Therma Stor Products Group Dehumidifier 200 MAX User Manual

Phoenix 200 MAX  
TS-262C  
PO Box 8680 • Madison, WI 53708  
Owners Manual — Phoenix 200 MAX  
Installation, Operation & Service Instructions  
Read and Save These Instructions  
The Phoenix 200 MAX is one of the most effective and versatile drying devices available. The 200  
MAX removes more water and has more grain depression than other refrigerant dehumidifiers, even  
though it only requires 7.4 amps of electricity.  
The term LGR (Low Grain Refrigerant) was created to describe the unique drying capabilities of the  
Phoenix 200 dehumidifier. These units were known for delivering substantially drier air, as well as  
for drying areas to much lower humidity levels than conventional dehumidifiers. The Phoenix 200  
MAX, an improved version of the original Phoenix 200, is the culmination of over a decade of LGR  
manufacturing and design expertise.  
The Phoenix 200 MAX LGR,  
High Capacity Dehumidifier  
• Improved water removal  
+ꢀ6 gals/day (ꢀ33 pints) AHAM (80ºF, 60%)  
30 gals/day maximum  
• Improved grain depression  
The driest air from an LGR  
• Multiple air filter options  
Standard 65% MERV-ꢀꢀ, 57% MERV-8, or  
95% MERV-ꢀ4  
• Multiple ducting options  
ꢀ2” intake, ꢀ0” lay-flat exhaust  
• Less than 7.5 amps  
Removes the most pints of water per kilowatt  
• Stainless steel cabinet  
• Internal pump with 30 feet of hose  
• Five-year warranty on the sealed refrigeration  
system.  
Phoenix 200 MAX  
PN 4024920  
Specifications subject to change without notice.  
Revised 1/07  
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• The air inlet on top & the side outlet must be at least  
ꢀ foot from walls and other obstructions to air flow.  
2.8 Hour Meter  
The digital hour meter measures the cumulative time that  
the unit is turned on to tenths of an hour. It stores its  
total when the unit is unplugged; the previous total will be  
displayed when the unit is next turned on. It resets to zero  
after 99,999.9 hours of operation.  
• If the humid area is very large, dehumidification can  
be improved by adding an outlet duct to circulate air to  
stagnant areas (see Sec. 2.5).  
2.3 Electrical Requirements  
2.9 Defrost Control Adjustment  
The Phoenix 200 MAX plugs into a common grounded  
outlet on a ꢀ5 Amp circuit. It draws 7.4 Amps at 80°F,  
60% RH. Amp draw increases with increasing temperature  
and\or humidity; e.g. ꢀ0.2 amps at 90°F, 85% RH. If used  
in a wet area, a ground fault interrupter (GFI) is required.  
When the Phoenix 200 MAX is used in a cool area, or the  
dewpoint is below 50°, frost will form on the cooling coil  
as it dehumidifies. When enough frost forms, the defrost  
thermostat will initiate the timed defrost cycle. The cycle  
periodically turns off the compressor while allowing the  
blower to run. The frost is melted by the air that the blower  
draws through the cooling coil.  
If an extension cord is required, it must have a minimum of  
ꢀ4 gauge conductors if 25 feet long or less and ꢀ2 gauge  
conductors if greater than 25 feet long.  
DRYING TIP: Air’s ability to absorb moisture from wet  
surroundings and the Phoenix 200 MAX’s ability to remove  
moisture from that air is greatly improved at higher  
temperatures. We recommend that the area to be dried be  
heated to over 70°F if possible. Less drying time will be  
required and efficiency will improve.  
2.4 Condensate Removal  
The Phoenix 200 MAX is equipped with an internal  
condensate pump to remove the water that is condensed  
during dehumidification. This allows the condensate to be  
pumped 30’ with the attached hose. If the condensate  
must be pumped more than 20 feet above the unit, a  
second pump must be added to relay the condensate. If  
the pump fails and the unit must be used before it can be  
replaced, the condensate can be drained by gravity (see  
Sec. 4.9).  
