™
Air-Cooled Series R
Rotary Liquid Chiller
Model RTAC
140 to 500 Tons (60 Hz)
140 to 400 Tons (50 Hz)
Built For the Industrial and Commercial Markets
December 2003
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Contents
Introduction
Features and Benefits
2
4
World Class Energy Efficiency
Simple Installation
Options
Controls
8
12
17
18
22
23
Application Considerations
Model Number Description
General Data
Selection Procedure
Performance Data
Full Load
Part Load
Adjustment Factors
Electrical Data and Connection
37
Wire Size
Typical Wiring Diagram
Field Layout
Dimensions
63
73
77
Weights
Mechanical Specifications
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Features and
Benefits
Table 1. RTAC efficiency vs Ashrae 90.1
RTAC - Exceeding the Efficiency Standard
Full Load Efficiency (EER*)
Part Load Efficiency (EER*)
Tonnage
140
155
170
185
200
225
250
275
300
350
400
450
ASHRAE 90.1
Standard Efficiency
High Efficiency
10.3
ASHRAE 90.1
10.4
Standard Efficiency
High Efficiency
13.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.6
9.7
9.8
9.9
9.7
9.6
9.6
9.6
9.7
9.6
9.6
9.6
9.6
9.6
13.2
13.5
13.2
13.1
12.9
13.2
12.8
13.3
13.7
13.2
13.7
14.0
13.9
10.4
10.5
10.3
10.1
10.2
10.1
10.4
10.1
10.4
10.0
n/a
n/a
10.4
10.4
10.4
10.4
10.4
10.4
10.4
10.4
10.4
10.4
10.4
10.4
13.9
13.7
13.5
13.3
13.6
13.0
13.8
13.8
14.5
13.9
n/a
n/a
500
COP = EER/3.414.
Efficiencies given for 60 Hz units
industry minimums to new heights. All
Trane air-cooled chillers meet the new
efficiency levels mandated by ASHRAE
Standard 90.1. This new standard
requires higher efficiencies than past
technologies can deliver. The US Federal
Government has adopted standard 90.1
and, in some cases, requires even higher
efficiencies. Federal Executive Order
mandates energy consuming devices
procured must be in the top 25% of their
class. In the case of chillers, that product
standard is ASHRAE 90.1. Trane’s RTAC
meets and exceeds the efficiency
Precise Capacity Control. Trane’s
ASHRAE Standard 90.1 and
RTAC World Class Energy
patented unloading system allows the
compressor to modulate infinitely and
exactly match building loads. At the
same time chilled water temperatures
will be maintained within +/- 1/2ºF
[0.28°C] of setpoint. Reciprocating and
screw chillers with stepped capacity
control do well to maintain chilled water
temperatures within 2ºF [1.1°C] of
setpoint. Stepped control also results in
overcooling your space because rarely
does the capacity of the machine match
the building load. The result can be 10%
higher energy bills. Trane’s RTAC
Efficiency…
The importance of energy efficiency
cannot be understated. Fortunately,
ASHRAE has created a guideline
emphasizing its importance.
Nonetheless, energy is often dismissed
as an operational cost over which the
owner has little control. That perception
results in missed opportunities for
energy efficiency, reduced utility bills,
and higher profits. Lower utility bills
directly affect profitability. Every dollar
saved in energy goes directly to the
bottom line. Trane’s RTAC is one way to
maximize your profits.
requirements of 90.1, while the high
efficiency RTAC can meet the “stretch
goals” of Executive Order.
optimizes the part load performance of
your machine for energy efficiency,
precise control for process applications,
and your personal comfort regardless of
the weather outside.
ASHRAE Standard 90.1 & Executive
Order - New technology applied to the
design, controls, and manufacturing
have created excellent efficiency levels in
the RTAC that are helping to push
4
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Features and
Benefits
Figure 2. Cutaway of a compressor
reciprocating compressors can easily
have a failure rate four times of a helical
rotor. Combine that with two to three
reciprocating compressors for each
helical rotary compressor on chillers of
equal tonnage, and statistics tell you it’s
a matter of time before you lose a
reciprocating compressor.
Condenser coils. Trane’s condenser
coils are manufactured with the same
philosophy as the compressors; they’re
built to last. Even though manufacturing
processes have allowed thinner and
thinner materials in their assembly, with
obvious material and manufacturing
savings, Trane’s coil material did not
change with the RTAC generation of air
cooled chillers. Substantial condenser
fins, that do not require additional
coating in non-corrosive environments,
contribute to the highest reliability
standards for air-cooled chillers in the
industry.
Excellent Reliability…
A buildings environment is expected to
be comfortable. When it is, no one says
a word. If it’s not… that’s a different
story. The same is true with chillers. No
one ever talks about chillers, yet alone
compressors, until they fail, and tenants
are uncomfortable and productivity is
lost. Trane’s helical rotary compressors
have a first year reliability rate of over
99%, which means our chillers stay
running when you need them.
Robust components. Helical rotary
compressors are precisely machined
using state of the art processes from
solid metal bar stock. Tolerances are
maintained within a micron or less than
a tenth of the diameter of a human hair.
The resulting compressor is a robust yet
highly sophisticated assembly capable of
ingesting liquid refrigerant without risk
of damage. Contrast this to a
Fewer moving parts. Trane’s helical
rotary compressors have only two major
rotating parts: the male and female rotor.
A reciprocating compressor can have
more than 15 times that number of
critical parts. Multiples of pistons, valves,
crankshafts, and connecting rods in a
reciprocating unit all represent different
failure paths for the compressor. In fact,
reciprocating compressor, which can be
destroyed by a single slug of liquid.
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Features and
Benefits
• Factory Testing Means Trouble-Free
Start-Up. All air-cooled Series R chillers
are given a complete functional test at
the factory. This computer-based test
program completely checks the
sensors, wiring, electrical components,
microprocessor function,
communication capability, expansion
valve performance and fans. In
addition, each compressor is run and
tested to verify capacity and efficiency.
Where applicable, each unit is factory
preset to the customer’s design
conditions; an example would be
leaving liquid temperature setpoint.
The result of this test program is that
the chiller arrives at the job site fully
tested and ready for operation.
• Factory Installed and Tested Controls/
Options Speed Installation. All Series R
chiller options, including main power
supply disconnect, low ambient
control, ambient temperature sensor,
low ambient lockout, communication
interface and ice making controls, are
factory installed and tested. Some
manufacturers send accessories in
pieces to be field installed. With Trane,
the customer saves on installation
expense and has assurance that ALL
chiller controls/options have been
tested and will function as intended.
Simple Installation
Superior Control
The Adaptive Control™ microprocessor
system enhances the air-cooled Series R
chiller by providing the very latest chiller
control technology. With the Adaptive
Control microprocessor, unnecessary
service calls and unhappy tenants are
avoided. The unit is designed not to trip
or unnecessarily shut down. Only when
the Tracer™ chiller controllers have
exhausted all possible corrective actions
and the unit is still violating an operating
limit will the chiller shut down. Controls
on other equipment typically shut down
the chiller, usually just when it is needed
the most.
• Compact Physical Size. The Trane
Model RTAC chiller averages a 20%
reduction in physical footprint, while
the greatest change is actually 40%
smaller when compared against the
previous design. This improvement
makes the RTAC the smallest air-cooled
chiller in the industry and a prime
candidate for installations that have
space constraints. All physical sizes
were changed without sacrificing the
side clearances needed to supply fresh
airflow without coil starvation.
• Close Spacing Installation. The air-
cooled Series R™ Chiller has the tightest
recommended side clearance in the
industry, four feet for maximum
performance. In situations where
equipment must be installed with less
clearance than recommended, which
frequently occurs in retrofit
applications, restricted airflow is
common. Conventional chillers may
not work at all. However, the air-cooled
Series R chiller with Adaptive Control™
microprocessor will make as much
chilled water as possible given the
actual installed conditions, stay on line
during unforeseen abnormal
For example:
A typical five-year-old chiller with dirty
coils might trip-out on high pressure
cutout on a 100°F [38°C] day in August. A
hot day is just when comfort cooling is
needed the most. In contrast, the air-
cooled Series R chiller with an Adaptive
Control microprocessor will stage fans
on, modulate electronic expansion valve,
and modulate slide valve position as it
approaches a high pressure cutout,
thereby keeping the chiller on-line when
you need it the most.
conditions, and optimize the unit
performance. Consult your Trane sales
engineer for more details.
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Features and
Benefits
Options
High Efficiency/Performance Option
This option provides oversized heat
exchangers for two purposes. One, it
allows the unit to be more energy
efficient. Two, the unit will have
enhanced operation in high ambient
conditions.
Access Protection
A coated wire mesh that covers the
access area under the condenser coils.
High Ambient Option
The high ambient option consists of
special control logic to permit high
ambient (up to 125°F [51°C]) operation.
This option offers the best performance
when coupled with the high efficiency
performance option.
Wye-Delta Compressor Start Type
This option provides a reduced inrush
starter. Wye-Delta starters are standard
on 200-230 volt machines.
Low Temperature Brine
Non-Fused Power Disconnect Switch
The non-fused molded case disconnect
switch (UL approved) is used to
disconnect the chiller from main power
and comes pre-wired from the factory
with terminal block power connections.
The external operator handle is lockable.
Condenser Corrosion Protection
The hardware and software on the unit
are factory set to handle low
temperature brine applications (less than
40°F [4.4°C]).
Copper fins and CompleteCoat are
available on all size units for corrosion
protection. Job site conditions should be
matched with the appropriate condenser
fin materials to inhibit coil corrosion and
ensure extended equipment life. The
CompleteCoat option provides fully
assembled coils with a flexible dip and
bake epoxy coating.
Ice Making
The unit controls are factory set to
handle ice making for thermal storage
applications.
Circuit Breaker
A HACR rated molded case capacity
circuit breaker (UL approved) is
available. The circuit breaker can also be
used to disconnect the chiller from main
power with a through-the-door handle
and comes pre-wired from the factory
with terminal block power connections.
The external operator handle is lockable.
Tracer Summit Communication
Interface
TEAO Condenser Fan Motors
Permits bi-directional communication to
Totally enclosed air-over (TEAO) motors
completely seal the motor windings to
prevent exposure to ambient conditions.
the Trane Integrated Comfort™ system.
LonTalk (LCI-C) Communications
Interface
Provides the LonMark chiller profile
inputs/outputs for use with a generic
building automation system.
Low Ambient Option
The low ambient option provides special
control logic and variable frequency
drives on the condenser fan circuits to
permit low temperature start-up and
operation down to 0°F [-18°C].
Neoprene Isolators
Isolators provide isolation between
chiller and structure to help eliminate
vibration transmission. Neoprene
isolators are more effective and
recommended over spring isolators.
Remote Input Options
Permits remote chilled liquid setpoint,
remote current limit setpoint, or both by
accepting a 4-20 mA or 2-10 Vdc analog
signal.
Single/Dual Incoming Power Line
Connection
Single or dual points of termination are
available for incoming power line
connections*. Units with 3-4
compressors must order circuit breakers
with the single point connection option.
*Some restrictions may apply.
Flange Kit
Provides a raised-face flange kit that
converts the grooved pipe evaporator
water connections to flange connectors.
Remote Output Options
Permits alarm relay outputs, ice making
outputs, or both.
Architectural Louvered Panels
Louvered panels cover the complete
condensing coil and service area
beneath the condenser.
Convenience Outlet
Provides a 15 amp, 115 volt (60 Hz)
convenience outlet on the unit.
Coil Protection
Louvered panels protect the condenser
coils only.
Remote Evaporator
The remote evaporator option is
available on the RTAC 140-250 ton units.
This option provides a pre-engineered
method of installing the evaporator and
all related components indoors.
Remote evaporator installations allow
the water loop to remain indoors to
prevent freezing, thus eliminating the
addition of glycol to the system and the
resulting performance degradation.
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Controls
Standalone Controls
Human Interfaces
Standard Features
Figure C1. DynaView operator interface
The Trane air-cooled Model RTAC chiller
offers two easy-to-use operator interface
panels, the EasyView and the DynaView.
• External Auto/Stop — A jobsite
provided contact closure will turn the
unit on and off.
EasyView is a coded display that allows
the user to access the current leaving
water temperature, its setpoint, and any
recent diagnostics.
• Chilled Waterflow Interlock — A jobsite
provided contact closure from a chilled
water pump contactor or a flow switch
is required and will allow unit operation
if a load exists. This feature will allow
the unit to run in conjunction with the
pump system.
DynaView is an LCD touchscreen display
that is navigated by file tabs. This is an
advanced interface that allows the user
to access any important information
concerning setpoints, active
temperatures, modes, electrical data,
pressures, and diagnostics.
• External Interlock — A jobsite supplied
contact opening wired to this input will
turn the unit off and require a manual
reset of the unit microcomputer. This
closure is typically triggered by a
jobsite supplied system such as a fire
alarm.
Adaptive Safety Controls
Figure C2. EasyView operator interface
A centralized microcomputer offers a
higher level of machine protection. Since
the safety controls are smarter, they limit
compressor operation to avoid
• Chilled Water Pump Control — Unit
controls provide an output to control
the chilled water pump(s). One contact
closure to the chiller is all that is
required to initiate the chilled water
system. Chilled water pump control by
the chiller is a requirement on the Air-
Cooled Series R.
compressor or evaporator failures,
thereby minimizing nuisance shutdown.
Tracer™ Chiller Controls directly senses
the control variables that govern the
operation of the chiller: motor current
draw, evaporator pressure and
condenser pressure. When any one of
these variables approaches a limit
condition where damage may occur to
the unit or shutdown on a safety, Tracer
Chiller Controls takes corrective action to
avoid shutdown and keep the chiller
operating. This happens through
combined actions of compressor slide
valve modulation, electronic expansion
valve modulation and fan staging. Tracer
Chiller Controls optimizes total chiller
power consumption during normal
operating conditions. During abnormal
operating conditions, the
• Chilled Water Temperature Reset —
Reset can be based on return water
temperature or outdoor air
temperature.
chilled water. In addition, microcomputer
controls allow for more types of
protection such as over and under
voltage. Overall, the safety controls help
keep the building or process running and
out of trouble.
Standalone Controls
Interface to standalone units is very
simple; only a remote auto/stop for
scheduling is required for unit operation.
Signals from the chilled water pump
contactor auxiliary or a flow switch are
wired to the chilled waterflow interlock.
Signals from a time clock or some other
remote device are wired to the external
auto/stop input.
microprocessor will continue to optimize
chiller performance by taking the
corrective action necessary to avoid
shutdown. This keeps cooling capacity
available until the problem can be
solved. Whenever possible, the chiller is
allowed to perform its function; making
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Generic Building Automation
System Controls
Controls
Easy Interface to A Generic Building
Management System
Chiller Status
Indicates the running modes and states
of the chiller, i.e. Running in alarm mode,
chiller enabled, chiller being locally
controlled, etc…
Controlling the air-cooled Series R chiller
with building management systems is
state-of-the-art, yet simple with either the
LonTalk Communications Interface for
Chillers (LCI-C) or Generic Building
Management System Hardwire Points.
System Level
Controller
PC Workstation
Generic Building Management
System Hardwire Points
GBAS may be achieved via hardware
input/output as well. The input/outputs
are as follows:
MP581 Programmable
Controller
What are LonTalk, Echelon, and
LonMark?
LonTalk is a communications protocol
developed by the Echelon Corporation.
The LonMark association develops
control profiles using the LonTalk
communication protocol. LonTalk is a
unit level communications protocol,
unlike BACNet used at the system level.
Ice Tanks
Chiller hardwire inputs include:
Air-cooled
• Chiller enable/disable
Series R™ Chiller
• Circuit enable/disable
MP581
Programmable
Controller
• External chilled water setpoint
• External current limit setpoint
• Ice making enable
External Chilled Water Setpoint
Allows the external setting independent
of the front panel setpoint by one of two
means:
LonTalk Communications
Interface for Chillers (LCI-C)
LonTalk Communications Interface for
Chillers (LCI-C) provides a generic
automation system with the LonMark
chiller profile inputs/outputs. The inputs/
outputs include both mandatory and
optional network variables. Note:
LonMark network variable names are in
parentheses when different from chiller
naming convention.
Boiler
a) 2-10 VDC input, or
b) 4-20 mA input
Chiller Outputs:
• On/Off
External Current Limit Setpoint
Allows the external setting independent
of the front panel setpoint by one of two
means:
c) 2-10 VDC input, or
b) 4-20 mA input
• Active Setpoint
• Average Percent RLA (Actual Capacity
Level)
• Active Current Limit Setpoint (Capacity
Limit)
• Leaving Chilled Water Temperature
• Entering Chilled Water Temperature
• Alarm Descriptor
Chiller Inputs:
• Chiller Enable/Disable
• Chilled Liquid Setpoint (Cool Setpoint)
• Current Limit Setpoint (Capacity Limit
Input)
Chiller hardwire outputs include:
• Compressor running indication
• Alarm indication (Ckt1/Ckt 2)
• Maximum capacity
• Chiller Status
On/Off
• Ice Making (Chiller Mode)
• Ice making status
Indicates the current state of the chiller
Chiller Enable/Disable
Alarm Indication Contacts
The unit provides three single-pole/
double-throw contact closures to
indicate:
Active Setpoint
Allows for chiller to be started or
stopped depending on if certain
operating conditions are met.
Indicates the current value of the leaving
water temperature setpoint
a) Compressor on/off status
b) Compressor running at maximum
capacity
c) Failure has occurred (Ckt 1/Ckt 2)
These contact closures may be used to
trigger jobsite supplied alarm lights or
alarm bells.
Average Percent RLA
Provides the current capacity level via
%RLA
Chilled Liquid Setpoint
Allows for the external setting
independent of the front panel setpoint
to adjust the leaving water temperature
setpoint.
Active Current Limit Setpoint
Provides the current capacity level
setpoint via %RLA
Current Limit Setpoints
Allows for the external setting
independent of the front panel setpoint
to limit the capacity level of the chiller.
Alarm Descriptor
Provides alarm messages based on pre-
determined criteria
Ice Making Control
Provides interface with ice making
control systems.
Ice Making
Provides interface with ice making
control systems.
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Trane Integrated Comfort
System Controls
Controls
monitor the air-cooled Series R chiller
from the Tracer system, since all of the
monitoring information indicated on the
unit controller’s microcomputer can be
read off the Tracer system display. In
addition, all the powerful diagnostic
information can be read back at the
Tracer system. Best of all, this powerful
capability comes over a single twisted
pair of wires! Air-cooled Series R chillers
can interface with many different
Modem
Remote PC Workstation
PC Workstation
Notebook
PC Workstation
LAN
external control systems, from simple
stand-alone units to ice making systems.
Each unit requires a single-source, three-
phase power supply and a single-phase
115V/60Hz, [220V/50Hz] power supply.
The added power supply powers the
evaporator heaters.
Building
Control Unit
Building
Control Unit
VariTrane®
Variable Air Volume
Terminal
A single twisted pair of wires tied directly
between the air-cooled Series R™ chiller
and a Tracer™ Summit system provides
control, monitoring and diagnostic
capabilities. Control functions include
auto/stop, adjustment of leaving water
temperature setpoint, compressor
operation lockout for kW demand
limiting and control of ice making mode.
The Tracer system reads monitoring
information such as entering and leaving
evaporator water temperatures and
outdoor air temperature. Over 60
Modular Climate Changer®
Air Handler
Room temperature
sensor
Diffuser
VariTrane®
Variable Air Volume
Terminal
Exhaust Fan
individual diagnostic codes can be read
by the Tracer system. In addition, the
Tracer system can provide sequencing
control for up to 25 units on the same
chilled water loop. Pump sequencing
control can be provided from the Tracer
system. Tracer ICS is not available in
conjunction with the remote display or
the external setpoint capability.
Room temperature
sensor
Air-cooled Series R® Chiller
Diffuser
Tracer Summit controls — Interface
With The Trane Integrated Comfort
System (ICS)
• Reports and logs
• Custom messages
• Run time and maintenance
• Trend log
Required Options
Tracer Interface
Trane Chiller Plant Control
• PID control loops
The Tracer Summit Chiller Plant Building
Management System with Chiller Plant
Control provides building automation
and energy management functions
through stand-alone control. The Chiller
Plant Control is capable of monitoring
and controlling your entire chiller plant
system.
External Trane Devices Required
Tracer Summit™, Tracer 100 System or
Tracer Chiller Plant Control
And of course, the Trane Chiller Plant
Control can be used on a stand-alone
basis or tied into a complete building
automation system.
When the air-cooled Series R™ chiller is
used in conjunction with a Trane Tracer™
Summit system, the unit can be
Additional Features That May Be Used
Ice Making Control
Application software available:
• Time-of-day scheduling
• Demand limiting
monitored and controlled from a remote
location. The air-cooled Series R chiller
can be controlled to fit into the overall
building automation strategy by using
time of day scheduling, timed override,
demand limiting, and chiller sequencing.
A building owner can completely
• Chiller sequencing
• Process control language
• Boolean processing
• Zone control
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Trane Integrated Comfort
System Controls
Controls
Trane Chiller Plant Automation
Keeping Operators Informed
Integrated Comfort™ Capabilities
When integrated with a Tracer Summit
building management system
Trane’s depth of experience in chillers
and controls makes us a well-qualified
choice for automation of chiller plants
using air-cooled Series R® chillers®. The
chiller plant control capabilities of the
Trane Tracer Summit® building
A crucial part of efficiently running a
chiller plant is assuring that the
operations staff is instantly aware of
performing building control, Trane chiller
what is happening in the plant. Graphics
showing schematics of chillers, piping,
pumps, and towers clearly depict the
chiller plant system, enabling building
operators to easily monitor overall
conditions. Status screens display both
current conditions and upcoming
automated control actions to add or
subtract chiller capacity. Series R and
other chillers can be monitored and
controlled from a remote location.
plant automation coordinates with
Tracer Summit applications to optimize
the total building operation. With this
system option, the full breadth of Trane’s
HVAC and controls experience are
applied to offer solutions to many facility
issues. If your project calls for an
automation system are unequaled in the
industry. Our chiller plant automation
software is fully pre-engineered and
tested. It is a standard software
application, not custom programming
which can prove to be difficult to
support, maintain, and modify.
interface to other systems, Tracer
Summit can share data via BACnet™, the
ASHRAE open systems protocol.
