| Property | Type | Description |
|
Alarm Event Class [1-3] |
Numeric |
This is a three element array containing entries for alarm classes Manual Reset, Auto Reset, & Informational diagnostics. Each entry contains an index into the event action table. The event action table contains both a set of instructions for alarm routing, and a list of referencer objects (the potential receivers). |
|
Alarm Output |
Binary |
This property indicates the state of the alarm output on the RTM module of the Rooftop unit. 0=OFF, 1=ON |
|
Auto/Stop Status |
Binary |
This property indicates the state of the Auto/Stop binary input into the RTM module. When the state of this input is Stop (0), the unit will go through an organized shutdown. When the state is Auto (1), the unit will run in the Auto mode. 0=STOP, 1=AUTO |
|
Auxiliary Temperature Input |
Numeric |
This property indicates the state of the Auxiliary Temperature Input; an analog input on the RTM module. Range: -40.0 to 200.0° F |
|
Capacity Limit Request: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to limit the mechanical cooling and/or heating capacity of the unit. This property is used most often for demand limiting. 0=OFF, 1=ON |
|
Capacity: Cooling |
Numeric |
This property indicates the calculated percentage of mechanical cooling actively being used in the unit. Range: 0 to 100% |
|
Capacity: Heating |
Numeric |
This property indicates the calculated percentage of mechanical heating actively being used in the unit. Range: 0 to 100% |
|
Chilled Water Valve Position |
Numeric |
This calculated property indicates the position of the chilled water valve for IntelliPaks configured as air handlers. Range: 0 to 100% |
|
Circuit 1 Compressor Proving |
Binary |
This property indicates the state of the compressor proving binary input on the SCM or MCM module. This input is received from auxiliary contacts on the circuit 1 compressor contactor. 0=OPEN, 1=CLOSED |
|
Circuit 1 Evaporator Temp |
Numeric |
This property indicates the active temperature of the refrigerant leaving the evaporator on circuit 1. This temperature is an analog input into the SCM or MCM module (whichever is present). Range: -40.0 to 200.0° F |
|
Circuit 1 Low Ambient Status |
Numeric |
This property represents the active status of the condenser fan speed analog output from the SCM or MCM module on circuit 1. Range: 0 to 100% |
|
Circuit 1 Low Pressure Cutout |
Binary |
This property indicates the active state of the low pressure cutout binary input into the SCM or MCM module on circuit 1. A state of OPEN indicates that a low pressure condition has occurred and that compressor’s operation will be disabled. 0=OPEN, 1=CLOSED |
|
Circuit 1 Saturated Cond Temp |
Numeric |
This property indicates the active temperature of the refrigerant entering the condenser coil on circuit 1 of the Rooftop unit. Range: -40.0 to 200.0° F |
|
Circuit 2 Compressor Proving |
Binary |
This property indicates the state of the compressor proving binary input on the SCM or MCM module. This input is received from auxiliary contacts on the circuit 2 compressor contactor. 0=OPEN, 1=CLOSED |
|
Circuit 2 Evaporator Temp |
Numeric |
This property indicates the active temperature of the refrigerant leaving the evaporator on circuit 2. This temperature is an analog input into the SCM or MCM module (whichever is present). Range: -40.0 to 200.0° F |
|
Circuit 2 Low Ambient Status |
Numeric |
This property represents the active status of the condenser fan speed analog output from the SCM or MCM module on circuit 2. Range: 0 to 100% |
|
Circuit 2 Low Pressure Cutout |
Binary |
This property indicates the active state of the low pressure cutout binary input into the SCM or MCM module on circuit 2. A state of OPEN indicates that a low pressure condition has occurred and that compressor’s operation will be disabled. 0=OPEN, 1=CLOSED |
|
Circuit 2 Saturated Cond Temp |
Numeric |
This property indicates the active temperature of the refrigerant entering the condenser coil on circuit 2 of the Rooftop unit. Range: -40.0 to 200.0° F |
|
CO2 Concentration |
Numeric |
This property indicates the active concentration of carbon dioxide. This analog input is on the VCM module. Range: 0 to 2000 PPM, |
|
Communication Address |
Numeric |
This property provides access to the assigned communications address value of the UCM being represented. |
|
Communication Bad Message Count |
Numeric |
This is a property for keeping track of the number of message errors which occur when attempting to communicate with the UCM hardware. |
|
Communication Channel |
Numeric |
This property provides access to the assigned communications channel value of the UCM being represented. |
|
Communication Error Count |
Numeric |
This is a property for keeping track of the number of communications errors that occur when attempting to communicate with the UCM hardware. |
|
Communication No Answer Count |
Numeric |
This is a property for keeping track of the number of unanswered communications with the UCM hardware. |
|
Communication State |
Binary |
This property indicates the status of communications between the BCU and the UCM. 0=Down, 1=Up. |
|
Communication Retry |
Binary |
Provides access to the communications retry indicator. This property is used to signal the control server that it needs to force control data output to the device when it is awakened for maintenance operations. The communications retry indicator is set (TRUE) when an attempt to send control data fails, and cleared (FALSE) when communications are successful. |
|
Comp A Disable: Bad Temp Sensor |
Binary |
This property indicates whether compressor A has been disabled due to a failed refrigerant temperature sensor. If this compressor has been disabled by a failed refrigerant temperature sensor, the state of this property will indicate Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: Contactor Fail |
Binary |
This property indicates whether compressor A has been disabled by a failed contactor. If this compressor is disabled due to a contactor failure, the state of this property will be Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: DML or ICS |
Binary |
This property indicates that compressor A has been disabled by the unit’s demand limit function or it has been disabled by the Tracer Summit system. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: Frost Protect |
Binary |
This property indicates that compressor A has been disabled due to an open frost stat on the evaporator coil. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: Low Ambient |
Binary |
This property indicates that compressor A has been locked out due to a low outdoor air ambient temperature. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: LPC/LPC Restart |
Binary |
This property indicates that compressor A has been locked out due to a low pressure cutout (LPC) or the compressor was previously locked out on an LPC and is waiting for a minimum restart timer to elapse. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: Protection |
Binary |
This property indicates that compressor A has been locked out due to several compressor protection devices that are in series with this compressor contactor output. 0=NORMAL, 1=LOCKED OUT |
|
Comp A Disable: VOM Lockout |
Binary |
This property indicates that compressor A has been locked out due to a ventilation override’s active request that the compressors be disabled. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: Bad Temp Sensor |
Binary |
This property indicates whether compressor B has been disabled due to a failed refrigerant temperature sensor. If this compressor has been disabled by a failed refrigerant temperature sensor, the state of this property will indicate Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: Contactor Fail |
Binary |
This property indicates whether compressor B has been disabled by a failed contactor. If this compressor is disabled due to a contactor failure, the state of this property will be Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: DML or ICS |
Binary |
This property indicates that compressor B has been disabled by the unit’s demand limit function or it has been disabled by the Tracer Summit system. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: Frost Protect |
Binary |
This property indicates that compressor B has been disabled due to an open frost stat on the evaporator coil. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: Low Ambient |
Binary |
This property indicates that compressor B has been locked out due to a low outdoor air ambient temperature. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: LPC/LPC Restart |
