R-410A
OUTDOOR SPLIT-SYSTEM
AIR CONDITIONING
ISO 9001
Certified Quality
Management System
LISTED
MODELS: 16 SEER - CZF / AC6B / AL6B SERIES
2 TO 5 TONS
TABLE OF CONTENTS
GENERAL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
SAFETY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
UNIT INSTALLATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
EVACUATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
ELECTRICAL CONNECTIONS . . . . . . . . . . . . . . . . . . . . . . . 5
SYSTEM CHARGE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
INSTRUCTING THE OWNER . . . . . . . . . . . . . . . . . . . . . . . 11
AC CONTROL BOARD FUNCTIONALITY . . . . . . . . . . . . . 12
WIRING DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
LIST OF FIGURES
Typical Installation with Required Clearances . . . . . . . . . . . . 3
Tubing Hanger . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Underground Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
Heat Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
Typical Field Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
Communications Harness Connection . . . . . . . . . . . . . . . . . . 6
CFM Selection Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Communicating AC with Non-Communicating Air Handler
or Furnace using Communicating Interface Control . . . . . . . . 7
Thermostat Wiring – Single Stage Air Conditioner
(with AC control) – PSC Air Handler . . . . . . . . . . . . . . . . . . . . 8
Thermostat Wiring – Single Stage Air Conditioner
(with AC control) – VS Air Handler . . . . . . . . . . . . . . . . . . . . . 9
Thermostat Wiring – Single Stage Air Conditioner
(with AC control) – Modulating Furnace . . . . . . . . . . . . . . . . 10
Communicating AC with Communicating
Air Handler or Furnace . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Wiring Diagram (2 - 4 Ton) . . . . . . . . . . . . . . . . . . . . . . . . . . 16
Wiring Diagram (5 Ton) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
LIST OF TABLES
R-410A Saturation Properties . . . . . . . . . . . . . . . . . . . . . . . . 12
TEST Input Functionality . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Operational Mode Display . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Status Code Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Status Code Display . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Operational Fault Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
Sensor or Switch Fault Codes . . . . . . . . . . . . . . . . . . . . . . . 14
Wiring Related Fault Codes . . . . . . . . . . . . . . . . . . . . . . . . . 14
SECTION I: GENERAL
SECTION II: SAFETY
The outdoor units are designed to be connected to a matching indoor
coil with sweat connect lines. Sweat connect units are factory charged
with refrigerant for the highest sales volume evaporator plus 15 feet of
field supplied lines.
This is a safety alert symbol. When you see this symbol on
labels or in manuals, be alert to the potential for personal
injury.
Understand and pay particular attention to the signal words DANGER,
WARNING, or CAUTION.
Matching indoor coils are available with a thermal expansion valve or
an orifice liquid feed sized for the most common usage. The orifice size
and/or refrigerant charge may need to be changed for some system
combinations, elevation differences, or total line lengths. See tabular
data sheet provided in unit literature packet for charge requirements.
Refer to Application Data covering “General Piping Recommendations
and Refrigerant Line Length” (Part Number 247077).
DANGER indicates an imminently hazardous situation, which, if not
avoided, will result in death or serious injury.
WARNING indicates a potentially hazardous situation, which, if not
avoided, could result in death or serious injury.
CAUTION indicates a potentially hazardous situation, which, if not
avoided may result in minor or moderate injury. It is also used to
alert against unsafe practices and hazards involving only property dam-
age.
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THERMOSTAT
60” OVERHEAD
CLEARANCE
NEC CLASS 1
WIRING
TO INDOOR
BLOWER
NEC CLASS 2
WIRING
WEATHERPROOF
DISCONNECT
SWITCH
TO COIL
24” SERVICE
ACCESS
CLEARANCE
SEAL OPENINGS WITH
PERMAGUM OR EQUIVALENT
10” COIL
CLEARANCE AREA
NOTE: ALL OUTDOOR WIRING
MUST BE WEATHERPROOF
FIGURE 1: Typical Installation with Required Clearances
GROUND INSTALLATION
TXV INSTALLATIONS
The unit may be installed at ground level on a solid base that will not
shift or settle, causing strain on the refrigerant lines and possible leaks.
Maintain the clearances shown in Figure 1 "Typical Installation with
Required Clearances" and install the unit in a level position.
The following are the basic steps for installation. For detailed instruc-
tions, refer to the Installation Instructions accompanying the TXV kit.
Install TXV kit as follows:
1. Relieve the holding charge from the indoor coil by depressing the
Schrader valve stem located in the end of the suction line. Cut the
spundown copper to allow installation of the suction line.
Normal operating sound levels may be objectionable if the unit is placed
directly under windows of certain rooms (bedrooms, study, etc.).
Isolate the unit from rain gutters to avoid any possible wash out of the
foundation.
2. After holding charge is completely discharged, loosen and remove
the schraeder cap seal.
3. Loosen and remove distributor cap seal.
ROOF INSTALLATION
4. Install the thermal expansion valve to the orifice distributor assembly
with supplied fittings. Hand tighten and turn an additional 1/4 turn to
seal. Do not overtighten fittings.
When installing units on a roof, the structure must be capable of sup-
porting the total weight of the unit, including a pad, lintel, rails, etc.,
which should be used to minimize the transmission of sound or vibra-
tion into the conditioned space.
