SPECIFICATION CATALOG
GEOTHERMAL HEAT PUMP + HYDRONIC
SYNERGY3D SPECIFICATION CATALOG
Table of Contents
The Synergy3D . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Model Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
AHRI/ISO 13256-1 Performance Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Synergy3D Design Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Microprocessor Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
Operation Logic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
Water Quality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Application Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Dimensional Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
Physical Data. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Auxiliary Heat . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Electrical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Blower Performance Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
Reference Calculations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Legend and Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Operating Limits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .26
Antifreeze Corrections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Correction Factor Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .28
Pressure Drop . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .29
Performance Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .30
Wiring Schematics. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .42
Engineering Guide Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .46
Revision Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50
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SYNERGY3D SPECIFICATION CATALOG
With the WaterFurnace Synergy3D Series, you’ll receive superior
comfort, incredible performance and energy savings. Integrating the
comfort of a radiant floor heating system with the advantages of
geothermal technology, the Synergy3D provides forced air heating and
cooling to ducted zones while simultaneously providing hot water to
radiant floor zones. The Synergy3D is the geothermal equivalent of a
boiler, furnace and air conditioner— a three-in-one unit.
The Synergy3D line is available in four dual capacity sizes (3 to 6 tons)
with Copeland Scroll UltraTech™ compressors.
The Synergy3D utilizes ozone-safe R-410A refrigerant to meet the
most stringent EPA requirements. Coated air coils add durability and
longer life. Variable speed ECM blowers are used to increase comfort
and efficiency. A sophisticated microprocessor control sequences all
components during operation for optimum performance, and provides easy-to-use troubleshooting features with fault
lights and on-board diagnostics. The hinged, swing-out control box improves serviceability. Unit configurations include
vertical top and rear discharge (left or right return). Heavy-gauge metal cabinets are fully insulated and coated with an
attractive and durable paint for long lasting protection. The cabinet’s rounded front corners, red wave styling element and
gold nameplates add a touch of elegance to the unit.
Synergy3D products are performance-certified to AHRI ISO 13256-1 standards, ETL listed,
ENERGY STAR® qualified, and tested in an ISO 17025 accredited testing lab.
As a leader in the industry, WaterFurnace is dedicated to innovation,
quality and customer satisfaction. In fact, every unit built is
exposed to a wide range of quality control procedures throughout
the assembly process and is then subjected to a rigorous battery
of computerized run tests to certify that it meets or exceeds
performance standards for efficiency and safety, and will perform
flawlessly at startup. As further affirmation of our quality standards,
each unit carries our exclusive Quality Assurance emblem, signed by
the final test technician.
WaterFurnace International’s corporate headquarters and
manufacturing facility is located in Fort Wayne, IN. A scenic three-acre pond located in front of the building serves as our
geothermal heating and cooling source to comfort-condition our 110,000 square feet of manufacturing and office space.
As a pioneer, and now a leader in the industry, the team of WaterFurnace engineers, customer support staff and skilled
assembly technicians is dedicated to providing the finest comfort systems available.
By choosing or specifying WaterFurnace products, you can be assured that your customer is investing in the ultimate
comfort system and peace of mind for many years to come.
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SYNERGY3D SPECIFICATION CATALOG
Model Nomenclature
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SYNERGY3D SPECIFICATION CATALOG
AHRI/ISO 13256-1 Performance Ratings
ECM Motor
AHRI/ASHRAE/ISO 13256-1
English (IP) Units
Ground Water Heat Pump
Model
038
049
064
072
Ground Loop Heat Pump
Flow Rate
Capacity
Modulation
Cooling EWT 59°F
gpm
cfm
9.0
1200
Part
8.0
Full
12.0
Part
Full
Capacity
EER
Btuh
Btuh/W
Heating EWT 50°F
Full Load 77°F
Part Load 68°F
Full Load 32°F
Part Load 41°F
Capacity
Btuh
COP
Capacity
Btuh
EER
Btuh/W
Capacity
Btuh
COP
33,200
4.5
36,000
18.7
27,400
3.9
4.2
38,200
23.8
1000
28,600
30.6
23,700
4.6
27,000
24.9
21,500
1500
50,200
23.1
46,900
4.5
47,700
18.2
38,000
3.8
11.0
1300
38,400
30.6
33,900
4.7
37,500
25.7
30,300
4.2
Full
16.0
1800
63,900
21.0
58,600
4.5
58,300
16.2
46,600
3.8
Part
14.0
1500
47,800
27.2
41,500
4.7
45,100
22.6
36,900
4.2
Full
18.0 2000
73,400
20.3
69,000
4.3
68,500
16.1
54,500
3.7
Part
16.0
56,600
25.2
51,700
4.3
53,700
21.0
46,100
4.0
1500
Energy Star Tier 3 affectivity date Janaury 1, 2012
Cooling capacities based upon 80.6°F DB, 66.2°F WB entering air temperature
Heating capacities based upon 68°F DB, 59°F WB entering air temperature
All ratings based upon 208V operation
ENERGY STAR Rating Criteria
In order for water-source heat pumps to be ENERGY STAR rated they
must meet or exceed the minimum efficiency requirements listed below.
ENERGY STAR
Compliance Table
Tier 3
Model
Ground
Water
Ground
Loop
038
Yes
Yes
049
Yes
Yes
064
Yes
Yes
072
Yes
Yes
1/27/2017
Tier 3: 1/1/2012 – No Effective End Date Published
Water-to-Air
EER
COP
Ground Loop
17.1
3.6
Ground Water
21.1
4.1
Water-to-Water
Ground Loop
16.1
3.1
Ground Water
20.1
3.5
09/23/13
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SYNERGY3D SPECIFICATION CATALOG
AHRI/ISO 13256-1 Performance Ratings cont.
The performance standard AHRI/ASHRAE/ISO 13256-1 became effective January 1, 2000 and replaces ARI Standards
320, 325, and 330. This new standard has three major categories: Water Loop (comparable to ARI 320), Ground Water
(ARI 325), and Ground Loop (ARI 330). Although these standards are similar there are some differences:
Unit of Measure: The Cooling COP
The cooling efficiency is measured in EER (US version measured in Btuh per Watt. The Metric version is measured in a
cooling COP (Watt per Watt) similar to the traditional COP measurement.
Water Conditions Differences
Entering water temperatures have changed to reflect the centigrade temperature scale. For instance the water loop
heating test is performed with 68°F (20°C) water rounded down from the old 70°F (21.1°C).
Air Conditions Differences
Entering air temperatures have also changed (rounded down) to reflect the centigrade temperature scale. For instance
the cooling tests are performed with 80.6°F (27°C) dry bulb and 66.2°F (19°C) wet bulb entering air instead of the
traditional 80°F (26.7°C) DB and 67°F (19.4°C) WB entering air temperatures. 80.6/66.2 data may be converted to
80/67 using the entering air correction table. This represents a significantly lower relative humidity than the old 80/67
of 50% and will result in lower latent capacities.
Pump Power Correction Calculation
Within each model, only one water flow rate is specified for all three groups and pumping Watts are calculated using
the following formula. This additional power is added onto the existing power consumption.
• Pump power correction = (gpm x 0.0631) x (Press Drop x 2990) / 300
Where ‘gpm’ is waterflow in gpm and ‘Press Drop’ is the pressure drop through the unit heat exchanger at rated water
flow in feet of head.
Blower Power Correction Calculation
Blower power is corrected to zero external static pressure using the following equation. The nominal airflow is rated
at a specific external static pressure. This effectively reduces the power consumption of the unit and increases cooling
capacity but decreases heating capacity. These Watts are significant enough in most cases to increase EER and COPs
fairly dramatically over ARI 320, 325, and 330 ratings.
• Blower Power Correction = (cfm x 0.472) x (esp x 249) / 300
Where ‘cfm’ is airflow in cfm and ‘esp’ is the external static pressure at rated airflow in inches of water gauge.
ISO Capacity and Efficiency Calculations
The following equations illustrate cooling calculations:
• ISO Cooling Capacity = Cooling Capacity (Btuh) + (Blower Power Correction (Watts) x 3.412)
• ISO EER Efficiency (W/W) = ISO Cooling Capacity (Btuh) x 3.412 / [Power Input (Watts) - Blower Power Correction
(Watts) + Pump Power Correction (Watt)]
The following equations illustrate heating calculations:
• ISO Heating Capacity = Heating Capacity (Btuh) - (Blower Power Correction (Watts) x 3.412)
• ISO COP Efficiency (W/W) = ISO Heating Capacity (Btuh) x 3.412 / [Power Input (Watts) - Blower Power Correction
(Watts) + Pump Power Correction (Watt)]
Comparison of Test Conditions
Cooling
Entering Air - DB/WB °F
Entering Water - °F
Fluid Flow Rate
Heating
Entering Air - DB/WB °F
Entering Water - °F
Fluid Flow Rate
ARI 320
ISO/AHRI
13256-1
WLHP
ARI 325
ISO/AHRI
13256-1
GWHP
ARI 330
ISO/AHRI
13256-1 GLHP
80/67
85
*
80.6/66.2
86
**
80/67
50/70
**
80.6/66.2
59
**
80/67
77
**
80.6/66.2
77
**
70
70
*
68
68
**
70
50/70
**
68
50
**
70
32
**
68
32
**
Note *: Flow rate is set by 10°F rise in standard cooling test
Note **: Flow rate is specified by the manufacturer
Part load entering water conditions not shown.
WLHP = Water Loop Heat Pump; GWHP = Ground Water Heat Pump; GLHP = Ground Loop Heat Pump
Conversions:
Airflow (lps) = CFM x 0.472;
ESP (Pascals) = ESP (in wg) x 249;
WaterFlow (lps) = GPM x 0.0631;
Press Drop (Pascals) = Press Drop (ft hd) x 2990
7
SYNERGY3D SPECIFICATION CATALOG
Synergy3D
y
gy
Design
g Features
16
15
COMPRESSOR: Copeland Scroll UltraTech™
(dual capacity) mounted on double isolation plates.
CABINET FINISH: Heavy gauge galvanized sheet metal
cabinet has 1,000 hour salt spray rated powder coat
paint for long life.
MICROPROCESSOR CONTROLS: Premier
microprocessor provides monitoring and control with
fault, status and I/O LED indication for easy servicing.
CABINET STYLING ELEMENTS: Rounded front corner
posts with “Wave” trim piece and gold nameplate.
STATUS LIGHTS: Mounted higher on the unit.
ACCESS PANELS: Lift out front bottom access panel,
lift out panels for easier removal and servicing.
COAXIAL HEAT EXCHANGER: Standard copper
(optional cupronickel) coax with our exclusive
ThermaShield coating to prevent condensation and
corrosion.
HINGED CONTROL BOX: Hinged removable control box.
AIR COIL: Large aluminum fin/tube air coil is designed
for maximum efficiency, moisture removal and provides
superior protection from formicary corrosion.
INTELLISTART: Optional single phase soft starter
reduces normal start current (LRA) by 60%, allows
heat pump to more easily go "off grid," provides
substantial reduction in light flicker, reduces start-up
noise, and improves compressor's start behavior.
FILTER RACK: Redesigned rack holds 1 in. or 2 in.
filters (field changeable).
DISCHARGE MUFFLER: Helps quiet compressor gas
pulsations (not shown).
FILTER: High holding capacity 2 in. pleated MERV 11
filter is standard and 4 in. pleated MERV 11 is optional.
INSULATION: Cleanable foil lined insulation to prevent
mold growth; corrosion resistant composite drain pan.
8
15
OPTIONAL HOT WATER ASSIST: Provides free hot
water in cooling and very high efficiency hot water
generation in heating mode.
16
VS ECM BLOWER MOTOR: Variable speed ECM motors
provide high efficiency and ultra-flexible air flows.
SYNERGY3D SPECIFICATION CATALOG
Synergy3D Design Features cont.
What’s New?
Operating Efficiencies
• Copeland UltraTech™ Compressors in dual capacity units.
- Modulating, switches from low to high without delay.
- 67% capacity first stage.
- Sizes 038, 049, 064, 072.
• Cabinet styling—corrosion resistant powder coated
paint, rounded front corner posts, “wave” styling
element, gold nameplate.
• Standard 2 in. filter rack switchable to 1 in.
• Foil lined cleanable insulation.
• Double isolation mounted compressors.
• Hinged, removable control box.
• Improved air coil service access.
• Graduated cabinet heights fits as replacement for
100,000+ installed Premier units.
• Aluminum tube and fin high performance air coil.
• Optional hot water generator (without factory
installed pump) can generate heated water at
considerable savings.
• ThermaShield coated coaxial heat exchangers
• Discharge line muffler helps quiet compressor discharge
gas pulsations.
• AHRI/ISO 13256-1 rating for heating COPs, cooling EERs
and low water flow requirements.
• High-stability expansion valve delivers optimum
refrigerant flow over a wide range of conditions and
provides bidirectional operation without troublesome
check valves.
• Efficient scroll compressors operate quietly.
• Oversized coaxial tube water-to-refrigerant heat
exchanger operates at low liquid pressure drops.
• Convoluted copper water tube functions efficiently at
low flow rates.
• Oversized aluminum tube/lanced aluminum fin air-torefrigerant heat exchanger provides high efficiencies at
low-face velocity.
• Large, low-RPM blowers with variable-speed motors
provide quiet and efficient air movement with high
static capability.
• Utilizes the ozone-friendly R-410A refrigerant which
produces higher efficiencies and warmer discharge
air temperatures.
Service Advantages
Application Flexibility
• Hinged, removable control box for added serviceability.
• Removable panels: three for the compressor
compartment and two for the air handling compartment
to provide quick access to all internal components with
ductwork in place.
• Easily accessible thermal expansion valve.
• Brass, swivel-type water connections for quick
connection union, and elimination of wrenches and
sealants during installation.
• Insulated divider and separate air handling/compressor
access panels permit service testing without air bypass.
• Designed for front access in tight applications.
• LED fault and status lights with memory for
easy diagnostics.
• Detachable thermostat connection strip for
wiring convenience.
• Hot water pump shut-off switch for easy startup
and service.
• Control box and blower motors have quick-attach wiring
plugs for easy removal.
• Internal drop-out blower with permanently-lubricated
ball bearing motor.
• High- and low-pressure service ports in refrigerant circuit.
• Blower and transformer powered from auxiliary heat
supply (when installed) to provide emergency heat with
open compressor circuit breaker.
• Safe, efficient operation in a wide range of liquid
temperatures (20°F to 120°F) and flow rates (as low
as 1.5 GPM/ton in open loop applications when EWT
>50°F).
• Top and rear air discharge for upflow installations in
vertical units.
• True left or right return air locations—units include filter
rack/duct collar.
• Variable speed ECM blowers permit various
duct applications.
• Narrow cabinet for easy movement through doorways.
• Internally trapped condensate piping for neat,
compact installation.
• Optional field-installed auxiliary electric heater.
• Corner-located electrical box for field wiring from
two sides.
• Fuse-protected loop pump power block for easy wiring.
• Loop pump linking feature allows multiple units to share
one flow center.
• Field-selectable low source water temperature limit
setting for well or closed loop systems.
• Relays to control field-mounted air dampers.
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SYNERGY3D SPECIFICATION CATALOG
Synergy 3D Design Features cont.
Product Quality
Options and Accessories
• Heavy-gauge steel cabinets are painted with durable
powder coat paint for long lasting beauty and service.
• Coaxial heat exchanger, refrigerant suction lines, hot
water generator coil, and source water pipes are fully
insulated to reduce condensation problems in low
temperature operation.
• Aluminum tube/fin air coils for protection from formicary
corrosion.
• Noise reduction features include double isolation
mounted compressors, discharge muffler, and
soft starting blower motors; insulated compressor
compartment; interior cabinet insulation using 1/2-inch
coated glass fiber. All units include compressor blanket
for quiet operation.
• Safety features include high- and low-pressure
refrigerant controls to protect the compressor;
condensate overflow protection; freeze detection sensor
to safeguard the coaxial heat exchanger; blower start
detection; fault lockout enables emergency heat and
prevents compressor operation until thermostat or circuit
breaker is reset.
• Cupronickel heat exchangers for open loop applications
• Optional hot water generator without factory
mounted pump.
• Optional oversized ECM blower motor for high static
applications on 038 to 049 models.
• Electronic auto-changeover thermostat with 3-stage
heating/2-stage cooling and indicator LEDs.
• 24 volt 1-inch electronic air cleaner.
• 90% efficient, cleanable electrostatic filters.
• Closed loop flow center.
• Auxiliary electric heater.
• Hose kits.
• AlpinePure 2 in. MERV 13 filter
• AlpinePure 4 in. MERV 11 filter and rack
• IntelliStartTM soft starter
Manufacturing Quality
• All units are computer run-tested, with conditioned source
water, in all modes to insure efficiency and reliability.
• All refrigerant brazing is performed in a nitrogen
atmosphere.
• All units are deep evacuated to less than 150 microns
prior to refrigerant charging.
• All joints are helium leak-tested to insure an annual leak
rate of less than 1/4 ounce.
• All major components bar coded. Eliminating possibility
of mismatched parts built into unit.
• All assembly technicians thoroughly trained in proper
quality procedures.
• Focus on geothermal products enables company to
dedicate all resources to product.
Microprocessor Benefits
• Digital auto-changeover thermostat with 3-stage
heating/2-stage cooling holds precise temperature
and provides varying blower speed control.
• Component sequencing delays for quiet startup,
shutdown, and timed staging of auxiliary electric heat.
• Variable speed ECM blower speed control provides
higher supply air temperature in heating, better
dehumidification in cooling, and quiet operation at
reduced airflows in all modes.
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SYNERGY3D SPECIFICATION CATALOG
Microprocessor Control
Startup
Testing
The unit will not operate until all the inputs and safety
controls are checked for normal conditions. At first powerup, a four minute delay is employed before the compressor
is energized.
The control allows service personnel to shorten most timing
delays for faster diagnostics (Refer to Dip Switch description).
Fault Retry
All faults (except for low RPM faults with the ECM blower
motor) are retried twice before finally locking the unit out.
An output signal is made available for a fault LED at the
thermostat. The “fault retry” feature is designed to prevent
nuisance service calls.
Component Sequencing Delays
Components are sequenced and delayed for optimum space
conditioning performance.
Accessory Relay
Diagnostics
The accessory relay will be used to control a refrigerant
solenoid valve. The accessory relay will turn on when the
control is operating in forced air heating, forced air cooling
and when there is no active thermostat input. The relay will
be off when operating in hot water mode.
The control board allows all inputs and outputs to be
displayed on the LEDs for fast and simple control board
diagnosis. (Refer to Dip Switch description).
Resistance Heat Control (208-230 Units)
Loop Pump Linking Signals
A signal between multiple Synergy3D control boards at the
inputs and outputs (SL1-In and Out) will provide for remote
control of the loop pump on any unit.
The electric heat control module contains the appropriate
high-voltage control relays. Control signals energize the
relays in the proper sequence, and the LED display board
indicates which stages are energized.
Condensate Overflow Protection
IntelliStart
The control board incorporates an impedance sensing
liquid sensor at the top of the drain pan. Upon a continuous
30-second sensing of the condensate, compressor operation
is suspended (see Fault Retry), and the condensate overflow
lockout LED begins flashing.
Some models shall be equipped with an optional IntelliStart.
IntelliStart is a single-phase soft starter which reduces the
normal start current (LRA) by 60%. This allows the heat
pump to more easily go “off-grid.” Using IntelliStart will also
provide a substantial reduction in light flicker, reduce startup
noise, and improve the compressor’s start behavior. The
IntelliStart is self-callibrating and may take several starts to
optimize the compressor start behavior.
Shutdown Mode
A 24VAC Common signal to the “shutdown” input on the
control board puts the unit into shutdown mode. Compressor,
hot water pump, and blower operation are suspended.
Features:
• Automatic adjustment of the compressor starting
current to the available supply voltage —maintaining
constant starting torque and current.
• Supply line impedance monitoring and compensation.
• Automatic compensation for residual backpressure in
the system.
• Monitoring of supply voltage while compressor is
running to prevent motor stalling, causing excessive
currents, under low voltage conditions.
• Light flicker reductions of up to 10:1 over LRA under
the same conditions.
Short Cycle Protection
The control employs a minimum “off” time of four minutes
and a minimum “on” time of two minutes for short cycle
protection of the compressor.
Safety Controls
The control receives separate signals for a high pressure
switch for safety, a low pressure switch to prevent loss of
charge damage, and a low suction temperature thermistor
for freeze detection limit. Upon a continuous 30-second
measurement of the fault (immediate for high pressure),
compressor operation is suspended, the appropriate lockout
LED begins flashing. (Refer to the "Fault Retry" section.)
ECM Airflow Selection DIP Switches (SW1)
A 12-position DIP switch package on the Synergy3D control
allows the airflow levels to be set for low, medium and high
speed when using the variable speed ECM blower motor
(see Synergy3D Blower Performance table).
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SYNERGY3D SPECIFICATION CATALOG
Microprocessor Control cont.
Heating Operation
Hot Water Operation
Heat, 1st Stage (Y1)
After a hot water input is received, the diverting valve,
loop pump and load water pump are turned on. Five
seconds after hot water input is received the compressor is
activated in second stage. Hydronic Mode Operation with
Hydronic Priority Setting: If the control receives a demand
to heat the space (Y1) from the thermostat during water
heating mode operation, the control will engage Medium
ECM fan speed annd the first stage auxiliary heat output.
The second stage will be energized at five (5) minutes,
following the first stage. The installer should set medium
ECM fan speed for no less than the minimum required cfm
for the installed electric heat package (see Auxiliary Heat
Ratings table).
The blower motor is started on low speed immediately, the
loop pump is energized 5 seconds after the “Y1” input is
received, and the compressor is energized on low capacity
10 seconds after the “Y1” input. The ECM blower is switched
to medium speed 15 seconds after “Y1” input.
Heat, 2nd Stage (Y1,Y2) Dual Capacity Units
The second stage compressor will be activated 5 seconds
after receiving a “Y2” input as long as the minimum first
stage compressor run time of 1 minute has expired. The
ECM blower changes from medium to high speed 15
seconds after the “Y2” input.
Heat, 3rd Stage (Y1,Y2,W) Dual Capacity Units
Blower (G Only)
The 1st stage of resistance heat is energized 10 seconds
after “W” input, and with continuous 3rd stage demand, the
second stage of resistance heat will engage after 5 minutes.
The blower starts on low speed. Regardless of blower input
(G) from thermostat, the blower will remain on low speed
for 30 seconds at the end of each heating, cooling or
emergency heat cycle.
Emergency Heat (W Only)
Low speed blower and damper output CR3 will be
energized immediately after receiving (W only). The first
stage auxiliary heater will be energized 10 seconds upon
receiving a (W only) and the blower will shift to high speed
15 seconds after receiving a “W” only input. If the “W” input
is not removed, the second, auxiliary heat output will stage
on after two minutes.
Lockout Conditions
During lockout mode the appropriate unit and thermostat
lockout LEDs will illuminate. The compressor, loop pump,
load water pump and accessory outputs are de-energized.
Unless the lockout is caused by an ECM low RPM fault,
the blower will continue to run on low speed, and if the
thermostat calls for heating 3rd stage, emergency heat
operation will occur.
Cooling Operation
Cool, 1st Stage (Y1,O)
The blower is started immediately, and the loop pump(s)
is energized 5 seconds after the “Y1” input is received. The
compressor will be energized on low capacity 10 seconds
after the “Y1” input. The ECM blower will shift from low to
medium speed 15 seconds after the “Y1” input.
Lockout modes can be reset at the thermostat after a fivesecond waiting period, which restores normal operation
but keeps the unit lockout LED illuminated. Interruption
of power to the unit will reset a lockout without a waiting
period and clear all lockout LEDs.
Cool, 2nd Stage (Y1, Y2, O) Dual Capacity Units
High Pressure
The second stage compressor will be activated 5 seconds
after receiving a “Y2” input as long as the minimum first stage
compressor run time of 1 minute has expired. The ECM blower
changes to high speed 15 seconds after the “Y2” input.
Low Pressure
This lockout mode occurs when the normally closed safety
switch is opened momentarily. >600 PSI
This lockout mode occurs when the normally closed switch
is opened for 30 continuous seconds. <40 PSI
Hydronic Cooling Slave Signal (24 vac input on
P6-pin 15 violet wire)
Freeze Detection Limit (Water Flow)
The Synergy3D control board must be operating in cooling
mode (Y1 and O inputs) or the cooling slave signal is
ignored. When “Y1”, and “O” inputs have been received
and a cooling slave input from heating/cooling thermostat
located in a hydronic heated/force air cooled zone are
received the control will activate CR3 relay to open
damper(s) which will allow for cooling to occur in zone.
When cooling slave input (24VAC) signal is removed the
control will turn off the CR3 relay output, if spring damper
operation is selected, or activate, the CR4 output if POPC
damper operation is selected. This will close field installed
damper(s) located in ductwork. NOTE: The control will not
operate in forced air cooling and hydronic water heating
modes simultaneously.
This lockout mode occurs when the low source water
thermistor temperature is at or below the selected point
(well 30°F or loop 15°F) for 30 continuous seconds.
ECM Blower RPM
The control board monitors blower RPM to sense if the
blower is not operating. This lockout mode occurs if the
blower RPM falls below the low RPM limit (100 RPM) for 30
continuous seconds.
12
SYNERGY3D SPECIFICATION CATALOG
Microprocessor Control cont.
