Troubleshooting guide

ETL-ES-Alloy-WH10

If you have difficulty operating your new ceiling fan, it may be the result of incorrect assembly, installation, or wiring. In some cases, these installation errors may be mistaken for defects. If you experience any faults, please check this Trouble Shooting Chart. If a problem cannot be remedied, please consult with your authorized electrician and do not attempt any electrical repairs yourself.

TROUBLE

SUGGESTED REMEDY

 

 

1. If fan does not start:

1. Check main and branch circuit fuses or circuit breakers.

 

2.

Check wire connections as performed in step #15 or #16 of installation.

 

 

CAUTION: Make sure main power is turned off.

 

3.

Make sure forward/reverse switch is firmly in up or down position.

 

 

Fan will not operate when switch is in the middle.

 

4.

If the fan still will not start, contact a qualified electrician.

 

 

Do not attempt to troubleshoot internal electrical connections yourself.

2. If fan sounds noisy:

1. Check to make sure all screws in motor housing are snug (not over tightened).

 

2.

Check to make sure the screws which attach the fan blade holder to the motor are tight.

 

3.

Some fan motors are sensitive to signals from Solid State variable speed controls.

 

 

DO NOT USE a Solid State variable speed control.

 

4.

Allow “break-in” period of 24 hours. Most noises associated with a new fan will disappear

 

 

after this period.

3. If fan wobbles:

All blades are weighed and grouped by weight. Natural woods vary in density which could cause

 

the fan to wobble even though all blades are weight-matched. The following procedures should

 

eliminate most of the wobble. Check for wobble after each step.

 

1.

Check that all blades are screwed firmly into blade holders.

 

2.

Check that all blade holders are tightened securely to motor.

 

3.

Make sure that canopy and mounting bracket are tightened securely to ceiling joist.

 

4.

If blade wobble is still noticeable, interchanging two adjacent (side by side) blades can redistribute

 

the weight and possibly result in smoother operation.

4. If light does not work:

1. Check to see that the wire connections in the switch housing are connected.

 

2.

Check for faulty light bulbs.

 

3.

If light kit will still not operate, contact a qualified electrician for assistance.

 

 

 

NOTICE

This ‘Energy Policy Act 2005’ compliant fan includes a device that limits the total wattage of its light fixture to 190 watts.

By installing a combination of light bulbs that exceeds 190 watts or if an electrical surge causes the wattage to exceed 190 watts, the light fixture will either dim the lights to 190 watts or will automatically turn off.

To restore the light levels, make sure the total wattage of the light bulbs does not exceed 190 watts and follow the applicable directions below:

For fans with Pull Chains:

Pull the light fixture’s pull chain two times to reset the light fixture. If the power to your fan is controlled by a toggle wall switch, it may be necessary to turn the power off and back on at the wall switch.

For fans with Wall Controls:

Press the light button on the wall control “off” and “on”

once to reset the light fixture.

For fans with Remote Controls:

If you verify the wattage and the lights do not turn on, press the light button on the remote control twice to reset the light fixture.

NOTE: If the procedures above do not reset the lights,

turn off the main power source, located at the breaker panel or box,

and then turn it on again.

20

Page 20
Image 20
Westinghouse ETL, ES owner manual Troubleshooting guide, Trouble Suggested Remedy

ES, ETL specifications

Westinghouse Electric Corporation has long been a name synonymous with innovation and technology in the energy sector. Among its various offerings, the Westinghouse ES and ETL (Energy Solutions and Energy Technology Line) stand out as pivotal elements designed to meet the ever-evolving demands of power generation and distribution.

The Westinghouse ES series focuses on enhancing energy efficiency and reliability. These systems are engineered to support both traditional and renewable energy sources, catering to the diverse needs of modern power grids. A significant feature of the ES line is its adaptability, allowing utilities to incorporate advanced analytics and IoT (Internet of Things) technologies. This adaptability ensures that power operators can optimize their energy resources, improve grid resilience, and enhance overall system performance.

On the other hand, the ETL series showcases Westinghouse's commitment to sustainability and enhanced environmental stewardship. The ETL systems are built with cutting-edge materials and technologies, which contribute to lower emissions and higher energy efficiency. One notable aspect of the ETL line is the integration of smart technology that facilitates real-time monitoring and control, ensuring that energy distribution is optimized and that operational costs are minimized.

Both the ES and ETL series utilize advanced automation and controls, allowing for seamless integration into existing infrastructures. These systems employ predictive maintenance capabilities, analyzing data trends to foresee potential issues before they develop into costly failures. This proactive approach not only maximizes uptime but also extends the life cycle of the equipment.

The Westinghouse ES and ETL systems are characterized by user-friendly interfaces, ensuring that operators can efficiently manage operations with ease. Their modular architecture allows for scalability, making it possible for energy providers to expand their capabilities as demands grow.

Furthermore, Westinghouse's commitment to safety is reflected in the design of both series, which adhere to the highest industry standards. Rigorous testing and quality assurance processes ensure that these systems are reliable and perform optimally under various conditions.

In conclusion, the Westinghouse ES and ETL series exemplify resilience, efficiency, and technological advancement in the energy sector. With their innovative features and commitment to sustainability, these systems are positioned to play a crucial role in the future of energy production and distribution. Whether tackling the challenges of a power grid or promoting greener energy solutions, Westinghouse continues to lead the way in energy technology innovation.