Trane Pkgp Prc003 En Users Manual September 2004 Packaged Heat Pumps

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Packaged Heat Pumps

Precedent™

3-10 Tons - 60 Hz

PKGP-PRC003-EN

September 2004

© 2004 American Standard Inc. All Rights Reserved PKGP-PRC003-EN

Introduction

Packaged Rooftop

Air Conditioners

Through the years, Trane has designed

and developed the most complete line of

Packaged Rooftop products available in

the market today. Trane was the first to

introduce the Micro—microelectronic unit

controls—and has continued to improve

and revolutionalize this design concept.

The ReliaTel control platform offers the

same great features and functionality as

the original Micro, with additional benefits

for greater application flexibility.

With its sleek compact cabinet, rounded

corners and beveled top Precedent

continues to provide the highest

standards in quality and reliability,

comfort, ease of service, and the

performance of Trane light commercial

products.

Trane customers demand products that

provide exceptional reliability, meet

stringent performance requirements,

and are competitively priced. Trane

delivers with Precedent.

Precedent features cutting edge

technologies: reliable compressors,

Trane engineered ReliaTel controls,

computer-aided run testing, and

Integrated Comfort™ Systems. So,

whether you’re the contractor, the

engineer, or the owner you can be

certain Precedent Products are built to

meet your needs.

It’s Hard To Stop A Trane.®

PKGP-PRC003-EN 3

Contents

Introduction

Features and Benefits

Application Considerations

Selection Procedure

Model Number Description

General Data

Performance Data

Cooling Performance

Fan Performance

Heat Performance

Controls

Electric Power

Dimension and Weights

Mechanical Specifications

2

4

11

12

13

14

17

17

20

29

37

38

45

53

4PKGP-PRC003-EN

Factory Installed Options

• Black Epoxy Pre-Coated Coils

• High Pressure Cutout

• Hinged Access Doors

• Phase Monitor

• Powered or Unpowered Convenience

Outlet

• Supply and/or Return Air Smoke

Detector

• Through the Base Electrical Access

• Through the Base Electrical With Circuit

Breaker

• Through the Base Electrical With

Disconnect Switch

• Two-Inch Pleated Filters

Factory or Field Installed Options

•Clogged Filter/Fan Failure Switch

•Differential Pressure Switches

•Discharge Air Sensing Kit

•Economizer

•Electric Heaters

•Frostat

•LonTalk® Communications Interface

•Oversized Motors

•Reference or Comparative Enthalpy

•Tool-less Hail Guards

•Trane Communications Interface (TCI)

Field Installed Options

•CO2 Sensing

•Digital Display Zone Sensor

•Dual Thermistor Remote Zone Sensor

•High Static Drive

•Manual Outside Air Damper

•Motorized Outside Air Dampers

•Powered Exhaust

•Remote Potentiometer

•Roof Curb

•Thermostat

•Ventilation Override Accessory

•Zone Sensor

Features and

Benefits

PKGP-PRC003-EN 5

Easy to Install, Service and

Maintain

Because today’s owners are very cost-

conscious when it comes to service and

maintenance, the Trane Precedent was

designed with direct input from service

contractors. This valuable information

helped to design a product that would get

the serviceman off the job quicker and

save the owner money. Precedent does

this by offering:

Quality and Reliability

ReliaTel™ Controls (LCI-R)

ReliaTel controls provide unit control for

heating, cooling and ventilating utilizing

input from sensors that measure outdoor

and indoor temperature.

Quality and Reliability are enhanced

through ReliaTel control and logic:

—prevents the unit from short cycling,

considerably improving

compressor life.

—ensures that the compressor will run

for a specific amount of time which

allows oil to return for better

lubrication, enhancing the reliability of

the compressor.

Precedent with ReliaTel reduces the

number of components required to

operate the unit, thereby reducing

possibilities for component failure.

ReliaTel Makes Installing and

Servicing Easy

ReliaTel eliminates the need for field

installed anti-shortcycle timer and time

delay relays. ReliaTel controls provide

these functions as an integral part of the

unit. The contractor no longer has to

purchase these controls as options and

pay to install them.

The wiring of the low voltage connections

to the unit and the zone sensors is as

easy as 1-1, 2-2, and 3-3. This simplified

system makes wiring easier for the

installer.

ReliaTel Makes Testing Easy

ReliaTel requires no special tools to run

the Precedent unit through its paces.

Simply place a jumper between Test 1

and Test 2 terminals on the Low Voltage

Terminal Board and the unit will walk

through its operational steps

automatically.

— The unit automatically returns

control to the zone sensor after

stepping through the test mode a

single time, even if the jumper is

left on the unit.

As long as the unit has power and the

“system on” LED is lit, ReliaTel is

operational. The light indicates that the

controls are functioning properly.

ReliaTel features expanded diagnostic

capabilities when utilized with Trane

Integrated Comfort™ Systems.

Some zone sensor options have central

control panel lights which indicate the

mode the unit is in and possible

diagnostic information (dirty filters for

example).

Other ReliaTel Benefits

The ReliaTel built-in anti-shortcycle timer,

time delay relay and minimum “on” time

control functions are factory tested to

assure proper operation.

ReliaTel softens electrical “spikes” by

staging on fans, compressors and

heaters.

Intelligent Fallback is a benefit to the

building occupant. If a component goes

astray, the unit will continue to operate at

predetermined temperature setpoint.

Intelligent Anticipation is a standard

ReliaTel feature. It functions continuously

as ReliaTel and zone sensor(s) work

together in harmony to provide much

tighter comfort control than conventional

electro-mechanical thermostats.

The same ReliaTel Board fits all

Precedent Packaged Gas/Electrics,

Cooling with Electric Heat, and Heat

Pump models. This provides

standardization of parts for contractors.

Less money is tied up in inventory with

ReliaTel.

ReliaTel™

Features and

Benefits

6PKGP-PRC003-EN

Features and

Benefits

Black Epoxy Pre-Coated Coils

The pre-coated coils are an economical

option for protection in mildly corrosive

environments.

Cabinet Integrity

For added water integrity, Precedent has

a raised 11/8" lip around the supply and

return of the downflow units to prevent

water from blowing into the ductwork.

Clogged Filter/Fan Failure Switch

A dedicated differential pressure switch is

available to achieve active fan failure

indication and/or clogged filter indication.

These sensors allow a zone sensor

service light or Integrated Comfort

System to indicate a dirty filter or a fan

that’s not working. The field installation

charges for these valuable feedback

devices often eliminate them from

consideration. Factory installation can

make such features a good investment.

CO2 Sensing

The CO2 sensor has the ability to monitor

space occupancy levels within the

building by measuring the parts per

million of CO2 (Carbon Dioxide) in the air.

As the CO2 levels increase, the outside air

damper modulates to meet the CO2

space ventilation requirements. The CO2

sensor kit is available as a field installed

accessory.

Colored And Numbered Wiring

Save time and money tracing wires and

diagnosing the unit.

Outstanding Standard and

Optional Components

Compressors

Precedent contains the best compressor

technology available to achieve the

highest possible performance. Our

compressor line includes reciprocating

and scrolls.

Condenser Coil

Precedent boasts a patent-pending

1+1+1 condenser coil, permanently

gapped for easy cleaning.

Digital Display Zone Sensor

The Digital LCD (Liquid Crystal Display)

zone sensor has the look and functionality

of standard zone sensors. This sensor

should be utilized with ReliaTel™ controls.

Discharge Air Sensing Kit

Provides true discharge air sensing in

heating models. The kit is functional only

with the ReliaTel Options Module.

Downflow And Horizontal Economizers

The economizers come with three control

options — dry bulb is standard, enthalpy

and differential enthalpy are optional.

Dual Thermistor Remote Zone Sensor

This sensor will reduce the total number

of remote sensors to obtain space

temperature averaging. This sensor

should be utilized with ReliaTel controls.

Foil-Faced Insulation

All panels in the evaporator section of the

unit have cleanable foil-faced insulation.

All edges are either captured or sealed to

ensure no fibers get into the airstream.

Factory Built Roof Curbs

Only two roof curbs for the entire

Precedent line simplifies curb selection.

Flexibility

Units are built to order in our standard

“shortest in the industry” ship cycle time.

Fresh Air

0 - 25% manual or 0 - 50% motorized

outside air hoods are available.

PKGP-PRC003-EN 7

High Pressure Cutout

This factory-installed option is offered for

units that do not have High Pressure

Cutout as standard. All 3-phase units with

scroll compressors include High Pressure

cutout as standard.

High Static Drive Accessory

Available on many models, this high

static drive accessory extends the

capability of the standard motor. Avoid

expensive motors and operating costs by

installing this optimized sheave

accessory.

Hinged Access Doors

These doors permit easy access to the

filter, fan/heat, and compressor/control

sections. They

reduce the

potential roof

damage from

screws or sharp

access door

corners.

LonTalk®

Communications

Interface

The LonTalk

communications

interface allows

the unit to

communicate as a Tracer™LCI-V device

or directly with generic LonTalk Network

Building Automation System Controls.

Phase Monitor

Phase monitor shall provide 100%

protection for motors and compressors

against problems caused by phase loss,

phase imbalance, and phase reversal.

Phase monitor is equipped with an LED

that provides an ON or FAULT indicator.

Power Exhaust Option

This option is available to maintain proper

building pressurization. Great for relieving

most building overpressurization

problems.

Quick-Access Panels

Remove two screws for access to the

standardized internal components and

wiring.

Quick-Adjust Idler Arm

With the Quick-Adjust Idler Arm, the belt

and sheaves can be quickly adjusted

without moving the mounted fan motor.

The result is a major savings in time and

money.

Reference or Comparative Enthalpy

Measures and communicates humidity

while maximizing comfort control.

Sloped Drain Pans

Every Precedent unit has a non-

corrosive, removable, double-sloped

drain pan that’s

easy to clean and

reversible to allo w

installation of

drain trap on

either side of the

unit.

Features and

Benefits

Standardized Components

Components are placed in the same

location on all Precedent units. Familiarize

yourself with one Precedent and you are

familiar with every Precedent.

Due to standardized components

throughout the Precedent line,

contractors/owners can stock fewer

parts.

Supply and/or Return Air Smoke

Detector

With this option

installed, if smoke is

detected, all unit

operation will be shut

down. Reset will be

manual at the unit.

Return Air Smoke

Detectors require

minimum allowable

airflow when used

with certain models.

Tool-less Hail Guards

Tool-less, hail protection quality coil

guards shall be either factory or field-

installed for condenser coil protection.

This option protects the condenser coil

from vandalism and/or hail damage.

Trane Communication Interface (TCI)

Available factory or field installed. This

module when applied with the ReliaTel™

easily interfaces with Trane’s Integrated

ComfortTM System.

8PKGP-PRC003-EN

Unit Cabinet

The compact cabinet with rounded

corners takes up less room and is less

costly to ship. The beveled and ribbed top

is not only aesthetically pleasing, it is

designed to prevent water from pooling.

VariTrac

When Trane’s changeover VAV System

for light commercial applications is

coupled with Precedent, it provides the

latest in technological advances for

comfort management systems and can

allow thermostat control in every zone

served by VariTrac.

Ventilation Override Accessory

With the Ventilation Override Accessory

installed, the unit can be set to transition

to up to 3 different pre-programmed

sequences for Smoke Purge,

Pressurization, and Exhaust. The

transition occurs when a binary input on

the RTOM is closed (shorted). This would

typically be a hard wired relay output

from a smoke detector or fire control

panel. The ventilation override kit is

available as a field installed accessory.

Zone Sensors

Available in programmable, automatic

and manual styles.

Precedent offers ultimate flexibility. Units

are built to order in our standard

“shortest in the industry” ship cycle time.

Rigorous Testing

All of Precedent’s designs were

rigorously rain tested at the factory to

ensure water integrity.

Actual shipping tests were performed to

determine packaging requirements. Units

were test shipped around the country to

determine the best packaging. Factory

shake and drop tests were used as part

of the package design process to help

assure that the unit arrives at the job site

in top condition.

Rigging tests include lifting a unit into the

air and letting it drop one foot, assuring

that the lifting lugs and rails hold up under

stress.

We perform a 100% coil leak test at the

factory. The evaporator and condenser

coils are leak tested at 200 psig and

pressure tested to 450 psig.

All parts are inspected at the point of final

assembly. Sub-standard parts are

identified and rejected immediately.

Every unit receives a 100% unit run test

before leaving the production line to

make sure it lives up to rigorous Trane

requirements.

Features and

Benefits

VariTrac™

PKGP-PRC003-EN 9

Easy to Install

Convertible Units

–The units ship in a downflow

configuration. They can be easily

converted to horizontal by simply

moving two panels.

– Units come complete with horizontal

duct flanges so the contractor doesn’t

have to field fabricate them. These duct

flanges are a time and cost saver.

Easy Access Low Voltage Terminal Board

Precedent’s Low Voltage Terminal Board

is external to the electrical control

cabinet. It is extremely easy to locate and

attach the thermostat wire and test

operation of all unit functions. This is

another cost and time saving installation

feature.

Low Voltage Connections

The wiring of the low voltage connections

to the unit and the zone sensors is as

simple as 1-1, 2-2, and 3-3. This simplified

system makes it easy for the installer to

wire.

Electric Heaters

Electric heat modules are available within

the basic unit. If ordering the Through the

Base Electrical option with an Electrical

Heater, the heater must be factory

installed.

Powered or Unpowered Convenience

Outlet

This option is a GFCI, 120v/15amp, 2 plug,

convenience outlet, either powered or

unpowered. This option can only be

ordered when the Through the Base

Electrical with either the Disconnect

Switch, or Circuit Breaker, option is

ordered.

Single Point Power

A single electrical connection powers the

unit.

Single Side Service

Single side service is standard on all

units.

Through the Base Condensate

Every unit includes provisions for through

the base condensate drain connections.

This allows the drain to be connected

through the roof curb instead of a roof

penetration.

Through the Base Electrical Utility

Access

Factory provided through the base

openings simplify wiring and piping.

Because these utility openings frequently

minimize the number of roof

penetrations, the integrity of roofing

materials is enhanced.

Through the Base Electrical with Circuit

Breaker

This option is a factory installed thermal

magnetic, molded case, HACR Circuit

Breaker with provisions for through the

base electrical connections.

Features and

Benefits

10 PKGP-PRC003-EN

Through the Base Electrical with

Disconnect Switch

Factory installed 3-pole, molded case,

disconnect switch with provisions for

through the base electrical connections

are available.

Through the Base Utilities Access

An electrical service entrance shall be

provided allowing electrical access for

both control and main power connections

inside the curb and through the base of

the unit. Option will allow for field

installation of liquid-tight conduit and an

external field installed disconnect switch.

Unit Mounted Disconnect or Circuit

Breaker

Codes require a method of assured unit

shutdown for servicing. Field-installed

disconnects sometimes interfere with

service access. Factory installation of unit

disconnects reduces costs, assures

proper mounting and provides the

opportunity to upgrade to unit circuit

breaker protection.

Added Efficiency

Airflow

Airflow is outstanding. The Precedent can

replace an older machine with old

ductwork and, in many cases, improve

the comfort through better air

distribution.

Belt or direct drive – standard or

oversized supply fan motors meet a wide

airflow range.

Cooling

Standard or High Efficiency Cooling

available.

Economizer

Equipped with either dry bulb, reference

or comparative enthalpy sensing, this

feature provides free cooling as the

outdoor temperature and/or humidity

decreases. Economizers, correctly

installed, offer a valuable energy savings.

Factory-installed economizers save time

and ensure proper installation.

High Efficiency Motors

This option is available with efficiency

ratings from 86.5 up to 91.0. It is not

available for all models.

Low Ambient Cooling

All Precedent microprocessor units have

cooling capabilities down to 0°F as

standard. Electromechanical models

have cooling capabilities to 40°F as built,

or to 0°F by adding the optional low

ambient control (frostat).

Oversized Motors

Factory or field installed oversized

motors available for high static

applications.

One of our Finest Assets:

Trane Sales Representatives are a

Support Group that can assist you with:

— Product

— Application

— Service

— Training

— Special Applications

— Specifications

— Computer Programs and much more

Precedent has the features and benefits

that make it first class in the light

commercial rooftop market.

Features and

Benefits

Convenience Outlet

Unit Mounted Disconnect

or Circuit Breaker

Factory Installed Options

A wide variety of Factory Installed

Options (FIOPs) are available.

PKGP-PRC003-EN 11

Application of this product should be

within the cataloged airflow and cooling

considerations.

Low Ambient Cooling

The Precedent™ line features, with

ReliaTel™ microprocessor controls, low

ambient cooling down to 0°F.

Barometric Relief

This product line offers an optional

barometric relief damper. for use in

conjunction with economizer option. This

accessory consists of gravity dampers

which open with increased pressure. As

the building air pressure increases, the

pressure in the unit return air section

also increases, opening the dampers and

relieving the conditioned space.

NOTE: THE EFFECTIVENESS OF

BAROMETRIC RELIEF DAMPER DURING

ECONOMIZING OPERATION IS SYSTEM

RELATED.

PRESSURE DROP OF THE RETURN AIR

SYSTEM SHOULD BE CONSIDERED TO

CONTROL BUILDING PRESSURIZATION.

Condensate Trap

The evaporator is a draw-thru

configuration. A trap must be field

provided prior to start-up on the cooling

cycle.

Clearance Requirements

The recommended clearances identified

with unit dimensions should be

maintained to assure adequate service

maximum capacity and peak operating

efficiency. Actual clearances which

appear inadequate should be reviewed

with the local Trane sales personnel.

Unit Pitch

These units have reversible sloped

condensate drain pans. Units must be

installed level, any unit slope must be

toward the side of unit where condensate

drain is connected.

Application

Considerations

12 PKGP-PRC003-EN

Cooling Capacity

Step 1

Calculate the building’s total and sensible

cooling loads at design conditions. Use

the Trane calculation methods or any

other standard accepted method.

Factors used in unit selection:

A

Total Cooling Load: 59 MBh

B

Sensible Cooling Load: 40 MBh

C

Airflow: 2000 cfm

D

Electrical Characteristics: 460/60/3

E

Summer Design Conditions: Entering

Evaporator Coil: 80 DB, 67 WB Outdoor

Ambient: 95

F

External Static Pressure: 0.36 in. wg

G

Downflow Configuration

H

High Efficiency

I

Economizer

Step 2

As a starting point, a rough determination

must be made of the size of the unit. The

final selection will be made after

examining the performance at the given

conditions. Divide the total cooling load by

nominal BTUH per ton (12 MBh per ton);

then round up to the nearest unit size.

59 MBh / 12 MBh = approx. 5 tons

Step 3

Table PD-3 shows that a WSC060A4 has

a gross cooling capacity of 63.1 MBh and

47.5 MBh sensible capacity at 2000 cfm

and 95 DB outdoor ambient with 80 DB,

67 WB air entering the evaporator.

To Find Capacity at Intermediate

Conditions Not in the Table

When the design conditions are between

two numbers that are in the capacity

table, interpolation is required to

approximate the capacity. Note:

Extrapolation outside of the table

conditions is not recommended.

Step 4

In order to select the correct unit which

meets the building’s requirements, the

fan motor heat must be deducted from

the gross cooling capacity. The amount of

heat that the fan motor generates is

dependent on the effort by the motor -

cfm and static pressure. To determine the

total unit static pressure:

External Static (duct system)

0.36 wg

Standard Filter 1 in. 0.09 wg

from Table PD-23

Economizer 0.18 wg

(100% Outside Air) from Table

PD-23

Electric Heater Size 6 kW 0.056 wg

from Table PD-23

(reference “Heating Capacity” section on

this page for determination of heater

size)

Total Static Pressure 0.69 wg

Note: The Evaporator Fan Performance

Table PD-12 has deducted the pressure

drop for a 1 in. filter already in the unit

(see note below Table PD-12). Therefore,

the actual total static pressure is 0.69 -

0.09 (from Table PD-23) = 0.60 wg.

With 2000 cfm and 0.60 wg.

Table PD-46 shows .90 bhp for this unit.

Note below the table gives a formula to

calculate Fan Motor Heat,

2.829 x bhp + .4024 = MBH.

2.829 x .90 + .4024 = 2.95 MBH.

Now subtract the fan motor heat from

the gross cooling capacity of the unit:

Net Total Cooling Capacity

= 63.1 MBH - 2.95 = 60.15 MBH.

Net Sensible Cooling Capacity

= 47.5 MBH - 2.95 = 44.55 MBH.

Step 5

Compare results to original load

requirements.

If the performance will not meet the

building’s required total or sensible

cooling load, try a selection at the next

higher size unit.

Heating Capacity

Step 1

Calculate the building heating load using

the Trane calculation form or other

standard accepted method.

Step 2

Size the equipment using Table PD-31 to

match the heating loads at design

conditions.

A

Total heating load: 50 MBH

B

Outdoor Ambient (Winter) 17 DB

C

Indoor Return Temperature: 70 DB

D

Airflow: 2000cfm

Use the integrated portion of Table PD-31

for the WSC060A4 to determine

capacity at winter design conditions. The

mechanical heating portion of the heat

pump will provide 32.7 MBh.

Step 3

Because 32.7 is less than the building’s

required heating capacity at winter

design conditions, a supplementary

heater must be selected.

50 MBh-32.7 MBh = 17.3 MBh

The auxiliary eletric heat capacities are

listed in Table PD-38. From the table, a 6

kW heater will deliver 20.48 MBH at 480

volts. In order to determine capacity at

460 volts, the heater voltage correction

factor from Table PD-39 must be used.

Therefore, 20.48 MBH x .918 (voltage

correction factor) = 18.80 MBH. A 6kW

heater should be selected.

Air Delivery Selection

External static pressure drop through

the air distribution system has been

calculated to be 0.60 inches of water.

