Electrical Service Parts Guidebook

Wholesale Distribution North America

1

ELECTRICALSERVICE PARTS

GUIDE BOOK

Tecumseh Products CompanyAnn Arbor, Michigan 48108

2

Contents

General Service Safety Information

Introduction . . . . . . . . . . . . . . . . . . . . . 3

Trained Personnel Only . . . . . . . . . . . . 3

Terminal Venting and Electrocution . . . 4

Refrigerants and Other Chemicals . . . . 7

Compressor Removal . . . . . . . . . . . . . 8

System Flushing, Purging, and Pressure Testing for Leaks . . . . . . . . . 9

System Charging . . . . . . . . . . . . . . . . 11

Prevention of Water-Utilizing System Explosions . . . . . . . . . . . . . . . 12

Start Capacitor Overheating . . . . . . . . 15

System Evacuation . . . . . . . . . . . . . . . 15

Follow the Labels . . . . . . . . . . . . . . . . 15

Additional Information . . . . . . . . . . . . 15

Serial Label Information . . . . . . . . . . . 16

SAK-Solid State Start Assist Kits . . . . . . . . . . . . . . . . . . . . . 19

SSR3-Solid State Relay . . . . . . . . . .21

Start and Run Capacitor Ratings. .23

Introduction to ESP Master Replacement Guide . . . . . . . . . . . . 24

ESP Master Replacement Guide . . . . . . . . . . . . 25

Introduction to Electrical Drawings . . . . . . . . . . . . . 62

Trouble Shooting and Service Chart . . . . . . . . . . . . . . . . . . 84

3

IntroductionTecumseh Products Company has prepared this guidebook to assist service personnel in safely working with refrigeration and air conditioning equipment that uses Tecumseh Products Company hermetic compressors. It is not designed to replace the training required for professional service personnel. It is also not intended to replace other information available from refrigeration and air conditioning equipment manufacturers.

Trained Personnel OnlyServicing, repairing, and troubleshooting refrigeration and air conditioning systems should be done only be those with the necessary knowledge, training, and equipment.

WARNINGNever service, repair, or troubleshoot unless you are qualified to perform these functions. Improper servicing can lead to serious injury or death from fire, electrical shock, or explosion.

4

Terminal Venting and ElectrocutionImproperly servicing, repairing, or troubleshooting a compressor can lead to electro-cution or fire due to terminal venting with ignition. Follow the precautions below to avoid serious injury or death from electrocution or terminal venting with ignition.

Fire Hazard from Terminal Venting with IgnitionOil and refrigerant can spray out of the compressor if one of the terminal pins is ejected from the hermetic terminal. This “terminal venting” can occur as a result of a ground fault (also known as a short circuit to ground) in the compressor. The oil and refrigerant spray from terminal venting can be ignited by electricity and produce flames that can lead to serious burns or death. See figures 1 through 3 for detail.

Figure 1

Compressor with (1) protective terminal cover and (2) bale strap removed to show (3) hermetic terminal.

5

Terminal Venting and Electrocution PrecautionsTo reduce the risk of electrocution or serious burns or death from terminal venting with ignition:

Be alert for sounds or arcing (sizzling, sputtering or popping) inside the compressor, IMMEDIATELY GET AWAY if you hear these sounds.

Disconnect ALL electrical power before removing the protective terminal cover.

Make sure that all power legs are open. (NOTE: the system may have more than one power supply.)

Never energize the system unless: 1) the protective terminal cover is securely fastened, and 2) the compressor is properly connected to ground.

Figures 4 through 6 illustrate the different means of fastening protective terminal covers.

Figure 2

Figure 3

Close-up view of hermetic terminal showing individual terminal pins with power leads removed.

Close-up view of hermetic terminal after it has vented.

6

Figure 4

Figure 5

Figure 6

Compressor with (1) protective terminal cover held in place by (2) metal bale strap.

Compressor with (1) protective terminal cover held in place by (2) nut.

Compressor with (1) snap-in protective terminal cover.

7

Never reset a breaker or replace a fuse without first checking for a ground fault (a short circuit to ground).

An open fuse or tripped circuit breaker is a strong indication of a ground fault (also know as a short circuit to ground). Use only a megohmmeter (“megger”) or a Hi-Potential Ground tester (Hi-Pot) to check for a ground fault. A conventional ohmmeter will not reliably detect a ground fault under certain circumstances. See the Service Handbook for more information on checking for a ground fault. Also, always follow the megger or Hi-Pot manufacturer’s procedures and safety rules.

If a ground fault does exist, keep the power off. WARNING! To avoid electric shock, electrocution, and terminal venting with ignition, do not energize a compressor that has a ground fault. Mark and red tag the compressor to indicate that there is a ground fault. Do not reconnect the power leads. Tape and insulate each power lead separately.

Disconnect power before servicing.

Always disconnect power before servicing, unless it is required for a specific troubleshooting technique. In these situations, use extreme caution to avoid electrical shock.

Refrigerants and Other ChemicalsContact with refrigerant, mixtures of refrigerant and oil, or other chemicals can cause a variety of injuries including burns and frostbite. For example, if refrigerant contacts skin or eyes it can cause severe frostbite. Also, in the event of a compressor motor failure, some refrigerant and oil mixtures can be acidic and cause chemical burns.

To avoid injury, wear appropriate protective eyewear, gloves, and clothing when servicing an air conditioning or refrigeration system. Refer to your refrigerant supplier for more information.

If refrigerant or mixtures of refrigerant and oil come in contact with skin or eyes, flush the exposed area with water and get medical attention immediately.

8

Compressor RemovalFailure to properly remove the compressor can result in serious injury or death from electrocution, fire, or sudden release of refrigerant and oil.

Follow these precautions when removing a compressor from a system:

Disconnect ALL electrical power.

Disconnect all electrical power supplies to the system, making sure that all power legs are open. (NOTE: The system may have more than one power supply.)

Be sure refrigerant is recovered before removing compressor.

Attempting to remove the compressor before removing all refrigerant from the system can cause a sudden release of refrigerant and oil. Among other things, this can:

• Cause a variety of injuries including burns or frostbite.

• Cause a fire if a torch is used to disconnect tubing.

• Expose the service person to toxic gas.

To avoid serious injury or death, be sure to remove and recover all refrigerant before removing the compressor.

Use a tubing cutter, not a torch.

Use a tubing cutter to remove the compressor. A torch can cause even trace amounts of refrigerant to decompose and release toxic fumes. In addition, using a torch to remove the compressor can cause a fire. If you ignore this recommendation and use a torch, be prepared to extinguish a fire.

9

System Flushing, Purging, and Pressure Testing for LeaksFailure to properly flush, purge, or pressure test a system for leaks can result in serious injury or death from explosion, fire, or contact with acid-saturated refrigerant or oil mists.

Follow these precautions when flushing/purging a system or pressure testing a system for leaks:

Use flushing products according to the manufacturer’s instructions.

To purge a system, use only dry nitrogen.

When pressure testing for leaks, use only regulated dry nitrogen or dry nitrogen plus trace amounts of the serial label refrigerant.

When purging or pressure testing any refrigeration or air conditioning system for leaks, never use air, oxygen or acetylene.

• Oxygen can explode on contact with oil.

• Acetylene can decompose and explode when exposed to pressures greater than approximately 15 psig.

• Combining an oxidizing gas, such as oxygen air, with an HCFC or HFC refrigerant under pressure can result in a fire or explosion.

Use a pressure regulating valve and pressure gauges.

Commercial cylinders of nitrogen contain pressures in excess of 2000 psig at 70°F. At pressures much lower than 2000 psig, compressors can explode and cause serious injury or death. To avoid overpressurizing the system, always use a pressure regulating valve on the nitrogen cylinder discharge (see Figure 7). The pressure regulator must be able to reduce the pressure down to 1 or 2 psig and maintain this pressure.

The regulating valve must be equipped with two pressure gauges:

• one gauge to measure cylinder pressure, and

• one gauge to measure discharge or downstream pressure.

10

Use a pressure relief valve.

In addition to pressure regulating valve and pressure gauges, always install a pressure relief valve. This can also be a frangible disc type pressure relief device. This device should have a discharge port of at least ½" MPT size. The valve or frangible disc device must be set to release at 175 psig (see Figure 7).

Dry nitrogen cylinder with attached pressure regulating and relief valves and pressure gauges needed for pressure testing for leaks and purging.

Do not pressurize the system beyond 150 psig field leak test pressure.

When field testing a system for leaks, 150 psig is adequate test pressure.

Disconnect nitrogen cylinder and evacuate the system before connecting the refrigerant container.

Disconnect the nitrogen cylinder and release the pressure in the system before connecting a refrigerant container to the system. The higher pressure gas in the system can explode the refrigerant container.

Figure 7

Gauges

To System

Relief Valve 175 psig Setting

Regulating Valve

11

System ChargingFailure to properly charge the system can result in serious injury or death from explosion or fire.

Follow these precautions when charging a system:

Do not operate the compressor without charge in the system.

Operating the compressor without a charge in the system can damage the hermetic terminal. As always, to avoid serious injury or death from terminal venting with ignition, never energize the compressor unless the protective terminal cover is securely fastened.

Use proper refrigerant.

Use only the compressor serial label refrigerant when charging the system. Using a different refrigerant can lead to excess system pressure and an explosion. Use of a refrigerant other than the serial label refrigerant voids the compressor warranty.

Do not overcharge a refrigeration or air conditioning system.

Overcharging a refrigeration or air conditioning system can result in an explosion. To avoid serious injury or death, never overcharge the system. Always use proper charging techniques. Limit charge amounts to those specified on the system equipment serial label or in the original equipment manufacturer’s service information.

Overcharging the system immerses the compressor motor, piston, connecting rods, and cylinders in liquid refrigerant. This creates a hydraulic block preventing the compressor from starting. The hydraulic block is also known as locked rotor.

Continued supply of electricity to the system causes heat to build in the compressor. This heat will eventually vaporize the refrigerant and rapidly increase system pressure. If, for any reason, the thermal protector fails to open the electrical circuit, system pressure can rise to high enough levels to cause a compressor housing explosion.

12

Prevention of Water-Utilizing System ExplosionsIn certain water-utilizing refrigeration systems, water can leak into the refrigerant side of the system. This can lead to an explosion of system components, including but not limited to the compressor. If such an explosion occurs, the resulting blast can kill or seriously injure anyone in the vicinity.

Systems at Risk of ExplosionWater-utilizing systems that have single-wall heat exchangers may present a risk of explosion. Such systems may include:

• water source heat pump/air conditioning systems, and

• water cooling systems, such as icemakers, water coolers, and juice dispensers.

Water-utilizing systems that have single-wall heat exchangers present a risk of explosion unless they have either:

• a high pressure cut-out which interrupts power to ALL leads to compressor, or

• an external pressure relief valve.

How an Explosion OccursIf the refrigerant tubing in the heat exchanger develops a leak, water can enter the refrigerant side of the system. Water entering the refrigerant side can come in contact with live electrical connections in the compressor causing a short circuit or a path to ground. When this occurs, extremely high temperatures can result. The heat build-up creates steam vapor that can cause excessive pressure throughout the entire system. This system pressure can lead to an explosion of the compressor or other system components.

13

Service ProceduresIn light of the risk of explosion, be especially alert for signs of water leaking into the refrigerant side of the system. Whenever servicing or troubleshooting a water-utilizing system, always check to see if it has either a pressure relief valve or a high pressure cut-out as previously described. If the system does not have at least one of these, DISCONNECT ALL ELECTRICAL POWER and look for indications that water has leaked into the refrigerant side of the system. These indications may include:

• Observation of a report of a blown fuse or tripped circuit breaker.

• Signs that water has leaked to the outside of the system.

• Reports that the system has made gurgling or percolating noises.

• A history of loss of refrigerant charge without a leak being found in the system. NOTE: Common leak detection methods will not detect a water-to-refrigerant leak in the system’s heat exchanger(s).

• Observation of or a report of the compressor giving off an unusual amount of heat.

If ANY of these indications are present, do the following checks to determine if water has leaked into the refrigerant side:

Step 1: Check for a Ground Fault (a short to ground)Use only a megohmmeter (“megger”) or a Hi-Potential Ground tester (“Hi-Pot”) to check for a ground fault. A conventional ohmmeter will not reliably detect a ground fault under certain circumstances. See the Service Handbook for more information on checking for a ground fault. Also, always follow the megger or Hi-Pot manufacturer’s procedures and safety rules.

• If a ground fault does not exist, go to Step 2.

• If a ground fault does exist, keep the power off.

WARNING! To avoid electric shock, electrocution, and terminal venting with ignition, do not energize a compressor that has a ground fault. Mark and red tag the compressor to indicate that there is a ground fault. Do not reconnect the power leads. Tape and insulate each power lead separately. Proceed to Step 2. Do not replace the compressor or energize the system before performing Step 2.

14

Step 2: Check for Water in the SystemOnce the compressor is cool to the touch, open the system process valve slightly to see if any water comes out of the system. WARNING! Opening the system process valve while the compressor is hot can cause severe burns from steam coming out of the valve.

If ANY water comes out of the process valve, the entire system must be replaced. See “Replacing a Single-Wall Water-Utilizing System” below.

If water does not come out of the process valve, there is still a possibility that some water has leaked into the refrigerant side of the system. To address this possibility, determine if the system has a history of losing refrigerant charge without a leak being found or repaired.

If you find ANY indication of a history of losing refrigerant charge without detection of a leak, this is a sign that refrigerant has leaked in the water inside the heat exchanger. The entire system must be replaced. See “Replacing a Single-Wall Water-Utilizing System” below.

If you do not find any indication of a history of loss of charge without detection of a leak, you still need to install:

• a high pressure cut-out which interrupts power to ALL leads to the compressor, or

• an external pressure relief valve.

Also, if you found a ground fault in the compressor in Step 1, replace the compressor before applying power to the system.

Replacing a Single-Wall Water-Utilizing SystemWhen replacing a single-wall water-utilizing system, replace the system with one that has:

• a double-wall heat exchanger(s), or

• a high-pressure cut-out which interrupts power to ALL leads to the compressor, or

• an external pressure relief valve.

15

Start Capacitor OverheatingAn overheated start capacitor can burst and spray or splatter hot material which can cause burns. Applying voltage to a start capacitor for more than a few seconds can cause the capacitor to overheat.

Check capacitors with a capacitance meter, and never check a capacitor with the power on.

System EvacuationNever use a compressor to evacuate a system. Instead, use a high vacuum pump specifically designed for that purpose.

Never start the compressor while it is under deep vacuum. Always break a vacuum with refrigerant charge before energizing the compressor.

Failure to follow these instructions can damage the hermetic terminal. As always, to avoid serious injury or death from terminal venting with ignition, never energize the compressor unless the protective terminal cover is securely fastened.

Follow the LabelsTecumseh Products Company compressors have labels and markings with important information. For your safety and the safety of others, read the labels and markings on the product.

Additional InformationFor additional information, request a Tecumseh Service Handbook (call 1-800-211-3427), contact a Tecumseh Authorized Wholesale Distributor, or visit www.tecumseh.com.

16

Figure 8

Serial Label InformationThe only source for complete compressor information is on the compressor serial label. On earlier compressors, the serial plate is usually spot welded on the upper housing of the compressor. For current compressors, the serial label is affixed in the same location. Both describe the characteristics of the compressor.

The months are identified in Table 1.

Figure 9

Example compressor serial plate

Example compressor serial label

Table 1: Serial Label Month IdentifiersA – January D – April G – July K – OctoberB – February E – May H – August L – NovemberC – March F – June J – September M – December

Bill of Material Number

Compressor Model Number

First letter indicates month (see Table 1), next 2 digits indicate day of the month, following 2 digits indicate year.

Electrical Rating VOLTS - HERTZ Phase

17

Figure 10

Manufacturing Code DateMonth = September

Year = 2000

0J0

The letter represents the month (see Table 1).The numbers represent the year.

Example indoor condensing unit serial label

Figure 11

Example outdoor condensing unit serial label

First letter indicates month (see Table 1), next 2 digits indicate day of the month, following 2 digits indicate year.

18

Electrical Parts Program

While Tecumseh compressors are designed and manufactured to the most exacting standards, a small percentage will require service, primarily due to the normal wear of electrical component parts such as compressor motor relays and overloads.

Replacement relays and overloads must be accurately matched to the specific compressor involved in order to assure proper performance and prevent equipment failure.

The Tecumseh Electrical Parts Program together with the comprehensive Parts Guidebook are designed to assist the service engineer in obtaining correct Tecumseh parts for Tecumseh compressors regardless of the end product in which the compressor is installed.

Your Tecumseh Authorized Wholesaler Distributor has complete stock of these parts, detailed wiring diagrams, cross reference data and the know-how to help you.

Any part numbers removed from this cross reference is due to obsolescence of the part. This also means that no current replacement parts are available to replace the old numbers and their existence has outlasted the lifetime expectations of the product.

19

Tecumseh Start Assist Kit – SAK2

The solid state start assist is a popular method of improving the starting ability of a PSC compressor. Its low cost in comparison to a potential relay and start capacitor as well as the fact that one rating works on all PSC compressors are of prime interest.

We offer the following comments regarding the SAK2 Tecumseh start assist kit.

What It Is: A solid state device utilizing PTC material which when wired in parallel with the run capacitor of a PSC compressor, provides additional starting torque.

How It Works: The PTC material performs much the same function of a small start capacitor by momentarily increasing the motor start winding current. As the PTC material heats up, its resistance increases immediately to a point where it becomes essentially non-conductive and the compressor motor returns to PSC operation.

Its Limitations: The starting torque provided by SAK2 is equal to that provided by the specified relay and start capacitor for AE, AK, AJ, RG, and RK PSC models but may be somewhat less than that provided by the specified relay and start capacitor for AB, AH, AV, AG, AW, and CL models. For unusually severe problems, the specified relay and start capacitor may have to be used.

For additional information as well as installation and wiring procedures, please refer to the sample instruction sheet on the following page.

20

Instruction Sheet Start Assist Kit – SAK2 and SAK4

SAK2: This kit includes a solid state start assist device, a mounting clip, and two wiring leads. It is to be used only with a PSC air conditioning or heat pump compressor in self-equalizing systems to provide increased starting ability when starting problems are encountered.

SAK4: This kit includes a solid state start assist device, a mounting clip, and two wiring leads. It is a required part for the AVD5558EXN Compressor.

No SAK Kit is to be used:• With PSC air conditioning or heat pump compressors in non-self

equalizing systems.

• With compressors wired for capacitor type off-cycle heat.

• As a replacement for the specified relay and start capacitor on any capacitor start and run compressor in any type system.

Notes:This device requires a 3 minute cool-down period between starts. Should this kit fail to start the compressor due to unusually severe starting problems, remove kit and install optional relay and start capacitor specified in Electrical Service Parts Guidebook.

Installing and Wiring:1. Secure mounting clip over run

capacitor lip and snap device into place.

2. Connect (reversible) terminals of leads to device.

3. Connect (piggyback) terminals to run capacitor. These terminals have provision for attaching additional leads needed if run capacitor has only two terminals.

4. Refer to Figure 12 for additional wiring information.Figure 12

21

Tecumseh Solid State Relay – SSR3The SSR3 solid state relay may be used as a replacement for the current type on certain Tecumseh 115 volt RSIR compressors. Below and on the following page is information concerning the Tecumseh SSR3 relay.

Instruction Sheet Solid State Relay – SSR3This relay is intended to replace all current type push-on relays now specified for Tecumseh resistance start induction run (RSIR) compressors applied in household refrigerators and freezers. It is restricted to 115 volt operation.

It is not to be used• to replace current type relays now specified for Tecumseh RSIR compressors

applied in rapid-cycling systems such as water coolers, etc.

• to replace current or potential type relays on Tecumseh capacitor start induction run (CSIR) compressors; it cannot be used along with a start capacitor.

Note:For the above applications refer to Electrical Service Parts Guidebook for proper relay selection.

Caution:This relay runs very hot during compressor operation. Temperatures in excess of 150°F (66°C) are not uncommon. Allow a cool down period after compressor shut down before attempting to handle or remove.

Installing and Wiring:1. Disconnect power before removing protective cover.

2. Remove faulty relay and replace with SSR3.

3. Install and wire as shown in Figure 13.

4. If screw type relay termination is required, use adapter and screw provided.

5. Replace protective cover.

Figure 13

22

Use of Solid State Relays

Tecumseh’s position limiting the use of solid state relays to normal cycling 115 volt RSIR compressors is as follows:

A. It must be realized that a solid state relay is actuated on a thermal basis through the use of a material designated PTC. This PTC material is of a given cold resistance. It heats up rapidly as power is supplied, becomes non-conductive, and effectively opens the start winding circuit.

