14 ISO Performance Data... 15 Capacity Data... 16 Cooling Size 072 @ 2400 SCFM... 16 Heating Size 072 @ 2400 SCFM... 17 Cooling Size 096 @ 3000 SCFM... 18 Heating Size 096 @ 3000 SCFM... 19 Cooling Size 120 @ 4000 SCFM... 20 Heating Size 120 @ 4000 SCFM... 21 Electrical Data & Physical Data... 22 Operating Limits... 23 Additional information for initial start-up only... 23 Correction Factors... 24 Airflow Correction Factors... 24 Antifreeze Correction Factors... 24 Performance Data... 25 Dimensional Data... 26 Accessories... 29 Supply and Return Water Hoses... 29 Condensate Hose Kit... 29 Combination Balancing and Shutoff (Ball) Valves... 29 Motorized Valve... 30 Field Installed Controls... 30 Multiple Unit Control Panel (MUCP)... 30 Programmable Electronic Thermostat... 31 Non-Programmable, Auto or Manual Changeover Thermostat... 31 Optional Remote Sensor... 32 MicroTech III Water Source Heat Pump Wall Sensors.32 Optional Water Source Heat Pump Room Wall Sensors Wiring... 33 Programmable Electronic Thermostat Wiring... 33 Non-Programmable, Auto or Manual Changeover Wiring... 33 Optional Remote Sensor Wiring... 34 Typical Wiring Diagram... 35 MicroTech III Controller with I/O Expansion Module & Communication Module... 35 208/230, 4, 5--3 (1.5 hp or less)... 35 MicroTech III Controller with I/O Expansion Module & Communication Module... 36 208/230, 4, 5--3 (greater than 1.5 hp)... 36 Engineering Specifications... 37 McQuay is a registered trademark of McQuay International. McQuay International 2011. All rights reserved throughout the world. The information in this manual supersedes and replaces previous catalogues with regards to McQuay Water Source Heat Pump products. Illustrations cover the general appearance of McQuay International products at the time of publication and McQuay International reserves the right to make changes in design and construction at anytime without notice. The following are trademarks or registered trademarks of their respective companies: LonTalk from Echelon Corporation, BACnet from ASHRAE, Protocol Selectability, and MicroTech II from McQuay International. Page 2 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Introduction Large Horizontal Water Source Heat Pumps - Models CCH & CCW Sizes 072-120 (6 to 10 Tons) Model CCH (Standard Range: 55 F to 110 F) Model CCW (Geothermal Range: 30 F to 110 F) Daikin McQuay 6- to 10-ton horizontal units have a common cabinet size and common water, condensate, and duct connection locations for easier and more efficient installation. The cabinet is constructed of unpainted, G- galvanized steel. Large panels provide access to the fan/motor compartment and the compressor/control compartment. The interiors of the top and side panels and the bottom of the unit are covered with 1/2" thick, 1½ lb. dual-density fiberglass insulation. The filter is supported by a factory-mounted combination filter rack and return air duct collar, eliminating the need for field-mounted brackets. The water and condensate connections protrude through the outside of the cabinet. The water connections are FPT type for easy connection to flexible stainless steel hoses. The large condensate connection provides effective condensate removal. The electrical components are located in the compressor section of the unit. Holes are provided on the cabinet to facilitate main power and low voltage control wiring through separate holes. All wiring connections are made internal to the cabinet for maximum safety. Each unit is rated to accept time delay fuses for branch circuit and is protected by a resettable circuit breaker. The standard control for all large capacity units is the MicroTech III unit controller. The unit controller receives its power from the VA control transformer. A LonWorks or BACnet communication module is available as an option. Nomenclature W CCH 1 120 B L Y S Y Y F Product Category W = WSHP Product Identifier CCH = Large Horizontal - Standard Range CCW = Large Horizontal - Geothermal Design Series 1 = A Design 4 = D Design 2 = B Design 5 = E Design 3 = C Design Nominal Capacity 072 = 72,000 BTU/h 096 = 96,000 BTU/h 120 = 120,000 BTU/h Controls B = MicroTech III A = DDC Less Board Network Module Option L = LonWorks Module B = BACnet Module Y = None Voltage D = 208--3 F = 208/230--3 H = 230--3 K = 4--3 L = 5--3 N = 3-50-3 Reserved Y = None Reserved Y = None Condensate Overflow S = Standard Overflow Sensor Current Sensing Y = None Note: For illustration purposes only. Not all options available with all models. Please consult McQuay Sales Representative for specific availability. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 3 of 40

CCH & CCW Features and Options Schrader Connections MicroTech III Controller I/O Expansion Module LonWorks BACnet Communication Communication Module Module LED Annunciators Enfinity Large Horizontal Water Source Heat Pumps, Sizes 072-120 (6 to 10 Tons) Model CCH (Standard Range: 55 F to 110 F) Model CCW (Geothermal Range: 30 F to 110 F) 1. Cabinet - Heavy gauge G- galvanized steel. 2. Fan Section - A forward curved, DWDI fan, solid steel shaft mounted in ball bearings. Motor to be three phase, Open- Drip Proof (ODP) type with variable pitch sheave and adjustable base. 3. Insulation - All interior framework and panels are lined with 1/2" thick, 1½ lb. dual-density fiberglass insulation. Optional (IAQ) closed-cell foam insulation. 4. Drain Pan - Heavy-gauge, insulated, galvanized steel or optional stainless steel. 5. Filters - Standard 2" factory-installed filter rack with 2" throwaway filters. Filter rack outfitted with duct collar. 6. Refrigerant Circuit - All units have a dual refrigerant circuit with scroll compressors, thermal expansion valve, plate to plate heat exchanger, finned tube airside coil, reversing valve and service valves. 7. Electrical - The control enclosure includes components necessary for proper unit operation. These components include, but not limited to: fan relay, compressor contactors, 24 VAC control transformer and control circuit boards. 8. Schrader Connections - Four Schrader valves are located inside the end access panel one on the low side and one on the high side of the refrigeration circuit for charging and servicing. All valves are 7/16" SAE fittings. 9. MicroTech III Controllers Designed for flexibility, the control board is used in standalone applications in conjunction with the I/O expansion module for control of the second refrigerant circuit. A separate LonWorks or BACnet communication module can be easily snapped onto the Microtech III board to allow communication with a building automation system. The control system accomodates the use of a two-stage heat/two-stage cool 7-day programmable or non-programmable wall-mounted thermostat, offered as a field-installed option. 10. LED Annunciators External LED status lights display fault conditions to provide easy troubleshooting and diagnosis, visible without removing the access panel. 11. External Pipe Connections Supply and return pipe connections located outside the cabinet make pipe connections easy without removing access panels. Safety Controls (Not Shown) - Low and high refrigerant pressure switches and low refrigerant suction temperature (freezestat) sensor. Page 4 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

CCH & CCW Features and Options Cabinet Construction Daikin McQuay 6- to 10-ton horizontal units have a common cabinet size and common water, condensate, and duct connection locations for easier and more efficient installation. The cabinet is constructed of heavy-gauge G- galvanized steel. Large panels provide access to the fan/motor compartment and the compressor/control compartment. The interiors of the top and side panels and the bottom of the unit are covered with 1/2" thick, 1½ lb. dual-density fiberglass insulation. Closed-cell foam (IAQ) insulation is available as a selectable option, suitable for fiberglass-free applications. The filter is supported by a factory-mounted combination filter rack and return air duct collar, eliminating the need for field-mounted brackets. The water and condensate connections protrude through the outside of the cabinet. The water connections are FPT type for easy connection to flexible hoses. The large condensate connection provides effective condensate removal. The electrical components are located in the compressor section of the unit. Holes are provided on the cabinet to facilitate main power and low voltage control wiring through separate holes. All wiring connections are made internal to the cabinet for maximum safety. Each unit is rated to accept time delay fuses for branch circuit and is protected by a resettable circuit breaker. Figure 1: Controls and Compressor Compartment Refrigeration System Units have a dual circuit design and the two circuits operate independently to enable load shedding when conditions allow. Each circuit employs a random start feature to prevent both compressors from energizing simultaneously after an unoccupied cycle. Units contain two of each refrigerant system component, including high efficiency compressors, plate-to-plate heat exchangers, reversing valves, expansion valves, high/low side refrigerant service valves, and required safety controls. Large access panels are provided for easy service access to any of these components. The reversing valves are energized in the heating mode and will fail-safe to the cooling mode, which is the predominant mode of operation. The air-to-refrigerant coil is a dual circuit coil on one slab. It is split equally along the horizontal axis for maximum efficiency. The fins are lanced and the tubes have finned edges on the inside to enhance heat transfer capabilities. Extended range units include coil and piping insulation to protect against condensation in low temperature geothermal applications. Safety controls include low suction temperature (freezstat) and high pressure switches to lock out compressor operation at extreme conditions. The safety controls can only be reset from the main disconnect switch - not from the wall thermostat. For additional safety, each unit has a 7 psi (48 kpa) low pressure switch to protect the compressor from low refrigerant charge. The low setting prevents nuisance trips while providing adequate protection. Figure 2: Piping Compartment Thermal Expansion Valve Units include a Thermal Expansion Valve (TXV) for refrigerant metering. The TXV allows the unit to operate at optimum efficiency with fluid temperatures ranging from 25ºF to 110ºF (geothermal capable units only) and entering air temperatures ranging from 40ºF to 90ºF. The TXV precisely meters the exact amount of refrigerant flow through the system to meet the load and deliver rated heating and cooling capacity. Fan Section The fan section includes the fan housing, fan wheel, fan motor, adjustable sheave, high strength V-belt, and drain pan. The standard drain pan is made of G- galvanized steel and is insulated from the cabinet. A stainless steel drain pan is available as an option. The pan has ample height to allow self-priming of the condensate trap. The fan motor is a single speed, high efficiency PSC type with an adjustable sheave for field adjustment. The motor is isolated from the fan housing to minimize vibration transmission to the cabinet. The fan housing protrudes through the cabinet to provide adequate material to connect to a fieldprovided flexible duct collar. The fan discharge can exit from the end or the side of the unit and must be configured at the factory. Optional Factory Installed Features Geothermal range units are available for applications requiring heating operation at reduced entering conditions. The geothermal range unit will operate at 25ºF (5ºC) minimum entering water temperature, 40ºF (5ºC) minimum entering air temperature. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 5 of 40

