ELECTRONIC APPARATUS MEASURING OSCILLATORY

Brand Owner (click to sort) Address Description
MICROLYZER PRUFTECHNIK DIETER BUSCH + PARTNER GMBH& CO. OSKAR MESSTER STRASSE 19-21 ISMANING, BUNDESREPUBLIK Germany electronic apparatus for measuring oscillatory and vibratory behavior of rotating machines;
VIBROCORD PRÜFTECHNIK DIETER BUSCH GMBH FREISINGER STR. 34 ISMANING 85737 Germany electronic apparatus for measuring oscillatory and vibratory behavior of rotating machines;
VIBROSPECT PRÜFTECHNIK DIETER BUSCH GMBH FREISINGER STR. 34 ISMANING 85737 Germany electronic apparatus for measuring oscillatory and vibratory behavior of rotating machines;
VIBROSPECT BUSCH GMBH Oskar-Messter-StraBe 19-21 D-85737 Ismaning Germany electronic apparatus for measuring oscillatory and vibratory behavior of rotating machines;
VIBROTECTOR PRÜFTECHNIK DIETER BUSCH GMBH FREISINGER STR. 34 ISMANING 85737 Germany electronic apparatus for measuring oscillatory and vibratory behavior of rotating machines;
VIBROTIP PRÜFTECHNIK DIETER BUSCH GMBH FREISINGER STR. 34 ISMANING 85737 Germany electronic apparatus for measuring oscillatory and vibratory behavior of rotating machines;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A laser scanning unit mainly includes a semiconductor laser, a collimator, a micro electronic mechanic system (MEMS) oscillatory mirror, and an f? lens or an f sin ? lens. The MEMS oscillatory mirror is disposed between the collimator and the f? lens to replace a conventional rotary polygonal mirror for controlling a direction in which laser beams are projected from the oscillatory mirror to the f? lens. With the MEMS oscillatory mirror, the cylindrical lens may be omitted from the laser scanning unit and noises produced by the polygonal mirror rotating at high speed may be avoided. Moreover, the MEMS oscillatory mirror allows bi-directional scanning to therefore enable increased scanning frequency, simplified structure, and improved scanning efficiency.