Trane RAUC-C50, RAUC-C30, RAUC-C60, RAUC-C20, RAUC-C40, RAUC-C25 manual System Pre-Start Procedures

Page 72

System Pre-Start Procedures

5.Install a jumper across the P and P1 terminals (remote setpoint input), and another jumper across terminals 6 and 7 (reset input) if reset is enabled.

6.Disconnect the wires from terminals T and T1 (discharge air sensor).

7.Remove the 3,400 ohm resistor (blue leads) from the test kit and connect it across terminals T and T1 to simulate a discharge air temperature of 60ºF.

8.Set the “Setpoint F” dial at 56ºF or below; then set the “Control Band F” dial at 2 to minimize the control response time.

9.At the Discharge Air controller, verify that the controller ground wire is connected to the chassis ground. Refer to the unit wiring diagram that shipped on the unit.

Note: It is not necessary to set the “Reset F” dial since the factory installed jumper across Terminals 6 and 7 disables this dial.

10.Turn the control circuit switch 1S2, in the unit control panel, and the main power disconnect switch for the condensing unit to the “ON” position.

WARNING

High Voltage is Present at Terminal Block 1TB1 or Unit Disconnect Switch 1S1.

To prevent injury or death form electrocution, it is the responsibility of the technician to recognize this hazard and use extreme care when performing service procedures with the electrical power energized.i

After approximately 2 minutes (time required to drive the economizer fully open), the LEDs on the W7100 should begin to illuminate as the cooling outputs stage “On”.

11.At the Discharge Air Controller, use a digital voltmeter to verify there is 24 volts AC across terminals TR & TR.

12.Set the “Setpoint F” dial at 64ºF; within 10 seconds, the LEDs should turn “Off” as the cooling outputs stage “Off”.

13.Immediately readjust the “Setpoint F” dial to 56oF; the LEDs should begin to illuminate again as the cooling outputs stage “On”.

If the unit includes the zone reset option, proceed to the next step; if not, proceed to step 18.

14.Set the “Reset F” dial at 15oF and the “Setpoint F” dial at 41ºF; then remove the jumper across terminals 6 & 7.

To simulate a call for maximum reset, install the 1780 ohm resistor (red leads), from the test kit, across terminals 6 and 7. The cooling LEDs should remain lit.

15.Turn the “Setpoint F” dial to 49ºF; within 1 to 2 minutes, the LEDs should turn “Off” as the cooling outputs stage “Off”.

16.As soon as all of the cooling LEDs are “Off”, remove the 1780 ohm resistor from terminals 6 and 7 and re-install the jumper across these terminals.

17.Adjust the “Setpoint F” dial to 56ºF; within 1 minute, the LEDs should illuminate as the cooling outputs stage “On”.

If the system includes an economizer, complete steps 18 through 23 to verify proper economizer control operation; if not, proceed to step 24.

18.With all of the cooling LEDs “On”, measure the DC voltage across terminals R (-) and W (+). The measured voltage should be 1.7 VDC to 2.1 VDC.

19.Set the “Setpoint F” dial at 64ºF to drive the economizer output to the minimum position. Within 2 minutes, the LEDs should turn “Off” as the cooling outputs stage “Off”.

