Trane Air Conditioner CG PRC007 EN User Manual

Air-Cooled  
Liquid Chillers  
10 to 60Tons  
March 2003  
CG-PRC007-EN  
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Contents  
Introduction  
2
4
Features and Benefits  
Application Considerations  
9
Selection Procedure  
Model Number Description  
General Data  
14  
15  
16  
Performance Data  
Performance Adjustment Factors  
Controls  
21  
17  
30  
Electric Power  
37  
39  
48  
Dimension andWeights  
Mechanical Specifications  
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(10–60Ton)  
Features and  
Benefits  
Installation  
Packed Stock Increases  
Project Flexibility  
Small size, complete factory wiring, easy  
lifting provisions, factory installed  
Trane 10 to 60-ton air-cooled chillers  
are available through the most flexible  
packed stock program in the industry.  
options and start-up control provide fast,  
easy installation. A complete factory run  
test is performed on each unit,  
Trane knows you want your units on  
the jobsite, on time, when you need  
them. To help meet this demand,Trane  
keeps a multitude of unit sizes and  
voltages in packed stock. Many of  
these include optional features such as  
isolators, low ambient head pressure  
controls and refrigerant gauge piping.  
eliminating potential start-up problems.  
Integrated Comfort Systems  
AllTrane chillers are ICS compatible. A  
simple twisted wire pair is all it takes to  
hook an air-cooled chiller into aTracer  
system. An ICS system provides the  
most advanced diagnostics, monitoring,  
and control that the industry can offer.  
OnlyTrane can supply the entire package.  
ICS provides comfort with one word —  
Trane.  
You no longer have to settle for a  
scaled-down, basic unit to meet your  
job schedule. In many cases, units can  
be shipped directly to the jobsite from  
packed stock!  
4
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(10–15Ton)  
Features and  
Benefits  
ElapsedTime Meter/Number Starts  
Counter — Records number of  
compressor starts and operating  
hours.  
Flow Switch — Required as a safety  
interlock to prevent operation of unit  
without evaporator flow (available  
option for field installation only).  
Integrated Comfort Systems (ICS)  
Interface — Provides the ability to  
communicate withTraneTracer or  
Tracker building management systems  
via aThermostat Control Module —  
(TCM).  
The 10 and 15-ton air-cooled Cold  
Generatorchillers, withTrane direct  
drive hermetic scroll compressors, has  
outstanding standard features and  
additional benefits that make selection,  
installation, and servicing easy.  
Optional Features  
Hot Gas Bypass — Allows unit  
operation below the minimum step of  
unloading.  
LowAmbient Head Pressure Control  
— Modulates the rpm of the fan motor  
in response to outdoor ambient  
temperature and unit head pressure.  
Provides unit cooling operation down  
to outdoor temperatures of 0°F.  
Coil Guard — Metal grille with PVC  
coating to protect the condenser coil.  
Isolation — Neoprene in shear or  
spring flex isolators.  
Power Supply Monitor — Provides  
protection against phase loss, phase  
reversal, phase imbalance, incorrect  
phase sequence and low line voltage.  
Flexibility  
Footprint  
Central to the design of any project is the  
operating envelope of the air-cooled  
packaged chiller. With this in mind,Trane  
builds the chillers to make the most  
efficient use of the available installation  
space.TheTrane CGA model chillers are  
extremely compact. They have the  
lightest weight, the smallest footprint,  
and the lowest silhouette of any chiller in  
the industry.  
Gauges — Monitor suction and  
discharge pressures.  
LessWeight  
These lightweight models afford less  
stress on building supports and greater  
handling ease.  
Installation  
Installation time and effort are reduced  
when dealing with a significantly smaller  
and lighter unit. In addition, having  
electrical and water connections on the  
same side of the unit and a single-point  
main power connection serves to make  
installation easier. The unit arrives at the  
jobsite fully assembled, tested, charged  
and ready to provide chilled water.  
Ease of Service  
The control panel and unit panels are  
completely removable for service  
accessibility and convenience.  
ICS Interface  
Communication withTraneTraceror  
Trackeris possible through the ICS  
Interface on the 10 and 15 ton Cold  
Generator chiller.  
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Features and  
Benefits  
(20–60Ton)  
Trane’s 20-60 ton chillers offer the same  
time-tested and proven control  
technology that is applied to the  
IntelliPak Air Cooled rooftops.  
Other Standard Features  
Optional Features  
Controls for ice making operation  
Trane 3-D Scroll compressors  
Advanced motor protection  
300 psi waterside evaporator  
Evaporator insulation (¾-inch  
Armaflex II or equivalent)  
Evaporator heat tape (thermostat  
controlled)  
Condenser coil guards  
Operation down to 30°F without  
additional wind baffles or head  
pressure control  
Loss of flow protection  
UL and CSA approval available  
Packed stock availability  
Control PowerTransformer  
Low ambient lockout  
Plain English (Spanish/French)  
Human Interface display  
Smart Lead/Lag operation  
Integrated chilled solution pump  
control  
Miscellaneous Options  
Trane Communications Interface  
Module (TCI)  
Superior control makes the IntelliPak a  
truly advanced chiller.  
Unit Mounted Disconnect  
Isolators  
Superheat/Sub-Cooling Module  
Hot Gas Bypass  
Generic B A S Modules with 0-10 v  
analog input/output, 0-5 v analog  
input/binary output  
Remote Human Interface Panel  
(RHI)  
Remote Set point Potentiometer  
Zone Sensor (Chilled Solution  
Reset)  
Copper Fin Condenser Coils  
Electronic Low Ambient Damper(s)  
Inter-Processor Communication  
Bridge (IPCB)  
Standard Features  
Microprocessor Control  
The IntelliPak chillers Unit Control  
Module (UCM) is an innovative,  
modular microprocessor control  
design. It coordinates the actions of the  
chiller in an efficient manner and  
provides stand-alone operation of the  
unit. A Human Interface (HI) Panel is a  
standard component of the IntelliPak  
Chiller. Access to all unit controls is via  
the Human Interface Panel.  
Factory RunTesting  
In addition to outstanding efficient  
performance, IntelliPak Chillers have  
established a reputation for reliable  
operation. Aside from the individual  
component tests, allTrane 20 to 60-ton  
chillers are factory run tested with  
water running through the evaporator  
to confirm proper operation. Control  
operation and current draw are both  
monitored to assure safe, reliable  
operation.  
Selectable process or comfort control  
algorithm  
External auto/stop  
Ice building control  
Other options  
In addition to all of these options,Trane  
can offer in-house design for many  
applications, including special coil  
coating.  
Electronic low ambient damper  
control integrated into UCM  
Flow switch  
Strainer/connection kit  
6
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Features and  
Benefits  
(20–60Ton)  
Enhanced Controls  
IntelliPak Chiller Unit Control Module  
(UCM)  
Microprocessor Control  
The brain of the 20 to 60 ton air-cooled  
chiller is its Unit Control Module (UCM).  
The UCM is an innovative, modular  
microprocessor control design, which  
coordinates the actions of the chiller in  
an efficient manner, providing stand-  
alone operation of the unit.  
Access to the unit controls is via a  
Human Interface (HI) Panel, a standard  
component of the IntelliPak chiller. This  
panel provides a high degree of control.  
Superior monitoring capability and  
unmatched diagnostic information is  
provided through a 2 line 40 character  
per line, English language display.  
There are no diagnostic codes”  
requiring a translation key for  
interpretation. All system status  
information and control adjustments  
can be made from the onboard Human  
Interface Panel.  
Remote Human Interface (RHI) The optional Remote Human Interface (RHI)  
performs the same functions as the Human Interface, with the exception of the  
service mode. The RHI can be used with up to 4 air-cooled chillers from a single  
panel.  
The Integrated Comfort™ System —The Industry’s MostAdvanced Comfort System  
The UCM allows the 20 to 60-ton  
IntelliPak chiller to be part of the factory  
installed Integrated Comfort System  
(ICS). ICS joins theTraneTracer building  
management systems andTrane HVAC  
equipment by a single twisted wire  
pair. This allows bidirectional  
ICS gives you the most powerful  
Tracer control points for  
IntelliPak Chillers  
monitoring and diagnostic system  
available. Monitoring up to 30 individual  
points, the ICS can detect and correct  
problems before a comfort level change  
is even noticed. Advanced monitoring  
and diagnostics can help building  
owners to more effectively market their  
buildings to prospective tenants.  
Chilled solution set point  
Default chilled solution set point  
Ice set point  
Default ice set point  
communication between theTracer  
system and the unit mounted controls.  
Connected to the chillers UCM, this  
simple pair allows you to control,  
monitor, and diagnose your buildings  
comfort system.The UCM is linked to  
theTracer system and they  
Chiller enable point  
Failure mode  
Ice making enable point  
KW limit enable point  
Demand limiting cooling stages  
Default number of compressors  
Design delta temperature  
Control response set point  
Reset option  
An ICS system is the most advanced  
comfort system in the industry. Because  
Trane has more experience with ICS  
than all other equipment manufacturers  
combined, you can feel secure knowing  
that you are dealing with a proven track  
record in building management. Trane is  
the only brand that supplies the entire  
package.  
electronically talkto one another.  
Since ICS is factory-packaged, there is  
no need to install separate sensors to  
monitor your chillers operation. All of  
the control points are on the controller  
and ready to go when the unit ships.  
Simply hookup theTracer system to the  
IntelliPakchiller with the twisted wire  
pair.This feature means lower installed  
cost, less chance for jobsite errors, less  
design time on the front end of your  
project, and fewer callbacks.  
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Features and  
Benefits  
(20–60Ton)  
Proven DesignThroughTesting and  
Research  
than 400,000 hours of laboratory testing  
and field operation.This work combined  
with over 25 patents makesTrane the  
worldwide leader in air conditioning  
scroll compressor technology.  
Trane 3-D Scroll Compressor  
Simple Design with 70% Fewer Parts  
With over twenty years of development  
and testing,Trane 3-D Scroll  
compressors have undergone more  
Fewer parts than an equal capacity  
reciprocating compressor means  
significant reliability and efficiency  
benefits.The single orbiting scroll  
eliminates the need for pistons,  
connecting rods, wrist pins and valves.  
Fewer parts lead to increased reliability.  
Fewer moving parts, less rotating mass  
and less internal friction means greater  
efficiency than reciprocating  
compressors.  
TheTrane 3-D Scroll provides important  
reliability and efficiency benefits.The 3-D  
Scroll allows the orbiting scrolls to touch  
in all three dimensions, forming a  
completely enclosed compression  
chamber which leads to increased  
efficiency. In addition, the orbiting scrolls  
only touch with enough force to create a  
seal; there is no wear between the scroll  
plates.The fixed and orbiting scrolls are  
made of high strength cast iron which  
results in less thermal distortion, less  
leakage, and higher efficiencies. The  
most outstanding feature of the 3-D  
Scroll compressor is that slugging will  
not cause failure. In a reciprocating  
compressor, however, the liquid or dirt  
can cause serious damage.  
LowTorqueVariation  
The 3-D Scroll compressor has a very  
smooth compression cycle; torque  
variations are only 30 percent of that  
produced by a reciprocating compressor.  
This means that the scroll compressor  
imposes very little stress on the motor  
resulting in greater reliability. Low torque  
variation reduces noise and vibration.  
Suction Gas Cooled Motor  
Compressor motor efficiency and  
reliability is further optimized with the  
latest scroll design. Cool suction gas  
keeps the motor cooler for longer life and  
better efficiency.  
One of two matched scroll plates —  
the distinguishing feature of the scroll  
compressor.  
Chart illustrates low torque variation of  
3-D Scroll compressor vs.  
reciprocating compressor.  
8
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Application  
Considerations  
Certain application constraints should be  
considered when sizing, selecting and  
installingTrane air-cooled chillers. Unit  
and system reliability is often dependent  
upon proper and complete compliance  
with these considerations.Where the  
application varies from the guidelines  
presented, it should be reviewed with  
your localTrane sales engineer.  
For maximum isolation effect, water lines  
and electrical conduit should also be  
isolated.Wall sleeves and rubber isolated  
Debris, trash, supplies, etc., should not  
be allowed to accumulate in the vicinity  
of the air-cooled chiller. Supply air  
piping hangers can be used to reduce the movement may draw debris into the  
sound transmitted through water piping.  
To reduce the sound transmitted through  
electrical conduit, use flexible electrical  
conduit.  
condenser coil, blocking spaces between  
coil fins and causing coil starvation.  
Both warm air recirculation and coil  
starvation cause reductions in unit  
efficiency and capacity because of the  
higher head pressures associated with  
them. In addition, in more severe cases,  
nuisance unit shutdowns will result from  
excessive head pressures. Estimates of  
the degree of efficiency and capacity  
reduction in such situations can be  
determined. Consult your localTrane  
sales engineer.  
State and local codes on sound  
emissions should always be considered.  
Since the environment in which a sound  
source is located affects sound pressure,  
unit placement must be carefully  
evaluated. Sound pressure and sound  
power levels for chillers are available on  
request.  
Note: The terms water and solution are  
used interchangeably in the following  
paragraphs.  
UNIT SIZING  
Unit capacities are listed in the  
Performance Datasection.  
Intentionally oversizing 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 oversizing is desired, consider  
using two units.  
3
Cross winds, those perpendicular to the  
condenser, tend to aid efficient operation  
in warmer ambient conditions, however,  
they tend to be detrimental to operation  
in lower ambients or when hot gas  
bypass is used due to the accompanying  
loss of adequate head pressure. As a  
result, it is advisable to protect air-cooled  
chillers from continuous direct winds  
exceeding 10 miles per hour in low  
ambient conditions.  
Servicing  
Adequate clearance for evaporator and  
compressor servicing should be  
provided. Recommended minimum  
space envelopes for servicing are located  
in the dimensional data section and can  
serve as a guideline for providing  
adequate clearance.The minimum space  
envelopes also allow for control panel  
door swing and routing maintenance  
requirements. Local code requirements  
may take precedence.  
UNIT PLACEMENT  
1
SettingThe Unit  
LowAmbient Operation — 20-60Ton  
models — Human Interface  
Recommendations  
A base or foundation is not required if  
the selected unit location is level and  
strong enough to support the units  
operating weight (see Weightssection  
of this catalog).  
4
Unit Location  
When the temperature outside is  
subzero, who wants to be out there  
monitoring or troubleshooting  
diagnostics? Because we understand a  
service technicians reluctance to do this,  
we recommend using a Remote Human  
Interface (RHI) panel. The service  
technician can troubleshoot and  
diagnose in the comfort of a mechanical  
room.  
a
General  
For a detailed discussion of base and  
foundation construction, refer to the  
Trane Reciprocating Refrigeration  
Manual. Manuals are available through  
the localTrane office.  
Unobstructed flow of condenser air is  
essential to maintain chiller capacity and  
operating efficiency.When determining  
unit placement, careful consideration  
must be given to assure a sufficient flow  
of air across the condenser heat transfer  
surface.Two detrimental conditions are  
possible and must be avoided: warm air  
recirculation and coil starvation.  
2
Isolation and Sound Emission  
The most effective form of isolation is to  
locate the unit away from any sound  
sensitive area. Structurally transmitted  
sound can be reduced by using spring  
isolators. Spring isolators are generally  
effective in reducing vibratory noise  
generated by compressors, and  
therefore, are recommended for sound  
sensitive installations. An acoustical  
engineer should always be consulted on  
critical applications.  
Warm air recirculation occurs when  
discharge air from the condenser fans is  
recycled back to the condenser coil inlet.  
Coil starvation occurs when free airflow  
to the condenser is restricted.  
Condenser coils and fan discharge must  
be kept free of snow or other  
obstructions to permit adequate airflow  
for satisfactory unit operation.  
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Application  
Considerations  
b
d
WATERTREATMENT  
ProvideVertical Clearance  
Provide Sufficient Unit-to-Unit Clearance  
Dirt, scale, products of corrosion, and  
other foreign material in the water will  
adversely affect heat transfer between  
the water and system components.  
Foreign matter in the chilled water  
system can also increase pressure drop  
and, consequently, reduce waterflow.  
Proper water treatment must be  
determined locally and depends on the  
type of system and local water  
Vertical condenser air discharge must be  
unobstructed.While it is difficult to  
predict the degree of warm air  
recirculation, a unit installed as shown  
below would have its capacity and  
efficiency significantly reduced —  
possibly to the degree of nuisance high  
head pressure trip outs. Performance  
data is based on free air discharge.  
Units should be separated from each  
other by sufficient distance to prevent  
warm air recirculation or coil starvation.  
Doubling the recommended single unit  
air-cooled chiller clearances will  
generally prove to be adequate.  
e
Walled Enclosure Installations  
characteristics.  
When the unit is placed in an enclosure  
or small depression, the top of the fans  
should be no lower than the top of the  
enclosure or depression. If they are,  
consideration should be given to ducting  
the top of the unit. Ducting individual  
fans, however, is not recommended.  
Such applications should always be  
reviewed with the localTrane sales  
engineer.  
Do not use salt or brackish water inTrane  
chillers. Use of either will lead to a  
shortened life.Trane encourages the  
employment of a reputable water  
treatment specialist, familiar with local  
water conditions, to assist in the  
establishment of a proper water  
treatment program.  
The capacities given in the Performance  
Datasection of this catalog are based  
on water with a fouling factor of 0.0001  
(in accordance with ARI 550/590-98). For  
capacities at other fouling factors, see  
Performance Adjustment Factors”  
section of this catalog.  
c
Provide Lateral Clearance  
The condenser coil inlet must not be  
obstructed. A unit installed closer than  
the minimum recommended distance to  
a wall or other vertical riser may  
experience a combination of coil  
starvation and warm air recirculation,  
resulting in unit capacity and efficiency  
reductions and possible excessive head  
pressures.  
EFFECT OFALTITUDE ON  
CAPACITY  
Chiller capacities given in the  
Performance Datasection are based  
upon application at sea level. At  
VOLTAGE  
elevations substantially above sea level,  
the decreased air density will decrease  
condenser capacity and, therefore, unit  
capacity and efficiency. The adjustment  
factors in the Performance Adjustment  
Factorssection of this catalog can be  
applied directly to the performance data  
to determine the units adjusted  
Nominal voltage is the nameplate rating  
voltage.The actual range of line voltages  
at which the equipment can satisfactorily  
operate are given below.  
The recommended lateral clearances are  
depicted in the dimensional data section.  
These are estimates and should be  
reviewed with the localTrane sales  
engineer at the jobsite.  
Voltage  
Utilization  
Range  
Rated  
Voltage  
200  
208-230  
230  
380  
400  
415  
460  
180-220  
187-253  
208-254  
342-418  
360-440  
374-456  
414-508  
520-635  
performance.  
575  
10  
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Application  
Considerations  
A flow switch used as a safety interlock is  
always recommended for CGA units.  
