Upload
van-nguyen-huu-van
View
157
Download
11
Embed Size (px)
Citation preview
5/27/2018 Tong hop TRane.pdf
1/212
Products, services and controls for air-conditioning
and refrigeration in commercial and industrial markets
General Catalogue
PROD-PRC011-E4
5/27/2018 Tong hop TRane.pdf
2/212
American Standard Inc. 2004
Cooling-only system
Heat pump (or reversible cooling/heating) system
Heat recovery system
R134a refrigerant
R407C refrigerant
R404A refrigerant
Unit is certified Eurovent
Unit is directly compatible
with Tracer Summit
Conforms to the BACnet standard
Conforms to the applicableLonMark profiles
Cooling-only + gas burner
Cooling-only + electric heater
Throughout this catalogue, Option refers to a factory-mounted device. Accessory refers to a device that is to be installed on the job site
Plant control applications
Water terminal + scroll chiller applications
Air handling unit + air distribution system applications
Rooftop + VAV applications
Interoperability and integration
Factory-mounted controller as standard
5/27/2018 Tong hop TRane.pdf
3/212
TR
ANE
QUAL
ITY
Trane was the first company in its industrial
sector to obtain ISO 9001 certification, in
December 1987. Since December 2002, Tranehas been certified ISO 9001: 2000 process-
based Quality Management System.
Trane participates in the Eurovent certification
programmes where product performance and
construction data are validated by
independent laboratories.
All products supplied within the European
Union conform to essential safety and health
requirements established by applicableEuropean directives.
1PROD-PRC011-E4
Trane Quality
5/27/2018 Tong hop TRane.pdf
4/212
2
PROD-PRC011-E4
Wherever you are in the world, there is alwaysa Trane representative near you, who will puthis expertise and know-how at your service.
Trane supports its products in the field with flexible SecuriTraneTM
manufacturers assistance contracts: technical audits, preventivemechanical servicing, warranty extensions, remote monitoring,24/7 access, or bringing equipment into compliance with variouslegislations.
All Trane engineers and technicians are expertsin refrigeration and air-conditioning control.Trane will take the extra step beyondinstallation to perfectly adapt the equipmentto its environment, by taking control of andseeing to an efficient and high-performance
start-up.
An expert
Proximity
SecuriTraneTM
manufacturers assistance
Start-up
5/27/2018 Tong hop TRane.pdf
5/212
3
PROD-PRC011-E4
Trane can instruct you in the operation of itsequipment, by conducting training on location
with the maintenance managers.
Tranes technical expertise enables you to safeguard yourinstallation by benefiting from exclusive services: post start-upvisit, oil and laboratory analysis, Eddy current tube analysis.
Thanks to a full inventory, Trane can providespare parts and any possible supplies that youmay need within short deadlines and this just
after a simple phone call.
supports you...
R
ANE
ERVI
E
Training
Technical expertise
Logistics - Spare parts
5/27/2018 Tong hop TRane.pdf
6/212
68
70
72
74
76
38
52
58
60
46
4
66
78
80
84
92
92
100
106
8
16
24
29
Air handling units
360-4 320 m3/h
Air handling units700-108 000 m3/h
Air handling units
700-250 000 m3/h
Air handling units
1 000-50 000 m3/h
Air handling units1 000-200 000 m3/h
Air handling units1 200-86 000 m3/h
Variable air volume systems
Linear and cassette diffusers
CCGA
CLCP
CCEA
CCH
CCTA
CCVA
VariTrane
VDLE-VRLE-Cassette
UniTrane FCC-FCK-FVC
Slim Line HFO-HFR
Slim Line HFH
FWD
CWS
Fan coil units1-12 kW
Fan coil units for office applications
2-7 kW
Fan coil units for hotel applications1-5 kW
Chilled water ductable units4-30 kW
Chilled water cassette1-12 kW
Domain solutions
Application solutions
Application selection information
Technical characteristics
Building Automation Systems
Air Systems
Chilled Water Terminals
Axial fans, scroll compressor19-61 kW
Scroll compressor50-240 kW
Scroll compressor, heat pump49-218 kW
Axial fans, helical rotary compressor250-650 kW
Axial fans, helical rotary compressor400-1500 kW
CGA/VGA
AquaStreamTM CGAN
AquaStreamTM CXAN
RTAD
RTAC
Air-cooled Chillers
TABLE OF CONTENTS
PROD-PRC011-E4
5/27/2018 Tong hop TRane.pdf
7/212
132
144
138
150
5
4
154
158
166
174
182
183
112
114
118
120
124
198
200
188
190
194
204
Reversible8-13 kW
Reversible17-62 kW
Cooling-only17-143 kW
Gas-fired17-143 kW
Light commercial building supervisor
Variable air volume systems
Rooftops
Scroll compressor
51-153 kW
Helical rotary compressor200-700 kW
Helical rotary compressor
500-1500 kW
Centrifugal compressor
1400-3800 kW
Helical rotary compressor, heat recovery version270-385 kW
Centrifugal fans, scroll compressor49-150 kW
Centrifugal fans, helical rotary compressor132-262 kW
Condenserless chiller, scroll compressor51-153 kW
Condenserless chiller, helical rotary compressor
160-640 kW
Water-cooled Chillers
Air-cooled Chillers
Condensing Units and Remote Condensers
Condensing unit3-15 kW
Condensing unit55-218 kW
Remote condenser215-600 kW
Variable frequency drives
0.37-400 kW
Variable Frequency Drives
VarioTrane TR1
Technology and comfort applications5-20 kW
High tech applications22-63 kW
Jupiter
Mercury
TTK/TWK
RAUL
RTCA
ImpackTM WCC
Voyager WSD/WSH-WKD/WKH
Voyager TSD/TSH-TKD/TKH
Voyager YSD/YSH-YKD/YKH
Tracker
VariTracTM ll
CGWH
RTWB
RTHD
CVGF
RTAA HR
CGCL
RTRA
CCUH
RTUB
PROD-PRC011-E4
Close Control Units
5/28/2018 Tong hop TRane.pdf
8/212
6
BuildingAutomationSystems
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
9/212
7
BuildingAutomat
ionSystems
Solutions Evaluation and SupportWherever the location in Europe, Trane customers get a high level of support in their BMS
projects. Trane, thanks to its long experience in HVAC equipment manufacturing and support,
has developed competencies in solutions evaluation.
Specialists can help Trane customers put several solutions side by side and compare them from
an economical stand point (first cost, return on investment, amortization) and from anefficiency and reliability stand point. The evaluation tools used, mostly based on simulationsoftware, can take into account the gain of using Building Management Systems with
traditional HVAC equipment.
Open SystemsTrane knows that there are several systems serving building owners and operation managers.
Trane considers it crucial that these systems operate together, in the simplest way, in the most
efficient manner.
Trane has adopted the latest open protocols standard and built them as native services into its
BMS offer. Two ways of open communication are therefore offered today as standard functions:
Trane can integrate other manufacturers' equipment into a Trane BMS, by using LonTalk*protocol.
Trane systems are also ready for interoperability, by the use of BACnetTM* protocol.
PROD-PRC011-E4
* Trane is a sponsor of BACnet Interest Group Association
Factory-mounted ControlsEvery piece of equipment leaving the factory is equipped with a controller which ismounted, wired up, configured and tested before the unit ships to the site. This ensures
that equipment is easy to commission and ready to run.
5/28/2018 Tong hop TRane.pdf
10/212
8
Domain: Industry
Trane already has a wide experience of industrial controlapplications, starting from simple chiller plant
management, up to highly technical systems, such as
underground water source heat pumps, or condenser
optimization for improving chillers efficiency.
One of the highest priority of Trane engineers when
designing an industrial application is to ensure a system
that is reliable. As an example installation operationcontinuity is being focused on at design and
commissioning stages. Trane proposes systems that can
revert to a safe stand alone running mode should any
issue such as communication troubles arise, offering
cooling capacity until the issue has been analyzed andfixed.
On top of that reliability, Trane system allows for ease of
system operation. Whatever the proposed solution is,Trane always proposes simple to use user interfaces.
These one's always offer pertinent information about
system status and running conditions. Since every piece
of equipment is hooked up to a network, the user canaccess at any time many system and unit's information,
allowing for easy diagnosis, and easy understanding of
system reactions.
Pre-engineered chiller plant management function areimplemented on the system so that commissioning time
can be as reduced as possible.
Trane also focuses on savings.This objective is focusedon since the beginning of the project. Piping
arrangement, chiller technology, unit sizes arrangement
are being studied so that customer can get the best result
of their installation, according to their system load profile.Chiller Plant sequencing is a powerful pre-engineered
function that only requires parameters for being able to
drive the installation with high level of optimization.
From here, Trane is able to propose the BMS productsadapted to the solution that the customer has chosen. At
this point of time, BMS project fulfillment teams takeover the project. BMS project fulfillment teams follow a
complete process: building clear and fully detailed projectspecifications, proposing clear project development and
fulfillment schedule, and project management.
PROD-PRC011-E4
Utilities and HVAC process control
5/28/2018 Tong hop TRane.pdf
11/212
Trane also has developed the capacity of offering fullsupport to its customers, beginning with customer'stechnical service.Trane proposes its simulation andsolution evaluation software. Using this tool, customer's
can easily evaluate the best alternative for solving theirproblem, by being able to view the solutions from
different angles, such as economical aspects, technical
aspects, safety and reliability etc
With Trane's organization, customer's have a singlesource of responsibility.They can have access to projectinfo from this single source. After the project has been
fulfilled, it is also easy for customer's to get assistance
from Trane in concluding a maintenance and servicecontract including HVAC and BMS equipment / software's.
This way, system fluctuations, fine tuning etc can be
done by people working in sync with those teams that
have developed originally the application. This by essenceensures service continuity as well as efficiency inanswering any request of system improvement or
adaptation.
PROD-PRC011-E4
9
5/28/2018 Tong hop TRane.pdf
12/212
10
Building control
Domain: Small/medium size office
The know-how gained while sharing experiences with itscomfort process customer has led Trane to develop BMS
solutions dedicated to these applications.
Comfort is a key in these projects, but not the only one.Having a look at the entire project process, as well as
offering a system capable of handling the overall building
control functions has also been taken into account in
order to offer packaged solutions.
The packages Trane offers allow for several advantages:
Comfort:All Trane HVAC equipment are shipped withfactory-mounted/factory-programmed controls, offering
easy-to-install equipment, and reduced commissioningtime. All building equipment is fully compatible with each
other thanks to use of LonTalk protocol. All comfort
control functions, such as scheduling, heating/cooling
change over management, timed overrides, chiller plant
management, boiler plant management, indoor air qualitycontrol are built in the system. The system also ensures
acoustic performance, by having FCU using the lowest
fan speed possible.