Hydronic Operation
ComforTalk and FaultFlash Thermostats
SW4 (Status Board Switch)
When the heat pump microprocessor control is configured
for ComforTalk or FaultFlash (SW2-8 ‘off’) thermostats the
thermostats will flash or display alert codes when a lockout
condition is present. SW2-8 in the ‘on’ position configures
the control to operate with typical thermostats (continuous
lockout signal).
R
R
Status LED PCB
17P503A01 Rev A
In the OFF position, the hydronic mode is
disabled and the damper connected to CR3/
CR4 is opened. The switch must be in the ON
position to enable the hydronic mode. NOTE: If
the status board is not connected to the main
control board, the hydronic mode is disabled.
R
R
R
G
Y
R
FaultFlash Thermostats
SW4
Thermostat Display Lockout Code
SW3 (4 and 5 Override Selection DIP
Switches)
These DIP switches configure the time that the unit will
run in the current mode of operation if it is not the priority
mode (SW2 #3 FAH/Hydronics) of operation selected.
Example: If the unit is operating in hydronic mode, forced
air heat (SW2 #3 is OFF) is the priority. A Y1 call from
the FAH zone is present at the control board. When SW3
numbers 4 and 5 are both in the ON position, the unit
will operate in the hydronic mode for five minutes. If the
hydronic call is not satisfied within the five minutes, the unit
will switch to FAH mode. When FAH is satisfied, the unit
will switch back to hydronic. (See Override Selection DIP
Switches table.)
Lockout Description
2 Flashes
High Pressure Fault
3 Flashes
Low Pressure Fault
4 Flashes
Not Applicable
5 Flashes
Water Flow Fault
6 Flashes
Not Applicable
7 Flashes
Condensate Fault
8 Flashes
Voltage Out of Range
9 Flashes
RPM Fault
The tables below show the codes that will be displayed on
the different ComforTalk and FaultFlash thermostats.
ComforTalk Thermostats
Thermostat Display Lockout Code
"High Pressure" or "E2"
"Low Pressure" or "E3"
"E4"
"Water Flow" or "E5"
"E6"
"Condensate" or "E7"
"Voltage Range" or "E8"
"RPM" or "E9"
Lockout Description
High Pressure Fault
Low Pressure Fault
Not Applicable
Water Flow Fault
Not Applicable
Condensate Fault
Voltage Out of Range
RPM Fault
These thermostats can be configured to display the lockout condition
“text” or error number.
* A slow flash of 1 second on and off means the heat pump
microprocessor SW2-1 is configured for “Test Mode”.
13
SYNERGY3D SPECIFICATION CATALOG
Microprocessor Control cont.
Airflow Selection DIP Switches (SW1)
See Blower Performance Data section.
Factory Setup DIP Switches (SW2)
DIP Switch
Number
Description
OFF Position
ON Position
SW2-
1
Service Test Mode
Allows field selection of “NORMAL” or “TEST” operational modes. Test mode accelerates
most timing functions 16 times to allow faster troubleshooting. Test mode also allows
viewing the “CURRENT” status of the fault inputs on the LED display.
Test Mode
Normal Speed
Operation
SW2-
2
Freeze Detection Limit
Allows field selection of freeze detection thermistor fault sensing for well water (30°F) or
antifreeze protected (15°F) earth loops.
Low Loop Water
Temperature
Sensing Set at 15°F
Low Well Water
Temperature
Sensing Set at 30°F
SW2-
3
Forced Air Heating/Hydronic Heating
This switch allows field selection of “Heating Forced Air Priority” or “Hydronic Priority”.
Forced Air Heating
Priority
Hydronic Heating
Priority
SW2-
4
Forced Air Cooling/Hydronic Heating
This switch allows field selection of “Cooling Forced Air Priority” or “Hydronic Priority”.
Forced Air Cooling
Priority
Hydronic Heating
Priority
SW2-
5
Not Used
Not Applicable
Not Applicable
SW2-
6
Diagnostics Inputs
Allows viewing the inputs from the thermostat to the control board such as Y1, Y2, O, G, W,
HW, SL1-In, on the LED display..
Inputs
Normal
SW2-
7
Diagnostics Outputs
Allows viewing the outputs from the control board such as compressor, diverting valve,
reversing valve, blower, hot water pump and loop pump on the LED display.
Outputs
Normal
SW2-
8
Thermostat Selection
Configures the control for a pulsed lockout signal (ComforTalk and FaultFlash thermostats)
or continuous lockout signal (standard thermostat).
Pulse “L” Signal
Continuous “L”
Signal
OFF Position
ON Position
Dual Capacity
Operation
Single Speed
Operation
Factory Setup DIP Switches (SW3)
DIP Switch
Number
Description
SW3-
1
Dual Capacity/Single Speed
Configures the control for single speed compressor operation or dual capacity operation.
SW3-
2
POPC/Spring
Power Open, Power
This switch allows field selection of “Power Open, Power Closed” dampers or “Power Open,
Close
Spring Close” dampers.
SW3-
3
No RPM/RPM
Configures the control to monitor the RPM output of an ECM blower motor. This product
must have the control configured for “NO RPM” sensing.
ECM Blower/RPM
Monitoring Disable
Not Used
SW3-
4
Override Time
Configures the control override timings when switching from forced air mode to hydronic
mode or vice versa.
See Override
Selection table
below for timings
See Override
Selection table
below for timings
SW3-
5
Override Time
Configures the control override timings when switching from forced air mode to hydronic
mode or vice versa.
See Override
Selection table
below for timings
See Override
Selection table
below for timings
Power Open,
Spring Close
LED Status Board DIP Switches (SW4)
DIP Switch
Number
SW4-
1
Description
Hydronic Mode
Enables and disables hydronic heating mode.
Override Selection DIP Switches
Override Time
SW3-4
5 minutes
On
SW3-5
On
10 minutes
Off
On
30 minutes
On
Off
60 minutes
Off
Off
14
OFF Position
ON Position
Hydronic Heating
Disabled
Hydronic Heating
Enabled
SYNERGY3D SPECIFICATION CATALOG
Operation Logic
Heating
STG1
STG2
Cooling
STG3
EMERG
STG1
STG2
Hot Water
Mode
Compressor
On
On
On
Off
On
On
Stg 2 On
Reversing Valve
Off
Off
Off
Off
On
On
Off
Loop Pump
On
On
On
Off
On
On
On
Load Pump
Off
Off
Off
Off
Off
Off
On
Aux Heater
Off
Off
Staged
Staged
Off
Off
Off
Acc Relay
On
On
On
Off
On
On
Off
Diverting Valve
Off
Off
Off
Off
Off
Off
On
ECM Speed
On
On
On
On
On
On
Off
T-Stat Signal
Y1
Y1, Y2
Y1, Y2, W
W
Y1, O
Y1, Y2, O
HW
Damper
Off
Off
Off
On
Off
Off
Off
Auxiliary 1 - Out
On
On
On
Off
On
On
On
15
SYNERGY3D SPECIFICATION CATALOG
Water Quality
(pre-mix ethanol), and others. The services of a qualified
water treatment specialist should be engaged to determine
what treatment, if any, is required. The product warranty
specifically excludes liability for corrosion, erosion or deterioration of equipment.
The heat exchangers and water lines in the units are copper
or cupronickel tube. There may be other materials in the
buildings piping system that the designer may need to take
into consideration when deciding the parameters of the
water quality. If antifreeze or water treatment solution is
to be used, the designer should confirm it does not have a
detrimental effect on the materials in the system.
It is the responsibility of the system designer and installing
contractor to ensure that acceptable water quality is
present and that all applicable codes have been met in
these installations. Failure to adhere to the guidelines in
the water quality table could result in loss of warranty.
In ground water situations where scaling could be heavy
or where biological growth such as iron bacteria will be
present, a closed loop system is recommended. The heat
exchanger coils in ground water systems may, over a period
of time, lose heat exchange capabilities due to a buildup
of mineral deposits inside. These can be cleaned, but only
by a qualified service mechanic, as special solutions and
pumping equipment are required. Hot water generator coils
can likewise become scaled and possibly plugged. In areas
with extremely hard water, the owner should be informed
that the heat exchanger may require occasional flushing.
Contaminated Water
In applications where the water quality cannot be held to
prescribed limits, the use of a secondary or intermediate
heat exchanger is recommended to separate the unit from
the contaminated water. The table above outlines the water
quality guidelines for unit heat exchangers. If these conditions are exceeded, a secondary heat exchanger is required. Failure to supply a secondary heat exchanger where
needed will result in a warranty exclusion for primary heat
exchanger corrosion or failure.
Units with cupronickel heat exchangers are recommended
for open loop applications due to the increased resistance
to build-up and corrosion, along with reduced wear caused
by acid cleaning. Failure to adhere to the guidelines in the
water quality table could result in the loss of warranty.
Water Treatment
Do not use untreated or improperly treated water. Equipment damage may occur. The use of improperly treated
or untreated water in this equipment may result in scaling,
erosion, corrosion, algae or slime. Purchase of a pre-mix
antifreeze could significantly improve system reliability if
the water quality is controlled and there are additives in the
mixture to inhibit corrosion. There are many examples of
such fluids on the market today such as Environol™ 1000
Material
pH
Scaling
Acidity/Alkalinity
Calcium and
Magnesium Carbonate
Hydrogen Sulfide
Corrosion
Iron Fouling
(Biological Growth)
Sulfates
Chlorine
Chlorides
Carbon Dioxide
Ammonia
Ammonia Chloride
Ammonia Nitrate
Ammonia Hydroxide
Ammonia Sulfate
Total Dissolved Solids (TDS)
LSI Index
Iron, FE2+ (Ferrous)
Bacterial Iron Potential
Iron Oxide
Suspended Solids
Erosion
Threshold Velocity
(Fresh Water)
NOTES: Grains = ppm divided by 17
mg/L is equivalent to ppm
Copper
7-9
(Total Hardness)
less than 350 ppm
Less than 0.5 ppm (rotten egg
smell appears at 0.5 ppm)
Less than 125 ppm
Less than 0.5 ppm
Less than 20 ppm
Less than 50 ppm
Less than 2 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 1000 ppm
+0.5 to -0.5
90/10 Cupronickel
7-9
(Total Hardness)
less than 350 ppm
316 Stainless Steel
7-9
(Total Hardness)
less than 350 ppm
10 - 50 ppm
Less than 1 ppm
Less than 125 ppm
Less than 0.5 ppm
Less than 125 ppm
10 - 50 ppm
Less than 2 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 0.5 ppm
1000 - 1500 ppm
+0.5 to -0.5
Less than 200 ppm
Less than 0.5 ppm
Less than 300 ppm
10 - 50 ppm
Less than 20 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 0.5 ppm
Less than 0.5 ppm
1000 - 1500 ppm
+0.5 to -0.5
< 0.2 ppm
< 0.2 ppm
< 0.2 ppm
Less than 1 ppm, above this
level deposition will occur
Less than 10 ppm and filtered
for max. of 600 micron size
Less than 1 ppm, above this
level deposition will occur
Less than 10 ppm and filtered
for max. of 600 micron size
Less than 1 ppm, above this
level deposition will occur
Less than 10 ppm and filtered
for max. of 600 micron size
< 6 ft/sec
< 6 ft/sec
< 6 ft/sec
2/22/12
16
SYNERGY3D SPECIFICATION CATALOG
Application Information
Figure 2: Air Flow for Ducted Zones, and Water
Flow for Radiant Zones
Synergy3D units provide ducted heating and cooling, and
hot water to radiant floor applications.
Most Synergy3D applications use multiple thermostats for
heating. One or more thermostats may be dedicated to
the forced air zone(s) while separate thermostats are used
in the radiant floor zones. The microprocessor control in
the unit allows for priority selection for either radiant or
forced air zones, depending on the size, location and use
of each zone.
Although the unit does not heat air and water
simultaneously, the comfort “system” should be designed
and controlled so that both functions occur simultaneously.
This is achieved using a holding tank (buffer tank) for hot
water. The buffer tank acts as a storage device for water
heated using the Synergy3D unit. Warm water can be drawn
from the buffer tank during forced air heating operation.
At some point, the unit will need to switch from forced air
heating mode to water heating mode when the temperature
of the buffer tank drops below the setpoint. This switchover
will occur either before or after the ducted zones are
satisfied in heating, depending on the prioritization.
Typical water temperatures in radiant floor heating systems
are around 100-105° F (38-40° C). Heat pumps using R-410A
refrigerant are not designed to produce water above 130° F
(54° C). The system efficiency decreases as the temperature
difference (TD) between the heat source (generally the
earth loop) and the supply water (the distribution system)
increases. The heating capacity of the heat pump also
decreases as the temperature difference increases.
When designing radiant floor distribution systems, the
temperature limits of the geothermal system must be a major
consideration. In new construction, the distribution system
can easily be designed with the temperature limits in mind.
In retrofits, care must be taken to address the operating
temperature limits of the existing distribution system.
Figure 1: Radiant Floor Heating
17
SYNERGY3D SPECIFICATION CATALOG
Application Information cont.
To make a system as efficient as possible, it is important to
follow good design criteria. Some of the factors to consider
are listed below:
Radiant Floor Heating
Radiant floor heating has been the system of choice in
many parts of Europe for some time. Manufacturers have
developed tubing designed for installation in concrete
floors and built-up wood floors. Floor heating systems have
several benefits in residential, commercial and industrial
heating applications. In a building with a radiant floor
heating system, the entire floor acts as a heat source for
the room.
• An accurate heat loss and heat gain calculation must be
done to size the system to operate efficiently.
• The system must meet the application requirements. In
other words, the design of the system must take into
consideration the type of distribution system and the
needs of the customer.
• The components of the system must be designed to work
together. The loop must be designed to work with the heat
pumps, the pumping system must work efficiently with the
earth loop and the heat distribution, and the distribution
system must be chosen to work efficiently with the water
temperatures available from the equipment.
• The system must be controlled to operate as efficiently
as possible. It is important to operate the system to take
variations in the building loads into account. For example,
the heat loss of the building is reduced when the outdoor
temperature climbs, and the temperature of the water
circulated through the distribution system can be lowered,
allowing the heat pumps to operate more efficiently.
• Modulating the various components of a system to meet
the varying requirements of a building can significantly
improve the efficiency of a system. Variable-speed
pumps, for example, can greatly increase the overall
efficiency of a system.
• The cost-effectiveness of the system must be considered.
Regardless of the application, the design must take into
account operating costs, installation costs and future
repair/maintenance costs.
In residential applications, occupants in a space feel
comfortable with lower air temperatures if their feet are
warm. Typically the space will feel comfortable with air
temperatures as low as 65° F (18° C). Since the heat loss of
a building is directly related to the temperature difference
between the inside and outside, a lower temperature
difference means the heat loss is lower. Air temperatures
in a room with a forced air heating system tend to be
warmer near the ceiling than the floor. The hot air rises and
creates a greater pressure imbalance between the inside
and outside. The building’s infiltration increases, resulting
in a higher heat loss. Air temperatures in a room with floor
heating tend to be warmer at the floor than the ceiling,
helping cut down on infiltration in the building. The energy
savings in a building with floor heating can range from 2040% over traditional forced air systems.
Temperatures in a forced air system tend to be more
uneven than in a radiant floor heating system. The air
temperatures in a forced air system tend to be much higher
than with radiant floor heating, making the temperature
difference between inside and outside higher, which results
in a higher BTU requirement.
Hydronic/geothermal systems can be used very effectively
in new installations, as well as in many retrofit applications.
Efficient systems can be built for residential, commercial
and industrial applications.
Figure 3 - Air Temperature Variations
10°
10°
95°
60°
90°
85°
60°
60°
79°
74°
95°
100°
65°
65°
65°
81°
81°
81°
68°
63°
59°
Forced Air System
Radiant Floor Heat
18
SYNERGY3D SPECIFICATION CATALOG
Dimensional Data
Topflow Discharge
Top
Top
S
R
S
N
T
Left Return
O
P
P
N
Q
T
Q
Y
Right Return
Y
W
X
W
X
V
V
U
U
C
C
E
K
E
G
L
M
D
F
F
A
Left
Front
A
Width
B
Depth
C
Height
B
A
Right
Front
Overall Cabinet
Vertical
Topflow
Model
H
J
D
B
I
G
J
Electrical Connections
Water Connections
E
F
D
Hydronic Hydronic
Loop In
Out
In
G
Loop
Out
H
HWG In
I
HWG
Out
J
Condensate
Loop
Water
FPT
Hydronic
Water
FPT
HWG
Sweat
(I.D.)
K
1/2”
cond
L
1/2”
cond
M
3/4”
cond
Low
Voltage
Ext
Pump
Power
Supply
038
in.
cm.
25.6
65.0
31.6
80.3
50.4
128.0
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
13.6
34.5
16.6
42.2
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
049
in.
cm.
25.6
65.0
31.6
80.3
54.4
138.2
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
15.9
40.4
18.9
48.0
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
064
in.
cm.
25.6
65.0
31.6
80.3
58.4
148.3
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
15.9
40.4
18.9
48.0
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
072
in.
cm.
25.6
65.0
31.6
80.3
58.4
148.3
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
15.9
40.4
18.9
48.0
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
Discharge Connection
duct flange installed (±0.10 in)
Return Connection
using standard deluxe filter rack (±0.10 in)
Q
Supply
Depth
R
Misc
N
O
P
Supply
Width
S
T
Return
Depth
U
Return
Height
V
W
X
Y
6.9
17.5
1.1
2.8
18.0
45.7
18.0
45.7
3.8
9.7
1.7
4.3
28.1
71.4
26.0
66.0
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
6.9
17.5
1.1
2.8
18.0
45.7
18.0
45.7
3.8
9.7
1.7
4.3
28.1
71.4
30.0
76.2
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
6.9
17.5
1.1
2.8
18.0
45.7
18.0
45.7
3.8
9.7
1.7
4.3
28.1
71.4
34.0
86.4
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
6.9
17.5
1.1
2.8
18.0
45.7
18.0
45.7
3.8
9.7
1.7
4.3
28.1
71.4
34.0
86.4
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
10/16/13
Condensate is 3/4 in. PVC female glue socket and is switchable from side to front
Unit shipped with deluxe 2 in. (field adjustable to 1 in.) duct collar/filter rack extending from unit 3.25 in. and is suitable for duct connection.
Discharge flange is field installed and extends 1 in. [25.4 mm] from cabinet
Decorative molding and water connections extend 1.2 in. [30.5 mm] beyond front of cabinet.
19
SYNERGY3D SPECIFICATION CATALOG
Dimensional Data cont.
Rear Discharge
Front
E
G
K
L
Left Return
Right Return
J
M
D
F
Rear
A
Left Side
W
P
Rear
Right Side
T
S
W
T
O
V
V
S
R
V
V
Q
Q
U
X
X
U
P
C
C
C
C
N
N
Y
Y
I
I
H
H
A
B
B
A
Electrical Connections
Overall Cabinet
Vertical
Backflow
Model
A
Width
B
Depth
C
Height
Water Connections
E
F
D
Hydronic Hydronic
Loop In
Out
In
G
Loop
Out
H
HWG In
I
HWG
Out
J
Condensate
Loop
Water
FPT
K
1/2”
cond
L
1/2”
cond
M
3/4”
cond
Hydronic
Water
FPT
HWG
Sweat
(I.D.)
Low
Voltage
Ext
Pump
Power
Supply
049
in.
cm.
25.6
65.0
31.6
80.3
54.4
138.2
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
15.9
40.4
18.9
48.0
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
064
in.
cm.
25.6
65.0
31.6
80.3
58.4
148.3
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
15.9
40.4
18.9
48.0
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
072
in.
cm.
25.6
65.0
31.6
80.3
58.4
148.3
7.3
18.5
18.9
48.0
2.3
5.8
15.9
40.4
15.9
40.4
18.9
48.0
10.6
26.9
1” Swivel 1” Swivel
1/2"
Female
14.4
36.6
12.1
30.7
9.6
24.4
Discharge Connection
duct flange installed (±0.10 in)
Return Connection
using std deluxe filter rack (±0.10 in)
Q
Supply
Depth
R
Misc
N
O
P
Supply
Width
S
T
Return
Depth
U
Return
Height
V
W
X
Y
39.4
100.1
9.1
23.1
13.3
33.8
13.6
34.5
8.1
20.6
1.7
4.3
28.1
71.4
30.0
76.2
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
43.4
110.2
9.1
23.1
13.3
33.8
13.6
34.5
8.1
20.6
1.7
4.3
28.1
71.4
34.0
86.4
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
43.4
110.2
9.1
23.1
13.3
33.8
13.6
34.5
8.1
20.6
1.7
4.3
28.1
71.4
34.0
86.4
2.2
5.6
28.7
72.9
1.0
2.5
2.1
5.3
10/16/2013
Condensate is 3/4 in. PVC female glue socket and is switchable from side to front
Unit shipped with deluxe 2 in. (field adjustable to 1 in.) duct collar/filter rack extending from unit 3.25 in. and is suitable for duct connection.
Discharge flange is field installed and extends 1 in. [25.4 mm] from cabinet
Decorative molding and water connections extend 1.2 in. [30.5 mm] beyond front of cabinet.
20
SYNERGY3D SPECIFICATION CATALOG
Physical Data
Model
038
049
Compressor (1 each)
064
072
Copeland Scroll
Factory Charge R410a, oz [kg]
82 [2.32]
102 [2.89]
120 [3.40]
120 [3.40]
ECM Fan Motor & Blower
Fan Motor Type/Speeds
Variable Speed ECM
Fan Motor- hp [W]
1/2
[373]
Blower Wheel Size (Dia x W), in. [mm]
11 x 10
[279 x 254]
Loop Water Connections Size - Swivel - in [mm]
Hydronic Water Connections Size - Swivel - in [mm]
1/2
[373]
1 [746]
1 [746]
11 x 10
[279 x 254]
11 x 10
[279 x 254]
11 x 10
[279 x 254]
1” [25.4]
1” [25.4]
1” [25.4]
1” [25.4]
1” [25.4]
1” [25.4]
1” [25.4]
1” [25.4]
HWG Connection Size - Female Sweat (I.D.) - in [mm]
1/2” [12.7]
1/2” [12.7]
1/2” [12.7]
1/2” [12.7]
Coax & Piping Water Volume - gal [l]
1.3 [4.9]
1.6 [6.1]
1.6 [6.1]
1.6 [6.1]
Air Coil Dimensions (H x W), in. [mm]
28 x 25
[711 x 635]
32 x 25
[813 x 635]
36 x 25
[914 x 635]
36 x 25
[914 x 635]
Air Coil Total Face Area, ft2 [m2]
4.9 [0.451]
5.6 [0.570]
6.3 [0.641]
6.3 [0.641]
3/8 [9.5]
3/8 [9.5]
3/8 [9.5]
3/8 [9.5]
3
3
4
4
28 x 30
[712 x 762]
32 x 30
[813 x 762]
36 x 30
[914 x 762]
36 x 30
[914 x 762]
Coax and Water Piping
Vertical
Air Coil Tube Size, in [mm]
Air Coil Number of rows
Filter Standard - 2” [51mm] Pleated MERV11
Disposable, in [mm]
Weight - Operating, lb [kg]
425
530
540
540
Weight - Packaged, lb [kg]
445
550
560
560
3/15/17
21
SYNERGY3D SPECIFICATION CATALOG
Auxiliary Heat
Auxiliary Heat Electrical Data
Model
EAL(H)10A
EAL(H)15A
EAL(H)20A
Supply
Circuit
Heater Amps
Min Circuit Amp
Max Fuse (USA)
Max Fuse (CAN)
208V
Single
34.7
Single
Max CKT BRK
240V
208V
240V
208V
240V
208V
240V
208V
240V
40
53.3
60
60
60
60
60
60
60
52.0
60
75
85
80
90
80
90
70
100
L1/L2
34.7
40
53.3
60
60
60
60
60
60
60
L3/L4
17.3
20
21.7
25
25
25
25
25
20
30
Single
69.3
80
96.7
110
100
110
100
110
100
100
L1/L2
34.7
40
53.3
60
60
60
60
60
60
60
L3/L4
34.7
40
43.3
50
45
50
45
50
40
50
All heaters rated single phase 60 cycle and include unit fan load
All fuses type “D” time delay (or HACR circuit breaker in USA)
Vertical rear discharge models use the horizontal (EALH) auxiliary heat kit
Auxiliary Heat Ratings
Model
KW
Compatibility
208V
230V
2
24,600
32,700
1100
•
14.4
3
36,900
49,100
1250
•
19.2
4
49,200
65,500
1500
208V
230V
7.2
9.6
EAL15A
10.8
EAL20A
14.4
EAL10A
BTU/HR
Min
CFM
Stages
038
049
064
072
•
•
•
•
•
•
•
•
•
NOTES: The heat pump requires Medium and High blower setting to be above the minimum CFM for the heater selected.
Rear discharge uses the horizontal auxiliary heat kits, EALH10A, 15A, or 20A.
22
5/6/09
SYNERGY3D SPECIFICATION CATALOG
Electrical Data
Compressor
LRA**
Int
Pump
FLA
Ext
Loop
FLA
Blower
Motor
FLA
Total
Unit
FLA
Min
Circ
Amp
Max
Fuse/
HACR
30.0
1.07
5.4
4.0
25.7
29.5
40
83.0
30.0
1.07
5.4
7.0
28.7
32.5
45
104.0
37.0
1.07
5.4
4.0
31.6
36.8
50
104.0
37.0
1.07
5.4
7.0
34.6
39.9
60
152.9
54.0
1.07
5.4
7.0
40.5
47.3
70
179.2
63.0
1.07
5.4
7.0
43.1
50.5
Model
Rated
Voltage
Voltage
Min/Max
MCC
RLA
LRA
038
208-230/60/1
187/253
23.8
15.2
83.0
038*
208-230/60/1
187/253
23.8
15.2
049
208-230/60/1
187/253
33.0
21.1
049*
208-230/60/1
187/253
33.0
21.1
064
208-230/60/1
187/253
42.3
27.1
072
208-230/60/1
187/253
46.3
29.6
Rated Voltage of 208-230/60/1.
