Trane Tracer Unit Ventilator, ZN.520 manual Configuration, Configurable parameters, Cooling source

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Configuration

Note: The Tracer Zn.520 unit controller only supports cascade control by controlling the discharge air temperature. Therefore, the controller requires both a space temperature input and a discharge air temperature input.

Table 9: Typical applications supported

Trane configures the Tracer® ZN.520 Unit Controller at the fac- tory per the selected unit configu- ration. The controller is applied classroom unit ventilator configu- rations that support modulating valves, 2-position valves, econo- mizer damper (modulating only), direct expansion (DX) cooling, 1-

and 2 -stage electric heat, face- and-bypass damper, baseboard heat, dehumidification, and ge- neric I/O. The controller also sup- ports HIGH and LOW fan speeds with exhaust fan output on 1- and 2-speed fan applications.

Configuration

2-pipe cooling only

2-pipe heating only

2-pipe changeover

4-pipe

4-pipe changeover

2-pipe face bypass heating only

2-pipe face bypass changeover

4-pipe face bypass DX cooling only

DX cooling, 2-pipe heating

DX cooling, electric heating

Electric heat only (1 or 2 stage)

1. Isolation valves are 2-position only.

Type of valve				Options
		Electric Heat		Economizer		Baseboard
		Electric Heat		Economizer		Baseboard
Modulating	2 position	(1 or 2 stage)		Damper		Heat
ü	ü	ü		ü
ü	ü			ü		ü
ü	ü	ü		ü		ü
ü	ü			ü		ü
ü	ü			ü		ü
	ü1			ü		ü
	ü1			ü		ü
	ü1			ü		ü
NA	NA			ü
ü	ü			ü		ü
NA	NA	ü		ü		ü
NA	NA	ü		ü		ü

Configurable parameters

Rover service tool uses the unit type to determine and download many other aspects of the unit con- figuration, such as the default ana- log input configuration, the default binary input configuration, and the default binary output configura- tion.

Cooling source

qNone

qHydronic (main coil changeover)

qDedicated hydronic

qDX

Heating source

qNone

qHydronic

qDedicated hydronic

qSteam

qElectric heat

qHydronic (main coil changeover) + dedicated hydronic (auxiliary coil)

qHydronic (main coil changeover)

32	UV-SVP01A-EN

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Contents Tracer ZN.520 for Classroom Unit Ventilator Installation Owner DiagnosticsInstallation of New Units Start-up ProceduresPower Up Sequence Tracer ZN.520 Overview General InformationGeneral Information Tracer ZN.520 unit controller circuit board Controller Circuit Board FeaturesTypical Components Controller FeaturesService Integrated Comfort System Communication ConfigurationsPeer-to-Peer Communications Interoperability Stand-AloneCommunication Interface Characteristic End Device SpecificationsStandard End Devices DescriptionStandard End Devices Way Control Valve Time clock Zone sensor Dpdt Control Transformer Specifications Installation and WiringBinary Inputs Generic/baseboard Heat Binary Output Binary OutputsAnalog inputs Analog InputsMounting Vertical classroom unit ventilator end pocket Power WiringProper zone sensor placement Installing the Wall- Mounted Zone Sensor OptionalHumidity and CO2 Sensors Typical Wiring Diagram-Wall Mounted Zone Sensor Typical Wiring Diagram-Unit Mounted Zone Sensor Typical Wiring Diagram-Unit Input and output summary Input/Output SummaryInput/Output Summary Configurable parameters ConfigurationCooling source Heating sourceBinary Outputs1 Binary Inputs1 Binary input summary ConfigurationAnalog Inputs1 Analog input summaryEnd Device Configurations Fan ConfigurationFan configuration ranges DefaultDischarge air limit ranges Default Valid range Setpoint defaults Default Valid rangeSetpoints Discharge Air LimitsMaintenance Timers Occupied Bypass TimerPower-Up Control Wait Winking Location IdentifierUnit Identification Tag Unit Operation Power-UpHeating And Cooling Changeover Logic OccupancyHeat/Cool Changeover logic Cooling Operation Fan Off DelayHeating Operation Fan OperationFace-and-Bypass Damper Operation Valve OperationExhaust fan/damper operation Modulating ValvesWater assumption chart Entering Water Temperature SamplingUnit Configuration Temperature Assumed1DX Operation Economizer OperationElectric Heat Operation Baseboard Heat OperationOutput Overrides Filter Status/ Maintenance TimerFan Status Other ModesSimple data sharing application Data Sharing-LonWorksMore complex data sharing application Heating And Cooling Changeover Logic Heat/Cool Changeover logic Cooling Operation Valve Operation Entering Water Temperature Sampling Economizer Operation Output Overrides Data Sharing-LonWorks More complex data sharing application Red Service LED TroubleshootingBlack Service Push Button Yellow Comm LEDExit6 Test ProcedureTroubleshooting Entering Water Temperature Failure Space Temperature FailureDischarge Air Temperature Limit Outdoor Air Temperature FailureDiagnostics Troubleshooting Translating Multiple Diagnostics Fans Rover service toolValves stay open Probable cause Possible Explanation ValvesValves stay closed Probable cause Possible Explanation Outdoor air damper stays closed Probable cause Explanation DX/Electric HeatOutside Air Damper Probable Cause Explanation Outdoor air damper stays openReplacing Circuit Boards Tracer ZN.520 Unit Controller ReplacementFan Switch Resistance Values Hardwired Setpoint AdjustmentHardwired Thermistor Values AppendixBinary Configuration Appendix-Binary ConfigurationBinary configuration details Binary input or output FunctionEffective heat/ cool mode output nvoHeatCool Heat/cool mode input NviHeatCoolAppendix-Unit Operation Unit Operation Based On The Effective HEAT/COOL OutputAppendix-Unit Operation Appendix-Data Lists Configuration properties1Data Lists Input/output listing1Appendix-Timeclock Setting the Time ClockSet the Time and Day Set the ProgramOverride Program Manual Operation Review and Change ProgramsAppendix-Timeclock Appendix-Location Identifier Location Identifier Location Identifier Location Identifier Trane Company