B. The usage of a CSIR compressor is generally one of intent in that high starting torque is needed in the application involved. Usually, this is because the compressor will be called upon to restart prior to complete pressure equalization (example, expansion valve systems). If a solid state relay is used on a CSIR compressor, the resistance added to the start winding circuit substantially reduced the starting torque. The result may be that the compressor will not start when required and will cycle on the overload for an undesirable length of time.

C. Additionally, if a solid state relay is used on an RSIR compressor applied in a rapid-cycling system, again a no-start situation could result. This is due to the cool-down period required of the PTC material, usually 4 to 6 minutes. In effect, the relay may still be hot (non-conductive) when called upon, the start winding will not be energized and the compressor will not restart.

The preceding comments apply to the Tecumseh SSR3 as well as all other solid state relays on the market.

23

Start Cap P/N MFD/Voltage85626 21-25/25085704 340-408/11085PS110C76 243-292/11085PS110C90 145-175/11085PS110C91 189-227/11085PS110C92 270-324/11085PS125D59 378-440/12585PS165C27 270-324/16585PS165C77 378-440/16585PS165C96 161-193/16585PS165C98 233-280/16585PS220D02 72-88/22085PS250A58 196-236/25085PS250B87 216-259/25085PS250C30 72-88/25085PS250D05 47-56/25085PS250D06 53-64/25085PS250D07 64-77/25085PS250D09 88-108/25085PS250D10 130-156/25085PS250D19 124-149/25085PS330C23 88-108/33085PS330C84 196-236/33085PS330D12 72-88/33085PS330D14 108-130/33085PS330D15 124-149/33085PS330D16 130-156/33085PS330D17 145-175/33085PS330D18 176-216/33085PS330D23 161-193/33085PS330D65 21-25/330

Run Cap P/N MFD/Voltage85PR220F12 15/22085PR240F37 35/24085PR370E35 20/37085PR370E36 15/37085PR370E63 40/37085PR370F17 35/37085PR370F20 25/37085PR370F21 45/37085PR370F23 30/37085PR440E65 45/44085PR440E90 55/44085PR440F18 35/44085PR440F19 20/44085PR440F22 25/44085PR440F24 15/44085PR440F27 30/44085PR440F28 40/44085PR440F90 65/440

Start and Run Capacitor Ratings

24

Introduction to ESP Master Replacement GuideThis Guide should be used if the model number, voltage and application of the compressor are known.

Attention should be given to any explanation of information covered under the “Remarks” column. Coding is as follows:

S/Cap Start Capacitor

R/Cap Run Capacitor

Opt. Optional

All voltage shown are 60 hertz and unless otherwise specified are single phase.

All 3450 RPM air conditioning compressors have PSC motors but can be operated CSR by adding the optional starting components. When PSC starting problems are encountered, either the specified relay and start capacitor or the SAK2 start assist may be used.

Certain refrigeration compressors may be serviced with either the specified current type relay or the SSR3 solid state relay.

