0% found this document useful (0 votes)
969 views36 pages

Carrier Pakedg DX

The document provides detailed specifications for Carrier's vertical packaged and split air conditioning systems, highlighting their use of environmentally friendly refrigerant R-410A, efficient motors, and advanced features for high ambient operation. It includes information on unit models, cooling capacities, installation versatility, and safety elements, emphasizing the systems' reliability and ease of maintenance. The document also outlines the construction quality, operational limits, and technical data for both condensing and evaporating units.

Uploaded by

khalid
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
0% found this document useful (0 votes)
969 views36 pages

Carrier Pakedg DX

The document provides detailed specifications for Carrier's vertical packaged and split air conditioning systems, highlighting their use of environmentally friendly refrigerant R-410A, efficient motors, and advanced features for high ambient operation. It includes information on unit models, cooling capacities, installation versatility, and safety elements, emphasizing the systems' reliability and ease of maintenance. The document also outlines the construction quality, operational limits, and technical data for both condensing and evaporating units.

Uploaded by

khalid
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as PDF, TXT or read online on Scribd
You are on page 1/ 36

PRODUCT SELECTION DATA

Packaged / Split - units


Green refrigerant (R-410A)
Outdoor unit with centrifugal fan
Configuration flexibility
Ducted aspiration and discharge
Tropical compressor
Efficient motors (IE3)
Copper-Aluminum heat exchangers
with golden fins.
BMS Connectivity with ModBus protocol

Split

Smart
Link Control

Packaged

50HZ
the environmentally sound refrigerant

Vertical package / split air conditioners


38BB-N / 40AB-N Split Systems
50UB-N Vertical Packaged Systems

Miraco Carrier Rev. (0)-2024


Miraco
MISR REFRIGERATION & AIR CONDITIONING MFG. CO.
Vertical package / split air conditioners
38BB-N / 40AB-N Split Systems
50UB-N Vertical Packaged Systems

BMS
10A)
nt (R-4 Efficient motors (IE3)
Connectivity
ra
n re frige
Gree
Efficient scroll
R410A green compressor works Golden fins
refrigerant which Efficient IE3 chemically Can be connected
in high ambient
increases efficiency electric motor treated to resist to Building
temperature up
& does not degrade leads to less corrosion Management
to 52°C System through
the ozone layer. energy
consumption ModBus protocol

Tropical Copper-Aluminum
compressor heat exchanger with golden fins

Key Features Control Features & Safety Elements :


■ Capacity ranges 145 - 190 - 250 - 300 kBtu/hr. ■ Fully insulated electrical control box.
■ Available Cool Only and Cool / Heat ( with electrical heaters ) ■ Smart wall pad programmable control
■ Using Eco-friendly refrigerant R410A.
■ Self-Diagnosis for easy maintenance
■ High static pressure
■ Compressors operation auto balance feature
■ Efficient high ambient operation up to 52°C degree temp.
■ Error code & alarm status
■ Efficient & quiet operation compressors & fan motors
■ Minimum vibrations ■ BMS connection ( Modbus Protocol )

■ Standard crankcase heaters ■ with more protection levels :


■ Provided with four arrangements to give variety and - High & Low pressure switches
comfort for easy installation.
- Compressors magnetic overload
■ High efficiency oversized coils
- Fan motors magnetic overload
with anti-corrosion aluminum golden fins.
■ Filter drier to remove moisture for refrigerant circuits - Phase loss / phase sequence protection

■ Compressor oil sight glass to monitor oil level. - Over & under voltage protection
■ Easy and fast service and maintenance. - Refrigerant leak protection
Cooling Only Cooling / Heating ( with electrical heaters )

Packaged

Cool Only Cool Only Cool Only Cool / Heat Cool / Heat Cool / Heat
50UB 145N-K 50UB 190N-K 50UB 250N-K 50UB 145N-E 50UB 190N-E 50UB 250N-E
50UB 300N-K 50UB 300N-E

Cool Only Cool Only Cool Only Cool / Heat Cool / Heat Cool / Heat
40AB 145N-K 40AB 190N-K 40AB 250N-K 40AB 145N-E 40AB 190N-E 40AB 250N-E
40AB 300N-K 40AB 300N-E

Split

Cool Only Cool Only Cool Only Cool / Heat Cool / Heat Cool / Heat
38BB 145N 38BB 190N 38BB 250N 38BB 145N 38BB 190N 38BB 250N
38BB 300N 38BB 300N
Vertical package / split air conditioners
38BB-N / 40AB-N Split Systems
50UB-N Vertical Packaged Systems

Carrier 50UB series was born of a very simple concept:


“An excellent product isn’t enough; it must offer more than its competitors”. In addition to true cooling, Carrier 50UB-N series have
advanced features and performance level, which our competitors will find difficult to equal, maintaining the same quality/ price ratio.
TAKE A LOOK AT THESE FEATURES

Contents
1. Description 1
2. Unit Models 1
3. Range 1
4. Series 1
5. Operating limits 1
6. General Guide Specifications 2
7. Specifications Guide of the Condensing Unit 3
8. Specifications Guide of the Evaporating Unit 4-5
9. Model Name Identifications 5
10. System Technical Data 6-7
11. Technical Data of Condensing Units 8-9
12. Technical Data of Evaporating Units 10 - 11
13. Electrical Data 12
14. Standard Components 13
15. Air Flow Performance Data 14 - 15
16. Cooling Capacities 16 - 23
15. Detailed Dimensions ( mm ) 24 - 29
Description Operating Limits
Carrier vertical packaged / split cooling only and cooling / Cooling
heating ( with electrical heaters ) are compact air to air units, Inlet air conditions
monobloc of vertical compact construction, designed to be DBT (ºC) WBT (ºC)
installed indoors, outdoors according to site conditions, with Minimum 17 15
Indoor
access registers to fans, cooling circuit and electrical panel by Maximum 32 23
means of easily removable panels. Minimum 21 ---
These units are suitable for commercial and industrial appli- Outdoor
cations where the availability of space allows its installation. Maximum 52 ---
They offer the advantage of its vertical construction & option
which include elements of air renovation in only one unit. General Guide Specifications
Quality, Reliability and Safety
The 38BB-N/40AB-N cooling only & cooling/heating (with elec- - All materials included in Carrier split or vertical packaged
trical heaters) units feature units with a split system construction systems conform to the international standards of safety,
with components optimized for the refrigerant R-410A. performance and reliability.
They are presented in two different models: - Quality is ensured through receiving inspection testing and
- An outdoor unit (38BB-N series) equipped with centrifugal through all stages of manufacturing, sales, installation and
fan, hermetic scroll-type compressor and electric panel with servicing to finally ensure customer full satisfaction
advanced electronic control. according to ISO 9001 Quality System
- An indoor unit (40AB-N series) equipped with centrifugal
fan and expansion valve. True Powerful Cooling
A vast number of options meet numerous operating demands. - Enhanced cooling capacity delivers more comfort than
All of the units are tested and checked in factory. competitors.
- Efficient compressors and heat exchangers lead to true
Unit Models system cooling performance.
Split System
Packaged System Split or Vertical Packaged
Evaporating Unit Condensing Unit - Carrier split or vertical packaged systems are ideal for
Model P/N Model P/N Model P/N installation in new buildings or refurbishment projects in
50UB145N-518C 46309524 40AB145N-518C 46309544
38BB145N-518 46309527 existing buildings. Systems are designed for small and
50UB145N-518E 46309525 40AB145N-518E 46309545
50UB190N-518C 46308424 40AB190N-518C 46309542
medium sized air conditioning systems for commercial
38BB190N-518 46309528 applications, such as restaurants, shops, hospitals, shopping
50UB190N-518E 46309526 40AB190N-518E 46309543
50UB250N-518C 46305421 40AB250N-518C 46305423 malls, and administrative buildings.
38BB250N-518 46305425
50UB250N-518E 46309520 40AB250N-518E 46309521 - The system consists of two sections:
50UB300N-518C 46309519 40AB300N-518C 46305424
38BB300N-518 46305426 An evaporator section (40AB-N) and a condenser section
50UB300N-518E 46305422 40AB300N-518E 46309518
(38BB-N) of matching size.
Range High Ambient Operation
2 cooling circuits with 2 compressors Carrier vertical packaged and split systems are designed to work
in tropical ambient conditions which reach up to 52°C due to
50UB-N 145 190 250 300
efficient compressors, condenser coils and evaporator coils.
38BB-N 145 190 250 300
40AB-N 145 190 250 300 Long Life, Corrosion Resistant and Solid Construction
- Weather proof made of chemically treated, galvanized steel
sheet metal.
Series - Powder painted with perfect adhesion of a highly resistant
polyester paint.
Packaged - Precoated Hydrophilic light golden aluminum fins of evaporator
50UB-N-C series and condenser coils to increase efficiency and the life of the
Air to air cooling units of vertical compact construction. air conditioner. It also allows for the rapid drainage of
50UB-N-E series condensation water from the heat exchanger of the indoor
Air to air cooling units with electrical heaters units of vertical unit to the drainage basin and thus leads to an increase in
compact construction air intake and an increase in the efficiency of the device in
all operating conditions.
Outdoor unit
38BB-N series : Outdoor unit designed for installation Easy Service and Maintenance
indoors or outdoors. - The units have access from all sides excellent compressor(s)
access and removal if necessary.
Indoor unit All access panels have handles.
40AB-N-C series : Indoor unit cooling-only with vertical - The control panel is located in a separate compartment and
construction, designed for installation in indoors, connected can be inspected without disturbing unit operation.
to a network of ducts.
40AB-N-E series : Indoor unit cooling / heating with Compact Design and Light Weight
electrical heaters vertical construction, designed for Units occupies limited space and has reduced weight, Front
installation indoors, connected to a network of ducts. indoor air return design enables installation against the wall.
1
General Guide Specifications

Low Installation Cost Versatility of Air Delivery


Units are delivered factory wired, charged, and tested. The in- - The split system is delivered from the factory with the
stallation requires the following connections: Split units are evaporator unit having horizontal air discharge (case 1).
field charged, electrical power supply to the thermostat and - The evaporator unit can be field converted for vertical
eventually, to air ducts, and in case of a split system, intercon- air discharge by using accessory supports (case 2).
necting refrigerant piping. Condensate water can be removed
(2)
on each or both sides. The control box is factory electrically
wired. Only the installation of an isolator and fuses and con-
nection to the power supply. When the system is installed as
Evaporator
split, the condensing unit refrigerant piping connections are (1)
Section
possible at the left and right sides. The evaporator unit can
have refrigerant piping installed on the left and right sides.

