Trane CVGF Tracer Chiller Controller, Loss of Water-Flow Protection, Oil-Temperature Protection

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Standard

Controls Protections

TracerChiller Controller

The chiller controller uses proportional- integral-derivative (PID) control for all limits—there is no dead band. This removes oscillation above and below setpoints and extends the capabilities of the chiller.

Some of the standard protection features of the chiller controller are described in this section. There are additional protection features not listed here.

High Condenser-Pressure Protection The chiller controller’s condenser limit keeps the condenser pressure under a specified maximum pressure. The chiller runs all the way up to 100 percent of the setpoint before reducing capacity using its adaptive control mode.

Starter-Contactor Failure Protection The chiller will protect itself from a starter failure that prevents the compressor motor from disconnecting from the line to the limits of its capabilities.

The controller starts and stops the chiller through the starter. If the starter malfunctions and does not disconnect the compressor motor from the line when requested, the controller will recognize the fault and attempt to protect the chiller by operating the evaporator-and condenser-water pumps and attempting to unload the compressor.

Loss of Water-Flow Protection

The chiller controller has an input that will accept a contact closure from a proof-of-flow device such as a flow switch or pressure switch. Customer wiring diagrams also suggest that the flow switch be wired in series with the cooling-water (condenser-water) pump starter’s auxiliary contacts. When this input does not prove flow within a fixed time during the transition from Stop to Auto modes of the chiller, or if the flow is lost while the chiller is in the Auto mode of operation, the chiller will be inhibited from running by a nonlatching diagnostic.

Evaporator Limit Protection Evaporator Limit is a control algorithm that prevents the chiller tripping on its low refrigerant-temperature cutout. The machine may run up to the limit but not trip. Under these conditions the intended chilled-water setpoint may not be met, but the chiller will do as much as it can. The chiller will deliver as much cold water as possible even under adverse conditions.

Low Evaporator-Water Temperature Low evaporator-water temperature protection, also known as Freeze Stat protection, avoids water freezing in the evaporator by immediately shutting down the chiller and attempting to operate the chilled-water pump. This protection is somewhat redundant with the Evaporator Limit protection, and prevents freezing in the event of extreme errors in the evaporator- refrigerant temperature sensor.

The cutout setting should be based on the percentage of antifreeze used in the customer’s water loop.The chiller’s operation and maintenance documentation provides the necessary information for percent antifreeze and suggests leaving-water temperature- cutout settings for a given chilled-water temperature setpoint.

Oil-Temperature Protection

Low oil temperature when the oil pump and/or compressor are running may be an indication of refrigerant diluting the oil. If the oil temperature is at or below the low oil-temperature setpoint, the compressor is shut down on a latching diagnostic and cannot be started. The diagnostic is reported at the user interface. The oil heaters are energized in an attempt to raise the oil temperature above the low oil- temperature setpoint.

High oil-temperature protection is used to avoid overheating the oil and the bearings.

Low Differential Oil-Pressure

Protection

Oil pressure is indicative of oil flow and active oil-pump operation. A significant drop in oil pressure indicates a failure of the oil pump, oil leakage, or other blockage in the oil-circuit.

The differential pressure during oil pump, compressor prelube mode should not fall below 12 psid. A failure on this parameter generates a shutdown diagnostic. When the compressor is running, a diagnostic is issued when the differential pressure is lost.

Phase-Unbalance Protection Phase-unbalance protection is based on an average of the three phase- current inputs. The ultimate phase-unbalance trip point is 30 percent. In addition, the RLA of the motor is derated by resetting the active current-limit setpoint based on the current unbalance. The RLA derate protection can be disabled in the field- startup menu.

The following derates apply when the phase-unbalance limit is enabled:

10% unbalance = 100% RLA derate

15% unbalance = 90% RLA derate

20% unbalance = 85% RLA derate

25% unbalance = 80% RLA derate

30% unbalance = Shutdown

Phase-Loss Protection

The controller will shut down the chiller if any of the three phase currents feeding the motor drop below 10 percent RLA. The shutdown will result in a latching phase-loss diagnostic. The time to trip is 1 second at minimum, 3 seconds maximum.