CONTROLS  
1
AMBIENT LIMITATIONS  
Trane chillers are designed for year-  
round applications in ambients from 0°F  
to 115°F. For operation below 0°F or  
above 115°F, contact the localTrane sales  
office. If hot gas bypass is used,  
operating ambients vary depending  
upon unit size (see the General Data”  
section of this catalog).  
The CGAF air-cooled chiller has a system  
which senses a loss of flow condition  
and shuts the unit down. A flow switch  
used as a safety interlock is required for  
CGAF units. A set of contacts is available  
for externally starting and stopping the  
pump.  
Temperature Controller  
In order to provide stable system  
operation and to prevent excessive  
compressor cycling, the temperature  
control sensor in all 20-60 ton chillers is  
located in the supply (outlet) solution.  
The temperature sensor in all 10 and 15  
ton chillers is located in the return (inlet)  
solution.This sensor cannot be  
WATERFLOW LIMITS  
1
The minimum water flow rates are given  
in the General Datasection of this  
catalog. Evaporator flow rates below the  
tabulated values will result in laminar  
flow causing scaling, stratification,  
freeze-up problems, and poor  
LowAmbient Operation  
relocated. Doing so would result in  
improper unit operation.  
Start-up and operation of Trane chillers at  
lower ambient temperatures require that  
sufficient head pressure be maintained  
for proper expansion valve operation.  
2
Anti-recycleTimer/Fixed-OffTimer  
All IntelliPak air-cooled chillers come  
standard with Anti-recycle/Fixed Off  
Timers.This function prevents rapid  
cycling of the compressors due to low  
load conditions or short water loops.  
Minimum operating ambient  
temperatures for standard unit selections  
and units with hot gas bypass are shown  
in the General Datasection of this  
catalog.  
temperature control.  
The maximum evaporator water flow  
rate is given in the General Data”  
section. Flow rates exceeding those  
listed will result in excessive tube  
erosion and very high pressure drop  
across the evaporator.  
3
Minimum ambient temperatures are  
based on still conditions (winds not  
exceeding five mph). Greater wind  
velocities will result in a drop in head  
pressure, therefore increasing the  
minimum starting and operating  
ambient temperatures.  
Pumpdown  
Trane recommends that constant water  
flow be maintained at all times through  
the evaporator. Because the  
temperature controller strictly senses  
temperature, variable flow through the  
evaporator may result in loss of control  
and localized freezing or nuisance low  
temperature cutouts. Consult your local  
Trane sales engineer if your application  
requires varying flows.  
CGAF air-cooled chillers will pumpdown,  
if function is enabled, when a refrigerant  
circuit is turned off. All of the refrigerant  
is pumped into the condenser. A  
solenoid valve provides a positive shut  
off between the condenser and the  
evaporator, allowing little or no  
Optional low ambient units use a  
electronic low ambient damper control  
(20-60 tons) or a variable speed fan  
motor (10-15 tons) arrangement to  
control condenser capacity by  
modulating condenser fans in response  
to refrigerant pressure.  
refrigerant migration to the evaporator  
during offperiods.  
4
Hot Gas Bypass  
TEMPERATURE LIMITS  
Hot gas bypass provides more stable  
leaving solution temperature control at  
light load conditions.The compressor  
runs continuously for a user-defined run  
time. Minimum starting and operating  
ambients with hot gas bypass are shown  
in the General Datasection of this  
catalog.The hot gas bypass reduces the  
unit head pressure, thereby increasing  
the minimum operating ambient.  
5
1
2
Leaving SolutionTemperature range  
HighAmbient Operation  
The minimum leaving solution  
Maximum cataloged ambient  
temperature set point is dependent on  
the number of capacity stages and the  
temperature difference across the  
evaporator.Water supply temperature  
set points less than these values result in  
suction temperatures at or below the  
freezing point of cold water.  
temperature operation of a standard  
Trane chiller is 115°F. Operation at design  
ambients above 115°F can result in  
excessive head pressures. For operation  
above 115°F, contact your localTrane  
sales office.  
Loss of Flow Protection  
A glycol solution is required for  
Loss of flow may result in evaporator  
freeze up. Full chilled solution flow must  
be maintained through the evaporator  
while compressors are operating.  
operation below the recommended  
minimum set points. Refer to the  
Performance Adjustment Factors”  
section of this catalog to determine the  
minimum leaving chilled solution set  
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Application  
Considerations  
point and adequate ethylene glycol  
concentration for safe operation.  
TYPICALWATER PIPING  
MULTIPLE UNIT OPERATION  
All building water piping must be  
flushed prior to making final connections  
to the chiller.To reduce heat loss and  
prevent condensation, insulation should  
be applied. Expansion tanks are also  
usually required so that chilled water  
volume changes can be accommodated.  
A typical piping arrangement is shown  
on the following page.  
Whenever two or more units are used  
on one chilled water loop,Trane  
recommends that their operation be  
controlled from a single control device,  
such as aTraneTracer system.The  
Stand-alonealternative is the DDC  
Chiller Sequencer.  
The maximum catalog leaving solution  
temperature from the evaporator is 65°F  
for outdoor ambients up to 115°F. High  
leaving water temperatures exceeding  
this may result in excessive suction  
temperatures and, therefore, inadequate  
motor cooling. For applications requiring  
high leaving water temperatures, contact  
your localTrane sales office for  
1
Series Operation  
WATERVOLUME IN THE LOOP  
(MINIMUM LOOPTIME)  
suggested alternatives.  
Some systems require large chilled  
water temperature drops (16 to 24°F). For  
those installations, two units with their  
evaporators in series are usually  
The maximum water temperature that  
can be circulated through an evaporator,  
when the unit is not operating, is  
108°F (100°F for CGA 8, 10, 12½ and 15  
ton chillers). The evaporator becomes  
thermal stress limited at these  
The volume of water in the loop is critical  
to the stability of system operation.The  
minimum required water volume is  
dependant on the chiller controller and  
system GPM.Water volumes less than  
the minimum required for the system  
can cause nuisance problems including  
low pressure trips and freezestat trips.  
The cause of these trips is ShortWater  
Loops.  
required. Control of the units should be  
from a common temperature sensor to  
prevent the separate unit controls from  
fighting one another and continually  
hunting. It is possible to control water  
temperature from the two individual unit  
controls, but a common temperature  
controller provides a positive method for  
preventing control overlap, more closely  
matching system load and simplifying  
compressor lead-lag capability.  
temperatures.  
2
SupplyWaterTemperature Drop  
The performance data forTrane chillers is  
based on a chilled water temperature  
drop of 10°F.Temperature drops outside  
this range will result in unit performance  
that differs from that cataloged. For  
performance data outside the 10°F range  
see the Performance Adjustment  
The minimum required water volume  
(as a function of loop time and GPM) is  
as follows:  
2
Parallel Operation  
CGAF: Minimum LoopVolume = GPM  
x 3 Minute LoopTime  
Some systems require more capacity or  
standby capability than a single machine  
can provide. For those installations, two  
units with their evaporators in a parallel  
configuration are typical.The only  
effective way of controlling two units in  
parallel is with a single temperature  
controller. For further information,  
please contactTrane Applications.  
Factorssection in this catalog. Chilled  
water temperature drops from 6 to 18°F  
(8 to 12°F in CGA units) may be used as  
long as minimum and maximum water  
temperature and minimum and  
CGA: Minimum LoopVolume = GPM  
X 5 Minute LoopTime  
If the loop piping does not contain  
enough volume, then a tank should be  
added so that the equations hold true.  
Generally, the more the loop volume the  
greater the system stability and  
controllability.  
maximum flow rates are not violated.  
Temperature drops outside 6 to 18°F (8  
to 12°F in CGA units) are beyond the  
optimum range for control and may  
adversely affect the controllers  
capability to maintain an acceptable  
supply water temperature range.  
EXAMPLE: CGAFC50 with 100 gpm.  
Minimum LoopVolume =  
GPM x 3 Minute LoopTime  
Further, temperature drops of less than  
6°F may result in inadequate refrigerant  
superheat. Sufficient superheat is always  
a primary concern in any direct  
expansion refrigeration 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, an evaporator  
runaround loop may be required.  
Minimum LoopVolume = 100 x 3  
300 Gallon Minimum LoopVolume  
If a chiller is attached to an on/off load  
such as a process load, it may be difficult  
for the controller to respond quickly  
enough to the very rapid change in  
return solution temperature.This  
condition may result in freezestat or low  
temperature trips. In this case, it may be  
necessary to add a mixing tank in the  
return line.  
12  
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Application  
Considerations  
10, 15Ton  
Figure AC-1 — Recommended Piping Components ForTypical Evaporator Installation  
Note: Provide shutoff valves in the evaporator inlet  
and outlet to facilitate water temperature sensor  
removal.  
See unit dimensional  
drawings for inlet  
and outlet locations.  
Detail A  
20–60Ton  
NIPPLE  
See Detail "A"  
Water  
Strainer  
(Factory  
Provided)  
(Factory Provided)  
NIPPLE  
Flow Switch  
(Factory Provided)  
Vent  
Grooved to threaded nipple  
w/coupling  
(Factory Supplied)  
Pressure  
Gauge  
Vent  
Vibration  
Eliminators  
Supply  
Line  
(Outlet)  
Shutoff  
Valves  
Balancing Valve  
Unions  
Return Line  
(Inlet)  
(See Note 1)  
Notes:  
1. Shutoff valves are required for evaporator servicing.  
2. Evaporator is shown for illustration purposes only.  
Water Inlet and Outlet locations depend on unit size.  
3. Strainer has threaded inlet/outlet.  
4. Tee for Flow Switch to be field provided.  
Thermometers  
Gate Valves  
(See Note 2)  
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Selection  
Procedure  
The chiller capacity tables presented in  
the Performance Datasection cover  
the most frequently encountered leaving  
water temperatures.The tables reflect a  
10°F temperature drop through the  
evaporator. For temperature drops other  
than 10°F, fouling factors other than  
0.0001 (in accordance with ARI Standard  
550/590-98) and for units operating at  
altitudes that are significantly greater  
than sea level, refer to the Performance  
Adjustment Factorssection and apply  
the appropriate adjustment factors. For  
chilled brine selections, refer to the  
Performance Adjustment Factors”  
section for ethylene glycol adjustment  
factors.  
System Power Input = 70.2 KW  
Unit EER = 9.8  
1
To calculate the required chilled  
waterflow rate we use the formula:  
MINIMUM LEAVING CHILLEDWATER  
TEMPERATURE SET POINTS  
GPM = Tons x 24  
T  
The minimum leaving chilled water  
temperature set point for water is listed  
in the following table:  
From the 60 ton unit table in the  
Performance Datasection of this  
catalog, a CGAF-C60 at the given  
conditions will produce 57.3 tons with a  
system power input of 70.2 kw and a unit  
EER of 9.8  
Table SP-1 — Minimum Leaving Chilled  
WaterTemperature Set points forWater1  
Evaporator  
Minimum Leaving Chilled Water  
Temperature  
Difference  
Temperature Set point (°F)  
GPM = 56.8 Tons x 24 = 137.5  
10°F  
CGAF-  
CGAF-  
(Degrees F)  
C20,C25,C30  
C40,C50,C60  
2
6
8
40  
41  
42  
43  
44  
45  
46  
39  
39  
40  
40  
41  
41  
42  
To determine the evaporator water  
pressure drop we use the flow rate  
(gpm) and the evaporator water  
pressure drop curves found in the  
Performance Adjustment Factors”  
section of this catalog. Entering the curve  
at 137.5 gpm, the pressure drop for a  
nominal 60 ton evaporator is 16.5 feet.  
10  
12  
14  
16  
18  
To select aTrane air-cooled chiller, the  
following information is required:  
1
1These are for units without HGBP, for units with  
HGBP, add 2°F to each minimum temperature in the  
table.  
Design system load (in tons of  
refrigeration).  
2
For those applications requiring lower  
set points, a glycol solution must be  
used. The minimum leaving chilled  
water set point for a glycol solution can  
be calculated using the following  
equation:  
3
Design leaving chilled water  
temperature.  
For selection of chilled brine units or  
applications where the altitude is  
significantly greater than sea level or the  
temperature drop is different than 10°F,  
the performance adjustment factors  
should be applied at this point.  
3
Design chilled water temperature drop.  
4
LCWS (Minimum) = GFT + 5 + T  
(Evap)  
Design ambient temperature.  
For example:  
# of stages of capacity.  
5
Corrected Capacity = Capacity  
(unadjusted) x Appropriate Adjustment  
Factor  
LCWS = Leaving ChilledWater  
Set point (F)  
Evaporator fouling factor.  
GFT  
=
Glycol Freezing  
Temperature (F)  
Evaporator chilled water flow rate can be  
determined by using the following  
formula:  
Tons x 24  
GPM = Temperature Drop (Degrees F)  
Corrected Flow Rate = Flow Rate  
(unadjusted) x Appropriate Adjustment  
Factor  
T  
=
DeltaT (the difference  
between the temperature  
of the water entering and  
leaving the evaporator)  
Corrected KW Input = KW Input  
(unadjusted) x Appropriate Adjustment  
Factor  
Solution freezing point temperatures can  
be found in the Performance Data  
section and the number of stages of  
capacity in the General Data section. For  
selection assistance, refer to the CGA  
Chiller Selection program.  
NOTE: Flow rate must fall within the  
limits specified in the General Data”  
section of this catalog.  
4
Verify that the selection is within design  
guidelines.The final unit selection is:  
SELECTION EXAMPLE  
Given:  
Quantity (1) CGAF-C60  
Cooling Capacity = 57.3Tons  
Required System Load = 53 tons  
Entering/Leaving ChilledWater  
Temperatures = 55/45°F  
Leaving ChilledWaterTemperature  
(LCWT) = 45°F  
ChilledWaterflow Rate (GPM) = 137.5  
ChilledWaterTemperature Drop = 10°F  
Design AmbientTemperature = 95°F  
Evaporator Fouling Factor = 0.0001  
EvaporatorWater Pressure Drop = 16.5  
ft.  
14  
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Model  
Number  
Description  
10, 15Tons  
CGA 120  
B
3
00  
B A  
123 456  
7
8
9,10 11 12  
DIGIT 1,2,3 — UnitType  
DIGIT 8 Voltage  
DIGIT 10 — Leaving Solution Set point  
CGA = Air-Cooled Cold Generator™  
1 = 208-230/60/1  
(Available — CGA120 Only)  
3 = 208-230/60/3  
4 = 460/60/3  
W = 575/60/3  
0 =Standard Expansion Valve  
40-60°F Leaving Water  
(CGA100 & CGA120 models)  
20-60°F Leaving Solution  
(CGA150 & CGA180 Models)  
V = Nonstandard Expansion Valve  
20-39°F Leaving Solution  
DIGITS 4,5,6 — Nominal Capacity (MBh)  
100 = 8 Tons (50 Hz Model only)  
120 = 10 Tons (60 Hz Model only)  
150 = 12.5 Tons (50 Hz Model Only)  
180 = 15 Tons (60 Hz Model Only)  
D = 380-415/50/3  
(CGA100 & CGA120 models)  
DIGIT 9 — Factory Installed Options  
0 = No Options  
H = Hot Gas Bypass  
C = Black Epoxy Coil Standard Deviation  
K = Hot Gas Bypass & Black Epoxy Coil  
S = Special  
DIGIT 7 — Major Design Change  
DIGIT 11 — Minor Design Change  
(Number of Refrigerant Circuits/Number of  
Compressors)  
B = 2 Refrigerant Circuits/2 Compressors  
A = First, B = Second, etc.  
DIGIT 12 —Service Digit  
20–60Tons  
CG  
12  
A
3
F
4
C40  
567  
4
8
A
9
A
A
1
A
A
A
A
A
0
0
0
0
0
0
0
01  
10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25  
J = Generic B A S Module  
(0-5 v Input, Binary Output)  
M = Remote Human Interface  
N = Generic B A S Module  
(0-10 v Analog)  
P = Remote Set point Potentiometer  
Q = Zone Sensor — Chilled Solution  
Reset  
V = Copper Fin Condenser Coils  
W= Electronic Low Ambient Damper(s)  
Y = Inter-Processor Communication  
Bridge (IPCB)  
DIGIT 1,2 — Unit Model  
CG = IntelliPakAir-Cooled Chiller  
DIGIT 10 — Design Sequence  
A = First  
B = Second  
Etc...  
DIGIT 3 — UnitType  
A = Air-Cooled Condensing  
DIGIT 11 — Leaving Solution Set point  
DIGIT 4 — Development Sequence  
A = 40-50 Deg. F w/o Ice Machine  
B = 30-39 Deg. F w/o Ice Machine  
D = 51-65 Deg. F w/o Ice Machine  
E = 20-29 Deg. F w/o Ice Machine  
1 = 40-50 Deg. F with Ice Machine  
2 = 30-39 Deg. F with Ice Machine  
3 = 51-65 Deg. F with Ice Machine  
4 = 20-29 Deg. F with Ice Machine  
S = Special  
A, B, C, etc.  
DIGIT 5,6,7 — Nominal Capacity  
C20 = 20 Tons  
C25 = 25 Tons  
C30 = 30 Tons  
C40 = 40 Tons  
C50 = 50 Tons  
C60 = 60 Tons  
9 = Packed Stock Unit  
The following items can be ordered for  
separate shipment —  
Unit Isolators Neoprene*  
Unit Isolators Spring*  
Electronic Low Ambient Damper(s)  
Trane Communication Interface Module  
(TCI)  
Generic B A S Module (GBAS)  
(0-5 volt Analog Input/Binary Output)  
Generic B A S Module (GBAS)  
(0-10 volt Analog Input/Output)  
Remote Human Interface  
Remote Set point Potentiometer  
Zone Sensor (Chilled Solution Reset)  
Inter-Processor Communication Bridge  
(IPCB)  
DIGIT 12 AgencyApproval  
1 = UL/CSA  
0 = None  
DIGIT 8 Voltage & Start Characteristics  
E = 200/60/3 XL  
F = 230/60/3 XL  
4 = 460/60/3 XL  
5 = 575/60/3 XL  
9 = 380/50/3 XL  
D = 415/50/3 XL  
S = Special  
DIGITS 13-25 — Miscellaneous  
A = Trane Communication Interface  
(TCI) Module  
B = No Unit Heat Tape (50 Hz Only)  
C = Compressor Current Sensing (CSM)  
D = Unit Mounted Disconnect Switch  
Nonfused  
E = Unit Isolators Neoprene  
F = Unit Isolators Spring  
G = Superheat/Sub-Cooling  
H = Hot Gas Bypass  
DIGIT 9 — Factory Input  
A = Standard  
*Unit size must be specified when ordering  
this item.  
1. The service digit for each model number contains 25  
digits; all 25 digits must be referenced.  
