Trane Tsc060 120 Users Manual RT PRC016 EN 10/03

TSC060-120 to the manual 52a69b63-1336-443c-afbe-a8f81fa95f07

2015-01-21

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Packaged Cooling with
Electric Heat Rooftop Units
Precedent™
TSC060-120
50 Hz

February 2004

RT-PRC016-EN

Introduction

Precedent™ . . . The same Trane quality...
with added flexibility. Precedent is a
flexible line of packaged units that covers
a wide variety of applications.
ReliaTel™ microprocessor controls
provide superior flexibility for the
simplest to the most sophisticated
applications. In addition to controls,
Precedent offers many other outstanding
features and option choices.

© 2004 American Standard Inc. All rights reserved

With its sleek compact cabinet, rounded
corners and beveled top, it may just be
the most aesthetically pleasing packaged
unit on the planet. And, of course,
Precedent carries the Trane reputation
for excellence, quality and reliability. It’s
hard to stop a Trane.
From simple applications, to the most
complex, Precedent has the solution.

RT-PRC016-EN

Contents

RT-PRC016-EN

Introduction

2

Features and Benefits

4

Application Considerations

9

Selection Procedure

10

Model Number Description

12

General Data

13

Performance Data

14

Zone Controls

33

Electrical Data

34

Jobsite Connections

35

Dimensional Data

36

Weights

44

Mechanical Specifications

45

3

Features and
Benefits

Easy Access Panels
Remove two screws for access to the
standardized internal components and
wiring.
Easy-Adjust Idler Arm
With the Easy-Adjust Idler Arm, the belt
and sheaves can be quickly adjusted
without moving the mounted fan motor.
The result is a major savings in time and
money.

Patented Condenser Coil
Precedent boasts a patented 1+1+1
Hybrid coil, permanently gapped for
easy of cleaning.

Unit Cabinet
The compact cabinet with rounded
corners takes up less room and is less
costly to ship. The beveled and ribbed
top is not only aesthetically pleasing, it is
designed to prevent water from pooling.
Single Point Power
A single electrical connection powers the
unit.

Colored And Numbered Wiring
You save time and money tracing wires
and diagnosing the unit.

Convertible Units

• The units ship in a downflow
configuration. They can be easily
converted to horizontal by simply
moving two panels.

• Units come complete with horizontal
Compressors
Precedent™ contains the best
compressor technology available to
achieve the highest possible
performance. Our compressor line
includes Trane built reciprocating and
scrolls.

duct flanges so the contractor doesn’t
have to field fabricate them. These
duct flanges are a time and cost saver.

Sloped Drain Pans
Every Precedent unit has a noncorrosive, removable, double-sloped
drain pan that’s easy to clean and
reversible to allow installation of drain
trap on either side of the unit.
Through the Base Condensate
Every unit includes provisions for
through the base condensate drain
connections. This allows the drain to be
connected through the roof curb instead
of a roof penetration.
Foil-Faced Insulation
All panels in the Evaporator section of
the unit have cleanable foil-faced
insulation. All edges are either captured
or sealed to ensure no fibers get into the
airstream.

Easy Access Panels
Easy access panels reduce the number of
possible water entry points.
Low Ambient Cooling
All Precedent units have cooling
capabilities down to 0°F as standard.

Unit Base
For added water integrity, Precedent has
a raised 29 mm (1 1/8") lip around the
unit’s downflow supply and return to
prevent water from blowing into the
ductwork.
4

RT-PRC016-EN

Features and
Benefits

Standardized Components

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

Flexible Applications
• Only two roof curbs for the 5-10 ton
Precedent line. . .simplifies curb
selection.
• ReliaTel microprocessor controls to
meet either the simple or the more
complex application.
• Airflow is outstanding. The Precedent
can replace an older machine with old
ductwork and, in many cases, improve
comfort through better air distribution.
• Belt drive — standard or oversized
supply fan motors meet a wide airflow
range.
• Precedent offers ultimate flexibility.
Options and components are not prepackaged at the factory. Units are built
to order in our standard “shortest in
the industry” ship cycle time.

Easy Access Low Voltage Terminal
Board
Precedent’s Low Voltage Terminal Board
is external to the electrical control
cabinet. It is extremely easy to locate and
attach the thermostat wire. This is
another cost and time saving installation
feature.

Low Voltage Connections
The wiring of the low voltage
connections to the unit and the zone
sensors is as simple as 1-1, 2-2, and 3-3.
This simplified system makes it easy for
the installer to wire
Single-Side Service
Single-side service is standard on all
Precedent units.

RT-PRC016-EN

5

Features and
Benefits
• Eliminates the need for field-installed
components with its built-in antishort-cycle timer, time delay relay
and minimum ‘’on’’ time controls.
These controls are factory tested to
assure proper operation.

Micro Controls
Several years ago, Trane was the first to
introduce microprocessor controls into
the Light Commercial Market. That
design, along with immeasurable
experience, has provided the
technology for Trane’s secondgeneration ReliaTel™ microprocessor
controls.
ReliaTel™ Micro:
• Provides unit control for heating,
cooling, and ventilating by utilizing
input from sensors that measure
outdoor and indoor temperature.
• Improves quality and reliability
through the use of time-tested
microprocessor controls and logic.
• Prevents the unit from short cycling,
considerably improving compressor
life.
• Ensures that the compressor will run
for a specific amount of time, which
allows oil to return for better
lubrication, enhancing the reliability of
the compressor.

• Requires no special tools to run the
Precedent unit through its paces
during testing. Simply place a
jumper between Test 1 and Test 2
terminals on the Low Voltage
Terminal Board and the unit will walk
through its operational steps. The
unit automatically returns control to
the zone sensor after stepping
through the test mode a single time,
even if the jumper is left on the unit.
• As long as the unit has power and
the LED is lit, the Micro is
operational. The light indicates that
the Micro is functioning properly.
• Features expanded diagnostic
capabilities when used with Trane’s
Integrated Comfort ™ Systems.
• As an energy benefit, softens
electrical ‘’spikes’’ by staging on fans,
compressors and heaters.
• The Intelligent Fallback or Adaptive
Control is a benefit to the building
occupant. If a component goes
astray, the unit will continue to
operate at predetermined
temperature set points.
• Intelligent Anticipation is a standard
feature of the Micro. Functioning
constantly, the Micro and zone
sensors work together in harmony,
to provide tight comfort control.

• Reduces the number of components
required to operate the unit, thereby
reducing possibilities for component
failure.

6

RT-PRC016-EN

Features and
Benefits
Factory-installed Options
Hinged Access Doors
These doors permit easy access to the
filter, fan/heat, and compressor/control
sections. They reduce the potential roof
damage from screws or sharp access
door corners.
Economizer
Equipped with either dry bulb, reference
or comparative enthalpy sensing, this
feature provides free cooling as the
outdoor temperature and/or humidity
decreases. Economizers, correctly
installed, offer a valuable energy
savings. Factory-installed economizers
save time and ensure proper installation.
Phase Monitor
Phase monitor shall provide 100%
protection for motors and compressors
against problems caused by phase loss,
phase imbalance, and phase reversal.
Phase monitor is equipped with an LED
that provides an ON or FAULT indicator.
Clogged Filter/Fan Fail Switches
These sensors allow a zone sensor
service light or Integrated Comfort
System to indicate a dirty filter or a fan
that’s not working. The field installation
charges for these valuable feedback
devices often eliminate them from
consideration. Factory installation can
make such features a good investment.

The following options round-out the
complete line of Precedent™ options:
— 0 - 50% Manual or Motorized
Outside Air
— Hail Protection Quality Coil Guards
— Electric Heaters (available as field
installed accessories)
— Discharge Air Sensor
— Wide array of Zone Sensors and
Thermostats
— Factory built Roof Curb
One of Our Finest Assets:
Trane Sales Representatives are a
Support group that can assist you with:
— Product
— Application
— Service
— Training
— Special Applications
— Specifications
— Computer Programs and much more
Precedent has the features and benefits
that make it first class in the light
commercial rooftop market. Designed
with input from field contractors and
engineers, its airflow performance is
outstanding.
Precedent…The same Trane
quality…with added flexibility.

Comm-3/4 Trane Communication
Interface
Available factory or field-installed. This
module when applied with ReliaTel™
easily interfaces with Trane’s Integrated
Comfort™ System.

RT-PRC016-EN

7

Features and
Benefits

Quality And Reliability Testing

• All Precedent™ designs were rigorously
rain tested at the factory to ensure
water integrity.
• Actual shipping tests were performed
to determine packaging requirements.
Units were test shipped around the
country to determine the best
packaging.
• Factory shake and drop tests were
used as part of the package design
process to help assure that the unit
arrives at the job site in top condition.
• Rigging tests include lifting a unit into
the air and letting it drop one foot,
assuring that the lifting lugs and rails
hold up under stress.

• We perform a 100% coil leak test at the
factory. The evaporator and condenser
coils are leak tested at 1375 kPa (200
psig) and pressure tested to 3100 kPa
(450 psig).
• All parts are inspected at the point of
final assembly. Sub-standard parts are
identified and rejected immediately.
• Every unit receives a 100% unit run test
before leaving the production line to
make sure it lives up to rigorous Trane
requirements.
We test designs at our factory not on
our customers!

VariTrac™

VariTrac
When Trane’s changeover VAV System
for light commercial applications is
coupled with Precedent, it provides the
latest in technological advances for
comfort management systems and can
allow thermostat control in every zone
served by VariTrac.

8

RT-PRC016-EN

Application
Considerations

Application of this product should be
within the cataloged airflow and cooling
considerations.
Low Ambient Cooling
The Precedent™ line features, with
ReliaTel™ microprocessor controls, low
ambient cooling down to 18°C (0°F).
Contact your local Trane Representative
for more assistance with low ambient
cooling applications.
Barometric Relief
This product line offers an optional
barometric relief damper. for use in
conjunction with economizer option.
This accessory consists of gravity
dampers which open with increased
pressure. As the building air pressure
increases, the pressure in the unit return
air section also increases, opening the
dampers and relieving the conditioned
space.

Condensate Trap
The evaporator is a draw-thru
configuration. A trap must be field
provided prior to start-up on the cooling
cycle.
Clearance Requirements
The recommended clearances identified
with unit dimensions should be
maintained to assure adequate service
maximum capacity and peak operating
efficiency. Actual clearances which
appear inadequate should be reviewed
with the local Trane sales personnel.
Unit Pitch
These units have reversible sloped
condensate drain pans. Units must be
installed level, any unit slope must be
toward the side of unit where
condensate drain is connected.

NOTE: THE EFFECTIVENESS OF
BAROMETRIC RELIEF DAMPER
DURING ECONOMIZING OPERATION
IS SYSTEM RELATED.
PRESSURE DROP OF THE RETURN AIR
SYSTEM SHOULD BE CONSIDERED TO
CONTROL BUILDING PRESSURIZATION.

RT-PRC016-EN

9

Selection
Procedure - SI Units

Cooling Capacity
Step 1
Calculate the building’s total and sensible
cooling loads at design conditions. Use
the Trane calculation methods or any
other standard accepted method.
Factors used in unit selection:
A
Total Cooling Load: 16.7 kW
B
Sensible Cooling Load: 11.7 kW

Step 3
In order to select the correct unit which
meets the building’s requirements, the
fan motor heat must be deducted from
the gross cooling capacity. The amount
of heat that the fan motor generates is
dependent on the effort by the motor cfm and static pressure. To determine
the total unit static pressure:
External Static (duct system)
110 Pa

Heating Capacity
Step 1
Calculate the building heating load using
the Trane calculation form or other
standard accepted method.
Step 2
Size the system heating capacity to
match the calculated building heating
load. The following are building heating
requirements:

Standard Filter 1 in.
from Table PD-21

37 Pa

A
Total heating load of 5 kW

Economizer

5 Pa

D
Electrical Characteristics: 380-415/50/3

B
2000 cfm

(100% Return Air)
Table PD-21

from

E
Summer Design Conditions: Entering
Evaporator Coil: 27 DB, 19 WB Outdoor
Ambient: 35

C
380 volt/3 phase Power Supply

Electric Heater Size 7.5 kW
from Table PD-21

17 Pa

Total Static Pressure

169 Pa

F
External Static Pressure: 110 Pa

Note: The Evaporator Fan Performance
Table PD-6 has deducted the pressure
drop for a 25 mm filter already in the
unit (see note below Table PD-6).
Therefore, the actual total static pressure
is 169-17 (from Table PD-21) = 152 Pa.

The electric heat accessory capacities are
listed in Table PD-23. From the table, the
smallest heater will deliver 7.5 kW at
380 V. Referring to Table ED-2, the
electric heater selection is
BAYHTRR412A.

C
Airflow: 3400 m3/h

Step 2
Table PD-1 shows that a TSC060AD has a
gross cooling capacity of 17.8 kW and
14.4 kW sensible capacity at 3400 m3/h
and 35 DB outdoor ambient with 27 DB,
19 WB air entering the evaporator.
To Find Capacity at Intermediate
Conditions Not in the Table
When the design conditions are between
two numbers that are in the capacity
table, interpolation is required to
approximate the capacity. Note:
Extrapolation outside of the table
conditions is not recommended.

With 3400 m3/h and 152 Pa
Table PD-6 shows .67 kW for this unit.
Note below the table gives a formula to
calculate Fan Motor Heat,
Fan Motor Heat (kw) =
1.144 x (Fan kW) + 0.132
= 1.144 x 0.67 + 0.132 = 0.90 kW
Now subtract the fan motor heat from
the gross cooling capacity of the unit:
Net Total Cooling Capacity
= 17.8 kW - 0.9 = 16.9 kW.

Air Delivery Selection
External static pressure drop through the
air distribution system has been
calculated to be 110 Pa. From Table PD21 static pressure drop through the
economizer is 5 Pa and the 7.5 kW heater
is 17 Pa (110 + 5 + 17). Enter Table PD-6
for a TSC060AD at 3400 m3/h and 132 Pa
static pressure. The standard motor will
give the desired airflow at a rated kW of
0.64.
Accessory Selection
Select accessories needed to
accommodate the application.

Net Sensible Cooling Capacity
= 14.4 kW - 0.9 = 13.5 kW.
Step 4
If the performance will not meet the
required load of the building’s total or
sensible cooling load, try a selection at
the next higher size unit.

10

RT-PRC016-EN

Selection
Procedure - IP Units

Cooling Capacity
Step 1
Calculate the building’s total and sensible
cooling loads at design conditions. Use
the Trane calculation methods or any
other standard accepted method.
Factors used in unit selection:
A
Total Cooling Load: 59 MBh
B
Sensible Cooling Load: 40 MBh

Step 3
In order to select the correct unit which
meets the building’s requirements, the
fan motor heat must be deducted from
the gross cooling capacity. The amount
of heat that the fan motor generates is
dependent on the effort by the motor cfm and static pressure. To determine
the total unit static pressure:
External Static (duct system)
0.45 wg

Heating Capacity
Step 1
Calculate the building heating load using
the Trane calculation form or other
standard accepted method.
Step 2
Size the system heating capacity to
match the calculated building heating
load. The following are building heating
requirements:

Standard Filter 1 in.
from Table PD-21a

0.15 wg

A
Total heating load of 15 MBH

Economizer

0.02 wg

B
2000 cfm

D
Electrical Characteristics: 380-415/50/3

(100% Return Air)
Table PD-21a

from

C
380 volt/3 phase Power Supply

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

Electric Heater Size 26 MBh
from Table PD-21a

0.07 wg

Total Static Pressure

0.69 wg

The electric heat accessory capacities are
listed in Table PD-23a. From the table,
the smallest heater will deliver 26 MBh at
380 volts. Referring to Table ED-2, the
electric heater accessory selection is
BAYHTRR412A.

C
Airflow: 2000 cfm

F
External Static Pressure: 0.45 in. wg
Step 2
Table PD-1a shows that a TSC060AD has
a gross cooling capacity of 62.0 MBh and
46.4 MBh sensible capacity at 2000 cfm
and 95 DB outdoor ambient with 80 DB,
67 WB air entering the evaporator.
To Find Capacity at Intermediate
Conditions Not in the Table
When the design conditions are between
two numbers that are in the capacity
table, interpolation is required to
approximate the capacity. Note:
Extrapolation outside of the table
conditions is not recommended.

Note: The Evaporator Fan Performance
Table PD-6a has deducted the pressure
drop for a 1 in. filter already in the unit
(see note below Table PD-6a). Therefore,
the actual total static pressure is 0.69 0.15 (from Table PD-21a) = 0.50 wg.
With 2000 cfm and 0.50 wg.
Table PD-6a shows .83 bhp for this unit.
Note below the table gives a formula to
calculate Fan Motor Heat,
Fan Motor Heat (MBh) =
2.915 x (Fan BHP) + 0.451
= 2.915 x 0.83 + 0.451 = 2.87 MBh
Now subtract the fan motor heat from
the gross cooling capacity of the unit:
Net Total Cooling Capacity
= 62 MBh - 2.87 = 59.1 MBh.
Net Sensible Cooling Capacity
= 46.4 MBh - 2.87 = 43.5 MBh.

Air Delivery Selection
External static pressure drop through the
air distribution system has been
calculated to be 0.45 inches of water.
From Table PD-21a static pressure drop
through the economizer is 0.02 and the
26 kW heater is 0.07 inches of water (0.45
+ 0.02 + 0.07). Enter Table PD-6a for a
TSC060AD at 2000 cfm and 0.54 static
pressure. The standard motor will give
the desired airflow at a rated bhp of
about 1.01.
Accessory Selection
Select accessories needed to
accommodate the application.

Step 5
If the performance will not meet the
required load of the building’s total or
sensible cooling load, try a selection at
the next higher size unit.

