(RHA**B*D/VHA**B*A)
&Air Conditioning
Heating
®
Remote Heat Pump
Comfort. Quality. Trust.
Installation Instructions
Affix this manual, Specification Sheet and Users
Information Manual adjacent to the unit.
Table of Contents
Safety Instructions .............................................................2
General ................................................................................3
SHIPPING AND HANDLING ............................................................. 3
LOCATION AND CLEARANCES ...................................................... 3
ROOFTOP INSTALLATIONS ............................................................ 3
APPLICATION NOTE ........................................................................ 3
Refrigerant Piping.....................................................3
REFRIGERANT VAPOR AND LIQUID LINE SIZING ....................... 3
REFRIGERANT VAPOR AND LIQUID LINE ROUTING ................... 4
SWEAT CONNECTIONS AT THE UNIT ........................................... 4
Safe Refrigerant Handling .................................................4
LEAK TESTING ................................................................................. 5
ID COIL AND LINE SETS EVACUATION.......................................... 5
Step 1. Confirm Proper Pump And Gauge Operation .............. 5
Step 2. Evacuate Lines And Indoor Coil. ................................. 6
Electrical Connections.......................................................7
WIRING ............................................................................................. 7
System Startup ...................................................................8
PRELIMINARY CHARGE ADJUSTMENT......................................... 8
FINAL CHARGE ADJUSTMENT ....................................................... 8
Matching System ....................................................................... 8
AMANA-Approved Mix-Matched System Combinations ........... 8
ID COIL WITH EXPANSION VALVE ................................................. 8
ID COIL WITH ORIFICE .................................................................. 10
Troubleshooting ...............................................................10
Defrost System .......................................................10
R
R
C
RECOGNIZE THIS SYMBOL AS A SAFETY PRECAUTION.
ATTENTION INSTALLING PERSONNEL
As a professional installer you have an obligation
toknowtheproductbetterthanthecustomer. This
includes all safety precautions and related items.
Remember, it is your responsibility to install the
product safely and to know it well enough to be
able to instruct a customer in its safe use.
Prior to actual installation, thoroughly familiarize
yourself with this Instruction Manual. Pay special
attention to all safety warnings. Often during
installation or repair it is possible to place yourself
in a position which is more hazardous than when
the unit is in operation.
Safety is a matter of common sense...a matter of
thinking before acting. Most dealers have a list of
specific good safety practices...follow them.
The precautions listed in this Installation Manual
areintendedassupplementaltoexistingpractices.
However,ifthereisadirectconflictbetweenexisting
practices and the content of this manual, the
precautions listed here take precedence.
Goodman Company, L.P.
1810 Wilson Parkway • Fayetteville, Tennessee 37334
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Part No. 10845809 Rev. 1
Printed in USA
January 2003
DO NOT locate the unit:
General
– Directly under a vent termination for a gas appliance.
– Within 3 feet of a clothes drier vent.
This manual covers only the installation of the remote heat
pump. See the unit specification sheet for information
regarding accessories.
– Where the refreezing of defrost water would create
a hazard.
– Where water may rise into the unit.
SHIPPING AND HANDLING
– Where the noise would prove to be a nuisance to the
customer (i.e. windows, patios, decks, etc.)
Units are securely packed in shipping containers ap-
provedbytheInternationalSafeTransitAssociation. Check
the carton upon arrival for external damage. If damage is
found, file a request in writing for inspection by the carrier
agent immediately. The carrier is responsible for making
prompt inspection of damage and for a thorough investiga-
tion of each claim. The distributor or manufacturer will not
accept claims from dealers for transportation damage. If
no damage is found, carefully remove all shipping material
and properly dispose of it.
DO locate the unit:
– With the bottom of the unit at least three inches
above the maximum expected snow accumulation
level.
– Inaccordancewiththeminimumclearancesdescribed
in Figure 1.
– To minimize the length of refrigerant piping required.
– To provide adequate service clearances.
– On a level concrete pad (or other sturdy, weather
resistant platform).