The defrost cycle is automatic and designed for optimum  
performance above 50°F. If the unit is used in an area that  
is below 50°F for more than 2 hours, adjustment of the  
defrost timer is recommended. To adjust the defrost timer:  
ꢀ. Unplug the unit.  
2.5 Ducting  
2. Remove the top panel and the front cover (6 screws).  
A detachable rectangular exhaust collar is supplied  
that will allow ꢀ0” round lay-flat duct to be attached to  
the Phoenix 200 MAX outlet. Lay-flat plastic ducting is  
available from Therma-Stor.  
3. The timer is fastened to the base at the front of the  
unit. Every fourth peg around the dial is pushed out  
from the dial center except one section with 5 pegs  
out in a row. See figure ꢀ. Each fourth “out” peg  
represents ꢀ5 minutes of compressor “off” time  
during every hour that the unit is in the defrost cycle.  
To attach ducting to a collar, put the plastic duct end  
through the collar center and roll the duct end outward  
so that it overlaps the outside of the collar. The duct and  
collar may then be quickly attached to the Phoenix 200  
MAX by snapping the collar over the four screws at the  
blower outlet.  
4. To improve performance below 50°F, the compressor  
“off” time must be increased to 30 minutes per hour  
to allow the frost to completely melt. To do this, push  
the pegs out from the dial center so that the pegs  
alternate with 2 toward the center, then 2 out from  
the center, all the way around the dial except for the  
section now with 6 pegs out in a row (see Fig. ꢀ).  
2.6 Power Switch  
The power switch (right of hour meter) lights up when  
the unit is turned on. The unit will continue to run in  
all conditions until the switch is turned off; there is no  
dehumidistat. If the unit is going to run for more than 2  
hours in an area below 50°F, the defrost timer should be  
adjusted to improve performance (see Sec. 2.9).  
5. Replace the cover and top panel.  
Change the timer pegs back to the original pattern for use  
above 50°F.  
2.7 Pump Purge Switch  
This switch (left of hour meter) minimizes the water left  
in the condensate pump reservoir for moving or storage.  
Pressing and holding the pump purge switch will cause the  
condensate pump to run. Hold the switch in until the flow  
from the condensate hose stops.  
Below 50° F  
Above 50° F  
Figure 1: Defrost  
timer adjustment  
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2.10 Low Pressure Control  
4 Service  
If the low side refrigerant pressure drops to ꢀ5 PSIG, the  
low pressure control opens and shuts off the compressor  
and blower. It is an automatically reset control. Its primary  
function is to prevent damage to the compressor if a leak  
develops in the refrigeration system. It may also open if  
the unit is A) used in a cool area (below 50°F) and the  
defrost timer is not adjusted (see Sec. 2.9) or B) stored  
where it is below 40°F and then started. Under these  
conditions, the unit will restart within several minutes; it  
may cycle several times until the unit warms up.  
CAUTION: Servicing the Phoenix 200 MAX with its high  
pressure refrigerant system and high voltage circuitry  
presents a health hazard which could result in death,  
serious bodily injury, and/or property damage. Only  
qualified service people should service this unit.  
4.1 Warranty  
A warranty certificate has been enclosed with this unit;  
read it before any repair is initiated. If a warranty repair  
is required, call the factory first at ꢀ-800-533-7533 for  
warranty claim authorization and technical assistance.  
3 Maintenance  
3.1 Air Filter  
The Phoenix 200 MAX is equipped with a pleated fabric air  
filter that must be checked regularly. The standard filter  
is a MERV-ꢀꢀ high efficiency filter. Operating the unit with  
a dirty filter will reduce the dehumidifiers capacity and  
efficiency and may cause the compressor to cycle off and  
on unnecessarily on the defrost control.  
4.2 Technical Description  
The Phoenix 200 MAX uses a refrigeration system similar  
to an air conditioners to remove heat and moisture from  
incoming air, and to add heat to the air that is discharged  
(see Fig. 2).  
The filter can generally be vacuumed clean several times  
before needing replacement. Replacement filters can be  
ordered from the factory or purchased locally if available.  
DO NOT operate the unit without the filter or with a less  
effective filter as the heat exchange coils inside the unit  
could become clogged and require disassembly to clean.  