The versatility of Location and Installation


Units can be installed in an office building, storage, stock room - Vertical packaged system can be delivered from the factory
or other areas and no machine room is needed. They can be as per the following arrangements :
placed close to the outside wall or at a remote location because
the condenser air section can be ducted. The evaporator unit
can be ducted or installed for free blow application with a dis-
Evaporator
charge air plenum. It can be installed in low-rise buildings and
Section
is also well-suited to high-rise buildings. The unit can be in-
stalled indoors or outdoors. When applied as a split system,
the condensing unit can be installed inside or outside of the
building with watertight duct connections. It is suitable for
outdoor applications. Condensing
Section
Typical Installation (Vertical Packaged System)
(1) Two systems installed in the interior zone of the motel
A B
with ducted evaporator air sections and through-the-wall
outdoor air intake and discharge. (See Fig. 1)
(2) System installed with discharge plenum and with through-
the-wall outdoor air intake and discharge. (See Fig. 2 (2)) Evaporator
(3) System installed in a storage area with ducted indoor air Section
discharge and with through-the-wall outdoor air intake
and discharge. (See Fig. 2 (3))
(4) System installed outdoors with ducted evaporator air
section. (See Fig. 2 (4)) Condensing
(5) System installed in an interior zone with ducted Section
condensing and evaporator units. (See Fig. 2 (5)).

C D
(1) (1)
Evaporator Evaporator
Arrangement
Air Return Air Supply
A Horizontal back Vertical
Fig (1)
B Horizontal back Horizontal front
C Horizontal front Vertical
D Horizontal front Horizontal back

(5)

Fig (2)

(2) (3) (4)

2
Specifications Guide of the Condensing Unit

Casing Condenser Coil


- Anti-rust, weatherproof and long-life unit sheet metal parts - Efficient Design :
made of chemically treated and zinc-coated (galvanized) Optimum condensing surface.
sheet metal. The powder-painted casing of the unit with Inner grooved coil copper tubes.
perfect adhesion of highly resistant polyester paint 60-80 Golden corrugated aluminum fins.
microns thick, which is electro-statically applied and baked Optimum number of coil circuits.
at a temperature of 220°C. Cross counter flow of refrigerant to air path.
Full condensation with efficient liquid sub cooling.
Refrigerant Circuit Coils are leak tested at 30 bar.
- Condenser coil is manufactured from high-quality entirely
deoxidized copper tubes with joints brazed by sliver brazing Condenser Blowers
alloys. - Double inlet centrifugal blowers with forward curved
- For units sizes 250 and 300. two independent refrigerant blades, driven by a three-phase motor with the adjustable
circuits built up of components. and materials selected for belt-pulley transmission, adequately dimensioned and easily
compatibility, reliability, and high efficiency. adjusted.
The two-independent circuit designs ensure partial load - Statically and dynamically balanced running in
operation. maintenance-free bearings.
- Insulated suction line with flexible synthetic rubber
insulation and high sound absorption. Condenser Blowers Drive
- Filter drier fitted in the liquid line, efficiently removes - Belt drives with fixed pitch blower pulley and adjustable
moisture, scale, solder particles and all types of foreign motor pulley.
materials from the refrigerant circuit. - All condenser blowers are factory set to give 100%
- Pumping down valves fitted in the liquid line to enable the nominal static pressure and airflow values and these may
refrigerant to be temporarily stored in the condenser coil if be field varied by means of adjustable pulley up to 120% of
the refrigerant is to be repaired or some part of the nominal values.
refrigeration system to be replaced.
- Service valves fitted on the suction and discharge piping for
pressure measurements. Green Refrigerant (R410A)
- The condensing unit is completely factory assembled, R410A is an HFC with a zero Ozone Depletion Potential
electrically wired, and charged with holding R410A (ODP=0) and a Global Warming Potential (GWP=2088). It is
refrigerant charge, tested and quality control approved a near-azeotropic mixture with a temperature glide of less than
before leaving the factory. 0.2 K. With its high net refrigeration effect coupled with a high
density, the R410A has appeared in the last decade to be the
Compressor preferred refrigerant for use in commercial air conditioners
- Heavy-duty R410A hermetic scroll compressors equipped and heat pumps.
with oil sight glass:
Tropical Super Safety Protections
High discharge and suction pressures limits. - High-pressure switch for compressor protection against
High discharge temperature limit. high discharge pressure.
Internal overload protection - Low-pressure switch for compressor protection against low
Built in non-return valve suction pressure.
External resilient rubber grommets for vibration isolation. - 3 minutes time delay for compressor protection against
Well-designed suction and discharge lines. short cycling when power off or thermostat off.
- Time delay to avoid simultaneous starting of both
Crankcase Heater compressors (for dual compressors – Condensing unit).
- Crankcase heater to guard compressor against flood back - Indoor blower motor protection.
conditions and to eliminate oil foaming on start-up. - Outdoor blower motor protection.
- Indoor coil anti-freeze protection.
- Leakage protection error for each circuit.
Condenser Motor
- Thermal overload protector for the compressor to protect
- High efficiency motor (IE3).
the compressor motor windings against excessive temperature.
- Class F motor windings insulation
- External electronic overloads mounted on the contactors for
- Three phase motor IP55.
compressors and motors protection against excessive current.
- Drives blowers through adjustable pulleys.
- Phase protector against phase reversal and phase loss.
- Electrical components (phase seq./phase loss, contactors,
Solenoid Valve overloads, compressors motors, control board, Terminal board
- A LLSV is used to isolate the liquid charge on the condenser and Wall Pad) are UL and/or CE approved and recognized.
side, thereby preventing charge transfer or excessive - Smart Refrigerant leak detection by a sensitive sensor
migration to the compressor during off-cycles. mounted on the indoor coil for easy fast service and
- Added to condensing units 38BB-N of Split systems only. maintenance.

3
Specifications Guide of the Evaporating Unit

Casing Evaporator Blowers


- Anti-rust, weatherproof and long-life unit sheet metal parts - Double inlet centrifugal blowers with forward curved
made of chemically treated and zinc-coated (galvanized) blades, driven by a three-phase motor with the adjustable
sheet metal. The powder-painted casing of the unit with belt-pulley transmission, adequately dimensioned and easily
perfect adhesion of highly resistant polyester paint 60-80 adjusted.
microns thick, which is electro-statically applied and baked - Statically and dynamically balanced running in
at a temperature of 220°C. maintenance-free bearings.

Refrigerant Circuit Evaporator Blowers Drive


- Evaporator coil is manufactured entirely of deoxidized - Belt drives with fixed pitch blower pulley and adjustable
copper tubes with joints brazed by sliver brazing alloys. motor pulley.
- For units sizes 145 - 190 - 250 and 300 two independent - All evaporator blowers are factory set to give 100%
refrigerant circuits are built up of components and materials nominal static pressure and airflow values and these may
selected for compatibility, reliability, and high efficiency. be field varied by means of adjustable pulley up to 120% of
The two-independent circuit design ensures partial load nominal values.
operation.
- Self-regulating thermostatic expansion valve with external Air Filters
pressure equalizer in all units to control refrigerant flow to - Long life Polyurethane air filters are used.
the evaporator coil. - Efficient filtration by using an impregnated foam.
- A distributor ensures a uniform supply of refrigerant to the - Pore controlled with exactly defined uniform pore size.
evaporator coil. - High resistance against high pressures and temperatures.
- The evaporator unit is completely factory assembled, - High resistant against dust.
electrically wired, and charged with R410A refrigerant - M1 Fire behavior.
holding a charge, testing and quality control approved
before leaving the factory.

Electric Heater
- Finned aluminum heating elements for efficient and
uniform heating.
- Electric heaters include thermal protection, contactors and
all appropriate internal wiring.
- The rating of heaters available varies according to unit size.
- The heater frame is constructed from galvanized steel and
powder painted with perfect adhesion of highly resistant
polyester paint.

Super Safety Protections


- Temperature limiter protection for electric heater against
excessive heating temperatures in case of malfunction of
evaporator motor.

Evaporator Motor
- High-efficiency motor (IE3).
- Class F motor windings insulation
- Three-phase motor IP55.
- Drives blowers through adjustable pulleys.

Evaporator Coil
- Efficient design :
Optimum evaporating surface.
Inner grooved coil copper tubes.
Golden corrugated aluminum fins.
Optimum number of coil circuits.
Full evaporation with vapor superheating.
Coils are leak tested at 30 bar.

4
Specifications Guide of the Evaporating Unit Model Name Identifications
Electronic control 50 UB 190 N - 5 1 8 C

Description C = Cooling Only


LCD Smart link wired controller is a sequential controller E = Cool / Heat with electrical heaters
suitable for Air-cooled split and vertical packaged commercial
8 = Miraco
systems for both cooling only and cooling with electric heaters
models. 1 = Wired controller

LCD Smart link wired controller consists of a control board, 5 = 380 V / 3 Ph / 50 Hz


user terminal installed on the electric panel and sensors. It
facilitates the initial scheduling of the unit, modifying the
operational parameters, and the alarms description. N = R410A

Application 190 = Nominal system cooling


capacity in Btu/hr / 1000
- Compressor system (Selectable) :
1 – 2 individual circuits ( stages ) UB = Vertical packaged series
- Electric heater (Selectable) : BB = Condensing unit series
2 stages with enable / disable selection. AB = Evaporating unit series
- RS-485 port (For Modbus BMS control)
50 = Vertical packaged code
Features 38 = Condensing unit code
- Operation Mode Selection Cool – Heat – Fan Only – Dry. 40 = Evaporating unit code
- Indoor Blower Speed Selection: Single Speed.
- Key Lock function.
- Temperature setting 16 ~ 30 °C.
- Time & Date Settings: Days, AM, PM.
- Timer ON/OFF.
- Auto restart function with backup memory.
In case of any power failure during the air conditioner
operation, the microprocessor of the printed circuit board
will recall the operational settings. After the power is
restored, the air conditioner operates automatically on the
latest operational settings (without remote control after the
compressor time-delay elapses).
- Various Temperature Readings Display.
- Self-Diagnostics with Error Code Display.
- Heater and Compressor Operation Status Display.
- Sequential control and balance loading (with up to 2
compressors) for sizes 145-190-250-300.
- Displays and shows the compressor’s operational loading
sequence.
- It can be connected to Building Management Systems
(BMS) Modbus Protocol through the RS-485 connection
port (from the main PCB).

All control parameters are preset with default values and


protected with a password to prevent unauthorized access.