RT-PRC016-EN

11

Model
Number
Description
T

S

C 060 A

D

R

O

1

2

3 4,5,6 7

8

9

10 11 12,13 14 15 16 17

A

**

C

0

0

0

0

0

0

0

18 19 20 21

0

0

0

1

22 23 24 25

Digit 1 - Unit Function
T = DX Cooling

Digits 12, 13 - Service Sequence
** = Factory Assigned

Digit 18 - Through the Base Provisions
0 = No Through the Base Provisions

Digit 2 - Efficiency
S = Standard Efficiency

Digit 14 - Fresh Air Selection
0 = No Fresh Air
A = Manual Outside Air Damper 0-50%
B = Motorized Outside Air Damper 0-50%
C = Economizer, Dry Bulb 0-100%
without Barometric Relief
D = Economizer, Dry Bulb 0-100%
with Barometric Relief
E = Economizer, Reference Enthalpy
0-100% without Barometric Relief
F = Economizer, Reference Enthalpy
0-100% with Barometric Relief
G = Economizer, Comparative Enthalpy
0-100% without Barometric Relief
H = Economizer, Comparative Enthalpy
0-100% with Barometric Relief

Digit 19 - Disconnect/Circuit Breaker/Phase
Monitor (3 phase only)
0 = No Disconnect or Circuit Breaker
3 = Phase Monitor Only (No Disconnect,
No Circuit Breaker)

Digit 3 - Airflow
C = Convertible
Digits 4,5,6 - Nominal Gross Cooling
Capacity (MBh)
kW
Tons
060 = 17.6
5
072 = 21.1
6
090 = 26.4
7.5
102 = 29.9
8.5
120 = 35.1
10
Digit 7 - Major Design Sequence
A = First
Digit 8 - Unit Voltage
D = 380-415/50/3
Digit 9 - Unit Controls
R = ReliaTel™ Microprocessor
Digit 10 - Heating Capacity
0 = No Electric Heat
Digit 11 - Minor Design Sequence
A = First Sequence

12

Digit 15 - Supply Fan/Drive Type/Motor
0 = Standard Drive
1 = Oversized Motor
Digit 16 - Hinged Service Access/Filters
0 = Standard Panels/Standard Filters
A = Hinged Access Panels/Standard Filters
B = Standard Panels/
50 mm (2”) Pleated Filters
C = Hinged Access Panels/
50 mm (2”) Pleated Filters
Digit 17 - Condenser Coil Protection
0 = Standard Coil
1 = Standard Coil with Hail Guard
2 = Epoxy Coated Condenser Coil
3 = Epoxy Coated Condenser Coil with
Hail Guard

Digit 20 - Convenience Outlet
0 = No Convenience Outlet
Digit 21 - Communications Options
0 = No Communications Interface
1 = Comm-3/4 Communications Interface
2 = Comm-5 Communications Interface
Digit 22 - Refrigeration System Option
0 = Standard Refrigeration System
Digit 23 - Refrigeration Controls
0 = No Refrigeration Control
Digit 24 - Smoke Detector
0 = No Smoke Detector
Digit 25 - Monitoring Controls
0 = No Monitoring Control
1 = Clogged Filter Switch
2 = Fan Failure Switch
3 = Discharge Air Sensing Tube
4 = Clogged Filter Switch and Fan Fail
Switch
5 = Clogged Filter Switch and Discharge
Air Sensing Tube
6 = Fan Fail Switch and Discharge Air
Sensing Tube
7 = Clogged Filter and Fan Fail Switches
and Discharge Air Sensing Tube

RT-PRC016-EN

General
Data

Table GD - 1 — General Data

Cooling Performance 1
Gross Capacity - kW (MBh)
COP (EER)2
Nominal Airflow - m3/h (cfm)
Rated Airflow - m3/h (cfm)
Net Capacity - kW (MBh)
System Power - kW
Compressor
Number -Type
Outdoor Sound Rating - dB 3
Outdoor Coil - Type
Tube Size - in. OD
Face Area - m2 (sq ft)
Rows / FPI
Indoor Coil - Type
Tube Size OD - in.
Face Area - m2 (sq ft)
Rows / FPI
Refrigerant Control
Drain Connection No. / Size - in.
Outdoor Fan - Type
No. Used / Diameter - in.
DriveType / No. Speeds
CFM
No. Motors / kW (HP)
Motor RPM
Belt Drive Indoor Fan -Type
No. Used
Fan Diameter x Width - mm (in.)
DrvieType / No. Speeds
No. Motors
Standard Motor Power - kW (HP)
Oversized Motor Power - kW (HP)
Motor RPM - Standard / Oversized
Motor Frame Size
Filters - Type Furnished
(No.) Size Reccommended - mm
(No.) Size Reccommended - in.
Refrigerant Charge - kg (lbs) of R-22 4

Convertible Units
TSC060AD

Convertible Units
TSC072AD

Convertible Units
TSC090AD

Convertible Units
TSC102AD

Convertible Units
TSC120AD

18.2 (62.0)
2.99 (10.2)
3400 (2000)
3400 (2000)
17.3 (59.0)
5.78

23.2 (79.0)
3.08 (10.5)
4080 (2400)
3570 (2100)
22.0 (75.0)
7.14

26.7 (91.0)
3.02 (10.3)
5100 (3000)
4460 (2625)
25.2 (86.0)
8.35

31.1 (106.0)
3.02 (10.3)
5780 (3400)
5100 (3000)
29.9 (102.0)
9.90

34.9 (119.0)
2.99 (10.2)
6800 (4000)
5950 (3500)
33.1 (113.0)
11.08

1-Climatuff Scroll
80
Lanced
0.3125
1.02 (10.96)
3 / 17
Lanced
0.3125
0.62 (6.68)
3 / 16
Short Orifice
1 / 0.75 NPT
Propeller
1 / 22
Direct / 1
2900
1 / 0.30 (0.40)
950
FC Centrifugal
1
280 X 280 (11 x 11)
Belt / Variable Speed
1
1.1 (1.5)
1450 / 56
Throwaway
(2) 508 X 762 X 25
(2) 20 X 30 X 1
3.7 (8.2)

1-Trane 3-D Scroll
85
Lanced
0.3125
1.29 (13.88)
2 / 17
Lanced
0.3125
0.92 (9.89)
2 / 16
Short Orifice
1 / 0.75 NPT
Propeller
1 / 26
Direct / 1
5100
1 / .56 (0.75)
950
FC Centrifugal
1
305 X 305 (12 x 12)
Belt / Variable Speed
1
1.1 (1.5)
1.5 (2.0)
1450 / 1450
56
Throwaway
(4) 406 X 635 X 50
(4) 16 X 25 X 2
3.7 (8.2)

1-Trane 3-D Scroll
85
Lanced
0.3125
1.29 (13.88)
2 / 17
Lanced
0.3125
0.92 (9.89)
3 / 16
Short Orifice
1 / 0.75 NPT
Propeller
1 / 26
Direct / 1
5200
1 / .56 (0.75)
950
FC Centrifugal
1
305 X 305 (12 x 12)
Belt / Variable Speed
1
1.5 (2.0)
2.2 (3.0)
1450 / 2850
56
Throwaway
(4) 406 X 635 X 50
(4) 16 X 25 X 2
4.5 (10.0)

2-Climatuff Scroll
83
Lanced
0.3125
1.75 (18.89)
2 / 17
Lanced
0.3125
1.15 (12.36)
3 / 16
Short Orifice
1 / 0.75 NPT
Propeller
1 / 26
Direct / 1
5500
1 / .56 (0.75)
950
FC Centrifugal
1
381 X 381 (15 x 15)
Belt / Variable Speed
1
1.5 (2.0)
2.2 (3.0)
1450 / 2850
56
Throwaway
(4) 508 X 635 X 50
(4) 20 X 25 X 2
Circuit 1 - 3.8 (8.3)
Circuit 2 - 2.0 (4.4)

2-Climatuff Scroll
79
Lanced
0.3125
2.41 (25.92)
2 / 17
Lanced
0.3125
1.15 (12.36)
4 / 16
Short Orifice
1 / 0.75 NPT
Propeller
1 / 26
Direct / 1
5800
1 / .56 (0.75)
950
FC Centrifugal
1
381 X 381 (15 x 15)
Belt / Variable Speed
1
2.2 (3.0)
2850 / 56
Throwaway
(4) 508 X 635 X 50
(4) 20 X 25 X 2
Circuit 1 - 3.4 (7.5)
Circuit 2 - 3.3 (7.3)

Notes:
1. Cooling Performance is rated at 35.0 C (95 F) ambient, 26.7 C (80 F) entering dry bulb, 19.4 C (67 F) entering wet bulb. Gross capacity does not include the effect of fan motor
heat. Net capacity includes the effect of fan motor heat. Units are suitable for operation to ± 20 % of nominal airflow.
2. EER are rated at ARI conditions.
3. Outdoor Sound rating shown is tested in accordance with ARI Standard 270. For more information refer to Performance Data Table "Sound Power Level".
4. Refrigerant charge is an approcimate value. For a more precise value, see unit nameplate and service literature.

RT-PRC016-EN

13

Performance
Data

Table PD-1 — Gross Cooling Capacities (kW) - TSC060AD - (SI)
Ambient Temperature (C)

m3/h
Airflow
3060

3400

3740

4080

Enter.
Dry
Bulb
Temp
(C)
24
27
30
33
24
27
30
33
24
27
30
33
24
27
30
33

30

35

40

45

Entering Wet Bulb Temperature (C)
16
19
22
16
19
22
16
19
22
16
19
22
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
16.2 13.9 18.5 11.3 19.9 8.3 15.0 13.3 17.4 11.3 19.3 8.0 13.9 12.7 16.1 10.7 18.4 7.5 12.7 12.1 14.7 9.5 17.3 7.0
16.7 16.7 18.6 14.1 20.0 11.1 15.8 15.8 17.4 13.6 19.4 10.8 14.8 14.8 16.1 13.0 18.5 10.3 13.8 13.8 14.7 12.3 17.3 9.8
18.1 18.1 18.7 16.9 20.2 13.6 17.2 17.2 17.7 16.5 19.5 13.5 16.2 16.2 16.5 15.9 18.5 13.1 15.1 15.1 15.1 15.1 17.3 12.6
19.3 19.3 19.2 19.2 20.3 16.2 18.5 18.5 18.5 18.5 19.6 16.1 17.6 17.6 17.6 17.6 18.7 15.9 16.6 16.6 16.6 16.6 17.5 15.4
16.7 14.8 18.8 11.8 20.1 8.6 15.5 14.2 17.8 11.3 19.5 8.3 14.2 13.5 16.5 11.4 18.7 7.7 13.1 12.9 15.0 10.8 17.6 7.2
17.5 17.5 18.9 14.9 20.2 11.4 16.5 16.5 17.8 14.4 19.6 11.2 15.4 15.4 16.5 13.8 18.8 10.8 14.4 14.4 15.1 13.1 17.6 10.3
18.8 18.8 19.1 17.9 20.4 14.1 17.9 17.9 18.2 17.6 19.7 14.1 16.9 16.9 17.0 17.0 18.8 13.8 15.8 15.8 15.8 15.8 17.7 13.4
19.8 19.8 19.8 19.8 20.6 16.8 19.2 19.2 19.2 19.2 19.9 16.9 18.3 18.3 18.3 18.3 19.0 16.8 17.4 17.4 17.4 17.4 17.9 16.4
17.1 15.6 19.1 12.3 20.2 8.8 15.9 15.0 18.1 11.8 19.7 8.5 14.6 14.3 16.8 11.2 18.9 7.9 13.4 13.4 15.3 11.4 17.8 7.5
18.1 18.1 19.2 15.5 20.4 11.6 17.1 17.1 18.2 15.1 19.8 11.5 16.0 16.0 16.9 14.6 19.0 11.3 14.9 14.9 15.4 13.9 17.9 10.8
19.3 19.3 19.5 18.7 20.6 14.5 18.5 18.5 18.6 18.6 20.0 14.6 17.6 17.6 17.6 17.6 19.1 14.4 16.5 16.5 16.5 16.5 17.9 14.1
20.2 20.2 20.2 20.2 20.8 17.4 19.6 19.6 19.6 19.6 20.2 17.6 18.9 18.9 18.9 18.9 19.3 17.6 18.0 18.0 18.0 18.0 18.3 17.4
17.4 16.4 19.3 12.6 20.3 9.1 16.2 15.8 18.4 12.2 19.8 8.8 14.9 14.9 17.1 11.7 19.0 8.1 13.9 13.9 15.5 12.1 18.0 7.7
18.6 18.6 19.4 16.1 20.5 12.3 17.7 17.7 18.4 15.8 19.9 11.8 16.6 16.6 17.2 15.3 19.1 11.6 15.4 15.4 15.8 14.6 18.1 11.2
19.7 19.7 19.7 19.4 20.7 14.9 19.0 19.0 19.0 19.0 20.1 15.0 18.1 18.1 18.1 18.1 19.3 15.0 17.1 17.1 17.1 17.1 18.2 14.7
20.5 20.5 20.5 20.5 20.9 17.9 20.0 20.0 20.0 20.0 20.4 18.2 19.3 19.3 19.3 19.3 19.5 18.3 18.4 18.4 18.4 18.4 18.6 18.2

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

Table PD-1a — Gross Cooling Capacities (MBH) _ TSC060AD _ (IP)
Ambient Temperature (F)

CFM
Airflow
1800

2000

2200

2400

Enter.
Dry
Bulb
Temp
(F)
75
80
85
90
75
80
85
90
75
80
85
90
75
80
85
90

85

95

105

115

Entering Wet Bulb Temperature (F)
61
67
73
61
67
73
61
67
73
61
67
73
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
56.1 47.1 64.4 37.0 68.8 25.1 51.6 44.7 60.6 36.7 66.9 23.9 47.0 42.4 55.6 34.5 64.0 22.6 42.4 40.1 50.2 30.3 60.0 20.8
57.3 56.5 64.6 45.8 69.3 34.2 53.3 53.3 60.7 43.9 67.3 32.9 49.5 49.5 55.7 41.6 64.2 31.4 45.7 45.7 50.4 39.2 60.1 29.6
61.3 61.3 64.9 54.5 69.7 42.0 57.7 57.7 61.0 52.9 67.6 41.4 53.9 53.9 56.3 50.7 64.4 40.3 50.0 50.0 51.2 48.3 60.2 38.4
65.0 65.0 65.8 63.3 70.4 49.7 62.1 62.1 62.4 62.2 68.0 49.7 58.5 58.5 58.5 58.5 64.6 48.8 54.4 54.4 54.4 54.4 60.3 47.2
57.5 49.8 65.4 38.5 69.3 25.5 53.0 47.5 61.8 38.7 67.5 24.4 48.3 45.1 56.9 36.6 64.7 23.0 43.7 42.8 51.3 34.2 60.9 21.4
59.3 59.3 65.6 47.9 69.8 35.4 55.7 55.7 62.0 46.4 68.0 34.2 51.6 51.6 57.1 44.1 65.0 32.7 47.7 47.7 51.5 41.6 61.0 30.9
63.6 63.6 66.0 57.3 70.5 43.1 60.3 60.3 62.5 56.2 68.3 43.0 56.4 56.4 58.0 54.1 65.2 42.1 52.2 52.2 52.8 51.7 61.2 40.6
66.9 66.9 67.2 66.5 71.1 51.4 64.4 64.4 64.4 64.4 68.9 51.8 61.0 61.0 61.0 61.0 65.6 51.3 57.1 57.1 57.1 57.1 61.5 50.1
58.8 52.5 66.1 39.8 69.6 25.9 54.3 50.2 62.8 38.1 67.9 24.9 49.4 47.8 58.0 38.6 65.3 23.4 44.8 44.8 52.2 36.2 61.6 21.7
61.5 61.5 66.4 49.8 70.3 36.8 57.8 57.8 63.0 48.6 68.3 35.0 53.6 53.6 58.2 46.5 65.6 33.9 49.4 49.4 52.6 44.0 61.8 32.2
65.4 65.4 67.0 59.8 71.0 44.6 62.4 62.4 63.7 59.2 69.0 44.3 58.7 58.7 59.4 57.4 66.0 43.8 54.3 54.3 54.3 54.3 62.0 42.5
68.4 68.4 68.4 68.4 71.7 52.8 66.1 66.1 66.1 66.1 69.6 53.6 63.1 63.1 63.0 63.0 66.4 53.6 59.3 59.3 59.3 59.3 62.4 52.7
60.0 55.1 66.6 40.8 70.0 26.4 55.5 52.8 63.6 39.6 68.3 25.3 50.6 50.4 59.0 37.4 65.7 24.0 46.2 46.2 53.1 38.2 62.2 22.1
63.2 63.2 67.1 51.4 70.7 37.7 59.6 59.6 63.8 50.7 68.8 35.8 55.4 55.4 59.2 48.8 66.2 35.0 51.1 51.1 53.5 46.3 62.4 33.4
66.7 66.7 67.8 62.0 71.5 45.3 64.1 64.1 64.8 61.9 69.5 45.5 60.5 60.5 60.8 60.6 66.6 45.2 56.3 56.3 56.2 56.2 62.7 44.3
69.5 69.5 69.5 69.5 72.1 54.1 67.4 67.4 67.4 67.4 70.2 55.3 64.6 64.6 64.5 64.5 67.1 55.7 61.1 61.1 61.0 61.0 63.2 55.1

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

14

RT-PRC016-EN

Performance
Data

Table PD-2 — Gross Cooling Capacities (kW) - TSC072AD - (SI)
Ambient Temperature (C)

m3/h
Airflow
3670

4080

4490

4900

Enter.
Dry
Bulb
Temp
(C)
24
27
30
33
24
27
30
33
24
27
30
33
24
27
30
33

30

35

40

45

Entering Wet Bulb Temperature (C)
16
19
22
16
19
22
16
19
22
16
19
22
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
20.9 17.5 23.3 14.6 24.6 10.3 19.7 16.8 22.4 13.6 24.0 9.9 18.4 16.1 21.2 12.9 23.2 9.4 17.1 15.4 19.7 12.9 22.0 9.0
21.6 21.2 23.4 17.4 24.8 13.5 20.4 20.4 22.5 17.0 24.1 13.3 19.4 19.4 21.2 16.4 23.3 12.8 18.2 18.2 19.8 15.7 22.1 12.3
22.9 22.9 23.6 20.6 25.0 16.5 22.1 22.1 22.7 20.4 24.3 16.3 21.0 21.0 21.5 19.9 23.5 16.1 19.9 19.9 20.2 19.2 22.2 15.6
24.0 24.0 24.1 23.8 25.2 19.4 23.4 23.4 23.3 23.3 24.5 19.3 22.5 22.5 22.4 22.4 23.6 19.3 21.4 21.4 21.4 21.4 22.3 18.8
21.5 18.5 23.6 15.2 24.8 10.6 20.3 17.9 22.8 14.2 24.2 10.1 19.0 17.2 21.6 13.6 23.4 9.8 17.6 16.4 20.1 12.9 22.3 9.3
22.3 22.3 23.8 18.1 25.1 14.5 21.3 21.3 22.9 17.9 24.3 13.6 20.2 20.2 21.6 17.3 23.6 13.4 19.0 19.0 20.2 16.6 22.4 12.8
23.6 23.6 24.0 21.6 25.3 17.6 22.9 22.9 23.2 21.5 24.6 16.8 21.8 21.8 22.0 21.1 23.7 16.7 20.7 20.7 20.8 20.5 22.5 16.3
24.6 24.6 24.6 24.6 25.5 20.0 23.9 23.9 23.9 23.9 24.8 20.1 23.1 23.1 23.1 23.1 23.9 20.1 22.1 22.1 22.1 22.1 22.7 19.8
22.0 19.5 23.9 15.8 25.0 10.7 20.8 18.9 23.1 14.7 24.4 10.4 19.5 18.2 21.9 14.2 23.5 10.1 18.1 17.4 20.5 13.5 22.5 9.6
22.9 22.9 24.0 18.7 25.3 13.9 22.1 22.1 23.2 18.6 24.5 13.9 20.9 20.9 22.0 18.2 23.7 13.6 19.7 19.7 20.6 17.6 22.6 13.3
24.1 24.1 24.3 22.4 25.5 17.4 23.4 23.4 23.5 22.4 24.8 17.3 22.5 22.5 22.5 22.2 23.9 17.2 21.3 21.3 21.3 21.3 22.8 17.0
25.0 25.0 25.0 25.0 25.7 20.7 24.4 24.4 24.4 24.4 25.1 20.8 23.7 23.7 23.7 23.7 24.2 20.8 22.6 22.6 22.6 22.6 23.1 20.7
22.4 20.3 24.1 16.3 25.2 10.9 21.2 19.8 23.2 15.1 24.5 10.7 19.9 19.1 22.2 14.7 23.6 10.3 18.5 18.4 20.8 14.0 22.7 9.9
23.4 23.4 24.3 19.3 25.5 14.5 22.6 22.6 23.4 19.2 24.7 14.7 21.5 21.5 22.3 19.0 23.8 14.0 20.3 20.3 20.9 18.4 22.8 13.7
24.5 24.5 24.6 23.2 25.6 17.8 23.8 23.8 23.9 23.2 25.0 17.8 23.0 23.0 23.0 23.0 24.1 17.7 21.8 21.8 21.8 21.8 23.0 17.7
25.4 25.4 25.4 25.4 25.9 21.2 24.8 24.8 24.8 24.8 25.3 21.4 24.1 24.1 24.1 24.1 24.4 21.4 23.1 23.1 23.1 23.1 23.4 21.6

