Trane BAS-SVP10A-EN manual Communicating Thermostat Status LEDs, Troubleshooting

Page 28

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

Change MAC address to another

1 short blink

active at default MAC address =

value from 0 to 127

 

254

 

 

 

 

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

Power off and on the thermostat

the module)

baud rate as the network

 

 

 

 

2 short blinks and a longer blink

The thermostat has detected the

N/A

(wires connected to the module)

presence of a network

 

 

 

 

Right after power is applied: 2 long

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.

 

 

 

 

The MS/TP network has too many

Do not exceed the maximum number

 

devices.

of devices and maximum length

 

allowed by the EIA-485 specifications.

 

 

 

 

 

Thermostat does not come online

Too many devices were installed

Repeaters need to be installed as

without any repeaters.

specified in this document.

 

 

 

 

 

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

Apply power to the thermostat

 

power

 

 

 

 

 

28

BAS-SVP10A-EN

Page 27 Page 29
Image 28
Page 27 Page 29
Contents Integration Manual Copyright Table of Contents Objects and Parameters Tracer SC Network Configuration Overview Product DescriptionHow To Information Related DocumentsPlanning Your Integration OverviewSupported BACnet Services Default Device Name and Default Device IDSummary of BACnet Objects BACnet Interoperability Building BlocksFan Coil Objects Summary of BACnet ObjectsX13511541010 and -2010 Rooftop and Heat Pump Models Objects table for fan coilsOutput Configuration Options GRP PresentValue R General Options GRP PresentValue RRooftop and Heat Pump Objects Rooftop and heat pump ungrouped objectsType Rooftop Object Name Instance Object Property 1010 2010Economizer 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 supportedConfiguration Objects for Fan Coils Configuration Objects for Rooftop and Heat Pump UnitsList of Proprietary Properties Proprietary PropertiesFan Coil Object Properties BACnet Object PropertiesList of property value range restrictions Object Name Object ID BACnet Index Text Default value BACnet Object PropertiesList of property enumeration sets for MV objects Table NoteObject Name Object ID BACnet Index Text Default value Function MV58 MV17 Index State Text Index Default ValueMV15 Sequence of Operation values for Note Additional MV valuesFunction MV26 BV75 Value MV52 Index MV27 Object Name State Text IndexHour Hours Rooftop and Heat Pump Object Properties Object Type Under Range Object NameValue Over Range ValueList of property enumeration sets for BI and BV objects Object Type Object Name Instance InactiveText ActiveTextUnder Range Instance Value Over Range ValueObject Name Instance BACnet Index Text Object TypeNone RemNSB DI1 Configuration MV65 RemOVR Filter Service Objects You Can Use in Site Graphics Fan CoilsRooftop and Heat Pump Units Objects You Can Use in Site GraphicsWiring Requirements for Communicating Thermostats BACnet MS/TP Link WiringWiring Requirements for Communicating Thermostats Daisy chain configuration for BACnet wiringProduct Specifications Communicating Thermostat SpecificationsNetwork Adapter DetailsTroubleshooting Causes and solutions for error conditionPossible Cause Solution Communicating Thermostat Status LEDsMS/TP Network Integration Additional Information and ConsiderationsFan Coils Objects and Parameters Additional Information and Considerations Tracer SC Network Configuration No automatic installationNight Purge disabled No priority arrayHeat only/cool only Parameters not supportedDischarge 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 Template TStatHeatPumpTrane Tracer SC writing to the heat pump Occupancy StatusReading from heat pump to Tracer SC Occupancy Status Tracer SC writing to the heat pump Occupancy RequestTracer SC writing to the heat pump Heat Cool Mode Request Reading from Heat Pump to Tracer SC Heat Cool Mode RequestTemplate TStatRTUTrane Tracer SC writing to the rooftop unit Occupancy StatusTracer SC writing to the rooftop unit Occupancy Request Reading from rooftop unit to Tracer SC Occupancy RequestTrane Communicating Thermostat Points List TStatFanCoilTranePoints Available in the TStatFanCoilTrane Template TStat Device PointTStatHeatPumpTrane Template Trane Communicating Thermostat Points ListPoints Available in the TStatHeatPumpTrane Template Point Type Instance TionTStatRTUTrane Template Points Available in the TStatRTUTrane TemplatePoint Type YesAUX 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.
Top Page Image Contents