Trane Trane Communicating Thermostats (BACnet) Thermostat User Manual

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Integration Manual  
Trane Communicating Thermostats (BACnet)  
Building Automation System  
SAFETY WARNING  
Only qualified personnel should install and service the equipment. The installation, starting up, and  
servicing of heating, ventilating, and air-conditioning equipment can be hazardous and requires specific  
knowledge and training. Improperly installed, adjusted or altered equipment by an unqualified person could  
result in death or serious injury. When working on the equipment, observe all precautions in the literature  
and on the tags, stickers, and labels that are attached to the equipment.  
August 2011  
BAS-SVP10A-EN  
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Copyright  
© 2011 Trane All rights reserved  
This document and the information in it are the property of Trane and may not be used  
orreproduced inwholeorin part, withoutthewrittenpermissionofTrane. Trane reserves  
the right to revise this publication at any time and to make changes to its content without  
obligation to notify any person of such revision or change.  
Trademarks  
Trane and its logo are trademarks of Trane in the United States and other countries. All  
trademarks referenced in this document are the trademarks of their respective owners.  
Warnings, Cautions, and Notices  
Warnings, cautions, and notices are provided in appropriate places throughout this  
document:  
Indicates a potentially hazardous situation which, if not avoided, could result in  
death or serious injury.  
WARNING  
Indicates a potentially hazardous situation which, if not avoided, could result in  
minor or moderate injury. It could also be used to alert against unsafe practices.  
CAUTIONs  
Indicates a situation that could result in equipment or property-damage only  
accidents.  
NOTICE:  
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Table of Contents  
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3
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Overview  
This document is written to guide you through integration of the Trane Communicating  
Thermostats into an MS/TP network using the BACnet protocol and managed by a Tracer SC.  
Product Description  
The Trane Communicating Thermostats are available for heat pump, rooftop, and fan coil  
applications.  
X13511541010 and -2010 (Heat Pump and Rooftop)  
These Trane Communicating Thermostats are BACnet MS/TP devices specifically designed for  
single stage and multi-stage control of heating/cooling equipment such as rooftop and self-  
contained units. The products feature an intuitive, menu-driven, back-lit LCD display, which  
walks users through the programming steps, making the process extremely simple.  
X13511543010 (Fan Coil)  
This Trane Communicating thermostat is specifically designed for fan coil control. The product  
features a backlit LCD display with dedicated function menu buttons for simple operation.  
Three additional inputs are also provided for monitoring and / or various advanced functions.  
All models feature configurable System and Fan button functions to meet a variety of  
applications.  
Accurate temperature control is achieved due to the product’s PI proportional control algorithm,  
which virtually eliminates temperature offset associated with traditional, differential-based  
thermostats.  
The Communicating Thermostats contain an SPST auxiliary switch that can be used to control  
lighting or auxiliary reheat. Three additional inputs are also provided for monitoring and / or  
various advanced functions.  
The thermostats are also compatible with the occupancy sensor cover accessories. Thermostats  
equipped with an occupancy sensor cover provide advanced active occupancy logic, which will  
automatically switch occupancy levels from Occupied to Unoccupied as required by local activity  
being present or not. This advanced occupancy functionality provides advantageous energy  
savings during occupied hours without sacrificing occupant comfort.  
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Overview  
Related Documents  
See the following documents for Communicating Thermostat installation and configuration  
information.  
Trane Communicating Thermostats for Heat Pump Control User Guide (BAS-SVU10x-EN)  
Trane Communicating Thermostats for Rooftop Control User Guide (BAS-SVU11x-EN)  
Trane Communicating Thermostats for Fan Coil Control User Guide (BAS-SVU12x-EN)  
See the following documents for Tracer SC network integration information.  
Tracer™ SC System Controller Installation and Setup (BAS-SVX31x-EN)  
Tracer™ BACnet™ Terminator Installation (X39641151-01x)  
Unit Controller Wiring Guide For the Tracer SC™ System Controller (BAS-SVN03x-EN  
Finally, see the following documents for information about equipment including fan coils, rooftop  
units, and heat pumps.  
Communicating Thermostats for Rooftop and Heat Pump Control Product Data Sheet  
(BAS-PRC064-EN)  
Communicating Thermostats for Fan Coil Control Product Data Sheet  
(BAS-PRC065-EN)  
All these documents are available from your Trane distributor.  
Planning Your Integration  
Study the following information presented in the chapters of this guide as you plan the work:  
Communicating Thermostat BACnet objects (points) and their properties (ranges, values, and  
enumeration sets for points). (See “Summary of BACnet Objects,” p. 7. and “BACnet Object  
Tips and considerations presented in “Additional Information and Considerations,” p. 29. If  
your network is managed by a Tracer SC, pay special attention to “Tracer SC Network  
Available Graphical User Interface (GUI) objects that you can use in graphics presented in  
“How To” Information  
The following “how to” questions are described or clarified either in this manual or in other  
documents cited in this table.  
Question  
Information Location or Answer  
See the Tracer™ SC System Controller Installation and  
Setup Manual (BAS-SVX31x-EN)  
How do I set up alarming in Tracer SC?  
HowdoIsettheMACaddressoftheTraneCommunicating See “Default Device Name and Default Device ID,” p. 7.  
Thermostat?  
Documents” on this page.  
HowdoIinstallaTraneCommunicatingThermostatonthe See “No automatic installation,” p. 32.  
Tracer SC link?  
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Summary of BACnet Objects  
The Building Automation and Control Network (BACnet and ANSI/ASHRAE Standard 135-2004)  
protocol is a standard that allows building automation systems or components from different  
manufacturers to share information and control functions. BACnet provides building owners the  
capability to connect various types of building control systems or subsystems together for many  
uses. In addition, multiple vendors can use this protocol to share information for monitoring and  
supervisory control between systems and devices in a multi-vendor interconnected system.  
The BACnet protocol identifies standard objects (data points) called BACnet objects. Each object  
has a defined list of properties that provide information about that object. BACnet also defines a  
number of standard application services that are used to access data and manipulate these objects  
and provides a client/server communication between devices.  
Supported BACnet Services  
The BACnet communicating thermostat meets all requirements for designation as an Application  
Specific Controller (B-ASC). The BACnet thermostat series supports the following BACnet  
Interoperability Building Blocks (BIBBs).  
Table 1. BACnet Interoperability Building Blocks  
Application Service  
Designation  
Data Sharing – Read Property - B  
DS-RP-B  
Data Sharing – Read Property Multiple - B  
Data Sharing – Write Property - B  
DS-RPM-B  
DS-WP-B  
Device Management - Device Communication Control - B DM-DCC-B  
Device Management – Dynamic Device Binding - B  
Device Management – Dynamic Object Binding - B  
DM-DDB-B  
DM-DOB-B  
Notes:  
The thermostat does not support seqmented requests or responses.  
Models X13511541010 and -2010—Time synchronization can be made through a network even  
if the thermostat does not support the full date. Therefore, the device cannot claim  
conformance to the DeviceManagement – TimeSynchronization - B (DM-TS-B) service. The  
device object does not have the Local_Time or Local_Date properties.  
Default Device Name and Default Device ID  
The Default Device Name is set to: TStat_EquipType_Trane_MAC where: EquipType is FanCoil,  
RTU, or HeatPump and MAC is the current MAC address of the device.  
The Device Name is changed if you change the device MAC address.  
The Device Name and Device ID properties are writable in the Device object. Both properties  
can be changed from any BACnet network management tool as long as the tool itself can write  
to these properties.  
(X13511543010) Fan Coil Models  
Default Device ID is set to: 7300MAC where MAC is the current MAC address of the device that  
you set from the Installer Configuration Parameter menu on the Trane Communicating  
Thermostat.  
The Device ID changes if the device’s MAC address is changed. For example, when a fan coil  
communicating thermostat with a MAC address of 41 is connected to a network, its default  
Device Name will be TStat_FanCoil_Trane_41 and its default Device ID will be 730041.  
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Summary of BACnet Objects  
(X13511541010 and -2010) Rooftop and Heat Pump Models  
Default Device ID is set to: 7600MAC where MAC is the current MAC address of the device.  
The device ID and the Device Name change if you change the device’s MAC address. For  
example, when a heat pump communicating thermostat with a MAC address of 63 is connected  
to a network, its default Device Name will be TStat_HeatPump_Trane_63 and its default Device  
ID will be 760063.  
