Trane RAUC-C20, RAUC-C50, RAUC-C30, RAUC-C60, RAUC-C40, RAUC-C25 manual Ohms 4200 4000 3800

Page 75

System Pre-Start Procedures

Figure 37. Discharge Duct Sensor 6RT2 & 6RT3 “Temperature vs Resistance” Curve

(Ohms)

4200

 

 

 

 

 

 

 

 

 

 

4000

 

 

 

 

 

 

 

 

 

 

3800

 

 

 

 

 

 

 

 

 

 

Resistance

 

 

 

 

 

 

 

 

 

 

3600

 

 

 

 

 

 

 

 

 

 

3400

 

 

 

3483 ± 10 Ohms @

 

 

 

 

 

3200

 

 

 

 

 

 

 

 

 

 

 

77O F (25O C)

 

 

 

 

 

3000

 

 

 

 

 

 

 

 

 

 

20

40

60

80

100

120

140

160

180

200

220

 

 

(-6.7oC)

(4.4oC)

(15.6oC)

(26.7oC)

(37.8oC) (48.9oC) (60.0oC)

(71.1oC) (82.2oC) (93.3oC)

(104.4oC)

 

 

 

 

 

Temperature - OF (OC)

 

 

 

 

EVP Chiller Control Checkout (Honeywell W7100G)

Note: The following checkout procedure must be performed in its entirety and in the sequence given.

WARNING

Hazardous Voltage!

Disconnect all electric power, including remote disconnects before servicing. Follow proper lockout/tagout procedures to ensure the power can not be inadvertently energized. Failure to disconnect power before servicing could result in death or serious injury.

The W7100G (6U11) chilled water controller can be checked out using a highly accurate digital volt- ohmmeter, the W7100 accessory tool kit (Trane part # TOL-0101 or Honeywell part # 4074EDJ), and the Honeywell 4074EFV resistor bag assembly.

1.Verify that the main power disconnect switch and the control circuit switch 1S2, in the unit control panel, is “OFF”.

2.At the unit control panel, unplug the reset relay 1K11 and 1K12, (1K12 used on 40 through 60 Ton units only). Refer to the connection diagram that shipped with the unit for the location of the relay(s).

3.At the Chilled Water controller (6U11) inside the remote panel, disconnect the sensor (6RT2) leads form Terminals T & T1.

4.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.

5.Remove the factory-installed jumper (wire 209A) from the “fast response” Terminals 9 & 10.

6.To simulate a call for maximum reset, remove the jumper from Terminals 6 & 7 and install the 1780 ohm resistor (red leads), from the test kit, across Terminals 6 and 7.

7.Install a jumper across the P1 and P2 Terminals (remote setpoint input).

8.Remove the red dust cover from the test plug socket at the bottom of the W7100G. Insert the “Test Plug”, from the kit, into the test plug socket. The test plug overrides most of the built-in time delays for staging the compressors “On” and “Off”.Refer to the illustration in Figure 38 for terminal and control dial identification.