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

Table PD-2a — Gross Cooling Capacities (MBH) - TSC072AD - (IP)
Ambient Temperature (F)

CFM
Airflow
2160

2400

2640

2880

Enter.
Dry
Bulb
Temp
(F)
75
80
85
90
75
80
85
90
75
80
85
90
75
80
85
90

85

95

105

115

Entering Wet Bulb Temperature (F)
61
67
73
61
67
73
61
67
73
61
67
73
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
72.2 59.1 80.6 47.1 85.1 31.0 67.5 56.5 77.7 44.1 82.7 29.6 62.6 53.9 73.0 41.8 79.9 28.0 57.4 51.2 67.5 39.2 75.5 26.0
73.8 70.7 81.0 56.1 85.8 42.2 69.4 68.2 77.9 55.0 83.4 40.7 65.0 65.0 73.1 52.6 80.4 39.0 60.6 60.6 67.6 50.0 75.8 36.8
77.7 77.7 81.4 66.3 86.3 51.7 74.3 74.3 78.2 65.6 83.8 50.1 70.3 70.3 73.6 63.5 80.7 49.2 66.0 66.0 68.3 61.0 76.1 47.4
81.3 81.3 82.4 76.3 87.1 59.8 78.8 78.8 79.4 76.0 84.6 59.4 75.1 75.1 75.3 74.6 81.3 59.0 70.8 70.8 70.7 70.7 76.6 57.4
74.2 62.5 81.6 49.2 85.7 31.5 69.3 59.9 78.7 46.0 83.4 30.1 64.4 57.3 74.2 43.7 80.2 28.5 59.1 54.6 68.9 41.1 76.3 26.6
76.1 75.0 82.1 58.2 86.5 43.7 72.1 72.1 79.0 57.4 84.2 42.1 67.9 67.9 74.4 55.4 80.9 40.4 63.3 63.3 69.0 53.0 76.8 38.4
80.0 80.0 82.6 69.1 86.8 52.8 77.1 77.1 79.5 68.7 84.7 51.6 73.1 73.1 75.3 67.3 81.4 50.7 68.7 68.7 70.1 65.0 77.2 49.4
83.3 83.3 83.8 79.7 87.1 61.5 80.7 80.7 80.9 79.4 85.5 61.5 77.5 77.5 77.5 77.5 82.1 61.1 73.3 73.3 73.3 73.3 77.8 60.2
75.8 65.6 82.3 50.7 86.2 32.0 71.0 63.2 79.4 49.8 84.0 30.7 66.0 60.6 75.4 45.6 80.7 29.0 60.6 57.8 70.0 42.9 77.0 27.2
78.1 78.1 82.9 60.1 87.2 44.1 74.6 74.6 79.8 59.4 84.7 44.3 70.3 70.3 75.6 58.1 81.2 41.3 65.7 65.7 70.1 55.7 77.6 39.8
81.7 81.7 83.6 71.6 88.2 54.0 79.1 79.1 80.5 71.3 85.4 53.6 75.4 75.4 76.6 70.7 82.0 52.1 70.9 70.9 71.6 68.7 78.1 51.3
84.8 84.8 85.0 82.5 89.1 62.3 82.3 82.3 82.3 82.3 86.1 61.2 79.4 79.4 79.4 79.4 82.8 63.0 75.2 75.2 75.2 75.2 78.7 62.8
77.0 68.3 82.9 52.2 86.6 32.5 72.5 66.4 80.0 51.4 84.5 31.2 67.5 63.7 76.2 47.1 81.2 29.5 62.1 61.0 70.8 44.7 77.6 27.8
79.6 79.6 83.7 61.8 87.6 44.7 76.6 76.6 80.6 61.3 85.4 44.0 72.4 72.4 76.5 60.5 81.8 42.1 67.7 67.7 71.1 58.2 78.1 40.9
83.0 83.0 84.4 73.9 88.7 54.9 80.4 80.4 81.5 73.9 86.2 54.1 77.1 77.1 77.8 73.8 82.7 53.5 72.7 72.7 72.9 71.9 78.8 53.0
85.9 85.9 86.0 85.0 89.6 65.2 83.6 83.6 83.6 83.6 87.0 63.2 81.0 81.0 81.0 81.0 83.5 65.0 76.8 76.8 76.8 76.8 79.5 65.3

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

RT-PRC016-EN

15

Performance
Data
Table PD-3 — Gross Cooling Capacities (kW) - TSC090AD - (SI)
Ambient Temperature (C)

m3/h
Airflow
4590

5100

5610

6120

Enter.
Dry
Bulb
Temp
(C)
24
27
30
33
24
27
30
33
24
27
30
33
24
27
30
33

30

35

40

45

Entering Wet Bulb Temperature (C)
16
19
22
16
19
22
16
19
22
16
19
22
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
24.5 21.6 26.9 17.1 28.1 12.0 22.7 20.6 25.8 16.3 27.7 11.5 20.8 19.6 24.1 15.4 26.8 11.0 19.0 18.7 22.0 14.8 25.6 10.3
25.4 25.4 27.1 21.1 28.5 15.9 24.1 24.1 25.9 20.8 27.8 15.9 22.5 22.5 24.3 20.0 27.0 15.5 20.9 20.9 22.2 19.0 25.7 14.8
27.0 27.0 27.4 25.3 28.7 19.5 26.0 26.0 26.4 25.3 28.1 19.7 24.8 24.8 25.0 24.8 27.1 19.6 23.2 23.2 23.1 23.1 25.8 19.2
28.1 28.1 28.1 28.1 29.0 23.3 27.5 27.5 27.5 27.5 28.4 23.6 26.5 26.5 26.5 26.5 27.4 23.9 25.3 25.3 25.3 25.3 26.1 23.6
25.1 23.0 27.2 18.1 28.4 12.4 23.4 22.1 26.2 17.1 27.8 11.9 21.4 21.1 24.6 16.8 27.1 11.3 19.7 19.7 22.5 15.3 25.9 10.7
26.3 26.3 27.4 22.0 28.6 16.3 25.1 25.1 26.4 22.0 28.0 16.2 23.6 23.6 24.9 21.4 27.2 16.0 21.9 21.9 22.8 20.4 26.0 15.6
27.6 27.6 27.8 26.4 29.0 20.2 26.8 26.8 27.0 26.8 28.3 20.4 25.7 25.7 25.7 25.7 27.4 20.6 24.3 24.3 24.3 24.3 26.2 20.4
28.6 28.6 28.6 28.6 29.3 24.1 28.1 28.1 28.1 28.1 28.7 24.6 27.3 27.3 27.3 27.3 27.8 25.0 26.2 26.2 26.2 26.2 26.6 25.1
25.6 24.2 27.4 18.4 28.4 12.5 24.0 23.5 26.5 18.3 28.0 12.2 22.0 22.0 25.1 17.1 27.3 11.7 20.4 20.4 22.9 16.2 26.2 11.1
26.9 26.9 27.7 22.8 28.8 16.5 25.9 25.9 26.8 23.0 28.3 16.7 24.5 24.5 25.4 22.7 27.4 16.5 22.8 22.8 23.5 21.8 26.3 16.3
28.0 28.0 28.1 27.3 29.1 20.6 27.4 27.4 27.4 27.4 28.7 21.2 26.5 26.5 26.4 26.4 27.7 21.4 25.2 25.2 25.2 25.2 26.5 21.4
28.9 28.9 28.9 28.9 29.5 24.7 28.5 28.5 28.5 28.5 29.1 25.6 27.8 27.8 27.8 27.8 28.1 26.0 26.8 26.8 26.8 26.8 27.0 26.3
26.1 25.4 27.6 18.5 28.5 12.7 24.5 24.5 26.7 19.1 28.1 12.5 22.8 22.8 25.4 18.0 27.4 12.0 21.1 21.1 23.4 17.0 26.3 11.4
27.3 27.3 27.9 23.4 28.9 16.8 26.5 26.5 27.1 23.9 28.5 17.1 25.3 25.3 25.8 23.8 27.7 17.0 23.6 23.6 24.1 23.1 26.5 16.9
28.3 28.3 28.4 28.1 29.2 21.0 27.8 27.8 27.8 27.8 28.8 21.8 27.0 27.0 27.0 27.0 27.9 22.1 25.8 25.8 25.8 25.8 26.8 22.3
29.1 29.1 29.1 29.1 29.6 25.2 28.8 28.8 28.8 28.8 29.3 26.4 28.2 28.2 28.2 28.2 28.4 26.9 27.3 27.3 27.3 27.3 27.4 27.4

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

Table PD-3a — Gross Cooling Capacities (MBH) - TSC090AD - (IP)
Ambient Temperature (F)

CFM
Airflow
2700

3000

3300

3600

Enter.
Dry
Bulb
Temp
(F)
75
80
85
90
75
80
85
90
75
80
85
90
75
80
85
90

85

95

105

115

Entering Wet Bulb Temperature (F)
61
67
73
61
67
73
61
67
73
61
67
73
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
84.4 72.7 92.7 55.2 96.6 35.6 77.7 69.1 89.4 52.6 95.2 34.0 70.4 65.4 83.4 50.6 92.5 32.0 63.7 61.9 75.3 46.9 88.2 29.8
86.5 86.5 93.3 67.5 97.8 48.9 81.2 81.2 89.6 66.8 96.2 48.4 75.1 75.1 83.8 64.0 93.1 46.6 69.4 69.4 75.8 60.3 88.5 44.1
91.5 91.5 94.2 80.6 98.9 59.9 87.7 87.7 90.6 80.8 97.2 60.5 82.5 82.5 85.1 78.8 93.5 59.5 76.4 76.4 77.7 75.2 88.8 58.1
95.1 95.1 95.7 93.2 100.0 71.0 92.6 92.6 92.5 92.5 97.5 71.8 88.7 88.7 88.7 88.7 94.3 72.6 83.7 83.7 83.6 83.6 89.5 71.8
86.5 77.3 93.5 56.9 97.1 36.1 80.0 73.9 90.6 56.4 95.8 34.6 72.6 70.1 85.2 52.3 93.2 32.7 65.6 65.6 76.9 49.9 89.1 30.5
89.4 89.4 94.3 70.0 98.3 52.8 84.9 84.9 91.0 70.2 96.9 49.4 78.8 78.8 85.6 68.2 93.9 48.9 72.7 72.7 77.8 64.5 89.6 46.3
93.6 93.6 95.4 83.8 99.4 61.1 90.6 90.6 92.2 85.2 98.0 62.3 86.1 86.1 87.3 84.2 94.5 61.9 80.1 80.1 80.1 80.1 90.0 61.2
96.8 96.8 97.0 96.7 100.5 72.8 94.8 94.8 94.8 94.8 99.0 75.4 91.5 91.5 91.4 91.4 95.4 75.8 87.0 87.0 87.0 87.0 90.9 75.9
88.1 81.3 94.3 59.1 97.5 36.7 82.1 78.5 91.4 58.6 96.2 35.2 74.1 74.1 86.4 54.8 93.7 33.4 68.1 68.1 78.5 51.2 89.8 31.2
91.4 91.4 95.1 72.1 98.7 50.2 87.6 87.6 92.1 73.3 97.4 50.3 82.2 82.2 87.1 72.0 94.5 49.7 75.6 75.6 79.7 68.7 90.4 48.3
95.1 95.1 96.2 86.6 99.8 62.1 92.7 92.7 93.6 89.0 98.5 63.8 88.8 88.8 89.2 89.1 95.2 64.0 83.5 83.5 83.5 83.5 90.9 63.9
97.9 97.9 97.9 97.9 101.0 74.3 96.4 96.4 96.3 96.3 99.7 77.5 93.5 93.5 93.5 93.5 96.3 78.6 89.4 89.4 89.4 89.4 92.1 79.5
89.5 85.0 95.1 60.6 97.8 37.2 84.0 83.1 92.2 60.7 96.6 35.7 76.7 76.7 87.5 57.3 94.1 34.0 70.4 70.4 80.0 53.8 90.4 31.9
92.9 92.9 95.6 74.0 99.0 50.8 89.7 89.7 93.0 76.0 97.8 51.0 84.8 84.8 88.3 75.6 95.2 50.9 78.1 78.1 81.6 72.8 90.9 49.5
96.2 96.2 96.9 88.9 100.2 63.1 94.2 94.2 94.7 92.3 99.0 65.1 90.7 90.7 90.7 90.7 95.8 65.8 86.0 86.0 86.0 86.0 91.7 66.3
98.7 98.7 98.7 98.7 101.3 75.7 97.5 97.5 97.5 97.5 100.1 79.4 94.9 94.9 94.9 94.9 97.0 81.1 91.2 91.2 91.2 91.2 93.0 82.7

NOTES:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

16

RT-PRC016-EN

Performance
Data

Table PD-4 — Gross Cooling Capacities (kW) - TSC102AD - (SI)

m3/h
Airflow
5200

5780

6360

6940

Enter.
Dry
Bulb
Temp
(C)
24
27
30
33
24
27
30
33
24
27
30
33
24
27
30
33

30

35

Ambient Temperature (C)

40

45

Entering Wet Bulb Temperature (C)
16
19
22
16
19
22
16
19
22
16
19
22
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
28.0 24.3 31.5 19.5 33.4 14.1 26.0 23.3 30.0 18.7 32.5 13.5 23.9 22.2 27.8 17.7 31.3 12.9 21.6 21.6 25.4 17.3 29.7 12.2
29.0 28.4 31.6 24.3 33.6 18.7 27.4 27.1 30.1 23.6 32.7 18.5 25.6 25.6 28.0 22.7 31.4 17.8 23.9 23.9 25.6 21.6 29.8 17.1
31.0 31.0 31.9 29.0 33.9 23.0 29.7 29.7 30.5 28.6 32.9 22.8 28.1 28.1 28.1 28.1 31.5 22.5 26.3 26.3 26.5 25.7 29.9 22.0
32.6 32.6 32.7 32.1 34.1 27.3 31.6 31.6 31.6 31.4 33.2 27.3 30.4 30.4 30.3 30.3 31.8 27.2 28.9 28.9 28.8 28.8 30.2 26.8
28.8 25.8 31.9 20.4 33.6 14.4 26.8 24.8 30.5 19.6 32.8 13.9 24.2 24.2 28.5 18.7 31.6 13.4 22.5 22.5 26.0 17.6 30.1 12.6
30.1 29.8 32.1 25.4 34.0 19.2 28.6 28.6 30.7 25.0 32.9 19.1 26.8 26.8 28.8 24.2 31.7 18.6 25.0 25.0 26.3 23.1 30.2 17.9
32.0 32.0 32.5 30.5 34.2 23.7 30.9 30.9 30.9 30.9 33.2 23.7 29.4 29.4 29.4 29.4 31.9 23.6 27.6 27.6 27.7 27.2 30.3 23.2
33.4 33.4 33.4 33.2 34.5 28.1 32.6 32.6 32.5 32.5 33.6 28.5 31.4 31.4 31.4 31.4 32.3 28.5 30.0 30.0 30.0 30.0 30.8 28.3
29.5 27.3 32.2 21.1 33.8 14.7 27.6 26.3 31.0 20.5 33.0 14.4 25.1 25.1 29.1 19.6 31.8 13.8 23.5 22.9 26.5 18.5 30.4 12.9
31.0 31.0 32.5 26.5 34.2 19.7 29.7 29.7 31.2 26.3 33.3 19.5 27.9 27.9 29.4 25.6 32.0 19.2 26.0 26.0 27.0 24.5 30.5 18.7
32.7 32.7 33.0 31.7 34.6 24.5 31.7 31.7 31.7 31.7 33.6 24.6 30.4 30.4 30.5 29.9 32.3 24.5 28.8 28.8 28.8 28.6 30.7 24.3
34.0 34.0 34.0 34.0 34.8 28.9 33.2 33.2 33.2 33.2 33.9 29.5 32.1 32.1 32.1 32.1 32.7 29.7 30.9 30.9 30.9 30.9 31.3 29.7
30.1 28.7 32.5 21.7 33.9 15.1 27.9 27.9 31.3 21.4 33.1 14.7 26.0 26.0 29.3 20.4 32.2 14.2 24.2 23.9 27.0 19.4 30.6 13.3
31.7 31.7 32.8 27.4 34.4 20.0 30.5 30.5 31.6 27.4 33.4 20.0 28.8 28.8 29.8 26.9 32.3 19.7 26.9 26.9 27.6 25.9 30.7 19.4
33.2 33.2 33.2 33.2 34.8 25.0 32.3 32.3 32.4 31.7 33.7 25.2 31.2 31.2 31.2 30.9 32.6 25.4 29.7 29.7 29.7 29.7 31.0 25.3
34.4 34.4 34.4 34.4 35.2 30.0 33.7 33.7 33.7 33.7 34.2 30.4 32.9 32.9 32.9 32.9 33.1 30.8 31.5 31.5 31.5 31.5 31.4 31.4