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General Data  
Table GD-1 — General Data — 10–60Ton Units  
10Ton  
15Ton  
20Ton  
25Ton  
30Ton  
40Ton  
50Ton  
60Ton  
Model Number  
CGA120  
CGA180 CGAF-C20  
CGAF-C25  
CGAF-C30  
CGAF-C40  
CGAF-C50  
CGAF-C60  
Compressor Data  
Model  
Quantity  
Scroll  
2
5
Scroll  
2
7.5  
Scroll  
2
10  
Scroll  
1/1  
10/15  
Scroll  
2
15  
Scroll  
4
10  
Scroll  
2/2  
10/15  
Scroll  
4
15  
NominalTons per Compressor  
Evaporator  
Nominal Size (Tons)  
Water Storage Capacity (Gallons)  
Min. Flow Rate (GPM)  
Max. Flow Rate (GPM)  
10  
1.4  
12.0  
36.0  
100  
15  
1.5  
18.0  
54.0  
100  
20  
2.2  
24  
72  
108  
25  
2.7  
30  
90  
108  
30  
3.2  
36  
108  
108  
40  
4.1  
48  
144  
108  
50  
5.0  
60  
180  
108  
60  
7.4  
72  
216  
108  
²
³
Max EWT At Start-Up — Deg F  
Condenser  
Nominal Size (Tons)  
Number of Coils  
Coil Size (ea., Inches)4  
Number of Rows  
Subcooler Size (ea., Inches)  
Condenser Fans  
Quantity  
10  
1
28 x 108  
2
15  
2
28 x 83  
2
20  
1
61 x 71  
3
25  
30  
2
56 x 70  
3
40  
2
56 x 70  
3
50  
2
57 x 96  
3
60  
2
57 x 96  
4
2
45 x 71/35 x 71  
3
4 x 108  
4 x 83  
10 x 71  
14 x 71  
9 x 70  
9 x 70  
9 x 96  
9 x 96  
1
2
2
3
4
4
6
6
Diameter (Inches)  
CFM (Total)  
Nominal RPM  
Tip Speed (Ft/Min)  
Motor HP (ea.)  
28  
26  
26  
26  
26  
26  
26  
26  
8,120  
1100  
8060  
1.0  
11,600  
1100  
7490  
1/2  
15,000  
1140  
7750  
1.0  
21,650  
1140  
7750  
1.0  
29,200  
1140  
7750  
1.0  
29,200  
1140  
7750  
1.0  
42,300  
1140  
7750  
1.0  
40,700  
1140  
7750  
1.0  
DriveType  
Direct  
Direct  
Direct  
Direct  
Direct  
Direct  
Direct  
Direct  
Minimum Outdoor AirTemperature Permissible  
For Mechanical Cooling¹  
Standard Ambient Control Unit (°F)  
Standard Ambient w/Hot Gas Bypass (°F)  
Low Ambient Option (°F)  
50  
60  
0
50  
60  
0
30  
40  
0
30  
40  
0
30  
40  
0
30  
40  
0
30  
40  
0
30  
40  
0
Low Ambient Control w/Hot Gas Bypass(°F) 15  
15  
10  
10  
10  
10  
10  
10  
General Unit  
Unload Steps  
No. of Independent Refrig. Circuits  
Refrigerant Charge (lbs. R22/Circuit)  
Oil Charge (Pints/Circuit)  
100-50  
2
8.25  
4.1  
100-50  
2
11.5  
7.5  
100-50  
1
40.5  
17.0  
100-60-40  
1
54.0  
100-50  
1
72.0  
27.6  
100-75-50-25 100-80-60-30 100-75-50-25  
2
2
2
38.0  
17.0  
47.0  
22.3  
67.0  
27.6  
22.3  
*Unloading steps depend upon which compressor is lead compressor.  
Notes:  
1. Minimum start-up ambient based on unit at minimum step of unloading and a 5 mph wind across the condenser.  
2. Includes piping internal to chiller.  
3. At 95°F ambient.  
4. Does not include subcooling portion of coil.  
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Performance  
Adjustment  
Factors  
Table PAF-1— Performance Adjustment Factors (10 & 15Ton Units Only)  
Chilled  
Water  
T  
6
8
10  
Altitude  
CAP  
Fouling  
Factor  
Sea Level  
GPM  
1.66  
1.25  
1.00  
2,000 Feet  
GPM  
1.63  
1.22  
0.98  
4,000 Feet  
GPM  
1.59  
1.19  
0.95  
6,000 Feet  
GPM  
1.54  
1.16  
0.92  
CAP  
1.00  
1.00  
1.00  
1.00  
0.99  
KW  
1.00  
1.00  
1.00  
1.00  
1.00  
CAP  
0.98  
0.98  
0.98  
0.98  
0.97  
KW  
1.01  
1.01  
1.01  
1.01  
1.01  
KW  
1.02  
1.02  
1.02  
1.02  
1.02  
CAP  
0.93  
0.93  
0.92  
0.92  
0.92  
KW  
1.05  
1.05  
1.04  
1.04  
1.04  
0.95  
0.96  
0.95  
0.95  
0.95  
0.00025  
12  
14  
0.83  
0.71  
0.81  
0.59  
0.79  
0.68  
0.77  
0.66  
6
8
10  
12  
14  
0.96  
0.96  
0.96  
0.96  
0.96  
1.60  
1.20  
0.96  
0.80  
0.68  
0.98  
0.98  
0.98  
0.98  
0.98  
0.94  
0.94  
0.94  
0.94  
0.94  
1.57  
1.18  
0.94  
0.79  
0.67  
0.99  
0.99  
0.99  
0.99  
0.99  
0.92  
0.92  
0.92  
0.92  
0.92  
1.53  
1.15  
0.92  
0.77  
0.65  
1.00  
1.00  
1.00  
1.00  
1.00  
0.90  
0.90  
0.89  
0.89  
0.89  
1.49  
1.12  
0.89  
0.74  
0.66  
1.01  
1.01  
1.01  
1.01  
1.01  
0.001  
0.002  
8
0.93  
0.90  
0.90  
0.90  
1.15  
0.90  
0.75  
0.64  
0.95  
0.94  
0.94  
0.94  
0.91  
0.89  
0.88  
0.87  
1.13  
0.88  
0.73  
0.63  
0.96  
0.95  
0.95  
0.95  
0.88  
0.87  
0.86  
0.86  
1.10  
0.87  
0.72  
0.82  
0.98  
0.96  
0.95  
0.95  
0.86  
0.85  
0.84  
0.84  
1.07  
0.84  
0.70  
0.60  
0.99  
0.98  
0.98  
0.98  
10  
12  
14  
*Standard chilled water is 8-12 for CGA120-180.  
Standard chilled water is 6-16 for CGAF 20-60.  
Table PAF-2— PerformanceAdjustment Factors (20-60Ton Units Only)  
Chilled  
Altitude  
Fouling  
Factor  
Water  
T  
6
Sea Level  
GPM  
2,000 Feet  
GPM  
4,000 Feet  
GPM  
6,000 Feet  
GPM  
CAP  
KW  
CAP  
KW  
CAP  
KW  
CAP  
KW  
0.987  
1.650  
0.993  
0.967  
1.640  
1.003  
0.952  
1.620  
1.019  
0.932  
1.570  
1.029  
8
0.993  
1.000  
1.007  
1.013  
1.020  
1.250  
1.000  
0.820  
0.710  
0.640  
0.997  
1.000  
1.003  
1.007  
1.010  
0.973  
0.980  
0.987  
0.993  
1.000  
1.240  
0.990  
0.810  
0.700  
0.630  
1.007  
1.010  
1.013  
1.017  
1.020  
0.956  
0.960  
0.966  
0.972  
0.980  
1.220  
0.970  
0.800  
0.680  
0.620  
1.025  
1.030  
1.035  
1.038  
1.040  
0.935  
0.940  
0.945  
0.952  
0.960  
1.190  
0.940  
0.780  
0.660  
0.600  
1.035  
1.040  
1.045  
1.048  
1.050  
0.00025  
10  
12  
14  
16  
6
8
10  
12  
14  
16  
0.957  
0.964  
0.970  
0.976  
0.982  
0.989  
1.615  
1.215  
0.965  
0.785  
0.675  
0.620  
0.979  
0.982  
0.985  
0.989  
0.993  
0.996  
0.953  
0.959  
0.964  
0.966  
0.968  
0.970  
1.600  
1.210  
0.960  
0.790  
0.670  
0.600  
0.989  
0.992  
0.995  
0.998  
1.001  
1.004  
0.931  
0.937  
0.943  
0.945  
0.947  
0.949  
1.570  
1.180  
0.940  
0.770  
0.650  
0.590  
0.990  
0.994  
0.998  
1.007  
1.016  
1.025  
0.914  
0.920  
0.926  
0.926  
0.927  
0.927  
1.540  
1.170  
0.920  
0.760  
0.640  
0.580  
1.002  
1.006  
1.009  
1.018  
1.027  
1.036  
0.001  
6
8
10  
12  
14  
16  
0.916  
0.923  
0.930  
0.934  
0.938  
0.948  
1.565  
1.245  
0.925  
0.810  
0.695  
0.580  
0.951  
0.958  
0.965  
0.969  
0.973  
0.976  
0.913  
0.919  
0.925  
0.927  
0.929  
0.931  
1.550  
1.170  
0.920  
0.750  
0.640  
0.580  
0.969  
0.972  
0.975  
0.978  
0.981  
0.983  
0.896  
0.898  
0.900  
0.908  
0.916  
0.924  
1.490  
1.110  
0.890  
0.730  
0.620  
0.580  
0.975  
0.979  
0.982  
0.986  
0.989  
0.993  
0.871  
0.874  
0.877  
0.885  
0.894  
0.902  
1.450  
1.080  
0.880  
0.720  
0.610  
0.570  
0.984  
0.987  
0.989  
0.993  
0.997  
1.001  
0.002  
CG-PRC007-EN  
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Performance  
Adjustment  
Factors  
Chart PAF-1 — EvaporatorWater Pressure Drop 10 to 60 TonAir-Cooled Chillers  
Flow (L/S)  
40  
30  
20  
10  
9
8
7
6
5
4
3
2
1
10  
20  
30  
40  
50  
60  
70 80 90 100  
200  
300  
Flow (GPM)  
18  
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Performance  
Adjustment  
Factors  
Chart PAF-2— Ethylene Glycol Performance Factors  
Chart PAF-3— Propylene Glycol Performance Factors  
CG-PRC007-EN  
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Performance  
Adjustment  
Factors  
Chart PAF-4— Ethylene Glycol and Propylene Glycol Performance Factors  
20  
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Performance  
(10–15Ton)  
Data — 60 HZ Full Load  
Table PD-1 — 10 Ton — CGA 1205  
Entering Condenser Air Temperature (Degree F)  
75.0  
85.0  
95.0  
105.0  
System  
KW  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
(Tons)  
5.1  
5.7  
6.3  
6.9  
7.7  
8.0  
8.3  
8.4  
8.6  
8.9  
9.2  
10.0  
10.8  
Glycol  
(Tons)  
6.0  
6.6  
7.3  
8.0  
8.9  
9.2  
9.5  
9.7  
9.8  
10.2  
10.5  
11.4  
12.4  
KW  
7.6  
7.8  
8.0  
8.2  
8.4  
8.5  
8.6  
8.6  
8.7  
8.8  
8.9  
9.1  
9.4  
EER  
9.4  
(Tons)  
5.6  
6.3  
6.9  
7.7  
8.5  
8.8  
9.1  
9.3  
9.4  
9.8  
10.1  
11.0  
11.9  
KW  
8.5  
8.6  
8.8  
9.0  
9.3  
9.4  
9.5  
9.5  
9.6  
9.7  
9.8  
10.0  
10.3  
EER (Tons)  
KW  
9.4  
9.6  
9.8  
EER  
6.9  
7.5  
8.1  
8.8  
EER (Tons)  
KW  
11.5  
11.8  
12.0  
12.3  
12.6  
12.7  
12.8  
12.9  
12.9  
13.0  
13.2  
13.5  
13.8  
EER  
5.1  
5.5  
6.0  
6.4  
6.9  
7.1  
7.3  
7.4  
7.5  
7.7  
7.9  
8.4  
8.9  
28  
24  
19  
14  
0
0
0
0
0
0
0
0
0
8.0  
5.4  
6.0  
6.6  
7.3  
8.1  
8.4  
8.7  
8.9  
9.0  
9.3  
9.7  
10.5  
11.4  
10.4  
10.6  
10.8  
11.1  
11.4  
11.5  
11.6  
11.6  
11.7  
11.8  
11.9  
12.2  
12.5  
5.9  
6.4  
7.0  
7.5  
8.1  
8.3  
8.6  
8.7  
8.8  
9.0  
9.3  
9.8  
10.4  
4.9  
5.4  
6.0  
6.6  
7.3  
7.5  
7.8  
7.9  
8.1  
8.4  
8.7  
9.4  
10.2  
10.2  
11.0  
11.8  
12.6  
13.0  
13.3  
13.4  
13.6  
13.9  
14.2  
15.0  
15.8  
8.7  
9.4  
10.2  
11.0  
11.3  
11.6  
11.7  
11.8  
12.1  
12.4  
13.2  
13.9  
10.0  
10.3  
10.4  
10.5  
10.5  
10.6  
10.7  
10.8  
11.0  
11.3  
9.5  
9.7  
10.0  
10.1  
10.3  
10.5  
10.8  
11.4  
12.1  
Table PD-2 — 15Ton — CGA 180  
Entering Condenser Air Temperature (Degree F)  
95.0  
75.0  
85.0  
105.0  
System  
KW  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
(Tons)  
7.9  
8.7  
9.7  
10.7  
11.9  
12.3  
12.8  
13.0  
13.3  
13.8  
14.3  
15.5  
16.9  
Glycol  
(Tons)  
9.3  
KW  
12.2  
12.5  
12.7  
13.0  
13.3  
13.5  
13.6  
13.7  
13.7  
13.9  
14.0  
14.4  
14.8  
EER  
9.1  
9.9  
(Tons)  
8.9  
KW  
13.6  
13.9  
14.2  
14.5  
14.9  
15.0  
15.1  
15.2  
15.3  
15.4  
15.6  
16.0  
16.4  
EER (Tons)  
KW  
15.3  
15.6  
15.9  
16.2  
16.6  
16.8  
16.9  
17.0  
17.1  
17.2  
17.4  
17.8  
18.3  
EER  
6.6  
7.2  
7.8  
8.4  
9.1  
9.4  
9.6  
9.7  
EER (Tons)  
KW  
19.3  
19.7  
20.0  
20.4  
20.9  
21.1  
21.3  
21.3  
21.4  
21.6  
21.8  
22.3  
22.8  
EER  
4.5  
5.0  
5.4  
5.9  
6.4  
6.6  
6.8  
6.9  
7.0  
7.2  
7.4  
7.9  
8.4  
28  
24  
19  
14  
0
0
0
0
0
0
0
0
0
7.8  
8.5  
9.2  
9.9  
10.7  
11.0  
11.3  
11.5  
11.6  
11.9  
12.2  
12.9  
13.7  
8.4  
9.3  
17.2  
17.5  
17.8  
18.2  
18.6  
18.8  
19.0  
19.0  
19.1  
19.3  
19.5  
19.9  
20.4  
5.5  
6.0  
6.5  
7.1  
7.7  
7.9  
8.1  
8.2  
8.3  
8.6  
8.8  
9.3  
9.9  
7.3  
8.1  
9.0  
10.3  
11.4  
12.6  
13.9  
14.4  
15.0  
15.2  
15.5  
16.0  
16.6  
18.0  
19.5  
9.8  
10.7  
11.6  
12.5  
12.9  
13.2  
13.4  
13.5  
13.9  
14.2  
15.1  
15.9  
10.9  
12.0  
13.3  
13.8  
14.3  
14.5  
14.8  
15.3  
15.9  
17.2  
18.7  
10.3  
11.4  
12.6  
13.1  
13.6  
13.8  
14.1  
14.6  
15.1  
16.4  
17.8  
10.0  
11.1  
11.6  
12.0  
12.2  
12.5  
12.9  
13.4  
14.6  
15.9  
9.9  
10.1  
10.4  
11.0  
11.7  
Notes:  
1
2
3
Based on the ethylene glycol concentration shown, a 10° delta T, a fouling factor of 0.0001 and sea level pressure.  
Performance must be corrected for glycol concentrations other than those showing, delta T other than 10°, fouling factor and altitude.  
Ethylene glycol is to be added and appropriate performance corrections are to be made for all leaving solution temperatures less than 40°F.  