Fan Coil Objects  
Table 2. Objects table for fan coils (X13511543010)  
Object Name  
Type and Instance  
Object Property  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Room Temperature  
Room Temp Override  
Outdoor Temperature  
Supply Temperature  
AUX Command  
AV 7  
BV 8  
AV 9  
AI 12  
BV 14  
MV 15  
MV 16  
MV 17  
MV 18  
MV 19  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Sequence of Operation  
System Mode  
Fan Mode  
Occupancy Command  
Keypad Lockout  
Control Output  
GRP 20  
AV 21  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
PI Heating Demand  
PI Cooling Demand  
AV 22  
Controller Status  
AUX Status  
GRP 24  
BI 25  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Heating Valve Status  
Cooling Valve Status  
Fan Status  
MV 26  
MV 27  
MV 28  
BI 29  
BI 1 Status  
BI 2 Status  
BI 30  
UI 3 Status  
BI 31  
Local Motion  
BI 32  
Effective Occupancy  
MV 33  
Controller Alarms  
Window Alarm  
Filter Alarm  
GRP 34  
BI 35  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
BI 36  
Service Alarm  
BI 37  
Temperature Setpoints  
Occupied Heat Setpoint  
Occupied Cool Setpoint  
Stand-by Heat Setpoint  
Stand-by Cool Setpoint  
GRP 38  
AV 39  
AV 40  
AV 41  
AV 42  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
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Summary of BACnet Objects  
Table 2. Objects table for fan coils (X13511543010) (continued)  
Object Name  
Type and Instance  
Object Property  
Present_Value (R,W)  
Present_Value (R,W)  
Unoccupied Heat Setpoint  
Unoccupied Cool Setpoint  
AV 43  
AV 44  
General Options 1  
BI 1 Configuration  
BI 2 Configuration  
UI 3 configuration  
Menu Scroll  
GRP 45  
MV 46  
MV 47  
MV 48  
BV 49  
BV 50  
BV 51  
MV 52  
MV 54  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Auto Mode Enable  
Temperature Scale  
Pipe Number  
AUX Configuration  
General Options 2  
Password Value  
GRP 55  
AV 56  
MV 58  
AV 58  
AV 59  
BV 60  
BV 61  
MV 62  
AV 63  
BV 64  
MV 65  
BV 66  
AV 67  
AV 68  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Fan Mode Sequence  
Heating Setpoint Limit  
Cooling Setpoint Limit  
Setpoint Type  
Setpoint Function  
Temporary Occupancy Time  
Deadband  
Reheat Time Base  
Proportional Band  
Auto Fan  
Stand-by Time  
Unoccupied Time  
Output Configuration Options  
Control Type  
GRP 74  
BV 75  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Floating Motor Timing  
On Off Control CPH  
MV 76  
MV 77  
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Summary of BACnet Objects  
Rooftop and Heat Pump Objects  
Table 3. Rooftop and heat pump ungrouped objects  
Dehumidifi-  
cation  
Type and  
Instance  
Rooftop Heat Pump  
-1010 -2010  
Object Name  
Room Temperature  
Room Temp Override  
Outdoor Temperature  
Outdoor Temp Override  
Room Humidity  
Occupancy Command  
System Mode HP  
System Mode RTU  
Fan Mode  
Object Property  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
-1050  
AV 7  
BV 8  
AV 9  
BV 10  
AV 11  
MV 12  
MV 13  
MV 14  
MV 15  
AI 16  
AV 17  
MV 18  
GR 19  
AV 20  
AV 21  
AV 22  
GRP 23  
BI 24  
BI 25  
BI 26  
BI 27  
BI 28  
BI 29  
BI 30  
BI 31  
BI 32  
BI 33  
MV 34  
GRP 35  
BI 36  
BI 38  
BI 39  
BI 40  
Supply Temp  
Supply RH  
Keypad Lockout  
Control Output  
PI Heating Demand  
PI Cooling Demand  
Economizer Output  
Controller Status  
AUX  
G Fan  
Y1 Cool  
Y2 Cool  
W1 Heat  
W2 Heat  
Reversing Valve  
DI 1 Status  
DI 2 Status  
Local Motion  
Effective Occupancy  
Controller Alarms  
Frost Alarm  
Filter Alarm  
Service Alarm  
Fan Lock Alarm  
Temperature Setpoints GRP 41  
Occupied Heat Setpoint  
Occupied Cool Setpoint  
AV 42  
AV 43  
Unoccupied Heat Setpoint AV 44  
Unoccupied Cool Setpoint AV 45  
General Options 1-  
Temperature Scale  
GRP 46  
BV 47  
AV 48  
AV 49  
Heating Setpoint Limit  
Cooling Setpoint Limit  
Heating Lockout  
Temperature  
AV 50  
AV 51  
Present_Value (R,W)  
Present_Value (R,W)  
Cooling Lockout  
Temperature  
Deadband  
AV 52  
MV 53  
Present_Value (R,W)  
Present_Value (R,W)  
Heating CPH  
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Summary of BACnet Objects  
Table 3. Rooftop and heat pump ungrouped objects  
Dehumidifi-  
Type and  
Instance  
MV 54  
Rooftop Heat Pump  
-1010 -2010  
cation  
-1050  
Object Name  
Cooling CPH  
Object Property  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Frost Protection  
Aux Contact  
BV 55  
BV 56  
BV 57  
GRP 58  
AV 59  
AV 60  
Menu Scroll  
General Options 2-  
Password Value  
Power-up Delay  
Temporary Occupancy  
Time  
MV 61  
Present_Value (R,W)  
Fan Control  
BV 62  
MV 63  
BV 64  
MV 65  
MV 66  
MV 67  
AV 68  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Anticycle  
Fan Purge Delay  
DI 1 Configuration  
DI 2 Configuration  
Proportional Band  
Unoccupied Time  
Stages Configuration  
Options  
GRP 72  
Present_Value (R)  
Heating Stages  
Cooling Stages  
Heatpump Stages  
MV 73  
MV 74  
MV 75  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Economizer Model  
GRP 76  
AV 77  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Configuration Options  
Economizer Changeover  
Setpoint  
Economizer Minimum  
Position  
AV 78  
Mechanical Cooling  
Enabled  
BV 79  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Mixed Air Setpoint  
AV 80  
Heatpump Model  
Configuration Options  
GRP 81  
High Balance Point  
Low Balance Point  
Comfort Mode  
AV 82  
AV 83  
BV 84  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Reversing Valve  
Configuration  
BV 85  
BV 86  
GRP 87  
BV 88  
AV 89  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Present_Value (R,W)  
Present_Value (R,W)  
Compressor Interlock  
Dehumidification Model  
Configuration Options  
RH Display  
Dehumidification RH  
Setpoint  
Dehumidification  
Hysterisys  
AV 90  
AV 91  
BV 92  
BI 93  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R)  
Dehumidification Low OA  
Lockout  
Dehumidification Lockout  
Functions  
Dehumidification Output  
Status  
Humidification Model  
Configuration Options  
GRP 94  
Present_Value (R)  
Humidification RH Setpoint AV 95  
Present_Value (R,W)  
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Summary of BACnet Objects  
Table 3. Rooftop and heat pump ungrouped objects  
Dehumidifi-  
Rooftop Heat Pump cation  
Type and  
Instance  
Object Name  
Object Property  
-1010  
-2010  
-1050  
Eff (Effective) Reset  
Humidification RH Spt  
(Setpoint)  
AV 96  
Present_Value (R)  
Humidification High Limit  
Spt (Setpoint)  
AV 97  
AV 98  
AV 99  
Present_Value (R,W)  
Present_Value (R,W)  
Present_Value (R,W)  
Low RH Setpoint  
Low Temp Reset RH  
Setpoint  
High Temp Reset RH  
Setpoint  
AV 100  
AV 101  
Present_Value (R,W)  
Present_Value (R)  
Humidifier Output  
Standard Object Types Supported  
Table 4. Standard object types supported  
Optional  
Supported Dynamically Dynamically  
Objects Creatable Deletable  
Properties  
Supported WritableProperties  
Object Type  
Analog Input  
Reliability  
Out_of_Service  
Analog Value  
Binary Input  
Binary Value  
Device  
Reliability  
Present_Value (a,b,e)  
Out_of_Service (a,e)  
Object_Name (c ,f)  
Reliability  
Active_Text  
Inactive_Text  
Out_of_Service  
Reliability  
Active_Text  
Inactive_Text  
Present_Value  
Out_of_Service  
Max_Master  
Max_Info_frames Object_name  
Max_Master  
Object_Identifier  
Group  
N/A  
N/A  
Multi-state Value  
Reliability  
States_Text  
Present_Value (d)  
Out_of_Service (d)  
Schedule  
(Rooftop and heat  
pump only)  
Weekly_schedule Present_Value  
Weekly_Schedule  
Footnotes for fan coils:  
a : Present_Value and Out_of_Service properties are writable for every AV objects except PI Heating Demand (AV21) and  
PI Cooling Demand (AV22).  
b : Present_Value property for Room Temperature (AV7) and Room Humidity (AV10) is writable only if Room Temp Override  
(BV8) is enabled and Room Humidity Override (BV11) is enabled respectively.  
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Summary of BACnet Objects  
c : Object_Name property is writable only for Room Temperature (AV7).  
d:Present_ValueandOut_of_ServicepropertiesarewritableforeveryMVobjectsexceptHeatingValveStatus(MV26), Cooling  
Valve Status (MV27), Fan Status (MV28), and Effective Occupancy (MV33)  
Footnotes for rooftop units and heat pumps  
e: The following AV’s are defined as read only. When Out_of_Service properties is set to true, the Present_Value, if written,  
is not derived to the application level of the thermostat.  
- Room Humidity (AV11)  
- PI Heating Demand (AV20)  
- PI Cooling Demand (AV21)  
- Economizer Output (AV22)  
- Eff Reset Humidification RH Spt (AV96)  
- Humidifier Output (AV101)  
f: Object_Name property is writable for 1 object only: Room_Temperature (AV7).  
List of Proprietary Properties  
Table 5. Proprietary Properties  
Property Name  
ID  
BACnet Data Type  
Description  
Major_Version  
1000  
CharacterString  
The version number of the BACnet communications  
module. This the hardware version number  
MS/TP_Address  
MS/TP_Baud_Rate  
Sensor_Offset  
1001  
1002  
1005  
Unsigned  
Unsigned  
REAL  
Display the MAC layer address of the module  
Display the communication baud rate of the module  
Display the temperature or humidity calibration value. The  
range is –5.0 deg F to 5.0 deg F for a temperature and –  
15% to 15% for humidity.  
Configuration Objects for Fan Coils  
The following objects and group objects listed in Table 2, p. 8 should be typically used for  
configuration purposes:  
General Options 1 Group GRP 45 and its complete list of objects  
General Options 2 Group GRP 55 and its complete list of objects  
Output Configuration Options Group GRP 74 and its complete list of objects  
Configuration Objects for Rooftop and Heat Pump Units  
The following objects and group objects listed in Table 2, p. 8 should be typically used for  
configuration purposes:  
General Options 1 Group GRP 46 and its complete list of objects  
General Options 2 Group GRP 58 and its complete list of objects  
Programmable Model Configuration Options Group GRP 69 and its complete list of objects  
Stages Configuration Options Group GRP 72 and its complete list of objects;  
Economizer Model Configuration Option Group GRP 76 and its complete list of objects;  
Heatpump Model Configuration Option Group GRP 81 and its complete list of objects;  
Dehumidification Model Configuration Option Group GRP 87 and its complete list of objects;  
Humidification Model Configuration Option Group GRP 94 and its complete list of objects;  
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BACnet Object Properties  
This section lists ranges, enumerations, and values for the set of Communicating Thermostat  
objects.  
