Friedrich HAZARDGARD SH15L30 B User Manual

2007 Service & Parts Manual  
Room Air Conditioners  
60 Hz Models  
SH15L30-B  
SH20L30-B  
HG-SVC-PRTS-07 (3-07)  
3
COMPONENT OPERATION AND TESTING  
WARNING  
Testing Procedures  
1. Terminal "C" and "S" – no continuity – open winding  
– replace compressor.  
DISCONNECT ELECTRICAL POWER TO THE  
UNIT BEFORE SERVICING OR TESTING  
2. Terminal "C" and "R" – no continuity – open winding  
– replace compressor.  
3. Terminal "R" and "S" – no continuity – open winding  
- replace compressor.  
COMPRESSORS  
Compressors are single phase, 208/230 volt. All compressor  
motors are permanent split capacitor type, using only a running  
capacitor across the start and run terminal.  
4. Terminal "C" and the shell of the compressor – continuity  
– grounded motor – replace compressor.  
5. Should continuity exist between terminals "R" and "S",  
but not between terminals "C" and "S" and "C" and "R",  
the internal overload may be open. If the compressor is  
extremely hot, allow it sufcient time to cool. It may require  
as long as one hour for the compressor to cool sufciently  
for the internal overload to close.  
All compressors are internally spring mounted and externally  
mounted on rubber isolators.  
Line Voltage Overload  
The compressor is equipped with an internal line voltage over-  
load. This overload is embedded in the windings of the motor  
to sense the motor temperature. The overload will open and  
disconnect the power to the motor due to high temperatures  
caused by:  
GROUND TEST  
Use an ohmmeter set on its highest scale. Touch one lead to  
thecompressorbody(cleanpointofcontact, asagoodconnec-  
tion is a must) and the other probe in turn to each compressor  
terminal. (See Figure 3.) If a reading is obtained, the compressor  
is grounded and must be replaced.  
1. A locked rotor.  
2. Excessive running amps.  
3. High discharge temperature.  
4. Low refrigerant charge.  
FIGURE 3 TYPICAL GROUND TEST  
FIGURE 1 INTERNAL OVERLOAD  
LINE BREAK  
INTERNAL OVERLOAD  
OHMMETER  
CHECKING COMPRESSOR EFFICIENCY  
The reason for compressor inefciency is normally due to bro-  
ken or damaged suction and/or discharge valves, reducing the  
ability of the compressor to pump refrigerant gas.  
COMPRESSOR WINDING TEST (Figure 2.)  
Remove the compressor terminal box cover and disconnect the  
wires from the terminals. Using an ohmmeter, check continuity  
across the following:  
This condition can be checked as follows:  
1. Install a piercing valve on the suction and discharge or liquid  
process tube.  
FIGURE 2 COMPRESSOR WINDING TEST  
2. Attach gages to the high and low sides of the system.  
3. Start the system. Run a "cooling or heating performance test."  
If test shows:  
A. Below normal high side pressure.  
B. Above normal low side pressure.  
C. Low temperature difference across the coil.  
The compressor valves are faulty - replace the compressor.  
4
FAN MOTOR (Figure 4)  
CAPACITOR, RUN  
A 230 volt single phase permanent split capacitor motor is  
used to drive the evaporator blower and condenser fan. A  
running capacitor is wired across the start and run terminals  
of the motor.  
A run capacitor is wired across the auxiliary and main winding  
of a single phase permanent split capacitor motor such as the  
compressor and fan motors. A single capacitor can be used for  
each motor or a dual rated capacitor can be used for both.  
The motor is totally enclosed and is protected with a line volt-  
age overload located internally of the motor. The motor shaft  
is stainless steel to resist corrosion.  
The capacitor’s primary function is to reduce the line current  
while greatly improving the torque characteristics of a motor.  
The capacitor also reduces the line current to the motor by  
improving the power factor of the load. The line side of the  
capacitor is marked with a red dot and is wired to the line side  
of the circuit (see Figure 7.)  
FIGURE 4  
FAN MOTOR  
FIGURE 7 RUN CAPACITOR HOOK–UP  
COMPRESSOR  
FAN  
MOTOR  
FAN MOTOR – TEST  
Disconnect power to the unit.  
1. Determine that the capacitor is serviceable.  
2. Disconnect the black lead from the circuit board.  
RED DOT  
3. Apply "live" test cord leads to the common terminal of  
the capacitor and the black lead. The motor should run  
at high speed.  