5. Install the liquid line to the top of the thermal expansion valve with fit-
ting supplied with the liquid line. Hand modify the liquid line to align
with casing opening. Hand tighten the liquid line and an additional
1/4 turn to seal.
UNIT PLACEMENT
1. Provide a base in the pre-determined location.
2. Remove the shipping carton and inspect for possible damage.
3. Compressor tie-down bolts should remain tightened.
4. Position the unit on the base provided.
6. Install the TXV equalizer line into the vapor line as follows:
a. Hand tighten the 1/4” SAE nut to the schraeder fitting and an
additional 1/3 turn to seal.
7. At this time do not attach sensing bulb. This will be covered later
after brazing of the lines.
LIQUID LINE FILTER-DRIER
The air conditioning unit’s copper spun filter/dryer is located on the liq-
uid line.
PIPING CONNECTIONS
NOTICE
Replacements for the liquid line drier must be exactly the same as
marked on the original factory drier. See Source 1 for O.E.M.
replacement driers.
This system uses R-410A refrigerant which operates at higher pres-
sures than R-22. No other refrigerant may be used in this system.
Gauge sets, hoses, refrigerant containers, and recovery systems
must be designed to handle R-410A. If you are unsure, consult the
equipment manufacturer.
Failure to do so or using a substitute drier or a granular type may
result in damage to the equipment.
Never install a suction-line filter drier in the liquid line of an R-410A
system. Failure to follow this warning can cause a fire, injury or
death.
Filter-Drier
Apply with Models
Source 1 Part No.
029-22195-000
All
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The outdoor condensing unit must be connected to the indoor evapora-
tor coil using field supplied refrigerant grade copper tubing that is inter-
nally clean and dry. Units should be installed only with the tubing sizes
for approved system combinations as specified in tabular data sheet.
The charge given is applicable for total tubing lengths up to 15 feet. See
Application Data Part Number 247077 for installing tubing of longer
lengths and elevation differences.
TO INDOOR
COIL
TO OUTDOOR
COIL
LIQUID
LINE
INSULATED
VAPOR LINE
CAP
PVC
CONDUIT
NOTICE
Using a larger than specified line size could result in oil return prob-
lems. Using too small a line will result in loss of capacity and other
problems caused by insufficient refrigerant flow. Slope horizontal
vapor lines at least 1" every 20 feet toward the outdoor unit to facili-
tate proper oil return.
FIGURE 3: Underground Installation
PRECAUTIONS DURING BRAZING OF LINES
All outdoor unit and evaporator coil connections are copper-to-copper
and should be brazed with a phosphorous-copper alloy material such
as Silfos-5 or equivalent. DO NOT use soft solder. The outdoor units
have reusable service valves on both the liquid and vapor connections.
The total system refrigerant charge is retained within the outdoor unit
during shipping and installation. The reusable service valves are pro-
vided to evacuate and charge per this instruction.
PRECAUTIONS DURING LINE INSTALLATION
1. Install the lines with as few bends as possible. Care must be taken
not to damage the couplings or kink the tubing. Use clean hard
drawn copper tubing where no appreciable amount of bending
around obstruction is necessary. If soft copper must be used, care
must be taken to avoid sharp bends which may cause a restriction.
2. The lines should be installed so that they will not obstruct service
access to the coil, air handling system, or filter.
Serious service problems can be avoided by taking adequate precau-
tions to ensure an internally clean and dry system.
3. Care must also be taken to isolate the refrigerant lines to minimize
noise transmission from the equipment to the structure.
4. The vapor line must be insulated with a minimum of 1/2" foam rubber
insulation (Armaflex or equivalent). Liquid lines that will be exposed
to direct sunlight and/or high temperatures must also be insulated.
Dry nitrogen should always be supplied through the tubing while it
is being brazed, because the temperature is high enough to cause
oxidation of the copper unless an inert atmosphere is provided. The
flow of dry nitrogen should continue until the joint has cooled.
Always use a pressure regulator and safety valve to insure that only
low pressure dry nitrogen is introduced into the tubing. Only a small
flow is necessary to displace air and prevent oxidation.
5. Tape and suspend the refrigerant lines as shown. DO NOT allow
tube metal-to-metal contact. See Figure 2 "Tubing Hanger".
6. Use PVC piping as a conduit for all underground installations as
shown in Figure 3 "Underground Installation". Buried lines should be
kept as short as possible to minimize the build up of liquid refrigerant
in the vapor line during long periods of shutdown
PRECAUTIONS DURING BRAZING SERVICE VALVE
7. Pack fiberglass insulation and a sealing material such as permagum
around refrigerant lines where they penetrate a wall to reduce vibra-
tion and to retain some flexibility.
Precautions should be taken to prevent heat damage to service valves
by wrapping a wet rag around it as shown in Figure 4 "Heat Protection".
Also, protect all painted surfaces, insulation, and plastic base during
brazing. After brazing, cool joint with wet rag.
8. See application part number 247077 for additional piping informa-
tion.
SHEET METAL
HANGER
This is not a backseating valve. The service access port has a
valve core. Opening or closing valve does not close service access
port.