25

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AB55

13G,

H20

8-23

0/60

/1~

~~

~~

85PS

330C

2385

PR37

0E35

K71-

19IN

TERN

AL~

AB55

15G,

H20

8-23

0/60

/17.1

843

~~

~85

PS33

0D65

85PR

370E

35K7

1-19

INTE

RNAL

~AB

5515

G, H

265/

60/1

6.639

.5~

~~

85PS

330C

2385

PR44

0F19

K71-

19IN

TERN

AL~

AB55

17G,

H20

8-23

0/60

/17.8

49~

~~

85PS

330C

2385

PR44

0F19

K71-

19IN

TERN

AL~

AB55

17G,

H26

5/60

/17.3

45~

~~

85PS

330C

2385

PR44

0F19

K71-

19IN

TERN

AL~

AB55

19F,

G, H

208-

230/

60/1

953

~~

~85

PS25

0D09

85PR

370F

20K7

1-19

INTE

RNAL

~AB

5519

F, G,

H26

5/60

/18.5

46~

~~

85PS

330C

2385

PR44

0F22

8296

4IN

TERN

AL~

AB55

20F,

G, H

208-

230/

60/1

9.456

~~

~85

PS25

0D09

85PR

370F

2082

965

INTE

RNAL

~AB

5520

F, G

265/

60/1

8.954

~~

~85

PS33

0C23

85PR

440F

2282

964

INTE

RNAL

~AB

5522

F, G,

H20

8-23

0/60

/110

.563

~~

~85

PS25

0D09

85PR

370F

2082

965

INTE

RNAL

~AB

5522

F, G

265/

60/1

9.659

.2~

~~

85PS

330C

2385

PR44

0F22

8296

4IN

TERN

AL~

AB55

24F,

G, H

208-

230/

60/1

1164

~~

~85

PS25

0D09

85PR

370F

1782

965

INTE

RNAL

~AB

5524

F, G

265/

60/1

10.2

61~

~~

85PS

330C

2385

PR44

0F28

8296

4IN

TERN

AL~

AB55

27H

208-

230/

60/1

12.9

77~

~~

85PS

330C

2385

PR37

0F17

8296

5IN

TERN

AL~

AB55

28G,

H20

8-23

0/60

/113

.380

~~

~85

PS25

0D09

85PR

370F

1782

965

INTE

RNAL

~AB

5528

G26

5/60

/111

.972

~~

~85

PS33

0C23

85PR

440F

1882

966

INTE

RNAL

~AB

5530

G, H

208-

230/

60/1

1487

~~

~85

PS33

0C23

85PR

370F

1782

965

INTE

RNAL

~AE

A041

5EXA

115/

60/1

3.728

12.33

1.55

~~

~82

453

8300

MRP

K59

~AE

A041

5ZXA

115/

60/1

428

12.33

1.55

~~

~82

453

8300

MRT

J36

Cond

ense

r Fan

Req

uired

AEA0

415Z

XD20

8-23

0/60

/12.8

21.8

32.28

4.23

~~

~82

008E

AJ54

8300

4TM

N72

~AE

A041

8AXA

115/

60/1

4.328

13.5

1.6~

~~

8200

EMBE

47K9

0-11

Cond

ense

r Fan

Req

uired

AEA0

423A

XA11

5/60

/16.7

4017

.270.9

6~

~~

820A

RR12

C06

8300

MRT

J37

Cond

ense

r Fan

Req

uired

AEA1

316Y

XA11

5/60

/11.2

11.7

16.41

7.64

~~

~82

0RR1

2E91

8378

1St

atic C

onde

nser

AEA1

320A

XA11

5/60

/11.2

11.7

16.41

7.64

~~

~82

418

8364

3St

atic C

onde

nser

26

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AEB1

320A

XA11

5/60

/11

12.9

~~

~~

~82

418

8364

3St

atic C

onde

nser

AEA1

326Y

XA11

5/60

/11.2

1413

.24.2

~~

~82

00EM

BH92

8300

MRP

G06

Stati

c Con

dens

erAE

A133

2AXA

115/

60/1

1.413

.915

.725.1

5~

~~

8240

483

643

~AE

B133

2AXA

115/

60/1

1.314

~~

~~

~82

0RR1

2B99

8397

4St

atic C

onde

nser

AEA1

332Y

XA11

5/60

/11.5

514

.615

.725.1

5~

~~

8240

483

613

Stati

c Con

dens

erAE

A133

6AXA

115/

60/1

1.714

.615

.725.1

5~

85PS

110C

91~

8240

4K9

0-01

~AE

B133

6AXA

115/

60/1

1.714

.615

.725.1

5~

~~

8240

483

613

Stati

c Con

dens

erAE

A133

8YXA

115/

60/1

2.118

16.36

3.36

~~

~K7

1-05

K90-

03Co

nden

ser F

an R

equir

edAE

A134

3AXA

115/

60/1

2.318

16.36

3.36

~85

PS11

0C91

~K7

1-05

K90-

02~

AEB1

343A

XA11

5/60

/11.7

518

12.5

3.5~

~~

K71-

0883

00M

RPJ9

1St

atic C

onde

nser

AEA1

360A

XA11

5/60

/12.5

229.1

82.6

9~

85PS

110C

91~

K71-

08K9

0-07

~AE

B136

0AXA

115/

60/1

2.15

22.1

~~

~~

~~

8300

MRP

G15

~AE

A136

0YXA

115/

60/1

2.05

20.7

13.3

2.3~

~~

K71-

08K9

0-04

Stati

c Con

dens

erAE

A138

0AXA

115/

60/1

3.65

3111

.961.9

4~

85PS

110C

91~

8240

3K9

0-07

~AE

B138

0AXA

115/

60/1

2.75

26.6

11.98

1.59

~~

~82

0966

0J81

K90-

08~

AEA1

380Y

XA11

5/60

/12.6

2411

.821.6

9~

~~

820R

R12G

2183

00M

RPG9

7Co

nden

ser F

an R

equir

edAE

A141

0AXA

115/

60/1

4.135

6.69

1.54

~~

~82

0RR1

2B11

K90-

14~

AEA1

410Y

XA11

5/60

/13.2

2812

.331.5

5~

~~

8245

383

00M

RPH3

7Co

nden

ser F

an R

equir

edAE

B141

1AXA

115/

60/1

3.832

10.45

1.27

~~

~82

00EM

BJ05

K90-

09~

AEA1

411E

XA11

5/60

/14.5

3112

.421.4

~85

PS11

0C76

~K7

1-09

K90-

10Co

nden

ser F

an R

equir

edAE

A141

3AXA

115/

60/1

4.635

6.69

1.54

~~

~82

0RR1

2B11

8300

MRT

C13

~AE

B141

3AXA

115/

60/1

4.232

10.45

1.27

~~

~82

00EM

BJ05

K90-

09~

AEA1

413Y

XA11

5/60

/15

37.5

13.95

0.97

~~

~K7

1-10

8300

MRT

E48

Cond

ense

r Fan

Req

uired

AEA1

415E

XA11

5/60

/15.2

3915

.220.8

7~

85PS

110C

76~

820R

R12A

76K9

0-16

Cond

ense

r Fan

Req

uired

27

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AEA2

380Z

XA11

5/60

/14.4

30.2

6.59

1.36

~85

PS11

0C76

~K7

1-12

K90-

11Co

nden

ser F

an R

equir

edAE

A241

0YXA

115/

60/1

5.640

5.94

1.1~

85PS

110C

92~

K71-

01K9

0-17

Cond

ense

r Fan

Req

uired

AEA2

411J

XA11

5/60

/14.4

30.2

6.59

1.36

~85

PS11

0C76

~K7

1-12

K90-

11Co

nden

ser F

an R

equir

edAE

A241

1ZXA

115/

60/1

5.940

5.94

1.1~

85PS

165C

27~

K71-

01K9

0-15

Cond

ense

r Fan

Req

uired

AEA2

411Z

XD20

8-23

0/60

/12.5

20.9

20.4

3.9~

85PS

250C

30~

820R

R12L

3083

00M

RPG9

5Co

nden

ser F

an R

equir

edAE

A241

3AXA

115/

60/1

4.830

.26.5

91.3

6~

85PS

110C

76~

K71-

12K9

0-12

~AE

A241

3YXA

115/

60/1

5.940

5.94

1.1~

85PS

110C

92~

K71-

01K9

0-17

Cond

ense

r Fan

Req

uired

AEA2

415A

AB11

5/60

/18.3

405.9

41.1

~85

PS11

0C92

~K7

1-01

K90-

17Co

nden

ser F

an R

equir

edAE

A241

5AXD

208-

230/

60/1

3.120

.520

.43.9

~85

PS22

0D02

~82

427

8300

MRP

D92

Cond

ense

r Fan

Req

uired

AEA3

414A

PP22

0-60

-11.2

38.5

60.66

12.76

~~

~82

407

8370

1Co

nden

ser F

an R

equir

edAE

A241

6JXA

115/

60/1

5.940

5.94

1.1~

85PS

165C

27~

K71-

01K9

0-15

Cond

ense

r Fan

Req

uired

AEA3

414A

XA11

5/60

/12.9

1816

.363.3

6~

85PS

110C

91~

K71-

05K9

0-07

Cond

ense

r Fan

Req

uired

AEA3

414Y

XA11

5/60

/13.1

414

.4316

.363.3

6~

85PS

110C

91~

K71-

05K9

0-07

Cond

ense

r Fan

Req

uired

AEA3

414Y

XP22

0-60

-11.6

8.560

.6612

.76~

~~

8200

EMBH

6683

00M

RPF3

1Co

nden

ser F

an R

equir

edAE

A341

5ZXA

115/

60/1

3.322

9.18

2.69

~~

~K7

1-08

8300

MRP

E07

Cond

ense

r Fan

Req

uired

AEA3

417A

XA11

5/60

/13.4

229.1

82.6

9~

85PS

110C

91~

K71-

08K9

0-07

Cond

ense

r Fan

Req

uired

AEA3

417Y

XA11

5/60

/13.4

229.1

82.6

9~

85PS

110C

91~

K71-

08K9

0-07

Cond

ense

r Fan

Req

uired

AEA3

417Y

XD20

8-23

0/60

/11.9

13.7

44.81

6.86

~~

~82

415

K90-

01~

AEA3

425A

XA11

5/60

/14.4

2411

.852.2

9~

85PS

110C

91~

8240

3K9

0-08

Cond

ense

r Fan

Req

uired

AEB3

425A

XA11

5/60

/14

26.6

~~

~~

~82

403

K90-

07Co

nden

ser F

an R

equir

edAE

A342

5YXA

115/

60/1

4.424

11.85

2.29

~85

PS11

0C91

~82

0RR1

2L01

K90-

10~

AEA3

425Y

XD20

8-23

0/60

/12.2

13.7

44.81

6.86

~53

-64/

220

~82

415

8300

MRA

N80

~AE

A343

0AXA

115/

60/1

5.428

12.24

1.83

~85

PS11

0C91

~K7

1-09

K90-

10Co

nden

ser F

an R

equir

edAE

A343

0YXA

115/

60/1

5.428

12.24

1.83

~85

PS11

0C91

~K7

1-09

K90-

10Co

nden

ser F

an R

equir

ed

28

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AEA3

430Y

XU10

0/60

/15.7

369.7

11.0

3~

~~

8245

3K9

0-15

Cond

ense

r Fan

Req

uired

AEA3

440A

XA11

5/60

/15.4

2810

.661.5

1~

85PS

110C

91~

K71-

10K9

0-16

Cond

ense

r Fan

Req

uired

AEB3

440A

XA11

5/60

/16.2

37.5

~~

~~

~~

~Co

nden

ser F

an R

equir

edAE

A344

0YXA

115/

60/1

6.935

10.66

1.51

~85

PS11

0C90

~K7

1-10

K90-

21Co

nden

ser F

an R

equir

edAE

A344

0YXD

208-

230/

60/1

3.621

.832

.284.2

3~

~~

K71-

0883

00M

RPM

67Co

nden

ser F

an R

equir

edAE

A344

8AXA

115/

60/1

8.740

16.13

0.98

~~

~82

0RR1

2C28

8300

MRA

J87

Cond

ense

r Fan

Req

uired

AEA3

448Y

XA11

5/60

/18.7

4017

.270.9

6~

~~

820R

R12C

2883

00M

RAJ8

7Co

nden

ser F

an R

equir

edAE

A443

0AXA

115/

60/1

529

5.05

1.83

~85

PS11

0C76

~K7

1-09

K90-

11Co

nden

ser F

an R

equir

edAE

A443

0AXD

208-

230/

60/1

2.814

.414

.755.6

3~

53-6

4/22

0~

8247

683

00M

RPB0

2Co

nden

ser F

an R

equir

edAE

A443

0YXA

115/

60/1

5.329

5.05

1.83

~85

PS11

0C76

~K7

1-09

K90-

12Co

nden

ser F

an R

equir

edAE

A443

0YXD

208-

230/

60/1

2.814

.414

.755.6

3~

85PS

250D

06~

1494

9174

8300

MRP

M85

Cond

ense

r Fan

Req

uired

AEA4

440A

XA11

5/60

/16.8

32.7

10.6

1.27

~85

PS11

0C90

~K7

1-10

K90-

16Co

nden

ser F

an R

equir

edAE

A444

0AXD

208-

230/

60/1

3.616

.826

.674.8

~85

PS25

0D05

~K7

1-08

8300

MRP

A97

Cond

ense

r Fan

Req

uired

AEA4

440Y

XA11

5/60

/17.2

32.7

10.6

1.27

~85

PS11

0C90

~K7

1-10

K90-

16Co

nden

ser F

an R

equir

edAE

A444

0YXD

208-

230/

60/1

3.919

26.19

4.55

~85

PS25

0D05

~K7

1-08

K90-

08Co

nden

ser F

an R

equir

edAE

A444

8AXA

115/

60/1

8.340

5.94

1.1~

85PS

110C

92~

K71-

01K9

0-19

Cond

ense

r Fan

Req

uired

AEA4

448Y

XA11

5/60

/18.1

440

5.94

1.1~

85PS

110C

92~

K71-

01K9

0-22

Cond

ense

r Fan

Req

uired

AEA4

448Y

XD20

8-23

0/60

/15.3

24.5

20.4

3.46

~85

PS25

0C30

~82

0RR1

2L03

8300

MRA

N90

Cond

ense

r Fan

Req

uired

AEA5

455E

XA11

5/60

/16.2

2813

.631.3

6~

85PS

330D

6585

PR37

0E36

K71-

1983

949

~AE

A546

0EXA

115/

60/1

731

12.78

1.13

~85

626

85PR

370E

36K7

1-19

K90-

21~

AEA5

465E

XA11

5/60

/17.7

3411

.80.8

7~

8562

685

PR37

0E36

K71-

1983

00M

RAA0

6~

AEA5

465E

XD20

8-23

0/60

/14

208.6

33.0

2~

85PS

330D

6585

PR37

0E36

820A

RR3B

0983

00M

RPC0

7~

AEA5

465E

XV26

5/60

/13.3

216

11.98

4.5~

85PS

330D

6585

PR44

0F24

820A

RR3B

8583

00M

RPB6

8~

AEA5

470E

XA11

5/60

/18.3

3811

.730.8

3~

8562

685

PR37

0E36

K71-

1983

00M

RAA9

4~

29

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AEA8

458E

XA11

5/60

/15.2

2413

.311.5

6~

8562

685

PR37

0E36

K71-

1983

00M

RAC4

5~

AEA8

467E

XA11

5/60

/16

34~

~~

8562

685

PR37

0E36

K71-

19K9

0-10

~AE

A846

9EXA

115/

60/1

6.234

~~

~85

626

85PR

370E

36K7

1-19

K90-

10~

AEA8

475E

XA11

5/60

/17

3412

.441.0

2~

8562

685

PR37

0E36

K71-

1983

00M

RAB5

9~

AEA9

415E

XA11

5/60

/14.3

295.0

51.8

3~

85PS

110C

76~

K71-

09K9

0-12

Cond

ense

r Fan

Req

uired

AEA9

415Z

XA11

5/60

/14.5

295.0

51.8

3~

85PS

110C

76~

K71-

09K9

0-13

Cond

ense

r Fan

Req

uired

AEA9

419Y

XA11

5/60

/15.4

386.0

80.9

7~

85PS

165C

27~

K71-

0183

00M

RPE7

9~

AEA9

422E

XA11

5/60

/16.1

405.9

41.1

~85

PS16

5C27

~K7

1-01

K90-

15Co

nden

ser F

an R

equir

edAE

A942

2EXD

208-

230/

60/1

3.220

.520

.43.9

~85

PS25

0C30

~82

0RR1

2L30

8300

MRA

N11

~AE

A942

2ZXA

115/

60/1

6.740

5.94

1.1~

85PS

165C

27~

K71-

01K9

0-21

Cond

ense

r Fan

Req

uired

AEA9

422Z

XD20

8-23

0/60

/13.4

2117

.253.3

1~

85PS

250C

30~

820R

R12L

3083

00M

RPP7

4~

AEA9

423Y

XA11

5/60

/17.7

455.8

20.8

2~

85PS

110C

92~

K71-

0683

00M

RTE8

1~

AGA4

534A

XG46

0/60

/35.5

32~

~5.5

9~

~~

INTE

RNAL

~AG

A453

4AXN

208-

230/

60/1

1790

2.52

0.687

~85

PS33

0D16

85PR

440F

28K7

1-20

INTE

RNAL

~AG

A453

4AXT

200-

230/

60/3

10.4

60~

~1.6

3~

~~

INTE

RNAL

~AG

A454

3AXG

460/

60/3

747

~~

3.83

~~

~IN

TERN

AL~

AGA4

543A

XN20

8-23

0/60

/122

.511

52.3

580.4

79~

85PS

330D

1685

PR44

0F28

K71-

20IN

TERN

AL~

AGA4

543A

XT20

0-23

0/60

/313

.893

~~

0.957

~~

~IN

TERN

AL~

AGC5

546E

XG46

0/60

/37

47~

~3.8

3~

~~

INTE

RNAL

~AG

A554

6EXH

575/

60/3

5.330

~~

7.88

~~

~IN

TERN

AL~

AGA5

546E

XN20

8-23

0/60

/122

.711

52.3

580.4

79~

85PS

330D

1685

PR44

0F28

K71-

20IN

TERN

AL~

AGB5

546E

XN20

8-23

0/60

/120

.813

0~

~~

85PS

330D

1885

PR37

0F17

K71-

20IN

TERN

AL2 R

/Cap

s req

uired

AGA5

546E

XT20

0-23

0/60

/313

.593

~~

0.957

~~

~IN

TERN

AL~

AGC5

553E

XG46

0/60

/37.8

54~

~2.8

8~

~~

INTE

RNAL

~

30

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AGA5

553E

XH57

5/60

/36

30~

~7.8

8~

~~

INTE

RNAL

~AG

A555

3EXN

208-

230/

60/1

26.2

132

2.05

0.395

~85

PS33

0D16

85PR

440E

65K7

1-20

INTE

RNAL

~AG

B555

3EXN

208-

230/

60/1

24.6

148

~~

~85

PS33

0D18

85PR

370F

17K7

1-20

INTE

RNAL

2 R/C

aps r

equir

edAG

A555

3EXT

200-

230/

60/3

15.5

103

~~

0.824

~~

~IN

TERN

AL~

AGB5

553E

XT20

0-23

0/60

/315

.113

7~

~0.5

72~

~~

INTE

RNAL

~AG

C556

1EXG

460/

60/3

9.562

~~

2.48

~~

~IN

TERN

AL~

AGA5

561E

XH57

5/60

/37

39~

~5.8

9~

~~

INTE

RNAL

~AG

A556

1EXN

208-

230/

60/1

30.5

165

1.673

0.359

~85

PS33

0D16

85PR

440E

90K7

1-20

INTE

RNAL

~AG

B556

1EXN

208-

230/

60/1

27.8

180

~~

~85

PS33

0D18

85PR

370F

2182

0ARR

3C64

INTE

RNAL

2 R/C

aps r

equir

edAG

A556

1EXT

200-

230/

60/3

1812

6~

~0.6

58~

~~

INTE

RNAL

~AG

B556

1EXT

200-

230/

60/3

1815

8~

~0.4

21~

~~

INTE

RNAL

~AG

C556

8EXG

460/

60/3

10.6

75~

~2.0

4~

~~

INTE

RNAL

~AG

B556

8EXH

575/

60/3

7.749

~~

3.38

~~

~IN

TERN

AL~

AGA5

568E

XN20

8-23

0/60

/134

.517

91.6

10.2

53~

85PS

330D

1685

PR44

0E90

K71-

20IN

TERN

AL~

AGA5

568E

XT20

0-23

0/60

/320

135

~~

0.614

~~

~IN

TERN

AL~

AGA5

573E

XG46

0/60

/311

.879

~~

1.68

~~

~IN

TERN

AL~

AGA5

573E

XH57

5/60

/39.4

62~

~2.6

9~

~~

INTE

RNAL

~AG

A557

3EXT

200-

230/

60/3

22.2

165

~~

0.428

~~

~IN

TERN

AL~

AGA9

530Z

XG46

0/60

/37.5

62~

~2.4

8~

~~

INTE

RNAL

~AG

A953

0ZXN

208-

230/

60/1

2516

51.6

730.3

59~

85PS

330D

1885

PR44

0E90

K71-

20IN

TERN

AL~

AGA9

530Z

XT20

0-23

0/60

/316

126

~~

0.658

~~

~IN

TERN

AL~

AGA9

534Z

XG46

0/60

/38.3

75~

~2.0

4~

~~

INTE

RNAL

~AG

A953

4ZXN

208-

230/

60/1

2817

91.6

10.2

53~

85PS

330C

8485

PR44

0F18

K71-

20IN

TERN

AL~

AGA9

534Z

XT20

0-23

0/60

/317

.113

5~

~0.6

14~

~~

INTE

RNAL

~

31

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AHA2

435A

XD20

8-23

0/60

/16.4

452.5

1.83

~85

PS25

0A58

~K7

1-25

INTE

RNAL

Relay

need

s 911

12 br

kt.AH

A244

5AXD

208-

230/

60/1

8.251

2.61.2

4~

85PS

250A

58~

K71-

24IN

TERN

ALRe

lay ne

eds 9

1112

brkt.

AHA2

445A

XF20

8-23

0/60

/33.8

34~

~2.7

8~

~~

INTE

RNAL

~AH

A244

5AXG

460/

60/3

2.724

~~

6.26

~~

~IN

TERN

AL~

AHA2

465Z

XB23

0/60

/110

.775

3.59

0.65

~85

PS33

0C84

85PR

370E

35K7

1-17

INTE

RNAL

~AH

A246

5ZXF

208-

230/

60/3

647

~~

1.72

~~

~IN

TERN

AL~

AHA2

466A

XD20

8-23

0/60

/19.7

713.9

50.6

8~

85PS

250A

5885

PR37

0E35

K71-

17IN

TERN

AL~

AHA2

466A

XF20

8-23

0/60

/35.4

47~

~1.7

2~

~~

INTE

RNAL

~AH

A246

6AXG

460/

60/3

2.724

~~

6.26

~~

~IN

TERN

AL~

AHA2

480J

XB23

0/60

/19.7

753.5

90.6

5~

85PS

250A

5885

PR37

0E35

K71-

17IN

TERN

AL~

AHA2

480J

XF20

8-23

0/60

/35.6

47~

~1.7

2~

~~

INTE

RNAL

~AH

2490

AT20

8-23

0/60

/18.2

51~

~~

85PS

250A

58~

8206

409A

50IN

TERN

AL2 R

elays

and S

/Cap

s req

uired

AHA2

490Z

XD20

8-23

0/60

/114

.210

32.0

80.5

2~

85PS

330D

1685

PR44

0F18

K71-

20IN

TERN

AL~

AHA2

490Z

XF20

8-23

0/60

/38.1

65~

~1.5

~~

~IN

TERN

AL~

AHA2

490Z

XG46

0/60

/33.8

27~

~6.0

5~

~~

INTE

RNAL

~AH

A251

1JXB

230/

60/1

11.4

108

~~

~85

PS25

0A58

85PR

370F

17K7

1-17

INTE

RNAL

~AH

B251

1JXD

208-

230/

60/1

11.4

94.8

2.41

0.53

~85

PS33

0D18

85PR

370F

2082

0ARR

3C44

INTE

RNAL

~AH

B251

1JXF

208-

230/

60/3

765

~~

1.5~

~~

INTE

RNAL

~AH

B251

1JXG

460/

60/3

3.827

~~

6.05

~~

~~

~AH

2513

AT20

8-23

0/60

/19.7

71~

~~

85PS

250A

5885

PR37

0E35

K71-

17IN

TERN

AL2 e

a req

’d: R

elays

, S/C

aps,

and R

/Cap

sAH

A451

8AXD

208-

230/

60/1

1045

3.65

1.27

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

A451

8AXF

208-

230/

60/3

6.234

~~

2.78

~~

~IN

TERN

AL~

AHA4

518A

XG46

0/60

/33.6

24~

~6.2

6~

~~

INTE

RNAL

~AH

A452

0EXD

208-

230/

60/1

10..0

513.7

41.0

4~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

32

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AHA4

520E

XF20

8-23

0/60

/35

55.5

~~

1.57

~~

~IN

TERN

AL~

AHA4

520E

XG46

0/60

/33.2

24~

~6.2

6~

~~

INTE

RNAL

~AH

A452

2EXD

208-

230/

60/1

1151

3.74

1.04

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

A452

2EXF

208-

230/

60/3

755

.5~

~1.5

7~

~~

INTE

RNAL

~AH

A452

4EXD

208-

230/

60/1

12.2

603.6

50.8

7~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AHA4

524E

XF20

8-23

0/60

/38

55.5

~~

1.57

~~

~IN

TERN

AL~

AHA4

524E

XG46

0/60

/33.8

24~

~6.2

6~

~~

INTE

RNAL

~AH

A452

5AXD

208-

230/

60/1

1571

2.75

0.864

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

A452

5AXG

460/

60/3

4.524

~~

6.26

~~

~IN

TERN

AL~

AHA4

531E

XD20

8-23

0/60

/116

.576

3.81

0.63

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

A453

1EXF

208-

230/

60/3

9.75

65~

~1.5

~~

~IN

TERN

AL~

AHA4

531E

XG46

0/60

/34.9

27~

~6.0

5~

~~

INTE

RNAL

~AH

A454

0EXD

208-

230/

60/1

22.5

103

2.08

0.52

~85

PS33

0D16

85PR

440F

18K7

1-20

INTE

RNAL

~AH

A454

0EXF

208-

230/

60/3

12.5

72~

~1.1

3~

~~

INTE

RNAL

~AH

A454

0EXG

460/

60/3

6.235

~~

4.58

~~

~IN

TERN

AL~

AH45

50AT

208-

230/

60/1

1271

~~

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

2 ea r

eq’d:

