Lampada cdm-r 35w 942 e27 30° philips
The Philips CDM PAR20 35W 4200K discharge lamp is a high-efficiency light source designed for technical and commercial lighting applications that require optical precision and superior color rendering.
Retail Lighting and Storefront Displays
Thanks to its concentrated 30° beam angle, this discharge lamp is ideal for illuminating storefronts, display cases, and accent lighting areas. The color rendering index (CRI) of over 90 ensures that product colors are rendered accurately—essential for the fashion, jewelry, and food industries. The 4200K color temperature (natural white) creates a welcoming atmosphere without compromising the perception of detail.
Museum and Art Gallery Lighting
In exhibition spaces, the quality of light is crucial. This CDM discharge light source offers a high CRI that preserves the authenticity of colors in works of art, paintings, and displayed objects. The directional beam allows for the illumination of specific areas without light spill.
Architectural Lighting and Accent Lighting
The E27 base and PAR20 shape make it compatible with modular lighting systems and adjustable spotlights. Perfect for highlighting architectural elements, facades, sculptures, and light installations in protected indoor and outdoor spaces. The luminous flux of 2200 lm ensures visibility and visual impact.
Industrial and laboratory applications
In technical settings where stable and predictable light is required, the CDM discharge lamp is a reliable choice. Its average lifespan of 15,000 hours reduces maintenance costs and ensures operational continuity in workplaces, laboratories, and quality control facilities.
Why Choose This Discharge Lamp
Philips’ CDM (Ceramic Discharge Metal) technology combines energy efficiency, light stability, and longevity. The lack of dimmability is not a limitation for static and professional applications where the light must remain constant. The Energy Class E rating reflects the typical energy consumption profile of high-power discharge lamps, with a higher lumen-per-watt ratio than traditional solutions.