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

Table PD-4a — Gross Cooling Capacities (MBH) - TSC102AD - (IP)
Ambient Temperature (F)

CFM
Airflow
3060

3400

3740

4080

Enter.
Dry
Bulb
Temp
61
(F)
TGC SHC
75
96.7 81.9
80
98.2 98.2
85
105.0 105.0
90
110.4 110.4
75
99.3 87.0
80
102.5 100.4
85
108.4 108.4
90
113.2 113.2
75
101.6 91.8
80
105.4 104.4
85
111.0 111.0
90
115.2 115.2
75
103.5 96.3
80
107.9 107.9
85
112.9 112.9
90
116.7 116.7

85

67
73
TGC SHC TGC SHC
109.1 63.4 115.0 42.2
109.4 78.3 116.1 58.1
110.2 93.1 117.3 70.8
111.6 107.4 118.0 84.0
110.2 65.9 115.6 42.9
110.9 81.6 116.9 59.2
111.9 97.4 118.2 72.7
113.1 113.1 119.5 86.5
111.3 67.8 116.2 43.6
112.1 84.5 117.6 60.0
113.3 101.2 118.9 74.2
115.2 115.2 120.3 88.6
112.1 69.5 116.6 43.8
113.0 87.1 118.1 60.8
114.4 104.5 119.5 75.5
116.7 116.7 120.9 90.6

95

61
TGC SHC
89.1 78.1
92.7 90.8
100.0 100.0
106.5 106.5
91.8 83.2
96.7 95.9
104.1 104.1
109.7 109.7
94.3 88.2
100.3 100.3
107.0 107.0
112.1 112.1
94.9 94.9
103.1 103.1
109.3 109.3
113.9 113.9

105

Entering Wet Bulb Temperature (F)
67
73
61
67
TGC SHC TGC SHC TGC SHC TGC SHC
104.0 60.7 112.1 40.4 81.2 74.1 96.3 59.2
104.2 76.3 113.0 56.2 85.7 85.2 96.6 72.9
105.0 91.8 113.6 70.4 93.6 93.6 98.0 88.8
106.4 106.4 114.4 83.5 101.4 101.4 101.7 99.6
105.8 63.7 112.9 41.1 83.6 79.1 98.7 60.6
106.0 80.4 113.8 58.8 89.7 89.7 99.0 77.4
107.2 97.0 114.6 72.7 98.2 98.2 100.8 94.9
109.9 107.6 115.6 86.6 105.1 105.1 105.1 104.4
107.1 66.5 113.5 41.8 84.7 84.7 100.4 63.0
107.4 84.0 114.7 59.4 93.4 93.4 100.9 81.6
108.9 101.7 116.0 74.8 101.8 101.8 101.8 101.8
112.1 111.1 116.5 89.3 107.8 107.8 107.7 107.7
107.9 68.7 114.0 42.5 87.5 87.5 101.8 65.6
108.6 87.3 115.3 60.3 96.8 96.8 102.5 85.6
110.4 105.7 116.7 76.5 104.5 104.5 104.5 104.5
113.8 113.8 117.9 92.9 109.9 109.9 109.8 109.8

115

73
61
67
73
TGC SHC TGC SHC TGC SHC TGC SHC
107.9 38.3 73.7 70.3 87.0 55.2 102.4 35.8
108.5 53.9 79.3 79.3 87.4 68.8 102.7 51.3
108.9 68.7 86.8 86.8 89.2 84.7 103.1 66.7
109.6 83.1 94.8 94.8 94.9 94.6 103.5 81.6
108.8 39.0 75.2 75.2 89.0 58.6 103.4 36.5
109.6 56.1 82.9 82.9 89.7 73.3 103.9 53.5
110.1 71.5 91.0 91.0 91.0 91.0 104.2 70.0
111.0 86.9 99.4 99.4 99.2 99.2 105.1 86.0
109.5 39.6 78.4 76.4 90.9 59.0 104.2 37.1
110.0 57.9 86.1 86.1 91.7 77.7 104.8 55.6
111.2 73.8 94.9 94.9 94.9 94.9 105.3 72.9
112.1 90.2 102.6 102.6 102.6 102.6 106.4 90.0
110.0 40.3 80.7 79.5 92.4 61.7 104.8 37.8
110.7 59.5 89.1 89.1 93.7 82.0 105.4 57.5
111.9 76.7 98.2 98.2 98.6 96.7 106.2 75.5
113.0 93.2 104.9 104.9 104.9 104.9 107.5 93.5

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

RT-PRC016-EN

17

Performance
Data

Table PD-5 — Gross Cooling Capacities (kW) - TSC120AD - (SI)
Ambient Temperature (C)

m3/h
Airflow
6120

6800

7480

8160

Enter.
Dry
Bulb
Temp
(C)
24
27
30
33
24
27
30
33
24
27
30
33
24
27
30
33

30

35

40

45

Entering Wet Bulb Temperature (C)
16
19
22
16
19
22
16
19
22
16
19
22
TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC TGC SHC
31.9 28.6 35.3 22.8 37.2 15.9 29.6 27.4 33.6 21.7 36.5 15.4 27.1 26.2 31.0 20.5 35.2 14.8 24.6 24.6 28.4 19.9 33.2 14.0
33.4 33.4 35.5 28.2 37.7 21.4 31.6 31.6 33.9 27.8 36.7 21.4 29.5 29.5 31.3 26.6 35.3 20.7 27.5 27.5 28.9 25.5 33.3 19.9
35.5 35.5 36.0 33.8 38.1 26.5 34.2 34.2 34.5 33.8 37.0 26.7 32.3 32.3 32.2 32.2 35.5 26.6 30.4 30.4 30.4 30.4 33.4 25.9
37.1 37.1 37.1 37.1 38.5 31.6 36.2 36.2 36.2 36.2 37.3 31.9 34.8 34.8 34.8 34.8 35.9 32.3 33.2 33.2 33.2 33.2 34.0 31.8
32.7 30.4 35.7 23.8 37.5 16.3 30.5 29.3 34.2 22.8 36.8 15.9 27.8 27.8 31.9 21.8 35.5 15.3 25.7 25.7 29.0 21.2 33.7 14.5
34.5 34.5 36.0 29.5 38.0 21.9 32.9 32.9 34.5 29.4 37.0 22.0 30.9 30.9 32.3 28.5 35.7 21.7 28.7 28.7 29.7 27.4 33.8 21.0
36.3 36.3 36.6 35.4 38.4 27.4 35.3 35.3 35.3 35.3 37.3 27.6 33.7 33.7 33.7 33.7 35.9 27.8 31.8 31.8 31.7 31.7 34.0 27.5
37.9 37.9 37.8 37.8 38.9 32.8 37.0 37.0 37.0 37.0 37.8 33.3 35.9 35.9 35.9 35.9 36.5 33.9 34.4 34.4 34.4 34.4 34.7 33.8
33.5 32.2 36.0 24.7 37.8 16.9 31.1 31.1 34.7 23.9 37.0 16.3 28.9 28.9 32.4 22.9 35.8 15.7 26.6 26.6 29.6 22.5 34.1 14.9
35.3 35.3 36.4 30.6 38.2 22.4 34.0 34.0 35.0 30.8 37.4 22.7 32.0 32.0 33.0 30.2 36.0 22.5 29.9 29.9 30.5 29.1 34.2 22.0
37.0 37.0 37.0 37.0 38.7 28.1 36.1 36.1 36.1 36.1 37.9 28.9 34.7 34.7 34.7 34.7 36.4 29.1 32.9 32.9 32.9 32.9 34.5 29.0
38.4 38.4 38.3 38.3 39.2 33.7 37.7 37.7 37.7 37.7 38.4 34.9 36.7 36.7 36.7 36.7 37.0 35.4 35.3 35.3 35.3 35.3 35.3 35.3
33.9 33.9 36.3 24.9 37.9 17.3 32.0 32.0 35.0 25.6 37.5 16.1 29.8 29.8 32.8 23.9 36.1 16.2 27.5 27.5 29.8 23.6 34.4 15.3
35.9 35.9 36.7 31.7 38.5 22.8 34.8 34.8 35.5 32.2 37.7 23.2 32.9 32.9 33.6 31.9 36.3 23.2 30.6 30.6 30.6 30.6 34.5 23.0
37.5 37.5 37.5 37.5 38.9 28.8 36.7 36.7 36.7 36.7 38.1 29.8 35.5 35.5 35.5 35.5 36.7 30.2 33.7 33.7 33.7 33.7 34.9 30.5
38.8 38.8 38.7 38.7 39.5 34.6 38.4 38.4 38.2 38.2 38.7 36.1 37.3 37.3 37.3 37.3 37.4 36.7 36.0 36.0 36.0 36.0 36.0 36.0

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

Table PD-5a — Gross Cooling Capacities (MBH) - TSC120AD - (IP)
Ambient Temperature (F)

CFM
Airflow
3600

4000

4400

4800

Enter.
Dry
Bulb
Temp
61
(F)
TGC SHC
75
109.9 96.4
80
113.5 113.5
85
120.2 120.2
90
125.4 125.4
75
112.7 102.4
80
117.3 117.3
85
123.2 123.2
90
127.9 127.9
75
115.1 108.2
80
120.1 120.1
85
125.5 125.5
90
130.0 130.0
75
117.1 113.2
80
122.3 122.3
85
127.2 127.2
90
131.3 131.3

85

67
73
TGC SHC TGC SHC
122.1 73.8 128.5 47.6
122.6 90.4 129.9 65.7
123.8 108.0 131.3 80.9
125.4 125.4 132.7 96.3
123.1 75.6 129.3 48.4
124.1 94.1 130.8 66.9
125.6 112.8 132.3 82.9
127.9 127.9 133.8 99.2
124.5 77.5 130.0 49.2
125.3 97.3 131.6 67.9
127.0 116.9 133.1 84.7
129.7 129.7 134.7 101.8
125.5 81.7 130.6 50.0
126.5 100.7 132.2 68.9
128.4 121.1 133.8 86.3
131.5 131.5 135.4 104.2

95

61
TGC SHC
101.2 92.1
106.6 106.6
115.2 115.2
121.8 121.8
104.2 98.3
111.1 111.1
119.0 119.0
124.9 124.9
107.0 104.4
114.9 114.9
121.9 121.9
127.3 127.3
108.8 108.8
117.8 117.8
124.1 124.1
129.3 129.3

105

Entering Wet Bulb Temperature (F)
67
73
61
67
TGC SHC TGC SHC TGC SHC TGC SHC
116.7 70.3 125.9 45.7 91.8 87.5 107.7 67.7
117.1 89.2 127.2 65.0 99.0 99.0 108.4 85.4
118.5 107.9 127.8 81.5 108.1 108.1 110.5 104.9
121.8 121.8 128.7 97.3 116.4 116.4 116.4 116.4
118.5 73.6 126.9 46.6 93.7 93.7 109.9 70.9
119.0 94.0 128.2 66.8 103.5 103.5 110.8 90.8
120.8 114.1 129.5 84.5 112.5 112.5 112.5 112.5
124.9 124.9 130.8 102.4 120.2 120.2 120.2 120.2
119.8 77.6 127.6 47.4 97.3 97.3 111.7 73.2
120.6 98.4 129.0 68.2 107.3 107.3 112.9 96.1
122.8 119.6 130.5 87.0 116.4 116.4 116.3 116.3
127.2 127.2 131.9 105.9 123.0 123.0 123.0 123.0
120.8 80.6 128.3 48.2 100.5 100.5 113.2 76.3
122.0 102.4 129.8 69.5 110.5 110.5 114.9 101.3
124.1 124.1 131.2 89.2 119.0 119.0 119.0 119.0
129.0 129.0 132.8 108.9 125.2 125.2 125.2 125.2

115

73
TGC SHC
121.6 43.4
122.2 62.4
122.6 80.6
123.6 98.2
122.7 44.3
123.5 65.3
124.1 84.2
125.3 103.1
123.6 45.2
124.5 68.1
125.3 88.0
126.7 107.5
124.3 46.1
125.7 69.3
126.5 90.9
127.8 111.4

61
TGC SHC
82.1 82.1
91.0 91.0
100.3 100.3
109.2 109.2
85.6 85.6
95.2 95.2
104.9 104.9
113.9 113.9
88.7 88.7
98.9 98.9
108.7 108.7
117.2 117.2
91.6 91.6
102.2 102.2
112.0 112.0
119.8 119.8

67
TGC SHC
97.2 63.2
98.2 81.0
100.3 100.3
109.2 109.2
99.3 67.2
100.8 86.6
104.8 104.8
113.8 113.8
101.1 71.1
103.1 92.0
108.7 108.7
117.2 117.2
102.7 72.1
105.2 97.3
112.0 112.0
119.8 119.8

73
TGC SHC
115.0 40.9
115.2 59.7
115.4 78.4
116.4 97.0
116.5 41.9
116.8 62.5
117.1 83.0
118.4 102.9
117.6 42.7
118.0 65.1
118.4 87.0
120.2 108.4
118.5 43.6
119.0 67.7
119.7 90.9
121.7 113.3

Notes:
1. All capacities shown are gross and have not considered indoor fan heat. To obtain net cooling, subtract indoor fan heat.
2. TGC = Total Gross Capacity
3. SHC = Sensible Heat Capacity

18

RT-PRC016-EN

Performance
Data
Table PD-6 — Belt Drive Evaporator Fan Performance - TSC060AD - Downflow Configuration (SI)
25
3

m /h

RPM

2720
3060
3400
3740
4080

706
773
840
909

CFM
2720
3060
3400
3740
4080

50

75

100
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Low Static Drive
703
0.27
757
0.31
806
0.35
0.32
760
0.35
815
0.40
861
0.45
0.43
821
0.46
873
0.51
918
0.57
0.56
885
0.60
930
0.65
977
0.71
0.71
950
0.76
990
0.80
1034 0.87

External Static Pressure (Pascals)
275
300
325
350
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Drive
1093 0.69
1126 0.74
1160 0.79
1190 0.84
1138 0.82
1171 0.87
1203 0.93
1232 0.98
1182 0.96
1215 1.02
1246 1.09
1276 1.15
1226 1.10
1258 1.17
1290 1.25
1272 1.29
-

External Static Pressure (Pascals)
125
150
RPM
kW
RPM
kW
854
904
958
1016
1074

0.39
0.49
0.62
0.77
0.93

899
947
998
1053
1110

0.43
0.54
0.67
0.82
1.00

175
200
225
250
RPM
kW
RPM
kW
RPM kW
RPM kW
1.12 Nom kW Standard Motor & Drive
944
0.49
985
0.54 1023 0.59 1060 0.64
988
0.58 1028 0.64 1067 0.70 1104 0.76
1036 0.71 1073 0.76 1111 0.82 1147 0.89
1089 0.88 1124 0.93 1158 0.98 1191 1.03
1143 1.06 1177 1.12 1209 1.17 1241 1.23

375
RPM
kW
1222
1262
1306
-

0.90
1.04
1.21
-

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.12 kW - Fan Motor Heat (kW) = 1.144 x Fan kW + 0.132

←

1.12 Nom kW Standard Motor &
Hi Static Drive

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

Table PD-6a — Belt Drive Evaporator Fan Performance -TSC060AD - Downflow Configuration (IP)

1600
1800
2000
2200
2400

.10
.20
.30
RPM BHP
RPM BHP
RPM BHP
1-1/2 HP Standard Motor & Low Static Drive
703
0.36
757
0.41
706
0.42
760
0.47
815
0.54
773
0.57
821
0.62
873
0.69
840
0.75
885
0.80
930
0.87
909
0.96
950
1.02
990
1.08

CFM

1.10
RPM BHP

1600
1800
2000
2200
2400

1093
1138
1182
1226
1272

CFM

0.92
1.10
1.28
1.48
1.73

External Static Pressure (Inches of Water)
1.20
1.30
1.40
RPM BHP
RPM BHP
RPM BHP
1-1/2 HP Standard Motor & Drive
1126 0.99
1160 1.06
1190 1.13
1171 1.17
1203 1.25
1232 1.32
1215 1.37
1246 1.46
1276 1.54
1258 1.57
1290 1.67
-

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1 1/2 HP - Fan Motor Heat (MBH) = 2.915 x Fan BHP + 0.451

RT-PRC016-EN

External Static Pressure (Inches of Water)
.40
.50
.60
.70
.80
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP
1-1/2 HP Standard Motor & Drive
806
0.47
854
0.52
899
0.58
944
0.65
985
0.73
861
0.60
904
0.66
947
0.72
988
0.78 1028 0.86
918
0.76
958
0.83
998
0.90
1036 0.96 1073 1.02
977
0.95
1016 1.03
1053 1.10
1089 1.17 1124 1.24
1034 1.16
1074 1.25
1110 1.34
1143 1.419 1177 1.50

.90
RPM BHP

1.00
RPM BHP

1023 0.79
1067 0.94
1111 1.10
1158 1.31
1209 1.57

1060 0.86
1104 1.02
1147 1.19
1191 1.39
1241 1.65

1.50
RPM BHP
1222
1262
1306
-

1.20
1.39
1.62
-

←

1-1/2 HP Standard Motor &
Hi Static Drive

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

19

Performance
Data

Table PD-7 - Belt Drive Evaporator Fan Performance- TSC060AD - Horizontal Configuration - (SI)
25
m3/h

75

RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Std Motor & Low Static Drive
707
0.26
774
0.31
837
0.37
778
0.36
840
0.41
897
0.48
850
0.48
908
0.54
961
0.60
923
0.63
978
0.69
1028 0.76
997
0.80
1049 0.87
1096 0.94

External Static Pressure (Pascals)
100
125
150
175
200
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Drive
898
0.43
953
0.48
1001 0.54
1045 0.59 1087 0.65
953
0.54
1008 0.60
1058 0.67
1102 0.73 1143 0.79
1012 0.67
1062 0.74
1111 0.81
1157 0.88 1198 0.95
1075 0.83
1120 0.91
1166 0.99
1211 1.06 1254 1.14
1140 1.02
1183 1.10
1223 1.18
1266 1.27
-

←

2720
3060
3400
3740
4080

50

225
RPM kW

250
RPM kW

1129 0.71
1181 0.85
1237 1.02
1294 1.22
-

1168 0.77
1219 0.92
1274 1.09
1330 1.29
-

1.12 Nom kW Standard Motor & Hi Static Drive
External Static Pressure (Pascals)
275
300
325
350
CFM
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Drive
2720
1206 0.83
1241 0.89
1275 0.96
1306 1.02
3060
1256 0.99
1291 1.05
1326 1.12
1359 1.19
3400
1309 1.16
1343 1.24
1376 1.31
3740
4080
-