Enter Table PD-12 for a WSC060A4 at

2000 cfm and 0.60 static pressure. The

belt drive motor will give the desired

airflow at a rated bhp of 0.90 and 998

rpm.

Selection

Procedures

PKGP-PRC003-EN 13

Model

Number

Description

DIGIT 1 - Unit Function

W = Packaged Heat Pump

DIGIT 2 - Efficiency

S = Standard Efficiency

DIGIT 3 - Airflow

C = Convertible

DIGITS 4,5,6 - Nominal Gross Cooling

Capacity (MBh)

036 = 3 Ton

048 = 4 Ton

060 = 5 Ton

072 = 6 Ton

090 = 7½ Ton

120 = 10 Ton

DIGIT 7 - Major Design Sequence

A = First

DIGIT 8 - Unit Voltage

1 = 208-230/60/1

3 = 208-230/60/3

4 = 460/60/3

W = 575/60/3

DIGIT 9 - Unit Controls

R = ReliaTel™Microprocessor

DIGIT 10 - Electric Heater

0 = No Electric Heater

A = 5 kw (1 phase)

B = 6 kw (3 phase)

D = 10 kw (1 phase)

E = 12 kw (3 phase)

F = 14 kw (1 phase)

G = 18 kw (1 and 3 phase)

J = 23 kw (3 phase)

K = 27 kw (3 phase)

N = 36 kw (3 phase)

P = 54 kw (3 phase)

DIGIT 11 - Minor Design Sequence

A = First Sequence

DIGITS 12,13 - Service Sequence

** = Factory Assigned

W S C 036 A 3 R B A ** C 0 0 0 A 1 0 0 0 1 A 1

1 2 3 4,5,6 7 8 9 10 11 12,13 14 15 16 17 18 19 20 21 22 23 24 25

DIGIT 14 - Fresh Air Selection

0 = No Fresh Air

A = Manual Outside Air Damper 0-50%

B = Motorized Outside Air Damper 0-50%

C = Economizer, Dry Bulb 0-100% without

Barometric Relief

D = Economizer, Dry Bulb 0-100% with

Barometric Relief

E = Economizer, Reference Enthalpy

0-100% without Barometric Relief

F = Economizer, Reference Enthalpy

0-100% with Barometric Relief

G = Economizer, Comparative Enthalpy

0-100% without Barometric Relief

H = Economizer, Comparative Enthalpy

0-100% with Barometric Relief

DIGIT 15 - Supply Fan/Drive Type/Motor

0 = Standard Drive

1 = Oversized Motor

2 = Optional Belt Drive Motor

DIGIT 16 - Hinged Service Access/Filters

0 = Standard Panels/Standard Filters

A = Hinged Access Panels/Standard Filters

B = Standard Panels/2” Pleated Filters

C = Hinged Access Panels/2” Pleated

Filters

DIGIT 17 - Condenser Coil Protection

0 = Standard Coil

1 = Standard Coil with Hail Guard

2 = Epoxy Coated Condenser Coil

3 = Epoxy Coated Condenser Coil

with Hail Guard

DIGIT 18 - Through the Base Provisions

0 = No Through the Base Provisions

A = Through the Base Electric

DIGIT 19 - Disconnect/Circuit Breaker/

Phase Monitor (3 phase only)

0 = No Disconnect/NoCircuit Breaker/No

Phase Monitor

1 = Unit Mounted Non-Fused Disconnect

2 = Unit Mounted Circuit Breaker

3 = Phase Monitor

4 = Phase Monitor & Non-Fused

Disconnect Switch

5 = Phase Monitor & Circuit Breaker

Example:

Model number WSC036A3RBA##C000A10001A0 describes a unit with the following characteristics: Packaged Heat Pump, 3 ton nominal cooling capacity, 208-230/60/3 power supply,

ReliaTel™ controls, 6 kw electric heater model. 0-100% dry bulb economizer without barometric relief, standard direct drive motor, standard access panels/filters, standard condenser

coil with no coil protection, through the base electric access, non-fused disconnect, no convenience outlet or communications interface, standard refrigeration coil, high pressure

control, return air smoke detector, and clogged filter switch.

DIGIT 20 - Convenience Outlet

0 = No Convenience Outlet

A = Unpowered Convenience Outlet

B = Powered Convenience Outlet

(3 phase only)

DIGIT 21 - Communications Options

0 = No Communications Interface

1 = Trane Communications

Interface

2 = LonTalk® Communications

Interface

DIGIT 22 - Refrigeration System Option

0 = Standard Refrigeration System

DIGIT 23 - Refrigeration Controls

0 = No Refrigeration Control

1 = High Pressure Control

2 = Frostat

3 = Crankcase Heater

4 = High Pressure Control and Frostat

5 = High Pressure Control and Crankcase

Heater

6 = Frostat and Crankcase Heater

7 = High Pressure Control, Frostat and

Crankcase Heater

DIGIT 24 - Smoke Detector

0 = No Smoke Detector

A = Return Air Smoke Detector

B = Supply Air Smoke Detector

C = Supply and Return Air Smoke

Detectors

DIGIT 25 - Monitoring Controls

0 = No Monitoring Control

1 = Clogged Filter Switch

2 = Fan Failure Switch

3 = Discharge Air Sensing Tube

4 = Clogged Filter Switch and Fan Fail

Switch

5 = Clogged Filter Switch and Discharge

Air Sensing Tube

6 = Fan Fail Switch and Discharge Air

Sensing Tube

7 = Clogged Filter and Fan Fail Switches

and Discharge Air Sensing Tube

14 PKGP-PRC003-EN

General

Data (3, 4 Ton)

Table GD-1 — General Data

3 Ton Convertible Units 4 Ton Convertible Units

WSC036A1 WSC036A3,A4,AW WSC048A1 WSC048A3,A4,AW

Cooling Performance1

Gross Cooling Capacity 38,100 38,100 50,800 50,800

SEER29.80 10.20 10.50 10.70

Nominal CFM / ARI Rated CFM 1,200 / 1,200 1,200 / 1,200 1,600 / 1,600 1,600 / 1,600

ARI Net Cooling Capacity 36,600 36,000 48,500 48,500

Integrated Part Load Value — — — —

System Power (KW) 4.09 3.96 5.16 5.05

Heating Performance1

High Temp. Btuh Rating 35,000 35,000 47,000 47,000

System Power KW 3.46 3.35 4.68 4.53

Low Temp. Btuh Rating 18,600 18,600 28,800 28,800

System Power KW 2.78 2.65 4.14 4.02

HSPF (Btu/Watts-hr) 6.75 6.95 6.80 6.90

Compressor

No./Type 1/Recip. 1/Recip. 1/Scroll 1/Scroll

Outdoor Sound Rating (dB)382 82 85 85

Outdoor Coil — Type Lanced Lanced Lanced Lanced

Tube Size (in.) OD .3125 .3125 .3125 .3125

Face Area (sq ft) 9.59 9.59 9.59 9.59

Rows/FPI 2/17 2/17 3/17 3/17

Refrigerant Control Expansion Valve Expansion Valve Expansion Valve Expansion Valve

Indoor Coil — Type Lanced Lanced Lanced Lanced

Tube Size (in.) .3125 .3125 .3125 .3125

Face Area (sq ft) 6.17 6.17 6.68 6.68

Rows/FPI 3/16 3/16 3/16 3/16

Refrigerant Control Short Orifice Short Orifice Short Orifice Short Orifice

Drain Connection No./Size (in.) 1/¾ NPT 1/¾ NPT 1/¾ NPT 1/¾ NPT

Outdoor Fan — Type Propeller Propeller Propeller Propeller

No. Used/Diameter (in.) 1/22 1/22 1/22 1/22

Drive Type/No. Speeds Direct/1 Direct/1 Direct/1 Direct/1

CFM 2,950 2,950 3,200 3,200

No. Motors/HP 1/.25 1/.25 1/.40 1/.40

Motor RPM 1,075 1,075 1,075 1,075

Direct Drive Indoor Fan — Type FC Centrifugal FC Centrifugal FC Centrifugal FC Centrifugal

No. Used 1 1 1 1

Diameter x Width (in.) 10 x 10 10 x 10 11 x 11 11 x 11

Drive Type/No. Speeds Direct/2 Direct/2 Direct/2 Direct/2

No. Motors 1 1 1 1

Motor HP (Standard/Oversized) .33/.50 .33/.50 .60/.80 .60/.80

Motor RPM (Low/High Speed) 950/1,060 950/1,060 930/1,000 930/1,000

Oversized Motor RPM (Low/High Speed) 1,100/1,145 1,100/1,145 1,000/1,100 1,000/1,100

Motor Frame Size (Standard/Oversized) 48/48 48/48 48/48 48/48

Belt Drive Indoor Fan — Type — FC Centrifugal — FC Centrifugal

No. Used — 1 — 1

Diameter x Width (in.) — 11 x 11 — 11 x 11

Drive Type/No. Speeds — Belt/Variable Speed — Belt/Variable Speed

No. Motors — 1 — 1

Motor HP (Standard/Oversized) — 1.00/ — — 1.00/ —

Motor RPM (Standard/Oversized) — 1,750/ — — 1,750/ —

Motor Frame Size (Standard/Oversized) — 56/ — — 56/ —

Filters — Type Furnished 5Throwaway Throwaway Throwaway Throwaway

(No.) Size Recommended (in.) (2) 20 x 25 x 1 (2) 20 x 25 x 1 (2) 20 x 25 x 1 (2) 20 x 25 x 1

Refrigerant Charge (Lbs of R-22)46.5 6.8 9.4 10.2

Notes:

1. Cooling Performance and Heating Performance is rated at 95 F ambient, 80 F entering dry bulb, 67 F entering wet bulb . Gross capacity does not include the effect of fan motor heat. ARI capacity is

net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Certified in accordance with the Air-Source Unitary Heat Pump Equipment certification

program, which is based on ARI Standard 210/240.

2. SEER is rated at ARI conditions and in accordance with DOE test procedures.

3. Outdoor Sound Rating shown is tested in accordance with ARI Standard 270. For more information refer to Table PD-25.

4. Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions.

5. Optional 2 inch pleated filters are also available.

PKGP-PRC003-EN 15

General

Data (5, 6 Ton)

Table GD-2 — General Data

5 Ton Convertible Units 6 Ton Convertible Units

WSC060A1 WSC060A3,A4,AW WSC072A3,A4,AW

Cooling Performance1

Gross Cooling Capacity 63,100 63,100 74,000

EER/SEER2— /9.70 — /10.10 10.6/ —

Nominal CFM / ARI Rated CFM 2,000/2,000 2,000/2,0000 2,400/2,100

ARI Net Cooling Capacity 60,000 60,000 70,000

Integrated Part Load Value — — —

System Power (KW) 6.90 6.74 6.6

Heating Performance1

High Temp. Btuh Rating 59,000 59,000 68,000

System Power KW/COP 5.96/ — 5.76/ — 6.04/3.3

Low Temp. Btuh Rating 36,200 36,200 38,000

System Power KW/COP 5.30/ — 5.05/ — 5.06/2.2

HSPF (Btu/Watts-hr) 6.96 7.00 —

Compressor

No./Type 1/Scroll 1/Scroll 1/Scroll

Outdoor Sound Rating (dB)385 85 90

Outdoor Coil — Type Lanced Lanced Lanced

Tube Size (in.) OD .3125 .3125 .3125

Face Area (sq ft) 9.59 9.59 17.00

Rows/FPI 3/17 3/17 2/17

Refrigerant Control Expansion Valve Expansion Valve Expansion Valve

Indoor Coil — Type Lanced Lanced Lanced

Tube Size (in.) .3125 .3125 .3125

Face Area (sq ft) 6.68 6.68 9.89

Rows/FPI 3/16 3/16 3/16

Refrigerant Control Short Orifice Short Orifice Short Orifice

Drain Connection No./Size (in.) 1/¾ NPT 1/¾ NPT 1/¾ NPT

Outdoor Fan — Type Propeller Propeller Propeller

No. Used/Diameter (in.) 1/22 1/22 1/26

Drive Type/No. Speeds Direct/1 Direct/1 Direct/1

CFM 3,200 3,200 6,200

No. Motors/HP 1/.40 1/.40 1/.70

Motor RPM 1,075 1,075 1,075

Direct Drive Indoor Fan — Type FC Centrifugal FC Centrifugal —

No. Used 1 1 —

Diameter x Width (in.) 11 x 11511 x 115—

Drive Type/No. Speeds Direct/2 Direct/2 —

No. Motors 1 1 —

Motor HP (Standard/Oversized) .90/1.00 .90/1.00 —

Motor RPM (Low/High Speed) 985/1,100 985/1,100 —

Oversized Motor RPM (Low/High Speed) 1,080/1,135 1,080/1,135 —

Motor Frame Size (Standard/Oversized) 48/48 48/48 —

Belt Drive Indoor Fan — Type — FC Centrifugal FC Centrifugal

No. Used — 1 1

Diameter x Width (in.) — 11 x 11 12 x 12

Drive Type/No. Speeds — Belt/Variable Speed Belt/Variable Speed

No. Motors — 1 1

Motor HP (Standard/Oversized) — 1.00/ — 1.00/2.00

Motor RPM (Standard/Oversized) — 1,750/ — 1,750/1,750

Motor Frame Size (Standard/Oversized) — 56/ — 56/56

Filters — Type Furnished 6Throwaway Throwaway Throwaway

(No.) Size Recommended (in.) (2) 20 x 25 x 1 (2) 20 x 25 x 1 (4) 16 x 25 x 2

Refrigerant Charge (Lbs of R-22)47.9 8.5 8.2

Notes:

1. Cooling Performance and Heating Performance is rated at 95 F ambient, 80 F entering dry bulb, 67 F entering wet bulb . Gross capacity does not include the effect of fan motor heat. ARI capacity is

net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Certified in accordance with the Air-Source Unitary Heat Pump Equipment certification

program, which is based on ARI Standard 210/240.

2. SEER is rated at ARI conditions and in accordance with DOE test procedures.

3. Outdoor Sound Rating shown is tested in accordance with ARI Standard 270. For more information refer to Table PD-25.

4. Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions.

5 Fan Diameter with oversized motor is 12 x 11.

6. Optional 2 inch pleated filters are also available.

16 PKGP-PRC003-EN

General

Data (7½, 10 Ton)

Table GD-3 — General Data

7½ Ton Convertible Units 10 Ton Convertible Units

WSC090A3, A4, AW WSC120A3, A4, AW

Cooling Performance1

Gross Cooling Capacity 93,000 121,000

EER210.1 10.1

Nominal CFM / ARI Rated CFM 3,000/2,625 4,000/3,200

ARI Net Cooling Capacity 88,000 113,000

Integrated Part Load Value — 10.7

System Power (KW) 8.71 11.19

Heating Performance1

High Temp. Btuh Rating 88,000 108,000

System Power KW/COP 8.06/ 3.2 9.59/3.3

Low Temp. Btuh Rating 50,000 59,000

System Power KW/COP 6.66/2.2 7.86/2.2

HSPF (Btu/Watts-hr) — —

Compressor

No./Type 1/Scroll 2/Scrolls

Outdoor Sound Rating (dB)390 88

Outdoor Coil — Type Lanced Lanced

Tube Size (in.) OD .3125 .3125

Face Area (sq ft) 17.00 19.83

Rows/FPI 3/17 3/17

Refrigerant Control Expansion Valve Expansion Valve

Indoor Coil — Type Lanced Lanced

Tube Size (in.) .3125 .3125

Face Area (sq ft) 9.89 12.36

Rows/FPI 4/16 4/16

Refrigerant Control Short Orifice Short Orifice

Drain Connection No./Size (in.) 1/¾ NPT 1/¾ NPT

Outdoor Fan — Type Propeller Propeller

No. Used/Diameter (in.) 1/26 1/26

Drive Type/No. Speeds Direct/1 Direct/1

CFM 6,400 6,700

No. Motors/HP 1/.70 1/.75

Motor RPM 1,075 1,075

Belt Drive Indoor Fan — Type FC Centrifugal FC Centrifugal

No. Used 1 1

Diameter x Width (in.) 12 x 12 15 x 15

Drive Type/No. Speeds Belt/Variable Speed Belt/Variable Speed

No. Motors 1 1

Motor HP (Standard/Oversized) 1.00/3.00 2.00/ 5.00

Motor RPM (Standard/Oversized) 1,750/1,750 1,750/3,450

Motor Frame Size (Standard/Oversized) 56/56 56/56

Filters — Type Furnished 5Throwaway Throwaway

(No.) Size Recommended (in.) (4) 16 x 25 x 2 (4) 20 x 25 x 2

Refrigerant Charge (Lbs of R-22)412.2 7.9 Circuit #1/7.9 Circuit #2

Notes:

1. Cooling Performance and Heating Performance is rated at 95 F ambient, 80 F entering dry bulb, 67 F entering wet bulb . Gross capacity does not include the effect of fan motor heat. ARI capacity is

net and includes the effect of fan motor heat. Units are suitable for operation to ±20% of nominal cfm. Certified in accordance with the Air-Source Unitary Heat Pump Equipment certification

program, which is based on ARI Standard 210/240.

2. SEER is rated at ARI conditions and in accordance with DOE test procedures.

3. Outdoor Sound Rating shown is tested in accordance with ARI Standard 270. For more information refer to Table PD-25.

4. Refrigerant charge is an approximate value. For a more precise value, see unit nameplate and service instructions.

5. Optional 2 inch pleated filters are also available.

PKGP-PRC003-EN 17

Performance

Data (3, 4 Ton)

Table PD-1 — Gross Cooling Capacities (MBH) 3 Ton Single/Three Phase WSC036A1, A3, A4, AW

Ambient Temperature (F)

85 95 105 115

Enter.

Dry Entering Wet Bulb (F)

CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73

Airflow (F) MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC

75 34.7 28.9 39.7 22.6 42.4 15.3 31.6 27.3 37.1 21.4 41.0 14.4 28.5 25.6 33.8 19.8 39.0 13.3 25.3 24.0 30.2 18.2 36.1 12.0

80 35.4 34.8 39.8 28.1 42.9 21.0 32.5 32.5 37.2 26.8 41.3 20.0 29.9 29.9 33.9 25.2 39.1 18.9 27.4 27.4 30.4 23.6 36.2 17.6

1080 85 37.7 37.7 40.1 33.5 43.4 26.1 35.3 35.3 37.6 32.4 41.5 25.3 32.7 32.7 34.4 30.8 39.3 24.4 30.1 30.1 31.0 29.2 36.3 23.1

90 40.0 40.0 40.7 38.9 43.9 31.0 38.0 38.0 38.3 38.1 41.9 30.4 35.6 35.6 35.6 35.6 39.5 29.8 32.9 32.9 32.9 32.9 36.6 28.6

75 35.7 30.8 40.3 23.5 42.7 15.5 32.5 29.2 37.9 22.3 41.4 14.6 29.3 27.5 34.6 20.8 39.4 13.6 26.2 25.9 30.9 19.1 36.8 12.4

80 36.6 36.6 40.5 29.5 43.3 21.9 34.1 34.1 38.1 28.5 41.7 20.9 31.4 31.4 34.8 26.9 39.7 19.8 28.7 28.7 31.2 25.3 36.9 18.5

1200 85 39.3 39.3 40.9 35.4 43.9 26.9 37.0 37.0 38.5 34.6 42.0 26.3 34.4 34.4 35.4 33.2 39.8 25.7 31.7 31.7 32.0 31.6 37.0 24.6

90 41.4 41.4 41.6 41.2 44.4 32.2 39.6 39.6 39.6 39.6 42.5 31.8 37.3 37.3 37.3 37.3 40.2 31.6 34.6 34.6 34.6 34.6 37.3 30.6

75 36.6 32.7 40.7 24.5 43.0 15.8 33.4 31.0 38.5 23.3 41.7 14.9 30.2 29.4 35.3 21.8 39.8 13.8 26.9 26.9 31.5 20.1 37.2 12.7

80 38.1 38.1 41.0 30.7 43.6 22.6 35.5 35.5 38.7 30.0 42.1 21.6 32.8 32.8 35.6 28.6 40.1 20.6 30.0 30.0 31.9 26.9 37.4 19.4

1320 85 40.4 40.4 41.5 37.0 44.2 29.4 38.4 38.4 39.3 36.7 42.6 27.5 35.9 35.9 36.4 35.5 40.3 26.9 33.0 33.0 33.0 33.0 37.6 26.0

90 42.4 42.4 42.4 42.4 44.8 33.2 40.8 40.8 40.8 40.8 42.9 33.1 38.7 38.7 38.7 38.7 40.8 33.2 36.1 36.1 36.1 36.1 38.0 32.6

75 37.3 34.5 41.0 25.1 43.3 16.0 34.2 32.9 38.9 24.3 41.9 15.1 30.8 30.8 35.8 22.8 40.1 14.1 27.9 27.9 32.0 21.2 37.6 13.0

80 39.2 39.2 41.4 31.9 43.9 23.4 36.8 36.8 39.2 31.5 42.4 22.1 34.0 34.0 36.2 30.2 40.4 21.4 31.1 31.1 32.6 28.6 37.8 20.2

1440 85 41.3 41.3 42.0 38.5 44.5 28.2 39.5 39.5 40.0 38.6 42.9 28.2 37.1 37.1 37.1 37.1 40.7 28.0 34.3 34.3 34.3 34.3 38.0 27.3

90 43.1 43.1 43.1 43.1 45.1 34.1 41.7 41.7 41.7 41.7 43.3 34.3 39.7 39.7 39.7 39.7 41.3 34.7 37.3 37.3 37.3 37.3 38.6 34.4

Notes:

1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat.

