Friedrich WS14B10A C User Manual

Service & Parts Manual

WallMaster^®Thru-the-Wall

WS08B10A-C

WS10B10A-C

WS14B10A-C

WS10B30A-C

WS13B30B-C

WS16B30A-C

WE10B33A-B

WE13B33B-B

WE16B33A-B

WY10B33A-B

WY13B33A-B

Power

Cool

F_Sa_an_ver_®

Money

Mode

Speed

Fan Only

Clock

Set

Start Time

Stop Time

Tim

Hour

On/Off

our

Temp/H

WM-Svc-Prts-07 (3-07)

Friedrich Air Conditioning Company

P.O. Box 1540

San Antonio, TX 78295

210.357.4400

www.friedrich.com

WALLMASTER^£

THRU-THE-WALL AIR CONDITIONERS

LIMITED WARRANTY

FIRST YEAR

ANY PART: If any part supplied by FRIEDRICH fails because of a defect in workmanship or material within twelve months from

date of original purchase, FRIEDRICH will repair the product at no charge, provided room air conditioner is reasonably accessible

for service. Any additional labor cost for removing inaccessible units and/or charges for mileage related to travel by a Service

Agency that exceeds 25 miles one way will be the responsibility of the owner. This remedy is expressly agreed to be the exclusive

remedy within twelve months from the date of the original purchase.

SECOND THROUGH FIFTH YEAR

SEALED REFRIGERANT SYSTEM: If the Sealed Refrigeration System (defined for this purpose as the compressor, condenser

coil, evaporator coil, reversing valve, check valve, capillary, filter drier, and all interconnecting tubing) supplied by FRIEDRICH in

your Room Air Conditioner fails because of a defect in workmanship or material within sixty months from date of purchase,

FRIEDRICH will pay a labor allowance and parts necessary to repair the Sealed Refrigeration System; PROVIDED FRIEDRICH will

not pay the cost of diagnosis of the problem, removal, freight charges, and transportation of the air conditioner to and from the

Service Agency, and the reinstallation charges associated with repair of the Sealed Refrigeration System. All such cost will be the

sole responsibility of the owner. This remedy is expressly agreed to be the exclusive remedy within sixty months from the date of the

original purchase.

APPLICABILITY AND LIMITATIONS: This warranty is applicable only to units retained within the Fifty States of the U.S.A., District

of Columbia, and Canada. This warranty is not applicable to:

1. Air filters or fuses.

2. Products on which the model and serial numbers have been removed.

3. Products which have defects or damage which results from improper installation, wiring, electrical current

characteristics, or maintenance; or caused by accident, misuse or abuse, fire, flood, alterations and/or misapplication

of the product and/or units installed in a corrosive atmosphere, default or delay in performance caused by war,

government restrictions or restraints, strikes, material shortages beyond the control of FRIEDRICH, or acts of God.

OBTAINING WARRANTY PERFORMANCE: Service will be provided by the FRIEDRICH Authorized Dealer or Service

Organization in your area. They are listed in the Yellow Pages. If assistance is required in obtaining warranty performance, write

to: Room Air Conditioner Service Manager, Friedrich Air Conditioning Co., P.O. Box 1540, San Antonio, TX 78295-1540.

LIMITATIONS:

THIS WARRANTY IS GIVEN IN LIEU OF ALL OTHER WARRANTIES. Anything in the warranty

notwithstanding, ANY IMPLIED WARRANTIES OF FITNESS FOR PARTICULAR PURPOSE AND/OR MERCHANTABILITY

SHALL BE LIMITED TO THE DURATION OF THIS EXPRESS WARRANTY. MANUFACTURER EXPRESSLY DISCLAIMS AND

EXCLUDES ANY LIABILITY FOR CONSEQUENTIAL OR INCIDENTAL DAMAGE FOR BREACH OF ANY EXPRESSED OR

IMPLIED WARRANTY.

NOTE: Some states do not allow limitations on how long an implied warranty lasts, or do not allow the limitation or exclusion of

consequential or incidental damages, so the foregoing exclusions and limitations may not apply to you.

OTHER: This warranty gives you specific legal rights, and you may also have other rights which vary from state to state.

PROOF OF PURCHASE: Owner must provide proof of purchase in order to receive any warranty related services.

All service calls for explaining the operation of this product will be the sole responsibility of the consumer.

All warranty service must be provided by an Authorized FRIEDRICH Service Agency, unless authorized by FRIEDRICH prior to

repairs being made.

(10-04)

ROUTINE MAINTENANCE

NOTE: Units are to be inspected and serviced by qualiﬁed service personnel only.

Routine maintenance is required annually or semi-annually, depending upon annual usage.

1. Clean the unit air intake ﬁlter at least every 250 to 300 fan hours of operation or when the unit’s indicator light is on if

so equipped. Clean the ﬁlters with a mild detergent in warm water and allow to dry thoroughly before reinstalling.

2. The indoor coil (evaporator coil), the outdoor coil (condenser coil) and base pan should be inspected periodically (yearly

or bi-yearly) and cleaned of all debris (lint, dirt, leaves, paper, etc.). Clean the coils and base pan with a soft brush and

compressed air or vacuum. If using a pressure washer, be careful not to bend the aluminium ﬁn pack. Use a sweeping

up and down motion in the direction of the vertical aluminum ﬁn pack when pressure cleaning coils. Cover all electrical

components to protect them from water or spray. Allow the unit to dry thoroughly before reinstalling it in the sleeve.

NOTE: Do not use a caustic coil cleaning agent on coils or base pan. Use a biodegradable cleaning agent and degreaser.

Inspect the indoor blower housing, evaporator blade, condenser fan blade, and condenser shroud periodically (yearly or

bi-yearly) and clean of all debris (lint, dirt, mold, fungus, etc.) Clean the blower housing area and blower wheel with an

antibacterial / antifungal cleaner. Use a biodegradable cleaning agent and degreaser on condenser fan and condenser

shroud. Use warm or cold water when rinsing these items. Allow all items to dry thoroughly before reinstalling them.