5
Technical Data - Package

Vertical Packaged System Model 50UB145N-518C 50UB190N-518C 50UB250N-518C 50UB300N-518C


Cool Only Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518
Split System Evaporator Unit Model 40AB145N-518C 40AB190N-518C 40AB250N-518C 40AB300N-518C
Vertical Packaged System Model 50UB145N-518E 50UB190N-518E 50UB250N-518E 50UB300N-518E
Cool & Heat with
Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518
Electric heaters
Split System Evaporator Unit Model 40AB145N-518E 40AB190N-518E 40AB250N-518E 40AB300N-518E
Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Capacity (Btu/hr) 142,000 197,000 252,000 288,000
Capacity (kW) 41.61 57.74 73.86 84.41
Cooling (1)
Power input (kW) 22.36 26.55 34.52 42.54
External static pressure (Pa) 75 100 100 125
Capacity (kW) 15 22.5 22.5 22.5
Heating
Power input (kW) 18.42 27 27 30.80
Manufacture Emerson Emerson Danfoss Danfoss
Type Scroll Scroll Scroll Scroll
Quantity 2 2 2 2
Compressor Motor Protection Internal Overload Protection
Oil Type POE POE POE POE
Volume of oil Liter 2.3 2.3 3.3 3.6
Crankcase heater 220V/1PH Qty x Watts 2 x 70 2 x 70 2 x 65 2 x 65
Crankcase Heater Type PTC PTC PTC PTC
Minimum Volts 342 342 342 342
Compressor Maximum Volts 418 418 440 440
Input Power / Compressor kW 7.84 9.16 12.15 13.73
Input Current / Compressor A 14.25 16.6 20.67 24.52
Total Rated Input Power kW 15.68 18.32 24.3 27.46
Total Rated Input Current A 28.5 33.2 41.34 49.04
Locked Rotor Amperes (LRA) 128 139 158 197
Maximum Cont. Current MCC (Amps) 23 25 35 39
Displacement ( cm /rev / m /hr )
3 3
96.35 / 16.76 112.25 / 19.53 151.70 / 26.40 170.30 / 29.60
Compressor Speed RPM 2900 2900 2900 2900
Approved Standards CE - UL CE - UL CE - UL CE - UL
Manufacture Siemens Siemens Siemens Siemens
Motor Type Three Phase Squirrel Cage Motor
Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Motor Electrical Connections Y Y Y Δ
Rated Output Power kW 3 4 4 7.5
Rated Input Power kW 3.42 4.5 4.5 8.3
Rated Input Current A 6.2 8.4 8.4 15.00
Rated Speed RPM 1450 1460 1460 1465
Efficiency @ Rated Power
87.7% / 88.1% 88.6 % / 89.2 % 88.6% / 89.2% 90.4% / 90.7%
( 100% Pn / 75% Pn )
Efficiency Class IE3 IE3 IE3 IE3
Power Factor @ ( 100% Pn / 75% Pn ) 80% / 73% 0.82% / 0.76% 0.82% / 0.76% 0.80% / 0.74%
Condenser motor Rated Torque NM 19.8 26 26 49
Sound Level dB(A) 60 58 58 64
Frame Size 100 L 112M 112M 132M
Type of Construction IMB3 IMB3 IMB3 IMB3
Weight Kg 26 34 34 64
Frame Material Aluminum Aluminum Aluminum Aluminum
Degree of Protection IP55 IP55 IP55 IP55
Method of Cooling, TEFC IC 411 IC 411 IC 411 IC 411
Vibration Class A ( Standard ) A ( Standard ) A ( Standard ) A ( Standard )
Insulation Class F F F F
Duty Type S1 ( Continuous Operation )
Standards and Specifications IEC, DIN, ISO, VDE, EN

6
Technical Data - Package (Cont.)

Vertical Packaged System Model 50UB145N-518C 50UB190N-518C 50UB250N-518C 50UB300N-518C


Cool Only Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518
Split System Evaporator Unit Model 40AB145N-518C 40AB190N-518C 40AB250N-518C 40AB300N-518C
Vertical Packaged System Model 50UB145N-518E 50UB190N-518E 50UB250N-518E 50UB300N-518E
Cool & Heat with
Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518
Electric heaters
Split System Evaporator Unit Model 40AB145N-518E 40AB190N-518E 40AB250N-518E 40AB300N-518E
Quantity 2 2 2 2
Condenser Nominal Air Flow CFM 8,622 9,730 13,944 16,574
blowers Nominal Air Flow m³/hr 14,649 16,531 23,691 28,159
Type Centrifugal – Double Inlet – Forward Curved Blades
Total Face Area m² 1.19 1.73 2.12 2.12
Number of Rows-Tube Diam. 5-3/8” 6-3/8” 6-3/8” 6-3/8”
Condenser Number of Fins per Inch 14 14 14 14
coil Type / Material Tubes Inner Grooved Copper
Type / Material Fins Golden Corrugated Aluminum
Coil LeakTest Pressure bar 30 30 30 30
Type Fixed Pitch – Cast Iron
Number of Grooves 2 2 2 2
External Diam./ Shaft Diam. mm 180 / 25 212 / 30 224 / 30 212 / 30
Blower pulley
BELT Notched Type Notched Type Notched Type Notched Type
Quantity 2 2 2 2
Size AX47 AX71 AX71 AX70
Type Adjustable Pitch – Cast Iron
Motor pulley Number of Grooves 2 2 2 2
External Diam / Shaft Diam. mm 120 / 28 120 / 28 120 / 28 138 / 38
Type R410A R410A R410A R410A
Global warming potential (GWP) (2) 2.088 2.088 2.088 2.088
Ozon potential (ODP) 0 0 0 0
Refrigerant Charge (Split System) Holding Holding Holding Holding
Total Charge (Packaged System) (kg) 4.7x 2 8.8 x 2 10.9 x 2 11.5 x 2
No. of Refrigerant Circuits 2 2 2 2
Refrigerant Control Thermostatic Expansion Valve with External Equalizer
Circuit 1: Gas line 1-1/8” 1-1/8” 1-1/8" 1-3/8”
Circuit 1: Liquid line 5/8” 5/8” 5/8” 5/8”
Refrigerant Lines Circuit 2: Gas line 1-1/8” 1-1/8” 1-1/8" 1-3/8”
( Split System ) Circuit 2: Liquid line 5/8” 5/8” 5/8” 5/8”
Pipe length (m) 7.5 7.5 7.5 7.5
Maximum pipe length (m) 50 50 50 50
Length (mm) 1720 2235 2665 2665
Dimensions
Width (mm) 1037 1156 1161 1161
Cool Only Unit
Height (mm) 2110 2162 2162 2162
Weight Cool Only Unit (kg) 600 848 935 1039
Dimensions Length (mm) 1720 2235 2665 2665
Cool & Heat with Width (mm) 1155 1292 1307 1307
Electric heaters Height (mm) 2167 2237 2239 2239
Weight Heat Unit (with electrical heaters) (kg) 615 868 955 1059
Drain Line ID 3/4” 3/4” 3/4” 3/4”
(1) All units are built for 3-phase (380V & 50 Hz) power supply & tested accordance with ISO13253
Cooling data given for indoor temperature 27/19 ºC (dbt/wbt) and outdoor temperature 35ºC.
(2) Climatic warming potential of a kilogram of fluorinated greenhouse gas in relation to a kilogram of carbon dioxide over
a period of 100 years.
7
Technical Data - Condensing Units

Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518


Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Manufacture Emerson Emerson Danfoss Danfoss
Type Scroll Scroll Scroll Scroll
Quantity 2 2 2 2
Compressor Motor Protection Internal Overload Protection
Oil Type POE POE POE POE
Volume of oil Liter 2.3 2.3 3.3 3.6
Crankcase heater 220V/1PH Qty x Watts 2 x 70 2 x 70 2 x 65 2 x 65
Crankcase Heater Type PTC PTC PTC PTC
Minimum Volts 342 342 342 342
Compressor Maximum Volts 418 418 440 440
Input Power / Compressor kW 7.84 9.16 12.15 13.73
Input Current / Compressor A 14.25 16.6 20.67 24.52
Total Rated Input Power kW 15.68 18.32 24.3 27.46
Total Rated Input Current A 28.5 33.2 41.34 49.04
Locked Rotor Amperes (LRA) 128 139 158 197
Maximum Cont. Current MCC (Amps) 23 25 35 39
Displacement ( cm /rev / m /hr )
3 3
96.35 / 16.76 112.25 / 19.53 151.70 / 26.4 170.30 / 29.60
Compressor Speed RPM 2900 2900 2900 2900
Approved Standards CE - UL CE - UL CE - UL CE - UL
Manufacture Siemens
Motor Type Three Phase Squirrel Cage Motor
Power Supply V/Ph/Hz 380 / 3 / 50
Motor Electrical Connections Y Y Y Δ
Rated Output Power kW 3 4 4 7.5
Rated Input Power kW 3.42 4.5 4.5 8.3
Rated Input Current A 6.2 8.4 8.4 15.0
Rated Speed RPM 1450 1460 1460 1465
Efficiency @ Rated Power (100%Pn/75%Pn) 87.7% / 88.1% 88.6% / 89.2% 88.6% / 89.2% 90.4 % / 90.7%
Efficiency Class IE3 IE3 IE3 IE3
Power Factor @ ( 100% Pn / 75% Pn ) 80% / 73% 0.82% / 0.76% 0.82% / 0.76% 0.80% / 0.74%
Condenser
Rated Torque NM 19.8 49 26 49
motor
Sound Level dB(A) 60 64 58 64
Frame Size 110 L 132M 112M 132M
Type of Construction IMB3 IMB3 IMB3 IMB3
Weight Kg 26 34 34 64
Frame Material Aluminum
Degree of Protection IP55
Method of Cooling, TEFC IC 411
Vibration Class A ( Standard )
Insulation Class F
Duty Type S1 ( Continuous Operation )
Standards and Specifications IEC, DIN, ISO, VDE, EN
Quantity 2 2 2 2
Condenser Nominal Air Flow CFM 8,622 9,730 13,944 16,574
blowers Nominal Air Flow m³/hr 14,649 16,531 23,691 28,159
Type Centrifugal – Double Inlet – Forward Curved Blades
External static in.wg 0.0~0.8 0.0~0.8 0.0~0.8 0.0~0.8
pressure range Pa 0~200 0~200 0~200 0~200
8
Technical Data - Condensing Units (Cont.)

Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518


Total Face Area m² 1.19 1.73 2.12 2.12
Number of Rows-Tube Diam. 5-3/8” 6-3/8” 6-3/8” 6-3/8”
Condenser Number of Fins per Inch 14 14 14 14
coil Type / Material Tubes Inner Grooved Copper
Type / Material Fins Golden Corrugated Aluminum
Coil LeakTest Pressure bar 30 30 30 30
Type Fixed Pitch – Cast Iron
Number of Grooves 2 2 2 2
External Diam./ Shaft Diam. mm 180/25 212 / 30 224/30 212 / 30
Blower pulley
BELT Notched Type Notched Type Notched Type Notched Type
Quantity 2 2 2 2
Size AX47 AX71 AX71 AX70
Type Adjustable Pitch – Cast Iron
Motor pulley Number of Grooves 2 2 2 2
External Diam / Shaft Diam. mm 120 / 28 120 / 28 125 / 28 138 / 38
Type R410A R410A R410A R410A
Global warming potential (GWP) 2.088 2.088 2.088 2.088
Refrigerant Charge (Split System) Holding Holding Holding Holding
No. of Refrigerant Circuits 2 2 2 2
Refrigerant Control Thermostatic Expansion Valve with External Equalizer
Circuit 1: Gas line 1-1/8" 1-1/8” 1-1/8" 1-3/8”
Circuit 1: Liquid line 5/8” 5/8” 5/8” 5/8”
Refrigerant Lines Circuit 2: Gas line 1-1/8" 1-1/8” 1-1/8" 1-3/8”
( Split System ) Circuit 2: Liquid line 5/8” 5/8” 5/8” 5/8”
Pipe length (m) 7.5 7.5 7.5 7.5
Maximum pipe length (m) 50 50 50 50
Length (mm) 1720 2235 2665 2665
Dimensions Width (mm) 944 1105 1105 1105
Height (mm) 1450 1503 1498 1498
Weight (kg) 380 538 625 660

9
Technical Data - Evaporating Units

Evaporator - Cool Only 40AB145N-518C 40AB190N-518C 40AB250N-518C 40AB300N-518C


Split System
Evaporator-Cool & Heat with Electric heaters 40AB145N-518E 40AB190N-518E 40AB250N-518E 40AB300N-518E
Manufacture Siemens
Motor Type Three Phase Squirrel Cage Motor
Power Supply V/Ph/Hz 380 / 3 / 50
Motor Electrical Connections Y Y Y Δ
Rated Output Power kW 3 4 4 7.5
Rated Input Power kW 3.42 4.5 4.5 8.3
Rated Input Current A 6.2 8.4 8.4 15.00
Rated Speed RPM 1450 1460 1460 1465
Efficiency @ Rated Power (100% Pn/75% Pn) 87.7% / 88.1% 88.6 % / 89.2 % 88.6% / 89.2% 90.4% / 90.7%
Efficiency Class IE3 IE3 IE3 IE3
Evaporator motor Power Factor ( 100% Pn / 75% Pn ) 80% / 73% 0.82 / 0.76 0.82% / 0.76% 0.80% / 0.74%
Rated Torque NM 19.8 26.0 26.0 49
Sound Level dB(A) 60 58 58 64
Weight Kg 26 34 34 64
Frame Material Aluminum
Degree of Protection IP55
Method of Cooling, TEFC IC 411
Vibration Class A ( Standard )
Insulation Class F
Duty Type S1 ( Continuous Operation )
Standards and Specifications IEC, DIN, ISO, VDE, EN
Quantity 2 2 2 2
Evaporator blower Nominal Air Flow m³/hr 9,375 12,949 12,990 16,567
Type Centrifugal – Double Inlet - Forward Curved Blades
Total Face Area m² 0.84 1.10 1.34 1.34
Number of Rows-Tube Diam. 4 - 3/8” 6 - 3/8” 6 - 3/8” 6 - 3/8”
Number of Fins per Inch 14 14 14 14
Evaporator coil
Type / Material Tubes Inner Grooved Copper
Type / Material Fins Golden Corrugated Aluminum
Coil LeakTest Pressure bar 30
Refrigerant Type R-410A
Type Thermostatic Expansion Valve with External Equalizer
Manufacture Danfoss
Expansion device TGE-11 TGE-13 TGE-15 TGE-19
Model
5/8" - 7/8" 5/8" - 7/8" 5/8" - 7/8" 7/8" - 1 1/8"
Quantity 2 2 2 2
Type - Material Fixed Pitch – Cast Iron
Blower pulley Number of Grooves 2 2 2 2
External Diam. / Shaft Diam. mm 125 / 25 125 / 25 132 / 25 140 / 25
Type Adjustable Pitch – Cast Iron
Motor pulley Number of Grooves 2 2 2 2
External Diam / Shaft Diam. mm 120 / 28 120 / 28 120 / 28 138 / 38
Quantity 2 2 2 2
Belt
Size AX40 AX37 AX40 AX41
External static in.wg 0.2 ~ 1.6 0.2 ~ 1.6 0.4 ~1.6 0.4 ~1.6
pressure range Pa 50 ~ 400 50 ~ 400 100 ~ 400 100 ~ 400
Total kW 15 22.5 22.5 22.5
Electric heater Number of Heating Elements 6 9 9 9
Heat Pump Unit kW Per Heating Element 2.5 2.5 2.5 2.5
Number of Stages 2 2 2 2
Air filter Filtering Media Polyurethane
10
Technical Data - Evaporating Units (Cont.)

Evaporator Unit Model - Cool Only 40AB145N-518C 40AB190N-518C 40AB250N-518C 40AB300N-518C


Split System
Evaporator-Cool & Heat with Electric heaters 40AB145N-518E 40AB190N-518E 40AB250N-518E 40AB300N-518E
Circuit 1: Gas line 1-1/8" 1-1/8" 1-1/8" 1-3/8”
Circuit 1: Liquid line 5/8” 5/8” 5/8” 5/8”
Refrigerant Lines Circuit 2: Gas line 1-1/8" 1-1/8" 1-1/8" 1-3/8”
( Split System ) Circuit 2: Liquid line 5/8” 5/8” 5/8” 5/8”
Pipe length (m) 7.5 7.5 7.5 7.5
Maximum pipe length (m) 50 50 50 50
Length (mm) 1720 2235 2665 2665
Dimensions
Width (mm) 1014 1156 1161 1161
Cool Only Unit
Height (mm) 740 755 755 755
Weight Cool Only Unit (kg) 234 330 385 395
Dimensions Length (mm) 1720 2235 2665 2665
Cool & Heat with Width (mm) 1124 1270 1264 1264
Electric heaters Height (mm) 828 842 842 842
Weight Heat Unit (with electrical heaters) (kg) 249 350 385 395
Drain Line ID 3/4” 3/4” 3/4” 3/4”

11
Electrical Data

Vertical Packaged System Model 50UB145N-518C 50UB190N-518C 50UB250N-518C 50UB300N-518C

Cool Only Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518

Split System Evaporator Unit Model 40AB145N-518C 40AB190N-518C 40AB250N-518C 40AB300N-518C

Vertical Packaged System Model 50UB145N-518E 50UB190N-518E 50UB250N-518E 50UB300N-518E


Heat Pump with
Split System Condensing Unit Model 38BB145N-518 38BB190N-518 38BB250N-518 38BB300N-518
Eletrical Heater
Split System Evaporator Unit Model 40AB145N-518E 40AB190N-518E 40AB250N-518E 40AB300N-518E
V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Nominal power supply
Minimum Volts – Maximum Volts 342 – 418 342 – 418 342 – 418 342 – 418
Cooling kW 22.36 26.55 31.32 42.54
Consumption (1)
Amps 41 49.53 55.80 74.39
Heating kW 18.42 26.5 26.50 30.8
Consumption Amps 28.43 42.3 42.30 48.40
Main Fuse Rating (2) Amps 63 80 100 125
Main Power Switch (2) Amps 125 125 125 125
Power Supply Wire CS (3)
mm² 25 25 35 35
Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Minimum Volts - Maximum Volts 342 – 418 342 – 418 342 – 418 342 – 418
Rated Input Power / Comp. kW 6.93 8.08 11.02 13.73
Rated Input Current / Comp. (A) 13 15.10 19.18 24.52
Compressor
Total Rated Input Power kW 13.86 16.16 22.04 27.46
Total Rated Input Current (A) 26 30.2 38.36 49.04
Locked Rotor Amperes / Comp. (LRA) 128 139 158 197
Maximum Continuous Current (Amps) 23 25 35 39
Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Minimum Volts - Maximum Volts 342 – 418 342 – 418 342 – 418 342 – 418
Condenser motor Motor Electrical Connections Y Y Y Δ
Rated Input Power kW 3.42 4.54 4.5 8.3
Rated Input Current A 6.2 8.4 8.4 15
Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Minimum Volts - Maximum Volts 342 – 418 342 – 418 342 – 418 342 – 418
Evaporator motor Motor Electrical Connections Y Y Y Δ
Rated Input Power kW 3.42 4.5 4.5 8.3
Rated Input Current A 6.2 8.4 8.4 15
Power Supply V/Ph/Hz 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50 380 / 3 / 50
Total Power kW 15 22.5 22.5 22.5
Number of Heating Elements 6 9 9 9
Electrical heater
kW Per Heating Element 2.5 2.5 2.5 2.5
Number of Stages 2 2 2 2
Full Load Amperes A 28.93 42.3 34.4 35.2
(1) Outdoor air temperature 35ºC db, Indoor air temperature 27/19 ºC db/wb.
(2) Main fuse or circuit breaker is field installed.
The installer should place 3 (Three) Fuses and 1 (One) main isolator of capacities as shown in the table.
(3) The specified wiring section refers to copper conductors a 3-core cable having a maximum length of 20 meters.
For lengths more than 20 meters, resize wires the cable.
(4) If the unit is going to be installed in an industrial environment with a high level of electromagnetic interference,
it is recommended to shield the cables of the thermostat control.