375
RPM
kW
1338
1390
-

1.09
1.26
-

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.12 kW - Fan Motor Heat (kW) = 1.144 x Fan kW + 0.132

←

1.12 Nom kW Standard Motor &
Hi Static Drive

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

Table PD-7a - Belt Drive Evaporator Fan Performance- TSC060AD - Horizontal Configuration - (IP)
CFM

External Static Pressure (Inches of Water)
0.40
0.50
0.60
0.70
RPM BHP
RPM BHP
RPM BHP
RPM BHP

898
953
1012
1075
1140

0.57
0.72
0.90
1.12
1.37

953
1008
1062
1120
1183

0.65
0.81
1.00
1.22
1.48

0.80
RPM BHP

1-1/2 HP Standard Motor & Drive
1001 0.72
1045 0.80 1087
1058 0.89
1102 0.98 1143
1111 1.09
1157 1.19 1198
1166 1.32
1211 1.43 1254
1223 1.59
1266 1.70
-

←

1600
1800
2000
2200
2400

0.10
0.20
0.30
RPM BHP
RPM BHP
RPM BHP
1-1/2 HP Standard Motor &
Low Static Drive
707
0.35
774
0.42
837
0.50
778
0.48
840
0.56
897
0.64
850
0.65
908
0.73
961
0.81
923
0.84
978
0.93
1028 1.02
997
1.07
1049 1.17
1096 1.27

0.87
1.06
1.28
1.53
-

0.90
RPM BHP

1.00
RPM BHP

1129 0.95
1181 1.15
1237 1.37
1294 1.63
-

1168 1.03
1219 1.23
1274 1.47
1330 1.74
-

1-1/2 HP Standard Motor & Hi Static Drive

CFM
1600
1800
2000
2200
2400

External Static Pressure (Inches of Water)
1.10
1.20
1.30
1.40
1.50
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
1/2 HP Standard Motor & Drive
1-1/2 HP Standard Motor & Hi Static Drive
1206 1.12
1241 1.20
1275 1.28
1306 1.37
1338 1.46
1256 1.32
1291 1.41
1326 1.50
1359 1.60
1390 1.69
1309 1.56
1343 1.66
1376 1.76
-

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1 1/2 HP - Fan Motor Heat (MBH) = 2.915 x Fan BHP + 0.451

20

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

RT-PRC016-EN

Performance
Data

Table PD-8 — Belt Drive Evaporator Fan Performance -TSC072AD - Downflow Configuration (SI)
25

m3/h

CFM

3260
3670
4080
4490
4890

75

100
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Low Static Drive
573
0.25
630
0.30
548
0.26
602
0.31
656
0.37
584
0.33
635
0.38
682
0.45
569
0.35
621
0.42
670
0.47
715
0.54
612
0.45
660
0.51
706
0.58
749
0.64

External Static Pressure (Pascals)
125
150
175
200
225
250
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM kW
RPM kW
1.12 Nom kW Standard Motor & Drive
680
0.36
726
0.41
769
0.47
811
0.52
851 0.58
889 0.65
706
0.43
751
0.49
792
0.55
832
0.61
871 0.67
908 0.74
732
0.51
777
0.58
818
0.64
856
0.71
893 0.77
930 0.84
758
0.60
802
0.68
845
0.75
883
0.82
919 0.89
953 0.96
789
0.71
830
0.79
870
0.87
909
0.95
945 1.02
979 1.10
1.12 Nom kW Standard Motor
& Hi Static Drive

←

3260
3670
4080
4490
4890

50

External Static Pressure (Pascals)
275
300
325
350
375
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Std Motor
1.12 Nom kW Standard Motor
& Drive
& Hi Static Drive
925
0.71
960
0.77
994
0.83
1026 0.89
1057 0.95
944
0.81
978
0.87
1010 0.94
1043 1.01
1073 1.08
964
0.91
998
0.99
1030 1.06
1063 1.14
1092 1.21
986
1.04
1019 1.11
1051 1.19
1082 1.27
1112 1.35
1011 1.18
1043 1.26
1073 1.34
1103 1.42
1133 1.51
1.50 Nom kW Over-Sized Motor
& Hi Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.12 kW - Fan Motor Heat (kW) = 1.144 x Fan kW + 0.132
1.50 kW - Fan Motor Heat (kW) = 1.178 x Fan kW + 0.464

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

Table PD-8a — Belt Drive Evaporator Fan Performance -TSC072AD - Downflow Configuration (IP)
CFM
1920
2160
2400
2640
2880

1920
2160
2400
2640
2880

External Static Pressure (Inches of Water)
.40
.50
.60
.70
.80
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP
1-1/2 HP Standard Motor & Drive
630
0.41
680
0.48
726
0.55
769
0.62
811
0.70
656
0.50
706
0.58
751
0.65
792
0.73
832
0.81
682
0.60
732
0.69
777
0.77
818
0.86
856
0.95
715
0.72
758
0.81
802
0.91
845
1.01
883
1.10
749
0.86
789
0.96
830
1.06
870
1.16
909
1.27

External Static Pressure (Inches of Water)
1.10
1.20
1.30
1.40
1.50
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
1-1/2 HP Standard Mtr
& Drive
925
0.95
960
1.03
994
1.11
1026 1.19
1057 1.27
944
1.08
978
1.17
1010 1.26
1043 1.36
1073 1.44
964
1.22
998
1.32
1030 1.42
1063 1.53
1092 1.63
986
1.39
1019 1.49
1051 1.60
1082 1.71
1112 1.81
1011 1.58
1043 1.69
1073 1.79
1103 1.90
1133 2.02
2 HP Over-Sized Mtr & Hi Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1 1/2 HP - Fan Motor Heat (MBH) = 2.915 x Fan BHP + 0.451
2 HP - Fan Motor Heat (MBH) = 3.000 x Fan BHP + 0.500

RT-PRC016-EN

.90
RPM BHP

1.00
RPM BHP

851
871
893
919
945

889
908
930
953
979

0.78
0.90
1.04
1.20
1.37

1-1/2 HP Standard Motor
& Hi Static Drive

←

0.87
0.99
1.13
1.29
1.48

←

CFM

.10
.20
.30
RPM BHP
RPM BHP
RPM BHP
1-1/2 HP Standard Motor & Low Static Drive
573
0.34
548
0.35
602
0.42
584
0.45
635
0.52
569
0.47
621
0.56
670
0.64
612
0.60
660
0.69
706
0.78

1-1/2 HP Standard Motor &
Hi Static Drive

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

21

Performance
Data

Table PD-9 — Belt Drive Evaporator Fan Performance -TSC072AD - Horizontal Configuration (SI)
25

m3/h
3260
3670
4080
4490
4890

50

100
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Low Static Drive
565
0.23
627
0.29
679
0.34
566
0.26
609
0.31
663
0.36
716
0.42
619
0.35
660
0.40
701
0.45
751
0.51
672
0.45
710
0.51
745
0.56
788
0.62
726
0.58
762
0.64
795
0.70
828
0.76
1.12 Nom kW Standard Motor & Drive

CFM

275
RPM
kW

3260
3670
4080
4490
4890

978
996
1020
1049
1081

0.76
0.87
1.00
1.14
1.30

75

External Static Pressure (Pascals)
125
150
175
200
225
250
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM kW
RPM kW
1.12 Nom kW Standard Motor & Drive
726
0.39
771
0.45
814
0.51
857
0.57
899 0.63
939 0.70
762
0.48
804
0.54
843
0.60
883
0.67
922 0.74
960 0.81
798
0.59
839
0.65
877
0.71
914
0.78
950 0.85
984 0.93
833
0.69
875
0.77
914
0.85
949
0.91
984 0.98 1016 1.06
869
0.82
911
0.91
950
0.99
986
1.07 1019 1.14 1051 1.22
1.12 Nom kW Standard Motor
& Hi Static Drive

External Static Pressure (Pascals)
300
325
350
375
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.12 Nom kW Standard Motor & Hi Static Drive
1015 0.83
1051 0.90
1086 0.97
1118 1.04
1034 0.95
1069 1.02
1103 1.09
1136 1.17
1055 1.08
1089 1.16
1122 1.23
1154 1.31
1081 1.23
1113 1.31
1144 1.40
1176 1.48
1112 1.38
1141 1.47
1170 1.57
1199 1.66
1.50 Nom kW Over-Sized Motor & Hi Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.12 kW - Fan Motor Heat (kW) = 1.144 x Fan kW + 0.132
1.50 kW - Fan Motor Heat (kW) = 1.178 x Fan kW + 0.464

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

Table PD-9a — Belt Drive Evaporator Fan Performance -TSC072AD - Horizontal Configuration (IP)
CFM

External Static Pressure (Inches of Water)
.10
.20
.30
.40
.50
.60
.70
.80
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP
1-1/2 HP Standard Motor & Low Static Drive
1-1/2 HP Standard Motor & Drive

1920
2160
2400
2640
2880

566
619
672
726

CFM
1920
2160
2400
2640
2880

565
0.31
627
0.39
0.35
609
0.41
663
0.48
0.47
660
0.54
701
0.60
0.61
710
0.68
745
0.76
0.77
762
0.86
795
0.94
1-1/2 HP Standard Motor & Drive

0.45
0.57
0.69
0.83
1.02

726
762
798
833
869

0.52
0.64
0.78
0.93
1.11

771
804
839
875
911

0.60
0.72
0.87
1.04
1.21

814
843
877
914
950

0.69
0.80
0.95
1.13
1.33

1.00
RPM BHP

857
0.77
899 0.85
939 0.93
883
0.90
922 0.99
960 1.08
914
1.04
950 1.14
984 1.24
949
1.22
984 1.31 1016 1.42
986
1.44 1019 1.53 1051 1.63
1-1/2 HP Std Motor & Hi Static Drive

External Static Pressure (Inches of Water)
1.10
1.20
1.30
1.40
1.50
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
1-1/2 HP Standard Motor & Hi Static Drive
978
1.02
1015 1.11
1051 1.20
1086 1.30
1118 1.39
996
1.17
1034 1.27
1069 1.36
1103 1.46
1136 1.56
1020 1.35
1055 1.45
1089 1.55
1122 1.66
1154 1.76
1049 1.53
1081 1.65
1113 1.76
1144 1.87
1176 1.98
1081 1.74
1112 1.86
1141 1.97
1170 2.10
1199 2.22
2 HP Over-Sized Motor & High Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1 1/2 HP - Fan Motor Heat (MBH) = 2.915 x Fan BHP + 0.451
2 HP - Fan Motor Heat (MBH) = 3.000 x Fan BHP + 0.500

22

679
716
751
788
828

.90
RPM BHP

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

RT-PRC016-EN

Performance
Data

Table PD-10 — Belt Drive Evaporator Fan Performance -TSC090AD - Downflow Configuration (SI)
25

m3/h

CFM

4080
4590
5100
5610
6120

75

100
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Standard Motor & Low Static Drive
701
0.47
699
0.53
743
0.59
703
0.61
747
0.68
789
0.74
713
0.69
755
0.77
797
0.85
836
0.92
771
0.88
809
0.96
848
1.06
885
1.14

External Static Pressure (Pascals)
125
150
175
200
225
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM kW
1.50 Nom kW Standard Motor & Drive
750
0.54
794
0.60
834
0.67
873
0.73
909 0.80
787
0.66
830
0.74
871
0.82
908
0.89
943 0.96
827
0.82
867
0.90
906
0.98
944
1.06
980 1.15
873
1.00
908
1.08
944
1.17
980
1.26 1016 1.35
921
1.22
954
1.30
986
1.39 1019 1.49 1052 1.58
1.50 Nom kW Standard Motor
& Hi Static Drive

External Static Pressure (Pascals)
275
300
325
350
375
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Std Motor
1.50 Nom kW Standard Motor
& Drive
& Hi Static Drive
980
0.95
1013 1.02
1046 1.10
1076 1.17
1106 1.25
1010 1.11
1043 1.19
1074 1.27
1105 1.36
1134 1.44
1045 1.31
1076 1.39
1105 1.47
1134 1.56
1163 1.65
1081 1.54
1111 1.63
1141 1.72
1168 1.80
1197 1.90
1116 1.79
1148 1.89
1177 1.99
1204 2.08
1232 2.18
2.24 Nom kW Over-Sized Motor
& Hi Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.50 kW - Fan Motor Heat (kW) = 1.178 x Fan kW + 0.464
2.24 kW - Fan Motor Heat (kW) = 1.138 x Fan kW + 0.139

250
RPM kW
945 0.87
977 1.04
1013 1.23
1050 1.45
1085 1.69

←

4080
4590
5100
5610
6120

50

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

Table PD-10a — Belt Drive Evaporator Fan Performance -TSC090AD - Downflow Configuration (IP)
CFM
2400
2700
3000
3300
3600

2400
2700
3000
3300
3600

External Static Pressure (Inches of Water)
.40
.50
.60
.70
.80
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP
2 HP Standard Motor & Drive
701
0.63
750
0.72
794
0.81
834
0.90
873
0.98
743
0.79
787
0.89
830
0.99
871
1.09
908
1.19
789
0.99
827
1.10
867
1.20
906
1.31
944
1.43
836
1.24
873
1.34
908
1.45
944
1.57
980
1.69
885
1.53
921
1.63
954
1.74
986
1.87 1019 1.99

External Static Pressure (Inches of Water)
1.10
1.20
1.30
1.40
1.50
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
2 HP Standard Mtr
2 HP Standard Motor &
& Drive
Hi Static Drive
980
1.27
1013 1.37
1046 1.47
1076 1.57
1106 1.68
1010 1.49
1043 1.60
1074 1.71
1105 1.82
1134 1.93
1045 1.76
1076 1.87
1105 1.98
1134 2.09
1163 2.21
1081 2.06
1111 2.18
1141 2.30
1168 2.42
1197 2.55
1116 2.39
1148 2.53
1177 2.66
1204 2.79
1232 2.93
3 HP Over-Sized Mtr & Hi Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
2 HP - Fan Motor Heat (MBH) = 3.000 x Fan BHP + 0.500
3 HP - Fan Motor Heat (MBH) = 2.900 x Fan BHP + 0.475

RT-PRC016-EN

.90
RPM BHP

1.00
RPM BHP

909 1.08
943 1.29
980 1.54
1016 1.82
1052 2.13

945 1.17
977 1.39
1013 1.65
1050 1.94
1085 2.26

2 HP Standard Motor
& Hi Static Drive

←

CFM

.10
.20
.30
RPM BHP
RPM BHP
RPM BHP
2 HP Standard Motor & Low Static Drive
699
0.70
703
0.81
747
0.91
713
0.93
755
1.03
797
1.15
771
1.19
809
1.29
848
1.42

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

23

Performance
Data

Table PD-11 — Belt Drive Evaporator Fan Performance -TSC090AD - Horizontal Configuration (SI)
25

50

75

m3/h
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Std Motor & Low Static Drive
4080
673
0.42
718
0.47
4590
702
0.51
738
0.56
773
0.62
5100
771
0.68
805
0.74
837
0.81
5610
842
0.89
873
0.96
903
1.03
6120
913
1.14
942
1.22
970
1.30
1.50 Nom kW Standard Motor & Drive

CFM
4080
4590
5100
5610
6120

100
RPM
kW
769
817
870
930
996

0.54
0.68
0.87
1.10
1.37

External Static Pressure (Pascals)
275
300
325
350
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Standard Motor & Hi Static Drive
1035 1.04
1070 1.12
1104 1.19
1137 1.27
1073 1.22
1104 1.31
1136 1.40
1167 1.48
1117 1.44
1146 1.53
1176 1.62
1205 1.72
1165 1.72
1194 1.80
1220 1.88
1248 1.98
1215 2.04
1242 2.13
1269 2.22
1295 2.31
2.24 Nom kW Over-Sized Motor & Hi Static Drive

External Static Pressure (Pascals)
125
150
175
200
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Standard Motor & Drive
814
0.61
855
0.67
893
0.73
929
0.81
862
0.76
904
0.85
941
0.92
975
0.98
912
0.94
951
1.03
989
1.12 1025 1.21
963
1.17
1000 1.25
1037 1.34 1073 1.45
1021 1.45
1052 1.52
1086 1.61 1121 1.71
1.50 Nom kW Standard Motor &
Hi Static Drive

225
RPM kW

250
RPM kW

965 0.88
999 0.96
1009 1.06 1041 1.14
1056 1.28 1088 1.36
1106 1.55 1136 1.63
1153 1.82 1184 1.93
2.24 Nom kW OS
Motor & Hi Static Drive

375
RPM
kW
1168
1198
1233
1275
1319

1.35
1.57
1.82
2.08
2.40

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.50 kW - Fan Motor Heat (kW) = 1.178 x Fan kW + 0.464
2.24 kW - Fan Motor Heat (kW) = 1.138 x Fan kW + 0.139

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

Table PD-11a — Belt Drive Evaporator Fan Performance -TSC090AD - Horizontal Configuration (IP)
CFM

CFM

1.10
RPM BHP

2400
2700
3000
3300
3600

1035
1073
1117
1165
1215

1.39
1.64
1.93
2.30
2.73

External Static Pressure (Inches of Water)
1.20
1.30
1.40
RPM BHP
RPM BHP
RPM BHP
2 HP Standard Motor & Hi Static Drive
1070 1.50
1104 1.60
1137 1.70
1104 1.76
1136 1.87
1167 1.99
1146 2.05
1176 2.17
1205 2.31
1194 2.41
1220 2.52
1248 2.66
1242 2.86
1269 2.98
1295 3.10
3 HP Over-Sized Motor & High Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
2 HP - Fan Motor Heat (MBH) = 3.000 x Fan BHP + 0.500
3 HP - Fan Motor Heat (MBH) = 2.900 x Fan BHP + 0.475

24

External Static Pressure (Inches of Water)
.40
.50
.60
.70
.80
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP
2 HP Standard Motor & Drive
769
0.72
814
0.82
855
0.90
893
0.98
929
1.08
817
0.92
862
1.02
904
1.13
941
1.23
975
1.32
870
1.17
912
1.26
951
1.38
989
1.51 1025 1.62
930
1.47
963
1.57
1000 1.68
1037 1.80 1073 1.94
996
1.84
1021 1.94
1052 2.04
1086 2.16 1121 2.29
2 HP Std Motor & Hi Static Drive

.90
RPM BHP

1.00
RPM BHP

965
1009
1056
1106
1153

999 1.29
1041 1.52
1088 1.82
1136 2.19
1184 2.59

1.18
1.42
1.72
2.08
2.44

←

2400
2700
3000
3300
3600

.10
.20
.30
RPM BHP
RPM BHP
RPM BHP
2 HP Std Motor & Low Static Drive
673
0.56
718
0.63
702
0.68
738
0.76
773
0.83
771
0.91
805
1.00
837
1.08
842
1.19
873
1.29
903
1.38
913
1.53
942
1.63
970
1.74
2 HP Standard Motor & Drive

3 HP Over-Sized Motor
& Hi Static Drive
1.50
RPM BHP
1168
1198
1233
1275
1319

1.81
2.11
2.44
2.79
3.22

Factory Supplied Motors, In Commercial Equipment, Are
Definite Purpose Motors, Specifically Designed And
Tested To Operate Reliably And Continuously At All
Cataloged Conditions. Using The Full Horsepower Range
Of Our Fan Motors As Shown In Our Tabular Data Will
Not Result In Nuisance Tripping Or Premature Motor
Failure. Our Product’s Warranty Will Not Be Affected.

