Trane PKGP-PRC001-EN User Manual

Packaged Heat Pumps

Voyager™
12½ to 20 Tons — 60 Hz

September 2004

PKGP-PRC001-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.

Voyager 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 Voyager.

Voyager features cutting edge
technologies: reliable compressors, Trane
engineered ReliaTel controls, computer­aided run testing, and Integrated
Comfort™ Systems. So, whether you’re
the contractor, the engineer, or the owner
you can be certain Voyager Products are
built to meet your needs.

It’s Hard To Stop A Trane.

®

PKGP-PRC0 01-EN© 2004 American Standard Inc. All rights reserved

Contents

Introduction

Features and Benefits

Application Considerations

Selection Procedure

Model Number Description

General Data

Performance Data

Cooling Performance
Fan Performance
Heating Performance

Controls

Electric Power

Dimension and Weights

2

4

9

10

11

12

14

14
17

22

26

27

38

PKGP-PRC0 01-EN

Mechanical Specifications

48

3

Features and Benefits

Factory Installed Options

• Black Epoxy Pre-Coated Coils

• High Efficiency Motors

• High Pressure Cutout

• Hinged Access Doors

• Powered or Unpowered Convenience
Outlet

• Supply and/or Return Air Smoke
Detector

• Through the Base Electrical with Circuit
Breaker

• Through the Base Electrical With
Disconnect Switch

• Through the Base Utilities Access

• Two-Inch Pleated Filters

Factory or Field Installed Options

• Clogged Filter/Fan Failure Switch

• Differential Pressure Switches

• Discharge Air Sensing Kit

• Downflow – Economizer

• Electric Heaters

• Frostat

• LonTalk® Communications Interface

• Oversized Motors

• Reference or Comparative Enthalpy

• Tool-less Hail Guards

• Trane Communications Interface (TCI)

Field Installed Options

• CO

Sensing

2

• Digital Display Zone Sensor

• Dual Thermistor Remote Zone Sensor

• High Static Drive

• Manual Outside Air Damper

• Motorized Outside Air Dampers

• Powered Exhaust

• Downflow – Roof Curb

• Horizontal – Economizer

• Remote Potentiometer

• Ventilation Override Accessory

• Zone Sensors

4

PKGP-PRC0 01-EN

Features and
Benefits

Easy to Install, Service and
Maintain

Because today’s owners are very cost­conscious when it comes to service and
maintenance, the Trane Voyager 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. Voyager 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.

ReliaTel™

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.

Voyager 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 Voyager 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 Voyager
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.

PKGP-PRC0 01-EN

5

Features and
Benefits

Outstanding Standard and
Optional Components

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, Voyager has a
raised 1
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.

CO

The CO2 sensor has the ability to monitor
space occupancy levels within the
building by measuring the parts per
million of CO
As the CO
damper modulates to meet the CO
space ventilation requirements. The CO
sensor kit is available as a field installed
accessory.

Colored And Numbered Wiring

Save time and money tracing wires and
diagnosing the unit.

Compressors

Voyager contains the best compressor
technology available to achieve the
highest possible performance. Dual
compressors are outstanding for
humidity control, light load cooling
conditions and system back-up
applications. Dual compressors are
available on all models.

1

/8" lip around the supply and

Sensing

2

(Carbon Dioxide) in the air.

2

levels increase, the outside air

2

2

2

Condenser Coil

Voyager 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.

Factory Built Roof Curbs

Available for downflow units. Only two
roof curbs for the entire Voyager line
simplifies curb selection.

Fresh Air

0 - 25% manual or 0 - 50% motorized
outside air hoods are available.

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.

Power Exhaust Option

This option is available on downflow units
and provides exhaust of the return air,
when using a downflow economizer, to
maintain proper building pressurization.
Great for relieving most building
overpressurization problems.

Quick-Access Panels

Remove three or fewer 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.

6

PKGP-PRC0 01-EN

Features and
Benefits

Reference or Comparative Enthalpy

Measures and communicates humidity
while maximizing comfort control.

Sloped Drain Pans

Standard on every unit.

Standardized Components

Components are placed in the same
location on all Voyager units. Familiarize
yourself with one Voyager and you are
familiar with every Voyager.

Due to standardized components
throughout the Voyager 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.

Va riTra c

When Trane’s changeover VAV System
for light commercial applications is
coupled with Voyager, 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.

Rigorous Testing

The fan and idler arm assembly designs
have been tested to over 300,000 cycles
each. Our combined cycle testing is now
over 7,000,000 cycles.

All of Voyager’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.

Voyager units incorporate either a one
piece top or the Trane-Tite-Top (T
part of the top (either two or three pieces)
overlaps in such a way that water cannot
leak into the unit. These overlapped edges
are gasketed and sealed to ensure
superior water integrity.

3

). Each

Trane Communication Interface (TCI)

Available factory or field installed. This
module when applied with the ReliaTel™
easily interfaces with Trane’s Integrated
Comfort

TM

System.

