GUIDE SPECIFICATIONS AQUARIUS ii

Catalog (AP Technical Data Sheet) GUIDE SPECIFICATIONS AQUARIUS ii AP Series Two Stage R-410A GENERAL Units shall be performance certified to ISO standard 13256-1 for Water Loop Heat Pump, Ground Water Heat Pump and Ground Loop Heat Pump applications. Units shall be Underwriter Laboratories (UL and ULc) listed for safety on all models. Each unit shall be run tested at the factory. Each unit shall be pallet mounted and stretch wrapped. The units shall be manufactured in an ISO9001:2000 certified facility. The units shall be designed to operate with entering fluid temperatures between 50 F (10 C) and 110 F (43.3 C) in cooling and temperatures between 20 F (-6.6 C) and 80 F (27 C) in heating as manufactured in Fort Lauderdale, Florida. CASING & CABINET The cabinet shall be fabricated from heavy-gauge steel finished with a vinyl coated black cabinet and decorative gold anodized aluminum front panel for corrosion protection. The interior shall be insulated with ½ (12.7mm) thick foil faced glass fiber. All units shall allow sufficient service access to replace the compressor without unit removal. One blower and two compressor compartment access panels shall be removable with supply and return ductwork in place. A duct collar shall be provided on the supply air opening. A filter rack with 2" (50.8 mm) thick disposable filters and a 1" (25.4mm) return air duct collar shall be provided with each unit. Air filters shall be MERV 11 rated. The units shall have an insulated divider panel between the air handling section and the compressor section to minimize the transmission of compressor noise, and to permit service testing without air bypass. Units shall have a stainless steel condensate drain pan. The compressor shall have a floating base pan to minimize noise transmissions. REFRIGERATION CIRCUITS All units shall contain a sealed refrigerant circuit including a two stage scroll compressor, bi-directional thermal expansion valve metering device, finned tube air-to-refrigerant heat exchanger, refrigerant reversing valve and service ports. Compressor shall be high efficiency two stage scroll type, designed for heat pump duty, quiet operation and mounted on rubber vibration isolators. Compressor motors shall be equipped with overload protection. Refrigerant reversing valves shall be pilot operated sliding piston type with replaceable encapsulated magnetic coils energized only during the cooling cycle. The finned tube coil shall be constructed of lanced aluminum fins not exceeding fourteen fins per inch bonded to rifled copper tubes in a staggered pattern not less than three rows deep and have a 600 psig (4140 Kpa) working pressure. Coils shall have a baked polyester enamel coating for protection against most airborne chemicals. Coil end plates shall be aluminum. The coaxial water-to-refrigerant heat exchanger shall be constructed of a convoluted copper (optional cupronickel) inner tube and steel outer tube with a designed refrigerant working pressure of 600 psig (4140 Kpa) and a designed water side working pressure of no less than 400 PSIG (2750 kpa). The water-to-refrigerant heat exchanger shall be insulated to prevent condensation at low fluid temperatures. FAN MOTOR & ASSEMBLY The fan shall be direct drive centrifugal forward curved type with a dynamically balanced wheel. The housing and wheel shall be designed for quiet low velocity operation. The fan housing shall be removable from the unit without disconnecting the supply air ductwork for servicing of the fan motor.the fan motor shall be an ECM-2 microprocessor controlled DC type motor with internal programming factory set for the specific unit and featuring soft start/stop and a delay off feature for maximum efficiency and quiet operation. Air flow rates shall be varied according to the staging of the unit. There will further be provisions for adjusting the air delivery of the motor and blower by +/- 15% from rated air flow. ELECTRICAL Controls and safety devices will be factory wired and mounted within the unit. Controls shall include comfort alert module, compressor contactor, 24V transformer, reversing valve coil and solid state lock-out controller (UPM). The UPM controller shall include the following features: diagnostic LED's, low pressure bypass time delay (to prevent nuisance low pressure lock-outs during operation with low fluid temperatures), anti short cycle time delay, random start time delay and one time intelligent reset. When the safety controls are activated the lock-out circuit shall reset itself the first time. If the safety controls are subsequently activated within one hour, then the lock-out circuit shall disable the compressor until it is reset at the thermostat or main circuit breaker to prevent compressor operation during fault conditions. A lock-out indicating terminal shall be provided in the low voltage circuit. Safety devices include a low pressure cutout set a 40 PSIG (280 kpa) for loss of charge protection (freezestat and/ or high discharge gas temperature sensor is not acceptable) and a high pressure cutout control set at 600 psig (4140 Kpa). The ECM motor interface board shall provide a screw type terminal block for thermostat connection, LED's to indicate thermostat status and air delivery. It shall also provide a means of changing the motor program to any of up to four pre-programmed options. Direct wiring of the motor control harness to the thermostat is not acceptable. A terminal block with screw terminals shall be provided for control wiring. An optional condensate overflow device shall be factory installed to stop compressor operation if drain pan overflow is imminent. An optional energy management relay to allow unit control by an external source shall be factory installed. PIPING Supply, return water and condensate drain connections shall be brass female pipe thread fittings and mounted flush to cabinet exterior. INTERNAL ELECTRIC HEAT 208/230-1-60 volt units shall be equipped with optional factory installed internal electric resistance heat for auxiliary and emergency heat. Electric heater must be Underwriter's Laboratories (UL and ULc) approved for safety when installed in the unit. External heater packages or heater packages not specifically listed for use with the unit are unacceptable. Electric heater packages shall include a heater collar mounted to the blower outlet, individual thermal overload protected heater elements no greater than 5kW each and magnetic contactors. Heater packages shall have a separate power supply connection from the compressor and this power supply shall also power the unit blower motor and control transformer for safe operation. HEAT RECOVERY PACKAGE 208/230 volt units shall be equipped with an optional factory installed internal heat recovery kit for domestic hot water production. This kit shall include an internally protected pump, double walled coaxial waterto-refrigerant heat exchanger, 140 F (60 C) hot water temperature limit switch and an on/off switch/circuit breaker. APSPECS.INDD 970-399 REV: 07-12

GeoMaster, LLC 3512 Cavalier Dr. Fort Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 http://www.geoexcel.com AP Two Stage Series Vertical Dimensions (2) A B C D E F G H J K M N P Q Condenser Recommended MODEL R/A Duct R/A Duct Filter Rack Water Replacement Width Depth Height Flg Width Flg Height Height Connections Nominal Filter Size AP025 21.50 26.00 47.25 13.75 15.75 7.00 4.80 2.47 8.00 14.47 24.00 22.00 24.00 4.00 3/4" F.P.T. 24 X 24 X 2 AP035 24.00 33.25 47.25 15.75 15.75 8.25 6.37 2.47 8.00 14.47 30.00 22.00 24.00 4.00 1" F.P.T. 24 X 30 X 2 AP049 26.00 33.25 58.00 17.75 17.75 8.50 7.25 2.47 8.00 16.47 30.00 30.00 32.00 4.00 1" F.P.T. 16 X 30 X 2 (2) AP061 26.00 33.25 66.25 17.75 17.75 8.38 6.38 4.25 10.00 16.50 30.00 38.00 40.00 4.00 1" F.P.T. 20 X 30 X 2 (2) AP071 26.00 33.25 66.25 17.75 17.75 8.38 6.38 4.25 10.00 18.50 30.00 38.00 40.00 4.00 1" F.P.T. 20 X 30 X 2 G F E D Heater Knock-out D E F Q Access Panel M C HRP Condenser Water Out C P N Condensate Drain J K Condenser Water In Electrical Knock-outs B A A B Left Hand Return (FLT) H Right Hand Return (FRT) NOTES: All dimensions within +/- 0.125". All condensate drain connections are 3/4" FPT. All Heat Recovery Kit connections are 1/2" FPT. Internal electric heat available on 208-230/1/60 top discharge units only Internal Heat Recovery Kit available on 208-230 volt units only. Specifications subject to change without notice. APVTDGIP INT II.INDD 970-399 REV: 07-12

GeoMaster, LLC 3512 Cavalier Dr. Fort Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 http://www.geoexcel.com AP Two Stage Series Horizontal Dimensions A B C D E F G H J K M N P Q R T Condenser Recommended MODEL R/A Duct Filter Rack R/A Duct Water Replacement Width Depth Height Flg Width Height Flg Height Connections Nom. Filter Size AP025* 26.00 54.50 22.00 2.00 30.00 22.50 3.25 15.25 5.25 13.75 4.00 15.75 5.00 3.00 20.00 18.00 3/4" F.P.T. 16 X 20 X 2 (2) AP035* 30.00 68.00 22.00 2.50 34.00 32.00 2.25 14.38 5.25 15.75 4.00 15.75 5.81 3.00 20.00 18.00 1" F.P.T. 18 X 20 X 2 (2) AP049 30.00 68.00 22.00 2.50 34.00 32.00 2.75 16.75 4.75 17.75 2.00 17.75 7.66 2.00 20.00 18.00 1" F.P.T. 18 X 20 X 2 (2) AP061 30.00 89.00 22.00 2.50 54.00 31.50 5.75 16.75 4.50 17.75 3.75 17.75 4.5 2.00 20.00 18.00 1" F.P.T. 20x28x2 (2) AP071 30.00 89.00 22.00 2.50 54.00 31.50 5.75 16.75 4.50 17.75 3.75 17.75 7.66 2.00 20.00 18.00 1" F.P.T. 20x28x2 (2) * Add 0.500" height on AP025 and AP035 for base rails. Left Hand Return D E F G H Access Panel C Electrical Knock-outs Left Hand Return End Blow (FLE) B Heater Knock-out J K A Return Air Opening M N C Condensate Drain B Q N K P A Return Air Opening Condensate Drain Left Hand Return Straight Through (FLS) Right Hand Return HRP Condenser Water In Condenser Water Out Access Panel F E D Condensate Drain Q N Return Air Opening A K J Heater Knock-out B Right Hand Return End Blow (FRE) C Condensate Drain Return Air Opening A P K M N B C Right Hand Return Straight Through (FRS) NOTES: All dimensions within +/- 0.125". All condensate drain connections are 3/4" FPT. All Heat Recovery connections are 1/2" FPT. Internal electric heat available on 208-230 volt units only Internal Heat Recovery Kit available on 208-230 volt units only. Units can be field converted between end blow and straight through supply air configurations. Specifications subject to change without notice. APHZDGIP.INDD 970-399 REV: 0 07-12

GeoMaster, LLC 3512 Cavalier Dr. Fort Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 http://www.geoexcel.com AP Two Stage Series Counterflow Dimensions A B C D E F G H J K M N P Condenser Recommended MODEL Blower Blower R/A Duct R/A Duct Filter Rack Water Replacement Width Depth Height Opening Opening Flg Width Flg Height Height Connections Nominal Filter Size AP025 21.50 26.00 47.25 9.25 10.25 8.38 5.00 8.13 20.13 9.75 24.00 22.00 24.00 3/4" F.P.T. 24 X 24 X 2 AP035* 24.00 33.25 47.25 9.25 10.25 11.13 6.88 8.13 20.13 10.00 30.00 22.00 24.00 1" F.P.T. 24 X 30 X 2 AP049 26.00 33.25 58.00 10.50 11.50 11.25 8.25 9.13 23.13 10.50 30.00 30.00 32.00 1" F.P.T. 16 X 30 X 2 (2) AP061 26.00 33.25 66.25 12.25 12.50 9.75 6.25 6.84 21.34 11.00 30.00 38.00 40.00 1" F.P.T. 20 X 30 X 2 (2) AP071 26.00 33.25 66.25 12.25 13.50 9.75 6.25 7.84 20.84 11.00 30.00 38.00 40.00 1" F.P.T. 20 X 30 X 2 (2) H Condenser Water Out C HRP J Compressor Access Panel Condenser Water In Electrical Knock-outs C M Heater Knock-out Blower & Heater Access Panel Condensate Drain P N B A A B F E D D E G F K APCFDGIP INT II.INDD 970-399 REV: 07-12 Left Hand Return (FLB) Right Hand Return (FRB NOTES: All dimensions within +/- 0.125". All condensate drain connections are 3/4" FPT. All Heat Recovery Kit connections are 1/2" FPT. Internal electric heat available on 208-230/1/60 bottom discharge units only Internal Heat Recovery Kit available on 208-230 volt units only. Specifications subject to change without notice.