3. Periodically (at least yearly or bi-yearly): inspect all control components, both electrical and mechanical, as well as the

power supply. Use proper testing instruments (voltmeter, ohmmeter, ammeter, wattmeter, etc.) to perform electrical

tests. Use an air conditioning or refrigeration thermometer to check room, outdoor and coil operating temperatures.

Use a sling psychrometer to measure wet bulb temperatures indoors and outdoors.

4. Inspect the surrounding area (inside and outside) to ensure that the units’ clearances have not been compromised or

altered.

5. Inspect the sleeve and drain system periodically (at least yearly or bi-yearly) and clean of all obstructions and debris.

Clean both areas with an antibacterial and antifungal cleaner. Rinse both items thoroughly with water and ensure that

the drain outlets are operating correctly. Check the sealant around the sleeve and reseal areas as needed.

6. Clean the front cover when needed. Use a mild detergent. Wash and rinse with warm water. Allow it to dry thoroughly

before reinstalling it in the chassis.

FRIEDRICH ROOM MODEL NUMBER CODE

W S 08

1st DIGIT - FUNCTION

W = Thru-The-Wall, WallMaster Series

2nd DIGIT - TYPE

S = Straight Cool

E = Electric Heat

Y = Heat Pump

3rd & 4th DIGITS - APPROXIMATE BTU/HR (Cooling)

Heating BTU/HR capacity listed in Speciﬁcations/Performance Data Section

5th DIGIT - ALPHABETICAL MODIFIER

6th DIGIT - VOLTAGE

1 = 115 Volts

3 = 230-208 Volts

7th DIGIT

0 = Straight Cool & Heat Pump Models

ELECTRIC HEAT MODELS

3 = 3 KW Heat Strip, Nominal

8th DIGIT

Major Change

RAC SERIAL NUMBER IDENTIFICATION GUIDE

Serial Number

Decade Manufactured

00001

L=0

A=1

B=2

C=3

D=4

E=5

F=6

G=7

H=8

J=9

Production Run Number

Year Manufactured

Product Line

A=1

B=2

C=3

D=4

E=5

F=6

G=7

H=8

J=9

K=0

R = RAC

P = PTAC

E = EAC

V = VPAK

H = Split

Month Manufactured

A=Jan D=Apr G=Jul K=Oct

B=Feb E=May H=Aug L=Nov

C=Mar F=Jun J=Sept M=Dec

PERFORMANCE DATA

* Rating Conditions: 80 degrees F, room air temp. & 50% relative humidity, with 95 degree F, outside air temp & 40% relative humidity

Calculate the heat loss of the space to be heated. As long as the heat loss does not exceed the resistance heating capacity rating of the unit, the heating performance will be satisfactory. Change-over

from heat pump operation to resistance operation on models indicated is automatic at a preset outside ambient temperature of approximately 35°F. If condensate disposal is desired, an optional drain

kit is available. DEFROST CONTROL: Initiated at 20°F (outdoor coil temperature) and terminated at 43°F (outdoor coil temperature). During defrost, the compressor stops and the electric heat starts,

then operates with the fan to maintain indoor comfort. Below 43°F, the unit remains in electric heat mode. During electric heat mode, the unit will achieve the following ratings: 11000/9100 BTU/h,

16.0/14.7 amps, and 3550/2950 watts. DEFROST DRAIN: Drain automatically opens at approximately 50°F in outdoor base pan for defrost condensate disposal.

ELECTRICAL DATA

Wire Size

Use ONLY wiring size recommended for

single outlet branch circuit.

Fuse/Circuit

Breaker

Use ONLY type and size fuse or HACR

circuit breaker indicated on unit’s rating

plate. Proper current protection to the unit

is the responsibility of the owner.

ELECTRIC SHOCK HAZARD.

Turn off electric power before service or installation.

Grounding

Unit MUST be grounded from branch

circuit through service cord to unit, or

through separate ground wire provided on

permanently connected units. Be sure that

branch circuit or general purpose outlet is

grounded.

All electrical connections and wiring MUST be

installed by a qualiﬁed electrician and conform to the

National Electrical Code and all local codes which

have jurisdiction.

Failure to do so can result in property damage,

personal injury and/or death.

Receptacle

The ﬁeld supplied outlet must match plug on

service cord and be within reach of service

cord. Do NOT alter the service cord or plug.

Do NOT use an extension cord. Refer to

the table above for proper receptacle and

fuse type.

The consumer - through the AHAM Room Air Conditioner Certiﬁcation Program - can be certain

that the AHAM Certiﬁcation Seal accurately states the unit’s cooling and heating capacity rating,

the amperes and the energy efﬁciency ratio.

FUNCTIONAL COMPONENTS

A. Mechanical components

Bellows condensate valve

Temperature-sensitive valve that opens up to drain off condensate water when the outside temperature falls below 40°F

and closes when the outside temperature reaches 58°F.

Plenum assembly

Diffuser with directional louvers used to direct the conditioned airﬂow.

Blower wheel

Attaches to the indoor side of the fan motor shaft and is used for distributing unconditioned, room side air though the heat

exchanger and delivering conditioned air into the room.

Slinger fan blade

Attaches to the outdoor side of the fan motor shaft and is used to move outside air through the condenser coil, while

slinging condensate water out of the base pan and onto the condenser coil, thus lowering the temperature and pressures

within the coil.

B. Electrical components

Thermostat

Used to maintain the speciﬁed room side comfort level

System switch

Used to regulate the operation of the fan motor, the compressor or to turn the unit off. For troubleshooting, refer to the

wiring diagrams and schematics in the back of this service manual.

Capacitor

Reduces line current and steadies the voltage supply, while greatly improving the torque characteristics of the fan motor

and compressor motor.