PKGP-PRC0 01-EN

VariTrac™

7

Features and
Benefits

Easy to Install and Service

Conversionless Units

The dedicated design units (either
downflow or horizontal) require no panel
removal or alteration time to convert in
the field — a major cost savings during
installation.

Horizontal units come complete with 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

Voyager’s Low Voltage Terminal Board is
external to the electrical control cabinet. It
is extremely easy to locate and attach the
thermostat wire. 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. This option is available on all
downflow models.

Single Point Power

A single electrical connection powers the
unit.

Single Side Service

Single side service is standard on all
units.

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. This option is
available on all downflow models.

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. This option is available on
all downflow models.

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.

Factory Installed Options

A wide variety of Factory Installed
Options (FIOPs) are available.

Added Efficiency

Airflow

Airflow is outstanding. The Voyager can
replace an older machine with old
ductwork and, in many cases, improve
the comfort through better air
distribution.

High Efficiency Motors

This option is available with efficiency
ratings from 86.5 up to 91.0. It is not
available for all models.

U-shaped Airflow

U-shaped airflow allows for improved
static capabilities.

Low Ambient Cooling

Cooling capabilities down to 0°F as
standard.

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

Voyager has the features and benefits
that make it first class in the light
commercial rooftop market. Designed
with input from field contractors and
engineers, its U-shaped airflow
performance is outstanding.

8

PKGP-PRC0 01-EN

Application Considerations

Application of this product should be
within the cataloged airflow and cooling
considerations.

Low Ambient Cooling

This Voyager line features, as standard,
low ambient cooling down to 0°F. Contact
your local Trane Representative for more
assistance with low ambient cooling
applications.

Barometric Relief

This product line offers an optional
barometric relief damper included in the
downflow economizer accessory. 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.

Power Exhaust Accessory

The power exhaust accessory is
available on all downflow units. This
accessory can be field installed and will
assist in relieving 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
serviceability, 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 sloped condensate
drain pans. Units must be installed level,
any unit slope must be toward access
side of unit.

PKGP-PRC0 01-EN

9

Selection Procedures

Cooling Capacity

Step 1

Calculate the building’s total and sensible
cooling loads at design conditions. Use
the Tranecalculation form or any other
standard accepted method.

Step 2

Given the following building
requirements:

A

Electrical Characteristics: 460/60/3

B

Summer Design Conditions:
Entering Evaporator Coil: 80 DB/ 67 WB
Outdoor Ambient: 95 DB

C

Total Cooling Load: 172 MBh

D

Sensible Cooling Load: 122 MBh

E

Airflow: 6000 cfm

F

External Static Pressure: .50 in. w.g.

G

Rooftop - downflow configuration.

H

Accessories
Economizer
Supplementary Electric Heat

I

Heating Capacity 88 MBh
460 volt/3 phase Electric Supplemental
Heat - at 6000 cfm

Size the equipment using Table PD-3.
As a starting point, a rough determination
of the size of the unit must be made. This
selection will then be confirmed 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.
172 MBh/12 MBh = 14.33 (approx. 15
tons.)

Step 3

Table PD-3 shows that a WCD180B4 has
a gross cooling capacity of 183.0 MBh
and 129.0 MBh sensible capacity at 95
degree ambient and 6000 cfm with 80
DB/67 WB air entering the evaporator.

To Find Capacity at Intermediate
Conditions

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

Verify that there will be enough capacity
by determining net capacity. 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, add the following:

External Static: 0.50 in.

Standard Filter 1 in: 0.11 in. (from table
PD-13)

Economizer Return Air: 0.04 in. (from
table PD-13)

Electric Heater Size 18 kW: .06 in.

Total Static Pressure: .71 in.

Note: The Evaporator Fan Performance
Table PD-7 has already accounted for the
pressure drop for standard filters and wet
coils.

Therefore, the actual Total Static
Pressure is .71 - .11 = .60.
With 6000 cfm and .60 inches, Table PD-7
shows 2.66 Bhp.

The note below Table PD-7 gives a
formula to calculate Fan Motor Heat:

3.15 x bhp = MBh

3.15 x 2.66 = 8.38 MBh

Now subtracting the fan motor heat from
the gross cooling capacity of the unit:

Net Total Cooling Capacity =

183-8.38=170.62

Net Sensible Cooling Capacity=

129-8.38=120.62

Step 5

If the performance will not meet the
required load of the building, 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-16 to
match the heating loads at design
conditions.

A

Total Heating Load: 88 MBh

B

Outdoor Ambient (Winter) 17 DB

C

Indoor Return Temperature: 70 DB

D

Airflow: 6000 Cfm

Use the integrated portion of Table
PD-16 for the WCD180B4 to determine
capacity at winter design conditions. The
mechanical heating portion of the heat
pump will provide 45 MBh.

Step 3

Because 45 MBh is less than the
building’s required heating capacity at
winter design conditions, a
supplementary heater must be selected.

88 MBh - 45 MBh = 43 MBh

From Table PD-20, at 480 volts, the 18 kW
Heater will be adequate to do the job.

18 kW 61 MBh

From Table ED-3 select heater
AYDHTRK418A (18 kW 460/60/3).