Keep the unit as upright as possible. Laying the unit on its
side or top could cause equipment damage.
– Isolated from the building structure to avoid transmis-
sion of vibrations.
LOCATION AND CLEARANCES
This unit is for outdoor installation only. The unit cannot be
completely enclosed. At least one side must be unre-
stricted. Refer to Figure 1 for clearances from the sides
and top of the unit to walls and other objects.
NOTE: Short runs of refrigerant piping are better than long
runs. Locate the unit to provide safe access for future
maintenance and service. If possible, discuss unit location
with the owner before proceeding.
NOTE: These minimum clearances do not guarantee
adequate service access. Sufficient clearances for servic-
ing the unit(s) must be provided.
ROOFTOP INSTALLATIONS
Before installing this unit on a roof, ensure that the roof will
support the weight of the unit, its platform, and the service
personnel. For the unit weight, see the outdoor unit
specification sheet (all weights are approximate). If there
is doubt about the adequacy of the roof, contact a qualified
architect or structural engineer before installing the unit.
Ensure the unit is placed on a level, weather-resistant
platform.
If installing two or more units at the same location, allow at
least 24 inches between the units when using the 6”-12”-
12” guidelines in Figure 1. The space between two units
may be reduced to 12” if the clearances in Figure 1 are
increased to 12”-24”-24”.
MINIMUM CLEARANCES
APPLICATION NOTE
For proper performance, the indoor equipment and duct-
work must be adequate for moving about 400 CFM of
indoor air for every ton of cooling capacity to be installed.
If they are not, modify the ductwork or indoor equipment
accordingly.
12"
5'
12"
6"
Refrigerant Piping
REFRIGERANT VAPOR AND LIQUID LINE SIZING
See unit “Specification Sheet” for the required vapor and
liquid line tubing sizes. The listed sizes in the specification
sheet are suitable for line lengths of fifty feet or less and
indoor coil elevations of no more than forty feet above or
below the outdoor unit. NOTE: Unit performance is
affected by vapor line tubing size. A larger than required
vapor line tubing inhibits oil return to the unit. A smaller
than required vapor line tubing size decreases unit perfor-
mance by up to 10%. If a run of more than fifty feet is
required, contact your Amana distributor for assistance.
SIDE VIEW
Figure 1
Check the indoor coil liquid and vapor line diameter. A
bushing or coupling may be needed to match with the line
3
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sizes used. If mix-matching to a restrictor orifice indoor
coil, check the “Specification Sheet” for the proper orifice
size to be used with this outdoor unit. Piston orifices are
supplied with the outdoor unit.
Safe Refrigerant Handling
WARNING
To avoid possible explosion, death, or
injury; practice safe handling of
refrigerants.
REFRIGERANT VAPOR AND LIQUID LINE ROUTING
All of the vapor line must be insulated. The insulation must
include a vapor barrier.
The unit liquid line must be outside the vapor line insula-
tion. If any part of the liquid line runs through an area that
will be hotter than 120°F, that part must be insulated.
While these items will not cover every conceivable situa-
tion, they should serve as a useful guide.
Avoid burying refrigerant lines. If you must bury them, first
dig the trench so that it gradually slopes toward the
compressor (at least 1 inch per 10 feet). Then, insulate the
liquid and suction lines separately. Enclose all under-
ground portions of the refrigerant lines in waterproof ma-
terial (conduit or pipe). If the lines must pass under or
through a concrete slab, be sure they are adequately
protected.
WARNING
Refrigerants are heavier than air. They can
“push out” the oxygen in your lungs or in
any enclosed space. To avoid possible
death or difficulty in breathing:
• Never sniff a refrigerant.
• Seal the holes where the refrigerant piping enters
the building and support piping as necessary.
• Never purge refrigerant into an enclosed
room or space. In fact, all refrigerants
must, BY LAW, be recovered.
• Be careful not to kink or dent the refrigerant lines.
Kinked or dented lines will cause poor perfor-
mance or compressor damage.
