Claims
- 1. An electrode in an electron gun for directing a center and two outer inline electron beams along respective parallel axes onto a display screen of a color cathode ray tube (CRT) in forming a video image on said screen, said electrode comprising:
- a hollow housing open at a first end and including means disposed on a second, opposed end thereof for defining three inline end apertures at a second opposed end and a thin lateral wall forming side portions of said housing, wherein each of said inline end apertures is aligned with a respective one of said axes for passing a respective one of said beams and wherein said first open end includes a single common aperture having a longitudinal axis aligned generally transverse to said inline electron beams for passing said center and two outer electron beams;
- wall means disposed in said hollow housing for defining circular portions of three inline auxiliary apertures disposed intermediate said first and second ends of said housing, wherein each of said auxiliary apertures is aligned with a respective one of said axes for passing a respective one of said beams and wherein said circular portions of each of said auxiliary apertures are adapted to receive in tight-fitting engagement an elongated support rod having a generally circular cross section for aligning the electrode during electron gun assembly, and wherein said wall means and said first and second ends of said hollow housing are maintained at the same fixed voltage; and
- an upper and lower pair of slots disposed in each of said auxiliary apertures and aligned generally transverse to said longitudinal axis for providing a static correction for electron beam astigmatism, wherein said static correction is of substantially fixed magnitude over the entire display screen.
- 2. The electrode of claim 1 wherein each of said upper and lower slots in each of said auxiliary apertures are diametrically disposed in a respective aperture and wherein each slot is defined by a pair of spaced, generally vertical linear edges and a distal curvilinear end edge.
- 3. The electrode of claim 1 wherein said wall means defining said circular portions of said auxiliary apertures and forming said pair of slots in said apertures includes an inner wall in said housing extending inwardly from said lateral wall.
- 4. The electrode of claim 3 wherein said wall means defining said circular portions of said auxiliary apertures and forming said pair of slots in each of said apertures further includes a plurality of extrusions in said inner wall disposed about a respective aperture.
- 5. The electrode of claim 1 wherein said auxiliary apertures include a center aperture and two outer apertures each disposed on a respective opposed side of said center aperture, and wherein said upper and lower slots are diametrically disposed in said center aperture and said upper and lower slots are disposed on respective opposed outer portions of said two outer apertures.
- 6. The electrode of claim 5 wherein said wall means defining said circular portions of said auxiliary apertures and forming said pair of slots in each of said apertures includes an inner wall in said housing extending inwardly from said lateral wall.
- 7. The electrode of claim 6 wherein said wall means defining said circular portions of said inner apertures and forming said pair of slots in each of said apertures further includes a plurality of extrusions each disposed about a respective aperture.
- 8. The electrode of claim 1 wherein said common aperture is generally chain-link-shaped having a center enlarged portion and first and second outer enlarged portions each aligned with a respective axis for passing said center and two outer electron beams, respectively.
- 9. The electrode of claim 1 wherein said electrode is a G.sub.3 or G.sub.4 electrode in a bipotential electron gun.
- 10. The electrode of claim 1 wherein said electrode is a G.sub.5 electrode forming a portion of a dynamic quadrupole in the electron gun.
- 11. The electrode of claim 1 including a center and two outer inline auxiliary apertures, wherein the circular portions of said two outer auxiliary apertures are larger than the circular portion of said center auxiliary aperture.
- 12. For use in a color cathode ray tube (CRT) having a center and two outer inline electron beams, wherein said electron beams are deflected across a display screen in the CRT in a synchronous manner by a magnetic deflection yoke, an electron gun comprising:
- cathode means for generating electrons;
- beam forming means for receiving said electrons and forming said electrons into three inline beams, including said center beam and said two outer beams;
- first and second electrode means arranged in a spaced manner along said electron beams for applying an electrostatic focus field to the electron beams, wherein each of said electrode means includes a hollow housing having a peripheral side wall and first and second end portions and means disposed on the first end portion thereof for defining an elongated common end aperture with a longitudinal axis aligned generally transverse to said inline electron beams and through which said electron beams pass, wherein said common apertures of said first and second electrode means are arranged in facing relationship; and
- an inner wall disposed in each hollow housing of each of said first and second electrode means and including a center and two outer inline auxiliary apertures for passing a respective electron beam, wherein each inner wall is disposed intermediate the first and second end portions of its associated electrode means and wherein said inner wall is maintained at the same fixed voltage of the first and second end portions of its associated electrode means; and wherein each of said auxiliary apertures includes a center circular portion and upper and lower slots extending from said circular portion and aligned generally transverse to a longitudinal axis of a common end aperture for providing a static correction for electron beam astigmatism, wherein said static correction is of substantially fixed magnitude over the entire display screen.
- 13. The electron gun of claim 12 wherein said first and second electrode means are respectively G.sub.3 and G.sub.4 electrodes in a bipotential electron gun.
- 14. The electron gun of claim 12 wherein said first and second electrode means form a portion of a dynamic quadrupole in the electron gun.
- 15. The electron gun of claim 12 wherein each of said upper and lower slots in each of said auxiliary apertures are diametrically disposed on a respective aperture.
- 16. The electron gun of claim 12 wherein said inner wall in each of said housings extends inwardly from the peripheral side wall of said housing.
- 17. The electron gun of claim 16 wherein each of said inner walls includes a plurality of extrusions disposed about a respective aperture.
- 18. The electron gun of claim 12 wherein said auxiliary apertures include a center aperture and two outer apertures each disposed on a respective opposed side of said center aperture, and wherein said upper and lower slots are diametrically disposed on said center aperture and said upper and lower slots are disposed on respective opposed outer portions of said two outer apertures.
- 19. The electron gun of claim 12 wherein each of said common end apertures is generally chain-link-shaped having a center enlarged portion and first and second outer enlarged portions each aligned with a respective axis for passing said center and two outer electron beams, respectively.
- 20. The electron gun of claim 12 wherein the circular portions of said outer auxiliary apertures are larger than the circular portion of said center auxiliary apertures.
Parent Case Info
This is a continuation of application Ser. No. 08/140,311, filed Oct. 22, 1993, now abandoned.
US Referenced Citations (17)
Continuations (1)
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Number |
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Country |
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140311 |
Oct 1993 |
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