ELECTRICAL SPECIFICATIONS Electrical Elect. Characteristics Symbol Compressor Blower Loop Pump Min. Max. Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 10.3 52.0 2.8 1/3 - - 15.7 25 265-1-60-2 9.0 67.0 2.6 1/3 - - 13.9 20 BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 860 Norm 750-640 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 750 CFM and 8.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 20,000 19.3 23,000 6.5 22,500 32.5 19,500 5.5 22,000 27.8 16,600 4.7 CAPACITY DATA - PART LOAD COOLING All performance at 750 CFM and 8.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS EFT Range (Standard) F to F 19.80 12.73 0.64 0.65 22.03 30.4 19.09 12.37 0.65 0.77 21.70 24.9 18.37 12.05 0.66 0.88 21.38 20.9 17.30 11.65 0.67 1.05 20.89 16.4 16.22 11.31 0.70 1.22 20.40 13.3 21.22 15.24 0.72 0.66 23.46 32.4 20.46 14.81 0.72 0.77 23.09 26.6 19.69 14.43 0.73 0.89 22.71 22.2 18.54 13.95 0.75 1.06 22.15 17.5 17.39 13.55 0.78 1.23 21.59 14.1 23.30 16.83 0.72 0.66 25.56 35.3 22.46 16.36 0.73 0.78 25.11 28.9 21.62 15.95 0.74 0.89 24.67 24.2 20.36 15.41 0.76 1.07 24.00 19.1 19.10 14.97 0.78 1.24 23.33 15.4 25.38 18.44 0.73 0.66 27.65 38.2 24.47 17.93 0.73 0.78 27.14 31.3 23.56 17.47 0.74 0.90 26.62 26.2 22.19 16.89 0.76 1.07 25.85 20.7 20.82 16.41 0.79 1.25 25.08 16.7 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP025.1IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) AP025 AQUARIUS II MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING 30 o 30 o 30 o Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 3.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 9 x 7 DD Scroll Net Weight Ship Weight 330 lbs 355 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 5.0 2.0 0.9 7.0 3.6 1.6 9.0 5.7 2.5 11.0 8.2 3.5 13.0 11.0 4.8 20.98 1.12 17.16 5.5 22.83 1.12 19.00 6.0 24.69 1.13 20.83 6.4 26.55 1.14 22.67 6.8 19.84 1.14 15.96 5.1 21.59 1.14 17.69 5.5 23.35 1.15 19.43 6.0 25.10 1.16 21.16 6.4 18.50 1.16 14.54 4.7 20.14 1.17 16.15 5.1 21.77 1.17 17.77 5.4 23.41 1.18 19.38 5.8 Antifreeze Required 16.01 1.10 12.25 4.3 16.92 1.11 13.15 4.5 18.74 1.11 14.95 4.9 15.15 1.12 11.32 4.0 16.01 1.12 12.17 4.2 17.73 1.13 13.87 4.6 14.13 1.15 10.22 3.6 14.93 1.15 11.02 3.8 16.54 1.15 12.60 4.2 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS Electrical Elect. Characteristics Symbol BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1100 Norm 950-800 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 950 CFM and 8.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 27,000 16.2 32,500 5.3 31,000 25.1 26,500 4.8 28,500 19.2 20,400 4.1 CAPACITY DATA - FULL LOAD COOLING All performance at 950 CFM and 8.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS Compressor Blower Loop Pump Min. Max. Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 10.3 52.0 2.8 1/3 - - 15.7 25 265-1-60-2 9.0 67.0 2.6 1/3 - - 13.9 20 EFT Range (Standard) F to F 27.31 18.01 0.66 1.19 31.36 23.0 26.05 17.32 0.67 1.34 30.62 19.5 24.78 16.69 0.67 1.49 29.87 16.6 22.89 15.82 0.69 1.72 28.76 13.3 21.00 15.02 0.72 1.95 27.65 10.8 29.26 21.55 0.74 1.19 33.34 24.5 27.91 20.73 0.74 1.35 32.51 20.7 26.56 19.97 0.75 1.50 31.68 17.7 24.54 18.94 0.77 1.73 30.44 14.2 22.51 17.98 0.80 1.96 29.20 11.5 32.13 23.80 0.74 1.20 36.23 26.7 30.65 22.89 0.75 1.36 35.28 22.6 29.17 22.06 0.76 1.51 34.32 19.3 26.95 20.92 0.78 1.74 32.90 15.5 24.73 19.87 0.80 1.97 31.47 12.5 34.99 26.07 0.75 1.21 39.12 28.9 33.38 25.08 0.75 1.37 38.04 24.4 31.77 24.17 0.76 1.52 36.97 20.9 29.36 22.92 0.78 1.76 35.35 16.7 26.94 21.77 0.81 1.99 33.73 13.5 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP025.2IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) 30 o 30 o 30 o AP025 MECHANICAL SPECIFICATIONS Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 3.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 9 x 7 DD Scroll Net Weight Ship Weight 330 lbs 355 lbs FLUID PRESSURE DROP EFT Range (Standard) F to F LOW TEMP HEATING AQUARIUS II Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 5.0 2.0 0.9 7.0 3.6 1.6 9.0 5.7 2.5 11.0 8.2 3.5 13.0 11.0 4.8 28.16 1.71 22.32 4.8 31.67 1.81 25.49 5.1 35.18 1.91 28.66 5.4 38.70 2.01 31.83 5.6 26.63 1.74 20.69 4.5 29.95 1.84 23.66 4.8 33.27 1.95 26.63 5.0 36.59 2.05 29.60 5.2 24.83 1.78 18.76 4.1 27.92 1.88 21.50 4.3 31.02 1.99 24.23 4.6 34.11 2.09 26.97 4.8 Antifreeze Required 18.99 1.46 14.01 3.8 20.72 1.51 15.56 4.0 24.16 1.61 18.66 4.4 17.97 1.48 12.90 3.5 19.60 1.54 14.35 3.7 22.85 1.64 17.26 4.1 16.77 1.52 11.59 3.2 18.28 1.57 12.93 3.4 21.31 1.67 15.60 3.7 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS Electrical Elect. Compressor Blower Loop Pump Min. Max. Characteristics Symbol Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 16.7 82.0 4.3 1/2 - - 25.2 40 208/230-3-60-3 11.2 58.0 4.3 1/2 - - 18.3 25 460-3-60-4 4.5 29.0 4.1 1/2 - - 9.7 15 BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1000 Norm 900-800 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 1000 CFM and 9.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 25,700 19.8 29,500 6.3 29,500 34.0 24,300 5.3 28,200 28.5 22,000 4.8 CAPACITY DATA - PART LOAD COOLING All performance at 1000 CFM and 9.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS EFT Range (Standard) F to F 26.07 16.75 0.64 0.81 28.82 32.3 24.94 16.16 0.65 0.95 28.18 26.3 23.82 15.62 0.66 1.09 27.55 21.8 22.13 14.90 0.67 1.31 26.59 16.9 20.44 14.24 0.70 1.52 25.64 13.4 27.94 20.05 0.72 0.81 30.71 34.4 26.74 19.35 0.72 0.95 29.99 28.0 25.53 18.71 0.73 1.10 29.28 23.2 23.73 17.85 0.75 1.31 28.21 18.1 21.92 17.07 0.78 1.53 27.14 14.3 30.68 22.15 0.72 0.82 33.46 37.6 29.36 21.38 0.73 0.96 32.64 30.5 28.04 20.67 0.74 1.11 31.81 25.3 26.06 19.72 0.76 1.32 30.58 19.7 24.08 18.86 0.78 1.54 29.34 15.6 33.42 24.28 0.73 0.82 36.22 40.6 31.98 23.43 0.73 0.97 35.29 33.0 30.55 22.65 0.74 1.11 34.35 27.4 28.39 21.61 0.76 1.33 32.94 21.3 26.24 20.67 0.79 1.55 31.54 16.9 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP035.1IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) AP035 MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING 30 o 30 o 30 o AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 4.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 9 x 7 DD Scroll Net Weight Ship Weight 365 lbs 400 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 5 2.0 0.9 7 3.6 1.6 9 5.7 2.5 11 8.2 3.5 13 11.1 4.8 26.93 1.44 22.01 5.5 29.10 1.46 24.13 5.9 31.28 1.47 26.26 6.2 33.46 1.49 28.38 6.6 25.47 1.47 20.46 5.1 27.52 1.48 22.47 5.4 29.58 1.50 24.47 5.8 31.64 1.51 26.48 6.1 23.75 1.50 18.64 4.6 25.67 1.51 20.51 5.0 27.59 1.53 22.37 5.3 29.50 1.54 24.23 5.6 Antifreeze Required 21.06 1.40 16.27 4.4 22.13 1.41 17.31 4.6 24.26 1.43 19.39 5.0 19.93 1.43 15.05 4.1 20.93 1.44 16.03 4.3 22.95 1.45 18.00 4.6 18.59 1.46 13.62 3.7 19.53 1.47 14.53 3.9 21.41 1.48 16.35 4.2 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1380 Norm 1200-1020 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 1200 CFM and 9.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 36,600 16.0 43,000 5.1 41,200 23.5 36,200 4.7 38,200 18.4 28,200 4.1 CAPACITY DATA - FULL LOAD COOLING All performance at 1200 CFM and 9.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS Electrical Elect. Compressor Blower Loop Pump Min. Max. Characteristics Symbol Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 16.7 82.0 4.3 1/2 - - 25.2 40 208/230-3-60-3 11.2 58.0 4.3 1/2 - - 18.3 25 460-3-60-4 4.5 29.0 4.1 1/2 - - 9.7 15 EFT Range (Standard) F to F 36.10 23.53 0.65 1.67 41.81 21.6 34.64 22.76 0.66 1.86 41.00 18.6 33.18 22.08 0.67 2.05 40.19 16.2 30.99 21.16 0.68 2.34 38.97 13.3 28.80 20.36 0.71 2.62 37.75 11.0 38.68 28.14 0.73 1.68 44.43 23.0 37.12 27.23 0.73 1.87 43.52 19.8 35.56 26.41 0.74 2.06 42.61 17.2 33.22 25.33 0.76 2.35 41.24 14.1 30.87 24.37 0.79 2.64 39.87 11.7 42.47 31.08 0.73 1.70 48.26 25.0 40.75 30.08 0.74 1.89 47.20 21.6 39.04 29.17 0.75 2.08 46.14 18.8 36.47 27.98 0.77 2.37 44.56 15.4 33.91 26.92 0.79 2.66 42.97 12.8 46.25 34.05 0.74 1.71 52.08 27.1 44.39 32.95 0.74 1.90 50.88 23.3 42.52 31.96 0.75 2.10 49.68 20.3 39.73 30.65 0.77 2.39 47.88 16.6 36.94 29.49 0.80 2.68 46.08 13.8 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP035.2IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) 30 o 30 o 30 o MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING AP035 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 4.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 9 x 7 DD Scroll Net Weight Ship Weight 365 lbs 400 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 5 2.0 0.9 7 3.6 1.6 9 5.7 2.5 11 8.2 3.5 13 11.1 4.8 38.04 2.33 30.08 4.8 42.34 2.47 33.92 5.0 46.64 2.60 37.75 5.2 50.93 2.74 41.59 5.5 35.97 2.37 27.87 4.4 40.03 2.51 31.46 4.7 44.09 2.65 35.05 4.9 48.16 2.79 38.64 5.1 33.55 2.42 25.27 4.1 37.33 2.57 28.57 4.3 41.11 2.71 31.87 4.4 44.89 2.85 35.17 4.6 Antifreeze Required 26.76 1.99 19.96 3.9 28.87 2.06 21.83 4.1 33.08 2.20 25.58 4.4 25.32 2.03 18.39 3.7 27.31 2.10 20.15 3.8 31.29 2.24 23.66 4.1 23.62 2.07 16.55 3.3 25.47 2.14 18.16 3.5 29.18 2.28 21.39 3.7 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS Electrical Elect. Characteristics Symbol Compressor Blower Loop Pump Min. Max. Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 21.2 96.0 6.8 3/4 - - 33.3 50 208/230-3-60-3 13.5 88.0 6.8 3/4 - - 23.7 35 460-3-60-4 6.4 41.0 5.5 3/4 - - 13.5 15 BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1490 Norm 1300-1100 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 1300 CFM and 12.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 37,000 20 38,500 5.9 41,200 32.5 31,500 5.0 40,200 28.0 28,000 4.6 CAPACITY DATA - PART LOAD COOLING All performance at 1300 CFM and 12.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS EFT Range (Standard) F to F 37.65 28.42 0.75 1.17 41.65 32.1 36.39 27.70 0.76 1.37 41.06 26.6 35.12 27.08 0.77 1.57 40.47 22.4 33.23 26.30 0.79 1.86 39.58 17.9 31.34 25.67 0.82 2.15 38.69 14.6 40.35 33.98 0.84 1.18 44.37 34.2 39.00 33.12 0.85 1.38 43.69 28.3 37.65 32.38 0.86 1.57 43.02 23.9 35.62 31.45 0.88 1.87 42.00 19.1 33.59 30.71 0.91 2.16 40.98 15.5 44.30 37.52 0.85 1.19 48.35 37.3 42.81 36.57 0.85 1.39 47.55 30.9 41.33 35.76 0.87 1.59 46.74 26.1 39.11 34.73 0.89 1.88 45.54 20.8 36.89 33.91 0.92 2.18 44.33 16.9 48.24 41.10 0.85 1.20 52.32 40.3 46.63 40.06 0.86 1.40 51.40 33.4 45.02 39.16 0.87 1.60 50.47 28.2 42.60 38.05 0.89 1.90 49.08 22.5 40.19 37.15 0.92 2.20 47.69 18.3 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP049.1IP60 970-399 Rev: 8-11 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING 30 o 30 o 30 o AP049 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 6 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 10x 8 DD Scroll Net Weight Ship Weight 445 lbs 475 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 6.0 2.3 1.0 7.0 3.0 1.3 9.5 5.3 2.3 12.0 8.0 3.5 16.0 13.4 5.8 36.30 1.93 29.72 5.5 39.48 1.97 32.75 5.9 42.66 2.02 35.78 6.2 45.84 2.06 38.82 6.5 34.33 1.96 27.64 5.1 37.34 2.01 30.49 5.5 40.34 2.05 33.35 5.8 43.35 2.10 36.20 6.1 32.02 2.00 25.19 4.7 34.82 2.05 27.83 5.0 37.62 2.09 30.47 5.3 40.42 2.14 33.11 5.5 Antifreeze Required 27.79 1.82 21.59 4.5 29.35 1.84 23.08 4.7 32.47 1.88 26.04 5.1 26.29 1.85 19.99 4.2 27.77 1.87 21.38 4.4 30.71 1.92 24.18 4.7 24.53 1.89 18.09 3.8 25.90 1.91 19.39 4.0 28.65 1.96 21.97 4.3 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS MECHANICAL SPECIFICATIONS Electrical Elect. Compressor Blower Loop Pump Min. Max. Circuit Fuse/ Characteristics Symbol RLA LRA FLA HP FLA HP Amps Breaker BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1950 Norm 1700-1450 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 1700 CFM and 12.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 50,000 16.9 53,000 5.2 56,000 24.0 45,500 4.8 52,000 19.0 38,000 4.1 CAPACITY DATA - FULL LOAD COOLING All performance at 1700 CFM and 12.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS 208/230-1-60-1 21.2 96.0 6.8 3/4 - - 33.3 50 208/230-3-60-3 13.5 88.0 6.8 3/4 - - 23.7 35 460-3-60-4 6.4 41.0 5.5 3/4 - - 13.5 15 EFT Range (Standard) F to F 48.95 31.89 0.65 2.28 56.74 21.4 47.04 30.90 0.66 2.51 55.59 18.8 45.13 30.01 0.67 2.73 54.45 16.5 42.27 28.85 0.68 3.06 52.72 13.8 39.40 27.84 0.71 3.40 51.00 11.6 52.46 38.15 0.73 2.30 60.29 22.9 50.41 36.97 0.73 2.52 59.01 20.0 48.37 35.92 0.74 2.74 57.74 17.6 45.31 34.54 0.76 3.08 55.82 14.7 42.24 33.33 0.79 3.42 53.90 12.4 57.59 42.14 0.73 2.31 65.48 24.9 55.35 40.84 0.74 2.54 64.01 21.8 53.11 39.68 0.75 2.76 62.55 19.2 49.75 38.15 0.77 3.10 60.35 16.0 46.39 36.82 0.79 3.44 58.14 13.5 62.72 46.16 0.74 2.33 70.67 26.9 60.29 44.74 0.74 2.56 69.01 23.6 57.85 43.47 0.75 2.79 67.36 20.8 54.20 41.80 0.77 3.13 64.87 17.3 50.54 40.35 0.80 3.47 62.38 14.6 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP049.2IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) 30 o 30 o 30 o EFT Range (Standard) F to F LOW TEMP HEATING AP049 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 6.0 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 10x 8 DD Scroll Net Weight Ship Weight 445 lbs 475 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 6.0 2.3 1.0 7.0 3.0 1.3 9.5 5.3 2.3 12.0 8.0 3.5 16.0 13.4 5.8 48.44 2.96 38.32 4.8 52.79 3.05 42.38 5.1 57.15 3.14 46.43 5.3 61.50 3.23 50.48 5.6 45.81 3.02 35.52 4.5 49.92 3.11 39.32 4.7 54.04 3.20 43.13 5.0 58.15 3.29 46.94 5.2 42.72 3.08 32.21 4.1 46.55 3.17 35.73 4.3 50.39 3.26 39.25 4.5 54.22 3.36 42.76 4.7 Antifreeze Required 36.81 2.74 27.45 3.9 38.95 2.79 29.44 4.1 43.22 2.87 33.41 4.4 34.83 2.79 25.31 3.7 36.84 2.83 27.17 3.8 40.88 2.93 30.89 4.1 32.49 2.85 22.77 3.3 34.37 2.89 24.49 3.5 38.13 2.99 27.93 3.7 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS Electrical Elect. Compressor Blower Loop Pump Min. Max. Characteristics Symbol Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 25.6 118.0 6.8 3/4 - - 38.8 60 208/230-3-60-3 17.6 123.0 6.8 3/4 - - 28.8 45 460-3-60-4 9.0 62.0 5.5 3/4 - - 16.8 25 BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1725 Norm 1500-1275 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 1500 CFM and 14.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 47,000 19.0 56,500 6.2 53,000 33.0 45,000 5.2 51,000 27.7 39,000 4.6 CAPACITY DATA - PART LOAD COOLING All performance at 1500 CFM and 14.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS EFT Range (Standard) F to F 47.18 30.54 0.65 1.27 51.51 37.3 45.41 29.64 0.65 1.55 50.71 29.2 43.64 28.84 0.66 1.84 49.92 23.7 40.98 27.79 0.68 2.27 48.73 18.0 38.32 26.89 0.70 2.70 47.55 14.2 50.53 36.44 0.72 1.27 54.87 39.7 48.63 35.37 0.73 1.56 53.96 31.1 46.73 34.41 0.74 1.85 53.05 25.2 43.89 33.17 0.76 2.28 51.69 19.2 41.04 32.10 0.78 2.72 50.32 15.1 55.42 40.19 0.73 1.28 59.80 43.2 53.34 39.01 0.73 1.57 58.72 33.9 51.26 37.96 0.74 1.87 57.63 27.5 48.14 36.59 0.76 2.30 56.00 20.9 45.02 35.40 0.79 2.74 54.38 16.4 60.31 43.98 0.73 1.29 64.73 46.6 58.05 42.69 0.74 1.59 63.47 36.6 55.79 41.54 0.74 1.88 62.21 29.7 52.40 40.04 0.76 2.32 60.32 22.6 49.00 38.75 0.79 2.76 58.43 17.7 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP061.1IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING 30 o 30 o 30 o AP061 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 7.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 11x 9 DD Scroll Net Weight Ship Weight 555 lbs 580 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 8 3.5 1.5 12 7.2 3.1 16 12.1 5.3 18 15.0 6.5 22 21.5 9.3 49.27 2.53 40.63 5.7 54.35 2.59 45.50 6.1 59.43 2.66 50.36 6.6 64.51 2.72 55.22 6.9 46.56 2.58 37.77 5.3 51.36 2.64 42.35 5.7 56.16 2.71 46.92 6.1 60.97 2.77 51.50 6.4 43.39 2.63 34.39 4.8 47.86 2.70 38.64 5.2 52.33 2.77 42.88 5.5 56.80 2.83 47.12 5.9 Antifreeze Required 35.85 2.37 27.76 4.4 38.34 2.40 30.14 4.7 43.32 2.47 34.91 5.1 33.88 2.41 25.65 4.1 36.24 2.45 27.89 4.3 40.94 2.51 32.37 4.8 31.58 2.47 23.16 3.8 33.77 2.50 25.23 4.0 38.15 2.57 29.39 4.4 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 2200 Norm 2000-1700 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 2000 CFM and 14.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 64,000 16.2 78,500 5.4 71,000 23.8 65,000 5.0 67,000 18.5 49,000 4.1 CAPACITY DATA - FULL LOAD COOLING All performance at 2000 CFM and 14.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS Electrical Elect. Compressor Blower Loop Pump Min. Max. Characteristics Symbol Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 25.6 118.0 6.8 3/4 - - 38.8 60 208/230-3-60-3 17.6 123.0 6.8 3/4 - - 28.8 45 460-3-60-4 9.0 62.0 5.5 3/4 - - 16.8 25 EFT Range (Standard) F to F 62.67 40.56 0.65 2.66 71.76 23.5 60.48 39.48 0.65 3.01 70.76 20.1 58.30 38.53 0.66 3.36 69.77 17.4 55.03 37.33 0.68 3.88 68.27 14.2 51.76 36.33 0.70 4.40 66.78 11.8 67.11 48.40 0.72 2.68 76.25 25.0 64.77 47.11 0.73 3.03 75.11 21.4 62.44 45.98 0.74 3.38 73.97 18.5 58.94 44.54 0.76 3.90 72.25 15.1 55.43 43.35 0.78 4.43 70.54 12.5 73.61 53.38 0.73 2.70 82.82 27.3 71.05 51.96 0.73 3.05 81.47 23.3 68.49 50.71 0.74 3.41 80.11 20.1 64.65 49.13 0.76 3.93 78.08 16.4 60.81 47.82 0.79 4.46 76.04 13.6 80.11 58.42 0.73 2.72 89.40 29.4 77.32 56.86 0.74 3.08 87.82 25.1 74.54 55.50 0.74 3.43 86.25 21.7 70.36 53.77 0.76 3.97 83.90 17.7 66.19 52.33 0.79 4.50 81.54 14.7 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP061.2IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) 30 o 30 o 30 o MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING AP061 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 7.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 11x 9 DD Scroll Net Weight Ship Weight 555 lbs 580 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 8 3.5 1.5 12 7.2 3.1 16 12.1 5.3 18 15.0 6.5 22 21.5 9.3 67.49 3.83 54.43 5.2 76.05 4.05 62.22 5.5 84.62 4.28 70.01 5.8 93.19 4.51 77.81 6.1 63.78 3.90 50.48 4.8 71.88 4.13 57.78 5.1 79.97 4.36 65.09 5.4 88.06 4.59 72.40 5.6 59.43 3.99 45.82 4.4 66.97 4.22 52.56 4.6 74.50 4.46 59.29 4.9 82.04 4.69 66.02 5.1 Antifreeze Required 45.17 3.26 34.04 4.1 49.37 3.38 37.85 4.3 57.77 3.60 45.48 4.7 42.70 3.32 31.36 3.8 46.66 3.44 34.93 4.0 54.60 3.67 42.08 4.4 39.79 3.40 28.20 3.4 43.49 3.52 31.49 3.6 50.88 3.75 38.07 4.0 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS Electrical Elect. Compressor Blower Loop Pump Min. Max. Characteristics Symbol Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 27.2 150.0 6.8 1.0 - - 40.8 60 208/230-3-60-3 19.7 123.0 6.8 1.0 - - 31.4 50 460-3-60-4 9.9 62.0 6.9 1.0 - - 19.3 25 BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + 1600 Norm 1500-1200 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 1500 CFM and 18.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 53,000 18.2 65,800 5.2 59,000 28.8 53,700 4.6 57,500 25.2 47,000 4.1 CAPACITY DATA - PART LOAD COOLING All performance at 1500 CFM and 18.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS EFT Range (Standard) F to F 51.94 33.47 0.64 1.74 57.88 29.8 50.20 32.62 0.65 2.03 57.11 24.8 48.46 31.88 0.66 2.31 56.35 21.0 45.85 30.96 0.68 2.74 55.20 16.7 43.25 30.23 0.70 3.17 54.05 13.7 55.65 40.01 0.72 1.75 61.62 31.8 53.79 39.00 0.73 2.04 60.74 26.4 51.93 38.13 0.73 2.32 59.86 22.4 49.14 37.03 0.75 2.75 58.54 17.8 46.35 36.15 0.78 3.18 57.21 14.6 61.08 44.18 0.72 1.76 67.09 34.7 59.04 43.06 0.73 2.05 66.04 28.8 57.00 42.10 0.74 2.34 64.99 24.4 53.94 40.89 0.76 2.77 63.41 19.4 50.88 39.92 0.78 3.21 61.83 15.9 66.51 48.39 0.73 1.78 72.57 37.5 64.29 47.16 0.73 2.07 71.35 31.1 62.07 46.11 0.74 2.36 70.12 26.3 58.75 44.79 0.76 2.80 68.29 21.0 55.42 43.73 0.79 3.23 66.45 17.1 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP071.1IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING 30 o 30 o 30 o AP071 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 7.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 12 x 9 DD Scroll Net Weight Ship Weight 645 lbs 690 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 8 2.5 1.1 12 3.6 1.6 16 4.3 1.9 18 6.9 3.0 22 8.2 3.6 58.79 3.48 46.91 4.9 64.25 3.59 51.98 5.2 69.71 3.71 57.05 5.5 75.17 3.82 62.13 5.8 55.58 3.54 43.49 4.6 60.74 3.66 48.25 4.9 65.90 3.77 53.02 5.1 71.06 3.89 57.78 5.4 51.82 3.62 39.46 4.2 56.62 3.74 43.86 4.4 61.43 3.86 48.26 4.7 66.23 3.98 52.66 4.9 Antifreeze Required 44.26 3.20 33.35 4.1 46.93 3.25 35.83 4.2 52.28 3.37 40.79 4.5 41.85 3.25 30.75 3.8 44.38 3.31 33.08 3.9 49.44 3.43 37.74 4.2 39.03 3.32 27.68 3.4 41.39 3.38 29.84 3.6 46.09 3.50 34.14 3.9 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