HACR circuit breaker in USA only.
Local electrical codes overrule any wiring recommendations.
* With optional 1 HP ECM motor
**With optional IntelliStart
Min/Max Voltage of 187/253.
All fuses Class RK-5.
23
80
09/24/13
SYNERGY3D SPECIFICATION CATALOG
Blower Performance Data
Model
038
Max
ESP
Air Flow Dip Switch Settings
1
2
3
4
5
6
7
8
9
650
750
850
1000
1100
1200
1300
1400
1500
1450
1550
11
12
2200
2300
2400
0.50
L
800
038
w/1hp*
0.75
049
0.50
1000
L
650
800
800
900
M
1100
1300
M
H
900
1000
H
1500
1600
1800
1050
1150
1250
1350
1200
1400
1600
1700
1850
2000
M
H
1500
1750
1950
2100
2300
2100
2300
L
049
w/1hp*
0.75
064
0.75
M
L
800
950
1100
1300
L
800
072
10
950
M
1100
1300
1500
H
H
1750
1950
0.75
L
M
Factory settings are at recommended L-M-H DIP switch locations
M-H settings MUST be located within boldface CFM range
Lowest and Highest DIP switch settings are assumed to be
L and H respectively
H
CFM is controlled within ±5% up to the maximum ESP
Max ESP includes allowance for wet coil and standard filter
AE
=\
A 12-position DIP switch package on the heat pump control allows the airflow levels to be set
for Low, Medium and High speed when using the variable speed ECM blower motor.
Only three of the DIP switches can be in the “On” position. The first “On” switch (the lowest
position number) determines the “Low Speed Blower” setting. The second “On” switch
determines the “Medium Speed Blower” setting, and the third “On” switch determines the
“High Speed Blower” setting.
"
!
#
$
%
&
The example to the right shows SW1 on the heat pump control board configured for the
following 049 airflow settings:
Low Speed Blower: 800 CFM
Medium Speed Blower: 1350 CFM
High Speed Blower: 1550 CFM
24
'
SYNERGY3D SPECIFICATION CATALOG
Reference Calculations
Heating Calculations:
LWT = EWT -
HE
GPM x 500
LAT = EAT +
HC
CFM x 1.08
Cooling Calculations:
LWT = EWT +
HR
GPM x 500
SC
LAT (DB) = EAT (DB) -
CFM x 1.08
LC = TC - SC
TH = HC + HW
S/T =
SC
TC
Legend and Notes
ABBREVIATIONS AND DEFINITIONS
CFM
= airflow, cubic feet/minute
COP
= coefficient of performance
= (btu output/btu input)
= [HC/(kw x 3.413)]
EAT
= entering air temperature °F
EER
= energy efficiency ratio
= btu output / watt input
ELT
= entering load fluid temperature to heat pump
EST
= entering source fluid temperature to heat pump
EWT
= entering water temperature (source) to heat pump
FT HD
= pressure drop in feet of head
GPM
= gallons per minute
HC
= total heating capacity in MBTUH
HE
= heat extracted in MBTUH
HR
= heat rejected in MBTUH
KW
LAT
LC
LGPM
LLT
LST
LWPD
LWT
PSI
S/T
SC
SWPD
TC
TH
WPD
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
kilowatts
leaving air temperature °F
latent cooling capacity in MBTUH
load flow in gallons per minute
leaving load fluid temperature from heat pump
leaving source fluid temperature from heat pump
load coax water pressure drop
leaving water temperature °F
pressure drop in pounds per square inch
sensible to total cooling ratio
sensible cooling capacity in MBTUH
source coax water pressure drop
total cooling capacity in MBTUH
total heating capacity in MBTUH
water pressure drop in PSI, feet of water
Notes to Performance Data Tables
The following notes apply to all Performance Data tables:
• Performance ratings are based on 80°F DB / 67°F WB EAT for cooling and 70°F DB EAT for heating.
• Three flow rates are shown for each unit. The lowest flow rate shown is used for geothermal open loop/well water systems
with a minimum of 50°F EWT. The middle flow rate shown is the minimum geothermal closed loop flow rate. The highest
flow rate shown is optimum for geothermal closed loop systems and the suggested flow rate for boiler/tower applications.
• The hot water generator numbers are based on a flow rate of 0.4 GPM/ton of rated capacity with an EWT of 90°F.
• Entering water temperatures below 40°F assumes 15% antifreeze solution.
• For non-standard EAT conditions, apply the appropriate Correction Factors table(s).
• Interpolation between EWT, GPM and CFM data is permissible, extrapolation is not.
• Pumping power is not included in the Performance Data tables nor are calculations for AHRI/ISO 13256-1.
25
SYNERGY3D SPECIFICATION CATALOG
Operating Limits
Operating Limits
Cooling
(°F)
NOTE: Minimum/maximum limits are only for start-up conditions, and
are meant for bringing the space up to occupancy temperature. Units
are not designed to operate at the minimum/maximum conditions on
a regular basis. The operating limits are dependant upon three primary
factors: 1) water temperature, 2) return air temperature, and 3) ambient
temperature. When any of the factors are at the minimum or maximum
levels, the other two factors must be at the normal level for proper and
reliable unit operation.
Heating
(°C)
(°F)
(°C)
Air Limits
Min. Ambient Air
45
7.2
45
7.2
Rated Ambient Air
80
26.7
70
21.1
Max. Ambient Air
100
37.8
85
29.4
Min. Entering Air
50
10.0
40
4.4
27/19
68
20.0
43/28.3
80
26.7
-6.7
Rated Entering Air db/wb 80.6/66.2
Max. Entering Air db/wb
Water Limits
Min. Entering Water
Normal Entering Water
Max. Entering Water
110/83
30
-1.1
20
50-110
10-43.3
30-70
-1.1
120
48.9
90
32.2
26
SYNERGY3D SPECIFICATION CATALOG
Antifreeze Corrections
Catalog performance can be corrected for antifreeze use. Please use the following table and note the example given.
Antifreeze Type
EWT - °F [°C]
Water
Ethylene Glycol
Propylene Glycol
Ethanol
Methanol
Antifreeze % by wt
0
10
20
30
40
50
10
20
30
40
50
10
20
30
40
50
10
20
30
40
50
Heating
30 [-1.1]
1.000
0.973
0.943
0.917
0.890
0.865
0.958
0.913
0.854
0.813
0.770
0.927
0.887
0.856
0.815
0.779
0.957
0.924
0.895
0.863
0.833
Cooling
90 [32.2]
1.000
0.991
0.979
0.965
0.955
0.943
0.981
0.969
0.950
0.937
0.922
0.991
0.972
0.947
0.930
0.911
0.986
0.970
0.951
0.936
0.920
Pressure Drop
30 [-1.1]
1.000
1.075
1.163
1.225
1.324
1.419
1.130
1.270
1.433
1.614
1.816
1.242
1.343
1.383
1.523
1.639
1.127
1.197
1.235
1.323
1.399
WARNING: Gray area represents antifreeze concentrations greater than 35% by weight and should
be avoided due to the extreme performance penalty they represent.
Antifreeze Correction Example
Antifreeze solution is Propylene Glycol 20% by weight. Determine the corrected heating and cooling performance at 30°F
and 90°F respectively as well as pressure drop at 30°F for a Synergy3D Model 038.
The corrected cooling capacity at 90°F would be: 36,800 MBtu/h x 0.969 = 35,659 MBtu/h
The corrected heating capacity at 30°F would be: 26,600 MBtu/h x 0.913 = 24,286 MBtu/h
The corrected pressure drop at 30°F and 9 gpm would be: 7.9 feet of head x 1.270 = 10.03 feet of head
27
SYNERGY3D SPECIFICATION CATALOG
Correction Factor Tables
Air Flow Corrections (Dual Capacity Part Load)
Airflow
CFM Per Ton
% of Nominal
of Clg
240
60
275
69
300
75
325
81
350
88
375
94
400
100
425
106
450
113
475
119
500
125
520
130
Cooling
Heating
Total Cap
Sens Cap
Power
Heat of Rej
Htg Cap
Power
0.922
0.944
0.957
0.970
0.982
0.991
1.000
1.007
1.013
1.017
1.020
1.022
0.778
0.830
0.866
0.900
0.933
0.968
1.000
1.033
1.065
1.099
1.132
1.159
0.956
0.962
0.968
0.974
0.981
0.991
1.000
1.011
1.023
1.037
1.052
1.064
0.924
0.944
0.958
0.970
0.980
0.991
1.000
1.008
1.015
1.022
1.027
1.030
0.943
0.958
0.968
0.977
0.985
0.993
1.000
1.007
1.012
1.018
1.022
1.025
1.239
1.161
1.115
1.075
1.042
1.018
1.000
0.990
0.987
0.984
0.982
0.979
Heat of Ext
0.879
0.914
0.937
0.956
0.972
0.988
1.000
1.010
1.018
1.025
1.031
1.034
5/30/06
Air Flow Corrections (Dual Capacity Full Load & Single Speed)
Airflow
CFM Per Ton
% of Nominal
of Clg
240
60
275
69
300
75
325
81
350
88
375
94
400
100
425
106
450
113
475
119
500
125
520
130
Cooling
Heating
Total Cap
Sens Cap
Power
Heat of Rej
Htg Cap
Power
0.922
0.944
0.959
0.971
0.982
0.992
1.000
1.007
1.012
1.017
1.019
1.020
0.786
0.827
0.860
0.894
0.929
0.965
1.000
1.034
1.065
1.093
1.117
1.132
0.910
0.924
0.937
0.950
0.964
0.982
1.000
1.020
1.042
1.066
1.092
1.113
0.920
0.940
0.955
0.967
0.978
0.990
1.000
1.010
1.018
1.026
1.033
1.038
0.943
0.958
0.968
0.977
0.985
0.993
1.000
1.007
1.013
1.018
1.023
1.026
1.150
1.105
1.078
1.053
1.031
1.014
1.000
0.990
0.983
0.980
0.978
0.975
Heat of Ext
0.893
0.922
0.942
0.959
0.973
0.988
1.000
1.011
1.020
1.028
1.034
1.038
5/30/06
Cooling Capacity Corrections
Entering
Air WB °F
Total
Clg Cap
55
60
63
65
66.2
67
70
75
0.898
0.912
0.945
0.976
0.983
1.000
1.053
1.168
60
0.723
65
0.866
0.632
Sensible
70
1.048
0.880
0.768
0.694
0.655
0.616
Cooling Capacity Multipliers - Entering
75
80
80.6
85
1.185
*
*
*
1.078
1.244
1.260
*
0.960
1.150
1.175
*
0.881
1.079
1.085
1.270
0.842
1.040
1.060
1.232
1.000
0.806
1.023
1.193
0.693
0.879
0.900
1.075
0.687
0.715
0.875
NOTE: *Sensible capacity equals total capacity at conditions shown.
Heating Capacity Corrections
Ent Air DB °F
45
50
55
60
65
68
70
75
80
Htg Cap
1.062
1.050
1.037
1.025
1.012
1.005
1.000
0.987
0.975
Heating Corrections
Power
0.739
0.790
0.842
0.893
0.945
0.976
1.000
1.048
1.099
Heat of Ext
1.158
1.130
1.096
1.064
1.030
1.012
1.000
0.970
0.930
11/10/09
28
DB °F
90
*
*
*
*
*
1.330
1.250
1.040
95
*
*
*
*
*
1.480
1.404
1.261
100
*
*
*
*
*
*
*
1.476
Power
Input
0.985
0.994
0.996
0.997
0.999
1.000
1.003
1.007
Heat of
Rejection
0.913
0.927
0.954
0.972
0.986
1.000
1.044
1.141
03/28/12
SYNERGY3D SPECIFICATION CATALOG
Pressure Drop
Model
038
full
load
038
part
load
049
full
load
049
part
load
064
full
load
064
part
load
072
full
load
072
part
load
gpm
5
7
9
11
4
6
8
10
6
9
12
15
5
8
11
14
8
12
16
20
6
10
14
18
12
15
18
21
10
13
16
19
30°F
1.2
2.2
3.4
4.9
0.9
1.7
2.8
4.2
1.2
2.4
3.9
5.7
1.1
2.0
3.4
5.0
2.0
3.6
6.5
9.7
1.2
2.6
5.0
8.1
3.6
5.7
8.1
10.8
2.6
4.1
6.5
8.9
Pressure Drop (psi)
50°F
70°F
90°F
1.2
1.1
1.0
2.1
1.9
1.8
3.2
3.0
2.8
4.6
4.3
4.0
0.8
0.8
0.7
1.6
1.5
1.4
2.6
2.5
2.3
3.9
3.7
3.4
1.2
1.1
1.0
2.2
2.1
2.0
3.6
3.4
3.2
5.3
5.0
4.7
1.1
1.0
0.9
1.8
1.7
1.6
3.1
2.9
2.8
4.7
4.4
4.1
1.8
1.7
1.6
3.3
3.2
3.0
6.0
5.6
5.2
9.1
8.5
8.0
1.2
1.1
1.0
2.5
2.3
2.1
4.7
4.4
4.1
7.6
7.1
6.6
3.3
3.2
3.0
5.3
5.0
4.7
7.6
7.1
6.6
10.1
9.5
8.9
2.5
2.3
2.1
4.0
3.7
3.4
6.0
5.8
5.4
8.4
7.9
7.4
110°F
1.0
1.7
2.6
3.7
0.7
1.3
2.1
3.2
1.0
1.8
2.9
4.3
0.9
1.5
2.5
3.8
1.5
2.6
4.8
7.4
1.0
2.0
3.8
6.1
2.6
4.3
6.1
8.2
2.0
3.3
5.0
6.9
6/8/11
29
SYNERGY3D SPECIFICATION CATALOG
SDV038 Low Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
WPD
HEATING - EAT 70°F
Flow
gpm
PSI
FT
4.0
0.9
2.2
6.0
1.8
4.1
8.0
2.9
6.8
4.0
0.9
2.1
6.0
1.7
3.9
8.0
2.8
6.6
4.0
0.9
2.0
6.0
1.7
3.8
8.0
2.8
6.4
4.0
0.9
2.0
6.0
1.6
3.7
8.0
2.7
6.2
4.0
0.8
1.9
6.0
1.6
3.6
8.0
2.6
6.0
4.0
0.8
1.8
6.0
1.5
3.5
8.0
2.5
5.8
4.0
0.8
1.8
6.0
1.4
3.3
8.0
2.4
5.6
4.0
0.7
1.7
6.0
1.4
3.2
8.0
2.3
5.4
4.0
0.7
1.7
6.0
1.3
3.1
8.0
2.2
5.2
4.0
0.7
1.6
6.0
1.3
3.0
8.0
2.2
5.0
4.0
0.7
1.5
6.0
1.2
2.9
8.0
2.1
4.8
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
-
Operation not recommended
Operation not recommended
900
15.1
1.60
9.6
85.5
2.75
2.4
1050
15.7
1.65
10.1
83.8
2.80
2.2
900
16.8
1.58
11.4
87.3
3.12
2.3
900
25.8
15.6
0.60
0.92
29.0
28.0
1050
17.5
1.62
12.0
85.4
3.17
2.1
1050
26.3
17.0
0.65
0.97
29.6
27.0
-
900
17.9
1.62
12.3
88.4
3.24
2.4
900
26.0
15.6
0.60
0.90
29.0
29.0
-
1050
18.6
1.66
12.9
86.4
3.29
2.2
1050
26.6
17.0
0.64
0.94
29.8
28.3
-
Operation not recommended
Operation not recommended
Operation not recommended
Operation not recommended
900
20.4
1.59
14.9
91.0
3.76
2.5
900
28.2
17.0
0.60
1.03
31.7
27.4
-
1050
21.1
1.62
15.5
88.6
3.81
2.3
1050
28.7
18.6
0.65
1.08
32.4
26.6
-
900
21.5
1.63
15.9
92.1
3.87
2.6
900
28.4
17.0
0.60
1.00
31.8
28.4
-
1050
22.2
1.66
16.5
89.6
3.92
2.4
1050
29.1
18.6
0.64
1.05
32.6
27.8
0.9
900
23.1
1.60
17.7
93.8
4.24
2.6
900
29.9
17.6
0.59
1.17
33.9
25.6
1050
23.8
1.62
18.3
91.0
4.31
2.4
1050
30.7
19.5
0.63
1.19
34.8
25.8
1.0
900
23.9
1.60
18.5
94.6
4.38
2.7
900
30.2
17.7
0.59
1.14
34.0
26.5
0.9
1050
24.7
1.62
19.1
91.7
4.46
2.5
1050
31.0
19.6
0.63
1.16
34.9
26.7
1.0
900
25.1
1.64
19.5
95.8
4.48
2.8
900
30.6
18.2
0.59
1.13
34.5
27.2
0.8
1050
25.8
1.66
20.1
92.8
4.56
2.5
1050
31.5
20.1
0.64
1.15
35.4
27.4
0.9
900
26.7
1.65
21.1
97.5
4.75
2.9
900
28.8
18.4
0.64
1.31
33.2
22.1
1.3
1050
27.4
1.66
21.7
94.1
4.83
2.6
1050
29.6
20.4
0.69
1.33
34.1
22.2
1.3
900
27.8
1.65
22.2
98.6
4.95
3.0
900
29.1
18.5
0.64
1.27
33.4
22.8
1.2
1050
28.4
1.66
22.8
95.1
5.03
2.7
1050
29.9
20.5
0.69
1.30
34.3
23.0
1.3
900
28.8
1.68
23.0
99.6
5.00
3.0
900
29.5
19.0
0.64
1.26
33.8
23.4
1.1
1050
29.4
1.69
23.6
95.9
5.09
2.8
1050
30.4
21.1
0.69
1.29
34.7
23.6
1.2
900
30.3
1.70
24.5
101.2
5.22
3.2
900
27.7
19.3
0.70
1.44
32.6
19.2
1.7
1050
30.9
1.70
25.1
97.2
5.32
2.9
1050
28.5
21.3
0.75
1.47
33.5
19.4
1.8
900
31.6
1.69
25.8
102.5
5.47
3.3
900
28.0
19.4
0.69
1.41
32.7
19.9
1.6
1050
32.2
1.69
26.4
98.4
5.58
3.0
1050
28.7
21.5
0.75
1.43
33.6
20.1
1.8
900
32.4
1.73
26.5
103.4
5.50
3.4
900
28.4
19.9
0.70
1.39
33.2
20.4
1.5
1050
33.0
1.73
27.1
99.1
5.60
3.1
1050
29.2
22.0
0.75
1.42
34.0
20.6
1.7
900
33.4
1.73
27.5
104.4
5.65
3.6
900
26.4
19.0
0.72
1.63
31.9
16.2
2.4
1050
33.9
1.72
28.0
99.9
5.76
3.3
1050
27.1
21.1
0.78
1.66
32.8
16.3
2.6
900
35.0
1.72
29.2
106.1
5.96
3.7
900
26.6
19.2
0.72
1.59
32.0
16.8
2.3
1050
35.5
1.71
29.6
101.3
6.07
3.4
1050
27.3
21.2
0.78
1.62
32.9
16.9
2.5
900
35.5
1.76
29.5
106.6
5.92
3.8
900
27.0
19.7
0.73
1.57
32.4
17.2
2.1
1050
35.9
1.74
30.0
101.7
6.03
3.5
1050
27.8
21.8
0.78
1.61
33.3
17.3
2.3
900
36.6
1.77
30.5
107.6
6.06
4.0
900
25.0
18.8
0.75
1.82
31.2
13.8
3.2
1050
36.9
1.75
30.9
102.5
6.18
3.7
1050
25.7
20.8
0.81
1.85
32.1
13.9
3.4
3.0
900
38.5
1.75
32.5
109.6
6.42
4.2
900
