Integration Guide BACnet®® Integration to Odyssey Units with Symbio™ 700 Controls

SSAAFFEETTYYWWAARRNNIINNGG 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.

November 2020 AACCCC--SSVVPP000011BB--EENN Introduction Read this manual thoroughly before operating or servicing this unit. Warnings, Cautions, and Notices Safety advisories appear throughout this manual as required. Your personal safety and the proper operation of this machine depend upon the strict observance of these precautions.

The three types of advisories are defined as follows:

Indicates a potentially hazardous situation which, if not avoided, could result in WARNING death or serious injury.

Indicates a potentially hazardous situation which, if not avoided, could result in CAUTION minor or moderate injury. It could also be used to alert against unsafe practices.

Indicates a situation that could result in equipment or property-damage only NOTICE accidents.

Important Environmental Concerns Scientific research has shown that certain man-made chemicals can affect the earth’s naturally occurring stratospheric ozone layer when released to the atmosphere. In particular, several of the identified chemicals that may affect the ozone layer are that contain Chlorine, Fluorine and Carbon (CFCs) and those containing Hydrogen, Chlorine, Fluorine and Carbon (HCFCs). Not all refrigerants containing these compounds have the same potential impact to the environment. Trane advocates the responsible handling of all refrigerants-including industry replacements for CFCs and HCFCs such as saturated or unsaturated HFCs and HCFCs. Important Responsible Practices Trane believes that responsible refrigerant practices are important to the environment, our customers, and the industry. All technicians who handle refrigerants must be certified according to local rules. For the USA, the Federal Clean Air Act (Section 608) sets forth the requirements for handling, reclaiming, recovering and recycling of certain refrigerants and the equipment that is used in these service procedures. In addition, some states or municipalities may have additional requirements that must also be adhered to for responsible management of refrigerants. Know the applicable laws and follow them. WWAARRNNIINNGG PPrrooppeerrFFiieellddWWiirriinnggaannddGGrroouunnddiinnggRReeqquuiirreedd!! FFaaiilluurreettooffoolllloowwccooddeeccoouullddrreessuullttiinnddeeaatthhoorrsseerriioouussiinnjjuurryy.. AAllllffiieellddwwiirriinnggMMUUSSTTbbeeppeerrffoorrmmeeddbbyyqquuaalliiffiieeddppeerrssoonnnneell..IImmpprrooppeerrllyyiinnssttaalllleeddaanndd ggrroouunnddeeddffiieellddwwiirriinnggppoosseessFFIIRREEaannddEELLEECCTTRROOCCUUTTIIOONNhhaazzaarrddss..TTooaavvooiiddtthheesseehhaazzaarrddss,, yyoouuMMUUSSTTffoolllloowwrreeqquuiirreemmeennttssffoorrffiieellddwwiirriinnggiinnssttaallllaattiioonnaannddggrroouunnddiinnggaassddeessccrriibbeeddiinn NNEECCaannddyyoouurrllooccaall//ssttaattee//nnaattiioonnaalleelleeccttrriiccaallccooddeess..

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Copyright This document and the information in it are the property of Trane, and may not be used or reproduced in whole or in part without written permission. 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 All trademarks referenced in this document are the trademarks of their respective owners.

ACC-SVP001B-EN 3 Table of Contents

Overview ...... 5 Purpose...... 5 Symbio 800700 Controller Overview...... 5 Communication Options ...... 5 Units of Measure ...... 5 Communication Setup and Configuration ...... 6 Mobile Application ...... 7 Bluetooth Pairing ...... 7 Quick Connection Instructions...... 7 Connecting to the Symbio 700 controller ...... 7 Protocol Configuration...... 10 BACnet MS/TP Protocol Setup ...... 11 BACnet IP Protocol Setup...... 12 Air-Fi® Wireless ...... 13 BACnet Wiring...... 14 BACnet MS/TP ...... 14 BACnet IP...... 14 BACnet Points List ...... 15 Object Naming Conventions ...... 15 Object Data Points and Diagnostic Data Points ...... 15

4 ACC-SVP001B-EN Overview Purpose The purpose of this document is to provide instructions for integrating the Symbio™ 800700 controller into Non-Trane systems. This document is targeted to system integrators and controls contractors. Symbio 800700 Controller Overview The Symbio 800700 controller has been installed, programmed, wired, commissioned, and tested in the factory prior to shipment. While some sensors and end devices are normally wired in the field, nearly all other wiring is factory-provided. Power for the controller is provided and connected from within the RTU control panel. The RTUunit and associated controller can be applied as standalone or as part of a building automation system. NNoottee:: For communicating applications to third-party control systems, network communication wiring must be provided by others. Communication Options The Symbio™ 700800 controller supports the following communication protocol options for integration to either Trane or Non-Trane control systems: • BACnet MS/TP • BACnet IP • BACnet Zigbee (Air-Fi)™ • BACnet/IP – Ethernet – Wi-Fi • RTU • Modbus TCP • LonTalk For information pertaining to the integration of the Symbio™ 700800 controller using either Modbus or LonTalk communication, refer to the integration guides specific to those applications. Units of Measure The communicated data of the Symbio 700 controller will be passed in the factory-configured units of measure, inch-pound (I-P) by default. The Symbio™ Service and Installation mobile app allows the user to change and customize the Data Display Units Preferences. Regardless of the communicated (system) units of measure, the user may change the displayed units of measure on their smart device – user preference. These user preference units of measure are independent of the communicated units.

ACC-SVP001B-EN 5 Communication Setup and Configuration

The Symbio controller can be factory ordered with a specific protocol configuration. The Symbio 700 controller supports BACnet MS/TP, BACnet IP, BACnet/Zigbee (Air-Fi™ Wireless) and LonTalk and can be ordered from the factory with all of these configured. Depending on the protocol of use and associated parameter definition, use of the mobile application may be necessary. Refer to the following section for additional information on using the mobile application.

6 ACC-SVP001B-EN Mobile Application

The Trane Symbio™ Service and Installation mobile app is required to setup, edit, and confirm the communication protocol and associated settings. The free download of Trane Symbio Service and Installation mobile app is available on the App Store® for iOS, and on Google Play® for Android™. Figure 1. Trane Symbio™™ Service and Installation mobile app

Bluetooth Pairing Quick Connection Instructions Follow these instructions to quickly connect the mobile app to the Symbio 700 controller:

Connecting to the Symbio 700 controller 1. Enable BBlluueettooootthh on your smart device.

2. Press on Symbio 700 keyboard/display to turn on Bluetooth. 3. Confirm the status of Bluetooth communications.

ACC-SVP001B-EN 7 MMoobbiilleeAApppplliiccaattiioonn

Blue LED Display Description

Off NOT CONNECTED Bluetooth Off

Blinking WAITING... Bluetooth On — Not Paired Press for On/Off Bluetooth On — Connected/ On Solid CONNECTED Paired

Figure 2. Symbio 700 Bluetooth status

4. Start the mobile app on your smart device. 5. On the login screen, press SSkkiipp in the lower right-hand corner of the screen. Or Trane personnel can login using their Trane Connect username and password. 6. On the Unit List page, select the Symbio 700 controller that you want to pair with. If the controller is not listed, press the refresh arrow in the upper right-hand corner of the screen. 7. When prompted, pair the app to the Symbio 700 controller. A popup message displays a 6- digit random number. The same number is shown on the display of the Symbio 700 controller until the pairing is complete, allowing the user to confirm connection to the intended controller. Figure 3. Bluetooth pairing

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8 ACC-SVP001B-EN MMoobbiilleeAApppplliiccaattiioonn

IImmppoorrttaanntt:: To keep the list of previously-connected devices manageable, the Bluetooth smart devices list is limited to 10 devices. When 10 or more Bluetooth devices are defined on the smart device, connection to the Symbio 700 controller is not allowed. • iiOOSSddeevviicceess - delete any unused devices until there are less than 10 items. • AAnnddrrooiiddddeevviicceess - the devices list is automatically limited to 10 items. The Symbio Installation and Service tool is required to view and configure the following: • Building Automation System configuration (Advanced Controller Configuration) – BACnet over Zigbee® (Air-Fi™ Wireless) – BACnet IP (Internet Protocol) – BACnet MS/TP – LonTalk • Historical Alarms • Firmware Updates • Backup & Restore For more detailed information on the Symbio Service and Installation Mobile Application, refer to the Quick Start Guide for Symbio Service and Installation - BAS-SVN043.