Energy savings:Trane's package includes severalfunctions dedicated to energy savings, such as
chiller/boiler plant optimization, allowing for pumping
energy savings, as well as equipment starts and stopsoptimization. It also includes automatic water
temperature compensation, occupied / stand by /
unoccupied modes for FCU etc
Ease of use:Trane's solution offers a VGA display,presenting data as graphics. The entire system can beaccessed by an intuitive navigation tree system. Daily
operators can easily access information such as ambient
temperatures, setpoint settings, timed override on any
zone, not being forced to understand HOW comfort isbeing maintained. For more advanced users or technical
personnel, the system also offers capability to access to
details about equipment such as various running
conditions for chillers, boilers, and AHU, or optimizationparameters for Plant controls. System however
integrates advanced event logging and trending, and very
powerful system access protection through password
strategies.
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
13/212
Ease of installation:Trane's delivered packagecan come as a predefined kit including all components,
control panels and so on, so that very little amount of
coordination is requested for on site installation, wiringand commissioning. It is also possible to get the parts as
individual pieces, would the contractor, or would
technical constraints such as clearance etc not allow
for using the full 'kit'.
Flexibility:Trane's system is capable not only ofhandling Trane equipment, but also extending its domain
to integration of non-HVAC functions, such as external
lighting systems, grass watering, intrusion system or
even alarms from ancillaries such as power systems,circuit breakers etc
Ease of doing business with:Choosing thissolution means having only one company handling the
overall comfort process. Trane is the contact for any
advice concerning either the HVAC equipment or theassociated BMS. System optimization will be done by
people who perfectly understand the HVAC equipment,
and BMS components.
Thus Trane's offer is a solution that allows for betterbuilding performances and optimized projectmanagement, answering all concerns.
PROD-PRC011-E4
11
5/28/2018 Tong hop TRane.pdf
14/212
12
Domain: Large office building
In addition to HVAC application solutions for large scale
building projects, Trane has developed one of the mostopen Building Management System solutions availableon the market. This range of solutions, completely
developed and manufactured by Trane, is the sum of
decades of expertise, hundreds of HVAC system designs,
thousands of operating and maintenance experts. It is theway a reliable and renowned manufacturer helps his
customer get the best out of his products.
Large building comfort application have been carefully
studied by Trane and fully optimized functions have beenimplemented within Trane's BMS. These functions offer
several unique advantages to Trane's contacts along the
project cycle.
Flexibility:Trane's BMS is a highly flexible systemthat offers ease of (re) configuration. This allows thesystem to be adapted at every step of a project. It has
also been considered that large buildings require changes
quite regularly in the levels layout (open space) and
Trane's system is fully organized as to allow for spacereconfiguration, thanks to advanced master/slavecapabilities of terminal units controller, perfectly fitted in
the global BMS.
Flexibility is also at first priority when consideringBuilding Operations. Trane's BMS integrates graphical
user interfaces, either based on HTML pages handled in adedicated environment, called Tracer Summit, or from a
simple and standard PC Web browser for daily
operations.
Another important point is about the ability of Trane's
solution to offer equipment integration and system
interoperability. Since 1995, Trane has adopted the most
advanced standard protocols, such as BACnetTM, LonTalk
or MODBUS, and has implemented them as nativefeatures of its BMS.
Reliability:Trane's BMS takes advantage of Trane'sexperience in HVAC equipment, as well as in BMS, as
Trane has been active in this domain for the last 25 years.
Building its own electronic component was a choice thatTrane made as to perfectly master the complete product
life cycle, from development, engineering, manufacturing,
up to maintenance, support and upgrade. This means that
every piece of BMS component is well-known by Trane'sBMS personnel, and, would the project engineer require a
specific piece of information for assisting his customer,
he can find it easily within Trane's organization.
PROD-PRC011-E4
Building management control
5/28/2018 Tong hop TRane.pdf
15/212
Efficiency:Trane has developed pre-engineeredfunction within Tracer Summit that allow a high level ofsystem efficiency which can be seen from different
angles.
Efficiency of commissioning: Minimum programmingis required to set up these functions and the BASproject engineers can spend more time in fine-tuning
the system rather than developing the applications
from scratch.
Perfect equipment coordination:Trane's HVACequipment comes with its factory-mounted controller.
All these controllers have been developed keeping in
mind their possible association within a system and
thus, their interactions have been envisaged and
implemented within Trane's BMS. This way, it is quiteeasy for Trane's BAS engineers to associate the
controllers and get the best of the equipment, simply
by telling the system how these controllers are linked
together.Fine-tuning:Trane's BMS integrates a unique reportgeneration system that allows operations managers
to get a report of the current system status, by the
simple click of a mouse. This operation can be doneon ANY equipment integrated in the system, and does
not require any programming. Should the operationmanager want a specific report, a specific layout, a
specific trend, Trane's BMS integrates a very simple
report template editor that allows creation of any
report, just by dragging/dropping any piece of
information available in the BMS database.
Comfort:Trane's core business is about developingHVAC equipment. As to reach the unquestionable level of
equipment quality, reliability and efficiency, Trane's
engineers have had to consider the equipment in their
global environment. This means that on top of ensuring
equipment safeties and running condition efficiency carehas been taken ensure performance around acoustics,
energy savings, etc. Through the use of Trane's BMS,
these aspects of equipment running conditions are evenimproved. As an example, a VAV box can be driven
according to pressures and running conditions of the
AHU that is serving it. The equipment exchanges data in
order to align the respective working conditions to deliver
the optimum service to the end user.
PROD-PRC011-E4
13
5/28/2018 Tong hop TRane.pdf
16/212
14
Domain: Light commercial
Trane has developed a Building Management Systemwhose capabilities perfectly match context of rooftop/air
distribution applications. Trane's BMS, for light
commercial applications presents many advantages:
Delivered System:Trane's light commercial BMSonly requires a few settings to be implemented on an
application. Thanks to the capability of any Trane HVAC
equipment to communicate over a network, the BMSmanages to identify these equipment linked together,
builds the corresponding database and automaticallyoffers to the end user predefined functions such as time-
of-day schedule, automatic setpoint reset, zone
management or alarming menu, with almost no labor
required. If the customer wants to customize his interface,a convenient software interface is available to change
zones that have been automatically created, changing
alarms menus, and so on.
The system is compact and very convenient to install andwire up.Trane's equipment uses an open standardprotocol, called LonTalk, which is often present in thistype of building, and contractors perfectly master this
kind of bus topology installation.
Trane's delivered system offers an additional perspective,
since every piece of the puzzle comes from the same
manufacturer. It is far easier to have coordination onequipment delivery, commissioning and fine tuning, since
only one contact is involved for this. On top of this, Trane
personnel are well trained for the entire system
components, ensuring efficiency in commissioning, andfast response should the customer require any
information.
PROD-PRC011-E4
Building control
5/28/2018 Tong hop TRane.pdf
17/212
Energy savings:Various pre-engineered tactics,such as setpoint reset, time-of-day scheduling, duty cycle,have been implemented in the system and can be
associated together to improve system energy efficiency,
and almost not touch system comfort management
capability.
Trane's system is easy to install, set up and use. This
means that system updates, system daily operations and
system maintenance can be done by operation personnelvery easily, requiring almost no specific training.
Trane's system also has the capability to control ancillary
equipment, such as lights, parking lots, energy meters,
and any equipment that must be controlled according toa time-of-day schedule, through simple interface such as
relay contacts.
Saying this, Trane's delivered BMS for commercial
applications is a powerful answer to customers who want
a very easy-to-use system, capable of simplifying their lifeall along the project life cycle.
PROD-PRC011-E4
15
5/28/2018 Tong hop TRane.pdf
18/212
16
Water plant control
Application
Chillers are one of the main focuses for Trane. Their
environment is perfectly known by Trane engineers. This
has led up Trane developing advanced Chiller PlantControl applications within its Building Management
System. Trane also has taken this opportunity to make its
system fully capable of handling boiler plants.
Various aspects of boiler/chiller plant operations have
been studied and very smart functions have been
implemented within Trane's Water System Management.
Trane's systems are able to handle many hydraulic
layouts.
Most efficient results can be achieved with well-prepared
piping arrangement. However, Trane always studies
piping arrangement that is either existing or consideredfor the installation. Trane specialists in hydraulics and
chillers application always review the system drawings
before any proposal is made. This helps Trane to clearly
point out what the installation is really capable ofdelivering, and to position these capabilities regarding
what is expected.
Once this is clear, Water System Management addsadvanced capabilities to the customer's installation:
Flexibility:Water System Management offersflexible interfaces to operate chiller plant. By a few mouseclicks, chillers can be turned into maintenance, sequence
numbers can be adjusted and rotation can be initiated.
The same interface also helps operation personnel
exactly know what the installation has been doing, iscurrently doing and will be doing in the near future. At
any time, the operator can anticipate system reactions.
System graphics for plant operation can be monitored
from an Intranet, using a web browser.
Energy savings:Water System Managementalways ensures that chillers are used in their most
efficient operation conditions. Unit technology and
environment conditions are monitored by Water System
Management, which adjusts parameters according tochanges in the system running conditions. Parameters
such as unit size, compressor technology, condenser
temperatures are controlled. The number of chillers is
automatically adapted according to the system load.
Should there be a change, the system anticipates andadds/removes chillers accordingly. The system also
controls all ancillaries such as pumps, cooling towers, dry
coolers etc.
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
19/212
Reliability:It is obvious that chilled water productionis crucial for customer's process and the Trane systemmaintains a high level of reliability so that chilled water
can be maintained at all times.
Every chiller is equipped with its own electronic
controller, and each controller embeds an adaptivecontrol algorithm. Each controller is fully compatible with
the Building Management System, It communicates with
it over a standard protocol, sharing all its running
conditions. This allows the management system to notonly turn on/off chillers according to temperatures or
temperatures differences, but also consider current
running conditions of chillers, such as maximum capacity
reached, limit conditions, and so on, in order to know
system capacity at all times.
Interoperability/integration:Trane systemsare fully capable of communicating with any equipment
and/or management system through the use of open
standard protocols, such as BACnetTM, or LonTalk.
Modbus is also supported allowing for a wide range ofintegration and data sharing with ancillaries, such as
pumps, sensors or PLC's. Trane systems are capable of
integrating either standard LonTalk profiles (SCC, DAC)
or Generic Lon Devices (GLD).
Protection:Trane systems offer a high security levelthat protects against any unexpected system operation.Operators can be authorized to monitor data only, write
setpoint and other parameters, create graphics or just
view them, modify system layout, and so on. Every action
on the system is recorded in an event log. Events canthen be monitored, filtered by date/operator/device, etc.
Events can be seen either at the PC level, or from a local
touch screen available in the plant room.
Assistance:Trane systems allow for system remotemonitoring. After commissioning, Trane personnel canget connected to the system and monitor/fine tune
parameters to adapt the overall system performance.
Alarms can also be forwarded to that remote workstation.