Binary |
This property indicates that compressor B has been locked out due to a low pressure cutout (LPC) or the compressor was previously locked out on an LPC and is waiting for a minimum restart timer to elapse. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: Protection |
Binary |
This property indicates that compressor B has been locked out due to several compressor protection devices that are in series with this compressor contactor output. 0=NORMAL, 1=LOCKED OUT |
|
Comp B Disable: VOM Lockout |
Binary |
This property indicates that compressor B has been locked out due to a ventilation override’s active request that the compressors be disabled. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: Bad Temp Sensor |
Binary |
This property indicates whether compressor C has been disabled due to a failed refrigerant temperature sensor. If this compressor has been disabled by a failed refrigerant temperature sensor, the state of this property will indicate Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: Contactor Fail |
Binary |
This property indicates whether compressor C has been disabled by a failed contactor. If this compressor is disabled due to a contactor failure, the state of this property will be Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: DML or ICS |
Binary |
This property indicates that compressor C has been disabled by the unit’s demand limit function or it has been disabled by the Tracer Summit system. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: Frost Protect |
Binary |
This property indicates that compressor C has been disabled due to an open frost stat on the evaporator coil. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: Low Ambient |
Binary |
This property indicates that compressor C has been locked out due to a low outdoor air ambient temperature. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: LPC/LPC Restart |
Binary |
This property indicates that compressor C has been locked out due to a low pressure cutout (LPC) or the compressor was previously locked out on an LPC and is waiting for a minimum restart timer to elapse. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: Protection |
Binary |
This property indicates that compressor C has been locked out due to several compressor protection devices that are in series with this compressor contactor output. 0=NORMAL, 1=LOCKED OUT |
|
Comp C Disable: VOM Lockout |
Binary |
This property indicates that compressor C has been locked out due to a ventilation override’s active request that the compressors be disabled. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: Bad Temp Sensor |
Binary |
This property indicates whether compressor D has been disabled due to a failed refrigerant temperature sensor. If this compressor has been disabled by a failed refrigerant temperature sensor, the state of this property will indicate Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: Contactor Fail |
Binary |
This property indicates whether compressor D has been disabled by a failed contactor. If this compressor is disabled due to a contactor failure, the state of this property will be Locked Out. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: DML or ICS |
Binary |
This property indicates that compressor D has been disabled by the unit’s demand limit function or it has been disabled by the Tracer Summit system. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: Frost Protect |
Binary |
This property indicates that compressor D has been disabled due to an open frost stat on the evaporator coil. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: Low Ambient |
Binary |
This property indicates that compressor D has been locked out due to a low outdoor air ambient temperature. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: LPC/LPC Restart |
Binary |
This property indicates that compressor D has been locked out due to a low pressure cutout (LPC) or the compressor was previously locked out on an LPC and is waiting for a minimum restart timer to elapse. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: Protection |
Binary |
This property indicates that compressor D has been locked out due to several compressor protection devices that are in series with this compressor contactor output. 0=NORMAL, 1=LOCKED OUT |
|
Comp D Disable: VOM Lockout |
Binary |
This property indicates that compressor D has been locked out due to a ventilation override’s active request that the compressors be disabled. 0=NORMAL, 1=LOCKED OUT |
|
Compressor A Status |
Binary |
This property indicates the active status of compressor A. 0=OFF, 1=ON |
|
Compressor B Status |
Binary |
This property indicates the active status of compressor B. 0=OFF, 1=ON |
|
Compressor C Status |
Binary |
This property indicates the active status of compressor C. 0=OFF, 1=ON |
|
Compressor D Status |
Binary |
This property indicates the active status of compressor D. 0=OFF, 1=ON |
|
Condenser Fan Contactor[1-4] |
Binary |
This property indicates the active state of the condenser fan contactor which is a binary output from the SCM or MCM module. This is a four element array containing entries for fans 1, 2, 3, & 4. 0=OFF, 1=ON |
|
Configuration: Ambient Control |
Multi-State |
This property indicates whether the unit is configured for low ambient condenser fan modulation or for standard condenser fan control.0=NOT CONFIGURED, 1=STANDARD, 2=ZERO DEGREES F. |
|
Configuration: Base Type |
Multi-State |
This property indicates whether this unit has been configured as a standard Rooftop unit or as a Rooftop unit without mechanical cooling (Air Handler). 0=NC, 1=ROOFTOP, 2=AIR HANDLER |
|
Configuration: Cooling Type |
Multi-State |
This property indicates how the unit has been configured for cooling. If the base type is a Rooftop unit, the cooling types that apply are NO COOLING or DX COOLING. If the base type is Air Handler, the cooling type that applies is normally CHILLED WATER. 0=NC, 1=NO COOL, 2=DX COOL, 3=CHILLED WATER |
|
Configuration: ECEM Module |
Multi-State |
This property indicates whether an exhaust comparative enthalpy module has been configured for this Rooftop unit. This property also indicates whether the ECEM module has been installed or not. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED. |
|
Configuration: Economizer |
Multi-State |
This property indicates whether or not this unit has been configured to have an economizer operation. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED |
|
Configuration: GBAS Module |
Multi-State |
This property indicates whether or not this unit has been configured to have a Generic Building Automation System Interface Module. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED. |
|
Configuration: Mod Heat |
Binary |
This property indicates the configuration of the unit’s gas heating type. If this unit has modulating gas heat, this heating type will be MODULATING. If the unit has standard gas heat, this property will indicate STANDARD. 0=STANDARD, 1=MODULATING |
|
Configuration: One Zone VAV |
Binary |
This property indicates whether or not the unit has been configured for standard VAV control or single zone VAV control. 0=STANDARD, 1=SINGLE ZONE VAV |
|
Configuration: Power Exhaust |
Multi-State |
This property indicates whether or not this unit has been configured to have power exhaust. If this unit has power exhaust, it can be configured as a power exhaust with or without StatiTrac. 0=NOT CONFIGURED, 1=NONE, 2=POWER EXHAUST WITH STATITRAC, 3=POWER EXHAUST W/O STATITRAC |
|
Configuration: Remote HI |
Multi-State |
This property indicates whether or not a remote human interface has been configured for this unit. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED |
|
Configuration: System Control |
Multi-State |
This property indicates how this unit has been configured to perform system control (i.e., constant volume, VAV without inlet guide vanes, or VAV with inlet guide vanes). If the unit is configured as a VAV without inlet guide vanes, the unit will perform standard supply air temperature control but will not be able to control supply air pressure. 0=NOT CONFIGURED, 1=CONSTANT VOLUME, 2=VAV W/ IGV, 3=VAV W/O IGV |
|
Configuration: TCI |
Multi-State |
This property indicates whether or not the unit has been configured to have a Trane communication interface installed. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED |
|
Configuration: Unit Capacity |
Multi-State |
This property indicates the configured capacity of the Rooftop unit. All unit capacity are in cooling tonages. 0=NOT CONFIGURED, 1=20 , 2=25 , 3=30 , 4=40, 5=50, 6=55, 7=60, 8=70, 9=75, 10=90, 11=105, 12=115, 13=130 |