2. MBH = Total Gross Capacity

3. SHC = Sensible Heat Capacity

Table PD-2 — Gross Cooling Capacities (MBH) 4 Ton Single/Three Phase WSC048A1, A3, A4, AW

Ambient Temperature (F)

85 95 105 115

Enter.

Dry Entering Wet Bulb (F)

CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73

Airflow (F) MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC

75 45.9 38.6 52.2 29.8 55.3 20.0 42.3 36.5 49.6 28.8 54.2 19.0 38.5 34.5 45.8 26.5 52.4 17.8 34.7 32.5 41.5 25.0 49.5 16.4

80 47.0 46.5 52.4 37.2 55.9 27.7 43.6 43.6 49.8 35.9 54.7 26.7 40.5 40.5 45.9 34.0 52.6 25.3 37.3 37.3 41.8 32.0 49.6 23.9

1440 85 50.1 50.1 52.8 44.4 56.6 34.0 47.4 47.4 50.2 43.4 55.0 33.4 44.3 44.3 46.6 41.6 52.9 32.8 41.1 41.1 42.5 39.6 49.8 31.3

90 52.9 52.9 53.6 51.5 57.2 40.3 50.9 50.9 51.3 51.1 55.5 40.2 48.1 48.1 48.1 48.1 53.2 39.8 45.0 45.0 45.0 45.0 50.0 38.7

75 47.2 41.1 52.9 31.1 55.7 20.3 43.5 39.1 50.6 29.8 54.7 19.3 39.7 37.0 46.9 28.0 52.9 18.2 35.8 35.0 42.6 25.9 50.3 16.9

80 48.7 48.7 53.2 38.9 56.4 28.2 45.7 45.7 50.8 38.0 55.2 27.7 42.5 42.5 47.1 36.2 53.3 26.5 39.2 39.2 42.9 34.2 50.4 25.1

1600 85 51.9 51.9 53.7 46.6 57.1 34.9 49.6 49.6 51.4 46.3 55.6 34.6 46.5 46.5 47.9 44.7 53.5 34.3 43.2 43.2 44.0 42.7 50.6 33.2

90 54.4 54.4 54.7 54.1 57.8 41.6 52.7 52.7 52.7 52.7 56.1 41.9 50.3 50.3 50.3 50.3 54.0 42.0 47.3 47.3 47.3 47.3 51.0 41.2

75 48.3 43.5 53.3 32.0 56.0 20.6 44.6 41.5 51.3 31.1 55.0 19.6 40.8 39.5 47.7 29.4 53.4 18.5 36.8 36.8 43.4 27.3 50.9 17.2

80 50.4 50.4 53.8 40.4 56.7 28.6 47.6 47.6 51.5 40.0 55.7 28.4 44.3 44.3 48.1 38.4 53.8 27.5 40.9 40.9 43.9 36.4 51.1 26.2

1760 85 53.3 53.3 54.5 48.6 57.5 35.6 51.3 51.3 52.3 48.8 56.3 36.1 48.4 48.4 49.2 47.7 54.1 35.7 45.1 45.1 45.1 45.1 51.3 35.0

90 55.5 55.5 55.5 55.5 58.2 42.8 54.1 54.1 54.1 54.1 56.7 43.4 52.0 52.0 52.0 52.0 54.7 43.9 49.2 49.2 49.2 49.2 51.8 43.6

75 49.3 45.8 53.8 32.9 56.3 20.9 45.7 43.9 51.8 32.3 55.3 20.0 41.9 41.9 48.5 30.7 53.7 18.9 38.1 38.1 44.1 28.6 51.3 17.6

80 51.7 51.7 54.3 41.7 57.0 29.1 49.1 49.1 52.2 41.7 56.0 28.9 45.9 45.9 48.9 40.5 54.1 28.2 42.4 42.4 44.8 38.5 51.6 27.2

1920 85 54.3 54.3 55.1 50.3 57.8 36.4 52.6 52.6 53.1 51.1 56.7 37.1 50.0 50.0 50.0 50.0 54.6 37.0 46.8 46.8 46.8 46.8 51.8 36.6

90 56.3 56.3 56.3 56.3 58.5 43.8 55.1 55.1 55.1 55.1 57.1 44.7 53.2 53.2 53.2 53.2 55.2 45.7 50.7 50.7 50.7 50.7 52.5 45.8

Notes:

1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat.

2. MBH = Total Gross Capacity

3. SHC = Sensible Heat Capacity

18 PKGP-PRC003-EN

(5, 6 Ton)

Performance

Data

Table PD-3 — Gross Cooling Capacities (MBh) 5 Ton Three Phase WSC060A1,A3, A4, AW

Ambient Temperature (F)

85 95 105 115

Enter.

Dry Entering Wet Bulb (F)

CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73

Airflow (F) MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC

75 56.7 48.0 64.9 37.3 68.9 25.0 52.5 45.7 61.6 35.5 67.6 23.9 48.1 43.4 56.8 33.2 65.2 22.5 43.5 41.0 51.4 31.6 60.9 20.6

80 58.3 58.1 65.1 46.5 69.6 34.5 54.4 54.4 61.7 44.9 68.1 33.3 50.8 50.8 57.0 42.5 65.4 31.8 46.9 46.9 51.7 40.0 61.0 29.8

1800 85 62.4 62.4 65.6 55.7 70.0 42.1 59.1 59.1 62.3 54.3 68.5 42.0 55.4 55.4 57.8 52.1 65.7 41.1 51.4 51.4 52.7 49.6 61.1 39.0

90 66.0 66.0 66.7 64.7 70.8 50.1 63.6 63.6 63.6 63.6 69.0 50.5 60.1 60.1 60.1 60.1 66.0 50.0 56.0 56.0 55.9 55.9 61.5 48.3

75 58.3 51.1 65.8 38.9 69.3 25.3 54.0 48.8 62.9 37.3 68.2 24.2 49.5 46.4 58.2 35.0 65.9 22.9 44.8 44.0 52.6 32.5 61.9 21.1

80 60.5 60.5 66.1 48.7 70.1 35.3 57.0 57.0 63.1 47.5 68.7 34.6 53.1 53.1 58.4 45.3 66.2 33.1 49.0 49.0 53.0 42.7 62.1 31.3

2000 85 64.7 64.7 66.8 58.5 71.0 43.7 61.8 61.8 63.9 57.9 69.2 43.5 58.0 58.0 59.6 55.9 66.5 43.0 53.8 53.8 54.4 53.4 62.2 41.4

90 67.9 67.9 68.1 68.0 71.4 51.6 65.8 65.8 65.8 65.8 69.8 52.6 62.7 62.7 62.7 62.7 67.0 52.7 58.6 58.6 58.6 58.6 62.7 51.5

75 59.8 54.1 66.4 40.2 69.6 25.7 55.4 51.8 63.8 38.9 68.6 24.6 50.9 49.4 59.3 36.7 66.4 23.3 46.0 46.0 53.6 34.1 62.7 21.5

80 62.7 62.7 66.9 50.7 70.5 35.9 59.2 59.2 64.1 50.0 69.0 35.2 55.2 55.2 59.6 47.9 66.8 34.4 50.9 50.9 54.1 45.4 62.9 32.6

2200 85 66.4 66.4 67.7 61.0 71.4 44.7 64.0 64.0 65.1 61.0 69.8 44.8 60.3 60.3 61.0 59.5 67.2 44.8 55.9 55.9 55.9 55.9 63.0 43.6

90 69.2 69.2 69.2 69.2 71.9 53.0 67.5 67.5 67.5 67.5 70.5 54.5 64.7 64.7 64.7 64.7 67.8 55.1 60.8 60.8 60.8 60.8 63.7 54.5

75 61.0 56.9 67.0 41.3 69.9 26.0 56.7 54.6 64.6 40.4 68.9 25.0 51.9 51.9 60.2 38.3 66.8 23.7 47.5 47.5 54.4 35.7 63.3 22.0

80 64.3 64.3 67.5 52.4 70.8 36.4 61.1 61.1 64.9 52.2 69.4 35.9 57.1 57.1 60.6 50.4 67.2 35.4 52.6 52.6 55.1 47.9 63.5 33.9

2400 85 67.6 67.6 68.5 63.3 71.8 45.6 65.5 65.5 66.1 63.8 70.2 46.0 62.2 62.2 62.2 62.2 67.8 46.4 57.8 57.8 57.8 57.8 63.7 45.6

90 70.2 70.2 70.2 70.2 72.3 54.3 68.7 68.7 68.7 68.7 71.0 56.2 66.2 66.2 66.2 66.2 68.5 57.3 62.6 62.6 62.6 62.6 64.5 57.2

Notes:

1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat.

2. MBH = Total Gross Capacity

3. SHC = Sensible Heat Capacity

Table PD-4 — Gross Cooling Capacities (MBh) 6Ton Three Phase WSC072A3, A4, AW

Ambient Temperature (F)

85 95 105 115

Enter.

Dry Entering Wet Bulb (F)

CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73

Airflow (F) MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC

75 67.2 58.4 75.7 44.4 79.1 29.2 62.2 56.0 72.2 43.0 78.1 28.2 57.0 53.5 66.8 40.7 75.9 27.0 51.7 51.0 60.8 38.2 72.1 25.6

80 69.3 69.3 76.0 55.5 80.0 40.6 65.3 65.3 72.5 54.6 78.6 39.6 61.0 61.0 67.3 52.2 76.2 38.3 56.6 56.6 61.4 49.6 72.2 37.0

2160 85 74.1 74.1 76.6 66.2 80.8 49.0 70.7 70.7 73.4 66.1 79.4 50.9 66.5 66.5 68.4 63.8 76.4 49.6 62.1 62.1 62.8 61.4 72.4 48.2

90 77.4 77.4 77.8 76.6 81.7 58.2 75.2 75.2 75.2 75.2 80.1 59.8 71.9 71.9 71.9 71.9 77.0 59.9 67.7 67.7 67.7 67.7 72.9 59.4

75 69.1 62.4 76.5 46.4 79.5 29.7 64.1 59.9 73.6 45.2 78.5 28.7 58.8 57.4 68.4 43.0 76.5 27.4 53.6 53.6 62.2 40.5 73.1 26.1

80 72.3 72.3 77.0 57.9 80.3 42.3 68.3 68.3 74.0 57.8 79.1 41.2 63.9 63.9 69.0 55.7 76.9 40.0 59.3 59.3 63.0 53.2 73.2 38.7

2400 85 76.2 76.2 77.8 69.3 81.3 50.1 73.7 73.7 74.9 70.1 79.9 51.0 69.7 69.7 70.4 68.7 77.3 51.5 65.2 65.2 65.2 65.2 73.4 51.0

90 79.1 79.1 79.1 79.1 82.2 59.7 77.4 77.4 77.4 77.4 80.7 61.6 74.6 74.6 74.6 74.6 78.0 62.8 70.9 70.9 70.9 70.9 74.2 63.0

75 70.7 66.2 77.1 48.4 79.8 30.1 65.8 63.8 74.5 47.2 78.9 29.1 60.5 60.5 69.6 45.2 77.0 27.9 55.7 55.7 63.4 42.7 73.8 26.5

80 74.4 74.4 77.7 60.0 80.6 43.9 70.9 70.9 75.0 60.7 79.4 42.9 66.5 66.5 70.3 59.1 77.4 41.7 61.7 61.7 64.5 56.7 74.0 40.3

2640 85 77.8 77.8 78.7 71.9 81.6 51.0 75.7 75.7 76.3 73.7 80.3 52.3 72.4 72.4 72.4 72.4 78.0 53.3 67.9 67.9 67.9 67.9 74.4 53.6

90 80.1 80.1 80.1 80.1 82.6 61.0 78.9 78.9 78.9 78.9 81.2 63.3 76.5 76.5 76.5 76.5 78.8 65.3 73.2 73.2 73.2 73.2 75.3 66.4

75 72.2 70.0 77.6 48.8 80.0 30.5 67.2 67.2 75.2 49.0 79.1 29.5 62.5 62.5 70.6 47.3 77.3 28.4 57.6 57.6 64.5 44.8 74.3 27.0

80 75.9 75.9 78.3 61.8 81.0 41.5 73.2 73.2 75.9 63.3 80.1 42.2 68.8 68.8 71.5 62.4 78.0 42.6 63.9 63.9 65.8 60.1 74.6 42.0

2880 85 78.8 78.8 79.3 74.1 81.9 51.9 77.1 77.1 77.4 76.8 80.7 53.4 74.2 74.2 74.3 74.3 78.5 55.0 70.0 70.0 70.1 70.1 75.1 55.9

90 80.9 80.9 80.9 80.9 82.9 62.2 79.9 79.9 79.9 79.9 81.6 64.8 77.9 77.9 77.9 77.9 79.4 67.5 74.9 74.9 74.9 74.9 76.2 69.4

Notes:

1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat.

2. MBH = Total Gross Capacity

3. SHC = Sensible Heat Capacity

PKGP-PRC003-EN 19

Table PD-6 — Gross Cooling Capacities (MBh) 10 Ton Three Phase WSC120A3, A4, AW

Ambient Temperature (F)

85 95 105 115

Enter.

Dry Entering Wet Bulb (F)

CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73

Airflow (F) MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC

75 110.8 96.7 123.3 73.1 127.7 47.6 102.7 92.6 118.5 70.9 126.5 46.1 94.5 88.6 110.3 67.5 123.6 44.2 86.2 84.6 100.9 63.7 118.4 42.0

80 114.3 114.3 123.8 92.0 129.2 64.9 107.9 107.9 119.0 89.8 127.8 65.2 101.1 101.1 111.1 86.4 124.3 63.2 94.1 94.1 102.0 82.4 118.6 60.9

3600 85 121.4 121.4 125.0 108.3 130.7 79.5 116.7 116.7 120.4 108.6 129.1 81.4 110.3 110.3 113.3 105.8 124.5 81.0 103.3 103.3 104.9 102.1 119.0 79.5

90 126.4 126.4 126.9 124.8 132.2 94.4 123.4 123.4 123.4 123.4 130.5 97.7 118.7 118.7 118.7 118.7 125.8 98.0 112.4 112.4 112.4 112.4 120.0 97.6

75 113.8 103.0 124.4 75.6 128.2 48.3 105.9 99.1 120.3 74.2 127.0 46.9 97.5 95.1 112.7 71.1 124.4 45.0 89.0 89.0 103.2 67.1 119.7 42.8

80 118.7 118.7 125.2 94.3 129.7 65.7 112.8 112.8 121.0 94.8 128.5 66.4 105.7 105.7 113.8 92.1 125.1 65.4 98.5 98.5 104.8 88.2 120.1 63.7

4000 85 124.5 124.5 126.6 112.7 131.3 81.0 120.9 120.9 122.8 114.9 130.0 83.6 115.1 115.1 116.6 113.7 126.5 84.9 108.2 108.2 108.2 108.2 120.6 83.8

90 128.5 128.5 128.5 128.5 132.8 96.5 126.4 126.4 126.4 126.4 131.5 100.8 122.5 122.5 122.5 122.5 127.3 102.3 117.1 117.1 117.1 117.1 121.9 103.3

75 116.5 109.1 125.6 78.0 128.5 49.0 108.8 105.5 121.7 77.4 127.6 47.6 99.8 99.8 114.6 74.6 125.0 45.8 92.3 92.3 105.2 70.7 120.6 43.7

80 121.6 121.6 126.2 97.3 130.0 72.0 116.8 116.8 122.6 99.3 129.1 67.4 109.9 109.9 116.1 97.6 126.0 67.5 102.4 102.4 107.3 93.9 121.2 66.4

4400 85 126.5 126.5 127.8 116.4 131.7 82.3 123.7 123.7 124.7 120.3 130.6 85.4 119.0 119.0 119.0 119.0 126.9 86.7 112.3 112.3 112.3 112.3 121.9 87.6

90 129.9 129.9 129.9 129.9 133.2 98.3 128.4 128.4 128.4 128.4 132.2 103.4 125.2 125.2 125.2 125.2 128.3 105.9 120.4 120.4 120.4 120.4 123.5 108.2

75 118.6 114.7 126.2 79.7 128.8 49.7 110.7 110.7 122.6 80.1 127.9 48.3 103.1 103.1 116.2 77.9 125.5 46.6 95.4 95.4 107.0 74.2 121.3 44.5

80 123.7 123.7 127.0 99.8 130.3 74.6 119.8 119.8 123.9 103.2 129.5 68.4 113.4 113.4 118.0 102.8 126.9 69.3 105.9 105.9 109.5 99.4 121.6 68.7

4800 85 127.8 127.8 128.6 119.4 132.1 83.4 125.8 125.8 125.8 125.8 131.0 87.1 121.7 121.7 121.7 121.7 127.6 89.1 115.8 115.8 115.8 115.8 122.9 91.0

90 130.8 130.8 130.8 130.8 133.6 100.1 129.7 129.7 129.7 129.7 132.7 105.7 127.0 127.0 127.0 127.0 129.2 109.1 122.8 122.8 122.8 122.8 124.8 112.5

Notes:

1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat.

2. MBH = Total Gross Capacity

3. SHC = Sensible Heat Capacity

Performance

Data (7½, 10 Ton)

Table PD-5 — Gross Cooling Capacities (MBh) 7½ Ton Three Phase WSC090A3, A4, AW

Ambient Temperature (F)

85 95 105 115

Enter.

Dry Entering Wet Bulb (F)

CFM Bulb 61 67 73 61 67 73 61 67 73 61 67 73

Airflow (F) MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC MBH SHC

75 84.9 72.7 94.8 55.6 98.6 36.8 78.6 69.6 91.0 53.9 97.7 35.7 72.1 66.4 84.4 51.0 95.3 34.2 65.3 63.2 76.7 47.8 90.8 32.4

80 86.9 86.9 95.1 68.8 99.8 50.9 81.9 81.9 91.4 67.7 98.8 50.2 76.6 76.6 85.0 64.9 95.8 48.2 70.9 70.9 77.4 61.7 90.9 46.3

2700 85 92.6 92.6 96.0 81.8 101.0 61.1 88.6 88.6 92.3 81.6 99.7 62.3 83.4 83.4 86.4 79.2 96.0 61.6 77.8 77.8 79.4 76.1 91.2 59.9

90 96.7 96.7 97.4 94.3 102.1 72.3 94.2 94.2 94.2 94.2 100.7 74.5 90.1 90.1 90.1 90.1 96.8 74.4 84.9 84.9 84.9 84.9 91.8 73.6

75 87.3 77.4 95.9 57.9 99.1 37.3 81.0 74.4 92.5 56.3 98.3 36.2 74.4 71.2 86.3 53.7 96.1 34.8 67.2 67.2 78.5 50.5 92.0 33.0

80 90.5 90.5 96.3 71.5 100.3 50.7 85.8 85.8 93.0 71.6 99.4 51.2 80.1 80.1 87.0 69.2 96.7 50.3 74.3 74.3 79.6 66.0 92.2 48.4

3000 85 95.2 95.2 97.4 85.3 101.5 62.2 92.2 92.2 94.2 86.5 100.5 64.1 87.3 87.3 88.9 85.0 97.2 64.2 81.6 81.6 82.3 82.1 92.6 63.5

90 98.7 98.7 98.9 98.1 102.7 74.0 96.9 96.9 96.9 96.9 101.6 77.1 93.5 93.5 93.5 93.5 98.1 77.9 88.7 88.7 88.7 88.7 93.5 78.1

75 89.3 82.0 96.7 59.5 99.4 37.8 83.3 79.1 93.7 58.7 98.7 36.8 76.5 75.9 87.8 56.3 96.7 35.4 69.8 69.8 80.1 53.1 92.9 33.7

80 92.9 92.9 97.2 73.8 100.6 54.8 88.9 88.9 94.3 75.0 99.9 52.0 83.4 83.4 88.8 73.3 97.6 52.2 77.3 77.3 81.5 70.2 93.3 50.4

3300 85 97.0 97.0 98.4 88.2 101.9 63.3 94.7 94.7 95.8 90.8 101.0 65.6 90.6 90.6 91.3 90.6 98.5 67.2 85.0 85.0 85.0 85.0 93.7 66.6

90 100.0 100.0 100.0 100.0 103.1 75.4 98.7 98.7 98.7 98.7 102.3 79.2 95.9 95.9 95.9 95.9 99.1 80.9 91.8 91.8 91.8 91.8 94.9 82.2

75 91.0 86.2 97.3 60.8 99.7 38.3 85.3 83.8 94.5 61.1 99.0 37.3 78.4 78.4 89.1 58.8 97.1 35.9 72.1 72.1 81.5 55.7 93.6 34.3

80 94.8 94.8 97.8 75.8 100.9 56.7 91.5 91.5 95.4 78.1 100.2 55.6 86.2 86.2 90.4 77.2 98.1 53.4 80.0 80.0 83.3 74.4 94.1 52.5

3600 85 98.3 98.3 99.1 90.7 102.2 64.2 96.5 96.5 97.1 94.5 101.5 66.9 93.0 93.0 93.0 93.0 99.0 68.9 87.8 87.8 87.8 87.8 94.7 69.4

90 100.9 100.9 100.9 100.8 103.5 76.8 100.0 100.0 100.0 100.0 102.7 81.1 97.7 97.7 97.7 97.7 99.9 83.5 94.0 94.0 94.0 94.0 96.1 85.9

Notes:

1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling subtract indoor fan heat.