10

PKGP-PRC0 01-EN

Model Number Description

Packaged Heat Pump Unit Model Nomenclature

W C D 150 C 3 0 0 B A

12 3 456 7 8 9 10 11 12

Digits 1,2 Product Type

WC = Heat Pump, Packaged
WF = With Factory Installed Options

Digit 3 - Airflow Configuration

D = Downflow
H = Horizontal

Digits 4, 5, 6 - Nominal Gross Cooling
Capacity (MBh)

150 = 12½ ton
180 = 15 ton
240 = 20 ton

Digit 7- Major Development Sequence

Digit 8 - Electrical Characteristics

3 = 208-230/60/3
4 = 460/60/3
W = 575/60/3

Digits 9, 10 - Factory Installed Options

00 = Packed Stock, No Options
0A= Factory Installed Downflow

Economizer
0B = Oversize Motor
0C = Downflow Economizer and Oversize

Motor
0F = Trane Communications Interface (TCI)
0G = Downflow Economizer and TCI

Digit 11- Minor Design Sequence

Digit 12- Service Digit

PKGP-PRC0 01-EN

11

General Data

(12½ Ton)

Table GD-1 — General Data

12½ Ton Downflow and Horizontal Units

Cooling Performance

Gross Cooling Capacity 152,00 152,000

2

EER
Nominal CFM / ARI Rated CFM 4,400 / 4,400 4,400 / 4,400
ARI Net Cooling Capacity 144,000 144,000
Integrated Part Load Value
System Power KW 15.16 15.16

Heating Performance

High Temp. Btuh Rating 135,000 132,000

System Power KW/COP 12.76/3.10 12.48/3.10

Low Temp. Btuh Rating 78,000 72,000

System Power KW/COP 10.88/2.1 10.55/2.0

HSPF (Btu/Watts-hr) — —

Compressor

No./Type 2/Scroll 2/Scroll

ARI Sound Rating (BELS)

Outdoor Coil — Type Hi-Performance Hi-Performance

Tube Size (in.) OD .375 .375
Face Area (sq ft) 23.96 23.96
Rows/FPI 2/16 2/16
Refrigerant Control Expansion Valve Expansion Valve

Indoor Coil — Type Hi-Performance Hi-Performance

Tube Size (in.) .375 .375
Face Area (sq ft) 15.83 17.50
Rows/FPI 2/15 2/15
Refrigerant Control Capillary Tube Capillary Tube
Drain Connection No./Size (in.) 1/1.00 NPT 1/1.00 NPT

Outdoor Fan — Type Propeller Propeller

No. Used/Diameter (in.) 2/26 2/26
Drive Type/No. Speeds Direct/1 Direct/1
CFM 10,800 10,800
No. Motors/HP 2/.50 2/.50
Motor RPM 1,110 1,110

Indoor Fan — Type FC Centrifugal FC Centrifugal

No. Used 1 1
Diameter x Width (in.) 15 x 15 15 x 15
Drive Type/No. Speeds Belt/1 Belt/1
No. Motors 1 1
Motor HP (Standard/Oversized) 3.0/5.0 3.0/5.0
Motor RPM (Standard/Oversized) 1,740/3,450 1,740/3,450
Motor Frame Size (Standard/Oversized) 145T/145T 145T/145T

Filters — Type Furnished

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

Refrigerant Charge (Lbs of R-22)

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 Unitary Large Equipment
certification program, which is based on ARI Standard 340/360-93.

2. EER is rated at ARI conditions and in accordance with ASHRAE test procedures.

3. Integrated Part Load Value is based in accordance with ARI Standard 210/240 or 340. Units are rated at 80°F entering dry bulb, and 67°F entering wet bulb at ARI rated cfm.

4. Sound Rating shown is tested in accordance with ARI Standard 270 or 370.

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

6. Optional 2 inch pleated filter also available.

1

3

1

4

6

5

WCD150B3, B4, BW WCH150B3, B4, BW

9.5 9.5

9.9 9.9

9.2 9.2

Throwaway Throwaway

(4) 20 x 25 x 2 (4) 20 x 25 x 2

11.1/11.4 Circuit 11.5/11.8 Circuit

*Indicates both downflow and horizontal units.

12

PKGP-PRC0 01-EN

General
Data

(15, 20 Ton)

Table GD-2 — General Data

15 Ton Downflow and Horizontal Units 20 Ton Downflow and Horizontal Units

Cooling Performance

Gross Cooling Capacity 180,000 233,000 237,000

2

EER
Nominal CFM / ARI Rated CFM 6,000 / 5,300 8,000 / 8,000 8,000/7,000
ARI Net Cooling Capacity 168,000 222,000 224,000
Integrated Part Load Value
System Power KW 17.50 22.2 21.3

Heating Performance

High Temp. Btuh Rating 166,000 208,000 204,000

System Power KW/COP 15.69/3.10 19.65/3.10 19.29/3.10

Low Temp. Btuh Rating 88,000 118,000 118,000

System Power KW/COP 13.12/2.1 18.75/2.0 17.29/2.00

Compressor

No./Type 2/Scroll 2/Scroll 2/Scroll

Sound Rating (BELS)