• Ifanindoorleakissuspected,thoroughly
ventilatetheareabeforebeginningwork.
• Liquid refrigerant can be very cold. To
avoid possible frostbite or blindness,
avoid contact and wear gloves and
goggles. Ifliquidrefrigerantdoescontact
your skin or eyes, get medical help
immediately.
CAUTION
To prevent damage to the unit, a bi-flow
filter drier must be installed in the liquid
line.
Install the bi-flow line filter drier shipped with the unit near
the condensing unit or near the indoor coil. A new filter
drier (properly sized and rated for R-22) MUST be installed
with new outdoor units in order for the compressor war-
ranty to remain valid. Any time the refrigeration system has
been opened for service, a new properly-sized bi-flow filter
drier rated for R-22 must be installed.
• Always follow EPA regulations. Never
burn refrigerant, as poisonous gas will
be produced.
WARNING
To avoid possible explosion:
SWEAT CONNECTIONS AT THE UNIT
• Neverapplyflameorsteamtoarefrigerant
cylinder. If you must heat a cylinder for
faster charging, partially immerse it in
warm water.
• Never fill a cylinder more than 80% full of
liquid refrigerant.
NOTE: When brazing, use a brazing alloy of 2% minimum
silver content. Do not use flux.
Before brazing connections, ensure the refrigerant line
ends are cut square, deburred, cleaned, free of nicks or
dents and round. Any other condition would increase the
chance of refrigerant leakage.
• Never add anything other than R-22 an
R-22 cylinder.
• Storecylindersinacool,dryplace. Never
During brazing, wrap the component with a wet rag, or use
a thermal heat trap compound as directed by the com-
pound manufacturer, to avoid overheating the service
valve, TXV valve, or filter drier while brazing.
use a cylinder as a platform or a roller.
After brazing, quench the joints with water or a wet cloth to
prevent overheating of the service valve. Inspect the paint
finish of the filter drier. The finish must be intact after
brazing. If the paint of the steel filter drier has been burned
or chipped, repaint or treat with a rust preventative. This
is especially important on suction line filter driers which are
continually wet during the unit operation.
4
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WARNING
6. Close the valve on the nitrogen cylinder and discon-
nect it from the gauge manifold.
To avoid possible explosion, use only
returnable (not disposable) service
cylinders when removing refrigerant from
a system.
7. Check for leaks. Apply a soap solution on all connec-
tions and joints. If you see bubbles, you have a leak.
Mark these locations.
NOTE: If you use an electronic leak detector to test for
leaks, add a trace of R-22 to the system (if permitted by
current EPA regulations) before testing.
• Ensure the cylinder is free of damage
which could lead to a leak or explosion.
• Ensurethehydrostatictestdatedoesnot
exceed 5 years.
8. Using the gauge manifold, carefully release the nitro-
gen from the system. If leaks are found, repair them.
After repair, repeat the above pressure test. If no leaks
exist, proceed to ID Coil and Line Sets Evacuation.
• Ensure the pressure rating meets or
exceeds 400 psig.
When in doubt, do not use cylinder.
ID COIL AND LINE SETS EVACUATION
THERMOCOUPLE
VACUUM
LEAK TESTING
GAUGE
WARNING
DIAL-A-CHARGE
CHARGING CYLINDER
TO
To avoid the risk of fire or explosion, never
useoxygen,highpressureairorflammable
gases for leak testing of a refrigeration
system.
RELATED
GAUGE
PORTS OF
COND. UNIT
LOW SIDE
GAUGE
HIGH SIDE
GAUGE
HIGH VACUUM
MANIFOLD
D
C
A
B
E
1. Before testing, ensure both hand valves on the gauge
manifold are closed relative to the center port (i.e.,
turned IN all the way.)
LARGE DIAMETER
BRAIDED VACUUM
HOSES
F
2. Attach the gauge manifold to the service valves on the
unit (see Figure 4).
Do not open the unit service valves.