ACC-SVP001B-EN 9 Protocol Configuration

After completing Bluetooth pairing, the mobile app main screen displays. From here, configure the Symbio 700 protocols. 1. On the bottom of the home screen, tap TToooollss. Figure 4. Tools

2. Tap PPrroottooccoollCCoonnffiigguurraattiioonn to select the appropriate protocol. Figure 5. Protocol Configuration

10 ACC-SVP001B-EN PPrroottooccoollCCoonnffiigguurraattiioonn

3. Tap EEddiitt. Figure 6. Edit

4. Edit according to the connectivity requirement of the building automation system. BACnet MS/TP Protocol Setup The Symbio 700 controller rotary address sets the BACnet MS/TP MAC address. Each BACnet MS/TP device on the same MS/TP link must have a unique MAC address. The valid range of BACnet MS/TP MAC addresses for the Symbio 700 is 001–127. Changing the rotary address will immediately take effect and does NOT require a power cycle to the Symbio 700 controller. The rotary address also sets the BACnet Device ID which gives a range of 1-127. All BACnet devices must have a unique BACnet Device ID. The Device ID can be edited using the mobile app. To configure the Symbio 700 controller for BACnet MS/TP Protocol: 1. Set the PPrroottooccooll selection to BBAACCnneettMMSS//TTPP. 2. Verify the BBaauuddRRaattee (default is 76,800 bps). All BACnet MS/TP devices on an MS/TP link must communicate at the same baud rate. 3. Verify the CCuurrrreennttDDeevviicceeIIDD. To change the device ID, tap UUsseeSSooffttwwaarreeDDeevviicceeIIDD and enter the desired device ID (See Figure 7, p. 12). NNoottee:: The valid Device ID range using a software Device ID is 1 – 4194302 as defined by the BACnet standard.

ACC-SVP001B-EN 11 PPrroottooccoollCCoonnffiigguurraattiioonn

Figure 7. Edit Protocol Configuration

4. Tap AAppppllyy to save your changes. BACnet IP Protocol Setup The Symbio 700 controller can communicate BACnet/IP using a standard Ethernet cable. Connect the Ethernet cable (RJ-45 connectors) between the Ethernet port on the Symbio 700 controller and the BACnet network. Set up the IP address of the Symbio 700 controller before changing other BACnet/IP configuration parameters: 1. From the TToooollss page, tap IIPPCCoonnffiigguurraattiioonn. Figure 8. IP Configuration

2. Tap EEddiitt. 3. Configure IP Address to either obtain the IP address automatically using DHCP or define a Static IP Address. If Static IP Address has been selected, manually enter the applicable IIPP AAddddrreessss, SSuubbnneettMMaasskk, and DDeeffaauullttGGaatteewwaayy. 4. Setup the DNS section if using a Domain Name System server to identify the Symbio 700 controller by host name.

12 ACC-SVP001B-EN PPrroottooccoollCCoonnffiigguurraattiioonn

Figure 9. Host Name

5. Tap SSaavvee. To configure the Symbio 700 controller for BACnet IP Protocol: 1. Set the Protocol select to BBAACCnneettIIPP. 2. Verify the current Device ID. To change the Device ID, click UUsseeSSooffttwwaarreeDDeevviicceeIIDD and enter the desired DDeevviicceeIIDD. Most installations will not require you to manually change the BACnet Device ID. NNoottee:: The valid Device ID range using a software Device ID is 1 – 4194302 as defined by the BACnet standard. 3. Tap AAppppllyy to save your changes. 4. Set the UUDDPPPPoorrtt to match the port number used by the BACnet IP network. 5. Select BBMD only if the Symbio 700 controller is the only BACnet IP device on the IP subnet. Figure 10. Edit Protocol Configuration

6. Tap AAppppllyy. Air-Fi®® Wireless Air-Fi Wireless – Conforms to ANSI/ASHRAE Standard 135-2016 (BACnet®/ZigBee®1). Air-Fi Wireless provides reliable and secure, and location-flexible communication between equipment controls, sensors, and service tools to the system controller. Air-Fi networks will be setup by a Trane technician. Integration to a Symbio 700 controller setup for Air-Fi communications uses BACnet IP communication through a Tracer SC+ system controller. Contact your local Trane office for additional information if the Symbio 700 controller is setup for Air-Fi Wireless.

ACC-SVP001B-EN 13 PPrroottooccoollCCoonnffiigguurraattiioonn BACnet Wiring BACnet MS/TP The BACnet MS/TP communication wire is connected to the J17 Connector. Observe wire polarity when connecting to the + and – terminals. The + terminals and the – terminals are internally connected. The second set of + and – terminals on the J17 Connector are used to make it easier to wire the next BACnet MS/TP device in the daisy chain. BACnet IP If using BACnet/IP using a standard Ethernet cable, connect the Ethernet cable with RJ-45 connectors to the Ethernet port and the BACnet network. Refer to the BACnet standard or BACnet® MS/TP Wiring and Link Performance Best Practices and Troubleshooting guide (BAS-SVX51–EN) for detailed information on MS/TP wiring. Figure 11. BACnet Wiring

14 ACC-SVP001B-EN BACnet Points List Object Naming Conventions The communicated points for the Symbio™ controllers are generally named according to their function. While many of the points are read-only, others include both read and write capability. The established naming convention helps to identify the capabilities of each point. For most points, the suffix identifies the capability according to the following definition. While there are some exceptions, the majority of the points have been defined according to these guidelines.

Suffix Description

Status Points with the Status suffix are defined as read-only. The status point reports the value being used by the controller.

Local Points with the Local suffix are defined as read-only. The local point reports values associated with controller sensors, both wired and wireless. The local value may or may not be actively used by the controller, depending on the presence or absence of a communicated value (BAS). When both a local and communicated value exist, the communicated value is used.

Active Points with the Active suffix are defined as read-only. Points designated as active are normally the result of the arbitration between a communicated value (BAS) and at least one value local to the equipment, such as a sensor or default setpoint. The active point reports the value being used by the controller.

Setpoint Points with the Setpoint suffix are defined as either read-only or read/write. For BACnet, the binary input, analog input and multi-state input points are all read- only. These setpoints report the value currently in use by the controller. The analog value, binary value and multi-state value points are all read/write. These points are provided for use by the building automation system (BAS). When used, these points are written internally to arbitration logic. This defines the interaction with hardwired points, editable software configuration points and the relinquish default value/state. Refer to the Appendix for additional information.

Input Points with the Input suffix are defined as read-only. These points normally reflect the status of a sensor input, either hardwired or communicating wirelessly (Air- Fi). However, the input point reflects the arbitrated result of the controller sensor input and a communicated value, if present. When both a controller sensor and communicated value exist, the controller will use and report the communicated value.

Arbitrator Points with the “Arbitrator” suffix are to be used as read-only. The arbitrator prioritizes inputs from communicating points, hardwired points and stored defaults points. The priority array of the arbitration point displays each of the values provided, including the active status, indicating which of the input sources is being used. Refer to the Appendix for additional information.

BAS Points with the BAS suffix are defined as read/write. These points are provided for use by the building automation system (BAS). When used, these points are written to arbitration logic. This defines the interaction with hardwired points, editable software configuration points and the relinquished default value/state. Refer to the Appendix for additional information.

Command Points with the Command suffix are defined as read/write. These points are written to change the default behavior of the controller. Once written, these point values may be persisted.

Request Points with the Request suffix are defined as read/write. These points are written to change the operating behavior of the controller.

Object Data Points and Diagnostic Data Points The following tables are sorted as follows: • Tables are listed by input/output type and sorted by object identifier. These tables provide the user with the units type for each object type.