25.3
18.9
0.75
1.77
31.3
14.3
1050
38.7
1.73
32.8
104.1
6.56
3.8
1050
26.0
21.0
0.81
1.81
32.1
14.4
3.3
900
38.6
1.79
32.5
109.7
6.33
4.3
900
25.7
19.4
0.76
1.76
31.7
14.6
2.8
1050
38.8
1.76
32.8
104.2
6.46
4.0
1050
26.4
21.5
0.81
1.79
32.5
14.7
3.1
Operation not recommended
900
23.6
18.3
0.78
2.00
30.5
11.8
3.9
1050
24.3
20.3
0.83
2.04
31.3
11.9
4.2
900
24.0
18.8
0.78
1.99
30.8
12.1
3.6
1050
24.7
20.8
0.84
2.03
31.6
12.2
4.0
900
22.0
17.7
0.80
2.24
29.6
9.8
5.0
1050
22.6
19.6
0.87
2.28
30.4
9.9
5.4
900
22.4
18.2
0.81
2.22
29.9
10.1
4.6
1050
23.0
20.1
0.87
2.26
30.7
10.2
5.1
Operation not recommended
Operation not recommended
Operation not recommended
900
20.4
17.8
0.87
2.55
29.1
8.0
5.9
1050
20.8
19.3
0.93
2.61
29.7
7.9
6.4
900
20.6
17.8
0.86
2.46
29.0
8.3
5.5
1050
21.0
19.3
0.92
2.54
29.7
8.3
6.1
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
30
SYNERGY3D SPECIFICATION CATALOG
SDV038 High Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
Flow
gpm
WPD
HEATING - EAT 70°F
PSI
FT
5.0
1.3
3.0
7.0
2.2
5.1
9.0
3.5
8.1
5.0
1.2
2.9
7.0
2.2
5.0
9.0
3.4
7.9
5.0
1.2
2.8
7.0
2.1
4.8
9.0
3.3
7.6
5.0
1.2
2.7
7.0
2.0
4.7
9.0
3.2
7.4
5.0
1.1
2.6
7.0
2.0
4.5
9.0
3.1
7.2
5.0
1.1
2.5
7.0
1.9
4.4
9.0
3.0
6.9
5.0
1.1
2.5
7.0
1.8
4.2
9.0
2.9
6.7
5.0
1.0
2.4
7.0
1.8
4.1
9.0
2.8
6.5
5.0
1.0
2.3
7.0
1.7
3.9
9.0
2.7
6.2
5.0
1.0
2.2
7.0
1.6
3.8
9.0
2.6
6.0
5.0
0.9
2.1
7.0
1.6
3.6
9.0
2.5
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
Operation not recommended
1050
21.8
1250
22.5
2.01
14.9
89.2
3.17
2.8
2.07
15.4
86.6
3.18
2.5
Operation not recommended
Operation not recommended
Operation not recommended
1050
25.3
2.05
18.3
92.3
3.61
2.9
1050
38.4
23.3
0.61
1.59
43.8
24.1
-
1250
26.1
2.12
18.9
89.3
3.61
2.7
1100
39.0
25.5
0.65
1.68
44.7
23.3
-
1050
25.8
2.08
18.7
92.7
3.64
3.0
1050
38.6
23.3
0.61
1.54
43.8
25.0
-
1250
26.6
2.14
19.3
89.7
3.64
2.8
1100
39.5
25.5
0.65
1.62
45.0
24.4
-
1050
29.5
2.19
22.0
96.0
3.95
3.4
1050
40.6
25.4
0.63
1.76
46.6
23.0
-
1250
30.4
2.24
22.8
92.5
3.99
3.1
1100
41.3
27.8
0.67
1.85
47.6
22.3
-
1050
30.1
2.21
22.6
96.5
3.99
3.5
1050
40.9
25.4
0.62
1.71
46.7
23.9
-
1250
31.1
2.26
23.3
93.0
4.03
3.1
1100
41.8
27.8
0.66
1.79
47.9
23.4
-
1050
32.5
2.27
24.7
98.6
4.19
3.6
1050
40.6
25.0
0.62
2.03
47.5
20.0
1.7
1250
33.4
2.30
25.6
94.8
4.26
3.3
1100
42.7
27.8
0.65
2.14
50.0
20.0
1.8
1050
33.7
2.32
25.7
99.7
4.25
3.7
1050
41.5
25.3
0.61
1.91
48.0
21.7
1.6
Operation not recommended
Operation not recommended
1250
34.7
2.35
26.7
95.7
4.33
3.4
1100
43.6
28.1
0.64
2.01
50.5
21.7
1.8
1050
34.4
2.34
26.4
100.4
4.30
3.8
1050
41.9
27.0
0.64
1.87
48.2
22.4
1.5
1250
35.5
2.38
27.4
96.3
4.38
3.5
1100
44.1
30.0
0.68
1.96
50.8
22.5
1.7
1050
36.4
2.39
28.2
102.1
4.46
4.1
1050
39.1
24.9
0.64
2.19
46.6
17.9
2.1
1250
37.6
2.41
29.4
97.8
4.57
3.8
1100
41.0
27.7
0.67
2.29
48.8
18.0
2.2
1050
38.0
2.46
29.6
103.5
4.53
4.2
1050
40.1
25.2
0.63
2.08
47.2
19.3
2.0
1250
39.3
2.48
30.8
99.1
4.65
3.9
1100
42.0
27.9
0.67
2.17
49.4
19.4
2.1
1050
39.0
2.49
30.5
104.4
4.59
4.3
1050
40.5
26.5
0.66
2.03
47.4
19.9
1.8
1250
40.3
2.50
31.7
99.8
4.72
4.0
1100
42.5
29.5
0.69
2.12
49.7
20.0
2.0
1050
40.4
2.52
31.8
105.6
4.70
4.7
1050
37.7
24.8
0.66
2.35
45.7
16.1
2.6
1250
41.7
2.52
33.2
100.9
4.86
4.3
1100
39.3
27.6
0.70
2.44
47.6
16.1
2.8
1050
42.4
2.60
33.6
107.4
4.79
4.8
1050
38.7
25.1
0.65
2.25
46.3
17.2
2.4
1250
43.8
2.60
34.9
102.5
4.94
4.4
1100
40.3
27.8
0.69
2.32
48.2
17.3
2.6
1050
43.5
2.63
34.5
108.4
4.85
5.0
1050
39.0
26.1
0.67
2.19
46.5
17.8
2.3
1250
45.0
2.62
36.1
103.3
5.04
4.6
1100
40.8
28.9
0.71
2.28
48.6
17.9
2.5
1050
43.4
2.65
34.4
108.3
4.79
5.2
1050
35.9
24.6
0.69
2.57
44.6
14.0
3.2
1250
44.9
2.63
35.9
103.3
5.00
4.8
1100
37.3
27.3
0.73
2.65
46.3
14.1
3.4
1050
45.9
2.76
36.5
110.5
4.88
5.3
1050
36.9
24.9
0.67
2.48
45.3
14.9
3.0
1250
47.5
2.73
38.2
105.2
5.09
4.9
1100
38.4
27.6
0.72
2.55
47.1
15.0
3.3
1050
47.2
2.79
37.7
111.7
4.95
5.5
1050
37.3
25.5
0.68
2.43
45.5
15.4
2.8
1250
48.9
2.75
39.5
106.2
5.20
5.1
1100
38.8
28.3
0.73
2.50
47.3
15.5
3.1
1050
46.5
2.79
36.9
111.0
4.88
5.9
1050
34.1
24.4
0.72
2.79
43.6
12.2
4.0
1250
48.1
2.75
38.7
105.6
5.13
5.4
1100
35.3
27.1
0.77
2.86
45.0
12.4
4.3
1050
49.4
2.92
39.4
113.6
4.96
6.0
1050
35.1
24.7
0.70
2.71
44.3
13.0
3.7
1250
51.1
2.87
41.4
107.9
5.23
5.6
1100
36.4
27.4
0.75
2.78
45.9
13.1
4.1
1050
50.9
2.96
40.8
114.9
5.04
6.2
1050
35.5
24.9
0.70
2.66
44.6
13.3
3.5
1250
52.7
2.89
42.8
109.0
5.35
5.8
1100
36.8
27.6
0.75
2.72
46.1
13.5
3.9
4.6
Operation not recommended
1050
33.3
24.2
0.73
2.96
43.4
11.2
1100
34.4
26.9
0.78
3.01
44.6
11.4
5.0
1050
33.7
24.1
0.72
2.91
43.6
11.6
4.4
1100
34.8
26.7
0.77
2.96
44.8
11.8
4.8
5.6
Operation not recommended
Operation not recommended
1050
31.5
23.7
0.75
3.21
42.5
9.8
1100
32.4
26.3
0.81
3.24
43.4
10.0
6.1
1050
31.8
23.4
0.73
3.16
42.6
10.1
5.2
1100
32.7
25.8
0.79
3.19
43.6
10.3
5.8
6.8
Operation not recommended
5.8
1050
29.5
22.8
0.77
3.57
41.7
8.3
1100
30.0
24.8
0.83
3.66
42.5
8.2
7.4
1050
29.8
22.8
0.77
3.45
41.5
8.6
6.3
1100
30.4
24.8
0.82
3.56
42.5
8.5
7.0
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
31
SYNERGY3D SPECIFICATION CATALOG
SDV038 Water Heating Data
SOURCE 5.0 GPM
ELT EST LGPM
LLT
SWPD
HWC
FT MBtuh
COP LST PSI
LLT
HD
SOURCE 7.0 GPM
HC
30
KW
HE
7.0
88.0 25.8
1.99
19.0
3.8
22.2
1.1
2.5
2.8
88.2 26.5 2.00 19.7
3.9
23.8 2.3 5.2
2.8
9.0
85.7 25.8
1.96
19.1
3.9
22.1
1.1
2.5
2.6
85.9 26.4
3.9
23.7 2.3 5.2
2.7
80
80
80
40
50
60
70
100 50
100 60
100 70
120 50
120 60
120 70
1.97
19.7
88.4
27.1
2.01 20.3
4.0
25.4 3.4 7.9
2.9
86.0
27.1
1.97
20.3
4.0
25.3 3.4 7.9
2.8
90.0 32.2 2.08
3.3
89.5 30.5 2.06 23.5
4.3
30.3
1.1
2.5
3.1
89.7
31.4
2.07 24.3
4.4
32.3 2.2
5.1
3.2
25.1
4.5
34.4 3.3 7.7
86.8 30.6 2.03 23.7
4.4
30.2
1.1
2.5
3.0
87.0
31.4 2.04 24.4
4.5
32.3 2.2
5.1
3.1
87.1
32.2 2.04 25.2
4.6
34.4 3.3 7.7
3.1
5.0
94.0 34.9
2.16
4.7
38.6
1.1
2.4
3.6
94.4 36.1
2.18
28.6
4.8
41.0 2.2 5.0
3.7
94.9 37.3 2.20 29.7
5.0
43.4 3.3 7.5
3.8
7.0
90.9 35.2
2.13
27.9
4.8
38.5
1.1
2.4
3.5
91.3
36.2
2.15
28.9
4.9
40.9 2.2 5.0
3.6
91.6
37.3
2.16
29.9
5.1
43.4 3.3 7.5
3.7
9.0
87.9 35.5
2.11
28.3
4.9
38.3
1.1
2.4
3.4
88.1
36.4
2.11
29.2
5.1
40.8 2.2 5.0
3.4
88.3 37.2
2.11
30.0
5.2
43.3 3.3 7.5
3.5
4.3
27.6
5.0
95.8 39.5 2.23
31.9
5.2
46.9 1.0
2.4
4.1
96.3 40.9 2.26 33.2
5.3
49.6 2.1 4.9
4.2
96.9 42.3 2.29 34.5
5.4
52.3 3.2 7.3
7.0
92.4 39.9
2.21
32.4
5.3
46.7 1.0
2.4
4.0
92.8
41.1
2.22 33.5
5.4
49.5
2.1 4.9
4.1
93.2 42.3 2.23 34.7
5.6
52.3 3.2 7.3
4.1
9.0
89.0 40.4 2.19
32.9
5.4
46.4 1.0
2.4
3.8
89.2
41.3
2.18
33.9
5.5
49.3
2.1 4.9
3.9
89.4 42.3
2.18
5.7
52.2 3.2 7.3
4.0
5.0
97.6 44.0 2.30
36.1
5.6
55.1
1.0
2.3
4.7
98.3 45.7 2.33
37.7
5.7
58.2
2.1 4.7
4.8
98.9 47.3
2.37 39.2
5.9
61.3
3.1
7.2
4.9
7.0
93.8 44.6 2.28 36.8
5.7
54.8 1.0
2.3
4.6
94.3 46.0 2.29 38.2
5.9
58.0
2.1 4.7
4.7
94.7 47.4
2.31
39.5
6.0
61.2
3.1
7.2
4.7
9.0
90.0 45.2 2.26 37.5
5.9
54.5 1.0
2.3
4.4
90.3 46.3 2.26 38.6
6.0
57.9
2.1 4.7
4.5
90.5 47.4 2.25 39.7
6.2
61.2
3.1
7.2
4.6
107.8 25.1
7.0
34.9
Operation Not Recommended
2.58
16.3
2.9
23.3
1.1
2.5
2.7
108.0 25.6 2.58
16.8
2.9
24.7 2.3 5.2
2.7
108.1 26.1
2.58
17.3
3.0
26.2 3.4 7.9
2.8
9.0 105.6 25.0 2.53
16.3
2.9
23.3
1.1
2.5
2.6
105.7 25.5 2.54 16.9
2.9
24.7 2.3 5.2
2.6
105.8 26.1
2.54
17.4
3.0
26.1 3.4 7.9
2.7
7.0
Operation Not Recommended
109.1 29.4 2.64 20.3
3.3
31.6
1.1
2.5
3.0
109.3 30.0 2.65
21.0
3.3
33.4 2.2
5.1
3.1
109.5 30.7 2.66
21.6
3.4
35.2 3.3 7.7
3.1
9.0 106.5 29.4 2.60 20.5
3.3
31.5
1.1
2.5
2.9
106.7 30.0 2.60
21.1
3.4
33.4 2.2
5.1
3.0
106.8 30.7
21.8
3.4
35.2 3.3 7.7
3.0
3.6
2.61
5.0
113.4 33.5 2.75
24.1
3.6
40.1
1.1
2.4
3.5
113.7 34.4 2.77 24.9
3.6
42.2 2.2 5.0
3.5
114.1
35.2 2.78 25.7
3.7
44.3 3.3 7.5
7.0
110.5 33.6
24.4
3.6
39.9
1.1
2.4
3.4
110.7 34.4 2.72 25.2
3.7
42.1
2.2 5.0
3.4
111.0 35.2 2.73 25.9
3.8
44.2 3.3 7.5
3.5
9.0
107.5 33.8 2.67 24.7
3.7
39.8
1.1
2.4
3.2
107.7 34.5 2.67 25.4
3.8
42.0 2.2 5.0
3.3
107.8 35.2 2.67
3.9
44.2 3.3 7.5
3.3
2.8
2.71
26.1
5.0
115.1
37.7
2.82
28.1
3.9
48.4 1.0
2.4
3.9
115.5 38.7 2.84 29.0
4.0
50.9 2.1 4.9
4.0
115.9 39.7 2.86 30.0
4.1
53.3 3.2 7.3
7.0
111.8
37.9
2.77 28.5
4.0
48.3 1.0
2.4
3.8
112.1
38.9 2.79 29.3
4.1
50.8
2.1 4.9
3.8
112.4 39.8 2.80 30.2
4.2
53.3 3.2 7.3
2.7
9.0 108.5 38.2 2.73 28.9
4.1
48.1
2.4
3.6
108.7 39.0 2.73 29.7
4.2
50.7
2.1 4.9
3.7
108.8 39.8 2.74 30.5
4.3
53.2 3.2 7.3
3.8
5.0
116.7 41.8
7.0
113.1
1.0
2.88 32.0
4.3
56.8 1.0
2.3
4.5
117.2
33.1
4.3
59.6
2.1 4.7
4.6
117.7 44.3 2.94 34.2
4.4
62.4 3.1
7.2
4.6
42.2 2.84 32.5
4.4
56.6 1.0
2.3
4.3
113.4 43.3 2.85 33.5
43.1
4.4
59.5
2.1 4.7
4.4
113.8 44.3 2.87 34.5
4.5
62.3
3.1
7.2
4.4
9.0 109.5 42.6 2.80 33.0
4.5
56.4 1.0
2.3
4.1
109.7 43.5 2.80 33.9
4.6
59.3
2.1 4.7
4.2
109.9 44.4 2.80 34.8
4.6
62.3
3.1
7.2
4.3
7.0
2.91
Operation Not Recommended
127.6 24.3
3.17
13.5
2.3
24.4
1.1
2.5
2.6
127.7 24.7
3.16
13.9
2.3
25.6 2.3 5.2
2.6
127.8 25.1
3.16
14.3
2.3
26.7 3.4 7.9
2.7
9.0 125.4 24.2
3.11
13.6
2.3
24.4
1.1
2.5
2.5
125.5 24.6
3.11
14.0
2.3
25.5 2.3 5.2
2.5
125.6 25.1
3.12
14.4
2.4
26.7 3.4 7.9
2.6
128.8 28.2 3.23
17.2
2.6
32.9
1.1
2.5
2.9
128.9 28.7 3.23
3.0
5.0
120 40
KW
7.0
5.0
120 30
COP LST PSI
HWC
FT MBtuh
HD
HC
9.0
5.0
100 40
HE
SWPD
Operation Not Recommended
5.0
100 30
SOURCE 9.0 GPM
Operation Not Recommended
5.0
80
HE
HWC
FT MBtuh
COP LST PSI
LLT
HD
HC
5.0
80
KW
SWPD
7.0
Operation Not Recommended
17.7
2.6
34.4 2.2
5.1
2.9
129.1 29.2 3.23
18.1
2.6
36.0 3.3 7.7
9.0 126.3 28.1
3.17
17.3
2.6
32.9
1.1
2.5
2.8
126.4 28.6
3.17
17.8
2.6
34.4 2.2
5.1
2.8
126.5 29.2
3.18
18.3
2.7
35.9 3.3 7.7
2.9
5.0
132.8 32.1
3.34 20.7
2.8
41.5
1.1
2.4
3.3
133.1 32.6 3.35
21.2
2.9
43.3 2.2 5.0
3.4
133.3 33.2 3.36
21.7
2.9
45.2 3.3 7.5
3.4
7.0 130.0 32.1
3.28 20.9
2.9
41.4
1.1
2.4
3.2
130.2 32.6 3.29
21.4
2.9
43.3 2.2 5.0
3.2
130.3 33.2 3.30 22.0
3.0
45.1
3.3 7.5
3.3
9.0
3.22
21.1
2.9
41.3
1.1
2.4
3.0
127.3 32.7 3.23
21.6
3.0
43.2 2.2 5.0
3.1
127.4 33.2 3.23 22.2
3.0
45.1
3.3 7.5
3.1
5.0 134.4 35.9 3.40 24.3
3.1
50.0 1.0
2.4
3.8
134.6 36.5 3.42 24.9
3.1
52.1
2.1 4.9
3.8
134.9 37.2 3.43 25.5
3.2
54.3 3.2 7.3
2.6
7.0
131.2 36.0 3.34 24.6
3.2
49.9 1.0
2.4
3.6
131.4 36.6 3.35 25.2
3.2
52.0
2.1 4.9
3.6
131.6 37.3 3.36 25.8
3.2
54.3 3.2 7.3
2.5
9.0 128.0 36.0 3.28 24.8
3.2
49.8 1.0
2.4
3.4
128.1 36.7 3.29 25.5
3.3
51.9
2.1 4.9
3.5
128.3 37.3 3.29
26.1
3.3
54.2 3.2 7.3
3.5
4.3
127.1
32.1
5.0 135.9 39.7 3.46 27.9
3.4
58.5 1.0
2.3
4.3
136.2 40.5 3.49 28.6
3.4
60.9 2.1 4.7
4.3
136.5 41.2
3.51
29.2
3.4
63.3
3.1
7.2
7.0
132.4 39.8 3.40 28.2
3.4
58.4 1.0
2.3
4.1
132.6 40.6 3.42 28.9
3.5
60.8 2.1 4.7
4.1
132.8 41.3
3.43 29.6
3.5
63.2
3.1
7.2
4.1
9.0 128.9 40.0 3.34 28.6
3.5
58.2 1.0
2.3
3.9
129.0 40.7 3.34 29.3
3.6
60.7
3.9
129.2 41.4
3.35 30.0
3.6
63.1
3.1
7.2
4.0
2.1 4.7
* Water heating mode only allows high compressor capacity operation.
2/21/11
ELT = entering load fluid temperature to heat pump
LLT = leaving load fluid temperature from heat pump
LGPM = load flow in gallons per minute
LWPD = load coax water pressure drop
EST = entering source fluid temperature to heat pump
LST = leaving source fluid temperature from heat pump
HWC = hot water generator capacity
SWPD = source coax water pressure drop
PSI = pressure drop in pounds per square inch
FT HD = pressure drop in feet of head
KW = kilowatts
HE = heat extracted in Btuh
HC = total heating capacity in Btuh
COP = coefficient of performance [HC/(kW x 3.413)]
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
32
SYNERGY3D SPECIFICATION CATALOG
SDV049 Low Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
Flow
gpm
WPD
PSI
HEATING - EAT 70°F
FT
5.0
1.2
2.7
8.0
2.0
4.6
11.0
3.4
7.8
5.0
1.1
2.6
8.0
1.9
4.5
11.0
3.3
7.6
5.0
1.1
2.5
8.0
1.9
4.3
11.0
3.2
7.4
5.0
1.1
2.5
8.0
1.8
4.2
11.0
3.1
7.2
5.0
1.0
2.4
8.0
1.8
4.1
11.0
3.0
6.9
5.0
1.0
2.3
8.0
1.7
3.9
11.0
2.9
6.7
5.0
1.0
2.2
8.0
1.6
3.8
11.0
2.8
6.5
5.0
0.9
2.2
8.0
1.6
3.7
11.0
2.7
6.2
5.0
0.9
2.1
8.0
1.5
3.5
11.0
2.6
6.0
5.0
0.9
2.0
8.0
1.5
3.4
11.0
2.5
5.8
5.0
0.8
1.9
8.0
1.4
3.3
11.0
2.4
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
-
Operation not recommended
1150
22.0
1350
22.8
2.06
15.0
87.7
3.13
4.1
2.09
15.7
85.6
3.20
3.7
Operation not recommended
Operation not recommended
Operation not recommended
1150
25.2
2.18
17.8
90.3
3.40
4.2
1150
34.8
22.3
0.64
1.22
38.9
28.6
1350
26.0
2.19
18.5
87.8
3.48
3.8
1350
35.3
24.4
0.69
1.28
39.7
27.5
-
1150
25.9
2.19
18.4
90.8
3.46
4.3
1150
34.9
22.3
0.64
1.18
39.0
29.6
-
1350
26.8
2.23
19.2
88.4
3.53
3.9
1350
35.8
24.4
0.68
1.24
40.0
28.9
-
Operation not recommended
Operation not recommended
1150
29.2
2.24
21.6
93.5
3.81
4.5
1150
37.6
25.6
0.68
1.37
42.3
27.3
1350
30.2
2.24
22.6
90.7
3.95
4.2
1350
38.3
27.9
0.73
1.44
43.2
26.5
-
1150
30.2
2.26
22.5
94.3
3.91
4.7
1150
37.9
25.6
0.68
1.33
42.4
28.4
-
1350
31.2
2.27
23.4
91.4
4.02
4.2
1350
38.7
27.9
0.72
1.40
43.5
27.7
-
1150
30.8
2.24
23.2
94.8
4.04
4.8
1150
39.3
26.5
0.68
1.81
45.5
21.7
1.6
1350
31.8
2.24
24.2
91.8
4.17
4.4
1350
40.5
31.3
0.77
1.88
46.9
21.5
1.7
1150
33.2
2.31
25.3
96.7
4.21
4.9
1150
40.1
26.7
0.66
1.57
45.5
25.6
1.5
1350
34.5
2.29
26.6
93.6
4.40
4.5
1350
41.4
31.4
0.76
1.64
47.0
25.2
1.6
1150
34.5
2.32
26.5
97.8
4.35
5.1
1150
40.4
26.7
0.66
1.47
45.4
27.4
1.4
1350
35.6
2.32
27.7
94.4
4.49
4.6
1350
41.6
31.4
0.75
1.55
46.9
26.8
1.5
1150
34.2
2.32
26.3
97.5
4.31
5.2
1150
37.7
26.0
0.69
1.98
44.5
19.0
2.3
1350
35.4
2.31
27.6
94.3
4.50
4.8
1350
38.9
30.6
0.79
2.07
46.0
18.8
2.4
1150
37.0
2.38
28.9
99.8
4.55
5.4
1150
38.3
26.2
0.68
1.76
44.3
21.8
2.1
1350
38.4
2.35
30.4
96.4
4.79
5.0
1350
39.5
30.8