MoneySaver^®switch

When engaged, it sends the power supply to the fan motor through the thermostat, which allows for a cycle-fan operation.

Fan Motor

Dual-shafted fan motor operates the indoor blower wheel and the condenser fan blade simultaneously.

Solenoid

Used to energize the reversing valve on all heat pump units.

Heating element

Electric resistance heater, available in 3.3, 4.0 or 5.2 kW on select TwinTemp^®models.

Heat anticipator

Used to provide better thermostat and room air temperature control.

C. Hermetic components

Compressor

Motorized device used to compress refrigerant through the sealed system.

Reversing valve

A four-way switching device used on all heat pump models to change the ﬂow of refrigerant to permit heating or cooling.

Check valve

A pressure-operated device used to direct the ﬂow of refrigerant to the proper capillary tube, during either the heating or

cooling cycle.

Capillary tube

A cylindrical meter device used to evenly distribute the ﬂow of refrigerant to the heat exchangers (coils.)

SYSTEM CONTROL PANEL

(“WS” Models)

Activating Error Code Mode (Submode of Test Mode)

Figure 6: System Control Panel

Unit must be in Test Mode to enter Error Code Mode

1. Activate Error Code Mode by pressing the “TIMER

ON/OFF” button on XQ & WS models. LED for the

“TIMER ON/OFF” will ﬂash 1bps while Error Code

Mode is active. Pressing the “TEMP/HR + ” button will

display 00. Consecutive presses will scroll through all

error codes logged. Press the “TEMP/HR - ” button

to see the reverse order of all error codes logged.

When the end of logged error codes is reached the

temperature set point will appear.

Power

Cool

Fan

MoneySaver^®

Speed

Mode

Fan Only

Clock

Timer

Set

Start Time

Stop Time

On/Off

Hour

IMPORTANT

Temp/Hour

Error Codes are cleared from the log by exiting from Error

Code Mode. To exit on XQ & WS models, press Timer On/

Off button. Or unplug unit to exit Error Code Mode. Plug

unit in after 5 seconds to resume normal operation of unit.

ERROR CODE LISTINGS

SHORT CYCLE SITUATION:

Deﬁned as

TESTING THE ELECTRONIC CONTROL

compressor powered on before the three minute

time delay ten times in one hour. Investigate and

correct short cycling problem.

CHECKING ROOM TEMPERATURE

1. Check the room temperature at the electronic control

pad by pressing at the same time the “FAN SPEED”

button and the temperature “UP” button on XQ & WS

models.

E2 KEYBOARD STUCK ERROR: If key button(s)

are pressed continuously for twenty seconds or

more. If MODE key is stuck, unit will default to

cool. Exit Error Code Mode to see if error “E2”

is no longer displayed and unit is functioning.

Replace board if “E2” still displays after exiting

Error Code Mode.

2. The indoor temperature will display for 10 seconds.

Indoor temperature can be viewed in all modes,

including the TEST mode. The display can be changed

back to SET temperature by pressing any key, except

the ON/OFF button, or after 10seconds has elapsed.

FROST PROBE OPEN: Normal operation is

allowed. Ohm frost probe. Replace probe if ohm

value not read. If ohm value present replace

board.

ACTIVATING TEST MODE

Activate test mode by pressing at the same time the“MODE”

button and the temperature “DOWN” button on XQ & WS

models. LEDs for Hour, Start, and Stop will blink 1bps while

Test Mode is active.

E4 FROST PROBE SHORT: Normal operation

allowed. Replace probe.

INDOOR PROBE OPEN: Control assumes

indoor ambient temperature is 90 degree F and

unit will operate. Ohm indoor probe. Replace

probe if ohm value not read.

Test Mode has duration of 90 minutes. Test Mode

can be activated under any conditions, including Off.

Test Mode is cancelled by pressing the On/Off button,

unplugging the unit, or when the 90 minutes is timed

out. All settings revert to the factory default settings of

Cool, 75 degrees F, Timer and Set Hour features are

nonfunctional.

INDOOR PROBE SHORT: Control assumes

ambient temperature is 90 degree F and unit will

operate. Replace probe.

Test Mode overrides the three-minute lockout, all delays

for compressor and fan motor start / speed change, and

no delay when switching modes.

NOTE: All Error Code displays for Frost & Indoor Probe

will allow unit to operate. Unit may or will ice up if faulty

components not replaced.

Test Mode default settings are ON, Money Saver, 60

degrees F, and High fan speed.

Frost Probe Sensor: Disables compressor at 35 degrees

SYSTEM CONTROL SWITCH - TEST

F +/- 3 degrees F

Disconnect leads from control switch. Turn control to posi-

tion being tested (see Figure 8). There must be continuity

as follows:

Indoor Probe Sensor: Control range is 60 degrees F to 90

degrees F +/- 2 degrees F

Indoor temperature will be displayed by pressing:

1. “Off” Position-no continuity between terminals.

(XQ / WS Units) The Fan Speed button and the Temp Up

button.

2. “Lo Cool” Position-between terminals “C” and “3”,

“C2” and “2”, “LO” and “M/S”, “AR” and “5”.

The indoor temperature will be displayed for 10 seconds.

The display will change back to the Set Point temperature by

pressing any key button except for the On/Off button. The

indoor temperature can be viewed in all modes, including

test mode.

3. “Med Cool” Position-between terminals “C” and “3”,

“C2” and “2”, “M” and “M/S”, “AR” and “5”.

4. “Hi Cool” Position-between terminals “C” and “3”,

“C2” and “2”, “H” and “M/S”, “AR” and “5”.

Keep Alive: The electronic control has a memory to retain

all functions and status as set up by the user in the event

of a power failure. Once power is restored to the unit

there is a two second delay before the fan comes on and

approximately three minutes delay before the compressor

is activated, providing that the mode was set for cooling and

the set point temperature has not been met in the room.