Rela

ys, S

/Cap

s, an

d R/C

aps

AH55

19E

208-

230/

60/1

11.5

504 -

75 -

9~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH55

20E,

F20

8-23

0/60

/110

512 -

53 -

7~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH55

20E,

F26

5/60

/111

60~

~~

85PS

330C

2385

PR44

0F18

K71-

20IN

TERN

AL~

AH55

20E,

F20

0-23

0/60

/36

51~

~1.6

3~

~~

INTE

RNAL

~AH

5522

E, F

208-

230/

60/1

10.5

552 -

53 -

7~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH55

22E,

F26

5/60

/111

.565

2 - 7

4 - 7

~85

PS33

0C23

85PR

440F

18K7

1-20

INTE

RNAL

~AH

5522

E20

0-23

0/60

/36

51~

~1.6

3~

~~

INTE

RNAL

~AH

5524

E, F

208-

230/

60/1

10.4

602 -

53 -

7~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

33

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AH55

24E,

F26

5/60

/111

.565

2 - 5

3 - 7

~85

PS33

0C23

85PR

440F

18K7

1-20

INTE

RNAL

~AH

5524

E20

0-23

0/60

/36.5

60~

~1.6

3~

~~

INTE

RNAL

~AH

A552

7EXD

208-

230/

60/1

14.4

711 -

52 -

6~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH55

27E,

F26

5/60

/111

.573

1 - 5

2 - 6

~85

PS33

0C23

85PR

440F

18K7

1-20

INTE

RNAL

~AH

5527

E20

0-23

0/60

/37.6

63.4

~~

1.28

~~

~IN

TERN

AL~

AH55

30E,

F20

8-23

0/60

/115

762 -

52 -

6~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH55

31E,

F20

8-23

0/60

/116

.576

2 - 5

2 - 6

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

5531

E, F

265/

60/1

14.4

712 -

53 -

6~

85PS

330C

2385

PR44

0F18

K71-

20IN

TERN

AL~

AH55

31E

200-

230/

60/3

8.263

.4~

~1.2

8~

~~

INTE

RNAL

~AH

5533

E20

8-23

0/60

/116

.576

2 - 5

3 - 6

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

5533

E26

5/60

/114

.471

~~

~85

PS33

0C23

85PR

440F

18K7

1-20

INTE

RNAL

~AH

5534

E20

8-23

0/60

/115

.888

1 - 5

2 - 5

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

5534

E20

0-23

0/60

/39.7

65.1

~~

1.58

~~

~IN

TERN

AL~

AH55

34E

460/

60/3

4.76

32.8

~~

6.27

~~

~IN

TERN

AL~

AH55

40E

208-

230/

60/1

2210

31 -

51 -

5~

85PS

330D

1685

PR44

0F18

K71-

20IN

TERN

AL~

AH55

40E

200-

230/

60/3

10.8

73.4

~~

1.31

~~

~IN

TERN

AL~

AH55

40E

460/

60/3

5.337

.7~

~5.2

5~

~~

INTE

RNAL

~AH

A748

0AXD

208-

230/

60/1

6.541

4.28

1.8~

85PS

330D

1685

PR37

0E36

K71-

17IN

TERN

AL~

AHA7

480A

XF20

8-23

0/60

/34.2

34~

~2.7

8~

~~

INTE

RNAL

~AH

A751

1AXD

208-

230/

60/1

941

4.28

1.8~

85PS

330D

1685

PR37

0F20

K71-

17IN

TERN

AL~

AHB7

511A

XD20

8-23

0/60

/18.6

453.6

51.2

7~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AHA7

511A

XF20

8-23

0/60

/35.7

34~

~2.7

8~

~~

INTE

RNAL

~AH

A751

3ZXD

208-

230/

60/1

11.7

67.4

3.48

0.81

~85

PS33

0D15

85PR

370F

17K7

1-16

INTE

RNAL

~AH

A751

3ZXF

208-

230/

60/3

7.75

55.5

~~

1.57

~~

~IN

TERN

AL~

34

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AHA7

514A

XD20

8-23

0/60

/110

.460

3.48

0.8~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AHA7

514A

XF20

8-23

0/60

/37.3

55.5

~~

1.57

~~

~IN

TERN

AL~

AHA7

515J

XB23

0/60

/111

.560

3.65

0.87

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

A751

5JXF

208-

230/

60/3

7.555

~~

1.57

~~

~IN

TERN

AL~

AHA7

521Z

XD20

8-23

0/60

/118

.410

32.0

80.5

2~

85PS

330D

1685

PR44

0F18

K71-

20IN

TERN

AL~

AHA7

521Z

XF20

8-23

0/60

/310

.465

~~

1.5~

~~

INTE

RNAL

~AH

A752

4JXB

230/

60/1

2110

32.0

80.5

2~

85PS

330D

1685

PR44

0F18

K71-

20IN

TERN

AL~

AHA7

524Z

XF20

8-23

0/60

/311

65~

~1.5

~~

~IN

TERN

AL~

AH85

24E

208-

230/

60/1

9.757

~~

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

8526

E20

8-23

0/60

/110

.257

~~

~85

PS25

0D09

85PR

370F

17K7

1-19

INTE

RNAL

~AH

8526

E26

5/60

/19.2

50~

~~

85PS

330C

2385

PR44

0F18

K71-

19IN

TERN

AL~

AH85

29E

208-

230/

60/1

11.2

57~

~~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH85

29E

265/

60/1

1050

~~

~85

PS33

0C23

85PR

440F

18K7

1-19

INTE

RNAL

~AH

8532

E20

8-23

0/60

/113

65~

~~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH85

32E

265/

60/1

11.3

61~

~~

85PS

330C

2350

/440

K71-

20IN

TERN

AL~

AH85

38E

208-

230/

60/1

14.9

75~

~~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH85

38E

265/

60/1

12.8

70~

~~

85PS

330C

2350

/440

K71-

20IN

TERN

AL~

AH85

39E

208-

230/

60/1

16.4

88~

~~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH85

43E

208-

230/

60/1

17.1

88~

~~

85PS

250D

0985

PR37

0F17

K71-

19IN

TERN

AL~

AH85

43E

265/

60/1

14.8

76~

~~

85PS

330C

2350

/440

K71-

20IN

TERN

AL~

AH85

48E

208-

230/

60/1

20.5

104

~~

~85

PS33

0D16

85PR

370F

17K7

1-20

INTE

RNAL

~AH

8548

E26

5/60

/117

.892

~~

~85

PS33

0D16

50/4

40K7

1-20

INTE

RNAL

~AJ

1416

A11

5/60

/15.6

35~

~~

~~

~~

~AJ

1420

E11

5/60

/16.4

48~

~~

~~

~~

~

35

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AJA1

420E

XA11

5/60

/16.4

486 -

106 -

9~

85PS

165C

98~

~K9

0-31

~AJ

A241

6AXA

115/

60/1

6.838

.28.1

90.8

9~

85PS

165C

96~

K71-

11K9

0-17

~AJ

2416

B11

5/60

/15.9

36~

~~

145-

175/

165

~~

~~

AJA2

419Y

XA11

5/60

/16.8

683.0

60.4

8~

85PS

110C

9285

PR37

0E36

K71-

13K9

0-30

~AJ

A241

9ZXA

115/

60/1

6.768

3.06

0.48

~85

PS11

0C92

85PR

370E

36K7

1-13

K90-

30~

AJA2

419Z

XD20

8-23

0/60

/13

343.4

31.8

4~

85PS

330D

2385

PR37

0E36

820A

RR3B

89K9

0-09

~AJ

A242

4JXA

115/

60/1

6.668

3.06

0.48

~85

PS11

0C92

85PR

370E

36K7

1-13

8300

CRBL

10~

AJA2

424J

XD20

8-23

0/60

/13

343.4

31.8

4~

161-

193/

250

85PR

370E

3682

0ARR

3B89

K90-

09~

AJA2

425A

XA11

5/60

/17.9

573.7

80.5

6~

85PS

165C

27~

K71-

1583

00CS

TH11

~AJ

A242

5AXD

208-

230/

60/1

4.330

13.4

1.93

~85

PS22

0D02

~82

488-

1K9

0-09

~AJ

A242

5ZXA

115/

60/1

7.968

.43.0

60.4

8~

85PS

165C

2785

PR37

0E36

K71-

18K9

0-35

~AJ

A242

5ZXD

208-

230/

60/1

4.438

.73.6

61.7

5~

85PS

330D

2385

PR37

0E36

K71-

16K9

0-18

~AJ

A243

0JXA

115/

60/1

8.957

3.78

0.56

~85

PS12

5D59

~K7

1-02

8300

CSTL

02~

AJA2

432Z

XA11

5/60

/18.4

670.6

3.7~

85PS

165C

4285

PR37

0F23

K71-

19K9

0-29

~AJ

B243

3ZXA

115/

60/1

1067

2.52

0.46

~85

PS16

5C98

85PR

370F

23K7

1-19

K90-

29~

AJB2

433Z

XD20

8-23

0/60

/14.8

378.1

41.6

1~

85PS

330C

2385

PR37

0E36

K71-

17K9

0-20

~AJ

B244

4ZXD

208-

230/

60/1

6.555

4.11

~85

PS33

0D15

85PR

370E

3582

0ARR

3K15

K90-

29~

AJ44

43A

115/

60/1

~~

~~

~14

5-17

5/16

5~

~~

~AJ

A446

1AXA

115/

60/1

9.147

4.65

0.8~

85PS

165C

98~

K71-

02K9

0-34

Use K

90-2

1 if 3

/4" o

verlo

ad re

q'dAJ

B446

1AXA

115/

60/1

9.545

8.28

0.764

~85

PS16

5C96

~K7

1-02

8300

MRT

A19

~AJ

A446

1AXD

208-

230/

60/1

4.524

17.3

2.77

~85

PS25

0D07

~82

484-

1K9

0-11

~AJ

B446

1AXD

208-

230/

60/1

4.825

20.9

2.64

~85

PS25

0D06

~82

484

8300

MRT

A26

~AJ

A449

2AXA

115/

60/1

13.7

692.9

0.446

~85

704

~K7

1-14

K90-

38~

AJ44

92A

208-

230/

60/1

741

.89.9

91.4

8~

85PS

250D

09~

K71-

11K9

0-21

~

36

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AJA4

492A

XD20

8-23

0/60

/17

41.8

9.99

1.48

~85

PS25

0D09

~K7

1-11

K90-

21~

AJA4

492Y

XA11

5/60

/113

692.9

0.446

~85

PS16

5C77

~K7

1-14

K90-

38~

AJA4

492Y

XD20

8-23

0/60

/17

41.8

9.99

1.48

~85

PS25

0D09

~K7

1-11

K90-

21~

AJA4

512A

XD20

8-23

0/60

/17

416.5

71.4

7~

85PS

330C

2385

PR37

0E36

K71-

16K9

0-24

~AJ

A451

2YXD

208-

230/

60/1

741

6.57

1.47

~85

PS33

0C23

85PR

370E

36K7

1-16

K90-

23~

AJB5

513E

XA11

5/60

/114

.970

~~

~85

PS33

0D65

85PR

370F

20~

8300

CRAC

08~

AJB5

513E

XD20

8-23

0/60

/17.5

37.5

9.51.8

~85

626

17.5/

370

K71-

1983

927

~AJ

B551

5EXD

208-

230/

60/1

8.541

7.33

1.49

~85

626

85PR

370E

35K7

1-19

K90-

34~

AJB5

515E

XV26

5/60

/17.4

428.5

91.6

9~

85PS

330D

6585

PR44

0F19

K71-

21K9

0-31

~AJ

A551

7EXD

208-

230/

60/1

10.2

554.9

41.2

~85

PS33

0D65

85PR

370E

35K7

1-19

K90-

36~

AJA5

517E

XV26

5/60

/19.2

526.1

31.2

9~

85PS

330D

6585

PR44

0F19

K71-

2183

726

~AJ

A551

8EXD

208-

230/

60/1

11.2

544.4

91.2

~85

626

85PR

370F

20K7

1-19

8373

5~

AJA5

518E

XV26

5/60

/18.8

475.7

71.3

7~

85PS

330D

6585

PR44

0F27

K71-

21K9

0-34

~AJ

A551

9EXD

208-

230/

60/1

11.6

574.4

91.2

~85

PS33

0D65

85PR

370F

20K7

1-19

K90-

39~

AJA5

519E

XV26

5/60

/110

556.1

31.2

9~

85PS

330D

6585

PR44

0F22

K71-

21K9

0-36

~AJ

C551

9EXD

208-

230/

60/1

11.6

575.1

41.1

7~

85PS

330D

6585

PR37

0F20

K71-

19K9

0-39

~AJ

A643

5AXA

115/

60/1

8.238

.28.5

0.8~

88-1

08/1

65~

K71-

1183

918

~AJ

A744

1AXA

115/

60/1

8.849

.52.8

30.6

75~

85PS

125D

59~

K71-

02K9

0-33

~AJ

A744

1AXD

208-

230/

60/1

529

6.28

2.25

~85

PS25

0D19

~82

0ARR

2A29

K90-

13~

AJA7

455Z

XA11

5/60

/111

.265

2.88

0.55

~34

0-40

8/16

585

PR37

0E36

820A

RR3H

38IN

TERN

AL~

AJA7

455Z

XD20

8-23

0/60

/15.1

343.7

41.9

6~

161-

193/

250

85PR

370E

36K7

1-16

INTE

RNAL

~AJ

B746

1JXA

115/

60/1

11.2

652.7

60.5

5~

340-

408/

165

85PR

370E

3682

0ARR

3H38

INTE

RNAL

~AJ

B746

1JXD

208-

230/

60/1

5.15

343.5

51.9

6~

85PS

330D

2385

PR37

0E36

K71-

16IN

TERN

AL~

AJA7

461Y

XA11

5/60

/110

.168

3.06

0.48

~85

PS11

0C92

85PR

370E

36K7

1-13

K90-

38~

37

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AJA7

461Y

XD20

8-23

0/60

/16.4

466.3

31.3

4~

85PS

330C

23~

K71-

11K9

0-18

~AJ

7465

K11

5/60

/1~

~~

~~

85PS

110C

9285

PR37

0E36

820A

RR3A

17K9

0-38

~AJ

A746

5AXA

115/

60/1

11.6

683.0

60.4

8~

85PS

110C

9285

PR37

0E36

K71-

13K9

0-38

~AJ

B746

5AXD

208-

230/

60/1

746

6.61

1.34

~85

PS33

0C23

~K7

1-02

K90-

18~

AJA7

490Z

XD20

8-23

0/60

/16.9

40.6

2.74

1.52

~85

PS33

0C23

85PR

370F

21K7

1-16

K90-

24~

AJA7

494Z

XD20

8-23

0/60

/18.9

542.5

51.0

8~

85PS

250B

8785

PR37

0F20

K71-

16IN

TERN

AL~

AJB7

510J

XD20

8-23

0/60

/18.8

542.5

51.0

8~

85PS

250B

8785

PR37

0F20

820A

RR3B

61IN

TERN

AL~

AJA8

520E

XD20

8-23

0/60

/17.8

40.6

2.82

1.43

~85

PS33

0D65

85PR

370F

2182

0ARR

3B16

K90-

24~

AJD8

520E

XV26

5/60

/16.2

342.4

62.0

2~

85PS

330D

6585

PR37

0E63

820A

RR3B

16IN

TERN

AL~

AJA9

484E

XD20

8-23

0/60

/16.9

542.7

11.2

3~

85PS

250B

8785

PR37

0F20

K71-

16K9

0-35

~AK

A241

5ZXA

115/

60/1

4.930

3.43

1.05

~85

PS33

0D14

85PR

370F

1782

0ARR

3K52

8300

MST

H07

~AK

A241

5ZXD

208-

230/

60/1

2.320

4.66

3.67

~85

PS33

0D14

85PR

370E

3582

0ARR

3K53

8300

MRP

T82

~AK

A241

9ZXD

208-

230/

60/1

2.620

7.46

3.34

~85

PS33

0D12

85PR

370E

36K7

1-16

8300

RBCT

81~

AKA2

425Z

XA11

5/60

/16.3

403.2

40.7

97~

85PS

330D

8085

PR37

0F17

820A

RR3K

4283

00M

RTT4

2~

AKA2

425Z

XD20

8-23

0/60

/13.2

273.4

33.0

4~

85PS

330D

1485

PR37

0F20

8275

983

00RB

CT81

~AK

A446

0YXA

115/

60/1

9.548

4.60.6

6~

85PS

165C

96~

K71-

02K9

0-35

Use K

90-2

3 if 3

/4" o

verlo

ad re

q'dAK

A446

0YXD

208-

230/

60/1

8.423

6.23

2.75

~85

PS33

0D12

~K7

1-22

K90-

13~

AKA4

476Y

XA11

5/60

/111

.358

.84.2

20.5

9~

85PS

125D

59~

K71-

02K9

0-27

~AK

B447

6YXA

115/

60/1

1043

.56.6

50.7

1~

161-

193/

250

85PR

370E

3682

0ARR

3K56

K90-

27~

AKA4

476Y

XD20

8-23

0/60

/15.7

27.4

4.72.2

3~

85PS

250D

10~

K71-

22K9

0-19

~AK

A448

2YXA

115/

60/1

12.3

5910

.170.5

6~

85PS

250D

07~

K71-

11K9

0-27

~AK

A546

0EXA

115/

60/1

629

.8~

~~

85PS

330D

6585

PR37

0F20

820A

RR3B

0983

00M

RAC7

5~

AKA5

470E

XA11

5/60

/17.1

3510

.011.0

3~

85PS

330D

6585

PR37

0E36

K71-

19K9

0-22

~AK

A547

0YXA

115/

60/1

11.3

58.8

4.22

0.59

~85

PS33

0D65

85PR

370E

36K7

1-19

K90-

19~

38

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AKA5

470E

XD20

8-23

0/60

/13.5

22.4

~~

~85

PS33

0D65

85PR

370E

3682

0ARR

3H13

8300

MRA

D31

~AK

A547

0EXV

265/

60/1

319

~~

~85

PS33

0D65

85PR

370E

36~

~~

AKA5

483E

XA11

5/60

/19

4312

.090.7

2~

85PS

330D

6585

PR37

0E36

K71-

19K9

0-26

~AK

A548

3EXD

208-

230/

60/1

4.421

.37.7

62.8

6~

85PS

330D

6585

PR37

0E36

K71-

19K9

0-16

~AK

A548

3EXV

265/

60/1

3.922

.313

.84.1

7~

85PS

330D

6585

PR37

0E36

K71-

1983

00M

RAB5

5~

AKA5

494E

XA11

5/60

/110

.446

~~

~85

626

85PR

370E

36K7

1-19

K90-

25~

AKA5

494E

XD20

8-23

0/60

/15.5

26~

~~

8562

685

PR37

0E36

~83

00M

RAC7

2~

AKA5

510E

XA11

5/60

/110

.547

6.19

0.69

~85

PS33

0D65

85PR

370F

20K7

1-19

K90-

25~

AKA5

510E

XD20

8-23

0/60

/15.7

288.9

2.59

~85

626

85PR

370E

36K7

1-19

K90-

19~

AKA5

510E

XV26

5/60

/15

27.4

9.63

3.04

~85

PS33

0D65

85PR

370E

36K7

1-19

K90-

14~

AKA5

511E

XA11

5/60

/111

505.9

50.6

9~

8562

685

PR37

0F20

K71-

19K9

0-39

~AK

A551

1EXD

208-

230/

60/1

631

10.43

1.77

~85

PS33

0D12

85PR

370E

3682

243

8300

MRA

C46

~AK

A551

2EXA

115/

60/1

12.5

627.1

70.5

57~

85PS

330D

6585

PR37

0F20

K71-

21K9

0-39

~AK

A551

2EXD

208-

230/

60/1

6.834

10.23

1.72

~85

PS33

0D12

85PR

370E

36K7

1-16

K90-

22~

AKA5

512E

XV26

5/60

/15.5

338.7

82.3

4~

85PS

330D

6585

PR44

0F24

K71-

21K9

0-18

~AK

A847

5EXA

115/

60/1

5.629

.84.9

71.2

4~

8562

685

PR37

0F20

820A

RR3B

0983

00M

RAC7

5~

AKA8

475E

XD20

8-23

0/60

/12.8

15.9

6.54

3.93

~85

PS33

0D65

85PR

370E

36K7

1-19

8300

MRA

E77

~AK

A847

5EXV

265/

60/1

2.612

.38.5

75.9

6~

85PS

330D

6585

PR37

0E36

K71-

1983

00M

RAE7

8~

AKA8

483E

XA11

5/60

/16.6

35~

~~

85PS

330D

6585

PR37

0E36

K71-

19~

~AK

A849

4EXA

115/

60/1

740

3.09

0.8~

8562

685

PR37

0F17

820A

RR3B

09K9

0-22

~AK

A849

4EXD

208-

230/

60/1

3.520

7.19

3.26

~85

PS33

0D65

85PR

370E

36K7

1-19

8300

MRA

D96

~AK

A849

4EXV

265/

60/1

316

7.84.1

5~

85PS

330D

6585

PR37

0E36

K71-

1983

00M

RAD9

7~

AKA8

511E

XA11

5/60

/18.9

505.9

50.6

9~

8562

685

PR37

0F20

K71-

19K9

0-39

~AK

A851

1EXD

208-

230/

60/1

4.831

10.43

1.77

~85

626

17.5/

370

K71-

1983

00M

RAC4

6~

39

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AKA8

511E

XV26

5/60

/13.8

26.3

7.11

2.69

~85

PS33

0D65

85PR

370E

36K7

1-19

8300

MRA

F48

~AK

A851

2CXV

265/

60/1

426

.37.1

52.7

5~

85PS

330D

6585

PR37

0E36

K71-

1983

00M

RAD1

7~

AKA8

512E

XA11

5/60

/19.4

53~

~~

~~

~~

~AK

A851

2EXD

208-

230/

60/1

4.631

.24.4

42.3

6~

85PS

330D

6585

PR37

0F20

820A

RR3C

2483

00M

RAF1

0~

AKA8

512E

XV26

5/60

/14.2

26.3

7.11

2.69

~85

PS33

0D65

85PR

370E

36K7

1-19

8300

MRA

D17

~AK

A851

3EXA

115/

60/1

10.8

505.9

50.6

9~

8562

685

PR37

0F20

K71-

19K9

0-39

~AK

A851

3EXD

208-

230/

60/1

5.831

10.43

1.77

~85

626

85PR

370E

36K7

1-19

8300

MRA

C46

~AK

A851

3EXV

265/

60/1

4.726

.37.1

12.6

9~

85PS

330D

6585

PR37

0E36

K71-

1983

00M

RAD1

7~

AKA8

514E

XA11

5/60

/110

.7553

2.95

0.65

~85

626

85PR

370F

2182

0ARR

3B16

8300

CRAC

05~

AKA8

514E

XD20

8-23

0/60

/15.5

31.2

4.61

2.25

~85

PS33

0D65

85PR

370F

2082

0ARR

3C24

8300

MRA

E61

~AK

A851

4EXV

265/

60/1

4.827

8.19

2.75

~85

PS33

0D65

85PR

440F

24K7

1-19

8300

MRA

E57

~AK

A851

5CXV

265/

60/1

4.933

8.78

2.38

~85

PS33

0D65

85PR

440F

24K7

1-21

K90-

18~

AKA8

515E

XA11

5/60

/113

757.7

70.4

38~

85PS

330D

6585

PR37

0F17

K71-

1983

00CR

AK78

~AK

A851

5EXD

208-

230/

60/1

6.236

6.09

2.15

~85

PS33

0D65

85PR

370F

20K7

1-19

8300

MST

E14

~AK

A851

5EXV

265/

60/1

5.433

8.78

2.34

~85

PS33

0D65

85PR

440F

24K7

1-21

K90-

18~

AKA9

427Z

XA11

5/60

/17.8

484.6

0.66

~85

PS16

5C96

~K7

1-02

K90-

32~

AKA9

427Z

XD20

8-23

0/60

/13.8

236.2

32.7

5~