ACC-SVP001B-EN 15 BBAACCnneettPPooiinnttssLLiisstt

• Tables are sorted by object name and provide a complete list of object names, types, values/ ranges, and descriptions. NNoottee:: Not all points are available to the user. The available data points are defined during self-configuration and are dependent on the type of equipment. Table 1. Analog Inputs

Object Object Name Description Units When Exists Identifier

Coil Temperature Outdoor Coil Temperature Sensor for Circuit DEGREES_ AI-11100 All Heat Pumps Sensor 1 1 on HP units FAHRENHEIT Multi-Circuit Heat Pumps with Coil Temperature Outdoor Coil Temperature Sensor for Circuit DEGREES_ AI-11101 Independent Condenser Sensor 2 2 on Independent Circuit Controlled HP units FAHRENHEIT Airstreams Cooling Capacity Indicates the actual operating unit cooling AI-10101 PERCENT Always Status capacity, in percent Customer Options Software Major Version for Customer Customer Options Module AI-11140 Module Firmware NO_UNITS Connection Options Module Installed and In-Use Major Version Customer Options Customer Options Module Software build Customer Options Module AI-11141 Module Firmware NO_UNITS number Installed and In-Use Minor Version System Type Configured as Indicates the discharge air temperature Discharge Air DEGREES_ VVZT or AI-10124 value from a sensor connected to the Temperature Local FAHRENHEIT Discharge Temperature controller Sensor is Configured Heating Capacity Indicates the unit (primary) heating Primary Heating Source AI-10102 PERCENT Primary Status capacity, in percent Installed Indoor Options Software Major Version for Indoor Options Indoor Options Module AI-11134 Module Firmware NO_UNITS Module Installed and In-Use Major Version Indoor Options Indoor Options Module Software build Indoor Options Module AI-11135 Module Firmware NO_UNITS number Installed and In-Use Minor Version On-Board I/O Software Major Version for On-Board I/O AI-11132 Firmware Major NO_UNITS Always Module Version On-Board I/O AI-11133 Firmware Minor On-Board I/O Module Software build number NO_UNITS Always Version Outdoor Air Indicates the active OA temperature DEGREES_ AI-10118 Temperature Always currently being used by the controller FAHRENHEIT Active Outdoor Air Indicates the OA temp value from a sensor DEGREES_ AI-10156 Always Temperature Local connected to the controller FAHRENHEIT Sensor Battery Status percentage of connected AirFi sensor Air-Fi Sensor Installed and AI-11150 PERCENT Status Air-Fi (s). Enabled Space CO2 Indicates the space CO2 concentration from PARTS_PER_ AI-11151 Concentration Air- CO2 Sensor Configured a wireless sensor connected to the controller. MILLION Fi Space CO2 Indicates the space CO2 concentration from PARTS_PER_ AI-11103 Concentration CO2 Sensor Configured a sensor hardwired to the controller. MILLION Input Space Indicates the active space relative humidity AI-10116 PERCENT Humidity Sensor Configured Active being used by the controller Space Humidity Indicates the space relative humidity from a AI-11152 PERCENT Humidity Sensor Configured Air-Fi connected wireless sensor. Space Humidity Indicates the space relative humidity from a AI-11104 PERCENT Humidity Sensor Configured Input sensor wired to the controller. Space Controller Not Space Indicates the space temp from a connected DEGREES_ AI-11154 Configured as Conventional Temperature Air-Fi wireless (AirFi) sensor FAHRENHEIT TStat Space Temperature Indicates the (occupied) cooling setpoint DEGREES_ Space Controller Configured AI-11155 Cooling Setpoint from the connected wireless space sensor FAHRENHEIT as Dual Setpoint Zone Sensor Air-Fi Space Temperature Indicates the (occupied) cooling setpoint DEGREES_ Space Controller Configured AI-11159 Cooling Setpoint from the connected wired space sensor FAHRENHEIT as Dual Setpoint Zone Sensor Input

16 ACC-SVP001B-EN BBAACCnneettPPooiinnttssLLiisstt

Table 1. Analog Inputs (continued)

Object Object Name Description Units When Exists Identifier

Space Heating Source Installed and Temperature Indicates the (occupied) heating setpoint DEGREES_ Space Controller Configured AI-11156 Heating Setpoint from the connected wireless space sensor FAHRENHEIT as Dual Setpoint Zone Sensor Air-Fi and Air-Fi Installed Space Heating Source Installed and Temperature Indicates the (occupied) heating setpoint DEGREES_ AI-11160 Space Controller Configured Heating Setpoint from the connected wired space sensor FAHRENHEIT as Dual Setpoint Zone Sensor Input Space Controller Not Space Indicates the space temp from a wired DEGREES_ AI-10218 Configured as Conventional Temperature Input sensor. FAHRENHEIT TStat Space Space Controller Configured Space Temperature Setpoint from a DEGREES_ AI-11157 Temperature as Single Setpoint Zone connected wireless sensor. FAHRENHEIT Setpoint Air-Fi Sensor Space Space Controller Configured Space Temperature Setpoint from a DEGREES_ AI-11161 Temperature as Single Setpoint Zone connected wired sensor. FAHRENHEIT Setpoint Input Sensor Indicates the unit commanded supply Supply Fan Speed Indoor Fan Type Configured as AI-11106 speed output. Typically reflects commands to PERCENT Command Status Multi Speed or Variable Speed a speed control device.

Table 2. Analog Values Heartbeat Object Object Name Description Units Valid Range When Exists Interval Identifier (sec) Space Controller not Proportional gain for single loop Auxiliary Heating P- Configured as Conventional AV-11266 PI controller PERCENT 0.1 to 100 0 Gain (%/F) TStat and Auxiliary heat (%/F) installed. Space Controller not Auxiliary Heating Reset time for single loop Electric Configured as Conventional AV-11267 Reset Time NO_UNITS 90 to 3600 0 Heating PI controller (second) TStat and Auxiliary heat (seconds) installed. Indicates the cabinet style of the AV-11108 Cabinet Style NO_UNITS 0 to 255 Always 0 unit System Type Configured as Cooling Proportional gain for 1st loop VVZTand Space Controller AV-11268 PERCENT 0.1 to 100 0 P-Gain - 1 (%/F) Cooling PI controller (%/F) not Configured as Conventional TStat System Type Configured as Proportional gain for 2nd loop Compressor Cooling VVZTand Space Controller AV-11270 compressor cooling PI controller PERCENT 0.1 to 100 0 P-Gain - 2 (%/F) not Configured as (%/F) Conventional TStat System Type Configured as Proportional gain for single loop Compressor Cooling CVZT or VVZTand Space AV-11256 Compressor Cooling PI controller PERCENT 0.1 to 100 0 P-Gain (%/F) Controller not Configured as (%/F) Conventional TStat System Type Configured as Compressor Cooling Reset time for 1st loop Cooling PI VVZTand Space Controller AV-11269 Reset Time - 1 NO_UNITS 90 to 3600 0 controller (second) not Configured as (seconds) Conventional TStat System Type Configured as Compressor Cooling Reset time for 2nd loop VVZTand Space Controller AV-11271 Reset Time - 2 compressor cooling PI controller NO_UNITS 1 to 1000 0 not Configured as (seconds) (second) Conventional TStat System Type Configured as Compressor Cooling Reset time for single loop CVZT or VVZTand Space AV-11257 Reset Time compressor Cooling PI controller NO_UNITS 90 to 3600 0 Controller not Configured as (seconds) (second) Conventional TStat Proportional gain for single loop Heat Pumps with Space Compressor Heating AV-11264 Heating PI controller PERCENT 0.1 to 100 Controller not Configured as 0 P-Gain (%/F) (%/F) Conventional TStat Compressor Heating Reset time for single loop Heat Heat Pumps with Space AV-11265 Reset Time Pump Heating PI controller NO_UNITS 90 to 3600 Controller not Configured as 0 (seconds) (second) Conventional TStat Describes the type of cooling in AV-11202 Cool Type NO_UNITS 0 to 255 Always 0 the unit