If an IP address is available, a web server can be installedand allow for remote access to the system through a
simple web browser. Trends, event log, system status can
be accessed this way from any location where an access
to the Internet/intranet is possible.
PROD-PRC011-E4
17
5/28/2018 Tong hop TRane.pdf
20/212
18
Variable air system management
Application
In buildings where environmental comfort is a key,variable air systems are the best alternative. Trane BMS
integrates the capability of driving such systems through
a pre-defined engineered function called Variable Air
Systems. By the use of VAS, building owners get a state-of-the-art system capable of offering many different
advantages.
System approach:Every piece of equipment of aTrane air system is equipped with an optimised controller,which locally ensures that the equipment is used the bestway. Trane air system management uses controller
communication capability to handle all the equipment
from a global standpoint. Every running condition has
been modelled in a global function. Ancillaries, such aslights, power supply, shadows can be associated with the
air system and all these components can be co-ordinated
together.
Comfort:Thanks to a common communicationstandard protocol, all equipment serving the system is
exchanging data with an application server which takes
decisions. If most VAV boxes are fed with too much air, itwill reset static pressure setpoint as to avoid unnecessary
noise. If boxes are fully opened and call for more air, the
setpoint is adjusted upward.
Since VAV boxes are equipped with communicating
controllers, master/slaving can easily be used forhandling large zones avoiding fights between cooling and
heating areas, as well as allowing for optimum
temperature control. Indoor Air Quality (IAQ) is alsoperfectly managed by such a system. Trane equipment
can monitor indoor air conditions and drive the AHU
fresh air dampers dynamically, by measuring the fresh air
volume sent into the building.
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
21/212
Savings:Dynamically adjusting airflow in the ductsystem leads to energy savings by the reduction of fanconsumption. Occupancy schedules also participate in
energy savings.
Start/stop optimisation, done through the monitoring of
outdoor air conditions, building inertia and occupancyprofiles are also a very powerful tool. Control of IAQ also
is an important asset for energy savings. Only the right
amount of fresh air is handled by the system reducing
unnecessary ventilation.
Ease of use:Trane systems can be run through anintuitive web-style user interface, as well as from touchscreens displays at every level of the system. The use of
an advanced password system allows the use of filtering
screens so that users only have access to what they really
need. End users can also use their standard PC to operatethe system, by surfing on their dedicated web pages for
setpoint adjustment, for example. Alarms are also
monitored by the system and can be forwarded to the
appropriate recipient via e-mail. Reports are accessiblethrough couple of mouse clicks, no engineering, no
programming being required. Time of day schedules,
setpoints and system statuses can be accessed, for
reading and reading/writing, depending on the password
given.
PROD-PRC011-E4
19
5/28/2018 Tong hop TRane.pdf
22/212
20
Water terminal units system
management
Application
Water terminal units and chillers are Trane core products.
Understanding how this equipment is being used
together, is part of Trane know-how that has beenconverted into a Management System. Other equipment
serving building comfort system is also under Trane
system, control such as air handling units, exhaust fans,
water treatment, but also ancillaries such as lights, powerdistribution panels, and so on.
The system that Trane offers covers key points for a
project to be successful.
Comfort:Trane has developed advanced electroniccontrollers that offer individual comfort at each terminalunit level. This comfort is offered several ways
Temperatures are being monitored and controlled to
stay within limits each user can adjust, either by
individual wall sensors, or by the use of web pages.
Sound level is maintained at its minimum value and airmovement reduced as much as possible by the control
of fan speed, which is maintained at the lowest value as
possible.
Comfort is maintained year-round, cooling/heating modeis controlled automatically and intelligently, change over
being totally transparent to the occupant.
Comfort for the operation manager is also ensured.
Master/Slaving is now very easy to set up and
reconfigure. Open space re-design can be done in veryshort period of time.
Indoor Air Quality (IAQ) is also one of the advantages of
a Trane system which is capable of monitoring and
maintaining IAQ within optimum limits, by collectingIAQ data from terminal units and giving
recommendation to the AHU, thanks to communication
buses.
Ease of use:Trane systems communicate throughopen protocols (LonTalk BACnetTM) as a core means ofdata sharing. In addition to this data sharing, the system
handles several types of user interfaces, so that every
user can have access to the information he needs, while
not being overwhelmed with inappropriate data.
Terminal units can be equipped with wall sensorsembedding indications such as setpoint, timed override,
and temperature values. This information can be
adjusted within pre-determined limits.
Operation managers can have access to system statusby using an advanced graphical interface running on a
PC. This status can be filtered and organized according
to the use. Software interfaces integrate a user-friendly
graphical interface allowing authorized users tochange/create graphics to optimized them for their own
use.
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
23/212
Operation engineers can have access to system
information in the different technical locations in the
building by the use of VGA touch screens, on which localdata are presented.
Time-of-day (TOD) scheduling is integrated in the
system and offers a very convenient interface for TOD
adjustment, group/zone creation or modifications. Every single piece of equipment in the system can be
focused on. It can be overridden in any state as for
maintenance or test purposes. A trend can also be
generated for it, and automatic reporting is available,
not requiring any specific programming. Equipment or system alarms can be monitored and
broadcasted on the system so that the best recipient can
get a notice for this particular event and react in the
most efficient manner. If a recipient does not reactwithin a pre-defined period of time, the alarm is
forwarded to another level of recipients until the alarm
is acknowledged.
The addition of a web server allows for systemperformances monitoring from a PC equipped with a
simple browser. Graphics and trends are converted to
HTML pages and are available from any location on the
intranet/internet, through the use of an IP address.
Savings:Through the coordination of all equipmentwithin the building, it is quite simple for the managementsystem to optimize energy consumption. Savings also are
available at system design and system commissioning
phases.
Water system management can be organized, so thateither chilled water or hot water production is handled
in the most efficient way. Hot water can be generated
either by boilers, reversible units or a combination of
the two. Equipment schedules integrate an optimization function,
which determines building inertia and adjusts start/stop
time according to temperatures/relative humidity and
building occupancy.
Each Trane piece of equipment is delivered with factory-mounted controls which are ready to work when the
equipment leaves the factory. No extra work on site is
required for it to control the equipment it is associated
with.Coordination of production (cooling/heating) and use
(FCU, AHU) is one of the best approaches to optimize
system operation. Communication is the key factor for
this to be efficient and Trane equipment all integrate astandard protocol interface.
PROD-PRC011-E4
21
5/28/2018 Tong hop TRane.pdf
24/212
22
Packaged Units
System Management
Application
Packaged units such as rooftop equipment are often used
in more than one unit application. Trane has developed a
delivered system allowing for ease of operation, ease ofinstallation of such systems. To serve concerns for such
installations, Trane has developed a dedicated
management system that offers the following services:
Easy to install:Trane system consists in a modulethat only needs 4 screws to be mounted on the wall. Thismodule is divided into 3 pieces, one being a mounted
plate that can be installed before the electronic and
screen plates are being delivered, reducing risks of
damage.
Easy to commission:All Trane equipment isLonTalk compatible. This means that polarity is no
longer an issue, and bus layout is simplified. Trane
system automatically discovers all equipment hooked up
to the network and builds a default database in fewminutes after first power-up. This ensures that the
building is managed automatically with default values
such as setpoint, zone names, and schedules. These
values can be adjusted at a later stage, after the endusers have entered the building.
Ease of operation:Trane system comes with atouch screen. One hour is needed at the most to train
users, either daily operators, or operation people, thanks
to the use of graphics. Should a more advanced interface
be required, a PC can be connected to the panel and offer
a Windows-based HTML interface with enhancedfunctions.
Easy to do business with:Thanks to Trane'sapproach to packaged systems, customers only have onecontact point for the whole installation. For explanations,
project status, or advice on system expansion, only onephone number is necessary.
More than just air conditioning:Ancillaries such as pumps, lights, variable air systems can
be under its control. The system applies time-of-dayschedules and setpoint global changes to all devices
connected to the network.
Trane systems offer a centralized control for the
equipment serving building comfort. From this central
location, all equipment can be operated and monitored. Ifa remote connection is required, the system integrates
capability of forwarding alarms and trends to a remote
location either through Ethernet network and appropriateWindows application running on a customer-supplied PC,or through phone lines.
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
25/212
Savings:Trane system allows for reduced installationcosts. Only thermistors need to be wired up to DX units,requiring only 2 wires instead of many for complete wall
sensors. Energy is better handled by the use of time-of-
day schedules and optimal start /stop function.
Heating/cooling coordination makes sure that equipmentis not competing against each other and wasting energy.
PROD-PRC011-E4
23
5/28/2018 Tong hop TRane.pdf
26/212
Application Selection Information
24
PROD-PRC011-E4
Terminal units - Fan coil controllersZN521 ZN511 ZN520 ZN510
Application
Factory-mounted No No Yes No
Communication LonTalk LonTalk LonTalk LonTalk
2-pipe cooling-only x x x x
2-pipe cooling-only + electric heater x x x x
2-pipe heating only x x x x
2-pipe changeover x x x x
2-pipe changeover + electric heater x x x x
4-pipe x x x x
Function
Fan speed control (3 speeds) Auto Manual Auto Manual
Thermal valve actuator control Yes Yes Yes Yes
On/off spring return valve actuator control Yes Yes Yes Yes
3 wires valve actuator control Yes No Yes No
Automatic changeover Yes Yes Yes Yes
Occupied/unoccupied mode Yes Yes Yes Yes
Wall sensor (fan speed: low/medium/high/auto/off,
setpoint knob, override/cancel) Yes Yes Yes Yes
Automatic fan speed optimization Auto No Auto No
Supply air measure and control Yes No Yes No
Entering water temperature measure Yes Yes Yes Yes
Auto changeover (2-pipe mode) Yes Yes Yes Yes
Auto changeover 4-pipe mode Yes Yes Yes Yes
Dirty filter timer Yes No Yes No
Master/Slave Yes Yes Yes Yes
Occupied stand-by Yes Yes Yes Yes
Generic binary output Yes No Yes No
Chilled beam controllersZN521 ZN511 ZN520 ZN510
Application
Factory-mounted No No No No
Communication LonTalk LonTalk LonTalk LonTalk
2-pipe cooling-only Yes Yes Yes Yes
2-pipe cooling-only + electric heater Yes Yes Yes Yes
Function
Dew point sensor Yes No Yes No
3 wires valve actuator control Yes No Yes No
Occupied/unoccuped mode Yes Yes Yes Yes
Wall sensor (setpoint knob, override/cancel) Yes Yes Yes Yes
Supply air measure Yes No Yes No
Entering water temperature measure Yes Yes Yes Yes
Master/Slave Yes Yes Yes Yes
Occupied stand-by Yes Yes Yes Yes
Generic binary output Yes No Yes No
This is a short list of what can be done with these controllers. For information on other applications, contact your local sales office.
