As a purchaser of stadium lighting, we can have questions about how does stadium light work, how stadium lights operate, including their basic principles and how to pick the best stadium lights. In this post, we’ll quickly go over what stadium lights are and some of the terminology that goes along with them, such beam angle.
How does stadium light work?
The two major types of lighting used in stadiums are floodlights and spotlights. Large sports grounds and spectator stands are directly and intensely illuminated by the lighting equipment. To illuminate a specific sporting area, such as a football field, soccer field, baseball stadium, or cricket pitch, stadium lights direct a powerful beam of light in that direction. It should be emphasized that we must carefully regulate the stadium’s lighting levels because too much brightness could cause the athletes to become dizzy.
The primary idea at play is that we need to illuminate the stadium with enough stadium lighting lumens and at the right beam angle. While spotlights are generally used to highlight important areas since they have a smaller beam angle and allow us to easily produce a focused point in a smaller area, floodlights offer a wider spectrum of illumination.
Powerful lighting fixtures mounted on tall light poles are stadium floodlights and spotlights. They have beam angles between 10 and 90 degrees. To illuminate the stadium, we will employ several configurations of beam angles and power depending on the size of the facility, the height, and the arrangement of the poles. These lights may shine farther because the smaller the beam angle, the more focused the beam is.
Reducing glare in stadium lights
A key feature of stadium lighting is glare free. Poor stadium lighting optics will not efficiently control the beam, resulting in intense glare that degrades athlete performance and the quality of life for those who live nearby. There may be complaints about light leakage from the stadium lighting from those living nearby.
The LED stadium lights from Yibai LED Lighting are fitted with a revolutionary secondary optical design, a cutting-edge technology that regulates and concentrates the light beam on a specific location, to address this issue. Along with reducing glare by up to 80%, we can lessen light loss as it passes through the stadium. The stadium lights operate by carefully adjusting the beam angle and targeting point to produce the best lighting and uniformity of light.
Stadium lights: HID vs. LED
High intensity discharge, or HID bulbs have historically been the main kind of stadium lighting. Stadium lighting actually has a larger wattage than other outdoor floodlights because more lumens are needed to illuminate the football field due to the higher lux levels necessary in stadiums. As a result, the expense of maintaining the stadium lighting will dramatically increase. Although HID, mercury vapor, or metal halide lights are widely accessible, HID lamps are less convenient to use and less energy efficient. Because lighting a stadium requires more than 100,000 watts and takes 10 to 20 minutes to achieve its maximum brightness. For this reason, stadium lighting must be LED.