A. LOW SIDE VALVE
B. HIGH SIDE VALVE
C. VACUUM PUMP
D. THERMOCOUPLE GAUGE
E. MANIFOLD GAUGE
F. CHARGING CYLINDER
Do not use refrigerant from the unit for leak testing.
The refrigerant in your unit has been precisely mea-
sured at the factory for optimum performance.
HIGH VACUUM PUMP
3. Connect a cylinder of dry nitrogen to the center port on
the gauge manifold.
Figure 2
WARNING
Step 1. Confirm Proper Pump And Gauge Operation
To avoid possible explosion, the line from
the nitrogen cylinder must include a
pressure regulator and a pressure relief
valve. The pressure relief valve must be
set to open at no more than 150 psig.
a. Connect vacuum pump, high vacuum manifold set
with high vacuum hoses, vacuum gauge and charging
cylinder to unit service valves as shown in Figure 2.
Ensure all manifold valves are fully closed.
b. Open the shutoff valve leading to the vacuum pump
(Figure 2) (C), start the pump, and watch the gauge
manifold. The readings in the gauge manifold should
drop to approximately 29 inches Hg. If this does not
happen, there is probably a leak in the pump and
gauge system. Repair the leak and test again.
4. Open the hand valve a minimal amount on the line
coming from the nitrogen cylinder.
5. Open the high pressure valve on the manifold gauge.
Pressurize the refrigerant lines and the indoor coil to
150 psig (1034 kPA). To reach 150 psig, you may
need to further open the hand valve on the nitrogen
cylinder.
c. Open the vacuum gauge valve (D) and evacuate to
250 microns or less. If the system cannot be evacu-
ated, replace the vacuum pump equipment and repeat
steps (a) through (c) again. Otherwise, the pump and
gauge are operating properly and you can continue on
to the next step; evacuating the system. Before
proceeding, be sure to close the valve (D) to the
vacuum gauge to avoid “pegging the meter” and
potential gauge damage.
WARNING
To avoid possible explosion or equipment
damage, do not exceed 150 psig when
pressure testing.
5
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Step 2. Evacuate Lines And Indoor Coil.
a. Openthehighandlowsidevalves(B&A)onthegauge
manifold. NOTE: Only open the valve (E) on the
gauge manifold leading to the cylinder, not the valve
on the charging cylinder (F).
b. Evacuate the system to about 29 inches Hg as mea-
sured by the low side (compound) gauge.
c. Open the valve (D) to the vacuum gauge. Evacuate
until the gauge reads 250 microns or less.
d. Close the valve to the vacuum pump (C). Wait five
minutes, then check the pressure on the vacuum
gauge:
1. If the pressure is not more than 1500 microns, the
system is leak-free and properly evacuated. Pro-
ceed to step (e).
2. If the pressure rises, but holds at about 5000 mi-
crons, moisture and noncondensibles are still
present. Open the valve to the vacuum pump (E),
and go back to step (c).
3. If the pressure rises above 5000 microns, a leak is
present. Go back to “Leak Testing” section on page
4.
e. Close the valve to the vacuum gauge.
f. Close the valve to the vacuum pump. Shut off the
pump.
6
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Electrical Connections
MAXIMUM ALLOWABLE WIRE LENGTH IN FEET TO LIMIT VOLTAGE DROP TO 2%
MINIMUM CIRCUIT AMPACITY OF OUTDOOR UNIT (MCA)
WIRE SIZE
(AWG)
10
12.5
15
17.5
20
22.5
25
27.5
30
32.5
35
37.5
40
75
60
95
150
241
376
50
79
125
201
314
43
68
107
172
269
37
59
95
150
235
N/R
53
83
134
209
N/R
47
75
120
188
N/R
N/R
68
109
171
N/R
N/R
63
100
157
N/R
N/R
58
93
145
N/R
N/R
54
86
134
N/R
N/R
N/R
80
N/R
N/R
N/R
75
14
12
10
8
118
188
301
471
125
118
6
N/R = NOT RECOMMENDED
Wire ampacity and voltage drop calculation based on copper conductors with 75 degree C insulation per
1996 National Electrical Code (NEC) Conductors in 86 degree F ambient.
See NEC for ampacity derating for higher ambients.