LIQUID
LINE
If the valve stem is backed out past the chamfered retaining wall,
the O-ring can be damaged causing leakage or system pressure
could force the valve stem out of the valve body possibly causing
personal injury.
INCORRECT
The valve can be opened by removing the plunger cap and fully insert-
ing a hex wrench into the stem and backing out counter-clockwise until
valve stem just touches the chamfered retaining wall.
TAPE
CORRECT
INSULATED
VAPOR LINE
Connect the refrigerant lines using the following procedure:
FIGURE 2: Tubing Hanger
1. Refer to the Tabular Data Sheet for proper vapor and liquid line siz-
ing.
Do not leave the system open to the atmosphere. Unit damage
could occur due to moisture being absorbed by the POE oil in the
system. This type of oil is highly susceptible to moisture absorp-
tion.
4
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2. Remove the cap and Schrader core from both the liquid and vapor
service valve service ports at the outdoor unit. Connect low pressure
nitrogen to the liquid line service port.
8. Protect the vapor valve with a wet rag and braze the vapor line con-
nection to the outdoor unit. The nitrogen flow should be exiting the
system from the vapor service port connection. After this connection
has cooled, remove the nitrogen source from the liquid fitting service
port.
3. Braze the liquid line to the liquid valve at the outdoor unit. Be sure to
wrap the valve body with a wet rag. Allow the nitrogen to continue
flowing.
9. Replace the Schrader core in the liquid and vapor valves.
10.Leak test all refrigerant piping connections.
4. Relieve the holding charge from the indoor coil by depressing the
Schrader valve stem located in the end of the suction line. Cut the
spundown copper to allow installation of the suction line.
NOTICE
Line set and indoor coil can be pressurized to 250 psig with dry
nitrogen and leak tested with a bubble type leak detector. Then
release the nitrogen charge.
NOTICE
Do not use the system refrigerant in the outdoor unit to purge or
leak test.
Never attempt to repair any brazed connections while the system is
under pressure. Personal injury could result.
SECTION IV: EVACUATION
1. It will be necessary to evacuate the system to 500 microns or less. If
a leak is suspected, leak test with dry nitrogen to locate the leak.
Repair the leak and test again.
FIGURE 4: Heat Protection
To verify that the system has no leaks, simply close the valve to the
vacuum pump suction to isolate the pump and hold the system
under vacuum. Watch the micron gauge for a few minutes. If the
micron gauge indicates a steady and continuous rise, it’s an indica-
tion of a leak. If the gauge shows a rise, then levels off after a few
minutes and remains fairly constant, it’s an indication that the system
is leak free but still contains moisture and may require further evacu-
ation if the reading is above 500 microns.
The evaporator is pressurized.
5. If TXV has not been installed refer to Page 3 “TXV INSTALLA-
TIONS”.
2. While system is being evacuated proceed to SECTION V ”ELEC-
TRICAL CONNECTIONS”. System charging will be covered under
SECTION VI ”SYSTEM CHARGE”
6. Braze the liquid line to the evaporator liquid connection. Nitrogen
should be flowing through the evaporator coil.
7. Slide the grommet away from the vapor connection at the indoor coil.
Braze the vapor line to the evaporator vapor connection. After the
connection has cooled, slide the grommet back into original position.
SECTION V: ELECTRICAL CONNECTIONS
a. Install the TXV bulb to the vapor line near the equalizer line, using
the bulb clamp(s) furnished with the TXV assembly. Ensure the
bulb is making maximum contact. For detailed instructions, refer
to the Installation Instructions accompanying the TXV kit.
GENERAL INFORMATION & GROUNDING
Check the electrical supply to be sure that it meets the values specified
on the unit nameplate and wiring label.
Power wiring, control (low voltage) wiring, disconnect switches, and
over current protection must be supplied by the installer. Wire size
should be sized per NEC requirements.
b. Bulb should be installed on a horizontal run of the vapor line if
possible. The bulb should be installed on top of the line.
c. If bulb installation is made on a vertical run, the bulb should be
located at least 16 inches from any bend, and on the tubing sides
opposite the plane of the bend. The bulb should be positioned
with the bulb tail at the top, so that the bulb acts as a reservoir.
All field wiring must USE COPPER CONDUCTORS ONLY and be
in accordance with Local, National, Fire, Safety, & Electrical Codes.
This unit must be grounded with a separate ground wire in accor-
dance with the above codes.
d. Bulb should be insulated using thermal insulation provided to pro-
tect it from the effect of the surrounding ambient temperature.
Cover completely to insulate from air-stream.
The complete connection diagram and schematic wiring label is located
on the inside surface of the unit service access panel.
In all cases, mount the TXV bulb after vapor line is brazed and has
had sufficient time to cool.
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FIELD CONNECTIONS POWER WIRING
1. Install the proper size weatherproof disconnect switch outdoors and
within sight of the unit.
NOTICE
To eliminate erratic operation, seal the hole in the wall at the ther-
mostat with permagum or equivalent to prevent air drafts affecting
the operation of the thermostat.
2. Remove the screws at the bottom of the corner cover. Slide corner
cover down and remove from unit. See Figure 5 "Typical Field Wir-
ing".
FIELD CONNECTIONS CONTROL WIRING
(SERIAL COMMUNICATION)
1. The Communications Harness is provided with the Touch Screen
Communicating Control.