3.2 Storage  
There are two issues to consider when the Phoenix 200  
MAX is stored between uses and both pertain to the  
water trapped in the unit: damage caused by freezing or  
biological growth. The effect of the trapped water can be  
greatly reduced if precautions are taken to remove as  
much as possible before storage.  
ꢀ. Use the pump purge switch (see Sec. 2.7 & Fig. 4) to  
reduce the water level in the reservoir.  
2. Stretch the hose flat to drain it completely. Walk under  
out of the hose to open end.  
Figure 2: Refrigeration system of Phoenix  
Hot, high pressure refrigerant gas is routed from the  
compressor to the condenser coil (see Figure 2). The  
refrigerant is cooled and condensed by giving up its heat  
to the air that is about to be discharged from the unit.  
The refrigerant liquid then passes through a filter/drier  
and capillary tubing which cause the refrigerant pressure  
and temperature to drop. It next enters the evaporator  
coil where it absorbs heat from the incoming air and  
evaporates.  
If the unit will not be exposed to freezing temperatures, an  
alternative to reduce biological growth is to flush the unit  
with a bio-fungicide that is approved for use with copper,  
aluminum and polyethylene. To ush:  
ꢀ. Run the hose to a drain.  
2. Plug in the unit but do not turn it on.  
3. Remove the air filter. Slowly pour a quart of the  
chemical through the heat exchanger  
The evaporator operates in a flooded condition, which  
means that all the evaporator tubes contain liquid  
refrigerant during normal operation. A flooded evaporator  
should maintain constant pressure and temperature  
across the entire coil, from inlet to outlet.  
4. Hold in the pump purge switch to reduce the water  
level in the reservoir.  
5. Flush with water.  
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The mixture of gas and liquid refrigerant enter the  
accumulator after leaving the evaporator coil. The  
accumulator prevents any liquid refrigerant from reaching  
the compressor. The compressor evacuates the cool  
refrigerant gas from the accumulator and compresses it to  
a high pressure and temperature to repeat the process.  
5. Defrost timer incorrectly set for conditions (Sec. 2.9 &  
4.7).  
6. Defective defrost thermostat (Sec. 4.7)  
7. Low refrigerant charge (Sec. 4.4).  
8. Air leak such as loose front cover.  
9. Defective compressor (Sec. 4.6).  
ꢀ0. Restrictive exhaust ducting (Sec. 2.5)  
4.3 Troubleshooting  
No dehumidification, neither blower nor compressor run  
and power switch does not light when ON.  
Unit runs but does not pump water.  
ꢀ. Hose kinked or plugged.  
ꢀ. Unit unplugged or no power to outlet.  
2. Power switch defective (Sec. 2.6).  
2. Pump motor or float switch defective (Sec. 4.8).  
3. Pump check valve plugged (Sec. 4.8).  
4. Bad connection in pump circuit (Fig. 3).  
5. Hose disconnected internally.  
3. Loose connection in internal wiring (Fig. 3).  
No dehumidification, neither blower nor compressor run  
with power switch ON & lit.  
Unit pumps water automatically but not when purge switch  
is pushed.  
ꢀ. Low pressure control open (Sec. 2.ꢀ0).  
2. Power switch defective (Sec. 2.6).  
ꢀ. Bad connection in purge switch circuit (Fig. 3).  
2. Defective purge switch (Sec. 2.7).  
3. Loose connection in internal wiring (Fig. 3).  
Some dehumidification, blower runs continuously but  
compressor only runs sporadically.  
Evaporator coil frosted continuously, low dehumidifying  
capacity.  
ꢀ. Unit is in defrost cycle (Sec. 2.9 & 4.7).  
2. Defrost thermostat defective or loose (Sec. 2.9 & 4.7).  
3. Loose connection in compressor circuit (see Fig. 3).  
4. Defective compressor overload (Sec. 4.6A).  
5. Defective compressor (Sec. 4.6).  
ꢀ. Defrost thermostat loose or defective (Sec. 2.9 & 4.7).  
2. Defrost timer incorrectly set or defective (Sec. 2.9 &  
4.7).  