RUN CAPACITOR  
CAPACITOR – TEST  
SOLID STATE RELAY (Figure 5)  
Two 50 amp rated 208/230 volt solid state relays are used to  
energizethecompressorandfanmotor. Terminals3and4arethe  
208/230 volt line side. Terminals 1 and 2 are load side contacts.  
1. Remove the capacitor from the unit.  
2. Check for visual damage such as bulges, cracks, or  
leaks.  
FIGURE 5  
SOLID STATE  
RELAY  
Line side  
3. For dual rated capacitors, apply an ohmmeter lead to  
the common (C) terminal and the other probe to the  
compressor (HERM) terminal. A satisfactory capacitor will  
cause a deection on the pointer, then gradually move back  
to innity.  
Load side  
4. Reverse the leads of the probe and momentarily touch the  
capacitor terminals. The deection of the pointer should be  
two times that of the rst check if the capacitor is good.  
LED indicates  
contacts closed  
when lit  
5. Repeat steps 3 and 4 to check the fan motor capacitor.  
SYSTEM CONTROL SWITCH (Figure 6)  
This switch is double pole, single throw. Check for continuity  
between terminals 2 and 3, and 5 and 6.  
NOTE: A shorted capacitor will indicate a low  
resistance and the pointer will move more to the “0”  
end of the scale and remain there as long as the  
probes are connected. An open capacitor will show  
no movement of the pointer when placed across the  
terminals of the capacitor.  
FIGURE 6  
SWITCH, ON-OFF  
5
THERMOSTAT  
FIGURE 9  
LOW AMBIENT  
Bypass VALVE  
A cross ambient thermostat is used to maintain the desired  
comfort level. The thermostat reacts only to a change in  
temperature at the bulb location. Important to the successful  
operation of the unit is the position of the sensing bulb in relation  
to the evaporator (see Figure 8).  
FIGURE 8  
SENSING  
BULB LOCATION  
SEALED REFRIGERATION SYSTEM  
REPAIRS  
Equipment Required:  
1. Voltmeter  
RANGE: Thermostat  
(Part No. 618-225-02)  
60° F ( ± 2° ) to 90° F( ± 4° )  
2. Ammeter  
3. Ohmmeter  
4. E.P.A Approved Refrigerant Recovery System  
5. Vacuum Pump (capable of 200 microns or less vacuum).  
6. Acetylene Welder  
TEST  
Remove the wires from the thermostat. Turn the thermostat to  
its coldest position. Check to see if there is continuity between  
the two terminals. Turn the thermostat to its warmest position.  
Check continuity to see if the thermostat contacts open.  
7. Electronic Halogen Leak Detector (G.E. Type  
H-6 or equivalent).  
Note: The temperature must be within the range listed to check  
the thermostat. Refer to the troubleshooting section in this  
manual for additional information on thermostat testing.  
8. Accurate refrigerant charge measuring device  
such as:  
a. Balance Scales - 1/2 oz. accuracy  
b. Charging Board - 1/2 oz. accuracy  
LOW AMBIENT BYPASS VALVE (Figure 9)  
The HazardGard unit is designed to operate at low outside  
ambient temperatures. This is accomplished by the use of a  
bypass valve installed in the refrigeration circuit. The valve  
is connected between the discharge line at the compressor  
and the suction process tube. The valve responds to suction  
pressure which, when reduced in the system, causes the  
valve to open and bypass hot gas from the high pressure side  
to the low pressure side of the system. The hot gas entering  
the compressor mixes with the cool gas returned through the  
suction line, thus increasing the suction pressure. The valve  
is preset to open when the suction pressure reaches 50 psig.  
This pressure setting cannot be altered. The system can be  
operated at outdoor temperatures as low as 45° F before the  
evaporator coil will begin to accumulate frost.  
9. High Pressure Gauge - (0-400 lbs.)  
10. Low Pressure Gauge - (30" - 150 lbs.)  
11. Vacuum Gauge - (0-1000 microns)  
Equipment Must Be Capable of:  
1. Recovering CFC’s as low as 5%.  
2. Evacuation from both the high side and low side of the  
system simultaneously.  
3. Introducing refrigerant charge into the high side of the  
system.  
To determine if the valve operates, block the return air to the  
evaporator coil. Turn on the unit and touch the tube at the  
bypass valve outlet which connects to the suction process  
tube. When the low side pressure reaches approximately 50  
psig, the valve will begin to open and the tube will get hot. This  
method will determine if the valve is responding to the suction  
pressure change.  