Control Options Control Choices And Added Functionality The control enclosure houses the major operating electrical controls including the MicroTech III controller and I/O expansion module, control transformer, compressor relays and fan relay. Each component is easily accessed for service or replacement. Three unique control choices are offered with the Micro- Tech III control system: Standalone operation using a MicroTech III controller and I/O expansion module MicroTech III controller and I/O expansion module with a LonWorks communication module MicroTech III controller and I/O expansion module with a BACnet communication module Each option features direct quick-connect wiring to all unitcontrolled components for clean wiring inside the control box. Each control circuit board receives power from a VA transformer. Table 1: Control Options Control Description Application Protocol MicroTech III (Standalone) Unit Controller with I/O Expansion Module The MicroTech III controller is a standalone microprocessor-based control board conveniently located in the unit control enclosure for easy accessibility. The board is designed to provide thermostat control of a Water Source Heat Pump using a two-stage wall thermostat. The unit controller provides unit-wide control of the WSHP and control of the first refrigerant circuit. The I/O Expansion Module is an extension of the Microtech III controller and provides control of the second refrigerant circuit. External LED status lights display fault conditions to provide easy troubleshooting and diagnosis of the second circuit. Each unit controller is factory programmed, wired, and tested for complete control of single zone, standalone operation of your McQuay Water Source Heat Pump. Allows for: Control of second refrigeration circuit. Unit-mounted or wall-mounted thermostat Wall-mounted thermostat or sensor LonWorks Communication Module The MicroTech III control system accepts a plug-in LonWorks communication module to provide network communications and added functionality to easily integrate with an existing BAS. The communication module can be factory- or field-installed and is tested with all logic required to monitor and control the unit. Designed to be linked with a centralized building automation system (BAS) through a LonWorks communications network for centralized scheduling and management of multiple heat pumps. LonM ark 3. 4 certified BACnet Communication Module The MicroTech III controller accepts a plug-in BACnet commu nication module to provide network communications and added functionality to easily integrate with an existing BAS. The communication module can be factory- or field-installed and is tested with all logic required to monitor and control the unit. Designed to be linked with a centralized building automation system (BAS) through a BACnet communications network for centralized scheduling and management of multiple heat pumps. BACnet MS/TP Page 6 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Control Features MicroTech III Unit Controller The MicroTech III Controller is a microprocessor-based control board conveniently located in the unit control box for easy access through a removable access panel. The standalone unit controller is a hard wired interface and provides all the necessary field connections. The board can be wired for 24-volt AC output to the wall thermostat by using terminals R & C. An LED annunciator is located on the front of the unit chassis to allow quick check of the unit operating status. MicroTech III Operating Features Assumes cycle fan operation-not continuous fan operation: Start-up The unit will not operate until all the inputs and safety controls are checked for normal conditions. Cooling mode On a call for cooling from the wall thermostat, the controller will energize the fan relay and stage compressors to satisfy the space temperature setpoint. When the load is satisfied, the controller will disable the compressor and fan. Heating Mode On a call for heating from the wall thermostat, the controller will enable the fan, energize circuit one reversing valve and circuit 1 compressor to satisfy the space heating setpoint. If the space temperature setpoint is not satisfield, circuit two reversing valve and circuit 2 compressor will be energized and run until the heating setpoint at the thermostat is satisfied. Random Start Power-up Delay Timer In the event of a building power outage, this feature prevents multiple units from starting simultaneously upon building power restoration. Unoccupied Mode A simple grounded signal between terminals U and C (no power source required), puts the unit into the unoccupied mode for night setback operation. Interstaging Timer A default value of 5 minutes between staging of compressors, this feature minimizes short cycling of compressors and improves comfort. Override Mode A switch on the deluxe automatic changeover thermostat can be activated during the unoccupied mode to put the unit back into the occupied mode for two hours for after-hours heating or cooling. Motorized Valve/Pump Restart The IV/PR (H8) terminals on the The MicroTech III unit controller are used to energize (open) a motorized valve or start a water pump to get water circulating prior to starting the compressor on call for heating or cooling. The IV/ PR (H8) terminal may be daisy chained between a maximum of 200 units. Brownout Protection The MicroTech III unit controller measures the input voltage and will suspend compressor and fan operation if the voltage falls below % of the unit nameplate rated value. A unique LED status is generated. Unit Shutdown A simple grounded signal puts the unit into the shutdown mode. Compressor and fan operations are suspended. A unique LED status is generated. Condensate Overflow Protection The MicroTech III controller incorporates a liquid sensor at the top of the drain pan. Upon sensing water flow, cooling operation is suspended. A unique LED status is generated. Remote Reset of Automatic Lockouts The Remote Reset feature provides the means to remotely reset automatic lockouts generated by high-pressure and/ or low-temperature faults. When the MicroTech III controller is in automatic lockout due to one of these faults, and the cause of the fault condition has been alleviated, energizing the O-terminal for 10 seconds or more will force the control board to clear the lockout. A unit power cycle can also be used to clear an automatic lockout if the conditions causing the fault have been alleviated. Intelligent Reset The Fault Retry feature helps to minimize nuisance trips of automatic lockouts caused by high-pressure and/or low-temperature faults. This feature clears faults the first two times they occur within a 24-hour period and triggers an automatic lockout on the 3rd fault. The retry count is reset to zero every 24 hours. Equipment Protection Control The MicroTech III controller receives separate input signals from the refrigerant high-pressure switch and the low suction line temperature sensor. In a high-pressure situation, compressor operation is suspended. In a low temperature situation, the unit goes into a defrost cycle where the unit is put into cooling operation for seconds until the coaxial heat exchanger is free of ice. Each switch generates its own unique LED status. Note: Most unit fault conditions are the result of operating the equipment outside the unit specifications. Table 2: MicroTech III Controller LED & Fault Outputs Mode / Fault Status LED s Thermostat Alarm Light Yellow Green Red Output-Terminal A Occupied, Bypass, Standby, or Tenant Off On Off Energized Override Unoccupied On On Off Energized Condensate Overflow On Off Off De-energized High Pressure 1 Fault Off Off Flash De-energized Low Pressure 1 Fault Off Off On De-energized Low Temperature 1 Fault Flash Off Off De-energized Brownout Off Flash Off De-energized Emergency Shutdown Off Flash Off De-energized Room/Return Air or Low Temp Sensor 1 Failure Flash Flash On De-energized Service Test Mode Enabled 1 Serial EEPROM Corrupted Network Offline Received Flash Flash Flash De-energized On On On De-energized Off Off Off De-energized Note: 1 Compressor relay/compressor terminal is labeled COMP, switched line of the same electric input as any of the L1 terminals. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 7 of 40

Control Features I/O Expansion Module Figure 3: I/O Expansion Module Configuration Jumper Terminals Jumper Terminals The I/O Expansion Module is factory-installed for control of the second refrigeration circuit. The I/O Expansion Module has an independent LED annunciator to identify operational fault conditions for the electric heater. Table 3: I/O Expansion Module LED & Fault Mode / Fault Status LED's Yellow Green Red Thermostat Alarm Light Output Terminal A JP1 shorted in units with 2 compressors JP1 through JP8 not used with 2 circuit units. Invalid Configuration Jumper Setting Base Board Communication Fail Flash Flash Off De-energized Off Flash Flash N/A High Pressure #2 Fault Off Off Flash De-energized Low Pressure #2 Fault Off Off On De-energized Low Suction Temp #2 Fault Flash Off Off De-energized Sensor Failures Low Suction Low Suction Temp #2, Flash Flash On De-energized 1 EWT (w/ Boilerless EH only) 2 Service Test Mode Enabled Flash Flash Flash De-energized Unoccupied Mode On On Off Energized Occupied, Bypass, Standby, or Tenant Off On Off Energized Override Modes Normal Operation Off On Off De-energized Note: Mode / Faults are listed in order of priority. 1 Boilerless electric heat only 2 Alarm/fault LED indications take precedence over service test mode LED indication. The controller shall use service test mode if the service test mode jumper is installed, even if the LED s indicate an alarm/fault. Page 8 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Control Features MicroTech III Controller with LonWorks or BACnet Communication Module Each Enfinity Large Vertical and Horizontal Water Source Heat Pump can be equipped with a LonWorks or BACnet communication module. The LonWorks module is Lon- Mark 3.4 certified and designed to communicate over a LonWorks communications network to a Building Automation System (BAS). The BACnet module is designed to communicate over a BACnet MS/TP communications network to a building automation system. Both controllers are microprocessor-based and can be factory or field-installed. The control modules are programmed and tested with all the logic required to monitor and control the unit. Optional wall sensors may be used with the communication modules to provide limited local control of the Horizontal Water Source Heat Pump. The MicroTech III controller monitors water and air temperatures and passes information to the communication module. The module communicates with the BAS, to provide network control of the Water Source Heat Pump. MicroTech III LonWorks Communication Module The LonWorkss communication module is designed for units that are integrated into a LonWorks communication network for centralized scheduling and management of multiple heat pumps. MicroTech III Controller with Communication Modules Features The MicroTech III Controller with LonWorks or BACnet Communication Module orchestrates the following unit operations: Enable heating and cooling to maintain space temperature setpoint based on a room sensor setting Enable fan and compressor operation Monitors all equipment protection controls Monitors room and discharge air temperatures Monitors leaving water temperature Relays status of all vital unit functions An amber, on-board status LED indicates the status of the MicroTech III LonWorks or BACnet module. The MicroTech III unit controller with communication module includes: Return Air Temperature sensor (RAT) (field-installed) Discharge Air Temperature sensor (DAT) (field-installed) Leaving Water Temperature sensor (LWT) CAUTION When an optional wall-mounted room temperature sensor is connected to the unit controller, the Return Air Temperature (RAT) sensor must not be installed. A wall-mounted room temperature sensor and the return air temperature sensor must not be connected simultaneously or the unit will not operate properly. The communication modules provide network access to setpoints for operational control MicroTech III BACnet Communication Module Designed to be linked with a centralized building automation system (BAS) through a BACnet communications network for centralized scheduling and management of multiple heat pumps. Available Wall Sensors Include: Room sensor Room sensor with LED status and tenant override button Temperature sensor with LED status, timed-override button, and ±3 F setpoint adjustment Room sensor with LED status, timed-override button, 55 to 90 F setpoint adjustment Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 9 of 40