ELECTRICAL SPECIFICATIONS BLOWER PERFORMANCE Available External Static Pressure (Inches of Water, Gauge. Wet Coil and Filter Included) Blower 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 1.10 1.20 Speed + Norm 2300-1900 ISO 13256-1 CERTIFIED PERFORMANCE DATA Rated at 2300 CFM and 18.0 GPM Water Loop Ground Water Ground Loop Cooling Heating Cooling Heating Cooling Heating Capacity EER Capacity COP Capacity EER Capacity COP Capacity EER Capacity COP 72,000 16.0 89,000 5.2 78,000 21.8 73,000 4.7 74,000 18.0 58,000 3.9 CAPACITY DATA - FULL LOAD COOLING All performance at 2300 CFM and 18.0 GPM Entering Entering Sensible Heat Fluid Air Total Sensible to Power of Temp. Temp. Capacity Capacity Total Input Reject EER ( o F) ( o F) (MBtuH) (MBtuH) Ratio (kw) (MBtuH) db 61 o wb 75 o db 63 o wb db 67 o wb db 71 o wb PACKAGED UNITS SPECIFICATION DATA SHEET GEOEXCEL HIGH-EFFICIENCY WATER SOURCE HEAT PUMPS Electrical Elect. Compressor Blower Loop Pump Min. Max. Characteristics Symbol Circuit Fuse/ RLA LRA FLA HP FLA HP Amps Breaker 208/230-1-60-1 27.2 150.0 6.8 1.0 - - 40.8 60 208/230-3-60-3 19.7 123.0 6.8 1.0 - - 31.4 50 460-3-60-4 9.9 62.0 6.9 1.0 - - 19.3 25 EFT Range (Standard) F to F 67.02 42.08 0.63 3.45 78.78 19.4 65.13 41.23 0.63 3.77 77.99 17.3 63.23 40.53 0.64 4.09 77.20 15.5 60.40 39.74 0.66 4.58 76.01 13.2 57.56 39.20 0.68 5.06 74.82 11.4 71.82 50.34 0.70 3.46 83.65 20.7 69.79 49.33 0.71 3.79 82.73 18.4 67.77 48.50 0.72 4.11 81.81 16.5 64.73 47.55 0.73 4.60 80.43 14.1 61.69 46.91 0.76 5.09 79.05 12.1 78.84 55.59 0.71 3.49 90.76 22.6 76.62 54.48 0.71 3.82 89.65 20.1 74.40 53.57 0.72 4.15 88.55 17.9 71.07 52.52 0.74 4.64 86.89 15.3 67.74 51.82 0.76 5.13 85.24 13.2 85.86 60.90 0.71 3.52 97.87 24.4 83.45 59.68 0.72 3.85 96.58 21.7 81.03 58.68 0.72 4.18 95.29 19.4 77.41 57.55 0.74 4.67 93.35 16.6 73.78 56.77 0.77 5.17 91.42 14.3 Units are complete packages containing compressor, reversing valve, expansion valve metering device, ECM fan motor and heat exchangers. Also included are safety controls: Overload protection for motors, high and low refrigerant pressure switches and solid state lock-out circuit. Optional UL approved internal electric heater, factory installed with primary thermal overload protection and magnetic contactors (208/230-1-nly) optional UL approved internal Heat Recovery Package and/or Ground Loop Pump with purge connections available. Performance based on ARI/ISO rated air flow, fluid flow and voltage. For conditions other than rated, consult the EAD selection software. Due to variations in installation actual performance may vary marginally from tabulated values. As a result of continuing research and development, specifications are subject to change without notice. AP071.2IP60 970-399 Rev: 07-12 HEATING Entering Entering Heat Fluid Air Total Power of Temp. Temp. Capacity Input Abs. COP ( o F) ( o F) (MBtuH) (kw) (MBtuH) 30 o 30 o 30 o MECHANICAL SPECIFICATIONS EFT Range (Standard) F to F LOW TEMP HEATING AP071 AQUARIUS II Refrigerant: R-410A Air Coil Square Rows Tube Fins/ Feet Deep O.D. Inch 7.5 3 3/8 14 Water Coil Type Work Press Coaxial 450 psig Blower Size Compr Type 12x 9 DD Scroll Net Weight Ship Weight 645 lbs 690 lbs FLUID PRESSURE DROP Fluid Pressure Flow Drop (GPM) (FOH) (PSIG) 8 2.5 1.1 12 3.6 1.6 16 4.3 1.9 18 6.9 3.0 22 8.2 3.6 77.31 4.74 61.12 4.8 86.25 5.00 69.17 5.0 95.20 5.27 77.22 5.3 104.14 5.53 85.28 5.5 73.10 4.83 56.62 4.4 81.55 5.09 64.16 4.7 90.00 5.36 71.70 4.9 98.45 5.63 79.25 5.1 68.15 4.93 51.32 4.0 76.02 5.21 58.26 4.3 83.89 5.48 65.20 4.5 91.76 5.75 72.14 4.7 Antifreeze Required 53.87 4.09 39.91 3.9 58.25 4.22 43.85 4.0 67.02 4.48 51.72 4.4 50.95 4.16 36.74 3.6 55.10 4.30 40.43 3.8 63.38 4.56 47.81 4.1 47.53 4.25 33.02 3.3 51.39 4.39 36.41 3.4 59.10 4.66 43.20 3.7 GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com