5/28/2018 Tong hop TRane.pdf
27/212
BuildingAutomat
ionSystems
25
Terminal Units - VAV controllersUCM VAV III VV 550
Application
Factory-mounted Yes Yes
Communication Proprietary LonTalk
1 duct Yes Yes
1 duct + heating water coil Yes Yes
1 duct + heating electric coil Yes Yes
1 duct with parallel fan Yes Yes
1 duct with series fan Yes Yes
1 duct with parallel fan and water coil Yes Yes
1 duct with parallel fan and electric coil Yes Yes
1 duct with series fan and water coil Yes Yes
1 duct with series fan and electric coil Yes Yes
Function
Integrated airflow control Yes Yes
Integrated supply/extract flow differential control No Yes
Generic output No Yes
Generic binary input or occupancy sensor input Yes Yes
CO2 sensor input or auxiliary temperature sensor Yes Yes
Remote communication pins on wall sensor Yes Yes
Automatic calibration Yes Yes
Air/water balancing application No Yes
Manual test function Yes Yes
Damper position for pressure optimization Yes Yes
CO2 base demand control ventilation No Yes
Ventilation ratio to control outdoor air damper Yes Yes
This is a short list of what can be done with these controllers. For information on other applications, contact your local sales office.
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
28/212
26
PROD-PRC011-E4
Air Handling Units - AHU controllerAH 541 MP 581 PCM ZN 521
Factory-mounted Yes Yes Yes No
Communication LonTalk LonTalk Proprietary LonTalk
Analog inputsReturn air temperature sensor X X X X
Supply air temperature sensor X X X X
Outdoor air temperature sensor X X - -
Ambient air temperature sensor X X X X
Mixed air temperature sensor X X X X
Temperature setpoint adjustment X X X X
Duct static pressure X X X X
Differential pressure X X X X
Return air humidity sensor X X X X
Supply air humidity sensor - X X X
Outdoor air humidity sensor - X - -
Ambient air humidity sensor - X X X
Humidity setpoint adjustment - X X X
CO2 sensor - X X X
Setpoint X X X X
Air quality - X X -
Setpoint X X X X
Binary inputs
Frost thermostat X X X X
Differential filter pressure switch X X X -
Low air pressure switch X X X X
Motor(s) default(s) X X X -
Electrical heater default X X X -
Damper end switch X X X -
On/off contact X X X X
Occupancy mode X X X X
Timed override X X X X
Communication bus terminals 2 2 2 2
Analog Output
Pre-heating valve X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires X/3 wires
Cooling valve X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires X/3 wires
Heating valve X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires X/3 wires
Signal damper X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires -
Electrical heater X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires -
Variable speed supply air motor X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires -
Variable speed return air motor X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires -
Signal humidifier X / 0-10 V/3 wires X / 0-10 V/3 wires X / 0-10 V/3 wires -
Temperature * * * -
Humidity * * * -
Pressure * * * -
Position damper * * * -
Binary output
Supply air motor command X X X X
Extract air motor command X X X -
Damper command X X X X
Humidifier command X X X -
Default Signal X X X -
- Not Available* Screen Display pointX Hardware point
5/28/2018 Tong hop TRane.pdf
29/212
27
BuildingAutomat
ionSystems
PROD-PRC011-E4
Technical lots - Programmable controllers/Input/Output controllers
MP 501 MP 503 MP 581
Factory-mounted No No No
Communication LonTalk LonTalk LonTalk
Application
Single loop controller X - X
Monitoring temperature - X X
Monitoring humidity - X X
Monitoring pressure - X X
Control mechanical equipment - X X
Control water pumps - - X
Control boilers - - XControl cooling towers - - X
Control heat exchangers - - X
Display screen option - - X
- Not AvailableX Hardware point
Building Management Systems - Supervision and ControlBCU Tracer Summit Tracker Web Server
Application Display
Password protected X X X X
Touch screen interface X X X -
Windows type navigation - X - X
Time of day scheduling X X X X
Event logging X X X X
Trending/event graphing - X - X
Remote connection X X X -
Pre-engineered reports - X - X
Custom reports - X - -
Personal computer support - X - X
User friendly alarm log interface X X X X
Alarms acknowledge X X X -
- Not Available
X Compatible
This is a short list of what can be done with these controllers. For information on other applications, contact your local sales office.
5/28/2018 Tong hop TRane.pdf
30/212
28
PROD-PRC011-E4
Number of units per interface
Trane controllers integration: MODBUS protocol
TCI-C TCI-S BCU + TCI-b BCU +Field server
Chiller controllers
SMM - 6 Max 6 Max 10 Max
TRACER CH.532 - - 20 Max 10 Max
UCM-CLD + CSR 1 - 6 Max 10 Max
UCP2 + TCI3-com3 1 - - -
UCP2 + TCI3-com4 - - 5 Max 10 Max
TRACER CH.530 1* - 5 Max 10 Max
Rooftop controllers
Rooftop + UCP2 + TCI-3 com3 - - 8 Max 16 Max
Rooftop + Reliatel + LCI-r - - 8 Max 16 Max
Terminal unit controllers
ZN 520/510 - - 60 Max 100 Max
Generic PLC's
AH 540-541 - - 10 Max 10 Max
MP 580-581 - - 10 Max 10 Max
MP 501-503 - - 60 Max 120 Max
- Not Available* Except CVGF-RTAC
Trane controllers' integration: LonTalk protocol
Chiller controllers
SMM - 10 Max
TRACER CH.532 LCI-c chiller controller profile 8040 10 Max
UCM-CLD + CSR - 10 Max
UCP2 + TCI3-com3 - -
UCP2 + TCI3-com4 - 10 Max
TRACER CH.530 LCI-c chiller profile 8040 10 Max
Rooftop controllers
Rooftop + UCP2 + TCI-3 com3 - 16 Max
Rooftop + Reliatel + LCI-r LCI-r SCC profile 16 Max
Terminal unit controllers
ZN 520 LON SCC 8500 Profile 120 Max
Generic PLC's
AH 540-541 SCC or DAC profile 20 Max
MP 580-581 SCC or DAC profile 20 Max
MP 501-503 SCC or DAC profile 120 Max
- Not Available
This is a short list of what can be done with these controllers. For information on other applications, contact your local sales office.
Direct integration
Communication
card
BCU + Field
server
5/28/2018 Tong hop TRane.pdf
31/212
PROD-PRC011-E4
Technical characteristics
Modulating cooling/changeover valve, open 2-position
cooling/changeover valveDX cooling
Modulating cooling/changeover valve, openFace and
bypass damper, open to face
Modulating heating valve open2-position heating
valveElectric heat stage 1
Modulating heating valve closeFace and bypass
damper, closeElectric heat stage 2
29
BuildingAutomat
ionSystems
Terminal Unit controllers ZN 521/520I/O Features Number Supported signal type
BI 1 Low coil temperature detection
Binary inputs BI 2 Condensate overflow
BI 3 Occupancy or generic binary input
BI 4 Fan status
ZN Zone temperature
GND Zone sensor common ground
SET Local setpoint
FAN Fan mode input
Analog inputs GND Auxiliary ground
AI 1 Entering water temperature
AI 2 Discharge air temperatureAI 3 Outdoor air temperature or
generic temperature
AI 4 Universal 4-20 mA
1 Fan high
2 Fan medium
3 Fan low
4
Binary outputs 5
6
7
8 Outdoor air damper, open
9 Outdoor air damper, close
10 Baseboard heatGeneric
Main Features
Power 24 Vac 50/60 Hz 1phase or 230 Vac
Consumption 14 VA plus 12 VA per binary output at 24 Vac
Operating environment Temperature from 0 to + 60C
Relative humidity 5 - 95% non condensing
Storage environment Temperature from- 40 to + 85C
Relative humidity 5 - 95% non condensing
Protection class IP 20
Dimensions (mm) 175x137x51
Weight (kg) 0.2
Immunity (EN 50082-1 :1997)
Agency listing /compliance EN 50082-2 : 1995
Emissions EN 50081-1: 1992
Communication LonTalk protocol SCC 8500 profile
Network type : FTT10-ADiagnosis interface 3 LED
"Service pin" 1 push button + 1 test button
5/28/2018 Tong hop TRane.pdf
32/212
30
PROD-PRC011-E4
AHU Controllers - MP 580/AH 541MP 580 AH 541
I/O Features Number Number Supported signal type
12 12 Dry contact (included pulses)
0- 20 mA
Universal Input 0-10 Vdc
Linear variable resistor
Thermistor
Specific Pressure Input 1 1 Specific Input for Trane pressure sensor
Binary Outputs 6 2 24 Vac powered contact (12 Vac 0,5A)
Analog Outputs 6 6 0-10 Vdc
0-20 mA
Main FeaturesPower Supply 24 Vac 50/60 Hz 1 phase
Consumption 10 VA under 24 Vac (70 VA max)
- 40 to + 70C without operator display
Operating environment 0 to + 50C with operator display
10 to 90% humidity non condensing
- 50 to + 95C without operator display
Storage environment - 25 to + 75C with operator display
10 to 90% humidity noncondensing
Protection Class IP 20
Dimensions (mm) 215x385x127
Weight (kg) 1
Memory RAM 512 KROM 2 MB flashEEPROM 256 K
Operator display (option) Touch screen resolution 320x240 pixels
Timer Included in the operator display
Battery Dynamic data/time: high capacity backup (7 days)
Immunity (directive 89/336/EEC) EN 50090-2-2 : 1996
Agency listing /compliance EMC (directive 89/336/EEC) EN 50090-2-2 : 1996
EN 61000-3-2 : 1996
EN 61000-3-3 : 1995
Communication LonTalk Protocol SCC or DAC profile
Network type : FTT10-A
Extension Capability Up to 4 modules EX2 maximum
Diagnosis Assistance 9 LED
1 service pin push button
5/28/2018 Tong hop TRane.pdf
33/212
PROD-PRC011-E4
Programmable controller - MP 581
I/O Features Number Supported signal type
12 Dry contact ( included pulses) 0- 20 mA
Universal Input 0-10 Vdc Linear variable resistor,
NTC Thermistor