4. Use the following equation to calculate COP values at other than ARI conditions, COP = EER x .2928.  
5. Single Phase CGA120B1 model should be re-rated at all operating points using the following factors: 1.08 x KW , 0.92 x EER  
CG-PRC007-EN  
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Performance  
(20–25Ton)  
Data — 60 HZ Full Load  
Table PD-3 — 20Ton — CGAF-C20  
Entering Condenser Air Temperature (Degree F)  
75.0  
85.0  
95.0  
105.0  
Capacity  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
System  
KW  
Glycol  
(Tons)  
12.0  
13.4  
14.8  
16.4  
18.1  
18.8  
19.5  
19.8  
20.1  
20.8  
21.5  
23.3  
25.2  
KW  
15.6  
16.0  
16.4  
16.9  
17.4  
17.6  
17.8  
17.9  
18.0  
18.2  
18.4  
18.9  
19.4  
EER  
9.2  
(Tons)  
11.4  
12.7  
14.1  
15.6  
17.3  
18.0  
18.6  
18.9  
19.2  
19.9  
20.6  
22.3  
24.0  
KW  
17.3  
17.7  
18.1  
18.6  
19.2  
19.4  
19.6  
19.7  
19.8  
20.0  
20.2  
20.8  
21.4  
EER (Tons)  
KW  
19.2  
19.6  
20.1  
20.6  
21.2  
21.4  
21.6  
21.7  
21.8  
22.1  
22.3  
22.9  
23.5  
EER  
6.8  
7.4  
8.0  
8.6  
9.3  
9.6  
9.8  
9.9  
10.0  
10.3  
10.5  
11.1  
11.7  
(Tons)  
10.1  
11.3  
12.6  
14.0  
15.5  
16.1  
16.7  
17.0  
17.3  
17.9  
18.5  
20.0  
21.6  
EER (Tons)  
KW  
23.8  
24.3  
24.9  
25.4  
26.1  
26.3  
26.5  
26.7  
26.8  
27.0  
27.3  
27.9  
28.6  
EER  
4.8  
5.2  
5.7  
6.2  
6.7  
6.9  
7.1  
7.1  
7.2  
7.4  
7.6  
8.1  
8.5  
28  
24  
19  
14  
0
0
0
0
0
0
0
0
0
8.0  
10.8  
12.1  
13.4  
14.8  
16.4  
17.0  
17.7  
18.0  
18.3  
18.9  
19.5  
21.2  
22.9  
21.3  
21.8  
22.3  
22.9  
23.5  
23.7  
24.0  
24.1  
24.2  
24.4  
24.7  
25.3  
26.0  
5.7  
6.2  
6.8  
7.3  
7.9  
8.1  
8.3  
8.5  
8.6  
8.8  
9.0  
9.5  
10.0  
9.4  
10.0  
10.8  
11.6  
12.5  
12.8  
13.2  
13.3  
13.5  
13.8  
14.1  
14.8  
15.5  
8.6  
9.4  
10.6  
11.8  
13.1  
14.5  
15.1  
15.6  
15.9  
16.2  
16.7  
17.3  
18.8  
20.3  
10.1  
10.9  
11.1  
11.4  
11.5  
11.7  
11.9  
12.2  
12.9  
13.5  
Table PD-4 — 25Ton — CGAF-C25  
Entering Condenser Air Temperature (Degree F)  
95.0  
75.0  
85.0  
Capacity System  
105.0  
System  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity  
(Tons)  
13.2  
14.7  
16.4  
18.2  
20.3  
21.1  
21.9  
22.3  
22.7  
23.5  
24.3  
26.4  
28.6  
Glycol (Tons)  
KW  
20.9  
21.4  
21.9  
22.5  
23.1  
23.3  
23.6  
23.7  
23.8  
24.1  
24.3  
25.0  
25.6  
EER  
8.9  
9.7  
(Tons)  
14.8  
16.5  
18.4  
20.4  
22.6  
23.5  
24.3  
24.7  
25.2  
26.0  
26.9  
29.2  
31.6  
KW  
22.9  
23.4  
24.0  
24.6  
25.3  
25.5  
25.8  
25.9  
26.0  
26.3  
26.6  
27.3  
28.0  
EER (Tons)  
KW  
25.2  
25.8  
26.4  
27.0  
27.8  
28.0  
28.3  
28.4  
28.6  
28.9  
29.2  
29.9  
30.7  
EER  
6.7  
7.3  
7.9  
8.6  
9.3  
9.5  
9.8  
9.9  
10.0  
10.3  
10.6  
11.2  
11.8  
KW  
27.8  
28.4  
29.1  
29.8  
30.6  
30.8  
31.1  
31.3  
31.4  
31.7  
32.0  
32.8  
33.7  
EER (Tons)  
KW  
30.7  
31.4  
32.1  
32.8  
33.7  
34.0  
34.3  
34.4  
34.6  
34.9  
35.2  
36.1  
36.9  
EER  
4.8  
5.3  
5.8  
6.3  
6.8  
7.0  
7.2  
7.3  
7.4  
7.6  
7.8  
8.3  
8.8  
28  
24  
19  
14  
0
15.6  
17.4  
19.3  
21.3  
23.7  
24.6  
25.4  
25.9  
26.3  
27.3  
28.2  
30.6  
33.0  
7.8  
8.5  
9.2  
14.0  
15.7  
17.4  
19.3  
21.5  
22.3  
23.1  
23.5  
23.9  
24.8  
25.6  
27.8  
30.1  
5.7  
6.2  
6.8  
7.4  
8.0  
8.2  
8.4  
8.5  
8.7  
8.9  
9.1  
9.6  
10.2  
12.3  
13.8  
15.4  
17.1  
19.1  
19.8  
20.6  
21.0  
21.3  
22.1  
22.9  
24.9  
27.0  
10.6  
11.4  
12.3  
12.6  
13.0  
13.1  
13.3  
13.6  
13.9  
14.7  
15.5  
9.9  
10.7  
11.0  
11.3  
11.5  
11.6  
11.9  
12.2  
12.9  
13.5  
0
0
0
0
0
0
0
0
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors,  
condenser fans and control power.  
5. Ratings based on evaporator drop of 10°F.  
6. Rated in accordance with ARI Standard 550/590-98.  
7. Minimum recommended ethylene glycol percentage used for leaving water temperatures below 40°F.  
8. Use the following equation to calculate COP values at other than ARI conditions, COP = EER x .2928.  
22  
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Performance  
(30–40Ton)  
Data — 60 HZ Full Load  
Table PD-5— 30Ton — CGAF-C30  
Entering Condenser Air Temperature (Degree F)  
75.0  
85.0  
95.0  
105.0  
Capacity  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
System  
KW  
Glycol (Tons)  
KW  
25.7  
26.3  
26.8  
27.4  
28.0  
28.3  
28.5  
28.6  
28.8  
29.0  
29.3  
29.9  
30.6  
EER  
8.8  
9.6  
(Tons)  
17.9  
20.0  
22.2  
24.6  
27.4  
28.4  
29.5  
30.0  
30.5  
31.6  
32.7  
35.5  
38.4  
KW  
28.1  
28.7  
29.3  
29.9  
30.7  
30.9  
31.2  
31.3  
31.5  
31.8  
32.0  
32.8  
33.5  
EER (Tons)  
KW  
30.9  
31.5  
32.2  
32.9  
33.7  
34.0  
34.3  
34.4  
34.6  
34.9  
35.2  
36.0  
36.8  
EER  
6.6  
7.2  
7.9  
8.5  
9.3  
9.5  
9.8  
9.9  
10.1  
10.3  
10.6  
11.3  
11.9  
(Tons)  
15.9  
17.8  
19.9  
22.1  
24.7  
25.6  
26.6  
27.0  
27.5  
28.5  
29.5  
32.1  
34.8  
EER (Tons)  
KW  
37.6  
38.4  
39.2  
40.0  
40.9  
41.3  
41.6  
41.8  
41.9  
42.3  
42.6  
43.5  
44.5  
EER  
4.7  
5.2  
5.7  
6.2  
6.8  
7.0  
7.2  
7.3  
7.4  
7.6  
7.8  
8.4  
8.9  
28  
24  
19  
14  
0
18.8  
21.0  
23.3  
25.8  
28.7  
29.7  
30.8  
31.4  
31.9  
33.0  
34.1  
37.0  
40.1  
7.6  
8.4  
16.9  
18.9  
21.1  
23.4  
26.1  
27.0  
28.0  
28.5  
29.0  
30.1  
31.1  
33.8  
36.6  
34.0  
34.8  
35.5  
36.2  
37.1  
37.4  
37.7  
37.9  
38.1  
38.4  
38.7  
39.6  
40.4  
5.6  
6.2  
6.7  
7.3  
8.0  
8.2  
8.4  
8.6  
8.7  
8.9  
9.1  
9.7  
10.3  
14.9  
16.7  
18.7  
20.8  
23.2  
24.1  
25.0  
25.5  
26.0  
26.9  
27.9  
30.3  
32.9  
10.4  
11.3  
12.3  
12.6  
13.0  
13.1  
13.3  
13.6  
14.0  
14.8  
15.7  
9.1  
9.9  
10.7  
11.0  
11.3  
11.5  
11.6  
11.9  
12.2  
13.0  
13.7  
0
0
0
0
0
0
0
0
Table PD-6 — 40Ton — CGAF-C40  
Entering Condenser Air Temperature (Degree F)  
95.0  
75.0  
85.0  
105.0  
System  
KW  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
(Tons)  
19.5  
21.8  
24.4  
27.1  
30.2  
31.4  
32.5  
33.1  
33.7  
34.9  
36.1  
39.2  
42.4  
Glycol (Tons)  
KW  
30.9  
31.7  
32.5  
33.3  
34.3  
34.7  
35.0  
35.2  
35.4  
35.8  
36.2  
37.2  
38.2  
EER  
8.9  
9.7  
(Tons)  
21.9  
24.5  
27.3  
30.3  
33.8  
35.0  
36.3  
36.9  
37.6  
38.9  
40.2  
43.6  
47.1  
KW  
34.1  
35.0  
35.8  
36.7  
37.8  
38.2  
38.6  
38.8  
39.0  
39.4  
39.8  
40.9  
42.0  
EER (Tons)  
KW  
37.9  
38.8  
39.7  
40.7  
41.9  
42.3  
42.7  
42.9  
43.1  
43.5  
44.0  
45.1  
46.3  
EER  
6.6  
7.2  
7.8  
8.5  
9.2  
9.4  
9.7  
9.8  
EER (Tons)  
KW  
47.2  
48.2  
49.2  
50.3  
51.6  
52.0  
52.5  
52.7  
53.0  
53.4  
53.9  
55.2  
56.5  
EER  
4.6  
5.1  
5.5  
6.0  
6.6  
6.8  
7.0  
7.1  
7.2  
7.3  
7.5  
8.0  
8.5  
28  
24  
19  
14  
0
23.0  
25.7  
28.6  
31.8  
35.4  
36.7  
38.0  
38.7  
39.3  
40.7  
42.1  
45.6  
49.3  
7.7  
8.4  
9.2  
20.7  
23.2  
25.9  
28.8  
32.1  
33.3  
34.5  
35.1  
35.7  
36.9  
38.2  
41.5  
44.8  
42.3  
43.2  
44.2  
45.2  
46.4  
46.9  
47.3  
47.5  
47.8  
48.2  
48.7  
49.9  
51.1  
5.5  
6.1  
6.6  
7.2  
7.8  
8.0  
8.2  
8.4  
8.5  
8.7  
8.9  
9.4  
10.0  
18.1  
20.3  
22.8  
25.3  
28.3  
29.4  
30.5  
31.0  
31.6  
32.7  
33.9  
36.8  
39.8  
10.6  
11.4  
12.4  
12.7  
13.0  
13.2  
13.3  
13.7  
14.0  
14.7  
15.5  
9.9  
10.7  
11.0  
11.3  
11.4  
11.6  
11.8  
12.1  
12.8  
13.5  
0
0
0
0
9.9  
0
0
0
0
10.2  
10.4  
11.0  
11.6  
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, water temperatures below 40°F.  
5. Ratings based on evaporator drop of 10°F condenser fans and control power  
6. Rated in accordance with ARI Standard 550/590-98.  
7. Minimum recommended ethylene glycol percentage used for leaving water temperatures below 40°F.  
8. Use the following equation to calculate COP values at other than ARI conditions, COP = EER x .2928.  
CG-PRC007-EN  
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Performance  
(50–60Ton)  
Data — 60 HZ Full Load  
Table PD-7— 50Ton — CGAF-C50  
Entering Condenser Air Temperature (Degree F)  
75.0  
85.0  
95.0  
105.0  
System  
KW  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
(Tons)  
24.1  
27.1  
30.3  
33.8  
37.8  
39.2  
40.7  
41.5  
42.2  
43.8  
45.3  
49.3  
53.5  
Glycol  
(Tons)  
28.5  
31.9  
35.6  
39.5  
44.1  
45.7  
47.4  
48.2  
49.1  
50.8  
52.6  
57.1  
61.8  
KW  
39.7  
40.5  
41.4  
42.4  
43.5  
43.9  
44.3  
44.5  
44.7  
45.1  
45.5  
46.6  
47.7  
EER  
8.6  
9.4  
(Tons)  
27.1  
30.4  
33.9  
37.7  
42.1  
43.6  
45.3  
46.1  
46.9  
48.6  
50.2  
54.6  
59.1  
KW  
43.4  
44.3  
45.3  
46.4  
47.6  
48.0  
48.4  
48.7  
48.9  
49.3  
49.8  
51.0  
52.2  
EER (Tons)  
KW  
47.7  
48.7  
49.8  
51.0  
52.3  
52.7  
53.2  
53.5  
53.7  
54.2  
54.7  
56.0  
57.3  
EER  
6.4  
7.1  
7.7  
8.4  
9.2  
9.4  
9.7  
9.8  
10.0  
10.2  
10.5  
11.2  
11.8  
EER (Tons)  
KW  
58.2  
59.5  
60.7  
62.0  
63.5  
64.1  
64.6  
64.9  
65.2  
65.7  
66.3  
67.7  
69.2  
EER  
4.6  
5.1  
5.6  
6.1  
6.7  
6.9  
7.1  
7.2  
7.3  
7.5  
7.7  
8.2  
8.8  
28  
24  
19  
14  
0
0
0
0
0
0
0
0
0
7.5  
8.2  
25.6  
28.7  
32.1  
35.8  
40.0  
41.5  
43.0  
43.8  
44.6  
46.2  
47.8  
52.0  
56.4  
52.6  
53.8  
55.0  
56.2  
57.6  
58.1  
58.6  
58.9  
59.1  
59.6  
60.2  
61.5  
63.0  
5.5  
6.0  
6.6  
7.2  
7.9  
8.1  
8.3  
8.5  
8.6  
8.8  
9.0  
9.6  
10.2  
22.5  
25.3  
28.4  
31.7  
35.5  
36.9  
38.3  
39.0  
39.8  
41.2  
42.7  
46.5  
50.5  
10.3  
11.2  
12.2  
12.5  
12.8  
13.0  
13.2  
13.5  
13.9  
14.7  
15.5  
9.0  
9.7  
10.6  
10.9  
11.2  
11.4  
11.5  
11.8  
12.1  
12.9  
13.6  
Table PD-8— 60Ton — CGAF-C60  
Entering Condenser Air Temperature (Degree F)  
95.0  
75.0  
85.0  
105.0  
System  
KW  
115.0  
Capacity System  
LWT  
(Deg F)  
20  
25  
30  
35  
40  
42  
44  
45  
46  
48  
50  
55  
60  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
(Tons)  
31.3  
35.2  
39.4  
43.7  
48.8  
50.6  
52.5  
53.4  
54.4  
56.3  
58.3  
63.3  
68.5  
Glycol  
(Tons)  
37.2  
41.6  
46.4  
51.4  
57.2  
59.2  
61.4  
62.5  
63.6  
65.8  
68.0  
73.8  
79.7  
KW  
50.1  
51.3  
52.6  
54.0  
55.6  
56.2  
56.8  
57.1  
57.4  
58.0  
58.6  
60.3  
62.0  
EER  
8.9  
9.7  
(Tons)  
35.3  
39.6  
44.1  
48.9  
54.5  
56.5  
58.5  
59.6  
60.6  
62.7  
64.9  
70.4  
76.1  
KW  
55.0  
56.4  
57.8  
59.3  
61.1  
61.7  
62.3  
62.7  
63.0  
63.7  
64.4  
66.1  
68.0  
EER (Tons)  
KW  
60.7  
62.2  
63.8  
65.4  
67.3  
68.0  
68.7  
69.1  
69.4  
70.2  
70.9  
72.8  
74.8  
EER  
6.6  
7.2  
7.9  
8.5  
9.2  
9.5  
9.7  
9.8  
EER (Tons)  
KW  
74.6  
76.3  
78.2  
80.1  
82.2  
83.0  
83.8  
84.2  
84.6  
85.4  
86.3  
88.4  
90.7  
EER  
4.7  
5.2  
5.7  
6.1  
6.7  
6.9  
7.1  
7.2  
7.2  
7.4  
7.6  
8.1  
8.5  
28  
24  
19  
14  
0
0
0
0
0
0
0
0
0
7.7  
8.4  
9.2  
33.4  
37.4  
41.8  
46.4  
51.7  
53.6  
55.6  
56.6  
57.6  
59.6  
61.7  
66.9  
72.4  
67.2  
68.8  
70.6  
72.3  
74.4  
75.1  
75.9  
76.2  
76.6  
77.4  
78.2  
80.2  
82.4  
5.6  
6.1  
6.7  
7.3  
7.9  
8.1  
8.3  
8.4  
8.5  
8.7  
8.9  
9.5  
10.0  
29.2  
32.9  
36.8  
41.0  
45.8  
47.5  
49.3  
50.2  
51.1  
52.9  
54.8  
59.6  
64.5  
10.6  
11.4  
12.3  
12.7  
13.0  
13.1  
13.3  
13.6  
13.9  
14.7  
15.4  
9.9  
10.7  
11.0  
11.3  
11.4  
11.5  
11.8  
12.1  
12.8  
13.4  
9.9  
10.2  
10.4  
11.0  
11.6  
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, water temperatures below 40°F.  
5. Ratings based on evaporator drop of 10°F  
condenser fans and control power  
6. Rated in accordance with ARI Standard 550/590-98.  
7. Minimum recommended ethylene glycol percentage used for leaving water temperatures below 40°F.  
8. Use the following equation to calculate COP values at other than ARI conditions, COP = EER x .2928.  
Table PD-9 — Coefficient of Performance (COP) and  
Integrated Part LoadValues (IPLV) at ARI Conditions  
Tons  
10  
Model Number  
IPLV  
12.3  
COP  
2.9  
CGA120B2  
15  
20  
25  
30  
40  
50  
60  
CGA180B  
CGAF-C20  
CGAF-C25  
CGAF-C30  
CGAF-C40  
CGAF-C50  
CGAF-C60  
12.9  
14.8  
14.6  
13.9  
14.9  
14.5  
15.0  
2.8  
2.8  
2.8  
2.8  
2.8  
2.8  
2.8  
Notes:  