Applications Unit Location It is important to leave enough space for service personnel to perform maintenance or repair. Locate the horizontal unit to allow for easy removal of the filter and access panels. Allow a minimum of 18" (46 cm) clearance on each side of the unit for service and maintenance access and do not install the unit above any piping. Always be sure to leave at least one side of the filter rack unobstructed so that the service personnel will be able to slide the filter out. Each unit is suspended from the ceiling by four 3/8" threaded rods fastened to the unit by a hanger bracket and rubber isolator. The design should place the unit directly below the structural members so that it is securely anchored. Avoid installing units directly above spaces where building occupants will reside (e.g. above office desks or classrooms) to reduce the requirement for noise attenuation. Do not place units above high traffic areas because service access may be limited during occupied hours. For example, units are typically installed above the hallway drop ceiling in Schools and the supply and return air is routed directly into classrooms. Local code may require fire dampers to be used with this application. Piping The WSHP unit is typically connected to the supply/return piping using a reverse return piping system which includes a flow control device so that flow requirements are met for each zone. A short, high pressure flexible hose is used to connect the unit to the building s hard piping and Figure 4: Typical Ceiling Installation acts as a sound attenuator for both the unit operating noise and hydraulic pumping noise. One end of the hose has a swivel fitting to facilitate removal of the unit for replacement or service. Include supply and return shutoff valves in the design to allow removal of a unit without the need to shut down the entire heat pump system. The return valve may be used for balancing and will typically have a memory stop so that it can be reopened to the proper position for the flow required. Fixed flow devices are commercially available and can be installed to eliminate the need for memory stop shut off valves. Include Pressure / Temperature ports to allow the service technician to measure water flow and unit operation. Condensate Drain Piping Condensate piping can be made of steel, copper or PVC pipe. In most cases, PVC pipe eliminates the need to wrap insulation around the pipe to prevent sweating. A threaded, factory supplied condensate fitting allows the connection of PVC, flexible vinyl hose or steel braided hose. The condensate piping must be trapped at the unit and pitched away from the unit not less than 1/4" per foot. A vent is required after the trap so that the condensate will drain away from the unit. The vent can also act as a clean out if the trap becomes clogged. To avoid having waste gases entering the building, the condensate drain should not be directly piped to a drain/waste/vent stack. See local codes for the correct application of condensate piping to drains. Figure 5: Typical Condensate Piping Condensate Drain (P Trap) Optional Field Installed Vent 1/4" Per Foot (21mm Per Meter) 1 1/2" (38mm) 1 1/2" (38mm) Page 10 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Applications Ductwork and Sound Attenuation Considerations Ductwork is normally applied to ceiling-mounted heat pumps on the discharge side of the unit. A discharge collar is provided on all horizontal unit models for fastening the ductwork. Use a flexible connector between the discharge collar and the duct transformation to help reduce vibration transmission from the cabinet and to simplify disconnection of the unit from the ceiling ductwork. If return ductwork is to be used, attach a flexible connector to the filter rack collar to help reduce vibration transmission and removal of the unit. Return plenum ducting should be at least 12 inches away from the coil so that the coil is evenly loaded with return air. As a general recommendation, duct interiors should have an acoustic / thermal lining at least 1/2 inch thick over the entire duct run. For better sound attenuation, line the last five diameters of duct before each register with a one-inch thick sound blanket. Elbows, tees and dampers can cre- ate turbulence or distortion in the airflow. Place a straight length of duct, 5 to 10 times the duct width, before the next fitting to smooth out airflow. Diffusers that are located in the bottom of a trunk duct can also produce noise. For this same reason, volume control dampers should be located several duct widths upstream from an air outlet. For Hotel, Motel, Dormitory or Nursing Home applications that use a single duct discharge, a velocity of 500 to 0 fpm is suggested. These applications typically have static pressures as low as 0.05 inches of water and duct lengths approximately six feet in length. The discharge duct must be fully lined and have a square elbow without turning vanes. Return air for these applications should enter through a low sidewall filter grille and route up the stud space to a ceiling plenum. For horizontal heat pumps mounted from the ceiling, an insulated return plenum is sometimes placed at the return air opening to further attenuate line-of-sight sound transmission through return openings. Figure 6: Suggested Supply Ducting per ASHRAE and SMACNA Publications Flexible Connector Acoustic/Thermal Lining 3ft. (.9m) to 5ft. (1.5m) Ductwork Supported Independent of Unit Acoustic/Thermal Lining Diffuser Diffuser Two 90 Turns (Ductwork Sized Based on Airflow) Figure 7: Suggested Return Ducting per ASHRAE and SMACNA Publications Ductwork Supported Independent of Unit Two 90 Turns Prior to the Intake (Ductwork Sized Based on Airflow) Acoustic/Thermal Lining Flexible Connector Acoustic/Thermal Lining Return Air Intake Located Away from the Unit Blower Acoustic/Thermal Lining 10ft. (3 meters) Flexible Connector Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 11 of 40

Applications Typical Cooling and Heating Refrigeration Cycles Dual Compressors Note: Typical temperature readings are at full load conditions at ISO-13256 for boiler-tower applications. Figure 8: Cooling Refrigeration Cycle When the wall thermostat calls for COOLING, the reversing valve (de-energized) directs the flow of the refrigerant, a hot gas, from the compressor to the water-torefrigerant heat exchanger (coaxial heat exchanger). There, the heat is removed by the water, and the hot gas condenses to become a liquid. The liquid then flows through a thermal expansion valve to the air-to-refrigerant heat exchanger coil (evaporator). The liquid then evaporates and becomes a gas, at the same time absorbing heat and cooling the air passing over the surfaces of the coil. The refrigerant then flows as a low pressure gas through the reversing valve and back to the suction side of the compressor to complete the cycle. Figure 9: Heating Refrigeration Cycle When the wall thermostat calls for HEATING, the reversing valve (energized) directs the flow of the refrigerant, a hot gas, from the compressor to the air-to-refrigerant heat exchanger coil (condenser). There, the heat is removed by the air passing over the surfaces of the coil and the hot gas condenses and becomes a liquid. The liquid then flows through a thermal expansion valve to the water-to-refrigerant heat exchanger (evaporator). The liquid then evaporates and becomes a gas, at the same time absorbing heat and cooling the water. The refrigerant then flows as a low pressure gas through the reversing valve and back to the suction side of the compressor to complete the cycle. Page 12 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Applications Systems Water source heat pump systems are one of the most efficient, environmentally friendly systems available for heating and cooling buildings. High-efficiency, self contained units (sizes 7,000 btuh to 290,000 btuh) can be placed in virtually any location within a building. Each unit responds only to the heating or cooling load of the individual zone it serves. This permits an excellent comfort level for occupants, better control of energy use for building owners and lower seasonal operating costs. The Air-Conditioning Refrigeration Institute (ARI) and the International Standards Organization (ISO) publish standards so that water source heat pumps are rated for specific applications. The ARI/ISO loop options shown in this catalog are typical water source heat pump loop choices available in today s market. These systems offer benefits ranging from low cost installation to the highest energy efficiency available in the market today. Boiler / Tower Applications: ARI 320 / ISO 13256-1 A Boiler/Tower application uses a simple two-pipe water circulating system that adds heat, removes heat or transfers rejected heat to other units throughout the building. The water temperature for heating is generally maintained between 65ºF ºF and is usually provided by a natural gas or electric boiler located in a mechanical room. The condensing water temperature, during cooling months, is maintained between ºF and 95ºF and requires the use of a cooling tower to dissipate waste heat. Cooling towers can be located on the roof, or inside or adjacent to the building. This application can be the lowest cost of the loop options available. Note: ASHRAE 90.1 standards require that circulating pumps over 10 HP will require use of variable frequency drive equipment and pipe insulation to be used whenever water temperatures are below degrees and above 105 degrees. See ASHRAE 90.1 Standards for details. Figure 8: Boiler/Tower Application Open Loop Well Water Applications: ARI 325 / ISO 13256-1 Open Loop well water systems use ground water to remove or add heat to the interior water loop. The key benefit of an open loop system is the constant water temperature, usually 50ºF to ºF, which provides efficient operation at a low first cost. Most commercial designers incorporate a heat exchanger to isolate the building loop from the well water. Using heat exchangers can reduce maintenance issues while still allowing the transfer of heat from unit to unit as with the Boiler/Tower System. A successful design provides an ample amount of groundwater (approximately 2 GPM per ton) and adequate provisions for discharging water back to the aquifer or surface. Open Loop applications are commonly used in coastal areas where soil characteristics allow reinjection wells to return the water back to the aquifer. Note that some states have requirements on the depths of return water reinjection wells, and such wells must be approved by the United States Environmental Protection Agency. Also, bad water quality can increase problems with heat exchanger scaling. Suspended solids can erode the heat exchanger. Strainers can be used to contain suspended solids. Figure 9: Open Loop Well Application Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 13 of 40

Applications Closed Loop Geothermal Applications: ARI 330/ISO 13256-1 Vertical Closed Loop applications are installed by drilling vertical bore holes into the earth and inserting a plastic polyethylene supply/return pipe into the holes. The vertical wells are connected in parallel reverse return fashion to allow the water from the building to circulate evenly throughout the borefield. The circulating fluid dissipates heat to the ground in a similar manner as a tower and adds heat back to the loop like a boiler. If properly designed, the loop field can maintain the loop temperatures necessary to condition the building without the use of a boiler or a tower. Loop temperatures usually range from 37ºF to 95ºF in Northern climates. Southern applications can see temperatures ranging from 40ºF to 100ºF. The number of bore holes and their depth should be determined by using commercial software that is specifically designed for vertical geothermal applications. Typical bore depths of a vertical loop range from 150 to 400 feet and generally require about 250 feet of surface area per ton of cooling. Figure 10: Vertical Loop Application Figure 11: Horizontal Loop Application A Surface Water or Lake closed loop system is a geothermal loop that is directly installed in a lake or body of water that is near the building. In many cases, the body of water is constructed on the building site to meet drainage or aesthetic requirements. Surface loops use bundled polyethylene coils that are connected in the same manner as a vertical or horizontal loop using a parallel reverse return design. The size and the depth of the lake is critical. Commercial design services should be used to certify that a given body of water is sufficient to withstand the building loads. Loop temperatures usually range from 35ºF to 90ºF and prove to be the best cooling performer and lowest cost loop option of the three geothermal loops. Some applications may not be good candidates due to public access or debris problems from flooding. Figure 12: Surface Water Loop Application A closed loop Horizontal geothermal application is similar to a vertical loop application with the exception that the loops are installed in trenches approximately 5 feet below the ground surface. The piping may be installed using a four-pipe or six-pipe design and could require 1,500 to 2,000 square feet of surface area per ton of cooling. Loop temperatures for a commercial application can range from 35ºF to 95ºF in Northern climates. Southern climates can see temperatures ranging from 40ºF to 100ºF. Horizontal loops are generally not applied in urban areas because land use and costs can be prohibitive. New advances in installation procedures have improved the assembly time of horizontal loops while keeping the first cost lower than a vertical loop. Page 14 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

ISO Performance Data Table 4: Water Loop Unit Size 072 096 120 Airflow Waterflow Cooling Heating Voltage CFM L/S GPM L/S Btuh Watts EER COP Btuh Watts COP 2400 3000 4000 1133 1416 1888 20.1 23.6 30.1 1.27 1.49 1.90 208/230--3 4--3 5--3 208/230--3 4--3 5--3 208/230--3 4--3 5--3 78100 94900 1210 22868 27788 35664 Note: Water Loop Performance Data Rated in Accordance with ISO Standard 13256-1 13.4 14.8 14.4 3.9 4.3 4.2 820 94300 126200 24215 27612 36953 4.4 4.3 4.4 Table 5: Ground Loop Unit Size 072 096 120 Airflow Waterflow Cooling Heating Voltage CFM L/S GPM L/S Btuh Watts EER COP Btuh Watts COP 2400 3000 4000 1133 1416 1888 20.1 23.6 30.1 1.27 1.49 1.90 208/230--3 4--3 5--3 208/230--3 4--3 5--3 208/230--3 4--3 5--3 770 97300 1240 221 28490 36484 Note: Ground Loop Performance Data Rated in Accordance with ISO Standard 13256-1 16.3 16.8 16.0 4.8 4.9 4.7 580 66100 92500 188 19355 2 3.7 3.3 3.6 Table 6: Ground Source Unit Size 072 096 120 Airflow Waterflow Cooling Heating Voltage CFM L/S GPM L/S Btuh Watts EER COP Btuh Watts COP 2400 3000 4000 1133 1416 1888 20.1 23.6 30.1 1.27 1.49 1.90 208/230--3 4--3 5--3 208/230--3 4--3 5--3 208/230--3 4--3 5--3 82500 103100 134400 24157 30189 39354 21.3 21.5 20.7 6.2 6.3 6.1 400 790 1150 Note: Ground Source Performance Data Rated in Accordance with ISO Standard 13256-1 20907 23366 33878 4.2 3.8 4.2 Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 15 of 40

