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).