Trane Trane Communicating Thermostats (BACnet), BAS-SVP10A-EN manual Summary of BACnet Objects

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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

DS-RPM-B

Data Sharing – Write Property - B

DS-WP-B

Device Management - Device Communication Control - B DM-DCC-B

Device Management – Dynamic Device Binding - B

DM-DDB-B

Device Management – Dynamic Object Binding - 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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Contents Integration Manual Copyright Table of Contents Objects and Parameters Tracer SC Network Configuration Product Description OverviewOverview How To InformationRelated Documents Planning Your IntegrationBACnet Interoperability Building Blocks Supported BACnet ServicesDefault Device Name and Default Device ID Summary of BACnet ObjectsObjects table for fan coils Fan Coil ObjectsSummary of BACnet Objects X13511541010 and -2010 Rooftop and Heat Pump ModelsGeneral Options GRP PresentValue R Output Configuration Options GRP PresentValue RObject Name Instance Object Property 1010 2010 Rooftop and Heat Pump ObjectsRooftop and heat pump ungrouped objects Type RooftopEconomizer Model GRP PresentValue R Configuration Options Stages Configuration GRP PresentValue R OptionsHeatpump Model GRP PresentValue R Configuration Options Standard object types supported Standard Object Types SupportedProprietary Properties Configuration Objects for Fan CoilsConfiguration Objects for Rooftop and Heat Pump Units List of Proprietary PropertiesFan Coil Object Properties BACnet Object PropertiesList of property value range restrictions Table Note Object Name Object ID BACnet Index Text Default valueBACnet Object Properties List of property enumeration sets for MV objectsAdditional MV values Object Name Object ID BACnet Index Text Default valueFunction MV58 MV17 Index State Text Index Default Value MV15 Sequence of Operation values for NoteMV27 Object Name State Text Index Function MV26 BV75 Value MV52 IndexHour Hours Over Range Value Rooftop and Heat Pump Object PropertiesObject Type Under Range Object Name ValueInstance Value Over Range Value List of property enumeration sets for BI and BV objectsObject Type Object Name Instance InactiveText ActiveText Under RangeObject Type Object Name Instance BACnet Index TextNone RemNSB DI1 Configuration MV65 RemOVR Filter Service Fan Coils Objects You Can Use in Site GraphicsObjects You Can Use in Site Graphics Rooftop and Heat Pump UnitsBACnet MS/TP Link Wiring Wiring Requirements for Communicating ThermostatsDaisy chain configuration for BACnet wiring Wiring Requirements for Communicating ThermostatsDetails Product SpecificationsCommunicating Thermostat Specifications Network AdapterCommunicating Thermostat Status LEDs TroubleshootingCauses and solutions for error condition Possible Cause SolutionMS/TP Network Integration Additional Information and ConsiderationsFan Coils Objects and Parameters Additional Information and Considerations No priority array Tracer SC Network ConfigurationNo automatic installation Night Purge disabledParameters not supported Heat only/cool onlyDischarge air temp requirements No active setpoint or heat/cool mode dataInappropriate text on graphic displays BAS-SVP10A-EN Example Occupancy Request Data NormalizationTemplate TStatFanCoilTrane Reading from fan coil to Tracer SC Heat Cool Mode Request Tracer SC writing to the fan coil Heat Cool Mode RequestData Normalization Reading from fan coil to tracer SC Fan Mode BAS Tracer SC writing to the fan coil Fan Mode BASTracer SC Point name Supply Fan Staged Speed Status Tracer SC writing to the heat pump Occupancy Request Template TStatHeatPumpTraneTracer SC writing to the heat pump Occupancy Status Reading from heat pump to Tracer SC Occupancy StatusTracer SC writing to the rooftop unit Occupancy Status Tracer SC writing to the heat pump Heat Cool Mode RequestReading from Heat Pump to Tracer SC Heat Cool Mode Request Template TStatRTUTraneReading from rooftop unit to Tracer SC Occupancy Request Tracer SC writing to the rooftop unit Occupancy RequestTStat Device Point Trane Communicating Thermostat Points ListTStatFanCoilTrane Points Available in the TStatFanCoilTrane TemplatePoint Type Instance Tion TStatHeatPumpTrane TemplateTrane Communicating Thermostat Points List Points Available in the TStatHeatPumpTrane TemplateYes TStatRTUTrane TemplatePoints Available in the TStatRTUTrane Template Point TypeAUX Page

BAS-SVP10A-EN, Trane Communicating Thermostats (BACnet) specifications

The Trane BAS-SVP10A-EN is a part of the Trane Communicating Thermostats series designed to facilitate efficient and effective building temperature control in HVAC systems. These thermostats work with BACnet (Building Automation and Control Network), a widely adopted communication protocol in building automation for networked control of HVAC systems, lighting, access control, and fire systems.

One of the standout features of the Trane BAS-SVP10A-EN is its compatibility with various Trane equipment and other BACnet-compliant devices. This versatility allows for seamless integration into existing building systems, enhancing operational efficiency. The thermostat is designed to support zoning applications, offering precise temperature control to individual areas or rooms, thus significantly improving occupant comfort while also minimizing energy consumption.

The Trane communicating thermostat is built with advanced technologies that ensure optimal performance. It utilizes digital communication, enabling real-time data exchange between the thermostat and the HVAC system. This capability enhances the responsiveness of the HVAC system, allowing it to adjust more accurately to changing environmental conditions. The thermostat features an intuitive interface with a clear display, making it user-friendly for building occupants and facility managers alike.

Another important characteristic is its advanced scheduling capabilities. Users can program customized heating and cooling schedules, promoting energy savings while maintaining comfort levels. Additionally, its remote access feature allows for monitoring and control from smartphones, tablets, or computers, making it convenient for users to manage their HVAC systems from virtually anywhere.

The Trane BAS-SVP10A-EN also boasts robust diagnostic and reporting functions. It can provide feedback on system performance, enabling proactive maintenance and troubleshooting, which increases the reliability of HVAC operations. Overall, the Trane Communicating Thermostat represents a sophisticated solution for modern building management, focusing on comfort, energy efficiency, and ease of integration into existing systems. With its commitment to leveraging cutting-edge technology, Trane continues to lead in providing innovative solutions for heating, ventilation, and air conditioning needs in diverse building environments.
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