3. Run power wiring from the disconnect switch to the unit.
4. Remove the service access panel to gain access to the unit wiring.
Route wires from disconnect through power wiring opening provided
and into the unit control box.
5. Install the proper size time-delay fuses or circuit breaker, and make
the power supply connections.
2. Route low voltage four conductor shielded thermostat communica-
tions harness into junction box and connect to communications port
on control board. See Figure 6 "Communications Harness Connec-
tion".
3. Route low voltage wiring into bottom of control box. Make low volt-
age wiring connections inside the junction box per Figures 8-9.
Corner
Cover
4. The complete connection diagram and schematic wiring label is
located on the inside surface of the unit service access panel.
Service
Access
Panel
If unit is going to be setup as a communicating system, the conven-
tional wiring must be removed from the Outdoor Control Board, if
not, damage to control board or indoor control could occur.
Control
Wiring
COMMUNICATIONS PORT
CONTROL BOARD
COMMUNICATIONS
HARNESS
Power
Wiring
Ambient
Temperature
Sensor
FIGURE 5: Typical Field Wiring
FIELD CONNECTIONS CONTROL WIRING
(CONVENTIONAL)
1. Route low voltage wiring into bottom of control box. Make low volt-
age wiring connections inside the junction box per Figures 10-12
“Thermostat Wiring”.
JUNCTION
BOX
2. The complete connection diagram and schematic wiring label is
located on the inside surface of the unit service access panel.
FIGURE 6: Communications Harness Connection
3. Replace the corner cover and service access panel that were
removed in Steps 2 and 4 of the ”FIELD CONNECTIONS POWER
WIRING” section.
5. Replace the corner cover and service access panel that were
removed in Steps 2 and 4 of the “Field Connections Power Wiring”
section.
NOTICE
Ambient temperature sensor should extend below corner cover by
1”.
NOTICE
Ambient temperature sensor should extend below corner cover by
1”.
4. All field wiring to be in accordance with national electrical codes
(NEC) and/or local-city codes.
6. Mount the thermostat about 5 ft. above the floor, where it will be
exposed to normal room air circulation. Do not place it on an outside
wall or where it is exposed to the radiant effect from exposed glass
or appliances, drafts from outside doors, or supply air grilles.
5. Mount the thermostat about 5 ft. above the floor, where it will be
exposed to normal room air circulation. Do not place it on an outside
wall or where it is exposed to the radiant effect from exposed glass
or appliances, drafts from outside doors, or supply air grilles.
7. Route the 24-volt control wiring (NEC Class 2) from the outdoor unit
to the indoor unit and thermostat.
6. Route the 24-volt control wiring (NEC Class 2) from the outdoor unit
to the indoor unit and thermostat.
NOTICE
To eliminate erratic operation, seal the hole in the wall at the ther-
mostat with Pergamum or equivalent to prevent air drafts affecting
the operation of the thermostat.
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If a dehumidification control is installed, it is recommended that a mini-
mum air flow of 325 cfm/ton be supplied at all times.
CFM SELECTION BOARD SETTINGS
For proper system operation the CFM Selection Board jumpers must be
set properly.
Touch Screen
Communicating
Control
Air Handler/Furnace
Communicating
Control
Air Conditioner
Communicating
Control
Refer to the Tech Guide for the recommended air flow settings for each
size condensing unit and matchup.
Set the cooling speed per the instructions for the air handler or furnace
by selecting the correct COOL and ADJ taps. Verify the airflow using
the LED display on the CFM selection board.
A+
R
A+
R
A+
R
The HUMIDISTAT jumper must also be removed if a dehumidistat is
installed.
GND
or C
GND
or C
GND
or C
If installed as a communicating system (outdoor, indoor and thermo-
stat), the system will automatically adjust to the optimal airflow settings.
These parameters can also be modified using the Touch Screen Com-
municating Control. Refer to the Touch Screen Communicating Control
owner’s manual for this procedure. Manual setting of the airflow jump-
ers on the ID equipment is not necessary with the Touch Screen Com-
municating Control.
B-
B-
B-
R
C
Y1
Y2
FIGURE 8: Communicating AC with Communicating Air Handler or
Furnace
Communicating
Indoor
Air Conditioner
Communicating
Control
Non-Communicating
Indoor Unit
Touch Screen
Communicating
Control
Interface Control
A+
R
A+
R
A+
R
GND
or C
GND
or C
GND
or C
B-
B-
B-
R
C
G
O
G
O
Y
Y1
Y2
FIGURE 7: CFM Selection Board
Wire per
non-comm.
Y
Y2
C
DEHUMIDIFICATION CONTROL
installation
manual
Y2
C
A dehumidification control accessory 2HU06700124 may be used with
variable speed air handlers or furnaces in high humidity areas. This
control works with the variable speed indoor unit to provide cooling at a
reduced air flow, lowering evaporator temperature and increasing latent
capacity. The humidistat in this control opens the humidistat contacts on
humidity rise. To install, refer to instructions packaged with the acces-
sory and Figures 7-9. Prior to the installation of the dehumidification
control, the jumper across the HUMIDISTAT terminals on the indoor
variable speed air handler or furnace CFM selection board must be
removed.