ACC-SVP001B-EN 17 BBAACCnneettPPooiinnttssLLiisstt

Table 2. Analog Values (continued) Heartbeat Object Object Name Description Units Valid Range When Exists Interval Identifier (sec) Used to limit the cooling capacity Cooling Capacity AV-10139 of the unit; 0% = no cooling PERCENT 0 to 100 Always 0 Enable possible Active value for Cooling Capacity Cooling Capacity AV-11185 Enable point being used for PERCENT 0 to 100 Always 0 Enable - Active control. Cooling Capacity AV-11112 Remote cooling capacity request PERCENT 0 to 100 Always 0 Setpoint BAS Cooling Capacity Active value for Cooling Capacity AV-11189 Setpoint BAS - Setpoint BAS point being used for PERCENT 0 to 100 Always 0 Active control. Cooling Demand Demand Management Cooling Demand Limit Capacity AV-11168 Limit Capacity PERCENT 0 to 100 Configured as Demand 0 Enable Setpoint Enable Setpoint Limit Cooling Demand Active value for Cooling Demand Demand Management Limit Capacity AV-11247 Limit Capacity Enable Setpoint PERCENT 0 to 100 Configured as Demand 0 Enable Setpoint - point being used for control. Limit Active DELTA_ Demand Management Demand Shed Offset AV-11167 Demand Shed Offset Setpoint DEGREES_ 0 to 10 Configured as Demand 0 Setpoint FAHRENHEIT Shed Active value for Demand Shed DELTA_ Demand Management Demand Shed Offset AV-11209 Offset Setpoint point being used DEGREES_ 0 to 10 Configured as Demand 0 Setpoint - Active for control. FAHRENHEIT Shed System Type Configured as Discharge Air Discharge Air Cooling Setpoint DEGREES_ VVZTand Space Controller AV-11140 Cooling Setpoint 40 to 80 0 (Target) FAHRENHEIT not Configured as (Target) Conventional TStat System Type Configured as Discharge Air Active value for Discharge Air DEGREES_ VVZTand Space Controller AV-11236 Cooling Setpoint Cooling Setpoint (Target) point 40 to 80 0 FAHRENHEIT not Configured as (Target) - Active being used for control. Conventional TStat Maximum discharge air System Type Configured as Discharge Air temperature allowed during DEGREES_ VVZTand Space Controller AV-11121 Temperature 40 to 200 0 space temperature cooling mode FAHRENHEIT not Configured as Maximum Cool Limit of operation. Conventional TStat Discharge Air System Type Configured as Active value for Discharge Air Temperature DEGREES_ VVZTand Space Controller AV-11200 Temperature Maximum Cool Limit 40 to 200 0 Maximum Cool Limit FAHRENHEIT not Configured as point being used for control. - Active Conventional TStat (System Type Configured as VVZT or Discharge Air Supply Air Tempering Used to define the discharge air DEGREES_ AV-10167 Temperature 40 to 100 Configured as Enabled and 0 temperature minimum cool limit FAHRENHEIT Minimum Cool Limit Space Controller not Configured as Conventional TStat (System Type Configured as VVZT or Discharge Air Active value for Discharge Air Supply Air Tempering Temperature DEGREES_ AV-11193 Temperature Minimum Cool Limit 40 to 100 Configured as Enabled and 0 Minimum Cool Limit FAHRENHEIT point being used for control. Space Controller not - Active Configured as Conventional TStat System Type Configured as Discharge Air Indicates the discharge air temp VVZT and DEGREES_ AV-10281 Temperature setpoint actively being used for 40 to 200 Space Controller not 0 FAHRENHEIT Setpoint Active control. Configured as Conventional TStat Exhaust Or Return Identifies the product exhaust or AV-11115 NO_UNITS 0 to 255 Always 0 Fan Type return fan type Indicates the number of hours air AV-11116 Filter Runtime Hours NO_UNITS 0 to 10000 Always 0 has flowed through the filter Filter Runtime Hours The setpoint value used by the AV-10138 NO_UNITS 0 to 10000 Always 0 Setpoint filter run hours calculation Active value for Filter Runtime Filter Runtime Hours AV-11217 Hours Setpoint point being used NO_UNITS 0 to 10000 Always 0 Setpoint - Active for control.

18 ACC-SVP001B-EN BBAACCnneettPPooiinnttssLLiisstt

Table 2. Analog Values (continued) Heartbeat Object Object Name Description Units Valid Range When Exists Interval Identifier (sec) Used to demand limit the heating Heat Primary Enable Primary Heating Source AV-10140 capacity; 0% = No Heating PERCENT 0 to 100 0 BAS Configured Possible Active value for Heat Primary Heat Primary Enable Primary Heating Source AV-11218 Enable BAS point being used for PERCENT 0 to 100 0 BAS - Active Configured control. Setpoint at which to disable heat Heat Pump Heating DEGREES_ AV-11274 pump heating based on outdoor -40 to 45 Heat Pump Systems 0 Lockout Setpoint FAHRENHEIT air temperature. Heat Pump Heating Setpoint at which to disable heat DEGREES_ AV-11275 Lockout Setpoint - pump heating based on outdoor -40 to 45 Heat Pump Systems 0 FAHRENHEIT Active air temperature. Heat Secondary Indicates the unit secondary Secondary Heating Source AV-11249 PERCENT 0 to 100 0 Capacity Status heating capacity being utilized. Configured Heating Capacity Setpoint to command the unit to Primary Heating Source AV-11164 PERCENT 0 to 100 0 Setpoint BAS a givent heating capacity output Configured Heating Capacity Active value for Heating Capacity Primary Heating Source AV-11219 Setpoint BAS - Setpoint BAS point being used for PERCENT 0 to 100 0 Configured Active control. Demand Management Heating Demand Heating Demand Limit Capacity Configured as Demand AV-11120 Limit Capacity PERCENT 0 to 100 0 Enable Setpoint Limit and Primary Heating Enable Setpoint Source Configured Heating Demand Demand Management Active value for Heating Demand Limit Capacity Configured as Demand AV-11199 Limit Capacity Enable Setpoint PERCENT 0 to 100 0 Enable Setpoint - Limit and Primary Heating point being used for control. Active Source Configured Used to configure the occupied Space Controller not Occupied Bypass AV-10169 bypass time (occupancy NO_UNITS 0 to 240 Configured as Conventional 0 Time override) TStat Used to define the occ cooling Space Controller Configured Occupied Cooling DEGREES_ AV-10159 setpt when both heat and cool 52 to 90 as Dual Setpoint Zone 0 Setpoint BAS FAHRENHEIT setpoints are used Sensor Used to define the occ heating Heating Installed and Space Occupied Heating DEGREES_ AV-10160 setpt when both heat and cool 50 to 88 Controller Configured as 0 Setpoint BAS FAHRENHEIT setpoints are used Dual Setpoint Zone Sensor Difference between the occ cool DELTA_ Space Controller Configured AV-10130 Occupied Offset and heat setpts when a single DEGREES_ 1 to 5 As Single Setpoint Zone 0 setpoint is used FAHRENHEIT Sensor Occupied Standby Defines the occ standby cooling Space Controller Configured DEGREES_ AV-10161 Cooling Setpoint setpt when both heat/cool 52 to 90 as Dual Setpoint Zone 0 FAHRENHEIT BAS setpoints are provided Sensor Occupied Standby Space Controller Configured Active value for Occupied DEGREES_ AV-11250 Cooling Setpoint 52 to 90 as Dual Setpoint Zone 0 Standby Cooling Setpoint BAS FAHRENHEIT BAS - Active Sensor Occupied Standby Defines the occ standby heating Heating Installed and Space DEGREES_ AV-10162 Heating Setpoint setpt when both heat/cool 50 to 88 Controller Configured as 0 FAHRENHEIT BAS setpoints are provided Dual Setpoint Zone Sensor Occupied Standby Heating Installed and Space Active value for Occupied DEGREES_ AV-11251 Heating Setpoint 50 to 88 Controller Configured as 0 Standby Heating Setpoint BAS FAHRENHEIT BAS - Active Dual Setpoint Zone Sensor Difference between the occ DELTA_ Space Controller Configured Occupied Standby AV-10142 standby cool and heat setpts DEGREES_ 1 to 10 as Single Setpoint Zone 0 Offset when a single setpoint is used FAHRENHEIT Sensor Outdoor Air Indicates the OA temp DEGREES_ AV-10103 Temperature -40 to 200 Always 0 determined by arbitration FAHRENHEIT Arbitrator Outdoor Air Used to send the outdoor air DEGREES_ AV-10113 -40 to 200 Always 900 Temperature BAS temperature sensor value FAHRENHEIT Identifies the product preheat AV-11252 Preheat Type NO_UNITS 0 to 255 Always 0 type AV-11253 Reheat Type Identifies the product reheat type NO_UNITS 0 to 255 Always 0 Run Time - AV-11169 Compressor 1 Compressor 1 Runtime NO_UNITS 0 to 200000 Always 0 (Hours) Run Time - AV-11170 Compressor 2 Compressor 2 Runtime NO_UNITS 0 to 200000 Multi-Compressor Systems 0 (Hours)