2. Low refrigerant charge (Sec. 4.4).  
3. Dirty air filter or air flow restricted. (Sec. 3.ꢀ).  
6. Defective relay (Sec. 4.ꢀ0).  
Compressor runs with power switch OFF.  
ꢀ. Defective relay (Sec. 4.ꢀ0).  
No dehumidification, blower runs but compressor does not.  
ꢀ. Bad connection in compressor circuit (Fig. 3).  
2. Pump safety switch closed  
2. Defective power switch (Sec. 2.6)  
2. Defective compressor capacitor (Sec. 4.6A).  
3. Defective compressor overload (Sec. 4.6A).  
4. Defective compressor (Sec. 4.6).  
4.4 Refrigerant Charging  
If the refrigerant charge is lost due to service or a leak, a  
new charge must be accurately weighed in. If any of the  
old charge is left in the system, it must be removed before  
weighing in the new charge. Refer to the unit nameplate for  
the correct charge weight and refrigerant type.  
5. Defective relay (Sec. 4.ꢀ0).  
Blower does not run. Compressor runs briefly but cycles on  
& off.  
ꢀ. Loose connection in blower circuit (see Fig. 3).  
2. Obstruction prevents impeller rotation.  
3. Defective blower (Sec. 4.5).  
4.5 Blower Replacement  
The centrifugal blower has a PSC motor and internal  
thermal overload protection. If defective, the complete  
assembly must be replaced.  
Unit removes some water but not as much as expected.  
ꢀ. Unplug the power cord.  
ꢀ. Air temperature and/or humidity have dropped.  
2. Remove the top panel and cabinet front (6 screws).  
3. Disconnect the blower leads.  
2. Humidity meter and/or thermometer used are out of  
calibration.  
4. Remove the four screws holding the blower outlet  
flange to the cabinet end.  
3. Unit has entered defrost cycle (Sec. 2.9 & 4.7).  
4. Air filter dirty (Sec. 3.ꢀ).  
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5. Rotate the blower outlet toward you as you remove it.  
Use care to avoid hooking wiring, tubing or electrical  
components.  
9. Disconnect the wires from the capacitor. Set the  
ohmmeter to the Rxꢀ scale; the capacitor is shorted  
and must be replaced if continuity exists across its  
terminals. If there is no needle movement with the  
meter set on the Rxꢀ00000 scale, the capacitor is  
open and must be replaced.  
6. Reassembling with the new blower in the above  
procedure reversed.  
ꢀ0. Reconnect the wires to the compressor and capacitor;  
plug in and turn on the unit. If the compressor fails to  
start, replace the run capacitor.  
4.6 Compressor/Capacitor Replacement  
This compressor is equipped with a two terminal external  
overload, run capacitor, but no start capacitor or relay (see  
Fig. 3).  
ꢀꢀ. If the unit still does not start, adding a hard-start kit  
will provide greater starting torque. If this does not  
work, the compressor has an internal mechanical  
defect and must be replaced.  
CAUTION-ELECTRICAL SHOCK HAZARD: Electrical power  
must be present to perform some tests; these tests should  
be performed by a qualified service person.  
4.6B Replacing a Burned Out Compressor  
The refrigerant and oil mixture in a compressor is  
chemically very stable under normal operating conditions.  
However, when an electrical short occurs in the  
compressor motor, the resulting high temperature arc  
causes a portion of the refrigerant oil mixture to break  
down into carbonaceous sludge, a very corrosive acid,  
and water. These contaminants must be carefully removed  
otherwise even small residues will attack replacement  
compressor motors and cause failures.  
4.6A Checking Compressor Motor Circuits  
Perform the following tests if the blower runs but the  
compressor does not with the power switch ON.  
ꢀ. Turn the power switch OFF and unplug the unit, remove  
top panel and the cabinet front (6 screws).  
2. Plug in the unit and turn the power switch ON. Use  
a voltmeter to check for ꢀꢀ0 to ꢀ20 volts between  
(a) the relay terminal that the black wire from the  
compressor connects to and (b) the capacitor terminal  
with the 2 white wires & blue wire connected. If  
voltage is present, go to step 3. If no voltage, the  
low pressure control or relay are open or there is a  
loose connection in the compressor circuit. Test each  
component for continuity; see the appropriate section  
if a defect is suspected.  