2. MBH = Total Gross Capacity

3. SHC = Sensible Heat Capacity

20 PKGP-PRC003-EN

Performance

Data (3, 4, 5 Ton)

Table PD-7 — Direct Drive Evaporator Fan Performance — 3, 4 And 5 Ton WSC036A, WSC048A, WSC060A

External Static Pressure (Inches of Water) & Motor Power (Bhp)1

Standard Motor Oversized Motor2

Unit High Speed Low Speed High Speed Low Speed

Tons Model No. CFM ESP BHP ESP BHP ESP BHP ESP BHP

960 0.81 0.36 0.61 0.28 0.96 0.39 0.89 0.35

1020 0.77 0.37 0.57 0.28 0.94 0.41 0.86 0.47

1080 0.73 0.38 0.50 0.29 0.91 0.43 0.82 0.39

1140 0.69 0.39 0.42 0.29 0.88 0.44 0.77 0.40

3 WSC036A 1200 0.66 0.40 0.34 0.30 0.84 0.45 0.74 0.41

Horizontal 1260 0.60 0.41 0.26 0.30 0.80 0.46 0.70 0.42

1320 0.55 0.42 0.14 0.31 0.75 0.48 0.65 0.44

1380 0.49 0.42 0.05 0.31 0.70 0.49 0.59 0.45

1440 0.44 0.43 —- —- 0.64 0.52 0.54 0.48

1280 0.93 0.53 0.81 0.47 1.20 0.67 0.99 0.56

1360 0.87 0.54 0.75 0.47 1.15 0.68 0.94 0.58

1440 0.80 0.54 0.68 0.48 1.10 0.70 0.88 0.60

1520 0.73 0.55 0.60 0.48 1.05 0.73 0.81 0.63

4 WSC048A 1600 0.66 0.55 0.51 0.49 1.00 0.75 0.74 0.64

Horizontal 1680 0.57 0.56 0.38 0.49 0.95 0.78 0.65 0.66

1760 0.47 0.56 0.23 0.50 0.90 0.82 0.50 0.68

1840 0.37 0.57 0.13 0.50 0.83 0.83 0.35 0.70

1920 0.27 0.57 —- —- 0.75 0.85 —- 0.73

1600 0.90 0.78 0.82 0.64 1.20 0.90 1.05 0.85

1700 0.85 0.82 0.68 0.65 1.15 0.94 0.95 0.89

1800 0.80 0.85 0.56 0.65 1.05 0.98 0.85 0.91

1900 0.70 0.88 0.46 0.65 0.98 1.02 0.75 0.94

5 WSC060A 2000 0.60 0.90 0.30 0.66 0.90 1.05 0.65 0.95

Horizontal 2100 0.50 0.93 0.14 0.66 0.80 1.10 0.50 0.96

2200 0.40 0.95 0.05 0.67 0.70 1.12 0.35 0.96

2300 0.30 0.97 —- —- 0.60 1.17 0.15 0.97

2400 0.20 1.00 —- —- 0.48 1.20 —- —-

960 0.86 0.36 0.61 0.28 1.01 0.39 0.89 0.35

1020 0.82 0.37 0.62 0.28 0.99 0.41 0.91 0.47

1080 0.78 0.38 0.55 0.29 0.96 0.43 0.87 0.39

1140 0.74 0.39 0.47 0.29 0.93 0.44 0.82 0.40

3 WSC036A 1200 0.71 0.40 0.39 0.30 0.89 0.45 0.79 0.41

Downflow 1260 0.65 0.41 0.31 0.30 0.85 0.46 0.75 0.42

1320 0.60 0.42 0.19 0.31 0.80 0.48 0.70 0.44

1380 0.54 0.42 0.10 0.31 0.75 0.49 0.64 0.45

1440 0.49 0.43 —- —- 0.69 0.52 0.59 0.48

1280 0.98 0.53 0.86 0.47 1.25 0.67 1.04 0.56

1360 0.92 0.54 0.80 0.47 1.20 0.68 0.99 0.58

1440 0.85 0.54 0.73 0.48 1.15 0.70 0.93 0.60

1520 0.78 0.55 0.65 0.48 1.10 0.73 0.86 0.63

4 WSC048A 1600 0.71 0.55 0.56 0.49 1.05 0.75 0.79 0.64

Downflow 1680 0.62 0.56 0.43 0.49 1.00 0.78 0.70 0.66

1760 0.52 0.56 0.28 0.50 0.95 0.82 0.55 0.68

1840 0.42 0.57 0.18 0.50 0.88 0.83 0.40 0.70

1920 0.32 0.57 —- —- 0.80 0.85 —- —-

1600 0.95 0.78 0.87 0.64 1.25 0.90 1.10 0.85

1700 0.90 0.82 0.73 0.65 1.20 0.94 1.00 0.89

1800 0.85 0.85 0.61 0.65 1.10 0.98 0.90 0.91

1900 0.75 0.88 0.51 0.65 1.03 1.02 0.80 0.94

5 WSC060A 2000 0.65 0.90 0.35 0.66 0.95 1.05 0.70 0.95

Downflow 2100 0.55 0.93 0.19 0.66 0.85 1.10 0.55 0.96

2200 0.45 0.95 0.10 0.67 0.75 1.12 0.40 0.96

2300 0.35 0.97 —- —- 0.65 1.17 0.20 0.97

2400 0.25 1.00 —- —- 0.53 1.20 —- —-

Fan motor heat (MBh) = 4.39 x Fan Bhp

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all

cataloged conditions. Using the full horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor

failure. Our product’s warranty will not be affected.

Notes:

1. Data includes pressure drop due to wet coil and filters.

2. 5 ton oversized motor performance is with 12 x 11 FC blower wheel.

PKGP-PRC003-EN 21

Performance

Data (3 Ton)

Table PD-8 — Belt Drive Evaporator Fan Performance — 3 Ton — WSC036A3,A4,AW — Downflow Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied Low Static Drive (1)1-HP Standard Motor & Drive

960 — — 528 0.12 599 0.16 658 0.20 713 0.24 763 0.29 810 0.33 855 0.38 898 0.43 939 0.49

1080 — — 557 0.15 625 0.19 685 0.24 738 0.28 786 0.33 832 0.38 876 0.43 917 0.48 957 0.54

1200 — — 588 0.19 652 0.23 712 0.28 764 0.33 811 0.38 856 0.43 898 0.48 939 0.54 978 0.59

1320 552 0.18 622 0.23 681 0.27 738 0.32 790 0.38 838 0.44 882 0.49 923 0.55 962 0.60 1000 0.66

1440 588 0.23 657 0.28 713 0.33 765 0.37 817 0.43 865 0.50 909 0.56 949 0.62 987 0.68 1024 0.74

Table PD-9 — Belt Drive Evaporator Fan Performance — 3 Ton — WSC036A3,A4,AW — Horizontal Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied Low Static Drive (1)1-HP Standard Motor & Drive

960 — — 588 0.15 661 0.19 725 0.24 782 0.29 832 0.35 878 0.40 919 0.46 958 0.51 996 0.56

1080 531 0.13 622 0.18 694 0.24 756 0.29 813 0.34 864 0.40 910 0.46 954 0.52 993 0.59 1031 0.65

1200 570 0.17 654 0.23 727 0.28 787 0.34 843 0.40 895 0.46 942 0.52 986 0.59 1026 0.66 1064 0.73

1320 610 0.22 687 0.28 760 0.34 821 0.40 875 0.46 925 0.53 973 0.59 1017 0.66 1058 0.73 1095 0.81

1440 651 0.27 723 0.33 793 0.40 855 0.47 908 0.53 956 0.60 1003 0.67 1047 0.75 1088 0.82 1127 0.89

Table PD-9 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Drive

960 1032 0.62 1066 0.67 1101 0.73 1133 0.79 1166 0.86

1080 1065 0.70 1099 0.76 1132 0.82 1164 0.89 1194 0.95

1200 1099 0.80 1133 0.86 1166 0.93 1197 0.99 1227 1.06

1320 1132 0.88 1167 0.96 1200 1.04 1230 1.11 1261 1.19

1440 1164 0.97 1199 1.05 1232 1.14 1263 1.22 1294 1.30

1-HP Standard Motor &Field Supplied High Static Drive (2)

1-HP Standard Motor & Field Supplied High Static Drive (2)

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other

options/accessories.

Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

1. Field Supplied Fan Sheave AK69 required. Field Supplied Belt may be necessary.

2. Field Supplied Fan Sheave AK41 required. Field Supplied Belt may be necessary.

Factory supplied motors, in commercial equipment, are definite purpose motors,

specifically designed and tested to operate reliably and continuously at all cataloged

conditions. Using the full horsepower range of our fan motors as shown in our

tabular data will not result in nuisance tripping or premature motor failure. Our

product’s warranty will not be affected.

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other

options/accessories

Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

1. Field Supplied Fan Sheave AK69 required. Field Supplied Belt may be necessary.

2. Field Supplied Fan Sheave AK41 required. Field Supplied Belt may be necessary.

Factory supplied motors, in commercial equipment, are definite purpose motors,

specifically designed and tested to operate reliably and continuously at all cataloged

conditions. Using the full horsepower range of our fan motors as shown in our

tabular data will not result in nuisance tripping or premature motor failure. Our

product’s warranty will not be affected.

Table PD-8 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Drive

960 978 0.54 1016 0.60 1052 0.66 1086 0.72 1120 0.78

1080 995 0.59 1033 0.65 1069 0.71 1103 0.78 1136 0.84

1200 1015 0.65 1051 0.71 1086 0.77 1120 0.84 1154 0.91

1320 1036 0.72 1072 0.78 1106 0.85 1138 0.91 1171 0.98

1440 1060 0.80 1094 0.86 1128 0.93 1160 1.00 1192 1.07

1-HP Standard Motor & Field Supplied High Static Drive (2)

22 PKGP-PRC003-EN

Performance

Data (4 Ton)

Table PD-10— Belt Drive Evaporator Fan Performance — 4 Ton — WSC048A3,A4,AW — Downflow Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied 1-HP Standard Motor & Drive

Low Static Drive (1)

1280 — — 616 0.22 677 0.26 734 0.31 787 0.37 834 0.42 878 0.48 919 0.53 959 0.59 997 0.64

1440 596 0.23 663 0.29 719 0.33 772 0.38 823 0.44 871 0.51 914 0.57 954 0.63 993 0.69 1029 0.75

1600 647 0.31 711 0.37 764 0.42 813 0.47 860 0.53 906 0.59 951 0.66 992 0.74 1029 0.80 1065 0.87

1760 701 0.41 758 0.46 811 0.52 856 0.58 901 0.64 944 0.70 986 0.77 1027 0.85 1066 0.93 1102 1.00

1920 755 0.52 807 0.57 859 0.64 903 0.71 945 0.77 985 0.83 1024 0.89 1063 0.97 1101 1.05 1137 1.14

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other

options/accessories.

Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

1. Field Supplied Fan Sheave AK61 required. Field Supplied Belt may be

necessary.

Factory supplied motors, in commercial equipment, are definite purpose motors,

specifically designed and tested to operate reliably and continuously at all

cataloged conditions. Using the full horsepower range of our fan motors as

shown in our tabular data will not result in nuisance tripping or premature motor

failure. Our product’s warranty will not be affected.

Table PD-10 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Drive

1280 1033 0.70 1069 0.77 1103 0.83 1136 0.89 1170 0.96

1440 1066 0.81 1099 0.87 1133 0.94 1165 1.01 1196 1.08

1600 1099 0.93 1132 1.00 1166 1.07 1196 1.14 1228 1.21

1760 1136 1.08 1168 1.15 1200 1.22 1229 1.29 — —

1920 1172 1.23 1205 1.31 1236 1.39 — — — —

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other

options/accessories

Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

1. Field Supplied Fan Sheave AK61 required. Field Supplied Belt may be

necessary.

2. Field Supplied Fan Sheave AK41 required. Field Supplied Belt may be

necessary.

Factory supplied motors, in commercial equipment, are definite purpose motors,

specifically designed and tested to operate reliably and continuously at all

cataloged conditions. Using the full horsepower range of our fan motors as

shown in our tabular data will not result in nuisance tripping or premature motor

failure. Our product’s warranty will not be affected.

Table PD-11 — Belt Drive Evaporator Fan Performance — 4 Ton — WSC048A3,A4,AW — Horizontal Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied 1-HP Standard Motor & Drive

Low Static Drive (1)

1280 604 0.20 683 0.26 756 0.32 816 0.39 869 0.45 920 0.51 967 0.57 1011 0.64 1052 0.71 1090 0.79

1440 660 0.28 731 0.34 800 0.41 862 0.48 914 0.54 963 0.61 1009 0.68 1053 0.76 1094 0.83 1133 0.91

1600 717 0.36 783 0.43 846 0.51 907 0.58 961 0.66 1008 0.73 1053 0.81 1095 0.89 1135 0.97 1174 1.05

1760 774 0.47 837 0.54 894 0.62 952 0.70 1006 0.79 1054 0.87 1098 0.95 1139 1.04 1178 1.12 1216 1.21

1920 833 0.59 892 0.67 946 0.76 998 0.85 1050 0.94 1100 1.03 1144 1.12 1185 1.21 1224 1.30 1259 1.39

1-HP Standard Motor &Field Supplied High Static Drive (2)

Table PD-11 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Drive

1280 1125 0.86 1160 0.94 1192 1.01 1223 1.08 1254 1.15

1440 1169 0.98 1204 1.07 1237 1.15 1269 1.23 1300 1.32

1600 1211 1.13 1247 1.21 1280 1.30 1312 1.39 1343 1.48

1760 1253 1.30 1289 1.39 1322 1.47 — — — —

1920 1295 1.48 — — — — — — — —

1-HP Standard Motor &Field Supplied High Static Drive (2)

PKGP-PRC003-EN 23

Performance

Data (5 Ton)

Table PD-12 — Belt Drive Evaporator Fan Performance — 5 Ton — WSC060A3,A4,AW — Downflow Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied Low Static Drive (1) 1-HP Standard Motor & Drive

1600 — — 703 0.36 757 0.41 806 0.47 854 0.52 899 0.58 944 0.65 985 0.73 1023 0.79 1060 0.86

1800 706 0.42 760 0.47 815 0.54 861 0.60 904 0.66 947 0.72 988 0.78 1028 0.86 1067 0.94 1104 1.02

2000 773 0.57 821 0.62 873 0.69 918 0.76 958 0.83 998 0.90 1036 0.96 1073 1.02 1111 1.10 1147 1.19

2200 840 0.75 885 0.80 930 0.87 977 0.95 1016 1.03 1053 1.10 1089 1.17 1124 1.24 1158 1.31 1191 1.39

2400 909 0.96 950 1.02 990 1.08 1034 1.16 1074 1.25 1110 1.00 1143 1.42 1177 1.50 — — — —

Table PD-12 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Drive

1600 1093 0.92 1126 0.99 1160 1.06 1190 1.13 1222 1.20

1800 1138 1.10 1171 1.17 1203 1.25 1232 1.32 1262 1.39

2000 1182 1.28 1215 1.37 1246 1.46 — — — —

2200 1226 1.48 — — — — — — — —

2400 — — — — — — — — — —

Table PD-13 — Belt Drive Evaporator Fan Performance — 5 Ton — WSC060A3,A4,AW — Horizontal Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied 1-HP Standard Motor & Drive

Low Static Drive (1)

1600 707 0.35 774 0.42 837 0.50 898 0.57 953 0.65 1001 0.72 1045 0.80 1087 0.87 1129 0.95 1168 1.03

1800 778 0.48 840 0.56 897 0.64 953 0.72 1008 0.81 1058 0.89 1102 0.98 1143 1.06 1181 1.15 1219 1.23

2000 850 0.65 908 0.73 961 0.81 1012 0.90 1062 1.00 1111 1.09 1157 1.19 1198 1.28 1237 1.37 1274 1.47

2200 923 0.84 978 0.93 1028 1.02 1075 1.12 1120 1.22 1166 1.32 1211 1.43 — — — — — —

2400 997 1.07 1049 1.17 1096 1.27 1140 1.37 1183 1.48 — — ————————

Table PD-13 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor

1600 1206 1.12 1241 1.20 1275 1.28 1306 1.37 1338 1.46

1800 1256 1.32 1291 1.41 1326 1.50 — — — —

2000 — — — — — — — — — —

2200 — — — — — — — — — —

2400 — — — — — — — — — —

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standardfilters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other

options/accessories

Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

1. Field Supplied Fan Sheave AK56 required. Field Supplied Belt may be

necessary.

Factory supplied motors, in commercial equipment, are definite purpose motors,

specifically designed and tested to operate reliably and continuously at all

cataloged conditions. Using the full horsepower range of our fan motors as

shown in our tabular data will not result in nuisance tripping or premature motor

failure. Our product’s warranty will not be affected.

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other

options/accessories

Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

1. Field Supplied Fan Sheave AK56 required. Field Supplied Belt may be

necessary.

Factory supplied motors, in commercial equipment, are definite purpose motors,

specifically designed and tested to operate reliably and continuously at all

cataloged conditions. Using the full horsepower range of our fan motors as

shown in our tabular data will not result in nuisance tripping or premature motor

failure. Our product’s warranty will not be affected.

24 PKGP-PRC003-EN

Performance

Data (6 Ton)

Table PD-15 — Belt Drive Evaporator Fan Performance — 6 Ton — WSC072A3,A4,AW — Horizontal Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied 1-HP Standard Motor & Drive

Low Static Drive (1)

1920 — — 580 0.33 641 0.41 692 0.47 738 0.54 783 0.63 827 0.71 870 0.79 912 0.88 951 0.96

2160 578 0.37 623 0.43 679 0.51 731 0.59 775 0.67 817 0.74 857 0.83 896 0.93 935 1.02 974 1.12

2400 633 0.49 673 0.56 718 0.63 769 0.72 814 0.82 855 0.90 893 0.98 929 1.08 965 1.18 999 1.29

2640 688 0.64 725 0.71 762 0.79 808 0.87 853 0.98 894 1.09 931 1.17 966 1.26 1000 1.36 1032 1.47

2880 743 0.81 778 0.90 811 0.98 848 1.06 891 1.16 932 1.28 970 1.40 1004 1.49 1037 1.59 1068 1.69

Table PD-15 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard 1-HP Standard Motor & High Static Drive Kit

Motor & Drive (or 2 HP Oversized Motor & Drive)

1920 990 1.05 1026 1.14 1062 1.24 1096 1.33 1130 1.43 1160 1.52 1190 1.61 1218 1.71 1247 1.80 1273 1.90

2160 1010 1.21 1047 1.31 1082 1.40 1116 1.50 1150 1.61 1182 1.71 1211 1.81 1242 1.92 1271 2.03 1298 2.14

2400 1035 1.39 1070 1.50 1104 1.60 1137 1.70 1168 1.81 1201 1.92 1232 2.03 1261 2.14 1291 2.26 — —

2640 1065 1.59 1097 1.71 1129 1.82 1161 1.93 1192 2.05 1223 2.16 1252 2.27 — — — — — —

2880 1099 1.80 1130 1.93 1159 2.05 1188 2.18 1217 2.30 — — ————————

2-HP Oversized Motor & Drive

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other options/accessories.

1-HP Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

2-HP Fan Motor Heat (MBH) = 3.000 x Fan BHP+.5000

1. Field Supplied Fan Sheave AK84 and Belt AX34 required

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full

horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product’s warranty will not be affected.

Table PD-14— Belt Drive Evaporator Fan Performance — 6 Ton — WSC072A3,A4,AW* — Downflow Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied Low Static Drive (1)1-HP Standard Motor & Drive

1920 — — — — 588 0.35 643 0.43 693 0.50 738 0.57 782 0.65 823 0.73 862 0.81 900 0.89

2160 — — 564 0.37 618 0.44 672 0.52 721 0.60 765 0.68 806 0.76 847 0.85 885 0.93 922 1.02

2400 — — 602 0.47 652 0.54 701 0.63 750 0.72 794 0.81 834 0.90 873 0.98 909 1.08 945 1.17

2640 589 0.50 642 0.59 690 0.67 734 0.76 779 0.85 822 0.95 864 1.05 901 1.15 936 1.24 971 1.34

2880 634 0.63 682 0.74 728 0.82 770 0.91 810 1.01 851 1.11 892 1.22 930 1.33 965 1.44 999 1.54

Table PD-14— Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard 1-HP Standard Motor & High Static Drive Kit

Motor & Drive (or 2 HP Oversized Motor & Drive)

1920 937 0.98 971 1.06 1004 1.14 1037 1.22 1068 1.30 1097 1.38 1127 1.47 1154 1.55 1182 1.64 1210 1.74

2160 957 1.12 991 1.21 1024 1.30 1057 1.40 1087 1.49 1117 1.58 1146 1.67 1174 1.76 1201 1.85 1227 1.95

2400 980 1.27 1013 1.37 1046 1.47 1076 1.57 1106 1.68 1137 1.78 1166 1.89 1194 1.99 1220 2.08 1248 2.19

2640 1004 1.44 1036 1.55 1067 1.65 1098 1.77 1129 1.88 1158 1.99 1185 2.10 1214 2.22 — — — —

2880 1030 1.64 1061 1.75 1092 1.86 1123 1.98 1151 2.09 1181 2.22 ————————

2-HP Oversized Motor & Drive

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other options/accessories.

1-HP Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

2-HP Fan Motor Heat (MBH) = 3.000 x Fan BHP+.5000

1. Field Supplied Fan Sheave AK84 and Belt AX34 required.

2. Field Supplied Fan Sheave AK54 and Belt AX30.

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full

horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product’s warranty will not be affected.