RT-PRC016-EN

Performance
Data

Table PD-12 — Belt Drive Evaporator Fan Performance -TSC102AD - Downflow Configuration (SI)
25

m3/h

75

100
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Standard Motor & Low Static Drive
613
0.45
611
0.48
650
0.55
612
0.51
651
0.59
689
0.68
622
0.56
659
0.64
693
0.72
729
0.82
671
0.71
706
0.80
738
0.89
770
0.98

External Static Pressure (Pascals)
125
150
RPM
kW
RPM
kW
655
688
724
764
804

0.54
0.64
0.76
0.92
1.09

695
725
759
795
834

0.62
0.73
0.86
1.01
1.19

175
200
225
RPM
kW
RPM
kW
RPM kW
1.50 Nom kW Standard Motor & Drive
733
0.71
769
0.81
802 0.90
761
0.83
796
0.93
828 1.03
792
0.96
825
1.07
856 1.18
826
1.11
857
1.22
887 1.34
864
1.30
892
1.40
920 1.52

250
RPM kW
833
861
887
916
948

1.00
1.13
1.28
1.46
1.64

←

4620
5200
5780
6350
6930

50

1.50 Nom kW Standard
Motor & Hi Static Drive

m3/h
4620
5200
5780
6350
6930

275
300
325
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Std Mtr & Drive
863
1.11
892
1.21
920
1.33
891
1.24
919
1.35
946
1.46
917
1.40
946
1.51
974
1.63
945
1.58
974
1.70
1001 1.82
976
1.78
1002 1.91
1029 2.04

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.50 kW - Fan Motor Heat (kW) = 1.178 x Fan kW + 0.464
2.24 kW - Fan Motor Heat (kW) = 1.138 x Fan kW + 0.139

External Static Pressure (Pascals)
350
375
400
425
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Std Mtr & Hi Static Dr
946
1.44
973
1.55
999
1.67
1025 1.79
973
1.58
999
1.71
1024 1.83
1048 1.96
1001 1.75
1026 1.88
1051 2.01
1074 2.14
1028 1.95
1054 2.08
1079 2.20
1103 2.34
1055 2.17
1081 2.30
1105 2.43
1130 2.58
2.24 Nom kW Over-Sized Motor & High Static Drive

450
RPM
kW

475
RPM kW

500
RPM kW

1050
1072
1099
1126
1154

1073
1096
1121
1148
1176

1098
1119
1143
1170
1199

1.90
2.09
2.27
2.48
2.72

2.02
2.22
2.41
2.62
2.85

2.14
2.34
2.55
2.76
3.01

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

Table PD-12a — Belt Drive Evaporator Fan Performance -TSC102AD - Downflow Configuration (IP)
CFM

.90
RPM BHP

1.00
RPM BHP

802
828
856
887
920

833
861
887
916
948

1.21
1.38
1.58
1.79
2.04

2 HP Standard Motor &
Hi Static Drive

CFM
2720
3060
3400
3740
4080

1.10
1.20
1.30
RPM BHP
RPM BHP
RPM BHP
2 HP Standard Mtr & Drive
863
1.48
892
1.63
920
1.78
891
1.66
919
1.81
946
1.96
917
1.87
946
2.03
974
2.18
945
2.11
974
2.28
1001 2.44
976
2.38
1002 2.56
1029 2.73

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
2 HP - Fan Motor Heat (MBH) = 3.000 x Fan BHP + 0.500
3 HP - Fan Motor Heat (MBH) = 2.900 x Fan BHP + 0.475

RT-PRC016-EN

External Static Pressure (Inches of Water)
1.40
1.50
1.60
RPM BHP
RPM BHP
RPM BHP
2 HP Std Motor & Hi Static Drive
946
1.93
973
2.08
999
2.24
973
2.12
999
2.29
1024 2.46
1001 2.34
1026 2.52
1051 2.69
1028 2.61
1054 2.78
1079 2.96
1055 2.91
1081 3.09
1105 3.26
3 HP Over-Sized Motor & Drive

1.34
1.52
1.72
1.96
2.20

←

2720
3060
3400
3740
4080

External Static Pressure (Inches of Water)
.10
.20
.30
.40
.50
.60
.70
.80
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP
2 HP Standard Motor & Drive
2 HP Standard Motor & Low Static Drive
613
0.60
655
0.72
695
0.84
733
0.95
769
1.08
611
0.64
650
0.74
688
0.85
725
0.98
761
1.11
796
1.25
612
0.68
651
0.79
689
0.91
724
1.02
759
1.15
792
1.29
825
1.43
622
0.76
659
0.86
693
0.97
729
1.10
764
1.23
795
1.35
826
1.49
857
1.64
671
0.96
706
1.08
738
1.19
770
1.32
804
1.46
834
1.60
864
1.74
892
1.88

1.70
RPM BHP

1.80
RPM BHP

1.90
RPM BHP

2.00
RPM BHP

1025
1048
1074
1103
1130

1050
1072
1099
1126
1154

1073
1096
1121
1148
1176

1098
1119
1143
1170
1199

2.39
2.63
2.86
3.14
3.45

2.55
2.80
3.05
3.32
3.65

2.71
2.98
3.23
3.51
3.83

2.88
3.14
3.41
3.71
4.03

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

25

Performance
Data

Table PD-13 — Belt Drive Evaporator Fan Performance -TSC102AD - Horizontal Configuration (SI)

m3/h

50

75

4620
5200
5780
6350
6930

RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Std Mtr & Low Static Drive
646
0.50
616
0.51
654
0.57
693
0.64
675
0.68
711
0.75
743
0.82
735
0.89
770
0.97
799
1.04
796
1.14
828
1.23
857
1.31

m3/h

275
RPM
kW

300
RPM
kW

4620
5200
5780
6350
6930

956
999
1034
1063
1093

982
1026
1067
1098
1125

1.25
1.49
1.73
1.96
2.23

1.33
1.58
1.86
2.11
2.38

100
RPM
kW
689
735
781
830
883

0.58
0.73
0.91
1.12
1.39

External Static Pressure (Pascals)
125
150
175
200
225
250
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM kW
RPM kW
1.50 Nom kW Standard Motor & Drive
734
0.67
781
0.77
826
0.88
865
0.98
898 1.07
928 1.16
773
0.82
812
0.92
855
1.03
897
1.15
934 1.27
969 1.38
819
1.01
853
1.11
886
1.21
925
1.34
964 1.47 1000 1.60
865
1.23
899
1.34
930
1.45
960
1.56
994 1.68 1028 1.82
913
1.48
945
1.60
977
1.72 1006 1.84 1034 1.96 1061 2.08
1.50 Nom kW Std Mtr
2.24 Nom kW Over-Sized
& High Static Drive
Motor & High Static Drive

←

25

External Static Pressure (Pascals)
325
350
375
400
425
450
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
1.50 Nom kW Standard Motor & High Static Drive
1008 1.42
1033 1.51
1056 1.60
1079 1.69
1102 1.78 1125 1.87
1052 1.68
1078 1.78
1101 1.88
1124 1.98
1146 2.08 1168 2.18
1094 1.97
1120 2.08
1145 2.20
1168 2.31
1191 2.42 1213 2.53
1129 2.26
1158 2.40
1185 2.53
1210 2.66
1234 2.78 1256 2.90
1157 2.53
1188 2.70
1218 2.86
1245 3.01
1273 3.16 1297 3.31
2.24 Nom kW Over-Sized Motor & High Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
1.50 kW - Fan Motor Heat (kW) = 1.178 x Fan kW + 0.464
2.24 kW - Fan Motor Heat (kW) = 1.138 x Fan kW + 0.139

475
RPM kW

500
RPM kW

1146
1188
1234
1278
-

1168
1209
1254
1299
-

1.95
2.27
2.63
3.03
-

2.04
2.37
2.74
3.15
-

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

Table PD-13a — Belt Drive Evaporator Fan Performance -TSC102AD - Horizontal Configuration (IP)
CFM

External Static Pressure (Inches of Water)
.40
.50
.60
.70
RPM BHP
RPM BHP
RPM BHP
RPM BHP
2 HP Standard Motor & Drive
689
0.78
734
0.90
781
1.04
826
1.18
735
0.98
773
1.10
812
1.23
855
1.39
781
1.22
819
1.36
853
1.49
886
1.62
830
1.51
865
1.65
899
1.79
930
1.94
883
1.86
913
1.99
945
2.15
977
2.30

.80
RPM BHP

.90
RPM BHP

1.00
RPM BHP

←

865
1.31
898 1.44
928
897
1.55
934 1.70
969
925
1.79
964 1.97 1000
960
2.09
994 2.26 1028
1006 2.47 1034 2.63 1061
3 HP Over-Sized Mtr & Drive

←

2720
3060
3400
3740
4080

.10
.20
.30
RPM BHP
RPM BHP
RPM BHP
2 HP Std Mtr & Low Static Drive
646
0.67
616
0.69
654
0.77
693
0.86
675
0.92
711
1.01
743
1.10
735
1.20
770
1.30
799
1.40
796
1.53
828
1.65
857
1.76

1.56
1.85
2.14
2.44
2.79

2 HP Std Motor &
Hi Static Drive

CFM
2720
3060
3400
3740
4080

External Static Pressure (Inches of Water)
1.10
1.20
1.30
1.40
1.50
1.60
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
2 HP Standard Motor & High Static Drive
956
1.67
982
1.79
1008 1.91
1033 2.03
1056 2.14
1079 2.26
999
1.99
1026 2.12
1052 2.26
1078 2.39
1101 2.52
1124 2.66
1034 2.32
1067 2.49
1094 2.64
1120 2.79
1145 2.94
1168 3.09
1063 2.63
1098 2.84
1129 3.03
1158 3.21
1185 3.39
1210 3.56
1093 2.99
1125 3.19
1157 3.40
1188 3.62
1218 3.83
1245 4.03
3 HP Over-Sized Motor & Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
2 HP - Fan Motor Heat (MBH) = 3.000 x Fan BHP + 0.500
3 HP - Fan Motor Heat (MBH) = 2.900 x Fan BHP + 0.475

26

1.70
1.80
1.90
RPM BHP RPM BHP RPM BHP
3 HP Over-Sized Motor & Drive
1102 2.38 1125
2.5
1146 2.62
1146 2.79 1168 2.92 1188 3.05
1191 3.24 1213 3.39 1234 3.53
1234 3.73 1256 3.89 1278 4.06
1273 4.24 1297 4.44
-

2.00
RPM BHP
1168
1209
1254
1299
-

2.74
3.18
3.68
4.23
-

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

RT-PRC016-EN

Performance
Data

Table PD-14 — Belt Drive Evaporator Fan Performance -TSC120AD - Downflow Configuration (SI)
25
m3/h

RPM

kW

5440
6120
6800
7480
8160

741
803

0.95
1.21

m3/h
5440
6120
6800
7480
8160

External Static Pressure (Pascals)
100
125
150
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
2.24 Nom kW Standard Motor & Low Static Drive
718
0.72
754
0.82
731
0.81
764
0.90
797
0.99
715
0.81
747
0.90
782
1.01
814
1.11
844
1.21
773
1.04
803
1.14
834
1.24
864
1.36
894
1.48
833
1.31
861
1.42
887
1.52
916
1.64
945
1.77
50

75

175
200
225
RPM
kW
RPM
kW
RPM kW
2.24 Nom kW Standard Motor & Drive
789
0.93
822
1.03
856 1.14
829
1.10
860
1.22
892 1.34
874
1.32
903
1.44
932 1.56
922
1.59
948
1.70
975 1.82
972
1.90
997
2.02 1022 2.14

External Static Pressure (Pascals)
275
300
325
350
375
400
425
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
2.24 Nom kW Standard Motor & Drive
917
1.36
945
1.47
973
1.60
999
1.72
1024 1.84
1048 1.97
1072 2.10
951
1.57
979
1.69
1007 1.82
1033 1.94
1059 2.07
1082 2.20
1107 2.34
988
1.82
1015 1.95
1042 2.08
1068 2.21
1093 2.35
1117 2.48
1142 2.63
1028 2.09
1053 2.23
1078 2.38
1103 2.52
1128 2.66
1152 2.81
1176 2.95
1071 2.41
1095 2.55
1119 2.70
1142 2.86
1166 3.02
1189 3.17
1212 3.33
2.24 Nom kW Standard Motor & High Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
2.24 kW - Fan Motor Heat (kW) = 1.138 x Fan kW + 0.139

250
RPM kW
887
922
960
1001
1046

1.25
1.46
1.69
1.95
2.27

450
RPM
kW

475
RPM kW

500
RPM kW

1095
1130
1164
1198
-

1117 2.37
1152 2.63
1187 2.91
1221 3.25
-

1140 3.36
1173 3.71
1209 4.11
-

2.23
2.49
2.76
3.10
-

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

Table PD-14a — Belt Drive Evaporator Fan Performance -TSC120AD - Downflow Configuration (IP)
CFM

.10
RPM BHP

3200
3600
4000
4400
4800

741
803

CFM

1.10
RPM BHP

3200
3600
4000
4400
4800

917
951
988
1028
1071

1.27
1.62

1.82
2.11
2.44
2.81
3.23

External Static Pressure (Inches of Water)
.20
.30
.40
.50
.60
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
3 HP Standard Motor & Low Static Drive
718
0.97
754
1.10
731
1.08
764
1.20
797
1.33
715
1.09
747
1.21
782
1.35
814
1.49
844
1.63
773
1.40
803
1.53
834
1.67
864
1.82
894
1.98
833
1.76
861
1.90
887
2.04
916
2.20
945
2.38

External Static Pressure (Inches of Water)
1.20
1.30
1.40
1.50
1.60
1.70
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
RPM BHP
3 HP Standard Motor & Drive
945
1.97
973
2.14
999
2.30
1024 2.47
1048 2.65
1072 2.82
979
2.27
1007 2.43
1033 2.60
1059 2.78
1082 2.95
1107 3.14
1015 2.62
1042 2.79
1068 2.97
1093 3.15
1117 3.33
1142 3.52
1053 3.00
1078 3.19
1103 3.38
1128 3.57
1152 3.77
1176 3.96
1095 3.42
1119 3.62
1142 3.83
1166 4.04
1189 4.25
1212 4.46
3 HP Standard Motor & High Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
3 HP - Fan Motor Heat (MBH) = 2.900 x Fan BHP + 0.475

RT-PRC016-EN

.70
.80
.90
RPM BHP RPM BHP RPM BHP
3 HP Standard Motor & Drive
789
1.25
822
1.38
856 1.53
829
1.48
860
1.63
892 1.79
874
1.77
903
1.93
932 2.09
922
2.13
948
2.28
975 2.44
972
2.55
997
2.71 1022 2.87

1.00
RPM BHP
887
922
960
1001
1046

1.67
1.95
2.27
2.62
3.04

1.80
RPM BHP

1.90
RPM BHP

2.00
RPM BHP

1095
1130
1164
1198
-

1117 3.17
1152 3.52
1187 3.91
1221 4.36
-

1140
1173
1209
-

3.00
3.33
3.70
4.15
-

3.36
3.71
4.11
-

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

27

Performance
Data

Table PD-15 — Belt Drive Evaporator Fan Performance -TSC120AD - Horizontal Configuration (SI)
25

m3/h
5440
6120
6800
7480
8160

m3/h
5440
6120
6800
7480
8160

50

75

100
RPM
kW
RPM
kW
RPM
kW
RPM
kW
2.24 Nom kW Standard Motor & Low Static Drive
691
0.67
730
0.75
771
0.84
729
0.84
761
0.91
792
0.99
829
1.08
802
1.13
833
1.22
860
1.29
890
1.38
876
1.49
905
1.58
931
1.67
955
1.75
950
1.91
977
2.02
1002 2.11
1025 2.20

External Static Pressure (Pascals)
125
150
175
200
225
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM kW
2.24 Nom kW Standard Motor & Drive
807
0.94
844
1.04
886
1.16
926
1.28
965 1.41
865
1.19
898
1.30
930
1.41
965
1.53 1002 1.67
923
1.50
956
1.62
986
1.73 1015 1.85 1044 1.98
983
1.86
1014 1.99
1045 2.12 1072 2.25 1098 2.37
1048 2.30
1074 2.42
1102 2.56 1131 2.71 1156 2.84
2.24 Nom kW Standard Motor & High Static Drive

External Static Pressure (Pascals)
275
300
325
350
375
400
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
RPM
kW
2.24 Nom kW Std Mtr & Drive
1029 1.64
1057 1.75
1084 1.86
1108 1.96
1132 2.06
1155 2.17
1072 1.95
1106 2.10
1134 2.22
1160 2.35
1185 2.47
1209 2.59
1111 2.28
1143 2.43
1174 2.58
1204 2.74
1232 2.90
1260 3.05
1152 2.65
1182 2.81
1211 2.97
1241 3.14
1270 3.31
1205 3.12
1229 3.27
2.24 Nom kW Standard Motor & High Static Drive

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
2.24 kW - Fan Motor Heat (kW) = 1.138 x Fan kW + 0.139

250
RPM kW
1000 1.53
1038 1.81
1077 2.12
1125 2.51
1181 2.98

425
RPM
kW

450
RPM
kW

475
RPM kW

500
RPM kW

1177
1231
1283
-

1198
1252
1306
-

1219
1274
-

1239
1295
-

2.27
2.70
3.18
-

2.37
2.82
3.32
-

2.48
2.94
-

3.46
4.10
-

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

Table PD-15a — Belt Drive Evaporator Fan Performance -TSC120AD - Horizontal Configuration (IP)
CFM
3200
3600
4000
4400
4800