NOTES

GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com 970-399 Rev: 07-12

AP SERIES AP SERIES Table of Contents Model Nomenclature...1 Initial Inspection...2 General Description...2 Moving and Storage...2 Safety Considerations...2 Location...2 Installation...2 Condensate Drain...3 Duct System...3 Piping...3 Electrical...4 Thermostat Connections...4 Safety Devices & the UPM Controller...5 Electric Heater Package Option...6 Sequence of Operation Single Stage Units...7 Sequence of Operation Two-Stage Units...7 Well Water Systems...7 Installation of Pressure Regulating Valves...7 Cooling Tower / Boiler Application...7 Earth Coupled Systems...8 System Checkout...8 Unit Start-Up...8 Maintenance...8 Wiring Diagrams...9 Trouble Shooting...13 Unit Check Out...14 Operating Pressures & Temperatures...15 SERIES: AP-AQUARIUS II MODEL NOMENCLATURE A P 0 4 9-1 V T C - F L T NOMINAL CAPACITY: VOLTAGE DESIGNATION: 1-208/1/60 & 230/1/60 SUPPLY AIR LOCATION: T - TOP (VT ONLY) E - END BLOW (HZ ONLY) B - BOTTOM (CF ONLY) CABINET CONFIGURATION: VT - VERTICAL HZ - HORIZONTAL CF - COUNTERFLOW HEAT EXCHANGER MATERIAL: C - COPPER N - CUPRO-NICKEL RETURN AIR LOCATION: L - LEFT R - RIGHT B - BACK F - FRONT WATER CONNECTION LOCATION: F - FRONT

2 AP SERIES INITIAL INSPECTION: Be certain to inspect all cartons or crates on each unit as received at the job site before signing the freight bill. Verify that all items have been received and that there are no visible damages; note any shortages or damages on all copies of the freight bill. In the event of damage or shortage, remember that the purchaser is responsible for filing the necessary claims with the carrier. Concealed damages not discovered until after removing the units from the packaging must be reported to the carrier within 24 hours of receipt. GENERAL DESCRIPTION: These Water-to-Air Heat Pumps provide the best combination of performance and efficiency available. Safety devices are built into each unit to provide the maximum system protection possible when properly installed and maintained. The AP Water-to-Air Heat Pumps are Underwriters Laboratories (UL) and (cul) listed for safety. The water-to- Air Heat Pumps are designed to operate with entering fluid temperature between 20 F to 80 F in the heating mode and between 50 F to 110 F in the cooling mode. NOTE: 50 F Min. EWT for well water applications with sufficient water flow to prevent freezing. Antifreeze solution is required for all closed loop applications. Cooling Tower/Boiler and Earth Coupled (Geo Thermal) applications should have sufficient antifreeze solution to protect against extreme conditions and equipment failure. Frozen water coils are not covered under warranty. NOTE: This product should not be used for temporarily heating/cooling during construction. Doing so may effect the units warranty. MOVING AND STORAGE: If the equipment is not needed for immediate installation upon its arrival at the job site, it should be left in its shipping carton and stored in a clean, dry area. Units must only be stored or moved in the normal upright position as indicated by the "UP" arrows on each carton at all times. If unit stacking is required, stack units as follows: Vertical units less than 6 tons, no more than two high. Horizontal units less than 6 tons, no more than three high. "Do not stack units larger than 6 tons." SAFETY CONSIDERATIONS: Installation and servicing of this equipment can be hazardous due to system pressure and electrical components. Only trained and qualified personnel should install, repair, or service the equipment. Untrained personnel can perform basic functions of maintenance such as cleaning coils and replacing filters. WARNING: Before performing service or maintenance operations on the system, turn off main power to the unit. Electrical shock could cause personal injury or death. When working on equipment, always observe precautions described in the literature, tags, and labels attached to the unit. Follow all safety codes. Wear safety glasses and work gloves. Use a quenching cloth for brazing, and place a fire extinguisher close to the work area. LOCATION: Locate the unit in an indoor area that allows easy removal of the filter and access panels, and has enough room for service personnel to perform maintenance or repair. Provide sufficient room to make fluid, electrical, and duct connection(s). If the unit is located in a confined space such as a closet, provisions must be made for return air to freely enter the space. On horizontal units, allow adequate room below the unit for a condensate drain trap and do not locate the unit above supply piping. These units are not approved for outdoor installation; therefore, they must be installed inside the structure being conditioned. Do not locate in areas that are subject to freezing. INSTALLATION: NOTE: Remove all shipping blocks under blower housing. Loosen compressor mounting bolts. MOUNTING VERTICAL UNITS: Vertical units up to six tons are available in left, right, front, or rear air return configurations. Vertical units should be mounted level on a vibration absorbing pad slightly larger than the base to minimize vibration transmission to the building structure. It is not necessary to anchor the unit to the floor. (See Figure #1). MOUNTING HORIZONTAL UNITS: While horizontal units may be installed on any level surface strong enough to hold their weight, they are typically suspended above a ceiling by threaded rods. The rods are usually attached to the unit corners by hanger bracket kits (P/N 930-008). (See Figure #2). The rods must be securely anchored to the ceiling and be capable of supporting the unit weight. Refer to the hanging bracket assembly (Figure #1) VIBRATION PAD FULL SIZE and installation instructions included with the unit for details. Horizontal units installed above the ceiling must conform to all local codes. An auxiliary drain pan if required by code should be at least four inches larger than the bottom of the heat pump. Plumbing connected to the heat pump must not come in direct contact with joists, trusses, walls, etc. Some applications require an attic floor installation of the horizontal unit. In this case the unit should be set in a full size secondary drain pan on top of a vibration (Figure #2) absorbing mesh. The secondary drain pan prevents possible condensate overflow or water leakage damage to the ceiling. The