0.78
1.84
45.8
21.5
2.3
1150
38.6
2.40
30.4
101.1
4.71
5.5
1150
38.8
26.3
0.68
1.67
44.5
23.2
1.9
1350
40.0
2.37
31.8
97.4
4.93
5.1
1350
40.0
30.9
0.77
1.75
45.9
22.9
2.2
3.0
1150
37.6
2.41
29.4
100.3
4.57
5.8
1150
36.2
25.5
0.71
2.16
43.5
16.8
1350
39.1
2.38
31.0
96.8
4.81
5.4
1350
37.3
30.0
0.80
2.26
45.0
16.5
3.1
1150
40.8
2.45
32.5
102.9
4.88
6.0
1150
36.5
25.8
0.70
1.95
43.2
18.7
2.8
1350
42.4
2.41
34.2
99.1
5.16
5.5
1350
37.7
30.3
0.80
2.04
44.6
18.5
3.0
1150
42.7
2.48
34.2
104.4
5.04
6.1
1150
37.2
25.9
0.70
1.87
43.5
19.9
2.6
1350
44.3
2.43
36.0
100.4
5.35
5.7
1350
38.3
30.4
0.79
1.94
44.9
19.7
2.8
1150
40.0
2.47
31.6
102.2
4.75
6.5
1150
34.5
24.8
0.72
2.36
42.6
14.6
4.2
4.4
1350
41.6
2.43
33.3
98.5
5.02
6.0
1350
35.6
29.2
0.82
2.46
44.0
14.5
1150
43.5
2.50
34.9
105.0
5.10
6.7
1150
34.7
25.1
0.72
2.19
42.2
15.8
3.9
1350
45.2
2.44
36.9
101.0
5.44
6.1
1350
35.8
29.5
0.83
2.28
43.5
15.7
4.2
1150
45.7
2.53
37.1
106.8
5.30
6.9
1150
35.5
25.3
0.71
2.10
42.7
16.9
3.6
1350
47.5
2.46
39.1
102.6
5.66
6.3
1350
36.6
29.8
0.81
2.19
44.1
16.8
4.0
5.4
1150
42.4
2.53
33.8
104.2
4.91
7.2
1150
32.9
24.2
0.73
2.56
41.7
12.9
1350
44.1
2.48
35.6
100.2
5.22
6.7
1350
34.0
28.4
0.84
2.67
43.1
12.7
5.7
1150
46.1
2.55
37.4
107.1
5.31
7.4
1150
32.9
24.5
0.74
2.43
41.2
13.6
5.0
1350
48.0
2.46
39.6
102.9
5.72
6.9
1350
33.9
28.8
0.85
2.52
42.4
13.4
5.5
1150
48.7
2.57
39.9
109.2
5.54
7.7
1150
33.9
24.7
0.73
2.33
41.8
14.5
4.7
1350
50.7
2.49
42.2
104.8
5.97
7.1
1350
34.9
29.1
0.83
2.43
43.2
14.4
5.2
Operation not recommended
1150
30.6
23.7
0.78
2.73
39.9
11.2
3.6
1350
31.5
28.0
0.89
2.84
41.2
11.1
3.9
1150
31.7
24.1
0.76
2.63
40.7
12.1
3.3
1350
32.7
28.3
0.87
2.75
42.0
11.9
3.7
Operation not recommended
Operation not recommended
1150
28.2
23.0
0.82
3.03
38.6
9.3
4.4
1350
29.2
27.1
0.93
3.15
39.9
9.3
4.7
1150
29.6
23.4
0.79
2.93
39.6
10.1
4.1
1350
30.4
27.5
0.90
3.06
40.8
9.9
4.5
1150
26.9
24.4
0.91
3.43
38.6
7.8
5.3
1350
27.4
26.5
0.97
3.52
39.4
7.8
5.7
1150
27.1
24.4
0.90
3.32
38.4
8.2
4.9
1350
27.7
26.5
0.96
3.42
39.4
8.1
Operation not recommended
5.6
5.4
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
33
SYNERGY3D SPECIFICATION CATALOG
SDV049 High Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
Flow
gpm
WPD
HEATING - EAT 70°F
PSI
FT
6.0
1.3
3.0
9.0
2.5
5.7
12.0
4.0
9.2
6.0
1.2
2.9
9.0
2.4
5.5
12.0
3.9
8.9
6.0
1.2
2.8
9.0
2.3
5.3
12.0
3.7
8.7
6.0
1.2
2.7
9.0
2.2
5.2
12.0
3.6
8.4
6.0
1.1
2.6
9.0
2.2
5.0
12.0
3.5
8.1
6.0
1.1
2.5
9.0
2.1
4.9
12.0
3.4
7.9
6.0
1.1
2.5
9.0
2.0
4.7
12.0
3.3
7.6
6.0
1.0
2.4
9.0
2.0
4.5
12.0
3.2
7.3
6.0
1.0
2.3
9.0
1.9
4.4
12.0
3.1
7.1
6.0
1.0
2.2
9.0
1.8
4.2
12.0
2.9
6.8
6.0
0.9
2.1
9.0
1.7
4.0
12.0
2.8
6.5
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
Operation not recommended
1350
27.4
1550
28.4
2.57
18.6
88.8
3.12
4.7
2.61
19.5
87.0
3.19
4.2
Operation not recommended
Operation not recommended
Operation not recommended
1350
30.6
2.54
21.9
91.0
3.53
4.9
1350
41.5
26.7
0.64
1.75
47.4
23.7
-
1550
31.6
2.56
22.8
88.9
3.61
4.5
1550
42.1
29.2
0.69
1.84
48.4
22.9
-
1350
31.4
2.56
22.6
91.5
3.59
5.0
1350
41.7
26.7
0.64
1.70
47.5
24.6
-
1550
32.5
2.60
23.6
89.4
3.67
4.6
1550
42.7
29.2
0.68
1.78
48.8
24.0
-
1350
35.5
2.71
26.2
94.3
3.84
5.6
1350
44.2
30.6
0.69
1.95
50.8
22.7
-
1550
36.7
2.71
27.5
91.9
3.97
5.2
1550
45.0
33.5
0.74
2.04
52.0
22.0
-
1350
36.6
2.73
27.3
95.1
3.94
5.8
1350
44.5
30.6
0.69
1.89
50.9
23.6
-
1550
37.9
2.75
28.5
92.6
4.04
5.3
1550
45.5
33.5
0.74
1.98
52.2
23.0
-
Operation not recommended
Operation not recommended
1350
37.5
2.79
28.0
95.7
3.94
6.1
1350
45.6
31.8
0.70
2.53
54.2
18.0
2.7
1550
38.7
2.79
29.2
93.1
4.07
5.6
1550
47.0
37.5
0.80
2.64
56.0
17.8
2.9
2.5
1350
40.4
2.88
30.6
97.7
4.11
6.3
1350
46.6
32.0
0.69
2.19
54.1
21.3
1550
41.9
2.86
32.2
95.0
4.30
5.8
1550
48.0
37.7
0.79
2.30
55.9
20.9
2.7
1350
41.9
2.90
32.0
98.8
4.24
6.5
1350
46.9
32.0
0.68
2.06
53.9
22.7
2.3
1550
43.3
2.90
33.4
95.9
4.38
5.9
1550
48.3
37.7
0.78
2.17
55.7
22.3
2.6
1350
41.4
2.92
31.4
98.4
4.15
6.9
1350
44.2
31.6
0.72
2.70
53.4
16.4
3.2
1550
42.8
2.90
32.9
95.6
4.33
6.4
1550
45.6
37.3
0.82
2.82
55.2
16.2
3.4
1350
44.7
2.99
34.5
100.7
4.38
7.1
1350
44.9
31.9
0.71
2.40
53.1
18.8
3.0
1550
46.5
2.96
36.4
97.8
4.61
6.6
1550
46.3
37.5
0.81
2.51
54.8
18.5
3.2
1350
46.6
3.02
36.3
102.0
4.53
7.3
1350
45.4
32.0
0.70
2.27
53.2
20.0
2.7
1550
48.3
2.98
38.1
98.9
4.74
6.7
1550
46.8
37.6
0.80
2.38
54.9
19.7
3.1
1350
45.3
3.05
34.9
101.1
4.34
7.9
1350
42.8
31.4
0.74
2.87
52.5
14.9
3.9
1550
47.0
3.02
36.7
98.1
4.57
7.3
1550
44.1
37.0
0.84
3.00
54.4
14.7
4.2
1350
49.1
3.11
38.5
103.7
4.63
8.1
1350
43.2
31.8
0.74
2.60
52.1
16.6
3.7
1550
51.1
3.05
40.6
100.5
4.90
7.5
1550
44.6
37.3
0.84
2.71
53.8
16.4
4.0
1350
51.4
3.14
40.6
105.2
4.79
8.4
1350
44.0
31.9
0.73
2.48
52.4
17.7
3.4
1550
53.3
3.07
42.8
101.8
5.09
7.7
1550
45.3
37.5
0.83
2.58
54.1
17.6
3.8
1350
47.4
3.16
36.6
102.5
4.40
8.7
1350
41.0
29.8
0.73
2.97
51.1
13.8
5.1
1550
49.2
3.10
38.6
99.4
4.65
8.1
1550
42.3
35.0
0.83
3.09
52.8
13.7
5.4
4.7
1350
51.5
3.19
40.6
105.3
4.72
9.0
1350
41.2
30.1
0.73
2.75
50.6
15.0
1550
53.6
3.11
42.9
102.0
5.04
8.3
1550
42.4
35.4
0.83
2.86
52.2
14.8
5.1
1350
54.1
3.23
43.1
107.1
4.91
9.3
1350
42.1
30.3
0.72
2.63
51.1
16.0
4.4
1550
56.3
3.14
45.5
103.6
5.25
8.6
1550
43.4
35.6
0.82
2.75
52.8
15.8
4.9
1350
49.5
3.26
38.4
104.0
4.45
9.7
1350
39.2
28.1
0.72
3.07
49.6
12.8
6.3
1550
51.5
3.19
40.6
100.7
4.73
9.0
1550
40.4
33.0
0.82
3.19
51.3
12.7
6.7
1350
53.8
3.28
42.7
106.9
4.81
10.0
1350
39.2
28.4
0.73
2.91
49.1
13.5
5.9
1550
56.1
3.17
45.3
103.5
5.18
9.3
1550
40.3
33.5
0.83
3.02
50.5
13.3
6.4
1350
56.8
3.31
45.5
109.0
5.03
10.3
1350
40.3
28.7
0.71
2.79
49.8
14.4
5.5
1550
59.2
3.21
48.3
105.4
5.41
9.6
1550
41.5
33.8
0.81
2.91
51.4
14.3
6.1
7.5
Operation not recommended
1350
36.8
27.6
0.75
3.31
48.1
11.1
1550
37.9
32.4
0.86
3.44
49.6
11.0
8.1
1350
38.1
28.0
0.73
3.19
49.0
12.0
7.0
1550
39.3
32.8
0.84
3.33
50.6
11.8
7.7
Operation not recommended
Operation not recommended
1350
34.4
26.7
0.78
3.71
47.1
9.3
9.3
1550
35.6
31.4
0.88
3.87
48.7
9.2
10.1
1350
36.0
27.2
0.75
3.60
48.3
10.0
8.7
1550
37.0
31.9
0.86
3.75
49.8
9.9
9.6
1350
33.1
28.5
0.86
4.15
47.2
8.0
11.3
1550
33.7
31.0
0.92
4.26
48.2
7.9
12.2
1350
33.4
28.5
0.85
4.01
47.1
8.3
10.5
1550
34.1
31.0
0.91
4.14
48.2
8.2
Operation not recommended
11.6
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
34
SYNERGY3D SPECIFICATION CATALOG
SDV049 Water Heating Data
SOURCE 6.0 GPM
ELT
EST LGPM
80
30
HE
SWPD
COP LST PSI
HWC
FT MBtuh
LLT
HD
SOURCE 9.0 GPM
HC
80
80
80
40
50
60
70
2.54 23.5
3.7
21.9
1.2 2.8
4.6
88.3
30
2.56 24.4
3.8
23.8 2.7 6.2
4.7
88.5 34.0 2.57 25.2
3.9
25.7 4.2 9.7
4.8
12.0 85.3
32.1
2.49 23.6
3.8
21.9
1.2 2.8
4.4
85.5 33.0 2.50 24.5
3.9
23.8 2.7 6.2
4.5
85.7 33.9
25.4
4.0
25.6 4.2 9.7
4.6
89.3 37.0 2.58 28.2
4.2
30.3 1.2
2.7
5.3
89.6 38.2 2.59 29.4
100
100
100
40
50
60
70
4.3
32.6 2.6 6.1
5.4
89.9 39.4 2.60 30.5
4.4
34.9 4.1 9.4
5.5
12.0 86.2 37.0 2.52 28.4
4.3
30.2 1.2
2.7
5.1
86.4 38.2 2.52 29.6
4.4
32.5 2.6 6.1
5.2
86.6 39.4 2.53 30.7
4.6
34.9 4.1 9.4
5.3
6.0
94.0 41.9 2.68 32.8
4.6
38.7
1.2
2.7
6.1
94.5 43.4 2.70 34.2
4.7
41.4 2.6 5.9
6.3
94.9 44.8 2.72 35.6
4.8
44.1 4.0 9.1
6.4
9.0
90.5 41.9
2.61 33.0
4.7
38.7
1.2
2.7
5.9
90.8 43.4 2.62 34.4
4.8
41.3 2.6 5.9
6.0
91.2 44.8 2.64 35.8
5.0
44.0 4.0 9.1
6.2
12.0
87.0
41.9 2.54 33.2
4.8
38.6 1.2
2.7
5.7
87.2 43.3 2.55 34.6
5.0
41.3 2.6 5.9
5.8
87.5 44.8 2.56
5.1
44.0 4.0 9.1
5.9
6.0
95.6 46.8 2.72
37.5
5.0
47.1
1.1
2.6
7.0
96.2 48.5 2.74 39.2
5.2
50.2 2.5 5.7
7.1
96.7 50.2 2.76 40.8
5.3
53.2 3.8 8.8
7.3
9.0
91.7 46.8 2.64 37.8
5.2
47.0
1.1
2.6
6.7
92.1
48.5 2.66 39.4
5.3
50.1
2.5 5.7
6.9
92.6 50.2 2.67
5.5
53.1
3.8 8.8
7.0
12.0
87.8 46.8 2.56 38.0
5.3
46.9
1.1
2.6
6.5
88.1
48.5 2.57 39.7
5.5
50.0 2.5 5.7
6.6
88.4 50.2 2.58 41.4
5.7
53.1
3.8 8.8
6.7
6.0
97.2
5.5
55.5
1.1
2.5
8.0
97.9 53.6 2.79
44.1
5.6
58.9 2.4 5.5
8.2
98.5 55.6
2.81 46.0
5.8
62.3 3.7 8.5
8.3
9.0
30
40
120
50
60
92.9
51.7
2.68 42.5
5.7
55.4
1.1
2.5
7.7
93.4 53.6 2.69 44.5
5.8
58.8 2.4 5.5
7.9
93.9 55.6 2.70 46.4
6.0
62.3 3.7 8.5
8.0
51.7
2.59 42.8
5.8
55.3
1.1
2.5
7.4
88.9 53.7 2.59 44.8
6.1
58.7 2.4 5.5
7.6
89.3 55.7 2.60 46.8
6.3
62.2 3.7 8.5
7.7
Operation Not Recommended
3.25 20.0
2.8
23.1
1.2 2.8
4.4
108.1 32.3 3.30 21.0
2.9
24.7 2.7 6.2
4.5
108.4 33.4 3.36 22.0
2.9
26.3 4.2 9.7
4.7
12.0 105.2 31.2 3.20 20.2
9.0 107.8
31.1
2.9
23.0 1.2 2.8
4.3
105.3 31.9 3.20 21.0
2.9
24.7 2.7 6.2
4.3
105.4 32.7
3.0
26.4 4.2 9.7
4.4
9.0 108.9 35.6 3.28 24.4
3.2
31.6
1.2
2.7
5.1
109.3 36.9 3.32 25.6
3.3
33.6 2.6 6.1
5.2
109.6 38.3 3.37 26.8
3.3
35.5
4.1 9.4
5.3
12.0 105.9 35.7
3.3
31.5
1.2
2.7
4.9
106.1 36.7 3.22 25.7
3.3
33.5 2.6 6.1
5.0
106.3 37.7
3.4
35.6 4.1 9.4
5.0
70
3.21
21.7
Operation Not Recommended
3.21
24.7
3.23 26.7
6.0
113.4 40.1 3.39 28.5
3.5
40.2 1.2
2.7
5.9
113.9 41.7
3.45 30.0
3.5
42.5 2.6 5.9
6.0
114.5 43.4 3.51
31.4
3.6
44.8 4.0 9.1
6.2
9.0
110.0 40.1
28.9
3.6
40.1
2.7
5.7
110.4 41.6 3.34 30.2
3.6
42.4 2.6 5.9
5.8
110.8 43.1
3.38
31.5
3.7
44.7 4.0 9.1
5.9
12.0 106.7 40.2 3.23 29.2
3.6
40.0 1.2
2.7
5.5
106.9 41.5
3.24 30.4
3.8
42.3 2.6 5.9
5.5
107.1 42.7 3.25
31.6
3.9
44.7 4.0 9.1
5.6
6.0
114.9 44.6 3.42 32.9
3.8
48.7
1.1
2.6
6.7
115.4 46.3 3.47 34.5
3.9
51.3
2.5 5.7
6.8
116.0 48.0 3.52 36.0
4.0
54.0 3.8 8.8
7.0
9.0
111.2 44.7 3.34 33.3
3.9
48.6
1.1
2.6
6.4
111.6 46.3 3.36 34.8
4.0
51.3
2.5 5.7
6.6
112.0 47.9 3.39 36.3
4.1
53.9 3.8 8.8
6.7
12.0 107.5 44.8 3.25 33.7
4.0
48.4
1.1
2.6
6.2
107.7 46.3 3.26
35.1
4.2
51.2
2.5 5.7
6.3
108.0 47.7 3.26 36.6
4.3
53.9 3.8 8.8
6.4
6.0
116.4 49.1 3.46 37.3
4.2
57.2
1.1
2.5
7.6
117.0 50.9 3.49 38.9
4.3
60.2 2.4 5.5
7.7
117.5 52.6 3.53 40.6
4.4
63.2 3.7 8.5
7.9
9.0
112.3 49.2 3.36 37.7
4.3
57.0
1.1
2.5
7.3
112.7 50.9 3.38 39.4
4.4
60.1 2.4 5.5
7.5
113.2 52.7 3.40
41.1
4.5
63.2 3.7 8.5
7.6
12.0 108.2 49.3 3.27 38.2
4.4
56.9
1.1
2.5
7.1
108.5 51.0
4.6
60.0 2.4 5.5
7.2
108.8 52.8 3.28 41.6
4.7
63.1
3.7 8.5
7.3
3.31
1.2
9.0
3.27 39.9
Operation Not Recommended
127.5 30.0 3.96 16.5
2.2
24.3
1.2 2.8
4.3
127.9 31.5 4.05
17.6
2.3
25.6 2.7 6.2
4.4
128.3 32.9 4.14
18.7
2.3
26.8 4.2 9.7
4.6
12.0 125.0 30.2 3.90 16.9
2.3
24.2
1.2 2.8
4.1
125.1 30.8 3.91
17.5
2.3
25.5 2.7 6.2
4.2
125.2 31.4
3.91
18.0
2.3
26.9 4.2 9.7
4.2
Operation Not Recommended
9.0 128.5 34.2 3.99 20.6
2.5
32.9
1.2
2.7
4.9
128.9 35.7 4.06 21.8
2.6
34.5 2.6 6.1
5.0
129.4 37.1
4.13 23.0
2.6
36.2 4.1 9.4
5.2
12.0 125.7 34.4 3.91
2.6
32.8
1.2
2.7
4.7
125.9 35.2 3.92
2.6
34.5 2.6 6.1
4.8
126.0 36.0 3.92 22.6
2.7
36.2 4.1 9.4
4.8
6.0
21.1
21.8
132.7 38.2 4.09 24.2
2.7
41.7
1.2
2.7
5.6
133.4 40.1 4.20 25.8
2.8
43.6 2.6 5.9
5.8
134.0 42.0 4.31
27.3
2.9
45.4 4.0 9.1
9.0 129.6 38.4 4.01 24.7
2.8
41.5
1.2
2.7
5.4
130.0 39.8 4.06 26.0
2.9
43.5 2.6 5.9
5.5
130.4 41.3
27.2
2.9
45.5 4.0 9.1
5.7
12.0 126.4 38.6 3.92 25.2
2.9
41.3
1.2
2.7
5.2
126.6 39.6 3.93 26.2
3.0
43.4 2.6 5.9
5.3
126.8 40.6 3.94 27.2
3.0
45.5 4.0 9.1
5.4
6.0
134.1 42.4 4.13
4.12
28.3
3.0
50.3
1.1
2.6
6.3
134.7 44.1 4.20 29.8
3.1
52.5 2.5 5.7
6.5
135.3 45.8 4.28
31.2
3.1
54.8 3.8 8.8
6.6
9.0 130.6 42.6 4.03 28.8
3.1
50.1
1.1
2.6
6.1
131.0 44.0 4.07 30.2
3.2
52.4 2.5 5.7
6.2
131.4 45.5
4.11
31.5
3.2
54.7 3.8 8.8
6.3
12.0
3.2
49.9
1.1
2.6
5.9
127.3 44.0 3.94 30.6
3.3
52.3 2.5 5.7
6.0
127.5 45.2 3.95
31.8
3.4
54.7 3.8 8.8
6.1
32.3
3.3
58.9
1.1
2.5
7.2
136.0 48.1 4.20 33.8
3.4
61.4 2.4 5.5
7.3
136.6 49.7 4.24 35.2
3.4
64.0 3.7 8.5
7.4
131.7 46.7 4.05 32.9
3.4
58.7
1.1
2.5
7.0
132.0 48.2 4.08 34.3
3.5
61.3 2.4 5.5
7.1
132.4 49.7 4.10 35.8
3.6
63.9 3.7 8.5
7.2
12.0 127.8 47.0 3.94 33.5
3.5
58.5
1.1
2.5
6.7
128.1 48.4 3.95 34.9
3.6
61.1
6.8
128.3 49.8 3.96 36.3
3.7
63.8 3.7 8.5
6.9
127.1 42.8 3.93 29.4
6.0 135.5 46.5 4.16
120
41.1
12.0 88.6
6.0
120
36.1
2.76 42.2
6.0
120
2.51
51.7
6.0
120
COP LST PSI
Operation Not Recommended
6.0
100
HE
Operation Not Recommended
33.1
6.0
100
KW
HWC
FT MBtuh
HD
32.1
9.0
HC
SWPD
88.0
6.0
80
COP LST PSI
SOURCE 12.0 GPM
KW
9.0
HE
HWC
FT MBtuh
LLT
HD
HC
6.0
KW
SWPD
LLT
9.0
2.4 5.5
2/21/11
* Water heating mode only allows high compressor capacity operation.
ELT = entering load fluid temperature to heat pump
LLT = leaving load fluid temperature from heat pump
LGPM = load flow in gallons per minute
LWPD = load coax water pressure drop
EST = entering source fluid temperature to heat pump
LST = leaving source fluid temperature from heat pump
HWC = hot water generator capacity
SWPD = source coax water pressure drop
PSI = pressure drop in pounds per square inch
FT HD = pressure drop in feet of head
KW = kilowatts
HE = heat extracted in Btuh
HC = total heating capacity in Btuh
COP = coefficient of performance [HC/(kW x 3.413)]
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
35
SYNERGY3D SPECIFICATION CATALOG
SDV064 Low Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
Flow
gpm
WPD
HEATING - EAT 70°F
PSI
FT
6.0
1.3
3.0
10.0
2.7
6.2
14.0
5.1
11.9
6.0
1.2
2.9
10.0
2.6
6.0
14.0
5.0
11.6
6.0
1.2
2.8
10.0
2.5
5.9
14.0
4.8
11.2
6.0
1.2
2.7
10.0
2.5
5.7
14.0
4.7
10.9
6.0
1.1
2.6
10.0
2.4
5.5
14.0
4.5
10.5
6.0
1.1
2.5
10.0
2.3
5.3
14.0
4.4
10.2
6.0
1.1
2.5
10.0
2.2
5.1
14.0
4.3
9.8
6.0
1.0
2.4
10.0
2.1
5.0
14.0
4.1
9.5
6.0
1.0
2.3
10.0
2.1
4.8
14.0
4.0
9.1
6.0
1.0
2.2
10.0
2.0
4.6
14.0
3.8
8.8
6.0
0.9
2.1
10.0
1.9
4.4
14.0
3.7
8.4
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
Operation not recommended
1250
24.6
1500
25.4
2.71
15.3
88.2
2.65
4.6
2.75
16.0
85.7
2.71
4.2
Operation not recommended
Operation not recommended
Operation not recommended
1250
28.1
2.77
