Miniature projectors embedded in our cell phones, handheld game consoles and other personal electronics appear very likely to play a major role in the future of information display.
Projecting a large screen display on a wall appears the most effective way we can currently envisage having a large screen inside a small form factor. One of the problems will of course be that a handheld device projecting a large screen might not lead to a stable, vibration-free and easily readable display.
Projecting a large screen display on a wall appears the most effective way we can currently envisage having a large screen inside a small form factor. One of the problems will of course be that a handheld device projecting a large screen might not lead to a stable, vibration-free and easily readable display.
Now German scientists from the Institute for Photonic Microsystems in Dresden have combined a compact laser projector system with inertia and yaw rate sensors to project vibration-compensated images. The sensor system detects the slightest motion and rotates the image to compensate for it, ensuring a steady picture, even in a moving vehicle. The system could be commercially available within two years.
The new development from the Fraunhofer Institute for Photonic Microsystems IPMS can be integrated into any mobile handheld device and used to project the display onto any flat surface in A3 format. And the great thing is, the image always remains steady – even if the user holding the device is shaking or the whole car is vibrating.
The car journey has been going on for hours, and back-seat passengers often have nothing better than the view from the window to divert them. Playing ‘sudoku’ on the cell phone gets tiring after a while, as the display is too small and keeps shaking with the motion of the car. A new development by the Fraunhofer Institute for Photonic Microsystems IPMS in Dresden could soon help: A novel miniature laser projector can be integrated into any mobile handheld device and used to project the display onto any flat surface in A3 format. And the great thing is, the image always remains steady – even if the user holding the device is shaking or the whole car is vibrating.
Researchers at the IPMS, who developed the miniature projector jointly with their colleagues at the Fraunhofer Institute for Applied Optics and Precision Engineering IOF, have now succeeded in making it insensitive to small movements. “We have combined our compact laser projector system with inertia and yaw rate sensors,” explains Dr Michael Scholles, business unit manager at the IPMS. “This sensor system is capable of detecting any kind of motion. The information is then sent to the image processing unit, which rotates the image to compensate for the motion and ensures a steady picture.” In future handheld devices, which could for instance combine a cell phone, a PDA and a games console, the system can be used for projecting a conveniently sized, vibration-compensated image of any application. “The system could be commercially available a year or two,” estimates Scholles.
The projection system is fitted with a micromechanical scanning mirror, also developed by the IPMS, that constructs the image by deflecting the light beam into rows and columns. The projector has a size of only 17 x 7 x 5 millimeters. The researchers achieved this level of miniaturization by employing laser diodes instead of conventional lamps.