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Table 2. Analog Values (continued) Heartbeat Object Object Name Description Units Valid Range When Exists Interval Identifier (sec) Run Time - AV-11122 Condenser Fan 1 Condenser Fan 1 Runtime NO_UNITS 0 to 200000 Always 0 (Hours) Run Time - Dual Condenser Fan AV-11123 Condenser Fan 2 Condenser Fan 2 Runtime NO_UNITS 0 to 200000 0 Systems (Hours) Run Time - Electric One or more stages of AV-11125 Heat Stage 1 Electric Heat Stage 1 Runtime NO_UNITS 0 to 200000 Staged Electric Heat 0 (Hours) configured Run Time - Electric Two or more stages of AV-11126 Heat Stage 2 Electric Heat Stage 2 Runtime NO_UNITS 0 to 200000 Staged Electric Heat 0 (Hours) configured Run Time - Supply AV-11127 Supply Fan Runtime NO_UNITS 0 to 200000 Always 0 Fan (Hours) Timer (minutes) to indicate when Service Test Timeout AV-11153 the unit should cease service NO_UNITS 1 to 120 Always 0 (Minutes) test. Indicates the active space CO2 Space CO2 PARTS_PER_ AV-11254 concentration being used by the 0 to 2000 CO2 Sensor Configured 0 Concentration Active MILLION controller Space CO2 Indicates the space CO2 PARTS_PER_ AV-10108 Concentration concentration being used by the 50 to 2000 CO2 Sensor Configured 0 MILLION Arbitrator controller Space CO2 Used to send the space CO2 PARTS_PER_ AV-10118 0 to 2000 CO2 Sensor Configured 900 Concentration BAS concentration value MILLION Space Cooling Space Controller not Space Cooling Setpoint High DEGREES_ AV-10154 Setpoint High Limit 50 to 90 Configured as Conventional 0 Limit BAS FAHRENHEIT BAS TStat Space Cooling Space Controller not Space Cooling Setpoint Low Limit DEGREES_ AV-10155 Setpoint Low Limit 50 to 90 Configured as Conventional 0 BAS FAHRENHEIT BAS TStat Space Heating Heating Installed and Space Space Heating Setpoint High DEGREES_ AV-10157 Setpoint High Limit 50 to 90 Controller not Configured as 0 Limit BAS FAHRENHEIT BAS Conventional TStat Space Heating Heating Installed and Space Space Heating Setpoint Low Limit DEGREES_ AV-10158 Setpoint Low Limit 50 to 90 Controller not Configured as 0 BAS FAHRENHEIT BAS Conventional TStat Indicates the space relative Space Humidity Space Humidity Sensor AV-10109 humidty, determined by the PERCENT 0 to 100 0 Arbitrator Configured arbitration Used to send the space relative Space Humidity Sensor AV-10119 Space Humidity BAS PERCENT 0 to 100 900 humidity value Configured Indicates the space cooling Space Controller not Space Temp Cooling DEGREES_ AV-11128 setpoint, determined by 52 to 91 Configured as Conventional 0 Setpoint Status FAHRENHEIT arbitration TStat Indicates the space heating Heating Installed and Space Space Temp Heating DEGREES_ AV-11129 setpoint, determined by 49 to 88 Controller not Configured as 0 Setpoint Status FAHRENHEIT arbitration Conventional TStat Indicates the active space Space Controller not Space Temperature DEGREES_ AV-11178 temperature being used by the -40 to 200 Configured as Conventional 0 Active FAHRENHEIT controller TStat Space Controller not Space Temperature Indicates the space temp DEGREES_ AV-10106 -40 to 200 Configured as Conventional 0 Arbitrator determined by arbitration FAHRENHEIT TStat Space Controller not Space Temperature Used to send the space DEGREES_ AV-10114 -40 to 200 Configured as Conventional 900 BAS temperature value FAHRENHEIT TStat Active cooling space temperature Space Temperature input setpoint as determined by Space Controller Configured DEGREES_ AV-11277 Cooling Setpoint arbitrating the cooling setpoint 52 to 91 as Dual Setpoint Zone 0 FAHRENHEIT Input Active inputs (wired and air-fi) with the Sensor occupied setpoint BAS. Active heating space temperature Space Temperature input setpoint as determined by Heating Installed and Space DEGREES_ AV-11180 Heating Setpoint arbitrating the heating setpoint 49 to 88 Controller Configured as 0 FAHRENHEIT Input Active inputs (wired and air-fi) with the Dual Setpoint Zone Sensor occupied setpoint BAS.

20 ACC-SVP001B-EN BBAACCnneettPPooiinnttssLLiisstt

Table 2. Analog Values (continued) Heartbeat Object Object Name Description Units Valid Range When Exists Interval Identifier (sec) Indicates the active space Space Controller not Space Temperature DEGREES_ AV-11181 temperature setpoint being used 49 to 91 Configured as Conventional 0 Setpoint Active FAHRENHEIT by the controller TStat Space Controller Configured Space Temperature BAS-supplied space temperature DEGREES_ AV-10127 50 to 90 as Single Setpoint Zone 0 Setpoint BAS setpoint value FAHRENHEIT Sensor Active space temperature input setpoint as determined by Space Temperature Space Controller Configured arbitrating the space DEGREES_ AV-11276 Setpoint Input 49 to 91 as Single Setpoint Zone 0 temperature setpoint inputs FAHRENHEIT Active Sensor (wired and air-fi) with the space temperature setpoint BAS. Starts - Compressor AV-11183 Compressor 1 Starts NO_UNITS 0 to 1500000 Always 0 1 Starts - Compressor AV-11184 Compressor 2 Starts NO_UNITS 0 to 1500000 Multi-Compressor Systems 0 2 Starts - Condenser AV-11155 Condenser Fan 1 Starts NO_UNITS 0 to 1500000 Always 0 Fan 1 Starts - Condenser Dual Condenser Fan AV-11156 Condenser Fan 2 Starts NO_UNITS 0 to 1500000 0 Fan 2 Systems One or more stages of Starts - Electric Heat AV-11158 Electric Heat Stage 1 Starts NO_UNITS 0 to 1500000 Staged Electric Heat 0 Stage 1 configured Two or more stages of Starts - Electric Heat AV-11159 Electric Heat Stage 2 Starts NO_UNITS 0 to 1500000 Staged Electric Heat 0 Stage 2 configured AV-11160 Starts - Supply Fan Counter for Supply Fan Starts NO_UNITS 0 to 1500000 Always 0 Indoor Fan Type Configured AV-11279 Supply Fan Current Supply Fan Drive Output Current AMPERES 0 to 120 as Multi Speed or Variable 0 Speed Supply Fan Active value for Supply Fan Indoor Fan Type Configured AV-11244 Maximum Output Maximum Output Frequency NO_UNITS 0 to 120 as Multi Speed or Variable 0 Frequency Status point being used for control. Speed Supply Fan Indoor Fan Type Configured Maximum supply fan speed AV-11174 Maximum Speed PERCENT 67 to 100 as Multi Speed or Variable 0 command. Setpoint Speed Supply Fan Active value for Supply Fan Indoor Fan Type Configured AV-11243 Maximum Speed Maximum Speed Setpoint point PERCENT 67 to 100 as Multi Speed or Variable 0 Setpoint - Active being used for control. Speed Supply Fan Minimum Active value for Supply Fan Indoor Fan Type Configured AV-11246 Output Frequency Minimum Output Frequency point NO_UNITS 0 to 120 as Multi Speed or Variable 0 Status being used for control. Speed Indoor Fan Type Configured Supply Fan Minimum Minimum supply fan speed AV-11173 PERCENT 0 to 100 as Multi Speed or Variable 0 Speed Setpoint command. Speed Supply Fan Minimum Active value for Supply Fan Indoor Fan Type Configured AV-11245 Speed Setpoint - Minimum Speed Setpoint point PERCENT 0 to 100 as Multi Speed or Variable 0 Active being used for control. Speed Indoor Fan Type Configured AV-11278 Supply Fan Power Supply Fan Drive Output Power KILOWATTS 0 to 120 as Multi Speed or Variable 0 Speed Supply Fan Speed AV-11110 Remote supply fan speed request PERCENT 0 to 100 Always 0 Command Active value for Supply Fan Supply Fan Speed AV-11187 Speed Command point being PERCENT 0 to 100 Always 0 Command - Active used for control. Supply Fan Speed Estimated supply fan speed being AV-11163 PERCENT 0 to 100 Always 0 Status utilized. AV-11161 Supply Fan Type Indicates the unit supply fan type NO_UNITS 0 to 255 Always 0 Used to define the cooling temp Space Controller not Unoccupied Cooling DEGREES_ AV-10123 setpoint used for control in 50 to 90 Configured as Conventional 0 Setpoint FAHRENHEIT unoccupied mode TStat Used to define the heating temp Heating Installed and Space Unoccupied Heating DEGREES_ AV-10124 setpoint used for control in 50 to 90 Controller not Configured as 0 Setpoint FAHRENHEIT unoccupied mode Conventional TStat

