Rays is emitted from the light source, and refraction and total reflection occur when the optical lens is encountered, effectively transmitting the light beam and reducing the loss of light energy.
Light emitted from the light source is totally reflected when it encounters the lamp cup, effectively transmitting the beam and reducing the loss of light energy.
Matrix Optic Design
Use multiple high-performance LEDs to form a matrix, effectively collect light energy, reduce light loss, and achieve high brightness output.
Close Range Zone Optical Design
Close range zone optical design is an innovation through forming a wider beam to illuminate the front wheels to ensure a clearer view of the riding area and safer rides.
Honeycomb Optic Design
Honeycomb optic design is an innovative and professional breakthrough in the optical field. Honeycomb optic design makes the output beam softer, which will not blind oncoming traffic, greatly increases the service life and improve safety.
Light Line Optic Design
Sate-Lite unique line light technology not only saves the quantity of lamps, but also extends the light source, making the illumination effect of bicycle lights excellent.
Anti-glare Optic Design
Since our bicycle lights have a clear cut-off line, it will not interfere with the oncoming rider's line of sight, greatly increasing the safety of the ride.
Wide Angle Visibility Design
Our rear lights can illuminate the angle as wide as 220 degrees. This design makes the cyclists easier to be discovered by others surrounding, which increases the safety of cycling.