2-HP Oversized Motor & Drive

1-HP Standard Motor & High Static Drive Kit (or 2-HP Oversized Motor)

2-HP Oversized Motor & Field Supplied Drive (2)

PKGP-PRC003-EN 25

Table PD-16— Belt Drive Evaporator Fan Performance — 7½-Ton — WSC090,092A3,A4,AW — Downflow Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied Low Static Drive (1) 1-HP Standard Motor & Drive

2400 — — 620 0.49 670 0.57 720 0.66 768 0.76 810 0.84 850 0.93 888 1.02 925 1.12 961 1.22

2700 622 0.57 673 0.66 719 0.74 763 0.84 807 0.94 850 1.04 889 1.14 926 1.24 961 1.34 995 1.44

3000 680 0.76 727 0.87 770 0.95 810 1.05 849 1.16 890 1.27 929 1.38 967 1.50 1000 1.61 1034 1.72

3300 739 0.98 782 1.11 823 1.21 861 1.30 897 1.41 933 1.50 969 1.66 1006 1.78 1041 1.91 1074 2.03

3600 798 1.25 838 1.39 876 1.50 913 1.61 947 1.72 980 1.84 1013 1.97 1047 2.11 1080 2.24 1113 2.38

3-HP Oversized Motor & Drive

Performance

Data (7½ Ton)

Table PD-17 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

3-HP Standard Oversized Motor & Drive

2400 1051 1.44 1085 1.54 1118 1.64 1152 1.75 1185 1.86 1215 1.97 1247 2.09 1277 2.20 1305 2.32 1333 2.43

2700 1090 1.70 1122 1.82 1153 1.94 1185 2.06 1216 2.18 1245 2.29 1274 2.40 1304 2.53 1333 2.65 1361 2.78

3000 1136 2.00 1165 2.13 1194 2.26 1223 2.39 1251 2.52 1279 2.65 1308 2.78 1336 2.91 1363 3.04 1390 3.17

3300 1187 2.39 1214 2.50 1242 2.63 1269 2.76 1296 2.90 1322 3.05 1347 3.19 1373 3.34 — — — —

3600 1239 2.84 1266 2.96 1291 3.08 1317 3.20 1343 3.34 — —

3-HP Oversized Motor & Field Supplied High Static Drive (2)

Table PD-17 — Belt Drive Evaporator Fan Performance — 7½-Ton — WSC090,092A3,A4,AW — Horizontal Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

1-HP Standard Motor & Field Supplied 1-HP Standard Motor & Drive

Low Static Drive (1)

2400 647 0.51 686 0.58 737 0.66 787 0.76 831 0.85 870 0.93 908 1.02 944 1.12 980 1.23 1015 1.33

2700 718 0.71 753 0.79 792 0.87 839 0.96 882 1.08 922 1.18 958 1.27 992 1.36 1026 1.47 1058 1.59

3000 789 0.96 822 1.04 853 1.13 892 1.22 935 1.33 974 1.45 1011 1.58 1044 1.68 1076 1.78 1106 1.88

3300 862 1.25 892 1.35 921 1.44 951 1.54 988 1.64 1026 1.76 1062 1.90 1096 2.04 1129 2.16 1158 2.27

3600 934 1.61 963 1.71 990 1.81 1016 1.92 1045 2.02 1079 2.13 1115 2.27 1148 2.41 1180 2.57 1210 2.71

3-HP Oversized Motor & Drive

3-HP Oversized Motor& Field Supplied Sheave(2)

Table PD-16— Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

3-HP Oversized Motor & Drive

2400 995 1.32 1027 1.42 1060 1.52 1091 1.62 1121 1.73 1151 1.83 1180 1.93 1207 2.04 1234 2.14 1260 2.24

2700 1027 1.55 1059 1.65 1091 1.77 1121 1.88 1151 2.00 1179 2.11 1207 2.23 1234 2.34 1261 2.46 1289 2.58

3000 1065 1.83 1095 1.94 1125 2.05 1154 2.17 1183 2.30 1211 2.42 1238 2.54 1264 2.67 1292 2.80 1317 2.93

3300 1104 2.15 1134 2.27 1163 2.40 1191 2.52 1217 2.64 1245 2.77 1272 2.90 1297 3.03 1324 3.17 1349 3.31

3600 1144 2.52 1173 2.65 1202 2.78 1229 2.91 1256 3.05 1282 3.18 1308 3.32 1332 3.45 — — — —

3-HP Oversized Motor & Field Supplied High Static Drive (3)

.

1- HP Standard Motor & Drive

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop

due to other options/accessories

1-HP Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

3-HP Fan Motor Heat (MBH) = 2.90 x Fan BHP + .500.

1. Field Supplied Fan Sheave AK79 and Belt AX34 required.

2. Field Supplied Fan Sheave AK61.

3. Field Supplied Motor Sheave 1VL40 x 7/8”, Fan Sheave AK46 and Belt AX28 required.

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed

and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower

range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature

motor failure. Our product’s warranty will not be affected.

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop

due to other options/accessories

1-HP Fan Motor Heat (MBH) = 2.829 x Fan BHP+.4024.

3-HP Fan Motor Heat (MBH) = 2.90 x Fan BHP + .500.

1. Field Supplied Fan Sheave AK79 and Belt AX34 required.

2. Field Supplied Motor Sheave 1VL40 x 7/8”, Fan Sheave AK46 and Belt AX28 required.

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed

and tested to operate reliably and continuously at all cataloged conditions. Using the full horsepower

range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature

motor failure. Our product’s warranty will not be affected.

1-HP Standard Motor & Drive

26 PKGP-PRC003-EN

Performance

Data (10 Ton)

Table PD-18 — Belt Drive Evaporator Fan Performance — 10-Ton — WSC120A3,A4,AW — Downflow Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

2-HP Standard Motor & Field Supplied Low Static Drive (1)

3200 560 0.53 601 0.63 644 0.74 682 0.85 718 0.97 754 1.10 789 1.25 822 1.38 856 1.53 887 1.67

3600 620 0.73 657 0.83 694 0.95 731 1.08 764 1.20 797 1.33 829 1.48 860 1.63 892 1.79 922 1.95

4000 680 0.97 715 1.09 747 1.21 782 1.35 814 1.49 844 1.63 874 1.77 903 1.93 932 2.09 960 2.27

4400 741 1.27 773 1.40 803 1.53 834 1.67 864 1.82 894 1.98 922 2.13 948 2.28 975 2.44 1001 2.62

4800 803 1.62 833 1.76 861 1.90 887 2.04 916 2.20 — — 972 2.55 997 2.71 1022 2.87 1046 3.04

2-HP Standard Motor & Drive 5-HP Oversized Motor & Drive

Table PD-18 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

2-HP Standard Motor & Drive

3200 917 1.82 945 1.97 973 2.14 999 2.30 1024 2.47 1048 2.65 1072 2.82 1095 3.00 1117 3.17 1140 3.36

3600 951 2.11 979 2.27 1007 2.43 1033 2.60 1059 2.78 1082 2.95 1107 3.14 1130 3.33 1152 3.52 1173 3.71

4000 988 2.44 1015 2.62 1042 2.79 1068 2.97 1093 3.15 1117 3.33 1142 3.52 1164 3.70 1187 3.91 1209 4.11

4400 1028 2.81 1053 3.00 1078 3.19 1103 3.38 1128 3.57 1152 3.77 1176 3.96 1198 4.15 1221 4.36 1243 4.56

4800 1071 3.23 1095 3.42 1119 3.62 1142 3.83 1166 4.04 1189 4.25 1212 4.46 1233 4.66 1256 4.88 1277 5.09

5-HP Oversized Motor & Drive

Table PD-19— Belt Drive Evaporator Fan Performance — 10-Ton — WSC120A3,A4,AW — Horizontal Airflow

External Static Pressure (Inches of Water)

.10 .20 .30 .40 .50 .60 .70 .80 .90 1.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

2-HP Standard Motor & Drive

3200 656 0.81 691 0.89 730 1.00 771 1.13 807 1.26 844 1.39 886 1.55 926 1.72 965 1.89 1000 2.06

3600 729 1.13 761 1.22 792 1.32 829 1.45 865 1.60 898 1.74 930 1.89 965 2.06 1002 2.24 1038 2.43

4000 802 1.52 833 1.63 860 1.73 890 1.86 923 2.01 956 2.17 986 2.30 1015 2.48 1044 2.65 1077 2.85

4400 876 1.99 905 2.12 931 2.24 955 2.35 983 2.49 1014 2.66 1045 2.84 1072 3.01 1098 3.18 1125 3.36

4800 950 2.56 977 2.70 1002 2.84 1025 2.96 1048 3.08 1074 3.24 1102 3.43 1131 3.63 1156 3.81 1181 4.00

5-HP Oversized Motor & Drive

Table PD-19 — Continued

External Static Pressure (Inches of Water)

1.10 1.20 1.30 1.40 1.50 1.60 1.70 1.80 1.90 2.00

CFM RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP

5-HP Oversized Motor & Drive

3200 1029 2.20 1057 2.35 1084 2.49 1108 2.63 1132 2.77 1155 2.91 1177 3.05 1198 3.18 1219 3.32 1239 3.46

3600 1072 2.62 1106 2.81 1134 2.98 1160 3.15 1185 3.31 1209 3.47 1231 3.63 1252 3.78 1274 3.94 1295 4.10

4000 1111 3.05 1143 3.26 1174 3.47 1204 3.68 1232 3.88 1260 4.09 1283 4.27 1306 4.46 1327 4.63 1349 4.81

4400 1152 3.55 1182 3.76 1211 3.99 1241 4.21 1270 4.44 1299 4.68 1327 4.91 1352 5.14 1377 5.37 1400 5.57

4800 1205 4.19 1229 4.39 1253 4.58 1280 4.81 1309 5.06 1336 5.31 1363 5.56 — — — — — —

5-HP Oversized Motor& Field Supplied Sheave (2)

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other options/accessories.

2-HP Fan Motor Heat (MBH) = 2.00 x Fan BHP + .500.

5-HP Fan Motor Heat (MBH) = 2.950 x Fan BHP+.470.

1. Field Supplied Motor Sheave 1VP34 x 7/8”, Fan Sheave AK69,and belt AX35 required.

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full

horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product’s warranty will not be affected.

2-HP Standard Motor & Field Supplied Low Static Drive (1)

For Standard Evaporator Fan Speed (RPM), reference Table PD-20.

Notes:

Data includes pressure drop due to standard filters and wet coils.

No accessories or options are included in pressure drop data.

Refer to Table PD-23 to determine additional static pressure drop due to other options/accessories.

2-HP Fan Motor Heat (MBH) = 3.00 x Fan BHP + .500.

5-HP Fan Motor Heat (MBH) = 2.950 x Fan BHP+.470.

1. Field Supplied Motor Sheave 1VP34 x 7/8”, Fan Sheave AK69, and belt AX35 required.

2. Field supplied Fan Sheave BK95 required.

Factory supplied motors, in commercial equipment, are definite purpose motors, specifically designed and tested to operate reliably and continuously at all cataloged conditions. Using the full

horsepower range of our fan motors as shown in our tabular data will not result in nuisance tripping or premature motor failure. Our product’s warranty will not be affected.

PKGP-PRC003-EN 27

Performance

Data

Table PD-20— Standard Motor & Sheave/Fan Speed (Rpm)

Unit 6 Turns 5 Turns 4 Turns 3 Turns 2 Turns 1 Turn

Tons Model No. Open Open Open Open Open Open Closed

3 WSC036A N/A 745 819 894 968 1043 1117

4 WSC048A N/A 833 916 1000 1083 1167 1250

5 WSC060A N/A 897 987 1077 1166 1256 1346

6 WSC072A N/A 723 779 835 890 946 1002

7½ WSC090A N/A 787 847 908 968 1029 1089

10 WSC120A N/A 723 779 835 890 946 1002

Factory set at 3 turns open.

Table PD-21— Standard Motor & High Static Drive Accessory Sheave/Fan Speed (Rpm)

Unit 6 Turns 5 Turns 4 Turns 3 Turns 2 Turns 1 Turn

Tons Model No. Open Open Open Open Open Open Closed

6 WSC072A N/A 831 895 959 1022 1086 1150

Factory set at 3 turns open.

Table PD-22 — Oversized Motor & Drive Sheave/Fan Speed (Rpm)

Unit 6 Turns 5 Turns 4 Turns 3 Turns 2 Turns 1 Turn

Tons Model No. Open Open Open Open Open Open Closed

6 WSC072A N/A 958 1022 1086 1150 1214 1278

7½ WSC090A N/A 958 1022 1086 1150 1214 1278

10 WSC120A 947 1015 1082 1150 1217 1285 N/A

Factory set at 3 turns open.

28 PKGP-PRC003-EN

Performance

Data

Table PD-24— Electric Heater Voltage

Correction Factors (Applicable to

Auxiliary Heat Capacity)

Nominal Distribution Capacity

Voltage Voltage Multiplier

208 0.751

240 230 0.918

240 1.000

440 0.840

480 460 0.918

480 1.000

540 0.810

600 575 0.918

600 1.000

Table PD-25 — Outdoor Sound Power Level - dB (ref. 10

-12

Watts)

Unit Octave Center Frequency Overall

Tons Model No. 63. 125 250 500 1000 2000 4000 8000 dBA

3 WSC036A 85 82 80 79 77 73 69 68 82

4,5 WSC048,060A 95 88 84 83 80 77 74 70 85

6 WSC072A 92 95 91 88 84 80 75 68 90

7½ WSC090A 91 95 91 88 84 79 75 68 90

10 WSC120A 94 89 87 85 84 78 75 69 88

Note:

Tests follow ARI270-95.

Table PD-23— Static Pressure Drops Through Accessories (Inches Water Column)

Economizer with Electric Heater

Unit Standard Standard OA/RA Dampers2Accessory (KW)3

Tons Model No. CFM Filters1 Pleated Filters 100% OA 100% RA 100%OA 100%RA 5-6 9-15 17-36 54

Downflow Horizontal

960 0.04 0.06 0.05 0.01 0.05 0.00 .013 .016 .019 —

3 WSC036A 1200 0.06 0.09 0.07 0.02 0.07 0.01 .020 .025 .030 —

1440 0.08 0.12 0.10 0.03 0.10 0.01 .029 .036 .043 —

1280 0.04 0.06 0.08 0.03 0.08 0.01 .023 .029 .034 —

4 WSC048A 1600 0.05 0.09 0.12 0.04 0.12 0.01 .036 .045 .053 —

1920 0.08 0.12 0.17 0.06 0.17 0.02 .052 .064 .077 —

1600 0.05 0.09 0.12 0.04 0.12 0.01 .036 .045 .053 —

5 WSC060A 2000 0.09 0.13 0.18 0.07 0.18 0.02 .056 .070 .083 —

2400 0.12 0.18 0.26 0.10 0.26 0.04 .081 .100 .120 —

1920 0.04 0.07 0.10 0.01 0.06 0.02 0.02 0.011 0.021 —

6 WSC072A 2400 0.06 0.09 0.11 0.02 0.08 0.02 0.02 0.020 0.034 —

2880 0.09 0.12 0.13 0.04 0.10 0.04 0.04 0.033 0.052 —

2400 0.06 0.09 0.11 0.02 0.08 0.02 0.02 0.020 0.034 —

7½ WSC090A 3000 0.10 0.13 0.14 0.05 0.12 0.05 0.05 0.042 0.063 —

3600 0.14 0.18 0.21 0.07 0.25 0.08 0.08 0.077 0.102 —

3200 0.07 0.10 0.17 0.05 0.14 0.05 0.05 0.028 0.036 0.042

10 WSC120A 4000 0.11 0.15 0.26 0.07 0.30 0.08 0.08 0.045 0.056 0.070

4800 0.16 0.20 0.34 0.09 0.35 0.10 0.10 0.065 0.081 0.106

Notes:

1. Tested with standard filters (3-5 tons 1", 6-10 tons 2”). Difference in pressure drop should be considered with utilizing optional 2” pleated filters.

2. OA = Outside Air and RA = Return Air.

3. Nominal KW ratings at 240, 480, 600 volts.

PKGP-PRC003-EN 29

Table PD-26 — 3 Ton Single Phase Heating Capacities (Net) WSC036A1 At 1200 CFM

Outdoor Instantaneous Heating Capacity (Btuh/1000) Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp at Indicated Indoor Dry Bulb Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80 60 70 75 80

-8 9.9 8.8 8.1 7.5 8.9 7.9 7.3 6.8 2.32 2.36 2.38 2.39

-3 12.0 10.8 10.2 9.5 10.8 9.7 9.2 8.6 2.42 2.47 2.49 2.51

2 14.2 12.9 12.3 11.6 12.8 11.6 11.1 10.4 2.51 2.57 2.60 2.62

7 16.5 15.2 14.5 13.8 14.9 13.7 13.1 12.4 2.60 2.67 2.71 2.73

12 18.8 17.5 16.8 16.1 16.9 15.8 15.1 14.5 2.69 2.77 2.81 2.84

17 21.1 19.9 19.2 18.5 19.0 17.9 17.3 16.7 2.77 2.87 2.91 2.95

22 23.5 22.2 21.5 20.9 21.2 20.0 19.4 18.8 2.85 2.96 3.01 3.06

27 26.1 24.6 23.9 23.1 23.5 22.1 21.5 20.8 2.94 3.05 3.11 3.16

32 28.7 27.2 26.4 25.6 25.8 24.5 23.8 23.0 3.02 3.15 3.21 3.27

37 31.3 29.7 28.9 28.1 28.2 26.7 26.0 25.3 3.11 3.25 3.32 3.38

42 33.9 32.2 31.4 30.6 30.5 29.0 28.3 27.5 3.20 3.35 3.42 3.50

47 36.6 34.8 33.9 33.1 36.6 34.8 33.9 33.1 3.29 3.45 3.53 3.61

52 39.2 37.4 36.5 35.6 39.2 37.4 36.5 35.6 3.39 3.57 3.65 3.74

57 41.9 38.7 37.8 36.8 41.9 38.7 37.8 36.8 3.49 3.66 3.75 3.85

62 43.2 41.3 40.4 39.4 43.2 41.3 40.4 39.4 3.57 3.78 3.89 3.99

67 45.9 43.9 42.9 41.9 45.9 43.9 42.9 41.9 3.69 3.92 4.02 4.13

72 48.6 46.5 45.5 44.4 48.6 46.5 45.5 44.4 3.81 4.05 4.17 4.28

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD relative humidity and demand defrost cycle.

Table PD-27 — 3 Ton Three Phase Heating Capacities (Net) WSC036A3, A4, AW At 1200 CFM

Outdoor Instantaneous Heating Capacity (Btuh/1000) Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80 60 70 75 80

-8 9.6 8.6 8.1 7.5 8.6 7.7 7.3 6.8 2.14 2.21 2.23 2.25

-3 11.7 10.7 10.1 9.5 10.5 9.6 9.1 8.6 2.25 2.32 2.35 2.38

2 13.9 12.8 12.3 11.6 12.5 11.5 11.1 10.4 2.36 2.44 2.47 2.50

7 16.3 15.1 14.5 13.9 14.7 13.6 13.1 12.5 2.46 2.54 2.58 2.62

12 18.6 17.4 16.8 16.1 16.7 15.7 15.1 14.5 2.55 2.65 2.69 2.73

17 20.9 19.8 19.2 18.5 18.8 17.8 17.3 16.7 2.64 2.75 2.80 2.85

22 23.4 22.1 21.5 20.8 21.1 19.9 19.4 18.7 2.73 2.85 2.90 2.95

27 26.0 24.6 23.9 23.2 23.4 22.1 21.5 20.9 2.82 2.95 3.00 3.06

32 28.6 27.2 26.4 25.7 25.7 24.5 23.8 23.1 2.91 3.04 3.11 3.17

37 31.2 29.7 28.9 28.2 28.1 26.7 26.0 25.4 3.00 3.14 3.21 3.28

42 33.9 32.2 31.4 30.6 30.5 29.0 28.3 27.5 3.09 3.24 3.32 3.39

47 36.5 34.8 34.0 33.1 36.5 34.8 34.0 33.1 3.18 3.34 3.42 3.50

52 39.2 37.4 36.5 35.6 39.2 37.4 36.5 35.6 3.28 3.45 3.53 3.62

57 41.8 38.7 37.8 36.8 41.8 38.7 37.8 36.8 3.37 3.53 3.63 3.72

62 43.2 41.3 40.3 39.3 43.2 41.3 40.3 39.3 3.44 3.65 3.75 3.85

67 45.8 43.9 42.9 41.8 45.8 43.9 42.9 41.8 3.55 3.76 3.87 3.98

72 48.5 46.4 45.4 44.3 48.5 46.4 45.4 44.3 3.65 3.88 4.00 4.11

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD relative humidity and demand defrost cycle.

Performance

Data (3 Ton)

30 PKGP-PRC003-EN

Table PD-29 — 4 Ton Single Phase Heating Capacities (Net) WSC048A3,A4,AW At 1600 CFM

Outdoor Instantaneous Heating Capacity (Btuh/1000) Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F 60 70758060 7075 8060707580

-8 17.4 17.0 16.8 16.6 15.7 15.3 15.1 14.9 3.61 3.99 4.22 4.48

-3 19.5 19.1 18.8 18.6 17.6 17.2 16.9 16.7 3.57 3.96 4.20 4.48

2 21.9 21.3 21.2 21.1 19.7 19.2 19.1 19.0 3.65 4.02 4.24 4.50

7 24.3 23.7 23.5 23.4 21.9 21.3 21.2 21.1 3.69 4.05 4.27 4.52

12 27.0 26.3 26.1 25.9 24.3 23.7 23.5 23.3 3.73 4.09 4.31 4.54

17 29.7 28.9 28.7 28.5 26.7 26.0 25.8 25.7 3.78 4.14 4.35 4.58

22 32.5 31.7 31.4 31.1 29.3 28.5 28.3 28.0 3.83 4.19 4.40 4.62

27 35.5 34.6 34.3 33.9 32.0 31.1 30.9 30.5 3.89 4.24 4.45 4.67

32 38.6 37.7 37.3 36.9 34.7 33.9 33.6 33.2 3.95 4.30 4.51 4.72

37 41.7 40.7 40.2 39.8 37.5 36.6 36.2 35.8 4.01 4.37 4.57 4.78

42 44.8 43.7 43.2 42.7 40.3 39.3 38.9 38.4 4.08 4.44 4.64 4.85

47 48.0 46.8 46.3 45.7 48.0 46.8 46.3 45.7 4.16 4.52 4.72 4.93

52 51.2 49.9 49.3 48.7 51.2 49.9 49.3 48.7 4.25 4.61 4.81 5.01

57 54.4 53.0 52.3 51.7 54.4 53.0 52.3 51.7 4.35 4.71 4.90 5.10

62 57.6 56.0 55.3 54.5 57.6 56.0 55.3 54.5 4.45 4.81 5.00 5.20

67 57.4 55.7 54.8 53.9 57.4 55.7 54.8 53.9 4.45 4.79 4.97 5.16

72 60.7 58.8 57.9 57.0 60.7 58.8 57.9 57.0 4.58 4.93 5.11 5.30

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD relative humidity and demand defrost cycle.