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Table 3. Binary Inputs

Object Reverse Object Name Description Object States When Exists Identifier Polarity

false = Open BI-11101 Circuit 1 LPC Status Circuit 1 LPC Input Status False Always true = Closed false = Open BI-11104 Circuit 2 LPC Status Circuit 2 LPC Input Status False Multi-Circuit Systems true = Closed Compressor 1 false = Off BI-11100 Compressor 1 Run Command Status False Always Command Status true = On Compressor 1 Proving Status of input for monitoring Compressor 1 false = Not Proved BI-11102 False Always Status proof of operation circuit. true = Proved Compressor 1 false = Off Unloading BI-11109 Unloader Command Compressor 1 Unloader Command Status False true = On Installed Status Compressor 2 false = Off Multi-Compressor BI-11103 Compressor 2 Run Command Status False Command Status true = On Systems Compressor 2 Proving Status of input for monitoring Compressor 2 false = Not Proved Multi-Compressor BI-11105 False Status proof of operation circuit. true = Proved Systems Compressor 2 false = Off Unloading Compressors BI-11111 Unloader Command Compressor 2 Unloader Command Status False true = On Installed Status Condenser Fan 1 false = Off BI-11116 Condenser Fan 1 Run Command Status False Always Command Status true = On Condenser Fan 2 false = Off Dual Condenser Fan BI-11117 Condenser Fan 2 Run Command Status False Command Status true = On Systems Demand Management Configurable, hardwired input to command false = Not Limited BI-11113 Demand Limit Input False Configured as Demand Demand Limit true = Limited Limit Demand Management Configurable, hardwired input to command false = Off BI-11114 Demand Shed Input False Configured as Demand Demand Shed true = On Shed Indoor Fan Type Diagnostic: VFD Fault false = Inactive BI-11144 Diagnostic: VFD Fault Supply Fan - 1 False Configured as Multi Speed Supply Fan - 1 true = Active or Variable Speed Diagnostic: VFD Indoor Fan Type false = Inactive BI-11145 Supply Fan Ground Diagnostic: VFD Supply Fan Ground Fault - 1 False Configured as Multi Speed true = Active Fault - 1 or Variable Speed Diagnostic: VFD Indoor Fan Type Diagnostic: VFD Supply Fan Motor Current false = Inactive BI-11147 Supply Fan Motor False Configured as Multi Speed Overload - 1 true = Active Current Overload - 1 or Variable Speed Diagnostic: VFD Indoor Fan Type false = Inactive BI-11148 Supply Fan Short Diagnostic: VFD Supply Fan Short Circuit - 1 False Configured as Multi Speed true = Active Circuit - 1 or Variable Speed One or more stages of Electric Heat Stage 1 false = Off BI-11128 Status of Electric Heat Stage 1 command False Staged Electric Heat Status true = On configured Two or more stages of Electric Heat Stage 2 false = Off BI-11129 Status of Electric Heat Stage 2 command False Staged Electric Heat Status true = On configured false = Equipment Run Equipment Shutdown Indicates the status of the equipment BI-10210 true = Equipment False Always Input Status shutdown function of the unit Shutdown External Auto Stop Indicates the status of the externally-wired false = Stop External Auto/Stop BI-10211 True Input Status auto/stop input true = Auto Configured as Installed Space Controller not Supply Fan Mode as set from a wireless false = Cycling BI-11149 Fan Mode - AirFi False Configured as sensor connected to the controller. true = Continuous Conventional TStat Space Controller not Supply Fan Mode as set from a wired sensor false = Cycling BI-11151 Fan Mode Input False Configured as connected to the controller. true = Continuous Conventional TStat false = Open FroStat Configured as BI-11127 FroStat Input Status of Hardwired Frostat Input False true = Closed Installed Space Controller not Indicates the status of the wired occupancy false = Occupied BI-10172 Occupancy Input False Configured as input true = Unoccupied Conventional TStat Space Controller not Occupancy Input - Local Occupancy Input as detected by a false = Occupied BI-11150 False Configured as AirFi wireless sensor connected to the controller. true = Unoccupied Conventional TStat false = Tripped BI-11115 Phase Monitor Status Status of local Phase Monitor Input False Always true = Okay Indicates the status of the supply fan output false = Off BI-10226 Supply Fan Status False Always of the controller true = On Switchover Valve 1 Status of Switchover Valve Command for HP false = Off BI-11118 False Heat Pump Systems Command Status Circuit 1 true = On

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Table 3. Binary Inputs (continued)

Object Reverse Object Name Description Object States When Exists Identifier Polarity

Switchover Valve 2 Status of Switchover Valve Command for HP false = Off BI-11119 False Multi-Circuit HP Systems Command Status Circuit 2 true = On Space Controller false = Open BI-11120 G Input Thermostat Fan Request False Configured as true = Closed Conventional TStat Space Controller Thermostat W1/O Thermostat Heat Stage 1 Request or false = Open BI-11121 False Configured as Input Thermostat Heat/Cool Mode Request for HP true = Closed Conventional TStat Space Controller Thermostat Heat Stage 2 Request (or false = Open BI-11122 Thermostat W2 Input False Configured as Emergency Heat) true = Closed Conventional TStat Space Controller false = Open BI-11123 Thermostat X2 Input Thermostat Emergency Heat Request False Configured as true = Closed Conventional TStat Space Controller false = Open BI-11124 Thermostat Y1 Input Thermostat Compressor Stage 1 Request False Configured as true = Closed Conventional TStat Space Controller false = Open BI-11125 Thermostat Y2 Input Thermostat Compressor Stage 2 Request False Configured as true = Closed Conventional TStat Ventilation Override false = Open Ventilation Override BI-11133 Hardwired input VOM Exhaust False Exhaust Status true = Closed Configured as Installed Ventilation Override false = Open Ventilation Override BI-11134 Hardwired input VOM Pressurize False Pressurize Status true = Closed Configured as Installed Ventilation Override false = Open Ventilation Override BI-11135 Hardwired input VOM Purge False Purge Status true = Closed Configured as Installed

Table 4. Binary Values

Object Relinquish Object Name Description Object States When Exists Identifier Default

Alarm Indicator Indicates the state of the alarm false = Off BV-11100 Always Status output of the controller true = On Multi-Circuit Heat Status point to indicate circuit 1's Circuit 1 Defrost false = Inactive Pumps with BV-11219 defrost status on an Independent Status true = Active Independent Circuit Heat Pump Condenser Airstreams Multi-Circuit Heat Status point to indicate circuit 2's Circuit 2 Defrost false = Inactive Pumps with BV-11220 defrost status on an Independent Status true = Active Independent Circuit Heat Pump Condenser Airstreams false = Compressor 1 Run BV-11121 Compressor 1 Runtime Reset Accumulating Accumulating Always Time Reset true = Reset false = Compressor 1 Starts BV-11122 Compressor 1 Starts Reset Accumulating Accumulating Always Reset true = Reset false = Compressor 2 Run Multi-Compressor BV-11123 Compressor 2 Runtime Reset Accumulating Accumulating Time Reset Systems true = Reset false = Compressor 2 Starts Multi-Compressor BV-11124 Compressor 2 Starts Reset Accumulating Accumulating Reset Systems true = Reset Status point to indicate when Condenser Defrost false = Inactive BV-11112 defrost is active on any circuit Heat Pump Systems Status true = Active within a heat pump unit. false = Condenser Fan 1 BV-11127 Condenser Fan 1 Runtime Reset Accumulating Accumulating Always Run Time Reset true = Reset false = Condenser Fan 1 BV-11128 Condenser Fan 1 Starts Reset Accumulating Accumulating Always Starts Reset true = Reset false = Condenser Fan 2 Dual Condenser Fan BV-11129 Condenser Fan 2 Runtime Reset Accumulating Accumulating Run Time Reset Systems true = Reset false = Condenser Fan 2 Dual Condenser Fan BV-11130 Condenser Fan 2 Starts Reset Accumulating Accumulating Starts Reset Systems true = Reset Commands the unit to use Cooling Capacity Setpoint BAS Cooling Capacity false = Disabled BV-11115 value to override internal Disabled Always Setpoint Enable BAS true = Enabled algorithm's cooling capacity output request.