Phase Reversal/Rotation Protection The controller detects reverse phase rotation and provides a latching diagnostic when it is detected. The time to trip is 0.7 seconds. Phase-rotation protection can be disabled inTechView.

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Contents Centrifugal Water Chillers Introduction IntroductionContents Features and Benefits Standard Cvgf FeaturesEnvironmental Features and Benefits Additional Features and BenefitsMicroprocessor Controls with CH530 DynaView Operator InterfaceServiceability TechViewSoft Loading Feedforward Adaptive ControlFast Restart Chiller-Tower Optimization Two-Stage Compressor Widens the Application Range Why Centrifugal Compressors SurgeTwo-Stage Compressors Surge Less and Later Temperature Condenser Water LimitationsWater Pumps Water FlowGeneral Data Table GD-1 Model Cvgf DescriptionGeneral English UnitsShipment and Assembly Jobsite ConnectionsStandard Features Field ConnectionHeat Exchanger Control Motor Control and Compressor ProtectionControls Features Extended Operation PackageBase-Loading Control Hot-Water ControlOil-Temperature Protection Phase-Loss ProtectionTracer Chiller Controller Loss of Water-Flow ProtectionMomentary Power Loss High Motor-Winding Temperature ProtectionCurrent Overload Protection Surge Detection ProtectionDimensions PhysicalPhysical Dimensions Model Cvgf Water Connection Pipe SizeMechanical Specifications Unit Control Panel Isolation Pads Refrigerant and Oil ChargePainting InsulationLength Energy and Power and Capaclty ConversionServicing of equipment referred to in this publication
Related manuals
Manual 28 pages 34 b

CVGF specifications

The Trane CVGF series is a revolutionary innovation in the world of commercial HVAC systems, designed to deliver unparalleled performance and energy efficiency. This air-cooled chiller line is specifically engineered to meet the demands of modern buildings, making it an ideal choice for various applications such as offices, hospitals, and educational institutions.

One of the standout features of the CVGF series is its use of the Trane Adaptive Control technology. This advancement provides the system with real-time data analytics, allowing it to automatically adjust cooling output based on environmental conditions and load requirements. This level of adaptability not only enhances occupant comfort but also contributes to significant energy savings, aligning with sustainability goals.

The CVGF chillers also incorporate a robust and efficient scroll compressor, which operates quietly and minimizes vibration. This design choice ensures reliability and longevity while reducing operational noise levels, making it suitable for installations in noise-sensitive environments. Furthermore, the scroll compressor's efficiency plays a crucial role in achieving a higher coefficient of performance (COP), which translates to lower energy costs.

In terms of environmental responsibility, the CVGF series is designed with an eco-friendly refrigerant that supports lower global warming potential (GWP). Committed to sustainability, Trane ensures that these chillers not only meet but exceed regulatory requirements, allowing businesses to operate with a reduced carbon footprint.

Another remarkable characteristic of the CVGF line is its modular design, which simplifies installation and maintenance. The units are compact and can be easily integrated into existing infrastructure, minimizing disruption during upgrades or replacements. The straightforward maintenance protocols further enhance the system’s uptime, ensuring users enjoy consistent and reliable cooling performance.

Moreover, the CVGF chillers are equipped with advanced monitoring capabilities, accessible through Trane’s proprietary software. This feature enables facility managers to oversee system performance from any location, facilitating proactive adjustments and timely maintenance interventions.

Overall, the Trane CVGF series stands out as a cutting-edge solution for effective and sustainable cooling in commercial applications. By combining innovative technologies, energy-efficient design, and user-friendly features, the CVGF offers a comprehensive approach to achieving optimal climate control while meeting the challenges of the future.