1. Integrated Part Load Values are EERs in (Btu/watt-hour).  
2. CGA120B1 - Single Phase IPLV = 11.4, COP = 2.7  
24  
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Performance  
(10–30Ton)  
Data — 50 HZ Full Load  
Table PD-10— 10Ton — CGA 120  
Entering Condenser Air Temperature (Degree F)  
85.0  
95.0  
105.0  
Capacity System  
115.0  
System  
KW  
10.5  
10.6  
10.7  
10.8  
10.8  
10.9  
11.1  
120.0  
Capacity System  
LWT  
(Deg F)  
40  
42  
44  
45  
46  
48  
50  
Percent Capacity System  
Capacity System  
Capacity  
(Tons)  
6.0  
6.3  
6.5  
6.6  
6.8  
7.0  
7.3  
Glycol  
(Tons)  
7.2  
7.4  
7.7  
7.9  
8.0  
8.3  
8.6  
KW  
7.6  
7.6  
7.7  
7.8  
7.9  
8.0  
8.1  
EER  
11.4  
11.7  
12.0  
12.1  
12.2  
12.5  
12.8  
(Tons)  
6.8  
7.1  
7.3  
7.5  
7.6  
7.9  
8.2  
KW  
8.4  
8.5  
8.6  
8.7  
8.7  
8.8  
9.0  
EER (Tons)  
KW  
9.4  
9.5  
9.6  
9.7  
9.7  
9.8  
10.0  
EER  
8.2  
8.4  
8.7  
8.8  
8.9  
9.1  
9.3  
EER (Tons)  
KW  
11.1  
11.2  
11.3  
11.4  
11.4  
11.5  
11.7  
EER  
6.3  
6.5  
6.7  
6.8  
6.9  
7.1  
7.3  
0
0
0
0
0
0
0
9.7  
6.4  
6.7  
6.9  
7.1  
7.2  
7.5  
7.7  
6.9  
7.1  
7.3  
7.4  
7.5  
7.7  
7.9  
5.8  
6.1  
6.3  
6.4  
6.6  
6.8  
7.1  
10.0  
10.2  
10.3  
10.5  
10.7  
11.0  
Table PD-11— 15Ton — CGA 180  
Entering Condenser Air Temperature (Degree F)  
105.0  
85.0  
95.0  
115.0  
System  
KW  
120.0  
Capacity System  
LWT  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
(Tons)  
(Deg F)  
Glycol (Tons)  
KW  
EER  
(Tons)  
KW  
EER (Tons)  
KW  
EER  
EER (Tons)  
KW  
EER  
40  
42  
44  
45  
46  
48  
50  
0
0
0
0
0
0
0
11.2  
11.6  
12.0  
12.2  
12.5  
12.9  
13.4  
12.1  
12.2  
12.4  
12.4  
12.5  
12.6  
12.7  
11.1  
11.4  
11.7  
11.8  
12.0  
12.3  
12.6  
10.6  
11.0  
11.4  
11.6  
11.8  
12.3  
12.7  
13.8  
13.9  
14.0  
14.1  
14.1  
14.3  
14.4  
9.2  
9.5  
9.8  
10.0  
10.3  
10.7  
10.9  
11.2  
11.6  
12.0  
15.7  
15.8  
15.9  
16.0  
16.1  
16.2  
16.3  
7.6  
7.9  
8.1  
8.2  
8.3  
8.6  
8.8  
9.3  
9.6  
17.8  
17.9  
18.1  
18.2  
18.2  
18.4  
18.5  
6.2  
6.4  
6.6  
6.8  
6.9  
7.1  
7.3  
8.9  
9.3  
9.7  
19.0  
19.1  
19.3  
19.4  
19.4  
19.6  
19.7  
5.6  
5.8  
6.0  
6.1  
6.2  
6.4  
6.6  
10.0  
10.2  
10.4  
10.8  
11.2  
9.9  
9.9  
10.1  
10.3  
10.6  
10.1  
10.5  
10.9  
Table PD-12 — 20Ton — CGAF-C20  
Entering Condenser Air Temperature (Degree F)  
105.0  
85.0  
95.0  
115.0  
System  
KW  
21.3  
21.5  
21.6  
21.7  
21.8  
22.0  
22.2  
120.0  
Capacity System  
LWT  
(Deg F)  
40  
42  
44  
45  
46  
48  
50  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
Glycol  
(Tons)  
14.7  
15.3  
15.8  
16.1  
16.4  
16.9  
17.5  
KW  
15.2  
15.3  
15.5  
15.5  
15.6  
15.7  
15.9  
EER  
11.7  
12.0  
12.3  
12.4  
12.6  
12.9  
13.2  
(Tons)  
14.0  
14.5  
15.0  
15.3  
15.5  
16.1  
16.6  
KW  
17.0  
17.1  
17.3  
17.3  
17.4  
17.6  
17.8  
EER (Tons)  
KW  
19.0  
19.2  
19.3  
19.4  
19.5  
19.7  
19.9  
EER  
8.3  
8.6  
8.8  
8.9  
9.0  
9.3  
9.5  
(Tons)  
12.3  
12.8  
13.2  
13.5  
13.7  
14.2  
14.7  
EER (Tons)  
KW  
22.5  
22.7  
22.9  
23.0  
23.1  
23.3  
23.5  
EER  
6.3  
6.5  
6.7  
6.8  
6.9  
7.1  
7.3  
0
0
0
0
0
0
0
9.9  
13.2  
13.7  
14.2  
14.4  
14.7  
15.2  
15.7  
6.9  
7.1  
7.3  
7.4  
7.5  
7.8  
8.0  
11.9  
12.3  
12.8  
13.0  
13.2  
13.7  
14.2  
10.2  
10.4  
10.6  
10.7  
11.0  
11.2  
Table PD-13 — 25Ton — CGAF-C25  
Entering Condenser Air Temperature (Degree F)  
105.0  
85.0  
95.0  
Capacity System  
115.0  
System  
KW  
27.0  
27.3  
27.5  
27.6  
27.7  
28.0  
28.2  
120.0  
Capacity System  
LWT  
(Deg F)  
40  
42  
44  
45  
46  
48  
50  
Percent Capacity System  
Capacity System  
Capacity  
Glycol (Tons)  
KW  
19.8  
20.0  
20.1  
20.2  
20.3  
20.5  
20.7  
EER  
11.7  
12.0  
12.3  
12.5  
12.7  
13.0  
13.3  
(Tons)  
18.3  
19.0  
19.7  
20.1  
20.4  
21.1  
21.9  
KW  
21.9  
22.1  
22.3  
22.4  
22.5  
22.7  
22.9  
EER (Tons)  
KW  
24.3  
24.5  
24.8  
24.9  
25.0  
25.2  
25.4  
EER  
8.5  
8.8  
9.0  
9.1  
9.3  
9.5  
9.8  
(Tons)  
16.2  
16.8  
17.4  
17.7  
18.1  
18.7  
19.4  
EER (Tons)  
KW  
28.5  
28.7  
29.0  
29.1  
29.2  
29.4  
29.7  
EER  
6.6  
6.8  
7.0  
7.1  
7.2  
7.4  
7.6  
0
0
0
0
0
0
0
19.3  
20.0  
20.7  
21.1  
21.5  
22.2  
23.0  
10.0  
10.3  
10.6  
10.7  
10.9  
11.2  
11.4  
17.3  
17.9  
18.6  
18.9  
19.3  
20.0  
20.7  
7.2  
7.4  
7.6  
7.7  
7.8  
8.0  
8.3  
15.6  
16.2  
16.8  
17.1  
17.4  
18.1  
18.7  
Table PD-14 — 30Ton — CGAF-C30  
Entering Condenser Air Temperature (Degree F)  
105.0  
85.0  
95.0  
115.0  
System  
KW  
32.8  
33.0  
33.3  
33.4  
33.5  
33.8  
34.0  
120.0  
Capacity System  
LWT  
(Deg F)  
40  
42  
44  
45  
46  
48  
50  
Percent Capacity System  
Capacity System  
Capacity System  
Capacity  
Glycol (Tons)  
KW  
23.9  
24.1  
24.3  
24.4  
24.5  
24.7  
24.9  
EER  
11.7  
12.1  
12.4  
12.6  
12.7  
13.1  
13.4  
(Tons)  
22.2  
23.1  
23.9  
24.3  
24.8  
25.7  
26.5  
KW  
26.5  
26.7  
27.0  
27.1  
27.2  
27.4  
27.6  
EER (Tons)  
KW  
29.5  
29.7  
29.9  
30.1  
30.2  
30.4  
30.7  
EER  
8.6  
8.8  
9.1  
9.2  
9.3  
9.6  
9.8  
(Tons)  
19.7  
20.5  
21.2  
21.6  
22.0  
22.8  
23.6  
EER (Tons)  
KW  
34.6  
34.8  
35.1  
35.2  
35.3  
35.6  
35.9  
EER  
6.6  
6.8  
7.0  
7.1  
7.2  
7.4  
7.6  
0
0
0
0
0
0
0
23.4  
24.2  
25.1  
25.6  
26.0  
26.9  
27.9  
10.1  
10.4  
10.6  
10.8  
10.9  
11.2  
11.5  
21.0  
21.8  
22.6  
23.0  
23.4  
24.3  
25.1  
7.2  
7.4  
7.7  
7.8  
7.9  
8.1  
8.3  
19.0  
19.7  
20.5  
20.9  
21.3  
22.0  
22.8  
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power  
6. Rated in accordance with ARI Standard 550/590-98  
7. Minimum recommended ethylene glycol percentage used for leaving  
water temperatures below 40°.  
8. Data obtained assuming 400 Volt Supply.  
inputs include compressors, condenser fans and control power.  
5. Ratings based on evaporator drop of 10°F.  
9. Use the following equation to calculate COP values at other  
than ARI conditions, COP = EER x .2928.  
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Performance  
(40–60Ton)  
Data — 50 HZ Full Load  
Table PD-15 — 40Ton — CGAF-C40  
Entering Condenser Air Temperature (Degree F)  
85.0  
95.0  
105.0  
Capacity System  
115.0  
System  
KW  
42.2  
42.5  
42.8  
43.0  
43.2  
43.5  
43.9  
120.0  
Capacity System  
LWT  
(Deg F) Glycol  
Percent Capacity System  
Capacity System  
Capacity  
(Tons)  
24.0  
25.0  
25.9  
26.4  
26.9  
27.8  
28.8  
(Tons) KW  
EER  
11.5  
11.8  
12.2  
12.3  
12.5  
12.8  
13.1  
(Tons)  
27.3  
28.3  
29.3  
29.9  
30.4  
31.5  
32.6  
KW  
33.5  
33.8  
34.1  
34.3  
34.4  
34.7  
35.0  
EER (Tons)  
KW  
37.6  
37.9  
38.2  
38.4  
38.5  
38.9  
39.2  
EER  
8.2  
8.4  
8.7  
8.8  
8.9  
9.2  
9.4  
EER (Tons)  
KW  
44.6  
45.0  
45.3  
45.5  
45.7  
46.1  
46.4  
EER  
6.2  
6.4  
6.6  
6.7  
6.8  
7.0  
7.2  
40  
42  
44  
45  
46  
48  
50  
0
0
0
0
0
0
0
28.8  
30.0  
30.2  
30.5  
30.6  
30.8  
31.1  
31.3  
9.8  
25.7  
26.7  
27.7  
28.2  
28.7  
29.7  
30.8  
6.8  
7.0  
7.3  
7.4  
7.5  
7.7  
7.9  
23.1  
24.1  
25.0  
25.4  
25.9  
26.9  
27.8  
29.8  
30.9  
31.5  
32.0  
33.1  
34.3  
10.0  
10.3  
10.5  
10.6  
10.9  
11.2  
Table PD-16 — 50Ton — CGAF-C50  
Entering Condenser Air Temperature (Degree F)  
105.0  
85.0  
95.0  
Capacity System  
115.0  
System  
KW  
51.0  
51.4  
51.8  
52.0  
52.2  
52.6  
53.0  
120.0  
Capacity System  
LWT  
(Deg F) Glycol  
Percent CapacitySystem  
Capacity System  
Capacity  
(Tons)  
36.0  
37.3  
38.7  
39.4  
40.1  
41.5  
42.9  
KW  
37.2  
37.5  
37.8  
38.0  
38.2  
38.5  
38.8  
EER  
11.6  
11.9  
12.3  
12.4  
12.6  
12.9  
13.3  
(Tons)  
34.2  
35.5  
36.8  
37.5  
38.1  
39.5  
40.9  
KW  
41.3  
41.6  
41.9  
42.1  
42.3  
42.7  
43.0  
EER (Tons)  
KW  
45.9  
46.2  
46.6  
46.8  
47.0  
47.4  
47.7  
EER  
8.4  
8.7  
9.0  
9.1  
9.2  
9.5  
9.7  
(Tons)  
30.2  
31.4  
32.6  
33.2  
33.8  
35.0  
36.3  
EER (Tons)  
KW  
53.8  
54.2  
54.6  
54.8  
55.0  
55.4  
55.9  
EER  
6.5  
6.7  
6.9  
7.0  
7.1  
7.3  
7.5  
40  
42  
44  
45  
46  
48  
50  
0
0
0
0
0
0
0
9.9  
32.3  
33.5  
34.8  
35.4  
36.0  
37.3  
38.7  
7.1  
7.3  
7.5  
7.7  
7.8  
8.0  
8.2  
29.1  
30.2  
31.4  
32.0  
32.6  
33.8  
35.1  
10.2  
10.5  
10.7  
10.8  
11.1  
11.4  
Table PD-17— 60Ton — CGAF-C60  
Entering Condenser Air Temperature (Degree F)  
105.0  
85.0  
95.0  
Capacity System  
115.0  
System  
120.0  
Capacity System  
LWT  
(Deg F)  
40  
42  
44  
45  
46  
48  
50  
Percent Capacity System  
Capacity System  
Capacity  
Glycol  
(Tons)  
46.6  
48.3  
50.0  
50.9  
51.8  
53.6  
55.4  
KW  
48.3  
48.7  
49.2  
49.4  
49.7  
50.2  
50.7  
EER  
11.6  
11.9  
12.2  
12.4  
12.5  
12.8  
13.1  
(Tons)  
44.1  
45.8  
47.5  
48.3  
49.2  
50.9  
52.6  
KW  
53.7  
54.2  
54.7  
55.0  
55.2  
55.8  
56.3  
EER (Tons)  
KW  
59.8  
60.3  
60.9  
61.2  
61.5  
62.1  
62.7  
EER  
8.3  
8.6  
8.8  
8.9  
9.0  
9.3  
9.5  
(Tons)  
38.8  
40.2  
41.8  
42.5  
43.3  
44.9  
46.4  
KW  
66.6  
67.2  
67.8  
68.1  
68.4  
69.0  
69.7  
EER (Tons)  
KW  
70.3  
70.9  
71.5  
71.8  
72.1  
72.8  
73.4  
EER  
6.4  
6.6  
6.8  
6.8  
6.9  
7.1  
7.3  
0
0
0
0
0
0
0
9.9  
41.5  
43.1  
44.7  
45.5  
46.3  
48.0  
49.6  
7.0  
37.3  
38.7  
40.2  
41.0  
41.7  
43.2  
44.8  
10.1  
10.4  
10.5  
10.7  
10.9  
11.2  
7.2  
7.4  
7.5  
7.6  
7.8  
8.0  
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power.  
5. Ratings based on evaporator drop of 10°F.  
6. Rated in accordance with ARI Standard 550/590-98  
7. Minimum recommended ethylene glycol percentage used for leaving water temperatures below 40°.  
8. Data obtained assuming 400 Volt Supply.  
9. Use the following equation to calculate COP values at other than ARI conditions, COP = EER x .2928.  
26  
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(10–60Ton)  
Part Load  
Performance  
Data — 60 HZ  
Table PD-18— Part Load Data,ARI Points (10-60Tons)  
Entering Condenser AirTemperature (Degrees F)  
Model  
95  
86.9  
84.5  
77.7  
77.3  
72.5  
72.3  
71.5  
Tons Number  
100% Load  
10.0  
86% Load  
82% Load  
71% Load  
70% Load  
62% Load  
62% Load  
61% Load  
EER  
10 CGA 1202 Capacity (Tons)  
KW Input  
8.7  
10.5  
EER  
Capacity (Tons)  
KW Input  
9.6  
13.6  
16.9  
15 CGA 180  
EER  
9.8  
17.7  
21.6  
15.2  
10.7  
8.5  
20 CGAF-C20 Capacity (Tons)  
KW Input  
EER  
25 CGAF-C25 Capacity (Tons)  
KW Input  
9.8  
23.1  
28.3  
13.8  
16.3  
14.2  
EER  
30 CGAF-C30 Capacity (Tons)  
KW Input  
9.8  
28.0  
34.3  
14.2  
17.0  
14.4  
EER  
40 CGAF-C40 Capacity (Tons)  
KW Input  
9.7  
34.5  
42.7  
11.9  
28.4  
28.6  
15.1  
21.4  
17.1  
EER  
50 CGAF-C50 Capacity (Tons)  
KW Input  
9.7  
43.0  
53.2  
11.3  
37.2  
39.4  
13.5  
30.6  
27.2  
EER  
60 CGAF-C60 Capacity (Tons)  
KW Input  
9.7  
55.4  
68.6  
11.9  
45.7  
45.9  
15.2  
34.6  
27.3  
Table PD-18 Continued — Part Load Data,ARI Points (10-60Tons) Continued  
Entering Condenser AirTemperature (Degrees F)  
Model  
66.2  
65.3  
57.4  
55  
Tons Number  
52% Load  
13.5  
51% Load  
37% Load  
32% Load  
EER  
Capacity (Tons)  
KW Input  
EER  
Capacity (Tons)  
KW Input  
EER  
10 CGA 120  
15 CGA 180  
4.6  
4.1  
13.5  
7.1  
6.2  
20 CGAF-C20 Capacity (Tons)  
KW Input  
EER  
25 CGAF-C25 Capacity (Tons)  
KW Input  
15.3  
11.7  
9.1  
EER  
30 CGAF-C30 Capacity (Tons)  
KW Input  
EER  
14.8  
20.7  
16.8  
17.0  
15.9  
11.2  
17.6  
10.9  
7. 4  
40 CGAF-C40 Capacity (Tons)  
KW Input  
EER  
50 CGAF-C50 Capacity (Tons)  
KW Input  
EER  
18.3  
17.8  
11.7  
60 CGAF-C60 Capacity (Tons)  
KW Input  
Notes:  
1. Rated in accordance with ARI Standard 550/590-98  
- 44 Degrees leaving chilled water temperature  
- Constant Evaporator waterflow as determined at full load operation, 95 F ambient, and 10F evaporator temperature drop.  
- Entering ambient temperature based on 55F for loads below 33%  
- Entering ambient temperature based on 0.60(%load)+35 for loads above 33%  
- EER- Energy Efficiency Ratio ( Btu/Watt-hour). Power inputs include compressor, condenser fans and control power.  
