Our 25 years of knowledge in the lighting industry has made Light Corp a world leader in lighting products. You can learn more about high performance lighting from our white papers, FAQs and glossary of lighting terms.
Instructions on how to access DLC, Lighting Facts and California CEC databases:
Frequently Asked Questions
What is LED Lighting?
An LED lamp is a solid-state lamp that uses light-emitting diodes (LEDs) as the source of light. Since the light output of individual light-emitting diodes is small compared to incandescent and compact fluorescent lamps, multiple diodes are often used together. In recent years, as diode technology has improved, high power light-emitting diodes with higher lumen output are making it possible to replace other lamps with LED lamps. One high power LED chip used in some commercial LED lights can emit 7,527 lumens while using only 100 watts. LED lamps can be made interchangeable with other types of lamps. Diodes use direct current (DC) electrical power, so LED lamps must also include internal circuits to operate from standard AC voltage. LEDs are damaged by being run at higher temperatures, so LED lamps typically include heat management elements such as heat sinks and cooling fins. LED lamps offer long service life and high energy efficiency, but initial costs are higher than those of fluorescent lamps.
What is a fluorescent lamp?
A high efficiency lamp utilizing an electric discharge through low pressure mercury vapor to produce ultra-violet (UV) energy. The UV excites phosphor materials applied as a thin layer on the inside of a glass tube which makes up the structure of the lamp. The phosphors transform the UV to visible lights.
What is high-bay lighting?
High-bay lighting is used in high-ceiling areas to light surfaces more than 15 feet away. Common high-bay applications include industrial manufacturing, gymnasiums, warehouses, and warehouse-type retailers. All lamps typically used in high-bay applications contain mercury, although some varieties—most notably highoutput T5s and induction fluorescents—offer opportunities for mercury reduction.
- What is the proper disposal of fluorescent light bulbs?
Why should I be concerned about the mercury content of lamps?
Mercury is a highly persistent and toxic chemical that is building up to dangerous concentrations in fish, wildlife, and human beings throughout the US. By choosing high-efficiency lamps that contain less mercury, you help reduce the environmental impacts and health risks of lamp breakage during use, transport, and disposal.
What is a fluorescent lamp ballast and what does it do?
A fluorescent lamp ballast is an electrical transformer. Fluorescent lamps require different voltages at different places in the lamp in a standard rapid start system. There are small filaments at the end of the lamp that require low voltage (approx. 4 volts) to aid in starting the lamp, this is called cathode voltage. The lamp also requires a higher voltage (200 volts or higher depending on lamp type) from end to end on the lamp to operate, this is called arc voltage. The ballast transforms line voltage 120 volts to these requirements. The ballast limits the amount of current that the lamp can draw. This prevents the lamp from drawing too much current and failing.
What is the difference between an electronic and a magnetic ballast?
A magnetic ballast uses coiled wire and creates magnetic fields to transform voltage. A magnetic ballast does not change the frequency of the power to the lamp—it remains the same as the input power, in the United States 60 Hz.
An electronic ballast uses solid state components to transform voltage. It also changes the frequency of the power from 60 Hz to 20,000 Hz, or higher, depending on the ballast. Because the electronic ballast doesn’t use coils and electromagnetic fields, it can function more efficiently and cooler than magnetic. The frequency change also greatly reduces any flicker in the lamp due to burn in or improper power.
What does the numbering on a fluorescent lamp mean?
Most standard lamps are designated in the following format F32T8 35K. The F meaning that the lamp is fluorescent, the 32 is the lamp wattage, the T designates the shape of the lamp (T = tubular), the 8 is the diameter of the lamp in 1/8 of an inch. A T8 lamp has an 8/8 diameter or one inch diameter. A T12 lamp has a 12/8 diameter or 1-1/2 inches. The last designation is the color of the light the lamp emits in this case 3500 degrees Kelvin. You may see other color designators such as CW cool white, WW warm white, or other numbers in degrees Kelvin. The higher the number the cooler the color of the lamp. The lower the number the warmer the color of the lamp is.
What are recommended illuminance values in the workplace?
Recommended illuminance values vary depending on tasks, size, layout, and other factors. Light has the tools to help you with your lighting layout based on your needs. Contact us for more information.
What are the benefits of high-output T5 lamps?
Switching from HID lamps to HO T5 fluorescent lamps is now a common strategy for increasing energy efficiency in warehouses and other high-bay lighting situations. HO T5s: Are capable of instant-on and instant re-strike. Can be used with energy-saving occupancy sensors. Can be adjusted through dimming (with a dimmable ballast). Have lower average mercury content than metal halide HID lamps.
What are recommended lighting levels for industrial buildings?
Recommended lighting levels vary depending on tasks, size, layout, and other factors. Light has the tools to help you with your lighting layout based on your needs. Contact us for more information.
How can I calculate energy savings with efficient lighting?