18.6
90.8
2.97
4.6
1250
46.4
30.8
0.66
1.57
51.8
29.5
-
1500
29.1
2.81
19.5
88.0
3.04
4.2
1500
47.2
33.7
0.71
1.66
52.8
28.5
-
1250
29.1
2.77
19.6
91.6
3.08
4.7
1250
46.7
30.8
0.66
1.52
51.9
30.6
-
1500
30.1
2.81
20.5
88.6
3.14
4.3
1500
47.8
33.7
0.70
1.60
53.3
29.9
-
Operation not recommended
Operation not recommended
1250
33.7
2.87
23.9
95.0
3.44
5.1
1250
49.1
32.9
0.67
1.79
55.2
27.4
-
1500
34.7
2.88
24.8
91.4
3.52
4.6
1500
50.0
35.9
0.72
1.88
56.4
26.6
-
1250
34.8
2.88
25.0
95.8
3.54
5.2
1250
49.4
32.9
0.67
1.74
55.4
28.4
1500
35.8
2.89
25.9
92.1
3.62
4.8
1500
50.6
35.9
0.71
1.82
56.8
27.8
-
1250
38.7
2.92
28.7
98.7
3.88
5.3
1250
51.5
33.4
0.65
2.06
58.5
25.0
1.9
1500
39.8
2.92
29.8
94.5
3.98
4.9
1500
53.0
37.9
0.72
2.17
60.4
24.4
2.0
1250
39.3
2.98
29.1
99.1
3.87
5.5
1250
51.7
33.7
0.65
1.98
58.4
26.0
1.8
1500
40.2
2.96
30.1
94.8
3.98
5.1
1500
53.2
38.2
0.72
2.08
60.3
25.6
1.9
1.6
1250
40.5
3.00
30.3
100.0
3.96
5.7
1250
51.8
33.7
0.65
1.95
58.4
26.6
1500
41.4
2.98
31.2
95.6
4.07
5.2
1500
53.3
38.2
0.72
2.04
60.3
26.1
1.8
1250
43.9
3.02
33.6
102.5
4.26
6.0
1250
49.4
32.8
0.66
2.30
57.3
21.5
2.6
1500
44.8
3.00
34.6
97.7
4.38
5.5
1500
50.9
37.0
0.73
2.41
59.1
21.2
2.8
1250
45.3
3.08
34.8
103.5
4.31
6.1
1250
49.7
33.1
0.67
2.23
57.2
22.3
2.5
1500
46.0
3.03
35.6
98.4
4.44
5.7
1500
51.1
37.4
0.73
2.33
59.1
22.0
2.7
1250
46.3
3.10
35.7
104.3
4.38
6.3
1250
49.9
33.2
0.67
2.18
57.3
22.9
2.3
1500
47.1
3.06
36.6
99.0
4.51
5.8
1500
51.4
37.5
0.73
2.28
59.1
22.5
2.5
1250
49.1
3.12
38.4
106.4
4.61
6.7
1250
47.3
32.2
0.68
2.54
56.0
18.7
3.7
1500
49.9
3.07
39.4
100.8
4.77
6.2
1500
48.8
36.1
0.74
2.64
57.8
18.5
3.9
3.4
1250
51.2
3.17
40.3
107.9
4.73
7.0
1250
47.6
32.5
0.68
2.47
56.1
19.3
1500
51.7
3.10
41.1
101.9
4.89
6.4
1500
49.1
36.5
0.74
2.57
57.9
19.1
3.7
1250
52.1
3.21
41.2
108.6
4.76
7.2
1250
47.9
32.6
0.68
2.41
56.2
19.9
3.2
1500
52.7
3.14
42.0
102.5
4.92
6.6
1500
49.4
36.7
0.74
2.52
58.0
19.6
3.5
1250
52.9
3.19
42.0
109.2
4.86
7.4
1250
44.8
31.3
0.70
2.85
54.6
15.7
5.1
1500
53.4
3.12
42.7
102.9
5.01
6.9
1500
46.2
35.0
0.76
2.95
56.3
15.7
5.4
4.8
1250
55.9
3.24
44.8
111.4
5.05
7.7
1250
45.2
31.6
0.70
2.78
54.7
16.3
1500
56.1
3.15
45.4
104.7
5.23
7.1
1500
46.6
35.4
0.76
2.89
56.4
16.1
5.2
1250
56.5
3.29
45.3
111.9
5.04
7.9
1250
45.5
31.9
0.70
2.74
54.9
16.6
4.4
1500
56.8
3.19
45.9
105.0
5.21
7.3
1500
47.0
35.6
0.76
2.84
56.6
16.6
4.9
1250
56.7
3.26
45.6
112.0
5.10
8.3
1250
42.3
30.5
0.72
3.17
53.1
13.4
6.8
1500
56.9
3.17
46.0
105.1
5.25
7.7
1500
43.6
33.8
0.78
3.26
54.7
13.4
7.2
1250
60.5
3.31
49.2
114.8
5.36
8.6
1250
42.8
30.8
0.72
3.10
53.3
13.8
6.4
6.9
1500
60.5
3.19
49.7
107.4
5.56
7.9
1500
44.0
34.3
0.78
3.20
55.0
13.7
1250
60.9
3.36
49.5
115.1
5.31
8.8
1250
43.1
31.1
0.72
3.06
53.5
14.1
5.9
1500
60.8
3.24
49.7
107.5
5.50
8.2
1500
44.5
34.6
0.78
3.15
55.2
14.1
6.6
1250
39.7
29.8
0.75
3.52
51.7
11.3
8.3
1500
40.9
33.0
0.81
3.61
53.2
11.3
8.9
Operation not recommended
1250
40.1
30.2
0.75
3.47
52.0
11.6
7.7
1500
41.4
33.4
0.81
3.56
53.5
11.6
8.5
1250
36.7
28.9
0.79
3.94
50.1
9.3
10.4
1500
37.8
31.7
0.84
4.02
51.5
9.4
11.3
1250
37.1
29.4
0.79
3.88
50.4
9.6
9.7
1500
38.3
32.2
0.84
3.96
51.8
9.7
10.7
1250
33.9
28.2
0.83
4.44
49.0
7.6
12.6
1500
34.5
30.6
0.89
4.55
50.0
7.6
13.6
Operation not recommended
Operation not recommended
Operation not recommended
1250
34.2
28.2
0.83
4.29
48.8
8.0
11.7
1500
34.9
30.6
0.88
4.43
50.0
7.9
12.9
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
36
SYNERGY3D SPECIFICATION CATALOG
SDV064 High Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
Flow
gpm
WPD
HEATING - EAT 70°F
PSI
FT
8.0
2.0
4.6
12.0
4.0
9.2
16.0
6.6
15.1
8.0
1.9
4.5
12.0
3.9
8.9
16.0
6.4
14.7
8.0
1.9
4.3
12.0
3.7
8.7
16.0
6.2
14.3
8.0
1.8
4.2
12.0
3.6
8.4
16.0
6.0
13.8
8.0
1.8
4.1
12.0
3.5
8.1
16.0
5.8
13.4
8.0
1.7
3.9
12.0
3.4
7.9
16.0
5.6
12.9
8.0
1.6
3.8
12.0
3.3
7.6
16.0
5.4
12.5
8.0
1.6
3.7
12.0
3.2
7.3
16.0
5.2
12.1
8.0
1.5
3.5
12.0
3.1
7.1
16.0
5.0
11.6
8.0
1.5
3.4
12.0
2.9
6.8
16.0
4.8
11.2
8.0
1.4
3.3
12.0
2.8
6.5
16.0
4.6
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
-
Operation not recommended
1500
36.5
1800
37.4
3.46
24.7
92.5
3.10
5.7
3.62
25.1
89.2
3.03
5.2
Operation not recommended
Operation not recommended
Operation not recommended
1500
42.6
3.56
30.4
96.3
3.50
6.1
1500
62.4
40.9
0.66
2.76
71.9
22.6
1800
43.7
3.79
30.8
92.5
3.38
5.6
1800
63.5
44.7
0.70
2.91
73.4
21.8
-
1500
43.2
3.65
30.7
96.6
3.46
6.3
1500
62.8
40.9
0.65
2.68
71.9
23.5
-
1800
44.2
3.82
31.2
92.7
3.39
5.7
1800
64.3
44.7
0.70
2.81
73.9
22.9
-
Operation not recommended
Operation not recommended
1500
49.5
3.81
36.5
100.6
3.81
6.9
1500
65.6
42.6
0.65
3.05
76.0
21.5
-
1800
50.6
3.97
37.1
96.0
3.74
6.3
1800
66.8
46.6
0.70
3.20
77.8
20.9
-
1500
50.3
3.87
37.0
101.0
3.80
7.1
1500
66.1
42.6
0.64
2.96
76.2
22.3
-
1800
51.4
4.01
37.7
96.4
3.76
6.5
1800
67.6
46.6
0.69
3.10
78.2
21.8
-
1500
53.3
3.97
39.8
102.9
3.93
7.4
1500
68.1
43.7
0.64
3.30
79.4
20.6
3.8
1800
54.5
4.10
40.5
98.0
3.90
6.9
1800
69.5
47.5
0.68
3.51
81.5
19.8
4.0
1500
56.4
4.05
42.6
104.8
4.08
7.7
1500
68.8
44.1
0.64
3.24
79.9
21.3
3.6
1800
57.6
4.15
43.4
99.6
4.07
7.1
1800
70.2
48.0
0.68
3.44
81.9
20.4
3.9
1500
57.4
4.10
43.4
105.4
4.11
7.9
1500
69.5
44.6
0.64
3.18
80.4
21.9
3.3
1800
58.6
4.20
44.3
100.1
4.09
7.2
1800
70.9
48.4
0.68
3.38
82.4
21.0
3.7
1500
60.0
4.25
45.5
107.0
4.14
8.3
1500
66.5
43.3
0.65
3.56
78.6
18.7
4.6
1800
61.3
4.32
46.5
101.5
4.16
7.7
1800
68.2
47.0
0.69
3.79
81.1
18.0
4.9
1500
62.7
4.32
48.0
108.7
4.26
8.6
1500
67.1
43.7
0.65
3.49
79.1
19.2
4.3
1800
64.1
4.37
49.1
102.9
4.29
7.9
1800
68.9
47.5
0.69
3.71
81.5
18.6
4.7
1500
64.1
4.37
49.2
109.5
4.30
8.9
1500
67.8
44.1
0.65
3.43
79.5
19.8
4.0
1800
65.5
4.42
50.4
103.7
4.35
8.1
1800
69.6
48.0
0.69
3.65
82.0
19.1
4.4
1500
66.5
4.52
51.1
111.1
4.32
9.4
1500
64.8
42.9
0.66
3.82
77.9
17.0
5.6
1800
68.0
4.54
52.5
105.0
4.39
8.7
1800
66.8
46.6
0.70
4.07
80.7
16.4
6.0
5.3
1500
69.0
4.58
53.4
112.6
4.41
9.7
1500
65.4
43.3
0.66
3.75
78.2
17.5
1800
70.5
4.59
54.9
106.3
4.50
8.9
1800
67.6
47.0
0.70
3.98
81.2
17.0
5.7
1500
70.7
4.64
54.9
113.7
4.47
10.0
1500
66.1
43.7
0.66
3.68
78.7
17.9
4.9
1800
72.4
4.64
56.6
107.2
4.58
9.2
1800
68.2
47.5
0.70
3.92
81.6
17.4
5.4
1500
71.6
4.75
55.4
114.2
4.42
10.3
1500
61.6
41.5
0.67
4.15
75.7
14.8
7.3
1800
73.2
4.72
57.1
107.7
4.54
9.6
1800
63.8
45.1
0.71
4.42
78.9
14.5
7.7
1500
73.3
4.81
56.9
115.2
4.47
10.7
1500
62.2
41.9
0.67
4.07
76.1
15.3
6.8
1800
75.0
4.76
58.8
108.6
4.62
9.9
1800
64.5
45.5
0.71
4.33
79.3
14.9
7.4
1500
75.5
4.87
58.9
116.6
4.55
11.0
1500
62.8
42.4
0.67
4.00
76.4
15.7
6.3
1800
77.4
4.81
61.0
109.8
4.72
10.1
1800
65.2
46.0
0.71
4.26
79.7
15.3
7.0
1500
76.6
4.98
59.6
117.3
4.51
11.4
1500
58.3
40.2
0.69
4.47
73.5
13.0
9.3
1800
78.4
4.91
61.7
110.4
4.69
10.5
1800
60.9
43.7
0.72
4.76
77.1
12.8
9.8
1500
77.6
5.03
60.4
117.9
4.52
11.7
1500
59.0
40.5
0.69
4.38
73.9
13.4
8.6
1800
79.6
4.93
62.7
110.9
4.73
10.9
1800
61.4
44.1
0.72
4.67
77.3
13.2
9.4
1500
80.3
5.10
62.9
119.6
4.62
12.1
1500
59.5
41.0
0.69
4.31
74.2
13.8
8.0
1800
82.4
4.98
65.4
112.4
4.85
11.2
1800
62.1
44.5
0.72
4.59
77.8
13.5
8.9
Operation not recommended
1500
54.9
38.9
0.71
4.79
71.2
11.4
10.5
1800
57.5
42.3
0.74
5.11
74.9
11.2
11.4
1500
55.4
39.4
0.71
4.71
71.5
11.8
9.8
1800
58.1
42.8
0.74
5.03
75.2
11.6
10.9
1500
50.8
37.3
0.74
5.21
68.6
9.8
13.6
1800
53.5
40.5
0.76
5.55
72.5
9.6
14.8
Operation not recommended
Operation not recommended
1500
51.3
37.7
0.74
5.11
68.7
10.0
12.7
1800
54.0
41.0
0.76
5.46
72.6
9.9
14.1
16.5
Operation not recommended
10.7
1500
48.4
36.0
0.74
6.04
69.0
8.0
1800
49.3
39.1
0.79
6.20
70.5
8.0
17.9
1500
48.9
36.0
0.74
5.85
68.8
8.4
15.3
1800
49.9
39.1
0.78
6.03
70.5
8.3
17.0
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
37
SYNERGY3D SPECIFICATION CATALOG
SDV064 Water Heating Data
SOURCE 8.0 GPM
ELT
EST LGPM
80
30
LLT
HC
SWPD
COP LST PSI
HWC
FT MBtuh
LLT
HD
SOURCE 12.0 GPM
HC
80
80
80
40
50
60
70
30
22.0 2.0 4.6
5.7
88.4 44.7 3.58 32.4
100
100
100
40
50
60
70
3.7
23.8 4.5 10.4
5.8
88.6 46.0 3.59 33.8
3.8
25.6 7.0 16.2
5.9
16.0 85.4 43.2 3.49 31.3
3.6
21.9 2.0 4.6
5.5
85.6 44.6 3.50 32.7
3.7
23.8 4.5 10.4
5.6
85.8 46.0 3.51 34.0
3.8
25.6 7.0 16.2
30
5.7
12.0 89.5 50.5 3.65 38.0
4.1
30.2 1.9 4.4
6.4
89.9 52.6 3.67 40.1
4.2
32.4 4.4 10.1
6.6
90.3 54.8 3.69 42.2
4.3
34.7 6.8 15.7
6.7
16.0 86.3 50.5 3.55 38.4
4.2
30.1
1.9 4.4
6.2
86.6 52.7 3.57 40.5
4.3
32.4 4.4 10.1
6.3
86.8 54.8 3.59 42.5
4.5
34.7 6.8 15.7
6.5
8.0
94.3 57.4 3.85 44.2
4.4
38.6 1.9 4.3
7.5
95.1 60.4 3.88 47.2
4.6
41.2 4.2 9.8
7.6
95.9 63.5
50.1
4.8
43.7 6.6 15.2
7.8
12.0 90.8 57.6 3.73 44.9
4.5
38.4 1.9 4.3
7.2
91.3 60.6 3.76 47.7
4.7
41.1
4.2 9.8
7.4
91.9 63.5 3.79 50.6
4.9
43.7 6.6 15.2
7.5
16.0
87.2
3.61 45.5
4.7
38.3 1.9 4.3
6.9
87.6 60.7 3.64 48.3
4.9
40.9 4.2 9.8
7.1
87.9 63.6 3.67 51.0
5.1
43.6 6.6 15.2
7.2
8.0
96.1 64.4 3.95 50.9
4.8
46.9 1.8
8.4
97.1
5.0
49.8 4.1 9.4
8.6
98.1
72.2 4.03 58.5
5.2
52.7 6.4 14.8
8.8
8.5
57.8
4.1
68.3 3.99 54.7
120
120
120
40
50
60
70
3.91
12.0
92.1
64.8 3.81
51.8
5.0
46.7 1.8
4.1
8.1
92.8 68.5 3.85 55.4
5.2
49.6 4.1 9.4
8.3
93.5 72.3 3.89 59.0
5.4
52.6 6.4 14.8
16.0
88.1
65.2 3.67 52.7
5.2
46.4 1.8
4.1
7.8
88.6 68.8
3.71
56.1
5.4
49.5 4.1 9.4
8.0
89.0 72.3 3.75 59.5
5.7
52.6 6.4 14.8
8.1
8.0
97.8
71.4 4.05 57.5
5.2
55.2
1.7 3.9
9.5
99.0 76.1
4.10
62.1
5.4
58.4 4.0 9.1
9.7
100.2 80.9 4.15 66.8
5.7
61.7
6.2 14.3
9.9
12.0 93.5
71.9 3.89 58.7
5.4
54.9 1.7 3.9
9.2
94.3 76.5 3.94 63.0
5.7
58.2 4.0 9.1
9.4
95.2 81.0 3.99 67.4
6.0
61.6 6.2 14.3
9.5
16.0
72.5 3.73 59.8
5.7
54.6 1.7 3.9
8.8
89.6 76.8 3.78 63.9
6.0
58.0 4.0 9.1
9.0
90.1
6.2
61.5 6.2 14.3
9.2
89.1
81.1
3.83 68.0
Operation Not Recommended
12.0 107.9 42.3 4.56 26.7
2.7
23.1
2.0 4.6
5.6
108.1 43.4 4.57 27.8
2.8
24.8 4.5 10.4
5.6
108.4 44.5 4.58 28.9
2.8
26.4 7.0 16.2
5.7
16.0 105.3 42.3 4.48 27.0
2.8
23.0 2.0 4.6
5.4
105.4 43.4 4.49 28.1
2.8
24.7 4.5 10.4
5.4
105.6 44.5 4.50 29.2
2.9
26.4 7.0 16.2
5.5
33.1
3.1
31.5
1.9 4.4
6.2
109.5 50.7 4.64 34.8
3.2
33.4 4.4 10.1
6.3
109.8 52.4 4.67 36.5
3.3
35.4 6.8 15.7
6.4
16.0 106.1 49.0 4.49 33.6
3.2
31.3
1.9 4.4
6.0
106.3 50.7 4.52 35.3
3.3
33.4 4.4 10.1
6.1
106.6 52.5 4.55 37.0
3.4
35.4 6.8 15.7
6.2
8.0
113.8 55.4 4.84 38.9
3.4
40.0 1.9 4.3
7.2
114.4 57.8 4.86 41.2
3.5
42.3 4.2 9.8
7.3
115.0 60.2 4.89 43.5
3.6
44.6 6.6 15.2
7.4
12.0 110.4 55.5 4.67 39.6
3.5
39.8 1.9 4.3
6.9
110.9 57.9
4.71
41.8
3.6
42.1 4.2 9.8
7.0
111.3 60.4 4.75
44.1
3.7
44.5 6.6 15.2
7.1
16.0 107.0 55.6 4.51 40.2
3.6
39.6 1.9 4.3
6.7
107.3 58.1
4.56 42.5
3.7
42.0 4.2 9.8
6.8
107.6 60.5 4.61 44.8
3.8
44.4 6.6 15.2
6.9
Operation Not Recommended
12.0 109.2 48.9 4.62
8.0
115.5 62.0 4.94 45.1
3.7
48.4 1.8
4.1
8.1
116.2 65.0 4.96 48.0
3.8
51.0
4.1 9.4
8.2
117.0 68.0 4.99 50.9
4.0
53.6 6.4 14.8
8.3
12.0
111.6
4.73 46.0
3.8
48.2 1.8
4.1
7.8
112.2 65.2 4.78 48.9
4.0
50.8 4.1 9.4
7.9
112.8 68.3 4.83 51.8
4.1
53.5 6.4 14.8
8.0
16.0 107.8 62.3 4.52 46.8
4.0
47.9
1.8
4.1
7.5
108.2 65.4 4.60 49.7
4.2
50.7 4.1 9.4
7.6
108.6 68.6 4.67 52.6
4.3
53.4 6.4 14.8
7.7
8.0
4.0
56.8
1.7 3.9
9.1
118.0 72.1
5.07 54.9
4.2
59.7 4.0 9.1
9.2
118.9 75.8
5.10 58.4
4.4
62.7 6.2 14.3
9.3
12.0 112.9 68.7 4.79 52.4
4.2
56.5
1.7 3.9
8.8
113.6 72.4 4.85 55.9
4.4
59.5 4.0 9.1
8.9
114.3 76.2 4.92 59.4
4.5
62.6 6.2 14.3
9.0
16.0 108.6 68.9 4.54 53.4
4.5
56.2
1.7 3.9
8.4
109.1 72.7 4.64 56.9
4.6
59.3 4.0 9.1
8.5
109.6 76.6 4.73 60.4
4.7
62.4 6.2 14.3
8.7
117.1
62.1
68.5 5.03 51.3
Operation Not Recommended
12.0 127.7 41.3 5.56 22.3
2.2
24.2 2.0 4.6
5.4
127.9 42.2 5.57 23.2
2.2
25.6 4.5 10.4
5.5
128.1 43.0 5.58 24.0
2.3
26.9 7.0 16.2
5.5
16.0 125.2 41.4 5.47 22.8
2.2
24.1 2.0 4.6
5.2
125.3 42.2 5.48 23.5
2.3
25.5 4.5 10.4
5.3
125.4 43.0 5.48 24.3
2.3
26.9 7.0 16.2
5.3
12.0 128.9 47.3 5.59 28.3
2.5
32.7
1.9 4.4
6.0
129.1 48.7
29.6
2.5
34.4 4.4 10.1
6.1
129.4 50.1 5.64 30.9
2.6
36.1 6.8 15.7
6.1
16.0 125.9 47.4 5.44 28.8
2.6
32.6 1.9 4.4
5.8
126.1 48.8 5.48 30.1
2.6
34.3 4.4 10.1
5.9
126.3 50.3 5.52
2.7
36.1 6.8 15.7
5.9
8.0
120
COP LST PSI
Operation Not Recommended
8.0
120
HE
Operation Not Recommended
8.0
100
KW
HWC
FT MBtuh
HD
3.6
8.0
100
HC
SWPD
31.1
88.1
8.0
80
COP LST PSI
SOURCE 16.0 GPM
43.3 3.57
8.0
HE
HWC
FT MBtuh
LLT
HD
HE
12.0
KW
SWPD
KW
Operation Not Recommended
5.61
31.4
8.0 133.4 53.4 5.83 33.5
2.7
41.4
1.9 4.3
7.0
133.8 55.1
5.84 35.2
2.8
43.4 4.2 9.8
7.0
134.2 56.8 5.86 36.8
2.8
45.4 6.6 15.2
7.0
12.0 130.0 53.4 5.62 34.2
2.8
41.2
1.9 4.3
6.7
130.4 55.3 5.66 36.0
2.9
43.2 4.2 9.8
6.7
130.7 57.2
37.7
2.9
45.3 6.6 15.2
6.8
16.0 126.7 53.4 5.41 34.9
2.9
41.0
1.9 4.3
6.4
126.9 55.5 5.48 36.7
3.0
43.1 4.2 9.8
6.5
127.2 57.5 5.56 38.6
3.0
45.2 6.6 15.2
6.5
8.0 134.9 59.6 5.92 39.3
2.9
49.9 1.8
4.1
7.8
135.4 61.6 5.94 41.4
3.0
52.2
4.1 9.4
7.8
135.9 63.7 5.95 43.4
3.1
54.6 6.4 14.8
7.7
12.0 131.2 59.5 5.65 40.2
3.1
49.6 1.8
4.1
7.5
131.6 61.9
5.71 42.4
3.2
52.0 4.1 9.4
7.5
132.0 64.3 5.77 44.5
3.3
54.4 6.4 14.8
7.5
16.0 127.4 59.3 5.38 41.0
3.2
49.4 1.8
4.1
7.1
127.8 62.1
5.49 43.3
3.3
51.8
4.1 9.4
7.2
128.1 64.8 5.60 45.7
3.4
54.3 6.4 14.8
7.3
8.0 136.4 65.7 6.02 45.2
3.2
58.4 1.7 3.9
8.8
137.0 68.1 6.03 47.6
3.3
61.0 4.0 9.1
8.7
137.6 70.6 6.05 50.0
3.4
63.6 6.2 14.3
8.6
12.0 132.3 65.5 5.68 46.1
3.4
58.1
1.7 3.9
8.3
132.8 68.4 5.76 48.8
3.5
60.7 4.0 9.1
8.4
133.3 71.3
5.84 51.4
3.6
63.4 6.2 14.3
8.4
16.0 128.2 65.3 5.35
3.6
57.9
1.7 3.9
7.9
128.6 68.7 5.49 49.9
3.7
60.5 4.0 9.1
8.0
129.0 72.0 5.64 52.8
3.7
63.2 6.2 14.3
47.1
5.71
8.1
2/21/11
* Water heating mode only allows high compressor capacity operation.