Energy Efficiency
Trane chiller plant automation
Ice Making Systems Controls
Tracer Summit features standard report
templates listing key operating data for
troubleshooting and verifying
performance. Reports for each type of
Trane chiller and three and six-chiller
systems are also standard. Detailed
reports showing chiller runtimes aid in
planning for preventative maintenance.
Simple and smart control strategies are
another advantage the Model RTAC
chiller offers for ice storage applications.
Trane Tracer™ building management
systems can actually anticipate how
much ice needs to be made at night and
operate the system accordingly. The
controls are integrated right into the
chiller. Two wires and preprogrammed
software dramatically reduce field
installation cost and complex
intelligently sequences starting of
chillers to optimize the overall chiller
plant energy efficiency. Individual chillers
are designated to operate as base, peak,
or swing based on capacity and
efficiency. Sophisticated software
automatically determines which chiller
to run in response to current conditions.
The software also automatically rotates
individual chiller operation to equalize
runtime and wear between chillers.
Swift Emergency Response
We understand the importance of
maintaining chilled water production
while protecting your chillers from costly
damage. If no water flow is detected to a
chiller’s piping, the start sequence is
aborted to protect the chiller. The next
chiller in the sequence is immediately
started to maintain cooling.
programming.
Trane chiller plant automation enables
unique energy-saving strategies. An
example is controlling pumps, and
chillers from the perspective of overall
system energy consumption. The
software intelligently evaluates and
selects the lowest energy consumption
alternative.
When the ice making option is ordered,
the air-cooled Series R chiller will have
two operating modes, ice making and
normal daytime cooling. In the ice
making mode, the air-cooled Series R
chiller will operate at full compressor
capacity until the return chilled fluid
temperature entering the evaporator
meets the ice making setpoint. This ice
making setpoint is manually adjusted on
the unit’s microcomputer. Two input
signals are required to the air-cooled
Series R chiller for the ice making option.
The first is an auto/stop signal for
In the event of a problem, the operator
receives an alarm notification and
diagnostic message to aid in quick and
accurate troubleshooting. A snapshot
report showing system status just prior
to an emergency shutdown helps
operators determine the cause. If
emergency conditions justify an
immediate manual shutdown, the
operator can override the automatic
control.
scheduling and the second is required to
switch the unit in between the ice
making mode and normal daytime
operation. The signals are provided by a
remote job site building automation
device such as a time clock or a manual
switch. In addition, the signals may be
provided over the twisted wire pair from
a Tracer system or LonTalk
Communication Interface but will require
the communication boards provided
with the Ice Making Control Option.
Easy Documentation for Regulatory
Compliance
Comprehensive documentation of
refrigerant management practices is
now a fact of life. Trane chiller plant
automation generates the reports
mandated in ASHRAE Guideline 3.
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Application
Considerations
Important
the employment of a reputable water
treatment specialist, familiar with local
water conditions, to assist in this
determination and in the establishment
of a proper water treatment program.
Water Flow Limits
Certain application constraints should be
considered when sizing, selecting and
installing Trane air-cooled Series R
chillers. Unit and system reliability is
often dependent upon proper and
complete compliance with these
considerations. When the application
varies from the guidelines presented, it
should be reviewed with your local
Trane sales engineer.
The minimum and maximum water flow
rates are given in Tables G-1 through
G-4. Evaporator flow rates below the
tabulated values will result in laminar
flow causing freeze-up problems,
scaling, stratification and poor control.
Flow rates exceeding those listed may
result in excessive tube erosion.
Effect Of Altitude On Capacity
Air-cooled Series R chiller capacities
given in the performance data tables are
for use at sea level. At elevations
substantially above sea level, the
decreased air density will reduce
condenser capacity and, therefore, unit
capacity and efficiency.
Flow Rates out of Range
Many process cooling jobs require flow
rates that cannot be met with the
minimum and maximum published
values for the Model RTAC evaporator. A
simple piping change can alleviate this
problem. For example: A plastic injection
molding process requires 80 gpm
[5.1 l/s] of 50°F [10°C] water and returns
that water at 60°F [15.6°C]. The selected
chiller can operate at these
Unit Sizing
Unit capacities are listed in the
performance data section. Intentionally
over-sizing a unit to assure adequate
capacity is not recommended. Erratic
system operation and excessive
compressor cycling are often a direct
result of an oversized chiller. In addition,
an oversized unit is usually more
expensive to purchase, install, and
operate. If over-sizing is desired,
consider using multiple units.
Ambient Limitations
Trane air-cooled Series R chillers are
designed for year-round operation over
a range of ambient temperatures. The
Model RTAC chiller will operature as
standard in ambient temperatures of 25
to 115°F [-4 to 46°C]. With the low
ambient option, these units will operate
down to 0°F [-18°C]. If an ambient
temperature as high as 125°F [51°C] is
the basis for design, the high ambient
option will permit the chiller to run
without going into a limiting condition.
For installations in areas with large
ambient differences, the wide ambient
option will allow the chiller to perform
uninhibited from 0 to 125°F [-18 to 51°C].
For operation outside these ranges,
contact the local Trane sales office.
temperatures, but has a minimum flow
rate of 120 gpm [7.6 l/s]. The system
layout in Figure A1 can satisfy the
process.
Water Treatment
Dirt, scale, products of corrosion and
other foreign material will adversely
affect heat transfer between the water
and system components. Foreign matter
in the chilled water system can also
increase pressure drop and
Flow Control
Trane requires the chilled water flow
control in conjunction with the Air-
Cooled Series R Chiller to be done by the
chiller. This will allow the chiller to
protect itself in potentially harmful
conditions.
consequently, reduce water flow. Proper
water treatment must be determined
locally, depending on the type of system
and local water characteristics. Neither
salt nor brackish water is recommended
for use in Trane air-cooled Series R
chillers. Use of either will lead to a
shortened life to an indeterminable
degree. The Trane Company encourages
Figure A1. GPM out of range system layout
12
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Application
Considerations
Leaving Water Temperature Limits
Trane air-cooled Series R chillers have
three distinct leaving water categories:
standard, low temperature, and ice
making. The standard leaving solution
temperature range is 40 to 60°F [4.4 to
15.6°C]. Low temperature machines
produce leaving liquid temperatures less
than 40°F [4.4°C]. Since liquid supply
temperature setpoints less than
Figure A2. Temperature out of range system layout
40°F [4.4°C] result in suction
temperatures at or below the freezing
point of water, a glycol solution is
required for all low temperature
machines. Ice making machines have a
leaving liquid temperature range of 20 to
60°F [-6.7 to 15.6°C]. Ice making controls
include dual setpoint controls and
safeties for ice making and standard
cooling capabilities. Consult your local
Trane sales engineer for applications or
selections involving low temperature or
ice making machines. The maximum
water temperature that can be circulated
through an evaporator when the unit is
not operating is 108°F [42°C].
[5.6°C]. Chilled water temperature drops
from 6 to 18°F [3.3 to 10°C] may be used
as long as minimum and maximum
water temperatures and flow rates are
not violated. Temperature drops outside
this range are beyond the optimum
range for control and may adversely
affect the microcomputer’s ability to
maintain an acceptable supply water
temperature range. Further, temperature
drops of less than 6°F [3.3°C] may result
in inadequate refrigerant superheat.
Sufficient superheat is always a primary
concern in any refrigerant system and is
especially important in a package chiller
where the evaporator is closely coupled
to the compressor. When temperature
drops are less than 6°F [3.3°C], an
evaporator runaround loop may be
required.
related energy savings as the reason that
prompted them to install a VPF system.
With the help of a software analysis tool
such as System Analyzer™ or DOE-2, you
can determine whether the anticipated
energy savings justify the use of variable
primary flow in a particular application. It
may also be easier to apply variable
primary flow in an existing chilled-water
plant. Unlike the “decoupled” system
design, the bypass can be positioned at
various points in the chilled-water loop
and an additional pump is unnecessary.
The evaporator on the Model RTAC can
withstand up to 50 percent water flow
reduction as long as this flow is equal to
or above the minimum flow rate
requirements. The microprocessor and
capacity control algorithms are designed
to handle a maximum of 10% change in
water flow rate per minute in order to
maintain 0.5°F [0.28°C] leaving
evaporator temperature control. For
applications in which system energy
savings is most important and tight
temperature control is classified as
+/- 2°F [1.1°C], up to 30 percent changes
in flow per minute are possible.
Leaving Water Temperature out of
Range
Many process cooling jobs require
temperature ranges that cannot be met
with the minimum and maximum
published values for the Model RTAC
evaporator. A simple piping change can
alleviate this problem. For example: A
laboratory load requires 120 gpm
[7.6 l/s] of water entering the process at
85°F [29.4°C] and returning at 95°F
[35°C]. The accuracy required is better
than the cooling tower can give. The
selected chiller has adequate capacity,
but a maximum leaving chilled water
temperature of 60°F [15.6°C].
Variable Flow in the Evaporator
An attractive chilled water system option
may be a variable primary flow (VPF)
system. VPF systems present building
owners with several cost-saving benefits
that are directly related to the pumps.
The most obvious cost savings result
from eliminating the secondary
In Figure A2, both the chiller and process
flow rates are equal. This is not
necessary. For example, if the chiller had
a higher flow rate, there would simply be
more water bypassing and mixing with
warm water.
distribution pump, which in turn avoids
the expense incurred with the associated
piping connections (material, labor),
electrical service, and variable-frequency
drive. Building owners often cite pump-
Supply Water Temperature Drop
The performance data for the Trane air-
cooled Series R chiller is based on a
chilled water temperature drop of 10°F
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Application
Considerations
Series Chiller Arrangements
Series chiller arrangements can be
controlled in several ways. Figure A3
shows a strategy where each chiller is
trying to achieve the system design set
point. If the cooling load is less than 50
percent of the systems capabilities,
either chiller can fulfill the demand. As
system loads increase, the Chiller 2
becomes preferentially loaded as it
attempts to meet the leaving chilled
water setpoint. Chiller 1 will finish
cooling the leaving water from Chiller 2
down to the system design setpoint.
Typical Water Piping
Another energy-saving strategy is to
design the system around chillers
arranged in series. The actual savings
possible with such strategies depends
on the application dynamics and should
be researched by consulting your Trane
Systems Solutions Representative and
applying the Trane System Analyzer
program. It is possible to operate a pair
of chillers more efficiently in a series
chiller arrangement than in a parallel
arrangement. It is also possible to
achieve higher entering-to-leaving chiller
differentials, which may, in turn, provide
the opportunity for lower chilled water
design temperature, lower design flow,
and resulting installation and operational
cost savings. The Trance screw
All building water piping must be
flushed prior to making the final
connections to the chiller. To reduce heat
loss and prevent condensation,
insulation should be installed. Expansion
tanks are also usually required so that
chilled water volume changes can be
accommodated.
Staggering the chiller set points is
another control technique that works
well for preferentially loading Chiller 1. If
the cooling load is less than 50 percent
of the system capacity, Chiller 1 would
be able to satisfy the entire call for
cooling. As system loads increase,
Chiller 2 is started to meet any portion of
the load that Chiller 1 can not meet.
compressor also has excellent
capabilities for “lift,” which affords an
opportunity for savings on the
evaporator water loop.
Figure A3. Typical series chiller arrangement
14
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Application
Considerations
Short Water Loops
Typical Unit Installation
The proper location of the temperature
control sensor is in the supply (outlet)
water connection or pipe. This location
allows the building to act as a buffer and
assures a slowly changing return water
temperature. If there is not a sufficient
Outdoor HVAC equipment must be
located to minimize noise and vibration
transmission to the occupied spaces of
the building structure it serves. If the
equipment must be located in close
proximity to a building, it could be
volume of water in the system to provide placed next to an unoccupied space such
an adequate buffer, temperature control
can be lost, resulting in erratic system
operation and excessive compressor
cycling. A short water loop has the same
effect as attempting to control from the
building return water. Typically, a two-
minute water loop is sufficient to prevent
problems. Therefore, as a guideline,
ensure the volume of water in the
as a storage room, mechanical room,
etc. It is not recommended to locate the
equipment near occupied, sound
sensitive areas of the building or near
windows. Locating the equipment away
from structures will also prevent sound
reflection, which can increase levels at
property lines, or other sensitive points.
When physically isolating the unit from
structures, it is a good idea to not use
rigid supports, and to eliminate any
metal-to-metal or hard material contact,
when possible. This includes replacing
spring or metal weave isolation with
elastomeric isolators. Figure A4
illustrates isolation recommendations for
the RTAC.
evaporator loop equals or exceeds two
times the evaporator flow rate. For a
rapidly changing load profile, the
amount of volume should be increased.
To prevent the effect of a short water
loop, the following items should be
given careful consideration: A storage
tank or larger header pipe to increase the
volume of water in the system and,
therefore, reduce the rate of change of
the return water temperature.
For chiller sound ratings, installation tips
and considerations on chiller location,
pipe isolation, etc., refer to the Trane Air-
Cooled Series R Chillers Sound Data and
Application Guide for Noise- Sensitive
Installations.
Applications Types
• Comfort cooling.
• Industrial process cooling.
• Ice/thermal storage.
• Low temperature process cooling.
Elastomeric
Vibration
Eliminators
Figure A4. Unit isolation recommendations
Avoid using the
chiller to support
chiller water
piping.
Flex Conduit
Control Power
Neoprene
Isolators
Flex Conduit
Power Wiring
Concrete Base
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Application
Considerations
System Options — Ice Storage
treatment costs. The air-cooled chiller is
also available for comfort cooling duty at
nominal cooling conditions and
efficiencies. The modular concept of
glycol ice storage systems and the
proven simplicity of Trane Tracer
controllers allow the successful blend of
reliability and energy saving
take effect, Tracer sets the air-cooled
chiller leaving fluid setpoint to its most
efficient setting and starts the chiller,
chiller pump, and load pump.
Trane air-cooled Series R Chillers are
well suited for ice production. An air-
cooled machine typically switches to ice
production at night. Two things happen
under this assumption. First, the leaving
brine temperature from the evaporator is
lowered to around 22 to 24°F
When electrical demand is high, the ice
pump is started and the chiller is either
demand limited or shut down
completely. Tracer controls have the
intelligence to optimally balance the
contribution of ice and chiller in meeting
the cooling load.
[-5.5 to –4.4°C]. Second, the ambient
temperature has typically dropped about
15 to 20°F [8.3 to 11°C] from the peak
daytime ambient. This effectively places
a lift on the compressors that is similar
to daytime running conditions. The
chiller can operate in lower ambient at
night and successfully produce ice to
supplement the next day’s cooling
demands.
performance in any ice storage
application.
The ice storage system is operated in six
different modes: each optimized for the
utility cost of the hour.
The capacity of the chiller plant is
extended by operating the chiller and ice
in tandem. Tracer rations the ice,
augmenting chiller capacity while
reducing cooling costs. When ice is
produced, Tracer will lower the air-
cooled chiller leaving fluid setpoint and
start the chiller, ice and chiller pumps,
and other accessories. Any incidental
loads that persist while producing ice
can be addressed by starting the load
pump and drawing spent cooling fluid
from the ice storage tanks.
1. Provide comfort cooling with chiller
2. Provide comfort cooling with ice
3. Provide comfort cooling with ice and
chiller
4. Freeze ice storage
The Model RTAC produces ice by
5. Freeze ice storage when comfort
cooling is required
supplying ice storage tanks with a
constant supply of glycol solution. Air-
cooled chillers selected for these lower
leaving fluid temperatures are also
selected for efficient production of
chilled fluid at nominal comfort cooling
conditions. The ability of Trane chillers to
serve “double duty” in ice production
and comfort cooling greatly reduces the
capital cost of ice storage systems.
6. Off
Tracer optimization software controls
operation of the required equipment and
accessories to easily transition from one
mode of operation to another. For
example:
For specific information on ice storage
applications, contact your local Trane
sales office.
Even with ice storage systems there are
numerous hours when ice is neither
produced or consumed, but saved. In
this mode the chiller is the sole source of
cooling. For example, to cool the
building after all ice is produced but
before high electrical demand charges
When cooling is required, ice chilled
glycol is pumped from the ice storage
tanks directly to the cooling coils. No
expensive heat exchanger is required.