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Table 4. Binary Values (continued)

Object Relinquish Object Name Description Object States When Exists Identifier Default Cooling Capacity Active value for Cooling Capacity false = Disabled BV-11202 Setpoint Enable BAS Setpoint Enable BAS point being Always true = Enabled - Active used for control. Used to prevent all mechanical false = Normal BV-10115 Cooling Lockout BAS Normal Always cooling true = Locked out Cooling Lockout BAS Active value for Cooling Lockout false = Normal BV-11203 Always - Active BAS point being used for control. true = Locked out Demand Management Demand Limit Active Demand Limit Request false = Not Limited BV-11227 Configured as Demand Request - Active value used by the equipment. true = Limited Limit Demand Management Demand Limit Used to demand limit the unit false = Not Limited BV-11226 Not Limited Configured as Demand Request BAS remotely. true = Limited Limit Diagnostic: Circuit 1 false = Inactive BV-11162 Diagnostic: Circuit 1 LPC Lockout Always LPC Lockout true = Active Diagnostic: Circuit 1 false = Inactive BV-11158 Diagnostic: Circuit 1 LPC Trip Always LPC Trip true = Active Diagnostic: Circuit 2 false = Inactive Multi-Compressor BV-11175 Diagnostic: Circuit 2 LPC Lockout LPC Lockout true = Active Systems Diagnostic: Circuit 2 false = Inactive Multi-Compressor BV-11159 Diagnostic: Circuit 2 LPC Trip LPC Trip true = Active Systems Diagnostic: Comp 1 false = Inactive BV-11155 Diagnostic: Comp 1 Proving Trip Always Proving Trip true = Active Diagnostic: Comp 2 false = Inactive Multi-Compressor BV-11156 Diagnostic: Comp 2 Proving Trip Proving Trip true = Active Systems Diagnostic: Diagnostic: Compressor 1 false = Inactive BV-11161 Compressor 1 Always Contactor Fail Lockout true = Active Contactor Failure Diagnostic: Diagnostic: Compressor 1 false = Inactive BV-11172 Compressor 1 Always Proving Lockout true = Active Proving Lockout Diagnostic: Diagnostic: Compressor 2 false = Inactive Multi-Compressor BV-11174 Compressor 2 Contactor Fail Lockout true = Active Systems Contactor Failure Diagnostic: Diagnostic: Compressor 2 false = Inactive Multi-Compressor BV-11176 Compressor 2 Proving Lockout Systems Proving Lockout true = Active Non-Independent Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive BV-11177 Condenser Air Stream Defrost Disabled Disabled true = Active Heat Pumps Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11178 Defrost Disabled - Disabled - Circuit 1 true = Active Independent Circuit 1 Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11179 Defrost Disabled - Disabled - Circuit 2 true = Active Independent Circuit 2 Condenser Airstreams Single Circuit Heat Pumps or Multi-Circuit Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive BV-11180 Heat Pumps without Defrost Fault A Fault A true = Active Independent Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11181 Defrost Fault A - Fault A - Circuit 1 true = Active Independent Circuit 1 Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11182 Defrost Fault A - Fault A - Circuit 2 true = Active Independent Circuit 2 Condenser Airstreams Single Circuit Heat Pumps or Multi-Circuit Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive BV-11183 Heat Pumps without Defrost Fault B Fault B true = Active Independent Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11184 Defrost Fault B - Fault B - Circuit 1 true = Active Independent Circuit 1 Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11185 Defrost Fault B - Fault B - Circuit 2 true = Active Independent Circuit 2 Condenser Airstreams

24 ACC-SVP001B-EN BBAACCnneettPPooiinnttssLLiisstt

Table 4. Binary Values (continued)

Object Relinquish Object Name Description Object States When Exists Identifier Default Single Circuit Heat Pumps or Multi-Circuit Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive BV-11186 Heat Pumps with Defrost Fault C Fault C true = Active Independent Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11187 Defrost Fault C - Fault C - Circuit 1 true = Active Independent Circuit 1 Condenser Airstreams Multi-Circuit Heat Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive Pumps with BV-11188 Defrost Fault C - Fault C - Circuit 2 true = Active Independent Circuit 2 Condenser Airstreams Single Circuit Heat Pumps or Multi-Circuit Diagnostic: Demand Diagnostic: Demand Defrost false = Inactive BV-11189 Heat Pumps with Defrost Fault D Fault D true = Active Independent Condenser Airstreams Diagnostic: FroStat false = Inactive FroStat Configured as BV-11146 Diagnostic: FroStat Trip Trip true = Active Installed Diagnostic: Diagnostic: Maintenance false = Inactive BV-11190 Maintenance Always Required true = Active Required Indoor Fan Type Diagnostic: Supply false = Inactive Configured as Multi BV-11141 Diagnostic: Fan Failure Fan Failure true = Active Speed or Variable Speed Indoor Fan Type Diagnostic: Supply Diagnostic: Supply Fan VFD false = Inactive Configured as Multi BV-11225 Fan VFD Communication Loss true = Active Speed or Variable Communication Loss Speed Diagnostic: Unit Diagnostic: Unit Communications false = Inactive BV-11192 Communications Always Failure true = Active Failure false = One or more stages of Electric Heat Stage 1 Electric Heat Stage 1 Runtime BV-11135 Accumulating Accumulating Staged Electric Heat Run Time Reset Reset true = Reset configured false = One or more stages of Electric Heat Stage 1 BV-11136 Electric Heat Stage 1 Starts Reset Accumulating Accumulating Staged Electric Heat Starts Reset true = Reset configured false = Two or more stages of Electric Heat Stage 2 Electric Heat Stage 2 Runtime BV-11137 Accumulating Accumulating Staged Electric Heat Run Time Reset Reset true = Reset configured false = Two or more stages of Electric Heat Stage 2 BV-11138 Electric Heat Stage 2 Starts Reset Accumulating Accumulating Staged Electric Heat Starts Reset true = Reset configured Status to indicate when the unit is Defrost Evaporator Defrost false = Inactive BV-11223 performing Evaporator Defrost Control Configured as Status true = Active control. Enabled false = Command the unit to reset the BV-10109 Filter Timer Reset Accumulating Accumulating Always accumulated filter run hours. true = Reset Normally used by the BMS to Heat Lockout false = Normal Primary Heating BV-10103 command the unit to prevent Normal Command true = Locked out Source Installed heating operation Active value for Heat Lockout Heat Lockout false = Normal Primary Heating BV-11216 Command point being used for Command - Active true = Locked out Source Installed control. Commands the unit to use Heating Capacity Setpoint BAS Heating Capacity false = Disabled Primary Heating BV-11116 value to override internal Disabled Setpoint Enable BAS true = Enabled Source Installed algorithm's heating capacity output request. Heating Capacity Active value for Heating Capacity false = Disabled Primary Heating BV-11204 Setpoint Enable BAS Setpoint Enable point being used true = Enabled Source Installed - Active for control. Space Controller not Occupancy Input Occupancy Input being actively false = Occupied BV-11173 Configured as Active used for status determination. true = Unoccupied Conventional TStat Space Controller not Occupancy Input Indicates the status of the false = Occupied BV-11224 Occupied Configured as Arbitrator arbitrated occupancy inputs true = Unoccupied Conventional TStat Normally used by the BMS to Space Controller not Occupancy Input false = Occupied BV-10113 provide the requested occupancy Configured as BAS true = Unoccupied state to the unit Conventional TStat

ACC-SVP001B-EN 25 BBAACCnneettPPooiinnttssLLiisstt

Table 4. Binary Values (continued)

Object Relinquish Object Name Description Object States When Exists Identifier Default

Used to initiate a request to reset false = Normal BV-10110 Reset Diagnostic Normal Always any controller diagnostics true = Reset Used to enable the supply Supply Air false = Disable Supply Air Tempering BV-10119 (discharge) air tempering feature Disable Tempering Enable true = Enable Configured as Enabled of the unit Supply Air Active value for Supply Air false = Disable Supply Air Tempering BV-11222 Tempering Enable - Tempering Enable point being true = Enable Configured as Enabled Active used for control. Supply Air Indicates the status of the Supply false = Disable Supply Air Tempering BV-11221 Tempering Status Air Tempering function true = Enable Configured as Enabled Supply Fan Used to command the supply fan Space Controller not false = Cycling BV-10104 Configuration configuration as either cycling or Continuous Configured as true = Continuous Command continuous Conventional TStat Space Controller not Supply Fan Indicates the supply fan false = Cycling BV-11199 Configured as Configuration Status configuration true = Continuous Conventional TStat false = Supply Fan Run BV-11139 Supply Fan Runtime Reset Accumulating Accumulating Always Time Reset true = Reset Enables the unit to use Supply Supply Fan Speed Fan Speed Command to override false = Disabled BV-11114 Disabled Always Command Enable the units internally determined true = Enabled fan speed. Supply Fan Speed Active value for Supply Fan false = Disabled BV-11201 Command Enable - Speed Command Enable point Always true = Enabled Active being used for control. false = Supply Fan Starts BV-11140 Supply Fan Starts Reset Accumulating Accumulating Always Reset true = Reset Space Controller not Timed Override Indicates whether or not the false = Inactive BV-11200 Configured as Timer Is Active timed override timer is active true = Active Conventional TStat Point used to force the unit into an immediate stop condition. false = Auto BV-11113 Unit Stop Command Auto Always Primary use-case is at local or true = Stop mobile service tool UI. System Type Configured as VVZT Determines Auto or Manual mode VVZT DAT Control false = Auto and BV-11166 for discharge air temperature Auto Mode true = Manual Space Controller not control for VVZTapplications. Configured as Conventional TStat System Type Configured as VVZT Active value for VVZT DAT VVZT DAT Control false = Auto and BV-11211 Control Mode point being used for Mode - Active true = Manual Space Controller not control. Configured as Conventional TStat