AP SERIES 3 secondary drain pan is usually placed on a plywood base isolated from the ceiling joists by additional layers of vibration absorbing mesh. In both cases, a 3/4" drain connected to this secondary pan should be run to an eave at a location that will be noticeable. If the unit is located in a crawl space, the bottom of the unit must be at least 4" above grade to prevent flooding of the electrical parts due to heavy rains. CONDENSATE DRAIN: NOTE: If equipped with float style condensate overflow switch, final adjustment must be made in the field. A drain line must be connected to the heat pump and pitched away from the unit a minimum of 1/8" per foot to allow the condensate to flow away from the unit. (Figure #3) This connection must be in conformance with local plumbing codes. A trap must be installed in the condensate line to insure free condensate flow. (Heat Pumps are not internally trapped). A vertical air vent is sometimes required to avoid air pockets. (See Figure #3). The length of the trap depends on the amount of positive or negative pressure on the drain pan. A second trap must not be included. (Figure #4) The horizontal unit should be pitched approximately 1/4" towards the drain in both directions, to facilitate condensate removal. (See Figure #4) DUCT SYSTEM: A supply air outlet collar and return air duct flange are provided on all units to facilitate duct connections. Refer to the individual data specification sheet for physical dimensions of the collar and flange. A flexible connector is recommended for supply and return air duct connections on metal duct systems. All metal ducting should be insulated with a minimum of one inch duct insulation to avoid heat loss or gain and prevent condensate forming during the cooling operation. Application of the unit to uninsulated duct work is not recommended as the unit s performance will be adversely affected. Do not connect discharge ducts directly to the blower outlet. The factory provided air filter must be removed when using a filter back return air grill.the factory filter should be left in place on a free return system. If the unit will be installed in a new installation which includes new duct work, the installation should be designed using current ASHRAE procedures for duct sizing. If the unit is to be connected to existing ductwork, a check should be made to assure that the duct system has the capacity to handle the air required for the unit application. If the duct system is too small, larger ductwork should be installed. Check for existing leaks and repair. The duct system and all diffusers should be sized to handle the designed air flow quietly. To maximize sound attenuation of the unit blower, the supply and return air plenums should be insulated. There should be no direct straight air path thru the return air grille into the heat pump. The return air inlet to the heat pump must have at least one 90 degree turn away from the space return air grille. If air noise or excessive air flow are a problem, the blower speed can be changed to a lower speed to reduce air flow. (Refer to ECM motor interface board section in this manual and Figure #7) PIPING: Supply and return piping must be as large as the unit connections on the heat pump (larger on long runs). Never use flexible hoses of a smaller inside diameter than that of the fluid connections on the unit. AP units are supplied with either a copper or optional cupro-nickel condenser. Copper is adequate for ground water that is not high in mineral content. Should your well driller express concern regarding the quality of the well water available or should any known hazards exist in your area, we recommend proper testing to assure the well water quality is suitable for use with water source equipment. In conditions anticipating moderate scale formation or in brackish water a cupro-nickel heat exchanger is recommended. Both the supply and discharge water lines will sweat if subjected to low water temperature. These lines should be insulated to prevent damage from condensation. All manual flow valves used in the system must be ball valves. Globe and gate valves must not be used due to high pressure drop and poor throttling characteristics. Never exceed the recommended water flow rates as serious damage or erosion of the water to refrigerant heat exchanger could occur. Always check carefully for water leaks and repair appropriately. Units are equipped with female pipe thread fittings. Consult the specification sheets for sizes. Teflon tape sealer should be used when connecting water piping connections to the units to insure against leaks and possible heat exchanger fouling. Do not overtighten the

4 AP SERIES connections. Flexible hoses should be used between the unit and the rigid system to avoid possible vibration. Ball valves should be installed in the supply and return lines for unit isolation and unit water flow balancing. ELECTRICAL: (Refer to electrical component box layout, Figure #5) Field wiring must comply with local and national electric codes. Power to the unit must be within the operating voltage range indicated on the unit nameplate or on the performance data sheet. On three phase units (single stage units only) phases must be balanced within 2%. CAUTION: Operation of unit on improper line voltage or with excessive phase imbalance will be hazardous to the unit, constitutes abuse and may void the warranty. Properly sized fuses or HACR circuit breakers must be installed for branch circuit protection. See unit nameplate for maximum fuse or breaker size. The unit is provided with a concentric knock-out in the front left corner post for attaching common trade sizes of conduit, route power supply wiring through this opening. Always connect the ground lead to the grounding lug provided in the control box and power leads to the power supply terminal block as indicated on the wiring diagram and Figure #5. (Figure #5) Electrical Box Component Layout NOTE: Units supplied with internal electric heat require two (2) separate power supplies: one for the unit compressor and one for the electric heater elements, blower motor and control circuit. Refer to the ELECTRIC HEATER PACKAGE OPTION section and Figure #9 for wiring instructions, minimum circuit ampacities and maximum fuse/breaker sizing. ECM INTERFACE BOARD: (Figure #6) THERMOSTAT CONNECTIONS: Thermostat wiring is connected to the 10 pin screw type terminal block on the lower center portion of the ECM Interface Board. In addition to providing a connecting point for thermostat wiring, the interface board also translates thermostat inputs into control commands for the variable speed programmable ECM DC fan motor and displays an LED indication of operating status. The thermostat connections and their functions are as follows: Y2 Y1 G O W1 EM/W2 NC C1 R HUM Second Stage Compressor Operation First Stage Compressor Operation Fan Reversing Valve (energized in cooling) Auxiliary Electric Heat (runs in conjunction with compressor) Emergency Heat (electric heat only) Transformer 24 VAC Common (extra connection) Transformer 24 VAC Common (primary connection) Transformer 24 VAC Hot Dehumidification Mode If the unit is being connected to a thermostat with a malfunction light, this connection is made at the unit malfunction output or relay. Single & Two Step

AP SERIES 5 NOTE: If the thermostat is provided with a malfunction light powered off of the common (C) side of the transformer, the unit must be provided with a malfunction relay ( option # 660-006) to properly energize the light. The relay coil will be wired across the (ALR) and (C) contacts on the unit s UPM board and the relay s normally open contacts across (ALR) and the malfunction light connection on the thermostat. If the thermostat is provided with a malfunction light powered off of the hot (R) side of the transformer, then the thermostat malfunction light connection should be connected directly to the (ALR) contact on the unit s UPM board. NOTE: Do not set the ADJ jumper to the (-) setting when electric heaters are installed. Doing so may cause the heaters to cycle on their thermal overload switches, potentially shortening the life of the switches. The other three sets of jumper pins are used to select the proper program in the ECM motor for the unit. Refer to Figure #7 for the proper jumper placement. NOTE: Always disconnect power before changing jumper positions on the interface board and reset the unit afterward. (Figure #7) To the left of the thermostat connection block are a row of 2 red and 4 green LED s. These LED s indicate the operating status of the unit. They are labeled as follows: EM (red) Emergency Heat On W1 (red) Auxiliary Heat On O (green) Reversing Valve Energized, unit is in cooling mode Y2 (green) Second Stage Compressor On Y1 (green) First Stage Compressor On G (green) Fan On Just above the connector block is a single red LED labeled CFM that will blink intermittently when the unit is running and may flicker when the unit is off. This LED indicates the air delivery of the blower at any given time. Each blink of the LED represent 100 CFM of air delivery so if the LED blinks 12 times, pauses, blinks 12 times, etc. the blower is delivering 1200 CFM. Refer to Figure #7 for factory programmed air delivery settings for the ES Series. To the right of the thermostat connection block is a green LED labeled dehumidify. Just above and to the right of the thermostat connection block are four sets of jumper pins labeled ADJ, DELAY, HEAT and COOL. The ADJ set of pins are labeled NORM, (+), (-) and TEST. AP units will all be set on the NORM position from the factory, however, airflow can be increased (+) or decreased (-) by 15% from the pre-programmed setting by relocating the jumper in this section. The TEST position is used to verify proper motor operation. If a motor problem is suspected, move the ADJ jumper to the TEST position and energize G on the thermostat connection block. If the motor ramps up to 100% power, then the motor itself is functioning normally. Always remember to replace the jumper to NORM, (+) or (-) after testing and reset the unit thermostat to restore normal operation. MOTOR PROFILE AIR FLOW TABLE CFM TWO STAGE UNITS FAN Y1 Y2 AUX. EMERG. PLUS MINUS TAP MODEL ONLY COOL/HEAT COOL/HEAT HEAT HEAT ADJ ADJ COOL/HEAT/DELAY AP025 600 750 950 950 950 1090 800 A AP035 900 1000 1200 1200 1200 1400 1000 A AP049 1200 1300 1700 1700 1700 1950 1450 B AP061 1300 1500 2000 2000 2000 2100 1900 A AP071 1300 1500 2100 2100 2100 2300 1900 A To the left of the red and green status LED s is a row of 1/4 male quick connects. These are used to pass thermostat inputs on to the rest of the control circuit. Remember to always turn off unit power at the circuit breaker before attaching or disconnecting any wiring from these connections to avoid accidental short circuits that can damage unit control components. SAFETY DEVICES AND THE UPM CONTROLLER Each unit is factory provided with a Unit Protection Module (UPM) that controls the compressor operation and monitors the safety controls that protect the unit. Safety controls include the following: High pressure switch located in the refrigerant discharge line and wired across the HPC terminals on the UPM Low pressure switch located in the unit refrigerant suction line and wired across terminals LPC1 and LPC2 on the UPM. Optional freeze protection sensor, mounted close to condensing water coil, monitors refrigerant temperature between condensing water coil and thermal expansion valve. If temperature drops below or remains at freeze limit trip for 30 seconds, the controller will shut down the compressor and enter into a soft lockout condition. The default freeze limit trip is 30 F, however this can be changed to 15 F by cutting the R42 resistor located on top of DIP switch SW1. The condensate overflow protection sensor is located in the drain pan of the unit and connected to the COND terminal on the UPM board. NOTE: If freeze protection sensor is not installed, a jumper between freeze contacts must be installed on the UPM board otherwise unit will not start. The UPM includes the following features: ANTI-SHORT CYCLE TIME 5 minute delay on break timer to prevent compressor short cycling. RANDOM START Each controller has a unique random start delay ranging from 270 to 300 seconds to reduce the chances of multiple units simultaneously starting after initial power up or after a power interruption, creating a large electrical spike. LOW PRESSURE BYPASS TIMER If the compressor is running and the low pressure switch opens, then the control will keep the compressor on for 120 seconds.

6 AP SERIES Freeze Protection Sensor produced and a fault code is detected by a remote device indicating the fault. See L.E.D. Fault Indication below for blink code explanations. The remote device must have a malfunction detection capability when the UPM board is set to PULSE. TEST DIP SWITCH A test dip switch is provided to reduce all time delay settings to 10 seconds during troubleshooting or verification of unit operation. Note that operation of the unit while in test mode can lead to accelerated wear and premature failure of the unit. The TEST switch must be set back to NO for normal operation. FREEZE SENSOR The freeze sensor input is active all the time, if a freeze option is not selected the freeze terminals will need a jumper. There are 2 configurable freeze points, 30 F & 15 F. The unit will enter a soft lock out until the temperature climbs above the set point and the anti-short cycle time delay has expired. The freeze sensor will shut the compressor output down after 90 seconds of water flow loss and report a freeze condition. It is recommended to have a flow switch to prevent the unit from running if water flow is lost. Freeze Protection Sensor After 2 minutes if the low pressure switch remains open, the control will shut down the compressor and enter a soft lockout. The compressor will not be energized until the low pressure switch closes and the anti-short cycle time delay expires. If the low pressure switch opens 2 4 times in 1 hour, the unit will enter a hard lock out and need to be reset. BROWNOUT/SURGE/POWER INTERRUPTION PROTECTION The brownout protection in the UPM board will shut down the compressor if the incoming power falls below 18 VAC. The compressor will remain off till the voltage goes above 18 VAC and the anti short cycle timer (300 seconds) times out. The unit will not go into a hard lockout. MALFUNCTION OUTPUT Alarm output is Normally Open (NO) dry contact. If 24 VAC output is needed R must be wired to the ALR-COM terminal; 24VAC will be available on the ALR-OUT terminal when the unit is in alarm condition. If pulse is selected the alarm output will be pulsed. The fault output will depend on the dip switch setting for ALARM. If it set to CONST, a constant signal will be produced to indicate a fault has occurred and the unit requires inspection to determine the type of fault. If it is set to PULSE, a pulse signal is NOTE: If unit is employing a fresh water system (no antifreeze protection), it is extremely important to have the Freeze jumper R42 resistor set to 30 F in order to shut down the unit at the appropriate leaving water temperature and protect your heat pump from freezing if a freeze sensor is included. L.E.D. FAULT INDICATION Two L.E.D. indicators are provided: Green: Power L.E.D. indicates 18 30 VAC present at the board. Red: Fault indicator with blink codes as follows: - One blink High pressure lockout - Two blinks Low pressure lockout - Three blinks Freeze sensor lockout - Four blinks Condensate overflow - Five blinks Brownout INTELLIGENT RESET If a fault condition is initiated, the 5 minute delay on break time period is initiated and the unit will restart after these delays expire. During this period the fault LED will indicate the cause of the fault. If the fault condition still exists or occurs 2 or 4 times (depending on 2 or 4 setting for Lockout dip switch) before 60 minutes, the unit will go into a hard lockout and requires a manual lockout reset. A single condensate overflow fault will cause the unit to go into a hard lockout immediately, and will require a manual lockout reset. LOCKOUT RESET A hard lockout can be reset by turning the unit thermostat off and then back on when the RESET dip switch is set to Y or by shutting off unit power at the circuit breaker when the RESET dip switch is set to R.