The glycol loop is a sealed system,
eliminating expensive annual chemical
Figure A5. Ice storage demand cost savings
16
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Model
Number
Description
RT A C 350 A
U
CO
N
N
A
F
N
N
1
N
X
1
T
E
N
N
N
0
N
N
1 0
N
N
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
26 27 28 29 30 31 32 33
Digit 16 — Evaporator configuration
Digit 26 — Control output accessories/
options
N No output options
A Alarm relay outputs
C Icemaking I/O
D Alarm relay outputs and icemaking
I/O
140-500 Tons
N Standard pass arrangement, insulated
Digits 1, 2 — Unit model
RT Rotary chiller
Digit 17 — Condenser application
N Standard ambient range (25-115 F)
H High ambient capability (25-125 F)
L Low ambient capability (0-115 F)
W Wide ambient capability (0-125 F)
Digit 3 — Unit type
A
Air cooled
Digit 4 — Development sequence
First sequence
C
Digit 27 — Electrical protection options
0 No short circuit rating
5 10,000 Amp short circuit rating
4 35,000 Amp short circuit rating
6 65,000 Amp short circuit rating
Digit 18 — Condenser fin material
1 Standard aluminum slit fins
2 Copper fins
Digit 5, 6 & 7 — Nominal capacity
140 140 Nominal tons
155 155 Nominal tons
170 170 Nominal tons
185 185 Nominal tons
200 200 Nominal tons
225 225 Nominal tons
250 250 Nominal tons
275 275 Nominal tons
300 300 Nominal tons
350 350 Nominal tons
375 375 Nominal tons
400 400 Nominal tons
450 450 Nominal tons
500 500 Nominal tons
4 CompleteCoat epoxy coated fins
Digit 19 — Condenser fan/motor
configuration
N STD fans with ODP motors
Digit 28 — Electrical accessories
N No electrical accessories
F Vapor proof flow switch – 150 psi
E Nema-1 flow switch –150 psi
T
STD fans with TEAO motors
W Low noise fans
Digit 29 — Control panel accessories
N No convenience outlet
A 15A 115V convenience outlet (60Hz)
Digit 20 — Compressor motor starter
type
X Across-the-line starter
Y Wye-delta closed transition starter
Digit 30 — Service valves
1 With suction service valves
Digit 21 — Incoming power line
connection
1 Single point power connection
2 Dual point power connection
Digit 31 —- Compressor sound
attenuation option
0 No compressor sound attenuation
1 Factory installed compressor sound
attenuation
2 Field installed compressor sound
attenuation
Digit 8 — Unit voltage
A 200/60/3
C 230/60/3
Digit 22 — Power line connection type
T Terminal block connection for
incoming line(s)
D Non-fused disconnect switch(es)
for incoming line(s)
C HACR rated circuit breaker(s) for
incoming line(s)
J 380/60/3
D 400/50/3
4 460/60/3
5 575/60/3
Digit 32 — Appearance options
N No appearance options
A Architectural louvered panels
C Half louvers
G Access guards
B Access guards and half louvers
Digit 9 – Manufacturing location
U Water Chiller Business Unit,
Pueblo, CO USA
Digit 23 — Unit operator interface
E EasyView operator interface
D DynaView operator interface
Digit 10, 11 — Design sequence
CO Factory Input
Digit 33 — Installation accessories
N No installation accessories
R Neoprene in shear unit isolators
F Flange kit for water connections
G Neoprene isolators and flange kit
Digit 24 — Remote operator interface
N No remote interface
C Tracer Comm 3 interface
L LonTalk compatible (LCI-C) interface
Digit 12 — Unit basic configuration
N Standard efficiency/performance
configuration
H High efficiency/performance
configuration
Digit 25 — Control input accessories/
options
N No remote inputs
R Ext. evaporator leaving water
setpoint
C Ext. current limit setpoint
B Ext. leaving water and current limit
setpoint
Digit 13 — Agency listing
N No agency listing
U UL/CUL listing
Digit 14 — Pressure vessel code
A ASME pressure vessel code
Digit 15 — Evaporator application
F Standard (40-60 F) leaving temp
G Low (Less than 40 F) leaving temp
R Remote (40-60 F) leaving temp
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General Data
Table G-1. General data — 140-500 ton 60 Hz units - standard efficiency
Size
140
155
170
185
200
225
250
275
300
350
400
450
500
Type
STD
STD
STD
STD
STD
STD
STD
STD
STD
STD
STD
STD
STD
Compressor
Quantity (1)
Nominal Size (tons)
@ 60 Hz
2
2
2
2
2
2
2
3
85 /
85-100
3
100 /
100-100
3
120 /
120-100
4
4
4
100-100 /
100-100
120-120 / 120-120 /
100-100
70/70
85/70
85/85
100/85
100/100
120/100
120/120
120-120
Evaporator
Water storage
(gallons)
(liters)
(gpm)
(L/s)
(gpm)
(L/s)
29
111
197
12
700
44
32
121
221
14
787
50
33
127
209
13
765
48
35
134
221
14
787
50
39
146
250
16
853
54
38
145
221
14
787
50
42
158
250
16
853
54
60
227
275
17
908
57
66
249
308
20
1070
68
71
267
342
22
1192
75
81
304
457
29
1656
105
87
327
501
32
1818
115
93
350
545
34
1979
125
Minimum flow
Maximum flow
Condenser
Qty of coils
Coil length
4
4
180/156
4572/3962
42
1067
192
4
180/180
4572/4572
42
1067
192
4
216/180
5486/4572
42
1067
192
4
216/216
5486/5486
42
1067
192
4
252/216
6401/5486
42
1067
192
4
252/252
6401/6401
42
1067
192
8
180/108
4572/2743
42
1067
192
8
216/108
5486/2743
42
1067
192
8
252/108
6401/4572
42
1067
192
8
216/216
5486/5486
42
1067
192
8
8
(inches)
156/156
(millimeters) 3962/3962
(inches) 42
252/216
6401/5486 6401/6401
42
1067
192
3
252/252
Coil height
42
1067
192
3
(millimeters) 1067
Fins/Ft
192
3
Number of rows
Condenser fans
Quantity (1)
Diameter
3
3
3
3
3
3
3
3
3
3
4/4
30
762
77000
130811
1140
19
5/4
30
762
84542
143623
1140
19
5/5
30
762
92087
156441
1140
19
6/5
30
762
101296
172086
1140
19
6/6
30
762
110506
187732
1140
19
7/6
30
762
119725
203394
1140
19
7/7
30
762
128946
219059
1140
19
10/6
30
762
147340
250307
1140
19
12/6
30
762
165766
281610
1140
19
14/6
30
762
184151
312843
1140
19
12/12
30
762
221016
375471
1140
19
14/12
30
762
239456
406797
1140
19
14/14
30
762
257991
438285
1140
19
(inches)
(millimeters)
(cfm)
Total airflow
(m^3/hr)
Nominal fan speed rpm
rps
Tip speed
(ft/min)
M/S
Minimum starting/operating ambient (2)
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
8954
45
Standard unit
(F)
(C)
(F)
(C)
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
Low ambient
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
General unit
Refrigerant
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a HFC-134a
No. of independent
refrigerant circuits
2
2
2
2
2
2
2
2
2
2
2
2
2
% Minimum load
15
15
15
15
15
15
15
15
15
15
15
15
15
Refrigerant charge (1) (pounds)
(kilograms)
175/175
79/79
1.5/1.5
5.7/5.7
185/175
84/79
1.5/1.5
5.7/5.7
185/185
84/84
1.5/1.5
5.7/5.7
215/185
98/84
2.1/1.5
5.7/7.9
215/215
98/98
2.1/2.1
7.9/7.9
235/215
107/98
2.1/2.1
7.9/7.9
235/235
107/107
2.1/2.1
7.9/7.9
335/195
152/88
4.6/2.6
17.4/9.8
385/195
175/88
5.0/2.6
18.9/9.8
430/215
195/97
4.6/4.6
17.4/17.4
385/385
175/175
5.0/5.0
18.9/18.9
430/385
195/175
5.0/5.0
18.9/18.9
430/430
195/195
5.0/5.0
18.9/18.9
Oil charge (1)
[gallons]
[liters]
Notes:
1. Data containing information on two circuits shown as follows: CKT 1/CKT 2
2. Minimum start-up/operating ambient based on a 5 mph wind across the condenser
18
RLC-PRC006-EN
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General Data
Table G-2. General data — 140-400 ton 60 Hz units - high efficiency
Size
140
155
170
185
200
225
250
275
300
350
400
Type
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
Compressor
Quantity (1)
Nominal Size (tons)
@ 60 Hz
2
2
2
2
2
2
2
3
3
100 /
100-100
4
4
85-85 /
85-85
100-100 /
100-100
70/70
85/70
85/85
100/85
100/100
120/100
120/120
85-85/100
Evaporator
Water storage
(gallons)
(liters)
(gpm)
(L/s)
(gpm)
(L/s)
33
127
209
13
765
48
35
134
221
14
787
50
39
146
250
16
853
54
38
145
221
14
787
50
42
158
250
16
853
54
42
158
250
16
853
54
41.7
157.8
250
16
853
54
71
267
342
22
1192
75
71
267
342
22
1192
75
81
304
457
29
1656
105
93
351
545
34
1979
125
Minimum flow
Maximum flow
Condenser
Qty of coils
Coil length
4
4
216/180
5486/4572
42
1067
192
4
216/216
5486/5486
42
1067
192
4
252/216
6401/5486
42
1067
192
4
252/252
6401/6401
42
1067
192
8
144/144
3658/3658
42
1067
192
8
144/144
4572/2743
42
1067
192
8
8
8
8
(inches)
180/180
(millimeters) 4572/4572
216/144
252/144
216/216
252/252
5486/3658 6401/3658 5486/5486 6401/6401
Coil height
(inches)
(millimeters)
42
1067
192
3
42
1067
192
3
42
1067
192
3
42
1067
192
3
42
1067
192
3
Fins/Ft
Number of rows
Condenser fans
Quantity (1)
Diameter
3
3
3
3
3
3
5/5
30
762
91993
156281
1140
19
8954
45
6/5
30
762
101190
171906
1140
19
8954
45
6/6
30
762
110387
187530
1140
19
8954
45
7/6
30
762
119598
203178
1140
19
8954
45
7/7
30
762
128812
218831
1140
19
8954
45
8/6
30
762
136958
232670
1140
19
8954
45
8/8
30
762
147242
250141
1140
19
8954
45
12/6
30
762
173733
295145
1140
19
8954
45
14/6
30
762
192098
326344
1140
19
8954
45
12/12
30
762
220778
375066
1140
19
8954
45
14/14
30
762
257626
437665
1140
19
8954
45
(inches)
(millimeters)
(cfm)
(m^3/hr)
rpm
rps
(ft/min)
M/S
Total airflow
Nominal fan speed
Tip speed
Minimum starting/operating ambient (2)
Standard unit
(F)
(C)
(F)
(C)
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
Low ambient
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
General unit
Refrigerant
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a HFC-134a HFC-134a HFC-134a
No. of independent
refrigerant circuits
2
2
2
2
2
2
2
2
2
2
2
% Minimum load
15
15
15
15
15
15
15
15
15
15
15
Refrigerant charge (1) (pounds)
(kilograms)
185/185
84/84
1.5/1.5
5.7/5.7
210/185
95/87
1.5/1.5
5.7/5.7
210/210
95/95
1.5/1.5
5.7/5.7
235/210
107/95
2.1/1.5
5.7/7.9
235/235
107/107
2.1/2.1
7.9/7.9
245/245
111/111
2.1/2.1
7.9/7.9
245/245
111/111
2.1/2.1
7.9/7.9
385/215
175/97
4.6/2.7
17.4/10.2
430/215
195/97
5.0/2.7
18.9/10.2
385/385
175/175
4.6/4.6
17.4/17.4
430/430
195/195
5.0/5.0
18.9/18.9
Oil charge (1)
[gallons]
[liters]
Notes:
1. Data containing information on two circuits shown as follows: CKT 1/CKT 2
2. Minimum start-up/operating ambient based on a 5 mph wind across the condenser
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General Data
Table G-3. General data — 140-400 ton 50 Hz units - standard efficiency
Size
140
155
170
185
200
250
275
300
350
375
400
Type
STD
STD
STD
STD
STD
STD
STD
STD
STD
STD
STD
Compressor
Quantity (1)
Nominal Size (tons)
@ 50 Hz
2
2
2
2
2
3
3
3
4
4
4
70-70 /
100
85-85 /
100
100-100 /
100
85-85 /
85-85
100-100 /
85-85
100-100 /
100-100
70/70
85/70
85/85
100/85
100/100
Evaporator
Water storage
(gallons)
(liters)
(gpm)
(L/s)
(gpm)
(L/s)
29
111
197
12
700
44
32
121
221
14
787
50
33
127
209
13
765
48
35
134
221
14
787
50
39
146
250
16
853
54
54
205
242
15
747
47
60
227
275
17
909
57
66
249
308
20
1070
68
71
265
457
29
1313
83
73
276
501
32
1454
92
81
304
545
34
1656
105
Minimum flow
Maximum flow
Condenser
Qty of coils
Coil length
4
4
180/156
4572/3962
42
1067
192
4
180/180
4572/4572
42
1067
192
4
216/180
5486/4572
42
1067
192
4
216/216
5486/5486
42
1067
192
8
156/108
3962/4572
42
1067
192
8
180/108
4572/2743
42
1067
192
8
216/108
5486/2743
42
1067
192
8
180/180
4572/4572
42
1067
192
8
216/180
5486/4572
42
1067
192
8
252/216
6401/5486
42
1067
192
(inches)
156/156
(millimeters) 3962/3962
Coil height
(inches)
(millimeters)
42
1067
192
3
Fins/Ft
Number of rows
Condenser fans
Quantity (1)
Diameter
3
3
3
3
3
3
3
3
3
3
4/4
30
762
63346
107615
950
15.8
7461
38
5/4
30
762
69507
118081
950
15.8
7461
38
5/5
30
762
75671
128553
950
15.8
7461
38
6/5
30
762
83236
141405
950
15.8
7461
38
6/6
30
762
90803
154260
950
15.8
7461
38
8/6
30
762
108698
184661
950
15.8
7461
38
10/6
30
762
121056
205655
950
15.8
7461
38
12/6
30
762
136210
231399
950
15.8
7461
38
10/10
30
762
151332
257089
950
15.8
7461
38
12/10
30
762
166467
282801
950
15.8
7461
38
12/12
30
762
181611
308528
950
15.8
7461
38
(inches)
(millimeters)
(cfm)
(m^3/hr)
rpm
rps
(ft/min)
M/S
Total airflow
Nominal fan speed
Tip speed
Minimum starting/operating ambient (2)
Standard unit
(F)
(C)
(F)
(C)
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
Low ambient
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
General unit
Refrigerant
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
No. of independent
refrigerant circuits
2
2
2
2
2
2
2
2
2
2
2
% Minimum load
15
15
15
15
15
15
15
15
15
15
15
Refrigerant charge (1) (pounds)
(kilograms)
175/175
79/79
1.5/1.5
5.7/5.7
185/175
84/79
1.5/1.5
5.7/5.7
185/185
84/84
1.5/1.5
5.7/5.7
215/185
98/84
2.1/1.5
5.7/7.9
215/215
98/98
2.1/2.1
7.9/7.9
305/195
138/88
4.6/2.6
17.4/9.8
335/195
152/88
4.6/2.6
17.4/9.8
385/195
175/88
5.0/2.6
18.9/9.8
335/335
152/152
4.6/4.6
17.4/17.4
385/335
175/152
5.0/4.6
18.9/17.4
385/385
175/175
5.0/5.0
18.9/18.9
Oil charge (1)
[gallons]
[liters]
Notes:
1. Data containing information on two circuits shown as follows: CKT 1/CKT 2
2. Minimum start-up/operating ambient based on a 5 mph wind across the condenser
20
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General Data
Table G-4. General data — 140-400 ton 50 Hz units - high efficiency
Size
140
155
170
185
200
250
275
300
350
375
400
Type
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
HIGH
Compressor
Quantity (1)
Nominal Size (tons)
@ 50 Hz
2
2
2
2
2
3
3
3
4
4
4
70-70 /
100
85-85 /
100
100-100 /
100
85-85 /
85-85
100-100 /
85-85
100-100 /
100-100
70/70
85/70
85/85
100/85
100/100
Evaporator
Water storage
(gallons)
(liters)
(gpm)
(L/s)
(gpm)
(L/s)
33
127
209
13
765
48
35
134
221
14
787
50
39
146
250
16
853
54
38
145
221
14
787
50
42
158
250
16
853
54
66
249
308
20
1070
68
71
267
342
22
1192
75
71
267
342
22
1192
75
81
304
457
29
1656
105
87
327
501
32
1818
115
93
350
545
34
1979
125
Minimum flow
Maximum flow
Condenser
Qty of coils
Coil length
4
4
216/180
5486/4572
42
1067
192
4
216/216
5486/5486
42
1067
192
4
252/216
6401/5486
42
1067
192
4
252/252
6401/6401
42
1067
192
8
180/108
4572/2743
42
1067
192
8
216/144
5486/3658
42
1067
192
8
252/144
6401/3658
42
1067
192
8
216/216
5486/5486
42
1067
192
8
252/216
6401/5486
42
1067
192
8
252/252
6401/6401
42
1067
192
(inches)
180/180
(millimeters) 4572/4572
Coil height
(inches)
(millimeters)
42
1067
192
3
Fins/Ft
Number of rows
Condenser fans
Quantity (1)
Diameter
3
3
3
3
3
3
3
3
3
3
5/5
30
762
75575
128390
950
15.8
7461
38
6/5
30
762
83130
141225
950
15.8
7461
38
6/6
30
762
90687
154063
950
15.8
7461
38
7/6
30
762
98256
166921
950
15.8
7461
38
7/7
30
762
105826
179781
950
15.8
7461
38
10/6
30
762
120971
205510
950
15.8
7461
38
12/6
30
762
142969
242881
950
15.8
7461
38
14/6
30
762
158112
268607
950
15.8
7461
38
12/12
30
762
181371
308120
950
15.8
7461
38
14/12
30
762
194731
330817
950
15.8
7461
38
14/14
30
762
211648
359556
950
15.8
7461
38
(inches)
(millimeters)
(cfm)
(m^3/hr)
rpm
rps
(ft/min)
M/S
Total airflow
Nominal fan speed
Tip speed
Minimum starting/operating ambient (2)
Standard unit
(F)
(C)
(F)
(C)
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
25
-3.9
0
Low ambient
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
-17.8
General unit
Refrigerant
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
HFC-134a
No. of independent
refrigerant circuits
2
2
2
2
2
2
2
2
2
2
2
% Minimum load
15
15
15
15
15
15
15
15
15
15
15
Refrigerant charge (1)
(pounds)
(kilograms)
(pounds)
185/185
84/84
15.3/15.3
5.7/5.7
210/185
95/87
21.8/20.8
5.7/5.7
210/210
95/95
21.8/21.8
5.7/5.7
235/210
107/95
22.8/21.8
5.7/7.9
235/235
107/107
22.8/22.8
7.9/7.9
335/195
152/88
33.7/20.3
17.4/9.8
385/215
175/97
39.1/24.3
17.4/9.8
430/215
195/97
42.6/24.3
18.9/9.8
385/385
175/175
39.1/39.1
17.4/17.4
430/385
195/175
42.6/39.1
18.9/18.9
430/430
195/195
42.6/42.6
18.9/18.9
Oil charge (1)
(kilograms)
Notes:
1. Data containing information on two circuits shown as follows: CKT 1/CKT 2
2. Minimum start-up/operating ambient based on a 5 mph wind across the condenser
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Selection
Procedure
Trane air-cooled Series R chiller
performance is rated in accordance with
the ARI Standard 550/590-1998
Certification Program. Chiller selection
assistance and performance information
can be obtained by using the Series R
chiller selection program, available
through local Trane sales offices.
Selection Example
Given:
Required System Load = 140 Tons
Leaving Chilled Water Temperature
(LCWT) = 44°F Chilled Water
Temperature Drop = 10°F Design
Ambient Temperature = 95°F
Evaporator Fouling Factor = 0.0001
The chiller capacity tables cover the
most frequently encountered leaving
liquid temperatures. The tables reflect a
10°F [5.6°C] temperature drop through
the evaporator. For other temperature
drops, apply the appropriate
1
To calculate the required chilled water
flow rate we use the formula given
below:
GPM = (140 Tons x 24) / 10°F = 336 GPM
2
Performance Data Adjustment Factors
from Table A-1. For chilled brine
selections, contact your local Trane sales
engineer. To select a Trane air-cooled
Series R™ chiller, the following
From Table P-1 (RTAC performance
data), an RTAC 140 standard at the given
conditions will produce 138.2 tons with
compressor power input of 158.6 kW
and a unit EER of 9.7.
information is required:
3
1
To determine the evaporator pressure
drop use the flow rate (GPM) and
pressure drop chart on page 16. Entering
the curve at 336 gpm, the pressure drop
for a nominal 140 standard evaporator is
16 feet.
Design load in tons of refrigeration
2
Design chilled water temperature drop
3
Design leaving chilled water temperature
Minimum Leaving Chilled Water
Temperature Setpoint
4
Design ambient temperature
The minimum leaving chilled water
temperature setpoint for water is 40°F.
For those applications requiring lower
setpoints, a glycol solution must be
used. Contact the local Trane sales
engineer for additional information.
Evaporator flow rates can be determined
by using the following formulas:
GPM = (Tons x 24) / Temperature Drop
(Degrees F)
OR
L/S = (kW (Capacity) x .239) /
Temperature Drop (Degrees C)
NOTE: Flow rates must fall within the
limits specified in Tables G-1 through G-4
(for GPM or for L/s).
Table S-1. Performance data adjustment factors
Chilled
Fouling Water
Factor Temp.