|
Configuration: Unit Config Lost |
Binary |
This property indicates whether or not the unit’s configuration has been lost. If the unit’s configuration has been lost, it is recommended that a complete reconfiguration of the unit be performed at once. 0=NO, 1=YES |
|
Configuration: Unit Type |
Multi-State |
This property indicates how the unit has been configured. 0=NOT CONFIGURED, 1=GAS HEAT, 2=ELECTRIC HEAT, 3=HYDRONIC HEAT, 4=COOLING ONLY, 5=EXTERNAL HEAT. |
|
Configuration: VCM |
Multi-State |
This property indicates whether or not a ventilation control module has been configured or installed on the unit. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED |
|
Configuration: VOM |
Multi-State |
This property indicates whether or not a ventilation override module has been installed or configured for the unit. 0=NOT CONFIGURED, 1=NOT INSTALLED, 2=INSTALLED |
|
Control Event Class |
Numeric |
This property identifies the control event class to be used for controlling the given commandable object. |
|
Control Offset Enable: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM to control the control offset function. 0=DISABLED, 1=ENABLED |
|
Control Offset Enable: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control the control offset function. If this property is enabled, the control offset value will be added to the constant volume cooling setpoints and subtracted from the constant volume heating setpoints. 0=DISABLED, 1=ENABLED |
|
Cooling Reset Type |
Multi-State |
This property indicates whether or not the unit has been configured to reset the supply air cooling setpoint. The supply air setpoint can be reset based on outdoor air or zone temperature or this cooling reset function can be disabled. 0=NONE, 1=OUTDOOR AIR, 2=ZONE |
|
Cooling Setpoint: Active |
Numeric |
This property indicates the active zone cooling setpoint if the unit is configured as constant volume or the active supply air cooling setpoint if the unit is configured as VAV unit. If the unit is configured as a VAV unit and it is in the unoccupied mode, this setpoint will indicate the active zone cooling setpoint. Range: 40.0 to 90.0° F |
|
Cooling Setpoint: Input RTM |
Numeric |
This property indicates the active value of the cooling setpoint analog input on the RTM module. Range: 50.0 to 90.0° F |
|
Cooling Setpoint: Source |
Multi-State |
This property indicates the current source for the active cooling setpoint. 0=RTM, 1=NSB, 2=RTM AUX , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Daytime Warmup Temp: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which temperature value to communicate to the UCM for the daytime warmup temperature sensor. Range: -40.0 to 200.0° F |
|
Daytime Warmup Temp: Tracer |
Numeric |
This property indicates the temperature value that will be communicated by the system to the UCM and used as the daytime warmup temperature sensor. Range: -40.0 to 200.0° F |
|
Demand Limit Input: External |
Binary |
This property indicates the active state of the demand limit binary input on the GBAS module. 0=OPEN, 1=CLOSED |
|
Demand Limit Status |
Multi-State |
This property indicates the active demand limit status of the unit. A value of 100% indicates that all of the heating or cooling (whichever is active) will be inhibited from operating. If the value is 0%, indicates the no heating or cooling (whichever is active) will be inhibited from operating. 0=0%, 1=50%, 2=100% |
|
Diag: Automatic Reset |
Binary |
This property indicates that an automatic reset diagnostic has occurred on the unit. 0=NO, 1=YES |
|
Diag: CKT1 Comp Cont Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the circuit 1 compressor proving input is detected closed continuously for more than 3 seconds while neither compressor output on circuit 1 is closed. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT1 Compressor Trip |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the compressor 1 proving input has been detected open continuously for more than 3 seconds when either or both compressor outputs on circuit 1 are energized. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT1 Cond Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the temperature input for the saturated condenser refrigerant temperature on circuit 1 is either lower than -55° F or greater than 209° F. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT1 Evap Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the evaporator refrigerant temperature sensor on circuit 1 is reading either lower than -55° F pr greater than 209° F. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT1 Low Pressure |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the circuit 1 low pressure cutout input has been detected open and the operation of the compressors on this circuit have been disabled. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT2 Comp Cont Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the circuit 2 compressor proving input is detected closed continuously for more than 3 seconds while neither compressor output on circuit 1 is closed. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT2 Compressor Trip |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the compressor 2 proving input has been detected open continuously for more than 3 seconds when either or both compressor outputs on circuit 1 are energized. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT2 Cond Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the temperature input for the saturated condenser refrigerant temperature on circuit 2 is either lower than -55° F or greater than 209° F. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT2 Evap Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the evaporator refrigerant temperature sensor on circuit 2 is reading either lower than -55° F or greater than 209° F. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: CKT2 Low Pressure |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the circuit 2 low pressure cutout input has been detected open and the operation of the compressors on this circuit have been disabled. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: CO2 Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the CO2 sensor connected to the VCM module is reading outside of its normal input range. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - ECEM |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM has lost communications with the ECEM module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - GBAS |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the GBAS module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - HEAT |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the heat module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - HI |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications to the human interface. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - MCM |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the MCM module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - NSB Panel |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the night setback panel. This is an autoreset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - SCM |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the SCM module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - TCI/UCM |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the TCI module has lost communications with the UCM. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - Tracer |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM has not successfully communicated with the Tracer Summit BCU in 15 minutes and has reverted to local control. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - UCM/TCI |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM has lost communications with the TCI module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - VCM |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the ventilation control module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Comm Fail - VOM |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the RTM module has lost communications with the ventilation override module. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Dirty Filter |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM has detected that a dirty filter condition exists. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Emergency Stop |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM has detected an open condition on the emergency stop binary input. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: Exhaust Fan Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM has failed to verify exhaust fan operation when the exhaust fan has been requested to be on. This is a manual rest diagnostic. 0=NO, 1=YES |