Table 1
WARNING
NOTE: This table is provided as a guide only. Wire
sizingmayberegulatedbylocalcodes. Localinspection
is the final authority on wire sizing.
Undersized wires can cause poor
equipment performance, equipment
damage, or fire. Consult the NEC, CEC or
a qualified electrician for proper wire size.
WARNING
To avoid personal injury, shock, or death,
open the electrical disconnect switch
before electrically connecting the unit.
Wiring must conform with National
Electrical Code (NEC) or Canadian
Electrical Code (CEC) and all local codes.
WARNING
To avoid personal injury, shock, or death,
be sure wiring to the unit is properly
grounded.
WIRING
The wiring diagram for this unit can be found on the control
box cover. Refer to Figure 3 for field wiring connections.
Wire size is important to ensure proper unit operation. The
sizemustbesufficienttocarrytheminimumcircuitampacity
listed on the unit serial data plate. Amana recommends
sizing the wires to limit the voltage drop to a maximum of
2% from the main breaker or fuse panel to the outdoor unit.
Consult the NEC, CEC, and all local codes to determine
the correct wire gauge and necessary length of run for
proper wiring.
START CAP
(if present)
DEFROST
BOARD
CC
PS1
RV
DFS
START RELAY
(if present)
F
H
C
1. To connect unit to power supply, route the power
supply and ground wires through the high voltage
entrance in the unit.
RUN CAP
T2
L2
T1
L1
2. Connect the ground wire to the ground lug and power
supply wires to the contactor.
W
O
Y
R
C
3. Route the low voltage wiring through the low voltage
entrance in the unit.
GROUND LUG
4. Connect the low voltage wires to the terminal strip (if
present) or to the wire leads. Route the low voltage
wire through the wire tie provided in the unit for
restraint.
FIELD WIRING
LOW VOLTAGE CONNECTION
FIELD WIRING
HIGH VOLTAGE CONNECTION
5. Connect thermostat to unit. If an Amana approved
room thermostat is not already present, install one at
a suitable indoor location.
Figure 3
WARNING
Consult the instructions packaged with the thermostat
for mounting and location instructions. For field-sup-
plied low voltage wiring and connections, see the last
section of this manual.
To avoid the risk of fire or equipment
damage, use only copper conductors.
6. Check all factory wiring connections to ensure none
were loosened during shipping and handling.
7
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IMPORTANT: Hard start components are required when
single-phase reciprocating compressors are used with
indoor coils which have thermal expansion valves. Some
units have hard start components factory installed. See
the “Specification Sheet” for hard start component require-
ments.
IMPORTANT: If adding refrigerant to a system, add only
refrigerant vapor (not liquid) through the suction valve (low
side) on the outdoor unit. Any other practice may cause
compressor damage.
FINAL CHARGE ADJUSTMENT
Matching System
This final charge adjustment procedure is for the matched
combination listed on the specification sheet.
System Startup
If the outdoor temperature is 60°F or higher, set the room
thermostat to COOL, fan switch to AUTO, and set the
temperature control well below room temperature.
PRELIMINARY CHARGE ADJUSTMENT
CAUTION
If the outdoor temperature is below 60°F and you are
installing a matching system, set the room thermostat to
HEAT, fan switch to AUTO, and set the temperature
control well above room temperature.
If this unit has a crankcase heater (see
SpecificationSheetorwiringdiagram)con-
nect electrical power to the unit for four
hours before operating the compressor.
Failuretodosocouldresultincompressor
damage.
Measure the low side pressure and temperature from the
pressure tap provided. See Figure 4. Measure the high
side pressure and temperature from the liquid line service
valve.
IMPORTANT!
During all installation and service work,
followallregulationsoftheEnvironmental
ProtectionAgency(EPA).Thissystemuses
refrigerant R-22. R-22 is an HCFC
(HydroChloro-FluoroCarbon). It is a
violation of EPA regulations to discharge
HCFC into the atmosphere and doing so
may result in fines or other penalties.