Fan Coil Object Properties  
Table 6. List of property value range restrictions  
Object Type and Minimum Range Maximum Range  
Object Name  
Room Temperature  
Outdoor Temperature  
Room Humidity  
Instance  
Value  
-39.9°F (-40°C)  
-39°F (-40°C)  
5%  
Value  
121.9°F (50°C)  
121.9°F (50°C)  
90%  
Default Value  
AV 7  
N/A  
N/A  
N/A  
N/A  
0%  
0%  
AV 9  
AV 10  
AI 12  
Supply Temperature  
PI Heating demand  
PI Cooling demand  
-39.9°F (-40°C)  
0%  
121.9°F (50°C)  
100%  
AV 21  
AV 22  
0%  
100%  
Occupied Heat  
Setpoint  
AV 39  
AV 40  
AV 41  
AV 42  
AV 43  
AV 44  
40°F (4.5°C)  
54°F (12°C)  
40°F (4.5°C)  
54°F (12°C)  
40°F (4.5°C)  
54°F (12°C)  
90°F (32°C)  
100°F (37.5°C)  
90°F (32°C)  
72°F (22°C)  
74°F (24°C)  
72°F (22°C)  
74°F (24°C)  
62°F (16.5°C)  
80°F (26.5°C)  
Occupied Cool  
Setpoint  
Stand-by Heat  
Setpoint  
Stand-by Cool  
Setpoint  
100°F (37.5°C)  
90°F (32°C)  
Unoccupied Heat  
Setpoint  
Unoccupied Cool  
Setpoint  
100°F (37.5°C)  
Password Value  
Heating Setpoint Limit  
Cooling Setpoint Limit  
Deadband  
AV 56  
AV 58  
AV 59  
AV 63  
AV 67  
AV 68  
AV 45  
0
1000  
90°F (32°C)  
100°F (37.5°C)  
5°F (2.5°C)  
24.0 Hours  
24.0 Hours  
100%  
0
40°F (4.5°C)  
54°F (12°C)  
2°F (1°C)  
0.5 Hours  
0.0 Hours  
30%  
90°F (32°C)  
54°F (12°C)  
2°F (1°C)  
0.5 Hours  
0.0 Hours  
50%  
Stand-by Time  
Unoccupied Time  
RH Setpoint  
Dehumidification  
Hysterisys  
AV 46  
AV 47  
2%  
20%  
5%  
Dehumidification MAX  
cooling  
20%  
100%  
100%  
Table 7. List of property enumeration sets for BV objects and BI objects  
Object Type and  
Object Name  
instance  
Inactive_Text  
Active_Text  
Default value  
Room Temp Override  
BV 8  
Normal  
Override  
Normal  
Room Humidity  
Override  
BV 11  
Normal  
Override  
Normal  
Dehumidification  
Lockout  
BV 13  
BV 14  
BI 23  
Disabled  
Off  
Enabled  
On  
Enabled  
Off  
AUX Command  
Dehumidification  
Status  
Off  
On  
Off  
Aux Status  
BI 1 Status  
BI 25  
BI 29  
BI 30  
BI 31  
BI 32  
BI 35  
Off  
On  
Off  
Deactivated  
Deactivated  
Deactivated  
No Motion  
Off  
Activated  
Activated  
Activated  
Motion  
On  
Deactivated  
Deactivated  
Deactivated  
No Motion  
Off  
BI 2 Status  
UI 3 Status(*)  
Local Motion  
Window Alarm  
14  
BAS-SVP10A-EN  
 
 
href="
BACnet Object Properties  
Table 7. List of property enumeration sets for BV objects and BI objects (continued)  
Object Type and  
instance  
Object Name  
Filter Alarm  
Inactive_Text  
Off  
Active_Text  
On  
Default value  
Off  
BI 36  
BI 37  
BV 49  
BV 50  
BV 51  
BV 60  
BV 61  
BV 64  
Service Alarm  
Off  
On  
Off  
Menu Scroll  
No Scroll  
Disabled  
°C  
Scroll Active  
Enabled  
Scroll Active  
Enabled  
Auto Mode Enable  
Temperature Scale  
Setpoint Type  
°F  
°F  
Permanent  
Dual Setpoints  
15 minutes  
Temporary  
Attached Setpoints  
10 seconds  
Permanent  
Dual Setpoints  
15 minutes  
Setpoint Function  
Reheat Time Base  
Auto Speed / Auto  
Demand  
Auto Fan  
BV 66  
Auto Speed  
Auto Speed  
RH Display  
Control Type  
BV 70  
BV 75  
BV 78  
Disabled  
On/Off  
Enabled  
Floating  
Disabled  
On/Off  
Direct/ Reverse Acting  
Direct Acting  
Reverse Acting  
Direst Acting  
* This object will be linked to the value of the ‘UI 3 Configuration’ object. When the ‘UI 3 Configuration’ object value is 0, 3  
or 4, the value will be set to ‘Deactivated.’  
Table 8. List of property enumeration sets for MV objects  
Object Name  
Object ID  
BACnet Index  
Text  
Cooling Only  
Heating Only  
Cooling & Reheat  
Heating & Reheat  
Cool/Heat4P  
Cool/Heat4P&Reht  
Off  
Default value  
1
2
3
4
5
6
1
2
3
4
MV 15  
Sequence of  
Operation  
Heating Only  
MV 16  
Auto  
System Mode  
Table Note 1  
Table Note 2  
Table Note 5  
Cool  
Heat  
Fan Mode  
Table Note 3  
MV 17  
MV 18  
1, 2, 3 or 4  
Table Note 4  
1
2
3
1
2
3
4
5
6
Local Occupancy  
Occupied  
Unoccupied  
Level 0  
Depends on network  
command  
Occupancy Command  
Level 1  
Level 2  
Keypad Lockout  
MV 19  
Level 0  
Level 3  
Level 4  
Level 5  
Table Notes:  
1
EnumerationsetsforMV16dependsonSequenceofOperation(MV15)valueupondevicediscovery. Ifrequiredenumeration  
is not present, set MV15 to desired value and rediscover MV16 object. Available enumeration will now reflect required  
configuration.  
Default value of MV16 depends on MV15 value upon device discovery. (See Table 9.)  
2
BAS-SVP10A-EN  
15  
href="
BACnet Object Properties  
Table 9. MV15 (Sequence of Operation) values for Note 2  
Default Value is  
BV50 Enabled  
Default Value is  
BV50 Disabled  
MV15 Index  
Function  
1
2
3
4
5
6
Cooling Only  
Cool  
Auto  
Heat  
Heat  
Auto  
Auto  
Cool  
Heat  
Heat  
Heat  
Heat  
Heat  
Cooling with Reheat  
Heating Only  
Heating with Reheat  
Cooling/Heating 4 Pipes  
Cooling/Heating 4 Pipes with Reheat  
Table Notes: (continued)  
3
Enumeration sets for MV17 depends on Fan Mode Sequence (MV58) value upon device discovery. If required enumeration  
is not present, set MV58 to desired value and rediscover MV17 object. Available enumeration will now reflect required  
configuration.  
4, 5 Available state text and default value depends on Fan Mode Sequence (MV58) value upon device discovery.  
Function MV58  
MV17 Index  
State Text Index  
Default Value  
1
2
1 Low - 2 Med - 3 High High  
1 Low - 2 High  
High  
High  
1 Low - 2 Med - 3 High  
- 4 Auto  
3
4
5
1 Low - 2 High - 3 Auto High  
1 Auto -2 On  
Auto  
Table 10. Additional MV values  
Object Name  
Object ID  
BACnet Index  
Text  
Default value  
Heating Valve Status  
Table Note 6  
Table  
Note 7  
Table  
Note 7  
Table  
Note 7  
MV 26  
Cooling Valve Status  
Table Note 8  
Table  
Note 9  
Table  
Note 9  
Table  
Note 9  
MV 27  
1
2
3
4
1
2
3
4
Off  
Low  
Med  
High  
Fan Status  
MV 28  
Off  
Occupied  
Unoccupied  
Temporary Occupied  
Stand-by  
Depends on local  
occupancy  
Effective Occupancy  
MV 33  
Table Notes:  
6
Enumeration sets for MV26 depends on Control Type (BV75) value and Pipe Number (MV52) value upon device discovery.  
If required enumeration is not present, set BV75 and MV52 to desired value and rediscover MV26 object. Available enu-  
meration will now reflect required configuration.  
Available object name, state text and default value depends on Control Type (BV75) value and Pipe Number (MV52) upon  
device discovery as shown in Table 11.  
7
Table 11. Various object indexes and values for Note 7  
MV26 Object  
Name  
Function MV26 State Text  
Index  
BV75 Value  
MV52 Index  
Default Value  
On/Off  
1 (2 pipe)  
Unused Output  
N/A  
N/A  
Heating Valve  
Status  
2 (4 pipe)  
1 (2 pipe)  
2 (4 pipe)  
1 Closed – 2 Open  
N/A  
Closed  
N/A  
Floating  
Unused Output  
Heating Valve  
Status  
1 Stopped - 2 Opening - 3  
Closing  
Stopped  
8
Enumeration sets for MV27 depends on Control Type (BV75) value and Pipe Number (MV52) value upon device discovery.  
If required enumeration is not present, set BV75 and MV52 to desired value and rediscover MV27 object. Available enu-  
16  
BAS-SVP10A-EN  
 
 
href="
BACnet Object Properties  
meration will now reflect required configuration.  
Available object name, state text and default value depends on Control Type (BV75) value and Pipe Number (MV52) upon  
device discovery. (See Table 12.)  
