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FAQ

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Imagine a lighting system that defies traditional methods of connection. Instead of screws, bolts, or other fasteners, light fixtures and rail systems utilize magnetic attraction and repulsion to create a sturdy and stable connection. The result? A sleek and modern lighting system that not only looks stunning, but is easy to install and completely flexible. The days of complicated wiring and mounting procedures are over. With a magnetic lighting system, you can easily reposition and rearrange your lighting fixtures as you please. And with no visible screws or bolts to detract from the overall look and feel, you can enjoy the full aesthetic potential of your lighting system. It's a new and innovative approach that offers the perfect blend of form and function.

A lighting system can be used as a recessed lighting system during the design and installation phase, where the necessary wiring and connections are concealed to create a clean, streamlined look. Recessed lighting systems are typically installed during construction or renovation, before the ceiling or walls are finished, to ensure that the fixtures are fully integrated into the space. However, it is also possible to retrofit an existing lighting system with recessed fixtures, though this may require additional installation work and modifications to the space.

The luminous efficacy of a light source refers to how efficiently it produces visible light from the energy it consumes. Different types of light sources have different luminous efficacies, which can have a significant impact on the overall energy efficiency and effectiveness of the lighting system. Incandescent bulbs, for example, are known for their low luminous efficacy, typically producing only around 10-20 lumens per watt (lm/W). This means that a significant amount of the energy they consume is wasted as heat rather than visible light. Halogen bulbs are slightly more efficient, typically achieving luminous efficacies of around 20-30 lm/W. Compact fluorescent bulbs (CFLs) are much more efficient than incandescent and halogen bulbs, with luminous efficacies ranging from 50-70 lm/W. These bulbs work by ionizing gas inside a tube, which produces ultraviolet light that is then converted to visible light by a phosphor coating on the inside of the tube. Metal halide bulbs are another type of high-intensity discharge (HID) bulb that is often used in outdoor or industrial lighting applications. These bulbs typically have luminous efficacies of around 40-30 lm/W, depending on the specific type and wattage. LEDs, or light-emitting diodes, are the most energy-efficient type of lighting technology available today, with luminous efficacies ranging from 80-220 lm/W or more. These bulbs work by passing a current through a semiconductor material, which produces light directly with very little wasted energy.

Lumen is the measure of luminous flux emitted by a light source, whereas Lux is the measure of light that illuminates one square meter. These two units help in evaluating and measuring light intensity in lighting design and play an important role in designing lighting systems.

As mentioned, Lumen represents the amount of light emitted by a light source, while Watt indicates the energy consumption of the light source. These two units assist lighting designers in combining light intensity with energy efficiency and selecting the best options for illuminating building facades or various spaces.

Glare does not have a specific unit, but this phenomenon is measured using the UGR (Unified Glare Rating), which ranges from 0 to 25. UGR is a standard used to assess the degree of glare produced by a light source.

The unit for light radiation is Watt, which refers to the amount of energy emitted by a light source. The higher the Wattage, the greater the energy consumption and light production by the source.

The Lux unit is commonly used to measure the amount of lighting, which indicates the light level in each unit of area. In other words, Lux measures the illumination affecting one square meter and is very useful for designing lighting systems for building facades and determining light intensity in different environments.

Yes, that is correct. Lux measures the amount of light falling on a unit area, indicating the intensity of illumination in one square meter.