Elevation
2000 ft
Sea Level
GPM
4000 ft
6000 ft
GPM
1.200
0.963
0.804
0.690
0.605
1.183
0.950
0.793
0.682
0.598
CAP
0.997
1.000
1.003
1.004
1.006
0.982
0.986
0.988
0.991
0.992
KW
CAP
0.987
0.989
0.992
0.993
0.995
0.972
0.975
0.978
0.980
0.982
GPM
1.233
0.989
0.826
0.710
0.622
1.215
0.975
0.815
0.700
0.614
KW
CAP
0.975
0.977
0.979
0.981
0.982
0.961
0.963
0.966
0.968
0.970
GPM
1.217
0.977
0.816
0.701
0.614
1.200
0.963
0.805
0.692
0.606
KW
CAP
0.960
0.963
0.965
0.966
0.968
0.947
0.950
0.952
0.954
0.956
KW
0.0001
8
1.246
1.000
0.835
0.717
0.629
1.227
0.985
0.823
0.708
0.621
0.999
1.000
1.001
1.002
1.003
0.991
0.992
0.994
0.995
0.996
1.012
1.013
1.014
1.016
1.016
1.003
1.005
1.006
1.008
1.009
1.027
1.028
1.030
1.031
1.032
1.018
1.020
1.022
1.023
1.024
1.045
1.047
1.048
1.049
1.050
1.036
1.038
1.040
1.041
1.042
10
12
14
16
8
10
12
14
16
0.00025
22
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Performance
Data
Full Load
Performance
Table P-1. 60 Hz standard efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
Tons
138.0
151.7
165.6
180.9
196.6
216.1
236.2
266.9
299.3
338.6
400.0
436.5
477.0
143.2
157.4
171.7
187.5
203.8
223.9
244.9
276.4
309.8
350.6
414.2
452.0
494.0
148.4
163.2
178.0
194.2
211.1
231.8
253.6
286.0
320.5
362.7
428.5
467.7
511.3
kW input
139.9
152.4
165.0
183.7
202.7
222.2
242.2
272.0
312.5
354.0
416.3
458.1
500.1
142.9
155.7
168.5
187.7
207.2
227.3
248.0
277.7
319.3
362.0
425.4
468.4
511.8
146.0
159.0
172.0
191.7
211.8
232.5
253.8
283.4
326.2
370.3
434.7
479.1
523.8
EER
10.9
10.9
11.0
10.8
10.7
10.7
10.8
10.8
10.6
10.6
10.6
10.5
10.6
11.1
11.1
11.2
11.0
10.9
10.9
10.9
11.0
10.7
10.7
10.8
10.7
10.7
11.3
11.3
11.4
11.2
11.0
11.0
11.1
11.2
10.9
10.9
10.9
10.8
10.8
Tons
128.4
141.3
154.6
168.9
183.6
202.1
221.0
249.9
280.1
317.3
374.4
408.9
447.0
133.3
146.7
160.4
175.2
190.4
209.4
229.1
258.9
290.1
328.6
387.8
423.5
463.1
138.2
152.1
166.2
181.5
197.2
216.9
237.3
268.0
300.2
340.0
401.3
438.3
479.3
kW input
152.4
166.0
179.9
199.7
219.9
241.1
262.7
296.1
339.0
383.8
451.5
496.5
541.8
155.5
169.4
183.4
203.8
224.5
246.3
268.6
301.9
346.0
392.1
460.8
507.2
553.9
158.6
172.8
187.1
208.0
229.2
251.6
274.6
307.9
353.1
400.6
470.4
518.2
566.3
EER
9.4
9.4
9.5
9.4
9.3
9.3
9.4
9.4
9.2
9.2
9.2
9.2
9.2
9.5
9.6
9.7
9.5
9.4
9.5
9.5
9.5
9.3
9.3
9.4
9.3
9.3
9.7
9.8
9.9
9.7
9.6
9.6
9.6
9.7
9.6
9.6
9.6
9.6
9.6
Ton
kW input
166.4
181.4
196.5
217.8
239.4
262.5
286.0
323.3
369.1
417.7
491.4
540.3
589.1
169.6
184.8
200.2
222.0
244.1
267.9
292.0
329.3
376.3
426.3
501.1
551.3
601.6
172.9
188.3
203.9
226.3
249.0
273.4
298.2
335.5
383.6
435.0
510.9
562.5
614.3
EER
8.0
8.1
8.1
8.0
7.9
8.0
8.0
8.0
7.9
7.9
7.9
7.9
7.9
8.1
8.2
8.3
8.2
8.1
8.1
8.2
8.2
8.0
8.1
8.1
8.0
8.0
8.3
8.4
8.5
8.3
8.2
8.3
8.3
8.3
8.2
8.2
8.2
8.1
8.2
Tons
108.3
119.7
131.5
143.8
156.2
172.5
188.8
213.8
239.4
272.0
319.9
350.0
383.1
112.6
124.4
136.6
149.3
162.1
178.8
195.8
221.7
248.2
281.8
331.6
362.7
396.9
116.9
129.2
141.8
154.8
168.1
185.3
202.8
229.8
257.0
291.6
343.5
375.6
410.9
kW input
182.1
198.5
215.1
238.1
261.3
286.6
312.1
353.7
402.9
455.8
536.3
589.3
642.3
185.4
202.0
218.8
242.4
266.1
292.1
318.3
359.9
410.3
464.6
546.3
600.7
655.1
188.7
205.6
222.7
246.8
271.1
297.7
324.6
366.2
417.8
473.5
556.4
612.2
668.1
EER
6.7
6.8
6.9
6.8
6.7
6.8
6.8
6.8
6.7
6.7
6.7
6.7
6.7
6.9
6.9
7.0
6.9
6.9
6.9
6.9
6.9
6.8
6.9
6.9
6.8
6.9
7.0
7.1
7.2
7.1
7.0
7.0
7.1
7.1
6.9
7.0
7.0
6.9
7.0
140 STD
155 STD
170 STD
185 STD
200 STD
118.5
130.7
143.2
156.5
170.2
187.5
205.2
232.1
260.2
295.1
347.6
380.0
415.7
123.1
135.7
148.6
162.4
176.5
194.4
212.7
240.6
269.5
305.7
360.2
393.7
430.7
127.7
140.8
154.2
168.4
182.9
201.4
220.4
249.2
279.0
316.3
372.9
407.6
445.8
40
42
44
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
140 STD
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
140 STD
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
RLC-PRC006-EN
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Full Load
Performance
Performance
Data
Table P-1 (Continued). 60 Hz standard efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
Tons
153.8
169.0
184.3
201.1
218.4
239.9
262.5
295.7
331.2
374.9
443.0
483.5
528.7
159.2
175.0
190.7
208.0
225.9
248.1
271.5
305.6
342.1
387.3
457.6
499.5
546.3
164.7
181.0
197.2
214.9
233.4
256.3
280.7
315.5
353.1
399.7
472.4
515.7
564.1
kW input
149.1
162.4
175.7
195.9
216.5
237.8
259.8
289.3
333.3
378.7
444.1
489.9
536.1
152.4
165.9
179.4
200.1
221.3
243.2
266.0
295.4
340.5
387.3
453.8
501.0
548.7
155.7
169.5
183.2
204.4
226.2
248.8
272.4
301.5
347.9
396.0
463.6
512.2
561.5
EER
11.4
11.5
11.6
11.4
11.2
11.2
11.2
11.3
11.0
11.0
11.1
11.0
11.0
11.6
11.7
11.8
11.5
11.3
11.3
11.4
11.5
11.2
11.1
11.2
11.1
11.1
11.8
11.9
11.9
11.7
11.5
11.5
11.5
11.6
11.3
11.3
11.3
11.2
11.2
Tons
143.3
157.7
172.2
187.9
204.2
224.5
245.6
277.2
310.3
351.5
415.0
453.2
495.7
148.4
163.3
178.3
194.5
211.2
232.1
254.1
286.5
320.6
363.2
428.8
468.3
512.2
153.5
169.0
184.4
201.0
218.2
239.9
262.6
296.0
331.0
374.9
442.8
483.6
528.9
kW input
161.9
176.3
190.8
212.2
234.0
257.1
280.8
314.0
360.4
409.3
480.1
529.3
578.9
165.2
179.8
194.6
216.6
239.0
262.7
287.2
320.2
367.8
418.1
490
540.7
591.9
168.5
183.5
198.4
221.0
244.0
268.4
293.6
326.4
375.3
427.1
500.1
552.3
605.0
EER
9.9
10.0
10.0
9.9
9.7
9.7
9.8
9.8
9.6
9.6
9.7
9.6
Ton
kW input
176.2
191.9
207.7
230.7
253.9
279.0
304.5
341.7
391.1
443.9
520.9
574.0
627.3
179.6
195.5
211.6
235.1
258.9
284.7
311.0
348.1
398.7
453.0
531.1
585.7
640.6
183.0
199.2
215.5
239.6
264.1
290.5
317.6
354.5
406.4
462.2
541.5
597.6
654.0
EER
8.4
8.5
8.6
8.5
8.4
8.4
8.4
8.5
8.3
8.3
8.3
8.3
8.3
8.6
8.7
8.8
8.6
8.5
8.5
8.5
8.6
8.4
8.4
8.5
8.4
8.4
8.7
8.8
8.9
8.8
8.6
8.6
8.7
8.8
8.5
8.5
8.6
8.5
8.5
Tons
121.2
134.0
147.1
160.5
174.1
191.8
209.8
238.0
265.9
301.6
355.5
388.6
423.3
125.6
138.9
152.4
166.2
180.2
198.4
217.0
246.3
275.0
304.6
367.6
392.5
425.5
130.1
143.8
157.9
171.9
186.3
202.0
219.1
250.2
278.0
307.4
373.1
396.3
429.1
kW input
192.1
209.2
226.6
251.3
276.2
303.4
331.1
372.6
425.5
482.6
566.7
624.0
677.7
195.6
212.9
230.5
255.8
281.3
309.3
337.6
379.1
433.3
476.3
577.1
616.2
664.2
199.1
216.7
234.5
260.4
286.6
308.5
332.7
377.2
428.3
468.9
573.4
607.0
652.8
EER
7.1
7.2
7.3
7.2
7.1
7.1
7.2
7.2
7.1
7.1
7.1
7.1
7.1
7.3
7.4
7.5
7.3
7.2
7.3
7.3
7.3
7.2
7.2
7.2
7.2
7.3
7.4
7.5
7.6
7.5
7.4
7.4
7.5
7.5
7.3
7.4
7.4
7.4
7.4
140 STD
155 STD
170 STD
185 STD
200 STD
132.4
146.0
159.8
174.4
189.4
208.4
228.1
257.9
288.6
327.1
385.8
421.6
461.1
137.1
151.2
165.5
180.5
195.9
215.5
235.9
266.7
298.2
338.0
398.8
435.7
476.5
142.0
156.6
171.3
186.7
202.5
222.7
243.8
275.6
308.0
349.0
411.9
449.9
492.0
46
48
50
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
140 STD
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
140 STD
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
9.6
10.0
10.1
10.2
10.0
9.9
9.9
9.9
10
9.8
9.7
9.8
9.7
9.7
10.2
10.3
10.4
10.2
10.0
10.0
10.0
10.1
9.9
9.9
9.9
9.8
9.8
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
24
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Performance
Data
Full Load
Performance
Table P-2. 60 Hz high efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
140 HIGH
Tons
142.9
156.3
169.9
186.1
202.6
222.4
241.0
276.7
307.8
343.3
409.8
148.4
162.3
176.4
193.1
210.2
230.8
250.0
287.1
319.1
356.2
425.1
154.1
168.4
183.1
200.3
218.0
239.3
259.3
297.5
330.5
369.3
440.5
kW input
134.5
146.0
157.7
176.8
196.1
216.4
235.7
262.5
302.1
322.8
404.1
137.3
149.0
160.9
180.5
200.4
221.3
241.2
268.0
308.6
329.4
412.9
140.2
152.1
164.2
184.3
204.8
226.3
246.8
273.6
315.3
336.0
422.0
EER
11.4
11.5
11.6
11.4
11.2
11.2
11.1
11.5
11.1
11.5
11.0
11.7
11.7
11.8
11.6
11.4
11.4
11.3
11.7
11.3
11.7
11.2
11.9
12.0
12.0
11.8
11.6
11.6
11.5
11.9
11.5
11.9
11.4
Tons
133.3
145.9
158.8
174.1
189.6
208.5
226.1
259.2
288.7
321.4
384.1
138.6
151.6
165.0
180.8
196.8
216.4
234.6
269.0
299.4
333.6
398.5
143.9
157.5
171.3
187.5
204.2
224.4
243.3
279.0
310.2
346.1
413.1
kW input
146.1
158.8
171.7
191.9
212.1
234.0
254.9
285.0
326.8
351.4
436.7
149.0
161.9
175.0
195.7
216.5
239.0
260.5
290.6
333.5
358.1
445.8
151.9
165.1
178.4
199.6
221.0
244.1
266.3
296.4
340.3
364.9
455.0
EER
9.9
10.0
10.0
9.9
9.8
9.8
9.7
10.0
9.7
Ton
kW input
159.4
173.4
187.5
209.1
230.6
254.2
277.0
310.7
355.1
383.7
474.2
162.3
176.6
190.9
213.0
235.0
259.3
282.7
316.4
361.9
390.6
483.5
165.3
179.8
194.4
216.9
239.6
264.6
288.6
322.2
368.9
397.6
492.9
EER
8.5
8.5
8.6
8.5
8.4
8.5
8.4
8.6
8.4
8.5
8.3
8.7
8.7
8.8
8.7
8.6
8.6
8.6
8.8
8.6
8.7
8.5
8.9
8.9
9.0
8.9
8.8
8.8
8.7
8.9
8.7
8.9
8.6
Tons
113.1
124.2
135.4
148.9
162.2
178.9
194.4
222.3
248.1
275.3
329.3
117.7
129.3
141.0
154.7
168.5
185.8
201.8
231.0
257.5
286.3
342.0
122.4
134.4
146.6
160.7
174.9
192.8
209.4
239.8
267.1
297.5
354.9
kW input
174.3
189.7
205.3
228.4
251.4
277.0
301.8
339.4
387.1
420.0
516.6
177.3
193.0
208.7
232.4
256.0
282.2
307.7
345.3
394.1
427.0
526.1
180.4
196.3
212.3
236.5
260.6
287.6
313.7
351.3
401.2
434.2
535.7
EER
7.2
7.2
7.3
7.2
7.2
7.2
7.2
7.3
7.2
7.3
7.1
7.4
7.4
7.5
7.4
7.3
7.4
7.3
7.5
7.3
7.4
7.2
7.5
7.6
7.7
7.6
7.5
7.5
7.5
7.6
7.5
7.6
7.4
123.4
135.2
147.3
161.7
176.1
194.0
210.6
241.0
268.8
298.7
357.2
128.3
140.6
153.1
168.0
182.9
201.4
218.5
250.3
278.8
310.3
370.8
133.4
146.1
159.1
174.3
189.8
208.9
226.7
259.7
289.1
322.2
384.6
155 HIGH
170 HIGH
185 HIGH
200 HIGH
40
42
44
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
9.9
9.6
10.1
10.2
10.3
10.1
9.9
10.0
9.9
10.2
9.9
10.2
9.8
10.3
10.4
10.5
10.3
10.1
10.2
10.1
10.4
10.1
10.4
10.0
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
RLC-PRC006-EN
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Full Load
Performance
Performance
Data
Table P-2 (Continued). 60 Hz high efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
140 HIGH
Tons
159.9
174.7
189.9
207.6
225.9
248.0
268.7
308.2
342.1
382.6
456.1
165.8
181.0
196.8
215.0
233.9
256.8
278.2
319.0
353.8
396.1
472.0
171.7
187.5
203.7
222.5
242.0
265.7
287.9
329.9
365.7
409.8
488.0
kW input
143.1
155.2
167.6
188.3
209.3
231.5
252.6
279.3
322.1
342.9
431.2
146.1
158.5
171.0
192.3
213.9
236.8
258.5
285.1
329.0
349.8
440.6
149.2
161.8
174.6
196.3
218.6
242.2
264.5
291.1
336.0
356.9
450.2
EER
12.1
12.2
12.3
12.0
11.8
11.8
11.7
12.1
11.7
12.1
11.6
12.3
12.4
12.5
12.2
11.9
12.0
11.8
12.3
11.8
12.3
11.7
12.5
12.6
12.7
12.4
12.1
12.1
12.0
12.4
12.0
12.5
11.9
Tons
149.4
163.4
177.7
194.4
211.6
232.6
252.1
289.1
321.2
358.8
427.9
155.0
169.4
184.2
201.4
219.2
240.9
261.1
299.3
332.3
371.6
442.9
160.6
175.5
190.8
208.5
226.8
249.3
270.2
309.7
343.6
384.7
458.1
kW input
154.9
168.3
181.8
203.6
225.6
249.4
272.2
302.2
347.2
371.9
464.4
158.0
171.6
185.3
207.6
230.3
254.8
278.2
308.1
354.2
379.0
474.0
161.2
174.9
188.9
211.8
235.0
260.3
284.4
314.2
361.4
386.3
483.8
EER
10.5
10.6
10.7
10.5
10.3
10.3
10.2
10.5
10.2
10.6
10.1
10.7
10.8
10.9
10.6
10.5
10.5
10.4
10.7
10.4
10.7
10.3
10.9
11.0
11.1
10.8
10.6
10.7
10.5
10.9
10.5
10.9
10.5
Ton
kW input
168.4
183.1
197.9
221.0
244.3
269.9
294.6
328.2
376.0
404.8
502.5
171.5
186.4
201.5
225.1
249.0
275.4
300.8
334.2
383.2
412.0
512.3
174.8
189.9
205.1
229.4
253.9
281.0
307.1
340.4
390.5
419.4
522.2
EER
9.1
9.1
9.2
9.0
8.9
9.0
8.9
9.1
8.9
9.1
8.8
9.3
9.3
9.4
9.2
9.1
9.1
9.0
9.3
9.0
9.3
9.0
9.4
9.5
9.6
9.4
9.2
9.3
9.1
9.5
9.2
9.5
9.1
Tons
127.2
139.7
152.3
166.8
181.4
199.9
217.0
248.8
276.8
308.8
368.0
132.1
145.0
158.1
173.0
188.1
207.1
224.7
257.9
286.6
320.3
381.3
137.0
150.4
164.0
179.2
194.8
214.4
232.5
267.2
296.6
332.0
394.7
kW input
183.5
199.6
215.9
240.6
265.4
293.1
319.9
357.4
408.5
441.5
545.6
186.7
203.1
219.5
244.8
270.2
298.7
326.1
363.5
415.8
448.9
555.5
190.0
206.5
223.2
249.1
275.2
304.3
332.5
369.8
423.3
456.3
565.7
EER
7.7
7.8
7.8
7.7
7.6
7.7
7.6
7.8
7.6
7.8
7.5
7.9
7.9
8.0
7.9
7.8
7.8
7.7
7.9
7.7
7.9
7.7
8.0
8.1
8.2
8.0
7.9
7.9
7.9
8.1
7.9
8.1
7.8
138.5
151.7
165.1
180.8
196.8
216.6
234.9
269.3
299.4
334.2
398.5
143.7
157.4
171.3
187.4
203.9
224.3
243.3
279.0
309.9
346.3
412.7
149.0
163.1
177.6
194.1
211.1
232.2
251.7
288.8
320.6
358.7
427.0
155 HIGH
170 HIGH
185 HIGH
200 HIGH
46
48
50
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
26
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Performance
Data
Full Load
Performance
Table P-3. 60 Hz standard efficiency machines in SI units
Condenser Entering Air Temperature (C)
30
35
40
45
Evaporator
Leaving Water
Unit Size
kW
kW
input
kW
output
kW
input
kW
output
kW
input
kW
output
kW
input
Temperature (C) Model RTAC cooling
COP
3.4
3.5
3.4
3.4
3.4
3.4
3.4
3.3
3.3
3.3
3.3
3.3
3.5
3.5
3.6
3.5
3.4
3.4
3.5
3.4
3.4
3.4
3.4
3.4
3.4
3.6
3.6
3.7
3.6
3.5
3.5
3.5
3.5
3.5
3.4
3.5
3.4
3.4
COP
3.2
3.2
3.2
3.1
3.1
3.1
3.1
3.1
3.1
3.1
3.1
3.1
3.3
3.3
3.3
3.3
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.2
3.4
3.4
3.4
3.3
3.3
3.3
3.3
3.3
3.3
3.2
3.3
3.2
3.2
COP
2.8
2.8
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.8
2.9
2.9
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.9
2.9
3.0
2.9
2.9
2.9
2.9
2.8
2.8
2.8
2.8
2.8
2.8
COP
2.4
2.4
2.4
2.3
2.4
2.4
2.4
2.3
2.3
2.3
2.3
2.3
2.4
2.5
2.5
2.5
2.4
2.4
2.4
2.5
2.4
2.4
2.4
2.4
2.4
2.5
2.5
2.6
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
140 STD
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
140 STD
155 STD
170 STD
185 STD
200 STD
225 STD
250 STD
275 STD
300 STD
350 STD
400 STD
450 STD
500 STD
153.5
167.6
183.0
198.9
218.6
239.0
270.0
302.6
342.5
404.5
441.5
482.5
149.0
163.8
178.7
195.0
211.9
232.8
254.7
287.2
321.7
364.1
430.2
469.5
513.4
158.7
174.4
190.1
207.3
225.2
247.3
270.7
304.7
341.2
386.2
456.3
498.1
544.8
155.3
168.2
187.2
206.6
226.5
247.0
277.1
318.4
360.8
424.1
466.9
509.9
148.1
161.3
174.5
194.5
214.9
235.9
257.6
287.5
330.9
375.7
440.9
486.0
531.5
153.9
167.6
181.2
202.1
223.5
245.6
268.7
298.3
343.9
391.1
458.2
505.9
554.1
144.0
157.5
172.1
187.0
205.8
225.1
254.4
285.1
323.0
381.1
416.2
455.1
139.8
153.8
168.0
183.5
199.3
219.2
239.8
270.8
303.2
343.5
405.4
442.8
484.2
148.9
163.9
178.9
195.1
211.9
232.9
254.9
287.5
321.7
364.4
430.2
469.9
513.9
167.7
181.6
201.8
222.2
243.7
265.7
299.0
342.5
388.0
456.1
501.9
547.8
159.6
173.8
188.2
209.2
230.7
253.3
276.5
309.7
355.3
403.2
473.3
521.5
570.1
165.5
180.2
195.0
217.0
239.5
263.3
287.8
320.8
368.6
419.1
491.0
541.9
593.2
134.3
147.1
160.8
174.7
192.5
210.6
238.2
266.9
302.7
356.7
389.9
426.4
130.2
143.5
157.1
171.5
186.3
205.1
224.4
253.8
284.0
322.0
379.7
414.9
453.8
138.8
153.0
167.4
182.6
198.1
218.0
238.5
253.8
284.0
322.0
379.7
414.9
453.8
181.5
196.6
218.0
239.7
263.0
286.5
323.4
369.5
418.4
492.0
541.1
590.4
172.4
187.7
203.3
225.7
248.4
272.8
297.6
334.4
382.7
434.1
509.6
561.3
613.2
178.4
194.3
210.2
233.6
257.4
283.0
309.2
334.4
382.7
434.1
509.6
561.3
613.2
124.3
136.4
149.1
162.0
178.8
195.7
221.5
248.1
281.7
331.4
362.6
396.7
120.4
133.0
145.9
159.3
172.9
190.5
208.5
236.2
264.2
299.7
353.1
386.0
422.3
128.4
141.9
155.6
169.7
184.0
202.5
221.6
251.3
280.6
318.1
375.2
409.9
448.2
196.7
213.1
236.0
259.1
284.3
309.7
350.4
399.5
452.2
531.9
584.7
637.6
186.4
203.1
219.9
243.9
268.0
294.4
321.0
361.7
413.0
468.2
550.0
605.4
660.9
192.6
209.7
227.0
251.9
277.2
304.7
332.8
373.3
426.9
484.8
568.6
626.7
685.0
5
7
9
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.0176.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. COP = Coefficient of Performance (kWo/kWi). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 5.6°C.
6. Ambient temperatures 40°C and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
RLC-PRC006-EN
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Full Load
Performance
Performance
Data
Table P-4. 60 Hz high efficiency machines in SI units
Condenser Entering Air Temperature (C)
30
35
40
45
Evaporator
Leaving Water
Unit Size
kW
kW
input
kW
output
kW
input
kW
output
kW
input
kW
output
kW
input
Temperature (C) Model RTAC cooling
COP
3.3
3.4
3.4
3.4
3.3
3.4
3.3
3.4
3.3
3.4
3.3
3.5
3.6
3.6
3.5
3.4
3.4
3.4
3.5
3.4
3.5
3.4
3.7
3.7
3.7
3.6
3.5
3.5
3.5
3.6
3.5
3.7
3.5
COP
3.0
3.0
3.0
3.0
3.0
3.0
2.9
3.0
2.9
3.0
2.9
3.1
3.1
3.1
3.1
3.1
3.1
3.0
3.1
3.0
3.1
3.0
3.2
3.2
3.3
3.2
3.1
3.1
3.1
3.2
3.1
3.2
3.1
COP
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.6
2.5
2.7
2.7
2.8
2.7
2.7
2.7
2.7
2.7
2.7
2.7
2.6
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.8
2.7
COP
2.2
2.3
2.3
2.3
2.2
2.2
2.2
2.3
2.2
2.3
2.2
2.3
2.4
2.4
2.4
2.3
2.3
2.3
2.4
2.3
2.4
2.3
2.5
2.5
2.5
2.4
2.4
2.4
2.4
2.5
2.4
2.5
2.4
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
225 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
400 HIGH
144.7
158.2
172.1
188.4
205.1
225.2
244.0
280.2
311.5
347.5
414.9
154.9
169.2
184.0
201.2
219.0
240.5
260.5
298.9
332.0
371.0
442.5
165.3
180.6
196.2
214.4
233.3
256.1
277.5
318.2
352.9
395.1
470.8
137.0
148.7
160.6
180.1
199.7
220.5
240.2
267.4
307.7
328.8
411.5
142.1
154.3
166.5
187.0
207.7
229.5
250.3
277.5
319.7
340.8
427.8
147.6
160.0
172.7
194.1
215.9
239.0
261.0
287.9
332.1
353.3
444.7
135.9
148.8
161.8
177.4
193.2
212.4
230.4
264.1
294.1
327.5
391.3
145.6
159.2
173.2
189.6
206.4
226.9
246.0
282.0
313.5
349.9
417.6
155.5
170.0
184.9
202.1
220.0
241.7
262.1
300.4
333.5
372.9
444.5
147.5
160.4
173.3
193.8
214.3
236.5
257.7
287.8
330.1
354.7
441.2
152.8
166.0
179.4
200.8
222.4
245.7
268.1
298.1
342.3
367.0
457.8
158.3
171.9
185.7
208.1
230.7
255.4
278.9
308.8
355.0
379.8
475.0
126.9
139.0
151.4
166.1
180.9
199.2
216.2
247.5
275.9
306.8
366.8
136.0
149.0
162.1
177.6
193.4
212.8
230.9
264.6
294.4
328.2
391.7
145.4
159.2
173.2
189.5
206.2
226.8
246.0
282.0
313.3
350.2
417.2
159.4
173.4
187.6
209.2
230.8
254.6
277.5
310.8
355.5
383.8
474.9
164.8
179.2
193.7
216.3
239.0
264.0
288.0
321.3
368.0
396.3
491.8
170.4
185.2
200.2
223.7
247.5
273.8
299.0
332.1
380.9
409.3
509.2
117.5
129.0
140.6
154.4
168.2
185.5
201.5
230.5
257.0
285.6
341.4
126.1
138.4
150.8
165.3
179.9
198.3
215.2
246.6
274.5
305.9
364.9
135.0
148.0
161.3
176.5
192.0
211.4
229.3
263.1
292.4
326.8
389.0
172.6
187.9
203.3
226.3
249.3
274.8
299.6
336.3
383.9
415.9
512.4
178.2
193.8
209.6
233.6
257.7
284.4
310.3
347.0
396.6
428.7
529.7
183.9
199.9
216.1
241.1
266.3
294.4
321.5
358.1
409.8
441.9
547.5
5
7
9
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.0176.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. COP = Coefficient of Performance (kWo/kWi). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 5.6°C.