Use the energy savings calculator to determine the cost savings of switching from an HID system to a fluorescent lighting system in your workspace. You will need to know the annual burning hours of the system, the energy costs in your area, your estimated labor rate, if your system will be dimmed (% of time and brightness), fixture quantity, total wattage, and lamp cost.
How does dimming work in industrial applications?
Fluorescent fixtures can be wired with multiple circuits that can be switched to vary light levels, reducing energy costs. Because HID fixtures contain individual lamps, they do not offer this dimming method. Fluorescent lights can also be dimmed with a dimming ballast. In the case of HID fixtures, lights can only be dimmed to about 50 percent of their full output; even then, the dimming is not linear with the energy consumed, so in some cases very little energy is actually saved.
How does an occupancy motion sensor work?
High bay occupancy sensors are designed to control lighting in high mount areas including warehouse aisle ways, open spaces, and conveyor areas. Sensors are installed directly onto industrial T8 or T5 fixtures or to electrical junction boxes and turn lights on and off based on occupancy. Their specially designed lenses provide reliable coverage from a wide range of mounting heights.
Why use fluorescent instead of HID in industrial applications?
Metal halide HID lamps have several drawbacks: HIDs require several minutes to warm up. During this “re-strike” period, the lamps consume electricity but produce no usable light. Energy-saving occupancy sensors, which automatically turn lights on when the area is occupied and off when the area is unoccupied, cannot be used with metal halide HIDs. Dimming systems for HIDs are expensive and less efficient than those used for fluorescent control systems, reducing the benefits of decreasing light levels during low-use periods to save energy. HID lamps can contain larger quantities of mercury compared with fluorescents. Metal halide systems use one lamp per fixture. When a lamp fails it requires immediate replacement, since a failed lamp represents a 100 percent reduction in the illumination provided by that fixture. In most fluorescent systems, there are at least four lamps, so when a lamp fails there is only a 25 percent reduction in illumination, allowing a facility to operate safely until it is convenient to change the failed lamp.
What is task lighting and why should we use it?
Task lighting is specific, directional lighting that is focused on a particualr area for a specific purpose. Unlike ambient lighting, which illuminates an entire room, task lighting concentrates light on a particular area where some task is being performed. The benefits of task lighting reside in its many applications, both commercial and residential. It is not intended to replace ambient lighting, but rather to complement or augment existing lighting with aimed, focused light.
What are the benefits of fluorescent lighting?
In general, fluorescent lamps have the following advantages:
Efficient, fluorescent lamps can cost significantly less to operate over their lifetime than incandescent lamps. Life ratings range from 6,000 to 24,000 hours based on the industry standard of burning 3 hours per start. Fluorescent lamps are available in a wide range of sizes, shapes, color performance, and wattage ratings. Rapid-start and instant-start lamps typically start within 1 second of being turned on.
What type of lights does Light Corporation use in its fixtures?
Light Corporation’s specialty is in utilizing modern LED lighting technology in ergonomically flexible designs. LEDs are already five times more energy efficient than the outdated incandescent lightbulb, while the cost per lumen in LEDs is decreasing by a factor of ten every decade. For Light Corp, leapfrogging to this new technology was an easy choice of innovation because of their efficiency, drastically longer lamp life, and very small form factor that leaves us with extreme ease of control and flexibility in very customizable fixture designs. Light Corp also has many products with fluorescent lighting options, such as our linear task and ambient line, as well as, in our super efficient T5 and T8 industrial high bay fixture solutions.
Lighting White Papers
Task lights are a necessity, not an accessory.
Typically, commercial offices neglecting task lights are lit 40% below the minimum critical comfort level of 70 footcandles, causing negative health & productivity effects for employees.
Brighter Lights, Greater Profits
Measuring the cost of lighting in terms of the energy it consumes misses the point. Lighting is not installed to consume energy. Lighting is for people.
Better Lighting Improves Safety
Better lighting in your facility will help prevent accidents and the many costly side-effects they create.
The Reno Post Office Study
In 1986, the mail sorters at the main Post Office in Reno, Nevada became the most productive of all the sorters in the entire western region of the United States.
Quality Promotes Success
The lighting under which all of your quality practices are taking place may be preventing total success.
Can Lighting Impact Productivity?
When people see well and feel better, they work more effectively. And when people are more effective, your organization is more effective.
Seeing is Believing: HPS lighting
How lightIng affects us
It’s All About The Details
Advace lessons in what to look at when choosing the exact light fixtures you need.
Green and Purple Money
If the savings in the long run outweighs the upfront costs, why not invest in your facilities?
Mercury Reduction and Energy Efficiency
Fluorescent lighting is cost-effective, energy efficient, features lower lumen depreciation, better dimming options, near instant start-up and re-strike, better color rendition, and reduced glare.
Task Vs. Overhead
The average office worker spends 75% of their day in a 10 x 10 ft area.