R
W
R
W
Assume that
connections
are from
W2
W2
thermostat
DHUM
HUM
DHUM
HUM
FIGURE 9: Communicating AC with Non-Communicating Air Handler
During cooling, if the relative humidity in the space is higher than the
desired set point of the dehumidification control, the variable speed
blower motor will operate at lower speed until the dehumidification con-
trol is satisfied. A 40-60% relative humidity level is recommended to
achieve optimum comfort.
or Furnace using Communicating Interface Control
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FIGURE 10: Thermostat Wiring – Single Stage Air Conditioner (with AC control) – PSC Air Handler
8
Johnson Controls Unitary Products
Download from Www.Somanuals.com. All Manuals Search And Download.
562156-UIM-A-0610
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FIGURE 11: Thermostat Wiring – Single Stage Air Conditioner (with AC control) – VS Air Handler
Johnson Controls Unitary Products
9
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562156-UIM-A-0610
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FIGURE 12: Thermostat Wiring – Single Stage Air Conditioner (with AC control) – Modulating Furnace
10
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562156-UIM-A-0610
Subcooling Charging Method
SECTION VI: SYSTEM CHARGE
This condensing unit must only be used with the matching thermostatic
expansion valve kit listed in the Tabular Data Sheet. This unit must be
charged during cooling operation (Y1) operation only. Charging
should be matched per the subcooling chart located on the rating plate.
Refrigerant charging should only be carried out by a qualified air
conditioning contractor.
1. Set the system running in the cooling (Y1) cooling mode by setting
the thermostat at least 6°F below the room temperature.
2. Operate the system for a minimum of 15-20 minutes.
3. Refer to the Tech Guide for the recommended airflow and verify this
indoor airflow (it should be about 400 SCFM per ton).
R-410A refrigerant cylinders are rose colored, and have a dip tube
which allows liquid to flow out of the cylinder in the Upright Posi-
tion. Always charge the system slowly with the tank in the upright
position.
4. Measure the liquid refrigerant pressure P and temperature T at the
service valve.
5. Calculate the saturated liquid temperature ST from Table 1 "R-410A
Saturation Properties".
6. Subcooling temperature TC = Saturated Temperature (ST) - Liquid
Temp (T).
DO NOT attempt to pump “Total System Charge” into outdoor unit
for maintenance, service, etc. This may cause damage to the com-
pressor and/or other components. the outdoor unit only has enough
volume for the factory charge, not the “Total System Charge”.
Example: The pressure P and temperature T measured at the liquid
service port is 360 Psig and 93°F. From Table 1, the saturated tem-
perature for 360 Psig is 109°. The subcooling temperature TC =
109°-93°=16°F
1. The factory charge in the outdoor unit includes enough charge for
the unit, a 15 ft. line set and the smallest rated indoor coil match-up.
Some indoor coil matches may require additional charge. See tabu-
lar data sheet provided in unit literature packet for charge require-
ments.
Add charge if the calculated subcooling temperature TC in Step 6 is
lower than the recommended level. Remove and recover the refrigerant
if the subcooling TC is higher than the recommended level. See Table 1
for R-410A saturation temperatures.
2. Once line size/length and indoor coil adders have been figured,
weigh in this amount of charge by adding it through the liquid service
port while the indoor side of the system is still under a vacuum. The
vacuum that is on the indoor side of the system will allow you to add
most of the charge adder. If you are not able to add the full amount
then add the remainder after starting up the system to verify proper
subcooling. The subcooling charging method is explained further in
this section.
After disconnecting manifold gauge set check flare caps on service
ports to be sure they are leak tight. DO NOT OVERTIGHTEN (between
40 and 60 inch - lbs. maximum).
The “Total System Charge” must be permanently stamped on the unit
data plate.
Total system charge is determined as follows:
1. Determine outdoor unit charge from tabular data sheet.
2. Determine indoor coil adjustment from tabular data sheet.
3. Release the refrigerant charge from the outdoor unit into the system.
Open both the liquid and vapor service valves at outdoor unit by
removing the plunger cap and with an allen wrench back out coun-
ter-clockwise until valve stem just touches the chamfered retaining
wall. ”PRECAUTIONS DURING BRAZING SERVICE VALVE”.
3. Calculate the line charge using the tabular data sheet if line length is
greater than 15 feet.
4. Total system charge = item 1 + item 2 + item 3.
5. Permanently stamp the unit data plate with the total amount of refrig-
erant in the system.
4. Replace plunger cap finger tight, then tighten an additional 1/12 turn
(1/2 hex flat). Cap must be replaced to prevent leaks.
5. Use the following subcooling charging method whenever additional
refrigerant is required for the system charge. A superheat charging
method is not suitable for TXV equipped systems.
SECTION VII: INSTRUCTING THE OWNER
Assist owner with processing warranty cards and/or online registration.
Review Owners Manual, provide a copy to the owner, and provide guid-
ance on proper operation and maintenance. Instruct the owner or the
operator how to start, stop, and adjust temperature setting.
Measurement Method
If a calibrated charging cylinder or accurate weighing device is avail-
able, add refrigerant accordingly.
The installer should also instruct the owner on proper operation and
maintenance of all other system components.