72-8

8/37

0~

8248

4-1

K90-

09~

AKA9

428E

XA11

5/60

/17.3

484.6

0.66

~85

PS16

5C96

~K7

1-02

K90-

35~

AKA9

428E

XD20

8-23

0/60

/13.7

236.2

32.7

5~

85PS

330D

12~

8248

4-1

K90-

13~

AKA9

428Z

XA11

5/60

/17.3

484.6

0.66

~85

PS16

5C96

~K7

1-02

K90-

35~

AKA9

428Z

XD20

8-23

0/60

/13.7

236.2

32.7

5~

85PS

330D

12~

8248

4-1

K90-

13~

AKA9

434A

XA11

5/60

/17.7

548

4.60.6

6~

85PS

165C

96~

K71-

02K9

0-23

~AK

A943

4AXD

208-

230/

60/1

4.223

4.60.6

6~

85PS

330D

12~

K71-

02K9

0-23

~AK

A943

8ZXA

115/

60/1

9.258

.84.2

20.5

9~

85PS

125D

5985

PR37

0F23

K71-

02K9

0-34

~

40

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AKA9

438Z

XD20

8-23

0/60

/14.3

3110

.431.7

7~

85PS

330D

1285

PR37

0E36

K71-

17K9

0-12

~AK

A944

1AXA

115/

60/1

9.258

.84.2

20.5

9~

85PS

125D

59~

K71-

02K9

0-23

~AK

A944

1AXD

208-

230/

60/1

4.627

.44.7

2.23

~85

PS25

0D10

~82

00EM

BJ93

K90-

19~

AKA9

442E

XA11

5/60

/18.8

58.8

4.22

0.59

~85

PS12

5D59

~K7

1-02

K90-

37~

AKA9

442E

XD20

8-23

0/60

/14

3110

.431.7

7~

85PS

330D

1285

PR37

0E36

K71-

17K9

0-16

~AK

A945

1ZXA

115/

60/1

9.450

5.95

0.69

~85

PS25

0C30

85PR

370F

20K7

1-19

K90-

24~

AKA9

451Z

XD20

8-23

0/60

/15.2

3110

.431.7

7~

85PS

330D

1285

PR37

0E36

K71-

1783

00M

RAM

71~

AKA9

455E

XD20

8-23

0/60

/14.9

3110

.431.7

7~

85PS

330D

1285

PR37

0E36

K71-

17K9

0-20

~AK

A945

5ZXA

115/

60/1

10.1

505.9

50.6

9~

85PS

250C

3085

PR37

0F20

K71-

19K9

0-27

~AK

A945

5ZXD

208-

230/

60/1

5.731

10.43

1.77

~85

PS33

0D12

85PR

370E

36K7

1-17

K90-

20~

AKA9

458J

XA11

5/60

/19.3

505.9

50.6

9~

85PS

250C

3085

PR37

0F20

K71-

19K9

0-27

~AK

A945

8JXD

208-

230/

60/1

5.231

10.43

1.77

~85

PS33

0D12

85PR

370E

36K7

1-17

K90-

16~

AKA9

462E

XD20

8-23

0/60

/15.3

3110

.431.7

7~

85PS

330D

1285

PR37

0E36

K71-

17K9

0-20

~AK

A946

2ZXA

115/

60/1

11.9

687.1

20.4

5~

85PS

250C

3085

PR37

0F20

K71-

19K9

0-40

~AK

A946

2ZXD

208-

230/

60/1

6.834

10.23

1.72

~85

PS33

0D12

85PR

370E

36K7

1-16

K90-

22~

AKA9

466J

XA11

5/60

/110

.450

5.95

0.69

~85

PS25

0C30

85PR

370F

20K7

1-19

8300

MRA

G76

~AK

A946

6JXD

208-

230/

60/1

5.931

10.43

1.77

~85

PS33

0D12

85PR

370E

36K7

1-17

K90-

20~

AKA9

474J

XA11

5/60

/112

.268

7.12

4.5~

85PS

330D

1285

PR37

0F20

K71-

16K9

0-40

~AK

A947

4JXD

208-

230/

60/1

6.834

10.23

1.72

~85

PS25

0C30

85PR

370E

36K7

1-16

K90-

22~

ANA5

590E

XG46

0/60

/313

.786

.1~

~1.3

5~

~~

INTE

RNAL

~AN

B559

0EXG

460/

60/3

13.7

86.1

~~

1.35

~~

~IN

TERN

AL~

ANC5

590E

XG46

0/60

/313

.786

.1~

~1.3

5~

~~

INTE

RNAL

~AN

D559

0EXG

460/

60/3

13.7

86.1

~~

1.35

~~

~IN

TERN

AL~

ANA5

590E

XT20

0-23

0/60

/327

172

~~

0.343

~~

~IN

TERN

AL~

41

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

ANB5

590E

XT20

0-23

0/60

/327

172

~~

0.343

~~

~IN

TERN

AL~

ANC5

590E

XT20

0-23

0/60

/327

172

~~

0.343

~~

~IN

TERN

AL~

AND5

590E

XT20

0-23

0/60

/327

172

~~

0.343

~~

~IN

TERN

AL~

ANA5

610E

XG46

0/60

/314

.493

.3~

~1.3

3~

~~

INTE

RNAL

~AN

B561

0EXG

460/

60/3

14.4

93.3

~~

1.33

~~

~IN

TERN

AL~

ANC5

610E

XG46

0/60

/314

.493

.3~

~1.3

3~

~~

INTE

RNAL

~AN

D561

0EXG

460/

60/3

14.4

93.3

~~

1.33

~~

~IN

TERN

AL~

ANA5

610E

XT20

0-23

0/60

/329

183

~~

0.33

~~

~IN

TERN

AL~

ANB5

610E

XT20

0-23

0/60

/329

183

~~

0.33

~~

~IN

TERN

AL~

ANC5

610E

XT20

0-23

0/60

/329

183

~~

0.33

~~

~IN

TERN

AL~

AND5

610E

XT20

0-23

0/60

/329

183

~~

0.33

~~

~IN

TERN

AL~

ANA5

612E

XG46

0/60

/317

.811

6~

~0.9

18~

~~

INTE

RNAL

~AN

B561

2EXG

460/

60/3

17.8

116

~~

0.918

~~

~IN

TERN

AL~

ANC5

612E

XG46

0/60

/317

.811

6~

~0.9

18~

~~

INTE

RNAL

~AN

D561

2EXG

460/

60/3

17.8

116

~~

0.918

~~

~IN

TERN

AL~

ANA5

612E

XH57

5/60

/314

.591

~~

1.61

~~

~IN

TERN

AL~

ANB5

612E

XH57

5/60

/314

.591

~~

1.61

~~

~IN

TERN

AL~

ANC5

612E

XH57

5/60

/314

.591

~~

1.61

~~

~IN

TERN

AL~

AND5

612E

XH57

5/60

/314

.591

~~

1.61

~~

~IN

TERN

AL~

ANA5

612E

XT20

0-23

0/60

/336

229

~~

0.255

~~

~IN

TERN

AL~

ANB5

612E

XT20

0-23

0/60

/336

229

~~

0.255

~~

~IN

TERN

AL~

ANC5

612E

XT20

0-23

0/60

/336

229

~~

0.255

~~

~IN

TERN

AL~

AND5

612E

XT20

0-23

0/60

/336

229

~~

0.255

~~

~IN

TERN

AL~

ANA5

614E

XG46

0/60

/320

.813

5~

~0.8

39~

~~

INTE

RNAL

~

42

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

ANB5

614E

XG46

0/60

/320

.813

5~

~0.8

39~

~~

INTE

RNAL

~AN

C561

4EXG

460/

60/3

20.8

135

~~

0.839

~~

~IN

TERN

AL~

AND5

614E

XG46

0/60

/320

.813

5~

~0.8

39~

~~

INTE

RNAL

~AN

A561

4EXH

575/

60/3

15.8

99~

~1.3

1~

~~

INTE

RNAL

~AN

B561

4EXH

575/

60/3

15.8

99~

~1.3

1~

~~

INTE

RNAL

~AN

C561

4EXH

575/

60/3

15.8

99~

~1.3

1~

~~

INTE

RNAL

~AN

D561

4EXH

575/

60/3

15.8

99~

~1.3

1~

~~

INTE

RNAL

~AN

A561

4EXT

200-

230/

60/3

4226

9~

~0.2

2~

~~

INTE

RNAL

~AN

B561

4EXT

200-

230/

60/3

4226

9~

~0.2

2~

~~

INTE

RNAL

~AN

C561

4EXT

200-

230/

60/3

4226

9~

~0.2

2~

~~

INTE

RNAL

~AN

D561

4EXT

200-

230/

60/3

4226

9~

~0.2

2~

~~

INTE

RNAL

~AV

A249

0ZXG

460/

60/3

3.638

.3~

~3.4

32~

~~

INTE

RNAL

~AV

A249

0ZXN

208-

230/

60/1

11.4

106.6

1.84

0.47

~85

PS33

0D17

85PR

440E

65K7

1-20

INTE

RNAL

~AV

A249

0ZXT

200-

230/

60/3

7.465

.1~

~1.5

8~

~~

INTE

RNAL

~AV

A251

2ZXG

460/

60/3

4.638

.3~

~3.4

32~

~~

INTE

RNAL

~AV

A251

2ZXN

208-

230/

60/1

16.9

120.3

1.67

0.419

~85

PS33

0D18

85PR

440E

65K7

1-20

INTE

RNAL

~AV

A251

2ZXT

200-

230/

60/3

9.365

.1~

~1.5

8~

~~

INTE

RNAL

~AV

A454

2EXN

208-

230/

60/1

19.7

108

2.20.6

41~

85PS

330D

1685

PR44

0F28

K71-

20IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

A553

2EXG

460/

60/3

4.35

32.8

~~

6.2~

~~

INTE

RNAL

~AV

A553

2EXN

208-

230/

60/1

14.5

782.8

30.7

75~

85PS

330D

1685

PR37

0F17

K71-

20IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

C553

2EXN

208-

230/

60/1

13.4

78.8

1.367

0.697

~85

PS33

0C23

85PR

370F

21K7

1-19

INTE

RNAL

~AV

A553

2EXT

200-

230/

60/3

8.959

.5~

~1.5

8~

~~

INTE

RNAL

~AV

A553

2EXV

265/

60/1

12.2

73.8

2.98

0.96

~85

PS33

0C23

85PR

440F

18K7

1-19

INTE

RNAL

~AV

B553

3EXH

575/

60/3

3.526

~~

10.2

~~

~IN

TERN

AL~

43

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AVB5

533E

XN20

8-23

0/60

/113

.578

.81.3

670.6

97~

85PS

330C

2385

PR37

0F21

K71-

19IN

TERN

AL~

AVD5

533E

XN20

8-23

0/60

/113

.276

1.26

0.576

~90

669-

585

PR37

0F21

~IN

TERN

ALSt

art de

vice s

pecifi

c to t

his m

odel

AVB5

533E

XT20

0-23

0/60

/38.9

65.1

~~

1.58

~~

~IN

TERN

AL~

AVA5

535E

XG46

0/60

/34.7

632

.8~

~6.2

~~

~IN

TERN

AL~

AVD5

535E

XG46

0/60

/34.4

37.5

~~

3.432

~~

~IN

TERN

AL~

AVB5

535E

XH57

5/60

/34

31~

~8.1

6~

~~

INTE

RNAL

~AV

A553

5EXN

208-

230/

60/1

15.8

882.6

90.6

28~

85PS

330D

1685

PR37

0E63

K71-

20IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

B553

5EXN

208-

230/

60/1

14.2

86.7

1.46

0.629

~85

PS33

0C23

85PR

370F

21K7

1-19

INTE

RNAL

~AV

C553

5EXN

208-

230/

60/1

14.9

86.7

1.46

0.629

~85

PS33

0C23

85PR

370F

21K7

1-19

INTE

RNAL

~AV

D553

5EXN

208-

230/

60/1

13.8

921.2

70.5

22~

9066

9-5

85PR

370F

21~

INTE

RNAL

Start

devic

e spe

cific t

o this

mod

elAV

A553

5EXT

200-

230/

60/3

9.765

.1~

~1.5

8~

~~

INTE

RNAL

~AV

B553

5EXT

200-

230/

60/3

9.265

.1~

~1.5

8~

~~

INTE

RNAL

~AV

D553

5EXT

200-

230/

60/3

8.875

~~

0.858

~~

~IN

TERN

AL~

AVA5

538E

XG46

0/60

/35.3

37.7

~~

5.18

~~

~IN

TERN

AL~

AVB5

538E

XG46

0/60

/35.3

37.7

~~

5.18

~~

~IN

TERN

AL~

AVB5

538E

XH57

5/60

/34.2

31.0

~~

8.16

~~

~IN

TERN

AL~

AVA5

538E

XN20

8-23

0/60

/117

.295

.03.3

5~

0.61

85PS

330D

1685

PR44

0F18

K71-

20IN

TERN

AL~

AVB5

538E

XN20

8-23

0/60

/115

.497

.61.6

660.5

58~

85PS

330D

1685

PR44

0E65

820A

RR3C

80IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

C553

8EXN

208-

230/

60/1

16.5

97.6

1.666

0.558

~85

PS33

0D16

85PR

440E

6582

0ARR

3C80

INTE

RNAL

Non s

elf eq

ualiz

ing ap

plica

tion

AVD5

538E

XN20

8-23

0/60

/115

.192

1.27

0.522

~90

669-

585

PR37

0F21

~IN

TERN

ALSt

art de

vice s

pecifi

c to t

his m

odel

AVA5

538E

XT20

0-23

0/60

/310

.873

.4~

~1.3

8~

~~

INTE

RNAL

~AV

B553

8EXT

200-

230/

60/3

10.3

73.4

~~

1.3~

~~

INTE

RNAL

~AV

A553

8EXV

265/

60/1

14.6

86.3

3.20.7

8~

85PS

330D

1235

/500

K71-

20IN

TERN

AL~

AVD5

540E

XG46

0/60

/35

42~

~3.0

9~

~~

INTE

RNAL

~

44

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AVD5

540E

XH57

5/60

/34

35~

~4.5

3~

~~

INTE

RNAL

~AV

D554

0EXN

208-

230/

60/1

16.16

921.2

70.5

22~

9066

9-5

85PR

370F

21~

INTE

RNAL

Start

devic

e spe

cific t

o this

mod

elAV

D554

0EXT

200-

230/

60/3

1084

~~

0.772

~~

~IN

TERN

AL~

AVA5

542E

XG46

0/60

/35.9

637

~~

5.18

~~

~IN

TERN

AL~

AVB5

542E

XG46

0/60

/35.6

537

~~

5.18

~~

~IN

TERN

AL~

AVB5

542E

XH57

5/60

/34.6

31~

~8.1

6~

~~

INTE

RNAL

~AV

A554

2EXN

208-

230/

60/1

19.7

108

2.20.6

41~

85PS

330D

1685

PR37

0E63

K71-

20IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

B554

2EXN

208-

230/

60/1

17.1

107.4

1.70.5

15~

85PS

330D

1685

PR44

0E65

820A

RR3C

80IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

C554

2EXN

208-

230/

60/1

18.3

107.4

1.70.5

15~

85PS

330D

1685

PR44

0E65

820A

RR3C

80IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

D554

2EXN

208-

230/

60/1

16.9

110

1.31

0.446

~90

669-

550

/440

~IN

TERN

ALSt

art de

vice s

pecifi

c to t

his m

odel

AVA5

542E

XT20

0-23

0/60

/312

74~

~1.3

~~

~IN

TERN

AL~

AVB5

542E

XT20

0-23

0/60

/311

.373

.4~

~1.3

~~

~IN

TERN

AL~

AVA5

542E

XV26

5/60

/116

95.2

~~

~~

~~

INTE

RNAL

~AV

D554

5EXG

460/

60/3

5.846

~~

2.86

~~

~IN

TERN

AL~

AVD5

545E

XH57

5/60

/34.6

537

~~

4.53

~~

~IN

TERN

AL~

AVD5

545E

XN20

8-23

0/60

/118

.2411

01.3

10.4

46~

9066

9-5

50/3

70~

INTE

RNAL

Start

devic

e spe

cific t

o this

mod

elAV

D554

5EXT

200-

230/

60/3

11.5

90~

~0.7

15~

~~

INTE

RNAL

~AV

A554

6EXG

460/

60/3

6.646

~~

4.36

~~

~IN

TERN

AL~

AVA5

546E

XN20

8-23

0/60

/121

.511

62.4

90.5

44~

85PS

330D

1685

PR44

0F28

K71-

20IN

TERN

AL~

AVC5

546E

XN20

8-23

0/60

/120

.411

01.7

60.4

61~

85PS

330D

1685

PR44

0E65

K71-

20IN

TERN

AL~

AVA5

546E

XT20

0-23

0/60

/313

.2892

~~

1.09

~~

~IN

TERN

AL~

AVA5

546E

XV26

5/60

/118

.2510

22.1

40.6

84~

85PS

330D

1240

/500

8227

0IN

TERN

AL~

AVD5

548E

XG46

0/60

/36.1

552

.5~

~2.3

8~

~~

INTE

RNAL

~AV

D554

8EXH

575/

60/3

544

~~

4.53

~~

~IN

TERN

AL~

45

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AVD5

548E

XN20

8-23

0/60

/119

.211

01.3

10.4

46~

9066

9-5

55/3

70~

INTE

RNAL

Start

devic

e spe

cific t

o this

mod

elAV

D554

8EXT

200-

230/

60/3

12.3

105

~~

0.595

~~

~IN

TERN

AL~

AVB5

549E

XG46

0/60

/36.7

46~

~4.2

7~

~~

INTE

RNAL

~AV

B554

9EXH

575/

60/3

5.444

~~

4.06

~~

~IN

TERN

AL~

AVB5

549E

XN20

8-23

0/60

/120

.511

01.7

60.4

61~

85PS

330D

1685

PR44

0E65

K71-

20IN

TERN

AL~

AVB5

549E

XT20

0-23

0/60

/313

.592

~~

1.09

~~

~IN

TERN

AL~

AVA5

555E

XG46

0/60

/37.8

55~

~2.8

4~

~~

INTE

RNAL

~AV

A555

5EXT

200-

230/

60/3

15.7

110

~~

0.709

~~

~IN

TERN

AL~

AVB5

558E

XG46

0/60

/37.8

55~

~2.8

36~

~~

INTE

RNAL

~AV

D555

8EXG

460/

60/3

863

~~

1.92

~~

~IN

TERN

AL~

AVB5

558E

XH57

5/60

/36.3

44~

~4.0

6~

~~

INTE

RNAL

~AV

D555

8EXH

575/

60/3

6.155

.5~

~2.9

9~

~~

INTE

RNAL

~AV

B555

8EXN

208-

230/

60/1

24.8

141

1.67

0.379

~85

PS33

0D16

85PR

440E

65K7

1-20

INTE

RNAL

Non s

elf eq

ualiz

ing ap

plica

tion

AVD5

558E

XN20

8-23

0/60

/124

123

1.15

0.378

~90

669-

570

/370

~IN

TERN

ALSt

art de

vice s

pecifi

c to t

his m

odel

AVB5

558E

XT20

0-23

0/60

/315

.711

0~

~0.7

09~

~~

INTE

RNAL

~AV

D555

8EXT

200-

230/

60/3

15.9

128

~~

0.502

~~

~IN

TERN

AL~

AVA7

524Z

XG46

0/60

/35.1

38.3

~~

3.43

~~

~IN

TERN

AL~

AVA7

524Z

XN20

8-23

0/60

/116

.710

6.61.8

40.4

7~

85PS

330D

1685

PR44

0E65

K71-

20IN

TERN

ALNo

n self

equa

lizing

appli

catio

nAV

A752

4ZXT

200-

230/

60/3

10.9

65.1

~~

1.58

~~

~IN

TERN

AL~

AVA7

528Z

XG46

0/60

/36.2

38.3

~~

3.43

~~

~IN

TERN

AL~

AVA7

528Z

XN20

8-23

0/60

/122

.212

0.31.6

70.4

2~

85PS

330D

1885

PR44

0E65

820A

RR3K

72IN

TERN

AL~

AVA7

528Z

XT20

0-23

0/60

/312

.275

~~

0.858

~~

~IN

TERN

AL~

AVA9

519Z

XG46

0/60

/34.6

37.7

~~

5.18

~~

~IN

TERN

AL~

AVA9

519Z

XN20

8-23

0/60

/114

.595

3.35

0.61

~85

PS33

0C23

85PR

440F

18K7

1-20

INTE

RNAL

~

46

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AVA9

522Z

XG46

0/60

/35.1

37~

~5.1

8~

~~

INTE

RNAL

~AV

A952

2ZXN

208-

230/

60/1

1710

82.2

0.64

~85

PS33

0D17

85PR

440E

65K7

1-20

INTE

RNAL

~AV

A952

2ZXT

200-

230/

60/3

10.3

74~

~1.3

~~

~IN

TERN

AL~

AVA9

528Z

XG46

0/60

/36.6

55~

~2.8

4~

~~

INTE

RNAL

~AV

A952

8ZXN

208-

230/

60/1

2013

21.2

50.3

38~

85PS

330D

1785

PR44

0F90

820A

RR3K

17IN

TERN

AL~

AVA9

528Z

XT20

0-23

0/60

/313

.311

0~

~0.7

1~

~~

INTE

RNAL

~AW

A244

0ZXD

208-

230/

60/1

5.13

732.1

0.88

~85

PS33

0D17

85PR

370F

17K7

1-19

INTE

RNAL

~AW

A244

0ZXG

460/

60/3

1.820

.3~

~8.7

2~

~~

INTE

RNAL

~AW

A244

0ZXT

200-

230/

60/3

3.840

.5~

~2.2

6~

~~

INTE

RNAL

~AW

A245

0ZXD

208-

230/

60/1

5.956

3.25

1.1~

85PS

330D

1685

PR37

0F23

K71-

16IN

TERN

AL~

AWA2

450Z

XT20

0-23

0/60

/34.2

40.5

~~

2.26

~~

~IN

TERN

AL~

AWA2

460Z

XD20

8-23

0/60

/18.2

862.2

20.6

5~

85PS

330D

1785

PR37

0F21

K71-

19IN

TERN

AL~

AWA2

460Z

XG46

0/60

/32.9

36~

~5.1

~~

~IN

TERN

AL~

AWA2

460Z

XT20

0-23

0/60

/35.6

63.4

~~

1.28

~~

~IN

TERN

AL~

AWA2

480Z

XN20

8-23

0/60

/18.4

73.1

2.38

0.82

~85

PS33

0D18

85PR

440F

28K7

1-19

INTE

RNAL

~AW

G451

5EXG

460/

60/3

2.425

~~

6.52

~~

~IN

TERN

AL~

AWG4

520E

XG46

0/60

/32.9

25~

~6.5

2~

~~

INTE

RNAL

~AW

G452

0EXN

208-

230/

60/1

9.352

2.72

1.32

~85

PS33

0D17

85PR

370F

20K7

1-16

INTE

RNAL

~AW

G452

4EXG

460/

60/3

3.425

~~

6.52

~~

~IN

TERN

AL~

AWG4

524E

XN20

8-23

0/60

/111

602.5

31.0

9~

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWG4

530E

XG46

0/60

/34.2

36~

~5.1

~~

~IN

TERN

AL~

AWG4

530E

XN20

8-23

0/60

/114

.490

2.09

0.73

~85

PS33

0D17

85PR

370F

21K7

1-19

INTE

RNAL

~AW

H551

3EXN

208-

230/

60/1

6.143

4.73

1.45

~85

PS33

0D17

85PR

370E

3582

765

INTE

RNAL

~AW

A551

5EXD

208-

230/

60/1

7.18

434.7

31.4

5~

85PS

330D

1785

PR37

0E35

K71-

19IN

TERN

AL~

47

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AWC5

515E

XD20

8-23

0/60

/16.4

49~

~~

85PS

330D

1785

PR37

0F17

820A

RR3C

64IN

TERN

AL~

AWG5

515E

XN20

8-23

0/60

/16.9

434.7

31.4

5~

85PS

330D

1785

PR37

0E35

820A

RR3J

44IN

TERN

AL~

AWJ5

515E

XN20

8-23

0/60

/16.9

434.7

31.4

5~

85PS

330D

1785

PR37

0E35

8276

5IN

TERN

AL~

AWG5

515E

XT20

0-23

0/60

/34.7

51~

~1.6

3~

~~

INTE

RNAL

~AW

A551

5EXV

265/

60/1

6.139

.5~

~~

85PS

330C

2385

PR44

0F22

K71-

19IN

TERN

AL~

AWC5

515E

XV26

5/60

/15.6

41~

~~

85PS

330D

1285

PR44

0F22

K71-

19IN

TERN

AL~

AWG5

515E

VA26

5/60

/16.2

396.4

91.7

8~

85PS

330D

6585

PR37

0E35

K71-

19IN

TERN

AL~

AWJ5

515E

VA26

5/60

/16.2

396.4

91.7

8~

85PS

330D

6585

PR37

0E35

K71-

19IN