Outdoor Coil — Type Hi-Performance Hi-Performance Hi-Performance

Tube Size (in.) OD .375 .375 .375
Face Area (sq ft) 27.12 35.3 35.3
Rows/FPI 3/16 3/16 3/16
Refrigerant Control Expansion Valve Expansion Valve Expansion Valve

Indoor Coil — Type Hi-Performance Hi-Performance Hi-Performance

Tube Size (in.) .375 .375 .375
Face Area (sq ft) 17.50 26.00 26.00
Rows/FPI 3/15 3/15 3/15
Refrigerant Control Short Orifice Capillary Tube Capillary Tube
Drain Connection No./Size (in.) 1/1.00 NPT 1/1.00 NPT 1/1.00 NPT

Outdoor Fan — Type Propeller Propeller Propeller

No. Used/Diameter (in.) 2/26 2/28 2/28
Drive Type/No. Speeds Direct/1 Direct/1 Direct/1
CFM 10,200 13,800 13,800
No. Motors/HP 2/.50 2/1.0 2/1.0
Motor RPM 1,100 1,125 1,125

Indoor Fan — Type FC Centrifugal FC Centrifugal FC Centrifugal

No. Used 1 11
Diameter x Width (in.) 15 x 15 18 x 18 18 x 18
Drive Type/No. Speeds Belt/1 Belt/1 Belt/1
No. Motors 1 1 1
Motor HP (Standard/Oversized) 3.0/5.0 5.0/7.5 5.0/7.5
Motor RPM (Standard/Oversized) 1,740/3,450 3,450/3,450 3,450/3,450
Motor Frame Size (Standard/Oversized) 145T/145T 184T/184T 184T/184T

Filters — Type Furnished

(No.) Size Recommended (in.) (2) 20 x 20 x 2 (4) 20 x 20 x 2 (8) 20 x 25 x 2

Refrigerant Charge (Lbs of R-22)

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 Unitary Large Equipment
certification program, which is based on ARI Standard 340/360-93.

2. EER is rated at ARI conditions and in accordance with ASHRAE test procedures.

3. Integrated Part Load Value is based in accordance with ARI Standard 210/240 or 340. Units are rated at 80°F entering dry bulb, and 67°F entering wet bulb at ARI rated cfm.

4. Sound Rating shown is tested in accordance with ARI Standard 270 or 370.

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

6. Optional 2 inch pleated filter also available.

1

3

1

4

6

5

WC*180B3, B4, BW WCD240B3, B4, BW WCH240B3, B4, BW

9.6 9.8 10.5

10.0 9.7 10.3

9.2 9.4 9.4

Throwaway Throwaway Throwaway

(4) 20 x 25 x 2 (4) 20 x 25 x 2

19.9/9.9 Circuit 22.0/21.0 Circuit 22.0/21.0 Circut

*Indicates both downflow and horizontal units.

PKGP-PRC0 01-EN

13

Performance Data

(12½ Ton)

Table PD-1 — Gross Cooling Capacities (MBh) 12½ Ton Downflow Three Phase WCD150B

Enter.

CFM Bulb 61 67 73 6 1 67 73 61 6 7 73 6 1 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

4500 80 141.0 134.0 154.0 105.0 159.0 78.3 130.0 128.0 149.0 104.0 161.0 77.4 119.0 119.0 138.0 98.3 157.0 74.3 109.0 109.0 125.0 91.8 148.0 69.6

5000 80 145.0 141.0 156.0 108.0 160.0 79.2 134.0 134.0 152.0 109.0 162.0 79.5 124.0 124.0 141.0 104.0 160.0 77.2 114.0 114.0 128.0 97.5 151.0 72.9

5500 80 147.0 147.0 157.0 111.0 162.0 80.5 139.0 139.0 154.0 113.0 163.0 80.9 129.0 129.0 144.0 110.0 161.0 79.9 118.0 118.0 131.0 103.0 154.0 75.9

6000 80 150.0 150.0 158.0 113.0 162.0 81.2 144.0 144.0 156.0 117.0 164.0 82.1 133.0 133.0 147.0 115.0 162.0 82.1 122.0 122.0 133.0 108.0 156.0 78.7

Notes:

1. Dry Coil Condition. Total Gross Cooling Capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.

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

3. MBH = Total Gross Capacity

4. SHC = Sensible Heat Capacity

Dry Entering Wet Bulb (F)

75 140.0 113.0 153.0 90.8 158.0 57.9 128.0 106.0 149.0 83.3 160.0 56.3 116.0 99.8 137.0 83.3 157.0 53.5 104.0 93.3 124.0 77.1 148.0 48.9