The following procedure is effective only if the system is  
monitored after replacing the compressor to insure that  
the clean up was complete.  
ꢀ. This procedure assumes that the previously listed  
compressor motor circuit tests revealed a shorted or  
open winding. If so, cautiously smell the refrigerant  
from the compressor service port for the acid odor of  
a burn out.  
3. Turn the power switch OFF and unplug the unit, then  
disconnect the red and yellow wires from compressor  
terminals R & S. Using an ohmmeter, check continuity  
between the points listed below.  
WARNING: The gas could be toxic and highly acidic. If no  
acid odor is present, skip down to the section on changing  
a non-burn out compressor.  
4. Compressor terminals C and S: No continuity indicates  
an open start winding; the compressor must be  
replaced. Normal start winding resistance 3 to 7  
ohms.  
2. Remove and properly dispose of the system charge.  
DO NOT vent the refrigerant or allow it to contact your  
eyes or skin.  
5. Compressor terminals C and R: No continuity indicates  
an open run winding; the compressor must be  
replaced. Normal run winding resistance is .5 to 2  
ohms.  
3. Remove the burned out compressor. Use rubber gloves  
if there is any possibility of coming in contact with the  
oil or sludge.  
6. Compressor terminal C and overload terminal ꢀ: No  
continuity indicates a defective overload lead.  
4. To facilitate subsequent steps, determine the type of  
burn out that occurred. If the discharge line shows no  
evidence of sludge and the suction line is also clean  
or perhaps has some light carbon deposits, the burn  
out occurred while the compressor was not rotating.  
Contaminants are therefore largely confined to the  
compressor housing. A single installation of liquid  
and suction line filter/driers will probably clean up the  
system.  
7. Overload terminals ꢀ and 3: If there is no continuity,  
the overload may be tripped; wait ꢀ0 minutes and try  
again. If there is still no continuity, it is defective and  
must be replaced.  
8. Compressor terminal C and compressor case:  
Continuity indicates a grounded motor; the compressor  
must be replaced.  
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If sludge is evident in the discharge line, it will  
likely be found in the suction line; this indicates the  
compressor burned out while running. Sludge and acid  
have been pumped throughout the system. Several  
changes of the liquid and suction filter/driers will  
probably be necessary to cleanse the system.  
4.8 Condensate Pump  
Condensate is automatically pumped when the water level  
in the pumps reservoir rises to close the float switch or if  
the pump purge switch is held in.  
To replace the condensate pump:  
ꢀ. Remove the metal strap holding the pump by loosening  
the 2 screws holding it in place.  
5. Correct the system fault that caused the burn out.  
Consult the factory for advice.  
2. Disconnect the leads.  
6. Install the replacement compressor with a new  
capacitor and an oversized liquid line filter.  
3. Installation is the reverse of above, but check that  
the plastic inlet and outlet hoses do not rub against  
copper refrigerant tubes.  
In a running burn out, install an oversized suction line  
filter/drier between the accumulator and compressor.  
Thoroughly flush the accumulator with refrigerant to  
remove all trapped sludge and to prevent the oil hole  
from becoming plugged. A standing burn out does not  
require a suction line filter/drier.  
4.9 Gravity Drain Option  
If the condensate pump fails and cannot be replaced  
immediately, the Phoenix 200 MAX can be used by draining  
by gravity.  
7. Evacuate the system with a good vacuum pump and  
accurate vacuum gauge. Leave the pump on the  
system for at least an hour.  
ꢀ. Unplug the unit and remove the front cover.  
2. Push the plastic plug on the right side (see Fig. 4) out  
from inside the unit.  
8. Operate the system for a short period of time,  
monitoring the suction pressure to determine that the  
suction filter is not becoming plugged. Replace the  
suction filter/drier if pressure drop occurs. If a severe  
running burn out has occurred, several filter/driers  
may have to be replaced to remove all of the acid and  
moisture.  
3. Locate the heavy vinyl hose that connects the drain  
pan to the condensate pump. Pull the end out of the  
pump.  