4. Accurately weighing the refrigerant charge actually intro-  
duced into the system.  
5. Facilities for owing nitrogen through the refrigeration  
tubing during all brazing processes.  
6
12. Restart the unit several times after allowing pressures  
to stabilize. Pinch off the process tubes, cut and solder  
the ends. Remove the pinch off tool, and leak check the  
process tube ends.  
HERMETIC COMPONENT REPLACEMENT  
The following procedure applies when replacing components  
in the sealed refrigeration circuit or repairing refrigerant leaks.  
(Compressor, condenser, evaporator, capillary tube, refrigerant  
leaks, etc.)  
SPECIAL PROCEDURES IN THE CASE OF  
COMPRESSOR MOTOR BURNOUT  
1. Recover the refrigerant from the system at the process  
tube located on the high side of the system by installing  
a line tap on the process tube. Apply the gauge from the  
process tube to EPA approved gauges from the process  
tube to the EPA approved recovery system. Recover the  
CFC’s in the system to at least 5%.  
1. Recover all refrigerant and oil from the system.  
2. Remove the compressor, capillary tube and lter drier from  
the system.  
3. Flush the evaporator, condenser and all connecting tubing  
with dry nitrogen, or equivalent, to remove all contamination  
from the system. Inspect the suction and discharge lines  
for carbon deposits. Remove and clean if necessary.  
2. Cut the process tube below the pinch off in the suction side  
of the compressor.  
3. Connect the line from the nitrogen tank to the suction  
process tube.  
4. Reassemble the system, including a new drier-strainer and  
capillary tube.  
4. Drift dry nitrogen through the system and unsolder the  
more distant connection first. (Filter drier, high side  
process tube, etc.)  
5. Proceed with processing as outlined under hermetic  
component replacement.  
5. Replace the inoperative component, and always install a  
new lter drier. Drift dry nitrogen through the system when  
making these connections.  
ROTARY COMPRESSOR  
SPECIAL TROUBLESHOOTING & SERVICE  
6. Pressurize the system to 30 PSIG with proper refrigerant  
and boost the refrigerant pressure to 150 PSIG with dry  
nitrogen.  
Basically, troubleshooting and servicing rotary compressors  
is the same as on the reciprocating compressor with only a  
few exceptions.  
7. Leak test the complete system with the electric halogen  
leak detector, correcting any leaks found.  
1. Because of the spinning motion of the rotary, the mounts  
are critical. If vibration is present, check the mounts  
carefully.  
8. Reduce the system to zero gauge pressure.  
2. The electrical terminals on the rotary are in a different order  
than the reciprocating compressors. The terminal markings  
are on the cover gasket. Use your wiring diagram to insure  
the correct connections.  
9. Connect the vacuum pump to the high side and low side  
of the system with deep vacuum hoses, or copper tubing.  
(Do not use regular hoses.)  
10. Evacuate the system to an absolute holding pressure of  
200 microns or less.  
REFRIGERANT CHARGE  
1. The refrigerant charge is extremely critical. Measure the  
charge carefully and as exactly as possible to the nameplate  
charge.  
NOTE: This procedure can be sped up by the use of  
heat lamps, or by breaking the vacuum with refrigerant  
or dry nitrogen at 5,000 microns. Pressure system to 5  
PSIG and leave in the system a minimum of 10 minutes.  
Recover refrigerant, and proceed with evacuation to a  
pressure of 200 microns or a minimum of 10%.  
2. The correct method for charging the rotary is to introduce  
liquid refrigerant into the high side of the system with the  
unit off. Then start the compressor and enter the balance  
of the charge, gas only, into the low side.  
The introduction of liquid into the low side, without the use of  
a capillary tube, will cause damage to the discharge valve  
of the rotary compressor.  
11. Break the vacuum by charging the system from the high  
side with the correct amount of refrigerant specied. This  
will prevent boiling the oil out of the crankcase.  
NOTE: All inoperative compressors returned to Friedrich  
must have all lines properly plugged with the plugs from  
the replacement compressor.  
NOTE: If the entire charge will not enter the high side,  
allow the remainder to enter the low side in small  
increments while operating the unit.  
7
TROUBLESHOOTING  
PROBLEM  
POSSIBLE CAUSE  
TO CORRECT  
Power disconnected.  
Check power source.  
System switch in “Off” position. Set switch correctly.  
Branch circuit fuse blown or  
circuit breaker tripped.  
Replace fuse, reset breaker. If repeats, check fuse or breaker  
size. Check for shorts in unit wiring and components.  