AP SERIES 7 NOTE: The blower motor will remain active during a lockout condition. UPM BOARD DEFAULT SETTINGS Your UPM board will come from the factory with the following default settings: Freeze Terminals not jumped on all the time Temp 30 F Lockout 2 Reset Y Alarm PULSE Test NO Dry Contact Normally Open (NO) CONSIDERATIONS 1. Always check incoming line voltage power supply and secondary control voltage for adequacy. Transformer primaries are dual tapped for 208 and 230 volts. Connect the appropriate tap to ensure a minimum of 18 volts secondary control voltage. 24 volts is ideal for best operation. 2. Long length thermostat and control wiring leads may create voltage drop. Increase wire gauge or up-size transformers may be required to insure minimum secondary voltage supply. 3. FHP recommends the following guidelines for wiring between a thermostat and the unit: 18 GA up to 60 foot, 16 GA up to 100 ft and 14 GA up to 140 ft. 4. Do not apply additional controlled devices to the control circuit power supply without consulting the factory. Doing so may void equipment warranties. 5. Check with all code authorities on requirements involving condensate disposal/over flow protection criteria. SEQUENCE OF OPERATION Cooling Mode See Typical Wiring Diagram page 24. Energizing the O terminal energizes the unit reversing valve in the cooling mode. The fan motor starts when the G terminal is energized. When the thermostat calls for cooling (Y), the loop pump or solenoid valve if present is energized and compressor will start. Once the thermostat is satisfied, the compressor shuts down accordingly and the fan ramps down to either fan only mode or off over a span of 30 seconds (ECM Motors). Note that a fault condition initiating a lockout will deenergize the compressor. Heating Mode Heating operates in the same manner as cooling, but with the reversing valve de-energized. The compressor will run until the desired setpoint temperature on the thermostat is achieved. Once the thermostat is satisfied, the compressor shuts down and the fan ramps down in either fan only mode or turns off over a span of 30 seconds. Auxiliary electric heating coils are not available on the AP product line. UNIT OPTIONS HOT GAS REHEAT (HGR) Hot gas reheat allows the user to not only control space temperature, but also humidity levels within the conditioned space. An excess of moisture in the space can allow mold growth leading to damage in the structure or interior surfaces as well as reducing the air quality and creating an unhealthy environment. The typical control of a unit is by a thermostat that senses the temperature in the space. By utilizing a humidistat in addition to the thermostat we are able to monitor the humidity levels in the space as well. The HGR option allows cooling and dehumidification to satisfy both the thermostat and humidistat.

8 AP SERIES UPM Sequence of Operation (SOO) Flow Chart Y1=1 NO YES Power/Switchs/Sensor Status Check V > 18VAC YES NO Lockout Can Be Set To 4 Via Dip Switch HPC = 1 NO Blink Code On Status LED Soft Lockout Record Alarm Start Counter (If Applicable) COUNT = 2 NO YES YES YES LPC = 1 NO Start Timer TIME > 120 SEC YES NO FRZ > TEMP LIM NO Start Timer TIME > 30 SEC YES CC Output = Off YES CON > 0 NO NO Blink Code On Status LED Report Alarm Fault Hard Lockout ALR Output = On/Pulse YES INITIAL POWER UP YES NO Start Anti Short Cycle Start Random Start Up NO T > ASC OR RS SEC YES CC Output = On

AP SERIES 9 ELECTRIC HEATER PACKAGE OPTION: Factory or field installed internal electric heater packages are available for all Aquarius II series units. Two power supplies are required when heater packages are utilized. The power supply for the heater package (located in the electric heater package control box) provides power for the heater elements, the blower motor and the control circuit for the unit. The power supply for the unit provides power for the compressor. This allows the electric heaters to continue to operate along with the blower motor in the case of unit compressor and/or compressor power supply failure. See HP Series Heater Kit Instructions for field installation. Each Aquarius II model has a number of heater sizes available. Refer to Figure #9 for heater package compatibility with specific Aquarius II units, model nomenclature and electrical data. SEQUENCE OF OPERATION-TWO STAGE UNITS: (Figure #13 Wire Schematic) COOLING MODE: Energizing the O terminal energizes the unit reversing valve in the cooling mode. The fan motor starts when the G terminal is energized. Note that the fan motor will take 30 seconds to ramp up to operating speed and will run at fan only rated air flow as long as there is no call for compressor or heater operation. When the thermostat calls for first stage cooling (Y1) the loop pump or solenoid valve if present is energized and the first stage of compressor capacity starts. The fan ramps up to first stage cooling air flow in 30 seconds. When the thermostat calls for second stage cooling (Y2) the second stage (or full compressor capacity) is initiated. The fan ramps up to full cooling air flow. Once the thermostat is satisfied, the compressor shuts down accordingly and the fan ramps down to either fan only mode or off over a span of 30 seconds. Note that a fault condition initiating a lockout will deenergize the compressor irrespective of which stage is engaged. HEATING MODE: The first two stages of heating (Y1 & Y2) operate in the same manner as cooling, but with the reversing valve deenergized. On a call for auxiliary heat (W1), the fan ramps up to auxiliary heat air flow immediately and the electric heater package is energized along with the compressor. As the thermostat is satisfied, the heaters will shut off as soon as W1 is de-energized, and the compressors will remain on until the thermostat stages are satisfied. Note that if the unit compressor lock out for any reason at this time, the electric heaters will continue to function normally. Once the thermostat is satisfied, the compressor shuts down and the fan ramps down either fan only mode or off over a span of 30 seconds. If emergency heat (W2/EM) is called for, the fan will ramp up to emergency heat air flow immediately and the heater package will energize in emergency heat mode, all heater elements coming on. On shut down the fan will ramp down over a period of 30 seconds. (Figure #9) AQUARIUS II HEATER KW HEATER CIRCUIT MCA MAX AWG MODEL MODEL AMPS FUSE MIN 208V 240V 208V 240V 208V 240V AP025 thru 035 HP050-1XS 4.8 17.3 20.0 L1/L2 27.1 30.4 30 30 8 AP049 thru 071 HP050-1XM 4.8 17.3 20.0 L1/L2 27.1 30.4 30 30 8 AP025 thru 035 HP075-1XS 7.2 23.6 30.0 L1/L2 34.9 42.9 40 45 8 AP049 thru 071 HP075-1XM 7.2 23.6 30.0 L1/L2 35.7 43.8 40 45 8 AP025 thru 035 HP100-1XS 9.6 34.7 40.0 L1/L2 48.8 55.4 50 60 6 AP049 thru 071 HP100-1XM 9.6 34.7 40.0 L1/L2 49.5 56.3 50 60 6 AP049 thru 071 HP150-1XM 14.4 52.0 60.0 SINGLE 71.2 81.3 80 90 4 HP150-1XM 14.4 34.7 40.0 L1/L2 49.5 56.3 60 60 6 17.3 20.0 L3/L4 21.7 25.0 25 25 10 AP049 thru 071 HP200-1XM 19.2 69.3 80.0 SINGLE 92.9 106.3 100 110 2 HP200-1XM 19.2 34.7 40.0 L1/L2 49.5 56.3 50 60 6 34.7 40.0 L3/L4 43.4 50.0 45 50 6 All heaters rated single phase 60 Hz, and include unit fan load. All fuses type D time delay or HACR type breaker or HRC FORM 1 Wire size based on 60 deg. C copper conductors.

10 AP SERIES WELL WATER SYSTEMS: (Figure #10) Copper is adequate for ground water that is not high in mineral content. Should your well driller express concern regarding the quality of the well water available or should any known hazards exist in your area, we recommend proper testing to assure the well water quality is suitable for use with water source equipment. In conditions anticipating moderate scale formation or in brackish water a cupro-nickel heat exchanger is recommended. In well water applications water pressure must always be maintained in the heat exchanger. This can be accomplished with either control valve or a bladder type expansion tank. When using a single water well to supply both domestic water and the heat pump care must be taken to insure that the well can provide sufficient flow for both. In well water applications a slow closing solenoid valve must be used to prevent water hammer. Solenoid valves should be connected across Y1 and C1 on the interface board for all. Make sure that the VA draw of the valve does not exceed the contact rating of the thermostat. INSTALLATION OF PRESSURE REGULATING VALVES: Pressure regulating valves are used to increase or decrease water flow through the heat pump in response to refrigerant pressure. In some cases more water may be required in heating than in cooling, or vice versa. With the Aquarius II heat pumps these valves are not required. However, if installed, a pair of valves are required for proper operation, one valve for cooling (direct acting) and another valve for heating (indirect acting). A refrigerant tap is provided in the refrigerant line located between the reversing valve and the water-to-refrigerant heat exchanger for proper monitoring of the refrigerant pressures. The discharge water from the heat pump is not contaminated in any manner and can be disposed of in various ways depending on local building codes (i.e. discharge well, dry well, storm sewer, drain field, stream or pond, etc.) Most local codes forbid the use of a sanitary sewer for disposal. Consult your local building and zoning department to insure compliance in your area. COOLING TOWER/BOILER SYSTEMS: (Figure #11) The cooling tower and boiler water loop temperature is usually maintained between 50 F to 100 F to assure adequate cooling and heating performance. In the cooling mode, heat is rejected from the unit into the water loop. A cooling tower provides evaporative cooling to the loop water thus maintaining a constant supply temperature to the unit. When utilizing open cooling towers, chemical water treatment is mandatory to ensure the water is free from corrosive elements. A secondary heat exchanger (plate frame) between the unit and the open cooling tower may also be used. It is imperative that all air be eliminated from the closed loop side of the heat exchanger to insure against fouling. In the heating mode, heat is absorbed from the water loop. A boiler can be utilized to maintain the loop at the desired temperature. CAUTION: Water piping exposed to extreme low ambient temperatures is subject to freezing. Consult the specification sheets for piping sizes. Teflon tape sealer should be used when connecting to the unit to insure against leaks and possible heat exchanger fouling. Do not overtighten the connections. Flexible hoses should be used between the unit and the rigid system to avoid possible vibration. Ball valves should be installed in the supply and return lines for unit isolation and unit water flow balancing. Pressure/temperature ports are recommended in both supply and return lines for system flow balancing. Water flow can be accurately set by measuring the water-torefrigerant heat exchangers water side pressure drop. See specification sheets for water flow vs. pressure drop information. No unit should be connected to the supply or return piping until the water system has been completely cleaned and flushed to remove any dirt, piping chips or other foreign material. Supply and return hoses should be connected together during this process to ensure the entire system is properly flushed. After the cleaning and flushing has taken place the unit may be connected to the water loop and should have all valves wide open. EARTH COUPLED SYSTEMS: (Figure #12) Closed loop and pond applications require specialized design knowledge. No attempt at these installations should be made unless the dealer has received specialized training. Utilizing a Ground Loop Pumping Package (GLP), makes the installation easy. Anti-freeze solutions are utilized when low evaporating conditions are expected to occur. Refer to the GLP installation manuals for more specific instructions. SYSTEM CHECKOUT: After completing the installation, and before energizing the unit, the following system checks should be made: Verify that the supply voltage to the heat pump is in accordance with the nameplate ratings. Make sure that all electrical connections are tight and secure. Check the electrical fusing and wiring for the correct size. Verify that the low voltage wiring between the thermostat and the unit is correct. Verify that the water piping is complete and correct. Check that the water flow is correct, and adjust if necessary. Check the blower for free rotation, and that it is secured to the shaft. Verify that vibration isolation has been provided. Unit is serviceable. Be certain that all access panels are

AP SERIES 11 secured in place. UNIT START-UP: 1. Set the thermostat to the highest setting. 2. Set the thermostat system switch to "COOL", and the fan switch to the "AUTO" position. The reversing valve solenoid should energize. The compressor and fan should not run. 3. Reduce the thermostat setting approximately 5 degrees below the room temperature. 4. Verify the heat pump is operating in the cooling mode. 5. Turn the thermostat system switch to the "OFF" position. The unit should stop running and the reversing valve should deenergize. 6. Leave the unit off for approximately (5) minutes to allow for system equalization. 7. Turn the thermostat to the lowest setting. 8. Set the thermostat switch to "HEAT". 9. Increase the thermostat setting approximately 5 degrees above the room temperature. 10. Verify the heat pump is operating in the heating mode. 11. Set the thermostat to maintain the desired space temperature. 12. Check for vibrations, leaks, etc... MAINTENANCE: 1. Filter changes or cleanings are required at regular intervals. The time period between filter changes will depend upon type of environment the equipment is used in. In a single family home, that is not under construction, changing or cleaning the filter every 60 days is sufficient. In other applications such as motels, where daily vacuuming produces a large amount of lint, filter changes may be need to be as frequent as biweekly. WARNING: Equipment should never be used during construction due to likelihood of wall board dust accumulation in the air coil of the equipment which permanently affects the performance and may shorten the life of the equipment. 2. An annual checkup is recommended by a licensed refrigeration mechanic. Recording the performance measurements of volts, amps, and water temperature differences (both heating and cooling) is recommended. This data should be compared to the information on the unit s data plate and the data taken at the original startup of the equipment. 3. Lubrication of the blower motor is not required, however may be performed on some motors to extend motor life. Use SAE-20 non-detergent electric motor oil. 4. The condensate drain should be checked annually by cleaning and flushing to insure proper drainage. 5. Periodic lockouts almost always are caused by air or water flow problems. The lockout (shutdown) of the unit is a normal protective measure in the design of the equipment. If continual lockouts occur call a mechanic immediately and have them check for: water flow problems, water temperature problems, air flow problems or air temperature problems. Use of the pressure and temperature charts for the unit may be required to properly determine the cause.

