ADP
Asymmetrical De-glaring Prism
The ADP is a special application of the Linear De-glaring Prism (LDP). These prisms are asymmetrical with a one-sided perpendicular flank. Parallel light is deflected asymmetrically and therefore enables directed illumination of objects and surfaces.
CDP
Conical De-glaring Prism
The CDP is a unique product that provides an outstanding de-glaring performance. Prisms are designed as cones providing exclusive geometric features optimized with our very own numerical algorithms. High efficiency, smooth de-glaring characteristics and an opal appearance are the key features of our CDP.
CDP15
Conical De-glaring Prism 15°
The CDP15 combines the excellent de-glaring performance of the cone structure with an asymmetric deflection of the passing light rays. A tilt of the cones by 15 degrees supports asymmetric illumination of floor standing and pending luminaires or provides additional wallwashing effects.
CDPS
Conical De-glaring Prism
CDPS is an enhanced conical prism structure that offers even more effective de-glaring in the plane of the sheet when compared to the standard CDP structure. The CDPS is used specifically in combination with a plane transparent sheet underneath the structured side, thus offering an even stronger de-glaring as well as a smooth outside surface and therefore less sensitivity towards dirt and staining with easy cleaning. This is especially beneficial for medical or other hygienic applications.
DDP
Delta De-Glaring Prism
The DDP prism structure offers an outstanding de-glaring performance with a reduced material thickness of 2 mm only. Concave surface structures and continuous cell connectors provide almost the same mechanical stability as the proven structures in 3 mm thickness. The reduced height and less weight enables even slimmer lighting solutions.
LDP
Linear De-glaring Prism
The LDP is another variation of our linear structures. This product offers smooth and highly efficient de-glaring capabilities along the main axis of the sheet. Numerically optimized pyramidal structures with sharp edge radii are ideal for high-precision light guiding applications and are being used frequently in thin luminaire fixtures.
LGP
Light Guiding Prismatic Plate
The LGP decouples light which is fed into the sheet from the sides across the surface area by the integrated prismatic optics. The optical structure is not acting as a diffusor but uses reflection and refraction of the microprisms. The direct portion of the light is usually also de-glared.
LP90
Linear Prism 90°
The special geometry of perpendicular prisms in this product solves efficiently: beam splitting, ray deflection, total reflection of perpendicular incident light and much more.
LSP
Linear Sine Prism
The LSP consists of linear prisms which are modified sinusoidally in their cross section so as to function as an optical diffusor perpendicular to the main structure direction of the sheet. The direction of emission is maintained in order to ensure high efficiency in comparison with standard opal materials.
RDP
Circular De-glaring Prism
The Circular De-glaring Prism (RDP) is a special application of the circular fresnel lens. Specifically optimized for smooth de-glaring, the linear prisms of our LDP are arranged circularly.
MicroCDP
Micro Conical De-glaring Prism
microCDP is a unique product providing an outstanding de-glaring performance with an invisible structure. Prisms are designed as cones providing exclusive geometric features optimized with our very own numerical algorithms. High efficiency, smooth de-glaring characteristics and an opal appearance are the key features of our microCDP.
exPress Microstructures
Extrusion Profiles microCDP / CDP
Our exPress technology offers the combination of extruded profile geometries and high precision microstructures for an outstanding de-glaring performance.
Various structure types available.
Various structure types available.
GREENLINE
Sustainable Microrpismatics
Jungbecker Greenline makes an important contribution to more sustainability in the production and life cycle of hot embossed microprisms without compromising the usual quality and performance.