|
Diag: Freezestat |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM has detected a potential freezing condition exists for the hydronic heating coil or chilled water coil. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: Heat Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the UCM detects a heat failure in a gas or electric heating unit. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Information Warning |
Binary |
This property indicates that an information only diagnostic has occurred on the unit. 0=NO, 1=YES |
|
Diag: MA Low Press Limit |
|
This property is pending and is currently not applicable. |
|
Diag: MA Temp Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the mixed air temperature sensor input on the UCM module is in a short or open condition. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Manual Reset Required |
Binary |
This property indicates that a diagnostic requiring a manual reset has occurred on the unit. 0=NO, 1=YES |
|
Diag: Mode Input Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the an open or short condition exists on the mode input on the RTM module. When this input fails, the system mode reverts to the default system mode defined on the human interface. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: MWU Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the morning warmup temperature input on the heat module is in a short or open condition. At least one unit function has to have designated the morning warmup temperature sensor input as its sensor for this diagnostic to occur. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: NSB Zone Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the zone temperature input on the night setback panel that is communicating with RTM module is in an open or short condition. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: OA Flow Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the velocity pressure sensor connected to the ventilation control module is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: OA Rel Humid Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the outdoor air relative humidity sensor connected to the RTM module is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: OA Temp Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the outdoor air temperature sensor connected to the RTM module is reading an open or short condition. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Occ Cool Stpt Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the selected source for the occupied cooling setpoint input is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Occ Heat Stpt Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the selected source for the occupied heating setpoint input is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: RA Rel Humid Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the return air relative humidity sensor input on the ECEM module is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: RA Temp Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the return air temperature input on the ECEM module is reading an open or short condition. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: RTM Aux Temp Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the auxiliary temperature sensor input on the RTM module is reading an open or short condition. At least one unit function has to have designated the RTM auxiliary temperature input as its sensor for this diagnostic to occur. This is auto reset diagnostic. 0=NO, 1=YES |
|
Diag: RTM EEPROM Failure |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when a failure has taken place in writing data to the non-volatile memory in the RTM module. This is an information only diagnostic but does require a manual reset to clear. 0=NO, 1=YES |
|
Diag: RTM Zone Temp Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the zone temperature input on the RTM module is reading an open or a short condition. At least one unit function has to have the RTM zone temperature input designated as its sensor source for this diagnostic to occur. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Cool Stpt Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the supply air cooling setpoint input on the RTM module is reading a short or open condition. The IntelliPak unit must be configured as a VAV unit in order for this diagnostic to occur. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Heat Stpt Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the supply air heating setpoint input on the RTM module is reading a short or open condition. The IntelliPak unit must be configured as a VAV unit in order for this diagnostic to occur. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Hi Press - Auto |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the unit is configured as a VAV with inlet guide vanes, and the supply air static pressure has exceeded the supply air static pressure limit setpoint. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Hi Press - Manual |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the unit is configured as a VAV with inlet guide vanes , and the supply static pressure has exceeded the supply air static limit setpoint for the third time. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Press Stpt Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the supply air pressure setpoint input on GBAS module or the default value is out of range. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Pressure Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the unit is configured as a VAV with inlet guide vanes and the supply pressure input on the RTM module is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: SA Temp Sensor Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the supply air temperature input on the RTM module is reading an open or short condition. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Service Mode |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the IntelliPak unit has been placed into the service mode by an operator at the unit-mounted human interface. When the IntelliPak unit is in the service mode, all normal control functions will be disabled until the operator has put the unit back into the auto mode. This is an information only diagnostic. 0=NO, 1=YES |
|
Diag: Space Press Stpt Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the space pressure setpoint input on GBAS or the default space pressure setpoint is out of range. The unit must be configured as having StatiTrac for this diagnostic to occur. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Space Pressure Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the space pressure input on the ECEM module is reading an out of range value. The unit must be configured as having StatiTrac for this diagnostic to occur. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Supply Fan Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the supply air flow input on the RTM module is detected open for 40 continuous seconds while the supply fan output is ON. This is a manual reset diagnostic. 0=NO, 1=YES |
|
Diag: Unocc Cool Setpoint Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the selected source for the unoccupied cooling setpoint is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Unocc Heat Setpoint Fail |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when the selected source for the unoccupied heating setpoint is reading an out of range value. This is an auto reset diagnostic. 0=NO, 1=YES |
|
Diag: Vent Override Mode A |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when ventilation override mode A has been activated at the unit. This is an information only diagnostic. 0=NO, 1=YES |
|
Diag: Vent Override Mode B |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when ventilation override mode B has been activated at the unit. This is an information only diagnostic. 0=NO, 1=YES |
|
Diag: Vent Override Mode C |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when ventilation override mode C has been activated at the unit. This is an information only diagnostic. 0=NO, 1=YES |
|
Diag: Vent Override Mode D |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when ventilation override mode D has been activated at the unit. This is an information only diagnostic. 0=NO, 1=YES |
|
Diag: Vent Override Mode E |