26 ACC-SVP001B-EN BBAACCnneettPPooiinnttssLLiisstt

Table 5. Multistate Inputs

Object Object Name Description Object States When Exists Identifier

1 = Auto 2 = Heat 3 = Morning Warm-up 4 = Cool 5 = Night Purge 6 = Pre Cool 7 = Off Indicates the current heat cool mode of 8 = Test MI-10101 Heat Cool Mode Status Always the controller 9 = Emergency Heat 10 = Fan Only 11 = Free Cool 12 = Ice-Making 13 = Max Heat 14 = 15 = Dehumidify 16 = Calibrate 1 = Off Indicates the status of the wireless 2 = Auto Space Controller not System Mode Switch MI-11100 system mode switch connected to the 3 = Cool Configured as Air-Fi controller. 4 = Heat Conventional TStat 5 = Emergency Heat 1 = Off 2 = Auto Space Controller not System Mode Switch Indicates the status of the wired system MI-11102 3 = Cool Configured as Input mode switch connected to the controller. 4 = Heat Conventional TStat 5 = Emergency Heat 1 = Idle Space Controller not Indicates the status of the Timed MI-11101 Timed Override Air-Fi 2 = On Configured as Override wireless input. 3 = Cancel Conventional TStat 1 = Idle Space Controller not Indicates the status of the Timed MI-11103 Timed Override Input 2 = On Configured as Override wired input. 3 = Cancel Conventional TStat

Table 6. Multistate Values

Object Object Name Description Object States When Exists Identifier Setting for unit to use 1 = Enable External/ "Enable External/BAS Arbitration Method BAS Control MV-11100 Control" or "Standalone Always Request 2 = Standalone Control" data Control prioritization. Customer Options 1 = Not Configured Communication Status of Customer Options Module 2 = Not MV-11101 the Customer Options Module Installed and Communication Communicating Module In-Use Status 3 = Communicating

ACC-SVP001B-EN 27 BBAACCnneettPPooiinnttssLLiisstt

Table 6. Multistate Values (continued)

Object Object Name Description Object States When Exists Identifier

1 = None 2 = 2 Position Ventilation 3 = Modulation Economizer 4 = 2 Position Ventilation/Waterside Economizer 5 = Waterside Economizer Indicates the general 6 = Airside/Waterside MV-11102 Economizer Type description of the type of Economizer Always economizer system 7 = TRAQ 8 = Airside Economizer and TRAQ Damper/Sensor 9 = Waterside Economizer and TRAQ Damper/Sensor 10 = Airside/ Waterside Economizer and TRAQ Damper/ Sensor 1 = Normal 2 = Pressurize Used to command the Emergency Override 3 = Depressurize MV-10102 unit into an emergency Always BAS 4 = Purge mode of operation 5 = Shutdown 6 = Fire 1 = Normal Active value for 2 = Pressurize Emergency Override Emergency Override BAS 3 = Depressurize MV-11116 Always BAS - Active point being used for 4 = Purge control. 5 = Shutdown 6 = Fire 1 = Auto 2 = Heat 3 = Morning Warm-up 4 = Cool 5 = Night Purge 6 = Pre Cool 7 = Off Used to command the Space Controller not Heat Cool Mode 8 = Test MV-10104 unit into a heat/cool Configured as Request 9 = Emergency Heat mode Conventional TStat 10 = Fan Only 11 = Free Cool 12 = Ice-Making 13 = Max Heat 14 = Economizer 15 = Dehumidify 16 = Calibrate

1 = Auto 2 = Heat 3 = Morning Warm-up 4 = Cool 5 = Night Purge 6 = Pre Cool 7 = Off Active value for Heat Cool Space Controller not Heat Cool Mode 8 = Test MV-11121 Mode Request point being Configured as Request - Active 9 = Emergency Heat used for control. Conventional TStat 10 = Fan Only 11 = Free Cool 12 = Ice-Making 13 = Max Heat 14 = Economizer 15 = Dehumidify 16 = Calibrate

28 ACC-SVP001B-EN BBAACCnneettPPooiinnttssLLiisstt

Table 6. Multistate Values (continued)

Object Object Name Description Object States When Exists Identifier Indoor Options 1 = Not Configured Communication Status of Module 2 = Not MV-11105 the Indoor Options Communication Communicating Module Status 3 = Communicating 1 = Occupied Normally used by the 2 = Unoccupied Space Controller not MV-10106 Occupancy Request BMS to command the unit 3 = Occupied Bypass Configured as into an occupancy mode 4 = Occupied Standby Conventional TStat 5 = Auto 1 = Occupied Active Occupancy mode 2 = Unoccupied Space Controller not Occupancy Request MV-11125 being requested of the 3 = Occupied Bypass Configured as Active unit. 4 = Occupied Standby Conventional TStat 5 = Auto 1 = Occupied Indicates the active 2 = Unoccupied Space Controller not MV-11123 Occupancy Status occupancy mode of the 3 = Occupied Bypass Configured as controller 4 = Occupied Standby Conventional TStat 5 = Auto 1 = Not Configured On-Board I/O Communication Status of 2 = Not MV-11106 Communication the On-Board Inputs and Always Communicating Status Outputs 3 = Communicating 1 = Inactive 2 = Cool 1 Point to request the unit Performance Test 3 = Cool 2 MV-11108 into a Performance Test Always State Request 4 = Cool 3 Step. 5 = Cool 4 6 = Off 1 = R-11 2 = R-12 3 = R-22 4 = R-123 5 = R-134a 6 = R-407C 7 = R-410A Indicates the type of 8 = R-113 MV-11119 Refrigerant Type refrigerant used in the Always 9 = R-114 equipment 10 = R-500 11 = R-502 12 = R-404A 13 = R-513A 14 = R-1233zd(E) 15 = R-514A 16 = R-1234ze(E)

1 = Inactive 2 = Fan On 3 = Cool 1 4 = Cool 2 Service Test State Point to request the unit 5 = Heat 1 MV-11110 Always Request into a service test step. 6 = Heat 2 7 = Heat 3 8 = Heat 4 9 = Defrost 10 = Emergency Heat 1 = Not Configured Indoor Fan Type Supply Fan VFD Communication Status of 2 = Not Configured as Multi MV-11124 Communication the Modbus Supply Fan Communicating Speed or Variable Status VFD 3 = Communicating Speed Indicates the status of the 1 = Off system mode switch 2 = Auto Space Controller not System Mode Switch connected to the MV-11112 3 = Cool Configured as Local controller as arbitrated 4 = Heat Conventional TStat between wired and 5 = Emergency Heat wireless sources. Used to request a 1 = Idle Space Controller not Timed Override MV-10110 temporary timed override 2 = On Configured as Request during unoccupied 3 = Cancel Conventional TStat

ACC-SVP001B-EN 29 BBAACCnneettPPooiinnttssLLiisstt

Table 6. Multistate Values (continued)

Object Object Name Description Object States When Exists Identifier

1 = Idle Space Controller not Indicates the status of the MV-11113 Timed Override Status 2 = On Configured as timed override request 3 = Cancel Conventional TStat 1 = 1 Heat/1 Cool 2 = Heat Pump 3 = Blower Coil 4 = Unit Ventilator Indicates the equipment 5 = Fan Coil type according to the MV-11114 Trane Unit Type 6 = Rooftop Always manufacturer's 7 = classification 8 = Vertical Self Contained 9 = Unitary 10 = VAV Box 1 = None 2 = Emergency Stop 3 = Drain Pan Overflow 4 = Local HI Source of the stop 5 = Remote HI MV-11115 Unit Stop Source command that turned off 6 = External Auto Stop Always the equipment. 7 = Phase Monitor 8 = Emergency Override 9 = Supply Fan Fault 10 = Equipment Shutdown Input

30 ACC-SVP001B-EN NNootteess

ACC-SVP001B-EN 31 Trane - by Trane Technologies (NYSE: TT), a global innovator - creates comfortable, energy efficient indoor environments for commercial and residential applications. For more information, please visit trane.com or tranetechnologies.com.

Trane has a policy of continuous product and product data improvements and reserves the right to change design and specifications without notice. We are committed to using environmentally conscious print practices.

ACC-SVP001B-EN 12 Nov 2020 Supersedes ACC-SVP001A-EN (July 2020) ©2020 Trane