9
Table 12. Various object indexes and values for Note 9  
Function MV26  
MV52 Index MV27ObjectName State Text Index  
Default Value  
Closed  
1 (2 pipe)  
2 (4 pipe)  
Heat/Cool Valve Status 1 Closed – 2 Open  
On/Off  
Cooling Valve Status  
1 Closed – 2 Open  
Closed  
1 Stopped - 2 Opening -  
3 Closing  
1 (2 pipe)  
2 (4 pipe)  
Heat/Cool Valve Status  
Stopped  
Stopped  
Floating  
1 Stopped - 2 Opening -  
3 Closing  
Cooling Valve Status  
Table 13. Additional MV Values  
Object Name  
Object ID  
BACnet Index  
Text  
None  
Default Value  
1
2
3
4
5
1
2
3
4
5
1
2
3
4
5
1
2
1
2
1
2
3
4
5
6
1
2
3
4
5
Rem NSB  
Motion NO  
Motion NC  
Window  
BI1 Configuration  
MV 46  
None  
None  
Door Dry  
Override  
Filter  
BI2 Configuration  
UI3 Configuration  
MV 47  
MV 48  
None  
None  
Service  
None  
COC/NH  
COC/NC  
COS  
SS  
2 Pipe  
Pipe Number  
Out#1 Cfg  
MV 52  
MV 53  
4 Pipes  
4
4 Pipe  
2
4
Not used  
NO with Occ  
NC with Occ  
NO with Occ & Fan  
NC with Occ & Fan  
Network controlled  
Low-Med-High  
Low-High  
Low-Med-High-Auto  
Low-High-Auto  
On-Auto  
AUX Configuration  
Fan Mode Sequence  
MV 54  
MV 58  
Not Used  
On-Auto  
BAS-SVP10A-EN  
17  
 
href="
BACnet Object Properties  
Table 13. Additional MV Values (continued)  
Object Name  
Object ID  
BACnet Index  
Text  
Default Value  
1
2
3
4
5
6
7
8
9
0 hour  
1 hour  
2 hours  
3 hours  
4 hours  
5 hours  
6 hours  
7 hours  
8 hours  
9 hours  
10  
11  
12  
13  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
1
10 hours  
11 hours  
TemporaryOccupancy  
Time  
MV 62  
12 hours  
2 hours  
13 hours  
14 hours  
15 hours  
16 hours  
17 hours  
18 hours  
19 hours  
20 hours  
21 hours  
22 hours  
23 hours  
24 hours  
3 3 F 1.2 C  
4 4 F 1.7 C  
5 5 F 2.2 C  
6 6 F 2.8 C  
7 7 F 3.3 C  
8 8 F 3.9 C  
9 9 F 5.0 C  
10 10 F 5.6 C  
0.5 minute  
1 minute  
2
3
4
Proportional Band  
MV 65  
3
5
6
7
8
1
2
3
1.5 minutes  
2 minutes  
2.5 minutes  
3 minutes  
3.5 minutes  
4 minutes  
4.5 minutes  
5 minutes  
5.5 minutes  
6 minutes  
6.5 minutes  
7 minutes  
7.5 minutes  
8 minutes  
8.5 minutes  
9 minutes  
4
5
6
7
8
Floating Motor  
Timing  
9
MV 76  
1.5 minutes  
10  
11  
12  
13  
14  
15  
16  
17  
18  
18  
BAS-SVP10A-EN  
href="
BACnet Object Properties  
Table 13. Additional MV Values (continued)  
Object Name  
Object ID  
BACnet Index  
Text  
Default Value  
1
2
3
4
5
6
3 CPH  
4 CPH  
5 CPH  
6 CPH  
7 CPH  
8 CPH  
On-Off Control  
CPH  
MV 77  
4 CPH  
Rooftop and Heat Pump Object Properties  
Table 14. List of property value range restrictions for AI and AV objects  
Object Type  
and Instance  
AV 7  
Under Range  
Value  
-40°F (-40°C)  
-40°F (-40°C)  
0%  
Object Name  
Room Temperature  
Outdoor Temperature  
Room Humidity  
Over Range Value Default Value  
122°F (50°C)  
122°F (50°C)  
100%  
N/A  
AV 9  
N/A  
AV 11  
AI 16  
AV 17  
AV 20  
AV 21  
AV 22  
AV 42  
AV 43  
AV 44  
AV 45  
AV 48  
AV 49  
N/A  
Supply Temp  
-40°F (-40°C)  
0%  
122°F (50°C)  
100%  
N/A  
Supply RH  
N/A  
PI Heating Demand  
PI Cooling Demand  
Economizer Output  
Occupied Heat Setpoint  
Occupied Cool Setpoint  
Unoccupied Heat Setpoint  
Unoccupied Cool Setpoint  
Heating Setpoint Limit  
Cooling Setpoint Limit  
0%  
100%  
N/A  
0%  
100%  
N/A  
0%  
100%  
N/A  
40°F (4.5°C)  
54°F (12°C)  
40°F (4.5°C)  
54°F (12°C)  
40°F (4.5°C)  
54°F (12°C)  
90°F (32°C)  
100°F (37.5°C)  
90°F (32°C)  
100°F (37.5)  
90°F (32°C)  
100°F (37.5)  
72°F (22°C)  
75°F (24°C)  
62°F (16.5°C)  
80°F (26.5°C)  
90°F (32°C)  
54°F (12°C)  
Heating Lockout  
Temperature  
AV 50  
-15°F (-26°C)  
120°F (49°C)  
120°F (49°C)  
CoolingLockoutTemperature AV 51  
-40°F (-40°C)  
2°F (1°C)  
0
95°F (35°C)  
4°F (2°C)  
1000  
-40°F (-40°C)  
2°F (1°C)  
0
Deadband  
AV 52  
AV 59  
AV 60  
AV 68  
Password Value  
Power-up Delay  
Unoccupied Time  
10 sec  
120 sec  
10 sec  
0.5 hrs  
24.0. hrs  
0.5 hrs  
Economizer Changeover  
Setpoint  
AV 77  
AV 78  
14°F (-10°C)  
0%  
70°F (21°C)  
100%  
55°F (13°C)  
0%  
Economizer Minimum  
Position  
Mixed Air Setpoint  
High Balance Point  
Low Balance Point  
AV 80  
AV 82  
AV 83  
50°F (10°C)  
34°F (1°C)  
90°F (32°C)  
90°F (32°C)  
30°F (-1°C)  
55°F (13°C)  
90°F (32°C)  
-12°F (-24°C)  
-40°F (-40°C)  
Dehumidification RH  
Setpoint  
AV 89  
15%  
95%  
70%  
Dehumidification Hysterisys AV 90  
2%  
20%  
5%  
Dehumidification Low OA  
AV 91  
-40°F (-40°C)  
10%  
122°F (50°C)  
90%  
32°F (0°C)  
50%  
Lockout  
Humidification RH Setpoint AV 95  
Eff (Effective) Reset  
Humidification RH Spt  
(Setpoint)  
AV 96  
0%  
100%  
N/A  
HumidificationHighLimitSpt  
(Setpoint)  
AV 97  
AV 98  
50%  
90%  
85%  
Low RH Setpoint  
10%  
90%  
20%  
Low Temp Reset RH Setpoint AV 99  
HighTempResetRHSetpoint AV 100  
-40°F (-40°C)  
20°F (-6.5°C)  
15°F (-9.5°C)  
55°F (13°C)  
-20°F (-29°C)  
32°F (0.0°C)  
BAS-SVP10A-EN  
19  
 
href="
BACnet Object Properties  
Table 14. List of property value range restrictions for AI and AV objects (continued)  
Object Type  
and Instance  
Under Range  
Value  
Object Name  
Over Range Value Default Value  
Humidifier Output  
AV 101  
0%  
100%  
N/A  
Table 15. List of property enumeration sets for BI and BV objects  
Object Type  
Object Name  
Room Temp Override  
Outdoor Temp Override  
AUX  
and Instance  
BV 8  
Inactive_Text  
Normal  
Active_Text  
Override  
Default Value  
Normal  
BV 10  
BI 24  
BI 25  
BI 26  
BI 27  
BI 28  
BI 29  
BI 30  
BI 31  
BI 32  
BI 33  
BI 36  
BI 37  
BI 38  
BI 39  
BI 40  
BV 47  
BV 55  
BV 56  
BV 57  
BV 62  
BV 64  
BV 70  
Normal  
Override  
On  
Normal  
Off  
Off  
G Fan  
Off  
On  
Off  
Y1 Cool  
Off  
On  
Off  
Y2 Cool  
Off  
On  
Off  
W1 Heat  
Off  
On  
Off  
W2 Heat  
Off  
On  
Off  
Reversing Valve  
DI 1 Status  
Off  
On  
Off  
Not Activated  
Activated  
Activated  
Motion  
On  
Not Activated  
DI 2 Status  
Not Activated  
Not Activated  
Local Motion  
Frost Alarm  
Clock Alarm  
No Motion  
Off  
No Motion  
Off  
Off  
On  
Off  
Filter Alarm  
Off  
On  
Off  
Service Alarm  
Fan Lock Alarm  
Temperature Scale  
Frost Protection  
Aux Contact  
Off  
On  
Off  
Off  
On  
Off  
°C  
°F  
°F  
Off  
On  
Off  
N.O.  
No Scroll  
Off  
N.C.  
Scroll Active  
On  
N.O.  
Menu Scroll  
Scroll Active  
On  
Fan Control  
Fan Purge Delay  
Progressive Recovery  
Off  
On  
Off  
Off  
Active  
On  
Off  
Mechanical Cooling Enabled BV 79  
Off  
Off  
Comfort Mode  
BV 84  
Comfort  
Economy  
Comfort  
Normally Heat  
Energized in  
Cooling  
Normally Heat  
Energized in  
Cooling  
Reversing Valve  
Configuration  
Normally Cool  
Energized in Heating  
BV 85  
Compressor Interlock  
RH Display  
BV 86  
BV 88  
Off  
On  
Off  
Disabled  
Enabled  
Disabled  
Dehumidification Lockout  
Functions  
BV 92  
BI 93  
Disabled  
Off  
Enabled  
On  
Enabled  
N/A  
Dehumidification Output  
Status  
20  
BAS-SVP10A-EN  
href="
BACnet Object Properties  
Table 16. List of property enumeration sets for MV objects  
Object Type and  
Object Name  
instance  
BACnet Index  
Text  
Local Occupancy  
Occupied  
Unoccupied  
Off  
Default Value  
1
2
3
1
2
3
4
5
1
2
3
4
1
2
3
1
2
3
1
Occupancy Command  
MV12  
Local Occupancy  
Auto  
System Mode HPU  
System Mode RTU  
MV13  
MV14  
Cool  
Auto  
Auto  
Heat  
Emergency  
Off  
Auto  
Cool  
Heat  
On  
Fan Mode  
MV15  
MV18  
MV 34  
Auto  
Smart  
Smart  
Level 0  
Level 1  
Level 2  
Occupied  
Unoccupied  
TemporaryOccupied  
3 CPH  
Keypad Lockout  
Effective Occupancy  
Level 0  
Depends on local  
occupancy  
2 3  
3
1
2
4 CPH  
3
5 CPH  
Heating CPH  
Cooling CPH  
MV53  
MV54  
4 CPH  
4 CPH  
4
6 CPH  
5
7 CPH  
6
8 CPH  
1
3 CPH  
2
4 CPH  
1
0 hour  
2
1 hour  
3
2 hours  
3 hours  
4 hours  
5 hours  
6 hours  
7 hours  
8 hours  
9 hours  
10 hours  
11 hours  
12 hours  
0 minute  
1 minute  
2 minutes  
3 minutes  
4 minutes  
5 minutes  
4
5
6
Temporary Occupancy Time  
MV61  
7
3 hours  
8
9
10  
11  
12  
13  
1
2
3
Anticycle  
MV63  
2 minutes  
4
5
6
BAS-SVP10A-EN  
21  
href="
BACnet Object Properties  
Table 16. List of property enumeration sets for MV objects (continued)  
Object Type and  
instance  
Object Name  
BACnet Index  
Text  
Default Value  
1
2
3
4
5
6
1
2
3
4
5
6
1
2
3
4
5
6
7
1
2
1
2
1
2
1
2
None  
RemNSB  
RemOVR  
Filter  
DI1 Configuration  
MV65  
MV66  
None  
Service  
Fan lock  
None  
RemNSB  
RemOVR  
Filter  
DI2 Configuration  
Proportional Band  
None  
Service  
Fan lock  
2
3
4
5
6
7
8
2 F 0.6 C  
3 F 1.2 C  
4 F 1.7 C  
5 F 2.2 C  
6 F 2.8 C  
7 F 3.3 C  
8 F 3.9 C  
MV 67  
2
2 Events  
4 Events  
1 Stage  
2 Stages  
1 Stage  
2 Stages  
1 Stage  
2 Stages  
Event Display  
MV71  
MV73  
MV74  
MV75  
2 Event  
Heating Stages  
Cooling Stages  
Heat Pump Stages  
2 Stages  
2 Stages  
2 Stages  
22  
BAS-SVP10A-EN  
href="
Objects You Can Use in Site Graphics  
Fan Coils  
You can use the following objects in site graphics:  
Room Temperature (AV7)  
Heating Valve Status (MV26)  
OccupiedandUnoccupiedHeatSetpoints(AV39andAV43) Cooling Valve Status (MV28)  
Occupied and Unoccupied Cool Setpoints (AV40 and AV34) PI Heating Demand (AV21)  
Outdoor Temperature (AV9)  
PI Cooling Demand (AV22)  
Window Alarm (BI35)  
Filter Alarm (BI36)  
Supply Temperature (AI12) (If available)  
Occupancy Command (MV18)  
System Mode (MV16)  
Service Alarm (BI37)  
Fan Mode (MV17)  
Room Humidity (AV10) (If available)  
Room Humidity Setpoint (AV71) (If available)  
Fan Status (MV28)  
Figure 1. Sample Fan Coil Graphic  
Room Temperature 71.2 ºF  
Occupied Heating Setpoint 71.0 ºF  
Occupied Cooling Setpoint 73.0 ºF  
Unoccupied Heating Setpoint 62.0 ºF  
Unoccupied Cooling Setpoint 82.0 ºF  
Room Humidity 49.7 ºF  
Supply  
Temperature  
65.2ºF  
Room Humidity Setpoint 50.0 %  