TERN

AL~

AWD5

516E

XD20

8-23

0/60

/16.5

48.3

~~

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

F551

6EXN

208-

230/

60/1

6.648

.32.5

31.2

1~

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWH5

516E

XN20

8-23

0/60

/17

434.7

31.4

5~

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWZ5

516E

XN20

8-23

0/60

/17

43~

~12

.385

PS33

0D17

85PR

370E

35K7

1-17

INTE

RNAL

~AW

F551

6EVA

265/

60/1

5.841

2.81

1.79

~85

PS33

0D12

85PR

440F

2282

477

INTE

RNAL

~AW

A551

7EXD

208-

230/

60/1

7.643

~~

~85

PS33

0D65

85PR

370F

20K7

1-19

INTE

RNAL

~AW

B551

7EXD

208-

230/

60/1

7.249

~~

~85

PS33

0D65

85PR

370F

20K7

1-19

INTE

RNAL

~AW

C551

7EXD

208-

230/

60/1

6.849

~~

~85

PS33

0D17

85PR

370F

1782

0ARR

3C64

INTE

RNAL

~AW

D551

7EXD

208-

230/

60/1

7.148

.3~

~~

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWF5

517E

XN20

8-23

0/60

/16.7

48.3

2.53

1.21

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

G551

7EXN

208-

230/

60/1

7.643

3.95

1.56

~85

PS33

0D65

85PR

370F

20K7

1-19

INTE

RNAL

~AW

J551

7EXN

208-

230/

60/1

7.643

3.95

1.56

~85

PS33

0D65

85PR

370F

20K7

1-19

INTE

RNAL

~AW

A551

7EXV

265/

60/1

6.645

~~

~85

PS33

0C23

85PR

440F

22K7

1-19

INTE

RNAL

~AW

B551

7EXV

265/

60/1

6.446

.5~

~~

85PS

330C

2385

PR44

0F22

820A

RR3C

64IN

TERN

AL~

AWC5

517E

XV26

5/60

/16

41~

~~

85PS

330D

1285

PR44

0F22

K71-

19IN

TERN

AL~

AWG5

517E

VA26

5/60

/16.8

455.2

81.6

9~

85PS

330C

2385

PR44

0F22

820A

RR3G

60IN

TERN

AL~

48

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AWF5

518E

XN20

8-23

0/60

/17.1

48.3

2.53

1.21

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

F551

8EVA

265/

60/1

6.747

3.01

1.53

~85

PS33

0C23

85PR

440F

1882

464

INTE

RNAL

~AW

A551

9EXD

208-

230/

60/1

8.452

~~

~85

PS33

0D17

85PR

370F

20K7

1-19

INTE

RNAL

~AW

B551

9EXD

208-

230/

60/1

8.149

~~

~85

PS33

0D65

85PR

370F

20K7

1-19

INTE

RNAL

~AW

C551

9EXD

208-

230/

60/1

849

~~

~85

PS33

0D17

85PR

370F

1782

0ARR

3C64

INTE

RNAL

~AW

F551

9EXN

208-

230/

60/1

7.748

.32.5

31.2

1~

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWG5

519E

XN20

8-23

0/60

/18.6

522.7

21.3

2~

85PS

330D

1785

PR37

0F20

K71-

16IN

TERN

AL~

AWA5

519E

XV26

5/60

/14.3

45~

~~

85PS

330C

2385

PR44

0F22

K71-

19IN

TERN

AL~

AWB5

519E

XV26

5/60

/17.1

46.5

~~

~85

PS33

0C23

85PR

440F

2282

0ARR

3C64

INTE

RNAL

~AW

C551

9EXV

265/

60/1

7.147

~~

~85

PS33

0D12

85PR

440F

18K7

1-19

INTE

RNAL

~AW

F551

9EVA

265/

60/1

747

3.01

1.53

~85

PS33

0D12

85PR

440F

18K7

1-19

INTE

RNAL

~AW

G551

9EVA

265/

60/1

7.745

5.28

1.69

~85

PS33

0C23

85PR

440F

2282

0ARR

3G60

INTE

RNAL

~AW

G552

0EXG

460/

60/3

2.925

~~

6.52

~~

~IN

TERN

AL~

AWF5

520E

XN20

8-23

0/60

/18.3

48.3

2.53

1.21

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

G552

0EXN

208-

230/

60/1

9.352

2.72

1.32

~85

PS33

0D17

85PR

370F

20K7

1-16

INTE

RNAL

~AW

J552

0EXN

208-

230/

60/1

9.752

2.72

1.32

~85

PS33

0D17

85PR

370F

20K7

1-16

INTE

RNAL

~AW

Z552

0EXN

208-

230/

60/1

9.752

~~

15.4

85PS

330D

1585

PR37

0F17

K71-

21IN

TERN

AL~

AWG5

520E

XT20

0-23

0/60

/35.8

51~

~1.6

3~

~~

INTE

RNAL

~AW

G552

0EVA

265/

60/1

8.251

4.68

1.43

~85

PS33

0C23

85PR

440F

2282

0ARR

3G60

INTE

RNAL

~AW

F552

2EXG

460/

60/3

2.925

~~

6.52

~~

~IN

TERN

AL~

AWF5

522E

XN20

8-23

0/60

/19

602.4

80.9

8~

85PS

330D

1785

PR37

0F17

K71-

21IN

TERN

AL~

AWG5

522E

XN20

8-23

0/60

/110

.160

2.89

1.09

~85

PS33

0C23

85PR

370F

20K7

1-19

INTE

RNAL

~AW

H552

2EXN

208-

230/

60/1

1060

2.89

1.09

~85

PS33

0C23

85PR

370F

20K7

1-19

INTE

RNAL

~AW

Z552

2EXN

208-

230/

60/1

1060

~~

16.4

85PS

330C

2385

PR37

0F20

K71-

19IN

TERN

AL~

49

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AWF5

522E

XT20

0-23

0/60

/35.6

50~

~1.6

3~

~~

INTE

RNAL

~AW

F552

2EVA

265/

60/1

7.858

2.91

1.23

~85

PS33

0C23

85PR

440F

1882

0ARR

3H16

INTE

RNAL

~AW

G552

2EVA

265/

60/1

8.651

4.68

1.43

~85

PS33

0C23

85PR

440F

2282

0ARR

3G60

INTE

RNAL

~AW

J552

2EVA

265/

60/1

8.851

4.68

1.43

~85

PS33

0C23

85PR

440F

2282

0ARR

3G60

INTE

RNAL

~AW

F552

4EXG

460/

60/3

3.325

~~

6.52

~~

~IN

TERN

AL~

AWG5

524E

XG46

0/60

/33.4

25~

~6.5

2~

~~

INTE

RNAL

~AW

C552

4EXD

208-

230/

60/1

9.860

.72.4

10.9

8~

85PS

330D

17~

K71-

21IN

TERN

AL~

AWF5

524E

XN20

8-23

0/60

/19.9

560

2.44

0.974

~85

PS33

0D17

85PR

370F

1782

0ARR

3C44

INTE

RNAL

~AW

G552

4EXN

208-

230/

60/1

1160

2.53

1.09

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

J552

4EXN

208-

230/

60/1

1160

2.53

1.09

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

Z552

4EXN

208-

230/

60/1

1160

~~

19.1

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWF5

524E

XT20

0-23

0/60

/36.5

50~

~1.6

3~

~~

INTE

RNAL

~AW

G552

4EXT

200-

230/

60/3

6.750

~~

1.63

~~

~IN

TERN

AL~

AWF5

524E

VA26

5/60

/17.8

582.9

11.2

3~

85PS

330C

2385

PR44

0F18

820A

RR3H

16IN

TERN

AL~

AWG5

524E

VA26

5/60

/19.2

542.9

81.4

2~

85PS

330C

2385

PR44

0F18

820A

RR3G

70IN

TERN

AL~

AWJ5

524E

VA26

5/60

/19.5

542.9

81.4

2~

85PS

330C

2385

PR44

0F18

820A

RR3G

70IN

TERN

AL~

AWF5

526E

XN20

8-23

0/60

/110

.969

.41.6

420.8

3~

85PS

330D

1785

PR37

0F21

K71-

19IN

TERN

AL~

AWF5

528E

XG46

0/60

/33.3

36~

~5.1

~~

~IN

TERN

AL~

AWF5

528E

XN20

8-23

0/60

/111

.4269

.41.6

420.8

3~

85PS

330D

1785

PR37

0F21

K71-

19IN

TERN

AL~

AWG5

528E

XN20

8-23

0/60

/113

732.1

0.88

~85

PS33

0C23

85PR

370F

17K7

1-19

INTE

RNAL

~AW

J552

8EXN

208-

230/

60/1

1373

2.10.8

8~

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWZ5

528E

XN20

8-23

0/60

/113

73~

~22

85PS

330C

2385

PR37

0F17

K71-

19IN

TERN

AL~

AWF5

528E

XT20

0-23

0/60

/37.6

63.4

~~

1.28

~~

~IN

TERN

AL~

AWF5

528E

VA26

5/60

/110

.565

3.23

1.01

~85

PS33

0C23

85PR

440F

18K7

1-21

INTE

RNAL

~

50

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AWG5

528E

VA26

5/60

/110

.965

2.55

1.15

~85

PS33

0C23

85PR

440F

18K7

1-21

INTE

RNAL

~AW

J552

8EVA

265/

60/1

10.9

652.5

51.1

5~

85PS

330C

2385

PR44

0F18

K71-

21IN

TERN

AL~

AWF5

530E

XG46

0/60

/34.1

36~

~5.1

~~

~IN

TERN

AL~

AWF5

530E

XN20

8-23

0/60

/112

.584

1.62

0.67

~85

PS33

0D17

85PR

370F

21K7

1-19

INTE

RNAL

~AW

G553

0EXN

208-

230/

60/1

14.4

902.0

90.7

3~

85PS

330D

1785

PR37

0F21

K71-

19IN

TERN

AL~

AWZ5

530E

XN20

8-23

0/60

/113

.285

~~

2285

PS33

0D17

85PR

370F

21K7

1-19

INTE

RNAL

~AW

F553

0EXT

200-

230/

60/3

8.263

.4~

~1.2

8~

~~

INTE

RNAL

~AW

G553

0EXT

200-

230/

60/3

8.463

.4~

~1.2

8~

~~

INTE

RNAL

~AW

F553

0EVA

265/

60/1

1283

2.54

0.82

~85

PS33

0C23

85PR

440E

6582

0ARR

3G70

INTE

RNAL

~AW

G553

0EVA

265/

60/1

11.7

832.5

40.8

2~

85PS

330C

2385

PR44

0E65

820A

RR3G

70IN

TERN

AL~

AWF5

532E

XG46

0/60

/34.3

36~

~5.1

~~

~IN

TERN

AL~

AWF5

532E

XN20

8-23

0/60

/113

.484

1.62

0.67

~85

PS33

0D17

85PR

370F

21K7

1-19

INTE

RNAL

~AW

G553

2EXN

208-

230/

60/1

15.1

902.0

90.7

3~

85PS

330D

1785

PR37

0F21

K71-

19IN

TERN

AL~

AWJ5

532E

XN20

8-23

0/60

/115

.690

2.09

0.73

~85

PS33

0D17

85PR

370F

21K7

1-19

INTE

RNAL

~AW

Z553

2EXN

208-

230/

60/1

14.5

90~

~23

85PS

330D

1785

PR37

0F21

K71-

21IN

TERN

AL~

AWF5

532E

XT20

0-23

0/60

/38.6

63.4

~~

1.28

~~

~IN

TERN

AL~

AWG5

532E

XT20

0-23

0/60

/39

63.4

~~

1.28

~~

~IN

TERN

AL~

AWF5

532E

VA26

5/60

/112

832.5

40.8

2~

85PS

330C

2385

PR44

0E65

820A

RR3G

70IN

TERN

AL~

AWG5

532E

VA26

5/60

/112

.583

2.54

0.82

~85

PS33

0C23

85PR

440E

6582

0ARR

3G70

INTE

RNAL

~AW

J553

2EVA

265/

60/1

12.8

832.5

40.8

2~

85PS

330C

2385

PR44

0E65

820A

RR3G

70IN

TERN

AL~

AWF5

533E

XN20

8-23

0/60

/113

.884

1.62

0.67

~85

PS33

0D17

85PR

370F

21K7

1-19

INTE

RNAL

~AW

F553

3EVA

265/

60/1

13.2

832.5

40.8

2~

85PS

330C

2385

PR44

0E65

820A

RR3G

70IN

TERN

AL~

AWZ5

535E

XN20

8-23

0/60

/115

.496

~~

26.4

85PS

330D

1785

PR37

0F21

K71-

21IN

TERN

AL~

AWZ5

538E

XN20

8-23

0/60

/118

.311

0~

~29

.585

PS33

0D17

85PR

370F

21K7

1-21

INTE

RNAL

~

51

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AWZ5

542E

XN20

8-23

0/60

/118

.510

0~

~28

85PS

330D

1785

PR44

0E65

K71-

21IN

TERN

AL~

AWA7

490Z

XD20

8-23

0/60

/17.4

522.7

21.3

2~

85PS

330D

1685

PR37

0F20

K71-

16IN

TERN

AL~

AWA7

512Z

XD20

8-23

0/60

/19.5

573

2.10.8

8~

85PS

330D

1685

PR37

0F17

K71-

19IN

TERN

AL~

AWA7

512Z

XT20

0-23

0/60

/38.0

463

.4~

~1.2

8~

~~

INTE

RNAL

~AW

A751

5ZXD

208-

230/

60/1

12.5

96.8

3.25

0.59

~85

PS33

0D14

85PR

370F

17K7

1-20

INTE

RNAL

~AW

A751

5ZXT

200-

230/

60/3

7.763

.4~

~1.2

8~

~~

INTE

RNAL

~AW

A948

0ZXN

208-

230/

60/1

6.552

2.72

1.32

~85

PS33

0D16

85PR

370F

20K7

1-16

INTE

RNAL

~AW

A949

0ZXG

460/

60/3

2.425

~~

6.52

~~

~IN

TERN

AL~

AWA9

490Z

XN20

8-23

0/60

/17.5

522.7

21.3

2~

85PS

330D

1785

PR37

0F17

820A

RR3A

03IN

TERN

AL~

AWA9

490Z

XT20

0-23

0/60

/34.7

51~

~1.6

3~

~~

INTE

RNAL

~AW

A951

2ZXG

460/

60/3

2.820

.3~

~8.7

2~

~~

INTE

RNAL

~AW

A951

2ZXN

208-

230/

60/1

8.960

2.53

1.09

~85

PS33

0D16

85PR

370F

17K7

1-19

INTE

RNAL

~AW

A951

2ZXT

200-

230/

60/3

5.550

~~

1.63

~~

~IN

TERN

AL~

AWA9

513Z

XD20

8-23

0/60

/110

.673

2.10.8

8~

85PS

330D

1785

PR37

0F17

K71-

19IN

TERN

AL~

AWA9

514Z

XG46

0/60

/33.6

36~

~5.1

~~

~IN

TERN

AL~

AWA9

514Z

XN20

8-23

0/60

/112

902.0

90.7

3~

85PS

330D

1785

PR37

0F21

K71-

19IN

TERN

AL~

AWA9

514Z

XT20

0-23

0/60

/37.3

63.4

~~

1.28

~~

~IN

TERN

AL~

AWA9

518Z

XN20

8-23

0/60

/113

.184

1.62

0.64

~85

PS33

0D18

85PR

370F

21K7

1-19

INTE

RNAL

~AZ

A033

5YXA

115/

60/1

1.18

10.2

15.28

7.99

~~

~82

0RR1

2K80

8300

MRP

H38

Cond

ense

r Fan

Req

uired

AZA0

345A

XA11

5/60

/11.1

10.2

15.28

7.99

~~

~~

~St

atic C

onde

nser

AZA0

349Y

XA11

5/60

/11.6

13.6

14.5

4.46

~~

~82

0RR1

2C20

8300

MRP

H91

Cond

ense

r Fan

Req

uired

AZA0

360A

XA11

5/60

/11.6

13.6

14.49

4.44

~~

~~

~Co

nden

ser F

an R

equir

edAZ

A037

0YXA

115/

60/1

2.218

.512

.843.0

8~

~~

K71-

07K9

0-04

Cond

ense

r Fan

Req

uired

AZA0

374A

XA11

5/60

/11.9

16.3

13.64

3.69

~~

~~

~Co

nden

ser F

an R

equir

ed

52

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

AZA0

387A

XA11

5/60

/12.1

318

.512

.813.0

6~

~~

~~

Cond

ense

r Fan

Req

uired

AZA0

395Y

XA11

5/60

/12.9

289.7

52.3

1~

85PS

165C

96~

K71-

08K9

0-06

Cond

ense

r Fan

Req

uired

AZA0

411A

XA11

5/60

/12.9

25.3

9.73

2.29

~~

~~

~Co

nden

ser F

an R

equir

edAZ

A131

6YXA

115/

60/1

0.82

8.423

.210

.18~

~~

8240

283

00M

RPG0

4St

atic C

onde

nser

AZB1

320A

XA11

5/60

/10.8

28.4

25.3

9.91

~~

~~

~St

atic C

onde

nser

AZA1

326Y

XA11

5/60

/11

10.9

15.69

7.95

~~

~82

461

8300

MRP

G04

Stati

c Con

dens

erAZ

B132

8AXA

115/

60/1

1.04

10.9

15.42

7.95

~~

~~

~St

atic C

onde

nser

AZA1

332Y

XA11

5/60

/11.1

513

.214

.095.1

8~

~~

8246

283

00M

RPG0

5St

atic C

onde

nser

AZB1

335A

XA11

5/60

/11.2

13.2

14.09

5.18

~~

~~

~St

atic C

onde

nser

AZA1

338Y

XA11

5/60

/11.5

15.9

12.34

3.78

~~

~82

451

8300

MRP

G06

Stati

c Con

dens

erAZ

B134

0AXA

115/

60/1

1.45

15.9

14.81

3.77

~~

~~

~St

atic C

onde

nser

AZA1

350Y

XA11

5/60

/11.9

18.8

2.66

9.59

~~

~~

~St

atic C

onde

nser

AZB1

355A

XA11

5/60

/11.8

618

.89.5

92.6

6~

~~

~~

Stati

c Con

dens

erCL

5538

E20

8-23

0/60

/120

92.5

~~

~13

5-15

5/33

085

PR44

0F18

K71-

2083

0834

7A15

~CL

5540

E23

0/60

/122

92.5

~~

~13

5-15

5/33

085

PR44

0F18

K71-

2083

0834

7A15

~CL

5544

E20

8-23

0/60

/123

115

~~

~13

5-15

5/33

085

PR44

0F28

K71-

2083

0834

7A15

~CL

5544

F20

8-23

0/60

/123

115

~~

~85

PS33

0D12

85PR

440F

28K7

1-20

8308

347A

15~

CL55

50E

208-

230/

60/1

2714

0~

~~

135-

155/

330

85PR

440E

65K7

1-20

8374

9~

CL55

50G

208-

230/

60/1

2714

0~

~~

85PS

330D

1285

PR44

0E65

K71-

2083

749

~CL

5562

E20

8-23

0/60

/134

147

~~

~13

5-15

5/33

085

PR44

0E90

K71-

2083

749

~CL

5562

G20

8-23

0/60

/136

175

~~

~85

PS33

0D12

85PR

440E

90K7

1-20

8374

9~

HGA0

440E

XA11

5/60

/14.8

36.2

3.61.1

~85

PS33

0C23

85PR

240F

37K7

1-19

8300

MRA

N19

~HG

A045

0EXA

115/

60/1

6.245

.63.8

0.74

~85

PS33

0C23

85PR

240F

37K7

1-19

8300

MRA

N94

~HG

A047

0EXA

115/

60/1

10.2

58.4

40.5

8~

85PS

330C

2385

PR37

0F17

K71-

19K9

0-27

~

53

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

HGA0

470E

XD20

8-23

0/60

/14.1

27.9

5.92.3

~85

PS33

0C23

85PR

370E

35K7

1-16

8300

MRA

P09

~HG

A242

5ZXA

115/

60/1

6.02

46.5

2.64

0.79

~27

0-32

4/25

085

PR24

0F37

820A

RR3K

5083

00M

STT8

3~

HGA2

425Z

XD20

8-23

0/60

/12.9

235.9

32.9

1~

85PS

330C

2385

PR37

0E35

820A

RR3K

6383

00M

RAU0

4~

HGA2

434Z

XA11

5/60

/18.4

58.7

2.68

0.59

~27

0-32

4/25

085

PR24

0F37

820A

RR3E

3983

00M

RTT2

0~

HGA5

467E

XA11

5/60

/15.6

36.2

3.54

1.02

~85

PS33

0C23

85PR

240F

37K7

1-19

8300

MRA

N18

~HG

A546

7EXD

208-

230/

60/1

2.817

.76.5

34.0

1~

85PS

330C

2385

PR37

0E36

K71-

1683

00M

RAN9

3~

HGA5

467E

XV26

5/60

/12.4

156.7

75.2

9~

~85

PR37

0E36

~83

00M

RAP1

7~

HGA5

480E

XA11

5/60

/17

45.6

3.80.7

4~

85PS

330C

2385

PR24

0F37

K71-

19K9

0-24

~HG

A548

0EXD

208-

230/

60/1

3.522

.27.2

92.9

3~

85PS

330C

2385

PR37

0E36

K71-

1683

00M

RAK0

4~

HGA5

480E

XV26

5/60

/12.9

18.8

10.56

4.27

~~

10/4

40~

8300

MRA

P15

~HG

A548

0YXD

208-

230/

60/1

3.627

.95.9

2.3~

~85

PR37

0E35

~83

00M

STT7

8~

HGA5

492E

XA11

5/60

/17.7

45.6

3.80.7

4~

85PS

330C

2385

PR24

0F37

K71-

1983

00M

RAN9

9~

HGA5

492E

XD20

8-23

0/60

/13.7

22.2

7.29

2.93

~85

PS33

0C23

85PR

370E

36K7

1-16

8300

MRA

K04

~HG

A549

2EXV

265/

60/1

3.318

.810

.564.2

7~

~10

/440

~83

00M

RAP1

5~

HGA5

510E

XA11

5/60

/19

58.4

3.735

0.7~

85PS

330C

2385

PR37

0F17

K71-

1983

00M

RAP1

1~

HGA5

512E

XA11

5/60

/110

.258

.44.0

90.6

34~

85PS

330C

2385

PR37

0F17

K71-

1983

00M

RAP1

1~

HGA5

512E

XD20

8-23

0/60

/15

27.9

5.93

2.32

~85

PS33

0C23

85PR

370E

35K7

1-16

8300

MRA

P09

~HG

A551

2EXV

265/

60/1

4.322

.28.5

53.4

3~

~85

PR44

0F24

~83

00M

RAP1

3~

HGA9

430Y

XA11

5/60

/14.6

45.6

3.80.7

4~

85PS

330D

1585

PR37

0F17

K71-

1983

00M

RAS1

7~

HGA9

430Y

XD20

8-23

0/60

/12.1

22.2

7.35

2.95

~64

-77/

330

85PR

440F

2482

0ARR

3K63

8300

MSP

U05

~HG

A944

3YXA

115/

60/1

6.558

.44

0.58

~85

PS33

0D15

85PR

370F

17K7

1-19

8300

MRA

S17

~HG

B944

3YAA

115/

60/1

7.258

.44

0.58

~85

PS33

0D15

85PR

370F

17K7

1-19

8300

MRA

S17

~HG

A944

3YXD

208-

230/

60/1

3.127

.95.9

32.3

2~

85PS

330C

2385

PR37

0E35

820A

RR3K

6383

00M

STT8

7~

HGA9

450Z

XD20

8-23

0/60

/14.1

32.5

4.76

2.63

~85

PS33

0D15

85PR

370E

3582

0ARR

3J44

8300

MST

T84

~

54

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

HGA9

468Z

XA11

5/60

/111

.764

2.87

0.56

~27

0-32

4/25

085

PR24

0F37

820A

RR3K

34K9

0-28

~HG

A946

8ZXD

208-

230/

60/1

5.234

5.92

2.21

~85

PS33

0C23

85PR

440F

19K7

1-17

8300

MRA

T64

~RG

A545

0EXA

115/

60/1

4.430

.13.6

31.1

9~

85PS

330C

2385

PR24

0F37

K71-

19K9

0-18

Opt. P

TC S

tart d

evice

9066

9-5

RGB5

450E

XA11

5/60

/14.0

830

.72.6

81.2

4~

~85

PR24

0F37

~PU

RCH.

