Claims
- 1. An electron-beam generating apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of row-direction wiring electrodes of conductive material, for applying a predetermined voltage to said electron-emitting devices;
- an accelerating electrode opposite to the electron-emitting devices; and
- a semiconductive support member provided between part of said row-direction wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said row-direction wiring electrode via a conductive connection member, and
- wherein a height of upper surface of said conductive connection member on said row-direction wiring electrode and a height of upper surface of conductive material of said row-direction wiring electrode where said semiconductive support member is not provided are substantially the same.
- 2. The electron-beam generating apparatus according to claim 1, wherein said row-direction wiring electrode where said semiconductive support member is provided has a concave portion, and wherein said conductive connection member is arranged in the concave portion, further wherein the height of the upper surface of said conductive connection member on said row-direction wiring electrode and the height of said row-direction wiring electrode where said semiconductive support member is not provided are substantially the same.
- 3. The electron-beam generating apparatus according to claim 1, wherein said row-direction wiring electrode where said semiconductive support member is not provided has a conductive member, and wherein a height of the upper surface of said conductive member and the height of the upper surface of said conductive connection member are substantially the same.
- 4. The electron-beam generating apparatus according to claim 1, wherein a thickness of said row-direction wiring electrode where said semiconductive support member is provided and a thickness of said row-direction wiring electrode where said semiconductive support member is not provided are different, and wherein a height of the upper surface of said conductive connection member on said row-direction wiring electrode and a height of said row-direction wiring electrode where said semiconductive support member is not provided are substantially the same.
- 5. The electron-beam generating apparatus according to claim 1, wherein said electron-emitting devices are provided on a substrate which has concave portions, and wherein said row-direction wiring electrodes are provided at said concave portions.
- 6. The electron-beam generating apparatus according to claim 1, wherein said row-direction wiring electrodes receive a scanning signal for scanning said electron-emitting devices.
- 7. The electron-beam generating apparatus according to claim 1, wherein a surface resistance of said semiconductive support members is 10.sup.4 �.OMEGA./.quadrature.! or greater.
- 8. The electron-beam generating apparatus according to claim 1, wherein said electron-emitting devices has a positive electrode, an electron-emitting portion and a negative electrode, all provided in parallel to each other, on a substrate.
- 9. The electron-beam generating apparatus according to claim 8, wherein said semiconductive support members comprise a plate member, and a lengthwise direction of the plate member and a direction of current which flows between the positive and negative electrodes of said electron-emitting devices are parallel to each other.
- 10. The electron-beam generating apparatus according to claim 1, wherein said semiconductive support members comprise insulating material covered with semiconductive material.
- 11. The electron-beam generating apparatus according to claim 1, wherein said electron-emitting devices are connected with the plurality of row-direction wiring electrodes and a plurality of column-direction wiring electrodes, both of which are electrically insulated, on a substrate.
- 12. The electron-beam generating apparatus according to claim 1, wherein said electron-emitting devices are surface-conduction emission type electron-emitting devices.
- 13. The electron-beam generating apparatus according to claim 1, wherein said electron-emitting devices are lateral field-emission type electron-emitting devices.
- 14. The electron-beam generating apparatus according to claim 1, further comprising an image forming member opposite to said electron-emitting devices.
- 15. An electron-beam generating apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of row-direction wiring electrodes of conductive material, for applying a predetermined voltage to said electron-emitting devices;
- an accelerating electrode opposite to the electron-emitting devices; and
- a semiconductive support members provided between part of said row-direction wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said row-direction wiring electrode via a conductive connection member, and
- wherein if predetermined electric potentials of the same level are applied to said row-direction wiring electrode where said semiconductive support member is provided and said row-direction wiring electrode where said semiconductive support member is not provided, a thickness of conductive connection member is controlled such that electric-potential distribution on a surface of said semiconductive support member and that in space between said row-direction wiring electrode where said semiconductive support member is not provided and said accelerating electrode become the same.
- 16. The electron-beam generating apparatus according to claim 15, wherein said row-direction wiring electrodes receive a scanning signal for scanning said electron-emitting devices.
- 17. The electron-beam generating apparatus according to claim 15, wherein a surface resistance of said semiconductive support members is 10.sup.4 �.OMEGA./.quadrature.! or greater.