Specific Pressure Input 1 Specific Input for Trane pressure sensor
Binary Outputs 6 24 Vac Powered Contact (12 Vac 0,5A)
Analog Outputs 6 0-10 Vdc, 0-20 mA
Main Features
Power Supply 24 Vac 50/60 Hz 1 phase
Consumption 10 VA under 24 Vac (70 VA max)
Operating environment - 40 to + 70C without operator display0 to + 50C with operator display
10 to 90% humidity non condensing
- 50 to + 95C without operator display
Storage environment - 25 to + 75C with operator display
10 to 90% humidity noncondensing
Protection Class IP 20
Dimensions (mm) 215x385x127
Weight (kg) 1
Memory RAM 512 KROM 2 MB flash EEPROM 256 K
Operator display (option) Touch Screen resolution 320x240 pixels
Timer Included in the operator display
Battery Dynamic data/time: high capacity backup (7 days)Immunity (directive 89/336/EEC) EN 50090-2-2 : 1996E
Agency listing /compliance MC (directive 89/336/EEC) EN 50090-2-2 : 1996
EN 61000-3-2 : 1996
EN 61000-3-3 : 1995
Communication LonTalk protocol SCC or DAC profile
Network type : FTT10-A
Extension Capability Up to 4 EX2 modules maximum
Diagnosis Assistance 9 LED
1 service pin push button
31
BuildingAutomat
ionSystems
5/28/2018 Tong hop TRane.pdf
34/212
32
PROD-PRC011-E4
Generic I/O controllers - MP 503/501
MP 501 I/O Features Number Supported signal type
Analog inputs 1 Temperature or 4-20 mA (generic mode)
Binary inputs 1 Occupancy (SCC mode)Enable :
Disable (Generic mode)
Analog outputs * 1 0- 10 Vdc
Binary outputs* 1 Tri-state modulation or 2 stage
Generic point 1 Used only with Tracer Summit
MP 503 I/O Features
Universal inputs 4 Trane 10 kOhm NTC thermistor, 0-20 mA,
0- 10 Vdc, Dry contact
Binary outputs 4 24 Vac powered relay (12 VA max)
Main Features
Power supply 24 Vac 50/60 Hz 1phase
Consumption 10 VA plus 12 VA per binary
output (MP 503)
Consumption 10 VA max 70 VA (MP 501)
Operating environment Temperature from 0 to + 70C
Relative humidity 5 - 95% non condensing
Storage environment Temperature from -40 to + 85C
Relative humidity 5 - 95% non condensing
Protection class IP 20
Dimensions (mm) 175x137x51
Weight (kg) 0.22Agency listing /compliance Immunity (EN 50082 :1997)
Emissions EN 50081-1: 1992
EN 61000-3-2 : 1996
EN 61000-3-3 : 1995
Communication LonTalk protocol SCC profile or
generic mode (MP 501)
LonTalk protocol generic mode (MP 503)
Network FTT10-A
Web ServerMain Features
Operating environment Temperature from 0 to + 50C
Relative humidity 10 - 90% non condensing
Storage environment Temperature from- 40 to + 85C
Relative humidity 10 - 90% non condensing
Protection class IP 30
Dimensions (mm) 260x223x70
Weight (kg) 1.1
Agency listing /compliance CE EN 61326 : 1998 EN 61010-1-1993
Memory RAM 32 MB ROM 256 Mo flash
Security Secure Sockets layer (SSL) protocol
Software requirement Java 2 plug in 1.4.0 or higher
Web browser Internet Explorer 5.01 or higher
Netscape navigator 6.2 or higher
Network Two RJ 45 Ethernet 10/100 BaseT
ports with rate auto detection
5/28/2018 Tong hop TRane.pdf
35/212
PROD-PRC011-E4
33
BuildingAutomat
ionSystems
BCUI/O Features Number Supported signal type
Universal inputs 5 Each input can be either dry contact,
NTC Thermistor, 0-20 mA, 0-10 Vdc
Binary outputs 1 Powered relay : 500 mA under 24 Vdc
Main Features
Power 230 Vac 50/60 Hz 1phase
Operating environment Temperature range : from 0 to + 50C
Relative humidity : 10 - 90% non condensing
Storage environment Temperature range from -46 to + 66C
Relative humidity 10 - 90% non condensing
Protection class IP 30
Dimensions (mm) 482x406x152
Weight (kg) 6.8
Operator display (option) Monochrome touch screen VGA
resolution 320x240 pixels
Agency listing/compliance EN 50082-2 EN 55022EN 61010-A2-1995
RAM 2 Mo ROM 2 Mo flash
Memory (database + default values)
EEPROM 256 Ko
Battery Dynamic data : high capacity backup (3 days)
Field Server
1 RJ 45 IEA-232 connection
I/O Features 1 screw terminal EIA-485 connection
1 10 BaseT RJ 45 Ethernet connection
Main Features
Power 24 Vac 50/60 Hz Hz 1phase
Operating environment Temperature from 0 to + 60C
Relative humidity 10 - 90% non condensing
Storage environment Temperature from- 46 to + 66C
Relative humidity 10 - 90% non condensing
Protection class IP 30
Dimensions (mm) 110x90x45
Weight (kg) 1.5
Agency listing/compliance CE EN 55022 Class B
9 active LED for: Transmit, Receive, Ethernet Link OK,
LED Power OK, Bridge running, Configuration error,
Node offline, Comm error, System error.
Software Software and driver compatibility :
BACnet ( Ethernet or IP)MODBUS RTU
5/28/2018 Tong hop TRane.pdf
36/212
34
PROD-PRC011-E4
TrackerI/O module features Number Supported signal type
Universal inputs 5 Each input can be either Dry contact,
NTC Thermistor, 0-20 mA, 0-10 Vdc
Binary outputs 1 Powered relay : 500 mA under 24 Vdc
Main Features
Power 230 Vac 50/60 Hz 1phase
Operating environment Temperature range : from 0 to + 50C
Relative humidity : 10 - 90% non condensing
Storage environment Temperature range from -46 to + 66C
Relative humidity 10 - 90% non condensing
Protection class IP 30Dimensions (mm ) 482x406x152
Weight (kg) 6.8
Operator display (option) Monochrome touch screen VGA
resolution 320x240 pixels
Agency listing /compliance EN 50082-2 EN 55022EN 61010-A2-1995
Memory RAM 2 Mo ROM 2 Mo flash (database + default values)
EEPROM 256 Ko
Battery Dynamic data : high capacity backup (3 days)
VAV UCM 4
I/O characteristics Number Supported signal type
Binary inputs 1 Occupancy or generic binary input
Zone temperature Zone sensor common ground
Local setpoint CO2 sensor Pressure transducer
Analog inputs 8 Auxiliary temperature or CO2 sensor
Outdoor air temperature or
generic temperature Universal 4-20 mA
Open damper Close damper
Binary outputs 5 Modulating heating valve open
Modulating heating valve close
Main Features
Power 24 Vac 50/60 Hz 1 phaseConsumption 50 VA max at 24 Vac
Operating environment Temperature from 0 to + 60C
Relative humidity 10 - 90% non condensing
Storage environment Temperature from- 40 to + 65C
Relative humidity 10 - 90% non condensing
Protection class IP 20
Dimensions (mm) 110x55x42
Weight (kg) 0.2
Communication Protocol TRANE proprietary
Diagnosis tool 2 LED
5/28/2018 Tong hop TRane.pdf
37/212
PROD-PRC011-E4
35
TCI-c / TCI-s / TCI-b
I/O characteristics Number
1 Mother card
Composition 1 Auxiliary card ASK/FSK or TTY
1 Auxiliary card RS 232
1 Auxiliary card RS 485
Main Features
Power 24 Vac 50/60Hz 1phase
Operating environment Temperature from 0 to + 70C
Relative humidity 5 - 95% non condensing
Storage environment Temperature from- 40 to + 85CRelative humidity 5 - 95% non condensing
Protection class IP 21
Dimensions (mm) 255x196x75
Weight (kg) 2.7
Agency listing /compliance CE 89/336/ECC
Memory RAM 2 Mo ROM
2 Mo flash
LED 8 active LED
Software MODBUS RTU no parity, format 8 data bits,
1 stop bit, RTUSpeed 1200 - 9600 Bauds
Software:Tracer Summit V13 and higher
I/O characteristics Number
Operating system Windows 95b, 95c, 98, 98SE, ME, NT4.0, 2000, XP
Pentium processor 166 MHz 64 Mb RAM
Hardware requirement Windows 95b, 95c,98, 150 Mb hard drive free space
98SE, ME: 8x CDROM
15" SVGA display, 800x600 resolution minimum
1 ISA/PCI free slot1 MODEM connection
Pentium processor 166 MHz 128 Mb RAM
Hardware requirement Windows XP, 150 Mb hard drive free space
Windows NT4.0 (> SP3.0) 8x CDROM
15" SVGA display, 800x600 resolution minimum
1 ISA/PCI free slot1 MODEM connection
Network Ethernet: 10 Base 2 - 10base 10ARCNET
Protocol BACnetTM
Conformance See Trane for Protocol Implementation Statement (PICS) document
BuildingAutomat
ionSystems
5/28/2018 Tong hop TRane.pdf
38/212
36
Water Systems
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
39/212
1kW 2 3 5 15 30
1 12 FVC-FCC-FCK
1 12 CWS
2 7 HFO-HFR
4 10 12 20
1-30 kW
37
UniTrane
Slim Line
4 30FWD
New
Chilled water terminals
Designed to maximize comfort and silence
Complete and flexible range of units
Unit compatibility with Tracer Summit building controls
Reduced maintenance and easy installation
Large range of unit controls
Lon compatibility
Office building and hotel applications
WaterSystems
HFH ductable fan coil units, specially designed for hotelapplications
Intelligent Trane controls providing enhanced acoustical andthermal comfort and Lon compatibility
PROD-PRC011-E4
1 5 HFHSlim Line
5/28/2018 Tong hop TRane.pdf
40/212
UniTrane
38
1-12 kW FCC
FVC
M/NPL
FCK
Multi-purpose applications
Chilled water terminals
Main features Very low noise levels (one of the quietest units on the
market, based on Eurovent data)
Use of 1 mm thick galvanized steel with corrosion-resistant powder paint coating
Very easy to install thanks to key holes, drain pan
supplied with flexible hose
Very easy to maintain due to accessible filter (no toolneeded) and life-lubricated fan motor
Very easy to wire due to quick connectors, without
opening the control panel
Convertible on job site (FCC and FCK) vertical horizontal
Options 4-pipe water coil
Electric heater (2 capacities) specially designed to be
inserted into the water coil and protected by two
overheat thermostats (automatic and manual reset)following standard EN 60 335-2-40 and amendment
EN 60 335-2-40-A1
On/off 2-way and 3-way/4-port valves