6. Ambient temperatures 40°C and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
28
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Performance
Data
Full Load
Performance
Table P-5. 50 Hz standard efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
Tons
134.2
146.9
159.8
176.9
194.4
235.2
262.8
299.0
325.2
359.1
395.8
139.1
152.2
165.4
183.1
201.2
243.3
271.8
309.1
336.3
371.3
409.3
144.0
157.5
171.1
189.3
208.0
251.4
280.7
319.3
347.6
383.6
422.9
kW input
144.4
159.5
174.7
190.6
206.8
251.7
284.5
318.8
357.0
389.7
424.5
147.6
163.1
178.7
195.0
211.7
257.1
290.8
326.0
365.0
398.4
434.2
150.8
166.7
182.8
199.5
216.6
262.6
297.3
333.5
373.2
407.4
444.1
EER
10.6
10.5
10.4
10.6
10.7
10.7
10.6
10.7
10.4
10.5
10.7
10.8
10.7
10.6
10.7
10.9
10.8
10.7
10.8
10.5
10.7
10.8
10.9
10.8
10.7
10.9
11.0
11.0
10.8
11.0
10.7
10.8
10.9
Tons
124.5
136.3
148.4
164.6
181.1
219.4
245.1
279.2
302.7
335.1
369.7
129.0
141.3
153.7
170.4
187.5
227.0
253.5
288.8
313.2
346.5
382.4
133.7
146.2
159.0
176.3
194.0
234.7
261.9
298.4
323.8
358.1
395.2
kW input
158.0
174.0
190.1
207.3
224.8
275.1
309.7
346.5
388.8
424.1
461.3
161.3
177.7
194.3
211.9
229.8
280.7
316.3
354.1
397.0
433.2
471.5
164.6
181.4
198.5
216.6
235.0
286.5
323.0
361.9
405.5
442.5
481.9
EER
9.0
9.0
8.9
9.1
9.2
9.2
9.1
9.2
8.9
9.1
9.2
9.2
9.1
9.1
9.2
9.4
9.3
9.2
9.4
9.1
9.2
9.3
9.3
9.3
9.2
9.4
9.5
9.4
9.3
9.5
9.2
9.3
9.4
Ton
kW input
173.1
190.1
207.4
226.1
244.9
301.2
337.9
377.6
424.4
462.6
502.5
176.5
194.0
211.7
230.8
250.2
307.1
344.8
385.5
433.0
472.2
513.2
180.0
197.9
216.0
235.6
255.6
313.1
351.8
393.7
441.7
481.9
524.1
EER
7.6
7.6
7.6
7.7
7.9
7.8
7.7
7.9
7.6
7.7
7.9
7.8
7.7
7.7
7.9
8.0
7.9
7.8
8.0
7.7
7.8
8.0
7.9
7.9
7.8
8.0
8.1
8.0
8.0
8.1
7.8
7.9
8.1
Tons
104.3
114.4
124.8
139.0
153.3
185.0
206.7
232.8
255.6
281.6
308.1
107.1
118.1
127.6
141.9
155.0
186.8
208.1
235.1
257.7
284.7
311.1
108.1
118.8
129.1
142.8
156.5
188.4
209.2
235.9
259.5
287.6
313.9
kW input
189.7
208.0
226.6
246.8
267.2
327.9
367.2
402.2
464.0
499.7
535.3
190.7
210.7
227.1
247.3
264.5
323.4
361.3
397.5
457.0
494.4
529.1
187.6
206.7
224.7
243.1
261.2
318.3
354.6
389.3
449.0
488.3
521.8
EER
6.4
6.4
6.4
6.5
6.6
6.5
6.5
6.7
6.4
6.5
6.7
6.5
6.5
6.5
6.6
6.8
6.7
6.7
6.8
6.5
6.7
6.8
6.7
6.6
6.6
6.8
6.9
6.8
6.8
7.0
6.7
6.8
6.9
140 STD
155 STD
170 STD
185 STD
200 STD
114.5
125.5
136.7
152.0
167.5
203.0
226.7
258.7
279.5
310.1
342.4
118.8
130.1
141.7
157.4
173.4
210.1
234.5
267.6
289.3
320.8
354.3
123.1
134.7
146.6
162.8
179.4
217.3
242.4
276.6
299.2
331.7
366.3
40
42
44
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
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Performance
Data
Full Load
Performance
Table P-5 (Continued). 50 Hz standard efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
Tons
149.0
162.9
176.8
195.6
215.0
259.6
289.8
329.6
358.9
396.0
436.7
154.0
168.3
182.6
202.0
222.0
267.8
299.0
340.1
370.3
408.5
450.6
159.2
173.8
188.5
208.5
229.2
276.2
308.2
350.6
381.8
421.1
464.6
kW input
154.1
170.5
187.0
204.1
221.7
268.2
304.0
341.1
381.5
416.5
454.3
157.4
174.3
191.2
208.8
226.8
273.9
310.7
348.8
390.0
425.8
464.7
160.9
178.2
195.6
213.6
232.1
279.7
317.6
356.8
398.6
435.3
475.3
EER
11.1
10.9
10.8
11.0
11.1
11.1
10.9
11.1
10.8
10.9
11.0
11.2
11.1
10.9
11.1
11.2
11.2
11.0
11.2
10.9
11.0
11.1
11.4
11.2
11.1
11.2
11.3
11.3
11.1
11.3
11.0
11.1
11.2
Tons
138.4
151.3
164.4
182.2
200.5
242.4
270.5
308.1
334.5
369.8
408.1
143.1
156.4
169.8
188.2
207.1
250.2
279.1
317.9
345.2
381.6
421.2
147.9
161.6
175.3
194.2
213.8
258.1
287.8
327.8
356.0
393.5
434.4
kW input
168.0
185.3
202.8
221.3
240.3
292.3
329.9
369.8
414.1
452.0
492.5
171.5
189.3
207.1
226.2
245.7
298.3
336.9
378.0
422.8
461.7
503.4
175.0
193.3
211.6
231.1
251.2
304.4
344.1
386.3
431.7
471.6
514.5
EER
9.5
9.4
9.3
9.5
9.6
9.5
9.4
9.6
9.3
9.4
9.5
9.6
9.5
9.4
9.6
9.7
9.7
9.5
9.7
9.4
9.5
9.6
9.7
9.6
9.5
9.7
9.8
9.8
9.6
9.8
9.5
9.6
9.7
Ton
kW input
183.5
201.8
220.4
240.6
261.1
319.2
358.9
402.0
450.5
491.7
535.2
187.1
205.9
224.9
245.6
266.7
321.0
361.6
399.6
459.5
498.6
532.1
186.6
205.8
223.7
244.2
261.3
315.6
354.5
390.8
451.3
489.0
520.5
EER
8.0
8.0
7.9
8.1
8.2
8.1
8.1
8.2
7.9
8.0
8.2
8.2
8.1
8.0
8.2
8.3
8.3
8.2
8.4
8.0
8.2
8.3
8.3
8.3
8.2
8.4
8.5
8.5
8.4
8.6
8.2
8.4
8.5
Tons
109.0
119.3
130.0
144.3
157.0
189.8
211.2
237.7
262.2
288.8
316.4
109.7
120.4
131.3
145.6
158.3
192.0
213.0
240.7
264.7
292.8
318.7
111.0
121.2
131.8
146.8
160.3
194.2
214.5
241.9
266.4
294.6
320.4
kW input
184.2
202.2
220.6
239.8
255.6
312.6
349.4
382.8
443.0
478.0
513.3
180.4
198.8
217.4
236.0
251.1
308.6
343.5
378.2
436.2
473.1
503.7
177.7
194.9
212.3
231.8
247.9
304.1
337.6
371.5
427.8
464.2
494.8
EER
6.8
6.8
6.8
6.9
7.1
7.0
7.0
7.2
6.8
7.0
7.1
7.0
7.0
7.0
7.1
7.3
7.2
7.2
7.3
7.0
7.1
7.3
7.2
7.2
7.2
7.3
7.5
7.4
7.3
7.5
7.2
7.3
7.5
140 STD
155 STD
170 STD
185 STD
200 STD
127.5
139.4
151.6
168.4
185.5
224.5
250.4
285.7
309.2
342.6
378.4
131.9
144.2
156.6
173.9
191.6
229.7
256.3
289.7
319.2
352.1
383.7
134.3
147.0
159.1
176.5
192.6
231.6
257.8
290.9
321.4
354.1
385.3
46
48
50
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
30
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Performance
Data
Full Load
Performance
Table P-6. 50 Hz high efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
140 HIGH
Tons
140.0
152.5
165.1
183.2
201.5
245.1
274.1
309.4
337.3
374.6
411.9
145.4
158.1
171.2
189.8
208.9
254.0
283.9
320.4
349.5
388.1
426.8
150.8
163.9
177.4
196.6
216.4
262.9
293.9
331.5
361.8
401.8
441.8
kW input
137.2
151.6
166.0
182.2
198.5
246.8
272.9
305.8
340.5
374.9
408.8
140.1
154.8
169.7
186.3
203.1
252.2
279.0
312.7
348.0
383.3
418.1
143.1
158.2
173.5
190.5
207.7
257.6
285.2
319.7
355.7
391.9
427.6
EER
11.5
11.3
11.2
11.3
11.5
11.3
11.4
11.5
11.2
11.3
11.4
11.7
11.5
11.4
11.5
11.6
11.4
11.5
11.6
11.3
11.5
11.6
11.9
11.7
11.5
11.7
11.8
11.6
11.7
11.8
11.5
11.6
11.7
Tons
130.3
141.9
153.6
170.9
188.3
228.6
256.0
289.8
314.5
350.0
385.5
135.3
147.3
159.4
177.2
195.2
236.9
265.2
300.1
326.0
362.8
399.5
140.4
152.7
165.2
183.6
202.3
245.4
274.6
310.6
337.7
375.7
413.6
kW input
150.0
165.1
180.4
197.9
215.4
269.0
296.3
331.8
370.1
406.9
443.1
152.9
168.5
184.3
202.1
220.1
274.6
302.6
338.9
377.8
415.6
452.7
156.0
172.0
188.1
206.4
224.9
280.3
309.0
346.1
385.7
424.4
462.6
EER
9.8
9.7
9.6
9.8
9.9
9.7
9.8
10.0
9.6
9.8
9.9
10.0
9.9
9.8
10.0
10.1
9.8
10.0
10.1
9.8
Ton
kW input
164.2
180.4
196.7
215.6
234.4
293.9
322.8
361.0
403.5
443.0
481.8
167.3
183.9
200.7
219.9
239.3
299.7
329.3
368.4
411.4
452.0
491.8
170.4
187.5
204.6
224.4
244.2
305.6
335.9
376.0
419.5
461.2
502.1
EER
8.3
8.3
8.2
8.4
8.5
8.2
8.4
8.5
8.2
8.4
8.5
8.5
8.4
8.4
8.5
8.6
8.4
8.6
8.7
8.4
8.5
8.6
8.7
8.6
8.5
8.7
8.8
8.5
8.7
8.8
8.5
8.6
8.8
Tons
110.0
119.8
129.8
145.2
160.5
193.9
217.8
248.1
266.7
298.1
329.3
114.4
124.5
134.8
150.7
166.5
196.9
225.9
257.1
276.8
309.3
341.6
118.9
129.3
139.8
156.2
172.6
197.5
234.1
266.4
287.0
320.6
354.0
kW input
180.0
197.4
214.9
235.3
255.6
321.5
352.4
393.7
440.9
483.4
525.0
183.2
201.0
219.0
239.9
260.7
319.2
359.0
401.4
449.0
492.7
535.5
186.4
204.7
223.1
244.5
265.9
312.2
365.8
409.3
457.3
502.2
546.2
EER
7.0
6.9
6.9
7.1
7.2
6.9
7.1
7.3
6.9
7.1
7.2
7.2
7.1
7.1
7.2
7.3
7.1
7.2
7.4
7.1
7.2
7.3
7.3
7.2
7.2
7.3
7.5
7.3
7.4
7.5
7.2
7.3
7.5
120.3
131.0
141.9
158.3
174.6
211.5
237.2
269.3
291.0
324.5
357.9
125.0
136.0
147.2
164.1
181.1
219.3
245.9
279.0
301.8
336.5
371.0
129.8
141.2
152.7
170.1
187.7
227.2
254.7
288.9
312.7
348.6
384.3
155 HIGH
170 HIGH
185 HIGH
200 HIGH
40
42
44
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
9.9
10.0
10.2
10.1
10.0
10.1
10.2
10.0
10.1
10.3
10.0
10.1
10.2
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
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Performance
Data
Full Load
Performance
Table P-6 (Continued). 50 Hz high efficiency machines in English units
Condenser Entering Air Temperature (F)
85
95
105
115
Evaporator
Leaving Water
Unit Size
Temperature (F) Model RTAC
140 HIGH
Tons
156.2
169.8
183.6
203.5
223.9
272.0
304.0
342.8
374.3
415.6
457.0
161.8
175.7
190.0
210.5
231.6
281.2
314.2
354.2
386.9
429.6
472.4
167.5
181.7
196.4
217.5
239.4
290.4
324.5
365.7
399.7
443.7
488.0
kW input
146.1
161.6
177.4
194.7
212.4
263.2
291.5
326.8
363.5
400.6
437.3
149.1
165.1
181.3
199.1
217.3
269.0
298.0
334.1
371.4
409.6
447.3
152.3
168.7
185.4
203.6
222.2
274.8
304.6
341.6
379.6
418.7
457.4
EER
12.1
11.9
11.7
11.8
12.0
11.8
11.9
11.9
11.7
11.8
11.9
12.3
12.0
11.9
12.0
12.1
11.9
12.0
12.1
11.8
11.9
12.0
12.5
12.2
12.0
12.1
12.2
12.1
12.2
12.2
12.0
12.1
12.1
Tons
145.6
158.2
171.1
190.1
209.4
253.9
284.2
321.3
349.5
388.7
428.0
150.9
163.8
177.1
196.6
216.7
253.9
284.2
321.3
349.5
388.7
428.0
156.2
169.5
183.1
203.3
224.0
271.3
303.5
343.0
373.4
415.3
457.3
kW input
159.1
175.5
192.1
210.8
229.7
286.1
315.5
353.6
393.7
433.5
472.7
162.2
179.1
196.1
215.3
234.8
286.1
315.5
353.6
393.7
433.5
472.7
165.5
182.8
200.3
219.9
239.9
298.1
328.9
368.9
410.2
452.1
493.5
EER
10.4
10.2
10.1
10.3
10.4
10.1
10.3
10.4
10.1
10.2
10.3
10.6
10.4
10.3
10.4
10.5
10.1
10.3
10.4
10.1
10.2
10.3
10.7
10.6
10.4
10.5
10.7
10.4
10.6
10.7
10.4
10.5
10.6
Ton
kW input
173.6
191.1
208.7
228.9
249.3
311.7
342.6
383.7
427.8
470.5
512.6
176.9
194.8
212.8
233.6
254.5
317.8
349.4
391.6
436.1
480.0
523.3
180.2
198.5
217.0
238.3
259.9
314.9
356.4
399.7
444.6
489.7
534.2
EER
8.9
8.7
8.7
8.8
8.9
8.7
8.8
9.0
8.7
8.8
8.9
9.0
8.9
8.8
8.9
9.1
8.8
9.0
9.1
8.8
8.9
9.0
9.2
9.0
8.9
9.1
9.2
9.0
9.1
9.2
8.9
9.0
9.1
Tons
123.4
134.1
145.0
161.9
178.9
199.0
242.4
275.7
297.3
332.0
366.6
128.0
139.0
150.2
167.6
185.2
200.2
250.8
283.8
307.7
343.6
375.7
132.7
144.0
155.4
173.4
189.8
201.3
257.1
286.5
318.3
347.3
379.3
kW input
189.7
208.4
227.2
249.2
271.2
306.6
372.8
417.4
465.8
511.9
557.1
193.1
212.2
231.4
253.9
276.6
300.4
379.8
423.0
474.3
521.7
561.1
196.5
216.0
235.7
258.8
278.5
293.5
382.2
417.3
482.9
515.3
553.4
EER
7.5
7.4
7.3
7.5
7.6
7.5
7.5
7.6
7.3
7.5
7.6
7.6
7.5
7.5
7.6
7.7
7.6
7.6
7.7
7.5
7.6
7.7
7.8
7.7
7.6
7.7
7.8
7.9
7.8
7.9
7.6
7.8
7.9
134.7
146.3
158.2
176.2
194.4
235.2
263.6
298.9
323.8
360.8
397.8
139.6
151.6
163.8
182.3
201.2
243.4
272.7
309.1
335.0
373.3
411.5
144.6
156.9
169.4
188.6
208.0
246.7
281.8
319.3
346.3
385.8
425.4
155 HIGH
170 HIGH
185 HIGH
200 HIGH
46
48
50
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.00010.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. EER = Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 10°F.
6. Ambient temperatures 115°F and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
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Performance
Data
Full Load
Performance
Table P-7. 50 Hz standard efficiency machines in SI units
Condenser Entering Air Temperature (C)
30
35
40
45
Evaporator
Leaving Water
Unit Size
kW
kW
input
kW
output
kW
input
kW
output
kW
input
kW
output
kW
input
Temperature (C) Model RTAC cooling
COP
4.8
4.7
4.7
4.8
4.8
4.8
4.8
4.8
4.7
4.7
4.8
4.9
4.9
4.8
4.9
5.0
4.9
4.9
4.9
4.8
4.9
4.9
5.1
5.0
4.9
5.0
5.1
5.1
5.0
5.0
4.9
5.0
5.0
COP
4.1
4.1
4.1
4.2
4.2
4.2
4.1
4.2
4.1
4.1
4.2
4.3
4.2
4.2
4.3
4.3
4.3
4.3
4.3
4.2
4.2
4.3
4.4
4.3
4.3
4.4
4.4
4.4
4.4
4.4
4.3
4.3
4.4
COP
3.6
3.6
3.6
3.6
3.7
3.6
3.6
3.7
3.6
3.6
3.6
3.7
3.6
3.6
3.7
3.8
3.7
3.7
3.8
3.6
3.7
3.7
3.8
3.7
3.7
3.8
3.8
3.8
3.8
3.9
3.7
3.8
3.8
COP
3.0
3.0
3.0
3.1
3.1
3.1
3.1
3.2
3.0
3.1
3.1
3.1
3.1
3.1
3.2
3.2
3.2
3.2
3.3
3.1
3.2
3.3
3.3
3.3
3.3
3.3
3.4
3.4
3.3
3.4
3.3
3.3
2.2
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
140 STD
155 STD
170 STD
185 STD
200 STD
250 STD
275 STD
300 STD
350 STD
375 STD
400 STD
135.7
148.5
161.5
178.7
196.4
237.7
265.5
302.1
328.5
362.8
400.0
144.5
158.0
171.6
189.9
208.7
252.2
281.6
320.4
348.6
384.8
424.3
153.5
167.7
181.9
201.3
221.3
267.0
298.0
339.0
369.0
407.1
449.1
147.3
162.7
178.2
194.4
211.0
256.6
290.1
325.0
364.0
397.3
432.8
153.1
169.3
185.5
202.5
219.9
266.5
301.8
338.5
378.7
413.5
450.8
159.1
176.1
193.2
210.9
229.2
276.8
313.9
352.4
394.0
430.2
469.4
126.8
138.8
151.1
167.5
184.3
223.2
249.3
284.0
308.0
340.8
376.0
135.1
147.8
160.6
178.1
195.9
237.0
264.5
301.3
327.0
361.6
399.1
143.6
156.9
170.4
188.8
207.8
251.0
280.0
318.9
346.3
382.8
422.5
159.6
175.8
192.2
209.6
227.3
277.9
313.0
350.3
392.9
428.6
466.4
165.6
182.6
199.8
218.0
236.6
288.2
325.1
364.3
408.1
445.4
485.0
171.9
189.7
207.6
226.7
246.2
298.9
337.7
378.8
423.7
462.7
504.5
117.7
128.9
140.4
156.0
171.8
208.2
232.5
265.3
286.8
318.0
351.2
125.5
137.3
149.4
165.9
182.7
221.3
246.8
281.6
304.7
337.7
372.9
133.5
145.9
158.5
176.0
193.8
234.5
261.4
298.2
322.9
357.6
395.0
173.2
190.3
207.7
226.5
245.4
301.4
338.4
378.3
424.9
463.3
503.5
179.4
197.3
215.5
235.1
255.0
312.1
350.9
392.8
440.5
480.7
523.0
185.8
204.6
223.5
244.1
265.1
323.3
363.9
408.0
456.6
498.7
543.3
108.4
118.8
129.5
144.1
159.0
192.8
215.2
245.9
265.0
294.5
325.5
115.1
126.6
137.3
152.0
166.0
200.0
223.6
251.5
277.0
306.0
332.9
116.9
128.4
139.5
154.9
168.8
202.9
226.5
255.3
281.2
309.9
338.1
188.0
206.3
224.8
244.9
265.3
327.1
366.3
409.0
460.1
501.4
544.3
193.1
213.5
231.4
250.8
268.4
327.3
368.0
403.0
465.2
504.0
536.5
187.1
206.7
225.2
245.2
261.8
317.3
356.9
391.8
452.1
488.5
521.8
5
7
9
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.0176.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. COP = Coefficient of Performance (kWo/kWi). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 5.6°C.
