Power efficiency: the real difference between LED and Laser projection

But today, I want to tell you WHY laser illumination is so much more awesome than LED. Now don't expect me to dive into quantum mechanics, because the details are complicated and not really my domain. But I can tell you the basic principles, which is all you need to know to understand any conversation on the subject. It's a bit like learning history by watching cartoons: you won't become a professor, but you will understand the essential themes and concepts.

The perfect coherence of laser light

The biggest difference between laser illumination and LED is focus and teamwork. A laser produces a really focused light beam. If you point it at something, it produces a dot. For LED lights, this is very different: the light is much more scattered and creates a large circle. Let's draw a comparison: take a horde of medieval soldiers that want to break down a castle's door using a battering ram. If they all run together, at the same speed and in the same direction, they will develop a tremendous force. If on the other hand, they run at a difference speed, in random directions, they will create a much smaller force and not even dent the castle door. Although the undisciplined horde uses the same amount of energy for their attempt, the force on the door will be much lower.

The same concept applies to light. Laser light is by definition coherent. This means that all light photons are in exact pace and moving in exactly the same direction. LED light (and all natural light by the way) is not coherent, so the photons do not all move in the same direction. The energy of the beam is therefore much less focused, and more energy is lost.

Creating exactly the right color

Another reason is that the bandwidth of laser light (this is what defines the color) is very precise. If you draw a diagram, it will almost be a straight line. This means that the generated color is completely accurate. For LED light, this is a 'bell' shape, meaning there is a much wider distribution of colors but less saturation. Furthermore, this explains the color accuracy of laser sources. Because we know exactly the wavelengths of the three primary colors of the projector, we have total control over the colors produced.

Energy efficiency goes up, power consumption goes down

This brings us to the energy efficiency of laser. For LED, you have an efficiency conversion efficiency of only 10 to 20%. This means that more than 80% of the energy is lost as heat. For laser, this electrical to optical efficiency is 30 to 70%! It's obvious that energy efficiency this high dramatically reduces power consumption.

For use in projection, the laser light cannot be limited to a dot - unless you would like to project on a rice grain. Projector optics allows the laser light to precisely diverge or spread, to illuminate the projector panes and uniformly cover the projection screen area. This reduces the illumination intensity, making sure no holes are burnt into the screen. This also makes the laser illumination completely safe for the eye. The intense light of the laser source is perfectly distributed over the whole frame making it the most efficient and controllable light source for projection.

Download the solution brief to know more about the benefits of RGB laser rear-projection.