Table PD-28 — 4Ton Three Phase Heating Capacities (Net) WSC048A1 At 1600 CFM

Outdoor Instantaneous Heating Capacity (Btuh/1000) Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80 60 70 75 80

-8 17.2 16.9 16.8 16.6 15.5 15.2 15.1 14.9 3.78 4.11 4.30 4.51

-3 19.5 19.0 18.9 18.8 17.6 17.1 17.0 16.9 3.73 4.07 4.26 4.49

2 21.8 21.3 21.1 21.0 19.6 19.2 19.0 18.9 3.82 4.14 4.34 4.55

7 24.4 23.8 23.5 23.3 22.0 21.4 21.2 21.0 3.86 4.18 4.38 4.59

12 27.0 26.3 26.0 25.8 24.3 23.7 23.4 23.2 3.90 4.23 4.43 4.63

17 29.8 29.0 28.7 28.4 26.8 26.1 25.8 25.6 3.96 4.28 4.48 4.68

22 32.7 31.8 31.4 31.1 29.4 28.6 28.3 28.0 4.01 4.34 4.53 4.74

27 35.7 34.7 34.3 33.9 32.1 31.2 30.9 30.5 4.07 4.39 4.59 4.79

32 38.8 37.7 37.3 36.8 34.9 33.9 33.6 33.1 4.13 4.46 4.65 4.85

37 41.8 40.7 40.2 39.7 37.6 36.6 36.2 35.7 4.19 4.52 4.72 4.92

42 44.9 43.8 43.2 42.7 40.4 39.4 38.9 38.4 4.26 4.60 4.79 4.99

47 48.1 46.8 46.2 45.6 48.1 46.8 46.2 45.6 4.33 4.68 4.87 5.07

52 51.3 49.9 49.2 48.6 51.3 49.9 49.2 48.6 4.42 4.76 4.95 5.15

57 54.4 52.9 52.2 51.5 54.4 52.9 52.2 51.5 4.51 4.85 5.04 5.24

62 57.5 55.9 55.1 54.3 57.5 55.9 55.1 54.3 4.60 4.95 5.14 5.34

67 57.3 55.5 54.6 53.7 57.3 55.5 54.6 53.7 4.58 4.92 5.10 5.29

72 60.5 58.5 57.6 56.7 60.5 58.5 57.6 56.7 4.70 5.04 5.22 5.42

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD relative humidity and demand defrost cycle.

Performance

Data (4 Ton)

PKGP-PRC003-EN 31

Table PD-31 — 5 Ton Three Phase Heating Capacities (Net) WSC060A3, A4, AW At 2000 CFM

Outdoor Instantaneous Heating Capacity (Btuh/1000) Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80 60 70 75 80

-8 21.1 20.1 19.7 19.4 19.0 18.1 17.7 17.5 4.30 4.69 4.90 5.11

-3 24.0 23.0 22.6 22.3 21.6 20.7 20.3 20.1 4.39 4.78 4.98 5.19

2 27.0 26.0 25.8 25.6 24.3 23.4 23.2 23.0 4.48 4.86 5.06 5.27

7 30.3 29.4 29.0 28.8 27.3 26.5 26.1 25.9 4.57 4.94 5.15 5.35

12 33.8 32.8 32.4 32.0 30.4 29.5 29.2 28.8 4.65 5.03 5.23 5.45

17 37.4 36.3 35.8 35.4 33.7 32.7 32.2 31.9 4.74 5.12 5.32 5.54

22 41.1 39.8 39.3 38.9 37.0 35.8 35.4 35.0 4.83 5.21 5.42 5.64

27 44.9 43.5 42.9 42.5 40.4 39.2 38.6 38.3 4.92 5.31 5.52 5.75

32 48.7 47.3 46.7 46.2 43.8 42.6 42.0 41.6 5.02 5.41 5.63 5.86

37 52.5 51.0 50.4 49.8 47.3 45.9 45.4 44.8 5.12 5.52 5.74 5.97

42 56.4 54.8 54.2 53.6 50.8 49.3 48.8 48.2 5.23 5.63 5.86 6.09

47 60.3 58.8 58.1 57.4 60.3 58.8 58.1 57.4 5.34 5.75 5.98 6.22

52 64.4 62.8 62.0 61.3 64.4 62.8 62.0 61.3 5.46 5.88 6.11 6.35

57 68.4 63.6 66.0 61.9 68.4 63.6 66.0 61.9 5.59 5.90 6.25 6.35

62 69.4 67.6 66.7 65.7 69.4 67.6 66.7 65.7 5.64 6.05 6.28 6.51

67 73.5 71.6 70.6 69.6 73.5 71.6 70.6 69.6 5.79 6.21 6.44 6.68

72 77.7 75.7 74.6 73.5 77.7 75.7 74.6 73.5 5.95 6.38 6.61 6.85

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD relative humidity and demand defrost cycle.

Performance

Data (5 Ton)

Table PD-30 — 5 Ton Single Phase Heating Capacities (Net) WSC60A1 At 2000 CFM

Outdoor Instantaneous Heating Capacity (Btuh/1000) Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80 60 70 75 80

-8 21.4 20.4 20.0 19.7 19.3 18.4 18.0 17.7 4.44 4.82 5.02 5.22

-3 24.3 23.3 22.9 22.6 21.9 21.0 20.6 20.3 4.53 4.90 5.10 5.31

2 27.3 26.3 25.9 25.6 24.6 23.7 23.3 23.0 4.62 4.99 5.19 5.40

7 30.5 29.5 29.0 28.7 27.5 26.6 26.1 25.8 4.71 5.08 5.28 5.49

12 33.8 32.8 32.3 31.9 30.4 29.5 29.1 28.7 4.81 5.18 5.38 5.59

17 37.2 36.2 35.7 35.3 33.5 32.6 32.1 31.8 4.90 5.28 5.48 5.70

22 40.9 39.8 39.2 38.8 36.8 35.8 35.3 34.9 5.00 5.38 5.58 5.80

27 44.6 43.4 42.9 42.3 40.1 39.1 38.6 38.1 5.10 5.48 5.69 5.92

32 48.5 47.2 46.6 46.0 43.7 42.5 41.9 41.4 5.21 5.59 5.81 6.03

37 52.4 51.0 50.4 49.7 47.2 45.9 45.4 44.7 5.32 5.70 5.92 6.15

42 56.3 54.8 54.2 53.4 50.7 49.3 48.8 48.1 5.43 5.82 6.05 6.28

47 60.3 58.8 58.0 57.2 60.3 58.8 58.0 57.2 5.55 5.95 6.17 6.41

52 64.4 62.8 61.9 61.0 64.4 62.8 61.9 61.0 5.67 6.09 6.31 6.55

57 68.5 63.6 65.8 61.7 68.5 63.6 65.8 61.7 5.81 6.11 6.46 6.56

62 69.5 67.6 66.5 65.4 69.5 67.6 66.5 65.4 5.86 6.27 6.50 6.73

67 73.6 71.5 70.4 69.2 73.6 71.5 70.4 69.2 6.02 6.44 6.67 6.90

72 77.7 75.4 74.3 73.1 77.7 75.4 74.3 73.1 6.19 6.61 6.84 7.08

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD relative humidity and demand defrost cycle.

32 PKGP-PRC003-EN

(6 Ton)

Performance

Data

Table PD-32 — 6 Ton Heating Capacities (Net) WSC72A At 2400 CFM Downflow Configuration

Outdoor Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80

--8 23.9 23.4 23.2 23.0 4.40 4.75 4.95 5.17

-3 26.4 26.0 25.8 25.6 4.45 4.81 5.01 5.24

2 29.3 28.8 28.6 28.4 4.52 4.88 5.09 5.31

7 32.3 31.8 31.6 31.4 4.59 4.95 5.17 5.40

12 35.6 35.1 34.8 34.5 4.66 5.04 5.25 5.49

17 39.1 38.5 38.2 37.9 4.74 5.12 5.34 5.58

22 42.8 42.1 41.8 41.4 4.83 5.22 5.44 5.68

27 46.5 45.7 45.5 45.1 4.93 5.32 5.54 5.79

32 50.5 49.7 49.2 48.8 5.02 5.43 5.66 5.91

37 54.7 53.7 53.2 52.7 5.13 5.54 5.77 6.03

42 59.0 57.8 57.3 56.7 5.23 5.65 5.89 6.15

47 70.0 68.6 67.9 67.2 5.56 6.01 6.27 6.55

52 75.1 73.5 72.7 72.0 5.69 6.15 6.41 6.70

57 80.3 78.5 77.6 76.8 5.82 6.29 6.55 6.84

62 85.6 83.6 82.6 81.7 5.96 6.43 6.70 7.00

67 91.0 88.8 87.7 86.6 6.10 6.58 6.86 7.15

72 96.8 94.3 93.1 91.8 6.26 6.75 7.03 7.33

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this

condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70%

OD relative humidity and demand defrost cycle.

Table PD-33— 6 Ton Heating Capacities (Net) WSC072A At 2400 CFM Horizontal Configuration

Outdoor Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80

-8 24.2 23.7 23.5 23.3 4.48 4.83 5.03 5.25

-3 26.7 26.2 26.0 25.8 4.54 4.89 5.09 5.32

2 29.5 29.1 28.8 28.6 4.60 4.96 5.17 5.39

7 32.6 32.1 31.9 31.6 4.67 5.03 5.25 5.47

12 35.9 35.3 35.1 34.8 4.74 5.12 5.33 5.56

17 39.4 38.8 38.5 38.2 4.82 5.20 5.42 5.66

22 43.1 42.4 42.0 41.7 4.91 5.30 5.52 5.76

27 46.8 46.0 45.8 45.4 5.01 5.40 5.62 5.87

32 50.8 49.9 49.5 49.1 5.11 5.51 5.74 5.99

37 55.0 54.0 53.5 53.0 5.21 5.62 5.85 6.11

42 59.2 58.1 57.5 57.0 5.31 5.73 5.97 6.23

47 70.3 68.9 68.2 67.5 5.64 6.09 6.35 6.63

52 75.4 73.8 73.0 72.2 5.77 6.23 6.49 6.77

57 80.6 78.8 77.9 77.1 5.90 6.36 6.63 6.92

62 85.9 83.9 82.9 81.9 6.04 6.51 6.78 7.07

67 91.3 89.0 88.0 86.9 6.18 6.66 6.93 7.23

72 97.1 94.5 93.3 92.1 6.34 6.83 7.11 7.40

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this

condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70%

OD relative humidity and demand defrost cycle.

PKGP-PRC003-EN 33

(7½ Ton)

Performance

Data

Table PD-35— 7½ Ton Heating Capacities (Net) WSC090A At 3000 CFM Horizontal Configuration

Outdoor Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80

-8 33.7 32.2 31.7 31.3 7.0 7.3 7.5 7.7

-3 36.8 35.4 34.9 34.6 7.0 7.3 7.5 7.8

2 40.1 38.8 38.4 38.1 7.0 7.3 7.6 7.8

7 43.6 42.5 42.1 41.8 7.0 7.4 7.6 7.9

12 47.4 46.3 45.9 45.6 7.0 7.4 7.7 8.0

17 51.4 50.4 50.0 49.7 7.1 7.5 7.8 8.1

22 55.8 54.7 54.3 53.9 7.1 7.6 7.9 8.2

27 60.5 59.4 58.9 58.4 7.2 7.7 8.0 8.3

32 65.5 64.4 63.8 63.3 7.3 7.8 8.1 8.4

37 70.6 69.4 68.8 68.2 7.3 7.9 8.2 8.6

42 75.8 74.5 73.8 73.2 7.4 8.0 8.4 8.7

47 90.4 88.8 88.0 87.2 7.6 8.2 8.5 8.9

52 96.9 95.1 94.2 93.3 7.7 8.3 8.7 9.1

57 103.5 101.5 100.6 99.6 7.8 8.5 8.8 9.2

62 110.3 108.1 107.1 106.0 8.0 8.6 9.0 9.4

67 117.2 114.9 113.7 112.5 8.2 8.8 9.2 9.6

72 124.3 121.7 120.5 119.2 8.3 9.0 9.4 9.8

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this

condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70%

OD relative humidity and demand defrost cycle.

Table PD-34 — 7½ Ton Heating Capacities (Net) WSC090A At 3000 CFM Downflow Configuration

Outdoor Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80

-8 33.3 31.8 31.2 30.9 6.9 7.2 7.4 7.7

-3 36.3 35.0 34.5 34.2 6.9 7.2 7.4 7.7

2 39.7 38.4 38.0 37.7 6.9 7.2 7.5 7.8

7 43.2 42.2 41.7 41.4 6.9 7.3 7.6 7.9

12 47.0 45.9 45.5 45.2 6.9 7.4 7.6 7.9

17 51.1 50.1 49.7 49.3 7.0 7.4 7.7 8.0

22 55.4 54.4 54.0 53.6 7.0 7.5 7.8 8.1

27 60.2 59.1 58.6 58.2 7.1 7.6 7.9 8.3

32 65.3 64.1 63.6 63.1 7.2 7.7 8.0 8.4

37 70.4 69.1 68.5 68.0 7.3 7.8 8.2 8.5

42 75.6 74.3 73.6 73.0 7.4 8.0 8.3 8.7

47 90.2 88.6 87.8 87.0 7.5 8.1 8.5 8.8

52 96.7 94.9 94.0 93.2 7.6 8.2 8.6 9.0

57 103.4 101.4 100.5 99.5 7.8 8.4 8.8 9.2

62 110.2 108.1 107.0 106.0 7.9 8.6 9.0 9.4

67 117.2 114.8 113.6 112.5 8.1 8.8 9.2 9.6

72 124.3 121.7 120.5 119.1 8.3 9.0 9.4 9.8

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions,subtract fan heat at this condition

and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70% OD

relative humidity and demand defrost cycle.

34 PKGP-PRC003-EN

Performance

Data (10 Ton)

Table PD-36— 10 Ton Heating Capacities (Net) WSC120A At 4000 CFM Downflow Configuration

Outdoor Inagrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80

8 39.6 39.4 39.4 39.5 7.15 7.76 8.11 8.49

-3 43.3 43.0 43.0 43.0 7.22 7.83 8.18 8.56

2 47.3 47.0 46.9 46.9 7.30 7.91 8.26 8.64

7 51.7 51.3 51.2 51.1 7.39 8.00 8.35 8.72

12 56.4 55.8 55.7 55.5 7.48 8.09 8.44 8.82

17 61.3 60.7 60.4 60.3 7.56 8.17 8.53 8.91

22 66.6 65.8 65.5 65.2 7.65 8.27 8.62 9.01

27 72.2 71.3 70.9 70.5 7.74 8.36 8.72 9.11

32 78.1 77.0 76.5 76.1 7.83 8.46 8.82 9.21

37 83.1 82.9 82.3 81.8 7.89 8.56 8.93 9.32

42 90.5 89.0 88.3 87.7 8.02 8.67 9.04 9.44

47 111.7 109.8 108.9 108.0 8.93 9.68 10.11 10.57

52 119.8 117.6 116.5 115.5 9.05 9.82 10.25 10.72

57 128.1 125.6 124.4 123.3 9.18 9.96 10.40 10.88

62 136.7 133.8 132.5 131.2 9.32 10.11 10.56 11.05

67 145.3 142.1 141.0 139.5 9.46 10.27 10.75 11.24

72 155.2 151.6 149.9 148.3 9.66 10.48 10.95 11.45

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this

condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70%

OD relative humidity and demand defrost cycle.

Table PD-37— 10 Ton Heating Capacities (Net) WSC120A At 4000 CFM Horizontal Configuration

Outdoor Integrated Heating Capacity (Btuh/1000) Total Power in Kilowatts at

Temp. at Indicated Indoor Dry Bulb Temp.1Indicated Indoor Dry Bulb Temp.

F. 60 70 75 80 60 70 75 80

-8 40.0 39.7 39.7 39.8 7.24 7.85 8.20 8.58

-3 43.6 43.3 43.3 43.3 7.32 7.93 8.27 8.65

2 47.7 47.3 47.2 47.2 7.40 8.00 8.35 8.73

7 52.1 51.6 51.5 51.4 7.49 8.09 8.44 8.81

12 56.7 56.2 56.0 55.8 7.57 8.18 8.53 8.90

17 61.7 61.0 60.8 60.6 7.66 8.26 8.62 9.00

22 66.9 66.1 65.8 65.5 7.74 8.36 8.71 9.09

27 72.5 71.6 71.2 70.8 7.83 8.45 8.81 9.19

32 78.5 77.3 76.8 76.4 7.92 8.55 8.91 9.30

37 83.4 83.2 82.6 82.1 7.98 8.65 9.01 9.41

42 90.8 89.3 88.6 88.0 8.11 8.75 9.12 9.52

47 112.0 110.1 109.2 108.3 9.01 9.76 10.19 10.65

52 120.1 117.8 116.8 115.8 9.14 9.90 10.33 10.80

57 128.4 125.9 124.6 123.5 9.27 10.04 10.48 10.96

62 137.0 134.1 132.7 131.5 9.40 10.19 10.64 11.12

67 145.6 142.3 141.2 139.8 9.55 10.35 10.82 11.31

72 155.4 151.8 150.2 148.5 9.74 10.56 11.03 11.52

For other airflow conditions, see heating capacity correction factor (Table PD-39).

Net heating capacity and power input includes indoor fan heat at ARI esp. To obtain net heating at other conditions, subtract fan heat at this

condition and add fan heat at new condition.

Note:

1. Integrated heating capacities and powers include the effects of defrost in the frost region. All heating capacities and power (kw) are at 70%

OD relative humidity and demand defrost cycle.

PKGP-PRC003-EN 35

Table PD-39 —Electric Heater Voltage

Correction Factors (Applicable to Auxiliary

Heat Capacity)

Nominal Distribution Capacity

Voltage Voltage Multiplier

208 0.751

240 230 0.918

240 1.000

440 0.840

480 460 0.918

480 1.000

540 0.810

600 575 0.918

600 1.000

Performance

Data

Table PD-38 — Auxiliary Electric Heat Capacity

Total2Stage 1 Stage 2

Unit KW MBh No. of KW MBh KW MBh

Tons Model No. Input1Output1Stages Input1Output1Input1Output1

5.00 17.07 1 5.00 17.07 — —

WSC036A1 10.00 34.14 2 5.00 17.07 5.00 17.07

13.80 47.11 2 8.80 30.04 5.00 17.07

36.00 20.48 1 6.00 20.48 — —

WSC036A3, A4 12.00 40.97 2 6.00 20.48 6.00 20.48

17.40 59.40 2 8.70 29.70 8.70 29.70

5.00 17.07 1 5.00 17.07 — —

4, 5 WSC048, 060A1 10.00 34.14 2 5.00 17.07 5.00 17.07

13.80 47.11 2 8.80 30.04 5.00 17.07

17.60 60.09 2 8.80 30.04 8.80 30.04

6.00 20.48 1 6.00 20.48 — —

4 WSC048A3, A4, AW 12.00 40.97 2 6.00 20.48 6.00 20.48

17.40 59.40 2 8.70 29.70 8.70 29.70

6.00 20.48 1 6.00 20.48 — —

5 WSC060A3, A4, AW 12.00 40.97 2 6.00 20.48 6.00 20.48

17.40 59.40 2 8.70 29.70 8.70 29.70

23.00 78.52 2 14.30 48.82 8.70 29.70

9.00 30.73 1 9.00 30.73 — —

WSC072A3, A4, AW 18.00 61.45 1 18.00 61.45 — —

6 27.00 92.18 2 18.00 61.45 9.00 30.73

36.00 122.90 2 18.00 61.45 18.00 61.45

9.00 30.73 1 9.00 30.73 — —

7½ WSC090A3, A4, AW 18.00 61.45 1 18.00 61.45 — —

27.00 92.18 2 18.00 61.45 9.00 30.73

36.00 122.90 2 18.00 61.45 18.00 61.45

8.00 61.45 1 18.00 61.45 — —

10 WSC120A3, A4, AW 27.00 92.18 2 18.00 61.45 9.00 30.73

36.00 122.90 2 18.00 61.45 18.00 61.45

54.00 184.36 2 36.00 122.90 18.00 61.45

Notes:

1. Does not include indoor fan power or heat.

2. Heaters are rated at 240v, 480v. and 600v. For other than rated voltage, CAP =(Voltage )2 x rated cap.

Rated Voltage

36 PKGP-PRC003-EN

Table PD-42 — Electric Heater Temperature Rise Correction Factors

% Variation From Nominal CFM - 20 - 15 - 10 - 5 0 +5 +10 +15 +20

Temperature Rise Multiplier 1.25 1.17 1.11 1.05 1.00 0.95 0.91 0.87 0.83

Performance

Data

Table PD-41 — 6-10 Tons Air Temperature Rise Across Electric Heaters (Degrees F)

6 Ton 7½ Ton 10 Ton

2000 3000 CFM 4000 CFM

KW Stages WSC072A3, A4, AW WSC090A3, A4, AW WS120A3,A4,AW

9.00 1 14.2 9.5 —

18.00 1 28.5 19.0 14.2

27.00 2 42.7 28.5 21.3

36.00 2 56.9 137.9 28.5

54.00 2 — — 42.7

For minimum design airflow, see airflow performance table for each unit.