72

SS-SVX09A-EN

Page 71 Page 73
Image 72
Page 71 Page 73
Contents Remote Split System Units JuneGrounding Required Environmental ConcernsResponsible Refrigerant Practices Overview of ManualTable of Contents SS-SVX09A-EN Model Number Description Unit NameplateCompressor Nameplate Unit Description Unit Inspection No Step SurfaceUnit Clearances EVP Chiller ConsiderationsUnit Dimensions & Weight Information InstallationFoundation Installation RAUC-C20 Unit Dimensional Data & Recommended Clearances RAUC-C25 Unit Dimensional Data & Recommended Clearances RAUC-C30 Unit Dimensional Data & Recommended Clearances RAUC-C40 Unit Dimensional Data & Recommended Clearances RAUC-C50 Unit Dimensional Data & Recommended Clearances RAUC-C60 Unit Dimensional Data & Recommended Clearances Bphe 20 Evaporator Chiller Dimensions Bphe 25 Evaporator Chiller Dimensions Bphe 30 Evaporator Chiller Dimensions Bphe 40 Evaporator Chiller Dimensions Bphe 50 Evaporator Chiller Dimensions Bphe 60 Evaporator Chiller Dimensions Typical Unit Weights & Point Loading Data Typical EVP Chiller Weights & General DataRigging Heavy Objects Rigging and Center-of-Gravity DataUnit Isolation Neoprene IsolatorsTypical Neoprene Isolator Selection & Location Installation Spring Isolators Leveling the UnitShipping Fasteners Compressor Shipping HardwareTwo Manifolded Compressors Typical Spring Isolator Selection & LocationGeneral Unit Requirements Refrigerant Piping RequirementsMain Electrical Power Requirements Hazardous Voltage Hazard of ExplosionEVP Chilled Water Piping Requirements Ground Wire Field Installed Control Wiring RequirementsVolt Control Wiring All Units No Controls UnitsEVP Chiller Piping Low Voltage Wiring AC & DC Hazardous Voltage Variable Air Volume VAV UnitsConstant Volume Units Refrigerant Line ComponentsLiquid Line Moisture Indicator Sight Glass Access Valves PortsLiquid Line Solenoid Valves Thermostatic Expansion Valve TEVSolenoid Valve & Sight Glass w/Moisture Indicator Typical Placement of Split System piping ComponentsSuction Line Interconnecting Tubing Refrigerant PipingSuction Line Piping Use Type L refrigerant grade copper tubing onlyLiquid Line Interconnecting Tubing Liquid Line PipingEvaporator Piping Typical Coil Piping For Dual Circuit UnitsHot Gas Bypass for Commercial Comfort-Cooling Applications Optional Pressure GaugesFinal Refrigerant Pipe Connections Brazing Procedures Hazard of Explosion and Deadly Gases Leak Testing Procedure Hazard of Explosion Chilled Water Piping Evaporator Water-Pressure Drop Installation Air Vents Chiller Flow SwitchWater Temperature Sensor Water Pressure GaugesFreezestat Typical Piping RecommendationsOptional Flow Switch Illustration Final Water Piping ConnectionsField Installed Power Wiring Disconnect Switch External Handle Factory Mounted OptionMain Unit Power Wiring Hazardous Voltage Power Wire Sizing and Protection Device Customer Connection Wire RangeEquations Calculation #1 MCA, MOP, and RDEInstallation Calculation #2 Disconnect Switch Sizing DSS Electrical Service Sizing DataField Installed Control Wiring Hazardous Voltage Controls Using 115 VAC Hazardous VoltageEVP Interlocks EVP Flow control 6S58 EVP Circulating Pump InterlockOutside Air Thermostat 5S57 Hot Gas Bypass All control optionsControls using 24 VAC Hazardous Voltage Controls using DC Analog Input/Outputs Hazardous VoltageAC Conductors Economizer Actuator Circuit DC ConductorsTemperature Control Parameters No System ControlEconomizer Actuator Circuit Legend Refer to Wiring Notes on p Installation Variable Air Volume Control Honeywell W7100A Discharge Air Sensor Honeywell 6RT3Suction Line Thermostat Night Setback Hazardous VoltageEVP Chiller Control W7100G Discharge Chilled Water Controller Chilled Water Temperature Sensor Honeywell 6RT2 EVP Chiller Remote PanelOutside Air Thermostat 5S57 Field Provided Refer to Wiring Notes on Page p Constant Volume Control Honeywell Thermostat WiringElectronic Zone Thermostat Honeywell T7067 Thermostat CheckoutT7067 Electronic Zone Thermostat & Q667 Switching Subbase Q667 Switching Subbase Discharge Air Sensor Honeywell 6RT1Refer to Wiring Notes on Page p RT1 Discharge Air Sensor Assembly Compressor Damage EVP Chiller ApplicationsSystem Evacuation Procedures System Pre-Start ProceduresSystem Pre-Start Procedures Standing Vacuum Test Typical Vacuum Pump HookupEvacuation Time vs. Pressure Rise System Pre-Start Procedures W7100A Discharge Air Controller Economizer Actuator Checkout Zone or Discharge Air Temp ControllerOhms 4200 4000 3800 System Pre-Start Procedures W7100G Chilled Water Controller Master Energy Control Checkout Hazardous Voltage Zone Thermostat Checkout Honeywell T7067 Zone Thermostat 6U37 Voltage Output ramps TerminalsOhms Voltage Imbalance Electrical PhasingSequence of Operation VAV W7100A Discharge Air Controller 7U11Economizer Cycle Chilled Water Temperature Controller 6U11 System Start-UpThermostatic Expansion Valve Condenser Fans W7100G Staging SequenceLow Ambient Dampers Compressor Crankcase HeatersPump Down Low Ambient Damper Adjustment Factory or Field Installed Live Electrical ComponentsSystem Start-Up Low Ambient Thermostats Hot Gas Bypass OperationFreezestat Setting EVP Chiller Applications200 300 Air Over Evaporator Application Rotating ComponentsSystem Airflow Measurement Verifying Proper Supply Fan RotationCompressor Start-Up All Systems Compressor Damage Live Electrical Components Subcooling Measuring SubcoolingMeasuring Superheat Pressure Control Switch Settings Minimum starting Ambient TemperatureCompressor Oil Recommended Refrigerant CapacitiesCompressor Sequence Typical Compressor Locations Ton Pressure Curve System Start-Up System Start-Up Ton Pressure Curve per Circuit 100 101 Final System Setup Recommended Operating SetpointsSample Maintenance Log Scroll Compressor Replacement Compressor Operational SoundsAt Shutdown At Low Ambient Start-UpService & Maintenance Compressor Circuit Breaker DataFuse Replacement Data Monthly MaintenanceFuse Replacement Data Air Handling EquipmentCoil Cleaning Condensing UnitHazardous Pressures System operationWarranty and Liability Clause Symbols NumericsIndex 111SS-SVX09A-EN

