Tork Photocell Wiring Diagram – A Comprehensive Guide

Photocells are an intelligent addition to any lighting system. Tork photocells use photocell technology to detect the presence of natural sunlight and turn off the connected lighting accordingly. This results in cost savings and less energy usage. However, to ensure accurate and safe operation, it is crucial to wire the Tork photocell correctly. This article will provide a complete guide on Tork photocell wiring diagrams, including tables and FAQs.

What is a Tork Photocell Wiring Diagram?

A Tork photocell wiring diagram is a graphical representation of how the components of a Tork photocell are connected. It shows the wiring connections between the photocell, the lighting fixture, and the power feed. Wiring diagrams are an essential tool for ensuring safe and accurate operation of the Tork photocell system.

There are two basic types of Tork photocell wiring diagrams; line voltage and low voltage. A line voltage photocell operates on 120-277 volts, and a low voltage photocell operates on 12-24 volts.

Line Voltage Tork Photocell Wiring Diagram

Line voltage Tork photocell wiring diagrams are the most common type of wiring diagram. In this system, the photocell is wired directly to the power feed and the lighting fixture. The wiring diagram is as follows:

Wire color Description
Black Power Feed
White Neutral
Red Load (lighting fixture)
Blue Photocell

The wiring diagram above shows that the black wire from the power feed is connected to the black wire on the photocell. The white wire from the power feed is connected to the white wire on the lighting fixture and the white wire on the photocell. The red wire from the lighting fixture is connected to the red wire on the photocell. Finally, the blue wire from the photocell is connected to the white wire on the power feed.

It is important to note that the Tork photocell may have different wire colors depending on the model. Always refer to the manufacturer’s instructions and wiring diagram for the correct wire connections.

Low Voltage Tork Photocell Wiring Diagram

A low voltage Tork photocell operates on 12-24 volts and typically used in conjunction with a low voltage transformer. The wiring diagram is as follows:

Wire color Description
Black Transformer common
Red Transformer hot
Green Ground
Blue Photocell

The wiring diagram above shows that the black wire from the transformer is connected to the black wire on the photocell. The red wire from the transformer is connected to the blue wire on the photocell. The green wire is connected to the ground. Finally, the lighting fixture is connected to the transformer.

FAQs

How do I know if my Tork photocell is wired correctly?

Always refer to the manufacturer’s instructions and wiring diagram to ensure correct wiring. Once wired, test the photocell by covering it with a black tape or hand, the light should turn on within a few seconds, and then turn off once the photocell detects sunlight.

Can I wire multiple lighting fixtures to one Tork photocell?

Yes, multiple lighting fixtures can be wired to one Tork photocell. The wiring diagram remains the same, except that the red wire should be connected to all the lighting fixtures.

Can I use a Tork photocell with LED lighting fixtures?

Yes, Tork photocells are compatible with most LED lighting fixtures, as long as they are rated for the voltage and wattage of the system. Refer to the manufacturer’s instructions for compatibility details.

What is the lifespan of a Tork photocell?

The lifespan of a Tork photocell depends on the model and usage. However, most Tork photocells have a lifespan of around 10,000 hours or approximately 5 years.

Can I install a Tork photocell myself?

It is recommended to have a licensed electrician install a Tork photocell to ensure safety and compliance with local electrical codes.

In conclusion, a Tork photocell wiring diagram is an essential tool for safe and accurate operation of the photocell system. Always refer to the manufacturer’s instructions and wiring diagram for correct wire connections. With the correct wiring, Tork photocells provide an energy-efficient and cost-effective solution for lighting control.