To calculate temp rise at different air flow, use following formula:

Temp. Rise across Elect. Htr =

Note:

1. Minimum allowable aiflow for a 6 ton with a 36.0 KW heater is 2450 cfm.

kWx3414

1.08xCFM

Table PD-40 — Air Temperature Rise Across Electric Heaters (Degree F)

3 Ton 4 Ton 5 Ton

1200 CFM

1

1600 CFM

2

2000 CFM

3

Single Phase Three Phase Single Phase Three Phase Single Phase Three Phase

KW Stages WSC036A11 WSC036A3,A4,AW WSC048A1 WSC048A3,A4,AW WSC060A1 WSC060A3,A4,AW

5.00 1 13.2 — 9.9 — 7.9 —

6.00 1 — 15.8 — 11.9 — 9.5

10.00 2 26.3 — 19.8 — 15.8 —

12.00 2 — 31.6 — 23.7 — 19.0

13.80 2 36.4 — 27.3 — 21.8 —

17.40 2 — 45.8 — 34.4 — 27.5

17.60 2 — — 34.8 — 27.8 —

23.00 2 — — — — — 36.4

For minimum design airflow, see airflow performance table for each unit.

To calculate temp rise at different air flow, use following formula:

Temp. Rise across Elect. Htr =

Notes:

1. The minimum allowable airflow for a 3 ton with a 17.4 KW heater is 1020 CFM.

2. The minimum allowable airflow for a 4 ton with a 17.4 or 17.6 KW heater is 1440 CFM.

3. The minimum allowable airflow for a 5 ton with a 23.0 KW heater is 1900 CFM.

kWx3414

1.08xCFM

PKGP-PRC003-EN 37

Controls

ReliaTel™ Controlled Units

Zone Sensors are the building

occupant’s comfort control devices for

Precedent™ units with the Micro control:

Manual Changeover

Heat, Cool or Off System Switch. Fan

Auto or Off Switch.

One temperature

setpoint lever.

Manual/Automatic Changeover

Auto, Heat, Cool or Off System Switch.

Fan Auto or Off Switch. Two temperature

setpoint levers.

Optional Status

Indication LED

lights, System On,

Heat, Cool, or

Service.

Remote Sensor

Sensor(s) available for all zone sensors to

provide remote

sensing capabilities.

Integrated ComfortTM System

Sensor(s) available with optional

temperature adjustment and override

buttons to provide

central control

through a Trane

Integrated

ComfortTM system.

Dual Thermistor Remote Zone Sensor

This sensor will allow the customer to

reduce the total number of remote

sensors to obtain space temperature

averaging. This sensor should be utilized

with ReliaTel controls.

Digital Display Zone Sensor

The Digital LCD (Liquid Crystal Display)

zone sensor has the look and functionality

of standard zone

sensor s. This sensor

includes a digital

display of set point

adjustment and

space temperature

in F (Fahrenheit) or C

(Celsius). Includes

FAN and SYSTEM

buttons (supports

the service functions

of the standard

sensor). E-squared

memory stores last

programmed set points. Requires 24 VAC

(Volts AC). This sensor should be utilized

with ReliaTel™ controls.

Programmable Night Setback

Auto or manual changeover with seven-

day programming. Keyboard selection of

Heat, Cool, Fan, Auto, or On. All

programmable sensors have System On,

Heat, Cool, Service LED/indicators as

standard. Night Setback Sensors have

one (1) Occupied, one (1) Un-occupied,

and two (2) Override programs per day.

Humidity Sensor

Field installed, wall-mounted or duct-

mounted humidity sensor is used to

control activation of the hot gas reheat

dehumidification

option. The

humidity sensor

can be set for

humidity levels

between 40% and

60% relative

humidity by

adjusting the

ReliaTel Options

Module.

CO2 Sensing

The CO2 sensor shall have the ability to

monitor space occupancy levels within

the building by

measuring the

parts per million

of CO2 (Carbon

Dioxide) in the

air. As the CO2

levels increase,

the outside air

damper

modulates to

meet the CO2

space ventilation

requirements.

The CO2 accessory shall be available as

field installed.

38 PKGP-PRC003-EN

Electrical

Data

Table ED-1 — Unit Wiring

Standard Indoor Fan Motor Oversize Indoor Fan Motor Optional Belt Drive Indoor Fan Motor3

Unit Minimum Maximum Fuse Minimum Maximum Fuse Minimum Maximum Fuse

Unit Operating Circuit Size or Maximum Circuit Size or Maximum Circuit Size or Maximum

Tons Model No. Voltage Range2Ampacity Circuit Breaker1Ampacity Circuit Breaker1Ampacity Circuit Breaker1

WSC036A1 187-253 26.2 40 28.6 45 N/A N/A

3 WSC036A3 187-253 19.1 30 21.5 30 21.8 30

WSC036A4 414-506 9.9 15 11.1 15 11.3 15

WSC036AW 517-633 8.3 15 8.9 15 8.9 15

WSC048A1 187-253 39.7 60 41.8 60 N/A N/A

WSC048A3 187-253 24.4 35 26.5 40 25.8 40

4 WSC048A4 414-506 12.1 15 13.7 20 12.9 20

WSC048AW 517-633 10.1 15 10.9 15 10.3 15

WSC060A1 187-253 48.7 60 50.4 60 N/A N/A

WSC060A3 187-253 32.6 50 34.3 50 31.4 50

5 WSC060A4 414-506 16.6 25 16.9 25 16.2 25

WSC060AW 517-633 13.1 20 13.7 20 12.7 20

WSC072A3 187-253 32.2 50 33.5 50 — —

6 WSC072A4 414-506 16.6 25 17.2 25 — —

WSC072AW 517-633 12.5 15 13.5 20 — —

WSC090A3 187-253 41.4 60 45.8 60 — —

7½ WSC090A4 414-506 21.9 35 24.0 35 — —

WSC090AW 517-633 16.8 25 18.8 25 — —

WSC120A3 187-253 50.4 60 57.5 70 — —

10 WSC120A4 414-506 26.4 35 29.9 35 — —

WSC120AW 517-633 21.0 25 23.9 30 — —

Notes:

1. HACR breaker per NEC.

2. Heater KW ratings are at 208-240volt for 208-230 volt units.

3. Optional Belt Drive motor applies to 3-5 ton models only.

The standard motor for 6-10 ton models is belt drive.

PKGP-PRC003-EN 39

Electrical

Data

Table ED-2 — Unit Wiring With Electric Heat (Single Point Connection) — 208/230 Volts Single and Three Phase

Standard Indoor Motor Oversize Indoor Motor

To Use Heater Heater Control Max Fuse Size or Max Fuse Size or

Tons With Model No. KW Rating1Stages MCA Max Circuit Breaker2MCA Max Circuit Breaker2

208/230 Volts Single Phase

BAYHTRR105A 3.8/5.0 1 48.8/52.2 60/60 51.2/54.6 60/60

3 WSC036A1 BAYHTRR110A 7.5/10.0 2 71.3/78.3 80/80 73.7/80.7 80/90

BAYHTRR114A 10.4/13.8 2 88.4/98.1 90/100 90.8/100.5 100/110

BAYHTRR105A 3.8/5.0 1 62.4/65.7 80/80 64.5/67.8 80/80

4 WSC048A1 BAYHTRR110A 7.5/10.0 2 84.9/91.9 100/100 87.0/94.0 100/110

BAYHTRR114A 10.4/13.8 2 102.0/111.6 110/125 104.1/113.7 110/125

BAYHTRR118A 13.2/17.6 2 119.2/131.4 125/150 121.3/133.5 125/150

BAYHTRR105A 3.8/5.0 1 71.3/74.7 90/100 73.0/76.4 100/100

5 WSC060A1 BAYHTRR110A 7.5/10.0 2 93.8/100.8 110/110 95.5/102.5 110/110

BAYHTRR114A 10.4/13.8 2 111.0/120.6 125/125 112.7/122.3 125/125

BAYHTRR118A 13.2/17.6 2 128.2/140.3 150/150 129.9/142.0 150/150

208/230 Volts Three Phase

BAYHTRR306A 4.5/6.0 1 34.7/37.1 40/45 37.1/39.5 45/45

3 WSC036A3 BAYHTRR312A 9.0/12.0 2 50.3/55.2 60/60 52.7/57.6 60/60

BAYHTRR318A 13.1/17.4 2 64.4/71.4 70/80 66.8/73.8 70/80

BAYHTRR306A 4.5/6.0 1 40.0/42.4 50/50 42.1/44.5 50/50

4 WSC048A3 BAYHTRR312A 9.0/12.0 2 55.6/60.5 60/70 57.7/62.6 60/70

BAYHTRR318A 13.1/17.4 2 69.7/76.7 70/80 71.8/78.8 80/80

BAYHTRR306A 4.5/6.0 1 48.2/50.6 60/60 49.9/52.3 60/60

5 WSC060A3 BAYHTRR312A 9.0/12.0 2 63.8/68.7 70/80 65.5/70.4 70/80

BAYHTRR318A 13.1/17.4 2 78.0/85.0 80/90 79.7/86.7 80/90

BAYHTRR323A 17.3/23.0 2 92.6/101.7 100/110 94.3/103.4 100/110

BAYHTRS309A 6.8/9.0 1 55.7/59.3 60/60 57.0/60.6 60/70

6 WSC072A3 BAYHTRS318A 13.5/18.0 1 79.0/86.3 80/90 80.3/87.6 90/90

BAYHTRS327A 20.3/27.0 2 102.5/113.4 110/125 103.8/114.7 110/125

BAYHTRS336A 27.0/36.0 2 126.0/140.4 150/150 127.3/141.7 150/150

BAYHTRS309A 6.8/9.0 1 64.9/68.5 80/90 69.3/72.9 90/90

7½ WSC090A3 BAYHTRS318A 13.5/18.0 1 88.3/95.5 100/100 92.7/99.9 100/100

BAYHTRS327A 20.3/27.0 2 111.8/122.7 125125 116.2/127.1 125/150

BAYHTRS336A 27.0/36.0 2 135.8/149.7 150/150 139.7/154.1 150/175

BAYHTRT318A 13.5/18.0 1 97.3/104.6 100/110 104.4/111.7 110/125

10 WSC120A3 BAYHTRT327A 20.3/27.0 2 120.8/131.7 125/150 127.9/138.8 150/150

BAYHTRT336A 27.0/36.0 2 144.3/158.7 150/175 151.4/165.8 175/175

BAYHTRT354A 40.6/54.0 2 191.2/180.3 200/200 198.3/187.4 200/200

Notes:

1. Heater kw ratings are at 208/240 for 208/230V unit

2. HACR type circuit breaker per NEC.

40 PKGP-PRC003-EN

Electrical

Data

Table ED-3 — Unit Wiring With Electric Heat (Single Point Connection) — 460 Volts Three Phase

Standard Indoor Motor Oversize Indoor Motor

To Use Heater Heater Control Max Fuse Size or Max Fuse Size or

Tons With Model No. KW Rating1Stages MCA Max Circuit Breaker2MCA Max Circuit Breaker2

460 Volts Three Phase

BAYHTRR406A 6.0 1 18.9 20 20.1 25

3 WSC036A4 BAYHTRR412A 12.0 2 27.9 30 29.1 30

BAYHTRR418A 17.4 2 36.0 40 37.2 40

BAYHTRR406A 6.0 1 21.0 25 22.7 25

4 WSC048A4 BAYHTRR412A 12.0 2 30.1 35 31.7 35

BAYHTRR418A 17.4 2 38.3 40 39.9 40

BAYHTRR406A 6.0 1 25.6 30 25.9 30

BAYHTRR412A 12.0 2 34.6 40 34.9 40

5 WSC060A4 BAYHTRR418A 17.4 2 42.7 45 43.0 45

BAYHTRR423A 23.0 2 51.2 60 51.5 60

BAYHTRS409A 9.0 1 30.1 35 30.7 35

BAYHTRS418A 18.0 1 43.8 45 44.4 45

6 WSC072A4 BAYHTRS427A 27.0 2 57.3 60 57.9 60

BAYHTRS436A 36.0 2 70.8 80 71.4 80

BAYHTRS409A 9.0 1 35.4 45 37.5 45

BAYHTRS418A 18.0 1 49.0 50 51.1 60

7½ WSC090A4 BAYHTRS427A 27.0 2 62.5 70 64.6 70

BAYHTRS436A 36.0 2 76.0 80 78.1 80

BAYHTRT418A 18.0 1 53.5 60 57.0 60

BAYHTRT427A 27.0 2 67.0 70 70.5 70

10 WSC120A4 BAYHTRT436A 36.0 2 80.5 90 84.0 90

BAYHTRT454A 54.0 2 91.4 100 94.9 100

575 Volts Three Phase

BAYHTRRW06A 6.0 1 15.6 20 16.2 20

3 WSC036AW BAYHTRRW12A 12.0 2 22.7 25 23.3 25

BAYHTRRW18A 17.4 2 29.2 30 29.8 30

BAYHTRRW06A 6.0 1 17.4 20 18.2 20

4 WSC048AW BAYHTRRW12A 12.0 2 24.5 25 25.3 30

BAYHTRRW18A 17.4 2 31.0 35 31.8 35

BAYHTRRW06A 6.0 1 20.3 25 20.9 25

BAYHTRRW12A 12.0 2 27.5 30 28.1 30

5 WSC060AW BAYHTRRW18A 17.4 2 34.0 35 34.6 35

BAYHTRRW23A 23.0 2 40.7 45 41.3 45

BAYHTRSW09A 9.0 1 23.3 25 24.1 25

BAYHTRSW18A 18.0 1 34.1 35 34.9 35

6 WSC072AW BAYHTRSW27A 27.0 2 45.0 45 45.8 50

BAYHTRSW36A 36.0 2 55.7 60 56.5 60

BAYHTRSW09A 9.0 1 27.7 35 29.7 35

BAYHTRSW18A 18.0 1 38.5 45 40.5 45

7½ WSC090AW BAYHTRSW27A 27.0 2 49.3 50 51.3 60

BAYHTRSW36A 36.0 2 60.1 70 62.1 70

BAYHTRTW18A 18.0 1 42.6 45 45.4 45

BAYHTRTW27A 27.0 2 53.5 60 56.4 60

10 WSC120AW BAYHTRTW36A 36.0 2 64.2 70 67.1 70

BAYHTRTW54A 54.0 2 73.0 80 75.9 80

Notes:

1. Heater kw ratings are at 208/240 for 208/230V unit

2. HACR type circuit breaker per NEC.

PKGP-PRC003-EN 41

Electrical

Data

Table ED-4— Unit Wiring With Electric Heat (Single Point Connection) — Optional Belt Drive Indoor Motor

Optional Belt Drive Indoor Motor

To Use Heater Heater Control Max Fuse Size or

Tons With Model No. KW Rating1Stages MCA Max Circuit Breaker2

208/230 Volts Three Phase

BAYHTRR306A 4.5/6.0 1 37.4/39.8 45/45

3 WSC036A3 BAYHTRR312A 9.0/12.0 2 53.0/57.9 60/60

BAYHTRR318A 13.1/17.4 2 67.1/74.1 70/80

BAYHTRR306A 4.5/6.0 1 41.4/43.8 50/50

WSC048A3 BAYHTRR312A 9.0/12.0 2 57.0/61.9 60/70

4BAYHTRR318A 13.1/17.4 2 71.1/78.1 80/80

BAYHTR306A 4.5/6.0 1 47.0/49.4 60/60

WSC060A3 BAYHTRR312A 9.0/12.0 2 62.6/67.5 70/70

5BAYHTRR318A 13.1/17.4 2 76.8/83.8 80/90

BAYHTRR323A 17.3/23.0 2 91.4/100.5 100/110

460 Volts Three Phase

BAYHTRR406A 6.0 1 20.3 25

3 WSC036A4 BAYHTRR412A 12.0 2 29.3 30

BAYHTRR418A 17.4 2 37.4 40

BAYHTRR406A 6.0 1 21.9 25

4 WSC048A4 BAYHTRR412A 12.0 2 30.9 35

BAYHTRR418A 17.4 2 39.1 40

BAYHTRR406A 6.0 1 25.2 30

5 WSC060A4 BAYHTRR412A 12.0 2 34.2 40

BAYHTRR418A 17.4 2 42.3 45

BAYHTRR423A 23.0 2 50.8 60

575 Volts Three Phase

BAYHTRRW06A 6.0 1 16.2 20

WSC036AW BAYHTRRW12A 12.0 2 23.3 25

4BAYHTRRW18A 17.4 2 29.8 30

BAYHTRRW06A 6.0 1 17.6 20

WSC048AW BAYHTRRW12A 12.0 2 24.7 25

4BAYHTRRW18A 17.4 2 31.2 35

BAYHTRRW06A 6.0 1 19.9 20

WSC060AW BAYHTRRW12A 12.0 2 27.1 30

5BAYHTRRW18A 17.4 2 33.6 35

BAYHTRRW23A 23.0 2 40.3 45

Notes:

1. Heater kw ratings are at 208/240 for 208/230V unit

2. HACR type circuit breaker per NEC.

42 PKGP-PRC003-EN

Electrical

Data

Table ED-5 — Electrical Characteristics — Evaporator Fan Motors — 60 Cycle — Standard and Oversized Evaporator Fan Motor

Standard Evaporator Fan Motor Oversized Evaporator Fan Motor

Unit Amps Amps

Tons Model No. No. Volts Phase HP FLA LRA No. Volts Phase HP FLA LRA

WSC036A1 1 208-230 1 .33 2.3 3.9 1 208-230 1 .50 4.7 9.8

3 WSC036A3 1 208-230 1 .33 2.3 3.9 1 208-230 1 .50 4.7 9.8

WSC036A4 1 460 1 .33 1.1 2.0 1 460 1 .50 2.3 5.2

WSC036AW 1 575 1 .33 1.1 1.8 1 460 1 .50 1.7 3.6

WSC048A1 1 208-230 1 .60 3.6 6.6 1 208-230 1 .80 5.7 13.6

WSC048A3 1 208-230 1 .60 3.6 6.6 1 208-230 1 .80 5.7 13.6

4WSC048A4 1 460 1 .60 1.7 2.8 1 460 1 .80 3.3 7.2

WSC048AW 1 575 1 .60 1.5 2.4 1 575 1 .80 2.3 5.8

WSC060A1 1 208-230 1 .90 6.2 14.3 1 208-230 1 1.0 7.9 16.4

WSC060A3 1 208-230 1 .90 6.2 14.3 1 208-230 1 1.0 7.9 16.4

5WSC060A4 1 460 1 .90 2.9 6.6 1 460 1 1.0 3.2 8.2

WSC060AW 1 575 1 .90 2.1 4.9 1 575 1 1.0 2.7 5.0

WSC072A3 1 208-230 3 1.0 5.0 32.2 1 208-230 3 2.0 6.3 48.0

6 WSC072A4 1 460 3 1.0 2.5 16.1 1 460 3 2.0 3.1 24.0

WSC072AW 1 575 3 1.0 1.7 13.2 1 575 3 2.0 2.5 18.2

WSC090A3 1 208-230 3 1.0 5.0 32.2 1 208-230 3 3.0 9.4 83.0

7½ WSC090A4 1 460 3 1.0 2.5 16.1 1 460 3 3.0 4.6 42.0

WSC090AW 1 575 3 1.0 1.7 13.2 1 575 3 3.0 3.7 31.0

WSC120A3 1 208-230 3 2.0 6.3 56.2 1 208-230 3 5.0 13.4 112.0

10 WSC120A4 1 460 3 2.0 3.1 27.6 1 460 3 5.0 6.6 56.0

WSC120AW 1 575 3 2.0 2.3 22.2 1 575 3 5.0 5.4 44.0

Table ED-6 — Electrical Characteristics — Evaporator Fan Motors — 60 Cycle — Optional Belt Drive

Amps

Tons Model No. No. Volts Phase HP FLA LRA

WSC036A3 1 208-230 3 1.0 5.0 32.2

3 WSC036A4 1 460 3 1.0 2.5 16.1

WSC036AW 1 575 3 1.0 1.7 13.2

WSC048A3 1 208-230 3 1.0 5.0 32.2

4 WSC048A4 1 460 3 1.0 2.5 16.1

WSC048AW 1 575 3 1.0 1.7 13.2

WSC060A3 1 208-230 3 1.0 5.0 32.2

5 WSC060A4 1 460 3 1.0 2.5 16.1

WSC060AW 1 575 3 1.0 1.7 13.2

PKGP-PRC003-EN 43

Table ED-7 — Electrical Characteristics — Compressor Motor And Condenser Motor — 60 Cycle

Compressor Motor Condenser Fan Motor

Unit AMPS1AMPS

Tons Model No. No. Volts Phase HP2RPM RLA LRA No. Phase HP FLA LRA

WSC036A1 1 208-230 1 3.1 3450 17.5 104.0 1 1 .20 1.5 2.5

3 WSC036A3 1 208-230 3 3.1 3450 11.8 74.0 1 1 .20 1.5 2.5

WSC036A4 1 460 3 3.1 3450 6.3 37.6 1 1 .20 0.6 1.3

WSC036AW 1 575 3 3.1 3450 5.2 30.4 1 1 .20 0.5 1.2

WSC048A1 1 208-230 1 3.9 3450 26.9 131.0 1 1 .33 2.0 6.6

WSC048A3 1 208-230 3 3.9 3450 14.6 91.0 1 1 .33 2.0 6.6

4WSC048A4 1 460 3 3.9 3450 7.3 46.0 1 1 .33 1.2 2.5

WSC048AW 1 575 3 3.9 3450 6.0 37.0 1 1 .33 0.7 1.5

WSC060A1 1 208-230 1 5.1 3450 32.0 144.0 1 1 .33 2.0 6.6

WSC060A3 1 208-230 3 5.1 3450 19.1 128.0 1 1 .33 2.0 6.6

5WSC060A4 1 460 3 5.1 3450 9.9 63.0 1 1 .33 1.2 2.5

WSC060AW 1 575 3 5.1 3450 7.9 49.0 1 1 .33 0.7 1.5

WSC072A3 1 208-230 3 6.0 3450 18.6 156.0 1 1 .70 3.85 9.30

6 WSC072A4 1 460 3 6.0 3450 9.3 75.0 1 1 .70 2.50 5.80

WSC072AW 1 575 3 6.0 3450 7.4 54.0 1 1 .70 1.54 3.60

WSC090A3 1 208-230 3 7.5 3450 26.0 181.5 1 1 .70 3.85 9.30

7½ WSC090A4 1 460 3 7.5 3450 13.5 95.0 1 1 .70 2.50 5.80

WSC090AW 1 575 3 7.5 3450 10.9 69.0 1 1 .70 1.54 3.60

WSC120A3 2 208-230 3 4.8 3450 17.3 123 1 1 .75 4.0 9.4

10 WSC120A4 2 460 3 4.8 3450 9.0 62.0 1 1 .75 2.8 6.8

WSC120AW 2 575 3 4.8 3450 7.1 50.0 1 1 .75 2.4 6.2

Notes:

1. Amp draw for each motor; multiply values by number of motors to determine total amps.

2. HP for each compressor.

Electrical

Data

Table ED-8 — Electrical Characteristics — Power Exhaust

Tons Volts Phase HP RPM1FLA LRA

6-10 208-230 1 0.87 1075 5.7 16.3

6-10 460 1 0.87 1075 3.3 6.8

6-10 575 1 0.87 1075 2.3 5.4

Note:

1. Two speed.

44 PKGP-PRC003-EN

Jobsite

Connections

For specific wiring information, see the installation instructions.