Binary |
This property indicates the active status of this diagnostic. This diagnostic is present when ventilation override mode E has been activated at the unit. This is an information only diagnostic. 0=NO, 1=YES |
|
Diagnostic Reset |
Binary |
This property indicates the active status of a reset of manual reset diagnostics by the IntelliPak unit. |
|
Dirty Filter Input |
Binary |
This property indicates the active status of the dirty filter binary input on the RTM module. A dirty filter condition exists when the binary input has closed and is reading the bad condition. 0=NO, 1=OK |
|
Econ Min Pos Override: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control the economizer minimum position override function. 0=DISABLED, 1=ENABLED |
|
Economizer Control Source: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the economizer control source. 0=AUTO, 1=TRACER |
|
Economizer Control: Tracer |
Multi-State |
This property indicates the value that will be communicated by the system to the UCM and used for economizer control. 0=AUTO, 1=ENABLED, 2=DISABLED |
|
Economizer Damper Position |
Numeric |
This property indicates the active status of the economizer damper position analog output from the RTM module (if the unit is configured for an economizer. Range: 0-100% |
|
Economizer Enthalpy Setpoint |
Numeric |
This property indicates the active enthalpy setpoint being used by the referenced enthalpy economizer function. Range: 10.0 to 35.0 BTU/LBM |
|
Economizer Min Position |
Numeric |
This property indicates the active economizer minimum position setpoint being used by the economizer function. Range: 0 to 100% |
|
Economizer Min Position: Input |
Numeric |
This property indicates the active status of the economizer minimum position analog input on the RTM module. Range: 0 to 255 |
|
Economizer Min Position: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the economizer minimum position. Range: 0 to 100% |
|
Economizer Min Position: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the economizer minimum position.Range: 0 to 100% |
|
Economizer Request: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the economizer request. 0=DISABLE, 1= ENABLE |
|
Economizer: Economizing? |
Binary |
This property indicates whether or not the unit’s economizer is actively modulating to use outdoor air for free cooling. 0=NO, 1=YES |
|
Economizer: OK to Economize? |
Binary |
This property indicates whether or not the local economizer control function believes it is OK to economize. This decision is based on either the outdoor air temperature sensor, reference enthalpy, or comparative enthalpy economizer function. 0=NO, 1=YES |
|
Emergency Stop: External |
Binary |
This property indicates the active status of the emergency stop binary input on the RTM module. 0=NO, 1=YES |
|
Emergency Stop: Status |
Binary |
This property indicates whether or not the IntelliPak unit is currently in the emergency stop mode. If the unit is in the emergency stop mode, the local emergency stop input will have been detected closed. 0= NO, 1=EMERGENCY STOP |
|
Exhaust Actuator Position |
Numeric |
This property indicates the active status of the exhaust damper position. This output is valid on units configured with and without StatiTrac. Range: 0 to 100% |
|
Exhaust Air Proof |
Binary |
This property indicates the active status of the exhaust air proof binary input on the RTM module. This input is provided by a differential pressure switch across the exhaust fan. 0=BAD, 1=OK |
|
Exhaust Fan Enable Setpoint |
Numeric |
This property indicates the active exhaust fan enable setpoint being used by the unit. This setpoint is used on units configured with exhaust with and without StatiTrac. In order for the exhaust fan to be enabled, the economizer damper must be equal to or greater than this setpoint. Range: 0 to 100%. |
|
Exhaust Fan Status |
Binary |
This property indicates the active status of the exhaust fan binary output on the RTM module. 0=OFF, 1=ON |
|
GBAS AIP[1-4] |
Numeric |
This property indicates the active status of analog input number (1-4) on the GBAS module. The use of these analog inputs is defined in the GBAS configuration screen on the unit-mounted human interface. This is a four element array containing entries for GBAS AIP 1 through GBAS AIP 4. Range: 0.00 to 5.00 V DC |
|
GBAS BOP[1-5] |
Binary |
This property indicates the active status of binary output number (1-5) on the GBAS module. The configuration of these binary outputs is defined on the GBAS configuration screen on the unit-mounted human interface. This is a five element array containing entries for GBAS BOP 1 through GBAS BOP 5. 0=OFF, 1=ON |
|
Heat Fail Input |
Binary |
This property indicates the active status of the heat fail binary input on the heat module. This heat fail input is valid on units with gas or electric heat only. 0=OK, 1=BAD |
|
Heat Stage 1 Status |
Binary |
This property indicates the active status of the stage 1 heat binary output on the heat module. This stage 1 status is valid for units with gas or electric heat only. 0=OFF, 1=ON |
|
Heat Stage 2 Status |
Binary |
This property indicates the active status of the stage 2 heat binary output on the heat module. This stage 2 status is valid for units with gas or electric heat only. 0=OFF, 1=ON |
|
Heat Stage 3 Status |
Binary |
This property indicates the active status of the stage 3 heat binary output on the heat module. This stage 3 status is valid for units with electric heat only. 0=OFF, 1=ON |
|
Heat Stages Active |
Multi-State |
This property is calculated by taking the sum of the following properties: [Heat Stage 1 Status (0 or 1) + Heat Stage 2 Status (0 or 1) + Heat Stage 3 Status (0 or 1)] Range: 0, 1, 2, 3. |
|
Heat/Cool Mode Source: Setup |
Binary |
This property indicates the edited requested state of the Heat/Cool Control box on the Overrides page of the IntelliPak UCM editor. It is used by the BCU to determine the state of the Heat/Cool Mode Source: Tracer property. 0=AUTO, 1=TRACER" |
|
Heat/Cool Mode Source: Tracer |
Binary |
This property indicates the source of heating and cooling mode control for the UCM. A value of AUTO will allow the UCM to determine the heat/cool mode while TRACER will allow the system to control the heat/cool mode of the unit. 0=AUTO, 1=TRACER |
|
Heat/Cool Request: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the heat/cool request. 0=HEAT, 1=COOL |
|
Heat/Cool Request: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control the heat/cool function. This property is only used by the UCM if the "Heat/Cool Mode Source: Tracer" property’s value is TRACER. 0=HEAT, 1=COOL |
|
Heating Control: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the heating control lockout. 0= DISABLE, 1= AUTO |
|
Heating Control: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to disable the units heating control. DISABLE will lockout all heat on the unit while AUTO will allow heat to operate as needed. 0=DISABLE 1=AUTO |
|
Heating Reset Type |
Multi-State |
This property indicates the type of supply air heating setpoint reset selected for this unit. Supply air heating setpoint reset is valid only on VAV units with modulating (hydronic) heat. 0=NONE, 1=OUTDOOR AIR, 2=ZONE |
|
Heating Setpoint: Active |
Numeric |
This property indicates the active zone heating setpoint for a constant volume unit or a VAV unit in the unoccupied mode or the active supply air heating setpoint for a VAV unit in the occupied mode. An active supply air heating setpoint for a VAV unit is only valid on a unit with modulating (hydronic) heat. Range: 40.0 to 180.0° F |
|
Heating Setpoint: Input |
Numeric |
This property indicates the active status of the heating setpoint analog input on the RTM module. Range: 50.0 to 90.0° F |
|
Heating Setpoint: Source |
Multi-State |
This property indicates the active source for the unit’s heating setpoint. 0=RTM, 1=NSB, 2=RTM AUX, 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Hydronic Heat Valve Position |
Numeric |
This property indicates the active status of the modulating hydronic heat valve position. This property is valid only on units configured with heat and configured for hydronic heat. Range: 0 to 100% |
|
Hydronic Heat/Cool Output |
Multi-State |
