Trane TSC060-120 User Manual

5 (1)

Packaged Cooling with Electric Heat Rooftop Units

Precedent

TSC060-120

50 Hz

February 2004

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Introduction

Precedent. . .The same Trane quality...

with added flexibility. Precedent is a flexible line of packaged units that covers a wide variety of applications.

ReliaTelmicroprocessor 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.

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 aTrane.

From simple applications, to the most complex, Precedent has the solution.

© 2004 American Standard Inc. All rights reserved

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Contents

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

 

 

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Trane TSC060-120 User Manual

Features and

Benefits

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.

Compressors

Precedentcontains the best compressor technology available to achieve the highest possible performance. Our compressor line includesTrane built reciprocating and scrolls.

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.

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.

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

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.

Patented Condenser Coil

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

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.

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Features and

Benefits

Standardized Components

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

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.

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.

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Features and

Benefits

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 ReliaTelmicroprocessor controls.

ReliaTelMicro:

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.

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

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

Requires no special tools to run the Precedent unit through its paces during testing. Simply place a jumper betweenTest 1 andTest 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.

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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.

Comm-3/4Trane Communication Interface

Available factory or field-installed.This module when applied with ReliaTeleasily interfaces with Trane’s Integrated ComfortSystem.

The following options round-out the complete line of Precedentoptions:

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.

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Features and

Benefits

Quality And Reliability Testing

All Precedentdesigns 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 rigorousTrane 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.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

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Application

Considerations

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

Low Ambient Cooling

The Precedentline features, with ReliaTelmicroprocessor controls, low ambient cooling down to 18°C (0°F). Contact your localTrane 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.

NOTE: THE EFFECTIVENESS OF BAROMETRIC RELIEF DAMPER DURING ECONOMIZING OPERATION IS SYSTEM RELATED.

PRESSURE DROP OF THE RETURN AIR SYSTEM SHOULD BE CONSIDERED TO CONTROL BUILDING PRESSURIZATION.

Condensate Trap

The evaporator is a draw-thru configuration. A trap must be field provided prior to start-up on the cooling cycle.

Clearance Requirements

The recommended clearances identified with unit dimensions should be maintained to assure adequate service maximum capacity and peak operating efficiency. Actual clearances which appear inadequate should be reviewed with the localTrane 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.

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Selection

Procedure - SI Units

Cooling Capacity

Step 1

Calculate the building’s total and sensible cooling loads at design conditions. Use theTrane 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

C

Airflow: 3400 m3/h

D

Electrical Characteristics: 380-415/50/3

E

Summer Design Conditions: Entering

Evaporator Coil: 27 DB, 19 WB Outdoor

Ambient: 35

F

External Static Pressure: 110 Pa

Step 2

Table PD-1 shows that aTSC060AD 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.

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

Standard Filter 1 in.

37 Pa

from Table PD-21

 

Economizer

5 Pa

(100% Return Air)

from

Table PD-21

 

Electric Heater Size 7.5 kW

17 Pa

from Table PD-21

 

Total Static Pressure

169 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 belowTable PD-6). Therefore, the actual total static pressure is 169-17 (fromTable PD-21) = 152 Pa.

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.

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.

Heating Capacity

Step 1

Calculate the building heating load using theTrane 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:

A

Total heating load of 5 kW

B

2000 cfm

C

380 volt/3 phase Power Supply

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

Air Delivery Selection

External static pressure drop through the air distribution system has been calculated to be 110 Pa. FromTable PD21 static pressure drop through the economizer is 5 Pa and the 7.5 kW heater is 17 Pa (110 + 5 + 17). EnterTable 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.

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Selection

Procedure - IP Units

Cooling Capacity

Step 1

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

Factors used in unit selection:

A

Total Cooling Load: 59 MBh

B

Sensible Cooling Load: 40 MBh

C

Airflow: 2000 cfm

D

Electrical Characteristics: 380-415/50/3

E

Summer Design Conditions: Entering

Evaporator Coil: 80 DB, 67 WB Outdoor

Ambient: 95

F

External Static Pressure: 0.45 in. wg

Step 2

Table PD-1a shows that aTSC060AD 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.

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

Standard Filter 1 in.

0.15 wg

from Table PD-21a

 

Economizer

0.02 wg

(100% Return Air)

from

Table PD-21a

 

Electric Heater Size 26 MBh

0.07 wg

from Table PD-21a

 

Total Static Pressure

0.69 wg

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 (fromTable 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.

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.

Heating Capacity

Step 1

Calculate the building heating load using theTrane 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:

A

Total heating load of 15 MBH

B

2000 cfm

C

380 volt/3 phase Power Supply

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

Air Delivery Selection

External static pressure drop through the air distribution system has been calculated to be 0.45 inches of water. FromTable 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). EnterTable 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.