4. Push that end of the vinyl hose through the hole in the  
right side.  
5. Connect a garden hose and run it to a drain. Keep  
the hose as flat to the floor as possible to avoid air  
pockets that would hinder draining. Placing the unit on  
something above the floor will also improve draining.  
NOTE: NEVER use the compressor to evacuate the system  
or any part of it.  
4.6C Replacing a Compressor- Non-Burn Out  
4.10 Relay  
Remove the refrigerant from the system. Replace the  
compressor and liquid line filter/drier. Charge the system  
to 50 PSIG and check for leaks. Remove the charge and  
weigh in the refrigerant quantity listed on the nameplate.  
Operate the system to verify performance.  
The contacts of the single pole, single throw relay  
complete the power circuit to the compressor. The  
contacts are closed when power is provided to the relay  
coil via the control circuit. The control circuit includes the  
power switch, low pressure control, defrost thermostat and  
timer.  
4.7 Defrost Thermostat and Timer  
The defrost thermostat is attached to the refrigerant  
suction tube between the accumulator and compressor.  
If the low side refrigerant temperature drops due to  
excessive frost formation on the evaporator coil, the  
thermostat opens. The compressor is then cycled off and  
on by the defrost timer. The blower will continue to run,  
causing air to flow through the evaporator coil and melt the  
ice when the compressor is off. When the air temperature  
and/or humidity increase, the evaporator temperature will  
rise and the thermostat will close to end the defrost cycle.  
To improve performance in low temperatures, see Sec. 2.9  
for defrost timer adjustment.  
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5 Wiring Diagram  
Figure 3: Electrical schematic of 200 MAX  
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6 Service Parts  
Item Part No.  
Qty. Description  
Item Part No.  
Qty. Description  
4022254  
402ꢀ475  
Accumulator  
ꢀ9  
*****  
2
2
Wheel/Axle Assembly  
Air Filter, Pleated, 2” x ꢀ6” x 20”  
65% Merv-ꢀꢀ  
4026304  
4024904  
4025454  
4024078  
4025043  
Wheel, ꢀ2”  
Axle  
2
4024682  
4022489  
Air Filter, Pleated, 2” x ꢀ6” x 20”  
57% MERV-8 (optional)  
E-Ring  
20  
2ꢀ  
Wire Duct Collar (Exhaust)  
Skid Panel  
Air Filter, Pleated, 4” x ꢀ6” x 20”  
95% Mini-Pleat MERV-ꢀ4 (optional)  
3
4
4022037  
402ꢀ589  
2
Blower  
Items listed below are not shown  
Capillary Tubes,  
.050” ID x .ꢀꢀ4” OD x 28” long  
22  
23  
24  
25  
26  
27  
28  
3ꢀ  
32  
4023649  
402ꢀ396  
40249ꢀ0  
402ꢀ823  
40249ꢀ6  
ꢀ0960ꢀ0  
ꢀ205473  
ꢀ9700ꢀ0  
40249ꢀ2  
Condensate Pump  
Condenser Coil  
5
4023390  
4022476  
Compressor Kit, Carlyle  
(P/N EAA090ꢀꢀꢀA)  
Coupling Body, .25 Tube  
Defrost Timer  
Overload, Carlyle Cprsr  
(included with compressor kit)  
Drain Hose (.25 ID x 33’ long)  
Front Panel Screw, ꢀ/4-20 x ꢀ  
Front Panel Retaining Nut, ꢀ/4 –20  
Relay  
6
7
8
40248ꢀ3  
4023080  
402ꢀ470  
402ꢀ648  
402ꢀ395  
4020955  
4024073  
4026094  
402ꢀ597  
40249ꢀ8  
40222ꢀ9  
402ꢀ796  
402ꢀ822  
4024903  
2
Cord  
Coupling Insert, .38 Tube  
Defrost Thermostat  
Defrost Thermostat Mounting Clip  
Evaporator Coil  
Filter/Drier  
Run Capacitor, 35 MFD, 370 Vac  
9
ꢀ0  
ꢀꢀ  
ꢀ2  
ꢀ3  
ꢀ4  
ꢀ5  
ꢀ6  
ꢀ7  
ꢀ8  
Foot  
14  
17  
Handle Assembly  
Hour Meter  
Instruction Label  
Low Pressure Control  
Pump Purge Switch  
Power Switch  
16  
Top  
13  
18  
2
6
1
12  
9
15  
8
10  
4
7
5
19  
20  
11  
3
Figure 4  
Specifications subject to change without notice.  