This property indicates the active state of the two binary outputs on the heat module when used to switch between the heating valve and cooling valve on a unit with hydronic heat. If the state of this property is in the heat position, the hydronic valve analog output is being directed to the heating valve. If the state of this property is in the cool position, the hydronic valve analog output is being directed to the cooling valve. If the position of this output is in override, the hydronic valve analog output is being directed to both the heating and modulating cooling valve. The modulating cooling valve is valid only on units configured as an air handler. 0=GAS OR ELECTRIC, 1=HEAT, 2=COOL, 3=OVERRIDE (both outputs active).Note: No Modulating Heat refers to a unit that is configured with either gas or electric heat. |
|
Last Control Date Time |
Date/Time Numeric |
This indicates the date and time when the present value property of this object was last controlled. |
|
Mech Cooling Control: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM for mechanical cooling control lockout. 0=AUTO, 1= DISABLE |
|
Mech Cooling Control: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to disable mechanical cooling control on the unit. DISABLE will lockout all compressor and chilled water functions on the unit while AUTO allows mechanical cooling to run if required. 0=AUTO, 1=DISABLE |
|
Minimum Off Time |
Numeric |
This property provides access to the minimum off time assigned to the UCM being represented. This value serves to protect the hardware from cycle times which might harm the hardware. |
|
Minimum On Time |
Numeric |
This property provides access to the minimum on time assigned to the UCM being represented. This value serves to protect the hardware from cycle times which might harm the hardware. |
|
Minimum Time Remaining |
Numeric |
This property provides access to the minimum time remaining (if any) of a minimum On/Off time control action for the represented UCM device. PUTS are also allowed so that an operator can intervene on a Minimum On/Off control action that is in progress. |
|
Mixed Air Low Pressure Status |
Binary |
This property indicates the active status of the mixed air low pressure binary input on the ventilation control module. If this input is indicating a short condition, both the return air and outdoor air dampers have become closed creating a high negative pressure in the mixed air section of the unit. 0=OPEN, 1=SHORT |
|
Mixed Air Temperature |
Numeric |
This property indicates the active value of the mixed air temperature sensor analog input on the ventilation control module. Range: -40.0 to 200.0° F |
|
Mode: Active |
Multi-State |
This calculated property indicates the active mode of the IntelliPak based on whether or not the unit is under ICS control. 0=OCCUPIED HEATING, 1=OCCUPIED COOLING, 2=UNOCCUPIED HEATING, 3=UNOCCUPIED COOLING, 4=OCCUPIED HEATING - MORNING WARMUP, 5=OCCUPIED HEATING - DAYTIME WARMUP. |
|
Mode: Auto/Stop |
Binary |
This property indicates the active run mode of the unit. If the unit is in the stop mode, it can be stopped by the human interface, the auto stop binary input on the RTM module, the emergency stop input on the RTM module, or by the Tracer Summit system. 0=AUTO, 1=STOP |
|
Mode: Daytime Warmup |
Binary |
This property indicates the active status of the daytime warmup mode. YES means the unit is in the daytime warmup mode. Daytime warmup is valid only on VAV units configured with heat. 0=NO, 1=YES |
|
Mode: Diagnostic Stop |
Binary |
This property indicates whether or not the unit has been stopped due to a manual reset diagnostic occurring. If the unit is in the diagnostic stop mode, a manual reset of the unit will be required to restart the unit. 0=NO, 1=YES |
|
Mode: Heat/Cool |
Binary |
This property indicates whether or not the unit is in the heating or cooling mode. 0=HEAT, 1=COOL |
|
Mode: Morning Warmup |
Binary |
This property indicates the active status of the morning warmup mode. Morning warmup is valid on constant volume and VAV units that are configured to have heat. 0=NO, 1=YES |
|
Mode: Start Delay |
Binary |
This property indicates whether or not the unit is in a start delay mode. Start delay mode may be encountered after the unit has regained power after a power failure and is waiting to hear from the Building Automation system before starting up. 0=NO, 1=YES |
|
Mode: System Status |
Binary |
This property indicates whether the IntelliPak Rooftop unit is in the ON or OFF mode. 0=OFF, 1=ON |
|
Morning Warmup Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the morning warmup setpoint. A "0" displays if the reference is exceeded.Range: 50.0 to 90.0° F |
|
Morning Warmup Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the morning warmup setpoint. Range: 50.0 to 90.0° F |
|
Morning Warmup Temp: Input |
Numeric |
This property indicates the active status of the morning warmup temperature analog input on the heat module. Range: -40.0 to 200.0° F |
|
Morning Warmup Temp: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the morning warmup temperature. Range: -40.0 to 200.0° F |
|
Morning Warmup Temp: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the morning warmup temperature. Range: -40.0 to 200.0° F |
|
Object Identifier |
Object ID |
This property allows the assignment of a unique printable name to the object for user identification. |
|
Object Type |
Multi-State |
This property indicates the property’s type (i.e., analog input, binary output, PCM, TCM, etc.) |
|
Occ Cooling Setpoint: Input NSB |
Numeric |
This property indicates the active value of the occupied cooling or supply air setpoint input on the night setback panel. This value is equivalent to the occupied cooling setpoint for a unit that is configured as constant volume unit or it is equivalent to supply air cooling setpoint if the unit is configured as a VAV unit. Range: 40.0 to 90.0° F |
|
Occ Cooling Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the constant volume occupied cooling setpoint. Range: 50.0 to 90.0° F |
|
Occ Cooling Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the constant volume occupied cooling setpoint. Range: 50.0 to 90.0° F |
|
Occ Heating Setpoint: Input NSB |
Numeric |
This property indicates the active value of the occupied heating or morning warmup setpoint input on the night setback panel. This value is equivalent to the occupied heating setpoint for constant volume units or this value is the morning warmup setpoint for VAV units. Range: 50.0 to 90.0° F |
|
Occ Heating Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the constant volume occupied heating setpoint. Range: 50.0 to 90.0° F |
|
Occ Heating Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the constant volume occupied heating setpoint. Range: 50.0 to 90.0° F |
|
Occ Setpoint Source: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to define the source for the constant volume occupied heating and cooling setpoints. 0=AUTO, 1=TRACER |
|
Occ\UnOcc Output |
Binary |
This property indicates the state of the occupied/ unoccupied relay output on the UCM. This output is on when the unit is unoccupied or when it is occupied and providing constant volume air flow (i.e., morning warmup, daytime warmup). 0=OCCUPIED, 1=UNOCCUPIED |
|
Occ\Unocc: Input |
Binary |
This property indicates the active status of the occupied/unoccupied binary input on the RTM module. 0=OCC, 1=UNOCC |
|
Occupancy: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to define occupancy status. 0=OCCUPIED, 1= UNOCCUPIED |
|
Outdoor Air Enthalpy |
Numeric |
This property indicates the active calculated value of the outdoor air enthalpy. This outdoor air enthalpy value is calculated in the RTM module by using active outdoor air temperature and active outdoor air relative humidity. Range: 10.0 to 35.0 BTU/LBM |
|
Outdoor Air Flow |
Numeric |
This property indicates the active value of the quantity of outdoor air being brought into the unit. This value is valid only on units configured to have a ventilation control module. Range: 0 to 60,000 CFM (RES: 10 CFM) |
|
Outdoor Air Flow Setpoint |
Numeric |
This property indicates the active value for the minimum outdoor air CFM setpoint. Range: 0 to 60,000 CFM (RES: 10 CFM) |
|
Outdoor Air Flow: Min Stpt Sourc |
Multi-State |
This property indicates the source for the minimum outdoor air CCFM setpoint. 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Outdoor Air Flow: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the outdoor air intake rate in CCFM (hundreds of CFM). This property is intended for future applications. It is permanently set to 32767 by the BCU and cannot be changed.Range: 0 to 600 CCFM(RES: 0.1 CCFM) |
|
Outdoor Air Humidity: Active |
Numeric |
This property indicates the active value of outdoor air humidity being used by the unit for calculating outdoor air enthalpy. Range: 0 to 100% |
|
Outdoor Air Humidity: Input |
Numeric |