6. Ambient temperatures 40°C and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
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Performance
Data
Full Load
Performance
Table P-8. 50 Hz high efficiency machines in SI units
Condenser Entering Air Temperature (C)
30
35
40
45
Evaporator
Leaving Water
Unit Size
kW
kW
input
kW
output
kW
input
kW
output
kW
input
kW
output
kW
input
Temperature (C) Model RTAC cooling
COP
4.9
4.8
4.7
4.8
4.9
4.8
4.8
4.9
4.7
4.8
4.8
5.0
5.0
4.9
5.0
5.0
4.9
5.0
5.0
4.9
4.9
5.0
5.2
5.1
5.0
5.0
5.1
5.0
5.1
5.1
5.0
5.0
5.1
COP
4.2
4.2
4.1
4.2
4.3
4.2
4.2
4.3
4.1
4.2
4.3
4.4
4.3
4.3
4.4
4.4
4.3
4.4
4.4
4.3
4.3
4.4
4.5
4.4
4.4
4.4
4.5
4.4
4.4
4.5
4.4
4.4
4.5
COP
3.7
3.6
3.6
3.7
3.7
3.6
3.7
3.8
3.6
3.7
3.7
3.8
3.8
3.7
3.8
3.8
3.7
3.8
3.8
3.7
3.8
3.8
3.9
3.9
3.8
3.9
3.9
3.8
3.9
3.9
3.8
3.9
3.9
COP
3.1
3.1
3.1
3.2
3.2
3.1
3.2
3.2
3.1
3.2
3.2
3.2
3.2
3.2
3.2
3.3
3.2
3.3
3.3
3.2
3.2
3.3
3.4
3.3
3.3
3.4
3.4
3.4
3.4
3.4
3.3
3.4
2.3
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
140 HIGH
155 HIGH
170 HIGH
185 HIGH
200 HIGH
250 HIGH
275 HIGH
300 HIGH
350 HIGH
375 HIGH
400 HIGH
141.7
154.2
167.0
185.3
203.9
247.9
277.2
313.0
341.1
378.9
416.7
151.4
164.6
178.0
197.4
217.2
263.9
295.0
332.8
363.2
403.4
443.6
161.3
175.2
189.4
209.8
231.0
280.3
313.3
353.2
385.7
428.3
471.1
139.9
154.5
169.2
185.7
202.4
251.6
278.1
311.7
347.0
382.1
416.7
145.2
160.5
176.1
193.3
210.7
261.5
289.3
324.3
360.8
397.6
433.8
150.7
166.8
183.2
201.1
219.4
271.7
300.9
337.4
375.1
413.6
451.7
132.8
144.6
156.5
174.1
191.8
232.8
260.6
295.0
320.3
356.4
392.4
142.0
154.4
167.0
185.5
204.4
247.9
277.5
313.9
341.2
379.6
418.0
151.4
164.4
177.7
197.3
217.4
263.5
294.8
333.2
362.6
403.3
444.1
151.4
166.8
182.3
200.0
217.7
271.8
299.5
335.3
373.9
411.2
447.9
156.9
173.0
189.3
207.7
226.3
282.0
310.9
348.4
388.1
427.1
465.6
162.6
179.5
196.6
215.8
235.3
292.7
322.8
361.9
402.7
443.6
484.0
123.6
134.6
145.8
162.5
179.3
217.2
243.4
276.3
298.8
333.1
367.3
132.3
143.9
155.6
173.3
191.2
231.5
259.4
294.2
318.6
355.0
391.4
141.2
153.4
165.7
184.4
203.4
246.2
275.7
312.5
338.8
377.5
416.1
164.2
180.6
197.0
215.9
234.8
294.2
323.2
361.6
403.9
443.7
482.7
169.9
186.9
204.1
223.9
243.7
304.8
335.0
375.2
418.4
460.1
501.0
175.7
193.5
211.5
232.1
253.0
315.8
347.3
389.3
433.4
477.1
520.1
114.3
124.5
134.7
150.6
166.4
201.1
225.8
257.0
276.7
309.1
341.3
122.5
133.2
144.0
160.8
177.6
211.3
240.8
273.8
295.3
329.7
364.0
130.9
142.1
153.5
171.2
189.1
214.4
256.1
291.0
314.3
350.8
387.2
178.3
195.7
213.1
233.5
253.7
318.8
349.5
390.7
437.1
479.6
521.1
184.1
202.2
220.5
241.7
262.9
323.3
361.7
404.8
452.0
496.5
540.2
190.1
209.0
228.0
250.2
272.6
313.6
374.2
419.4
467.2
514.1
560.1
5
7
9
Notes:
1. Ratings based on sea level altitude and evaporator fouling factor of 0.0176.
2. Consult Trane representative for performance at temperatures outside of the ranges shown.
3. kW input is for compressors only.
4. COP = Coefficient of Performance (kWo/kWi). Power inputs include compressors, condenser fans and control power.
5. Ratings are based on an evaporator temperature drop of 5.6°C.
6. Ambient temperatures 40°C and greater reflect the high ambient condenser option.
7. Interpolation between points is permissible. Extrapolation is not permitted.
8. Rated in accordance with ARI Standard 550/590-98.
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Performance
Data
Part Load
Performance
Table P-9. ARI part-load performance for
60 Hz standard efficiency
Table P-10. ARI part-load performance for
60 Hz high efficiency
machines in English units
machines in English units
Full Load
Tons
Full Load
EER
9.7
9.8
9.9
9.7
9.6
9.6
9.6
9.7
9.6
9.6
9.6
9.6
9.6
Full Load
Tons
Full Load
EER
Unit Size
140
155
170
185
200
225
250
275
300
350
400
450
IPLV
12.9
13.3
13.0
12.8
12.7
13.0
12.6
13.3
13.2
13.2
13.7
13.9
13.8
Unit Size
140
155
170
185
200
225
250
275
IPLV
13.3
13.6
13.4
13.2
13.0
13.3
12.8
13.8
13.6
14.5
13.9
138.2
152.1
166.2
181.5
197.2
216.9
237.3
268.0
300.2
340.0
401.3
438.3
479.3
143.9
157.5
171.3
187.5
204.2
224.4
243.3
279.0
310.2
346.1
413.1
10.3
10.4
10.5
10.3
10.1
10.2
10.1
10.4
10.1
10.4
10.0
300
350
400
500
Notes:
1. IPLV values are rated in accordance with ARI Standard
550/590-98.
2. EER and IPLV values include compressors, condenser
fans and control kW.
Table P-12. ARI part-load performance for
50 Hz high efficiency
Table P-11. ARI part-load performance for
50 Hz standard efficiency
machines in English units
machines in English units
Full Load
Tons
Full Load
EER
Full Load
Tons
Full Load
EER
9.3
9.3
9.2
9.4
9.5
9.6
9.5
9.7
9.4
9.5
9.6
Unit Size
140
155
170
185
200
250
275
300
IPLV
14.2
14.2
14.0
14.5
13.9
15.9
15.6
14.7
15.2
15.6
15.5
Unit Size
140
155
170
185
200
250
275
300
IPLV
13.4
13.5
13.3
13.8
13.2
15.4
14.7
14.1
14.6
15.0
14.9
140.4
152.7
165.2
183.6
202.3
245.5
274.8
310.8
337.9
375.9
413.9
10.2
10.1
10.0
10.1
10.2
10.2
10.3
10.5
10.1
10.3
10.4
133.7
146.2
159.0
176.3
194.0
234.8
262.1
298.6
324.0
358.4
395.5
350
375
400
350
375
400
Notes:
1. IPLV values are rated in accordance with ARI Standard
550/590-98.
2. EER and IPLV values include compressors, condenser
fans and control kW.
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Performance
Data
Adjustment
Factors
Figure P-1. Evaporator water pressure drop, all units
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Electrical Data
and Connection
Table E-1. Unit electrical data for standard efficiency at all ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Qty.
Ckt 1/Ckt 2 kW
Unit
Size
Rated
MCA (3)
RLA (5)
Qty Ckt 1/Ckt 2
YLRA (8)
Ckt 1/Ckt 2
487-487
487/487
427-427
427/427
260-260
260/260
212-212
212/212
172-172
172/172
259-259
259/259
600-701
600/701
506-571
506/571
316-260
316/260
252-212
252/212
205-172
205/172
291-259
291/259
600-600
600/600
506-506
506/506
316-316
316/316
252-252
252/252
205-205
205/205
291-291
291/291
Control
FLA kW (7)
Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
800
600/600
800
500/500
450
300/300
400
250/250
300
200/200
450
300/300
1000
700/600
800
600/500
500
350/300
450
300/250
350
250/200
500
350/300
1000
Ckt 1/Ckt 2
800
450/450
700
400/400
400
250/250
350
200/200
300
175/175
400
250/250
1000
600/450
800
450/400
450
300/250
400
225/200
300
200/175
450
300/250
1000
200/60/3
200/60/3
230/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
660
364/364
581
320/320
348
192/192
288
159/159
230
127/127
333
184/184
730
433/364
641
380/320
380
228/192
317
188/159
254
150/127
373
224/184
785
433/433
691
380/380
413
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
270-270
270/270
235-235
235/235
142-142
142/142
118-118
118/118
94-94
8
4/4
8
4/4
8
4/4
8
4/4
8
4/4
8
4/4
9
5/4
9
5/4
9
5/4
9
5/4
9
5/4
9
5/4
10
5/5
10
5/5
10
5/5
10
5/5
10
5/5
10
5/5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
0.8
0.8
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
0.8
0.8
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
1.5
0.8
0.8
6.5
6.5
6.5
6.5
3.5
3.5
2.8
2.8
2.3
2.3
2.8
2.8
6.5
6.5
6.5
6.5
3.5
3.5
2.8
2.8
2.3
2.3
2.8
2.8
6.5
6.5
6.5
6.5
3.5
3.5
2.8
2.8
2.3
2.3
2.8
2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
NA
NA
NA
RTAC 380/60/3
140
801-801
801/801
652-652
652/652
520-520
520/520
774-774
774/774
NA
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
94/94
138-138
138/138
320-270
320/270
278-235
278/235
168-142
168/142
139-118
139/118
111-94
NA
NA
NA
RTAC 380/60/3
155
973-801
973/801
774-652
774/652
631-528
631/528
896-796
896/796
NA
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
111/94
168-138
168/138
320-320
320/320
278-278
278/278
168-168
168/168
139-139
139/139
111-111
111/111
168-168
168/168
700/700
800
600/600
500
350/350
450
300/300
350
600/600
800
450/450
500
300/300
400
225/225
350
NA
NA
NA
RTAC 380/60/3
170
973-973
973/973
774-774
774/774
631-631
631/631
896-896
896/896
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
228/228
341
188/188
273
150/150
406
224/224
250/250
500
350/350
200/200
450
300/300
RLC-PRC006-EN
37
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Electrical Data
and Connection
Table E-1 (Continued). Unit electrical data for standard efficiency at all ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
MCA (3) Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Rated
RLA (5)
Ckt 1/Ckt 2
386-320
386/320
336-278
336/278
203-168
203/168
168-139
168/139
134-111
134/111
198-168
198/168
386-386
386/386
336-336
336/336
203-203
203/203
168-168
168/168
134-134
134/134
198-198
198/198
459-386
459/386
399-336
399/336
242-203
242/203
200-168
200/168
160-134
160/134
459-459
459/459
399-399
399/399
242-242
242/242
200-200
200/200
160-160
160/160
138-138-198
138/138/198
YLRA (8)
Qty.
Control
Size Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
1200
800/700
1000
700/600
600
450/350
500
350/300
400
300/250
600
450/350
1200
800/800
1000
700/700
700
450/450
500
350/350
450
300/300
600
450/450
1200
1000/800
1200
800/700
700
500/450
600
450/350
500
350/300
1200
1000/1000
1200
800/800
800
500/500
600
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
874
522/433
770
459/380
460
275/228
380
227/188
304
181/150
446
264/224
947
522/522
834
459/459
499
275/275
412
227/227
329
181/181
479
264/264
1045
620/522
920
545/459
551
327/275
454
270/227
364
216/181
1124
620/620
989
545/545
594
327/327
489
270/270
392
1000
700/600
1000
600/450
600
350/300
450
300/225
350
225/200
500
350/300
1200
700/700
1000
600/600
600
350/350
500
300/300
400
225/225
600
350/350
1200
800/700
1200
700/600
700
400/350
600
350/300
450
300/225
1200
800/800
1200
700/700
700
400/400
600
350/350
500
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
3
3
701-600
701/600
571-506
571/506
345-316
345/316
285-252
285/252
229-205
229/205
354-291
354/291
701-701
701/701
571-571
571/571
345-345
345/345
285-285
285/285
229-229
229/229
354-354
354/354
821-701
821/701
691-571
691/571
424-345
424/345
346-285
346/285
277-229
277/229
821-821
821/821
691-691
691/691
424-424
424/424
346-346
346/346
277-277
277/277
259-259-354
259/259/354
11
6/5
11
6/5
11
6/5
11
6/5
11
6/5
11
6/5
12
6/6
12
6/6
12
6/6
12
6/6
12
6/6
12
6/6
13
7/6
13
7/6
13
7/6
13
7/6
13
7/6
14
7/7
14
7/7
14
7/7
14
7/7
14
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
1.2
NA
NA
NA
230/60/3
RTAC 380/60/3
185 380/60/3
460/60/3
1060-973
1060/973
878-774
878/774
705-631
705/631
1089-896
1089/896
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
NA
NA
NA
230/60/3
RTAC 380/60/3
200 380/60/3
460/60/3
1060-1060
1060/1060
878-878
878/878
705-705
705/705
1089-1089
1089/1089
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
NA
NA
NA
230/60/3
RTAC 380/60/3
225 380/60/3
460/60/3
1306-1060
1306/1060
1065-878
1065/878
853-705
853/705
NA
460/60/3
575/60/3
575/60/3
200/60/3
200/60/3
230/60/3
230/60/3
NA
NA
NA
RTAC 380/60/3
250 380/60/3
460/60/3
1306-1306
1306/1306
1065-1065
1065/1065
853-853
853/853
796-796-1089
796/796/1089
460/60/3
575/60/3
575/60/3
400/50/3
450/450
500
350/350
700
216/216
563
333/265
300/300
700
400/350
7/7
14
8/6
400/50/3
450/450
1.2
38
RLC-PRC006-EN
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Electrical Data
and Connection
Table E-1 (Continued). Unit electrical data for standard efficiency at all ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Fans (Each)
Qty.
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
Unit
Size
Rated
MCA (3)
RLA (5)
Ckt 1/Ckt 2
YLRA (8)
Control
Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
1000/800
800/700
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2
200/60/3
200/60/3
230/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
NA
785/522
NA
681/459
NA
413/275
533
341/227
427
273/182
629
406/265
NA
947/522
NA
834/459
NA
499/275
597
412/227
477
330/182
694
480/265
NA
1124/522
NA
989/459
NA
594/275
674
490/227
540
393/182
770
406/406
844
480/406
NA
947/947
NA
834/834
NA
499/499
782
412/412
628
330/330
909
480/480
1000/700
800/600
3
3
320/320/386
278/278/336
NA
NA
600/600/701
506/506/571
10/6
10/6
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
275 380/60/3
460/60/3
500/450
700
450/350
500
350/300
800
500/450
500/350
600
400/300
500
350/225
700
450/350
3
3
3
3
3
3
3
168/168/203
139-139-168
139/139/168
111-111-134
111/111/134
168-168-198
168/168/198
973/973/1060
774-774-878
774/774/878
631-631-705
631/631/705
896-896-1089
896/896/1089
316/316/345
252-252-285
252/252/285
205-205-229
205/205/229
291-291-354
291/291/254
10/6
16
10/6
16
10/6
16
10/6
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.2
1.2
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
1200/800
1000/700
1200/700
1000/600
3
3
386/386/386
336/336/336
NA
NA
701/701/701
571/571/571
12/6
12/6
1.5 6.5
1.5 6.5
1.2
1.2
230/60/3
RTAC 380/60/3
300 380/60/3
460/60/3
700/450
700
500/350
600
450/300
800
600/450
600/350
700
500/300
600
400/225
800
600/350
3
3
3
3
3
3
3
203/203/203
168-168-168
168/168/168
134-134-134
134/134/134
198-198-198
198/198/198
1060/1060/1060
878-878-878
878/878/878
705-705-705
705/705/705
345/345/345
285-285-285
285/285/285
229-229-229
229/229/229
354-354-354
354/354/354
12/6
18
12/6
18
12/6
18
12/6
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.2
1.2
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
1089-1089-1089
1089/1089/1089
1200/800
1200/700
1200/700
1200/600
3
3
459/459/386
399/399/336
NA
NA
821/821/701
691/691/571
14/6
14/6
1.5 6.5
1.5 6.5
1.2
1.2
230/60/3
RTAC 380/60/3
350 380/60/3
460/60/3
800/450
800
600/350
700
500/300
800
500/500
700/350
800
600/300
600
450/225
800
450/450
3
3
3
3
3
4
4
4
4
242/242/203
200-200-168
200/200/168
160-160-134
160/160/134
973/973/973/973
774-774-774-774
774/774/774/774
631-631-631-631
631/631/631/631
896-896-896-896
896/896/896/896
424/424/345
346-346-285
346/346/285
277-277-229
277/277/229
291-291-291-291
291/291/291/291 10/10 0.8 2.8
354-354-291-291 22 0.8 2.8
354/354/291/291 12/10 0.8 2.8
701/701/701/701 12/12 1.5 6.5
571/571/571/571 12/12 1.5 6.5
345/345/345/345 12/12 1.5 3.5
285-285-285-285
285/285/285/285 12/12 1.5 2.8
229-229-229-229 24 1.5 2.3
229/229/229/229 12/12 1.5 2.3
24 0.8 2.8
354/354/354/354 12/12 0.8 2.8
14/6
20
14/6
20
14/6
20
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.59
1.59
1.59
1.59
460/60/3
575/60/3
575/60/3
400/50/3
168-168-168-168
168/168/168/168
400/50/3
RTAC 400/50/3
375 400/50/3
200/60/3
1000
600/500
1000
600/450
198-198-168-168 1089-1089-896-896
198/198/168/168
386/386/386/386
336/336/336/336
1089/1089/896/896
200/60/3
230/60/3
230/60/3
1200/1200
1000/1000
1200/1200
1000/1000
4
4
NA
NA
1.59
1.59
RTAC 380/60/3
400 380/60/3
460/60/3
700/700
800
500/500
700
450/450
1000
600/600
600/600
800
500/500
700
400/400
1000
600/600
4
4
4
4
4
4
4
203/203/203/203 1060/1060/1060/1060
1.59
1.59
1.59
1.59
1.59
1.59
1.59
168-168-168-168
168/168/168/168
134-134-134-134
134/134/134/134
878-878-878-878
878/878/878/878
705-705-705-705
705/705/705/705
24
1.5 2.8
460/60/3
575/60/3
575/60/3
400/50/3
198-198-198-198 1089-1089-1089-1089 354-354-354-354
198/198/198/198 1089/1089/1089/1089
400/50/3
RLC-PRC006-EN
39
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Electrical Data
and Connection
Table E-1 (Continued). Unit electrical data for standard efficiency at all ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Fans (Each)
Qty.
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
Unit
Size
Rated
MCA (3)
RLA (5)
Ckt 1/Ckt 2
YLRA (8)
Control
Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
1200/1200
1200/1000
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2
200/60/3
200/60/3
230/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
NA
1124/947
NA
989/834
NA
594/499
859
490/412
688
393/330
NA
1124/1124
NA
989/989
NA
1200/1200
1200/1000
4
4
459/459/386/386
399/399/336/336
NA
NA
821/821/701/701 14/12
691/691/571/571 14/12
1.5 6.5
1.5 6.5
1.59
1.59
RTAC 380/60/3
450 380/60/3
460/60/3
800/700
1000
600/500
800
700/600
1000
600/500
800
4
4
4
4
4
242/242/203/203 1306/1306/1060/1060
200-200-168-168 1065-1065-878-878
424/424/345/345 14/12
346-346-285-285 26
346/346/285/285 14/12
277-277-229-229 26
277/277/229/229 14/12
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
1.59
1.59
1.59
1.59
1.59
460/60/3
575/60/3
575/60/3
200/60/3
200/60/3
230/60/3
230/60/3
200/200/168/168
160-160-134-134
160/160/134/134
1065/1065/878/878
853-853-705-705
853/853/705/705
500/450
450/400
1200/1200
1200/1200
1200/1200
1200/1200
4
4
459/459/459/459
399/399/399/399
NA
NA
821/821/821/821 14/14
691/691/691/691 14/14
424/424/424/424 14/14
1.5 6.5
1.5 6.5
1.59
1.59
RTAC 380/60/3
500 380/60/3
460/60/3
594/594
929
490/490
745
800/800
1000
600/600
800
700/700
100
600/600
800
4
4
4
4
4
242/242/242/242 1306/1306/1306/1306
200-200-200-200 1065-1065-1065-1065 346-346-346-346 28
200/200/200/200 1065/1065/1065/1065
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
1.59
1.59
1.59
1.59
1.59
460/60/3
575/60/3
575/60/3
346/346/346/346 14/14
277-277-277-277 28
277/277/277/277 14/14
160-160-160-160
160/160/160/160
853-853-853-853
853/853/853/853
393/393
500/500
450/450
Notes:
1. As standard, all units have single point power connection. Optional dual point power connections are available.
2. Max Fuse or HACR type breaker = 225 percent of the largest compressor RLA plus 100 percent of the second compressor RLA, plus the sum of the condenser fan FLA per NEC 440-22.