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Model

Number

Description

T 1

Digit 1 - Unit Function

T = DX Cooling

Digit 2 - Efficiency

S = Standard Efficiency

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 = ReliaTelMicroprocessor

Digit 10 - Heating Capacity

0 = No Electric Heat

Digit 11 - Minor Design Sequence

A = First Sequence

S

C

060

A

D

R

O

A ** C

0

0

0

0

0

0

0

0

0

0

1

2

3

4,5,6

7

8

9

10

11 12,13 14

15

16

17

18

19

20

21

22

23

24

25

Digits 12, 13 - Service Sequence

**= Factory Assigned

Digit 14 - Fresh Air Selection

0 = No Fresh Air

A = Manual Outside Air Damper 0-50%

B = Motorized Outside Air Damper 0-50%

C = Economizer, Dry Bulb 0-100%

without Barometric Relief

D = Economizer, Dry Bulb 0-100%

with Barometric Relief

E = Economizer, Reference Enthalpy

0-100% without Barometric Relief

F = Economizer, Reference Enthalpy

0-100% with Barometric Relief

G = Economizer, Comparative Enthalpy

0-100% without Barometric Relief

H = Economizer, Comparative Enthalpy

0-100% with Barometric Relief

Digit 15 - Supply Fan/Drive Type/Motor

0 = Standard Drive

1 = Oversized Motor

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 18 - Through the Base Provisions

0 = No Through the Base Provisions

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 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

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General

Data

Table GD - 1 — General Data

 

Convertible Units

Convertible Units

Convertible Units

Convertible Units

Convertible Units

 

 

TSC060AD

TSC072AD

TSC090AD

TSC102AD

TSC120AD

 

Cooling Performance 1

 

 

 

 

 

 

 

Gross Capacity - kW (MBh)

18.2 (62.0)

23.2 (79.0)

26.7 (91.0)

31.1 (106.0)

34.9 (119.0)

 

 

COP (EER)2

2.99 (10.2)

3.08 (10.5)

3.02 (10.3)

3.02 (10.3)

2.99 (10.2)

 

 

Nominal Airflow - m3/h (cfm)

3400 (2000)

4080 (2400)

5100 (3000)

5780 (3400)

6800 (4000)

 

 

Rated Airflow - m3/h (cfm)

3400 (2000)

3570 (2100)

4460 (2625)

5100 (3000)

5950 (3500)

 

 

Net Capacity - kW (MBh)

17.3 (59.0)

22.0 (75.0)

25.2 (86.0)

29.9 (102.0)

33.1 (113.0)

 

 

System Power - kW

5.78

7.14

8.35

9.90

11.08

 

 

Compressor

 

 

 

 

 

 

 

Number -Type

1-Climatuff Scroll

1-Trane 3-D Scroll

1-Trane 3-D Scroll

2-Climatuff Scroll

2-Climatuff Scroll

 

Outdoor Sound Rating - dB 3

80

85

85

83

79

 

 

Outdoor Coil -Type

Lanced

Lanced

Lanced

Lanced

Lanced

 

 

Tube Size - in. OD

0.3125

0.3125

0.3125

0.3125

0.3125

 

 

 

Face Area - m2 (sq ft)

1.02 (10.96)

1.29 (13.88)

1.29 (13.88)

1.75 (18.89)

2.41 (25.92)

 

 

Rows / FPI

3 / 17

2 / 17

2 / 17

2 / 17

2 / 17

 

 

 

 

 

 

 

 

 

Indoor Coil -Type

Lanced

Lanced

Lanced

Lanced

Lanced

 

 

Tube Size OD - in.

0.3125

0.3125

0.3125

0.3125

0.3125

 

 

Face Area - m2 (sq ft)

0.62 (6.68)

0.92 (9.89)

0.92 (9.89)

1.15 (12.36)

1.15 (12.36)

 

 

Rows / FPI

3 / 16

2 / 16

3 / 16

3 / 16

4 / 16

 

 

Refrigerant Control

Short Orifice

Short Orifice

Short Orifice

Short Orifice

Short Orifice

 

Drain Connection No. / Size - in.

1 / 0.75 NPT

1 / 0.75 NPT

1 / 0.75 NPT

1 / 0.75 NPT

1 / 0.75 NPT

 

Outdoor Fan -Type

Propeller

Propeller

Propeller

Propeller

Propeller

 

 

No. Used / Diameter - in.

1 / 22

1 / 26

1 / 26

1 / 26

1 / 26

 

 

DriveType / No. Speeds

Direct / 1

Direct / 1

Direct / 1

Direct / 1

Direct / 1

 

CFM

2900

5100

5200

5500

5800

 

 

No. Motors / kW (HP)

1 / 0.30 (0.40)

1 / .56 (0.75)

1 / .56 (0.75)

1 / .56 (0.75)

1 / .56 (0.75)

 

 

Motor RPM

950

950

950

950

950

 

 

Belt Drive Indoor Fan -Type

FC Centrifugal

FC Centrifugal

FC Centrifugal

FC Centrifugal

FC Centrifugal

 

 

No. Used

1

1

1

1

1

 

 

Fan Diameter xWidth - mm (in.)