Cooling Valve Status  
Closed  
Heating Valve Status  
Open  
Filter Alarm  
Normal  
Fan Status  
On  
Occupancy Occupied  
System Mode Heat  
Fan Mode High  
Outdoor Temperature 42 ºF  
BAS-SVP10A-EN  
23  
 
 
href="
Objects You Can Use in Site Graphics  
Rooftop and Heat Pump Units  
You can use the following objects in site graphics:  
Room Temperature (AV7)  
W1 Heat (BI28)  
Occupied and Unoccupied Heat Setpoints (AV 42 and  
AV44)  
W2 Heat (BI29) or Reversing Valve (BI30)  
Occupied and Unoccupied Cool Setpoints (AV 43 and  
AV45)  
Economizer Output (AV22) (if available)  
Outdoor Temperature (AV9)  
Aux (BI24)  
Supply Temperature (AI16) (If available)  
Occupancy Command (MV12)  
Effective Occupancy (MV34)  
DI 1 Status (BI31)  
DI 2 Status (BI 32)  
Frost Alarm (BI36) (if available)  
System Mode RTU (MV14) or System Mode HPU (MV13) Filter Alarm (BI38) (if available)  
G Fan (BI25)  
Y1 Cool (BI26)  
Y2 Cool (BI27)  
Service Alarm (BI39) (if available)  
Fan Lock Alarm (BI40) (if available)  
Filter Alarm (BI 38)  
Economizer (AV22)  
10%  
Outdoor  
Temperature (AV9)  
Off  
52.4 ºF  
Supply Temperature (AI16)  
65.2 ºF  
68.2 ºF  
Room Temperature (AV7)  
G Fan (BI25)  
On  
69.0 ºF  
72.0 ºF  
62.0 ºF  
82.0 ºF  
Occupied Heat Setpoint (AV 42)  
Occupied Cool Setpoint (AV 43)  
Unoccupied Heat Setpoint (AV 44)  
Unoccupied Cool Setpoint (AV 45)  
Y1 Cool (BI26)  
Y2 Cool (BI27)  
W1 Heat (BI28)  
Off  
Off  
On  
W2 Heat (BI29)  
Off  
Occupancy (MV12)  
System Mode RTU (MV14)  
Aux (BI24)  
DI 1 Status (BI31)  
DI 2 Status (BI 32)  
Frost Alarm (BI36)  
Service Alarm (BI39)  
Occupied  
Heat  
On  
Off  
Off  
Off  
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Wiring Requirements for Communicating Thermostats  
BACnet networks use a daisy chain configuration. A daisy chain means that there is only one main  
cable and every network device is connected directly along its path.  
Figure 2 illustrates two improper network configurations and the proper daisy chain configuration.  
Figure 2. Incorrect and correct network configurations  
BACnet MS/TP Link Wiring  
BACnet MS/TP link wiring must be field-supplied and installed in compliance with the National  
Electric Code (NEC) and local codes.  
BACnet Configuration Requirements  
Follow these configuration requirements:  
BACnet wiring must use daisy-chain configuration. Maximum length is 4,000 ft (1219 m).  
BACnet links are polarity sensitive; consistent wiring polarity must be maintained between  
devices.  
Limit each link to 30 controllers or 60 total controllers per Tracer SC.  
BACnet Wiring Best Practices  
The following wiring practices are recommended:  
Use 18 AWG, (24 pF/ft. max.), shielded, twisted pair communication wire (Trane purple wire).  
Strip no more than 2 in. (5 cm) of the outer conductor of shielded wire.  
Avoid sharing 24 Vac power between unit controllers.  
Ensure that 24 Vac power supplies are consistently grounded. If grounds are not maintained,  
intermittent or failed communication could result.  
Connect the shield portion of the communication wire at the first unit controller in the link.  
Use a Tracer BACnet terminator at each end of the link.  
For additional best practices, see the Unit Controller Wiring Guide For the Tracer SC™ System  
Controller (BAS-SVN03x-EN).  
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Wiring Requirements for Communicating Thermostats  
BACnet Wiring Procedure  
Follow these steps to connect communication wiring as shown in Figure 3, p. 26.  
1. Attach the communication link wiring to the Tracer SC at Link 1 or Link 2.  
Note: It is not necessary to place the Tracer SC at the end of the of the communication link.  
2. Attach the wiring from the first unit controller to the first set of communication terminals on the  
next unit controller.  
Note: Some unit controllers have only one set of communication terminals. In that case, attach  
the wiring to the same set of terminals.  
3. Wire and tape shields together at each unit controller between the Tracer SC and the BACnet  
terminator.  
4. Repeat steps 1 through 3 for each unit controller on the link.  
Note: For more information about the specific unit controller you are wiring, see the  
Installation Guide for the specific controller.  
Figure 3. Daisy chain configuration for BACnet wiring  
Trane BACnet Termination for BACnet Links  
For correct termination placement, follow these guidelines:  
All BACnet links must be properly terminated. Use a Tracer BACnet terminator at each end of  
the link.  
Connect the communication wire shield to the ground terminal of the link termination block at  
the Tracer SC as shown in Figure 2. The Tracer SC provides the ground for the BACnet/MSTP  
link.  
Tape back the shield at each of the BACnet terminators.  
During installation, compile a set of as-built drawings or a map of the communication wire  
layout. Sketches of the communication layout should feature the BACnet terminators.  
26  
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Figure 4. Terminating BACnet links using BACnet terminators  
Product Specifications  
Specifications for Communicating Thermostats are as follows.  
Table 17. Communicating Thermostat Specifications  
Item  
Details  
Media  
Twisted pair 22AWG-24 AWG, shielded recommended  
100-130 ohms  
Characteristic Impedance  
Distributed capacitance  
Maximum length per segment  
Polarity  
Less than 100 pF per meter (30 pF per foot)  
1200 meters (4000 feet) Note: AWG 18 cable  
Polarity sensitive  
Multi-drop  
Daisy-chain (no T connections)  
Terminations  
Always use Trane BACnet terminators at each end of the link.  
Maximumnumberofnodespersegment 30  
Baud rate  
9600, 19200, 38400, 76800 (Auto detect)  
Network Adapter  
The polarity of the connection to the cable is important. From one module to the other it is  
important that the same colored wire be connected to “plus” or “+” and the other colored wire be  
connected to the “minus” or ”-“.  
Important: The Ref terminal should NEVER be used to wire shields. The 2 shields from each feed  
of the network connection to a thermostat should be wired together in the back of  
the thermostat and properly protected to prevent any accidental connection to the  
ground.  
The joined shield connection should then be grounded at a SINGLE point on the  
whole segment. More than one ground connection to a shielded wire may induce  
ground loop noises and affect communication.  
BAS-SVP10A-EN  
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Wiring Requirements for Communicating Thermostats  
Communicating Thermostat Status LEDs  
Table 18 shows the different possibilities with the Status LED behaviour for a BACnet module.  
Table 18. Status LED conditions with causes and possible solutions (fan coil)  
Condition of the Status LED  
Possible Cause  
Solution  
BACnet communication NOT  
active at default MAC address = value from 0 to 127  
254  
Change MAC address to another  
1 short blink  
2 short blinks (no wires connected Normal operation until BACnet link N/A  
to the module) is connected.  
2 short blinks (wires connected to Thermostat is not at the same  
the module) baud rate as the network  
Power off and on the thermostat  
2 short blinks and a longer blink The thermostat has detected the N/A  
(wires connected to the module) presence of a network  
Rightafterpowerisapplied:2long Polarity has been reversed at the Reverse polarity at the thermostat  
blinks and then no blinking  
thermostat.  
Troubleshooting  
Table 19. Causes and solutions for error condition  
Error / Trouble Condition  
Possible Cause  
Solution  
Two or more controllers have the Modify each duplicate address to a  
same MAC address.  
unique number.  
Do not exceed the maximum number  
of devices and maximum length  
allowedbytheEIA-485specifications.  
The MS/TP network has too many  
devices.  
Too many devices were installed  
without any repeaters.  
Repeaters need to be installed as  
specified in this document.  
Thermostat does not come online  
The MS/TP cable runs are broken Locate the break and correct wiring  
MS/TP connections at the module Respect polarity of the wires on a MS/  
are reversed  
TP network.  
The thermostat does not have  
power  
Apply power to the thermostat  
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Additional Information and Considerations  
This chapter explains some special tips and considerations that apply to the Trane Communicating  
Thermostats. These tips and considerations are grouped in the following categories:  
MS/TP network integration  
Objects and parameters  
Tracer SC network configuration  
MS/TP Network Integration  
Before doing any BACnet integration, make sure to have Trane PICS (Protocol Implementation  
Conformance Statement). This PICS document lists all the BACnet Services and Object types  
supported by a device and can be found on the Trane portal.  
The Trane Communicating Thermostats do not support the Change of Value (COV) service. COV  
reporting allows an object to send out notices when its Present-Value property is incremented by  
a pre-defined value. Since this is not supported at the thermostat, you should pay special attention  
to the polling time settings at the Supervisory Controller and Workstation level when using a  
graphical interface or an application program to read or write to the BACnet objects.  
Site Graphics  
For example, some site graphics might poll every data item linked to the graphic page on a COV  
basis. If the third party device does not support COV, the graphic interface then relies on a pre-  
configured polling interval, which is usually in hundredths of milliseconds. Any device containing  
a monitored object could be subject to network traffic congestion if such a polling interval is used.  