85 146.0 146.0 155.0 124.0 160.0 94.3 139.0 139.0 150.0 125.0 162.0 95.8 129.0 129.0 138.0 119.0 158.0 94.9 119.0 119.0 125.0 113.0 148.0 90.2
90 153.0 153.0 156.0 143.0 162.0 111.0 148.0 148.0 151.0 145.0 163.0 114.0 140.0 140.0 139.0 139.0 158.0 114.0 130.0 130.0 129.0 129.0 148.0 111.0
75 143.0 119.0 154.0 93.5 159.0 59.0 132.0 113.0 152.0 87.2 161.0 57.4 119.0 106.0 141.0 88.6 159.0 54.8 107.0 99.5 127.0 82.3 151.0 50.9

85 150.0 150.0 157.0 128.0 162.0 97.0 145.0 145.0 153.0 131.0 164.0 98.4 135.0 135.0 142.0 127.0 160.0 98.9 125.0 125.0 129.0 120.0 152.0 95.3
90 156.0 156.0 158.0 148.0 164.0 112.0 153.0 153.0 155.0 153.0 165.0 118.0 146.0 146.0 146.0 146.0 161.0 120.0 136.0 136.0 136.0 136.0 152.0 118.0
75 145.0 124.0 155.0 96.1 160.0 60.0 135.0 119.0 153.0 90.7 162.0 58.5 122.0 112.0 144.0 93.8 160.0 55.7 110.0 105.0 130.0 87.4 154.0 52.4

85 153.0 153.0 158.0 132.0 164.0 97.4 149.0 149.0 155.0 137.0 165.0 101.0 140.0 140.0 145.0 134.0 162.0 102.0 130.0 130.0 132.0 128.0 154.0 100.0
90 159.0 159.0 160.0 152.0 166.0 115.0 157.0 157.0 157.0 157.0 166.0 121.0 151.0 151.0 151.0 151.0 163.0 125.0 141.0 141.0 141.0 141.0 154.0 124.0
75 147.0 128.0 156.0 98.4 160.0 60.0 138.0 125.0 155.0 92.7 163.0 59.5 125.0 118.0 147.0 88.6 161.0 57.2 112.0 111.0 132.0 92.4 155.0 52.5

85 156.0 156.0 159.0 135.0 164.0 98.4 153.0 153.0 157.0 142.0 166.0 103.0 145.0 145.0 148.0 141.0 163.0 106.0 134.0 134.0 134.0 134.0 156.0 104.0
90 160.0 160.0 161.0 156.0 166.0 116.0 160.0 160.0 160.0 160.0 167.0 123.0 155.0 155.0 155.0 155.0 165.0 129.0 146.0 146.0 146.0 146.0 157.0 130.0

85 95 105 115

Ambient Temperature (F)

Table PD-2 — Gross Cooling Capacities (MBh) 12½ Ton Horizontal Three Phase WCH150B

Enter.

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

4500 80 141.0 134.0 154.0 105.0 160.0 78.3 130.0 128.0 149.0 104.0 161.0 77.5 119.0 119.0 138.0 98.4 157.0 74.3 109.0 109.0 124.0 91.9 148.0 69.6

5000 80 145.0 142.0 156.0 109.0 162.0 79.9 134.0 134.0 152.0 109.0 162.0 79.6 124.0 124.0 141.0 104.0 159.0 77.3 114.0 114.0 128.0 97.7 151.0 72.9

5500 80 147.0 147.0 157.0 111.0 162.0 80.8 139.0 139.0 154.0 114.0 163.0 81.0 129.0 129.0 144.0 110.0 161.0 80.1 118.0 118.0 130.0 103.0 154.0 76.0

6000 80 150.0 150.0 158.0 114.0 163.0 81.5 144.0 144.0 156.0 118.0 164.0 82.1 133.0 133.0 147.0 115.0 162.0 82.3 122.0 122.0 133.0 109.0 155.0 78.8

Notes:

1. Dry Coil Condition. Total Gross Cooling Capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.

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

3. MBH = Total Gross Capacity

4. SHC = Sensible Heat Capacity

Dry Entering Wet Bulb (F)

75 140.0 113.0 153.0 91.1 159.0 58.0 128.0 106.0 149.0 83.3 160.0 56.2 116.0 100.0 137.0 82.9 157.0 53.5 104.0 93.5 124.0 76.7 147.0 48.9

85 146.0 146.0 155.0 124.0 161.0 94.3 139.0 139.0 149.0 125.0 162.0 96.0 129.0 129.0 138.0 119.0 158.0 95.0 119.0 119.0 125.0 113.0 148.0 90.2
90 153.0 153.0 156.0 143.0 163.0 110.0 148.0 148.0 151.0 145.0 163.0 114.0 140.0 140.0 139.0 139.0 158.0 115.0 130.0 130.0 129.0 129.0 148.0 111.0
75 143.0 119.0 154.0 93.3 160.0 59.0 132.0 113.0 151.0 86.8 161.0 57.4 119.0 106.0 141.0 88.2 159.0 54.7 107.0 99.8 127.0 81.8 151.0 50.8