MAINTENANCE
1. Dirt should not be allowed to accumulate on the outdoor coils or
other parts in the air circuit. Clean as often as necessary to keep
the unit clean. Use a brush, vacuum cleaner attachment, or other
suitable means.
Compressor damage will occur if system is improperly charged. On
new system installations, charge system per tabular data sheet for
the matched coil and follow guidelines in this instruction.
2. The outdoor fan motor is permanently lubricated and does not
require periodic oiling.
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562156-UIM-A-0610
5. The indoor coil and drain pan should be inspected and cleaned reg-
ularly to prevent odors and assure proper drainage.
NOTICE
On 5 Ton unit the outdoor fan motor is a permanent magnet DC
brushless type. The motor requires a separate Electronic Control to
operate. Do not attempt to replace this motor with a typical PSC
type. Damage to Electronic Control may result.
Do not connect manifold gauges unless trouble is suspected.
Approximately 3/4 ounce of refrigerant will be lost each time a stan-
dard manifold gauge is connected.
3. If the coil needs to be cleaned, use clean water to wash dust, dirt,
and debris from outdoor condensing coil.
NOTICE
DO NOT use coil cleaners to clean outdoor condensing coil. clean-
ers containing HF-, hydroxides, chlorides, and sulfates can greatly
reduce the lifetime of the aluminum condensing coil.
IT IS UNLAWFUL TO KNOWINGLY VENT, RELEASE OR DIS-
CHARGE REFRIGERANT INTO THE OPEN AIR DURING
REPAIR, SERVICE, MAINTENANCE OR THE FINAL DISPOSAL
OF THIS UNIT.
WHEN THE SYSTEM IS FUNCTIONING PROPERLY AND THE
OWNER HAS BEEN FULLY INSTRUCTED, SECURE THE
OWNER’S APPROVAL.
4. Refer to the furnace or air handler instructions for filter and blower
motor maintenance.
TABLE 1: R-410A Saturation Properties
PRESSURE
PSIG
PRESSURE
PSIG
PRESSURE
PSIG
PRESSURE
PSIG
PRESSURE
PSIG
TEMP. °F
TEMP. °F
TEMP. °F
TEMP. °F
TEMP. °F
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
129.70
132.20
134.60
137.10
139.60
142.20
144.80
147.40
150.10
152.80
155.50
158.20
161.00
163.90
166.70
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
169.60
172.60
175.50
178.50
181.60
184.60
187.70
190.90
194.10
197.30
200.60
203.90
207.20
210.60
214.00
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
217.40
220.90
224.40
228.00
231.60
235.30
239.00
242.70
246.50
250.30
254.10
258.00
262.00
266.00
270.00
90
91
274.10
278.20
282.30
286.50
290.80
295.10
299.40
303.80
308.20
312.70
317.20
321.80
326.40
331.00
335.70
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
340.50
345.30
350.10
355.00
360.00
365.00
370.00
375.10
380.20
385.40
390.70
396.00
401.30
406.70
412.20
92
93
94
95
96
97
98
99
100
101
102
103
104
LOW VOLTAGE DETECTION
SECTION VIII: AC CONTROL BOARD
FUNCTIONALITY
ANIT-SHORT CYCLE DELAY
The control includes a five-minute anti-short cycle delay (ASCD) timer
to prevent the compressor from short cycling after a power interruption
or thermostat signal interruption. The ASCD timer is applied when the
control is first powered from the indoor unit thermostat and immediately
following the completion of a compressor run cycle. The compressor
and the outdoor fan will not operate during the five minutes that the
timer is active.
The control monitors the transformer secondary (24 VAC) voltage and
provides low voltage protection for the AC unit and its components. In
particular, the control prevents contactor chatter during low voltage con-
ditions. If the voltage drops below approximately 19 VAC, the control
will continue to energize any relays that are already energized but will
not energize any additional relays until the voltage level increases. If
the voltage drops below approximately 16 VAC, the control will immedi-
ately de-energize the relay outputs and will not energize any relays until
the voltage level increases. The control will store and display the appro-
priate fault codes when low voltage conditions occur.
The ASCD timer can be bypassed by connecting the TEST terminals
for three seconds while the thermostat is calling for compressor opera-
tion (Y1 input signal energized).
TEST INPUT
The control includes a TEST input connector that can be used for vari-
ous testing functions during installation and service. Table 2 summa-
rizes the behavior of the control when the two TEST pins are
connected.
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TABLE 2: TEST Input Functionality
Duration of
connection (seconds)
Control Behavior with no system
master signals present
Control behavior with system
master signals present
< 2
No response
No response
Bypass ASCD (Reduce timer to zero immediately).
If Y1 (thermostat or communication) is present and the
high-pressure switch is closed, contactors will be energized.
Display compressor type TS, Ultratech, or
single stage compressor, Ignore LPS
Clear soft lockout
Clear hard lockout
Clear soft lockout
Clear hard lockout
2 <
Reset TS anticipation mode counter
to zero for TS systems.
Reset TS anticipation mode counter
to zero for TS systems.
Reduce TS staging delays for TS
systems as described below.
Connection removed
Resume normal LED display
Connection not removed
Nothing more than previously explained
LED DIAGNOSTIC INDICATORS
OPERATIONAL MODE DISPLAY
The control includes two LED’s that display diagnostic information.