BRAZ

IL~

RGA5

453B

AA11

5/60

/15

36.2

3.61.0

2~

~85

PR24

0F37

~83

00M

RAN1

9~

RGA5

453B

XD20

8-23

0/60

/12.5

17.7

6.63

4.08

~~

85PR

370E

36~

8300

MSP

T59

~RG

A545

7BAA

115/

60/1

5.536

.23.6

1.02

~~

85PR

240F

37~

8300

MRA

N19

~RG

A546

0BAA

115/

60/1

5.736

.23.6

1.02

~~

85PR

240F

37~

8300

MRA

N19

~RG

A546

0BXD

208-

230/

60/1

2.817

.76.6

34.0

8~

~85

PR37

0E36

~83

00M

SPT5

9~

RGA5

460E

XA11

5/60

/15

30.1

3.63

1.19

~85

PS33

0C23

85PR

240F

37K7

1-19

K90-

18Op

t. PTC

Star

t dev

ice 90

669-

5RG

B546

0EXA

115/

60/1

4.831

.52.6

41.1

~~

85PR

240F

37~

PURC

H.BR

AZIL

~RG

A546

7CXA

115/

60/1

5.436

.23.5

41.0

2~

~85

PR24

0F37

~83

00M

RAN1

9Op

t. PTC

Star

t dev

ice 90

669-

5RG

A546

7CXD

208-

230/

60/1

2.617

.76.5

34.0

1~

~85

PR37

0E36

~83

00M

RAN9

3Op

t. PTC

Star

t dev

ice 90

669-

5RG

A546

7EXA

115/

60/1

5.736

.23.5

41.0

2~

85PS

330C

2385

PR24

0F37

K71-

1983

00M

RAN1

9Op

t. PTC

Star

t dev

ice 90

669-

5RG

A546

7EXD

208-

230/

60/1

2.76

17.7

6.53

4.01

~85

PS33

0C23

85PR

370E

36K7

1-16

8300

MRA

N93

~RG

A546

7EXV

265/

60/1

2.45

156.7

75.2

9~

85PS

330C

2385

PR37

0E36

K71-

1983

00M

RAP1

7~

RGA5

471B

AA11

5/60

/17

45.6

3.48

0.71

~~

85PR

240F

37~

8300

MRA

T66

~RG

A547

1BXD

208-

230/

60/1

3.422

.27.3

52.9

5~

~85

PR37

0E36

~83

00M

STT6

2~

RGA5

471B

XV26

5/60

/12.9

18.8

10.74

4.27

~~

10/4

40~

8300

MSP

T89

~RG

A547

2EXA

115/

60/1

6.236

.23.5

41.0

2~

85PS

330C

2385

PR24

0F37

K71-

1983

00M

RAN1

9Op

t. PTC

Star

t dev

ice 90

669-

5RG

B547

2EXA

115/

60/1

5.97

41.1

2.86

0.82

~~

85PR

240F

37~

PURC

H.BR

AZIL

~RG

A547

2EXD

208-

230/

60/1

317

.76.5

34.0

1~

85PS

330C

2385

PR37

0E36

K71-

1683

00M

RAN9

3~

RGA5

472E

XV26

5/60

/12.6

515

6.77

5.29

~85

PS33

0C23

85PR

370E

36K7

1-19

8300

MRA

P17

~RG

A547

9BAA

115/

60/1

7.645

.63.4

80.7

1~

~85

PR24

0F37

~83

00M

RAT6

6~

55

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

RGA5

479B

XD20

8-23

0/60

/13.6

22.2

7.35

2.95

~~

85PR

370E

36~

8300

MRA

T71

~RG

A548

0CXA

115/

60/1

745

.63.8

0.74

~~

85PR

240F

37~

K90-

24Op

t. PTC

Star

t dev

ice 90

669-

5RG

A548

0EXA

115/

60/1

745

.63.8

0.74

~85

PS33

0C23

85PR

240F

37K7

1-19

K90-

24Op

t. PTC

Star

t dev

ice 90

669-

5RG

A548

0EXD

208-

230/

60/1

3.522

.27.2

92.9

3~

85PS

330C

2385

PR37

0E36

K71-

1683

00M

RAK0

4Op

t. PTC

Star

t dev

ice 90

669-

5RG

A548

5BAA

115/

60/1

845

.63.4

80.7

1~

~85

PR24

0F37

~83

00M

RAT8

5~

RGA5

485B

XD20

8-23

0/60

/14

22.2

7.35

2.95

~~

85PR

440F

24~

8300

MRA

T69

~RG

A548

5EXA

115/

60/1

7.245

.63.8

0.74

~85

PS33

0C23

85PR

240F

37K7

1-19

8300

MRA

N94

Opt. P

TC S

tart d

evice

9066

9-5

RGA5

485E

XD20

8-23

0/60

/13.4

22.2

7.35

2.95

~85

PS33

0C23

85PR

370E

36K7

1-16

8300

MRA

K04

Opt. P

TC S

tart d

evice

9066

9-5

RGA5

485E

XV26

5/60

/13.1

18.8

10.56

4.27

~~

10/4

40~

8300

MRA

P16

~RG

A549

2EXA

115/

60/1

7.745

.63.8

0.74

~85

PS33

0C23

85PR

240F

37K7

1-19

8300

MRA

N99

Opt. P

TC S

tart d

evice

9066

9-5

RGB5

492E

XA11

5/60

/17.7

45.6

3.03

0.75

~~

85PR

240F

37~

8300

MRA

N99

~RG

A549

2EXD

208-

230/

60/1

3.722

.27.2

92.9

3~

85PS

330C

2385

PR37

0E36

K71-

1683

00M

RAK0

4Op

t. PTC

Star

t dev

ice 90

669-

5RG

A549

2EXV

265/

60/1

3.318

.810

.564.2

7~

~10

/440

~83

00M

RAP1

6~

RGA5

494B

AA11

5/60

/19.6

58.4

40.5

8~

~85

PR37

0F17

~83

00M

STT7

2~

RGA5

494B

XD20

8-23

0/60

/14.6

27.9

5.92.3

~~

85PR

370E

35~

8300

MST

T91

~RG

A549

4BXV

265/

60/1

3.822

.28.6

93.4

7~

~85

PR44

0F24

~83

00M

STT9

1~

RGA5

510B

AA11

5/60

/111

.863

3.89

0.54

~~

85PR

370F

17~

K90-

27~

RGA5

510B

XD20

8-23

0/60

/15.6

32.5

5.72.1

5~

~85

PR44

0F19

~83

00M

RAT7

7~

RGA5

510E

NA20

8-23

0/60

/14.4

27.9

5.93

3.32

~85

PS33

0C23

85PR

370E

35K7

1-16

8300

MRA

P10

~RG

A551

0EXA

115/

60/1

958

.43.7

350.7

~85

PS33

0C23

85PR

370F

17K7

1-19

K90-

27Op

t. PTC

Star

t dev

ice 90

669-

5RG

B551

0EXA

115/

60/1

958

.42.0

60.5

9~

~50

/370

~K9

0-27

~RG

A551

1BAA

115/

60/1

12.5

633.8

90.5

4~

~85

PR37

0F17

~K9

0-27

~RG

A551

2BAA

115/

60/1

12.7

633.4

90.5

4~

~85

PR37

0E63

~T8

0400

-78

~RG

A551

2BXD

208-

230/

60/1

5.629

5.45

2.31

~~

85PR

440F

22~

8300

MST

T80

~

56

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

RGA5

512B

XV26

5/60

/14.6

207.3

93.5

8~

~85

PR44

0F24

~83

00M

RAT9

0~

RGA5

512C

XA11

5/60

/110

.158

.44

0.58

~~

85PR

370F

17~

K90-

27Op

t. PTC

Star

t dev

ice 90

669-

5RG

A551

2CXD

208-

230/

60/1

4.727

.95.9

32.3

2~

~85

PR37

0E35

~83

00M

RAP1

0Op

t. PTC

Star

t dev

ice 90

669-

5RG

A551

2ENA

208-

230/

60/1

527

.95.9

32.3

2~

85PS

330C

2385

PR37

0E35

K71-

1683

00M

RAP1

0~

RGA5

512E

XA11

5/60

/110

.258

.44

0.58

~85

PS33

0C23

85PR

370F

17K7

1-19

K90-

27Op

t. PTC

Star

t dev

ice 90

669-

5RG

A551

2EXV

265/

60/1

4.322

.28.5

53.4

3~

~85

PR44

0F24

~83

00M

RAP1

4~

RGA5

513B

AA11

5/60

/113

.863

3.49

0.54

~~

85PR

370E

63~

T804

00-7

8~

RKA5

454Y

XA11

5/60

/15.5

39.2

5.01

0.88

~85

PS33

0D14

85PR

370E

3682

0ARR

3K58

K90-

25~

RKA5

454Y

XD20

8-23

0/60

/12.4

235.8

83.5

7~

85PS

330D

1285

PR37

0E36

8275

983

00M

RAL2

0~

RKA5

470Y

XA11

5/60

/16

48.3

4.27

0.65

~85

PS33

0C23

85PR

370F

2082

0ARR

3K57

8300

MRA

L22

~RK

A547

0YXD

208-

230/

60/1

3.227

3.97

3.03

~85

PS33

0C23

85PR

370E

3682

0ARR

3K59

K90-

17~

RKA5

480E

XA11

5/60

/16.6

39.2

5.01

0.88

~~

85PR

370F

20~

K90-

25M

ust u

se S

AK2 f

or ha

rd st

artRK

A548

0EXD

208-

230/

60/1

3.423

5.88

3.57

~~

85PR

370E

36~

8300

MRA

L20

Mus

t use

SAK

2 for

hard

start

RKA5

480E

XV26

5/60

/13.2

163.8

54.8

~~

85PR

370F

20~

8300

MRA

L21

Mus

t use

SAK

2 for

hard

start

RKA5

486Y

XA11

5/60

/17.3

48.3

4.27

0.65

~85

PS33

0C23

85PR

370F

2082

0ARR

3K47

8300

MRA

L22

~RK

A548

6YXD

208-

230/

60/1

3.627

3.97

3.03

~85

PS33

0C23

85PR

370F

20K7

1-21

K90-

17~

RKA5

490C

XD20

8-23

0/60

/13.7

204.2

33.6

5~

85PS

330D

1285

PR37

0F20

820A

RR3H

43K9

0-16

~RK

A549

0EXA

115/

60/1

7.444

3.96

0.94

~~

85PR

370F

20~

K90-

25M

ust u

se S

AK2 f

or ha

rd st

artRK

A549

0EXD

208-

230/

60/1

3.820

4.23

3.65

~~

85PR

370F

20~

K90-

16M

ust u

se S

AK2 f

or ha

rd st

artRK

A549

0EXV

265/

60/1

3.318

.63.6

14.0

1~

~85

PR37

0F20

~K9

0-12

Mus

t use

SAK

2 for

hard

start

RKA5

510C

XA11

5/60

/18.6

48.3

4.27

0.65

~~

85PR

370F

20~

8300

MRA

R96

~RK

A551

0EXA

115/

60/1

8.648

.34.2

70.6

5~

~85

PR37

0F20

~83

00M

RAL2

2M

ust u

se S

AK2 f

or ha

rd st

artRK

A551

0EXD

208-

230/

60/1

4.327

3.97

3.03

~~

85PR

370F

20~

K90-

17M

ust u

se S

AK2 f

or ha

rd st

artRK

A551

0EXV

265/

60/1

4.222

3.83

3.76

~~

85PR

370F

20~

K90-

12M

ust u

se S

AK2 f

or ha

rd st

art

57

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

RKA5

510Y

XA11

5/60

/18.4

572.9

30.5

6~

85PS

330D

1885

PR24

0F37

820A

RR3H

43IN

TERN

AL~

RKA5

510Y

XD20

8-23

0/60

/14.5

383.8

21.7

4~

85PS

330C

2385

PR37

0F20

K71-

2183

00M

STT5

2~

RKA5

512C

XD20

8-23

0/60

/14.6

26.3

3.61

2.54

~~

85PR

370F

20~

K90-

19~

RKA5

512E

XA11

5/60

/19.7

544.4

20.6

3~

85PS

330C

2385

PR37

0F20

K71-

19K9

0-27

~RK

A551

2EXD

208-

230/

60/1

4.826

.33.6

12.5

4~

85PS

330C

2385

PR37

0F20

~K9

0-19

~RK

A551

2EXV

265/

60/1

4.228

4.56

2.88

~~

85PR

440F

22~

K90-

14M

ust u

se S

AK2 f

or ha

rd st

artRK

A551

2YXA

115/

60/1

9.657

2.93

0.56

~85

PS33

0D18

85PR

240F

3782

0ARR

3H43

INTE

RNAL

~RK

A551

2YXD

208-

230/

60/1

4.938

3.82

1.74

~85

PS33

0C23

85PR

370F

20K7

1-21

K90-

24~

RKA5

513C

XA11

5/60

/111

674.0

10.5

5~

~85

PR37

0F20

~K9

0-28

~RK

A551

3CXD

208-

230/

60/1

5.229

52.3

7~

~85

PR37

0F20

~K9

0-21

~RK

A551

3EXA

115/

60/1

11.4

674.0

10.5

5~

85PS

330C

2385

PR37

0F20

K71-

19K9

0-28

~RK

B551

3EXA

115/

60/1

1154

4.42

0.63

~85

PS33

0C23

85PR

370F

23K7

1-19

K90-

28M

ust u

se S

AK2 f

or ha

rd st

artRK

G551

3EXA

115/

60/1

10.8

544.1

0.63

~85

PS33

0C23

85PR

370F

21K7

1-19

K90-

28~

RKA5

513E

XD20

8-23

0/60

/15.4

295

2.37

~85

PS33

0C23

85PR

370F

20K7

1-21

K90-

21~

RKA5

513E

XV26

5/60

/14.8

275.6

42.8

3~

~85

PR44

0F22

~83

00M

RAL2

9M

ust u

se S

AK2 f

or ha

rd st

artRK

C551

5EXA

115/

60/1

1371

3.24

0.45

~85

PS33

0C23

85PR

370E

6382

0ARR

3C24

INTE

RNAL

Mus

t use

SAK

2 for

hard

start

RKA5

515E

XD20

8-23

0/60

/16.4

383.8

21.7

4~

85PS

330C

2385

PR37

0F20

K71-

21K9

0-24

~RK

A551

5EXV

265/

60/1

5.432

4.86

2.24

~~

85PR

440F

22~

K90-

21M

ust u

se S

AK2 f

or ha

rd st

artRK

A551

8EXD

208-

230/

60/1

7.645

4.25

1.45

~85

PS33

0C23

85PR

370F

20K7

1-16

K90-

26M

ust u

se S

AK2 f

or ha

rd st

artRK

A551

8EXV

265/

60/1

6.332

4.86

2.24

~~

85PR

440F

22~

8300

MST

L34

Mus

t use

SAK

2 for

hard

start

RKGB

515E

XA11

5/60

/19

544.1

0.63

~85

PS33

0C23

85PR

370F

21K7

1-19

K90-

28~

SFAA

530Z

XG46

0/60

/36.4

48~

~2.8

1~

~~

INTE

RNAL

~SF

AA53

0ZXH

575/

60/3

4.937

~~

4.99

~~

~IN

TERN

AL~

SFAA

530Z

XN20

8-23

0/60

/122

122

2.56

0.465

~85

PS33

0D17

85PR

440F

18~

INTE

RNAL

~

58

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

SFAA

530Z

XT20

0-23

0/60

/312

.695

~~

0.703

~~

~IN

TERN

AL~

SFAA

536Z

XG46

0/60

/37.8

59.9

~~

2.29

~~

~IN

TERN

AL~

SFAA

536Z

XH57

5/60

/36.1

48.4

~~

3.59

~~

~IN

TERN

AL~

SFAA

536Z

XN20

8-23

0/60

/127

.215

51.8

0.326

~85

PS33

0D17

85PR

440E

65~

INTE

RNAL

~SF

AA53

6ZXT

200-

230/

60/3

15.4

117

~~

0.572

~~

~IN

TERN

AL~

SFAA

540Z

XG46

0/60

/38.6

66~

~1.9

5~

~~

INTE

RNAL

~SF

AA54

0ZXH

575/

60/3

754

~~

3.056

~~

~IN

TERN

AL~

SFAA

540Z

XT20

0-23

0/60

/317

.113

4~

~0.4

93~

~~

INTE

RNAL

~SF

A555

4EXG

460/

60/3

760

~~

2.29

~~

~IN

TERN

AL~

SFA5

554E

XH57

5/60

/35.7

48.4

~~

3.59

~~

~IN

TERN

AL~

SFA5

554E

XN20

8-23

0/60

/122

.515

51.8

0.326

~85

PS33

0D17

85PR

440E

65~

INTE

RNAL

~SF

A555

4EXT

200-

230/

60/3

14.3

108

~~

0.589

~~

~IN

TERN

AL~

SFA5

558E

XG46

0/60

/37.6

566

~~

1.952

~~

~IN

TERN

AL~

SFA5

558E

XH57

5/60

/36.1

54~

~3.0

56~

~~

INTE

RNAL

~SF

A555

8EXN

208-

230/

60/1

24.4

160

1.47

0.285

~85

PS33

0D17

85PR

440E

90~

INTE

RNAL

~SF

A555

8EXT

200-

230/

60/3

1512

5~

~0.4

93~

~~

INTE

RNAL

~SF

A556

0EXG

460/

60/3

7.75

66~

~1.9

52~

~~

INTE

RNAL

~SF

A556

0EXH

575/

60/3

6.454

~~

3.056

~~

~IN

TERN

AL~

SFA5

560E

XN20

8-23

0/60

/125

.216

01.4

70.2

85~

85PS

330D

1785

PR44

0E90

~IN

TERN

AL~

SFA5

560E

XT20

0-23

0/60

/315

.712

5~

~0.4

93~

~~

INTE

RNAL

~SF

A557

2EXG

460/

60/3

9.572

~~

1.9~

~~

INTE

RNAL

~SF

A557

2EXH

575/

60/3

7.658

~~

2.92

~~

~IN

TERN

AL~

SFA5

572E

XT20

0-23

0/60

/319

142

~~

0.488

~~

~IN

TERN

AL~

SFA5

581E

XG46

0/60

/310

.575

.9~

~1.8

2~

~~

INTE

RNAL

~

59

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

SFA5

581E

XT20

0-23

0/60

/321

151

~~

0.453

~~

~IN

TERN

AL~

SFA5

594E

XG46

0/60

/312

.489

~~

1.48

~~

~IN

TERN

AL~

SFA5

594E

XH57

5/60

/310

.478

.4~

~1.9

9~

~~

INTE

RNAL

~SF

A559

4EXT

200-

230/

60/3

2518

5~

~0.3

72~

~~

INTE

RNAL

~SF

A561

1EXG

460/

60/3

14.4

104

~~

1.21

~~

~IN

TERN

AL~

SFA5

611E

XH57

5/60

/311

.478

.4~

~1.9

9~

~~

INTE

RNAL

~SF

A561

1EXT

200-

230/

60/3

28.3

205

~~

0.309

~~

~IN

TERN

AL~

SFA5

612E

XG46

0/60

/317

119

~~

1.03

~~

~IN

TERN

AL~

SFA5

612E

XH57

5/60

/315

.211

1~

~1.4

3~

~~

INTE

RNAL

~SF

A561

2EXT

200-

230/

60/3

34.5

239

~~

0.258

~~

~IN

TERN

AL~

SFA5

615E

XG46

0/60

/320

.713

5~

~0.9

4~

~~

INTE

RNAL

~SF

A561

5EXH

575/

60/3

17.2

111

~~

1.43

~~

~IN

TERN

AL~

SFA5

615E

XT20

0-23

0/60

/341

269

~~

0.239

~~

~IN

TERN

AL~

THA0

412Y

XA11

5/60

/13.3

527

.510

.211.9

6~

~~

8200

8EAH

0583

00T5

7T79

~TH

A041

4YXA

115/

60/1

433

7.33

1.7~

~~

8200

8EAH

0583

004T

MT4

0~

THA1

340Y

XA11

5/60

/10.9

616

.49.2

3.77

~~

10/2

20K7

1-23

8300

4TM

J89

~TH

G134

0YXA

115/

60/1

0.98

16.4

9.16

~~

~~

K71-

2383

004T

MJ8

9~

THB1

355Y

XA11

5/60

/12.1

522

.26.6

2.59

~~

~82

008E

AH05

8300

4TM

S11

~TH

G137

4YXA

115/

60/1

1.55

218.5

12.6

9~

~12

/250

8200

8EAG

74PU

R.BR

AZIL

~TP

A041

3YXA

115/

60/1

3.830

9.12

1.63

~85

PS11

0C91

~K7

1-08

8300

MRP

S30

~TP

A041

3YXD

208-

230/

60/1

2.219

.230

.064.8

4~

53-6

4/22

0~

8276

783

00M

RAS4

3~

TPA0

415Y

XA11

5/60

/14

309.1

21.6

3~

85PS

110C

91~

K71-

0883

00M

RPS4

4~

TPA0

415Y

XD20

8-23

0/60

/12.3

19.2

30.06

4.84

~53

-64/

220

~82

767

8300

MRA

S43

~TP

A042

1YXA

115/

60/1

5.537

.59.0

61.3

7~

~~

~83

00M

RAR8

8~

60

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

TPA0

421Y

XD20

8-23

0/60

/13.4

25.5

16.83

4.21

~~

~RP

5610

8300

MRP

R89

~TP

A042

3YXA

115/

60/1

6.142

.510

.620.9

87~

~~

8200

EMBK

2183

00M

RTT0

7~

TPA1

370Y

XA11

5/60

/11.2

21.3

4.27

2.58

~~

85PR

220F

12K7

1-23

K90-

05~

TPB1

370Y

XA11

5/60

/12.1

23.5

10.19

2.31

~~

~K7

1-23

K90-

05~

TPE1

370Y

XA11

5/60

/11.1

519

.54.4

92.7

9~

~85

PR22

0F12

K71-

23K9

0-05

~TP

A138

0YXA

115/

60/1

1.421

.34.2

72.5

8~

~85

PR22

0F12

K71-

23K9

0-05

Cond

ense

r Fan

Req

uired

TPD1

380Y

XA11

5/60

/11.4

21.3

4.27

2.58

~~

85PR

220F

12K7

1-23

K90-

05~

TPE1

380Y

XA11

5/60

/11.3

519

.54.4

92.7

9~

~85

PR22

0F12

K71-

23K9

0-05

~TP

G138

0YXA

115/

60/1

1.34

194.2

83.3

3~

~~

~~

~TP

A139

0YXA

115/

60/1

1.621

.34.2

72.5

8~

~85

PR22

0F12

K71-

23K9

0-05

Cond

ense

r Fan

Req

uired

TPB1

390Y

XA11

5/60

/12.7

25.5

8.73

1.88

~~

~K7

1-23

8300

4TM

R17

~TP

E139

0YXA

115/

60/1

1.519

.54.4

92.7

9~

~85

PR22

0F12

K71-

23K9

0-05

~TP

G139

0YXA

115/

60/1

1.44

194.2

83.3

3~

~~

~~

~TP

A141

0YXA

115/

60/1

1.821

.34.2

72.5

8~

~85

PR22

0F12

K71-

23K9

0-05

Cond

ense

r Fan

Req

uired

TPA1

410Y

XD20

8-23

0/60

/11.0

915

.819

.196.0

8~

~85

PR37

0E36

8200

8EAJ

5483

004T

MP6

7~

TPA1

413Y

XA11

5/60

/12.3

20.5

3.95

1.77

~~

85PR

220F

12K7

1-23

8300

4TM

P65

~TP

A941

5YXA

115/

60/1

3.926

.54.4

81.9

2~

85PS

110C

92~

820R

R12L

0283

00M

RAT2

2~

TPB9

415Y