Use FLA per circuit, NOT FLA for the entire unit).
3. MCA - Minimum Circuit Ampacity - 125 percent of largest compressor RLA plus 100 percent of the second compressor RLA plus the sum of the condenser fans FLAs per NEC 440-33.
4. RECOMMENDED TIME DELAY OR DUAL ELEMENT (RDE) FUSE SIZE: 150 percent of the largest compressor RLA plus 100 percent of the second compressor RLA and the sum of the condenser
fan FLAs.
5. RLA - Rated Load Amps - rated in accordance with UL Standard 1995.
6. Local codes may take precedence.
7. Control kW includes operational controls only. Does not include evaporator heaters.
8. XLRA - Locked Rotor Amps - based on full winding (x-line) start units. YLRA for wye-delta starters is ~1/3 of LRA of x-line units.
9. VOLTAGE UTILIZATION RANGE:
Rated Voltage
200/60/3
230/60/3
380/60/3
460/60/3
575/60/3
400/50/3
Utilization Range
180-220
208-254
342-418
414-506
516-633
360-440
10. A separate 115/60/1, 20 amp or 220/50/1, 15 amp customer provided power connection is needed to power the evaporator heaters (1640 watts).
11. If factory circuit breakers are supplied with the chiller, then these values represent Maximum Overcurrent Protection (MOP).
12. When the circuit breaker option is ordered, two circuit breakers will be provided (one per circuit) for both single and dual point power.
13. Motor kW is for standard fans. Low noise fans at 50 Hz are rated at 1.1 kW/fan.
40
RLC-PRC006-EN
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Electrical Data
and Connection
Table E-2. Unit electrical data for high efficiency at std. ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
MCA (3) Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Rated
RLA (5)
Ckt 1/Ckt 2
259-259
259/259
225-225
225/225
136-136
136/136
113-113
113/113
90-90
YLRA (8)
Qty.
Control
Size Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
800
600/600
700
500/500
450
300/300
350
250/250
300
200/200
450
300/300
1000
700/600
800
600/500
500
350/300
400
300/250
350
250/200
500
350/300
1000
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
648
356/356
572
314/314
341
188/188
282
155/155
226
124/124
325
179/179
712
421/356
628
371/314
376
222/188
310
183/155
248
146/124
363
217/179
765
421/421
675
371/371
404
800
450/450
700
400/400
400
225/225
350
200/200
250
150/150
400
225/225
800
500/450
700
450/400
416
300/225
350
225/200
300
175/150
450
300/225
1000
500/500
800
450/450
450
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
487-487
487/487
427-427
427/427
260-260
260/260
212-212
212/212
172-172
172/172
259-259
259/259
600-487
600/487
506-427
506/427
316-260
316/260
252-212
252/212
205-172
205/172
291-259
291/259
600-600
600/600
506-506
506/506
316-316
316/316
252-252
252/252
205-205
205/205
291-291
291/291
10
5/5
10
5/5
10
5/5
10
5/5
10
5/5
10
5/5
11
6/5
11
6/5
11
6/5
11
6/5
11
6/5
11
6/5
12
6/6
12
6/6
12
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
NA
NA
NA
230/60/3
RTAC 380/60/3
140 380/60/3
460/60/3
801-801
801/801
652-652
652/652
520-520
520/520
774-774
774/774
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
90/90
132-132
132/132
305-259
305/259
265-225
265/225
161-136
161/136
133-113
133/113
106-90
NA
NA
NA
230/60/3
RTAC 380/60/3
155 380/60/3
460/60/3
973-801
973/801
774-652
774/652
631-528
631/528
896-796
896/796
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
106/90
160-132
160/132
305-305
305/305
265-265
265/265
161-161
161/161
133-133
133/133
106-106
106/106
160-160
160/160
0.8 2.8 0.83
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
700/700
800
600/600
500
350/350
450
300/300
350
NA
NA
NA
230/60/3
RTAC 380/60/3
170 380/60/3
460/60/3
973-973
973/973
774-774
774/774
631-631
631/631
896-896
896/896
222/222
333
183/183
266
146/146
394
217/217
300/300
400
225/225
300
175/175
450
300/300
6/6
12
6/6
12
6/6
12
6/6
460/60/3
575/60/3
575/60/3
400/50/3
250/250
500
350/350
400/50/3
RLC-PRC006-EN
41
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Electrical Data
and Connection
Table E-2 (Continued). Unit electrical data for high efficiency at std. ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
MCA (3) Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Rated
RLA (5)
Ckt 1/Ckt 2
373-305
373/305
324-265
324/265
196-161
196/161
162-133
162/133
130-106
130/106
189-160
189/160
373-373
373/373
324-324
324/324
196-196
196/196
162-162
162/162
130-130
130/130
189-189
189/189
447-373
447/373
388-224
388/324
235-196
235/196
194-162
194/162
155-130
155/130
YLRA (8)
Qty.
Control
Size Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
1200
800/700
1000
700/600
600
450/350
500
350/300
400
300/250
600
400/350
1200
800/800
1000
700/700
600
450/450
500
350/350
450
300/300
600
400/400
1200
1000/800
1200
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
856
512/421
755
451/371
452
270/222
372
222/183
298
179/146
433
256/217
931
512/512
820
451/451
490
270/270
404
222/222
325
179/179
464
256/256
1023
611/506
900
537/544
539
1000
700/500
1000
600/450
500
350/300
450
300/225
350
225/175
500
350/300
1200
700/700
1000
600/600
600
350/350
450
300/300
400
225/225
600
350/350
1200
800/600
1000
700/600
600
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
701-600
701/600
571-506
571/506
345-316
345/316
285-252
285/252
229-205
229/205
354-291
354/291
701-701
701/701
571-571
571/571
345-345
345/345
285-285
285/285
229-229
229/229
354-354
354/354
821-701
821/701
691-571
691/571
424-345
424/345
346-285
346/285
277-229
277/229
13
7/6
13
7/6
13
7/6
13
7/6
13
7/6
13
7/6
14
7/7
14
7/7
14
7/7
14
7/7
14
7/7
14
7/7
14
8/6
14
8/6
14
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
NA
NA
NA
230/60/3
RTAC 380/60/3
185 380/60/3
460/60/3
1060-973
1060/973
878-774
878/774
705-631
705/631
1089-896
1089/896
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
NA
NA
NA
230/60/3
RTAC 380/60/3
200 380/60/3
460/60/3
1060-1060
1060/1060
878-878
878/878
705-705
705/705
1089-1089
1089/1089
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
NA
NA
NA
230/60/3
800/700
700
500/450
600
450/350
500
350/300
RTAC 380/60/3
225 380/60/3
460/60/3
1306-1060
1306/1060
1065-878
1065/878
853-705
853/705
322/266
444
265/220
356
400/350
500
350/300
400
8/6
14
8/6
14
460/60/3
575/60/3
575/60/3
213/177
300/225
8/6
42
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Electrical Data
and Connection
Table E-2 (Continued). Unit electrical data for high efficiency at std. ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11)
Ckt 1/Ckt 2
1200
Rec. Time
Delay or RDE (4)
Ckt 1/Ckt 2 Qty
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Size
Rated
MCA (3)
RLA (5)
Ckt 1/Ckt 2
447-447
447/447
388-388
388/388
235-235
235/235
194/-194
194/194
YLRA (8)
Qty.
Control
Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1110
611/611
977
537/537
585
322/322
482
265/265
386
213/213
546
325/254
NA
765/506
NA
675/444
NA
405/266
519
333/220
416
267/177
607
394/254
NA
931/506
NA
820/444
NA
490/266
583
404/220
469
325/177
671
465/254
NA
765/765
NA
675/675
NA
405/405
633
1200
800/800
1200
700/700
700
400/400
600
350/350
450
2
2
2
2
2
2
2
2
2
2
3
3
821-821
821/821
691-691
691/691
424-424
424/424
346-346
346/346
277-277
16
8/8
16
8/8
16
8/8
16
8/8
794
8/8
16
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.75
0.75
1000/1000
1200
800/800
800
500/500
600
450/450
500
NA
NA
NA
RTAC 380/60/3
250
1306-1306
1306/1306
1065-1065
1065/1065
853-853
853/853
796-796-1089
796/796/1089
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
155-155
155/155
132-132-189
132/132/189
350/350
700
450/400
300/300
600
400/350
277/277
259-259-354
259/259/354
10/6
1000/800
800/700
1000/600
800/600
3
3
305/305/373
265/265/324
NA
NA
600/600/701
506/506/571
12/6
12/6
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
275
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
500/450
600
450/350
500
350/300
700
500/400
450/350
600
400/300
450
300/225
700
450/350
3
3
3
3
3
3
3
161/161/196
133-133-162
133/133/162
106-106-130
106/106/130
160-160-189
160/160/189
973/973/1060
774-774-878
77/-774/878
631-631-705
631/631/705
896-896-1089
896/896/1089
316/316/345
252-252-285
252/252/285
205-205-229
205/205/229
291-291-354
291/291/254
12/6
18
12/6
18
12/6
18
12/6
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1200/800
1000/700
1200/600
1000/600
3
3
373/373/373
324/324/324
NA
NA
701/701/701
571/571/571
14/6
14/6
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
300
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
600/450
700
500/350
500
450/300
800
600/400
600/350
700
450/300
500
400/225
800
600/350
3
3
3
3
3
3
3
196/196/196
162-162 - 162
162/162/162
130-130-130
130/130/130
189-189-189
189/189/189
1060/1060/1060
878-878-878
878/878/878
705-705-705
705/705/705
345/345/345
285-285-285
285/285/285
229-229-229
229/229/229
354-354-354
354/354/354
14/6
20
14/6
20
14/6
20
14/6
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1089-1089-1089
1089/1089/1089
1000/1000
800/800
1000/1000
800/800
4
4
305/305/305/305
265/265/265/265
161/161/161/161
NA
NA
600/600/600/600 12/12
506/506/506/506 12/12
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
350
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
500/500
700
450/450
600
350/350
800
500/500
450/450
700
400/400
600
300/300
800
450/450
4
4
4
4
4
4
4
973/973/973/973
316/316/316/316 12/12
252-252-252-252 24
252/252/252/252 12/12
205-205-205-205 24
205/205/205/205 12/12
291-291-291-291 24
291/291/291/291 12/12
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
133-133-133-133 774-774-774-774
133/133/133/133 774/774/774/774
106-106-106-106 631-631-631-631
106/106/106/106 631/631/631/631
160-160-160-160 896-896-896-896
160/160/160/160 896/896/896/896
333/333
506
267/267
748
1.59
1.59
394/394
RLC-PRC006-EN
43
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Electrical Data
and Connection
Table E-2 (Continued). Unit electrical data for high efficiency at std. ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11)
Ckt 1/Ckt 2
Rec. Time
Delay or RDE (4)
Ckt 1/Ckt 2
##
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
189-189-160-160 1089-1089-896-896
189/189/160/160 1089/1089/896/896
Fans (Each)
Unit
Size
RTAC 400/50/3
Rated
MCA (3)
RLA (5)
Ckt 1/Ckt 2
YLRA (8)
Qty.
Control
Voltage Conns (1) Ckt 1/Ckt 2
Qty
4
4
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
1
2
1
2
1
2
1
2
1
2
1
2
1
2
819
465/394
NA
931/931
NA
820/820
NA
490/490
767
404/404
617
325/325
882
1000
600/500
354-354-291-291
26
0.8 2.8
0.8 2.8
1.59
1.59
375
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
600/450
254/254/291/291 14/12
701/701/701/701 14/14
571/571/571/571 14/14
1200/1200
1000/1000
1200/1200
1000/1000
4
4
373/373/373/373
324/324/324/324
NA
NA
1.5 6.5
1.5 6.5
1.59
1.59
RTAC 380/60/3
400
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
600/600
800
500/500
700
450/450
1000
600/600
600/600
800
450/450
700
400/400
1000
600/600
4
4
4
4
4
4
4
196/196/196/196 1060/1060/1060/1060 345/345/345/345 14/14
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.59
1.59
1.59
1.59
1.59
1.59
1.59
162-162-162-162
162/162/162/162
130-130-130-130
130/130/130/130
878-878-878-878
878/878/878/878
705-705-705-705
705/705/705/705
285-285-285-285
285/285/285/285 14/14
229-229-229-229 28
229/229/229/229 14/14
28
189/189/189/189 1089/1089/1089/1089 354/354/354/354 14/14
28
189-189-189-189 1089-1089-1089-1089 354-354-354-354
465/465
Notes:
1. As standard, all units have single point power connection. Optional dual point power connections are available.
2. Max Fuse or HACR type breaker = 225 percent of the largest compressor RLA plus 100 percent of the second compressor RLA, plus the sum of the condenser fan FLA per NEC 440-22.
Use FLA per circuit, NOT FLA for the entire unit).
3. MCA - Minimum Circuit Ampacity - 125 percent of largest compressor RLA plus 100 percent of the second compressor RLA plus the sum of the condenser fans FLAs per NEC 440-33.
4. RECOMMENDED TIME DELAY OR DUAL ELEMENT (RDE) FUSE SIZE: 150 percent of the largest compressor RLA plus 100 percent of the second compressor RLA and the sum of the condenser fan
FLAs.
5. RLA - Rated Load Amps - rated in accordance with UL Standard 1995.
6. Local codes may take precedence.
7. Control kW includes operational controls only. Does not include evaporator heaters.
8. XLRA - Locked Rotor Amps - based on full winding (x-line) start units. YLRA for wye-delta starters is ~1/3 of LRA of x-line units.
9. VOLTAGE UTILIZATION RANGE:
Rated Voltage
200/60/3
230/60/3
Utilization Range
180-220
208-254
380/60/3
460/60/3
342-418
414-506
575/60/3
400/50/3
516-633
360-440
10. A separate 115/60/1, 20 amp or 220/50/1, 15 amp customer provided power connection is needed to power the evaporator heaters (1640 watts).
11. If factory circuit breakers are supplied with the chiller, then these values represent Maximum Overcurrent Protection (MOP).
12. When the circuit breaker option is ordered, two circuit breakers will be provided (one per circuit) for both single and dual point power.
13. Motor kW is for standard fans. Low noise fans at 50 Hz are rated at 1.1 kW/fan.
44
RLC-PRC006-EN
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Electrical Data
and Connection
Table E-3. Unit electrical data for high efficiency at high ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
MCA (3) Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Rated
RLA (5)
Ckt 1/Ckt 2
270-270
270/270
235-235
235/235
142-142
142/142
118-118
118/118
94-94
YLRA (8)
Qty.
Control
Size Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
800
600/600
700
500/500
400
300/300
400
250/250
300
200/200
450
300/300
1000
700/600
800
600/500
500
350/300
450
300/250
350
250/200
500
350/300
1000
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
673
370/370
594
327/327
355
195/195
294
162/162
235
129/129
339
187/187
742
439/370
654
387/327
391
231/195
323
191/162
258
153/129
379
227/187
798
439/439
704
387/387
420
800
450/450
700
400/400
400
250/250
350
200/200
300
175/175
400
225/225
1000
600/450
800
500/400
450
300/250
400
225/200
300
200/175
450
300/225
1000
600/600
800
500/500
500
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
487-487
487/487
427-427
427/427
260-260
260/260
212-212
212/212
172-172
172/172
259-259
259/259
600-487
600/487
506-427
506/427
316-260
316/260
252-212
252/212
205-172
205/172
291-259
291/259
600-600
600/600
506-506
506/506
316-316
316/316
252-252
252/252
205-205
205/205
291-291
291/291
10
5/5
10
5/5
10
5/5
10
5/5
10
5/5
10
5/5
11
6/5
11
6/5
11
6/5
11
6/5
11
6/5
11
6/5
12
6/6
12
6/6
12
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
NA
NA
NA
230/60/3
RTAC 380/60/3
140 380/60/3
460/60/3
801-801
801/801
652-652
652/652
520-520
520/520
774-774
774/774
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
94/94
138-138
138/138
320-270
320/270
278-235
278/235
168-142
168/142
139-118
139/118
111-94
NA
NA
NA
230/60/3
RTAC 380/60/3
155 380/60/3
460/60/3
973-801
973/801
774-652
774/652
631-528
631/528
896-796
896/796
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
111/94
168-138
168/138
320-320
320/320
278-278
278/278
168-168
168/168
139-139
139/139
111-111
111/111
168-168
168/168
700/700
800
600/600
500
350/350
450
300/300
350
NA
NA
NA
230/60/3
RTAC 380/60/3
170 380/60/3
460/60/3
973-973
973/973
774-774
774/774
631-631
631/631
896-896
896/896
231/231
346
191/191
277
153/153
412
227/227
300/300
400
225/225
350
200/200
500
300/300
6/6
12
6/6
12
6/6
12
6/6
460/60/3
575/60/3
575/60/3
400/50/3
250/250
500
350/350
400/50/3
RLC-PRC006-EN
45
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Electrical Data
and Connection
Table E-3 (Continued). Unit electrical data for high efficiency at high ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
MCA (3) Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Rated
RLA (5)
Ckt 1/Ckt 2
386-320
386/320
336-278
336/278
203-168
203/168
168-139
168/139
134-111
134/111
198-168
198/168
386-386
386/386
336-336
336/336
203-203
203/203
168-168
168/168
134-134
134/134
198-198
198/198
459-358
459/358
399-336
399/336
242-203
242/203
200-168
200/168
160-134
160/134
YLRA (8)
Qty.
Control
Size Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
1200
800/700
1000
800/600
600
450/350
500
350/300
450
300/250
600
450/350
1200
800/800
1000
800/800
700
450/450
500
350/350
450
300/300
600
450/450
1200
1000/800
1200
Ckt 1/Ckt 2 Qty
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
887
528/439
783
466/387
467
278/231
385
230/191
308
184/153
445
267/227
960
528/528
847
466/466
506
278/278
417
230/230
334
184/184
485
267/267
1051
626/522
926
551/459
555
1000
700/600
1000
600/500
600
350/300
450
300/225
350
225/200
500
350/300
1200
700/700
1000
600/600
600
350/350
500
300/300
400
225/225
600
350/350
1200
800/700
1200
700/600
700
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
701-600
701/600
571-506
571/506
345-316
345/316
285-252
285/252
229-205
229/205
354-291
354/291
701-701
701/701
571-571
571/571
345-345
345/345
285-285
285/285
229-229
229/229
354-354
354/354
821-701
821/701
691-571
691/571
424-345
424/345
346-285
346/285
277-229
277/229
13
7/6
13
7/6
13
7/6
13
7/6
13
7/6
13
7/6
14
7/7
14
7/7
14
7/7
14
7/7
14
7/7
14
7/7
14
8/6
14
8/6
14
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
NA
NA
NA
230/60/3
RTAC 380/60/3
185 380/60/3
460/60/3
1060-973
1060/973
878-774
878/774
705-631
705/631
1089-896
1089/896
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
NA
NA
NA
230/60/3
RTAC 380/60/3
200 380/60/3
460/60/3
1060-1060
1060/1060
878-878
878/878
705-705
705/705
1089-1089
1089/1089
NA
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
NA
NA
NA
230/60/3
800/700
700
500/450
600
450/350
500
350/300
RTAC 380/60/3
225 380/60/3
460/60/3
1306-1060
1306/1060
1065-878
1065/878
853-705
853/705
331/275
458
273/227
367
400/350
600
350/300
450
8/6
14
8/6
14
460/60/3
575/60/3
575/60/3
219/182
300/225
8/6
46
RLC-PRC006-EN
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Electrical Data
and Connection
Table E-3 (Continued). Unit electrical data for high efficiency at high ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11)
Ckt 1/Ckt 2
1200
Rec. Time
Delay or RDE (4)
Ckt 1/Ckt 2 Qty
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
NA
Fans (Each)
Unit
Size
Rated
MCA (3)
RLA (5)
Ckt 1/Ckt 2
459-459
459/459
399-399
399/399
242-242
242/242
200-200
200/200
160-160
160/160
138-138-198
138/138/198
YLRA (8)
Qty.