Page 16 of 42 McQuay Enfinity Horizontal Water Source Heat Pumps Catalog 1112-3 Capacity Data Cooling Size 072 @ 2400 SCFM EWT GPM WPD System EA LWT TOT SEN kw EER 30 40 50 90 100 110 21.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 38.8 39.5 40.1 35.9 36.3 36.8 34.5 34.8 35.1 48.7 49.3 49.9 45.8 46.2 46.6 44.4 44.7 45.0 58.5 59.1 59.6 55.7 56.1 56.5 54.3 54.6 54.9 68.3 68.8 69.4 6 65.9 66.3 64.2 64.5 64.7 78.1 78.6 79.1.4.8 76.1 74.1 74.3 74.6 87.9 88.4 88.9.3.6 86.0 84.0 84.2 84.5 92.8 93.3 93.8 90.2 90.6 90.9 88.9 89.2 89.4 97.8 98.2 98.7 95.2 95.5 95.8 93.9 94.1 94.4 107.6 108.1 108.5 105.1 105.4 105.7 103.8 104.1 104.3 117.5 117.9 118.3 115.0 115.3 11 113.8 114.0 114.2 982 104910 1125 916 105990 113790 989 106540 1143 93797 1007 10 94783 101930 1093 95272 102510 1100 89651 914 1032 90655 97499 1040 91193 994 105290 347 91655 98202 837 92768 99518 86832 93359 100220 798 868 93022 81764 87920 94322 82277 815 94949 76192 81873 87815 751 82935 88959 77648 83457 89577 73946 79412 1 740 434 8 284 81013 86953 650 726 828 72594 77981 833 729 78483 84292 216 72317 797 610 731 779 68387 73621 79111 029 952 73041 4 68644 73798 64065 69031 74199 437 74520 777 925 053 78195 721 326 78477 69452 724 500 69969 73039 76118 234 73326 76441 264 227 73211 6 828 73846 688 130 74174 64956 873 798 65486 68434 422 653 68733 8 62531 65414 68337 044 65996 68956 317 66295 69254 056 62932 65839 579 4 690 847 746 66690 58837 618 645 59296 62198 65146 595 62495 65427 592 459 330 58128 945 8 58311 61202 64140 55193 537 912 55622 58473 61386 55822 584 61642 52895 55774 586 532 56140 59050 53465 536 59248 2.91 2.96 3.01 2.78 2.82 2.86 2.72 2. 2.79 3.41 3.45 3.49 3.28 3.31 3.35 3.21 3.25 3.28 3.93 3.97 4.00 3. 3.83 3.86 3.73 3.76 3.78 4.49 4.53 4.57 4.36 4.39 4.42 4.30 4.32 4.34 5.13 5.16 5.19 4.99 5.01 5.03 4.92 4.93 4.95 5.84 5.86 5.88 8 5. 5.72 1 5. 4 6.21 6.24 6.26 6.07 6.08 6.09 5.99 5.99 6.01 6.62 6. 6.65 6.45 6.47 6.48 6.38 6.39 6.39 7.45 7.45 7.46 7.29 7.30 7.30 7.22 7.21 7.21 8.31 8.29 8.27 8.17 8.15 8.13 8.09 8.08 8.06 33.5 35.5 37.4 35.4 37.5 39.7 36.4 38.7 41.0 27.5 29.2 31.0 28.9 30.8 32.6 29.6 31.6 33.6 22.8 24.3 25.8 23.8 25.5 27.1 24.4 27.8 19.0 20.2 21.5 19.8 21.1 22.5 20.2 21.6 23.1 15.8 16.8 17.9 16.4 17.6 18.8 16.7 19.2 13.1 14.0 14.9 13.6 14.5 15.5 13.9 14.8 15.9 11.9 12.7 13.6 12.3 13.2 14.2 12.6 13.5 14.5 10.8 11.6 12.4 11.3 12.1 12.9 11.4 12.3 13.2 9.0 9.7 10.4 9.3 10.0 10.8 9.5 10.2 11.0 7.6 8.2 8.8 7.8 8.4 9.1 7.9 8.5 9.

Catalog 1112-3 McQuay Efinity Horizontal Water Source Heat Pumps Page 17 of 42 Capacity Data Heating Size 072 @ 2400 SCFM EWT GPM WPD System EA LWT TOT kw COP 20 30 40 50 90 21.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 21.2 15.9 16.1 16.4 17.3 17.4 17.6 17.9 18.1 18.2 24.8 25.1 25.4 26.5 26.7 27.0 27.4 27.6 27.7 33.6 34.0 34.3 35.7 36.0 36.2 36.8 37.0 37.2 42.2 42.7 43.1 44.8 45.1 45.4 46.1 46.3 46.6 50.7 51.2 51.8 53.8 54.2 54.5 55.3 5 55.9 59.1 59.7.3 62.7.1.5 64.5 64.8 65.2.3 68.0 68.8.5 72.0 72.5 73.7 74.0 74.4.4 72.2 72.9.9 76.4 77.0 78.2 78.6 79.0.5 76.3 77.1.3.9 81.4 82.7 83.1 83.6 40774 40592 40394 40774 40592 40394 40774 40592 40394 494 416 47444 494 416 47444 495 416 47444 57617 565 555 57618 56573 55564 57619 56573 55565 729 66161 646 733 66164 644 735 66166 646 78829 76696 746 78839 4 74681 78842 6 74684 90797 866 477 90822 886 491 90829 891 496 103490 100140 96938 103550 1001 969 1035 100190 96979 110050 106400 1028 110140 1064 102910 1101 1064 102930 1140 1120 108910 1168 112840 1089 116900 1128 109000 3.59 4.04 4.53 3.59 4.04 4.53 3.59 4.04 4.53 3. 4.16 4.66 3. 4.16 4.66 3. 4.16 4.66 3.83 4.31 4.82 3.83 4.31 4.82 3.83 4.31 4.82 3.99 4.48 5.01 3.99 4.48 5.01 3.99 4.48 5.01 4.18 4.68 5.22 4.18 4.68 5.22 4.18 4.68 5.22 4.39 4.89 5.44 4.39 4.89 5.44 4.39 4.89 5.44 4.62 5.13 9 4.62 5.13 9 4.62 5.13 9 4.74 5.26 5.81 4.74 5.26 5.82 4.74 5.26 5.82 4.87 5.39 5.95 4.88 5.39 5.95 4.88 5.39 5.95 2.4 2.0 1.7 2.4 2.0 1.7 2.4 2.0 1.7 2.9 2.4 2.0 2.9 2.4 2.0 2.9 2.4 2.0 3.5 2.9 2.4 3.5 2.9 2.4 3.5 2.9 2.4 4.0 3.4 2.8 4.0 3.4 2.8 4.0 3.4 2.8 4.6 3.9 3.2 4.6 3.9 3.2 4.6 3.9 3.2 5.1 4.3 3.6 5.1 4.3 3.6 5.1 4.3 3.6 4.8 4.0 4.8 4.0 4.8 4.0 5.8 5.0 4.2 5.8 5.0 4.2 5.8 5.0 4.2 6.1 5.2 4.4 6.1 5.2 4.4 6.1 5.2 4.4

Page 18 of 42 McQuay Enfinity Horizontal Water Source Heat Pumps Catalog 1112-3 Capacity Data Cooling Size 096 @ 3000 SCFM EWT GPM WPD System EA LWT TOT SEN kw EER 30 40 50 90 100 110 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 45.4 45.4 45.4 45.4 45.4 45.4 45.4 45.4 45.4 45.4 42.4 42.9 43.4 40.8 41.2 41.5 39.9 40.2 40.4 52.4 52.8 53.3 50.8 51.1 51.5 49.8 50.1 50.4 62.3 62.7.2.7 61.1 61.4 59.8.1.3 72.2 72.6 73.1.6.0.3 69.7.0.3 82.1 82.5 82.9.6.9 81.2 79.6 79.9.2 91.9 92.3 92.8 90.5 90.8 91.1 89.6 89.8 90.1 96.9 97.3 97.7 95.4 95.7 96.0 94.5 94.8 95.0 101.8 102.2 102.6 100.4 100.7 101.0 99.5 99.7 100.0 111.7 112.1 112.5 110.3 110.6 110.9 109.4 109.7 109.9 121.6 122.0 122.3 120.2 120.5 120.8 119.4 119.6 119.8 108620 117220 1290 1090 11 1266 109290 11 1240 105330 113730 1226 105820 114320 123350 106130 1140 1237 101730 109840 118350 102220 110410 1190 102530 1107 119500 97953 1056 1130 98457 1062 114530 98762 106620 114950 93916 101300 109130 94423 101890 109820 94733 1022 110240 89641 968 104150 90142 97272 104820 90456 97628 105240 87400 94287 1015 87911 948 102250 88220 95230 1026 116 91840 98957 620 92427 99620 933 927 100030 462 86832 93598 945 87387 94235 81245 87735 94629 544 81629 828 8 82161 886 0 82493 89051 73435 836 8 73658 728 78311 73778 76151 78489 786 74192 76420 72032 74468 720 72183 744 76900 009 72436 74624 258 726 74922 412 72836 098 68125 495 726 683 769 72968 5 938 73150 66103 68455 646 654 68727 938 66509 68897 116 999 639 9 64242 66610 68822 64395 672 68997 62891 65254 461 147 65520 744 301 65683 915 61741 64117 647 61998 64391 6 62157 64555 664 59397 61790 64049 598 62047 64320 59788 62207 64489 56925 593 613 5 59615 61948 57310 597 62110 2.58 2.62 2.58 2.50 2.54 2.18 2.45 2.48 1.93 3.08 3.12 3.16 3.01 3.04 3.08 2.97 3.00 3.03 3.57 3.61 3.64 3.51 3.54 3.56 3.47 3.49 3.52 4.09 4.12 4.15 4.02 4.05 4.07 3.98 4.00 4.02 4.65 4. 4.69 4.57 4.59 4.61 4.53 4.55 4.57 5.27 5.29 5.31 5.19 5.20 5.22 5.14 5.16 5.17 1 5. 5 5.53 5.54 5.56 5.48 5.49 5.50 5.98 5.99 6.01 5.89 5.90 5.91 5.84 5. 5.86 6. 6. 6.81 6. 6. 6. 6.65 6.65 6.65 7.74 7.73 7.73 7.65 7.64 7.62 7.59 7.57 7.56 30.4 32.4 35.3 31.2 33.3 39.8 31.7 33.8 43.4 25.8 27.6 29.5 26.4 28.3 30.3 26.8 28.7 30.7 22.2 23.8 25.5 22.7 24.3 22.9 24.7 26.5 19.2 20.7 22.1 19.6 21.1 22.6 19.8 21.3 22.9 16.6 17.9 19.2 16.9 18.2 19.6 17.1 19.8 14.3 15.4 16.5 14.6 15.7 16.8 14.7 15.9 17.1 13.2 14.2 15.3 13.5 14.5 1 13.6 14.7 15.8 13.1 14.1 12.4 13.4 14.4 12.6 13.5 14.6 10.3 11.1 10.5 11.3 10.6 11.5 12.4 8.6 9.3 10.1 8.8 9.5 10.3 8.9 9.6 10.4