5. “Hi Heat” Position-between terminals “C” and “1”,

“C2” and “4”, “H” and “M/S”, “AR” and “5”.

6. “Med Heat” Position-between terminals “C” and “1”,

“C2” and “4”, “M” and “M/S”, “AR” and “5”.

7. “Lo Cool” Position-between terminals “C” and “1”,

“C2” and “4”, “LO” and “M/S”, “AR” and “5”.

SYSTEM CONTROL SWITCH

(“WE” & “WY” Models)

An eight position switch is used to regulate the operation

of the fan motor, compressor and electric heater.

8. “Fan Only” Position-between terminals “L1”, “M”

and “2”.

The unit can be operated in cooling or heating mode with

the compressor or electric heater on and the fan motor

operating on low, medium or high speed.

Figure 8: System Control Switch

(Heat Pump & Electric Heat Models)

The fan motor can also be operated independently on

medium speed. See switch section as indicated on

decorative control panel, in Figure 7.

Figure 7: System Control Panel

NOTE:

Units will operate in constant fan in the cooling mode and

auto fan in the heating mode.

Fan

Only

Off

Low

Heat

Low

Cool

Med

Heat

Med

Cool

High

Heat

High

Cool

MAX

HEAT

MAX

COOL

Allow 3 min. between restarts

REFRIGERATION SYSTEM SEQUENCE OF OPERATION

A good understanding of the basic operation of the refrigera-

tion system is essential for the service technician. Without

this understanding, accurate troubleshooting of refrigeration

system problems will be more difﬁcult and time consuming,

if not (in some cases) entirely impossible. The refrigeration

system uses four basic principles (laws) in its operation they

are as follows:

the evaporator coil. As it enters the evaporator coil, the

larger area and lower pressure allows the refrigerant to

expand and lower its temperature (heat intensity). This

expansion is often referred to as “boiling”. Since the unit’s

blower is moving Indoor air across the ﬁnned surface of

the evaporator coil, the expanding refrigerant absorbs

some of that heat. This results in a lowering of the indoor

air temperature, hence the “cooling” effect.

1. “Heat always flows from a warmer body to a cooler

body.”

The expansion and absorbing of heat cause the liquid

refrigerant to evaporate (i.e. change to a gas). Once the

refrigerant has been evaporated (changed to a gas), it is

heated even further by the air that continues to ﬂow across

the evaporator coil.

2. “Heat must be added to or removed from a substance

before a change in state can occur”

3. “Flow is always from a higher pressure area to a lower

pressure area.”

The particular system design determines at exactly what

point (in the evaporator) the change of state (i.e. liquid to a

gas) takes place. In all cases, however, the refrigerant must

be totally evaporated (changed) to a gas before leaving

the evaporator coil.

4. “The temperature at which a liquid or gas changes state

is dependent upon the pressure.”

The refrigeration cycle begins at the compressor. Starting

the compressor creates a low pressure in the suction line

which draws refrigerant gas (vapor) into the compressor.

The compressor then “compresses” this refrigerant, raising

its pressure and its (heat intensity) Temperature.

The low pressure (suction) created by the compressor

causes the refrigerant to leave the evaporator through the

suction line as a cool low pressure vapor. The refrigerant

then returns to the compressor, where the cycle is

repeated.

The refrigerant leaves the compressor through the discharge

line as a hot high pressure gas (vapor). The refrigerant enters

the condenser coil where it gives up some of its heat. The

condenser fan moving air across the coil’s ﬁnned surface

facilitates the transfer of heat from the refrigerant to the

relatively cooler outdoor air.

Refrigerant System Components

When a sufﬁcient quantity of heat has been removed from

the refrigerant gas (vapor), the refrigerant will “condense”

(i.e. change to a liquid). Once the refrigerant has been

condensed (changed) to a liquid it is cooled even further by

the air that continues to ﬂow across the condenser coil.

Suction

Line

Discharge

Line

Evaporator

Coil

Condenser

Coil

The RAC design determines at exactly what point (in the

condenser) the change of state (i.e. gas to a liquid) takes

place. In all cases, however, the refrigerant must be totally

condensed (changed) to a liquid before leaving the condenser

coil.

Compressor

Metering

Device

Refrigerant Drier

Liquid

Line

The refrigerant leaves the condenser coil through the

liquid line as a warm high pressure liquid. It next will pass

through the refrigerant drier (if so equipped). It is the

function of the drier to trap any moisture present in the

system, contaminants, and large particulate matter.

SEALED REFRIGERATION SYSTEM REPAIRS

IMPORTANT

The liquid refrigerant next enters the metering device. The

metering device is a capillary tube. The purpose of the

metering device is to “meter” (i.e. control or measure) the

quantity of refrigerant entering the evaporator coil.

ANY SEALED SYSTEM REPAIRS TO COOL-ONLY

MODELS REQUIRE THE INSTALLATION OF A

LIQUID LINE DRIER. ALSO, ANY SEALED SYSTEM

REPAIRS TO HEAT PUMP MODELS REQUIRE THE

INSTALLATION OF A SUCTION LINE DRIER.

In the case of the capillary tube this is accomplished

(by design) through size (and length) of device, and the

pressure difference present across the device.

Since the evaporator coil is under a lower pressure (due to

the suction created by the compressor) than the liquid line,

the liquid refrigerant leaves the metering device entering

HERMETIC COMPONENT REPLACEMENT

SEALED REFRIGERATION SYSTEM

REPAIRS

The following procedure applies when replacing com-

ponents in the sealed refrigeration circuit or repairing

refrigerant leaks. (Compressor, condenser, evaporator,

capillary tube, refrigerant leaks, etc.)

EQUIPMENT REQUIRED:

1. Voltmeter

1. Recover the refrigerant from the system at the pro-

cess tube located on the high side of the system by

installing a line tap on the process tube.Apply gauge

from process tube to EPA approved gauges from

process tube to EPA approved recovery system.

