ILLUMINATION PICTURES
High beam
1,200 Lumen, 270 Lux
Low beam
450 lumens, 150 lux
THE ADVANTAGE OF HIGH BEAMS WHEN ILLUMINATING CURVES
Supernova uses a special high beam with an extra-large aperture angle, which provides light above the central light cone for improved illumination so that signs or hanging branches are much more visible. Standard front lights have a low beam that tilts to the side when cornering so that an essential part of the curve is no longer illuminated. The greatly increased luminosity of the Supernova high beam radiates far beyond the glare horizon and creates an excellent view of curves. This results in a much-improved illumination of the trail when cornering. Thus there is an enormous gain in safety for the cyclist.
HIGH BEAM CAN COMPENSATE WHEN THE SUSPENSION FORK DIPS
MTBs are known to have a particular problem: Because suspensions have a long travel and dip when you brake, the range of the front light can be reduced up to 90%. Supernova’s special high beam is optimized so that a lot of light is available above the cut-off line, so that the fork movement is compensated and the view of the path is maintained. When you ride through the city traffic to get to the trail, you can ride with the glare-free low beam. As soon as needed, you can switch on the high beam at the touch of a button.
M99 MATRIX MIRROR
M99 MATRIX MIRROR
The future is now! Based on scientific research by the Lichttechnical Institute at KIT and funded by the German Federal Ministry for Economic Affairs and Energy, the M99 introduced a lighting technology that sets completely new standards in bicycle lighting. An LED matrix, controlled intelligently and combined with a highly complex facetted mirror consisting of 99 individually calculated surfaces, is designed for unprecedented brilliance. After years of development, it has thus become possible for the first time to pack highly potent automotive technology into the miniature format of a bicycle front light.
The future is now! Based on scientific research by the Lichttechnical Institute at KIT and funded by the German Federal Ministry for Economic Affairs and Energy, the M99 introduced a lighting technology that sets completely new standards in bicycle lighting. An LED matrix, controlled intelligently and combined with a highly complex facetted mirror consisting of 99 individually calculated surfaces, is designed for unprecedented brilliance. After years of development, it has thus become possible for the first time to pack highly potent automotive technology into the miniature format of a bicycle front light.
ALUMINUM HOUSING
ALUMINUM HOUSING
We use aerospace aluminum for our housings because it is not only super strong but also has the best heat conduction properties. The better the cooling, the brighter the LED. In addition, the housings are anodized, salt water-resistant, and defy the most adverse conditions. Extreme tests in all seasons and climates by ultracycling athletes on the road with SUPERNOVA lighting prove their outstanding reliability and durability.
We use aerospace aluminum for our housings because it is not only super strong but also has the best heat conduction properties. The better the cooling, the brighter the LED. In addition, the housings are anodized, salt water-resistant, and defy the most adverse conditions. Extreme tests in all seasons and climates by ultracycling athletes on the road with SUPERNOVA lighting prove their outstanding reliability and durability.
LED COOLING
LED COOLING
We believe in high performance with the best possible efficiency. Cooling extends the service life significantly. The most important prerequisites for an ideal heat dissipation include a careful choice of material and sophisticated construction. For example, completely uninterrupted heat dissipation can only be obtained by a housing that is made seamlessly from a single piece of aluminum. In extreme situations, integrated heat sensors keep the headlight in an optimum temperature range. With extensive computer simulations, our engineers continue to find the most appropriate way to derive the heat from the LEDs. Our more than 20 years of experience with LED front lights comes into its own here.
We believe in high performance with the best possible efficiency. Cooling extends the service life significantly. The most important prerequisites for an ideal heat dissipation include a careful choice of material and sophisticated construction. For example, completely uninterrupted heat dissipation can only be obtained by a housing that is made seamlessly from a single piece of aluminum. In extreme situations, integrated heat sensors keep the headlight in an optimum temperature range. With extensive computer simulations, our engineers continue to find the most appropriate way to derive the heat from the LEDs. Our more than 20 years of experience with LED front lights comes into its own here.
Products with a long service life, up to 5 years warranty
All products come with CO2 neutral shipping, e.g. DHL GoGreen Plus
PVC free products and avoidance of plastic waste
Eco-stream & wind gas from Green Planet Energy
Fleet consists of E-vehicles or wheels
Environmentally friendly materials & recyclebare packaging