This property indicates the active value of the outdoor humidity analog input on the RTM module. Range: 10 to 90% |
|
Outdoor Air Humidity: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the outdoor air humidity.Range: 10 to 90% |
|
Outdoor Air Humidity: Source |
Multi-State |
This property indicates the active source for the outdoor air humidity value. 0=RTM, 1=NSB, 2=RTM Aux , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Outdoor Air Humidity: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used for the outdoor air humidity. Range: 10 to 90% |
|
Outdoor Air Min Flow Stpt: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the outdoor air minimum CCFM setpoint. Range: 0 to 600 CCFM (RES: 0.1 CFM) |
|
Outdoor Air Min Flow Stpt: Tracr |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the outdoor air minimum CCFM setpoint. Range: 0 to 60,000 CCFM (RES: 0.1 CFM) |
|
Outdoor Air Temp: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the outdoor air temperature. Range: -40.0 to 200.0° F |
|
Outdoor Air Temperature: Active |
Numeric |
This property indicates the active value being used by the unit for outdoor air dry bulb temperature. Range: -40.0 to 200.0° F |
|
Outdoor Air Temperature: Input |
Numeric |
This property indicates the active value of the outdoor air temperature analog input on the RTM module. Range: -40.0 to 200.0° F |
|
Outdoor Air Temperature: Source |
Multi-State |
This property indicates the active source for the outdoor air temperature value. This is the temperature value the unit is using for dry bulb economizer or to calculate outdoor air enthalpy for reference or comparative enthalpy economizing. 0=RTM, 1=NSB, 2=RTM Aux , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Outdoor Air Temperature: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the outdoor air temperature. Range: -40.0 to 200.0° F |
|
Power Fail |
Binary |
This property indicates that the IntelliPak UCM has detected a power fail and is currently going through its power fail recovery startup sequence. 0=NO, 1=YES |
|
Preheat Output |
Binary |
This property indicates the active state of the preheat binary output on the ventilation control module. This output is used to preheat outdoor in extremely cold conditions. 0=OFF, 1=ON |
|
Present Value |
Multi-State |
This property is used to control the unit to one of nine standard operation modes. These modes are defined as UNOCCUPIED, OPTIMAL START, OCCUPIED, OPTIMAL STOP, DEMAND LIMIT, DUTY CYCLE, PRIORITY SHUTDOWN, NIGHT ECONOMIZE, and NIGHT HEAT-COOL. A translation (within the BCU) may take place to map these modes into a simpler mode set. |
|
Return Air Enthalpy |
Numeric |
This property indicates the calculated value of return air enthalpy. The return air enthalpy value is calculated in the ECEM module by using the active return air temperature and return air relative humidity. Range: 10.0 to 35.0 BTU |
|
Return Air Humidity: Input |
Numeric |
This property indicates the active return air relative humidity analog input on the ECEM module. Range: 10 to 90% |
|
Return Air Temperature: Input |
Numeric |
This property indicates the active return air temperature analog input on the ECEM module. Range: -40.0 to 200.0° F |
|
SA Control Temp: Active |
Numeric |
This property indicates the active value being used as the supply air temperature by the unit. Range: -40.0 to 200.0° F |
|
SA Control Temp: Source |
Multi-State |
This property indicates the active source for the supply air temperature. 0=RTM, 1=NSB, 2=RTM AUX , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
SA Cooling Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the supply air cooling setpoint. Range: 40.0 to 90.0° F |
|
SA Cooling Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the supply air cooling setpoint.Range: 40.0 to 90.0° F |
|
SA Heating Setpoint: Input |
Numeric |
This property indicates the active value of the supply air heating setpoint analog input on the night setback panel. This input is valid only for VAV units with modulating heat. Range: 40.0 to 180.0° F |
|
SA Heating Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the supply air heating setpoint. Range: 40.0 to 180.0° F |
|
SA Heating Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the supply air heating setpoint. This setpoint is valid only for VAV units with hydronic heat.Range: 40.0 to 180.0° F |
|
SA Pressure Setpoint: Active |
Numeric |
This property indicates the active value being used as the supply air pressure setpoint by the unit for supply air pressure control. Range: 1.0 to 4.3 in H20 |
|
SA Pressure Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the supply air pressure setpoint. Range: 0.5 to 4.3 in H2O |
|
SA Pressure Setpoint: Source |
Multi-State |
This property indicates the active source for the supply air pressure setpoint. 0=RTM, 1=NSB, 2=RTM AUX , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
SA Pressure Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the supply air pressure setpoint. Range: 0.5 to 4.3 in H2O. This property is intended for future applications. It is permanently set to 3276.7 by the BCU and cannot be changed. |
|
SA Pressure: Input |
Numeric |
This property indicates the active value of the supply air pressure analog input on the RTM module. Range: 0.0 to 5.0 in H2O |
|
SA Pressure: Tracer |
Numeric |
Not implemented |
|
SA Proof |
Binary |
This property indicates the active status of the supply air proving binary input on the RTM module. The supply air proof is obtained by using a differential pressure switch across the supply air fan. 0=BAD, 1=OK |
|
SA Temperature: Input |
Numeric |
This property indicates the active value of the supply air temperature analog input on the RTM module. Range: -40.0 to 200.0° F |
|
SA Temperature: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the supply air temperature. This property is intended for future applications. It is permanently set to 3276.7 by the BCU and cannot be changed.Range: -40.0 to 200.0° F |
|
Software Rev Level: ECEM |
Numeric |
This property indicates the software revision level of the exhaust comparative enthalpy module. Range: 0.0 to 25.5 |
|
Software Rev Level: GBAS |
Numeric |
This property indicates the software revision level of the generic building automation system module. Range: 0.0 to 25.5 |
|
Software Rev Level: HEAT |
Numeric |
This property indicates the software revision level of the heat module. Range: 0.0 to 25.5 |
|
Software Rev Level: Local HI |
Numeric |
This property indicates the software revision level of the unit-mounted human interface. Range: 0.0 to 25.5 |
|
Software Rev Level: Remote HI |
Numeric |
This property indicates the software revision level of the remote human interface. Range: 0.0 to 25.5 |
|
Software Rev Level: RTM |
Numeric |
This property indicates the software revision level of the RTM module. Range: 0.0 to 25.5 |
|
Software Rev Level: SCM/MCM |
Numeric |
This property indicates the software revision level of the SCM/MCM module. Range: 0.0 to 25.5 |
|
Software Rev Level: TCI |
Numeric |
This property indicates the software revision level of the Trane Communications Interface module. Range: 0.0 to 25.5 |
|
Software Rev Level: VCM |
Numeric |
This property indicates the software revision level of the ventilation control module. Range: 0.0 to 25.5 |
|
Software Rev Level: VOM |
Numeric |
This property indicates the software revision level of the ventilation override module. Range: 0.0 to 25.5 |
|
Space Pressure Setpoint: Active |
Numeric |
This property indicates the active value of the space pressure setpoint that is being used by the space pressurization control function of the unit. Range: 0.03 to 0.30 in H20 |
|
Space Pressure Setpoint: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the space pressure setpoint. Range: 0.03 to 0.30 in H2O |
|
Space Pressure Setpoint: Source |
Multi-State |
This property indicates the active source of the space pressure setpoint being used by the unit. 0=RTM, 1=NSB, 2=RTM AUX , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Space Pressure Setpoint: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the space pressure setpoint.Range: 0.03 to 0.30 in H2O |
|
Space Pressure: Active |
Numeric |
This property indicates the active value of space pressure that the space pressure control function is using. Range: -0.28 to 0.50 in H20 |
|
Space Pressure: Input |
Numeric |
This property indicates the active value of the space pressure analog input on the ECEM module. Range: -0.50 to 5.00 in H20 |
|
Space Pressure: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the space pressure. Range: -0.28 to 0.50 in H2O |
|
