Trane N512 Discharge air tempering, Morning warm-up, Morning cool-down, Heating or cooling mode

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Discharge air tempering

Discharge air tempering

If the controller is in cooling mode, cascade zone control initiates a dis- charge air tempering function when the discharge air temperature falls below the Discharge Air Control Point Low Limit (configurable using the Rover service tool) and all cooling capacity is at a minimum. The dis- charge air tempering function allows the controller to provide heating capacity (if available) to raise the discharge air temperature to the Dis- charge Air Control Point Low Limit.

The discharge air tempering function is often initiated under the follow- ing circumstances: Cold outdoor air is brought in through the outdoor air damper when the damper is at (a high) minimum position, causing the discharge air temperature to fall below the Discharge Air Control Point Low Limit.

Morning warm-up

The morning warm-up feature is initiated when the controller is in tran- sition from unoccupied to occupied mode and the zone temperature is 3°F (1.7°C) below the occupied heating setpoint. The fan will be turned on and the outdoor air damper will remain closed. The damper modulates between closed and minimum position when the zone temperature is 2–3°F (1.2–1.7°C) below the active heating setpoint. When the zone tem- perature reaches the occupied heating setpoint, the controller begins operating in the occupied mode.

Morning cool-down

The morning cool-down feature is initiated when the controller is in tran- sition from unoccupied to occupied and the zone temperature is 3°F (1.7°C) above the occupied heating setpoint. The fan will be turned on and the outdoor air damper will remain closed. The damper modulates between closed and minimum position when the zone temperature is 2–3°F (1.2–1.7°C) above the active cooling setpoint. When the zone tem- perature reaches the occupied heating setpoint, the controller begins operating in the occupied mode.

Heating or cooling mode

The heating or cooling mode can be determined in one of two ways:

By a communicated signal from a BAS or a peer controller

Automatically, as determined by the controller

A communicated heating signal permits the controller to heat only. A communicated cooling signal permits the controller to cool only. A com- municated auto signal allows the controller to automatically change from heating to cooling and vice versa.

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Contents Installation and Operation Tracer ZN521 Zone Controller Page CNT-SVX07C-EN April CNT-SVX07C-EN Tracer ZN521 Zone Controller Installation and Operation CNT-SVX07C-EN Contents Sequence of operations Status indicators for operation and communication Troubleshooting Index Product description Overview and specificationsStorage environment DimensionsClearances Plastic-cover model dimensions and clearances Additional components Agency listing/complianceDamper actuators Tracer zone temperature sensor optionsZone humidity sensor CO2 sensorOverview and specifications AC-power wiring Input/output terminal wiringGeneral wiring information Communication-link wiring and addressing General wiring information Operating environment requirements Location recommendationsMounting the Tracer ZN521 zone controller Mounting recommendationsApplication SpeedfanMultiple Dehumidification Typical applications for the Tracer ZN521 zone controllerControlValve Economizing HeatElectricBinary inputs BI1 Low-coil-temperature detectionBI2 Condensate overflow Binary inputsBI4 Fan status BI3 Occupancy or generic binary inputAnalog inputs ZN Zone temperatureGND Ground terminals Analog inputsAI1 Entering water temperature FAN Fan mode inputSET Local setpoint AI3 Outdoor air temperature or generic temperature AI2 Discharge air temperatureConfiguration Measurement range AI4 configuration options and associated measurement rangesAI4 Universal 4-20 mA AI4 terminal wiring CO2 measurement Generic binary output Binary outputsBinary output functions Binary output FunctionsOverriding binary outputs Wiring requirements and optionsRequired controller inputs for proper operation Function Input source For more information SeeTwo-pipe hydronic-cooling unit Two-pipe hydronic-heating unit Two-pipe hydronic heating/cooling unit with auto changeover Four-pipe hydronic heating/cooling unit Four-pipe heating/cooling unit with auto changeover Two-pipe heating unit with DX cooling Electric heat unit with DX cooling Electric heat unit Two-pipe heating unit with face-and-bypass damper Two-pipe heating/cooling unit with face-and-bypass damper Four-pipe heating/cooling unit with face-and-bypass damper Input/output functions and wiring for typical applications Random start Power-up sequence Unoccupied mode Occupied mode Occupied standby mode Occupancy modesTimed override control Occupied bypass modeCascade zone control Zone temperature controlSimplified zone control Discharge air tempering Heating or cooling modeMorning warm-up Morning cool-downFan operation Entering water temperature sampling functionExhaust control Exhaust controlModulating valve operation Valve operationModulating valve calibration Valve control optionsTwo-position valve operation Modulating outdoor/return air dampersIsolation-valve operation Two-pipe operationModulating outdoor air damper position Ashrae Cycle 2 conformance Ashrae Cycle 1 conformanceEconomizing free cooling Face-and-bypass damper operation Two-position control of a modulating outdoor air damperDX cooling operation Face-and-bypass, isolation-valve operationBaseboard heat operation Electric heat operationDehumidification Unit protection strategies Peer-to-peer communicationLow-coil-temperature protection Smart resetFan off delay Condensate overflowFreeze protection discharge air temperature low limit Filter-maintenance timerFreeze avoidance Tracer ZN521 zone controller circuit board Test buttonManual output test Output For nonClose damper, air Outdoor Open damper, air Outdoor BOP1 BOP2 BOP3 BOP4 BOP5 BOP6 BOP7 BOP8 BOP9 Step ResultRed LED Service indicator Service pin buttonInterpreting LEDs LED activity ExplanationYellow LED Communications indicator Green LED Status indicatorTypes of diagnostics DiagnosticsDiagnostics Table of diagnosticsDiagnostic Probable cause Consequences Type Fan unaffectedPosition Valved unaffectedDamper unaffected Status indicators for operation and communication Probable cause Explanation Fan does not energizeValves remain closed TroubleshootingDX or electric heat does not energize Valves remain openOutdoor air damper remains open Outdoor air damper remains closedOutdoor air damper remains open Troubleshooting Numerics IndexIndex Index Index Page Trane
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