Ensure all your equipment is compatible with your video system’s requirements. Quickly and easily identify the maximum digital data rate required by cables, scalers, or other components based on your selected resolution, refresh rate, color bit depth, and chroma sampling.

In most applications the mirrors do not require a position sensor or closed-loop control due to their exceptional repeatability in open loop control. Nevertheless, they may be equipped or packaged by customers with external position sensors for closed loop control operation. In those applications, customers have used the MEMS mirrors in closed-loop for feedback-based damping. However, Further technical details are made available in the Development Kit Overview and in additional documents and scientific publications on the support web page.

Scanning, two axis (tip-tilt) mirrors are a fundamental optical beam steering technology required in a wide variety of applications across many industries. Mirrorcle's MEMS mirror technology provides a highly competitive solution to cater to many of those applications due to its capability to control mirrors to tip/tilt at arbitrary angles in two orthogonal axes, or two rotational degrees of freedom. For example, a laser beam pointed at the micromirror could be deflected to any angle from -12° to +12° (specifications vary for different designs) on either or both axes, and therefore anywhere in a 24° field of regard cone. When a wide-angle lens is employed (see add-ons below,) field of regard of over 45° for each axis is easy to achieve.

Mirrorcle Technologies gimbal-less two-axis mirrors are driven by electrostatic actuators. Their angle of rotation closely follows a square law, i.e. angle is proportional to the square of applied voltage. This inherent non-linearity is linearized by specialized, bias-differential driving circuits. Mechanically, the mirrors behave approximately as second-order (mass-spring) systems with a high Q of 30-80, and therefore require properly conditioned drive signals to obtain well controlled performance. In open-loop driving, smoothing of applied voltage waveforms (input shaping and/or filtering) prevents overshoot and mechanical ringing at device resonance. Mirrorcle Technologies software and hardware drivers implement multiple methodologies to provide linearization and fast and stable point-to-point beam steering.

Mirrorcle Technologies MEMS Mirror Development Kit allows a user to quickly and efficiently gain familiarity with all aspects of these devices and their various possible uses. Furthermore, it enables safe operation of the devices with specifically developed software and MEMS driver solutions which include several levels of protection for the micromirror devices.

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Development Kit users are able to display a variety of vector graphics as well as multiframe animations at arbitrary refresh rates. Scanners can be operated in point-to-point vector scanning or resonant and rastering modes. The system is highly adaptable to projection on various surfaces and in a variety of applications, including projection on specially-coated transparent surfaces. The ultra-low power consumption of the MEMS devices makes the system highly portable and miniature - the kit is very light-weight and fully mobile when used with a laptop computer.