2. Single phase CGA120B1 model should be re-rated at all operating points using the following factors: 1.08 x KW, 0.92 x EER  
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(10–30Ton)  
Part Load  
Performance  
Data — 50 HZ  
Table PD-19 — 10Ton — CGA 120  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
13.9  
8.1  
11.9  
7.7  
10.2  
7.3  
8.6  
6.9  
7.3  
6.5  
6.7  
6.3  
100  
50  
System KW  
13.9  
15.5  
17.3  
19.3  
21.6  
22.9  
EER  
Capacity  
System KW  
11.6  
3.7  
3.8  
10.1  
3.5  
4.2  
8.7  
3.4  
4.6  
7.4  
3.1  
5.1  
6.3  
3.0  
5.7  
5.8  
2.9  
6.0  
Table PD-20 — 15Ton — CGA 180  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
13.8  
12.6  
11.0  
11.7  
12.0  
12.4  
9.7  
11.4  
14.0  
8.1  
10.7  
15.9  
6.6  
10.0  
18.1  
6.0  
9.7  
19.3  
100  
50  
EER  
Capacity  
System KW  
12.5  
5.8  
5.5  
10.7  
5.5  
6.3  
8.9  
5.3  
7.1  
7.4  
4.9  
8.1  
6.1  
4.6  
9.1  
5.5  
4.5  
9.7  
Table PD-21 — 20Ton — CGAF-C20  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
14.3  
16.6  
13.9  
12.3  
15.8  
15.5  
10.4  
15.0  
17.3  
8.8  
14.2  
19.3  
7.3  
13.2  
21.6  
6.7  
12.8  
22.9  
100  
50  
EER  
Capacity  
System KW  
16.2  
8.9  
6.6  
14.1  
8.5  
7.2  
12.2  
8.1  
8.0  
10.4  
7.7  
8.9  
8.8  
7.2  
9.9  
8.0  
7.0  
10.4  
Table PD-22 — 25Ton — CGAF-C25  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
14.2  
21.7  
18.3  
12.3  
20.7  
20.1  
10.6  
19.7  
22.3  
9.0  
18.6  
24.8  
7.6  
17.4  
27.5  
7.0  
16.8  
29.0  
100  
60  
EER  
Capacity  
System KW  
15.7  
13.8  
10.6  
13.7  
13.2  
11.6  
11.9  
12.6  
12.7  
10.2  
11.9  
14.1  
8.7  
11.2  
15.6  
7.9  
10.8  
16.4  
EER  
Capacity  
System KW  
15.7  
9.4  
7.2  
13.8  
9.0  
7.9  
12.0  
8.6  
8.6  
10.3  
8.2  
9.5  
8.8  
7.7  
10.5  
8.1  
7.4  
11.1  
40  
Table PD-23 — 30Ton — CGAF-C30  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
14.3  
26.2  
22.0  
12.4  
25.1  
24.3  
10.6  
23.9  
27.0  
9.1  
22.6  
29.9  
7.7  
21.2  
33.3  
7.0  
20.5  
35.1  
100  
EER  
Capacity  
System KW  
15.2  
14.0  
11.1  
13.4  
13.4  
12.0  
11.7  
12.8  
13.2  
10.0  
12.1  
14.5  
8.6  
11.4  
16.0  
7.9  
11.0  
16.8  
50  
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors, condenser fans and control power  
5. Ratings based on evaporator drop of 10°F  
6. Rated in accordance with ARI Standard 550/590-98.  
7. Data obtained assuming 400 Volt supply.  
28  
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Performance  
(40–60Ton)  
Data — 50 HZ Part Load  
Table PD-24— 40Ton — CGAF-C40  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
14.2  
32.4  
27.4  
12.2  
30.9  
30.5  
10.3  
29.3  
34.1  
8.7  
27.7  
38.2  
7.3  
25.9  
42.8  
6.6  
25.0  
45.3  
100  
75  
EER  
Capacity  
System KW  
14.9  
25.2  
20.3  
12.8  
24.0  
22.5  
10.9  
22.8  
25.0  
9.2  
21.5  
27.9  
7.7  
20.2  
31.3  
7.1  
19.5  
33.1  
EER  
Capacity  
System KW  
16.3  
17.8  
13.2  
14.2  
17.1  
14.5  
12.2  
16.3  
16.0  
10.4  
15.4  
17.7  
8.8  
14.5  
19.8  
8.1  
14.0  
20.9  
50  
EER  
Capacity  
System KW  
14.3  
8.4  
7.1  
12.2  
8.0  
7.9  
10.3  
7.6  
8.9  
8.6  
7.1  
9.9  
7.2  
6.7  
11.1  
6.5  
6.4  
11.8  
25  
Table PD-25— 50Ton — CGAF-C50  
Percent  
Load  
Entering Condenser Air Temperature (Degrees F)  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
14.2  
40.4  
34.3  
12.3  
38.7  
37.8  
10.5  
36.8  
41.9  
9.0  
34.8  
46.6  
7.5  
32.6  
51.8  
6.9  
31.4  
54.6  
100  
80  
EER  
Capacity  
System KW  
14.7  
33.4  
27.3  
12.8  
31.9  
30.0  
11.0  
30.4  
33.1  
9.4  
28.7  
36.7  
7.9  
26.9  
40.7  
7.3  
26.0  
42.9  
EER  
Capacity  
System KW  
15.5  
26.2  
20.2  
13.6  
25.1  
22.1  
11.8  
24.0  
24.3  
10.1  
22.7  
26.9  
8.6  
21.4  
29.7  
7.9  
20.7  
31.3  
60  
EER  
Capacity  
System KW  
14.5  
12.4  
10.3  
12.6  
11.9  
11.3  
10.8  
11.3  
12.6  
9.2  
10.7  
14.0  
7.7  
10.0  
15.5  
7.1  
9.6  
16.4  
30  
Table PD-26— 60Ton — CGAF-C60  
Percent  
Entering Condenser Air Temperature (Degrees F)  
Load  
75  
85  
95  
105  
115  
120  
EER  
Capacity  
System KW  
14.1  
52.2  
44.4  
12.2  
49.8  
49.2  
10.4  
47.3  
54.6  
8.8  
44.5  
60.8  
7.4  
41.6  
67.7  
6.7  
40.1  
71.4  
100  
75  
EER  
Capacity  
System KW  
14.9  
40.5  
32.7  
12.9  
38.7  
36.1  
11.0  
36.7  
40.0  
9.4  
34.6  
44.4  
7.9  
32.4  
49.3  
7.2  
31.2  
52.0  
EER  
Capacity  
System KW  
16.2  
28.6  
21.2  
14.2  
27.4  
23.2  
12.3  
26.1  
25.5  
10.5  
24.7  
28.2  
8.9  
23.3  
31.2  
8.2  
22.5  
32.9  
50  
EER  
Capacity  
System KW  
15.5  
13.8  
10.6  
13.4  
13.2  
11.8  
11.5  
12.5  
13.0  
9.8  
11.8  
14.5  
8.2  
11.1  
16.1  
7.5  
10.7  
17.0  
25  
Notes:  
1. Data based on 0.0001 fouling factor at sea level.  
2. Interpolation between points is permissible.  
3. Extrapolation beyond points is not permissible.  
4. EER - Energy Efficiency Ratio (Btu/watt-hour). Power inputs include compressors,  
condenser fans and control power  
5. Ratings based on evaporator drop of 10°F  
6. Rated in accordance with ARI Standard 550/590-98.  
7. Data obtained assuming 400 Volt supply.  
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(Interface with  
Other Control  
Systems)  
Controls  
Stand-Alone Unit  
Figure C-1 Stand-Alone Unit  
Interface to stand-alone units is very  
simple; only a remote auto-stop or chilled  
water flow interlock signal 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.  
Unit controls do not provide an output to  
turn pumps on and off.  
Required Features  
1
External Auto/Stop (Standard)  
Time clock, manual switch or chilled  
water pump contactor auxiliary.  
- or -  
2
ChilledWaterflow Interlock (Standard)  
Trane Integrated Comfort™ System  
Interface  
Figure C-2 Tracer ICS System Interface Schematic  
A single twisted pair of wires tied directly  
between the CGA unit and aTracer  
system provides control, monitoring and  
diagnostic capabilities. Control functions  
include auto/stop, compressor operation  
lockout for kw demand limiting. In  
addition, theTracer system can provide  
sequencing control for two or three CGA  
units on the same chilled water loop.  
Pump sequencing control can be  
provided from theTracer system also.  
Sequencing of two CGA’s can be  
accomplished with the DDC Chiller  
Sequencer.  
Required Features  
1
UnitTemperature Controller (Standard)  
2
ICS Interface Panel  
ExternalTrane Devices Required  
1
Tracer  
30  
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Controls  
(10, 15Ton)  
ELECTRICAL CONTROL SYSTEM  
mounted at the outlet end of the  
evaporator, where it monitors leaving  
water temperature.  
The adjustable hot gas bypass valve is  
factory set at 70 psig.  
The controls used on CGA 10 and 15-ton  
units are classified either as safety”  
controls or operationalcontrols. Brief  
descriptions of the specific safety and  
operating controls used in the CGA  
control scheme are provided in the  
following paragraphs.  
Note: Hot gas bypass is available only  
on the lead compressor circuit.  
During normal unit operation, if the low  
temperature cutout (LTC) senses a  
temperature falling to 36°F + 3.0°F, the  
LTC will open to interrupt compressor  
operation. (Manual reset is required.)  
Anti-Short CycleTimers (ASCT1,ASCT2)  
An anti-short cycle timer is provided in  
each compressor control circuit to  
protect the compressors from starting  
too frequently.This can occur as a result  
of just over 0%, or just over 50% of the  
unit capacity, or because of sudden  
power outages of short duration.  
Whenever the contacts of the water  
temperature thermostat (WTT) open —  
or when there is a momentary power  
outage the anti-short cycle timer will  
lock out compressor operation for three  
minutes.  
Refer to the following control  
descriptions for control settings.  
Motor Overloads  
These units have internal compressor  
and condenser fan motor overloads.  
These overloads protect the motors from  
overcurrent and overheating conditions  
and automatically reset as soon as they  
cool sufficiently.  
UNIT SAFETY CONTROLS  
Low Pressure Cutout (LPC01, LPC02)  
Mounted below the unit control box are  
two low pressure cutouts that open and  
stop compressor operation if the  
operating pressure drops below 38.5 + 1  
psig.The cutout automatically resets  
when the pressure reaches 44.5 + 2 psig.  
The LPCO is a SPDT device. If it opens at  
low ambient start-up, it will energize ODF  
relay, stopping the outdoor fan(s) while  
the compressor remains energized  
through the LAST (Low Ambient Start  
Timer).  
UNIT OPERATIONAL CONTROLS  
WaterTemperatureThermostat (WTT)  
System operation for 10 and 15-ton CGA  
units is governed by a two-stage water  
temperature thermostat (WTT).The  
remote sensing bulb of this device is  
factory-installed in a bulb well located on  
the evaporator water inlet; here, it  
monitors the temperature of the water  
returning to the evaporator.  
Delay Between Compressors (DBC)  
The delay between compressors  
prevents both compressors from starting  
at the same time by delaying  
compressor number two for 30 seconds.  
High Pressure Cutout (HPC01, HPC02)  
Definition of Abbreviations:  
These units have high pressure cutouts  
that open and stop compressor  
operation if the discharge pressure  
reaches 400 + 10 psig.The cutout  
automatically resets when pressure  
drops to 250 + 15 psig.  
LowAmbient StartTimer (LAST)  
ASCT  
CC  
Anti-Short CycleTimer  
Compressor Contactor  
When one of the two timers energizes,  
the low pressure control is bypassed for  
four minutes, this allows time for suction  
pressure to build sufficiently for the low  
pressure cutout contacts to close.  
CWFIR  
ChilledWater Flow  
Interlock Relay  
CWPS  
DBC  
ChilledWater Pump  
Starter  
Reset Relays (RRS, RR2)  
Hot Gas BypassTimer, Solenoid (HGBT,  
HGBS)  
If the unit is shut down by the low  
pressure cutout (or high pressure  
cutout), the reset relay locks out the  
compressor contactor (CCS, CC2).This  
prevents the system from recycling until  
the condition that caused the low (or  
high) pressure cutout to trip is  
Time Delay Between  
Compressors  
The hot gas bypass option is factory-  
installed only, and is used in a chilled  
water system to keep the first stage  
compressor on-line during short no-load  
or light-load conditions.WhenWater  
TemperatureThermostat (WTT) first  
stage opens, 24-volt power is supplied to  
the Compressor Contactor (CC1) through  
Hot Gas BypassTimer (HGBT) pins one  
and four. Power is also applied from  
WTT-B to HGBT coil (fixed 30-minute  
time delay pickup) and to the Hot Gas  
Bypass Solenoid (HGBS) through HGBT  
pins eight and five. If first stage cooling  
remains satisfied for 30 minutes, HGBT  
will energize and shut down the  
HGBT  
HPCO  
LAST  
Hot Gas BypassTimer  
High Pressure Cutout  
Low Ambient Start  
Timer  
determined and corrected.  
LPCO  
LTC  
Low Pressure Cutout  
CAUTION:To prevent unit damage, do  
not reset the control circuit until the  
cause of the safety lockout is identified  
and corrected.  
LowTemperature  
Cutout  
ODF  
RR  
Outdoor Fan  
Reset Relay  
To reset RR1 and RR2, open and reclose  
the unit disconnect switch.  
SPDT  
Single Pole, Double  
Throw  
LowTemperature Cutout (LTC)  
The LTC is designed to disable the unit if  
the leaving water temperature falls too  
low.The LTCs remote sensing bulb is  
WTT  
WaterTemperature  
Thermostat  
compressor. If there is a call for cooling  
during HGBP mode, the unit will return  
to cooling mode.  
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Controls  
(10, 15Ton)  
SEQUENCE OF UNIT OPERATION  
If compressor number one cant satisfy  
the cooling demand,WTTs second stage  
switch closes, allowing power to pass  
through the CWFIR contacts, the DBC,  
the ASCT2, the RR2 contacts, the LPC02,  
and the HPC02 to energize the CC2 coil.  
This starts compressor number two and  
outdoor fan number two.  
Refer to the unit wiring schematic pasted  
to the inside of the control panel cover  
when reviewing the control sequence  
described below.  
Refer to the legend on the previous page  
for an explanation of the abbreviations  
used in this sequence.  
LOW AMBIENT OPERATION  
10-Ton Operation  
Field Installed Head Pressure Control  
Accessory  
With fused disconnect switch closed,  
power is supplied to the crankcase  
heaters and the 24-volt control circuit.  
Standard units will operate in outdoor  
ambient temperatures down to the  
values shown in the General Data”  
section of this catalog. This accessory  
will enable units to operate down to  
much lower temperature extremes (see  
General Datasection of this catalog).  
Starting the chilled water pump closes  
the CWPS auxiliary contacts and  
completes the flow switch.  
When the water temperature rises above  
theWTTs set point, its first stage switch  
closes, allowing power to pass through  
CWPS auxiliary contacts, the flow switch,  
the LTC, the ASCT1, the RR1 contacts, the  
LPC01, and the HPC01 to energize the  
CC1 coil.This starts compressor number  
one and the outdoor fan.  
Head pressure control for CGA units is  
regulated by means of a field-installed  
head pressure accessory which varies  
condenser fan speed in relation to  
discharge pressure.  
When discharge pressure is 270 psig or  
higher, the condenser fan runs at full  
speed. At pressures between 270 psig  
and 180 psig, the fan speed is adjusted  
(increased or decreased) in direct relation  
to the pressure, with minimum fan speed  
(10 percent of rated motor rpm)  
occurring when the pressure reaches 180  
psig. At pressures below 180 psig, the fan  
will not run.When discharge pressure  
rises to 180 psig, the fan will start and run  
at the reduced speed. Fan speed will  
continue to increase, as the pressure  
increases, until full speed is reached at  
270 psig.  
If compressor number one cant satisfy  
the cooling demand,WTTs 2nd stage  
switch closes, allowing power to pass  
through the CC1 auxiliary contacts, the  
DBC, the ASCT2, the RR2 contacts, the  
LPC02, and the HPC02 to energize the  
CC2 coil which starts compressor  
number two.  
15-Ton Operation  
With fused disconnect switch closed,  
power is supplied to the crankcase  
heaters, and the 24-volt control circuit.  
Starting the chilled water pump closes  
the CWPS auxiliary contacts and  
completes the flow switch, allowing  
power to pass through the LTC to  
energize the CWFIR.  
When the water temperature rises above  
theWTTs set point, its first stage switch  
closes, allowing power to pass through  
the CWFIR contacts, the ASCT1, the RR1  
contacts, the LPC01, and the HPC01 to  
energize the CC1 coil.This starts  
compressor number one and outdoor  
fan number one.  
32  
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Controls  
(20–60Ton)  
pressure control by staging condenser  
fans on or off in an effort to maintain  
the saturated condensing temperature  
within a fixed range. Overall, the safety  
controls help keep the cooling system  
on-line and operating safely.  
Customized Control  
Simple Interface with All Control  
Systems  
With IntelliPak controls,Trane can  
customize controls around the chiller  
application and the specific components  
used in the CGAF.  
The IntelliPak controls afford simple  
interface withTraneTracersystems,  
providing broad control capabilities for  
Building Automation systems.  
For instance, the compressor protection  
system is specifically designed for the  
Trane 3-DScroll compressor. A leaving  
chilled solution temperature control  
algorithm maintains accurate  
temperature control, for both comfort  
and process applications, minimizing the  
drift from set point.  
Monitoring and Diagnostics  
For control systems other thanTrane, two  
generic building automation system  
interfaces are available and offer  
simplicity and flexibility in accessing unit  
functions.  
Since the microcomputer provides all  
control functions, it can easily indicate  
such parameters as leaving chilled  
solution temperature and capacity  
staging. If a failure does occur, the  
diagnostic alarm will be displayed  
giving specific information about the  
failure. All of the monitoring and  
diagnostic information can be easily  
accessed at the Human Interface  
display, standard on every unit.  
Safety Controls  
A centralized microcomputer offers a  
higher level of machine protection. Since  
the safety controls are smarter, they limit  
compressor operation to avoid  
compressor or evaporator failures,  
thereby minimizing nuisance shutdown.  
For instance, the Unit Control Module  
(UCM) will provide condenser low  
The IntelliPak controls incorporate  
improved chiller start-up, load limiting,  
compressor anti-recycle timing and lead/  
lag functions into standard chiller  
operation. Interface with outside systems  
such as building automation controls is  
flexible and easy.  
Figure C-3 — Human Interface Display  
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(20–60Ton  
Interface)  
Controls  
unnecessary editing is kept to a  
minimum.  
selected and ordered from the factory,  
20-29, 30-39°, and 51-65°F. When these  
options are selected, the unit hardware  
changes to allow the unit to operate  
under safe conditions.  
Standard Control Features  
Human Interface (HI) Panel  
CONFIGURATION Preset with the  
proper configuration for the unit as it  
ships from the factory, this information  
would be edited only if certain features  
were physically added or deleted from  
the unit. For example, if a field supplied  
Trane Communication Interface (TCI)  
module was added to the unit in the  
field, the unit configuration would need  
to be edited to reflect that feature.  
The Human Interface (HI) Panel provides  
a 2 line X 40 character clear English  
language liquid crystal display and a 16  
button keypad for monitoring, setting,  
editing and controlling.The Human  
Interface Panel is mounted in the units  
main control panel and is accessible  
through a hatch built into the units  
control panel door.  
Design DeltaTemperature set point -  
the design deltaT drop within the  
evaporator is adjustable from 4-20 °F in  
one degree increments. In addition, the  
control response set point can affect the  
speed of the UCMs response to  
changing cooling requirements. This  
value can be set through the HI to allow  
flexibility in maintaining precise control  
conditions.  
The optional remote-mounted version of  
the Human Interface panel has all the  
functions of the unit-mounted HI, with  
the exception of the Service Mode.To  
use a Remote Human Interface (RHI), the  
unit must be equipped with an optional  
InterProcessor Communications Bridge  
(IPCB).The RHI can be located up to  
5,000 feet from the unit. A single RHI can  
be used to monitor and control up to 4  
chillers, each containing an IPCB.  
SERVICE used to selectively control  
outputs (for compressors, fans, etc.)  
when servicing or troubleshooting the  
unit.This menu is accessible only at the  
unit-mounted Human Interface Panel.  
Chiller Freeze Protection The  
microprocessor will prevent the  
evaporator fluid from freezing by  
reducing chiller capacity, ultimately  
shutting down all compressors and  
sending a manually re-settable  
diagnostic. The inputs for freeze  
protection are the low leaving solution  
temperature cutout and the leaving  
solution temperature.  
STOP,AUTO when the chiller is in the  
stop mode, pressing the AUTO KEY will  
cause the UCM to go into either the  
Auto/Local or Auto/ICS mode, depending  
on the set point source setting.  