Space Pressure: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the space pressure. Range: -0.28 to 0.50 in H2O |
|
Space Temperature: Active |
Numeric |
This property indicates the active space temperature the IntelliPak is using for control function purposes. This value is used on constant volume units and can also be used on VAV units for morning warmup, daytime warmup, or unoccupied zone control functions. Range: -40.0 to 200.0° F |
|
Space Temperature: Input NSB |
Numeric |
This property indicates the active value of the space temperature analog input on the night setback panel. Range: -40.0 to 90.0° F |
|
Space Temperature: Input RTM |
Numeric |
This property indicates the active value of the space temperature analog input on the RTM module. Range: -40.0 to 200.0° F |
|
Space Temperature: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM as the space temperature. Range: -40.0 to 200.0° F |
|
Space Temperature: Source |
Multi-State |
This property indicates the active source of the space temperature being used by the unit. 0=RTM, 1=NSB, 2=RTM AUX , 3=MWU, 4=DEFAULT, 5=GBAS, 6=TRACER |
|
Space Temperature: Tracer |
Numeric |
This property indicates the value that will be communicated by the system to the UCM and used as the space temperature. Range: -40.0 to 200.0° F |
|
Supply Fan Mode |
Binary |
This property indicates the active mode of the supply fan operation. If the supply fan mode is AUTO, the supply fan will only be energized when there is an active call for heating or cooling. If the supply fan mode is ON, the supply fan will be energized continuously during occupied times and will be placed in the AUTO mode during unoccupied times. For VAV units, the fan mode is always ON during occupied times and AUTO during unoccupied times. 0=AUTO, 1=ON |
|
Supply Fan Mode: Setup |
Binary |
This property indicates the edited mode of the Occupied Fan Mode box on the CV Control page of the IntelliPak UCM editor. This property is used by the BCU to determine the state of the Supply Fan Mode: Tracer property. 0=AUTO, 1=ON |
|
Supply Fan Mode: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used for the supply fan mode. 0=AUTO, 1=ON |
|
Supply Fan Status |
Binary |
This property indicates the active status of the supply fan binary output on the RTM module. 0=OFF, 1=ON |
|
Supply Fan: IGV/VFD Position |
Numeric |
This property indicates the active value of the supply modulation analog output on the RTM module. This supply fan modulation output can be used to drive inlet guide vanes or can be used as an input to a variable frequency drive. Range: 0 to 100% |
|
Timed Override Request |
Binary |
This property indicates that a request has been received to initiate the timed override function on the IntelliPak unit. 0=NO, 1=YES |
|
Timed Override Request: Cancel |
Binary |
This property indicates that a request has been received to cancel an activated timed override. 0=NO, 1=YES |
|
UCM Analog Differential |
Numeric |
This property indicates the number of degrees applied to either setpoint to determine the other setpoint. Range: 0.0 to 20.0° F |
|
UCM Use Differential |
Binary |
This property indicates whether or not to apply the UCM Analog Differential to one setpoint to determine the other setpoint. 0=NO, 1=YES |
|
Unit Auto/Stop: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used for unit auto/stop control. 0=AUTO, 1=STOP |
|
Unit Control Source |
Binary |
This property indicates the active source of control parameters for control of the IntelliPak control functions. If the unit control source is LOCAL, the unit is currently not accepting control parameters from the Tracer Summit system and will use local setpoint and sensor values. If the unit control source is TRACER, the IntelliPak unit will accept setpoint and control information from the Tracer Summit system. 0=LOCAL, 1=TRACER |
|
Unocc Cooling Setpoint: NSB |
Numeric |
This property indicates the active value of the unoccupied cooling setpoint analog input on the night setback panel. Range: 50.0 to 90.0° F |
|
Unocc Heating Setpoint: NSB |
Numeric |
This property indicates the active value of the unoccupied heating setpoint analog input on the night setback panel. Range: 50.0 to 90.0° F |
|
Update Tag |
Numeric |
Object instance update tag. This tag is used to indicate that the nonvolatile memory resident data within the particular instance has changed. The workstation is the primary user of this property. |
|
VAS Drive to Max |
Binary |
This property indicates a request from the IntelliPak unit to drive the VAV boxes to max position. This request is initiated when a VAV unit is changing from SA pressure control to full air flow (fan modulation=100%). 0=AUTO, 1=DRIVE TO MAX |
|
VAV Changeover Input |
Binary |
This property indicates the active value of the VAV changeover binary input on the RTM module. If the unit control source is LOCAL and the unit is configured as a VAV unit, the heat/cool mode of the unit will be driven by the state of this binary input. 0=HEAT, 1=COOL |
|
VAV Heat Output |
Binary |
This property is calculated as follows: If "Mode: Heat/Cool"=0 (heat), then "VAV Heat Output"=1 (ON), else "VAV Heat Output"=0 (OFF). 0=OFF, 1=ON. |
|
Ventilation Override Relay |
Binary |
This property indicates the active status of the ventilation override relay output on the VOM module. 0=OFF, 1=ON |
|
VOM Active |
Binary |
This property indicates whether or not a ventilation override mode has been activated at the unit. 0=INACTIVE, 1=ACTIVE |
|
VOM Input Mode A |
Binary |
This property indicates the active status of ventilation override mode binary input for mode A on the VOM module. If this input is CLOSED, the user-defined ventilation override mode A will be activated. 0=OPEN, 1=CLOSED |
|
VOM Input Mode B |
Binary |
This property indicates the active status of ventilation override mode binary input for mode B on the VOM module. If this input is CLOSED, the user-defined ventilation override mode B will be activated. 0=OPEN, 1=CLOSED |
|
VOM Input Mode C |
Binary |
This property indicates the active status of ventilation override mode binary input for mode C on the VOM module. If this input is CLOSED, the user-defined ventilation override mode C will be activated. 0=OPEN, 1=CLOSED |
|
VOM Input Mode D |
Binary |
This property indicates the active status of ventilation override mode binary input for mode D on the VOM module. If this input is CLOSED, the user-defined ventilation override mode D will be activated. 0=OPEN, 1=CLOSED |
|
VOM Input Mode E |
Binary |
This property indicates the active status of ventilation override mode binary input for mode E on the VOM module. If this input is CLOSED, the user-defined ventilation override mode E will be activated. 0=OPEN, 1=CLOSED |
|
VOM Mode A: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM for control of ventilation override mode A. 0=AUTO, 1=ON |
|
VOM Mode A: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control ventilation override mode A. AUTO defers control of ventilation override mode A to the UCM. ON initiates ventilation override mode A. 0=AUTO, 1=ON |
|
VOM Mode B: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM for control of ventilation override mode B. 0=AUTO, 1=ON |
|
VOM Mode B: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control ventilation override mode B. AUTO defers control of ventilation override mode B to the UCM. ON initiates ventilation override mode B. 0=AUTO, 1=ON |
|
VOM Mode C: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM for control of ventilation override mode C. 0=AUTO, 1=ON |
|
VOM Mode C: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control ventilation override mode C. AUTO defers control of ventilation override mode C to the UCM. ON initiates ventilation override mode C. 0=AUTO, 1=ON |
|
VOM Mode D: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM for control of ventilation override mode D. 0=AUTO, 1=ON |
|
VOM Mode D: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control ventilation override mode D. AUTO defers control of ventilation override mode D to the UCM. ON initiates ventilation override mode D. 0=AUTO, 1=ON |
|
VOM Mode E: Ref |
Property Reference |
This property indicates the value to be used by the BCU to determine which value to communicate to the UCM for control of ventilation override mode E. 0=AUTO, 1=ON |
|
VOM Mode E: Tracer |
Binary |
This property indicates the value that will be communicated by the system to the UCM and used to control ventilation override mode E. AUTO defers control of ventilation override mode E to the UCM.. ON initiates ventilation override mode E. 0=AUTO, 1=ON |