AA11

5/60

/13.7

264.6

81.5

8~

85PS

165C

27~

820R

R12K

9983

00M

RAT2

2~

TPA9

415Y

XD20

8-23

0/60

/12

15.5

16.58

5.72

~88

-108

/165

~82

448

8300

MRA

T26

~TP

A941

7YXA

115/

60/1

534

7.93

1.2~

85PS

110C

76~

K71-

1083

00M

RTT3

0~

TPA9

419Y

XA11

5/60

/16.2

405.9

0.97

~85

PS16

5C96

~K7

1-06

K90-

14~

TPA9

421Y

XA11

5/60

/16.4

405.9

0.97

~85

PS16

5C96

~K7

1-06

K90-

14~

TPA9

421Y

XD20

8-23

0/60

/13.3

21.2

13.94

4.26

~88

-108

/220

~82

0RR1

2K99

8300

MRP

R89

~TP

A942

3YXA

115/

60/1

6.944

.54.7

70.8

6~

216-

259/

220

~K7

1-06

K90-

17~

61

Mod

elVo

lts/H

z/Ph

RLA

LRA

Win

ding

Res

ista

nce

Star

t Cap

P/N

Run C

ap P

/NRe

lay

Over

load

Rem

arks

Star

tRu

nLi

ne to

Li

neor

MFD

/Vol

tor

MFD

/Vol

t

TPB9

423Y

AA11

5/60

/16.6

44.5

5.08

0.85

~85

PS22

0D57

~82

0RR1

2J61

K90-

17No

n self

equa

lizing

appli

catio

nTP

A942

3YXD

208-

230/

60/1

3.624

15.35

3.29

~85

PS25

0D09

~82

0RR1

2L04

8300

MRA

T74

~VS

A949

0ZXT

200-

230/

60/3

5.240

.5~

~2.3

3~

~~

INTE

RNAL

~VS

A951

4ZNA

208-

230/

60/1

10.3

831.8

60.6

48~

85PS

330C

2385

PR37

0F21

820A

RR3K

62IN

TERN

AL~

VSA9

514Z

XT20

0-23

0/60

/37.1

48.5

~~

1.85

~~

~IN

TERN

AL~

VSA9

517Z

NA20

8-23

0/60

/112

831.8

60.6

48~

85PS

330C

2385

PR37

0F21

820A

RR3K

62IN

TERN

AL~

VSA9

517Z

XT20

0-23

0/60

/38.2

77.5

~~

1.32

~~

~IN

TERN

AL~

VSA9

521Z

XT20

0-23

0/60

/39.7

580

~~

1.07

~~

~IN

TERN

AL~

VSA9

524Z

TB20

0-23

0/60

/312

.610

4~

~0.8

24~

~~

INTE

RNAL

~VS

A952

8ZXT

200-

230/

60/3

12.2

96~

~0.6

89~

~~

INTE

RNAL

~VS

A953

6ZXT

200-

230/

60/3

15.9

153

~~

0.441

~~

~IN

TERN

AL~

VSA9

544Z

XT20

0-23

0/60

/319

.115

6~

~0.3

75~

~~

INTE

RNAL

~

62

Introduction to Electrical Drawings

1. The drawings which follow cover both current production and obsolete compressor models.

2. For ease in determination of the proper drawing, indexes are provided.

3. Each drawing has a descriptive title, a representative compressor photograph.

4. The following general points should be considered:

A. All notations are important and must be heeded.

B. All ESP relays must be mounted as shown in the drawings or, in the case of remote installations, exactly as was the original.

C. The two terminal overloads shown in the drawings are typical examples. ESP overloads may be provided with terminals at #1 and #3 or #1 and #2 or may have factory applied leads or straps. Regardless, as long as they are wired as shown in the drawings, the circuit will be correct.

D. Fan motor leads, if not originally connected elsewhere in the equipment, are always connected to line terminals.

63

Page Model Description

64 AE RSIR and CSIR with current relay

65 AE PSC or CSR with potential relay

66 AG PSC or CSR with potential relay

67 AH CSIR with current relay

68 AH PSC or CSR with potential relay

69 AJ CSIR with current relay

71 AJ PSC or CSR with potential relay

72 AK CSIR with current relay

73 AK PSC or CSR with potential relay

74 AV PSC or CSR with potential relay

75 AW PSC or CSR with potential relay

76 AZ RSIR or CSIR with current relay

77 RG, RK PSC or CSR with potential relay

78 SF PSC or CSR with potential relay

79 TP PTCS/CR

80 AB PSC or CSR with potential relay

81 CL PSC or CSR with potential relay (internal overload models)

82 CL PSC or CSR with potential relay (internal thermostat models)

83 CL 3 Phase (internal thermostat models)

64

AE Models

Representative photo onlyMany variations possible

Compressor Terminal Fence2

1Relay - Current (push on)

Jump Wire

Overload 1 3S R

C

(RSIR)

(CSIR)

211 3

S R

C

Compressor Terminal Fence

Relay - Current (push on)

Start Capacitor

Overload

115V Only - Neutral

115V Only - Neutral

65

AE Models

Representative photo onlyMany variations possible Compressor

Terminal Fence

Run Capacitor

Overload

(PSC)

13

S RC

NOTE: Wire to relay as shownregardless of terminal location.

13

S RC

1

26

5

4

Overload

Compressor Terminal Fence

Relay - Potential StartCapacitor

RunCapacitor

(CSR)

115V Only - Neutral

115V Only - Neutral

66

AG Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

(PSC)

Crankcase Heater must be connected to line side of contactor.

Crankcase HeaterRun Capacitor

C S

R

LLT1

T2

C S

R

LL

Crankcase Heater

Compressor Terminal Fence

2

1

65

4

Relay - Potential Start Capacitor

Run Capacitor

(CSR)

Crankcase Heater must be connected to line side of contactor.

67

AH Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

Relay - Current (remote mount with bracket)

Start Capacitor

(CSIR)

C RS

1M

2

S L

68

AH Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence C

Relay - PotentialStart

Capacitor

Run Capacitor

(PSC)

(CSR)

S R

1265

4

Compressor Terminal Fence

Run Capacitor

CSR

69

AJ Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

C

Relay - Current (remote mount)

Start Capacitor

RS

1

3

1 2

M

SL

(CSIR)

115V Only - Neutral

Overload

70

AJ Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal FenceR

CS

1 3

Overload

Relay – Potential Start Capacitor

2

1

65

4

(CSIR)

115V Only - Neutral

71

AJ Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

Overload

Run Capacitor

C RS

1 3

(PSC)

Compressor Terminal Fence

Overload

(CSR)

C RS

1 3

Relay - PotentialStart

Capacitor

Run Capacitor

1265

4

115V Only - Neutral

115V Only - Neutral

72

AK Models

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

OverloadC RS

1 3

1 2M

SL

Relay – Current (remote mount)

Start Capacitor

(CSIR)

Representative photo onlyMany variations possible

115V Only - Neutral

73

AK Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

Overload

C R

S

1

3

Run Capacitor(PSC)

(CSR)

C RS

13

6

125

4

Compressor Terminal Fence

Overload

Run CapacitorStart

CapacitorRelay – Potential

115V Only - Neutral

115V Only - Neutral

74

AV Models

Representative photo onlyMany variations possible

Compressor Terminal Fence

C

R

S

(PSC)

L1

L2T1

T2

Run Capacitor

Crankcase Heater

Crankcase Heater must be connected to line side of contactor.

Crankcase Heater must be connected to line side of contactor.

Compressor Terminal Fence

C

RS

L1

L2

T1

T2

1

265

4

Run Capacitor

Crankcase Heater

Start Capacitor(CSR)

Relay – Potential

75

NOTE: Wire to relay as shownregardless of terminal location.

AW Models

Compressor Terminal Fence

C

RS

(PSC)Run Capacitor

Compressor Terminal Fence

CR

S

1265

4

Run Capacitor

Start Capacitor

Relay – Potential

(CSR)

Representative photo onlyMany variations possible

76

AZ Models

Compressor Terminal Fence

CRS

1 31

2

JumperWire

Relay – Current (Push On)

Overload

(RSIR)

Compressor Terminal Fence

CRS

1 31

2

Relay – Current (Push On)

Overload

Start Capacitor(CSIR)

Representative photo onlyMany variations possible

115V Only - Neutral

115V Only - Neutral

77

NOTE: Wire to relay as shownregardless of terminal location.

RG and RK Models

Compressor Terminal Fence

Overload

CRS

13

Run Capacitor

(PSC)

CRS

13

Run Capacitor

Start Capacitor

Compressor Terminal Fence

Overload

Relay –Potential

1265

4

(CSR)

115V Only - Neutral

115V Only - Neutral

Representative photos onlyMany variations possible

78

NOTE: Wire to relay as shownregardless of terminal location.

SF Models

Compressor Terminal Fence

C

RS

(PSC) Run Capacitor

Compressor Terminal Fence

CR

S

1265

4

Run Capacitor

Start Capacitor

Relay – Potential

(CSR)

79

TP Models

4 T M Overload

115 Volt Only – Neutral

Run Capacitor

Relay – PTC (push-on)

C

S

R

(PTCS-CR)

80

Compressor Terminal Fence

C

RS

(PSC)Run Capacitor

Compressor Terminal Fence

CR

S

1265

4

Run Capacitor

Start Capacitor

Relay – Potential

(CSR)

AB Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

81

CL Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

12

6

5

4Run

Capacitor

Start Capacitor

Relay – Potential

(CSR)

Compressor Terminal Fence

C

R

S

Run Capacitor(PSC)

Equipped with Internal Overload

CR

S

Capacitor Box Ass’y(if used)

Equipped with Internal Overload

82

CL Models

Representative photo onlyMany variations possible

NOTE: Wire to relay as shownregardless of terminal location.

Compressor Terminal Fence

1 23

C

4Internal Thermostat

Run Capacitor

To Control Circuit

(PSC)

Supplementary Overload

RS

Compressor Terminal Fence

12 3

C

4Internal Thermostat

Run Capacitor

To Control Circuit

(CSR)

Supplementary Overload

RS

12

6 5

4

Start Capacitor

Relay – Potential

83

CL Models

Representative photo onlyMany variations possible

12

34

300V Max - 125V Max

To Control Circuit

1 2

3

4

L1 L2

L3

Internal Thermostat

Supplementary Overload

Compressor Terminal Fence

Supplementary Overload

(3 Phase)

84

Complaint

Compressor willnot start - nohum

A 1. 2. 3. 4. 5. 6.

Line disconnect open.Fuse removed or blown.Overload protector tripped.Control stuck in open position.Control off due to cold location.Wiring improper or loose.

Possible Cause

1. 2. 3. 4. 5. 6.

Close start or disconnect switch.Replace fuse.Refer to electrical section.Repair or replace control.Relocate control.Check wiring against diagram.

Repair

Compressor willnot start - humsbut trips onoverloadprotector

B 1. 2. 3. 4.

5.

6.

7.

Improperly wired.Low voltage to unit.Starting capacitor defective.Relay failing to close.

Compressor motor has awinding open or shorted.Internal mechanical troublein compressor.Liquid refrigerant in compressor.

1. 2. 3. 4.

5.

6.

7.

Check wiring against diagram.Determine reason and correct.Determine reason and replace.Determine reason and correct,replace if necessary.Replace compressor.

Replace compressor.

Replace compressor.

Compressorstarts, but doesnot switch offof start winding

C 1. 2. 3.

4.

5.

6.

7.

Improperly wired.Low voltage to unit.Relay failing to open.

Run capacitor defective.

Excessively high dischargepressure.

Compressor motor has awinding open or shorted.Internal mechanical trouble incompressor (tight).

1. 2. 3.

4.

5.

6.

7.

Check wiring against diagram.Determine reason and correct.Determine reason and correct,replace if necessary.Determine reason and replace.

Check discharge shut-off valve,possible overcharge, or in-sufficient cooling on condenser.Replace compressor.

Replace compressor.

Compressorstarts and runs,but short cycleson overloadprotector

D 1.

2.

3.

4. 5.

6.

7.

8.

Additional current passingthrough overload protector.

Low voltage to unit (or un-balanced if three phase).

Overload protector defective.

Run capacitor defective.Excessive discharge pressure.

Suction pressure too high.

Compressor too hot - returngas hot.Compressor motor has awinding shorted.

1.

2.

3.

4. 5.

6.

7.

8.

Check wiring diagram. Checkfor added fan motors, pumps,etc., connected to wrong sideof protector.

Determine reason and correct.

Check current, replaceprotector.Determine reason and replace.Check ventilation, restrictions incooling medium, restrictions inrefrigeration system.Check for possibility of mis-application. Use stronger unit.Check refrigerant charge (fixleak), add if necessary.Replace compressor.

Trouble Shooting and Service Chart

85

Complaint

Unit operateslong orcontinuously

F 1. 2.

3.

4.

5. 6.

7. 8.

Shortage of refrigerant.Control contacts stuck orfrozen closed.Refrigerated or air conditionedspace has excessive load orpoor insulation.System inadequate to handleload.Evaporator coil iced.Restriction(s) inrefrigeration system.Dirty condenser.Filter dirty.

Possible Cause

1. 2.

3.

4.

5. 6.

7. 8.

Fix leak, add charge.Clean contacts or replacecontrol.Determine fault and correct.

Replace with larger system.

Defrost.Determine location andremove.Clean condenser.Clean or replace.

Repair

Start capacitoropen, shorted,or blown

G 1.

2.

3.

4.

Relay contacts not operatingproperly.

Prolonged operation on startcycle due to:a - Low voltage to unitb - Improper relayc - Starting load too high

Excessive short cycling.

Improper capacitor.

1.

2.

3.

4.

Clean contacts or replace relayif necessary.

a - Determine reason and correctb - Replacec - Correct by using pump downarrangement if necessary

Determine reason for short-cycle(E above) and correct.

Determine reason and correct.

Unit runs OK,but shortcycles on

E 1. 2. 3.

4.

Overload protector.Thermostat.High pressure cut-out due to:a - Insufficient air/water supply

b - Overchargec - Air in systemLow pressure cut-out due to:a - Liquid line solenoid leakingb - Compressor valve leakc - Undercharged - Restriction in expansion device

1. 2. 3.

4.

See D on previous page.Differential set too close-widen.

a -Check air/water supply tocondenser - correct.b - Reduce refrigerant chargec -Purge

a - Replaceb - Replacec - Fix leak, add refrigerantd - Replace device

Run capacitoropen, shorted,or blown

H 1.2.

Improper capacitor.Excessively high line voltage(110% of rated-max).

1. 2.

Determine correct size and replace.Determine reason and correct.

Trouble Shooting and Service Chart

86

Complaint

Conditioned space temperaturetoo high

J 1. 2. 3.4.

Control setting too high.Expansion valve too small.Cooling coils too small.Inadequate air circulation.

Possible Cause

1. 2. 3.4.

Reset control.Use larger valve.Add surface area or replace.Improve air movement.

Repair

Suction linefrosted orsweating

K 1.

2.

3.4.

Expansion valve passing excessrefrigerant or is oversized.Expansion valve stuck open.

Evaporator fan not running.Overcharge of refrigerant.

1.

2.

3. 4.

Adjust valve or replace withsmaller valve.Clean valve or foreign particles,replace if necessary.Determine reason and correct.Correct charge.

Relay defectiveor burned outI 1.

2.

3. 4.

5.

6.

Incorrect relay.Incorrect mounting angle.

Line voltage too high or too low.Excessive short cycling.

Relay being influenced by loose mounting.Incorrect run capacitor.

1. 2.

3. 4.

5.

6.

Check and replace.Remount relay in correctposition.Determine reason and correct.Determine reason (See E onprevious page) and correct.Remount rigidly.

Replace with proper capacitor.

Liquid linefrosted orsweating

L 1.

2.

Restriction in filter-drier orstrainer.Liquid shut-off (king-valve)partially closed.

1.

2.

Replace part.

Open valve fully.

Unit noisyM 1.2. 3. 4.

Loose parts or mounting.Tubing rattle.Bent fan blade causing vibration.Fan motor bearings worn.

1. 2. 3. 4.

Find and tighten.Reform to be free of contact.Replace blade.Replace motor.

Trouble Shooting and Service Chart

Tecumseh Products Company 1136 Oak Valley Drive Ann Arbor, MI 48108800.211.3427 | 734.585.9500www.tecumseh.com

©2011 Tecumseh Products Company. All rights reserved.

REV 11/11

35422

Publication No. AF110

When it comes to compressors...

Think Safety!Be alert for sounds of arcing (sizzling, sputtering or popping) inside the compressor. IMMEDIATELY GET AWAY if you hear these sounds.

Disconnect ALL electrical power before removing the protective thermal cover.

Never energize the system unless:

• theprotectiveterminalcoverissecurelyfastenedand• thecompressorisproperlyconnectedtoground

Never reset a breaker or replace a fuse without first checking for a ground fault (also known as a short circuit to ground).