Chiller Capacity Control The Unit  
Control Module (UCM) will control  
leaving solution temperature to a user  
adjustable set point. The UCM monitors  
the leaving solution temperature sensor  
and determines how far away this  
temperature is from the leaving solution  
set point and how long it has been there.  
The rate at which capacity stages are  
added or subtracted is determined by a  
control integrator algorithm. This  
algorithm calculates a control integrator  
value based upon the inputs from the  
control response set point, the difference  
between the leaving solution set point  
and the leaving solution temperature,  
the number of capacity steps, and the  
design delta temperature. This function  
can be user defined for comfort or  
process control applications.The  
The Main Menu of the Human  
Interface panel:  
STATUS used to monitor all  
temperatures, pressures, set points,  
input and output status.The CUSTOM  
KEY will have four reports that can be  
user defined.The report screens consist  
of the data available in the main status  
menu.  
Evaporator Solution Flow Interlock —  
The IntelliPak control requires an  
external evaporator flow switch interlock.  
An external field installed flow switch  
must be wired into the unit terminal  
strip.When an open condition is  
detected for six (6) seconds or longer, the  
compressors will shut down and after  
five (5) minutes an automatic resettable  
diagnostic alarm will be sent.  
SET POINTS used to edit all factory  
preset default set points and assign set  
point sources.  
DIAGNOSTICS used to review active  
and historical lists of diagnostic  
conditions. A total of 41 different  
diagnostics can be read at the Human  
Interface Panel. The last 20 diagnostics  
can be held in an active history buffer log  
at the Human Interface Panel.  
following set points are integrated into  
the capacity control algorithm:  
SETUP Control parameters, sensor  
selections, set point source selections,  
output definitions, and numerous other  
points can be edited from this menu. All  
points have factory preset values so  
Leaving Solution Set point (LSS) The  
LSS is adjustable from the factory as  
standard within a range from 40-50°F.  
Three other possible ranges can be  
34  
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(20–60Ton  
Interface)  
Controls  
Head Pressure Control Condenser  
head pressure control is provided in the  
UCM by staging condenser fans on or  
off to maintain the saturated condensing  
temperature. This function will allow  
cooling operation down to 30°F as  
standard. Minimum on and off timing is  
built into the algorithm to prevent rapid  
cycling.  
pressure control will be bypassed for a  
period of time. If the low pressure  
control is still open at the end of the  
period, the compressor is shut down and  
the solenoid valve is opened. The loss of  
refrigerant flow protection is active in  
this sequence to additionally protect the  
chiller.  
External Auto/Stop A set of contacts  
or switches can be field installed that will  
start and stop the chiller.  
Demand Limit The UCM will accept an  
input from a field installed device which  
will prevent one or more compressors  
from operating. The user can select the  
number of compressors to be turned off.  
Hot Start Control A high ambient start  
sequence will permit only one  
Leaving Solution Reset This flexible  
option allows active leaving solution  
reset based on customer selectable  
inputs from the zone, entering solution  
temperature or outside air temperature.  
When the application is sensitive to one  
of these parameters, subcooling of  
critical zones is prevented.  
Pump down This feature can be  
enabled or disabled through the Human  
Interface. When it is enabled, pump  
down will be initiated prior to shutting  
down the last capacity stage on each  
circuit by de-energizing a liquid line  
solenoid valve. Pump down is  
terminated by the opening of the low  
pressure switch, or 30 seconds after the  
cycle is initiated. On units equipped with  
hot gas bypass, pump down will be  
initiated upon termination of the hot gas  
bypass cycle.  
compressor to operate when the leaving  
solution temperature is in the user  
adjustable range of 60-80°F. When the  
leaving solution temperature falls below  
this high limit, the second compressor  
will be active.  
LowAmbient Compressor Lockout —  
This function will lock out the  
compressor if the outdoor air  
Optional Control Features  
Compressor Current Sensing This  
option will measure and average the  
amp draw of 2 phases of each  
compressor.  
temperature is below the low ambient  
compressor lock out temperature set  
point. This set point is adjustable at the  
Human Interface Panel (HI) between 0-  
60°F. Compressors will be locked out  
when outdoor air temperatures fall  
below that selected temperature and will  
be allowed to start again when the  
temperature rises 5° F above the set  
point.  
Chiller Solution Pump Control The  
UCM has two operating modes for the  
chiller solution pump control, Auto and  
On. The UCM additionally has a relay  
output that will energize/de-energize the  
chillers solution pump control circuit.  
The relay is de-energized, stopping the  
pump, when emergency stop is  
Superheat/Subcooling Option This  
option will include the necessary  
temperature and pressure sensors to  
measure and calculate the chillers  
superheat and subcooling numbers for  
each circuit. These temperatures and  
pressures, along with calculated values  
of superheat/subcool, will be displayed  
in the status menu of the Human  
Interface. No external refrigerant gauges  
need to be installed on the chiller for the  
system operator to check out these  
conditions.  
Compressor Lead/Lag Compressor  
lead/lag is a user-selectable feature  
through the Human Interface Panel  
available on all units.When enabled, the  
algorithm in the UCM will start  
compressors based upon the least  
number of starts and/or run time. This  
feature is not available with the hot gas  
bypass option.  
activated. The solution pump relay is  
energized to run the pump in the  
following modes: freeze protection,  
normal cooling control, low ambient  
freeze protection, ice building and loop  
stabilization, and service mode. Modes  
that will request the pump to stop are ice  
building complete, ice building delay,  
unit stop and external auto/stop.  
External Leaving Solution Set point —  
Remote set point potentiometer can be  
ordered to allow adjustment of the  
leaving solution set point remotely.  
Emergency Stop Input A binary input  
is provided on the Unit Control Module  
(UCM) for installation of field provided  
switch or contacts for immediate  
LowAmbient Start Control Two  
functions are integrated into the control  
to allow operation in extreme conditions  
and still protect the overall system. Low  
ambient start control will allow  
shutdown of all unit functions.  
compressor operation below 65°F. In  
order to avoid nuisance tripping, the low  
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(20–60Ton  
Interface)  
Controls  
Generic BuildingAutomation System  
Module (GBAS) Two Generic  
Building Automation System Modules  
(GBAS) are available as an option to  
provide broad control capabilities for  
building automation systems, other than  
theTranesTracer system.  
The 4 analog outputs can be assigned  
to:  
Ice Building Control A contact closure  
on the UCM allows either a field installed  
device or an ICS system to initiate the  
unit to operate in the ice building mode.  
In this mode normal chiller temperature  
control is bypassed and the unit runs  
fully loaded until ice building is  
complete. There are two optional ice  
building modes that can be selected  
through the HI. Ice building is  
terminated when the customer provide  
contacts are opened, Ice Building Stop is  
initiated from theTracer, or the entering  
solution temperature reaches or drops  
below the ice building terminate set  
point.  
1. Leaving SolutionTemperature  
2. Entering SolutionTemperature  
3. Saturated CondenserTemp.  
Ckt 1, 2  
The 0-5 vdc input GBAS Module  
contains 4 analog inputs, one binary  
input for demand limit, and 5 binary  
outputs.  
4. EvaporatorTemp. Ckt 1, 2  
5. Liquid Line Pressure Ckt1, 2  
6. Suction Pressure Ckt 1, 2  
7. Actual Capacity Level  
The 4 analog inputs can accept a 0-5 vdc  
or a three wire potentiometer signal and  
be assigned to:  
8. Outdoor AirTemperature  
One binary output can be assigned to:  
1. Active Unit Diagnostics  
2. Compressors Running Status  
3. Max Capacity  
1. Leaving Solution Set point  
2. Ice BuildTerminate Set point  
3. Hot Start Load Limit Set point  
Option 1 - One time Ice building mode  
allows the unit to run fully loaded until  
the entering solution temperature falls to  
the active ice building terminate set  
point (IBTS)When the entering solution  
temperature reaches the terminate set  
point, the unit will go through  
pumpdown if enabled and remain in Ice  
Complete standby mode until the ice  
build mode is terminated.  
4. Maximum Capacity Level  
Set point  
Hot Gas Bypass (HGBP) The HGBP  
control allows unit operation below the  
minimum step of unloading. Hot gas  
bypass is initiated when the last capacity  
step is running and the capacity control  
algorithm generates a subtract  
command. HGBP remains energized  
until the load increases, the chiller freeze  
protection function is activated, a user  
defined run time has expired, the low  
pressure control is open, or the unit goes  
into ice building mode.  
The 5 binary outputs can be assigned:  
1. Active Unit Diagnostics  
2. Compressor running status  
3. Maximum Capacity (all  
compressors running)  
Option 2 - Continuous ice build mode  
allows the unit to run fully loaded until  
the entering solution temperature falls to  
the active ice building terminate set  
point (IBTS). When the entering solution  
temperature reaches the terminate set  
point, the unit will go through  
pumpdown if enabled, and remain in Ice  
build delay. The unit will remain in ice  
build standby until the ice build timer  
expires. The unit will then start the pump  
and wait for the loop stabilization timer  
to expire. The unit will run fully loaded  
until the entering solution temperature  
falls below the ice build termination set  
point. The unit will continue cycling  
through these ice building states until  
the Ice build mode is terminated or  
changed to option 1.  
4,5. Open - Diagnostics can be  
grouped or individually assigned  
by the user and may be placed  
in these outputs.  
Alarm and Max Capacity Relay These  
features are user selectable and are  
mutually exclusive of each other. If the  
alarm relay output is selected, it will  
provide a way to trigger a field supplied  
alarm whenever the UCM detects a fault  
requiring manual reset. The customer  
can assign which fault modes will trigger  
the alarm relay. The alarm will  
de-energize when the manual reset is  
cleared. When Max Capacity Output is  
selected, it will trigger a field installed  
device indicating the unit has reached its  
maximum cooling stage; this gives the  
customer the ability to turn on auxiliary  
systems to manage comfort.  
The 0-10 vdc input GBAS module  
contains 4 analog inputs, one binary  
input for demand limit, four analog  
outputs and one binary output.  
The 4 analog inputs can accept a 0-10  
vdc signal and be assigned to:  
1. Leaving Solution Set point  
2. Ice BuildTerminate Set point  
3. Hot Start Load Limit Set point  
4. Maximum Capacity Level Set point  
36  
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Electrical  
Data - 60 HZ  
(10–60Ton)  
Table ED-1 — Electrical Data  
UnitWiring  
Motor Data  
Model  
Number  
Nameplate  
Voltage  
Voltage  
Range  
Max Fuse Rec. Dual  
Compressor (Ea)  
Fans (Ea)  
KW  
Tons  
MCA  
Size  
Element  
Qty.  
RLA  
LRA  
Qty  
FLA  
CGA120B1 208-230/60/1  
CGA120B3 208-230/60/3  
187-254  
187-254  
414-506  
518-632  
74  
100  
50  
30  
2
2
2
2
30.0  
14.4  
9.5  
169  
128  
63  
1
1
1
1
.95  
.95  
.95  
.95  
6.0  
6.0  
2.7  
2.0  
38.4  
24.1  
18.4  
10  
CGA120B4  
CGA120BW  
460/60/3  
575/60/3  
25  
7.3  
49  
CGA180B3 208-230/60/3  
187-254  
414-506  
518-632  
66  
35  
28  
90  
45  
35  
2
2
2
26.6  
14.3  
11.3  
208  
91  
2
2
2
1.03  
1.03  
1.03  
3.1  
1.6  
1.2  
15  
20  
CGA180B4  
CGA180BW  
460/60/3  
575/60/3  
200/60/3  
68  
180-220  
98  
125  
110  
2
39.4  
269  
2
0.9  
4.1  
230/60/3  
460/60/3  
575/60/3  
200/60/3  
230/60/3  
460/60/3  
575/60/3  
200/60/3  
230/60/3  
460/60/3  
575/60/3  
200/60/3  
208-254  
416-508  
520-635  
180-220  
208-254  
416-508  
520-635  
180-220  
208-254  
416-508  
520-635  
180-220  
208-254  
416-508  
520-635  
180-220  
208-254  
416-508  
520-635  
180-220  
208-254  
98  
44  
33  
124  
124  
56  
44  
146  
146  
65  
51  
187  
186  
82  
62  
224  
223  
125  
110  
2
2
2
2
2
2
2
2
2
2
2
4
4
4
4
4
4
4
4
4
4
39.4  
17.2  
13.2  
39.3,56.9  
39.3,56.9  
17.1,25.4  
13.8,20.2  
56.9  
56.9  
25.1  
19.9  
39.4  
39.4  
17.2  
13.2  
35.5,55.5  
35.5,55.5  
15.5,24.2  
12.4,19.4  
56.9  
56.9  
251  
117  
94  
269,409  
251,376  
117,178  
94,143  
409  
376  
178  
143  
269  
251  
117  
94  
269,409  
251,376  
117,178  
94,143  
409  
376  
2
2
2
3
3
3
3
4
4
4
4
4
4
4
4
6
6
6
6
6
6
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
0.9  
4.1  
1.8  
1.4  
4.1  
4.1  
1.8  
1.4  
4.1  
4.1  
1.8  
1.4  
4.1  
4.1  
1.8  
1.4  
4.1  
4.1  
1.8  
1.4  
4.1  
4.1  
CGAF-C20  
CGAF-C25  
CGAF-C30  
CGAF-C40  
60  
50  
45  
40  
175  
175  
80  
60  
200  
200  
80  
70  
225  
225  
90  
70  
250  
250  
150  
150  
70  
50  
175  
175  
80  
60  
200  
200  
90  
70  
250  
250  
25  
30  
40  
50  
230/60/3  
460/60/3  
575/60/3  
200/60/3  
230/60/3  
460/60/3  
575/60/3  
200/60/3  
230/60/3  
460/60/3  
CGAF-C50  
CGAF-C60  
98  
77  
270  
269  
110  
90  
300  
300  
110  
90  
300  
300  
60  
416-508  
120  
125  
125  
4
25.4  
178  
6
0.9  
1.8  
575/60/3  
520-635  
95  
110  
100  
4
20.2  
143  
6
0.9  
1.4  
Notes:  
1. MCA: Minimum Circuit Ampacity is 125% of the largest compressor RLA, plus 100% of the other compressor(s) RLA, plus the sum of the condenser fan FLA, plus any other  
load rated at 1 AMP or more  
2. Maximum Fuse Size: 225% of the largest compressor RLA, plus 100% of the other compressor(s) RLA, plus the sum of the condenser fan FLA, plus any other load rated at 1  
AMP or more  
3. Recommended Dual Element Fuse Size: 150% of the largest compressor RLA plus 100% of the other compressor(s) RLA plus the sum of the condenser fan FLA plus any  
other load rated at 1 AMP or more.  
4. RLA: Rated in accordance with UL standard 1995.  
5. Local codes may take precedence.  
6. All units are across the line starting. Compressors will never start simultaneously.  
7. One 115/60/1, 15 AMP jobsite provided power connection is required to operate the evaporator heat tape.  
Load Definitions  
Select a fuse rating equal to the MOP  
value. If the MOP value does not equal a  
standard fuse size as listed in NEC 240-6,  
select the next lower standard fuse  
rating.  
RDE = (1.5 x LOAD1) + LOAD2 +  
LOAD4  
LOAD1 = Current of the largest motor —  
compressor or fan motor  
Select a fuse rating equal to the RDE  
value. If the RDE value does not equal a  
standard fuse size as listed in NEC 240-6,  
select the next higher standard fuse  
rating.  
LOAD2 = Sum of the currents of all  
remaining motors  
NOTE: If selected MOP is less than the  
MCA, then reselect the lowest standard  
maximum fuse size which is equal to or  
larger than the MCA, provided the  
reselected fuse size does not exceed 800  
amps.  
LOAD3 = Current of electric heaters  
LOAD4 = Any other load rated at 1 amp  
or more  
NOTE: If the selected RDE is greater than  
the selected MOP value, then reselect  
the RDE value to equal the MOP value.  
MCA = (1.25 x LOAD1) + LOAD2 +  
LOAD4  
DSS = 1.5 x (LOAD1 + LOAD2 +  
LOAD3 + LOAD4)  
MOP = (2.25 x LOAD1) + LOAD2 +  
LOAD4  
Select a disconnect switch size equal to  
or larger than the DSS value calculated.  
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Electrical  
Data - 50 HZ  
(10–60Ton)  
Table ED-2 — Electrical Data  
UnitWiring  
Motor Data  
Model  
Number  
Nameplate  
Voltage  
Voltage  
Max Fuse Rec. Dual  
Compressor (Ea)  
Fans (Ea)  
KW  
Tons  
10  
Range  
342-456  
342-456  
MCA  
24.1  
30.0  
Size  
Element  
Qty.  
2
RLA  
LRA  
63  
Qty  
1
FLA  
2.7  
1.6  
CGA100BD 380-415/50/3  
CGA150BD 380-415/50/3  
30  
9.5  
0.57  
0.33  
15  
40  
2
11.9  
91  
2
20  
CGAF-C20  
380/50/3  
415/50/3  
342-418  
373-456  
44  
44  
60  
60  
50  
50  
2
2
17.2  
17.2  
110  
110  
2
2
0.75  
0.75  
1.7  
1.7  
38050/3  
415/50/3  
342-418  
373-456  
55  
55  
80  
80  
70  
70  
2
2
17.3/25.2  
17.3/25.2  
110/174  
110/174  
3
3
0.75  
0.75  
1.7  
1.7  
25  
30  
CGAF-C25  
CGAF-C30  
380/50/3  
415/50/3  
342-418  
373-456  
65  
65  
80  
80  
80  
80  
2
2
25.2  
25.2  
174  
174  
4
4
0.75  
0.75  
1.7  
1.7  
40  
CGAF-C40  
CGAF-C50  
CGAF-C60  
380/50/3  
415/50/3  
342-418  
373-456  
81  
81  
90  
90  
90  
90  
4
4
17.2  
17.2  
110  
110  
4
4
0.75  
0.75  
1.7  
1.7  
50  
60  
380/50/3  
415/50/3  
380/50/3  
415/50/3  
342-418  
373-456  
342-418  
373-456  
97  
97  
119  
119  
110  
110  
125  
125  
110  
110  
125  
125  
4
4
4
4
15.5/24.2  
15.5/24.2  
25.2  
25.2  
110/174  
110/174  
174  
174  
6
6
6
6
0.75  
0.75  
0.75  
0.75  
1.7  
1.7  
1.7  
1.7  
Notes:  
1. MCA: Minimum Circuit Ampacity is 125% of the largest compressor RLA, plus 100% of the other compressor(s) RLA, plus the sum of the condenser fan FLA, plus any other  
load rated at 1 AMP or more.  
2. Maximum Fuse Size: 225% of the largest compressor RLA, plus 100% of the other compressor(s) RLA, plus the sum of the condenser fan FLA, plus any other load rated at 1  
AMP or more.  
3. Recommended Dual Element Fuse Size: 150% of the largest compressor RLA, plus 100% of the other compressor(s) RLA, plus the sum of the condenser fan FLA, plus any  
other load rated at 1 AMP or more.  
