Lighting technology commonly uses light sources that emit light perceived as white, at a selected correlated color temperature (CCT), expressed in Kelvin (K), or, more simply, a shade of white. We often say that light is warm, neutral, or cool—these are equivalents of color temperatures, referring to one of the basic parameters of light.
White CCT luminaires are used in all sectors of the economy, including industry, production and storage facilities, offices and public spaces, medical and educational centers. These are places where energy efficiency and the quality of parameters generated by the LED system play a particularly important role. When designing such a system, we focus on generating the highest luminous flux per unit of power, which directly translates into luminous efficacy and, as a result, allows investors to optimize the costs of lighting.
The requirements placed on modern LED luminaires in terms of warranty, lighting quality, reliability, and compliance with standards make the design process very complex. If you are planning such a product, contact us – we will guide you to the other side with dry feet.
Integrating LED luminaires with a sophisticated control system promotes savings. This allows the lighting to automatically adjust to the prevailing conditions, switching off or dimming when not needed. Learn more about the benefits of LED control technology.
LED module for industrial luminaires, with unmatched lighting parameters.
Services used:
Solutions used:
A modular LED light source, current-powered, with an efficiency exceeding 200 lm/W and a lifetime exceeding 100,000 hours.
Selection of optimal diodes and appropriate serial-parallel connection topology by dividing the diodes into sections. Setting a specific operating point to ensure above-average luminous efficacy and durability.
The key to success was finding a diode that would enable luminous efficacy exceeding 200 lm/W at a time when the market average was 160-185 lm/W. W. We used a series of LED sections which, when powered by a specific current, ensure both the highest energy efficiency and maximum durability. To improve thermal performance, we chose a 1.5 mm aluPCB substrate which, by integrating with the housing, is an important element of the LED system responsible for heat distribution from the luminaire. In addition, we took into account the investor’s requirements by designing a diode grid corresponding to the selected linear optics. The use of CC drivers with the DALI protocol enabled the configuration of the luminaire’s power and control of the luminous flux.
We designed a family of modules that allows LED luminaires to be equipped with a light source with a length of 300 mm and its multiples by grouping the modules into lines of various lengths, up to 1800 mm.
If you are wondering whether our services meet your needs, please use the form on the right and tell us about your idea. The initial analysis is non-binding and will allow us to quickly determine whether and how we can help you achieve your goals.
We provide a range of engineering services in the field of electronics and mechanics, focused on LED technology, at every stage of the production process. Whether you need support at all stages of the process or only at certain stages, we offer our knowledge, experience, and technological resources.