LOW SIDE
GAUGE PORT
LIQUID LINE
SERVICE VALVE
VAPOR LINE
SERVICE VALVE
After completing system piping, leak testing, and electrical
connections, use an Allen wrench to carefully open the
suction and liquid valves on the unit. These valves do not
back seat.
Figure 4
WARNING
Turn the electrical power on, and let the system run for
several minutes. It will take some time for the refrigerant
pressures to stabilize.
To avoid personal injury or death, open
eachvalveonlyuntilittouchestheretainer.
To avoid loss of refrigerant, do not apply
pressure to the retainer.
Compare the operating pressures and outdoor unit amp
draw to the numbers listed in the outdoor unit “Specifica-
tion Sheet”. If pressures and amp draw are too low, add
charge. If pressures and amp draw are too high, remove
charge.
The outdoor unit is factory-charged with enough R-22 for
the matching indoor blower coil or matching A-coil plus 25
feet of 3/8” liquid line. For liquid line lengths greater than 25
feet, add 0.55 oz. of R-22 per additional foot up to 50 feet.
For line sets over 50 feet consult an Amana distributor. For
liquid line lengths less than 25 feet, subtract 0.55 oz. of R-
22 per deviating foot.
If you are not using the “Matched Combination” which is
listed on the unit "Specification Sheet", check subcooling
(TEV coils) or superheat (flowrator coils) as detailed be-
low.
AMANA-Approved Mix-Matched System Combinations
Use Amana expanded performance multiplier tables in
addition to the following procedures.
CAUTION
Using refrigerant that does not meet ARI
Standard700maycausecompressordam-
age and void the warranty.
8
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I T N U . D . O @ A T R E H P E U S
9
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ID COIL WITH EXPANSION VALVE
FAN
At stabilized cooling conditions and with an outdoor tem-
perature of 60°F or higher, the subcooling at the outdoor
unit liquid line service valve should be as specified in the
specification sheet. Add or remove charge as required.
CC
HI-P
LO-P
ID COIL WITH ORIFICE
For a proper superheat reading, measure the refrigerant
pressure and temperature at the outdoor unit vapor line
service valve. The superheat should be within 3°F of that
shown on the Desired Superheat vs Outdoor Temperature
chart (see page 9). If the superheat is higher, add charge.
If the superheat is lower, remove charge.
30
60
90
RV
DEFROST
BOARD
DEFROST TIME
ADJUSTMENT PIN
DFS
EXAMPLE: The low side pressure is 84 psi. The low side
temperature is 80°F. The outdoor temperature is 95°F.
The indoor temperature is 85°F. By referring to a pressure
temperature chart, you will see that 84 psi equals a
saturated temperature of 50°F. The superheat is 80 - 50
= 30°F. The chart shows a superheat of 20°F is ideal for
these conditions. Since our superheat is 30 - 20 = 10°F
higher than ideal, charge must be added.
WC ROY
Figure 5
NOTE: If the time select pin remains in test position for 5
minutes, the control will ignore test mode and assume a
normal 90 minute defrost cycle. To over ride this time out,
remove the select pin briefly and replace back on test.
If the system is performing properly, reinstall the service
port caps and the valve bonnets. With the valve opened,
the valve bonnet is the primary seal against refrigerant
leaks. See the table below for the torque required for an
effective seal on the valve bonnet (1/6 turn past finger
tight).
WARNING
To avoid electrical shock or death,
disconnect the power before changing the
defrost time cycle.
Tubing Size
3/8
1/2, 5/8, 3/4
7/8, 1 1/8
Torque (Foot-Pounds)
10
14
16
If adjustment of the run time appears advisable:
1. Disconnect power to outdoor unit.
After closing the valve bonnet, perform a final refrigerant
leak test on the valves and sweat connections. Return the
room thermostat to the desired settings.
2. Move the defrost time adjustment pin from 90 minutes
to60minutesor30minutesasrequired(refertoFigure
5).