UNIT DOES NOT RUN.  
Inoperative system switch.  
Test for continuity.  
Loose or disconnected wiring  
at switch.  
Check wiring and connections.  
Connect per wiring diagram.  
Inoperative switch (On-Off).  
Test for continuity, 3 and 2, 5 and 6.  
Dirty Filter.  
Clean as recommended in Owner’s Manual.  
Check for dirty or obstructed coil - clean as required.  
Test for shorted thermostat or stuck contacts.  
De-ice coil and check for leak.  
Restricted air ow.  
Inoperative thermostat.  
Short of refrigerant.  
EVAPORATOR COIL  
FREEZES UP.  
De-ice coil. Check temperature differential across coil. Touch  
test coil return bends for same temperature. Test for low  
running current.  
Partially restricted capillary.  
Inoperative fan motor.  
Test and replace if inoperative.  
Excessive heat load.  
Restriction in line.  
Test cooling performance of unit. Unit undersized.  
Check for partially iced coil. Check temperature split across  
coil.  
COMPRESSOR RUNS  
CONTINUALLY.  
Check for presence of oil on silver soldered connections.  
Check for partially iced coil. Check split across coil. Check for  
low running amperage.  
Refrigerant leak.  
DOES NOT CYCLE OFF.  
Check operation of thermostat. Replace if contacts remain  
closed.  
Thermostat contacts stuck.  
Loss of charge in thermostat  
bulb.  
Place jumper across thermostat terminals. If unit operates,  
replace thermostat.  
Loose or broken parts in  
thermostat.  
THERMOSTAT DOES  
NOT TURN UNIT ON.  
Check as above.  
Incorrect wiring.  
Connect per wiring diagram.  
System switch open.  
Test for continuity at switch terminals 2 and 3.  
Thermostat set at coldest point Turn to highest temperature setting to see of unit will cycle off.  
Disconnect power to the unit. Remove cover of thermostat  
Thermostat contacts stuck.  
THERMOSTAT DOES  
NOT TURN UNIT OFF.  
and check if contact is stuck, if so replace thermostat.  
Test switch for open contacts at terminals 2 and 3 with switch  
Switch (On - Off) shorted.  
in “Off” position.  
8
TROUBLESHOOTING (Continued)  
PROBLEM  
POSSIBLE CAUSE  
TO CORRECT  
Compressor attempts to start  
before system pressures are  
equalized.  
Allow a minimum of two (2) minutes to allow pressures to  
equalize before attempting to start.  
Check voltage with unit operating. Check for other  
appliances on the circuit. Unit should be on separate circuit  
for proper voltage, and be fused separately.  
Low or uctuating voltage.  
COMPRESSOR  
ATTEMPTS TO  
START, OR RUNS  
FOR SHORT  
Incorrect wiring.  
Connect per wiring diagram.  
Check by substituting a known good capacitor of correct  
rating.  
Shorted or incorrect capacitor.  
PERIODS ONLY.  
CYCLES ON  
OVERLOAD.  
Restricted or low air ow through  
condenser coil.  
Check for proper fan speed or blocked condenser.  
Compressor running abnormally  
hot.  
Check for kinked discharge line or restricted condenser.  
Check amperage.  
Change compressor if all other corrections above are  
normal.  
Overload opens too soon.  
Check continuity of thermostat at coldest setting. Jump  
contacts, if compressor runs, replace thermostat.  
Thermostat contacts not closing.  
Low voltage supply.  
Check for nameplate voltage.  
Test for continuity.  
Switch (On-Off) inoperative.  
COMPRESSOR DOES  
NOT START - FAN  
MOTOR RUNS.  
Check by substituting a known good capacitor of correct  
rating.  
Open capacitor.  
Check voltage at compressor terminals. If voltage is  
satisfactory, replace compressor.  
Internal overload open.  
Relay open  
Replace relay  
Open or shorted compressor  
windings  
Check windings for continuity and resistance. Direct test  
compressor. If direct test fails, replace compressor.  
Set to coldest position. Test thermostat and replace if  
necessary.  
Thermostat open or inoperative.  
Dirty air lter.  
Clean as recommended in Owner’s Manual.  
Dirty or plugged condenser or  
evaporator coil.  
Use steam or detergents to clean.  
DOES NOT COOL,  
OR COOLS ONLY  
SLIGHTLY.  
Poor air circulation in area being  
cooled.  
Adjust air louvers.  
Low capacity - undercharge.  
Clean, check for leak and make repair.  