CFM
3200
3600
4000
4400
4800

.10
.20
.30
RPM BHP
RPM BHP
RPM BHP
3 HP Standard Motor & Low Static Drive
691
0.89
730
1.00
729
1.13
761
1.22
792
1.32
802
1.52
833
1.63
860
1.73
876
1.99
905
2.12
931
2.24
950
2.56
977
2.70
1002 2.84

1.10
1.20
RPM BHP
RPM BHP
3 HP Std Mtr & Drive
1029 2.20
1057 2.35
1072 2.62
1106 2.81
1111 3.05
1143 3.26
1152 3.55
1182 3.76
1205 4.19
1229 4.39

1.00
RPM BHP
1000
1038
1077
1125
1181

2.06
2.43
2.85
3.36
4.00

1.30
RPM BHP

External Static Pressure (Inches of Water)
1.40
1.50
1.60
1.70
RPM BHP
RPM BHP
RPM BHP
RPM BHP

1.80
RPM BHP

1.90
RPM BHP

2.00
RPM BHP

1084
1134
1174
1211
-

1108
1160
1204
1241
-

1198
1252
1306
-

1219
1274
-

1239
1295
-

2.49
2.98
3.47
3.99
-

Notes:
Data Includes Pressure Drop Due To Wet Coils And Filters.
3 HP - Fan Motor Heat (MBH) = 2.900 x Fan BHP + 0.475

28

External Static Pressure (Inches of Water)
.40
.50
.60
.70
.80
.90
RPM BHP
RPM BHP
RPM BHP
RPM BHP RPM BHP RPM BHP
3 HP Standard Motor & Drive
771
1.13
807
1.26
844
1.39
886
1.55
926
1.72
965 1.89
829
1.45
865
1.60
898
1.74
930
1.89
965
2.06 1002 2.24
890
1.86
923
2.01
956
2.17
986
2.32 1015 2.48 1044 2.65
955
2.35
983
2.49
1014 2.66
1045 2.84 1072 3.01 1098 3.18
1025 2.96
1048 3.08
1074 3.24
1102 3.43 1131 3.63 1156 3.81
3 HP Standard Motor & High Static Drive

2.63
1132 2.77
1155 2.91
1177
3.15
1185 3.31
1209 3.47
1231
3.68
1232 3.88
1260 4.09
1283
4.21
1270 4.44
3 HP Standard Motor & High Static Drive

3.05
3.63
4.27
-

3.18
3.78
4.46
-

3.32
3.94
-

3.46
4.10
-

Factory Supplied Motors, In Commercial Equipment, Are Definite Purpose Motors, Specifically Designed And Tested To
Operate Reliably And Continuously At All Cataloged Conditions. Using The Full Horsepower Range Of Our Fan Motors
As Shown In Our Tabular Data Will Not Result In Nuisance Tripping Or Premature Motor Failure. Our Product’s Warranty
Will Not Be Affected.

RT-PRC016-EN

Performance
Data

Table PD-16 — Standard Motor & Sheave/Fan Speed (RPM)
Unit
6 Turns
Model No.
Open
TSC060AD
N/A
TSC072AD
N/A
TSC090AD
N/A
TSC102AD
N/A
TSC120AD
N/A
Factory set at 3 turns open

5 Turns
Open
898
698
752
688
782

4 Turns
Open
967
751
806
737
838

3 Turns
Open
1036
806
860
786
894

2 Turns
Open
1105
859
914
835
950

1 Turns
Open
1174
913
968
885
1006

Closed
1243
967
1020
934
1062

Table PD-17 — Standard Motor & Low Static Drive Accessory Sheave/Fan Speed (RPM)
Unit
6 Turns
Model No.
Open
TSC060AD
N/A
TSC072AD
N/A
TSC090AD
N/A
TSC102AD
N/A
TSC120AD
N/A
Factory set at 3 turns open

5 Turns
Open
691
537
671
629
717

4 Turns
Open
760
590
714
664
754

3 Turns
Open
829
644
757
701
799

2 Turns
Open
898
698
800
737
844

1 Turns
Open
967
752
843
773
885

Closed
1036
806
886
811
922

Table PD-18 — Standard Motor & High Static Drive Accessory Sheave/Fan Speed (RPM)
Unit
6 Turns
Model No.
Open
TSC060AD
N/A
TSC072AD
N/A
TSC090AD
1020
TSC102AD
936
TSC120AD
1062
Factory set at 3 turns open

5 Turns
Open
1243
967
1073
981
1118

4 Turns
Open
1311
1021
1127
1032
1174

3 Turns
Open
1379
1075
1181
1083
1229

2 Turns
Open
1450
1128
1235
1134
1285

1 Turns
Open
1515
1183
1289
1182
1341

Closed
1588
1235
N/A
N/A
N/A

1 Turns
Open
1183
1460
1251
N/A

Closed
1235
N/A
1321
N/A

8000
63
63
64
62
60

Overall
dBA
80
85
85
83
79

Table PD-19 — Oversized Motor & Drive Sheave/Fan Speed (RPM)
Unit
6 Turns
Model No.
Open
TSC072AD
N/A
TSC090AD
1112
TSC102AD
N/A
TSC120AD
N/A
Factory set at 3 turns open

5 Turns
Open
967
1182
971
N/A

4 Turns
Open
1021
1252
1041
N/A

3 Turns
Open
1075
1322
1111
N/A

2 Turns
Open
1128
1392
1181
N/A

Table PD-20 — Sound Power Level - dB (ref. 10 -12 Watts)
Unit
Model No.
63
TSC060AD
84
TSC072AD
83
TSC090AD
83
TSC102AD
83
TSC120AD
83
Note:
Tests follow ARI 270-95

RT-PRC016-EN

125
91
90
90
89
86

250
79
86
86
84
80

Octave Center Frequency
500
1000
2000
77
74
71
82
79
75
83
80
75
81
77
72
77
73
69

4000
68
70
71
69
66

29

Performance
Data

Table PD-21 — Static Pressure Drops Through Accessories - (Pascals)
Unit
Model No.
TSC060AD

TSC072AD

TSC090AD

TSC102AD

TSC120AD

Airflow
(m3/h)
2720
3400
4080
3260
4080
4890
4080
5100
6120
4620
5780
6930
5440
6800
8160

Standard
Filters1
25
37
55
10
15
22
15
25
35
12
20
30
17
27
40

Pleated Filters
(50 mm)
37
55
72
17
22
30
22
32
45
20
27
40
25
37
50

Economizer
OA/RA Dampers2
100% OA
100% RA
100% OA
100% RA
Downflow
Horizontal
30
11
30
4
46
17
46
6
64
26
64
9
25
2
15
5
27
5
20
5
33
10
25
10
27
5
20
5
35
12
30
12
52
17
62
20
31
7
22
10
47
15
45
15
75
17
77
22
42
12
35
12
65
17
75
20
85
22
87
25

Electric Heater
Accessory (kW)3
9
11
17
25
-

13-27
13
21
30
5
8
13
8
16
25
6
10
15
9
14
20

40
10
17
26

Notes:
1. Tested with standard filters. The TSC060AD has 25 mm (1 inch) standard fiters. The TSC072AD - 120AD has 50 mm (2 inch) standard filters.
The difference in pressure drop should be considered when utilizing optional 50 mm (2 inch) pleated filters.
2. OA = Outside Air and RA = Return Air
3. Nominal kW ratings at 415 V

Table PD-21a — Static Pressure Drops Through Accessories - (Inches of Water Column)
Unit
Model No.
TSC060AD

TSC072AD

TSC090AD

TSC102AD

TSC120AD

Airflow
(CFM)
1600
2000
2400
1920
2400
2880
2400
3000
3600
2720
3400
4080
3200
4000
4800

Standard
Filters1
0.10
0.15
0.22
0.04
0.06
0.09
0.06
0.10
0.14
0.05
0.08
0.12
0.07
0.11
0.16

Pleated Filters
(2 inch)
0.15
0.22
0.29
0.07
0.09
0.12
0.09
0.13
0.18
0.08
0.11
0.16
0.10
0.15
0.20

Economizer
OA/RA Dampers2
100% OA
100% RA
100% OA
100% RA
Downflow
Horizontal
0.12
0.04
0.12
0.01
0.18
0.07
0.18
0.02
0.26
0.10
0.26
0.04
0.10
0.01
0.06
0.02
0.11
0.02
0.08
0.02
0.13
0.04
0.10
0.04
0.11
0.02
0.08
0.02
0.14
0.05
0.12
0.05
0.21
0.07
0.25
0.08
0.12
0.03
0.09
0.04
0.19
0.06
0.18
0.06
0.30
0.07
0.31
0.09
0.17
0.05
0.14
0.05
0.26
0.07
0.30
0.08
0.34
0.09
0.35
0.10

Electric Heater
Accessory (kW)3
9
0.045
0.070
0.100
-

13-27
0.053
0.083
0.120
0.021
0.034
0.052
0.034
0.063
0.102
0.026
0.041
0.059
0.036
0.056
0.081

40
0.042
0.070
0.106

Notes:
1. Tested with standard filters. The TSC060AD has 25 mm (1 inch) standard fiters. The TSC072AD - 120AD has 50 mm (2 inch) standard filters.
The difference in pressure drop should be considered when utilizing optional 50 mm (2 inch) pleated filters.
2. OA = Outside Air and RA = Return Air
3. Nominal kW ratings at 415 V

Table PD-22 - Electric Heater Voltage Correction Factors (Apply to Auxiliary Electric Heat
Capacity)
Nominal
Voltage
415

30

Distribution
Voltage
380
400
415

Capacity
Multipiler
0.84
0.93
1.00

RT-PRC016-EN

Performance
Data

Table PD-23 — Auxiliary Electric Heat Capacity (SI)
Total2
Unit
Model No.

Unit
Voltage

TSC060AD

380-415/50/3

TSC072AD

380-415/50/3

TSC090AD

380-415/50/3

TSC102AD

380-415/50/3

TSC120AD

380-415/50/3

KW
7.5 / 9.0
10.9 / 13.0
14.4 / 17.2
11.3 / 13.5
16.9 / 20.2
22.6 / 26.9
11.3 / 13.5
16.9 / 20.2
22.6 / 26.9
16.9 / 20.2
22.6 / 26.9
16.9 / 20.2
22.6 / 26.9
33.9 / 40.4

No. Stages
2
2
2
1
2
2
1
2
2
2
2
2
2
2

Stage 1

Stage 2

KW
3.75 / 4.5
5.45 / 6.5
8.95 / 10.7
11.3 / 13.5
11.3 / 13.5
11.3 / 13.5
11.3 / 13.5
11.3 / 13.5
11.3 / 13.5
11.3 / 13.6
11.3 / 13.7
11.3 / 13.8
11.3 / 13.9
11.3 / 13.10

KW
3.75 / 4.5
5.45 / 6.5
5.45 / 6.5
—5.6 / 6.7
11.3 / 13.5
—5.6 / 6.7
11.3 / 13.5
5.6 / 6.7
11.3 / 13.5
5.6 / 6.7
11.3 / 13.5
22.5 / 26.9

Notes:
1. Does not include indoor fan power or heat
2. Heaters are rated at 380V / 415V. For other than rated voltage, CAP=(Voltage/Rated Voltage)2 x Rated Cap.

Table PD-23A — Auxiliary Electric Heat Capacity (IP)
Total2
Unit
Model No.

Unit
Voltage

TSC060AD

380-415/50/3

TSC072AD

380-415/50/3

TSC090AD

380-415/50/3

TSC102AD

380-415/50/3

TSC120AD

380-415/50/3

MBH
26 / 31
38 / 45
50 / 59
39 / 47
58 / 69
78 / 92
39 / 47
58 / 69
78 / 92
58 / 69
78 / 92
58 / 69
78 / 92
116 / 138

No. Stages
2
2
2
1
2
2
1
2
2
2
2
2
2
2

Stage 1

Stage 2

MBH
13 / 16
19 / 23
31 / 37
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47
39 / 47

MBH
13 / 16
19 / 23
19 / 23
—20 / 23
39 / 47
—20 / 23
39 / 47
20 / 23
39 / 47
20 / 23
39 / 47
77 / 92

Notes:
1. Does not include indoor fan power or heat
2. Heaters are rated at 380 / 415V. For other than rated voltage, CAP=(Voltage/Rated Voltage)2 x Rated Cap.

RT-PRC016-EN

31

Performance
Data

Table PD-24 — Air Temperature Rise Across Electric Heaters (Degrees C)
kW
380V / 415V
07.5 / 09.0
10.9 / 13.0
11.3 / 13.5
14.4 / 17.2
16.9 / 20.2
22.6 / 26.9
33.8 / 40.4

Voltage
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3

Stages
2
2
1
2
2
2
2

3400 m3/h
TSC060AD
6.6 / 7.9
9.6 / 11.4
—12.6 / 15.1
———-

4100 m3/h
TSC072AD
——8.3 / 9.9
—12.4 / 14.8
16.5 / 19.7
—-

5100 m3/h
TSC090AD
——6.6 / 7.9
—9.9 / 11.8
13.2 / 15.7
—-

5800 m3/h
TSC102AD
————8.7 / 10.4
11.7 / 13.9
—-

6800 m3/h
TSC120AD
————7.4 / 8.9
9.9 / 11.8
14.8 / 17.7

3000 CFM
TSC090AD
——11.9 / 14.2
—17.8 / 21.3
23.8 / 28.3
—-

3400 CFM
TSC102AD
————15.7 / 18.8
21.0 / 25.0
—-

4000 CFM
TSC120AD
————13.4 / 16.0
17.9 / 21.3
26.7 / 31.9

Note:
For minimum design airflow, see performance table for each unit.
To calculate temp rise at differrent airflow, use following formula:
Temp. Rise (C0) across Elect Htr = (kW x 2985)/( m3/h)

Table PD-24A — Air Temperature Rise Across Electric Heaters (Degrees F)
kW
380V / 415V
07.5 / 09.0
10.9 / 13.0
11.3 / 13.5
14.4 / 17.2
16.9 / 20.2
22.6 / 26.9
33.8 / 40.4

Voltage
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3
380-415/50/3

Stages
2
2
1
2
2
2
2

2000 CFM
TSC060AD
11.9 / 14.2
17.2 / 20.5
—22.8 / 27.2
———-

2400 CFM
TSC072AD
——14.9 / 17.8
—22.3 / 26.6
29.8 / 35.4
—-

Note:
For minimum design airflow, see performance table for each unit.
To calculate temp rise at differrent airflow, use following formula:
Temp. Rise (F0) across Elect Htr = (kW x 3414)/(1.08 x CFM)

32

RT-PRC016-EN

Zone Controls

Zone Sensors
Zone Sensors are the building
occupant’s comfort control devices for
Precedent™ units with the ReliaTel
control. The zone sensor offering
operates with the Reliatel
microprocessor

Non-programmable manual auto
changeover with digital LCD Display —
Auto, heat, cool or off mode selection
button. Auto or off fan bottom. Status
indication LCD indicators — System on,
heat, cool, or service.

Conventional Thermostats
Conventional Thermostats are the
building occupant’s comfort control
devises when a generic thermostat is
desired.
Manual
Changeover —
One Heat, One
Cool Thermostat.
Heat, Cool or Off
System Switch.
Fan Auto or On
Switch. Set Point
Dial. Adjustable
Heat Anticipator.

Manual Changeover — Heat, Cool or Off
System Switch. Fan Auto or Off Switch.
One
temperature
setpoint lever.

Automatic Changeover — One Heat,
Two Cool Thermostat. Off, Auto System
Switch. Auto/On Fan Switch.

Manual/Automatic Changeover —Auto,
Heat, Cool or Off System Switch. Fan
Auto or Off
Switch. Two
temperature
setpoint
levers. Optional
Status Indication
LED lights,
System On,
Heat, Cool, or
Service.

Remote Sensor — Sensor(s) available
for all zone sensors to provide
remote sensing
capabilities.

RT-PRC016-EN

Programmable Night Setback — Auto
or manual changeover with seven-day
programming. Keyboard selection of
Heat, Cool, Fan, Auto, or On.
All programmable sensors have

Programmable Electronic Night Setback
Thermostat — Heating setback and
cooling setup with 7-day, programming
capability. Available in two-stage
heating/cooling or one-stage heating/
cooling versions with automatic
changeover.
System On, Heat, Cool, Service LED/
indicators as standard. Night Setback
Sensors have one (1) Occupied, one (1)
Unoccuped, and two (2) Override
programs per day.
Integrated Comfort™ System —
Sensor(s) available with optional
temperature
adjustment and
override buttons
to provide
central control
through a Trane
Integrated
Comfort™
system.