12 AP SERIES (Figure #10) WELL WATER APPLICATIONS (50 F EWT MIN.) 1. LINE VOLTAGE DISCONNECT (UNIT) 2. FLEX DUCT CONNECTION 3. LOW VOLTAGE CONTROL CONNECTION 4. LINE VOLTAGE CONNECTION 5. VIBRATION PAD 6. P/T PORTS 7. HOSE KITS (Optional) 8. BALL VALVES 9. SOLENOID VALVE SLOW CLOSING 10. CONDENSATE DRAIN CONNECTION 11. PRESSURE TANK (Optional) 12. LINE VOLTAGE DISCONNECT (ELECTRIC HEATER) NOTE: SEE FIGURE #3 FOR CONDENSATE DRAIN CONNECTION

AP SERIES 13 COOLING TOWER/BOILER APPLICATION 1. LINE VOLTAGE DISCONNECT (UNIT) 2. LOW VOLTAGE CONTROL CONNECTION 3. P/T PLUGS (Optional) 4. HOSE KITS (Optional) 5. BALL VALVES 6. SUPPLY AND RETURN LINES OF CENTRAL SYSTEM 7. FLEX DUCT CONNECTION 8. HANGING BRACKETS ASSEMBLY 9. THREADED ROD 10. HANGING BRACKET ASSEMBLY NOTE: SEE FIGURE #3 FOR CONDENSATE DRAIN CONNECTION (Figure #11)

14 AP SERIES EARTH COUPLED APPLICATION 1. LINE VOLTAGE DISCONNECT (UNIT) 2. FLEX DUCT CONNECTION 3. LOW VOLTAGE CONTROL CONNECTION 4. LINE VOLTAGE CONNECTION (UNIT) 5. P/T PORTS 6. VIBRATION PAD 7. CONDENSATE DRAIN 8. GROUND LOOP CONNECTION KIT (555-000,001) 9. GROUND LOOP PUMPING PACKAGE (GL001-1 or 002-1) 10. POLYETHELENE WITH INSULATION 11. LINE VOLTAGE DISCONNECT (ELECTRIC HEATER) NOTE: SEE FIGURE #3 FOR CONDENSATE DRAIN CONNECTION (Figure #12)

AP SERIES 15 CONNECT TO GEOEXCEL AIR HANDLING UNIT

16 AP SERIES CONNECT TO GEOEXCEL AIR HANDLING UNIT (Figure #13)

AP SERIES TROUBLE SHOOTING 17 PROBLEM POSSIBLE CAUSE CHECKS AND CORRECTIONS ENTIRE UNIT DOES NOT RUN Power supply off Blown fuse Voltage supply low Thermostat Apply power, close disconnect Replace fuse or reset circuit breaker. Check for correct fuses. If voltage is below minimum voltage specified on unit data plate, contact local power company. Set the fan to "ON", the fan should run. Set thermostat to "COOL" and lowest temperature setting, the unit should run in the cooling mode (reversing valve energized). Set unit to "HEAT" and the highest temperature setting, the unit should run in the heating mode. If neither the blower or compressor run in all three cases, the thermostat could be miswired or faulty.to ensure miswired or faulty thermostat verify 24 volts is available on the condensing section low voltage terminal strip between "R" and "C", "Y" and "C", and "O" and "C". If the blower does not operate, verify 24 volts between terminals "G" and "C" in the air handler. Replace the thermostat if defective. BLOWER OPERATES BUT COMPRESSOR DOES NOT UNIT OFF ON HIGH PRESSURE CONTROL UNIT OFF ON LOW PRESSURE CONTROL UNIT SHORT CYCLES INSUFFICIENT COOLING OR HEATING Thermostat Wiring Safety controls Compressor overload open Compressor motor grounded Compressor windings open Discharge pressure too high Refrigerant charge High pressure Suction pressure too low Refrigerant charge Low pressure switch Unit oversized Thermostat Wiring and controls Unit undersized Loss of conditioned air by leaks Airflow Refrigerant charge Compressor Reversing valve Operating pressures TXV Moisture, noncondensables Check setting, calibration, and wiring. Check for loose or broken wires at compressor, capacitor, or contactor. Check UPM board red default L.E.D. for Blink Code If the compressor is cool and the overload will not reset, replace compressor. Internal winding grounded to the compressor shell. Replace compressor. If compressor burnout, install suction filter dryer. After compressor has cooled, check continuity of the compressor windings. If the windings are open, replace the compressor. In "COOLING" mode: Lack of or inadequate water flow. Entering water temperature too warm. Scaled or plugged condenser. In "HEATING" mode: Lack of or inadequate air flow. Blower inoperative, clogged filter or restrictions in ductwork. The unit is overcharged with refrigerant. Reclaim refrigerant, evacuate and recharge with factory recommended charge. Check for defective or improperly calibrated high pressure switch. In "COOLING" mode: Lack of or inadequate air flow. Entering air temperature too cold. Blower inoperative, clogged filter, or restrictions in ductwork. In "HEATING" mode: Lack of or inadequate water flow. Entering water temperature too cold. Scaled or plugged condenser. The unit is low on refrigerant. Check for refrigerant leak, repair, evacuate and recharge with factory recommended charge. Check for defective or improperly calibrated low pressure switch. Recalculate heating and or cooling loads. Thermostat installed near a supply air grill, relocate thermostat. Readjust heat anticipator. Loose connections in the wiring or a defective compressor contactor. Recalculate heating and or cooling loads. If excessive, possibly adding insulation and shading will rectify the problem. Check for leaks in duct work or introduction of ambient air through doors or windows. Lack of adequate air flow or improper distribution of air. Replace dirty filter. Low on refrigerant charge causing inefficient operation. Check for defective compressor. If discharge is too low and suction pressure is too high, compressor is not pumping properly. Replace compressor. Defective reversing valve creating bypass of refrigerant from discharge to suction side of compressor. Replace reversing valve. Compare unit operating pressures to the pressure / temperature chart for the unit. Check TXV for possible restriction or defect. Replace if necessary. The refrigerant system may be contaminated with moisture or noncondensables. Reclaim refrigerant, evacuate and recharge with factory recommended charge. Note: a liquid line dryer may be required.

18 AP SERIES UNIT CHECK-OUT SHEET Customer Data Customer Name Address Phone Date Unit Number Unit Nameplate Data Unit Make Model Number Serial Number Refrigerant Charge (oz) Compressor: RLA LRA Blower Motor: FLA (or NPA) HP Maximum Fuse Size (Amps) Minimum Circuit Ampacity (Amps) Operating Conditions Cooling Mode Heating Mode Entering / Leaving Air Temp / / Entering Air Measured at: Leaving Air Measured at: Entering / Leaving Fluid Temp / / Compressor Volts / Amps / / Blower Motor Volts / Amps / / Fluid Flow (gpm)* Fluid Side Pressure Drop* Suction / Discharge Pressure (psig)* / / Suction / Discharge Temp* / / Suction Superheat* Entering TXV / Cap Tube Temp* Liquid Subcooling* * Required for Troubleshooting ONLY Auxiliary Heat Unit Make Model Number Max Fuse Size (Amps) Volts / Amps / Entering Air Temperature Leaving Air Temperature Serial Number

AP SERIES Operating Pressures & Temperatures Environmentally Safe R-410A Refrigerant 19 COOLING OPERATING DATA HEATING ENTERING WATER SUCTION DISCHARGE WATER AIR SUCTION DISCHARGE WATER AIR MODEL WATER FLOW PRESSURE PRESSURE TEMP TEMP PRESSURE PRESSURE TEMP TEMP TEMP. F GPM PSIG PSIG RISE F DROP F PSIG PSIG DROP F RISE F AP025 Part Load AP025 Full Load AP035 Part Load 30 40 50 60 70 80 90 100 30 40 50 60 70 80 90 100 30 40 50 60 70 80 90 100 4 75-91 264-322 5-6 15-17 8 79-96 270-331 3-4 16-18 4 120-146 186-228 14-17 18-21 88-107 277-339 6-7 17-20 8 115-140 175-214 8-9 19-23 92-112 284-348 4-5 18-21 4 129-157 218-267 14-17 18-20 98-122 291-356 7-8 20-23 8 124-151 204-250 8-9 19-22 110-130 298-364 5-6 21-24 4 134-163 249-305 13-16 17-20 112-136 304-372 8-10 22-26 8 128-156 233-287 8-9 18-21 117-143 312-381 6-7 23-28 4 138-168 281-341 13-16 17-19 124-152 318-389 9-11 24-29 8 133-161 263-323 7-9 18-21 131-159 325-398 6-8 26-31 4 143-174 317-388 13-16 16-19 136-166 331-405 11-13 27-32 8 137-167 297-366 7-9 17-20 143-174 339-415 7-9 28-33 4 147-179 357-437 13-16 16-18 149-181 345-422 12-14 29-35 8 141-172 335-411 7-9 17-20 156-190 352-432 8-10 31-37 4 151-185 402-492 13-15 15-18 8 146-177 378-459 7-9 16-19 4 76-92 242-297 3-4 13-14 8 80-97 249-304 2-3 13-15 4 125-151 180-221 14-18 19-22 89-108 255-312 4-5 15-17 8 120-146 169-207 8-10 20-23 93-113 261-320 3-3 16-18 4 134-163 211-258 14-18 18-21 106-118 267-327 5-6 17-19 8 129-157 198-242 8-10 19-23 104-112 274-335 3-4 18-21 4 139-169 241-295 14-17 18-21 113-138 280-342 6-7 19-22 8 134-163 227-278 8-10 19-22 119-145 287-351 4-5 20-23 4 144-175 272-333 14-17 17-20 126-155 292-358 7-8 21-24 8 138-168 255-313 8-10 18-21 133-162 300-367 5-6 22-26 4 148-181 307-375 14-17 17-19 138-168 305-373 8-9 23-27 8 143-174 288-353 8-10 18-21 145-177 312-382 5-6 24-29 4 153-186 346-423 14-17 16-19 151-184 317-388 8-10 25-29 8 147-179 325-398 8-9 17-20 158-193 325-398 6-7 26-31 4 158-191 389-477 13-16 16-18 8 152-185 366-448 8-9 17-20 4.5 73-89 266-325 5-6 15-18 9.0 77-94 272-333 3-4 16-19 4.5 117-143 189-231 14-17 18-22 86-105 279-341 6-7 17-21 9.0 112-137 178-217 8-9 19-24 90-110 286-350 4-5 18-22 4.5 126-154 221-270 14-17 18-21 105-125 293-358 7-8 20-24 9.0 121-148 207-253 8-9 19-23 170-208 300-366 5-6 21-25 4.5 131-160 252-308 13-16 17-21 110-134 306-374 8-10 22-27 9.0 125-153 237-290 8-9 18-22 115-141 314-383 6-7 23-29 4.5 135-165 284-347 13-16 17-20 122-150 320-391 9-11 24-30 9.0 130-158 266-326 7-9 18-22 129-157 327-400 6-8 26-32 4.5 140-171 320-391 13-16 16-20 134-164 333-407 11-13 27-33 9.0 134-164 300-367 7-9 17-21 141-172 341-417 7-9 28-35 4.5 144-176 360-440 13-16 16-19 147-179 347-424 12-14 29-36 9.0 138-169 338-414 7-9 17-21 154-188 355-434 8-10 31-38 4.5 149-182 405-495 13-15 15-19 9.0 143-174 381-465 7-9 16-20 This chart shows approximate temperatures and pressures for a unit in good repair. The values shown are meant as a guide only and should not be used to estimate system charge. This chart assumes rated air flow and 80º d.b./67º w.b. entering air temperature in cooling, 70º d.b. entering air temperature in heating. Heating data at entering fluid temperatures below 50º assumes the use of antifreeze. As a result of continuing research and development, specifications are subject to change without notice.