85 150.0 150.0 157.0 129.0 164.0 96.6 145.0 145.0 152.0 131.0 164.0 98.7 135.0 135.0 142.0 127.0 160.0 99.1 125.0 125.0 129.0 121.0 151.0 95.5
90 156.0 156.0 158.0 149.0 164.0 112.0 153.0 153.0 153.0 153.0 165.0 118.0 146.0 146.0 146.0 146.0 161.0 120.0 136.0 136.0 136.0 136.0 151.0 118.0
75 145.0 124.0 156.0 95.9 160.0 60.1 135.0 119.0 153.0 90.8 162.0 58.5 122.0 112.0 144.0 93.2 160.0 55.8 110.0 106.0 130.0 86.9 153.0 52.3

85 154.0 154.0 158.0 133.0 164.0 97.9 149.0 149.0 155.0 137.0 165.0 101.0 140.0 140.0 145.0 135.0 162.0 103.0 130.0 130.0 132.0 128.0 154.0 100.0
90 159.0 159.0 160.0 153.0 166.0 115.0 157.0 157.0 157.0 157.0 167.0 121.0 151.0 151.0 151.0 151.0 163.0 125.0 141.0 141.0 141.0 141.0 154.0 124.0
75 147.0 129.0 157.0 98.2 161.0 60.6 138.0 125.0 155.0 92.9 163.0 59.5 125.0 118.0 146.0 88.7 161.0 57.1 111.0 111.0 132.0 91.8 155.0 52.5

85 156.0 156.0 160.0 136.0 165.0 99.1 153.0 153.0 157.0 143.0 166.0 103.0 145.0 145.0 148.0 142.0 163.0 106.0 134.0 134.0 134.0 134.0 156.0 105.0
90 161.0 161.0 162.0 157.0 167.0 117.0 160.0 160.0 160.0 160.0 168.0 124.0 155.0 155.0 155.0 155.0 164.0 130.0 146.0 146.0 146.0 146.0 156.0 130.0

85 95 105 115

Ambient Temperature (F)

14

PKGP-PRC0 01-EN

Performance
Data

(15 Ton)

Table PD-3 — Gross Cooling Capacities (MBh) 15 Ton Downflow and Horizontal Three Phase WC*180B

CFM Dry Entering Wet Bulb (F)

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

5400

6000

6600

7200

Notes:

1. Dry Coil Condition. Total Gross Cooling Capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.

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

3. MBH = Total Gross Capacity

4. SHC = Sensible Heat Capacity

Enter.

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

75 162.3 130.3 184.5 103.3 194.1 71.1 150.5 124.1 176.5 99.0 190.3 68.4 137.5 117.3 163.6 93.0 185.5 65.5 124.8 110.8 149.4 94.8 176.1 61.2
80 163.8 154.2 185.1 126.5 195.7 95.8 152.7 148.2 176.7 122.2 191.5 92.1 139.3 139.3 163.8 116.2 186.0 88.8 129.4 129.4 150.0 109.7 176.4 84.3
85 170.5 170.5 185.5 148.7 197.4 115.8 161.6 161.6 177.1 145.3 192.1 113.7 151.3 151.3 164.3 139.4 186.7 111.8 141.5 141.5 151.0 133.1 176.7 107.3
90 181.0 181.0 186.7 170.9 201.0 136.9 173.5 173.5 178.5 168.4 194.9 135.7 163.7 163.7 166.9 163.2 187.1 133.8 153.8 153.8 153.7 153.7 177.0 130.2
75 167.0 137.5 187.0 106.7 195.3 71.7 154.8 131.2 179.7 102.8 191.7 69.1 141.4 124.3 167.8 97.3 187.5 66.4 128.5 117.7 153.8 90.9 178.8 62.4
80 169.2 163.7 187.6 131.0 197.2 98.1 156.0 156.0 180.0 128.0 193.2 95.1 145.5 145.5 168.0 122.6 188.3 91.8 135.3 135.3 154.1 116.1 179.2 87.6
85 177.5 177.5 188.5 154.8 199.6 118.6 168.9 168.9 180.6 152.9 194.1 116.7 158.3 158.3 168.8 147.9 188.7 116.2 148.1 148.1 155.5 141.6 179.6 112.5
90 186.6 186.6 190.1 178.4 202.6 140.1 180.0 180.0 182.7 177.5 197.3 140.3 171.1 171.1 171.0 171.0 189.9 139.5 161.1 161.1 161.2 161.2 180.0 136.8
75 170.8 144.2 188.9 110.1 196.2 72.6 158.6 137.9 182.2 106.4 192.7 70.2 144.9 131.0 171.3 101.3 188.8 67.3 131.8 124.4 157.2 95.0 180.7 63.4
80 173.6 172.6 189.7 134.9 198.3 99.3 162.1 162.1 182.7 133.3 194.4 97.9 151.1 151.1 171.5 128.5 190.0 94.7 140.6 140.6 157.6 122.2 181.2 90.5
85 182.5 182.5 191.0 160.1 200.5 120.2 175.0 175.0 183.6 159.7 195.9 119.6 164.6 164.6 172.7 155.9 190.8 119.7 154.0 154.0 159.6 149.9 181.6 117.1
90 190.6 190.6 192.9 184.7 202.3 140.8 184.9 184.9 186.2 185.4 199.1 144.1 177.1 177.1 177.0 177.0 192.1 144.4 167.4 167.4 167.3 167.3 182.6 142.8
75 174.0 150.5 190.0 112.2 196.9 73.6 162.1 144.4 184.2 109.7 193.5 71.2 148.1 137.4 174.0 105.0 189.9 68.2 134.8 130.7 160.2 98.8 182.1 64.2
80 176.7 176.7 191.4 138.3 199.1 100.2 167.6 167.6 184.8 137.8 195.7 99.2 156.3 156.3 174.3 134.1 190.7 97.2 145.4 145.4 160.6 128.0 182.9 93.4
85 186.4 186.4 192.9 164.7 201.5 121.7 179.6 179.6 186.0 165.5 197.7 122.4 170.1 170.1 175.9 163.3 192.4 122.8 159.4 159.4 163.2 157.7 183.5 121.0
90 193.8 193.8 195.1 190.1 203.3 143.0 188.6 188.6 188.5 188.5 200.6 147.4 181.9 181.9 181.7 181.7 193.9 148.7 172.6 172.6 172.5 172.5 184.6 148.2