RAUC-C20, RAUC-C40, RAUC-C25, RAUC-C30, RAUC-C60 specifications

Trane, a leader in HVAC solutions, offers innovative air conditioning units designed for superior performance and energy efficiency. Among their advanced products are the Trane RAUC-C30, RAUC-C20, RAUC-C40, RAUC-C60, and RAUC-C50, which cater to various cooling and heating needs in residential and commercial applications.

The RAUC-C series showcases cutting-edge technology, ensuring effective climate control while minimizing energy consumption. These units are equipped with variable-speed compressors, allowing for precise cooling capacities and reduced noise levels during operation. This feature ensures that users can enjoy optimal comfort without the disruptive noise often associated with traditional HVAC systems.

One of the standout technologies used in the RAUC-C series is Trane’s advanced inverter technology. This system intelligently adjusts the compressor speed based on real-time cooling demands, enhancing efficiency and prolonging the unit's lifespan. Additionally, the units come with high SEER (Seasonal Energy Efficiency Ratio) ratings, making them an excellent choice for those looking to lower their energy bills while maintaining a comfortable indoor environment.

The RAUC-C series units are designed with durability in mind. Constructed with robust materials, these air conditioning systems are built to withstand varying weather conditions. Their compact and lightweight design makes installation straightforward, and they can fit seamlessly into a variety of spaces, from residential homes to commercial buildings.

Another key characteristic of the RAUC-C series is their eco-friendly refrigerant, which meets strict environmental regulations. This not only supports sustainability efforts but also ensures efficient cooling performance. Furthermore, their smart technology capabilities enable integration with modern smart home systems, allowing users to manage their cooling settings remotely for added convenience.

Trane's focus on user-friendly interfaces makes these units easy to operate. The intuitive control systems allow users to customize their cooling preferences easily, providing flexibility to adapt to individual comfort needs.

Overall, the Trane RAUC-C30, RAUC-C20, RAUC-C40, RAUC-C60, and RAUC-C50 stand out for their energy efficiency, advanced technology, durability, and user-focused design. These features make them reliable choices for anyone seeking efficient and effective heating and cooling solutions.
Top Page Image Contents