Claims
- 1. A miniature flat panel picture element array image intensifier tube comprising:
- a video picture signal generator for providing a video signal;
- a radiation source, said radiation source being modulated by said video signal for creating a generally uniform flow of photons therefrom with said radiation source mounted on the front of a transparent input faceplate;
- a plurality of electrically isolated parallel photocathode array stripes mounted on the inside of said input faceplate;
- a microchannel plate electron multiplier having an array of electrically isolated parallel input electrode metallic stripes that are positioned adjacent said photocathode array stripes and are orthogonal thereto, said microchannel plate having a continuous metallic output electrode;
- an array switching electronic means for switching bias voltages in some selected scan mode over individual stripes of said photocathode array and over said array of microchannel plate input electrode metallic stripes for selectively providing proximity focus areas between cross-over stripes that have on bias voltages applied thereto and wherein repressive voltages exist on all other cross-over stripes that have off bias voltages applied thereto wherein photoelectrons emitted from said photocathode array stripes conform to a charge pattern swept through the proximity focus areas according to said scan mode; and
- a metallized phosphor screen mounted on the inside of a transparent output faceplate wherein said metallized phosphor screen is adjacent said microchannel plate output electrode for converting electrons from said microchannel plate into visible energy on said metallized phosphor screen for producing a visible image of said video signal according to said scan mode.
- 2. An image intensifier tube as set forth in claim 1 wherein said radiation source is a plurality of light emitting diodes electrically connected together.
- 3. An image intensifier tube as set forth in claim 2 wherein said array switching electronic means is solid state circuitry that controls a solid state photocathode array switching means and a solid state microchannel plate array switching means that sequentially switch in said scan mode said bias voltages on all cross-over pixels between said photocathodes array stripes and said array of input electrode metallic stripes on the microchannel plate.
- 4. An image intensifier tube as set forth in claim 3 wherein said solid state circuitry comprises a charge coupled device having an input thereto from said video signal and five outputs therefrom wherein a first output controls the brightness level of said radiation source according to the brightness level of said video signal and second and third outputs provide bias voltages to said microchannel plate output electrode and said metallized screen with said fourth and fifth outputs controlling said solid state photocathode array switching means and said solid state microchannel plate array switching means and the bias voltages provided thereto for selectively switching on said photocathode array stripes and said microchannel input electrode metallic stripes.
Government Interests
The invention described herein may be manufactured, used, and licensed by or for the Government for governmental purposes without the payment of any royalty thereon.
US Referenced Citations (6)