ELT = entering load fluid temperature to heat pump
LLT = leaving load fluid temperature from heat pump
LGPM = load flow in gallons per minute
LWPD = load coax water pressure drop
EST = entering source fluid temperature to heat pump
LST = leaving source fluid temperature from heat pump
HWC = hot water generator capacity
SWPD = source coax water pressure drop
PSI = pressure drop in pounds per square inch
FT HD = pressure drop in feet of head
KW = kilowatts
HE = heat extracted in Btuh
HC = total heating capacity in Btuh
COP = coefficient of performance [HC/(kW x 3.413)]
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
38
SYNERGY3D SPECIFICATION CATALOG
SDV072 Performance Data - Low Speed
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
Flow
gpm
WPD
HEATING - EAT 70°F
PSI
FT
10.0
2.7
6.2
13.0
3.5
8.1
16.0
6.8
15.7
10.0
2.6
6.0
13.0
3.4
7.9
16.0
6.6
15.2
10.0
2.5
5.9
13.0
3.3
7.6
16.0
6.4
14.8
10.0
2.5
5.7
13.0
3.2
7.4
16.0
6.2
14.3
10.0
2.4
5.5
13.0
3.1
7.2
16.0
6.0
13.9
10.0
2.3
5.3
13.0
3.0
6.9
16.0
5.8
13.4
10.0
2.2
5.1
13.0
2.9
6.7
16.0
5.6
12.9
10.0
2.1
5.0
13.0
2.8
6.5
16.0
5.4
12.5
10.0
2.1
4.8
13.0
2.7
6.2
16.0
5.2
12.0
10.0
2.0
4.6
13.0
2.6
6.0
16.0
5.0
11.6
10.0
1.9
4.4
13.0
2.5
5.8
16.0
4.8
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
Operation not recommended
1400
31.7
1700
33.2
3.46
19.9
91.0
2.69
5.9
3.50
21.3
88.1
2.78
5.3
Operation not recommended
Operation not recommended
Operation not recommended
1400
32.9
3.50
21.0
91.8
2.76
5.5
1400
53.8
33.7
0.63
2.30
61.6
23.4
-
1700
34.5
3.54
22.4
88.8
2.86
5.0
1700
54.6
36.9
0.67
2.42
62.9
22.6
-
1400
34.3
3.50
22.4
92.7
2.88
5.7
1400
54.0
33.7
0.62
2.23
61.6
24.2
-
1700
36.0
3.54
23.9
89.6
2.98
5.1
1700
55.4
36.9
0.67
2.34
63.3
23.7
-
1400
40.9
3.65
28.5
97.1
3.29
6.5
1400
53.7
33.8
0.63
2.31
61.6
23.3
-
1700
42.7
3.66
30.2
93.3
3.42
5.9
1700
54.7
36.9
0.67
2.42
63.0
22.6
-
1400
42.4
3.66
29.9
98.0
3.39
6.7
1400
54.1
33.8
0.62
2.24
61.8
24.2
-
1700
44.3
3.67
31.7
94.1
3.53
6.1
1700
58.6
39.3
0.67
2.57
67.3
22.8
-
1400
40.6
3.63
28.3
96.9
3.28
6.8
1400
59.6
36.4
0.61
2.82
69.3
21.1
2.3
1700
42.5
3.59
30.2
93.1
3.46
6.3
1700
61.5
41.3
0.67
2.97
71.6
20.7
2.4
Operation not recommended
Operation not recommended
1400
41.2
3.67
28.7
97.3
3.29
7.0
1400
59.8
36.7
0.61
2.73
69.1
21.9
2.1
1700
42.9
3.65
30.4
93.4
3.44
6.4
1700
61.6
41.7
0.68
2.87
71.4
21.5
2.3
1400
42.5
3.69
29.9
98.1
3.37
7.2
1400
59.9
36.7
0.61
2.66
69.0
22.6
2.0
1700
52.6
3.80
39.6
98.6
4.05
6.6
1700
61.8
41.7
0.68
2.80
71.3
22.1
2.2
1400
40.5
3.66
28.0
96.8
3.24
7.5
1400
53.3
32.2
0.61
2.37
61.3
22.5
3.2
1700
42.2
3.58
29.9
93.0
3.45
6.9
1700
54.9
36.4
0.66
2.47
63.3
22.2
3.4
1400
41.6
3.70
29.0
97.5
3.30
7.7
1400
53.5
32.6
0.61
2.29
61.3
23.4
3.0
1700
43.2
3.63
30.9
93.6
3.49
7.1
1700
55.1
36.8
0.67
2.39
63.2
23.0
3.2
1400
42.6
3.74
29.8
98.1
3.34
7.9
1400
53.7
32.6
0.61
2.24
61.4
23.9
2.8
1700
59.5
3.92
46.2
102.4
4.45
7.3
1700
60.0
41.6
0.69
3.07
70.5
19.6
3.1
1400
40.3
3.69
27.7
96.7
3.20
8.3
1400
53.1
32.3
0.61
2.37
61.1
22.4
4.4
4.6
1700
42.0
3.58
29.8
92.9
3.44
7.7
1700
54.6
36.3
0.67
2.46
63.0
22.2
1400
41.9
3.73
29.1
97.7
3.29
8.5
1400
53.4
32.7
0.61
2.29
61.2
23.3
4.1
1700
43.5
3.62
31.2
93.7
3.53
7.9
1700
54.9
36.7
0.67
2.39
63.0
23.0
4.4
1400
42.6
3.78
29.7
98.2
3.30
8.8
1400
53.7
32.8
0.61
2.26
61.4
23.7
3.8
1700
66.5
4.04
52.7
106.2
4.83
8.1
1700
58.3
41.5
0.71
3.34
69.7
17.5
4.2
1400
40.2
3.71
27.5
96.6
3.17
9.2
1400
52.9
32.4
0.61
2.37
61.0
22.3
6.2
1700
41.7
3.58
29.4
92.7
3.41
8.5
1700
54.4
36.2
0.67
2.44
62.8
22.3
6.6
1400
42.3
3.76
29.5
98.0
3.30
9.5
1400
53.3
32.8
0.62
2.31
61.2
23.0
5.8
1700
43.8
3.61
31.5
93.9
3.56
8.8
1700
54.9
36.7
0.67
2.38
63.0
23.0
6.3
1400
42.8
3.81
29.8
98.3
3.29
9.8
1400
53.7
33.0
0.61
2.28
61.5
23.6
5.4
1700
71.4
4.15
57.3
108.9
5.04
9.1
1700
55.0
40.4
0.73
3.69
67.6
14.9
6.0
1400
40.1
3.74
27.3
96.5
3.14
10.3
1400
52.6
32.6
0.62
2.38
60.7
22.1
8.0
1700
41.4
3.58
29.2
92.5
3.38
9.5
1700
54.3
36.1
0.67
2.43
62.5
22.4
8.5
1400
42.6
3.79
29.7
98.2
3.30
10.6
1400
53.2
32.9
0.62
2.33
61.1
22.8
7.5
1700
44.1
3.60
31.8
94.0
3.59
9.8
1700
54.8
36.6
0.67
2.38
62.9
23.1
8.1
1400
42.9
3.84
29.8
98.4
3.27
11.0
1400
53.7
33.2
0.62
2.29
61.5
23.4
6.9
1700
76.3
4.26
61.8
111.6
5.25
10.2
1700
51.7
39.3
0.76
4.03
65.5
12.8
7.7
Operation not recommended
1400
53.0
32.9
0.62
2.35
61.0
22.6
10.0
1700
54.8
36.5
0.67
2.37
62.9
23.1
10.9
1400
53.7
33.3
0.62
2.31
61.6
23.3
9.3
1700
48.7
37.9
0.78
4.49
64.0
10.9
10.4
1400
52.9
33.0
0.62
2.36
60.9
22.4
12.7
1700
54.7
36.4
0.67
2.37
62.8
23.1
13.8
Operation not recommended
Operation not recommended
1400
53.8
33.5
0.62
2.33
61.7
23.1
11.8
1700
45.6
36.6
0.80
4.94
62.5
9.2
13.1
15.8
Operation not recommended
11.1
1400
53.7
34.0
0.63
2.34
61.7
22.9
1700
54.7
36.9
0.67
2.41
62.9
22.7
17.1
1400
54.2
34.0
0.63
2.27
61.9
23.9
14.6
1700
42.3
35.3
0.83
5.45
60.9
7.8
16.3
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
39
SYNERGY3D SPECIFICATION CATALOG
SDV072 High Speed - Performance Data
EWT
°F
20
30
40
50
60
70
80
90
100
110
120
WPD
HEATING - EAT 70°F
Flow
gpm
PSI
12.0
4.0
9.2
15.0
5.9
13.5
FT
18.0
8.3
19.2
12.0
3.9
8.9
15.0
5.7
13.1
18.0
8.1
18.6
12.0
3.7
8.7
15.0
5.5
12.7
18.0
7.8
18.1
12.0
3.6
8.4
15.0
5.3
12.3
18.0
7.6
17.5
12.0
3.5
8.1
15.0
5.2
11.9
18.0
7.3
17.0
12.0
3.4
7.9
15.0
5.0
11.6
18.0
7.1
16.4
12.0
3.3
7.6
15.0
4.8
11.2
18.0
6.9
15.9
12.0
3.2
7.3
15.0
4.7
10.8
18.0
6.6
15.3
12.0
3.1
7.1
15.0
4.5
10.4
18.0
6.4
14.7
12.0
2.9
6.8
15.0
4.3
10.0
18.0
6.1
14.2
12.0
2.8
6.5
15.0
4.2
9.6
18.0
5.9
Airflow
HC
cfm
MBtu/h
Power
kW
HE
MBtu/h
LAT
°F
COOLING - EAT 80/67 °F
COP
HWC Airflow
TC
SC
MBtu/h
cfm
MBtu/h MBtu/h
S/T
Ratio
Power
kW
HR
MBtu/h
EER
HWC
MBtu/h
-
Operation not recommended
1850
45.2
2200
46.9
4.40
30.2
92.6
3.01
7.9
4.68
30.9
89.7
2.93
7.1
Operation not recommended
Operation not recommended
Operation not recommended
1850
52.3
4.56
36.7
96.2
3.36
8.3
1850
68.5
44.5
0.65
3.92
81.8
17.5
2200
54.1
4.85
37.6
92.8
3.27
7.6
2200
69.6
48.6
0.70
4.13
83.6
16.9
-
1850
52.7
4.60
37.0
96.4
3.36
8.5
1850
68.8
44.5
0.65
3.80
81.8
18.1
-
2200
54.7
4.90
37.9
93.0
3.27
7.7
2200
70.5
48.6
0.69
3.99
84.1
17.7
-
Operation not recommended
Operation not recommended
1850
60.3
4.86
43.7
100.2
3.64
9.2
1850
72.3
46.7
0.65
4.24
86.8
17.0
2200
62.4
5.09
45.0
96.3
3.59
8.4
2200
73.7
51.0
0.69
4.45
88.8
16.6
-
1850
61.2
4.92
44.4
100.6
3.65
9.5
1850
72.9
46.7
0.64
4.12
86.9
17.7
-
2200
63.3
5.14
45.8
96.6
3.61
8.6
2200
74.5
51.0
0.68
4.31
89.2
17.3
-
1850
64.8
5.07
47.5
102.4
3.75
9.9
1850
75.4
48.2
0.64
4.51
90.8
16.7
4.3
2200
67.0
5.25
49.1
98.2
3.74
9.2
2200
77.0
52.3
0.68
4.79
93.3
16.1
4.5
1850
68.4
5.16
50.8
104.2
3.88
10.2
1850
76.2
48.7
0.64
4.41
91.3
17.3
4.0
2200
70.7
5.33
52.5
99.7
3.89
9.4
2200
77.7
52.9
0.68
4.69
93.7
16.6
4.3
1850
69.6
5.22
51.8
104.9
3.91
10.5
1850
77.0
49.6
0.64
4.34
91.8
17.7
3.7
2200
71.9
5.38
53.6
100.3
3.92
9.6
2200
78.5
53.4
0.68
4.62
94.3
17.0
4.1
1850
72.9
5.43
54.4
106.5
3.94
11.1
1850
74.8
48.6
0.65
4.82
91.2
15.5
5.2
2200
75.3
5.53
56.4
101.7
3.99
10.3
2200
76.4
52.5
0.69
5.12
93.8
14.9
5.5
1850
76.2
5.52
57.3
108.1
4.04
11.5
1850
75.5
49.1
0.65
4.72
91.6
16.0
4.9
2200
78.6
5.61
59.5
103.1
4.11
10.6
2200
77.1
53.1
0.69
5.02
94.2
15.4
5.3
1850
77.9
5.59
58.8
109.0
4.08
11.8
1850
76.4
49.8
0.65
4.64
92.2
16.5
4.5
2200
80.4
5.67
61.1
103.9
4.16
10.9
2200
77.9
53.6
0.69
4.94
94.7
15.8
5.0
1850
81.1
5.78
61.3
110.6
4.11
12.5
1850
74.1
49.0
0.66
5.13
91.7
14.4
6.6
2200
83.6
5.82
63.8
105.2
4.21
11.6
2200
75.7
52.7
0.70
5.46
94.3
13.9
6.9
1850
83.9
5.87
63.9
112.0
4.19
12.9
1850
74.9
49.5
0.66
5.03
92.0
14.9
6.1
2200
86.6
5.89
66.5
106.4
4.31
11.9
2200
76.4
53.2
0.70
5.34
94.6
14.3
6.6
1850
86.1
5.95
65.8
113.1
4.24
13.3
1850
75.7
50.1
0.66
4.94
92.5
15.3
5.7
2200
88.9
5.95
68.6
107.4
4.38
12.3
2200
77.2
53.9
0.70
5.26
95.2
14.7
6.3
1850
87.1
6.12
66.2
113.6
4.17
13.9
1850
70.4
47.4
0.67
5.44
89.0
12.9
8.4
2200
89.9
6.07
69.2
107.8
4.34
12.8
2200
71.9
51.2
0.71
5.79
91.7
12.4
8.9
1850
89.2
6.20
68.0
114.6
4.22
14.3
1850
71.1
47.8
0.67
5.33
89.3
13.3
7.8
2200
92.0
6.12
71.1
108.7
4.41
13.2
2200
72.6
51.7
0.71
5.67
91.9
12.8
8.4
1850
91.9
6.28
70.5
116.0
4.29
14.7
1850
71.9
48.5
0.68
5.24
89.8
13.7
7.2
2200
94.9
6.18
73.8
110.0
4.50
13.6
2200
73.4
52.2
0.71
5.58
92.4
13.1
8.0
10.5
1850
93.1
6.45
71.1
116.6
4.23
15.4
1850
66.7
45.7
0.68
5.75
86.4
11.6
2200
96.2
6.32
74.6
110.5
4.46
14.3
2200
68.1
49.6
0.73
6.12
89.0
11.1
11.1
1850
94.4
6.52
72.2
117.3
4.25
15.9
1850
67.4
46.1
0.68
5.63
86.6
12.0
9.8
2200
97.5
6.35
75.8
111.0
4.50
14.7
2200
68.8
50.1
0.73
6.00
89.2
11.5
10.6
1850
97.7
6.61
75.1
118.9
4.33
16.4
1850
68.1
47.0
0.69
5.54
87.0
12.3
9.1
2200
100.9
6.42
79.0
112.5
4.61
15.2
2200
69.5
50.6
0.73
5.90
89.6
11.8
10.1
1850
63.3
44.8
0.71
6.10
84.1
10.4
12.2
2200
64.6
48.4
0.75
6.49
86.8
10.0
13.2
Operation not recommended
1850
64.0
45.4
0.71
6.00
84.5
10.7
11.3
2200
65.3
48.9
0.75
6.38
87.1
10.2
12.5
1850
59.3
43.4
0.73
6.56
81.7
9.0
14.9
2200
60.5
46.7
0.77
6.98
84.4
8.7
16.1
1850
60.0
43.8
0.73
6.45
82.0
9.3
13.8
2200
61.2
47.1
0.77
6.86
84.6
8.9
15.3
Operation not recommended
Operation not recommended
Operation not recommended
13.6
1850
55.3
41.7
0.75
7.45
80.7
7.4
18.0
2200
56.3
45.3
0.80
7.65
82.4
7.4
19.5
1850
55.8
41.7
0.75
7.21
80.4
7.7
16.7
2200
57.0
45.3
0.79
7.44
82.4
7.7
18.5
11/11/13
Performance capacities shown in thousands of Btuh.
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
40
SYNERGY3D SPECIFICATION CATALOG
SDV072 Water Heating Data
SOURCE 12.0 GPM
ELT
EST LGPM
80
30
LLT
HC
KW
HE
SWPD
COP LST PSI
HWC
FT MBtuh
LLT
HD
12.0
15.0
40
80
80
50
60
70
30
100
100
100
50
60
70
30
120
40
50
120
70
HWC
FT MBtuh
HD
3.9
24.3 6.2 14.2
7.9
87.6 54.7 4.10 40.7
3.9
25.3 8.3 19.2
8.1
23.3 4.0 9.2
7.4
86.0 53.8 4.04 40.0
3.9
24.3 6.2 14.2
7.6
86.1
54.7 4.05 40.9
4.0
25.3 8.3 19.2
7.7
15.0 88.6 61.8 4.20 47.4
4.3
31.9 3.9 9.0
8.6
88.7 63.0 4.22 48.6
4.4
33.1 6.0 13.8
8.8
88.9 64.2 4.24 49.7
4.4
34.5 8.1 18.6
9.0
18.0 86.9 61.8
47.6
4.4
31.8 3.9 9.0
8.3
87.0 63.0 4.17
48.7
4.4
33.1 6.0 13.8
8.5
87.1
64.2 4.19 49.9
4.5
34.5 8.1 18.6
8.6
70.7 4.38 55.7
4.7
40.4 3.8 8.7
10.0
92.0 72.2
57.1
4.8
42.0 5.8 13.3 10.2
92.3 73.7 4.44 58.6
4.9
43.5 7.8 18.0 10.4
15.0 89.8 70.6 4.33 55.9
4.8
40.4 3.8 8.7
9.6
90.0 72.2 4.36 57.3
4.9
41.9 5.8 13.3
9.8
90.2 73.7 4.39 58.7
4.9
43.5 7.8 18.0 10.0
18.0
87.8 70.6 4.28 56.0
4.8
40.4 3.8 8.7
9.2
88.0 72.2
57.5
4.9
41.9 5.8 13.3
9.4
88.2 73.7 4.33 58.9
5.0
43.5 7.8 18.0
9.6
12.0 93.3 79.5 4.52 64.1
5.2
49.0 3.6 8.4
11.3
93.6 81.4 4.55 65.8
5.2
50.7 5.6 12.9
11.5
93.9 83.2 4.59 67.6
5.3
52.5 7.6 17.4
11.7
91.0 79.5 4.46 64.3
5.2
49.0 3.6 8.4
10.8
91.3
81.3 4.49 66.0
5.3
50.7 5.6 12.9
11.1
11.3
18.0 88.8 79.5 4.40 64.5
5.3
48.9 3.6 8.4
10.4
89.0 81.3 4.44 66.2
5.4
50.7 5.6 12.9 10.6
15.0
Operation Not Recommended
91.8
4.16
4.41
4.31
91.6 83.2 4.53 67.7
5.4
52.5 7.6 17.4
89.2
5.4
52.5 7.6 17.4 10.9
83.1
4.47 67.9
12.0 94.7 88.4 4.65 72.6
5.6
57.5 3.5 8.1
12.7
95.1 90.6 4.69 74.6
5.7
59.5 5.4 12.5 13.0
95.5 92.7 4.73 76.5
5.7
61.5
15.0 92.3 88.4 4.59 72.7
5.6
57.5 3.5 8.1
12.2
92.6 90.5 4.63 74.7
5.7
59.5 5.4 12.5
12.5
92.9 92.7 4.67 76.7
5.8
61.5
7.3 16.9 12.7
18.0 89.8 88.4 4.53 72.9
5.7
57.5 3.5 8.1
11.8
90.1 90.5 4.57 74.9
5.8
59.5 5.4 12.5 12.0
90.3 92.6 4.61 76.9
5.9
61.5
7.3 16.9 12.3
33.6
2.9
24.2 4.0 9.2
7.5
107.2 51.8
7.3 16.9 13.2
34.3
3.0
25.2 6.2 14.2
7.6
107.3 52.6
35.0
3.0
26.1
8.3 19.2
7.7
5.08 33.7
2.9
24.2 4.0 9.2
7.2
105.8 51.8 5.08 34.4
3.0
25.1
7.3
105.8 52.5 5.09 35.2
3.0
26.1
8.3 19.2
7.4
15.0 108.2 59.2 5.24 41.4
3.3
32.9 3.9 9.0
8.3
108.4 60.2 5.25 42.3
3.4
34.0 6.0 13.8
8.4
108.5 61.2
5.26 43.2
3.4
35.2
8.1 18.6
8.5
18.0 106.6 59.2
5.18
41.5
3.3
32.9 3.9 9.0
7.9
106.7 60.2 5.19
42.5
3.4
34.0 6.0 13.8
8.1
106.8 61.2
5.21 43.4
3.4
35.2
8.1 18.6
8.2
12.0
5.41 48.9
3.6
41.6 3.8 8.7
9.5
111.4 68.6 5.43 50.0
3.7
43.0 5.8 13.3
9.7
111.6 69.8 5.45
3.8
44.3 7.8 18.0
9.8
9.5
Operation Not Recommended
15.0 107.1
51.1
5.13
5.13
6.2 14.2
5.13
Operation Not Recommended
111.2
67.4
15.0 109.4 67.4 5.35
51.2
49.1
3.7
41.6 3.8 8.7
9.2
109.5 68.6 5.37 50.3
3.7
42.9 5.8 13.3
9.3
109.7 69.8 5.39 51.4
3.8
44.3 7.8 18.0
18.0 107.5 67.4 5.29 49.3
3.7
41.5 3.8 8.7
8.8
107.6 68.6 5.30 50.5
3.8
42.9 5.8 13.3
9.0
107.8 69.8 5.32
51.7
3.8
44.3 7.8 18.0
9.1
12.0 112.6 75.5 5.53 56.6
4.0
50.3 3.6 8.4
10.7
112.8 77.0 5.56 58.0
4.1
51.8 5.6 12.9 10.9
113.1 78.4 5.59 59.3
4.1
53.4 7.6 17.4
11.0
15.0 110.5 75.5 5.46 56.9
4.1
50.2 3.6 8.4
10.3
110.7 77.0 5.49 58.2
4.1
51.8 5.6 12.9 10.5
110.9 78.4
59.6
4.2
53.4 7.6 17.4 10.6
18.0 108.4 75.5 5.39
4.1
50.2 3.6 8.4
9.9
108.6 77.0 5.42 58.5
4.2
51.8 5.6 12.9
10.1
108.7 78.5 5.44 59.9
4.2
53.3 7.6 17.4 10.2
12.0 113.9 83.7 5.65 64.4
4.3
58.9 3.5 8.1
12.0
114.2 85.3 5.69 65.9
4.4
60.7 5.4 12.5
12.2
114.5 87.0 5.72 67.5
4.5
62.5 7.3 16.9 12.4
15.0
111.6 83.7 5.57 64.6
4.4
58.9 3.5 8.1
11.6
111.9 85.4 5.61 66.2
4.5
60.7 5.4 12.5
11.8
18.0 109.3 83.7 5.50 64.9
4.5
58.8 3.5 8.1
11.1
109.5 85.4 5.53 66.5
4.5
60.6 5.4 12.5
11.3
57.1
112.1
5.51
87.1
5.64 67.8
4.5
62.5 7.3 16.9 12.0
109.7 87.1
5.56 68.2
4.6
62.4 7.3 16.9
11.5
Operation Not Recommended
15.0 126.9 49.3 6.18
28.2
2.3
25.2 4.0 9.2
7.2
126.9 49.8 6.18
28.8
2.4
25.9 6.2 14.2
7.3
127.0 50.4 6.17
29.3
2.4
26.6 8.3 19.2
7.4
18.0 125.5 49.2
28.3
2.4
25.1 4.0 9.2
6.9
125.5 49.8
28.9
2.4
25.9 6.2 14.2
7.0
125.6 50.3 6.13
29.4
2.4
26.6 8.3 19.2
7.1
6.12
6.12
Operation Not Recommended
15.0 127.9 56.7 6.27 35.3
2.6
33.9 3.9 9.0
7.9
128.0 57.4 6.28 36.0
2.7
34.9 6.0 13.8
8.0
128.1 58.2 6.28 36.7
2.7
35.9
8.1 18.6
8.1
18.0 126.3 56.6 6.21
2.7
33.9 3.9 9.0
7.6
126.4 57.4
2.7
34.9 6.0 13.8
7.7
126.5 58.2 6.22 36.9
2.7
35.9
8.1 18.6
7.8
12.0 130.7 64.1 6.44 42.1
2.9
42.8 3.8 8.7
9.1
130.8 65.0 6.45 43.0
3.0
43.9 5.8 13.3
9.2
131.0 65.9 6.46 43.8
3.0
45.1
7.8 18.0
9.3
15.0 128.9 64.1
6.37 42.4
2.9
42.7 3.8 8.7
8.7
129.0 65.0 6.38 43.3
3.0
43.9 5.8 13.3
8.8
129.2 65.9 6.39 44.1
3.0
45.1
7.8 18.0
8.9
64.1 6.29 42.6
3.0
42.7 3.8 8.7
8.4
127.2 65.0 6.30 43.5
3.0
43.9 5.8 13.3
8.5
127.3 66.0 6.31 44.4
7.8 18.0
8.6
3.2
51.6 3.6 8.4
10.1
132.1 72.5 6.57
3.2
52.9 5.6 12.9 10.2 132.3 73.6 6.58
127.1
12.0 131.9 71.5
60
SWPD
COP LST PSI
3.8
18.0
120
HE
18.0 85.9 52.9 4.03 39.1
12.0
120
KW
Operation Not Recommended
12.0
120
SOURCE 18.0 GPM
HC
87.5 53.8 4.08 39.9
12.0
40
HWC
FT MBtuh
LLT
HD
7.7
18.0 105.7 51.1
100
SWPD
COP LST PSI
23.3 4.0 9.2
12.0
100
HE
3.8
12.0
80
KW
87.3 52.9 4.07 39.0
12.0
80
SOURCE 15.0 GPM
HC
6.55
35.5
49.1
6.21
36.2
50.1
51.1
3.1
45.1
3.3
54.3 7.6 17.4 10.4
15.0 129.9 71.5 6.46 49.5
3.2
51.5 3.6 8.4
9.7
130.1 72.6 6.48 50.5
3.3
52.8 5.6 12.9
9.9
130.2 73.7 6.50 51.5
3.3
54.3 7.6 17.4 10.0
18.0 127.9 71.5
6.38 49.8
3.3
51.5 3.6 8.4
9.4
128.1 72.7 6.39 50.9
3.3
52.8 5.6 12.9
9.5
128.2 73.8
6.41 52.0
3.4
54.2 7.6 17.4
9.6
12.0 133.1 78.9 6.65 56.2
3.5
60.4 3.5 8.1
11.3
133.3 80.1 6.68 57.3
3.5
61.8 5.4 12.5
11.5
133.5 81.3
6.71 58.4
3.6
63.3 7.3 16.9
11.6
15.0 131.0 78.9 6.56 56.5
3.5
60.3 3.5 8.1
10.9
131.1 80.2 6.58 57.7
3.6
61.8 5.4 12.5
11.1
131.3 81.5 6.60 58.9
3.6
63.2 7.3 16.9
11.2
18.0 128.8 79.0 6.47 56.9
3.6
60.2 3.5 8.1
10.5
128.9 80.3 6.48 58.2
3.6
61.7 5.4 12.5 10.7
129.1
3.7
63.2 7.3 16.9 10.8
81.7 6.50 59.5
2/21/11
* Water heating mode only allows high compressor capacity operation.
ELT = entering load fluid temperature to heat pump
LLT = leaving load fluid temperature from heat pump
LGPM = load flow in gallons per minute
LWPD = load coax water pressure drop
EST = entering source fluid temperature to heat pump
LST = leaving source fluid temperature from heat pump
HWC = hot water generator capacity
SWPD = source coax water pressure drop
PSI = pressure drop in pounds per square inch
FT HD = pressure drop in feet of head
KW = kilowatts
HE = heat extracted in Btuh
HC = total heating capacity in Btuh
COP = coefficient of performance [HC/(kW x 3.413)]
IMPORTANT NOTE: Refer to Notes to Performance Tables for additional information.
41
SYNERGY3D SPECIFICATION CATALOG
Wiring Schematics
208-230/60/1 ECM
Compressor
S
C
R
Blue
T2 T1
Tan(16)
Cap
CC
L2
HWL
L1
NOTE 3
Unit Power
208-230/60/1
Ext Pump
1/2 hp Total
208-230/60/1
PB1
D
G
A
Yellow(8)
Black
Green(18)
NOTE 2
Brown(15)
Blue
240V
PO
240V L2
Fused L2
Fused L2
Grn
240V L2
1
Blue(17)
Acc Com
NO
COM
CR1
NO
COM
CR2
NC
CR3
NO
CR4
COM
Blue
NC
COM
D
P6
CC
CC-GND
Gre/Yel(12)
1
C
2
Y1
3
Y2
4
W
5
O
6
G
7
LO
8
Premier 2
Microprocessor
Logic Control
(DC Voltage)
P2
1
C
2
C
3
SL1 In
4
SL1 Out
5
Not
6
Used
7
1
2
3
C
C
8
Not Used
13
Black
7
Violet
4
Yellow
5
Blue
Brown
6
Not Used
16
Not Used
CO
P10
10
Orange
1
9
Blue
2
2
Pink
3
1
White
4
3
Tan
5
11
Red
SW2
SW3
On
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
Test / Norm
Loop / Well
FAH / Hydronic
FAC / Hydronic
Not Used
Inputs / Norm
Outputs / Norm
Pulse L / Constant L
(See Note 6)
On
1
2
3
4
5
Two Speed / Single
POPC / Spring
No RPM / RPM
Over-Ride Time
Over-Ride Time
HW
11
Tan
4
Tan
9
Orange
2
Orange
10
Brown
3
Brown
RV
1
12
Yellow
5
Yellow
T
LP
Blue
7
Black
14
Black
HP
Over-Ride Selection
Diagnostic Modes
Status LED PCB
Current Fault Status
Normal Display Mode
Inputs
Outputs
Outputs2
Field Selection Dips - #1 On, #6 On, #7 On
#1 Off, #6 On, #7 On
R
Drain
Drain pan overflow lockout
Drain pan overflow
Y1
Compressor
Blower low
G
Water Flow
WCL thermister (loop<15°F, well<30°F) Lockout
WCL thermister (loop<15°F, well<30°F)
Y2
Not used
Blower med
Y
High Press
High pressure lockout
High pressure
O
RV
Blower hi
Low Press
Low pressure lockout
Low pressure
G
FAN
Aux heat #1
Air Flow
ECM2 RPM < 100 rpm lockout
ECM2 RPM < 100 rpm
W
HW pump
Aux heat #2
Status
Hydronic
Hi Limit
Microprocessor malfunction
Not used
SL1
Loop pump
Aux heat #3
Not used
Not used
HW
DV
Aux heat #4
Hydronic Off
Hot-water disable
HW off
HW off
HW off
#6 Off, #7 On
42
WCL
Blue
13
6
LED
Hydronic
Thermostat
(Note 7)
DV
8
P4
R
R
6
Hydronic Cooling Slave Signal - 24VAC Input
Violet
P5
NOTE 9
NOTE 5
SW1 On
P12
NOTE 9
Gray
12
15
R
SW4
15 16 10 8
A
R
R
3
Blk(24)
Blk(20)
14
Shut
Down
P11
Blk/Wh
PS2
Yel(19)
P1
R
5
ECM
Fan Motor
Yellow
R
CCHI
Violet(2)
4
Blk(23)
Blue
Black(1)
3
SV
Acc NO
Yellow(21)
Yellow(7)
White(22)
Acc NC
F1-10A 240V
NO
2
24V
P3
F1-10A 240V
CS
Transformer
240V L1
PWM
Blue(13)
NOTE 1
PC
RPM grnd
Damper
Red
208V
Orange(14)
Com
C2
Load
Pump
RPM
G
On/Off
G
CC
Orange
1
1
RCP
Brown
C
Gry/Wh(10)
Gray(9)
Pump
PS1
Blk/Wh(11)
2
2
Pump
Black
Red
#6 On, #7 Off
#6 Off, #7 Off
HW off
Over-ride time SW3-4 SW3-5
5 minutes
On
On
15 minutes
Off
On
30 minutes
On
Off
60 minutes
Off
Off
SYNERGY3D SPECIFICATION CATALOG
Wiring Schematics cont.