Catalog 1112-3 McQuay Efinity Horizontal Water Source Heat Pumps Page 19 of 42 Capacity Data Heating Size 096 @ 3000 SCFM 45.4 45.4 45.4 45.4 45.4 45.4 45.4 45.4 45.4 EWT GPM WPD System EA LWT TOT kw COP 20 30 40 50 90 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 16.0 32.0 18.1 18.2 18.5 18.6 18.6 18.8 18.9 18.9 27.6 27.7 27.8 28.2 28.3 28.3 28.5 28.6 28.7 37.1 37.2 37.3 37.8 37.9 38.0 38.2 38.3 38.4 46.5 46.6 46.8 47.4 47.5 47.6 47.9 48.0 48.1 55.8 56.0 56.2 56.9 57.0 57.2 57.5 57.6 57.7 65.1 65.4 6 66.3 66.5 66.7.1.2.4 74.4 74.6 74.9.8 76.0 76.2 76.6 76.8 76.9 79.0 79.2 79.5.5.7.9 81.4 81.5 81.7 83.5 83.8 84.2.1.4.6 86.1 86.3 86.5 47887 47219 46493 47908 47237 46507 47913 47242 46512 56884 525 550 56910 545 55101 56928 5 55122 66937 65849 64645 66989 65896 64686 013 65917 649 781 787 282 78238 762 345 78291 76896 3 90510 88768 86916 909 88883 818 909 88951 8 1039 1010 99534 1041 1019 99693 1042 1020 99776 118490 115830 1130 1187 1190 113290 118950 116240 113420 126110 123210 120130 1264 123530 120400 126650 1230 1205 134000 1307 127410 134410 1311 127740 1340 1313 127930 3.46 3.77 4.07 3.46 3.77 4.07 3.46 3.77 4.07 3.76 4.12 4.47 3.76 4.12 4.47 3.76 4.12 4.47 4.05 4.47 4.87 4.05 4.47 4.88 4.05 4.47 4.88 4.34 4.83 5.29 4.34 4.83 5.29 4.34 4.83 5.29 4. 5.18 5. 4.64 5.18 5. 4.64 5.18 5. 4.92 5.52 6.11 4.93 5.52 6.11 4.93 5.53 6.11 5.21 5.86 6.50 5.21 5.86 6.51 5.21 5.87 6.51 5.34 6.03 6.68 5.35 6.03 6.69 5.35 6.04 6. 5.48 6.19 6.87 5.48 6.20 6.88 5.49 6.20 6.88 3.1 2.7 2.4 3.1 2.7 2.4 3.1 2.7 2.4 3.5 3.0 2.6 3.5 3.0 2.6 3.5 3.0 2.6 3.9 3.3 2.9 3.9 3.3 2.9 3.9 3.3 2.9 4.3 3.7 3.2 4.3 3.7 3.2 4.3 3.7 3.2 4.7 4.0 3.5 4.7 4.0 3.5 4.7 4.0 3.5 5.2 4.4 3.8 5.2 4.4 3.8 5.2 4.4 3.8 5.7 4.8 4.1 5.7 4.8 4.1 5.7 4.8 4.1 5.9 5.0 4.3 5.9 5.0 4.3 6.0 5.0 4.3 6.2 5.2 4.5 6.2 5.2 4.5 6.2 5.2 4.5

Page 20 of 42 McQuay Enfinity Horizontal Water Source Heat Pumps Catalog 1112-3 Capacity Data Cooling Size 120 @ 4000 SCFM EWT GPM WPD System EA LWT TOT SEN kw EER 30 40 50 90 100 110 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 41.4 41.9 42.4 39.8 40.2 40.5 38.9 39.2 39.4 51.4 51.8 52.3 49.8 50.1 50.5 48.8 49.1 49.4 61.3 61.7 62.2 59.7.1.4 58.8 59.1 59.3.1.5.9 69.9.2.6 69.1 69.4 69.6 81.0 81.4 81.9 79.8.2.5 79.0 79.3 79.6 90.9 91.3 91.7 89.7 90.1 90.4 89.0 89.2 89.5 95.8 96.2 96.7 94.7 95.0 95.3 93.9 94.2 94.5 100.8 101.2 101.6 99.6 99.9 100.3 98.9 99.1 99.4 110.7 111.0 111.4 109.5 109.8 110.1 108.8 109.0 109.3 120.5 120.9 121.2 119.4 119.7 120.0 118.7 118.9 119.2 108620 117220 1290 1090 11 1266 109290 11 1240 105330 113730 1226 105820 114320 123350 106130 1140 1237 101730 109840 118350 102220 110410 1190 102530 1107 119500 126540 136290 14 12 1340 147640 1290 1350 1482 1208 130240 140250 121530 131020 1410 1219 131500 1410 115140 1239 1334 115720 1246 134310 116120 125140 1348 112220 120840 130050 1127 121490 1300 1131 121940 1313 109130 117610 126640 1097 118300 1273 1101 118730 127890 1028 110890 119410 103420 111540 1201 103810 112000 1200 96438 1040 112150 934 104740 1128 97400 1051 1133 73435 836 8 73658 728 78311 73778 76151 78489 786 74192 76420 72032 74468 720 72183 744 76900 009 72436 74624 258 726 74922 412 72836 098 904 93864 96862 90993 941 97212 91187 94399 97456 8 91301 94342 88379 91627 94662 881 91832 948 486 888 91765 749 88978 92090 932 891 92308 84159 87362 90449 84408 873 905 845 87821 90961 824 813 89146 83039 805 89428 83226 864 89622 798 83169 826 124 83447 86622 305 83642 86831 764 219 83446 727 504 83731 77296 6 83927 2.58 2.62 2.58 2.50 2.54 2.18 2.45 2.48 1.93 3.08 3.12 3.16 3.01 3.04 3.08 2.97 3.00 3.03 3.57 3.61 3.64 3.51 3.54 3.56 3.47 3.49 3.52 6.27 6.29 6.24 6.16 6.15 6.06 6.08 6.05 5.94 7.21 7.32 7.40 7.11 7.20 7.27 7.03 7.12 7.18 8.06 8.25 8.43 7.98 8.15 8.31 7.92 8.08 8.23 8.46 8. 8.89 8.38 8.58 8.79 8.33 8.52 8. 8.87 9.10 9.33 8.79 9.01 9.24 8.73 8.95 9.17 9.72 9.96 10.21 9.64 9.88 10.12 9.59 9.82 10.05 10. 10. 11.12 10.52 10.77 11.03 10.47 10. 10.97 30.4 32.4 35.3 31.2 33.3 39.8 31.7 33.8 43.4 25.8 27.6 29.5 26.4 28.3 30.3 26.8 28.7 30.7 22.2 23.8 25.5 22.7 24.3 22.9 24.7 26.5 20.2 21.7 23.5 20.6 22.3 24.4 21.0 22.7 25.0 16.8 17.8 18.9 17.1 18.2 19.4 17.3 18.5 19.7 14.3 15.0 15.8 14.5 15.3 16.2 14.7 15.5 16.4 13.3 13.9 14.6 13.5 14.2 14.9 13.6 14.3 15.1 12.3 12.9 13.6 12.5 13.1 13.8 12.6 13.3 13.9 10.6 11.1 11.7 10.7 11.3 11.9 10.8 11.4 9.1 9.6 10.1 9.2 9.7 10.2 9.3 9.8 10.3

Catalog 1112-3 McQuay Efinity Horizontal Water Source Heat Pumps Page 21 of 42 Capacity Data Heating Size 120 @ 4000 SCFM EWT GPM WPD System EA LWT TOT kw COP 20 30 40 50 90 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 20.0 40.0 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 40.1 69.6 17.9 18.1 18.3 18.5 16.9 17.0 17.2 22.6 22.9 23.2 25.0 25.2 25.5 26.2 26.4 26.6 31.4 31.7 32.1 34.1 34.3 34.6 35.5 35.8 36.0 40.0 40.4 40.8 43.1 43.4 43.7 44.8 45.0 45.3 48.6 49.0 49.5 52.0 52.3 52.7 53.9 54.2 54.5 57.0 57.5 58.0.9 61.3 61.7.0.3.6 65.3 65.9 66.5 69.7.1.6 72.0 72.4 72.7 69.4.1.7 74.1 74.5.0 76.5 76.9 77.3 73.5 74.2 74.9 78.4 78.9 79.4 81.0 81.4 81.8 72324 74810 78748 72324 74810 78748 79165 77726 76195 92622 91218 89309 93029 91218 89309 93029 91218 89309 105900 104410 1020 108400 106150 1037 108400 106150 1037 120450 1186 11 1250 1225 119640 125350 1225 119640 135950 1330 131550 141790 1392 136550 143920 140510 136940 1390 135020 1322 1440 141610 143400 153510 1498 1555 1110 10 1950 178410 1748 1140 183210 179240 11 179110 1910 172510 188320 184330 1330 193420 189150 1847 188450 1840 1812 198420 1941 1897 203910 1992 194550 6.78 8.26 10.20 6.78 8.26 10.20 5.09 5.56 6.02 5.46 6.02 6.55 5.48 6.02 6.55 5.48 6.02 6.55 5.81 6.45 7.06 5.87 6.50 7.10 5.87 6.50 7.10 6.17 6.88 7.56 6.28 6.98 7.66 6.28 6.98 7.66 6.53 7.30 8.05 6.66 7.45 8.21 6. 7.48 8.22 6.90 7.73 8.54 7.05 7.91 8.73 7.14 7.98 8.79 7.28 8.16 9.04 7.44 8.35 9.23 7.55 8.45 9.34 7.45 8.37 9.27 7.65 8.56 9.47 7. 8.68 9. 7.65 8.57 9.50 7. 8.79 9. 7.96 8.90 9.83 2.2 1.7 1.3 2.2 1.7 1.3 3.6 3.1 2.8 4.0 3.5 3.0 4.0 3.5 3.0 4.0 3.5 3.0 4.4 3.8 3.3 4.5 3.8 3.3 4.5 3.8 3.3 4.8 4.1 3.6 4.9 4.2 3.6 4.9 4.2 3.6 5.2 4.4 3.8 5.3 4.5 3.9 5.3 4.5 3.9 5.5 4.7 4.1 5.7 4.8 4.2 5.8 4.9 4.2 5.9 5.0 4.4 6.1 5.2 4.5 6.2 5.3 4.5 6.1 5.2 4.5 6.3 5.4 4.6 6.4 5.4 4.7 6.3 5.4 4.6 6.4 5.5 4.8 6.6 4.8