All wiring except power wires is low voltage.

All customer supplied wiring to be copper and must conform to NEC or CEC and local electrical codes. Wiring shown dotted is to be furnished and installed by the customer.

Zone Sensors —Typical Number Of Wires

A— Manual Changeover ....................................... 6

Manual/Auto Changeover ............................... 7

Manual/Auto Changeover with

Status Indication LED’s ........................... 10

Programmable Night Setback with

Status Indication LED’s ............................. 7

B— 3 Power Wires + 1 Ground Wire (three phase)

2 Power Wires + 1 Ground Wire (single phase)

ROOFTOP

UNIT

DISCONNECT

SWITCH

(BY OTHERS)

ZONE SENSOR

PKGP-PRC003-EN 45

Dimensional

Data

All dimensions are in inches/millimeters.

4 1/4"

108 MM

23 9/16"

598 MM

69 7/8"

1775 MM

42 1/4"

1073 MM

9 5/8"

244 MM

5 5/8"

143 MM

5 9/16"

141 MM

7 5/8"

194 MM

44 1/4"

1124 MM

32 1/4"

819 MM

3-5 Tons Unit Clearance and Roof

Opening

(3-5 Tons)

3-5 Tons — WSC036A, WSC048A, WSC060A

46 PKGP-PRC003-EN

Dimensional

Data

All dimensions are in inches/millimeters.

3-5 TonsDownflow Duct Connections — Field Fabricated

3-5 Tons Horizontal Airflow Supply/Return

3-5 Tons Downflow Airflow Supply/Return;

Through the Base Utilities

(3-5 Tons)

PKGP-PRC003-EN 47

Dimensional

Data (6-10 Tons)

All dimensions are in inches.

6 and 7½ Tons — WSC072A and

WSC090A

10 Tons —WSC120A

48 PKGP-PRC003-EN

Dimensional

Data (6-10 Tons)

All dimensions are in inches.

6-10 Tons — Downflow Airflow Supply and Return;

Through the Base Utilities

6-10 Tons — Horizontal Airflow Supply and Return

6-10 Tons — Unit Clearance and Roof

Opening

Supply

Return

PKGP-PRC003-EN 49

Dimensional

Data (6-10 Tons)

All dimensions are in inches.

6-10 Tons — Roof Curb

857

857

ALL FLANGES 1 1/4” (31 MM)

6-10 Tons — Downflow Duct

Connections — Field Fabricated

50 PKGP-PRC003-EN

All dimensions are in inches.

(3-5 Ton) Options/

Accessories

Dimensional

Data

3-5 Tons Economizer, Manual, or Motorized

Fresh Air Damper

See Page 46 for Through the Base Utilities Information

3-5 Tons Barometric Relief Damper

3-5 Tons Swing Diameter for Hinged Doors Option

17 7/8"

(454 MM)

16"

(406 MM)

22 1/4"

(565 MM)

PKGP-PRC003-EN 51

Dimensional

Data

(6-10 Tons Options/

Accessories)

All dimensions are in inches.

21 3/8"

543 MM

17"

432 MM

34 5/8"

879 MM

6-10 Tons — Economizer and Barometric

Relief Damper Hoods 6-10 Tons — Power Exhaust

6-10 Tons — Swing Diameter for Hinged Door(s) Option

See Page 48 for Through the Base Utilities Information

52 PKGP-PRC003-EN

Weights

Table W- 1 — Maximum Unit Weights, Corner Weights (Lbs) And Center Of Gravity Dimensions (In.)

Unit Maximum Weights (Lbs) Corner Weights (Lbs)1Center of Gravity (In.)

Tons Model No. Shipping Net A B C D Length Width

3 WSC036A 534 442 138 110 88 105 31 19

4 WSC048A 566 474 151 114 95 114 31 19

5 WSC060A 584 492 160 118 97 117 31 19

6 WSC072A 867 724 243 184 128 170 38 22

7½ WSC090A 937 794 272 200 137 185 38 22

10 WSC120A 1084 941 320 243 162 215 38 21

Note:

1. Corner weights are given for information only.

Table W-2 — Factory-installed Options Net Weights (Lbs)

1,2

Net Weight

Accessory 3-5 Tons 6-10 Tons

Economizer 26 36

Barometric Relief 7 10

Powered Exhaust — 80

Motorized Outside Air Damper 20 30

Manual Outside Air Damper 16 26

Roof Curb 70 115

Oversized Motor 5 8

Belt Drive Motor 31 —

Smoke Detector, Return 7 7

Smoke Detector, Supply 5 5

Coil Guards 12 20

Hinged Doors 10 12

Powered Convenience Outlet 38 38

Through the Base Electrical 8 13

Electric Heaters 15 30

Unit Mounted Circuit Breaker 5 5

Unit Mounted Disconnect 5 5

Notes:

1. Weights for options not listed are < 5 lbs.

2. Net weight should be added to unit weight when ordering factory-installed accessories.

PKGP-PRC003-EN 53

Mechanical

Specifications

General

The units shall be convertible airflow. The

operating range shall be between 115°F

and 0°F in cooling as standard from the

factory for units with microprocessor

controls. Operating range for units with

electromechanical controls shall be

between 115°F and 40°F. Cooling

performance shall be rated in accordance

with ARI testing procedures. All units shall

be factory assembled, internally wired,

fully charged with R-22, and 100 percent

run tested to check cooling operation, fan

and blower rotation, and control

sequence before leaving the factory.

Wiring internal to the unit shall be colored

and numbered for simplified

identification. Units shall be UL listed and

labeled, classified in accordance to UL

1995/CAN/CSA No. 236-M90 for Central

Cooling Air Conditioners. Canadian units

shall be CSA Certified.

Casing

Unit casing shall be constructed of zinc

coated, heavy gauge, galvanized steel.

Exterior surfaces shall be cleaned,

phosphatized, and finished with a

weather-resistant baked enamel finish.

Unit’s surface shall be tested 1000 hours

in a salt spray test in compliance with

ASTM B117. Cabinet construction shall

allow for all maintenance on one side of

the unit. Service panels shall have lifting

handles and be removed and reinstalled

by removing only a single fastener while

providing a water and air tight seal. All

exposed vertical panels and top covers in

the indoor air section shall be insulated

with a cleanable foil-faced, fire-retardent

permanent, odorless glass fiber material.

The base of the unit shall be insulated

with 1/2 inch, 1 pound density foil-faced,

closed-cell material. All insulation edges

shall be either captured or sealed.The

unit’s base pan shall have no penetrations

within the perimeter of the curb other

than the raised 11/8 inch high downflow

supply/return openings to provide an

added water integrity precaution, if the

condensate drain backs up. The base of

the unit shall have provisions for forklift

and crane lifting, with forklift capabilities

on three sides of the unit.

Unit Top

The top cover shall be one piece

construction or where seams exist, it

shall be double-hemmed and gasket-

sealed. The ribbed top adds extra

strength and prevents water from

pooling on unit top.

Filters

One inch, throwaway filters shall be

standard on all 3-5 ton units. The filter rack

can be converted to two inch capability.

Two inch filters shall be factory supplied

on all 6-10 ton units. Optional 2-inch

pleated filters shall be available.

Compressors

All 3 ton standard units shall have direct-

drive, hermetic, reciprocating type

compressors. The reciprocating type

compressors have a centrifugal oil pump

providing positive lubrication to moving

parts. Motor shall be suction gas-cooled

and shall have a voltage utilization range

of plus or minus 10 percent of unit

nameplate voltage. Crankcase heater,

internal temperature, and current-

sensitive motor overloads shall be

included for maximum protection.

Compressors shall have internal spring

isolation and sound muffling to minimize

vibration transmission and noise. Low

pressure switches shall be standard.

3 ton high efficiency and 4-10 ton

standard and high efficiency units shall

have direct-drive, hermetic, scroll type

compressors with centrifugal type oil

pumps. Motor shall be suction gas-cooled

and shall have a voltage utilization range

of plus or minus 10 percent of unit

nameplate voltage. Internal overloads

shall be provided with the scroll

compressors. Crankcase heaters shall be

included on 7½ ton standard efficiency

units.

Refrigerant Circuits

Each refrigerant circuit offers a choice of

independent fixed orifice expansion

devices or thermal expansion valve.

Service pressure ports, and refrigerant

line filter driers are factory-installed as

standard. An area shall be provided for

replacement suction line driers.

Evaporator and Condenser Coils

Internally finned, 5/16” copper tubes

mechanically bonded to a configured

aluminum plate fin shall be standard.

Coils shall be leak tested at the factory to

ensure the pressure integrity. The

evaporator coil and condenser coil shall

be leak tested to 200 psig and pressure

tested to 450 psig. The condenser coil

shall have a patent pending 1+1+1 hybrid

coil designed with slight gaps for ease of

cleaning. A removeable, reversible,

double-sloped condensate drain pan with

provision for through the base

condensate drain is standard.

Outdoor Fans

The outdoor fan shall be direct-drive,

statically and dynamically balanced,

draw-through in the vertical discharge

position. The fan motor shall be

permanently lubricated and shall have

built-in thermal overload protection.

Indoor Fan

All 3-5 ton 3-phase units offer a choice of

direct-drive, FC, centrifugal fans or belt

driven, FC centrifugal fans with

adjustable motor sheaves. 3-5 ton direct

drive oversized motors shall be available

for high static operations. All 6-10 ton

units shall have belt drive motors with an

adjustable idler-arm assembly for quick-

adjustment to fan belts and motor

sheaves. All motors shall be thermally

protected. All indoor fan motors meet the

U.S. Energy Policy Act of 1992 (EPACT).

Controls

Unit shall be completely factory-wired

with necessary controls and contactor

pressure lugs or terminal block for power

wiring. Unit shall provide an external

location for mounting a fused disconnect

device. Microprocessor controls provide

for all 24 volt control functions. The

resident control algorithms shall make all

heating, cooling, and/or ventilating

decisions in response to electronic signals

from sensors measuring indoor and

outdoor temperatures. The control

algorithm maintains accurate

temperature control, minimizes drift from

set point, and provides better building

comfort. A centralized Microprocessor

shall provide anti-short cycle timing and

time delay between compressors to

provide a higher level of machine

protection.

54 PKGP-PRC003-EN

Mechanical

Specifications

Factory Installed Options

Black Epoxy Pre-Coated Coils

The black epoxy coils have a thermoset

vinyl coating that is bonded to the

aluminum fin stock prior to the fin-

stamping process. The pre-coated coils

are an economical option for protection in

mildly corrosive environments.

High Pressure Cutout

This is offered for units that do not have

High Pressure cutout as standard. All 3-

phase units with scroll compressors

include High Pressure Cutout as

standard.

Hinged Access Doors

Sheet metal hinges are available on the

Filter/Evaporator, Supply Fan/Heat, and

the Compressor/Control Access Doors.

Phase Monitor

Phase monitor shall provide 100%

protection for motors and compressors

against problems caused by phase loss,

phase imbalance, and phase reversal.

Phase monitor is equipped with an LED

that provides an ON or FAULT indicator.

Powered or Unpowered Convenience

Outlet

This is a GFCI, 120v/15amp, 2 plug,

convenience outlet, either powered or

unpowered. When the convenience outlet

is powered, a service receptacle

disconnect will be available. The

convenience outlet is powered from the

line side of the disconnect or circuit

breaker, and therefore will not be

affected by the position of the disconnect

or circuit breaker. This option can only be

ordered when the Through the Base

Electrical with either the Disconnect

Switch or Circuit Breaker option is

ordered.

Supply and/or Return Air Smoke

Detector

With this option, if smoke is detected, all

unit operation will be shut down. Reset

will be manual at the unit. Return Air

Smoke Detectors require minimum

allowable airflow when used with certain

models. See the Installation, Operation,

and Maintenance (IOM) manual for the

models affected and the minimum

allowable airflow required. This option is

available for microprocessor controlled

units.

Through the Base Electrical Access

An electrical service entrance shall be

provided allowing electrical access for

both control and main power connections

inside the curb and through the base of

the unit. Option will allow for field

installation of liquid-tight conduit and an

external field-installed disconnect switch.

Through the Base Electrical with Circuit

Breaker

This option is a thermal magnetic, molded

case, HACR Circuit Breaker with

provisions for through the base electrical

connections. The circuit breaker will be

installed in a water tight enclosure in the

unit with access through a swinging door.

Wiring will be provided from the switch to

the unit high voltage terminal block. The

circuit breaker will provide overcurrent

protection, be sized per NEC and UL

guidelines, and be agency recognized by

UL/CSA.

Through the Base Electrical with

Disconnect Switch

This 3-pole, molded case, disconnect

switch with provisions for through the

base electrical connections are available.

The disconnect switch will be installed in

the unit in a water tight enclosure with

access through a swinging door. Wiring

will be provided from the switch to the

unit high voltage terminal block. The

switch will be UL/CSA agency recognized.

Note: The disconnect switch will be sized

per NEC and UL guidelines but will not be

used in place of unit overcurrent

protection.

Two-Inch Pleated Filters

Two inch pleated media filters shall be

available on all models.

Factory or Field Installed

Options

Clogged Filter/Fan Failure Switch

A dedicated differential pressure switch is

available to achieve active fan failure

indication and/or clogged filter indication.

These indications will be registered with

either a zone sensor with status indication

lights or an Integrated Comfort™ System.

This option is available for

microprocessor controlled units.

Differential Pressure Switches

These sensors allow individual fan failure

and dirty filter indication for

microprocessor controlled units. The fan

failure switch will disable all unit functions

and “flash” the Service LED on the zone

sensor. The dirty filter switch will light the

Service LED on the zone sensor and will

allow continued unit operation.

Discharge Air Sensing

This option provides true discharge air

sensing in heating models. This sensor is

a status indicator readable through

Tracer™ or Tracker™. This option is

available for microprocessor controlled

units.

Economizer

This accessory shall be available with or

without barometric relief. The assembly

includes fully modulating 0-100 percent

motor and dampers, minimum position

setting, preset linkage, wiring harness

with plug, spring return actuator and

fixed dry bulb control. The barometric

relief shall provide a pressure operated

damper that shall be gravity closing and

shall prohibit entrance of outside air

during the equipment “off” cycle.

Optional solid state or differential

enthalpy control shall be available for

either factory or field installation. The

economizer arrives in the shipping

position and shall be moved to the

operating position by the installing

contractor.

Electric Heaters

Electric heat modules shall be available

for installation within basic unit. Electric

heater elements shall be constructed of

heavy-duty nickel chromium elements

internally delta connected for 240 volt,

wye connected for 480 and 600 volt.

Staging shall be achieved through

ReliaTel™. Each heater package shall

have automatically reset high limit

control operating through heating

element contactors. All heaters shall be

individually fused from the factory, where

required, and shall meet all NEC and CEC

requirements when properly installed.

Power assemblies shall provide single-

point connection. Electric heat modules

shall be UL listed or CSA certified.

PKGP-PRC003-EN 55

Mechanical

Specifications

Frostat

This option is to be utilized as a safety

device. The Frostat opens when

temperatures on the evaporator coil fall

below 10°F. The temperature will need to

rise to 50°F before closing. This option

should be utilized in low airflow or high

outside air applications.

LonTalk® Communication Interface

This option shall be provided to allow the

unit to communicate as a Tracer™LCI-R

device or directly with generic LonTalk

Network Building Automation System

Controls.

Oversized Motors

Direct drive oversized motors shall be

available for high static applications.

Reference or Comparative Enthalpy

Reference Enthalpy is used to measure

and communicate outdoor humidity. The

unit receives and uses this information to

provide improved comfort cooling while

using the economizer. Comparative

Enthalpy measures and communicates

humidity for both outdoor and return air

conditions, and return air temperature.

The unit receives and uses this

information to maximize use of

economizer cooling, and to provide

maximum occupant comfort control.

Reference or Comparative Enthalpy

option shall be available when a factory

or field installed Downflow Economizer is

ordered. This option is available on all

downflow models.

Tool-less Hail Guards

Tool-less, hail protection quality coil

guards are available for condenser coil

protection.

Trane Communication Interface

This option shall be provided to interface

ReliaTel™ controlled units with the Trane

Integrated ComfortTM systems.

Field Installed Options

CO2 Sensing

The CO2 sensor shall have the ability to

monitor space occupancy levels within

the building by measuring the parts per

million of CO2 (Carbon Dioxide) in the air.

As the CO2 levels increase, the outside air

damper modulates to meet the CO2

space ventilation requirements.

Digital Display Zone Sensor

The Digital LCD (Liquid Crystal Display)

zone sensor has the look and functionality

of standard zone sensors. This sensor

includes a digital display of set point

adjustment and space temperature in F

(Fahrenheit) or C (Celsius). Includes FAN

and SYSTEM buttons (supports the

service functions of the standard sensor).

E-squared memory stores last

programmed set points. Requires 24 VAC

(Volts AC). This sensor should be utilized

with ReliaTel™ controls.

Dual Thermistor Remote Zone Sensor

This sensor will allow the customer to

reduce the total number of remote

sensors to obtain space temperature

averaging. This sensor should be utilized

with ReliaTel controls.

High Static Drive

The high static drive option shall allow the

standard motor on the 6 and 7½ ton units

to operate with improved external static

capabilities.

Manual Outside Air Damper

This rain hood and screen shall provide

up to 50 percent outside air.

Motorized Outside Air Dampers

Manually set outdoor air dampers shall

provide up to 50 percent outside air. Once

set, outdoor air dampers shall open to set

position when indoor fan starts. The

damper shall close to the full closed

position when indoor fan shuts down.

Powered Exhaust

The powered exhaust, available for 6-10

ton units, shall provide exhaust of return

air, when using an economizer, to

maintain better bulding pressurization.

Remote Potentiometer

The minimum position setting of the

economizer shall be adjusted with this

accessory.

Roof Curb

The roof curb shall be designed to mate

with the unit’s downflow supply and

return and provide support and a water

tight installation when installed properly.

The roof curb design shall allow field-

fabricated rectangular supply/return

ductwork to be connected directly to the

curb. Curb design shall comply with

NRCA requirements. Curb shall be

shipped knocked down for field assembly

and shall include wood nailer strips.

Thermostat

Two stage heating and cooling operation

or one stage heating and cooling shall be

available in either manual or automatic

changeover. Automatic programmable

electronic with night set back shall also be

available.

Ventilation Override Accessory

With the Ventilation Override Accessory

installed, the unit can be set to transition

up to 3 different pre-programmed

sequences for Smoke Purge,

Pressurization, and Exhaust. The

transition occurs when a binary input on

the RTOM is closed (shorted). This would

typically be a hard wired relay output

from a smoke detector or fire control

panel. The ventilation override accessory

shall be available as field installed.

Zone Sensor

This control shall be provided to interface

with the Micro equipped units and shall

be available in either manual, automatic

programmable with night setback, with

system malfunction lights, or remote

sensor options.

Literature Order Number

File Number

Supersedes

Stocking Location

Trane

A business of American Standard Companies

www.trane.com

For more information contact your local dealer

(distributor), local district office, or e-mail us at

comfort@trane.com

Trane has a policy of continuous product and product data improvement and reserves the right to change design

and specifications without notice.

PKGP-PRC003-EN

PL-UN-PKGP-WSC 3-10 TONS-PRC0 03-EN-09-04

PL-UN-PKGP-WSC 3-10 TONS-PRC0 03-EN-02-04

09-04 Webb/Mason