12
14 - STANDARD COMPONENTS

 

 
Package  
 

  
 
 
(1) Liquid Line (2) Condenser Unit Chassis
(3) Suction Line (4) Evaporator Unit Chassis
(5) Evaporator Right Suction Line (6) Evaporator Left Suction Line
(7) Right Filter Liquid Line (8) Left Filter Liquid Line 
(9) Filter Liquid Line Assembly  

Split - Condensing Unit


 
 
 



Split - Evaporating Unit



(1) Evaporator Unit Chassis
(2) Evaporator Base
(3) Suction Line
(4) Liquid Expansion Line Tube
(5) Unit Packing Crossbeam Support
(6) Unit Support Angle

13
Air Flow Performance Data
Evaporator Fan Performance Data
If other static pressure and airflow combinations are required to balance ductwork, select evaporator blower speed in accordance
with Fan Performance Table. All units are factory set to give 100% nominal flow and static pressure values and these may be varied
by means of the adjustable motor pulley.
Available External Static Pressure of Evaporator Unit
Unit Size Pulley Turns ESP Pa 400 300 200 100 75 50
CFM 3143 3557 3998 5519 5673 5720
0 Air Flow
m³/hr 5340 6043 6793 9377 9638 9718
CFM 1588 3289 4125 5167 5221 5516
1 Air Flow
m³/hr 2698 5588 7008 8779 8870 9372
CFM 1427 2929 3875 4896 5073 5416
2 Air Flow
m³/hr 2424 4976 6584 8318 8619 9202
145
CFM 2614 3644 4680 4920 5217
3 Air Flow
m³/hr 4441 6191 7951 8359 8864
CFM 2268 3346 4035 4631 4845
4 Air Flow
m³/hr 3853 5685 6855 7868 8232
CFM 3042 3882 4497 4521
5 Air Flow
m³/hr 5168 6596 7640 7681

Unit Size Pulley Turns ESP Pa 400 300 200 100 75 50


CFM 5900 6567 7521 8200 8352 8585
0 Air Flow
m³/hr 10024 11157 12778 13932 14190 14586
CFM 5554 6390 7300 8180 8270 8400
1 Air Flow
m³/hr 9436 10857 12403 13898 14051 14272
CFM 5162 6140 7265 7960 8140 8280
2 Air Flow
m³/hr 8770 10432 12343 13524 13830 14068
190
CFM 4707 5757 6680 7634 7800 7981
3 Air Flow
m³/hr 7997 9781 11349 12970 13252 13560
CFM 4425 5455 6450 7200 7320 7420
4 Air Flow
m³/hr 7518 9268 10959 12233 12437 12607
CFM 3200 4175 5000 6028 6153 6350
5 Air Flow
m³/hr 5437 7093 8495 10242 10454 10789
Unit Size Pulley Turns ESP Pa 400 300 200 100
CFM 6197
0 Air Flow
m³/hr 10529
CFM 5559 6623
1 Air Flow
m³/hr 9445 11253
CFM 4987 6064 8113
2 Air Flow
m³/hr 8473 10303 13784
250
CFM 4559 5733 7699
3 Air Flow
m³/hr 7746 9740 13081
CFM 3875 5227 7120 8666
4 Air Flow
m³/hr 6584 8881 12097 14724
CFM 2483 4717 6604 8161
5 Air Flow
m³/hr 4219 8014 11220 13866

Unit Size Pulley Turns ESP Pa 400 300 200 125 100
CFM 7976 10247
0 Air Flow
m³/hr 13551 17410
CFM 7523 9715
1 Air Flow
m³/hr 12782 16506
CFM 6974 9208 10302
2 Air Flow
m³/hr 11849 15644 17503
CFM 6355 7417 9826 10626
300 3 Air Flow
m³/hr 10797 12602 16694 18054
CFM 6067 7194 9448 10163 10240
3.5 Air Flow
m³/hr 10308 12223 16052 17267 17398
CFM 5802 7005 9403 10302
4 Air Flow
m³/hr 9858 11902 15976 17503
CFM 5067 8779 9763
5 Air Flow
m³/hr 16587 14916 10998
* Available static pressure includes evaporator coil casing pressure drop. * ESP = External static pressure.
* 0 = Pulley is fully closed. * 5 = Pulley is fully opened.
* Above values Dry airflow * = Factory setting
14
Air Flow Performance Data
Condenser Fan Performance Data
If other static pressure and airflow combinations are required to balance ductwork, select condensing blower speed in accordance
with Fan Performance Table. All units are factory set to give 100% nominal flow and static pressure values and these may be varied
by means of the adjustable motor pulley.
Available External Static Pressure of Condensing Unit

Unit Size Pulley Turns ESP Pa 200 150 100 50 0


CFM 8222 8819
0 Air Flow
m³/hr 13969 14983
CFM 773 8419 8995
1 Air Flow
m³/hr 1313 14304 15283
CFM 7275 8023 8622
2 Air Flow
m³/hr 12360 13631 14649
145
CFM 7424 6926 7625 8336
3 Air Flow
m³/hr 12613 11767 12955 14164
CFM 6477 6926 6477 7224 7991
4 Air Flow
m³/hr 11004 11767 11004 12274 13577
CFM 5930 6477 6079 6877 7716
5 Air Flow
m³/hr 10075 11004 10328 11684 13109
Unit Size Pulley Turns ESP Pa 200 150 100 50 0
CFM 8705 9164 10063 11167 13219
0 Air Flow
m³/hr 14790 15570 17097 18973 22459
CFM 7760 8730 9738 10690 11700
1 Air Flow
m³/hr 13184 14832 16545 18162 19878
CFM 6438 7500 8600 9270 9920
2 Air Flow
m³/hr 10938 12743 14611 15750 16854
190
CFM 6138 7170 8190 9060 9730
3 Air Flow
m³/hr 10428 12182 13915 15393 16531
CFM 5315 6582 7750 8590 9394
4 Air Flow
m³/hr 9030 11183 13167 14594 15960
CFM 5160 6470 7700 8450 9200
5 Air Flow
m³/hr 8767 10993 13082 14357 15631
Unit Size Pulley Turns ESP Pa 200 150 100 50 0
CFM 11642 12550 13450
0 Air Flow
m³/hr 19780 21322 22852
CFM 10996 12118 13295 14505 15715
1 Air Flow
m³/hr 18682 20588 22588 24644 26700
CFM 10147 11482 12506 13666 14876
2 Air Flow
m³/hr 17240 19508 21248 23219 25274
250
CFM 9347 10719 11966 13182 14392
3 Air Flow
m³/hr 15881 18212 20330 22396 24452
CFM 8391 9899 11102 12385 13483
4 Air Flow
m³/hr 14256 16818 18862 21042 22908
CFM 7237 9072 10491 11672 12929
5 Air Flow
m³/hr 12296 15413 17824 19831 21966

Unit Size Pulley Turns ESP Pa 200 150 100 50 0


CFM
0 Air Flow
m³/hr
CFM
1 Air Flow
m³/hr
CFM 10948
2 Air Flow
m³/hr 18600
300
CFM 10276 11510 12787
3 Air Flow
m³/hr 17459 19555 21726
CFM 9442 10924 12276 13509 17135
4 Air Flow
m³/hr 16042 18559 20857 22952 29115
CFM 8371 9988 11336 12769 16574
5 Air Flow
m³/hr 14223 16969 19259 21694 28159
* Available static pressure includes evaporator coil casing pressure drop. * ESP = External static pressure.
* 0 = Pulley is fully closed. * 5 = Pulley is fully opened.
* Above values Dry airflow * = Factory setting

15
Cooling Capacities
Unit Size 145
Evap. Nominal Wet Air Flow CFM 5,185
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 135,411 130,436 124,855 118,737 110,332 108,920 100,449
18°C S.C.C 76,913 73,957 70,793 67,324 62,669 61,896 57,256
T.P.C 18.92 20.36 21.95 23.72 26.12 26.52 28.87
T.C.C 135,344 130,301 124,586 118,535 110,131 108,738 100,382
19°C S.C.C 81,071 78,181 74,876 71,358 66,629 65,873 61,333
T.P.C 18.91 20.35 21.94 23.71 26.12 26.51 28.87
T.C.C 135,008 129,898 124,384 118,266 109,862 108,488 100,247
20°C S.C.C 85,055 82,095 78,860 75,336 70,641 69,887 65,361
T.P.C 18.91 20.35 21.93 23.7 26.1 26.5 28.86
T.C.C 134,873 129,965 124,586 118,401 109,929 108,536 100,180
15ºC 21°C S.C.C 89,151 86,167 83,099 79,447 74,642 73,882 69,325
T.P.C 18.9 20.35 21.94 23.71 26.1 26.5 28.86
T.C.C 134,604 129,629 124,116 117,997 109,593 108,162 99,575
22°C S.C.C 93,011 90,222 87,005 83,424 78,578 77,794 73,088
T.P.C 18.9 20.34 21.92 24.1 26.08 26.48 28.85
T.C.C 134,604 129,629 124,048 117,863 109,391 107,998 99,642
23°C S.C.C 97,050 94,240 90,927 87,336 82,481 81,701 77,023
T.P.C 18.9 20.34 21.92 23.69 26.08 26.48 28.85
T.C.C 134,537 129,494 123,914 117,728 109,391 107,998 99,642
24°C S.C.C 101,037 98,157 94,918 91,239 86,528 85,740 81,009
T.P.C 18.9 20.33 21.92 23.68 26.08 26.47 28.84
T.C.C 144,891 139,580 133,730 127,208 118,199 116,710 107,777
20°C S.C.C 77,372 74,396 71,144 67,548 62,882 62,121 57,553
T.P.C 9.56 10.28 11.08 11.98 13.19 13.39 14.57
T.C.C 144,689 139,378 133,528 127,007 117,997 116,518 107,643
21°C S.C.C 81,460 78,470 75,176 71,632 66,904 66,143 61,572
T.P.C 19.11 20.56 22.16 23.94 26.37 26.77 29.14
T.C.C 144,420 139,176 133,327 126,805 117,795 116,316 107,441
22°C S.C.C 85,497 82,531 79,329 75,703 70,913 70,145 65,539
T.P.C 19.1 20.55 22.15 23.94 26.37 26.76 29.11
T.C.C 144,084 138,840 132,991 126,536 117,661 116,201 107,441
17ºC 23°C S.C.C 89,476 86,497 83,252 79,718 74,950 74,189 69,622
T.P.C 19.1 20.54 22.14 23.93 26.36 26.75 29.12
T.C.C 144,286 139,109 132,923 126,469 117,930 116,441 107,509
24°C S.C.C 93,642 90,699 87,331 83,722 79,013 78,231 73,536
T.P.C 19.1 20.55 22.14 23.92 26.37 26.76 29.13
T.C.C 143,748 138,504 132,722 126,200 117,123 115,654 106,836
25°C S.C.C 97,605 94,598 91,312 87,709 82,806 82,027 77,349
T.P.C 19.09 20.54 22.13 23.92 26.34 26.74 29.09
T.C.C 143,614 138,369 132,587 126,065 117,190 115,711 106,836
26°C S.C.C 101,535 98,519 95,198 91,650 86,838 86,047 81,302
T.P.C 19.09 20.53 22.13 23.91 26.34 26.73 29.11
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]

Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
16
Cooling Capacities (Cont.)
Unit Size 145
Evap. Nominal Wet Air Flow CFM 5,185
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 154,909 149,329 143,076 136,151 126,536 124,970 115,577
22°C S.C.C 77,455 74,515 71,252 67,667 62,888 62,143 57,673
T.P.C 19.33 20.77 22.39 24.19 26.64 27.03 29.37
T.C.C 154,707 149,127 142,874 135,949 126,402 124,817 115,308
23°C S.C.C 81,531 78,590 75,295 71,781 66,993 66,235 61,690
T.P.C 19.32 20.79 22.39 24.19 26.63 27.02 29.37
T.C.C 154,506 148,925 142,740 135,747 126,334 124,740 115,173
24°C S.C.C 85,751 82,653 79,506 75,883 71,126 70,344 65,649
T.P.C 19.31 20.78 22.38 24.18 26.63 27.02 29.37
T.C.C 154,170 148,589 142,403 135,613 125,998 124,423 114,972
25ºC S.C.C 89,727 86,776 83,306 79,876 75,095 74,320 69,673
T.P.C 19.31 20.78 22.37 24.18 26.62 27.01 29.39
19ºC T.C.C 154,035 148,455 142,134 135,277 125,864 124,288 114,837
26°C S.C.C 93,807 90,706 87,413 83,871 79,042 78,266 73,611
T.P.C 19.3 20.77 22.37 24.17 26.61 27.01 29.39
T.C.C 153,766 148,253 142,000 135,209 125,796 124,221 114,770
27°C S.C.C 97,795 94,734 91,448 87,886 83,026 82,248 77,584
T.P.C 19.29 20.76 22.36 24.16 26.61 27 29.38
T.C.C 153,228 147,782 141,731 135,008 125,595 124,019 114,568
28°C S.C.C 101,590 98,571 95,385 91,805 86,912 86,132 81,458
T.P.C 19.28 20.75 22.36 24.16 26.6 26.99 29.36
T.C.C 152,690 147,312 141,462 134,806 125,393 123,818 114,366
29°C S.C.C 105,385 102,408 99,322 95,724 90,797 90,017 85,332
T.P.C 19.27 20.74 22.36 24.15 26.59 26.98 29.33
T.C.C 165,599 159,683 153,027 145,563 135,478 133,826 123,914
24°C S.C.C 77,335 74,412 71,157 67,541 62,862 62,095 57,496
T.P.C 19.57 21.03 22.64 24.46 26.92 27.31 29.69
T.C.C 165,398 159,414 152,825 145,429 135,344 133,644 123,443
25°C S.C.C 81,541 78,432 75,190 71,696 66,995 66,224 61,598
T.P.C 19.57 21.02 22.64 24.45 26.91 27.3 29.67
T.C.C 165,196 159,212 152,623 145,227 135,075 133,375 123,174
26°C S.C.C 85,572 82,631 79,364 75,809 70,914 70,145 65,529
T.P.C 19.56 21.02 22.63 24.44 26.9 27.3 29.67
T.C.C 164,793 159,078 152,421 145,026 134,940 133,231 122,973
21ºC 27°C S.C.C 89,647 86,697 83,375 79,764 75,027 74,252 69,602
T.P.C 19.56 21.01 22.62 24.43 26.9 27.29 29.66
T.C.C 164,524 158,809 152,220 144,757 134,806 133,096 122,838
28°C S.C.C 93,614 90,680 87,374 83,814 78,996 78,222 73,580
T.P.C 19.55 21.01 22.62 24.43 26.89 27.28 29.65
T.C.C 164,456 158,540 152,018 144,689 134,470 132,779 122,636
29°C S.C.C 97,687 94,648 91,363 87,826 82,968 82,188 77,506
T.P.C 19.54 21 22.61 24.42 26.88 27.27 29.65
T.C.C 164,053 158,136 151,615 144,286 134,268 132,606 122,636
30°C S.C.C 101,549 98,677 95,366 91,766 86,871 86,094 81,431
T.P.C 19.54 20.99 22.6 24.41 26.87 27.27 29.64
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]
Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
17
Cooling Capacities
Unit Size 190
Evap. Nominal Wet Air Flow CFM 7,622
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 195,049 185,025 174,125 162,283 146,203 143,655 128,373
18°C S.C.C 121,711 116,936 111,788 106,458 98,979 97,768 90,503
T.P.C 22.77 24.29 25.97 27.81 30.22 30.59 32.79
T.C.C 194,510 184,620 173,856 162,081 146,338 143,810 128,642
19°C S.C.C 134,796 129,973 124,828 119,129 111,509 110,281 102,913
T.P.C 22.76 24.28 25.97 27.81 30.23 30.60 32.79
T.C.C 194,107 184,351 173,586 162,013 146,338 143,790 128,508
20°C S.C.C 147,328 142,688 137,306 131,717 122,045 120,765 113,086
T.P.C 22.75 24.27 25.96 27.81 30.23 30.59 32.80
T.C.C 194,915 185,092 174,326 162,552 146,943 144,444 129,449
15ºC 21°C S.C.C 158,271 153,256 148,003 141,908 133,864 132,457 124,013
T.P.C 22.77 24.29 25.98 27.82 30.24 30.61 32.83
T.C.C 195,386 185,630 174,932 163,292 147,682 145,270 130,795
22°C S.C.C 170,376 165,396 159,713 153,331 143,843 141,979 130,795
T.P.C 22.78 24.30 25.99 27.84 30.26 30.64 32.87
T.C.C 195,722 186,100 175,672 163,695 149,702 147,433 133,823
23°C S.C.C 181,825 176,423 170,051 163,368 149,702 147,433 133,823
T.P.C 22.79 24.31 26.01 27.81 30.33 30.71 32.98
T.C.C 196,193 186,302 177,018 167,059 152,998 150,691 136,851
24°C S.C.C 191,289 186,116 177,018 167,060 152,998 150,691 136,851
T.P.C 22.80 24.31 26.04 27.94 30.43 30.81 33.09
T.C.C 207,428 196,866 184,755 172,577 155,420 152,710 136,447
20°C S.C.C 121,139 116,544 124,340 105,962 98,691 97,497 90,328
T.P.C 23.07 24.57 26.23 28.10 30.52 30.89 33.08
T.C.C 207,025 196,395 185,294 172,241 155,487 152,786 136,582
21°C S.C.C 134,359 129,621 111,362 118,846 111,174 109,964 102,709
T.P.C 23.06 24.55 26.24 28.09 30.53 30.89 33.09
T.C.C 206,689 196,261 184,889 172,375 155,689 152,998 136,851
22°C S.C.C 147,162 142,288 137,188 131,350 123,773 122,298 113,449
T.P.C 23.06 24.55 26.23 28.09 30.53 30.89 33.10
T.C.C 206,554 196,597 185,025 172,577 155,892 153,191 136,985
17ºC 23°C S.C.C 159,873 155,115 147,649 142,031 134,067 132,742 124,794
T.P.C 23.05 24.56 26.23 28.09 30.53 30.90 33.10
T.C.C 207,428 196,933 185,495 172,779 156,497 153,815 137,725
24°C S.C.C 170,300 165,424 159,897 153,773 145,385 143,819 134,420
T.P.C 23.07 24.57 26.24 28.11 30.55 30.92 33.12
T.C.C 207,631 197,202 185,966 173,654 157,843 155,286 139,946
25°C S.C.C 182,300 177,088 171,461 164,797 154,686 152,580 139,946
T.P.C 23.07 24.57 26.26 28.13 30.57 30.95 33.23
T.C.C 207,496 197,740 186,504 174,394 159,794 157,391 142,974
26°C S.C.C 193,180 187,854 181,282 174,394 159,794 157,391 142,974
T.P.C 23.07 24.58 26.28 281.62 30.65 31.04 33.34
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]

Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
18
Cooling Capacities (Cont.)
Unit Size 190
Evap. Nominal Wet Air Flow CFM 7,622
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 220,482 209,111 196,799 183,275 165,377 162,388 144,453
22°C S.C.C 120,382 115,638 110,601 105,200 98,069 96,916 89,994
T.P.C 23.35 24.86 26.55 28.41 30.83 31.20 33.40
T.C.C 220,078 208,640 196,395 182,669 164,907 162,043 144,857
23°C S.C.C 133,587 128,731 123,925 118,187 110,818 109,617 102,413
T.P.C 23.34 24.85 26.53 28.39 30.82 31.19 33.41
T.C.C 219,607 208,304 196,125 182,804 165,109 162,264 145,193
24°C S.C.C 146,698 141,855 136,504 130,888 123,336 121,896 113,251
T.P.C 23.33 24.85 26.53 28.40 30.83 31.20 33.42
T.C.C 219,069 207,900 195,789 183,275 165,445 162,283 143,310
25ºC S.C.C 159,263 154,262 149,191 141,671 134,010 132,473 123,247
T.P.C 23.31 24.83 26.52 28.42 30.84 31.21 33.43
19ºC T.C.C 219,943 208,707 196,731 183,477 165,580 162,734 145,664
26°C S.C.C 169,797 164,879 159,549 153,753 145,545 144,189 136,050
T.P.C 23.33 24.85 26.54 28.41 30.84 31.21 33.44
T.C.C 220,347 209,179 197,000 183,813 166,387 163,513 146,270
27°C S.C.C 182,007 176,965 171,390 165,248 156,737 155,200 145,978
T.P.C 23.34 24.86 26.55 28.42 30.86 31.23 33.46
T.C.C 220,617 209,582 197,538 184,553 166,992 164,455 149,230
28°C S.C.C 193,922 188,624 182,724 176,063 166,658 164,169 149,231
T.P.C 23.35 24.87 26.56 28.42 30.89 31.27 33.56
T.C.C 220,886 209,985 198,077 185,294 167,598 165,397 152,191
29°C S.C.C 205,837 200,283 194,057 186,878 176,580 173,138 152,483
T.P.C 23.35 24.88 26.57 28.42 30.91 31.31 33.66
T.C.C 234,006 221,962 208,573 194,377 184,856 175,336 153,335
24°C S.C.C 119,343 114,755 109,710 104,380 100,846 97,312 89,241
T.P.C 23.65 25.19 26.87 28.72 29.94 31.16 33.72
T.C.C 233,535 221,559 208,371 193,771 184,217 174,663 153,200
25°C S.C.C 132,414 127,839 122,939 117,425 113,819 110,213 101,878
T.P.C 23.64 25.19 26.86 28.7 29.92 31.14 33.71
T.C.C 232,996 221,222 207,833 193,637 184,184 174,730 153,335
26°C S.C.C 145,623 141,140 135,923 130,124 126,392 122,661 114,235
T.P.C 23.63 25.17 26.84 28.69 29.92 31.15 33.72
T.C.C 232,862 220,751 207,900 193,771 184,453 175,134 153,604
21ºC 27°C S.C.C 158,579 153,643 148,441 142,810 138,131 133,452 124,727
T.P.C 23.62 25.17 26.84 28.69 29.93 31.16 33.73
T.C.C 232,593 220,684 207,968 193,771 184,385 175,000 153,604
28°C S.C.C 171,188 166,175 158,887 153,079 149,165 145,250 136,093
T.P.C 23.62 25.17 26.84 28.69 29.92 31.15 33.72
T.C.C 233,333 221,357 208,506 194,511 185,125 175,740 154,411
29°C S.C.C 181,300 176,421 170,975 165,140 161,038 156,936 146,845
T.P.C 23.64 25.18 26.86 28.71 29.94 31.17 33.75
T.C.C 233,804 221,828 208,910 194,915 185,664 176,413 155,353
30°C S.C.C 193,590 188,332 182,796 176,593 172,181 167,769 155,354
T.P.C 23.65 25.19 26.87 28.72 29.96 31.2 33.78
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]
Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
19
Cooling Capacities
Unit Size 250
Evap. Nominal Wet Air Flow CFM 7,650
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 250,5406 235,197 218,655 201,887 184,636 184,636 163,233
18°C S.C.C 119,398 113,580 104,474 97,531 89,718 89,718 84,755
T.P.C 29.57 31.45 33.51 35.82 38.36 38.36 41.99
T.C.C 251,152 235,751 219,316 202,316 184,960 184,960 162,950
19°C S.C.C 132,221 125,055 117,396 109,584 102,067 102,067 93,235
T.P.C 29.60 31.46 33.54 35.84 38.39 38.39 42.13
T.C.C 250,227 236,227 212,962 202,815 185,343 185,343 162,692
20°C S.C.C 144,106 137,509 126,780 121,847 114,160 114,160 102,502
T.P.C 29.59 31.47 33.36 35.92 38.44 38.44 42.29
T.C.C 252,826 236,981 224,070 203,296 185,912 185,912 162,476
16ºC 21°C S.C.C 157,862 150,067 143,705 134,799 125,623 125,623 112,472
T.P.C 29.68 31.52 33.98 35.94 38.49 38.49 42.43
T.C.C 253,625 237,561 226,740 202,789 182,198 182,198 159,661
22°C S.C.C 170,863 163,062 155,744 145,621 137,141 137,141 124,251
T.P.C 29.71 31.55 33.87 35.93 38.64 38.64 42.54
T.C.C 253,841 238,412 221,306 204,697 180,883 180,883 162,263
23°C S.C.C 184,200 175,895 167,572 158,378 146,302 146,302 134,184
T.P.C 29.73 31.63 33.69 36.08 38.23 38.23 42.61
T.C.C 253,824 238,972 221,963 205,527 187,302 187,302 162,783
24°C S.C.C 197,913 188,525 179,668 170,157 161,155 161,155 144,945
T.P.C 29.74 31.68 33.74 36.17 38.61 38.61 42.61
T.C.C 260,199 243,946 222,859 209,263 191,941 191,941 167,732
20°C S.C.C 132,347 0 116,247 109,517 101,942 101,942 92,644
T.P.C 29.79 31.65 33.54 36.10 38.64 38.64 42.44
T.C.C 261,002 244,443 227,546 209,767 192,907 192,907 167,471
21°C S.C.C 145,328 137,359 129,956 121,951 114,570 114,570 102,250
T.P.C 29.83 31.66 33.78 36.10 38.60 38.60 42.61
T.C.C 261,745 245,098 228,228 209,875 186,043 186,043 167,258
22°C S.C.C 158,236 150,169 142,262 133,835 122,530 122,530 112,870
T.P.C 29.87 31.70 33.83 36.10 38.26 38.26 42.75
T.C.C 262,286 245,923 227,146 210,271 180,259 180,259 166,917
17ºC 23°C S.C.C 171,143 163,199 154,492 145,683 131,176 131,176 124,747
T.P.C 29.90 31.77 33.83 36.16 38.01 38.01 42.78
T.C.C 262,779 246,249 232,238 211,933 194,602 194,602 169,625
24°C S.C.C 184,264 176,046 168,460 159,489 151,237 151,237 139,185
T.P.C 29.94 31.80 33.80 36.13 38.68 38.68 42.71
T.C.C 263,336 246,875 230,012 212,190 194,325 194,325 168,669
25°C S.C.C 197,112 188,967 179,594 170,386 160,944 160,944 145,856
T.P.C 29.95 31.83 33.95 36.31 38.86 38.86 42.77
T.C.C 263,553 247,558 228,329 212,386 194,531 194,531 169,603
26°C S.C.C 210,690 201,552 191,462 181,702 172,314 172,314 156,270
T.P.C 29.99 31.87 33.90 36.30 38.91 38.91 42.80
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]

Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
20
Cooling Capacities (Cont.)
Unit Size 250
Evap. Nominal Wet Air Flow CFM 7,650
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 277,503 260,216 237,817 224,493 205,593 201,655 178,026
22°C S.C.C 132,747 124,430 114,353 108,701 100,709 99,209 90,211
T.P.C 30.17 31.98 33.87 36.39 38.99 39.55 42.93
T.C.C 278,394 261,182 237,084 217,952 206,289 202,322 178,520
23°C S.C.C 144,351 136,517 125,856 117,909 112,957 111,339 101,632
T.P.C 30.2 32.03 33.93 36.18 39.02 39.58 42.96
T.C.C 279,574 262,153 235,744 225,988 206,227 202,347 179,068
24°C S.C.C 156,677 148,912 137,392 132,798 125,357 123,575 112,886
T.P.C 30.24 32.09 33.95 36.49 39.05 39.62 43.04
T.C.C 280,368 263,191 234,919 227,174 207,300 203,374 179,815
25ºC S.C.C 169,581 162,225 149,525 145,424 137,029 135,190 124,154
T.P.C 30.27 32.13 33.93 36.57 39.12 39.69 43.09
19ºC T.C.C 280,763 264,215 245,525 226,736 207,774 203,868 180,432
26°C S.C.C 182,660 175,047 166,610 157,456 149,125 147,191 135,585
T.P.C 30.31 32.18 34.21 36.57 39.19 39.75 43.13
T.C.C 281,370 264,937 252,000 230,701 211,934 208,604 188,627
27°C S.C.C 195,764 187,682 181,440 172,381 164,198 162,578 152,861
T.P.C 30.34 32.21 34.52 36.86 39.46 40.02 43.4
T.C.C 282,452 264,233 244,271 225,206 209,001 205,060 181,416
28°C S.C.C 208,554 200,704 189,912 180,432 172,289 170,271 158,165
T.P.C 30.36 32.21 34.23 36.49 39.27 39.84 43.24
T.C.C 283,534 263,529 236,542 219,711 206,068 201,516 174,205
29°C S.C.C 221,344 213,726 198,384 188,483 180,380 177,964 163,469
T.P.C 30.38 32.21 33.94 36.12 39.08 39.6529 43.08
T.C.C 296,511 278,455 257,331 239,320 219,854 215,665 190,530
24°C S.C.C 131,408 123,955 115,615 108,724 100,297 99,052 91,582
T.P.C 30.6 32.47 34.49 36.85 39.48 40.04 43.38
T.C.C 297,854 279,678 260,694 241,086 220,301 216,133 191,127
25°C S.C.C 143,875 136,367 128,296 120,604 112,508 110,947 101,581
T.P.C 30.65 32.51 34.63 36.95 39.5 40.07 43.5
T.C.C 298,988 281,103 261,803 241,945 220,824 216,702 191,969
26°C S.C.C 156,828 148,848 140,995 132,662 124,970 123,215 112,682
T.P.C 30.68 32.55 34.67 36.97 39.54 40.11 43.55
T.C.C 299,017 281,596 262,253 242,416 221,563 217,376 192,252
21ºC 27°C S.C.C 170,348 161,274 153,362 145,274 137,282 135,317 123,525
T.P.C 30.72 32.59 34.7 37.02 39.59 40.16 43.61
T.C.C 299,134 282,690 263,230 242,690 222,368 218,186 193,095
28°C S.C.C 183,183 174,388 165,441 157,804 148,924 146,948 135,094
T.P.C 30.79 32.63 34.74 37.06 39.65 40.22 43.64
T.C.C 299,481 283,180 263,642 243,873 223,229 219,000 193,625
29°C S.C.C 194,946 186,769 178,602 169,645 159,631 157,762 146,548
T.P.C 30.88 32.65 34.77 37.17 39.71 40.28 43.72
T.C.C 299,930 288,056 264,388 244,340 223,756 219,482 193,840
30°C S.C.C 205,614 201,171 191,150 180,272 169,869 168,204 158,215
T.P.C 30.99 32.85 34.81 37.22 39.8 40.36 43.73
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]
Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
21
Cooling Capacities
Unit Size 300
Evap. Nominal Wet Air Flow CFM 9,750
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 284,293 264,051 244,885 225,337 206,039 202,245 179,482
18°C S.C.C 148,424 137,085 130,822 122,451 112,306 110,608 100,423
T.P.C 37.83 39.66 41.71 44.08 46.58 47.16 50.62
T.C.C 286,620 266,736 247,028 227,295 208,337 204,545 181,793
19°C S.C.C 162,045 153,481 144,889 136,202 127,641 125,889 115,377
T.P.C 37.79 39.70 41.72 44.07 46.62 47.20 50.66
T.C.C 289,143 269,098 249,947 229,588 210,274 206,471 183,652
20°C S.C.C 178,577 169,704 161,138 151,839 142,486 140,718 130,111
T.P.C 37.81 39.72 41.79 44.09 46.64 47.21 50.68
T.C.C 291,467 271,198 251,177 231,664 212,172 208,658 187,574
16ºC 21°C S.C.C 195,098 185,951 176,566 167,184 158,159 156,591 147,182
T.P.C 37.81 39.72 41.79 44.11 46.64 47.26 51.01
T.C.C 293,237 273,439 253,855 233,501 214,110 210,218 186,863
22°C S.C.C 211,458 202,134 192,875 183,117 174,169 172,287 160,994
T.P.C 37.81 39.72 41.81 44.13 46.66 47.24 50.70
T.C.C 295,431 275,209 255,218 234,856 215,286 211,417 188,207
23°C S.C.C 228,224 218,500 208,959 199,994 190,286 188,344 176,688
T.P.C 37.81 39.75 41.79 44.13 46.64 47.22 50.70
T.C.C 296,921 276,430 256,112 236,629 216,438 212,606 189,612
24°C S.C.C 244,914 236,144 226,414 215,644 206,189 204,115 191,673
T.P.C 37.83 39.75 41.81 44.13 46.64 47.22 50.72
T.C.C 292,488 277,434 256,853 236,473 216,578 212,657 189,131
20°C S.C.C 160,943 153,595 145,754 136,239 127,598 125,853 115,384
T.P.C 37.81 39.91 41.99 44.29 46.84 47.42 50.88
T.C.C 293,417 277,352 258,983 238,757 218,804 214,837 191,037
21°C S.C.C 174,965 168,561 160,753 151,798 142,936 141,109 130,147
T.P.C 37.77 39.83 42.03 44.31 46.87 47.44 50.90
T.C.C 302,766 274,460 260,984 240,859 220,986 217,015 193,187
22°C S.C.C 195,147 182,012 176,548 167,451 158,611 156,808 145,987
T.P.C 37.99 39.64 42.03 44.31 46.90 47.47 50.94
T.C.C 304,663 280,519 263,520 242,775 222,394 218,403 194,459
17ºC 23°C S.C.C 211,450 200,297 192,721 183,128 174,093 172,281 161,406
T.P.C 37.99 39.81 42.03 44.36 46.89 47.47 50.95
T.C.C 306,987 285,725 265,066 244,566 219,889 216,488 196,083
24°C S.C.C 228,169 218,314 208,650 199,680 188,057 186,416 176,571
T.P.C 38.01 39.95 42.05 44.34 46.64 47.26 50.97
T.C.C 308,704 287,550 266,359 245,774 223,587 219,848 197,413
25°C S.C.C 245,653 235,161 226,035 216,133 205,403 203,450 191,733
T.P.C 38.01 39.93 42.05 44.38 46.80 47.40 50.94
T.C.C 310,292 288,750 267,951 247,044 227,118 223,177 199,532
26°C S.C.C 262,286 252,945 242,592 231,930 221,238 218,875 204,701
T.P.C 38.01 39.95 42.05 44.34 46.95 47.52 50.97
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]

Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
22
Cooling Capacities (Cont.)
Unit Size 300
Evap. Nominal Wet Air Flow CFM 9,750
Evap. Entering Cond. Entering
Air Temperature °C Air Temperature 25 30 35 40 45 46 52
WBT DBT °C
T.C.C 315,045 295,480 277,552 255,829 234,324 230,111 204,829
22°C S.C.C 160,405 152,425 144,839 136,182 127,540 125,799 115,353
T.P.C 38.21 40.19 42.46 44.82 47.33 47.92 51.43
T.C.C 319,393 299,700 279,998 258,218 236,547 232,285 206,714
23°C S.C.C 176,242 168,646 160,158 151,029 142,865 141,057 130,206
T.P.C 38.28 40.27 42.48 44.84 47.35 47.94 51.45
T.C.C 326,693 304,384 282,202 260,387 238,591 234,324 208,725
24°C S.C.C 194,904 185,836 176,035 166,722 158,100 156,247 145,125
T.P.C 38.44 40.38 42.50 44.85 47.37 47.96 51.48
T.C.C 330,134 306,596 284,224 262,399 240,704 236,355 210,261
25ºC S.C.C 211,869 201,983 192,410 182,943 173,441 171,639 160,826
T.P.C 38.46 40.38 42.50 44.87 47.40 47.98 51.50
19ºC T.C.C 331,442 308,535 286,415 264,494 242,317 238,013 212,190
26°C S.C.C 228,001 218,174 208,448 198,716 189,733 187,626 174,982
T.P.C 38.46 40.40 42.52 44.82 47.40 47.98 51.52
T.C.C 333,252 310,474 288,000 266,685 243,610 239,388 214,057
27°C S.C.C 245,001 234,462 224,640 214,326 205,831 203,407 188,863
T.P.C 38.45 40.44 42.54 44.85 47.40 47.98 51.52
T.C.C 335,054 313,149 289,378 269,051 250,887 245,875 215,805
28°C S.C.C 261,094 250,113 242,029 229,241 224,221 221,131 202,587
T.P.C 38.46 40.46 42.50 44.91 47.82 48.35 51.49
T.C.C 336,857 315,823 290,756 271,417 258,164 252,363 217,552
29°C S.C.C 277,188 265,763 259,418 244,157 242,611 238,854 216,312
T.P.C 38.47 40.49 42.46 44.96 48.25 48.71 51.47
T.C.C 347,037 322,231 299,086 275,924 252,956 248,441 221,345
24°C S.C.C 161,844 155,008 146,520 135,831 128,201 126,710 117,765
T.P.C 38.85 40.76 42.94 45.27 47.87 48.44 51.90
T.C.C 350,117 325,457 301,796 278,307 255,106 250,589 223,491
25°C S.C.C 178,368 170,108 161,325 151,395 142,436 140,829 131,191
T.P.C 38.88 40.79 42.96 45.29 47.88 48.47 51.97
T.C.C 352,218 328,180 304,381 280,697 256,996 252,499 225,523
26°C S.C.C 194,800 185,468 176,613 167,004 157,511 155,684 144,723
T.P.C 38.88 40.81 42.98 45.31 47.89 48.48 52.03
T.C.C 354,231 330,725 306,779 282,766 259,220 254,574 226,697
21ºC 27°C S.C.C 210,898 201,692 192,188 182,439 172,794 171,012 160,319
T.P.C 38.87 40.83 42.99 45.33 47.93 48.50 51.97
T.C.C 356,517 332,784 308,706 285,038 262,025 257,124 227,716
28°C S.C.C 227,202 217,826 208,493 198,126 188,642 186,807 175,794
T.P.C 38.87 40.91 42.97 45.33 47.95 48.51 51.91
T.C.C 357,046 334,944 310,719 286,878 263,769 258,766 228,747
29°C S.C.C 242,097 234,567 223,742 213,168 205,441 203,335 190,699
T.P.C 38.90 40.88 42.95 45.36 47.96 48.51 51.84
T.C.C 357,381 336,907 312,307 288,531 264,746 259,774 229,938
30°C S.C.C 255,370 250,209 238,221 227,322 220,810 218,504 204,664
T.P.C 38.95 40.83 42.93 45.39 47.93 48.47 51.76
Legend :
T.C.C Total Cooling Capacity [Btu/hr]
S.C.C Sensible Cooling Capacity [Btu/hr]
T.P.C Total Power Consumption [KW]
Note : All above data for 3 phase (380V & 50 Hz) power supply, (Nominal airflow configuration).
23
Detailed Dimensions ( mm )

Size 145

Vertical Packaged Systems - Cooling Only


1599 188
1037
309 399 309

167

164
399
18

1012
1433
918

601
617

352

357

692
141

138

285
129
2015
2110

2110
1234

869
872
767

40
322
20

1720 195 76 132 370 382 370 132

247
1720

Split System – Evaporator Unit - Cooling Only


1599
1599 188
1014
164

1433 307 399 399 306


925
602
617
660

357
740

740
329
249

23

50
179

459 1720
1720

Split System – Condensing Unit

1599 944
33

151 835 410 100 919 239 370 382 370 239
285
129
1355
1260
1450
1234

869
872
767

40
322
247
20

1720 195 76

1720

24
Detailed Dimensions ( mm )

Size 145

Vertical Packaged Systems - Cooling / Heating ( with electrical heaters )


1599
1155
1599 188
1433 1130
306 399 399 309

169
922

540

695
599
350

692
129
285
177

2168.84
2167

2110
1234

869
40
322
20

1720 195 76
370 382
247
132 370 132

1720

Split System – Evaporator Unit - Cooling / Heating ( with electrical heaters )


1599 1124
1034
1433
309 399 188 399 309

77
364 196360

87
826.5

659.5
599
826
816

660
740

329
249

23

118

50
179

80
459
1720 1720

Split System – Condensing Unit

1599 944
33

151 835 410 100 919 239 370 382 370 239
285
129
1355
1260
1450
1234

869
872
767

40
322
247
20

1720 195 76

1720

25
Detailed Dimensions ( mm )

Size 190

Vertical Packaged Systems - Cooling Only


2125

237
2125
1181 479 465 465 479

24

42
1852 1155

447

450
662
617

37
216

300
57
2070
2162

75
1287

957
40
115

322
115 559 456 559 115
99

247
2235 243
2235

Split System – Evaporator Unit - Cooling Only


2125

1852 1156 237 465 479


479 465
1082

450
617

662
757

757
346
266
75

196

539
2235 75
2235

Split System – Condensing Unit


2125
1105
35

2125 25 278 555 459 555 277


336
411
1367
1408
1503

1287

1212
1092
912
792
672

161 1800 161


322
247
115

2235 99
243 2235

26
Detailed Dimensions ( mm )

Size 190

Vertical Packaged Systems - Cooling / Heating ( with electrical heaters )


1292 2125
2125
237
1852 1267
479 465 465 479
1079

522
541

412
492
562

700

734
596

337
74
2237
2142
1287

956
322
99

135
247
2235

113 557 459 557 115

2235

Split System – Evaporator Unit - Cooling / Heating ( with electrical heaters )

2125

1953
1270
1852 479 465 237 465 479
364 355 360
527
844
834

834
757

346

272
266

75
75
196

100
539
2235

2235

Split System – Condensing Unit


2125
1105
35

2125 25 278 555 459 555 277


336
411
1367
1408
1503

1287

1212
1092
912
792
672

161 1800 161


322
247
115

2235 99
243 2235

27
Detailed Dimensions ( mm )

Sizes 250 & 300

Vertical Packaged Systems - Cooling Only


2525 2525
1161
2251
1079 230

23

42
674 465 465 692

405
599

660
280
213

75
38
2162
1301

987
75
152

38
98 26

19.5
218 546 557 458 557 548
2665

Split System – Evaporator Unit - Cooling Only


2525
2525 1161 230
1079 673 465 465 692
2251

450
599
660

660

755
755

80
70
25

100

95
539
75.5 2665
2665

Split System – Condensing Unit


1105 2525
2525
28

27 478 557 458 557 477


279
76
120
1503

1503
180
1301

120

986
120
152
19.5

243 98
2665 2205

2665

28
Detailed Dimensions ( mm )

Sizes 250 & 300

Vertical Packaged Systems - Cooling / Heating ( with electrical heaters )

2525
2525
1281 674 465 465 692
1197

41
230

406

660
280
213

2239
2162

75

1407
1301

75
151

39
26
2665 98 217 162 161

314 557 458 557 314

2665

Split System – Evaporator Unit - Cooling / Heating ( with electrical heaters )


2525

2525 1264 230


2252 465 692

87
673 465
120 360 355 360

77
599

660
80
70
100
129

539

95
2665
2665

Split System – Condensing Unit


1105 2525
2525
28

27 478 557 458 557 477


279
76
120

180
1252

120

986
120
100

250
75
151.7
19.5

243 98
161
158 2202
2665

29
Notes :
.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

.......................................................................................................................................................................................................................................................................................................................................

30
ISO/IEC 17025 : 2017 ISO 14001 : 2015 ISO 45001 : 2018 QMS ISO 9001 : 2015
Testing and Calibration Environmental Occupational Health and
Quality Management System
Laboratories Management System Safety Management System

www.miraco.com.eg

Carrier is committed for continuous improvement of Carrier products according to national and international standards
to ensure the highest quality and reliability standards, and to meet market regulations and requirements.
All specifications subject to change without prior notice according to Carrier policy of continuous development.
31

You might also like