Recover CFCs in system to at least 5%.

2. Ammeter

3. Ohmmeter

4. Vacuum Pump (capable of 200 microns or less

vacuum.)

5. Acetylene Welder

2. Cut the process tube below pinch off on the suction

side of the compressor.

6. Electronic Halogen Leak Detector (G.E. Type H-6 or

equivalent.)

3. Connect the line from the nitrogen tank to the suction

process tube.

7. Accurate refrigerant charge measuring device such

as:

4. Drift dry nitrogen through the system and unsolder

the more distant connection ﬁrst. (Filter drier, high

side process tube, etc.)

a. Balance Scales - 1/2 oz. accuracy

b. Charging Board - 1/2 oz. accuracy

8. High Pressure Gauge - (0 - 400 lbs.)

9. Low Pressure Gauge - (30 - 150 lbs.)

10. Vacuum Gauge - (0 - 1000 microns)

5. Replace inoperative component, and always install a

new ﬁlter drier. Drift dry nitrogen through the system

when making these connections.

6. Pressurize system to 30 PSIG with proper refrigerant

and boost refrigerant pressure to 150 PSIG with dry

nitrogen.

EQUIPMENT MUST BE CAPABLE OF:

1. Evacuation from both the high side and low side of

the system simultaneously.

7. Leak test complete system with electric halogen leak

detector, correcting any leaks found.

2. Introducing refrigerant charge into high side of the

system.

8. Reduce the system to zero gauge pressure.

9. Connect vacuum pump to high side and low side of

system with deep vacuum hoses, or copper tubing.

(Do not use regular hoses.)

3. Accurately weighing the refrigerant charge actually

introduced into the system.

4. Facilities for ﬂowing nitrogen through refrigeration

tubing during all brazing processes.

10. Evacuate system to maximum absolute holding pres-

sure of 200 microns or less. NOTE: This process can

be speeded up by 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

system a minimum of 10 minutes. Release refriger-

ant, and proceed with evacuation of a pressure of

200 microns or less.

ROTARY COMPRESSOR SPECIAL

TROUBLESHOOTING AND SERVICE

Basically, troubleshooting and servicing rotary compres-

sors is the same as on the reciprocating compressor with

only a few exceptions.

1. Because of the spinning motion of the rotary, the

mounts are critical. If vibration is present, check the

mounts carefully.

11. Break vacuum by charging system from the high side

with the correct amount of refrigerant speciﬁed. This

will prevent boiling the oil out of the crankcase.

2. The electrical terminals on the rotary are in a differ-

ent order than the reciprocating compressors. The

terminal markings are on the cover gasket. Use your

wiring diagram to insure correct connections.

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.

REFRIGERANT CHARGE

12. Restart unit several times after allowing pressures

to stabilize. Pinch off process tubes, cut and solder

the ends. Remove pinch off tool, and leak check the

process tube ends.

1. The refrigerant charge is extremely critical. Mea-

sure charge carefully - as exact as possible to the

nameplate charge.

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 compressor and

enter the balance of the charge, gas only, into the

low side.

SPECIAL PROCEDURE IN THE CASE OF MOTOR

COMPRESSOR BURNOUT

1. Recover all refrigerant and oil from the system.

2. Remove compressor, capillary tube and ﬁlter drier

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.

from the system.

3. Flush evaporator condenser and all connecting

tubing with dry nitrogen or equivalent, to remove

all contamination from system. Inspect suction and

discharge line for carbon deposits. Remove and

clean if necessary.

NOTE: All inoperative compressors returned to

Friedrich must have all lines properly plugged with

the plugs from the replacement compressor.

4. Reassemble the system, including new drier strainer

and capillary tube.

5. Proceed with processing as outlined under hermetic

component replacement.

TROUBLESHOOTING TOUCH TEST CHART: TO SERVICE REVERSING VALVES

NORMAL FUNCTION OF VALVE

NOTES:

VALVE

OPERATING

CONDITION

* TEMPERATURE OF VALVE BODY

** WARMER THAN VALVE BODY

POSSIBLE CAUSES

CORRECTIONS

Cool

as (2)

Hot

as (1)

Hot

Cool

*TVB

TVB

Normal Cooling

Normal Heating

Hot

as (1)

Cool

as (2)

Hot

Cool

*TVB

TVB

MALFUNCTION OF VALVE

No voltage to coil.

Repair electrical circuit.

Check Electrical circuit and coil

Check refrigeration charge

Defective coil.

Replace coil.

Low charge.

Repair leak, recharge system.

Recheck system.

Pressure differential too high.

Hot

Cool

Cool,

as (2)

Hot,

as (1)

*TVB

Hot

Deenergize solenoid, raise head pressure,

reenergize solenoid to break dirt loose.

If unsuccessful, remove valve, wash

out. Check on air before installing. If no

movement, replace valve, add strainer to

discharge tube, mount valve horizontally.

Valve will not

shift from cool

to heat.

Pilot valve okay. Dirt in one bleeder hole.

Stop unit. After pressures equalize, restart

with solenoid energized. If valve shifts,

reattempt with compressor running. If still

no shift, replace valve.

Piston cup leak

Cool,

as (2)

Hot,

as (1)

Raise head pressure, operate solenoid to

free. If still no shift, replace valve.

Hot

Cool

*TVB

Hot

*TVB

Hot

Clogged pilot tubes.

Valve will not

shift from cool

to heat.

Raise head pressure, operate solenoid to free

partially clogged port. If still no shift, replace

valve.

Cool,

as (2)

Hot,

as (1)

Both ports of pilot open. (Back seat port

did not close).

Cool,

as (2)

Hot,

as (1)

Warm

Hot

Cool

*TVB

Warm Defective Compressor.