Trane strongly recommends a polling interval of 5 seconds or more for any graphic interface. This  
becomes even more critical in area graphics where a single representation might poll many  
devices. If proper poll rate is not respected, devices may be reported offline by certain front ends  
by saturating the traffic handling capacity of BACnet MS/TP without COV subscription.  
Free Programmed Objects or Loops (Supervisory Controllers Other Than Tracer SC)  
As for the application program, you might want to read and write any MS/TP data on an “If Once”  
basis or a “Do Every” loop basis instead of reading or writing to a third party device’s object directly  
in the program. Otherwise, any read or write request will occur at the Supervisory Controller’s  
program scan rate, which might be in hundredths of milliseconds. This can easily bog down a  
network as single commands can be sent to all ASC devices down the MS/TP trunks every  
hundredth of a millisecond.  
Fan Coils  
Programs writing to the devices should have a structure similar to the following:  
If Once Schedule = On then  
MV13 = Occupied  
End If  
If Once Schedule = Off  
Then  
Do Every 5min  
If Schedule = On Then  
MV13= Occupied  
Else  
MV13 = Unoccupied  
End If  
OR  
MV13 = Unoccupied  
End If  
End Do  
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Additional Information and Considerations  
Rooftop and Heat Pump Units  
Programs writing to the devices should have a structure similar to the following:  
If Once Schedule = On then  
MV11 = Occupied  
End If  
If Once Schedule = Off  
Then  
Do Every 5min  
If Schedule = On Then  
MV11= Occupied  
Else  
MV11 = Unoccupied  
End If  
OR  
MV11 = Unoccupied  
End If  
End Do  
Retries and Timeouts (Supervisory Controllers Other Than Tracer SC)  
Another thing to look for in a BACnet integration is the Device object of the Supervisory Controller  
(and the Operator’s Workstation). This object contains the 2 following required properties:  
Retry Timeout  
The Retry Timeout property specifies the time between re-transmissions if the  
acknowledgement has not been received. When you are experiencing problems with  
controllers dropping off-line, increasing this value may help.  
Number of APDU Retries;  
The Number of APDU Retries property specifies the number of times unsuccessful  
transmissions will be repeated. If the receiving controller has not received the transmission  
successfully after this many attempts, no further attempts will be made.  
For example, if one of the thermostats does not reply to a Supervisory Controller (Tracer SC)  
request, and the Retry Timeout is set to 2000 msec and the Number of APDU Retries is set to 1 (still  
at the Tracer SC level), then the Tracer SC will send one other request, 2 seconds later. If the MS/  
TP device does not reply, it will be considered Off-line by the workstation.  
So having a Retry Timeout value of 10000 msec and a Number of APDU Retries property set to 3  
at the SC level may prevent device from dropping Off-line. These properties should also be  
changed at the Workstation level since the workstation will likely issue requests to any MS/TP  
devices when the graphics are used.  
Objects and Parameters  
The following items apply to all equipment types.  
Each thermostat is delivered from the factory with the default MAC address set at 254. At this  
value, the BACnet communication is NOT active and the device will not participate in the token  
pass either. The local LED status (located on the backside of the board) is one short flash only.  
To enable the BACnet communication, set the local MAC address configuration property of the  
thermostat to any valid value from 0 to 127 using the Installer Configuration Parameter menuon  
the Thermostat. (Refer to the Trane Communicating Thermostats for Heat Pump Control User  
Guide (BAS-SVU10A-EN), Trane Communicating Thermostats for Rooftop Control User Guide  
(BAS-SVU11A-EN), or the Trane Communicating Thermostats for Fan Coil Control User Guide  
(BAS-SVU12A-EN) for details.)  
All configuration objects are available and can be edited locally from the device itself using the  
local configuration routine. (See the Communicating Thermostat User Guides mentioned  
previously in this section or in “Related Documents,” p. 6.)  
In its default mode of operation, the device will automatically match its baud rate to the baud  
rate of the network. Automatic baud rate detection will occur when the MS/TP communication  
port is initialized (on power up). If the network speed is changed, the device will keep listening  
at the previously detected speed for10 minutes before resuming automaticbaud ratedetection.  
Re-powering the devices will force immediate auto-detection.  
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Additional Information and Considerations  
If the device should go offline, the communicated value from the front-end Tracer SC will be  
released:  
Room Temperature  
Outdoor Temperature  
Occupancy  
Device Name and Device ID properties are writable in BACnet device object. Both properties can  
be renamed from any BACnet network management tool as long as the tool itself give access  
to write to these properties.  
The BACnet Data Link layer has two key parameters: the device object name and the device  
object ID. The device object name must be a unique BACnet device object name within the  
BACnet network (i.e. not just the MS/TP sub-network). The device object ID must also be a  
unique BACnet device object ID in the entire BACnet network (i.e. not just the MS/TP sub-  
network).  
The following items apply to fan coils only.  
Enumeration sets for System Mode MV16 depends on Sequence of Operation (MV15) value  
upon device discovery. If required enumerations are not present, set MV15 to desired value and  
rediscover MV16 object. Available enumeration will now reflect required configuration.  
Enumeration sets for MV16 depends on Fan Mode Sequence (MV58) value upon device  
discovery. If required enumerations are not present, set MV58 to desired value and rediscover  
MV16 object. Available enumeration will now reflect required configuration.  
Enumeration sets for MV26 and MV27 depend on Control Type (BV75) value and Pipe Number  
(MV52) value upon device discovery. If required enumeration is not present, set BV75 and MV52  
to desired value and rediscover MV26 and BV27 object. Available enumeration will now reflect  
required configuration.  
To assign manually a Room Temperature (AV7) value, users must first enable the Override  
mode in the Room Temp Override (BV8) object.  
To assign manually a Room Humidity (AV10) value, users must first enable the Override mode  
in the Room Humidity Override (BV11) object.  
BAS-SVP10A-EN  
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Additional Information and Considerations  
Tracer SC Network Configuration  
You should be aware of these important facts about Communicating Thermostat capabilities in the  
Tracer SC network.  
No automatic installation  
The Trane Communicating Thermostats do not automatically install on the Tracer SC. Custom  
templates are available and you can select one of these templates (“Template: TStat_RTU_Trane,”  
the unit ready to install. Refer to the Tracer™ SC System Controller Installation and Setup Manual  
(BAS-SVX31x-EN) for details about using a template to install a Communicating Thermostat on a  
BACnet link.  
No priority array  
Binary, Analog, and Multistate Values do not use a priority array. In order to reliably control these  
points, they must be controlled by only one source (for example, Area control). If they are being  
controlled from multiple sources, the most recent source to control the point will be in control.  
Night Purge disabled  
A Trane Communicating Thermostat as a member of Area should have Night Purge disabled.  
Using Night Purge could result in the Heat Cool Mode Request being controlled incorrectly on a  
transition from Night Purge to another state. You can disable Night Purge for the entire area on the  
functions page of Area in the Economizer Control section (Figure 5).  
Figure 5. The Economizer Control section of the Area Functions page  
Night purge can also be disabled from the members page by checking the box next to certain  
members and going to actions > edit configuration (Figure 6).  
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Additional Information and Considerations  
Figure 6. Area members page (actions > edit configuration)  
Heat only/cool only  
If the thermostat is configured as cool only, it will not accept its Heat Cool Mode Request to be  
controlled to any heating mode. The converse applies if the thermostat is configured for heat only,  
it will not accept its Heat Cool Mode Request to be controlled to any cooling mode. If the point is  
controlled to an invalid state, it will quickly revert to the previous state.  
Parameters not supported  
In the Occupancy frame of the Equipment/Space status page, the following properties will not be  
displayed:  
Last Controlled  
Controlled by  
Time Remaining  
These are parameters that the thermostat points do not support.  
Figure 7. Occupancy section of the Equipment/Space status page  
BAS-SVP10A-EN  
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Additional Information and Considerations  
These properties are also shown but not populated on point status pages (Figure 8, p. 34 ).  
Figure 8. Status section of the Point Status page  
No active setpoint or heat/cool mode data  
The Spaces Summary and Equipment Summary pages do not show data for active setpoint or heat/  
cool mode as these devices do not have Space Temperature Setpoint Active and Heat Cool Mode  
Status points ( ).  
Figure 9. Air Handlers section of the Equipment Status page  
Discharge air temp requirements  
The point Discharge Air Temperature on all of these devices only reports data if the respective input  
is configured as a discharge air sensor and a valid sensor is connected.  
Inappropriate text on graphic displays  
In some cases, Binary and Multistate points on a Tracer SC custom graphic display state text that  
does not match the space or equipment pages.  
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Additional Information and Considerations  
Outdoor air temperature  
On the TStat_FanCoil, the point Outdoor Air Temperature is only controlled from a BAS. It is not  
used in the control sequence of the device. If this value is to be shown on the LCD display on the  
thermostat, it’s recommended to use global referencing to send the Facility Outdoor Air  
Temperature to this point.  
BAS-SVP10A-EN  
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Data Normalization  
Special data normalization has been applied to various points in the factory loaded equipment  
templates. This data normalization serves to make a consistent interface to equipment across  
Tracer SC. This chapter lists special data normalizations for each equipment template.  
Example: Occupancy Request  
The following example of the Occupancy Request point in the TStat_FanCoil_Trane template  
indicates how to interpret the special data normalization.  
The point name in Tracer SC is Occupancy Request.  
The point name in the BACnet device is Occupancy Command (Multistate Value instance 18  
(MV18)).  
Table 20 and Table 21 show the corresponding Tracer SC and fan coil states.  
When Tracer SC writes the state in the left hand column to the Occupancy Request point, the  
BACnet point is controlled to the corresponding state on the right hand column.  
Table 20. Tracer SC writing to the fan coil (Occupancy Request)  
Tracer SC state and text  
1 - Occupied  
Fan coil state and text  
2 - Occupied  
2 - Unoccupied  
3 - Unoccupied  
2 - Occupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
2 - Occupied  
1 - Local Occupancy  
When Tracer SC reads the state and text in the left hand column from the BACnet device, it reports  
the state and text in the right hand column in the Occupancy Request point.  
Table 21. Reading from Fan Coil to Tracer SC (Occupancy Request)  
Fan Coil state and text  
Tracer SC state and text  
1 - Local Occupancy  
5 - Auto  
2 - Occupied  
1 - Occupied  
3 - Unoccupied  
2 - Unoccupied  
Template: TStat_FanCoil_Trane  
This section lists special data normalizations for points in this template.  