LED1 is red and LED2 is green. These LED’s are used to display oper-
ational mode, fault information. A third LED, LED3 is used to display
status information. LED3 is yellow. These LED’s are used to display
operational mode, status, and fault information.
The control will display its active operational mode using the onboard
LED’s when the TEST pins are connected while no thermostat signals
are energized. Table 3 "Operational Mode Display" describes the oper-
ational modes. The control will display the operational mode as long as
the TEST pins are shorted and no thermostat signals are energized.
When the TEST pin short is removed, the control will return to normal
LED displays.
OPERATIONAL MODE DETECTION
The control can be used in a variety of applications including AC units
with multistage compressors. The control uses various inputs to deter-
mine the proper mode of operation.
TABLE 3: Operational Mode Display
Compressor Type
Single Stage Compressor
TS Compressor
LED1 (Red)
1 flash
LED2 (Green)
---
---
---
The control senses the connections that are made to M, M1, and M2
terminals and determines the correct operational mode for the control.
This is done each time power to the control is cycled. Therefore, it is
important that no loads be attached to the M1 or M2 terminals of the
control for single-stage compressors, and no loads be attached to the
M1 terminal of the control for a scroll two-stage compressor.
2 flashes
3 flashes
UltraTech Compressor
STATUS CODE DISPLAY
The control also provides status codes using the LED’s. Status codes
indicate the state of the operation of the unit but do not represent a
fault. Tables 4 & 5 describes the LED displays during status codes. Sta-
tus codes will not be displayed when a fault code is present.
Do not connect any loads to the M1 or M2 terminals of the control
for single-stage compressors, and no loads should be attached to
the M1 terminal of the control for scroll two-stage compressor.
Incorrect system behavior could result.
TABLE 4: Status Code Display
Description
Required Condition
LED1 (Red)
LED2 (Green)
No power to control
No power to control
OFF
OFF
TS – M & M1 energized,
UltraTech – M energized,
Single Stage - NA
First-stage compressor operation – TS or UltraTech
OFF
ON
Second-stage compressor operation - TS, UltraTech, or
Single Stage
TS and UltraTech – M & M2 energized,
Single Stage – M energized
ON
OFF
OFF
ON
Control normal operation – no communication or call for
compressor present
No faults active, Y1 or Y2 not present
2s ON / 2s OFF
No faults active, Y1 or Y2 present,
ASCD timer not expired
0.1 sec ON /
0.1 sec OFF
Control normal operation – in ASCD period
TABLE 5: Status Code Display
Description
Required Condition
LED3 (Yellow)
0.1 sec ON /
0.1 sec OFF
Control normal operation – with active communication present System is active and presently communicating successfully.
Control powered – without active communication present
System has 24 VAC present and the microprocessor is active. 2s ON / 2s OFF
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FAULT CODE DISPLAY
LOCKOUT MODES
The control will display any fault code that is currently active using the
LED’s. The control will display the fault code, pause two seconds, and
display the fault again. The control will continue the fault code display
until the condition that caused the fault code no longer exists. If multiple
fault codes are present at the same time, the control will display only
the most recent fault.
Soft Lockout
The control will cause a soft lockout during the following conditions.
Detailed descriptions of the conditions required for the control to enter
the soft lockout mode are contained in other sections of this document.
1. High-pressure switch
a. Two openings within six hours
2. Low-pressure switch
Table 6 describes the operational faults that the control can detect. The
control displays these types of errors by flashing the LED1 (Red) and/or
LED2 (Green).
a. One opening of the switch for more than five seconds except
under certain conditions.
TABLE 6: Operational Fault Codes
During the soft lockout mode, the control will do the following.
1. De-energize the compressor contactor outputs (M, M1, & M2).
LED1 Flash
Code (Red) Code (Green)
LED2 Flash
Description
2. Energize the LED’s with the appropriate flash codes as described
elsewhere in this document.
Control Failure
ON
OFF
Operational Faults
3. In communication applications the fault code will be stored in the
thermostat. (This feature is not available for non communicating
applications).
High-pressure switch fault (not in
lockout yet)
1
2
4
5
6
OFF
OFF
OFF
OFF
OFF
System in high-pressure switch
lockout
The control will reset the soft lockout condition when any of the follow-
ing occur following removal of the fault condition.
System in low-pressure switch
lockout
1. Power is cycled to the R or Y1 inputs of the control. This will cause
the soft lockout condition to be reset when the thermostat is satisfied
or when the thermostat is set to SYSTEM OFF and back to HEAT or
COOL mode.
Low Voltage (<19.2VAC) preventing
further relay outputs
Low Voltage (<16 VAC) stopped
current relay outputs
2. The TEST terminals are shorted for more than two seconds.
When the soft lockout condition is reset, the control will stop displaying
the fault code and will respond to thermostat inputs normally.
High-pressure switch fault (with no
communication for compressor
operation and where Y1 and Y2
are not energized)
9
ON
Hard Lockout
If four soft lockouts occur within a twelve-hour period, the control will
cause a hard lockout condition. These soft lockouts can be caused by
the same or different conditions. The control will function in the same
way during soft and hard lockout conditions. The difference is in the
requirements for resetting the lockout condition. The control will reset
the hard lockout condition when any of the following occur following
removal of the fault condition.