Check amperage draw against nameplate. If not conclusive,  
make pressure test.  
Compressor not pumping properly.  
9
TROUBLESHOOTING (Continued)  
PROBLEM  
POSSIBLE CAUSE  
TO CORRECT  
Defective switch (On-Off).  
Check continuity across terminals 2 and 3.  
Check by substituting a known good capacitor of the same  
rating.  
Fan capacitor open.  
Inoperative fan motor.  
Direct test fan motor.  
FAN MOTOR DOES  
NOT RUN.  
Incorrect wiring of fan circuit.  
Relay open.  
Connect per wiring diagram.  
Replace Relay.  
Check for seized motor bearings.  
Bound fan blade or blower wheel.  
Rotate by hand, add oil, if noisy, replace.  
Adjust for proper clearance.  
SWITCH (ON-OFF)  
DOES NOT CUT  
FAN MOTOR OFF.  
Selector Switch Relay  
Replace selector switch. Replace relay.  
Poor installation.  
Refer to Installation Instructions for proper installation.  
Adjust motor mount to attain proper fan blade and blower  
wheel clearance.  
Fan blade striking chassis.  
NOISY AND/OR  
VIBRATION.  
Check for deteriorated compressor grommets, or missing  
mounting parts.  
Compressor vibrating.  
Loose cabinet parts, improperly  
mounted components, tubing  
rubbing.  
Adjust and tighten as required.  
Evaporator drain pan overowing. Clean obstructed drain trough.  
Condensation forming on bottom  
of base pan.  
Evaporator drain pan broken or cracked. Reseal or  
replace.  
WATER LEAKS  
INTO ROOM.  
Water dripping from discharge air Dirty evaporator coil, or extremely high humidity conditions.  
grilles.  
Clean coil with steam or detergent.  
Evaporator drain pan cracked or  
obstructed.  
Repair and clean, or replace as required.  
Remove condenser shroud, Clean and remove old sealer  
from base pan and shroud. Apply new sealer, reinstall and  
check.  
Water in center section of base  
pan (compressor area).  
OUTSIDE WATER  
LEAKS.  
Dirty Condenser coil.  
Clean with steam or detergent.  
Fan blade and slinger ring  
improperly positioned.  
Adjust fan blade to 1/2" clearance from condenser coil.  
10  
WIRING DIAGRAM  
MODELS SH15L30-B and SH20L30-B  
11  
HAZARDGARD CABINET PARTS  
12  
HAZARDGARD CHASSIS PARTS  
13  
HAZARDGARD PARTS LIST  
REF  
DESCRIPTION  
PART NO#  
MODELS  
CODE  
ELECTRICAL PARTS  
1
1
2
2
5
*
COMPRESSOR  
COMPRESSOR  
MOTOR, FAN  
MOTOR, FAN  
61193549  
61193550  
61871426  
61871427  
60935300  
61829700  
61108800  
61822502  
61080546  
61080547  
61821308  
1
1
600  
600  
110  
110  
130  
399  
399  
120  
150  
150  
399  
1
1
1
1
2
1
SWITCH, ON-OFF DPST  
INSULATOR, ELECTRICAL  
RELAY, SOLID STATE  
THERMOSTAT  
1
1
2
1
1
*
6
7
7
*
CAPACITOR 20/7.5 440 V.  
CAPACITOR 25/7.5 440 V  
HARNESS, WIRE, COMP.  
1
1
1
REFRIGERATION PARTS  
9
9
EVAPORATOR COIL  
EVAPORATOR COIL  
CONDENSER COIL  
CONDENSER COIL  
DRIER, LIQUID  
61850100  
61850001  
62050410  
62050411  
60308101  
01390005  
03760518  
60809500  
1
1
400  
400  
410  
410  
480  
471  
471  
520  
1
10  
10  
*
1
1
1
1
*
CAPILLARY TUBE  
CAPILLARY TUBE  
VALVE, BY-PASS  
*
2
*
2
14  
HAZARDGARD PARTS LIST  
REF  
DESCRIPTION  
PART NO#  
MODELS  
CODE  
CHASSIS PARTS  
8
11  
17  
22  
22  
23  
23  
25  
25  
26  
26  
27  
29  
29  
30  
30  
32  
34  
35  
36  
36  
37  
37  
38  
38  
40  
41  
*
HOLDER, THERMOSTAT  
61829800  
61493915  
61822662  
60542003  
60542004  
60610616  
60610617  
61802500  
61804100  
61803601  
61804901  
61802600  
61817300  
61817400  
61814905  
61817505  
61803444  
91400400  
61831006  
61825708  
61825709  
61808906  
61811111  
60294415  
60294420  
61819711  
61819811  
61989000  
60865808  
60865809  
61823000  
61803800  
01193549  
61818500  
61818501  
60846016  
61717301  
1
1
1
1
1
1
1
999  
761  
760  
710  
710  
700  
700  
900  
900  
720  
720  
722  
742  
742  
743  
743  
730  
791  
753  
770  
770  
772  
772  
999  
999  
999  
999  
752  
754  
754  
756  
840  
790  
771  
771  
999  
780  
KNOB, CONTROL  
DECORATIVE PANEL  
FAN BLADE, COND.  