Modulating 2-way and 3-way/4-port valves High external static pressure motor (up to 50Pa in high
speed)
Right/left hand water connections
Accessories On/off 3-way/4-port valve kit
Painted mounting feet
0-33% manual fresh air damper Painted return air grille
Painted rear panel
Auxiliary drain pans
Wall thermostats
Controls Built-in on/off controls on fan, valve or/and electric
heater
Remote on/off controls on fan, valve or/and electric
heater Factory-mounted intelligent Trane controls providing
enhanced acoustical and thermal comfort and Lon
compatibility
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
41/212
39
UniTrane
PROD-PRC011-E4
General data
WaterSystems
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Low
Med
High
Unit size 01 02 03 04 06
Speed at ESP = 0 Pa
Airflow (m3/h) 114 173 219 154 193 286 240 266 377 300 373 558 328 545 776Cooling Constant water flow method (1)Total capacity (kW) 0.8 0.9 1.0 1.1 1.3 1.5 1.5 1.8 2.1 2.4 2.7 3.4 2.7 3.8 4.6Sensible capacity (kW) 0.5 0.7 0.8 0.8 1.0 1.2 1.1 1.3 1.6 1.6 1.9 2.6 1.9 2.8 3.5Water flow (l/h) 180 271 365 597 805Cooling Constant delta T method (2)Total capacity (kW) 0.6 0.9 1.0 0.9 1.1 1.5 1.3 1.6 2.1 2.2 2.6 3.4 2.4 3.6 4.6Sensible capacity (kW) 0.5 0.7 0.8 0.7 0.9 1.2 1.0 1.2 1.6 1.5 1.9 2.6 1.7 2.7 3.5Water flow (l/h) 114 154 180 165 200 271 231 283 365 380 450 597 418 627 805Water content (l) 1.1 1.1 1.3 1.5 1.7Heating Constant water flow method (3)Total capacity (kW) 0.8 0.9 1.0 1.0 1.1 1.3 1.5 1.6 1.8 2.0 2.1 2.4 2.4 2.9 3.2Water flow (l/h) 86 107 155 203 272Heating Constant delta T method (4)
Total capacity (kW) 0.8 0.9 1.0 1.0 1.1 1.3 1.4 1.6 1.8 1.9 2.1 2.4 2.3 2.8 3.2Water flow (l/h) 67 78 86 83 91 107 121 135 155 160 174 203 194 237 272Water content (l) 0.14 0.14 0.19 0.24 0.29Electric heaterCapacity (W) 530 530/1060 750/1500 980/1960 1530/3060Electric heaterabsorbed current (A) 2.3 2.3/4.6 3.3/6.5 4.3/8.5 6.7/13.3Fan motorabsorbed current (A) 0.1 0.1 0.2 0.1 0.1 0.2 0.1 0.1 0.2 0.2 0.2 0.3 0.1 0.3 0.4Maximum externalstatic pressure (5) (Pa) 25 30 50 20 25 50 20 25 50 50 50 50 50 50 50Water connection type " ISO/R7 female gasSound power level (6) (dB(A)) 28 37 41 33 35 44 36 43 51 41 47 58 34 47 56Sound pressure level (7) (dB(A)) 19 28 32 24 26 35 27 34 42 32 38 49 25 38 47
08 11 12 15 20
Airflow (m3/h) 518 748 970 637 1123 1473 752 1256 1703 1105 1566 2426 1501 2045 2952Cooling Constant water flow method (1)Total capacity (kW) 4.0 5.0 5.7 5.3 7.5 8.5 6.5 9.0 10.5 9.0 11.1 13.8 10.0 11.9 14.4Sensible capacity (kW) 2.8 3.6 4.3 4.0 6.1 7.5 4.8 7.1 8.8 6.5 8.4 11.5 7.7 10.0 13.2Water flow (l/h) 995 1462 1811 2376 2484Cooling Constant delta T method (2)Total capacity (kW) 3.7 4.8 5.7 4.4 7.0 8.5 5.6 8.5 10.5 8.0 10.3 13.8 9.1 11.3 14.4Sensible capacity (kW) 2.6 3.5 4.3 3.6 5.9 7.5 4.4 6.9 8.8 6.0 8.0 11.5 7.3 9.6 13.2Water flow (l/h) 638 835 995 752 1202 1462 968 1461 1811 1372 1775 2376 1570 1937 2484Water content (l) 2.1 2.3 2.5 2.7 2.9Heating Constant water flow method (3)Total capacity (kW) 3.2 3.6 4.0 4.3 5.9 6.7 4.9 6.6 7.7 6.8 8.2 10.2 8.5 10.0 12.0Water flow (l/h) 333 580 662 875 1033
Heating Constant delta T method (4)Total capacity (kW) 3.1 3.5 4.0 4.0 5.7 6.7 4.6 6.4 7.7 6.4 7.9 10.2 8.1 9.8 12.0Water flow (l/h) 260 300 333 346 493 580 396 554 662 551 684 875 695 839 1033Water content (l) 0.34 0.44 0.52 0.60 0.68Electric heaterCapacity (W) 1970/3940 3060/6120 3940/7880 4800/9600 4800/9600Electric heaterabsorbed current (A) 8.6/17.1 13.3/26.6 17.1/34.3 20.9/41.7 20.9/41.7Fan motorabsorbed current (A) 0.3 0.4 0.6 0.6 1.0 1.2 0.6 1.0 1.4 0.9 1.3 1.8 0.9 1.4 2.0Maximum externalstatic pressure (5) (Pa) 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50Water connection type " ISO/R7 female gasSound power level (6) (dB(A)) 45 54 61 49 62 67 49 60 66 54 63 71 59 66 72Sound pressure level (7) (dB(A)) 36 45 52 40 53 58 40 51 57 45 54 62 50 57 63
Power supply : 230V/50Hz/1Ph
(1) 2-pipe, 3-row coil, air: 27C/19C, water inlet : 7C, delta T = 5K in high speed(2) 2-pipe, 3-row coil, air: 27C/19C, water: 7/12C, constant delta T(3) 4-pipe, 1-row coil, air: 20C, water inlet : 70C, delta T = 10K in high speed(4) 4-pipe, 1-row coil, air: 20C, water: 70/60C, constant delta T(5) With High External Static Pressure motor(6) Levels according to Eurovent specification 8/2 (ISO 3741/88) and Eurovent Certification, standard motor(7) Levels measured in room with a volume of 100 m3 and reverberation time of 0.5 second
5/28/2018 Tong hop TRane.pdf
42/212
40
UniTrane
Z
Y
X
X
Y
Z
X
Y
Z
X
Y
Z
Y
X
PROD-PRC011-E4
Dimensions and weights
X Y ZFCC 01 790 449 238 18 -
FCC 02 790 449 238 18 -
FCC 03 990 449 238 22 -
FCC 04 1190 449 238 25 -
FCC 06 1390 449 238 32 -
FCC 08 1590 449 238 40 -
FCK 01 510 430 217 17 470x122
FCK 02 510 430 217 17 470x122
FCK 03 710 430 217 20 670x122
FCK 04 910 430 217 23 870x122
FCK 06 1110 430 217 30 1070x122
FCK 08 1310 430 217 38 1270x122
FCK 11 1130 574 291 55 1092x203
FCK 12 1330 574 291 63 1292x203FCK 15 1530 574 291 71 1492x203
FCK 20 1730 574 291 80 1692x203
FVC 01 790 450 228 18 -
FVC 02 790 450 228 18 -
FVC 03 990 450 228 22 -
FVC 04 1190 450 228 25 -
FVC 06 1390 450 228 32 -
FVC 08 1590 450 228 40 -(1) Without options or accessories
(2) Without water content, options, or accessories
Dimensions (1)
(mm)
Duct connection
dimensions
(mm)
Operating Weight (2)
(kg)
Unit size
FCC 01-08 - verticalFCC 01-08 - horizontal FCK 01-20 - horizontal
FVC
FCK 01-20 - vertical
5/28/2018 Tong hop TRane.pdf
43/212
41
UniTrane
PROD-PRC011-E4
Performance data
WaterSystems
Unit
size
Airflow
(m3/h)
Air
temperature
Cooling capacities - 0Pa - 2-pipe / 4-pipe coil
Water temperature flow / return in C
5/10 5.5/11 6/12 7/12 8/13TkW SkW l/h TkW SkW l/h TkW SkW l/h TkW SkW l/h TkW SkW l/h
22/15.5C 0.7 0.6 130 0.6 0.6 103 0.6 0.6 113 0.5 0.5 98 0.5 0.5 85
24/17.0C 0.9 0.7 168 0.8 0.7 134 0.8 0.7 148 0.7 0.6 129 0.6 0.6 112
01 219 26/18.7C 1.2 0.8 214 1.1 0.8 177 1.1 0.8 194 1.0 0.7 172 0.8 0.7 151
28/20.4C 1.5 1.0 260 1.4 0.9 219 1.3 0.9 185 1.3 0.8 220 1.1 0.8 199
22/15.5C 1.1 1.0 193 0.9 0.9 149 0.9 0.9 168 0.8 0.8 146 0.7 0.7 130
24/17.0C 1.4 1.1 250 1.2 1.1 198 1.3 1.1 221 1.1 1.0 193 0.9 0.9 169
02 286 26/18.7C 1.8 1.3 321 1.6 1.2 261 1.6 1.2 289 1.5 1.2 257 1.3 1.1 227
28/20.4C 2.3 1.5 395 2.1 1.4 330 1.9 1.3 273 1.9 1.3 331 1.7 1.2 298
22/15.5C 1.5 1.3 266 1.3 1.2 209 1.3 1.2 231 1.1 1.1 199 1.0 0.9 172
24/17.0C 1.9 1.5 340 1.7 1.4 274 1.7 1.4 301 1.5 1.3 263 1.3 1.2 229
03 377 26/18.7C 2.4 1.7 429 2.2 1.6 356 2.2 1.6 390 2.0 1.5 349 1.7 1.4 308
28/20.4C 3.0 1.9 518 2.8 1.8 440 2.6 1.7 373 2.5 1.7 442 2.3 1.6 402
22/15.5C 2.6 2.1 454 2.3 2.0 369 2.3 1.9 400 2.0 1.8 349 1.7 1.7 304
24/17.0C 3.2 2.4 562 2.9 2.3 465 2.9 2.2 504 2.5 2.1 448 2.2 2.0 393
04 558 26/18.7C 4.0 2.7 693 3.7 2.6 585 3.6 2.6 635 3.3 2.4 575 2.9 2.2 514
28/20.4C 4.7 3.0 828 4.5 2.9 709 4.2 2.8 609 4.1 2.7 712 3.7 2.5 651
22/15.5C 3.4 2.8 606 3.0 2.7 489 3.0 2.7 533 2.6 2.5 465 2.3 2.2 405
24/17.0C 4.3 3.3 755 3.9 3.1 621 3.9 3.1 676 3.4 2.9 599 3.0 2.7 52606 776 26/18.7C 5.4 3.7 937 4.9 3.5 786 4.9 3.5 856 4.4 3.3 772 3.9 3.1 689
28/20.4C 6.5 4.1 1123 6.1 3.9 959 5.6 3.8 819 5.5 3.7 963 5.0 3.5 878
22/15.5C 4.3 3.5 758 3.9 3.3 618 3.8 3.3 669 3.3 3.1 586 2.9 2.9 511
24/17.0C 5.4 4.0 938 4.9 3.8 777 4.8 3.8 842 4.3 3.5 748 3.7 3.3 659
08 970 26/18.7C 6.6 4.6 1154 6.1 4.3 975 6.1 4.3 1058 5.5 4.0 957 4.9 3.8 856
28/20.4C 7.9 5.1 1380 7.5 4.9 1181 7.0 4.6 1013 6.8 4.6 1185 6.2 4.3 1083
22/15.5C 6.1 6.0 1048 5.2 5.2 817 4.2 4.2 601 4.5 4.5 781 3.9 3.9 670
24/17.0C 7.8 6.9 1346 6.9 6.5 1084 6.0 6.0 860 6.1 6.1 1048 5.3 5.3 911
11 1472 26/18.7C 10.0 7.9 1717 9.0 7.4 1415 8.1 6.9 1156 8.1 6.9 1390 7.1 6.5 1228
28/20.4C 12.2 8.8 2106 11.3 8.4 1175 10.4 7.9 1487 10.3 7.9 1778 9.3 7.4 1606
22/15.5C 7.7 7.2 1332 6.8 6.7 1062 5.9 5.9 842 5.9 5.9 1012 4.9 4.9 850
24/17.0C 9.8 8.3 1681 8.8 7.8 1375 7.8 7.3 1120 7.7 7.3 1325 6.7 6.7 1159
12 1703 26/18.7C 12.3 9.3 2110 11.3 8.8 1760 10.2 8.3 1465 10.1 8.3 1732 9.9 7.8 1541
28/20.4C 14.9 10.4 2567 13.9 9.9 2182 12.9 9.4 1850 12.7 9.3 2182 11.5 8.8 1980
22/15.5C 10.3 9.4 1775 9.2 8.9 1440 8.1 8.1 1170 8.0 8.0 1368 6.9 6.9 1195
24/17.0C 12.9 10.8 2214 11.7 10.2 1829 10.5 9.7 1508 10.2 9.5 1760 9.0 9.0 1552
15 2426 26/18.7C 16.1 12.1 2765 14.8 11.5 2315 13.5 10.9 1940 13.2 10.8 2272 11.8 10.1 2027
28/20.4C 19.5 13.5 3359 18.2 12.9 2855 19.9 12.2 2430 16.6 12.1 2855 15.0 11.4 2592
22/15.5C 10.9 10.9 1872 9.8 9.8 1534 8.8 8.8 1260 8.5 8.5 1454 7.4 7.4 1274
24/17.0C 13.5 13.3 2322 12.3 11.7 1926 11.2 11.1 1606 10.8 10.8 1854 9.5 9.5 1638
20 2952 26/18.7C - - - 15.5 13.2 2426 14.2 12.5 2041 13.8 12.3 2380 12.4 11.6 2128
28/20.4C - - - - - - 17.7 14.0 2542 - - - 15.7 13.0 2707
TkW: Total cooling capacity in kW SkW: Sensible cooling capacity in kWCapacities given in high speed l/h: Water flow in liters per hour
5/28/2018 Tong hop TRane.pdf
44/212
42
UniTrane
Correction factors
Unitsize
Totalcapacity
Sensiblecapacity
Totalcapacity
In order to determine the cooling and heating capacity of units in medium and low speed,multiply the capacity in high speed by the correction factors given in the following table.