4. RLA: Rated in accordance with UL standard 1995.  
5. Local codes may take precedence.  
6. Control kw includes operational controls only. Does not include evaporator heat tape.  
7. All units are across the line starting. Compressors will never start simultaneously.  
8. One 240/50/1, 5 AMP jobsite provided power connection is required to operate the evaporator heat tape.  
38  
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Dimensional  
Data  
(10Ton)  
Figure DD-1 — CGA-120B Unit Dimensions  
Notes:  
1. Minimum clearance around the perimeter of the unit is 3 feet. Minimum clearance between  
adjacent units is 6 feet.  
2. When installing water pipes, be certain to route them away from the compressor access panels  
to allow for compressor servicing or replacement.  
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Dimensional  
Data  
(15Ton)  
Figure DD-2 — CGA-180B Unit Dimensions  
Notes:  
1. Minimum clearance around the perimeter of the unit is 3 feet. Minimum clearance between  
adjacent units is 6 feet.  
2. When installing water pipes, be certain to route them away from the compressor access panels  
to allow for compressor servicing or replacement.  
40  
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Dimensional  
Data  
(20Ton)  
Figure DD-3 — CGAF-C20 Unit Dimensions  
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Dimensional  
Data  
(25Ton)  
Figure DD-4 — CGAF-C25 Unit Dimensions  
42  
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Dimensional  
Data  
(30Ton)  
Figure DD-5 — CGAF-C30 Unit Dimensions  
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Dimensional  
Data  
(40Ton)  
Figure DD-6 — CGAF-C40 Unit Dimensions  
44  
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Dimensional  
Data  
(50Ton)  
Figure DD-7 — CGAF-C50 Unit Dimensions  
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Dimensional  
Data  
(60Ton)  
Figure DD-8— CGAF-C60 Unit Dimensions  
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(1060Ton)  
Weights  
TableW-1 — Approximate CornerWeights (lbs) 10-Ton Unit  
Isolator Loading  
Tons  
10  
Model Number  
CGA 120B  
1
2
3
4
Operating Wt.  
529  
Shipping Wt.  
576  
161  
164  
103  
101  
TableW-2 — Approximate CornerWeights (lbs) 15-Ton Unit  
Isolator Loading  
Tons  
15  
Model Number  
CGA 180B  
1
2
3
4
Operating Wt.  
788  
Shipping Wt.  
871  
186  
187  
208  
207  
Table W-3 CGAF Unit Weights (lbs)  
Model  
Condenser  
Isolator Loadings Location (lbs)  
Operating  
Shipping  
Tons  
20  
Number  
Fin Type  
Aluminum  
Copper  
Aluminum  
Copper  
1
595  
690  
700  
760  
2
470  
475  
470  
540  
3
470  
490  
490  
580  
4
335  
430  
425  
490  
5
6
Weight (lbs)  
Weight (lbs)  
1870  
2085  
2085  
2370  
1875  
2095  
2085  
2370  
CGAFC20  
CGAFC25  
25  
Aluminum  
Copper  
Aluminum  
Copper  
Aluminum  
Copper  
865  
875  
560  
570  
685  
840  
430  
525  
580  
755  
715  
870  
725  
830  
580  
605  
720  
660  
340  
385  
595  
540  
750  
680  
430  
555  
480  
640  
505  
680  
270  
280  
495  
570  
525  
705  
3060  
3450  
3290  
3680  
3900  
4435  
3065  
3455  
3290  
3675  
3900  
4435  
30  
40  
50  
CGAFC30  
CGAFC40  
CGAFC50  
Aluminum  
Copper  
885  
935  
820  
1220  
855  
875  
985  
920  
620  
1010  
720  
860  
4885  
5820  
4865  
5800  
60  
CGAFC60  
Notes:  
1. Operating weights include refrigerant and water, but do not include weight of accessories.  
2. Shipping weights include refrigerant and crating.  
3. Refer to dimensional data for location of isolator loading points.  
20-25Tons  
30-60Tons  
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Mechanical  
Specifications  
(1015Ton)  
General  
pressure and leak tested to 420 psig  
minimum air pressure and design  
working pressure shall be 376 psig.  
Metal grilles with PVC coating for coil  
protection are optional.  
Vibration Isolation Packages  
Units shall be assembled on heavy  
gauge steel mounting/lifting rails and  
shall be weatherproofed. Units shall  
include hermetic scroll compressors,  
plate fin condenser coil, fan(s) and  
motor(s), controls and complete factory  
installed operating charge of oil and  
R-22 refrigerant. Operating range shall  
be between 115°F and 0°F. Units shall be  
either UL or CSA certified and rated in  
accordance with ARI Standard  
Shall reduce transmission of noise and  
vibration to building structures,  
equipment and adjacent spaces.  
Packages shall be available in either  
neoprene-in-shear or spring-flex types.  
Evaporator  
The evaporator shall have independent  
dual refrigerant circuits.The evaporator  
shall be stainless steel braze plate  
construction with a waterside working  
pressure of 350 psig and a refrigerant-  
side working pressure of 300 psig. One  
water pass with a drain connection.  
Condenser Coil Guard  
Metal grille with PVC coating shall be  
provided to alleviate coil damage.  
Power Supply Monitor  
Shall provide protection against phase  
loss/reversal, phase imbalance, incorrect  
phase sequence and low voltage.  
550/590-98.  
Casing  
Condenser Fan and Motor(s)  
Unit casing shall be constructed of  
18-gauge zinc coated heavy gauge,  
galvanized steel. Exterior surfaces shall  
be cleaned, phosphatized and finished  
with a weather-resistant baked enamel  
finish. Units surface shall be tested to  
withstand a 500 consecutive hour salt  
spray durability test. Units shall have  
removable panels which allow access to  
major components and controls.  
ElapsedTime Meter/Number Starts  
Counter  
Direct-drive, statically and dynamically  
balanced propeller fan(s) with aluminum  
blades and electro-coated steel hubs  
shall be used in draw-thru vertical  
discharge position. Either permanently  
lubricated totally enclosed or open  
construction motors shall be provided  
and shall have built-in current and  
thermal overload protection. Motor(s)  
shall be ball bearing type.  
Shall record number of compressor  
starts and operating hours of each  
compressor.  
Integrated Comfort Systems (ICS)  
Interface  
Shall provide the ability to communicate  
with theTraneTracer building  
management system viaTCM.  
Refrigeration System  
Controls  
Unit shall have two separate and  
independent refrigeration circuits. Each  
refrigeration circuit shall have integral  
subcooling circuits. Refrigeration filter  
driers and sight glasses shall be  
provided as standard.  
Flow Switch  
The chiller shall be completely factory  
wired with necessary controls and  
contactor pressure lugs or terminal block  
for power wiring. Control wiring shall be  
24-volt control circuit which includes  
fusing and control transformer.Time  
delay timers to prevent compressors in  
dual compressor units from  
Required as a safety interlock to prevent  
operation of unit without evaporator  
flow.  
Gauges  
Field-installed gauges monitor suction  
and discharge pressures.  
Compressors  
Unit shall have twoTrane direct-drive  
hermetic scroll compressors with  
centrifugal oil pump and provide  
positive lubrication to all moving parts.  
Motor shall be suction gas-cooled and  
shall have a voltage utilization range of  
plus or minus 10 percent of nameplate  
voltage. Crankcase heater, internal  
temperature and current-sensitive  
motor overloads shall be included for  
maximum protection. External high and  
low pressure cutout devices shall be  
provided.  
simultaneous start-up and anti-recycle  
timers shall be standard.  
Factory Installed  
Black Epoxy Coil  
LowAmbient Operation  
The black epoxy coating provides  
excellent protection against aluminum  
corrosion.  
Standard units shall start and operate to  
approximately 50°F. Optional head  
pressure control accessory permits  
operation at lower temperature  
extremes (see General Datasection of  
this catalog).  
Hot Gas Bypass  
Allows unit operation below the  
minimum step of unloading.  
OPTlONS  
Low Leaving SolutionTemperature  
Applications  
Field Installed  
Allows leaving solution temperatures as  
low as 20°F.This capability is standard  
from the factory on both 10 and 15-ton  
models.  
Condenser Coil  
LowAmbient Head Pressure Control  
Coils shall be 3/8copper tubes  
mechanically bonded to configured  
aluminum plate fin as standard. Factory  
Shall modulate the rpm of unit outdoor  
fan motor in response to unit head  
pressure. Accessory provides unit  
cooling operation to outdoor  
temperatures of 0°F.  
48  
CG-PRC007-EN  
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Mechanical  
Specifications  
(2060Ton)  
GENERAL  
other interior unit components. Grilles  
are factory mounted, louvered,  
galvanized steel mesh panels finished  
with an air-dry paint. Grilles will cover all  
open ends of units.  
unit controller shall be suitable to control  
leaving chilled solution temperature for  
comfort or process applications,  
All chillers are factory run-tested to  
confirm proper operation. Units are  
checked on a computer-based test stand  
at typical ambient and water conditions  
and control operation is monitored.  
Units ship with a full operating charge of  
refrigerant and oil.  
automatic compressor sequencing,  
condenser fan sequencing, load limiting  
and anti-recycle functions. Failure  
protections include loss of chilled  
solution flow, chiller freeze protection,  
chilled solution flow interlock, head  
pressure control, pump down control,  
low ambient start, hot start control, and  
low ambient lockout. Leaving and  
entering solution temperature sensor is  
factory installed. Controls include  
auto/stop switch, a leaving water  
Compressors  
Trane 3-D Scroll compressors have  
simple mechanical design with only  
three major moving parts. Scroll type  
compression provides inherently low  
vibration.The 3-D Scroll provides a  
completely enclosed compression  
chamber which leads to increased  
efficiency. Exhaustive testing on the 3-D  
Scroll, including start up with the shell  
full of liquid, has proven that slugging  
does not fail involutes. Direct-drive, 3600  
rpm, suction gas-cooled hermetic motor.  
Trane 3-D Scroll compressor includes  
centrifugal oil pump, oil level sight glass  
and oil charging valve. Each compressor  
shall have crankcase heaters installed,  
properly sized to minimize the amount of  
liquid refrigerant present in the oil sump  
during off cycles.  
Units are constructed of 14-gauge  
welded galvanized steel frame with 14  
and 16-gauge galvanized steel panels  
and access doors. Unit surface is  
phosphatized and finished with an air-  
dry paint.This air-dry paint finish is  
durable enough to withstand a 1000-  
consecutive-hour salt spray application  
in accordance with standard ASTM B117.  
temperature set point adjustment, a  
DeltaT adjustment viewable through the  
unit Human Interface digital display.  
Evaporator  
Unit Controller  
Braze plate construction designed to  
withstand a waterside working pressure  
of 300 psig and a refrigerant side  
working pressure of 225 psig. It has one  
water pass. Etched foil heaters protect  
the evaporator to an ambient of -20°F.  
DDC microprocessor controls shall be  
provided to control all unit functions.The  
control system shall be suitable to  
control comfort and process  
applications.The controls shall be  
factory-installed and mounted in the  
main control panel. All factory-installed  
controls shall be fully commissioned  
(run tested) at the factory.The unit shall  
have a Human Interface Panel with a 16  
key keypad, a 2 line X 40 character clear  
English display as standard to provide  
the operator with full adjustment and  
display of control data functions.The unit  
controls shall be used as a stand-alone  
controller, or as part of a building  
management system involving multiple  
units.  
Flow Switch  
Refrigerant Circuits and Capacity  
Modulation  
This factory supplied item indicates the  
loss of evaporator flow and ships with  
the unit for field installation.  
Twenty to 30-ton sizes have a single  
refrigerant circuit. Forty to 60-ton sizes  
have dual refrigerant circuits. Each  
refrigerant circuit has twoTrane 3-D  
Scroll compressors, piped in parallel,  
with a passive oil management system.  
Passive oil management system  
Strainer (with installation hardware)  
The strainer is required to prevent  
collection of particles within the  
evaporator.  
Condenser  
maintains proper oil levels within  
compressors and has no moving parts.  
Each refrigerant circuit includes a liquid  
line solenoid valve, filter drier, liquid line  
sight glass with moisture indicator,  
thermostatic expansion valve, and  
service valves (liquid and discharge).  
Capacity modulation is achieved by  
turning compressors on and off.Twenty  
to 30-ton sizes have two capacity stages.  
Forty, 50 and 60-ton sizes have four  
capacity stages.The standard leaving  
chilled water temperature range is 40°F  
to 50°F. Options are available for leaving  
chilled solution temperature ranges from  
20° to 29°F, 30° to 39°F, and 51° to 65°F.  
Air-cooled condenser coils have  
configurated aluminum fins  
mechanically bonded to seamless  
copper tubing and integral subcooling  
circuits. Condensers are factory leak-  
tested with air underwater at 425 psig air  
pressure.  
1
The unit shall be equipped with a  
complete microprocessor control  
system.This system shall consist of  
temperature and pressure (thermistor  
and transducer) sensors, printed circuit  
boards (modules), and a unit mounted  
Human Interface Panel. Modules  
(boards) shall be individually replaceable  
for ease of service. All microprocessors,  
boards and sensors shall be factory  
mounted, wired and tested.  
Direct-drive vertical discharge condenser  
fans are statically and dynamically  
balanced.Three-phase condenser fan  
motors with permanently lubricated ball  
bearings and three-phase thermal  
overload protection. Optional low  
ambient units start and operate to 0°F  
with electronic damper assemblies for  
head pressure control.  
The microprocessor boards shall be  
stand-alone DDC controls not dependent  
on communications with an on-site PC  
or a Building Management Network.The  
microprocessors shall be equipped with  
onboard diagnostics, indicating that all  
Unit Controls  
Compressor contactors and unit controls  
are in a weather tight enclosure with  
knockouts for jobsite installed wiring.The  
Decorative grilles provide protection  
from exterior damage to coil surface and  
CG-PRC007-EN  
49  
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Mechanical  
Specifications  
(2060Ton)  
hardware, software and interconnecting  
wiring are in proper operating condition.  
External Chilled Solution Interlock A  
chilled solution pump interlock in  
combination with a flow switch is not  
required for unit protection since the unit  
controller senses loss of flow. If  
additional flow protection is required, or  
if the pump contactor is used to schedule  
the unit, this input may be used.  
cycling capabilities), hot gas bypass is  
still available for applications requiring  
close temperature control at low load  
conditions.  
The modules (boards) shall be protected  
to prevent RFI and voltage transients  
from affecting the boards circuits. All  
field wiring shall be terminated at  
separate, clearly marked terminal strip.  
Direct field wiring to the I/O boards is not  
acceptable.  
Generic BuildingAutomation System  
(GBAS)  
Two modules are available to integrate  
building automation systems other than  
Trane. The modules are designed for  
either 0-5 vdc or 0-10 vdc signals.  
Kw Demand Limit Unit will only be  
allowed to operate on user selected  
quantity of compressors in order to  
maintain the building demand limit.  
The microprocessors memory shall be  
nonvolatile EEPROM type requiring no  
battery or capacitive backup while  
maintaining all data.  
Remote Human Interface (RHI) Panel  
The Remote Human Interface Panel can  
perform all the same functions as unit  
mounted Human Interface Panel, with  
the exception of the Service Mode.  
Ice Building  
2
Two ice building modes are optional and  
can be ordered on the unit. The two  
modes are one time ice build mode and  
continuous ice build mode.  
Zone sensor will be available for zone  
temperature reset.  
The field installed RHI can monitor and  
control up to 4 chillers. The RHI is  
suitable for mounting inside a building,  
up to 5,000 feet from the unit. The RHI is  
wired to the IPCB mounted in each chiller  
with a wire pair communication wiring  
and 24V control wiring.  
3
Miscellaneous Options  
The Human Interface Panels keypad  
display character format shall be 40  
characters x 2 lines.The character font  
shall be 5 x 7 dot matrix plus cursor.The  
display shall be Supertwist Liquid Crystal  
Display (LCD) with blue characters on a  
gray/green background which provides  
high visibility and ease of interface.The  
display format shall be in clear English.  
Two or three digit coded displays are not  
acceptable.  
Trane Communications Interface Module  
(TCI)  
Provides capability to communicate with  
aTrane ICSsystem.  
Remote Set point Potentiometer  
Compressor Current Sensing (CSM)  
Field installed option that allows remote  
adjustment of the leaving solution set  
point.  
This option measures and averages amp  
draw on each compressor.  
Unit Mounted Disconnect  
Zone Sensor (Chilled Solution Reset)  
Non-fused, factory installed, and located  
inside the main control box, this  
disconnect switch features an external  
handle that allows the operator to  
disconnect unit power without having to  
open the control box door.  
Field installed zone sensor that allows  
the leaving chilled solution temperature  
to be reset by the zone temperature.  
4
The keypad shall be equipped with  
16 individual touch-sensitive membrane  
key switches.The switches shall be  
divided into four separate sections and  
be password protected from change  
by unauthorized personnel.The six main  
menus shall be STATUS, SET POINTS,  
DIAGNOSTICS, SETUP,  
Copper Fin Condenser Coils  
Copper fins mechanically bonded to  
seamless copper tubes are available for  
use in corrosive atmospheres  
Isolators  
Spring or neoprene-in-shear isolators  
available for jobsite installation.  
Electronic LowAmbient Damper(s)  
CONFIGURATION and SERVICE MODE.  
Superheat/Sub-Cooling  
Allows the unit to operate down to 0°F  
outdoor ambient conditions.  
Standard power connections include  
main three-phase power and a single  
115-volt, 24-volt single-phase connection  
that handles unit controls.  
In place of externally mounted  
refrigerant gauges, a module can be  
ordered that will calculate and display on  
the Human Interface (HI) each circuits  
superheat and subcooling temperatures.  
Inter-Processor Communication Bridge  
(IPCB)  
This module provides an amplified and  
filtered version of the IPC link for  
connection to a Remote Human Interface  
(RHI) Panel. Each chiller that is tied into a  
RHI must have a IPCB installed.  
Unit accepts any of these jobsite  
supplied contact closures for:  
Hot Gas Bypass  
External Auto/Stop A contact closure  
that will start and stop the unit operation.  
Although unnecessary on scroll chillers  
for comfort applications (due to scroll  
Other Options  
In addition to all of these options,Trane  
can offer in-house design for many  
applications, including special coil  
coating.  
50  
CG-PRC007-EN  
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The standard ARI rating condition full  
load and IPLV are ARI certified. All other  
ratings, including the following, are  
outside the scope of the certification  
program and are excluded:  
Glycol  
50 Hz  
Literature Order Number  
File Number  
CG-PRC007-EN  
PL-RF-CG-PRC007-EN-03-2003  
CG-PRC007-EN-01-2002  
Webb/Mason  
Trane  
Supersedes  
A business of American  
Standard Companies  
Stocking Location  
For more information contact your  
local district office, or e-mail us at  
Trane has a policy of continuous product and product data improvement and reserves the right to change  
design and specifications without notice.  
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