85 95 105 115

Ambient Temperature ( F)

*Indicates both downflow and horizontal units.

PKGP-PRC0 01-EN

15

Performance
Data

(20 Ton)

Table PD-4 — Gross Cooling Capacities (MBh) 20 Ton Downflow Three Phase WCD240B

CFM Dry Entering Wet Bulb (F)

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

7200 85 229.0 229.0 236.0 197.0 249.0 148.0 220.0 220.0 231.0 202.0 249.0 153.0 205.0 205.0 215.0 196.0 242.0 153.0 189.0 189.0 194.0 186.0 226.0 146.0

8000 85 234.0 234.0 241.0 207.0 250.0 150.0 228.0 228.0 235.0 213.0 252.0 158.0 215.0 215.0 221.0 210.0 244.0 159.0 197.0 197.0 197.0 197.0 230.0 155.0

8800 85 238.0 238.0 244.0 212.0 252.0 152.0 234.0 234.0 239.0 223.0 253.0 161.0 222.0 222.0 226.0 223.0 247.0 165.0 205.0 205.0 205.0 205.0 233.0 164.0

9600 85 241.0 241.0 245.0 222.0 253.0 155.0 239.0 239.0 242.0 231.0 255.0 165.0 229.0 229.0 229.0 229.0 249.0 170.0 212.0 212.0 212.0 212.0 236.0 171.0

Notes:

1. Dry Coil Condition. Total Gross Cooling Capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.

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

3. MBH = Total Gross Capacity

4. SHC = Sensible Heat Capacity

Enter.

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

75 212.0 177.0 233.0 137.0 243.0 89.7 198.0 173.0 228.0 133.0 244.0 87.3 179.0 164.0 211.0 130.0 239.0 83.1 160.0 154.0 189.0 115.0 225.0 76.8
80 219.0 218.0 234.0 165.0 246.0 122.0 204.0 204.0 229.0 168.0 247.0 123.0 188.0 188.0 212.0 160.0 240.0 118.0 172.0 172.0 190.0 150.0 225.0 112.0

90 238.0 238.0 238.0 227.0 252.0 174.0 234.0 234.0 233.0 233.0 252.0 183.0 222.0 222.0 222.0 222.0 242.0 186.0 206.0 206.0 206.0 206.0 227.0 181.0
75 218.0 193.0 237.0 144.0 244.0 91.2 204.0 185.0 232.0 139.0 246.0 89.1 184.0 175.0 216.0 131.0 242.0 85.0 162.0 162.0 193.0 128.0 229.0 78.8
80 224.0 224.0 239.0 173.0 247.0 123.0 213.0 213.0 233.0 176.0 249.0 126.0 196.0 196.0 217.0 170.0 243.0 124.0 180.0 180.0 195.0 160.0 230.0 117.0

90 242.0 242.0 245.0 238.0 253.0 178.0 240.0 240.0 240.0 240.0 254.0 190.0 231.0 231.0 231.0 231.0 246.0 195.0 216.0 216.0 216.0 216.0 232.0 193.0
75 223.0 201.0 238.0 148.0 245.0 93.4 209.0 196.0 235.0 145.0 248.0 90.6 189.0 186.0 220.0 138.0 244.0 86.8 168.0 168.0 196.0 136.0 232.0 80.6
80 229.0 229.0 241.0 177.0 248.0 139.0 220.0 220.0 236.0 184.0 250.0 128.0 204.0 204.0 221.0 180.0 246.0 129.0 186.0 186.0 199.0 170.0 233.0 122.0

90 245.0 245.0 247.0 245.0 255.0 181.0 245.0 245.0 245.0 245.0 256.0 195.0 238.0 238.0 238.0 238.0 249.0 203.0 224.0 224.0 224.0 224.0 236.0 205.0
75 226.0 208.0 241.0 151.0 246.0 94.2 214.0 206.0 236.0 148.0 249.0 91.4 191.0 191.0 223.0 144.0 245.0 88.6 174.0 174.0 199.0 143.0 235.0 82.4
80 232.0 232.0 243.0 185.0 250.0 126.0 226.0 226.0 238.0 190.0 251.0 115.0 211.0 211.0 225.0 189.0 247.0 123.0 193.0 193.0 203.0 179.0 235.0 127.0