01 0.85 0.84 0.63 0.60 0.83 0.91 0.59 0.76
02 0.74 0.73 0.63 0.60 0.73 0.85 0.60 0.77
03 0.77 0.76 0.62 0.62 0.75 0.86 0.60 0.77
04 0.74 0.72 0.62 0.61 0.72 0.85 0.60 0.79
06 0.77 0.76 0.50 0.48 0.76 0.87 0.49 0.71
08 0.84 0.82 0.63 0.61 0.81 0.90 0.60 0.78
11 0.82 0.80 0.49 0.47 0.80 0.85 0.49 0.60
12 0.80 0.77 0.51 0.48 0.78 0.84 0.50 0.60
15 0.73 0.70 0.56 0.52 0.70 0.78 0.53 0.63
20 0.78 0.74 0.62 0.56 0.75 0.82 0.58 0.67
Standard motor 0Pa
2-pipe 4-pipe 2-pipe 4-pipe
Medium speed Low speed Medium speed Low speed
Cooling Heating
PROD-PRC011-E4
Sensiblecapacity
5/28/2018 Tong hop TRane.pdf
45/212
43
UniTrane
Water pressure drops - cooling
WaterSystems
Water flow l/h
Water flow l/h
2-pipe coil
PROD-PRC011-E4
0
1
10
100
1000
100 1000 10000
08
2015
12
11
kPa
kPa
5/28/2018 Tong hop TRane.pdf
46/212
44
UniTrane
Performance data
Unitsize
Airflow(m3/h)
Heating capacities - 0Pa - Air temperature = 20C
2-pipe coil Water temperature flow / return in C
45/40 50/45 60/50 70/60 80/60 82/71 90/70
TkW l/h TkW l/h TkW l/h TkW l/h TkW l/h TkW l/h TkW l/h
01 219 1.2 208 1.5 255 1.9 161 2.5 209 2.7 115 3.1 239 3.3 139
02 286 1.7 289 2.1 355 2.6 225 3.4 292 3.8 161 4.3 334 4.5 194
03 377 2.3 384 2.8 470 3.5 300 4.5 386 5.0 215 5.7 441 6.0 259
04 558 3.4 573 4.1 700 5.2 448 6.7 576 7.5 322 8.4 656 9.0 386
06 776 4.5 759 5.5 929 6.9 592 8.9 763 9.9 424 11.2 871 11.9 510
08 970 5.6 957 6.9 1171 8.7 748 11.2 961 12.5 536 14.1 1096 15.1 644
11 1472 9.7 1663 11.8 2030 15.0 1289 19.3 1660 21.4 922 24.2 1894 25.8 1109
12 1703 11.5 1976 14.0 2405 17.8 1534 22.9 1969 25.6 1102 28.7 2243 30.7 1321
15 2426 15.2 2621 18.5 3193 23.6 2030 30.3 2610 33.8 1454 38.0 2974 40.6 1746
20 2952 18.9 3251 - - 29.3 2524 37.6 3236 42.1 1811 - - 50.4 2171
4-pipe coil Water temperature flow / return in C
45/40 50/45 60/50 70/60 80/60 82/71 90/70
TkW l/h TkW l/h TkW l/h TkW l/h TkW l/h TkW l/h TkW l/h
01 219 0.5 81 0.6 106 0.7 61 1.0 86 1.0 41 1.3 102 1.3 54
02 286 0.6 102 0.8 131 0.9 77 1.3 107 1.2 51 1.6 126 1.6 67
03 377 0.9 151 1.1 191 1.4 115 1.8 155 1.9 79 2.4 181 2.4 99
04 558 1.2 199 1.5 250 1.8 153 2.4 203 2.5 107 3.1 236 3.1 132
06 776 1.6 268 2.0 334 2.5 206 3.2 272 3.4 144 4.1 315 4.2 177
08 970 2.0 329 2.5 409 3.0 253 4.0 333 4.2 178 5.0 384 5.1 217
11 1472 3.4 587 4.2 727 5.1 436 6.7 580 7.0 299 8.5 670 8.6 371
12 1703 3.9 673 4.8 828 5.8 504 7.7 662 8.1 346 9.7 760 9.9 425
15 2426 5.2 893 6.4 1098 7.8 670 10.2 875 10.7 461 12.9 1008 13.2 565
20 2952 6.1 1055 7.5 1296 9.2 792 12.0 1033 12.7 547 15.2 1188 15.6 670
TkW: Total heating capacity in kW
l/h: Water flow in liters per hour
Capacities given in high speed
Airflow(m3/h)
Unitsize
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
47/212
.
.
1.0
10.0
1 .
1 1 1
03
45
WaterSystems
Water pressure drops - heating
4-pipe coil
0.1
1.0
10.0
100.0
100 1000 10000
15
UniTrane
PROD-PRC011-E4
kPa
kPa
Water flow l/h
Water flow l/h
5/28/2018 Tong hop TRane.pdf
48/212
46
HFO-HFR
2-7 kW
M/NPL
Slim Line HFO/HFR
Office applications
Chilled water terminals
Main features Unit specially designed for office applications
Use of 1 mm thick galvanized steel
High performance water coil (aluminium fins/coppertubes)
Hot and/or chilled water coil
" water connections ISO R7 gas (screw connections)
Multi-speed motor with internal thermal protection Use of plastic fan housings and large diameter wheels
for low sound levels
Quick connector for the control panel connection
Air inlet connections diameter 200 mm (HFO) Direct inlet (HFR)
50 Pa available for ducts and diffusers
Electric and hydraulic connections accessible on thesame side to save space
Options Electric heater specially designed to be inserted into the
water coil, and protected by an automatic and manual
reset thermal cut-out
Modulating and on/off 3-way/4-port or 2way/2-port valvefor cooling and/or heating coils for better control
Fresh air intake diameter 100 or 125 mm with fixed
controller 30 m3/h, 45 m3/h, or adjustable controller
60-130 m3/h for air renewal
Easily accessible and cleanable EU2 air filter
4-pipe water coil Right- or left-hand connections
Accessories Wall fan switch L: 3-speed fan switch
Wall thermostat M: 3-speed switch + 1-stage stat +
manual changeover for the fan Wall thermostat N: 3-speed switch + 1-stage stat +
manual changeover for the valve
Wall thermostat P: 3-speed switch + 2-stage stat for the
valve Flexible connections
Auxiliary drain pan
Fresh air controllers
Control Remote on/off controls Remote, modulating, or DDC controls Factory-mounted intelligent Trane controls providing
enhanced acoustical and thermal comfort and Lon
compatibility
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
49/212
47
HFO-H
FR
General data HFO
Unit size 04 06 08
Speed at ESP = 0 Pa 2 3 6 2 3 6 3 6 7
Power supply (V/Ph/Hz) 230/1/50 230/1/50 230/1/50
Airflow (m3/h) 320 403 535 584 699 881 758 1046 1118
Cooling (1)
Total capacity (2) (kW) 2.2 2.6 3.2 3.9 4.5 5.3 5.1 6.3 6.6
Sensible capacity (kW) 1.6 2.0 2.5 2.9 3.4 4.0 3.8 4.8 5.0
Water flow (l/h) 379 458 570 691 788 925 892 1113 1163
Water pressuredrop (3) (kPa) 6 8 13 19 24 33 31 44 32
Water content (l) 1.5 1.7 2.1
Water connection type " ISO/R7 female gas " ISO/R7 female gas " ISO/R7 female gas
Heating (4)
Total capacity (5) (kW) 2.1 2.4 2.9 3.4 3.8 4.3 4.3 5.0 5.5
Water flow (l/h) 176 205 243 286 318 362 364 420 454
Waterpressure drop (3) (kPa) 4 5 7 10 12 16 16 22 25
Water content (l) 0.24 0.29 0.34
Water connection type " ISO/R7 female gas " ISO/R7 female gas " ISO/R7 female gas
Electric heater
Capacity (W) 750-980-1500-1960 980-1530-1960-3060 1530-1970-3060-3940
Absorbed current (6) (A) 3.3-4.3-6.5-8.6 4.3-6.6-8.5-13.2 6.6-8.5-13.2-17.0
Fan motorabsorbed current (6) (A) 0.17 0.22 0.31 0.30 0.48 0.63 0.40 0.70 0.86
Maximum externalstatic pressure (Pa) 50 50 50
Soundpower level (7) (dB(A)) 43 48 56 48 53 60 56 64 66
Soundpressure level (8) (dB(A)) 23 28 36 30 36 39 36 44 46