Electrical Data & Physical Data Table 7: Large Horizontal Unit Fan Compressor 1 Compressor 2 Fan Motor Total Unit Minimum Minimum Maximum Unit Size Voltage/Hz/Phase Motor (HP) RLA LRA RLA LRA FLA FLA Voltage Circuit Amps Fuse Size 072 096 120 208/230--3 4--3 5--3 3-50-3 208/230--3 4--3 5--3 3-50-3 208/230--3 4--3 5--3 3-50-3 1.5 1.5 1.5 1.5 1.5 1.5 1.5 1.5 3 3 3 3 13.2 6.0 4.2 6.0 13.7 6.2 4.8 6.1 1 7.8 5.8 7.8 88.0 44.0 46.0 83.1 41.0 33.0 43.0 110.0 52.0 38.9 51.5 13.2 6.0 4.2 6.0 13.7 6.2 4.8 6.1 1 7.8 5.8 7.8 88.0 44.0 46.0 83.1 41.0 33.0 43.0 110.0 52.0 38.9 51.5 2.8 2.3 3.4 2.8 2.3 3.4 9.5 4.5 3.4 4.8 32.0 14.8 10.7 15.4 33.0 15.2 11.9 1 40.7 20.1 15.0 20.4 187.0 416.0 520.0 342.0 187.0 416.0 520.0 342.0 187.0 416.0 520.0 342.0 35.3 16.3 11.8 16.9 36.4 16.8 13.1 17.1 44.6 22.1 16.5 22.4 45 20 15 20 50 20 15 20 25 20 30 Table 8: Large Horizontal Size 072-120 Unit Size 072 096 120 Fan Wheel - D x W (In.) 13 13 13 12 16 15 Fan Motor Horsepower 1.5 1.5 3 Coil Face Area (Sq. Ft.) 9.0 9.0 10.5 Coil Rows 3 3 3 Refrigerant Charge (Oz.) Compressor 1 55 55 Compressor 2 53 55 Filter, (Qty.) Size (In.)(1) 10W x 20H (2) 28" 23 1 /2" 2 (3) 28" 19" 2 (3) 28" 19" 2 Water Connections, Female NPT 1 /4" FPT 1 /4" FPT 1 /4" FPT Condensate Connections, Female NPT 7/8" 7/8" 7/8" Weight, Operating (Lbs.) 2 682 694 Weight, Shipping (Lbs.) 0 7 782 Page 22 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Operating Limits Table 9: Air Limits - F (English units) Standard Range Geothermal Range Units Units Cooling Heating Cooling Heating Min. Ambient Air 50ºF 50ºF 40ºF 40ºF Normal Ambient Air ºF ºF ºF ºF Max Ambient Air 100ºF ºF 100ºF ºF Min. Entering Air 1, 2 50ºF 50ºF 50ºF 40ºF Normal Entering Air db/wb /ºF ºF /ºF ºF Max Entering Air db/wb 1, 2 100/83ºF ºF 100/83ºF ºF Table 10: Air Limits - C (SI units) Standard Range Geothermal Range Units Units Cooling Heating Cooling Heating Min. Ambient Air 10ºC 10ºC 5ºC 5ºC Normal Ambient Air 27ºC 21ºC 27ºC 21ºC Max Ambient Air 38ºC 29ºC 38ºC 29ºC Min. Entering Air 1, 2 10ºC 10ºC 10ºC 5ºC Normal Entering Air db/wb 27/19ºC 21ºC 27/19ºC 21ºC Max Entering Air db/wb 1, 2 38/28ºC 27ºC 38/28ºC 27ºC Table 11: Water - F (English units) Standard Range Geothermal Range Units Units Cooling Heating Cooling Heating Min. Entering Water 1, 2 55ºF 55ºF 30ºF 20ºF Normal Entering Water ºF ºF 77ºF 40ºF Max Entering Water 110ºF 90ºF 110ºF 90ºF Table 12: Water - C (SI units) Standard Range Geothermal Range Units Units Cooling Heating Cooling Heating Min. Entering Water 1, 2 13ºC 13ºC -1ºC -6ºC Normal Entering Water 29ºC 21ºC 25ºC 4ºC Max Entering Water 43ºC 32ºC 43ºC 32ºC Notes: 1 At AHRI flow rate 2 Maximum and minimum values may not be combined. If one value is at maximum, the other two conditions may not exceed the normal condition for standard units. Extended range units may combine any two maximum conditions, but not more than two, with all other conditions being normal conditions. Environment This equipment is designed for indoor installation only. Sheltered locations such as attics, garages, etc., generally will not provide sufficient protection against extremes in temperature and/or humidity, and equipment performance, reliability, and service life may be adversely affected. Power supply A voltage variation of +/-10% of nameplate voltage is acceptable. Three-phase system imbalance shall not exceed 2%. Additional information for initial start-up only Standard range units: Units are designed to start in an ambient of 50ºF (10ºC), with entering air at 50ºF (10ºC), with entering water at ºF (21ºC), with both air and water at the flow rates used in the ISO 13256-1 rating test, for initial start-up in winter. Note: This is not a normal or continuous operating condition. It is assumed that such a start-up is for the purpose of bringing the building space up to occupancy temperature. Geothermal range units: Geothermal range heat pump conditioners are designed to start in an ambient of 40ºF (5ºC), with entering air at 40ºF (5ºC), with entering water at 40ºF (5ºC), with both air and water at the flow rates used in the ISO 13256-1 rating test, for initial start-up in winter. Note: This is not a normal or continuous operating condition. It is assumed that such a start-up is for the purpose of bringing the building space up to occupancy temperature. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 23 of 40

Correction Factors Airflow Correction Factors Table 13: Airflow Correction Factors Total Cooling Capacity Sensible Cooling Capacity kw - Cooling Total Heat of Rejection Total Heating Capacity kw - Heating Total Heat of Absorption Percent of Nominal Airflow 55 65 90 95 100 0.935 0.942 0.948 0.955 0.962 0.969 0.976 0.983 0.990 1.000 0.779 0.3 0.828 0.2 0.877 0.901 0.926 0.950 0.9 1.000 0.925 0.933 0.942 0.950 0.959 0.9 0.976 0.984 0.993 1.000 0.931 0.939 0.946 0.954 0.961 0.969 0.976 0.984 0.991 1.000 0.912 0.921 0.931 0.940 0.950 0.9 0.969 0.979 0.988 1.000 1.025 1.022 1.019 1.017 1.014 1.011 1.009 1.006 1.003 1.000 0.908 0.918 0.928 0.938 0.948 0.958 0.968 0.978 0.988 1.000 Total Cooling Capacity Sensible Cooling Capacity kw - Cooling Total Heat of Rejection Total Heating Capacity kw - Heating Total Heat of Absorption Percent of Nominal Airflow 105 110 115 120 125 130 135 140 145 150 1.004 1.024 1.010 1.006 1.007 0.998 1.008 1.011 1.048 1.019 1.014 1.017 0.995 1.018 1.017 1.073 1.027 1.021 1.027 0.992 1.028 1.024 1.098 1.036 1.029 1.036 0.990 1.038 1.031 1.122 1.044 1.036 1.046 0.987 1.048 1.038 1.147 1.053 1.044 1.055 0.984 1.058 1.045 1.1 1.061 1.051 1.065 0.981 1.068 1.052 1.196 1.0 1.059 1.074 0.979 1.078 1.059 1.220 1.078 1.066 1.084 0.976 1.088 1.066 1.245 1.087 1.074 1.094 0.973 1.098 Total Cooling Capacity Sensible Cooling Capacity kw - Cooling Total Heat of Rejection Total Heating Capacity kw - Heating Total Heat of Absorption Percent of Nominal Airflow 155 1 165 1 1 1 1 190 195 1.073 1.269 1.095 1.081 1.103 0.9 1.108 1.079 1.294 1.104 1.089 1.113 0.968 1.118 1.086 1.318 1.113 1.096 1.122 0.965 1.128 1.093 1.343 1.121 1.104 1.132 0.962 1.138 1.100 1.3 1.130 1.111 1.141 0.9 1.149 1.107 1.392 1.138 1.119 1.151 0.957 1.159 1.114 1.417 1.147 1.126 1.161 0.954 1.169 1.121 1.441 1.155 1.134 1.1 0.952 1.179 1.128 1.466 1.164 1.141 1.1 0.949 1.189 Antifreeze Correction Factors Table 14: Ethylene Glycol 10% 20% 30% 40% 50% Cooling Capacity 0.9950 0.9920 0.98 0.9830 0.9790 Heating Capacity 0.9910 0.9820 0.97 0.9690 0.9610 Pressure Drop 1.00 1.1300 1.10 1.20 1.20 Table 15: Propylene Glycol 10% 20% 30% 40% 50% Cooling Capacity 0.9900 0.90 0.90 0.90 0.9500 Heating Capacity 0.98 0.90 0.9620 0.9420 0.9300 Pressure Drop 1.00 1.1500 1.2500 1.30 1.4200 Table 16: Methanol 10% 20% 30% 40% 50% Cooling Capacity 0.99 0.9720 Heating Capacity 0.9950 0.90 Pressure Drop 1.0230 1.05 Table 17: Ethanol 10% 20% 30% 40% 50% Cooling Capacity 0.9910 0.9510 Heating Capacity 0.9950 0.90 Pressure Drop 1.0350 0.90 Page 24 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Performance Data Figure 13: Large Horizontal Size 072 Figure 15: Large Horizontal Size 120 2.50 2.00 EXTERNAL STATIC PRESSURE (INCHES OF WATER) 1.50 1.00 0.50 1100 RPM 1000 RPM 900 RPM 0 RPM 1 1/2 HP 2.00 1.50 1.00 0.50 900 RPM 0 RPM 1000 RPM 3 HP 0.00 500 1,500 2,000 3,500 cfm (cubic feet per minute) 4,500 0.00 2,000 3,000 4,000 5,000 6,000 cfm (cubic feet per minute) Figure 14: Large Horizontal Size 096 cfm = 0.472 = L/s hp 0.746 = kw inches 249 Pa = mm EXTERNAL STATIC PRESSURE (INCHES OF WATER) 2.00 1.50 1.00 0.50 1000 RPM 900 RPM 0 RPM 1 1/2 HP 0.00 1,000 2,000 3,000 4,000 5,000 cfm (cubic feet per minute) Table 18: Hz Unit Motor RPM Factory Motor Sheave Size HP Range Setting (RPM) Position 072 1.5 6-902 7 1 Turn Open 096 1.5 720-8 2 1½ Turns Open 120 3 6-901 815 3 Turns Open Table 19: 50 Hz Unit Motor RPM Factory Motor Sheave Size HP Range Setting (RPM) Position 072 1.5 6-902 786 4 Turns Open 096 1.5 720-8 748 1½ Turns Open 120 3 6-902 815 3 Turns Open Note: For wet coil, calculate face velocity (cfm coil face area). Add the following exeternal static pressure for the corresponding face velocity English Units SI Units 300 fpm =.20" 1.52 m/sec. = 49.8 Pa 400 fpm =.31" 2.03 m/sec. = 77.2 Pa 500 fpm =.44" 2.54 m/sec. = 109.6 Pa Note: Re-enter curve at the increased static pressure to determine final cfm. Do Not Select Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 25 of 40

Dimensional Data Figure 16: Large Horizontal Size 072 Overall Unit Dimensions: 78" L 44" W 29" H (Add 2" For Hanger Bracket) Figure 17: Dimensions - Straight Discharge Figure 18: Dimensions - Filter Rack/Return Air Duct Collar B A C D D B C F E 2" (51mm) A E Unit Size A B C D E F 78" 44" 29" 15⅝" 13⅜" 3/4" 072 (1981mm) (1118mm) (737mm) (397mm) (346mm) (19mm) Note: Straight discharge shown. Rearrange panels and blower position for end discharge. See IM 10 for conversion instructions. Unit Size A B C D E 45.12" 26.53" 3.20" 1.82" 1.50" 072 (1146mm) (4mm) (81mm) (46mm) (38mm) Page 26 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Dimensional Data Figure 19: Large Horizontal Size 096 Overall Unit Dimensions: 78" L 44" W 29" H (Add 2" For Hanger Bracket) Figure 20: Dimensions - Straight Discharge Figure 21:Dimensions - Filter Rack/Return Air Duct Collar B A C D D B C F E 2" (51mm) A Unit Size A B C D E F 78" 44" 29" 15½" 13⅜" 3/4" 096 (1981mm) (1118mm) (737mm) (394mm) (346mm) (19mm) Note: Straight discharge shown. Rearrange panels and blower position for end discharge. See IM 10 for conversion instructions. E Unit Size A B C D E 55.12" 26.53" 3.20" 1.82" 1.50" 096 (1400mm) (4mm) (81mm) (46mm) (38mm) Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 27 of 40