Not enough pressure differential at start

Replace compressor

Check unit for correct operating pressures

and charge. Raise head pressure. If no

shift, use valve with smaller port.

Warm

Hot

of stroke or not enough ﬂow to maintain

pressure differential.

Body damage.

Replace valve

Starts to shift

but does not

complete

Raise head pressure, operate solenoid. If

no shift, use valve with smaller ports.

Hot

Warm

Hot

Warm

Hot

Both ports of pilot open.

Body damage.

*TVB

Replace valve

Valve hung up at mid-stroke. Pumping

volume of compressor not sufﬁcient to

maintain reversal.

reversal.

Raise head pressure, operate solenoid. If

no shift, use valve with smaller ports.

Raise head pressure, operate solenoid. If no

shift, replace valve.

Hot

Both ports of pilot open.

Hot,

as (1)

Cool,

as (2)

Operate valve several times, then recheck.

If excessive leak, replace valve.

Cool

*TVB

Piston needle on end of slide leaking.

Apparent

leap in heating.

Hot,

as (1)

Cool,

as (2)

Operate valve several times, then recheck.

If excessive leak, replace valve.

Hot

Cool

** WVB ** WVB Pilot needle and piston needle leaking.

Hot,

as (1)

Cool,

as (2)

Stop unit. Will reverse during equalization

period. Recheck system

*TVB

Pressure differential too high.

Clogged pilot tube.

Raise head pressure, operate solenoid to

free dirt. If still no shift, replace valve.

Raise head pressure, operate solenoid.

Remove valve and wash out. Check on air

before reinstalling, if no movement, replace

valve. Add strainer to discharge tube.

Mount valve horizontally.

Hot,

as (1)

Cool,

as (2)

Hot

Cool

Hot

*TVB

Dirt in bleeder hole.

Piston cup leak.

Will not shift

from heat to

cool.

Stop unit. After pressures equalize, restart

with solenoid deenergized. If valve shifts,

reattempt with compressor running. If it

still will not reverse while running, replace

the valve.

Hot,

as (1)

Cool,

as (2)

Hot,

as (1)

Cool,

as (2)

Hot

Cool

Hot

Defective pilot.

Replace valve.

Warm,

as (1)

Cool,

as (2)

Warm

*TVB

Defective compressor.

Replace compressor

COOLING ONLY ROOM AIR CONDITIONERS: TROUBLESHOOTING TIPS

Problem

Possible Cause

Low voltage

Action

Check voltage at compressor. 115V & 230V

units will operate at 10% voltage variance

T-stat not set cold enough or

inoperative

Set t-stat to coldest position. Test t-stat & re-

place if inoperative

Compressor hums but cuts off on

B10 overload

Hard start compressor. Direct test compressor.

If compressor starts, add starting components

Compressor

does not run

Open or shorted compressor

windings

Check for continuity & resistance

Open overload

Open capacitor

Test overload protector & replace if inoperative

Test capacitor & replace if inoperative

Test for continuity in all positions. Replace if

inoperative

Inoperative system switch

Refer to appropriate wiring diagrams to check

wiring

Broken, loose or incorrect wiring

Problem

Possible Cause

Inoperative system switch

Broken, loose or incorrect wiring

Open capacitor

Action

Test switch & replace if inoperative

Refer to applicable wiring diagram

Test capacitor & replace if inoperative

Test switch & replace if inoperative

Fan motor

does not run

Fan speed switch open

Test fan motor & replace if inoperative (be sure

internal overload has had time to reset)

Inoperative fan motor

Problem

Possible Cause

Action

Undersized unit

Refer to industry standard sizing chart

Set to coldest position. Test t-stat & replace if

necessary

T-stat open or inoperative

Dirty ﬁlter

Clean as recommended in Owner's Manual

Dirty or restricted condenser or

evaporator coil

Use pressure wash or biodegradable cleaning

agent to clean

Does not cool or

only cools slightly

Poor air circulation

Adjust discharge louvers. Use high fan speed

Fresh air or exhaust air door open

on applicable models

Close doors. Instruct customer on use of this

feature

Low capacity - undercharge

Check for leak & make repair

Check amperage draw against nameplate. If

not conclusive, make pressure test

Compressor not pumping properly

Problem

Possible Cause

Action

Replace fuse, reset breaker. If repeats, check

fuse or breaker size. Check for shorts in unit

wiring & components

Fuse blown or circuit tripped

Power cord not plugged in

System switch in "OFF" position

Inoperative system switch

Plug it in

Unit does not run

Set switch correctly

Test for continuity in each switch position

Loose or disconnected wiring at

switch or other components

Check wiring & connections. Reconnect per

wiring diagram

Problem

Possible Cause

Action

Dirty ﬁlter

Clean as recommended in Owner's Manual

Check for dirty or obstructed coil. Use

pressure wash or biodegradable cleaning

agent to clean

Restricted airﬂow

Inoperative t-stat

Test for shorted t-stat or stuck contacts

De-ice coil & check for leak

Evaporator coil

freezes up

Short of refrigerant

Inoperative fan motor

Test fan motor & replace if inoperative

De-ice coil. Check temp. differential (delta T)

across coil. Touch test coil return bends for

same temp. Test for low running current

Partially restricted capillary tube

Problem

Possible Cause

Action

Unit undersized. Test cooling performance &

replace with larger unit if needed

Excessive heat load

Check for partially iced coil & check

temperature split across coil

Restriction in line

Refrigerant leak

Compressor runs

continually & does

not cycle off

Check for oil at silver soldered connections.

Check for partially iced coil. Check split across

coil. Check for low running amperage

Check operation of t-stat. Replace if contacts

remain closed.

