Trane CNT-SVX07C-EN Two-position control of a modulating outdoor air damper, DX cooling operation

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Chapter 5 Sequence of operations

Two-position control of a modulating outdoor air damper

The Tracer ZN521 does not support a two-position outdoor air damper actuator. However, a modulating outdoor/return air damper actuator can be used for two-position control. Two-position control can be accomplished by not providing an outdoor air temperature (neither hard-wired nor com- municated) to the controller, and by setting the damper minimum posi- tion (using the Rover service tool) to the desired value (typically, 100%).

Face-and-bypass damper operation

The Tracer ZN521 can control a face-and-bypass damper to modulate a percentage of air to the face of the coil(s) and around (bypass) the coil(s) to maintain zone comfort. For two-pipe changeover applications, if the con- troller requests heating and hot water is available, the face-and-bypass damper modulates to the face position. If the controller requests heating and hot water is not available, the face-and-bypass damper remains in the bypass position, and water sampling may be initiated (see “Entering water temperature sampling function” on page 40). For four-pipe changeover applications, both heat and cool capacity are assumed to be available.

Face-and-bypass, isolation-valve operation

ATracer ZN521 with a face-and-bypass damper controls on/off isolation valve(s) to prevent unwanted water flow through the coil(s) when no air- flow is passing over the coil (100% bypass). In two-pipe applications, the isolation valve stops water flow, preventing radiant heat (heating mode) and excessive condensate (cooling mode) from the coil. In four-pipe appli- cations, the isolation valves are used to prevent simultaneous heating and cooling.

The heating or cooling isolation valve opens whenever capacity is requested (>0%) as the face-and-bypass damper begins to modulate toward the coil face. The isolation valve closes when capacity returns to 0%.

DX cooling operation

The Tracer ZN521 supports one stage of direct expansion (DX) compres- sor operation for cooling only.

Note:

The controller does not use the DX compressor and economizing simultaneously. Not doing so prevents short cycling from occur- ring if the entering air temperature is too low for the evapora- tor coil to operate as designed.

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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 Overview and specifications Product descriptionClearances DimensionsStorage environment Plastic-cover model dimensions and clearances Agency listing/compliance Additional componentsTracer zone temperature sensor options Damper actuatorsZone humidity sensor CO2 sensorOverview and specifications Input/output terminal wiring AC-power wiringGeneral wiring information Communication-link wiring and addressing General wiring information Location recommendations Operating environment requirementsMounting recommendations Mounting the Tracer ZN521 zone controllerTypical applications for the Tracer ZN521 zone controller Application SpeedfanMultiple DehumidificationControlValve Economizing HeatElectricBI1 Low-coil-temperature detection Binary inputsBI2 Condensate overflow Binary inputsBI3 Occupancy or generic binary input BI4 Fan statusZN Zone temperature Analog inputsGND Ground terminals Analog inputsSET Local setpoint FAN Fan mode inputAI1 Entering water temperature AI2 Discharge air temperature AI3 Outdoor air temperature or generic temperatureAI4 Universal 4-20 mA AI4 configuration options and associated measurement rangesConfiguration Measurement range AI4 terminal wiring CO2 measurement Binary outputs Generic binary outputBinary output functions Binary output FunctionsWiring requirements and options Overriding binary outputsRequired 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 Power-up sequence Random startOccupied mode Unoccupied modeOccupied standby mode Occupancy modesOccupied bypass mode Timed override controlSimplified zone control Zone temperature controlCascade zone control Heating or cooling mode Discharge air temperingMorning warm-up Morning cool-downEntering water temperature sampling function Fan operationExhaust control Exhaust controlValve operation Modulating valve operationModulating valve calibration Valve control options Modulating outdoor/return air dampers Two-position valve operation Isolation-valve operation Two-pipe operationModulating outdoor air damper position Economizing free cooling Ashrae Cycle 1 conformanceAshrae Cycle 2 conformance Two-position control of a modulating outdoor air damper Face-and-bypass damper operationDX cooling operation Face-and-bypass, isolation-valve operationDehumidification Electric heat operationBaseboard heat operation Peer-to-peer communication Unit protection strategiesSmart reset Low-coil-temperature protectionFan off delay Condensate overflowFreeze avoidance Filter-maintenance timerFreeze protection discharge air temperature low limit Test button Tracer ZN521 zone controller circuit boardManual output test For non OutputClose damper, air Outdoor Open damper, air Outdoor Step Result BOP1 BOP2 BOP3 BOP4 BOP5 BOP6 BOP7 BOP8 BOP9Service pin button Red LED Service indicatorInterpreting LEDs LED activity ExplanationGreen LED Status indicator Yellow LED Communications indicatorDiagnostics Types of diagnosticsTable of diagnostics DiagnosticsDiagnostic Probable cause Consequences Type Fan unaffectedValved unaffected PositionDamper unaffected Status indicators for operation and communication Fan does not energize Probable cause ExplanationTroubleshooting Valves remain closedValves remain open DX or electric heat does not energizeOutdoor air damper remains closed Outdoor air damper remains openOutdoor air damper remains open Troubleshooting Index NumericsIndex Index Index Page Trane