33

Electrical
Data

Table ED-1 — Unit Wiring
Standard Indoor Fan Motor
Minimum
Maximum Fuse
Circuit
Size Or Maximum
Ampacitiy
Circuit Breaker1
17.7
25
23.2
35
24.8
35
26.8
35
31.2
40

Unit
Operating
Voltage Range
342-456
342-456
342-456
342-456
342-456

Unit
Model No.
TSC060AD
TSC072AD
TSC090AD
TSC102AD
TSC120AD

Oversized Indoor Fan Motor
Minimum
Maximum Fuse
Circuit
Size Or Maximum
Ampacitiy
Circuit Breaker1
17.7
25
24.2
35
26.5
35
28.5
35
31.2
40

Notes:
1. All units to be installed under local codes

Table ED-2 — Unit Wiring With Electric Heat Single Point Connection — 380-415 Volts

Unit
Model No.
TSC060AD

TSC072AD

TSC090AD

TSC102AD
TSC120AD

Heater2
kW Rating
MBH
7.5 / 9.0
26 / 31
10.9 / 13.0
38 / 45
14.4 / 17.2
50 / 59
11.3 / 13.5
39 / 47
16.9 / 20.2
58 / 69
22.6 / 26.9
78 / 92
11.3 / 13.5
39 / 47
16.9 / 20.2
58 / 69
22.6 / 26.9
78 / 92
16.9 / 20.2
58 / 69
22.6 / 26.9
78 / 92
16.9 / 20.2
58 / 69
22.6 / 26.9
78 / 92
33.8 / 40.4
116 / 138

Heater
Model No.
BAYHTRR412A
BAYHTRR418A
BAYHTRR423A
BAYHTRS418A
BAYHTRS427A
BAYHTRS436A
BAYHTRS418A
BAYHTRS427A
BAYHTRS436A
BAYHTRT427A
BAYHTRT436A
BAYHTRT427A
BAYHTRT436A
BAYHTRT454A

Standard Indoor Fan Motor
Minimum
Maximum Fuse
Circuit
Size Or Maximum
Ampacitiy
Circuit Breaker1
19.8 / 21.0
25 / 25
26.1 / 28.0
30 / 30
32.8 / 35.3
35 / 40
26.9 / 28.9
35 / 35
37.5 / 40.5
40 / 45
48.3 / 52.1
50 / 60
28.1 / 30.1
35 / 35
38.8 / 41.8
40 / 45
49.5 / 53.4
50 / 60
38.8 / 41.8
40 / 45
49.5 / 53.4
50 / 60
40.9 / 43.9
45 / 45
51.6 / 55.5
60 / 60
73.1 / 79.0
80 / 80

Control
Stages
2
2
2
1
2
2
1
2
2
2
2
2
2
2

Oversized Indoor Fan Motor
Minimum
Maximum Fuse
Circuit
Size Or Maximum
Ampacitiy
Circuit Breaker1
19.8 / 21.0
25 / 25
26.1 / 28.0
30 / 30
32.8 / 35.3
35 / 40
28.1 / 30.1
35 / 35
38.8 / 41.8
40 / 45
49.5 / 53.4
50 / 60
30.3 / 32.3
35 / 35
40.9 / 43.9
45 / 45
51.6 / 55.5
60 / 60
40.9 / 43.9
45 / 45
51.6 / 55.5
60 / 60
40.9 / 43.9
45 / 45
51.6 / 55.5
60 / 60
73.1 / 79.0
80 / 80

Notes:
1. All units to be installed under local codes
2. kW and MBH shown for 380V / 415V

Table ED-3 — Electrical Characteristics - Evaporator Fan Motor - 50 Hz
Standard Evaporator Fan Motor
Unit
Model No.
TSC060AD
TSC072AD
TSC090AD
TSC102AD
TSC120AD

Oversized Evaporator Fan Motor
Amps

No.
1
1
1
1
1

Volts
380-415
380-415
380-415
380-415
380-415

Phase
3
3
3
3
3

HP
1.5
1.5
2.0
2.0
3.0

FLA
4.3
4.3
5.3
5.3
7.0

LRA
25.3
25.3
36.4
36.4
57.0

No.
1
1
1
-

Volts
380-415
380-415
380-415
-

Phase
3
3
3
-

HP
2.0
3.0
3.0
-

Amps
FLA
5.3
7.0
7.0
-

LRA
36.4
57.0
57.0
-

Table ED-4 — Electrical Characteristics - Compressor Motor and Condenser Motor - 50 Hz
Compressor Motor
Unit
Model No.
TSC060AD
TSC072AD
TSC090AD
TSC102AD
TSC120AD

Condenser Fan Motor
Amps

No.
1
1
1
2
2

Volts
380-415
380-415
380-415
380-415
380-415

Phase
3
3
3
3
3

HP1
5.7
7.5
8.3
6.0/3.8
6.0/4.8

RPM
2875
2875
2875
2875
2875

RLA1
9.5
12.7
13.20
9.3/6.9
9.9/8.5

LRA1
74.00
95.00
100.00
74.0/48.0
74.0/61.8

Amps
No.
1
1
1
1
1

Phase
1
1
1
1
1

HP
0.40
0.75
0.75
0.75
0.75

FLA
1.9
2.8
2.8
2.8
2.8

LRA
2.8
7.1
7.1
7.1
7.1

Note:
1. Comp1/Comp2

34

RT-PRC016-EN

Jobsite
Connections

Zone Sensors — Typical Number Of Wires

DISCONNECT
SWITCH
(BY OTHERS)

ZONE SENSOR
OR THERMOSTAT
ROOFTOP
UNIT

A — Manual Changeover . . . . . . . . . . . . . . . . . 4
Manual/Auto Changeover . . . . . . . . . . . . . 5
Manual/Auto Changeover with
Status Indication LED’s . . . . . . . . . . . . . 10
Programmable Night Setback with
Status Indication LED’s . . . . . . . . . . . . . . 7
Thermostats — Typical Number of Wires
A — 3 wires, 24-volts, Cooling Only
4 wires, 24-volts, with Electric Heat
B — 3 Power Wires + 1 Ground Wire (three phase)
2 Power Wires + 1 Ground Wire (single phase)

For specific wiring information, see the installation instructions.
All wiring except power wires is low voltage.
All customer supplied wiring to be copper and must conform to NEC or CEC and local electrical codes. Wiring shown dotted is to be furnished and installed by the customer.

RT-PRC016-EN

35

Dimensional
Data

TSC060

All dimensions are in inches/millimeters.

TSC060

36

RT-PRC016-EN

Dimensional
Data

TSC060

All dimensions are in inches/millimeters.

TSC060 — Downflow Airflow Supply/Return

TSC060 — Horizontal Airflow Supply/Return

TSC060 — Unit Clearance and Roof Opening

RT-PRC016-EN

37

Dimensional
Data

TSC060

All dimensions are in inches/millimeters.

TSC060 — Roof Curb

TSC060 — Downflow Duct Connections — Field Fabricated

38

RT-PRC016-EN

Dimensional
Data

TSC072-120

All dimensions are in inches/millimeters.

TSC072-090

TSC102-120

RT-PRC016-EN

39

Dimensional
Data

TSC072-120

All dimensions are in inches/millimeters.

TSC072-120 — Downflow Airflow Supply
and Return

TSC072-120 — Horizontal Airflow Supply
and Return

TSC072-120 — Unit Clearance and Roof
Opening

40

RT-PRC016-EN

Dimensional
Data

TSC072-120

All dimensions are in inches/millimeters.

TSC072-120 — Roof Curb

TSC072-120 — Downflow Duct Connections —
Field Fabricated

RT-PRC016-EN

ALL FLANGES 1 1/4” (31 MM)

41

Dimensional
Data

TSC060
Options/Accessories

All dimensions are in inches/millimeters.

TSC060 — Economizer , Manual or Motorized Fresh Air Damper

TSC060 — Barometric Relief Damper Hood

TSC060 — Swing Diameter for Hinged Doors Option

42

RT-PRC016-EN

Dimensional
Data

TSC072-120
Options/Accessories

All dimensions are in inches/millimeters.

TSC072-120 — Economizer and Barometric
Relief Damper Hoods

TSC072-120 — Swing Diameter for
Hinged Door(s) Option

RT-PRC016-EN

43

Weights

Table W-1 - Maximum Unit and Corner Weights and Center of Gravity Dimensions (SI)
Maximum Weights(2) (kg)
Unit
Model No.
TSC060AD
TSC072AD
TSC090AD
TSC102AD
TSC120AD

Shipping(2)
270
373
436
453
493

Net(2)
235
326
389
405
445

Corner Weights(1) (kg)
A
75
107
131
133
147

B
56
83
101
106
115

C
48
58
67
72
81

Center of Gravity (mm)
D
56
78
89
94
104

Length
790
970
970
990
990

Width
480
560
530
560
560

Notes:
(1) Corner weights are given for information only. All models must be supported continuously by a curb or equivalent frame support.
(2) Weights are approximate.

Table W-1a - Maximum Unit and Corner Weights and Center of Gravity Dimensions (IP)
Corner Weights(1) (lbs)

Maximum Weights (lbs)
Unit
Model No.
TSC060AD
TSC072AD
TSC090AD
TSC102AD
TSC120AD

Shipping(2)
595
823
962
998
1087

Net
518
718
857
893
982

A
165
235
289
294
323

B
124
182
222
233
253

C
105
128
148
159
178

Center of Gravity (in)
D
124
173
197
207
229

Length
31
38
38
39
39

Width
19
22
21
22
22

Notes:
(1) Corner weights are given for information only. All models must be supported continuously by a curb or equivalent frame support.
(2) Weights are approximate.

Table W-2 - Accessory Net Weights(1) (2) (kg)
(3)

Accessory
Economizer
Barometric Relief
Motorized Outside Air Damper
Manual Outside Air Damper
Roof Curb
Oversized Motor
Coil Guards
Hinged Doors
Electric Heaters

Net Weights(2)
TSC060
TSC072-120
12
16
3
5
9
14
7
12
32
52
2
4
5
9
5
5
7
14

Notes:
(1) Weights for options not listed are < 3 kg.
(2) Net weight should be added to unit weight when ordering factory-installed
accessories.
(3) Some accessories not available on all units.

44

Table W-2a - Accessory Net Weights(1) (2) (lbs)
Accessory(3)
Economizer
Barometric Relief
Motorized Outside Air Damper
Manual Outside Air Damper
Roof Curb
Oversized Motor
Coil Guards
Hinged Doors
Electric Heaters

TSC060
26
7
20
16
70
5
12
10
15

Net Weights(2)
TSC072-120
36
10
30
26
115
8
20
12
30

Notes:
(1) Weights for options not listed are < 5 lbs.
2) Net weight should be added to unit weight when ordering factory-installed
accessories.
(3) Some accessories not available on all units.

RT-PRC016-EN

Mechanical
Specifications

General
The units shall be convertible airflow.The
operating range shall be between 46°C
and -18°C (115°F and 0°F) in cooling as
standard from the factory for all units. All
units shall be factory assembled,
internally wired, fully charged with R-22,
and 100 percent run tested to check
cooling operation, fan and blower
rotation, and control sequence before
leaving the factory. Wiring internal to the
unit shall be colored and numbered for
simplified identification.
Casing
Unit casing shall be constructed of zinc
coated, heavy gauge, galvanized steel.
Exterior surfaces shall be cleaned,
phosphatized, and finished with a
weather-resistant baked enamel finish.
Cabinet construction shall allow for all
maintenance on one side of the unit.
Service panels shall have lifting handles
and be removed and reinstalled by
removing only a single fastener while
providing a water and air tight seal. All
exposed vertical panels and top covers in
the indoor air section shall be insulated
with a cleanable foil-faced, fire-retardent
permanent, odorless glass fiber material.
The base of the unit shall be insulated
with 13 mm, 16 kg (1/2 inch, 1 pound)
density foil-faced, closed-cell material. All
insulation edges shall be either captured
or sealed.The unit’s base pan shall have
no penetrations within the perimeter of
the curb other than the raised 29 mm (11/8
inch high downflow supply/return
openings to provide an added water
integrity precaution, if the condensate
drain backs up.The base of the unit shall
have provisions for forklift and crane
lifting, with forklift capabilities on three
sides of the unit.

RT-PRC016-EN

UnitTop
The top cover shall be one piece
construction or where seams exist, it
shall be double-hemmed and gasketsealed. The ribbed top adds extra
strength and prevents water from
pooling on unit top.

Outdoor Fans
The outdoor fan shall be direct-drive,
statically and dynamically balanced,
draw-through in the vertical discharge
position. The fan motor shall be
permanently lubricated and shall have
built-in thermal overload protection.

Filters
One inch, throwaway filters shall be
standard on all 5 ton units.The filter rack
can be converted to two inch capability.
50 mm (2 inch) filters shall be factory
supplied on all 6-10 ton units. Optional 50
mm (2 inch) pleated filters shall be
available.

Indoor Fan
All units shall have belt drive motors.
Units with belt drive motors shall have
an adjustable idler-arm assembly for
quick-adjustment to fan belts and motor
sheaves. All motors shall be thermally
protected. Oversized motors shall be
available for high static operations.

Compressors
All units shall have direct-drive, hermetic,
scroll type compressors with centrifugal
type oil pumps. Motor shall be suction
gas-cooled and shall have a voltage
utilization range of plus or minus 10
percent of unit nameplate voltage.
Internal overloads shall be provided with
the scroll compressors. Low and high
pressure switches shall be standard.

Controls
Unit shall be completely factory-wired
with necessary controls and contactor
pressure lugs or terminal block for
power wiring. Units shall have single
point power connection as standard.
Unit shall provide an external location
for mounting a fused disconnect device.

Refrigerant Circuits
Service pressure ports, and refrigerant
line filter driers are factory-installed as
standard. An area shall be provided for
replacement suction line driers.
Evaporator and Condenser Coils
Internally finned, 8 mm (5/16”) copper
tubes mechanically bonded to a
configured aluminum plate fin shall be
standard. Coils shall be leak tested at the
factory to ensure the pressure integrity.
The evaporator coil and condenser coil
shall be leak tested to 1375 kPa (200 psig)
and pressure tested to 3100 kPa (450
psig).The condenser coil shall have a
patent pending 1 + 1 + 1 hybrid coil
designed with slight gaps for ease of
cleaning. A removeable, reversible,
double-sloped condensate drain pan with
provision for through the base
condensate drain is standard.

Microprocessor controls provide for all
24 volt control functions. The resident
control algorithms shall make all
heating, cooling, and/or ventilating
decisions in response to electronic
signals from sensors measuring indoor
and outdoor temperatures. The control
algorithm maintains accurate
temperature control, minimizes drift
from set point, and provides better
building comfort. A centralized
Microprocessor shall provide anti-short
cycle timing and time delay between
compressors to provide a higher level of
machine protection.

45

Mechanical
Specifications

Accessories/Options
Electric Heaters
Field-installed electric heat modules shall
be available for installation within basic
unit. Electric heater elements shall be
constructed of heavy-duty nickel
chromium elements internally delta
connected for 200 volt, wye connected
for 380-415 volt. Staging shall be
achieved through the unitary control
processor (UCP). Each heater package
shall have automatically reset high limit
control operating through heating
element contactors. All heaters shall be
individually fused from the factory, where
required. Power assemblies shall provide
single-point connection.
Roof Curb
The roof curb shall be designed to mate
with the unit’s downflow supply and
return and provide support and a water
tight installation when installed properly.
The roof curb design shall allow fieldfabricated rectangular supply/return
ductwork to be connected directly to the
curb. Curb shall be shipped knocked down
for field assembly and shall include wood
nailer strips.

Economizer
This accessory shall be either field or
factory-installed and shall be available
with or without barometric relief.The
assembly includes fully modulating 0-100
percent motor and dampers, minimum
position setting, preset linkage, wiring
harness with plug, spring return actuator
and fixed dry bulb control.The barometric
relief shall provide a pressure operated
damper that shall be gravity closing and
shall prohibit entrance of outside air
during the equipment “off” cycle.
Optional solid state or differential
enthalpy control shall be available for
either factory or field installation.The
factory-installed economizer arrives in
the shipping position and shall be moved
to the operating position by the installing
contractor.
Phase Monitor
Phase monitor shall provide 100%
protection for motors and compressors
against problems caused by phase loss,
phase imbalance, and phase reversal.
Phase monitor is equipped with an LED
that provides an ON or FAULT indicator.
Remote Potentiometer
The minimum position setting of the
economizer shall be adjusted with this
accessory.
Manual Outside Air Damper
Factory or field-installed rain hood and
screen shall provide up to 50 percent
outside air.

Discharge Air Sensing
This factory of field-installed option
provides true discharge air sensing in
heating models.This sensor is a status
indicator readable through Tracer™ or
Tracker™.
Oversized Motors
Factory or field-installed oversized
motors shall be available for high static
applications.
Clogged Filter/Fan Failure Switch
A dedicated differential pressure switch is
available, factory-installed, to achieve
active fan failure indication and/or
clogged filter indication.These indications
will be registered with either a zone
sensor with status indication lights or an
Integrated Comfort™ System.
High Pressure Cutout
Standard on all units.
Hinged Access Doors
Sheet metal hinges are available factoryinstalled on the Filter/Evaporator, Supply
Fan/Heat, and the Compressor/Control
Access Doors.
Black Epoxy Coated Condenser Coil
The coil provides corrosion protection to
condenser coils for seacoast application.
The protection is a factory-applied
thermoset vinyl coating, bonded to
normal aluminum fin stock.The uniform
thickness of the bonded vinyl layer
exhibits excellent corrosion protection.

Motorized Outside Air Dampers
Factory or field-installed manually set
outdoor air dampers shall provide up to
50 percent outside air. Once set, outdoor
air dampers shall open to set position
when indoor fan starts.The damper shall
close to the full closed position when
indoor fan shuts down.

46

RT-PRC016-EN

Mechanical
Specifications

Control Options
Comm-3/4 Trane Communication
Interface
This factory or field-installed option shall
be provided to interface microprocessor
controlled units with theTrane Integrated
Comfort™ systems.
Comm-5 LonTalk Communication
Interface
This factory or field-installed option shall
be provided to allow the unit to
communicate as aTrane Comm-5 device
or directly with generic LonTalk Network
Building Automation System Controls.
Zone Sensor
This field-installed control shall be
provided to interface with the Micro
equipped units and shall be available in
either manual, automatic programmable
with night setback, with system
malfunction lights, or remote sensor
options.
Thermostats
Two stage heating and cooling operation
or one stage heating and cooling shall be
available, for field installation, in either
manual or automatic changeover.
Automatic programmable electronic with
night set back shall also be available.

Differential Pressure Switches
These factory or field-installed sensors
allow individual fan failure and dirty filter
indication for microprocessor controlled
units.The fan failure switch will disable all
unit functions and “flash” the Service
LED on the zone sensor.The dirty filter
switch will light the Service LED on the
zone sensor and will allow continued unit
operation.
Reference Enthalpy Control
Replaces the dry bulb control with a wet
bulb changeover controller which has a
fully adjustable set point. Enthalpy control
offers a higher level of comfort control,
along with energy savings potential, than
the standard dry bulb control.This is due
to the additional wet bulb sensing
capability.This option shall be available
for microprocessor controlled units. It can
be field-installed, or factory-installed with
the factory-installed economizer.
Differential Enthalpy Control
Replaces the standard dry bulb control
with two enthalpy sensors that compare
total heat content of the indoor air and
outdoor air to determine the most
efficient air source.This control option
offers the highest level of comfort control,
plus energy efficiency, available.This
option shall be available for
microprocessor controlled units. It can be
field-installed, or factory-installed with the
factory-installed economizer.
Low Ambient Cooling
All microprocessor units shall have
cooling capabilities down to 18°C (0°F) as
standard.

RT-PRC016-EN

47

Literature Order Number

RT-PRC016-EN

File Number

PL-UN-000-RT-PRC016-EN-02-04

Trane
A business of American Standard Companies
www.trane.com

Supersedes

PL-UN-000-RT-PRC016-EN-12-03

Stocking Location

03-03 Webb/Mason 02-04 Electronic Only

For more information, contact your local district
office or e-mail us at comfort@trane.com

Trane has a policy of continuous product and product data improvement and reserves the right to change
design and specifications without notice



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Subject                         : Packaged Cooling with Electric Heat Rooftop Units Precedent 50 hz
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Metadata Date                   : 2004:03:03 15:07:17-06:00
Title                           : RT-PRC016-EN 10/03
Description                     : Packaged Cooling with Electric Heat Rooftop Units Precedent 50 hz
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