Dimensional Data Figure 22: Large Horizontal Size 120 Overall Unit Dimensions: 78" L 44" W 29" H (Add 2" For Hanger Bracket) Figure 23: Dimensions - Straight Discharge Figure 24: Dimensions - Filter Rack/Return Air Duct Collar B A C D D B C F E 2" (51mm) A Unit Size A B C D E F 78" 44" 29" 18½" 16½" 7/8" 120 (1981mm) (1118mm) (737mm) (4mm) (419mm) (22mm) Note: Straight discharge shown. Rearrange panels and blower position for end discharge. See IM 10 for conversion instructions. E Unit Size A B C D E 55.12" 26.53" 3.20" 1.82" 1.50" 120 (1400mm) (4mm) (81mm) (46mm) (38mm) Page 28 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Accessories Figure 25: Large Horizontal - Hanger Brackets Sizes 072 thru 120 2" (51 mm) Fan Assembly Comp. 42" (10 mm) 44" (1118 mm) Comp. Control Box By Others By McQuay International 5/8" Threaded Rod (By Others) Coil Airflow " (2032 mm) 82" (2082 mm) 2" (51 mm) Supply and Return Water Hoses Available as fire rated construction in 2 or 3 foot (610 mm or 914 mm) lengths. Fire rated hoses have a synthetic polymer core with an outer rated covering of stainless steel. Fittings are steel. Assembly is fire rated and tested according to UL 94 with a VO rating and ASTM 84. Each hose has MPT connections. Hoses have a swivel connection at one end and are available in 1¼" (32 mm) to match the FPT fittings on unit sizes 072 through 120. Unit sizes 1 through 290 have 1½" (38 mm) FPT fittings. Condensate Hose Kit Available as a long clear plastic hose with the necessary clamps and a MPT hose fitting for connection to the FPT field piping. Figure 27: Condensate Hose Kit Figure 26: Supply and Return Water Hoses Combination Balancing and Shutoff (Ball) Valves Constructed of brass and rated at 400 psig (28 kpa) maximum working pressure. Valves have a built-in adjustable memory stop to eliminate rebalancing. Valves have FPT connections on both ends for connection to the water hose and to the field piping. Figure 28: Shut off Ball Valve Hose Specifications Inner Tube: Fire retardant TRP (Thermosplastic Rubber) tested to UL- 94 with V-O rating. Outer Braid: Stainless steel wire (ANSI 302/304) Temperature range: 40 F to 200 F Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 29 of 40

Accessories Motorized Valve Used in variable pumping type applications, the valve actuator is wired and typically piped in the return water line. The 2-way motorized water valve kit includes the valve body, actuator and wire harness. The 24VAC valve actuator must be wired directly to terminal block H8 on the Micro- Tech III controller. The valve will only energize on a call for heating or cooling. The 1-1/4" valve is rated for 300 psig (2068 kpa and the 1-1/2" valve is rated for 150 psig (1034 kpa). Figure 29: 2-Way Motorized Valve The Multiple Unit Control Panel (MUCP) is an accessory used when up to 3-units are controlled from a single thermostat. The MUCP must be field-installed in a remote location, typically close to the units and convenient for service access. A maximum of 2 boards may be used together if up to 6-units must be connected and controlled from a single thermostat. Figure 31: Multiple Unit Control Panel Ciruit Board Field Installed Controls A multiple unit control panel allows a single thermostat to control up to three units in parallel. Multiple Unit Control Panel (MUCP) Figure 30: Multiple Unit Control Panel and Board Page 30 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Accessories Programmable Electronic Thermostat Two-Stage Heat/Two-Stage Cool, 7-Day Programmable Figure 32: McQuay Part No. 6683301 (1-Pk, White with Wall Plate) Non-Programmable, Auto or Manual Changeover Thermostat Two Stage Heat/Two Stage Cool, Night Setback Override Figure 33: McQuay Part No. 6683401 (1-Pk, White with Wall Plate) Features Hardwired Programmable and configurable Simpleset TM feature enables easy copying of one day's programming for the entire week Title 24 compliant/no batteries required Relay Ouputs (minimum voltage drop in thermostat) Clear, backlit display makes it easy to see time, temperature, and setpoint even in the dark Ideally suited for: Light commercial/residential (new construction/replacement) Lockout feature prevents unwanted tampering Optional remote temperature sensor available (see "Optional Remote Sensor" on page 32) 6683301 Specifications Electrical Rating: 24 VAC (18 to 30 VAC/VDC) 1 amp maximum per terminal 4 amp maximum total load Easy access terminal block Temperature Control Ranges: 45ºF to 90ºF (7ºC to 32ºC), Accuracy: ± 1ºF (± 0.5ºC) System Configurations: Two-stage heat/two-stage cool Terminations: R, C, W1, Y1, W2, Y2, G, S1, S2 Features Hardwired Two-stage heat / two-stage cool systems Backlit display Field temperature calibration Status indicator light Relay outputs (minimum voltage drop in thermostat) Night set-back override (used when unit is wired through a time clock on the U-terminal) Optional remote temperature sensor available (see "Optional Remote Sensor" on page 32) 6683401 Specifications Electrical Rating: 24 VAC (18 to 30 VAC/VDC) 1 amp maximum per terminal 4 amp maximum total load Easy access terminal block Temperature Control Ranges: 45ºF to 90ºF (7ºC to 32ºC), Accuracy: ± 1ºF (± 0.5ºC) System Configurations: Two-stage heat / two-stage cool Timing: Backlight Operation: 13 seconds after mode change or button press Terminations: +R, -C, W1, Y1, W2, Y2, G, O, S1, S2 Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 31 of 40

Accessories Optional Remote Sensor Figure 34: Part No. 6720401 Used with Thermostat(s) 6683301 & 6683401 The fast, easy solution for temperature sensing problems. For tamper prone areas Poor airflow areas Troubled applications Foam gasket prevents drafts through wall opening Mounts to standard 2" x 4" outlet box 2¾"W x 4½"H MicroTech III Water Source Heat Pump Wall Sensors (Kit P/N 669529101, 669529201, 669529001) Room temperature sensors provide electronic sensing of room temperatures at wall locations. All sensor models feature a thermistor (10kΩ), a green LED for unit status and tenant override button. Setpoint adjustment potentiometer, heat and fan mode switches are optional features. Feature Sensor Kit Part Numbers 669529001 669529101 669529201 Tenant Override Button Yes Yes Yes SPT Adj. Pot No Yes Yes Status LED Yes Yes Yes Fan and Mode Switches No 1 Yes 2 Yes Notes: 1 55º to 95 F (13º to 35ºC) 2-3º to +3ºF (-1.5º to +1.5ºC) Figure 36: MicroTech III Wall Sensor Details 3." 0 to 10 K ohm Potentiometer Figure 35: Room Temperature Sensors Status LED (Green) Fan Control Slide Switch 4.59" Mode Control Slide Switch Tenant Override Momentary Push Button Switch Sensor 669529101 Sensor 669529201 Not Shown Sensor 669529001 Page 32 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Accessories Optional Water Source Heat Pump Room Wall Sensors Wiring Figure 37: Temperature Sensor Wiring to MicroTech III Unit Controller (Kit Part No.s 669529101, 669529201) Temperature Sensor Terminals Programmable Electronic Thermostat Wiring Two-Stage Heat/Two-Stage Cool, 7-Day Programmable Figure 39: (Part No. 6683301) MicroTech III Unit Control Board Low Voltage Terminal Strip (Circuit 1) 24VAC Common Tenant Override Fan TB2 C O G Thermostat Terminals - C + R MicroTech III Unit Controller TB1 Terminals Cool 1 Cool 2 Heat 1 Heat 2 Alarm Output 24VAC Y1 Y2 W1 W2 A R W1 Y1 W2 Y2 G Figure 38: Temperature Sensor Wiring to MicroTech III Unit Controller (669529001) Temperature Sensor Terminals Notes: Includes Thermostat and Wall Plate. Non-Programmable, Auto or Manual Changeover Wiring Two Stage Heat/Two Stage Cool, Night Setback and Override Feature Figure 40: (Part No. 6683401) MicroTech III Unit Control Board Low Voltage Terminal Strip (Circuit 1) 24VAC Common Tenant Override Fan TB2 C O G Thermostat Terminals - C + R MicroTech III Unit Controller TB1 Terminals Cool 1 Cool 2 Heat 1 Heat 2 Alarm Output 24VAC Y1 Y2 W1 W2 A R W1 Y1 W2 Y2 G O Override (Optional) Note: An additional conductor is required between "O" terminals for the override feature to work. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 33 of 40

Accessories Optional Remote Sensor Wiring Used with Thermostat(s) 6683301 or 6683401 Figure 41: Part No. 6720401 Thermostat Remote Sensor S1 S2 S1 S2 Cut R12 from circuit board Wire 1 Wire 2 Page 34 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Typical Wiring Diagram MicroTech III Controller with I/O Expansion Module & Communication Module 208/230, 4, 5--3 (1.5 hp or less) Drawing No. 910101586 MicroTech III Control Board JP1 Open (Normal) Shorted (Test Mode) JP2 Shorted Open (Std Range) JP3 Shorted (Geothermal Range) JP4 Spare JP5 Open JP6 Open JP7 Spare JP8 Spare JP1 Shorted JP2 Open JP3 Open JP4 Open JP5 Open JP6 Open JP7 Spare JP8 Spare I/O Expansion Module Legend Item Description CC1 Circuit 1 Compressor Contactor CC2 Circuit 2 Compressor Contactor CM1 Circuit 1 Compressor CM2 Circuit 2 Compressor COS Condensate Overflow Sensor HP Circuit 1 High Pressure Switch HP2 Circuit 2 High Pressure Switch IOEXP I/O Expansion Board / Harness LED1 LED Annunciator / Harness LED2 LED Annunciator / Harness *RAT Return Air Temp Sensor *LWT Leaving Water Temp Sensor LP Circuit 1 Low Pressure Switch LP2 Circuit 2 Low Pressure Switch SLTS Circuit 1 Suction Line Temp Sensor SLTS2 Circuit 2 Suction Line Temp Sensor R1 Fan Motor Starter RV Circuit 1 Reversing Valve Solenoid RV2 Circuit 2 Reversing Valve Solenoid TB1 Power Terminal Block X1 VA Transformer *DAT Discharge Air Temp Sensor *EWT Entering Water Temp Sensor Notes: 1. Run/Prg Jumper to be in Run position for normal operation * Optional with Communication Module Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 35 of 40