Control
Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
200/60/3
200/60/3
230/60/3
230/60/3
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1137
626/626
1002
551/551
601
331/331
495
273/273
397
219/219
569
339/265
NA
798/522
NA
704/459
NA
420/275
539
347/227
431
278/182
634
412/265
NA
960522
NA
847/459
NA
506/275
602
418/227
484
334/182
700
485/265
NA
798/798
NA
704/704
NA
420/420
658
1200
800/800
1200
700/700
700
400/400
600
350/350
450
2
2
2
2
2
2
2
2
2
2
3
3
821-821
821/821
691-691
691/691
424-424
424/424
346-346
346/346
277-277
16
8/8
16
8/8
16
8/8
16
8/8
16
1.5 6.5
1.5 6.5
1.5 6.5
1.5 6.5
1.5 3.5
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
0.83
1.2
1000/1000
1200
800/800
800
500/500
600
450/450
500
NA
NA
NA
RTAC 380/60/3
250
1306-1306
1306/1306
1065-1065
1065/1065
853-853
853/853
796-796-1089
796/796/1089
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
350/350
700
450/450
300/300
700
400/350
277/277
259-259-354
259/259/354
8/8
16
10/6
1.2
1000/800
800/700
1000/700
800/600
3
3
320/320/386
278/278/336
NA
NA
600/600/701
506/506/571
12/6
12/6
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
275
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
500/450
700
450/350
500
350/300
800
500/450
500/350
600
400/300
500
350/225
700
500/350
3
3
3
3
3
3
3
168/168/203
139-139-168
139/139/168
111-111-134
111/111/134
168-168-168
168/168/168
973/973/1060
774-774-878
774/774/878
631-631-705
631/631/705
896-896-1089
896/896/1089
316/316/345
252-252-285
252/252/285
205-205-229
205/205/229
291-291-354
291/291/254
12/6
18
12/6
18
12/6
18
12/6
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1200/800
1000/700
1200/700
1000/600
3
3
386/386/386
336/336/336
NA
NA
701/701/701
571/571/571
14/6
14/6
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
300
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
200/60/3
200/60/3
230/60/3
230/60/3
700/450
700
500/350
600
450/300
800
600/450
600/350
700
500/300
600
400/225
800
600/350
3
3
3
3
3
3
3
203/203/203
168-168-168
168/168/168
134-134-134
134/134/134
198-198-198
198/198/198
1060/1060/1060
878-878-878
878/878/87/
705-705-705
705/705/705
345/345/345
285-285-285
285/285/285
229-229-229
229/229/229
354-354-354
354/354/354
14/6
20
14/6
20
14/6
20
14/6
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
1.2
1.2
1089-1089-1089
1089/1089/1089
1000/1000
800/800
1000/1000
800/800
4
4
320/320/320/320
278/278/278/278
168/168/168/168
NA
NA
600/600/600/600 12/12
506/506/506/506 12/12
1.5 6.5
1.5 6.5
1.2
1.2
RTAC 380/60/3
350
380/60/3
460/60/3
460/60/3
575/60/3
575/60/3
400/50/3
400/50/3
500/500
700
450/450
600
350/350
800
500/500
500/500
700
400/400
600
350/350
800
500/500
4
4
4
4
4
4
4
973/973/973/973
316/316/316/316 12/12
252-252-252-252 24
252/252/252/252 12/12
205-205-205-205 24
205/205/205/205 12/12
291-291-291-291 24
291/291/291/291 12/12
1.5 3.5
1.5 2.8
1.5 2.8
1.5 2.3
1.5 2.3
0.8 2.8
0.8 2.8
1.2
1.2
1.2
1.2
1.2
139-139-139-139 774-774-774-774
139/139/139/139 774/774/774/774
111-111-111-111 631-631-631-631
111/111/111/111 631/631/631/631
168-168-168-168 896-896-896-896
168/168/168/168 896/896/896/896
347/347
527
278/278
782
1.59
1.59
412/412
RLC-PRC006-EN
47
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Electrical Data
and Connection
Table E-3 (Continued). Unit electrical data for high efficiency at high ambient operation
Unit Wiring
Motor Data
# of
Power
Max. Fuse, HACR
Breaker or MOP (11) Delay or RDE (4)
Rec. Time
Compressor (Each)
XLRA (8)
Ckt 1/Ckt 2
198-198-168-168 1089-1089-896-896
Fans (Each)
Qty.
Ckt 1/Ckt 2 Ckt 1/Ckt 2 kW FLA kW (7)
Unit
Size
RTAC 400/50/3
375 400/50/3
200/60/3
Rated
MCA (3)
RLA (5)
Ckt 1/Ckt 2
YLRA (8)
Control
Voltage Conns (1) Ckt 1/Ckt 2
Ckt 1/Ckt 2
1000
600/500
Ckt 1/Ckt 2 Qty
1000
600/500
1
2
1
2
1
2
1
2
1
2
1
2
1
2
855
485/412
NA
960/960
NA
847/847
NA
505/506
793
418/418
634
334/334
920
4
4
354-354-291-291
26
0.8 2.8
1.59
1.59
198/198/168/168
386/386/386/386
336/336/336/336
1089/1089/896/896
254/254/291/291 14/12 0.8 2.8
701/701/701/701 14/14 1.5 6.5
571/571/571/571 14/14 1.5 6.5
345/345/345/345 14/14 1.5 3.5
200/60/3
230/60/3
230/60/3
1200/1200
1000/1000
1200/1200
1000/1000
4
4
NA
NA
1.59
1.59
RTAC 380/60/3
400 380/60/3
460/60/3
700/700
800
500/500
700
450/450
1000
600/600
600/600
800
500/500
700
400/400
1000
600/600
4
4
4
4
4
4
4
203/203/203/203 1060/1060/1060/1060
1.59
1.59
1.59
1.59
1.59
1.59
1.59
168-168-168-168
168/168/168/16/
134-134-134-134
134/134/134/134/
878-878-878-878
878/878/878/878
705-705-705-705
705/705/705/705
285-285-285-285
285/285/285/285 14/14 1.5 2.8
229-229-229-229 28 1.5 2.3
229/229/229/229 14/14 1.5 2.3
28 0.8 2.8
354/354/354/354 14/14 0.8 2.8
28
1.5 2.8
460/60/3
575/60/3
575/60/3
400/50/3
198-198-198-198 1089-1089-1089-1089 354-354-354-354
198/198/198/198 1089/1089/1089
400/50/3
485/485
Notes:
1. As standard, all units have single point power connection. Optional dual point power connections are available.
2. Max Fuse or HACR type breaker = 225 percent of the largest compressor RLA plus 100 percent of the second compressor RLA, plus the sum of the condenser fan FLA per NEC 440-22.
Use FLA per circuit, NOT FLA for the entire unit).
3. MCA - Minimum Circuit Ampacity - 125 percent of largest compressor RLA plus 100 percent of the second compressor RLA plus the sum of the condenser fans FLAs per NEC 440-33.
4. RECOMMENDED TIME DELAY OR DUAL ELEMENT (RDE) FUSE SIZE: 150 percent of the largest compressor RLA plus 100 percent of the second compressor RLA and the sum of the condenser fan
FLAs.
5. RLA - Rated Load Amps - rated in accordance with UL Standard 1995.
6. Local codes may take precedence.
7. Control kW includes operational controls only. Does not include evaporator heaters.
8. XLRA - Locked Rotor Amps - based on full winding (x-line) start units. YLRA for wye-delta starters is ~1/3 of LRA of x-line units.
9. VOLTAGE UTILIZATION RANGE:
Rated Voltage
200/60/3
230/60/3
Utilization Range
180-220
208-254
380/60/3
460/60/3
342-418
414-506
575/60/3
400/50/3
516-633
360-440
10. A separate 115/60/1, 20 amp or 220/50/1, 15 amp customer provided power connection is needed to power the evaporator heaters (1640 watts).
11. If factory circuit breakers are supplied with the chiller, then these values represent Maximum Overcurrent Protection (MOP).
12. When the circuit breaker option is ordered, two circuit breakers will be provided (one per circuit) for both single and dual point power.
13. Motor kW is for standard fans. Low noise fans at 50 Hz are rated at 1.1 kW/fan.
48
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Electrical Data
and Connection Wire Size
Table E-4. Customer wire selection for single point units
Wire Selection Size
to Main Terminal Block
XL Starter
Connector Wire Range
NA
Wire Selection Size
to Main Terminal Block
YD Starter
Connector Wire Range
Lug Size G
Lug Size G
Lug Size F
Lug Size F
Lug Size F
Lug Size F
Lug Size G
Lug Size G
Lug Size F
Lug Size F
Lug Size F
Lug Size F
Lug Size G
Lug Size G
Lug Size G
Lug Size F
Lug Size F
Lug Size E or I
Lug Size G
Lug Size G
Lug Size G
Lug Size F
Lug Size F
Lug Size E or I
Lug Size L
Lug Size G
Lug Size G
Lug Size F
Lug Size F
Lug Size G
Lug Size L
Lug Size G
Lug Size G
Lug Size F
Lug Size F
Lug Size G
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size F
Lug Size G
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size F
Lug Size G
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size F
Lug Size G
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size F
Lug Size G
Wire Selection Size
to Disconnect (2)
Wire Selection Size
to Circuit Breaker (2)
Unit
Size
Rated
Voltage
Connector Wire Range
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Connector Wire Range
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size C
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
NA
RTAC
140
STD
Lug Size F
Lug Size E or I
Lug Size F
Lug Size F
NA
NA
RTAC
140
HIGH
Lug Size F
Lug Size E or I
Lug Size F
Lug Size F
NA
NA
RTAC
155
STD
Lug Size G
Lug Size E or I
Lug Size E or I
Lug Size E or I
NA
NA
RTAC
155
HIGH
Lug Size G
Lug Size E or I
Lug Size E or I
Lug Size E or I
NA
NA
RTAC
170
STD
Lug Size G
Lug Size E or I
Lug Size E or I
Lug Size G
NA
NA
RTAC
170
HIGH
Lug Size G
Lug Size E or I
Lug Size E or I
Lug Size G
NA
NA
RTAC
185
STD
Lug Size G
Lug Size G
Lug Size E or I
Lug Size G
NA
NA
RTAC
185
HIGH
Lug Size G
Lug Size G
Lug Size E or I
Lug Size G
NA
NA
RTAC
200
STD
Lug Size G
Lug Size G
Lug Size E or I
Lug Size G
NA
NA
RTAC
200
HIGH
Lug Size G
Lug Size G
Lug Size E or I
Lug Size G
RLC-PRC006-EN
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Electrical Data
and Connection Wire Size
Table E-4 (Continued). Customer wire selection for single point units
Wire Selection Size
to Main Terminal Block
XL Starter
Connector Wire Range
Wire Selection Size
Wire Selection Size
to Disconnect (2)
Wire Selection Size
to Circuit Breaker (2)
to Main Terminal Block
YD Starter
Connector Wire Range
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size E or I
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size E or I
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size N
NA
Unit
Size
Rated
Voltage
Connector Wire Range
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
NA
Connector Wire Range
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size H
Lug Size B
Lug Size A
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size A
NA
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
400V-50Hz
NA
NA
RTAC
225
STD
Lug Size G
Lug Size G
Lug Size E or I
NA
RTAC
225
HIGH
NA
Lug Size G
Lug Size G
Lug Size E or I
NA
NA
RTAC
250
STD
Lug Size G
Lug Size G
Lug Size G
NA
NA
NA
Lug Size G
Lug Size G
Lug Size G
NA
Lug Size L
Lug Size L
Lug Size G
Lug Size G
Lug Size N
NA
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size B
NA
Lug Size B
Lug Size B
Lug Size B
Lug Size B
Lug Size B
NA
RTAC
250
HIGH
RTAC
275
STD
RTAC
275
HIGH
RTAC
300
STD
RTAC
300
HIGH
RTAC
350
STD
RTAC
350
HIGH
RTAC
375 STD
RTAC
375 HIGH
RTAC
400
STD
RTAC
400
HIGH
RTAC
450 STD
RTAC
500 STD
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
NA
NA
NA
NA
NA
NA
NA
NA
NA
400V-50Hz
NA
NA
NA
Lug Size L
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
400V-50Hz
460V-60Hz
575V-60Hz
460V-60Hz
575V-60Hz
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
Lug Size L
1. As standard, 140-250 ton (60 Hz) units and 140-200 ton (50 Hz) units have single point power
connections. Optional dual point power connections are available. As standard, 275-500 ton
(60 Hz) units and 250-400 ton (50 Hz) units have dual point power connections. Optional single
point power connections are available on 380V, 460V, 575 V/60 Hz and 400V/50 Hz units.
2. Non-fused unit disconnect and circuit breaker are optional.
3. Copper wire only, sized per N.E.C., based on nameplate minimum circuit ampacity (MCA).
4. Circuit Breaker sizes are for factory mounted only. Field installed circuit breakers need to be sized
using HACR breaker recommendations from Table E-1.
Lug Size A = (1) 4/0 to 600 MCM per phase
Lug Size B = (4) 4/0 to 500 MCM per phase
Lug Size C = (1) #3 to 350 MCM per phase
Lug Size D = (1) #2 to 500 MCM per phase
Lug Size E (5) = (2) 1/0 to 250 MCM per phase
Lug Size F = (2) #4 to 500 MCM per phase
Lug Size G = (2) #1 to 500 MCM per phase
Lug Size H = (2) 400 to 500 MCM per phase
Lug Size I (5) = (1) #2 to 750 MCM per phase
Lug Size J = (1) 250 to 500 MCM per phase
Lug Size K = (2) 3/0 to 350 MCM per phase
Lug Size L = (4) #2 to 600 MCM per phase
Lug Size M = (2) #4 to 600 MCM per phase
Lug Size N = (2) #2 to 600 MCM per phase
Lug Size O = (1) #2 to 250 MCM per phase
5. A single, dual-rated lug is associated with the “Lug Size E or I” designation. Each phase of the
lug has a single, oval-shaped hole, into which a single #2 to 750 MCM wire OR two 1/0 to 250
MCM wires can be inserted.
50
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Electrical Data
and Connection Wire Size
Table E-5. Customer wire selection for dual point units
Wire Selection Size
to Main Terminal Block
XL Starter
Connector Wire Range
Ckt 1 / Ckt 2
Wire Selection Size
to Main Terminal Block
YD Starter
Connector Wire Range
Ckt 1 / Ckt 2
Wire Selection Size
to Disconnect (2)
Wire Selection Size
to Circuit Breaker (2)
Unit
Size
Rated
Voltage
Connector Wire Range
Ckt 1 / Ckt 2
Connector Wire Range
Ckt 1 / Ckt 2
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
NA
NA
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size J/Lug Size J
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size J/Lug Size J
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Szie C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size J/Lug Size J
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size J/Lug Size J
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Szie C/Lug Size C
Lug Size C/Lug Size C
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size H/Lug Size H
Lug Size K/Lug Size K
Lug Size J/Lug Size J
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size C/Lug Size C
RTAC
140
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
NA
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
NA
RTAC
140
HIGH
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
NA
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size G/Lug Size G
NA
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
RTAC
155
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
Lug Size G/Lug Size G
NA
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
RTAC
155
HIGH
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
Lug Size G/Lug Size G
NA
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
RTAC
170
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
Lug Size G/Lug Size G
NA
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
RTAC
170
HIGH
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
NA
RTAC
185
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
NA
RTAC
185
HIGH
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
NA
RTAC
200
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size F/Lug Size F
NA
RTAC
200
HIGH
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
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Electrical Data
and Connection Wire Size
Table E-5 (Continued). Customer wire selection for dual point units
Wire Selection Size
to Main Terminal Block
XL Starter
Connector Wire Range
Ckt 1 / Ckt 2
Wire Selection Size
to Main Terminal Block
YD Starter
Connector Wire Range
Ckt 1 / Ckt 2
Wire Selection Size
to Disconnect (2)
Wire Selection Size
to Circuit Breaker (2)
Unit
Size
Rated
Voltage
Connector Wire Range
Ckt 1 / Ckt 2
Connector Wire Range
Ckt 1 / Ckt 2
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
NA
NA
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size L/Lug Size G
Lug Size G/Lug Size G
Lug Size G/Lug Size I or E
Lug Size F/Lug Size I or E
Lug Size F/Lug Size F
Lug Size N/Lug Size I or E
Lug Size L/Lug Size G
Lug Size G/Lug Size G
Lug Size G/Lug Size I or E
Lug Size F/Lug Size I or E
Lug Size F/Lug Size F
Lug Size N/Lug Size I or E
Lug Size L/Lug Size G
Lug Size L/Lug Size L
Lug Size G/Lug Size I or E
Lug Size M/Lug Size I or E
Lug Size F/Lug Size F
Lug Size N/Lug Size I or E
Lug Size L/Lug Size G
Lug Size L/Lug Size L
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size A/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size A/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size A
Lug Size B/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size A
Lug Size B/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size J/Lug Size J
Lug Size A/Lug Size A
Lug Size C/Lug Size C
Lug Size C/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size A/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size A/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size A
Lug Size B/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size A
Lug Size B/Lug Size C
Lug Size A/Lug Size C
Lug Size B/Lug Size C
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size A/Lug Size A
Lug Size B/Lug Size B
RTAC
225
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
RTAC
225
HIGH
NA
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
NA
NA
RTAC
250
STD
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size I or E
NA
NA
RTAC
250
HIGH
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size I or E
NA
NA
RTAC
275
STD
Lug Size G/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size I or E
NA
NA
RTAC
275
HIGH
Lug Size G/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size I or E
NA
NA
RTAC
300
STD
Lug Size G/Lug Size I or E
Lug Size L/Lug Size L
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size I or E
NA
NA
RTAC
300
HIGH
Lug Size G/Lug Size I or E
Lug Size L/Lug Size L
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size I or E
NA
Lug Size G/Lug Size I or E
Lug Size M/Lug Size I or E
Lug Size F/Lug Size F
Lug Size N/Lug Size I or E
Lug Size L/Lug Size L
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size N/Lug Size G
NA
RTAC
350
STD
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
NA
Lug Size L/Lug Size L
NA
Lug Size G/Lug Size G
Lug Size G/Lug Size G
Lug Size F/Lug Size F
Lug Size F/Lug Size F
Lug Size N/Lug Size G
RTAC
350
HIGH
Lug Size G/Lug Size G
Lug Size I or E/Lug Size I or E
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
52
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Electrical Data
and Connection Wire Size
Table E-5 (Continued). Customer wire selection for dual point units
Wire Selection Size
to Main Terminal Block
XL Starter
Connector Wire Range
Ckt 1 / Ckt 2
Wire Selection Size
to Main Terminal Block
YD Starter
Connector Wire Range
Ckt 1 / Ckt 2
Wire Selection Size
to Disconnect (2)
Wire Selection Size
to Circuit Breaker (2)
Unit
Size
Rated
Voltage
Connector Wire Range
Ckt 1 / Ckt 2
Connector Wire Range
Ckt 1 / Ckt 2
RTAC
400V-50Hz
Lug Size G/Lug Size G
Lug Size N/Lug Size G
Lug Size B/Lug Size B
Lug Size B/Lug Size B
375 STD
RTAC
400V-50Hz
Lug Size G/Lug Size G
Lug Size N/Lug Size G
Lug Size B/Lug Size B
Lug Size B/Lug Size B
375 HIGH
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
400V-50Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
200V-60Hz
230V-60Hz
380V-60Hz
460V-60Hz
575V-60Hz
NA
NA
Lug Size L/Lug Size L
Lug Size L/Lug Size L
Lug Size G/Lug Size G
Lug Size M/Lug Size M
Lug Size F/Lug Size F
Lug Size N/Lug Size G
Lug Size L/Lug Size L
Lug Size L/Lug Size L
Lug Size G/Lug Size G
Lug Size M/Lug Size M
Lug Size F/Lug Size F
Lug Size N/Lug Size G
Lug Size L/Lug Size L
Lug Size L/Lug Size L
Lug Size G/Lug Size G
Lug Size N/Lug Size M
Lug Size N/Lug Size F
Lug Size L/Lug Size L
Lug Size L/Lug Size L
Lug Size G/Lug Size G
Lug Size N/Lug Size N
Lug Size F/Lug Size L
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size H
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size H/Lug Size H
Lug Size B/Lug Size B
Lug Size A/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size H
Lug Size B/Lug Size B
Lug Size B/Lug Size A
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size B
Lug Size B/Lug Size A
RTAC
400
STD
Lug Size G/Lug Size G
Lug Size L/Lug Size L
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
NA
NA
RTAC
400
HIGH
Lug Size G/Lug Size G
Lug Size L/Lug Size L
Lug Size I or E/Lug Size I or E
Lug Size G/Lug Size G
NA
RTAC
450
STD
NA
Lug Size G/Lug Size G
Lug Size L/Lug Size L
Lug Size G/Lug Size G
NA
RTAC
500
STD
NA
Lug Size G/Lug Size G
Lug Size L/Lug Size L
Lug Size G/Lug Size G
Lug Size A = (1) 4/0 to 600 MCM per phase
Lug Size B = (4) 4/0 to 500 MCM per phase
Lug Size C = (1) #3 to 350 MCM per phase
Lug Size D = (1) #2 to 500 MCM per phase
Lug Size E (5) = (2) 1/0 to 250 MCM per phase
Lug Size F = (2) #4 to 500 MCM per phase
Lug Size G = (2) #1 to 500 MCM per phase
Lug Size H = (2) 400 to 500 MCM per phase
Lug Size I (5) = (1) #2 to 750 MCM per phase
Lug Size J = (1) 250 to 500 MCM per phase
Lug Size K = (2) 3/0 to 350 MCM per phase
Lug Size L = (4) #2 to 600 MCM per phase
Lug Size M = (2) #4 to 600 MCM per phase
Lug Size N = (2) #2 to 600 MCM per phase
Lug Size O = (1) #2 to 250 MCM per phase
1. As standard, 140-250 ton (60 Hz) units and 140-200 ton (50 Hz) units have single point power connections. Optional dual point power connections are available. As standard,
275-500 ton (60 Hz) units and 250-400 ton (50 Hz) units have dual point power connections. Optional single point power connections are available on 380V, 460V, 575 V/60 Hz and
400V/50 Hz units.
2. Non-fused unit disconnect and circuit breaker are optional.
3. Copper wire only, sized per N.E.C., based on nameplate minimum circuit ampacity (MCA).
4. Circuit Breaker sizes are for factory mounted only. Field installed circuit breakers need to be sized using HACR breaker recommendations from Table E-1.
5. A single, dual-rated lug is associated with the “Lug Size E or I” designation. Each phase of the lug has a single, oval-shaped hole, into which a single #2 to 750 MCM wire OR two 1/
0 to 250 MCM wires can be inserted.
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Electrical Data
Typical Wiring
and Connection Diagram
Field Wiring, 2-Compressor Units
54
RLC-PRC006-EN
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