280 X 280 (11 x 11)

305 X 305 (12 x 12)

305 X 305 (12 x 12)

381 X 381 (15 x 15)

381 X 381 (15 x 15)

 

DrvieType / No. Speeds

Belt /Variable Speed

Belt /Variable Speed

Belt /Variable Speed

Belt /Variable Speed

Belt /Variable Speed

 

No. Motors

1

1

1

1

1

 

 

Standard Motor Power - kW (HP)

1.1 (1.5)

1.1 (1.5)

1.5 (2.0)

1.5 (2.0)

2.2 (3.0)

 

 

Oversized Motor Power - kW (HP)

-

1.5 (2.0)

2.2 (3.0)

2.2 (3.0)

-

 

 

Motor RPM - Standard / Oversized

1450 / -

1450 / 1450

1450 / 2850

1450 / 2850

2850 / -

 

 

Motor Frame Size

56

56

56

56

56

 

 

Filters - Type Furnished

Throwaway

Throwaway

Throwaway

Throwaway

Throwaway

 

 

(No.) Size Reccommended - mm

(2) 508 X 762 X 25

(4) 406 X 635 X 50

(4) 406 X 635 X 50

(4) 508 X 635 X 50

(4) 508 X 635 X 50

 

(No.) Size Reccommended - in.

(2) 20 X 30 X 1

(4) 16 X 25 X 2

(4) 16 X 25 X 2

(4) 20 X 25 X 2

(4) 20 X 25 X 2

 

Refrigerant Charge - kg (lbs) of R-22 4

3.7 (8.2)

3.7 (8.2)

4.5 (10.0)

Circuit 1 - 3.8 (8.3)

Circuit 1 - 3.4 (7.5)

 

 

 

 

 

 

Circuit 2 - 2.0 (4.4)

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.

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13

Performance

Data

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

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Ambient Temperature (C)

 

 

 

 

 

 

 

 

 

 

 

 

 

Enter.

 

 

 

30

 

 

 

 

35

 

 

 

 

40

 

 

 

 

45

 

 

 

 

 

 

Dry

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Bulb

 

 

 

 

 

 

 

 

 

 

Entering Wet Bulb Temperature (C)

 

 

 

 

 

 

 

 

 

 

 

m3/h

Temp

 

16

19

22

16

 

19

22

16

19

22

16

 

19

 

22

 

 

 

Airflow

(C)

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

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

3060

27

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

30

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

 

 

 

 

 

 

33

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

 

 

 

24

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

3400

27

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

30

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

 

 

 

 

 

 

33

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

 

 

 

24

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

 

3740

27

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

 

30

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

 

 

 

 

 

 

33

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

 

 

 

24

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

4080

27

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

30

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

 

 

 

 

 

 

33

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)

 

 

 

 

 

 

 

 

 

 

 

Enter.

 

 

 

85

 

 

 

 

95

 

 

 

 

105

 

 

 

 

115

 

 

 

Dry

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Bulb

 

 

 

 

 

 

 

 

 

 

Entering Wet Bulb Temperature (F)

 

 

 

 

 

 

 

 

 

CFM

Temp

 

61

67

73

61

 

67

73

61

67

73

61

 

67

 

73

 

Airflow

(F)

TGC SHC

TGC SHC TGC SHC

TGC

SHC

TGC SHC TGC SHC

TGC SHC TGC SHC

TGC SHC

TGC SHC

TGC SHC

TGC SHC

 

75

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

1800

80

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

85

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

 

 

90

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

 

75

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

2000

80

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

85

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

 

 

90

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

 

75

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

2200

80

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

85

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

 

 

90

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

 

75

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

2400

80

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

85

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

 

 

90

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)

 

Enter.

 

 

 

30

 

 

 

 

 

Ambient Temperature (C)

40

 

 

 

 

45

 

 

 

 

 

 

 

 

 

 

 

35

 

 

 

 

 

 

 

 

 

 

 

 

Dry

 

 

 

 

 

 

 

 

 

 

Entering Wet Bulb Temperature (C)

 

 

 

 

 

 

 

 

 

 

Bulb

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

m3/h

Temp

 

16

19

22

16

 

19

22

16

19

22

16

 

19

 

22

 

Airflow

(C)

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

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

3670

27

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

30

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

 

 

33

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

 

24

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

4080

27

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

30

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

 

 

33

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

 

24

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

4490

27

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

30

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

 

 

33

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

 

24

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

4900

27

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

30

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

 

 

33

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)

 

Enter.

 

 

 

85

 

 

 

 

 

Ambient Temperature (F)

105

 

 

 

 

115

 

 

 

 

 

 

 

 

 

 

95

 

 

 

 

 

 

 

 

 

 

 

Dry

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Bulb

 

 

 

 

 

 

 

 

 

 

Entering Wet Bulb Temperature (F)

 

 

 

 

 

 

 

 

 

CFM

Temp

 

61

67

73

61

 

67

73

61

67

73

61

 

67

 

73

 

Airflow

(F)

TGC SHC

TGC SHC TGC SHC

TGC

SHC

TGC SHC TGC SHC

TGC SHC TGC SHC

TGC SHC

TGC SHC

TGC SHC

TGC SHC

 

75

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

2160

80

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

85

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

 

 

90

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

 

75

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

2400

80

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

85

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

 

 

90

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

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

2640

80

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

85

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

 

 

90

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

 

75

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

2880

80

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

85

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

 

 

90

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

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