Flat screen display system using a two-dimension surface acoustic wave (SAW) scanning
First Claim
1. A flat, two-dimensional, surface acoustical wave (SAW) display screen comprising a piezoelectric substrate having a flat surface with a coating layer of piezoluminophor powder distributed over at least a part of said surface, four elongated SAW transducers means mounted on said surface of said substrate at non-parallel locations which generally enclose said coating layer, a first pair of said transducer means being generally perpendicular to each other, means for individually pulsing said first pair transducer means to develop a scan across said coating layer, means for applying a constant amplitude signal to a third of said transducer means, means for applying a modulated information signal to a fourth of said transducer means, and means for operating said pulsing means with a delay between pulses applied to said first two perpendicular pair of transducer means, said delay corresponding to the distance to be covered by the SAW carrying said modulated information signal, whereby the information contained in said modulation may be displayed at a specific point where surfaces wave launched by said transducer means coincide.
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Abstract
A flat screen display system uses a two-dimension surface acoustic wave ("SAW") scanning. The flat screen is made of a piezoelectric substrate coated with a layer of piezoluminophor powder. Four SAWs having two by two nonparallel directions are launched along the piezoelectric surface. The first of the two SAWs is pulsed and the third one has a constant amplitude. The fourth SAW is modulated by the information to be displayed. With respect to the modulated SAW, the pulsed SAWs are launched with a delay that is determined by the distance to be covered by the modulated SAW, for reaching the point which the current modulation corresponds to.
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Citations
3 Claims
- 1. A flat, two-dimensional, surface acoustical wave (SAW) display screen comprising a piezoelectric substrate having a flat surface with a coating layer of piezoluminophor powder distributed over at least a part of said surface, four elongated SAW transducers means mounted on said surface of said substrate at non-parallel locations which generally enclose said coating layer, a first pair of said transducer means being generally perpendicular to each other, means for individually pulsing said first pair transducer means to develop a scan across said coating layer, means for applying a constant amplitude signal to a third of said transducer means, means for applying a modulated information signal to a fourth of said transducer means, and means for operating said pulsing means with a delay between pulses applied to said first two perpendicular pair of transducer means, said delay corresponding to the distance to be covered by the SAW carrying said modulated information signal, whereby the information contained in said modulation may be displayed at a specific point where surfaces wave launched by said transducer means coincide.
Specification