Typical Wiring Diagrams MicroTech III Controller with I/O Expansion Module & Communication Module 208/230, 4, 5--3 (greater than 1.5 hp) Drawing No. 910101589 MicroTech III Control Board JP1 Open (Normal) Shorted (Test Mode) JP2 Shorted Open (Std Range) JP3 Shorted (Geothermal Range) JP4 Spare JP5 Open JP6 Open JP7 Spare JP8 Spare JP1 Shorted JP2 Open JP3 Open JP4 Open JP5 Open JP6 Open JP7 Spare JP8 Spare I/O Expansion Module Legend Item Description CC1 Circuit 1 Compressor Contactor CC2 Circuit 2 Compressor Contactor CM1 Circuit 1 Compressor CM2 Circuit 2 Compressor COS Condensate Overflow Sensor HP Circuit 1 High Pressure Switch HP2 Circuit 2 High Pressure Switch IOEXP I/O Expansion Board / Harness LED1 LED Annunciator / Harness LED2 LED Annunciator / Harness *RAT Return Air Temp Sensor *LWT Leaving Water Temp Sensor LP Circuit 1 Low Pressure Switch LP2 Circuit 2 Low Pressure Switch SLTS Circuit 1 Suction Line Temp Sensor SLTS2 Circuit 2 Suction Line Temp Sensor R1 Fan Motor Starter RV Circuit 1 Reversing Valve Solenoid RV2 Circuit 2 Reversing Valve Solenoid TB1 Power Terminal Block X1 VA Transformer *DAT Discharge Air Temp Sensor *EWT Entering Water Temp Sensor Notes: 1. Run/Prg Jumper to be in Run position for normal operation * Optional with Communication Module Page 36 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Engineering Specifications General Contractor shall furnish and install Water Source Heat Pumps as indicated on plans. Each unit shall be CETL Listed. Units less than 135,000 Btu/hr. total cooling capacity shall be ISO rated per Standard 13256-1. Each unit shall be fully run tested at the factory. Each unit shall be shipped on a wooden skid and covered with plastic. Casing and Cabinet The casing shall be constructed of heavy-gauge G- galvanized steel corner posts and steel panel construction with heavy gauge steel base pan. The base pan shall have holes to accept field installation of rubber or spring isolators. The interior shall be lined with 1/2" thick, 1½ lb. density glass fiber. Multiple panels on front, back and sides shall provide access to compressor, control box, fan motor and fan assembly. Unit shall have a galvanized steel painted drain pan with a drain connection extending through the unit casing. Insulated drain pan shall act as a divider panel between the compressor and fan sections. Units shall have as standard a factory installed 2" thick filter brackets for side filter removal. Unit shall have multiple 2" thick throwaway filters. Cabinets shall have knockouts for entrance of line voltage and low voltage control wiring. Supply return water and condensate connections shall be copper FPT fittings and protrude through the casing. R-410A Refrigerant Circuit Units shall be dual circuit design containing scroll compressors, electronic expansion valve, water-to-refrigerant braze plate heat exchanger, reversing valve, finned tube heat exchanger (air coil), and safety controls. Non-ozone depleting R-410A refrigerant must be used. Compressor(s) shall be scroll type with thermal overload protection and external rubber vibration isolation mounts. Air coil shall be aluminum fins bonded to copper tubes. The braze plate heat exchanger shall be stainless steel plates with copper brazing with a U.L. Listing and a 400 psig water side rating and a 450 psig refrigerant side rating. High and low side service valves shall be provided on each refrigerant circuit for measuring and charging of the refrigerant circuit. Safety controls shall include a low suction temperature (freezestat), high refrigerant pressure and low refrigerant pressure switches. Units shall be capable of being reset only by interrupting the power supply to the unit and not from the wall thermostat. Unit shall be capable of starting in an ambient of 40º F with entering water at 55º F standard range, 20º F extended range, with both air and water flow rates at the ISO rating conditions. Electrical A control enclosure shall be located within the unit and shall contain controls for compressor(s), reversing valves(s) and fan motor operation. A terminal block shall facilitate main power wiring connection. A VA transformer shall supply the low voltage control circuit. Unit shall be nameplated to accept time delay fuses for branch overcurrent protection of the power conductors. Unit control system shall provide one or two stage cooling and heating as required by the setpoints of the wall thermostat. The unit shall be capable of providing an output signal to a unit-mounted LED annunciator to indicate a fault condition. The control system shall be microprocessor based and provide the following: Stand-alone operation LonWorks communication capabilities (Must be LonMark 3.4 certified) BACnet communication capabilities (BACnet MS/TP Network) Fan and Motor Assembly Units shall have a belt driven centrifugal fan. The fan housing shall protrude through the cabinet to facilitate field duct connection. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 37 of 40

Engineering Specifications Solid-State Control System MicroTech III Control System - Unit shall have a microprocessor- based control system. The unit control logic shall provide heating and cooling operation as required by the wall thermostat set point. The control system shall provide the following for stand-alone operation: 1. The use of standard non-programmable or programmable wall thermostats. 2. Fan operation simultaneous with the compressor (fan interlock) regardless of thermostat logic. 3. Time delay compressor operation. 4. Compressor short cycle protection of a minimum of three minutes before restart is possible. 5. Random unit start-up after coming off on unoccupied mode. 6. Single grounded wire connection for activation of the unoccupied or unit shutdown modes. 7. Night setback temperature setpoint input signal from the wall thermostat. 8. Override signal from wall thermostat to override unoccupied mode for 2 hours. 9. Brownout protection to suspend unit operation if the supply voltage drops below % of normal. 10. Condensate overflow protection to suspend cooling operation in an event of a full drain pan. 11. Suspended compressor operation upon activation of the refrigerant pressure switch(es). 12. Cooling operation activated for seconds upon activation of the low suction temperature sensor - defrost cycle. 13. Method of defeating compressor, reversing valve and fan time delays for fast service diagnostics. 14. Remote reset - Provides means to remotely reset automatic lock-outs generated by high/low pressure faults and/or low temperature faults. 15. Fault Retry clears faults the 1st two times they occur within a 24-hour period and triggers automatic lock-out on 3rd fault. MicroTech III Control with I/O Expansion Module I/O Expansion Module connects directly to the main MicroTech III controller to provide control of the second refrigeration circuit. MicroTech III Control with LonWorks Communication Module Unit shall have a microprocessor-based control system. The unit control logic shall communicate over a LonMark communications network. The unit controller is factory programmed [LonMark 3.4 certified Application Code the current standard for new applications] and tested with all the logic required to monitor and control heating and cooling operation. The controller sets the unit mode of operation, monitors water and air temperatures, and can communicate fault conditions via a LonMark communications network. Units with the MicroTech III and LonWorks communication module include return air, discharge air and leaving water temperature sensors. Space temperature sensor options include a set-point adjustment, tenant override button, and the capability of substituting the return air sensor with a wall-mounted room sensor. Microtech III Control w/ BACnet Communication Module Unit shall have a microprocessor-based control system. The unit control logic shall communicate over a BACnet communications network. The BACnet communication module shall incorporate an Atmel ARM7 Thumb series MCU and be capable of supporting a full MSTP BACnet implementation. The microprocessor shall also support SPI compatible communications with the MCU of the Microtech III controller. The physical interface to a BACnet BAS network shall be through an industry standard RS-4 transceiver capable of existing on an RS-4 network of up to 64 nodes. The unit controller is factory programmed and tested with all the logic required to monitor and control heating and cooling operation. The controller sets the unit mode of operation, monitors water and air temperatures, and can communicate fault conditions via a BACnet communications network. Units outfitted with Microtech III and BACnet Communication modules include return air, discharge air and leaving water temperature sensors. Space temperature sensor options include a set-point adjustment, tenant override button, and the capability of substituting the return air sensor with a wall-mounted room temperature sensor. Page 38 of 40 McQuay Large Horizontal Water Source Heat Pumps Catalog 1112-3

Engineering Specifications Each communicating unit controller performs the following unit operations: Enable heating and cooling to maintain space temperature set point at the room sensor Enable fan and compressor operation Monitor all safety controls Monitor discharge and return air temperature Monitor leaving water temperature Relay status of all vital unit functions Support optional control outputs Unit mounted LED annunciators aid in diagnosing unit operation by indicating the water source heat pump operating mode and alarm conditions. If there are no current alarm conditions, a green LED on the annunciator board will indicate normal unit operating mode. If an alarm condition exists, the Microtech III controller will send the fault condition to the LED annunciator, which will assist in troubleshooting the unit. LED Annunciator shall be visible without removing access panel. Heat pumps with the MicroTech III Controller with a LonWorks Communication Module is designed to be linked with a centralized Building Automation System (BAS) through a LonMark communications network for centralized scheduling and management of multiple heat pumps. Wall-mounted room sensors are available to control the heating and cooling operation of each MicroTech III Water Source Heat Pump. Available room sensors include: Room Sensor with timed override button and LED; Room temperature sensor with timed-override button and set point adjustment (55 to 95 deg F); Room sensor with timed-override button and set point adjustment (-3 to +3 deg F); Room sensor (no options, sensor only). Warranty An optional 4-year extended compressor warranty covers the compressor for 5 years from the date at which the unit ships from the factory. An optional 4-year extended refrigeration circuit warranty covers the entire refrigeration circuit and related components for 5 years. Field Installed Accessories Wall Thermostat Options Programmable Electronic Thermostat Two-stage heat/two-stage cool, 7-day programmable. Subbase shall have system "Mode/Prog" and fan "Auto/On" switches. Thermostat shall have the option of an Optional Remote Sensor. Non-programmable, auto or manual changeover Two-stage heat/two-stage cool, night setback override. Subbase shall have system "Cool/Off/Heat/Auto" and fan "Auto/On switches. Thermostat shall have the option of an Optional Remote Sensor. Wall Temperature Sensor Options: Wall Sensor with timed-override button. Wall Sensor with timed-override button and set point adjustment (55 to 95 deg F), fan mode switch (auto/on), operational mode button (Heat/Cool/Auto) and status LED to display fault condition. Wall Sensor with timed-override button and set point adjustment (-3 to +3 deg F), fan mode switch (auto/on), operational mode button (Heat/Cool/Auto) and status LED to display fault condition. Hose Kits: Two fire-rated flexible hoses with ASTM ratings of Flame Spread 25, Fuel Contribution 25 and Smoke Density 50 for connection to unit and field piping. Hose shall be covered with stainless steel braiding to prevent damage. Valve Options: Combination water balancing and shutoff valve with adjustable memory stop. Optional 2-way, Normally Open (N.O.) or Normally Closed (N.C.) motorized water valves. Catalog 1112-3 McQuay Large Horizontal Water Source Heat Pumps Page 39 of 40

Daikin McQuay Water Source Heat Pumps A Complete Line of Quality Products, Flexible Configurations Stacking Units 3/4 to 3 Ton Large Vertical Units 6 to 25 Ton & Horizontal Units 6 to 10 Ton Rooftop Units 3 to 35 Ton Water to Water Source Heat Pump Units 3 to 35 Ton Console Units 3/4 to 1 1 /2 Ton Enfinity Vertical & Horizontal Units 1/2 to 6 Ton SmartSource Vertical & Horizontal Units 2 to 6 Ton Daikin McQuay Training and Development Now that you have made an investment in modern, efficient Daikin McQuay equipment, its care should be a high priority. For training information on all Daikin McQuay HVAC products, please visit us at www. daikinmcquay.com and click on Training, or call 540-248-9646 and ask for the Training Department. Warranty All Daikin McQuay equipment is sold pursuant to its standard terms and conditions of sale, including Limited Product Warranty. Consult your local Daikin McQuay Representative for warranty details. Refer to Form 933-4302Y. To find your local Daikin McQuay Representative, go to www.daikinmcquay.com. Aftermarket Services To find your local parts office, visit www.daikinmcquay.com or call 0-37PARTS (0-377-2787). To find your local service office, visit www.daikinmcquay.com or call 0-432-1342. This document contains the most current product information as of this printing. For the most up-to-date product information, please go to www.daikinmcquay.com. Products manufactured in an ISO certified facility. 2012 McQuay International www.mcquay.com (0) 432-1342 Catalog 1112-4 (5/12)