20 AP SERIES Operating Pressures & Temperatures Environmentally Safe R-410A Refrigerant COOLING OPERATING DATA HEATING ENTERING WATER SUCTION DISCHARGE WATER AIR SUCTION DISCHARGE WATER AIR MODEL WATER FLOW PRESSURE PRESSURE TEMP TEMP PRESSURE PRESSURE TEMP TEMP TEMP. F GPM PSIG PSIG RISE F DROP F PSIG PSIG DROP F RISE F AP035 Full Load AP049 Part Load AP049 Full Load 30 40 50 60 70 80 90 100 30 40 50 60 70 80 90 100 30 40 50 60 70 80 90 100 4.5 74-90 244-299 3-4 13-15 9.0 78-95 251-306 2-3 13-16 4.5 122-149 183-224 14-18 19-23 87-106 257-314 4-5 15-18 9.0 117-143 172-210 8-10 20-24 91-111 263-322 3-3 16-19 4.5 131-160 214-261 14-18 18-22 95-105 269-329 5-6 17-20 9.0 126-154 201-245 8-10 19-24 100-125 276-337 3-4 18-22 4.5 136-166 244-298 14-17 18-22 111-136 282-344 6-7 19-23 9.0 131-160 230-281 8-10 19-23 117-143 289-353 4-5 20-24 4.5 141-172 275-336 14-17 17-21 124-152 294-360 7-8 21-25 9.0 135-165 258-316 8-10 18-22 131-160 302-369 5-6 22-27 4.5 145-178 310-378 14-17 17-20 136-166 307-375 8-9 23-28 9.0 140-171 291-356 8-10 18-22 143-175 314-384 5-6 24-30 4.5 150-183 349-426 14-17 16-20 149-182 319-390 8-10 25-30 9.0 144-176 328-401 8-9 17-21 156-191 327-400 6-7 26-32 4.5 155-189 392-480 13-16 16-19 9.0 149-182 369-451 8-9 17-21 6.0 64-78 248-303 5-6 15-18 12.0 67-82 254-311 3-4 16-19 6.0 109-134 183-224 18-22 19-23 75-91 261-319 6-8 17-21 12.0 105-128 172-210 10-12 20-25 79-96 267-327 4-5 18-23 6.0 118-144 214-261 18-22 19-23 78-90 273-334 8-10 20-24 12.0 113-138 201-245 10-12 20-24 82-95 280-342 5-7 21-26 6.0 122-149 244-298 17-21 18-22 96-117 286-349 9-11 22-27 12.0 117-143 230-281 10-12 19-24 102-123 293-358 6-8 24-29 6.0 126-154 275-336 17-21 18-22 107-131 299-365 11-13 25-30 12.0 121-148 258-316 10-12 19-23 113-138 306-374 7-9 26-32 6.0 130-159 310-378 17-21 17-21 117-143 311-380 12-15 27-33 12.0 132-153 291-356 10-12 18-22 123-151 319-390 8-10 29-35 6.0 134-164 349-426 17-20 17-20 128-157 324-396 13-16 29-36 12.0 129-158 328-401 9-12 18-22 135-165 332-406 9-11 31-38 6.0 139-170 392-480 16-20 16-20 12.0 133-163 369-451 9-11 17-21 6.0 71-87 277-339 6-7 15-19 12.0 75-92 284-347 4-5 16-20 6.0 118-144 194-237 21-25 19-23 84-102 291-356 7-9 18-22 12.0 113-138 182-223 12-14 20-24 88-108 299-365 5-6 19-23 6.0 127-155 226-276 21-25 18-22 92-110 305-373 9-11 20-25 12.0 122-149 213-260 12-14 19-24 98-120 313-383 6-7 21-26 6.0 131-160 259-316 21-25 18-22 108-132 320-391 10-13 23-28 12.0 126-154 243-297 12-14 19-23 113-138 328-400 7-9 24-29 6.0 136-166 291-355 20-25 17-21 120-147 334-408 12-15 25-31 12.0 130-159 273-334 12-14 18-22 126-154 342-418 8-10 27-32 6.0 140-171 328-401 20-24 17-20 131-161 348-425 14-17 27-34 12.0 135-165 308-377 11-14 18-22 138-169 356-436 9-11 29-36 6.0 145-177 369-451 20-24 16-20 144-176 362-442 15-18 30-37 12.0 139-170 347-424 11-14 17-21 151-185 371-453 10-12 32-39 6.0 149-183 415-508 19-24 16-19 12.0 143-175 391-477 11-14 17-21 This chart shows approximate temperatures and pressures for a unit in good repair. The values shown are meant as a guide only and should not be used to estimate system charge. This chart assumes rated air flow and 80º d.b./67º w.b. entering air temperature in cooling, 70º d.b. entering air temperature in heating. Heating data at entering fluid temperatures below 50º assumes the use of antifreeze. As a result of continuing research and development, specifications are subject to change without notice.

AP SERIES Operating Pressures & Temperatures Environmentally Safe R-410A Refrigerant 21 COOLING OPERATING DATA HEATING ENTERING WATER SUCTION DISCHARGE WATER AIR SUCTION DISCHARGE WATER AIR MODEL WATER FLOW PRESSURE PRESSURE TEMP TEMP PRESSURE PRESSURE TEMP TEMP TEMP. F GPM PSIG PSIG RISE F DROP F PSIG PSIG DROP F RISE F AP061 Part Load AP061 Full Load AP071 Part Load 30 40 50 60 70 80 90 100 30 40 50 60 70 80 90 100 30 40 50 60 70 80 90 100 7.0 68-84 256-313 5-7 19-23 14.0 73-89 261-319 4-5 20-25 7.0 113-138 172-210 18-22 19-23 81-99 277-339 7-8 22-26 14.0 110-134 161-196 12-14 20-24 86-105 283-346 5-6 23-28 7.0 116-142 206-252 17-21 19-23 93-114 299-365 8-9 24-29 14.0 112-137 193-236 12-14 19-24 99-121 305-373 6-7 25-31 7.0 118-145 241-294 17-21 18-23 106-129 321-392 9-11 26-32 14.0 115-140 225-275 11-14 19-23 113-138 327-400 7-8 28-34 7.0 121-148 275-336 17-21 18-22 118-145 342-418 10-12 29-35 14.0 117-143 257-314 11-14 19-23 126-154 349-427 8-9 30-37 7.0 123-151 309-378 16-20 18-22 131-160 364-444 11-14 31-38 14.0 120-146 289-353 11-13 19-23 139-170 371-454 8-10 33-40 7.0 126-154 344-420 16-20 18-22 143-175 385-471 12-15 33-41 14.0 122-149 321-392 11-13 18-22 152-186 393-480 9-11 35-43 7.0 128-157 378-462 16-19 17-21 14.0 125-152 353-432 11-13 18-22 7.0 68-84 256-313 5-7 19-23 14.0 73-89 261-319 4-5 20-25 7.0 117-143 182-222 15-19 21-26 81-99 277-339 7-8 22-26 14.0 114-139 170-208 11-14 22-27 86-105 283-346 5-6 23-28 7.0 120-147 215-263 15-18 20-25 93-114 299-365 8-9 24-29 14.0 117-143 201-246 11-14 21-26 99-121 305-373 6-7 25-31 7.0 123-150 248-304 14-17 20-24 106-129 321-392 9-11 26-32 14.0 119-146 232-284 11-13 21-25 113-138 327-400 7-8 28-34 7.0 126-154 282-344 14-17 19-24 118-145 342-418 10-12 29-35 14.0 122-149 263-322 10-13 20-25 126-154 349-427 8-9 30-37 7.0 129-157 315-385 13-16 19-23 131-160 364-444 11-14 31-38 14.0 125-153 294-360 10-12 19-24 139-170 371-454 8-10 33-40 7.0 132-161 348-426 13-16 18-22 143-175 385-471 12-15 33-41 14.0 128-156 326-398 10-12 19-23 152-186 393-480 9-11 35-43 7.0 134-164 382-466 12-15 17-21 14.0 131-160 357-436 9-11 18-22 9.0 71-87 259-316 5-7 19-23 18.0 76-92 264-322 4-5 20-25 9.0 116-141 175-213 18-22 19-23 84-102 280-342 7-8 22-26 18.0 113-137 164-199 12-14 20-24 89-108 286-349 5-6 23-28 9.0 119-145 209-255 17-21 19-23 96-117 302-368 8-9 24-29 18.0 115-140 196-239 12-14 19-24 102-124 308-376 6-7 25-31 9.0 121-148 244-297 17-21 18-23 109-132 324-395 9-11 26-32 18.0 118-143 228-278 11-14 19-23 116-141 330-403 7-8 28-34 9.0 124-151 278-339 17-21 18-22 121-148 345-421 10-12 29-35 18.0 120-146 260-317 11-14 19-23 129-157 352-430 8-9 30-37 9.0 126-154 312-381 16-20 18-22 134-163 367-447 11-14 31-38 18.0 123-149 292-356 11-13 19-23 142-173 374-457 8-10 33-40 9.0 129-157 347-423 16-20 18-22 146-178 388-474 12-15 33-41 18.0 125-152 324-395 11-13 18-22 155-189 396-483 9-11 35-43 9.0 131-160 381-465 16-19 17-21 18.0 128-155 356-435 11-13 18-22 This chart shows approximate temperatures and pressures for a unit in good repair. The values shown are meant as a guide only and should not be used to estimate system charge. This chart assumes rated air flow and 80º d.b./67º w.b. entering air temperature in cooling, 70º d.b. entering air temperature in heating. Heating data at entering fluid temperatures below 50º assumes the use of antifreeze. As a result of continuing research and development, specifications are subject to change without notice.

22 AP SERIES Operating Pressures & Temperatures Environmentally Safe R-410A Refrigerant COOLING OPERATING DATA HEATING ENTERING WATER SUCTION DISCHARGE WATER AIR SUCTION DISCHARGE WATER AIR MODEL WATER FLOW PRESSURE PRESSURE TEMP TEMP PRESSURE PRESSURE TEMP TEMP TEMP. F GPM PSIG PSIG RISE F DROP F PSIG PSIG DROP F RISE F AP071 Full Load 30 40 50 60 70 80 90 100 9.0 71-87 259-316 5-7 19-23 18.0 76-92 264-322 4-5 20-25 9.0 120-146 185-225 15-19 21-26 84-102 280-342 7-8 22-26 18.0 117-142 173-211 11-14 22-27 89-108 286-349 5-6 23-28 9.0 123-150 218-266 15-18 20-25 96-117 302-368 8-9 24-29 18.0 120-146 204-249 11-14 21-26 102-124 308-376 6-7 25-31 9.0 126-153 251-307 14-17 20-24 109-132 324-395 9-11 26-32 18.0 122-149 235-287 11-13 21-25 116-141 330-403 7-8 28-34 9.0 129-157 285-347 14-17 19-24 121-148 345-421 10-12 29-35 18.0 125-152 266-325 10-13 20-25 129-157 352-430 8-9 30-37 9.0 132-160 318-388 13-16 19-23 134-163 367-447 11-14 31-38 18.0 128-156 297-363 10-12 19-24 142-173 374-457 8-10 33-40 9.0 135-164 351-429 13-16 18-22 146-178 388-474 12-15 33-41 18.0 131-159 329-401 10-12 19-23 155-189 396-483 9-11 35-43 9.0 137-167 385-469 12-15 17-21 18.0 134-163 360-439 9-11 18-22 This chart shows approximate temperatures and pressures for a unit in good repair. The values shown are meant as a guide only and should not be used to estimate system charge. This chart assumes rated air flow and 80º d.b./67º w.b. entering air temperature in cooling, 70º d.b. entering air temperature in heating. Heating data at entering fluid temperatures below 50º assumes the use of antifreeze. As a result of continuing research and development, specifications are subject to change without notice.

AP SERIES 23 Notes

GeoMaster, LLC 3512 Cavalier Dr. Ft. Wayne, IN 46808 Phone: 877-443-6411 Fax: 260-482-1489 www.geoexcel.com