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Phoenix 200 MAX Dehumidifier Limited Warranty  
Warrantor:  
Therma-Stor LLC  
PO Box 8680  
Madison, WI 53708  
Telephone: ꢀ-800-533-7533  
Who Is Covered: This warranty extends only to the original end-user of the Phoenix 200 MAX  
dehumidifier, and may not be assigned or transferred.  
First Year Warranty: Therma-Stor LLC warrants that, for one (ꢀ) year the Phoenix 200 MAX  
dehumidifier will operate free from any defects in materials and workmanship, or Therma-Stor LLC  
will, at its option, repair or replace the defective part(s), free of any charge.  
Second Through Fifth Year Warranty: Therma-Stor LLC further warrants that for a period of five (5)  
years, the condenser, evaporator, and compressor of the Phoenix 200 MAX dehumidifier will operate  
free of any defects in material or workmanship, or Therma-Stor LLC, at its option, will repair or  
replace the defective part(s), provided that all labor and transportation charges for the part(s) shall  
be borne by the end-user.  
End-User Responsibilities: Warranty service must be performed by a Servicer authorized by  
Therma-Stor LLC. If the end-user is unable to locate or obtain warranty service from an authorized  
Servicer, he should call Therma-Stor LLC at the above number and ask for the Therma-Stor Service  
Department., which will then arrange for covered warranty service. Warranty service will be performed  
during normal working hours.  
The end-user must present proof of purchase (lease) upon request, by use of the warranty card or  
other reasonable and reliable means. The end-user is responsible for normal care. This warranty  
does not cover any defect, malfunction, etc. resulting from misuse, abuse, lack of normal care,  
corrosion, freezing, tampering, modification, unauthorized or improper repair or installation, accident,  
acts of nature or any other cause beyond Therma-Stor LLC’ reasonable control.  
Limitations and Exclusions: If any Phoenix 200 MAX Dehumidifier part is repaired or replaced, the  
new part shall be warranted for only the remainder of the original warranty period applicable thereto  
(but all warranty periods will be extended by the period of time, if any, that the Phoenix 200 MAX  
Dehumidifier is out of service while awaiting covered warranty service).  
UPON THE EXPIRATION OF THE WRITTEN WARRANTY APPLICABLE TO THE PHOENIX 200 MAX  
DEHUMIDIFIER OR ANY PART THEREOF, ALL OTHER WARRANTIES IMPLIED BY LAW, INCLUDING  
MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, SHALL ALSO EXPIRE. ALL  
WARRANTIES MADE BY THERMA-STOR LLC ARE SET FORTH HEREIN, AND NO CLAIM MAY BE MADE  
AGAINST THERMA-STOR LLC BASED ON ANY ORAL WARRANTY. IN NO EVENT SHALL THERMA-STOR  
LLC, IN CONNECTION WITH THE SALE, INSTALLATION, USE, REPAIR OR REPLACEMENT OF ANY  
PHOENIX 200 MAX DEHUMIDIFIER OR PART THEREOF BE LIABLE UNDER ANY LEGAL THEORY FOR  
ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES INCLUDING WITHOUT LIMITATION WATER  
DAMAGE (THE END-USER SHOULD TAKE PRECAUTIONS AGAINST SAME), LOST PROFITS, DELAY, OR  
LOSS OF USE OR DAMAGE TO ANY REAL OR PERSONAL PROPERTY.  
Some states do not allow limitations on how long an implied warranty lasts, and some do not allow  
the exclusion or limitation of incidental or consequential damages, so one or both of these limitation  
may not apply to you.  
Legal Rights: This warranty gives you specific legal rights, and you may also have other rights which  
vary from state to state.  
TS-206-ꢀꢀ06  
Toll-Free 1-800-533-7533  
ꢀꢀ  
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