The Tracer SC Point name: Occupancy Status  
The BACnet point name, type, and instance: Effective Occupancy (MV 33)  
Table 22. Tracer SC writing to the fan coil (Occupancy Status)  
Tracer SC state and text  
Fan coil state and text  
1 - Occupied  
1 - Occupied  
2 - Unoccupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
2 - Unoccupied  
1 - Occupied  
4 - Stand-by  
1 - Occupied  
Table 23. Reading from fan coil to Tracer SC (Occupancy Status)  
Fan Coil state and text  
Tracer SC state and text  
1 - Occupied  
1 - Occupied  
2 - Unoccupied  
2 - Unoccupied  
1 - Occupied  
3 - Temporary Occupied  
4 - Stand-by  
4 - Occupied Standby  
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Data Normalization  
Tracer SC point name: Occupancy Request  
BACnet point name, type, and instance: Occupancy Command (MV 18)  
Table 24. Tracer SC writing to the fan coil (Occupancy Request)  
Tracer SC state and text  
Fan coil state and text  
1 - Occupied  
2 - Occupied  
2 - Unoccupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
3 - Unoccupied  
2 - Occupied  
2 - Occupied  
1 - Local Occupancy  
Table 25. Reading from fan coil to Tracer SC (Occupancy Request)  
Fan coil state and text  
Tracer SC state and text  
1 - Local Occupancy  
5 - Auto  
2 - Occupied  
1 - Occupied  
3 - Unoccupied  
2 - Unoccupied  
Tracer SC Point name: Heat Cool Mode Request  
BACnet point name, type and instance: System Mode (MV 16)  
Table 26. Tracer SC writing to the fan coil (Heat Cool Mode Request)  
Tracer SC state and text  
Fan coil state and text  
1 - Auto  
2 - Auto  
2 - Heat  
4 - Heat  
4 - Heat  
3 - Cool  
3 - Cool  
3 - Cool  
1 - Off  
3 - Morning Warm-up  
4 - Cool  
5 - Night Purge  
6 - Pre Cool  
7 - Off  
8 - Test  
2 - Auto  
4 - Heat  
2 - Auto  
3 - Cool  
3 - Cool  
4 - Heat  
3 - Cool  
3 - Cool  
2 - Auto  
9 - Emergency Heat  
10 - Fan Only  
11 - Free Cool  
12 - Ice-Making  
13 - Max Heat  
14 - Economizer  
15 - Dehumidify  
16 - Calibrate  
Table 27. Reading from fan coil to Tracer SC (Heat Cool Mode Request)  
Fan coil state and text  
Tracer SC state and text  
1 - Off  
7 - Off  
2 - Auto  
3 - Cool  
4 - Heat  
1 - Auto  
4 - Cool  
2 - Heat  
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Data Normalization  
Tracer SC Point name: Supply Fan Staged Speed Status  
BACnet point name, type, and instance: Fan Status (MV 28)  
Table 28. Tracer SC writing to the fan coil (Supply Fan Staged Speed Status)  
Tracer SC state and text  
Fan coil state and text  
1 - Auto  
4 - High  
2 - Off  
1 - Off  
3 - Low  
2 - Low  
4 - Medium  
5 - High  
3 - Medium  
4 - High  
Table 29. Reading from fan coil to Tracer SC (Supply Fan Staged Speed Status)  
Fan coil state and text  
Tracer SC state and text  
1 - Off  
2 - Off  
2 - Low  
3 - Low  
3 - Medium  
4 - High  
4 - Medium  
5 - High  
Tracer SC Point name: Fan Mode BAS  
BACnet point name, type, and instance: Fan Mode (MV 17)  
Table 30. Tracer SC writing to the fan coil (Fan Mode BAS)  
Tracer SC state and text  
Fan coil state and text  
1 - On  
2 - On  
2 - Auto  
1 - Auto  
1 - Auto  
3 - Smart  
Table 31. Reading from fan coil to tracer SC (Fan Mode BAS)  
Fan Coil state and text  
Tracer SC state and text  
1 - Auto  
2 - On  
2 - Auto  
1 - On  
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Data Normalization  
Template: TStat_HeatPump_Trane  
This section lists special data normalizations for points in this template.  
Tracer SC Point name: Occupancy Status  
BACnet point name, type, and instance: Effective Occupancy (MV 34)  
Table 32. Tracer SC writing to the heat pump (Occupancy Status)  
Heat pump state and text  
1 - Occupied  
1 - Occupied  
2 - Unoccupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
2 - Unoccupied  
1 - Occupied  
1 - Occupied  
1 - Occupied  
Table 33. Reading from heat pump to Tracer SC (Occupancy Status)  
Heat pump state and text  
Tracer SC state and text  
1 - Occupied  
1 - Occupied  
2 - Unoccupied  
2 - Unoccupied  
1 - Occupied  
3 - Temporary Occupied  
Tracer SC Point name: Occupancy Request  
BACnet point name, type and instance: Occupancy Command (MV 12)  
Table 34. Tracer SC writing to the heat pump (Occupancy Request)  
Tracer SC state and text  
Heat pump state and text  
1 - Occupied  
2 - Occupied  
2 - Unoccupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
3 - Unoccupied  
2 - Occupied  
2 - Occupied  
1 - Local Occupancy  
Table 35. Reading from heat pump to Tracer SC (Occupancy Request)  
Heat pump state and text  
Tracer SC state and text  
1 - Local Occupancy  
5 - Auto  
2 - Occupied  
1 - Occupied  
3 - Unoccupied  
2 - Unoccupied  
Tracer SC Point name: Heat Cool Mode Request  
BACnet point name, type and instance: System Mode (MV 13)  
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Data Normalization  
Table 36. Tracer SC writing to the heat pump (Heat Cool Mode Request)  
Tracer SC state and text  
Heat pump state and text  
1 - Auto  
2 - Auto  
2 - Heat  
4 - Heat  
4 - Heat  
3 - Cool  
3 - Cool  
3 - Cool  
1 - Off  
3 - Morning Warm-up  
4 - Cool  
5 - Night Purge  
6 - Pre Cool  
7 - Off  
8 - Test  
2 - Auto  
5 - Emergency  
2 - Auto  
3 - Cool  
3 - Cool  
4 - Heat  
3 - Cool  
3 - Cool  
2 - Auto  
9 - Emergency Heat  
10 - Fan Only  
11 - Free Cool  
12 - Ice-Making  
13 - Max Heat  
14 - Economizer  
15 - Dehumidify  
16 - Calibrate  
Table 37. Reading from Heat Pump to Tracer SC (Heat Cool Mode Request)  
Heat pump state and text  
Tracer SC state and text  
1 - Off  
7 - Off  
2 - Auto  
1 - Auto  
3 - Cool  
4 - Cool  
4 - Heat  
2 - Heat  
5 - Emergency  
9 - Emergency Heat  
Template: TStat_RTU_Trane  
This section lists special data normalizations for points in this template.  
Tracer SC Point name: Occupancy Status  
BACnet point name, type, and instance: Effective Occupancy (MV 34)  
Table 38. Tracer SC writing to the rooftop unit (Occupancy Status)  
Tracer SC state and text  
Rooftop unit state and text  
1 - Occupied  
1 - Occupied  
2 - Unoccupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
2 - Unoccupied  
1 - Occupied  
1 - Occupied  
1 - Occupied  
Table 39. Reading from rooftop unit to Tracer SC (Occupancy Status)  
Rooftop unit state and text  
Tracer SC state and text  
1 - Occupied  
1 - Occupied  
2 - Unoccupied  
2 - Unoccupied  
1 - Occupied  
3 - Temporary Occupied  
40  
BAS-SVP10A-EN  
 
 
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Data Normalization  
Tracer SC Point name: Occupancy Request  
BACnet point name, type, and instance: Occupancy Command (MV 12)  
Table 40. Tracer SC writing to the rooftop unit (Occupancy Request)  
Tracer SC state and text  
Rooftop unit state and text  
1 - Occupied  
2 - Occupied  
2 - Unoccupied  
3 - Occupied Bypass  
4 - Occupied Standby  
5 - Auto  
3 - Unoccupied  
2 - Occupied  
2 - Occupied  
1 - Local Occupancy  
Table 41. Reading from rooftop unit to Tracer SC (Occupancy Request)  
Rooftop unit state and text  
Tracer SC state and text  
1 - Local Occupancy  
5 - Auto  
2 - Occupied  
1 - Occupied  
3 - Unoccupied  
2 - Unoccupied  
Tracer SC Point name: Heat Cool Mode Request  
BACnet point name, type and instance: System Mode (MV 14)  
Table 42. Tracer SC writing to the rooftop unit (Heat Cool Mode Request)  
Tracer SC state and text  
Rooftop unit state and text  
1 - Auto  
2 - Heat  
2 - Auto  
4 - Heat  
4 - Heat  
3 - Cool  
3 - Cool  
3 - Cool  
1 - Off  
3 - Morning Warm-up  
4 - Cool  
5 - Night Purge  
6 - Pre Cool  
7 - Off  
8 - Test  
2 - Auto  
4 - Heat  
2 - Auto  
3 - Cool  
3 - Cool  
4 - Heat  
3 - Cool  
3 - Cool  
2 - Auto  
9 - Emergency Heat  
10 - Fan Only  
11 - Free Cool  
12 - Ice-Making  
13 - Max Heat  
14 - Economizer  
15 - Dehumidify  
16 - Calibrate  
Table 43. Reading from rooftop unit to Tracer SC (Heat Cool Mode Request)  
Rooftop unit state and text  
Tracer SC state and text  
1 - Off  
7 - Off  
2 - Auto  
3 - Cool  
4 - Heat  
1 - Auto  
4 - Cool  
2 - Heat  
BAS-SVP10A-EN  
41  
href="
Trane Communicating Thermostat Points List  
The following tables provide side by side lists of Tracer SC points and Communicating Thermostat  
device point names and related information.  