90 248.0 248.0 247.0 247.0 256.0 184.0 248.0 248.0 248.0 248.0 258.0 200.0 243.0 243.0 243.0 243.0 252.0 210.0 231.0 231.0 231.0 231.0 239.0 215.0

85 95 105 115

Ambient Temperature (F)

Table PD-5 — Gross Cooling Capacities (MBh) 20 Ton Horizontal Three Phase WCD240B

CFM Dry Entering Wet Bulb (F)

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

7200

8000

8800

9600

Notes:

1. Dry Coil Condition. Total Gross Cooling Capacity (MBh) shown to the left is not applicable. In this case the Sensible Heat Capacity (SHC) is the total capacity.

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

3. MBH = Total Gross Capacity

4. SHC = Sensible Heat Capacity

Enter.

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

75 217.0 181.0 238.0 140.0 248.0 91.4 202.0 177.0 233.0 136.0 249.0 88.9 183.0 167.0 215.0 132.0 244.0 84.7 163.0 157.0 192.0 117.0 229.0 78.3
80 224.0 223.0 239.0 168.0 250.0 124.0 208.0 208.0 233.0 171.0 251.0 126.0 192.0 192.0 216.0 163.0 245.0 121.0 175.0 175.0 194.0 153.0 229.0 114.0
85 233.0 233.0 241.0 201.0 253.0 151.0 224.0 224.0 235.0 206.0 254.0 156.0 209.0 209.0 219.0 200.0 246.0 156.0 192.0 192.0 198.0 190.0 230.0 149.0
90 242.0 242.0 242.0 230.0 256.0 177.0 238.0 238.0 238.0 238.0 257.0 186.0 226.0 226.0 226.0 226.0 247.0 189.0210.0 210.0210.0 210.0 231.0 185.0

75 223.0 197.0 241.0 147.0 249.0 93.5 208.0 188.0 236.0 142.0 251.0 90.8 188.0 178.0 220.0 134.0 247.0 86.6 165.0 165.0 196.0 130.0 233.0 80.3
80 228.0 228.0 244.0 176.0 252.0 126.0 217.0 217.0 237.0 180.0 254.0 128.0 200.0 200.0 221.0 174.0 248.0 126.0 183.0 183.0 199.0 163.0 234.0 119.0
85 238.0 238.0 246.0 211.0 255.0 153.0 233.0 233.0 240.0 217.0 256.0 161.0 219.0 219.0 225.0 214.0 249.0 163.0 201.0 201.0 201.0 201.0 234.0 158.0
90 246.0 246.0 250.0 243.0 258.0 181.0 245.0245.0 245.0 245.0 259.0194.0 235.0235.0 235.0 235.0251.0 199.0 220.0220.0220.0 220.0 236.0 197.0
75 228.0 205.0 243.0 151.0 250.0 95.2 213.0 200.0 239.0 147.0 252.0 92.3 193.0 189.0 224.0 140.0 249.0 88.5 172.0 172.0 200.0 138.0 237.0 82.1
80 233.0 233.0 245.0 181.0 253.0 142.0 224.0 224.0 240.0 187.0 255.0 131.0 208.0 208.0 225.0 183.0 250.0 131.0 190.0 190.0 203.0 173.0 237.0 124.0
85 242.0 242.0 248.0 216.0 256.0 155.0 239.0 239.0 243.0 227.0 258.0 165.0 227.0 227.0 230.0 227.0 252.0 169.0 209.0 209.0 209.0 209.0 238.0 167.0
90 249.0 249.0 252.0 250.0 260.0 184.0 249.0249.0 249.0 249.0 261.0 199.0242.0242.0 242.0 242.0 254.0 207.0 228.0 228.0 228.0 228.0 240.0 208.0

75 231.0 212.0 245.0 153.0 251.0 96.0 218.0 210.0 241.0 151.0 253.0 93.1 195.0 195.0 227.0 146.0 250.0 90.3 177.0 177.0 203.0 146.0 239.0 84.0
80 237.0 237.0 247.0 188.0 254.0 128.0 230.0 230.0 243.0 194.0 256.0 117.0 215.0 215.0 229.0 193.0 251.0 125.0 196.0 196.0 207.0 183.0 240.0 130.0
85 245.0 245.0 249.0 226.0 258.0 158.0 243.0 243.0 246.0 236.0 260.0 168.0 233.0 233.0 233.0 233.0 253.0 173.0 216.0 216.0 216.0 216.0 241.0 175.0
90 253.0 253.0 252.0 252.0 261.0 187.0 253.0253.0 253.0253.0 263.0 204.0 247.0 247.0 247.0 247.0 256.0214.0 235.0 235.0 235.0 235.0 244.0 219.0

85 95 105 115

Ambient Temperature (F)

16

PKGP-PRC0 01-EN