FAN BLADE, COND.  
BLOWER WHEEL, EVAP.  
BLOWER WHEEL, EVAP.  
FAN MOTOR MOUNT  
FAN MOTOR MOUNT  
SHROUD, CONDENSER  
SHROUD, CONDENSER  
BRACE, COND.SHROUD  
BLOWER FRONT  
BLOWER FRONT  
SCROLL  
1
1
1
1
1
1
1
3
3
1
1
1
SCROLL  
1
1
3
1
BASE PAN  
1
3
1
1
BOLT, COMP. MOUNT  
PLENUM ASSEMBLY  
OUTER SHELL  
OUTER SHELL  
1
1
GRILLE, INTAKE  
1
1
GRILLE, INTAKE  
WINGBOARD  
WINGBOARD  
1
1
2
2
ANGLE, WINGBOARD TOP  
ANGLE,WINGBORD SIDE  
LATCH, INTAKE GRILLE  
FILTER, AIR  
1
2
2
1
*
*
FILTER, AIR  
1
2
1
3
*
HOLDER, FILTER  
DRAIN PAN, EVAP.  
GROMMET, COMP. MOUNT  
REAR GRILLE  
2
1
3
1
*
*
*
*
REAR GRILLE  
1
1
1
*
BAG, ASSY. HARDWARE  
GASKET, CHASSIS  
1
1
*
OPTIONAL ACCESSORY ITEMS  
*
*
DRAIN KIT, DC-2  
01900235  
01900312  
1
1
1
1
START KIT, CAP.\RELAY  
15  
Friedrich Air Conditioning Company  
P.O. Box 1540  
San Antonio, TX 78295  
210.357.4400  
HAZARDGARD®  
ROOM AIR CONDITIONERS  
LIMITED WARRANTY  
LIMITED ONE YEAR PARTS WARRANTY  
1. Limited warranty – One year. Friedrich warrants that it will provide a replacement for any part of this HazardGard Room Air  
Conditioner found defective in material or workmanship for a period of one (1) year from the date of original purchase.  
2. Limited warranty – One year. The Friedrich warranty also covers the cost of labor for repairing any compressor, condenser,  
evaporator or inter-connecting tubing found defective within the warranty period, providing the unit is returned to an authorized  
Friedrich Repair Station located within the Continental United States.  
The Friedrich warranty does not cover:  
(1) Any charges for removal, transportation or reinstallation of the unit; (2) the cost of labor to replace parts other than those  
described above; and (3) does not apply to any HazardGard Room Air Conditioner that has been subject to (a) accident, misuse,  
flood, fire, or neglect; (b) repairs or alterations outside of the Friedrich Authorized Dealer or Service Center so as to affect adversely  
its performance and reliability; or (c) any repairs or servicing as a result of using parts not sold or approved by Friedrich.  
LIMITATIONS: This warranty is a LIMITED warranty. Anything in the warranty notwithstanding, IMPLIED WARRANTIES  
FOR PARTICULAR PURPOSE AND MERCHANTABILITY SHALL BE LIMITED TO THE DURATION OF THE EXPRESS  
WARRANTY. MANUFACTURER EXPRESSLY DISCLAIMS AND EXCLUDES ANY LIABILITY FOR CONSEQUENTIAL OR  
INCIDENTAL DAMAGES FOR BREACH OF ANY EXPRESSED OR IMPLIED WARRANTY.  
(10-04)  
FRIEDRICH AIR CONDITIONING CO.  
Post Ofce Box 1540 · San Antonio, Texas 78295-1540  
4200 N. Pan Am Expressway · San Antonio, Texas 78218-5212  
(210) 357-4400 · FAX (210) 357-4480  
Printed in the U.S.A.  
HG-SVC-PRTS-07 (3-07)  

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