SENSOR OR SWITCH FAULT CODES
Table 7 describes the faults that the control can detect when a problem
is present with a sensor or switch. The control displays this type of error
by energizing LED1 (Red) constantly and flashing LED2 (Green).
These faults typically occur when an AC unit has been operating and a
problem occurs with a sensor or its wiring. These faults could also occur
during installation as the AC unit is configured.
1. Power is removed from the R input of the control.
2. The TEST terminals are shorted for more than two seconds.
TABLE 7: Sensor or Switch Fault Codes
A hard lockout condition will not be reset when the thermostat is satis-
fied or when the thermostat is set to SYSTEM OFF and back to HEAT
or COOL mode. Power (24 VAC) to the control must be removed and
reapplied.
LED1 Flash
Code (Red) Code (Green)
LED2 Flash
Description
Outdoor ambient temperature
sensor failure (short)
ON
ON
1
2
When the hard lockout condition is reset, the control will de-energize
the LED’s and respond to inputs/communication normally.
Outdoor ambient temperature
sensor failure (open)
Wiring or Setting Related Lockouts
The control will not operate the compressor when the following faults
occur. These faults can be reset using the same methods used to reset
a soft lockout. However, two occurrences of these faults will not cause a
hard lockout condition.
WIRING RELATED FAULT CODES
Table 8 describes the faults that the control can detect when a problem
is present with the system wiring or jumper configurations. The control
displays this type of error by flashing LED1 (Red) and energizing LED2
(Green) constantly. These faults typically occur when the AC unit is first
installed or when a system component such as the room thermostat or
indoor unit is replaced or rewired.
1. Presence of Y2 thermostat signal without Y1.
If a compressor wiring error is detected, the control will not operate the
compressor. Once the compressor wiring error has been detected,
power (24 VAC) must be cycled to the control for the control to sense
the wiring change and clear the lockout condition.
TABLE 8: Wiring Related Fault Codes
LED1 Flash
Code (Red)
LED2 Flash
Code (Green)
Description
Compressor contactor miswire
Y2 present without Y1
1
2
ON
ON
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When the compressor is started following a high-pressure switch fault,
the control will start a six-hour timer based on accumulated compressor
run time. If the control senses another opening of the high-pressure
switch before the timer expires, it will cause a soft lockout condition.
The second opening of the high-pressure switch must be greater than
160 milliseconds for the lockout to occur. If the second opening is
between 40 and 160 milliseconds, the control will de-energize the com-
pressor but not cause a soft lockout condition. If the control does not
sense a second high-pressure switch opening before the six-hour timer
expires, the timer and counter will be reset.
COOLING OPERATION
First-Stage Cooling Operation
During first-stage cooling operation, the control will receive a thermostat
signal at the Y1 terminal. The control will energize the M compressor
output terminal. This signal energizes the coil on the compressor con-
tactor causing the compressor to run.
Second Stage Cooling Operation
During second-stage cooling operation, the control will receive a ther-
mostat signal from Y1 and Y2 inputs. The control will energize both the
M and M2 compressor output terminals. The M signal energizes the
compressor contactor causing the compressor to run. The M2 signal
applies 24VAC to the rectifier plug for the compressor solenoid allowing
the compressor to operate in second stage.
LOW-PRESSURE SWITCH FAULT
The AC unit is equipped with a low-pressure switch which is connected
to the control at the LPS terminals. If the low-pressure switch opens for
more than five seconds, the control will cause a soft lockout condition
and display the appropriate fault codes. If the control experiences multi-
ple soft lockouts the control will enter a hard lockout as described in
another section of this document. However, the control will ignore the
low pressure switch input and not cause a soft lockout condition if it
opens during the following conditions.
HIGH-PRESSURE SWITCH FAULT
The AC Unit is equipped with a high-pressure switch that is connected
to the control at the HPS terminals. If the high-pressure switch opens
for more than 40 milliseconds, the control will de-energize the compres-
sor and store and display the appropriate fault code. If the pressure
switch closes and a thermostat call for compressor operation is present,
the control will apply the five-minute anti-short cycle delay timer and
start the compressor when the timer expires. If a call for compressor
operation is initiated while the high-pressure switch is open, the control
will use the logic associated with a high-pressure switch opening during
a call for compressor operation.
•
•
First two minutes of compressor operation.
While TEST input pins are shorted while any thermostat input Y1
or Y2 signal is being received.
OUTDOOR AMBIENT TEMPERATURE SENSOR
Ambient temperature sensor is used in communication applications
only. It is used to display outdoor temperature to the home owner via
the communicating thermostat.
•
•
Has no effect on operation.
Not required for operation, but a fault code will be displayed when
sensor is not connected or if sensor is shorted.
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SECTION IX: WIRING DIAGRAM
FIGURE 13: Wiring Diagram (2 - 4 Ton)
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FIGURE 14: Wiring Diagram (5 Ton)
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NOTES
Subject to change without notice. Published in U.S.A.
Copyright © 2010 by Johnson Controls, Inc. All rights reserved.
562156-UIM-A-0610
Supersedes: Nothing
Johnson Controls Unitary Products
5005 York Drive
Norman, OK 73069
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