T-stat contacts stuck

T-stat incorrectly wired

Refer to appropriate wiring diagram

Problem

Possible Cause

Action

Disconnect power to unit. Remove cover

of t-stat & check if contacts are stuck. If so,

replace t-stat

T-stat contacts stuck

Turn to higher temp. setting to see if unit

cycles off

T-stat does not turn

unit off

T-stat set at coldest point

Incorrect wiring

Refer to appropriate wiring diagrams

Unit undersized for area to be

cooled

Refer to industry standard sizing chart

Problem

Possible Cause

Action

Overload inoperative. Opens too

soon

Check operation of unit. Replace overload if

system operation is satisfactory

Allow a minimum of 2 minutes to allow

pressures to equalize before attempting to

restart. Instruct customer of waiting period

Compressor restarted before

system pressures equalized

Check voltage with unit operating. Check for

other appliances on circuit. Air conditioner

should be in separate circuit for proper voltage

& fused separately

Compressor runs

for short periods

only. Cycles on

overload

Low or ﬂuctuating voltage

Incorrect wiring

Refer to appropriate wiring diagram

Check by substituting a known good capacitor

of correct rating

Shorted or incorrect capacitor

Restricted or low air ﬂow 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

Problem

Possible Cause

Action

Place jumper across t-stat terminals to check if

unit operates. If unit operates, replace t-stat.

Loss of charge in t-stat bulb

T-stat does not

turn unit on

Loose or broken parts in t-stat

Incorrect wiring

Check as above

Refer to appropriate wiring diagram

Problem

Possible Cause

Poorly installed

Action

Refer to Installation Manual for proper

installation

Fan blade striking chassis

Reposition - adjust motor mount

Check that compressor grommets have not

deteriorated. Check that compressor mounting

parts are not missing

Noisy operation

Compressor vibrating

Improperly mounted or loose

cabinet parts

Check assembly & parts for looseness,

rubbing & rattling

Problem

Possible Cause

Action

Evaporator drain pan overﬂowing

Clean obstructed drain trough

Evaporator drain pan broken or cracked.

Reseal or replace

Condensation forming on base pan

Poor installation resulting in rain

entering the room

Check installation instructions. Reseal as

required

Water leaks into

the room

Condensation on discharge grille

louvers

Clean the dirty evaporator coil. Use pressure

wash or biodegradable cleaning agent to clean

Chassis gasket not installed

Install gasket, per Installation manual

Downward slope of unit is too

steep

Refer to installation manual for proper

installation

Problem

Possible Cause

Sublimation:

When unconditioned saturated,

outside air mixes with conditioned

air, condensation forms on the

cooler surfaces

Action

Ensure that foam gaskets are installed in

between window panes & in between the

unit & the sleeve. Also, ensure that fresh

air/exhaust vents (on applicable models) are in

the closed position & are in tact

Water "spitting"

into room

Follow installation instructions to ensure that

downward pitch of installed unit is no less than

1/4" & no more than 3/8"

Downward pitch of installation is

too steep

Clean & advise customer of periodic cleaning

& maintenance needs of entire unit

Restricted coil or dirty ﬁlter

Problem

Possible Cause

Action

Insufﬁcient air circulation thru area

to be air conditioned

Adjust louvers for best possible air circulation

Operate in "MoneySaver" position

Oversized unit

Excessive moisture

Inadequate vapor barrier in

building structure, particularly

ﬂoors

Advise customer

Problem

Possible Cause

Action

T-stat differential too narrow

Replace t-stat

Plenum gasket not sealing,

allowing discharge air to short

cycle t-stat

Check gasket. Reposition or replace as

needed

T-stat short cycles

Clean & advise customer of periodic cleaning

& maintenance needs of entire unit

Restricted coil or dirty ﬁlter

Problem

Possible Cause

Action

Anticipator (resistor) wire

disconnected at t-stat or system

switch

Refer to appropriate wiring diagram

Disconnect plus from outlet. Remove resistor

from bracket. Insert plug & depress "COOL"

& "FAN AUTOMATIC" buttons. Place t-stat to

warmest setting. Feel resistor for temperature.

If no heat, replace resistor

Prolonged off

cycles (automatic Anticipator (resistor) shorted or

operation)

open

Partial loss of charge in t-stat bulb

causing a wide differential

Replace t-stat

Problem

Possible Cause

Action

Evaporator drain pan cracked or

obstructed

Repair, clean or replace as required

Detach shroud from pan & coil. Clean &

remove old sealer. Reseal, reinstall & check

Water in compressor area

Obstructed condenser coil

Outside water

leaks

Use pressure wash or biodegradable cleaning

agent to clean

Fan blade/slinger ring improperly

positioned

Adjust fan blade to 1/2" of condenser coil

HEAT / COOL ROOM AIR CONDITIONERS: TROUBLESHOOTING TIPS

Problem

Possible Cause

Action

Disconnect power to unit. Remove resistor

from t-stat bulb block. Plus in unit & allow to

operate. Feel resistor for heat. If not heat,

replace resistor

Heat anticipator (resistor) shorted

(on applicable models)

Room temperature

uneven

(Heating cycle)

Wide differential - partial loss of

t-stat bulb charge

Replace t-stat & check

Refer to appropriate wiring diagram. Resistor

is energized during "ON" cycle of compressor

or fan.

Incorrect wiring

Problem

Possible Cause

Action

Incorrect wiring

Refer to appropriate wiring diagram

Defrost control timer motor not

advancing (applicable models)

Check for voltage at "TM" & "TM1" on timer. If

no voltage, replace control

If outside coil temperature is 25°F or below,

& preselected time limit has elapsed, replace

defrost control

Defrost control out of calibration

(applicable models)

Unit will not defrost

If contacts remain closed between terminals

"2" & "3" of the defrost control after

preselected time interval has passed, replace

control

Defrost control contacts stuck

Defrost control bulb removed from Reinstall & be assured that good bulb to coil

or not making good coil contact

contact is made

Problem

Possible Cause

Exhaust or fresh air door open

Dirty ﬁlter

Action

Check if operating properly. Instruct customer

on proper use of control

Clean as recommended in Owner's Manual

Check heat rise across coil. If unit operates

efﬁciently, check if insulation can be added

to attic or walls. If insulation is adequate,

recommend additional unit or larger one

Unit undersized

Does not heat

adequately

T-stat should close at 38°F. Check continuity

of control. If temperature is below 38F, replace

control

Outdoor t-stat open (applicable

models)

Check for adequate fan air across heater.