TStat_Fan_Coil_Trane  
Table 44. Points Available in the TStat_Fan_Coil_Trane Template  
Data  
TStat Device Point  
Name  
Point  
Type  
Point  
Instance  
Normaliza-  
tion  
Tracer SC Point Name  
Diagnostic Present  
Service Alarm  
Filter Alarm  
BI  
BI  
37  
36  
12  
51  
25  
17  
16  
19  
Dirty Filter Alarm  
Discharge Air Temperature  
Display Temperature Scale  
Emergency Heat Status  
Fan Mode BAS  
Supply Temperature  
Temperature Scale  
AUX Status  
AI  
BV  
BI  
Fan Mode  
MV  
MV  
MV  
Yes  
Yes  
Heat Cool Mode Request  
Keypad Lockout  
System Mode  
Keypad Lockout  
Minimum Heating Cooling Setpoint  
Differential  
Deadband  
AV  
63  
Occupancy Input  
Local Motion  
BI  
MV  
MV  
AV  
AV  
AV  
AV  
AV  
AV  
MV  
MV  
AV  
AV  
AV  
AV  
AV  
AV  
AV  
AV  
AV  
BI  
32  
18  
33  
40  
39  
42  
41  
9
Occupancy Request  
Occupancy Command  
Effective Occupancy  
Occupied Cool Setpoint  
Occupied Heat Setpoint  
Stand-by Cool Setpoint  
Stand-by Heat Setpoint  
Outdoor Temperature  
Room Temperature  
Fan Status  
Yes  
Yes  
Occupancy Status  
Occupied Cooling Setpoint  
Occupied Heating Setpoint  
Occupied Standby Cooling Setpoint  
Occupied Standby Heating Setpoint  
Outdoor Air Temperature  
Space Temperature Active  
Supply Fan Staged Speed Status  
Timed Override Duration Setpoint  
Unoccupied Cooling Setpoint  
Unoccupied Cooling Setpoint  
7
28  
62  
43  
44  
21  
22  
56  
58  
59  
67  
68  
29  
30  
31  
35  
8
Yes  
Temporary Occupancy Time  
Unoccupied Heat Setpoint  
Unoccupied Cool Setpoint  
PI Heating Demand  
PI Cooling Demand  
Password Value  
Heating Setpoint Limit  
Cooling Setpoint Limit  
Stand-by Time  
Unoccupied Time  
BI 1 Status  
BI 2 Status  
BI  
UI 3 Status  
BI  
Window Alarm  
BI  
Room Temp Override  
AUX Command  
BV  
BV  
BV  
BV  
BV  
BV  
BV  
BV  
BV  
MV  
MV  
14  
49  
50  
60  
61  
64  
66  
75  
15  
26  
Menu Scroll  
Auto Mode Enable  
Setpoint Type  
Setpoint Function  
Reheat Time Base  
Auto Fan  
Control Type  
Sequence of Operation  
Heating Valve Status  
42  
BAS-SVP10A-EN  
 
 
href="
Trane Communicating Thermostat Points List  
Table 44. Points Available in the TStat_Fan_Coil_Trane Template (continued)  
Data  
Normaliza-  
tion  
TStat Device Point  
Name  
Point  
Type  
Point  
Instance  
Tracer SC Point Name  
Cooling Valve Status  
BI 1 Configuration  
BI 2 Configuration  
UI 3 Configuration  
Pipe Number  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
27  
46  
47  
48  
52  
54  
57  
65  
76  
77  
AUX Configuration  
Fan Mode Sequence  
Proportional Band  
Floating Motor Timing  
On Off Control CPH  
TStat_HeatPump_Trane Template  
Table 45. Points Available in the TStat_HeatPump_Trane Template  
Data  
Normaliza-  
tion  
TStat Device Point  
Point  
Tracer SC Point Name  
Name  
Point Type Instance  
Cool Output 1 Status  
Y1 Cool  
Y2 Cool  
BI  
BI  
26  
27  
39  
38  
16  
47  
15  
25  
13  
28  
55  
18  
36  
Cool Output 2 Status  
Diagnostic Present  
Dirty Filter Alarm  
Service Alarm  
Filter Alarm  
BI  
BI  
Discharge Air Temperature  
Display Temperature Scale  
Fan Mode BAS  
Supply Temperature  
Temperature Scale  
Fan Mode  
AI  
BV  
MV  
BI  
Fan Output Status  
Heat Cool Mode Request  
Heat Output 1 Status  
In Defrost  
G Fan  
System Mode HP  
W1 Heat  
MV  
BI  
Yes  
Frost Protection  
Keypad Lockout  
Frost Alarm  
BV  
MV  
BI  
Keypad Lockout  
Low Temperature Alarm  
Minimum Heating Cooling Setpoint  
Differential  
Deadband  
AV  
52  
Occupancy Input  
Local Motion  
BI  
MV  
MV  
AV  
AV  
AV  
BI  
33  
12  
34  
43  
42  
9
Occupancy Request  
Occupancy Command  
Effective Occupancy  
Occupied Cool Setpoint  
Occupied Heat Setpoint  
Outdoor Temperature  
Reversing Valve  
Yes  
Yes  
Occupancy Status  
Occupied Cooling Setpoint  
Occupied Heating Setpoint  
Outdoor Air Temperature  
Reversing Valve  
30  
7
Space Temperature Active  
Supply Fan Configuration Command  
Supply Fan Failure  
Room Temperature  
Fan Control  
AV  
BV  
BI  
62  
40  
61  
45  
44  
20  
21  
48  
49  
Fan Lockout Alarm  
Timed Override Duration Setpoint  
Unoccupied Cooling Setpoint  
Unoccupied Heating Setpoint  
Temporary Occupancy Time  
Unoccupied Cool Setpoint  
Unoccupied Heat Setpoint  
PI Heating Demand  
PI Cooling Demand  
Heating Setpoint Limit  
Cooling Setpoint Limit  
MV  
AV  
AV  
AV  
AV  
AV  
AV  
BAS-SVP10A-EN  
43  
 
href="
Trane Communicating Thermostat Points List  
Table 45. Points Available in the TStat_HeatPump_Trane Template (continued)  
Data  
Normaliza-  
tion  
TStat Device Point  
Name  
Point  
Tracer SC Point Name  
Point Type Instance  
Heating Lockout  
Temperature  
AV  
50  
Cooling Lockout  
Temperature  
AV  
51  
Password Value  
Power-up Delay  
Unoccupied Time  
High Balance Point  
Low Balance Point  
AUX  
AV  
AV  
AV  
AV  
AV  
BI  
59  
60  
68  
82  
83  
24  
31  
32  
8
DI 1 Status  
BI  
DI 2 Status  
BI  
Room Temp Override  
Outdoor Temp Override  
Aux Contact  
BV  
BV  
BV  
BV  
BV  
BV  
10  
56  
57  
64  
84  
Menu Scroll  
Fan Purge Delay  
Comfort Mode  
Reversing Valve  
Configuration  
BV  
85  
Compressor Interlock  
Heating CPH  
BV  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
86  
53  
54  
63  
65  
66  
67  
75  
Cooling CPH  
Anticycle  
DI 1 Configuration  
DI 2 Configuration  
Proportional Band  
Heat Pump Stages  
TStat_RTU_Trane Template  
Table 46. Points Available in the TStat_RTU_Trane Template  
Data  
Normaliza-  
tion  
TStat Device Point  
Point  
Tracer SC Point Name  
Name  
Point Type Instance  
Cool Output 1 Status  
Y1 Cool  
Y2 Cool  
BI  
BI  
BI  
BI  
AI  
BV  
26  
27  
39  
38  
16  
47  
Cool Output 2 Status  
Diagnostic Present  
Service Alarm  
Dirty Filter Alarm  
Filter Alarm  
Discharge Air Temperature  
Display Temperature Scale  
Supply Temperature  
Temperature Scale  
Economizer Minimum Position Setpoint Economizer Minimum  
AV  
AV  
AV  
78  
80  
77  
BAS  
Position  
Economizer Mixed Air Enable Setpoint  
BAS  
Mixed Air Setpoint  
Economizer Outdoor Air Enable  
Setpoint BAS  
Economizer Changeover  
Setpoint  
Fan Mode BAS  
Fan Mode  
MV  
BI  
15  
25  
14  
28  
Fan Output Status  
Heat Cool Mode Request  
Heat Output 1 Status  
G Fan  
System Mode RTU  
W1 Heat  
MV  
BI  
Yes  
44  
BAS-SVP10A-EN  
 
href="
Trane Communicating Thermostat Points List  
Table 46. Points Available in the TStat_RTU_Trane Template (continued)  
Data  
Normaliza-  
tion  
TStat Device Point  
Name  
Point  
Tracer SC Point Name  
Point Type Instance  
Heat Output 2 Status  
W2 Heat  
BI  
29  
55  
18  
36  
In Defrost  
Frost Protection  
Keypad Lockout  
Frost Alarm  
BV  
MV  
BI  
Keypad Lockout  
Low Temperature Alarm  
Minimum Heating Cooling Setpoint  
Differential  
Deadband  
AV  
52  
Occupancy Input  
Local Motion  
BI  
33  
12  
34  
43  
42  
22  
9
Occupancy Request  
Occupancy Command  
Effective Occupancy  
Occupied Cool Setpoint  
Occupied Heat Setpoint  
Economizer Output  
Outdoor Temperature  
Room Temperature  
Fan Control  
MV  
MV  
AV  
AV  
AV  
AV  
AV  
BV  
BI  
Yes  
Yes  
Occupancy Status  
Occupied Cooling Setpoint  
Occupied Heating Setpoint  
Outdoor Air Damper Position  
Outdoor Air Temperature  
Space Temperature Active  
Supply Fan Configuration Command  
Supply Fan Failure  
7
62  
40  
61  
45  
44  
20  
21  
48  
49  
Fan Lockout Alarm  
Timed Override Duration Setpoint  
Unoccupied Cooling Setpoint  
Unoccupied Heating Setpoint  
Temporary Occupancy Time MV  
Unoccupied Cool Setpoint AV  
Unoccupied Heat Setpoint AV  
PI Heating Demand  
PI Cooling Demand  
Heating Setpoint Limit  
Cooling Setpoint Limit  
AV  
AV  
AV  
AV  
Heating Lockout  
Temperature  
AV  
AV  
50  
51  
Cooling Lockout  
Temperature  
Password Value  
Power-up Delay  
Unoccupied Time  
AUX  
AV  
AV  
AV  
BI  
59  
60  
68  
24  
31  
32  
8
DI 1 Status  
BI  
DI 2 Status  
BI  
Room Temp Override  
Outdoor Temp Override  
Aux Contact  
BV  
BV  
BV  
BV  
BV  
10  
56  
57  
64  
79  
53  
54  
63  
65  
66  
67  
73  
74  
Menu Scroll  
Fan Purge Delay  
Mechanical Cooling Enabled BV  
Heating CPH  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
MV  
Cooling CPH  
Anticycle  
DI 1 Configuration  
DI 2 Configuration  
Proportional Band  
Heating Stages  
Cooling Stages  
BAS-SVP10A-EN  
45  
Notes  
Notes  
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leader in creating and sustaining safe, comfortable and energy efficient environments, Trane offers a broad  
portfolio of advanced controls and HVAC systems, comprehensive building services, and parts. For more  
Trane has a policy of continuous product and product data improvement and reserves the right to change design and specifications without notice.  
© 2011 Trane All rights reserved  
We are committed to using environmentally  
conscious print practices that reduce waste.  
BAS-SVP10A-EN 26 Aug 2011  
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