3. Reconnect the electrical power.
The maximum defrost time is 14 minutes. Most defrost
cycles are shorter.
Troubleshooting
SERVICING: When servicing, it may be necessary to
rapidly advance the system through a defrost cycle. To do
this:
(QUALIFIED SERVICER ONLY)
When troubleshooting, the first step should always be to
check for clean coils, clean filter(s), and proper airflow.
Indoor airflow should be 350 to 450 CFM per ton of cooling,
based on the size of the outdoor unit.
Place the defrost time adjustment pin on Test. When the
unit starts the defrost cycle, quickly remove the time select
pin to allow normal defrosting and defrost termination to
proceed. The select pin may be reconnected to test or
repeat the defrost cycle, or the pin may be placed in the
desired time setting. (Jumping both test pins with a small
insulated screw driver will also work.)
If further information is needed, see the Remote Heat
Pump Service Manual or contact your Amana distributor.
Defrost System
WARNING
Your unit is equipped with a time/temperature defrost
board. Defrosting of the outdoor coil is determined by both
coil temperature and compressor run time. See the
“Specification Sheet” for factory settings. Adjustment can
be changed as required. There are 30, 60, and 90 minute
settings available. Adjust only if geographical conditions,
outdoor humidity, or other adverse conditions make it
necessary.
To avoid electrical shock or death,
disconnect the electrical power before
servicing.
10
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THERMOSTAT* CONNECTIONS TO RH/VH HEAT PUMPS
WITH INDOOR BBA/BBC BLOWER COIL
Room Thermostat
R
C/X
Y
Y
O
O
W2
W2
E
E
G
G
Blower Coil R
C
R
C
Y
O
W
Remote Unit
Approved Thermostats: 1213403, 1213404, 1213410, 1213406
NOTE: 1. When installing accessories, wiring may have to be modified. Follow the instructions
in the accessory kit’s installation instructions.
WARNING
To avoid personal injury, shock or death, disconnect the
electrical power before electrically connecting any
equipment or changing any existing wiring.
11
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System Checklist
1
2
Does the condenser fan blade rotate freely, and is it tight on the shaft?
Does the refrigerant tubing flex freely and not touch another tube to cause rub
through?
3
4
5
Are both indoor and outdoor sections level?
Are the units properly supported?
Is outdoor section properly located on concrete base or equivalent?
Are the refrigerant lines correctly installed according to the relative position of the
outdoor and indoor sections?
6
7
8
9
Is the refrigerant tubing properly supported by isolation hangers?
Is the system completely free of refrigerant leaks?
Has the system been properly evacuated?
10 Does the system have the correct refrigerant charge?
Is the outdoor unit protected by the correct size time delay type fuses or breakers in
the indoor power box?
11
12 Are the power supply wires to units the correct size?
13 Are all electrical connections tight?
14 Does the compressor sound normal?
Check the amperage on the indoor blower motor. Is it within the limits shown on
the nameplate of the motor?
15
16 Are all access panels installed and secured?
Do controls function properly? Are manual reset switches in the reset position (high
pressure cutouts, relays, etc.)?
17
Check the voltage with unit running. Does it check within the tolerance of 207 to
18 253V for 230V, or 198 to 228V? If using 208V power indoors, have you modified
the transformer wiring as necessary?
19 Has the air flow across the indoor coil been checked and adjusted?
Has the air distribution system been balanced? Are all grilles, diffusers, and
dampers properly adjusted and locked?
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21 Has the system operated at least 30 minutes before leaving the job?
22 Does the owner understand the operation of the unit and the thermostat?
23 Does the owner know where the filters are located?
24 Does the owner know when and how the filter(s) should be cleaned or changed?
25 Have the registration cards been filled out and mailed?
26 Does the owner know whom to call for service?
27 Has the User's Guide been filled out and left with the owner?
®
is a trademark of Maytag Worldwide N.V. and is
used under license to Goodman Company, L.P. All rights reserved.
12
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