208-230/60/1 ECM cont.
With optional EA Series 10kW Auxiliary Electric Heat shown
Desuperheater
Option
Place auxiliary heat schematic from kit here
DHW
Pump
Blue
Pink
1 - Use copper or aluminum conductors.
2 – When Auxiliary Heat is installed the BLK/WHT
wire from CC-L1 to PS1-C and the GRY/WHT wire
from CC-L2 to PS1-A must be removed (located in
the heat pump control box).
3 – Jumpers wires are Factory Installed, and are
Required for auxiliary heat operation.
4 – Low voltage wiring CLASS 2.
208-230/60/1
Blue
Blue
F1
P9
1
F1
Green
G
L1
L2
2
3
Brown
To PS1
Blue
Orange
Blue
5
Brown
4
Orange
Black
Gray
Blue
Violet
TB
ER
1
Black
Green
Gray
1
2
3
4
5
P11
2
3
4
5
Connects to variable
speed ECM motor only
P11
Gray
TS1
ER
2
Grn
1
HE1
Gray
N
O
G
HE2
Black
Black
N
O
G
TS2
Gray
ER
3
Perfect Speed
Blower Motor
PWM
Feedback
Not Used
COM
4
3
2
1
1
2
3
4
Black
N
O
G
P2
3
Black
ER
4
C
NOTE 9
Gray
N
O
G
EA Series
PCB
C
1
2
P1
3
4
15 16 10 8
P10 from unit’s control
box connects to P2
P12 Connects Here
Operation Logic Data
Legend
Breaker
Factory Low voltage wiring
Factory Line voltage wiring
Field low voltage wiring
Field line voltage wiring
Optional block
DC Voltage PCB traces
Internal junction
Quick connect terminal
Thermistor
T
Light emitting diode - Green
G
Relay coil
Capacitor w/ bleed resistor
Switch - Condensate overflow
Wire nut
Switch - High pressure
L1
NOTE 3
Field wire lug
Operation
Logic Table
Compressor
Reversing Valve
Loop Pump
Load Pump
Aux Heater
Acc Relay
Diverting Valve
ECM Speed
T-Stat Signal
Damper
Auxiliary 1 - Out
STG1
On
Off
On
Off
Off
On
Off
On
Y1
Off
On
Heating
STG2
STG3
EMERG
On
On
Off
Off
Off
Off
On
On
Off
Off
Off
Off
Off
Staged
Staged
On
On
Off
Off
Off
Off
On
On
On
Y1, Y2 Y1, Y2, W
W
Off
Off
On
On
On
Off
Cooling
Hot Water
STG1
STG2
Mode
On
On
Stg 2 On
On
On
Off
On
On
On
Off
Off
On
Off
Off
Off
On
On
Off
Off
Off
On
On
On
Off
Y1, O Y1, Y2, O
HW
Off
Off
Off
On
On
On
Switch - Low pressure
Ground
Relay ContactsN.O., N.C.
Fuse
CC CO CR1 CR2CR3 CR4 CS F1 and F2 HE HP ER1 to ER4 LP -
Compressor Contactor
Condensate overflow sensor
DHW pump relay
Loop pump relay
PSC Fan Speed Relay
PSC Fan Power Relay
Compressor Solenoid
Fuses
Heater element
High pressure switch
Aux heat stage relays
Low pressure switch
Switch -Hot Water On/Off
P
2
3
1
PB1, PB2 PR PS RV SW1 SW2 SW3 SW4 TS HWL WCL -
Notes
Polarized connector
Power blocks
Pump Relay
Power strip
Reversing Valve coil
DIP package 12 position
DIP package 8 position
DIP package 5 position
Hot water pump enable switch
Thermal limit switch
Hot water limit sensor
Water Coil Limit Sensor
1 - Switch blue and red wires for 208V operation.
2 - Typical hook-up shown for power open - power closed damper shown.
3 - The blk/wh and gray/wh wires are removed when Aux Heat is installed
4 – Use part number 19P592-01 (jumper bar assembly) when single source power is required.
5 - Air Flow Configuration Example: SW1 configured for dip 1 as low, dip 3 as medium, and dip 5 as high speed ECM fan.
6 – SW2-8 must be in the OFF position for pulsed “L” lockout signal and in the ON position for constant “L” lockout signal.
7 – A hydronic input will generate a Y2 compressor call so that compressor only operates in high capacit y.
8 – Low voltage wiring CLASS 2.
9 – On units with a Perfect Speed ECM blower motors, the blower’s low voltage harness from the board with the P12 connector
will connect to a jumper harness that is connected to the blower motor. SW3-3 DIP switch should be set in the OFF position.
Page 1
43
SYNERGY3D SPECIFICATION CATALOG
Wiring Schematics cont.
208-230/60/1 ECM with IntelliStart
S
Pink
F1
DHW
Pump
Blue
HWL
C
R
Blue
Blue
Black
Blue
Pink
Cap
Tan(16)
Desuperheater
Option
T2 T1
Common
Black
CC
L2
L1
NOTE 3
Unit Power
208-230/60/1
Ext Pump
1/2 hp Total
208-230/60/1
PB1
D
Brown
C
Gry/Wh(10)
Gray(9)
Pump
PS1
Blk/Wh(11)
2
2
Orange
G
A
1
Yellow(8)
Black
Green(18)
NOTE 2
Com
Brown(15)
Blue
240V
PO
Grn
1
Blue(17)
Acc Com
NO
COM
CR1
NO
COM
CR2
NC
CR3
NO
CR4
COM
Blue
NC
COM
D
Yel(19)
P6
CC
CC-GND
Black(1)
Gre/Yel(12)
P1
R
1
C
2
Y1
3
Y2
4
W
5
O
6
G
7
LO
8
Microprocessor
Logic Control
(DC Voltage)
P2
1
C
2
C
3
SL1 In
4
SL1 Out
5
Not
6
Used
7
Status LED PCB
2
3
C
8
Not Used
13
Black
7
Violet
4
Yellow
Gray
12
Brown
6
Not Used
16
Not Used
SW3
On
CO
P10
10
Orange
1
9
Blue
2
2
Pink
3
1
White
4
3
Tan
11
Red
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
8
Test / Norm
Loop / Well
FAH / Hydronic
FAC / Hydronic
Not Used
Inputs / Norm
Outputs / Norm
Pulse L / Constant L
(See Note 6)
On
6
HW
Tan
4
1
2
3
4
5
Two Speed / Single
POPC / Spring
No RPM / RPM
Over-Ride Time
Over-Ride Time
Tan
9
Orange
2
Orange
10
Brown
3
Brown
RV
1
12
Yellow
5
Yellow
T
LP
Blue
7
Black
14
Black
HP
Over-Ride Selection
Diagnostic Modes
Normal Display Mode
Inputs
Current Fault Status
#6 Off, #7 On
Outputs
#6 On, #7 Off
Outputs2
Field Selection Dips - #1 On, #6 On, #7 On
#1 Off, #6 On, #7 On
R
Drain
Drain pan overflow lockout
Drain pan overflow
Y1
Compressor
Blower low
G
Water Flow
WCL thermister (loop<15°F, well<30°F) Lockout
WCL thermister (loop<15°F, well<30°F)
Y2
Not used
Blower med
Y
High Press
High pressure lockout
High pressure
O
RV
Blower hi
Low Press
Low pressure lockout
Low pressure
G
FAN
Aux heat #1
#6 Off, #7 Off
Air Flow
ECM2 RPM < 100 rpm lockout
ECM2 RPM < 100 rpm
W
HW pump
Aux heat #2
Status
Hydronic
Hi Limit
Microprocessor malfunction
Not used
SL1
Loop pump
Aux heat #3
Not used
Not used
HW
DV
Aux heat #4
Hydronic Off
Hot-water disable
HW off
HW off
HW off
44
WCL
Blue
13
6
LED
Hydronic
Thermostat
(Note 7)
DV
8
P4
R
SW4
5
Hydronic Cooling Slave Signal - 24VAC Input
Violet
11
HW off
P12
NOTE 9
P5
NOTE 9
SW2
R
R
15 16 10 8
Blue
14
R
R
3
A
15
NOTE 5
SW1 On
P11
Blk(24)
Blk(20)
5
Shut
Down
1
C
5
Blk/Wh
PS2
R
CCHI
4
ECM
Fan Motor
Yellow
Blk(23)
Blue
Violet(2)
3
SV
Acc NO
Yellow(21)
Yellow(7)
White(22)
Acc NC
F1-10A 240V
NO
2
24V
P3
F1-10A 240V
CS
Transformer
240V L1
PWM
240V L2
240V L2
Fused L2
Fused L2
RPM
Blue(13)
NOTE 1
PC
RPM grnd
Damper
Red
208V
Orange(14)
C2
G
Load
Pump
On/Off
1
G
CC
Start
Blue
Blue
RCP
IntelliStart
Active
F1
Pump
Run Winding
Red
Blue
Over-ride time SW3-4 SW3-5
5 minutes
On
On
15 minutes
Off
On
30 minutes
On
Off
60 minutes
Off
Off
SYNERGY3D SPECIFICATION CATALOG
Wiring Schematics cont.
208-230/60/1 ECM with IntelliStart cont.
Grn
With optional EA Series 20kW Auxiliary Electric Heat Shown
208-230/60/1
208-230/60/1
1
2
3
4
5
Note 2
P11
Circuit 2
G
Perfect Speed
Blower Motor
L2
1 - Use copper or aluminum conductors.
2 - Use manufacturer’s part number 19P592-01 (jumper
bar assembly) when single source power is required.
3 – When Auxiliary Heat is installed the BLK/WHT
wire from CC-L1 to PB2-2 and the GRY/WHT wire
from CC-L2 to PB2-1 must be removed (located in
the heat pump control box).
4 – Jumpers wires are Factory Installed, and are
required for auxiliary heat operation.
5 – Low voltage wiring CLASS 2.
Circuit 1
L1
L2
L1
G
P9
PWM
Not Used
4
Feedback
COM
1
3
2
1
2
3
5
Brown
4
Orange
Blue
Yellow
Violet
3
Gray
Gray
15 16 10 8
Yellow
NOTE 9
EHC1
Gray
Gray
HE1
P12 Connects Here
Yellow
TS1
Yellow
HE3
Pink
Black
Pink
EHC2
Black
Green
Black
Black
HE2
Pink
TS2
Pink
HE4
1
2
3
4
5
TS4
P11
Connects to variable
speed ECM motor only
ER1
Gray
Gray
G
Place auxiliary heat schematic from kit here
NO
Legend
Factory Low voltage wiring
Factory Line voltage wiring
Field low voltage wiring
Field line voltage wiring
Optional block
DC Voltage PCB traces
Internal junction
Quick connect terminal
TS
TS3
Thermal Limit Switch
P
EHC1
ER2
G Light emitting diode - Green
EHC
Black
Black
G
208-230V Relay coil
EHR
NO
24VDC Relay coil
EHC
ER3
Electric Heat Contactor
1 2 3
Yellow
Yellow
EHC2
NO
G
Polarized connector
Field wire lug
L1
PB - Power block
Ground
ER4
HE - Heater element
Pink
Pink
N.O., N.C.
G
ER1 to ER4 - Aux heat stage relays
NO
Breaker
EA Series PCB
P2
C
1
2
3
DO NOT REMOVE JUMPER WIRES
PLACE AUXILIARY HEAT SCHEMATIC ON UNIT SCHEMATIC
4
C
1
2
3
P1
4
Note 4
CO C EH1 C EH2 P3
Condensate
Operation Logic Data
Legend
Breaker
Factory Low voltage wiring
Factory Line voltage wiring
Field low voltage wiring
Field line voltage wiring
Optional block
DC Voltage PCB traces
Internal junction
Quick connect terminal
Thermistor
T
Light emitting diode - Green
G
Relay coil
Capacitor w/ bleed resistor
Switch - Condensate overflow
Wire nut
Switch - High pressure
L1
P3 on Aurora ABC Board
Field wire lug
Switch - Low pressure
Operation
Logic Table
Compressor
Reversing Valve
Loop Pump
Load Pump
Aux Heater
Acc Relay
Diverting Valve
ECM Speed
T-Stat Signal
Damper
Auxiliary 1 - Out
STG1
On
Off
On
Off
Off
On
Off
On
Y1
Off
On
Heating
STG2
STG3
EMERG
On
On
Off
Off
Off
Off
On
On
Off
Off
Off
Off
Off
Staged
Staged
On
On
Off
Off
Off
Off
On
On
On
Y1, Y2 Y1, Y2, W
W
Off
Off
On
On
On
Off
Cooling
Hot Water
STG1
STG2
Mode
On
On
Stg 2 On
On
On
Off
On
On
On
Off
Off
On
Off
Off
Off
On
On
Off
Off
Off
On
On
On
Off
Y1, O Y1, Y2, O
HW
Off
Off
Off
On
On
On
Ground
Relay ContactsN.O., N.C.
Fuse
Switch -Hot Water On/Off
P
2
3
1
Polarized connector
Notes
1 - Switch blue and red wires for 208V operation.
CC CO CR1 CR2CR3 CR4 CS F1 and F2 HE HP ER1 to ER4 LP -
Compressor Contactor
Condensate overflow sensor
DHW pump relay
Loop pump relay
PSC Fan Speed Relay
PSC Fan Power Relay
Compressor Solenoid
Fuses
Heater element
High pressure switch
Aux heat stage relays
Low pressure switch
PB1, PB2 PR PS RV SW1 SW2 SW3 SW4 TS HWL WCL -
Power blocks
Pump Relay
Power strip
Reversing Valve coil
DIP package 12 position
DIP package 8 position
DIP package 5 position
Hot water pump enable switch
Thermal limit switch
Hot water limit sensor
Water Coil Limit Sensor
45
2 - Typical hook-up shown for power open - power closed damper shown.
3 - The blk/wh and gray/wh wires are removed when Aux Heat is installed
4 – Use part number 19P592-01 (jumper bar assembly) when single source power is required.
5 - Air Flow Configuration Example: SW1 configured for dip 1 as low, dip 3 as medium, and dip 5 as high speed ECM fan.
6 – SW2-8 must be in the OFF position for pulsed “L” lockout signal and in the ON position for constant “L” lockout signal.
7 – A hydronic input will generate a Y2 compressor call so that compressor only operates in high capacity.
8 – Low voltage wiring CLASS 2.
9 – On units with a Perfect Speed ECM blower motors, the blower’s low voltage harness from the board with the P12 connector will
connect to a jumper harness that is connected to the blower motor. SW3-3 DIP switch should be set in the OFF position.
SYNERGY3D SPECIFICATION CATALOG
Engineering Guide Specifications
the introduction of glass fibers into the discharge air.
Standard cabinet panel insulation must meet NFPA 90A
requirements, air erosion and mold growth limits of UL181, stringent fungal resistance test per ASTM-C1071 and
ASTM G21, and shall meet zero level bacteria growth per
ASTM G22. Unit insulation must meet these stringent
requirements or unit(s) will not be accepted.
General
Synergy3D units shall be floor mounted type with
horizontal air inlet and vertical up flow or rear air discharge.
Reverse cycle operation shall provide heating or cooling
in the forced air mode. The unit shall also be capable of
heating water for hydronic applications when the unit is not
in the forced air mode. Units shall be AHRI/ISO Standard
13256-1 performance certified and listed by a nationally
recognized safety-testing laboratory or agency, such as
ETL Testing Laboratory. Each unit shall be computer runtested at the factory. Each unit shall be mounted on a pallet
for shipping.
Two blower and three compressor compartment access
panels shall be ‘lift-out’ removable with supply and return
ductwork in place. The control box shall be hinged and
removable to allow easy access to the compressor. The
internal component layout shall provide for service access
from the front side for restricted installations.
The geothermal units shall be designed to operate with
entering liquid temperature between 20°F and 120°F
[-6.7°C - 48.9°C].
A duct collar shall be provided on the supply air opening.
Standard size 2 in. [5.1 cm] MERV 11 pleated filters shall be
provided with each unit. Vertical units shall have a return
air filter rack/duct collar. The upflow vertical units shall
have a removable insulated divider panel between the air
handling section and the compressor section to minimize
the transmission of compressor noise and to permit
operational service testing without air bypass. Vertical units
shall be supplied with left or right horizontal air inlet and
top vertical or rear air discharge.
Refrigerant Circuit
All units shall contain a sealed refrigerant circuit including:
a hermetic motor-compressor, discharge muffler,
bidirectional thermal expansion valve, finned tube air-torefrigerant heat exchanger, solenoid valve, diverting valve,
check valve, reversing valve, source coaxial tube water-torefrigerant heat exchanger, load coaxial tube refrigerantto-water heat exchanger, optional hot water generator coil,
and service ports.
The compressor shall be double isolation mounted using
selected durometer grommets to provide vibration free
compressor mounting.
Compressors shall be high efficiency dual capacity scroll
type designed for heat pump duty and mounted on
vibration isolators. Compressor motors shall be singlephase PSC with overload protection. The finned tube
air-to-refrigerant heat exchanger will be aluminum tube/
fin and shall be sized for low-face velocity and constructed
of lanced aluminum fins bonded to performance enhanced
tubes in a staggered pattern not less than three rows
deep for superior performance. The aluminum tube and
fin air-to-refrigerant heat exchanger has as optional to be
electro-coated with AlumiSeal. All models shall include
discharge line mufflers to help quiet compressor discharge
gas pulsations.
The drain pan shall be of plastic construction to inhibit
corrosion and bacterial growth. Drain outlet shall be
located on pan as to allow complete and unobstructed
drainage of condensate. The unit as standard will be
supplied with solid-state electronic condensate overflow
protection. Mechanical float switches WILL NOT be
accepted. Vertical units shall be furnished with a PVC
slip condensate drain connection and an internal factory
installed condensate trap.
Blower Motor and Assembly
The blower shall be a direct drive centrifugal type with a
dynamically balanced wheel. The housing and wheel shall
be designed for quiet low outlet velocity operation. Tight
blower housing geometry shall not be permitted. The
blower housing shall be removable from the unit without
disconnecting the supply air ductwork for servicing of the
blower motor. The blower motor shall be a variable speed
ECM type. The variable speed ECM blower motor shall be
soft starting, shall maintain constant CFM over its operating
static range, and shall provide 12 CFM settings. The
blower motor shall be isolated from the housing by rubber
grommets. The motor shall be permanently lubricated and
have thermal overload protection. Variable speed ECM
motors shall be long-life ball bearing type.
All units shall have the source coaxial tube refrigerant-towater heat exchanger and optional hot water generator
ThermaShield coated.
Casing and Cabinet
The cabinet shall be fabricated from heavy-gauge
galvanized steel and finished with corrosion-resistant
powder coating. This corrosion protection system shall
meet the stringent 1000 hour salt spray test per ASTM
B117. The interior shall be insulated with 1/2-inch thick,
multi-density, cleanable aluminum foil coated glass fiber
with edges sealed or tucked under flanges to prevent
46
SYNERGY3D SPECIFICATION CATALOG
Engineering Guide Specifications cont.
Electrical
Options and Accessories
A control box shall be located within the unit compressor
compartment and shall contain a 75VA transformer, 24 volt
activated, 2 pole compressor contactor, terminal block for
thermostat wiring and solid-state controller for complete
unit operation. Electromechanical operation WILL NOT
be accepted. Units shall be name-plated for use with time
delay fuses or HACR circuit breakers. Unit controls shall
be 24 volt and provide heating or cooling as required by
the remote thermostat/sensor. The controller shall also be
capable of operating the unit in a hydronic heating mode
with input from an external thermostat. A microprocessorbased controller that interfaces with a multi-stage
electronic thermostat to monitor and control unit operation
shall be provided. The control shall provide operational
sequencing, blower speed control, blower failure, high and
low pressure switch monitoring, freeze detection sensor
temperature limit, condensate overflow sensing, auxiliary
heat staging, lockout mode control, load pump and
loop pump control, LED status and fault indicators, fault
memory, field selectable options, and accessory output.
Cupronickel Heat Exchanger
An optional cupronickel water-to-refrigerant heat
exchanger shall be provided.
Hot Water Generator
An optional ThermaShield coated heat reclaiming hot water
generator coil of vented double-wall copper construction
suitable for potable water shall be provided. The coil shall
be factory mounted inside the unit. An internal pump is
not included. Order DPK5 for field installed pump and
temperature limit.
Thermostat (field-installed)
A multi-stage auto-changeover electronic digital
thermostat shall be provided. The thermostat shall
offer three heating and two cooling stages with precise
temperature control. An OFF-HEAT-AUTO-COOL-EMERG
system switch, OFF-AUTO blower switch, and indicating
LEDs shall be provided. The thermostat shall display in °F
or °C.
A detachable terminal block with screw terminals will
be provided for field control wiring. All units shall have
knockouts for entrance of low and line voltage wiring. The
blower motor and control box shall be harness plug wired
for easy removal.
Electronic Air Cleaner (field-installed)
A 1 in. [25 mm] electronic air cleaner, cleanable 97%
efficiency at 0.3 microns and larger, shall be provided in
lieu of the standard throwaway filter. The initial pressure
drop across the filter shall not exceed 0.2 in. w.g. at 300
fpm face velocity.
Optional IntelliStart (Compressor Soft Starter) - shall
be factory installed for use in applications that require
low starting amps, reduced compressor startup noise,
off-grid, and improved start-up behavior. IntelliStart
shall reduce normal starting current by 60% on 208230/60/1 units.
Electrostatic Air Cleaner (field-installed)
A 1 in. [25 mm] electrostatic air cleaner, cleanable 90%
efficiency, shall be provided in lieu of the standard
throwaway filter. The initial pressure drop across the filter
shall not exceed 0.15 in. w.g. at 300 fpm face velocity.
Piping
Source and load supply and return water connections shall
be 1 in. [25.4 mm] FPT brass swivel fittings, which provide
a union and eliminate the need for pipe wrenches and
sealants when making field connections. The optional hot
water generator shall have sweat type connections. All
water piping shall be insulated to prevent condensation at
low liquid temperatures. On the vertical upflow units, the
condensate connection shall be a 3/4 in. [19.1 mm] PVC
socket with internally-trapped hose that can be routed to
front or side locations.
AlpinePure 411–Rack 4 in. Pleated Filter Accessory
A 4 in. thick [102 mm] MERV 11 filter and filter rack shall be
provided in lieu of the standard filter and rack.
AlpinePure MERV 13 Filter (field installed)
A 2 in. thick [50 mm] MERV 13 filter shall be provided in
lieu of the standard filter and fits the factory filter rack.
The filter maintains MERV 13 rating in full ASHRAE 52.2
independent testing as required for LEED® certification.
Helps fulfill a full credit under the LEED® rating system.
47
SYNERGY3D SPECIFICATION CATALOG
Engineering Guide Specifications cont.
Earth Loop Flow Center (field-installed)
AlpinePure Drain Pan Treatment
A self-contained module shall provide all liquid flow, fill
and connection requirements for ground source closed
loop systems up to 20 GPM. The pumps shall be wired to
a power block located in the nearest unit. The heat pump
units shall contain low voltage pump slaving control so that
two units may share one flow center.
Provides dependable, sustained time-release protection
from slime build-up and foul smelling odors in the drain
pan. Also adds a light, pleasant scent to the air.
Auxiliary Heater (field-installed)
An electric resistance heater shall provide supplemental
and/or emergency heating capability. Vertical units shall
have the control box and resistance heater coil assembly
mounted internally. A low voltage plug shall be provided
in each unit for quick auxiliary heat connection. The
heater shall operate in sequenced stages as controlled
by the unit’s microprocessor. The heater shall feed line
voltage power to the unit blower and transformer to
provide emergency heat capability in the event of an open
compressor circuit breaker.
48
SYNERGY3D SPECIFICATION CATALOG
Notes
49
SYNERGY3D SPECIFICATION CATALOG
Revision Guide
Pages:
Description:
Date:
By:
15 May 2017
JM
Misc.
Updated for Aluminum Coils, Wiring Schematics
42-45
Updated Wiring Schematic for Auxiliary Heat Changes, Updated ETL Logo
14 April 2015
MA
Updated Nomenclature Hot Water Generation Option
30 Sept 2014
MA
All
Updated to new Revision, Reformatted Layout
27 Dec 2013
DS
All
Updated Nomenclature to Reflect new ECM Blower Motor
09 Nov 2012
DS
All
Added Notes Regarding Discharge Muffler
11 Oct 2012
DS
5
28
Updated Cooling Capacity Corrections
11 Oct 2012
DS
All
Various Formatting Corrections
11 Oct 2012
DS
50
Added Revision Guide
11 Oct 2012
DS
50
Manufactured by
WaterFurnace International, Inc.
9000 Conservation Way
Fort Wayne, IN 46809
www.waterfurnace.com
ISO 17025 Accredited
©2017 WaterFurnace International, Inc., 9000 Conservation Way, Fort Wayne, IN 46809-9794. WaterFurnace has a policy
of continual product research and development and reserves the right to change design and specifications without notice.
SC1300YS
07/17
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