Check control for open at 160°F & close at

150°F

Heater hi-limit control cycling on &

off

Shorted supplementary heater

Incorrect wiring

Ohmmeter check, approx. 32-35 ohms

Check applicable wiring diagram

Problem

Possible Cause

Incorrect wiring

Action

Refer to applicable wiring diagram

Check for continuity of coil

Defective solenoid coil

Reversing valve fails to shift

Inoperative system switch

Possible Cause

Block condenser coil & switch unit to cooling.

Allow pressure to build up in system, then

switch to heating. If valve fails to shift, replace

valve.

Unit cools when

heat is called for

Check for continuity of system switch

Problem

Action

Heating capillary tube partially

restricted

Check for partially starved outer coil. Replace

heating capillary tube

Switch unit several times from heating to

cooling. Check temperature rise across

coil. Refer to speciﬁcation sheet for correct

temperature rise

Cooling adequate,

but heating

Check valve leaking internally

insufﬁcient

Deenergize solenoid coil, raise head pressure,

energize solenoid to break loose. If valve fails

to make complete shift, replace valve.

Reversing valve failing to shift

completely; bypassing hot gas

WIRING DIAGRAM: MODELS WS08B10A-C, WS10B10A-C,

WS14B10A-C, WS10B30A-C, WS13B30C

WIRING DIAGRAM: MODELS WS16B30A-C

WIRING DIAGRAM: MODELS WE10B33A-B, WE13B33B-B

WIRING DIAGRAM: MODELS WE16B33A-B

WIRING DIAGRAM: MODELS WY10B33A-B, WY13B33A-B

WS, WE & WY SERIES CHASSIS PARTS

WALLMASTER PARTS 2007

REF

DESCRIPTION

PART NO.

115V

230V

CODE

ELECTRICAL PARTS

ELECTRONIC BOARD

REMOTE CONTROL

THERMOSTAT

THERMOSTAT, DEF.

OVERLOAD

CAPACITOR

SUPPLY CORD

SWITCH SYS. 8 POS.

FAN MOTOR

61921198

61921199

61826606

25043302

61350314

61764507

61764519

61764528

61764554

61764555

61764556

61080533

61080569

61080535

61080540

61080526

61080537

60500327

60500326

60500325

60607204

61871470

61871471

61871472

61871473

61871474

62101210

25022032

331

350

120

122

190

150

220

130

110

210

240

HEATER

SOLENOID and REVERSING VALVE

REFRIGERATION SYSTEM PARTS

REVERSING VALVE and SOLENOID

CHECK VALVE

FILTER DRIER

SUCTION DRIER

COMPRESSOR

25022032

61824400

60308101

61828200

61562832

62199700

62199701

62199702

62199703

62199704

62102300

62103300

62103303

62103305

62103400

62103401

62103402

62103500

62103501

03760513

03760547

01390000

03760550

03760511

03760548

500

510

480

600

400

410

471

COMPRESSOR

EVAPORATOR COIL

CONDENSER COIL

CAPILLARY TUBE

* Part Not Shown

WALLMASTER PARTS 2007

REF

DESCRIPTION

PART NO.

115V

230V

CODE

CHASSIS PARTS

SHROUD, CONDENSER

FAN BLADE, COND.

BLOWER WHEEL, EVAP.

BLOWER FRONT

SCROLL

BASE PAN

BASE PAN ASLY.

62102000

62101500

60610604

62100600

62100601

62102100

62100914

62100915

61606219

60179903

62101901

61028900

91400400

61715800

60640600

60640500

91003000

62100002

62100802

62101107

61911605

60865900

61900500

61925001

60865811

61607005

62103205

61612705

61612805

61613205

61578101

60846020

61717301

61841919

720

710

700

742

777

730

801

840

790

791

999

760

761

756

999

754

750

772

773

999

780

999

BELLOWS,DRAIN VALVE

DRAIN PAN, ASSY.

GROMMET, comp.

BOLT, comp.

COUNTER WEIGHT

RETAINER CUP,FAN MTR

GROMMET,FAN MTR

NUT,FAN MTR

PANEL, CTRL. MOUNT

BRACKET CONRTOL

ESCUTCHEON, HTG/COOL

KNOBS, CRTL.

HOLDER, AIR FILTER

HOLDER, THERMOSTAT

HOLDER, THERMISTER

FILTER, AIR

FRONT COMPLETE

FRAME HOOD

GRILLE, INTAKE

GRILLE, EXHAUST

END CAP, GRILLE

WEATHER SEAL GASKET

HARDWARE, SCREWS

GASKET, CHASSIS

CARTON

OPTIONAL ACCESSORIES

START KIT

SLEEVE (ONLY)

GRILLE, STAMPED

61008903

61603611

61603011

160

770

771

* Part Not Shown

WS - WE - WY SERIES SLEEVE PARTS

REF

DESCRIPTION

PART NO.

SLEEVE ASSEMBLY

PANEL, WEATHER INNER

GRILLE, LOUVERED

PANEL, WEATHER OUTER

61603611

61603201

61603011

61603303

WS, WE & WY SERIES SLEEVE PARTS

Friedrich Air Conditioning Co.

Post Office Box 1540 • San Antonio, Texas 78295-1540

4200 N. Pan Am Expressway • San Antonio, Texas 78218-5212

(210) 357-4400 • FAX (210) 357-4480

www.friedrich.com

Printed in the U.S.A.

WM-Svc-Prts-07 (3-07)

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