9.Set the “Reset F” dial at 20ºF and the “Setpoint F” dial at 10ºF

SS-SVX09A-EN

75

Page 74 Page 76
Image 75
Page 74 Page 76
Contents June Remote Split System UnitsOverview of Manual Grounding RequiredEnvironmental Concerns Responsible Refrigerant PracticesTable of Contents SS-SVX09A-EN Model Number Description Unit NameplateCompressor Nameplate Unit Description EVP Chiller Considerations Unit InspectionNo Step Surface Unit ClearancesUnit 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 EVP Chiller Weights & General Data Typical Unit Weights & Point Loading DataRigging and Center-of-Gravity Data Rigging Heavy ObjectsUnit Isolation Neoprene IsolatorsTypical Neoprene Isolator Selection & Location Leveling the Unit Installation Spring IsolatorsTypical Spring Isolator Selection & Location Shipping FastenersCompressor Shipping Hardware Two Manifolded CompressorsRefrigerant Piping Requirements General Unit RequirementsMain Electrical Power Requirements Hazardous Voltage Hazard of ExplosionEVP Chilled Water Piping Requirements No Controls Units Ground WireField Installed Control Wiring Requirements Volt Control Wiring All UnitsEVP Chiller Piping Refrigerant Line Components Low Voltage Wiring AC & DC Hazardous VoltageVariable Air Volume VAV Units Constant Volume UnitsThermostatic Expansion Valve TEV Liquid Line Moisture Indicator Sight GlassAccess Valves Ports Liquid Line Solenoid ValvesTypical Placement of Split System piping Components Solenoid Valve & Sight Glass w/Moisture IndicatorUse Type L refrigerant grade copper tubing only Suction Line Interconnecting TubingRefrigerant Piping Suction Line PipingLiquid Line Piping Liquid Line Interconnecting TubingTypical Coil Piping For Dual Circuit Units Evaporator PipingHot 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 Water Pressure Gauges Installation Air VentsChiller Flow Switch Water Temperature SensorTypical Piping Recommendations FreezestatFinal Water Piping Connections Optional Flow Switch IllustrationDisconnect Switch External Handle Factory Mounted Option Field Installed Power WiringMain Unit Power Wiring Hazardous Voltage Calculation #1 MCA, MOP, and RDE Power Wire Sizing and Protection DeviceCustomer Connection Wire Range EquationsElectrical Service Sizing Data Installation Calculation #2 Disconnect Switch Sizing DSSControls Using 115 VAC Hazardous Voltage Field Installed Control Wiring Hazardous VoltageHot Gas Bypass All control options EVP Interlocks EVP Flow control 6S58EVP Circulating Pump Interlock Outside Air Thermostat 5S57Controls using 24 VAC Hazardous Voltage Controls using DC Analog Input/Outputs Hazardous VoltageAC Conductors DC Conductors Economizer Actuator CircuitTemperature Control Parameters No System ControlEconomizer Actuator Circuit Legend Refer to Wiring Notes on p Installation Discharge Air Sensor Honeywell 6RT3 Variable Air Volume Control Honeywell W7100ANight Setback Hazardous Voltage Suction Line ThermostatEVP Chiller Control W7100G Discharge Chilled Water Controller EVP Chiller Remote Panel Chilled Water Temperature Sensor Honeywell 6RT2Outside Air Thermostat 5S57 Field Provided Refer to Wiring Notes on Page p Thermostat Checkout Constant Volume Control HoneywellThermostat Wiring Electronic Zone Thermostat Honeywell T7067T7067 Electronic Zone Thermostat & Q667 Switching Subbase Discharge Air Sensor Honeywell 6RT1 Q667 Switching SubbaseRefer to Wiring Notes on Page p RT1 Discharge Air Sensor Assembly EVP Chiller Applications Compressor DamageSystem Pre-Start Procedures System Evacuation ProceduresTypical Vacuum Pump Hookup System Pre-Start Procedures Standing Vacuum TestEvacuation Time vs. Pressure Rise System Pre-Start Procedures W7100A Discharge Air Controller Zone or Discharge Air Temp Controller Economizer Actuator CheckoutOhms 4200 4000 3800 System Pre-Start Procedures W7100G Chilled Water Controller Master Energy Control Checkout Hazardous Voltage Zone Thermostat Checkout Honeywell T7067 Terminals Zone Thermostat 6U37 Voltage Output rampsOhms Electrical Phasing Voltage ImbalanceSequence of Operation VAV W7100A Discharge Air Controller 7U11Economizer Cycle Chilled Water Temperature Controller 6U11 System Start-UpThermostatic Expansion Valve W7100G Staging Sequence Condenser FansLow Ambient Dampers Compressor Crankcase HeatersPump Down Hot Gas Bypass Operation Low Ambient Damper Adjustment Factory or Field InstalledLive Electrical Components System Start-Up Low Ambient ThermostatsFreezestat Setting EVP Chiller Applications200 300 Verifying Proper Supply Fan Rotation Air Over Evaporator ApplicationRotating Components System Airflow MeasurementCompressor Start-Up All Systems Compressor Damage Live Electrical Components Subcooling Measuring SubcoolingMeasuring Superheat Recommended Refrigerant Capacities Pressure Control Switch SettingsMinimum starting Ambient Temperature Compressor OilCompressor Sequence Typical Compressor Locations Ton Pressure Curve System Start-Up System Start-Up Ton Pressure Curve per Circuit 100 101 Recommended Operating Setpoints Final System SetupSample Maintenance Log At Low Ambient Start-Up Scroll Compressor ReplacementCompressor Operational Sounds At ShutdownCompressor Circuit Breaker Data Service & MaintenanceAir Handling Equipment Fuse Replacement DataMonthly Maintenance Fuse Replacement DataCondensing Unit Coil CleaningSystem operation Hazardous PressuresWarranty and Liability Clause Numerics Symbols111 IndexSS-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