RU2009121603A - ELECTRONICALLY CONTROLLED 3D GLASSES - Google Patents

Abstract

 Electronically-controlled 3D glasses containing a case, left and right glasses, the first and second electronically controlled shutters and an IR receiver located on the case of glasses, characterized in that the left and right glasses are hollow, inside of which are placed the first and second electronically controlled gates, each of which includes a corresponding number of identical piezoelectric transducers, each of which includes a bimorph tubular piezoelectric element to which a rectangular opaque is attached fine mesh, and a block of pulse amplifiers is introduced, including two series-connected pulse-forming circuits, the input of the block of pulse amplifiers is connected to the output of the IR receiver and placed on the housing of the ZD glasses, the first and second outputs of the first pulse-forming circuit are connected respectively to the first and second control the inputs of the piezoelectric transducers in the first electronically controlled gate, the first and second outputs of the second pulse generation circuit are connected respectively to the first and second the control inputs of the piezoelectric transducers in the second electronically controlled shutter.

Claims (1)

Electronically-controlled 3D glasses containing a case, left and right glasses, the first and second electronically controlled shutters and an IR receiver located on the case of glasses, characterized in that the left and right glasses are hollow, inside of which are placed the first and second electronically controlled gates, each of which includes a corresponding number of identical piezoelectric transducers, each of which includes a bimorph tubular piezoelectric element to which a rectangular opaque is attached fine mesh, and a block of pulse amplifiers is introduced, including two series-connected pulse-forming circuits, the input of the block of pulse amplifiers is connected to the output of the IR receiver and placed on the housing of the ZD glasses, the first and second outputs of the first pulse-forming circuit are connected respectively to the first and second control the inputs of the piezoelectric transducers in the first electronically controlled gate, the first and second outputs of the second pulse generation circuit are connected respectively to the first and second the control inputs of the piezoelectric transducers in the second electronically controlled shutter.