(1) 2-pipe, 3-row coil(2) Air 27C/19C, water 7/12C(3) For the coil only, without valve(4) 4-pipe, 1-row coil(5) Air 20C, water 70/60C(6) For 230V/1Ph/50Hz(7) At 230V, standard motor, air 20C, Eurovent conditions, without accessories or options(8) Measurements taken in a furnished room appropriate to the unit's capacity
WaterSystems
PROD-PRC011-E4
5/28/2018 Tong hop TRane.pdf
50/212
48
HFO-HFR
Y
X
ZZ
X
Y
PROD-PRC011-E4
General data HFR
Unit size 04 06 08
Speed at ESP = 0 Pa 2 3 6 2 3 6 3 6 7Power supply (V/Ph/Hz) 230/1/50 230/1/50 230/1/50
Airflow (m3/h) 312 410 614 505 613 950 805 1120 1196Cooling (1)Total capacity (2) (kW) 2.1 2.6 3.6 3.5 4.1 5.5 5.3 6.6 6.9
Sensible capacity (kW) 1.6 2.0 2.8 2.7 3.0 4.3 3.9 5.0 5.3Water flow (l/h) 370 465 630 619 717 971 932 1165 1215
Water pressure
drop (3) (kPa) 5 8 15 15 20 36 34 53 57Water content (l) 1.5 1.7 2.1
Waterconnection type " ISO/R7 female gas " ISO/R7 female gas " ISO/R7 female gasHeating (4)
Total capacity (5) (kW) 2.0 2.4 3.1 3.1 3.5 4.5 4.5 5.4 5.6
Water flow (l/h) 173 207 263 261 294 377 377 454 470
Water pressuredrop (3) (kPa) 4 5 8 8 11 17 17 25 27
Water content (l) 0.24 0.29 0.34Water connection type " ISO/R7 female gas " ISO/R7 female gas " ISO/R7 female gasElectric heater
Capacity (W) 750-980-1500-1960 980-1530-1960-3060 1530-1970-3060-3940Absorbed current (6) (A) 3.3-4.3-6.5-8.6 4.3-6.6-8.5-13.2 6.6-8.5-13.2-17.0
Fan motor
absorbed current (6) (A) 0.20 0.25 0.35 0.29 0.35 0.51 0.40 0.71 0.85
Maximum external
static pressure (Pa) 50 50 50
Sound powerlevel (7) (dB(A)) 42 49 60 45 50 61 54 61 63
Sound pressure
level (8) (dB(A)) 22 29 40 25 30 41 34 41 43
(1) 2-pipe, 3-row coil
(2) Air 27C/19C, water 7/12C(3) For the coil only, without valve(4) 4-pipe, 1-row coil(5) Air 20C, water 70/60C(6) For 230V/1Ph/50Hz(7) At 230V, standard motor, air 20C, Eurovent conditions, without accessories or options(8) Measurements taken in a furnished room appropriate to the unit's capacity
Dimensions (1) Operating Weight (2) Duct connection dimensions
(mm) (kg) (mm)
Unit size X Y Z Intake Discharge
HFO 04 1085 962 217 (3) 38 1 x 200 1 x 200
HFO 06 1285 962 217 (3) 43 2 x 200 2 x 200
HFO 08 1485 962 217 (3) 48 3 x 200 3 x 200
HFR 04 1085 909 217 (3) 38 Direct inlet 1 x 200HFR 06 1285 909 217 (3) 43 Direct inlet 2 x 200
HFR 08 1485 909 217 (3) 48 Direct inlet 3 x 200
(1) Without options or accessories(2) Without water content, options, or accessories(3) 224 mm with auxiliary drain pan accessory
HFO - front view HFR - back view
Dimensions and weights
5/28/2018 Tong hop TRane.pdf
51/212
49
Performance data HFO
WaterSystems
PROD-PRC011-E4
HFO-H
FR
Unit
size
Airflow
(m3/h)
Air
temperature
Cooling capacities - 3-row coil - 30PaConstant delta T
Water temperature flow / return in C
5/10 5.5/11 6/10 7/12 8/13
TkW SkW l/h kPa TkW SkW l/h kPa TkW SkW l/h kPa TkW SkW l/h kPa TkW SkW l/h kPa
22/15.4C 1.2 1.0 205 1.7 1.1 0.9 171 1.2 1.2 1.0 260 2.6 0.9 0.9 163 1.0 0.8 0.8 144 0.8
24/17.1C 1.6 1.2 277 3.0 1.3 1.0 213 1.8 1.6 1.2 356 4.9 1.2 1.0 206 1.7 1.0 0.9 183 1.3
247 26/18.7C 2.0 1.4 356 4.9 1.8 1.3 288 3.2 2.0 1.4 446 7.7 1.6 1.2 284 3.2 1.4 1.1 246 2.4
28/20.4C 2.5 1.6 436 7.3 2.3 1.5 365 5.1 2.4 1.6 528 10.7 2.1 1.4 372 5.4 1.9 1.3 335 4.4
22/15.4C 1.5 1.3 263 2.7 1.3 1.2 204 1.6 1.5 1.3 341 4.5 1.1 1.1 196 1.5 1.0 1.0 176 1.2
24/17.1C 2.1 1.5 362 5.1 1.8 1.4 283 3.1 2.1 1.5 457 8.0 1.5 1.3 273 2.9 1.3 1.2 230 2.1
04 329 26/18.7C 2.6 1.8 457 8.1 2.4 1.6 375 5.4 2.6 1.8 568 12.4 2.1 1.5 370 5.3 1.8 1.4 323 4.1
28/20.4C 3.2 2.0 556 11.9 2.9 1.9 467 8.4 3.1 2.0 686 18.0 2.7 1.8 475 8.7 2.5 1.7 430 7.1
22/15.4C 2.0 1.7 350 4.8 1.6 1.5 268 2.8 2.0 1.7 442 7.5 1.4 1.4 257 2.6 1.2 1.2 219 1.9
24/17.1C 2.7 2.0 468 8.4 2.3 1.8 373 5.4 2.6 2.0 581 12.9 2.0 1.7 360 5.0 1.7 1.6 309 3.7
444 26/18.7C 3.3 2.3 582 13.0 3.0 2.2 480 8.9 3.3 2.3 720 19.7 2.7 2.0 473 8.6 2.4 1.8 418 6.7
28/20.4C 4.0 2.6 706 19.0 3.7 2.5 593 13.5 4.0 2.5 870 28.7 3.4 2.4 602 13.9 3.1 2.2 546 11.4
22/15.4C 2.5 2.0 435 7.4 2.1 1.8 344 4.7 2.4 2.0 534 11.1 1.8 1.7 325 4.2 1.5 1.5 278 3.1
24/17.1C 3.2 2.3 568 12.6 2.9 2.2 463 8.4 3.2 2.4 692 18.5 2.5 2.0 446 7.8 2.2 1.9 386 5.9
482 26/18.7C 4.0 2.7 692 18.6 3.7 2.6 582 13.2 3.9 2.7 845 27.5 3.3 2.3 574 12.8 2.9 2.2 511 10.2
28/20.4C 4.8 3.0 829 26.5 4.4 2.9 705 19.2 4.6 3.0 1012 39.2 4.1 2.7 715 19.8 3.7 2.6 654 16.6
22/15.4C 2.9 2.4 509 10.1 2.5 2.2 407 6.5 2.8 2.3 621 15.0 2.2 2.0 385 5.8 1.9 1.8 332 4.4
24/17.1C 3.7 2.8 656 16.7 3.4 2.6 539 11.3 3.6 2.7 801 24.7 3.0 2.4 519 10.5 2.6 2.2 453 8.0
06 583 26/18.7C 4.6 3.1 802 24.8 4.2 3.0 674 17.6 4.5 3.1 977 36.6 3.8 2.8 664 17.1 3.4 2.5 592 13.6
28/20.4C 5.5 3.4 960 35.4 5.1 3.3 815 25.6 5.4 3.4 1171 52.4 4.7 3.1 826 26.3 4.3 3.0 755 22.0
22/15.4C 3.5 2.9 621 15.0 3.1 2.7 503 9.9 3.4 2.9 755 22.0 2.7 2.5 478 8.9 2.3 2.3 417 6.8
24/17.1C 4.5 3.3 794 24.3 4.1 3.1 655 16.6 4.4 3.3 967 35.9 3.6 2.9 632 15.5 3.1 2.7 555 12.0
757 26/18.7C 5.5 3.8 968 36.0 5.1 3.6 814 25.5 5.4 3.7 1180 53.2 4.5 3.3 801 24.7 4.1 3.1 716 19.8
28/20.4C 6.6 4.2 1159 51.3 6.2 4.0 984 37.1 6.5 4.1 1417 76.4 5.7 3.8 995 37.9 5.2 3.6 908 31.7
22/15.4C 3.2 2.6 569 12.8 2.9 2.4 460 8.4 3.1 2.5 688 18.6 2.4 2.2 433 7.5 2.1 2.0 373 5.6
24/17.1C 4.1 3.1 728 20.8 3.8 2.9 604 14.4 4.0 2.9 882 30.4 3.3 2.6 581 13.3 2.9 2.4 508 10.2
615 26/18.7C 5.0 3.4 883 30.4 4.7 3.2 748 22.0 4.9 3.4 1070 44.4 4.2 3.1 737 21.3 3.7 2.8 660 17.1
28/20.4C 6.0 3.8 1051 42.9 5.6 3.6 898 31.4 5.9 3.7 1277 63.0 5.2 3.4 910 32.3 4.8 3.2 835 27.2
22/15.4C 4.2 3.4 749 22.0 3.8 3.2 612 14.8 4.0 3.3 902 31.7 3.2 3.0 580 13.3 2.8 2.8 506 10.124/17.1C 5.4 3.9 950 35.1 4.9 3.7 790 24.4 5.2 3.8 1149 51.1 4.3 3.4 761 22.7 3.7 3.2 669 17.6
08 885 26/18.7C 6.5 4.4 1151 51.3 6.1 4.2 974 36.9 6.3 4.3 1397 75.2 5.4 3.9 958 35.7 4.8 3.7 858 28.7
28/20.4C 7.8 4.9 1373 72.7 7.3 4.7 1170 52.9 7.6 4.8 1673 107 6.7 4.4 1182 54.1 6.1 4.2 1082 45.4
22/15.4C 4.4 3.6