- 18. The electron-beam generating apparatus according to claim 15, wherein said electron-emitting devices has a positive electrode, an electron-emitting portion and a negative electrode, all provided in parallel to each other, on a substrate.
- 19. The electron-beam generating apparatus according to claim 18, wherein said semiconductive support members comprise a plate member, and a lengthwise direction of the plate member and a direction of current which flows between the positive and negative electrodes of said electron-emitting devices are parallel to each other.
- 20. The electron-beam generating apparatus according to claim 15, wherein said semiconductive support members comprise insulating material covered with semiconductive material.
- 21. The electron-beam generating apparatus according to claim 15, wherein said electron-emitting devices are connected with the plurality of row-direction wiring electrodes and a plurality of column-direction wiring electrodes, both of which are electrically insulated, on a substrate.
- 22. The electron-beam generating apparatus according to claim 15, wherein said electron-emitting devices are surface-conduction emission type electron-emitting devices.
- 23. The electron-beam generating apparatus according to claim 15, wherein said electron-emitting devices are lateral field-emission type electron-emitting devices.
- 24. The electron-beam generating apparatus according to claim 15, further comprising an image forming member opposite to said electron-emitting devices.
- 25. An image display apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of row-direction wiring electrodes of conductive material, for applying a predetermined voltage to said electron-emitting devices;
- an accelerating electrode opposite to the electron-emitting devices, said accelerating electrode having a fluorescent member for displaying an image by electrons from said plurality of electron-emitting devices; and
- a semiconductive support member provided between part of said row-direction wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said row-direction wiring electrode via a conductive connection member, and
- wherein a height of an upper surface of said conductive connection member on said row-direction wiring electrode and a height of an upper surface of conductive material of said row-direction wiring electrode where said semiconductive support member is not provided are substantially the same.
- 26. The image display apparatus according to claim 25, wherein said row-direction wiring electrode where said semiconductive support member is provided has a concave portion, and wherein said conductive connection member is arranged in the concave portion, further wherein the height of the upper surface of said conductive connection member on said row-direction wiring electrode and the height of said row-direction wiring electrode where said semiconductive support member is not provided are substantially the same.
- 27. The image display apparatus according to claim 25, wherein said row-direction wiring electrode where said semiconductive support member is not provided has a conductive member, and wherein a height of the upper surface of said conductive member and the height of the upper surface of said conductive connection member are substantially the same.
- 28. The image display apparatus according to claim 25, wherein a thickness of said row-direction wiring electrode where said semiconductive support member is provided and a thickness of said row-direction wiring electrode where said semiconductive support member is not provided are different, and wherein a height of the upper surface of said conductive connection member on said row-direction wiring electrode and a height of said row-direction wiring electrode where said semiconductive support member is not provided are substantially the same.
- 29. The image display apparatus according to claim 25, wherein said electron-emitting devices are provided on a substrate which has concave portions, and wherein said row-direction wiring electrodes are provided at said concave portions.
- 30. The image display apparatus according to claim 25, wherein said row-direction wiring electrodes receive a scanning signal for scanning said electron-emitting devices.
- 31. The image display apparatus according to claim 25, wherein a surface resistance of said semiconductive support members is 10.sup.4 �.OMEGA./.quadrature.! or greater.
- 32. The image display apparatus according to claim 25, wherein said electron-emitting devices has a positive electrode, an electron-emitting portion and a negative electrode, all provided parallel to each other, on a substrate.
- 33. The image display apparatus according to claim 32, wherein said semiconductive support members comprise a plate member, and a lengthwise direction of the plate member and a direction of current which flows between the positive and negative electrodes of said electron-emitting devices are parallel to each other.
- 34. The image display apparatus according to claim 25, wherein said semiconductive support members comprise insulating material covered with semiconductive material.
- 35. The image display apparatus according to claim 25, wherein said electron-emitting devices are connected with the plurality of row-direction wiring electrodes and a plurality of column-direction wiring electrodes, both of which are electrically insulated, on a substrate.
- 36. The image display apparatus according to claim 25, wherein said electron-emitting devices are surface-conduction emission type electron-emitting devices.
- 37. The image display apparatus according to claim 25, wherein said electron-emitting devices are lateral field-emission type electron-emitting devices.
- 38. An image display apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of row-direction wiring electrodes of conductive material, for applying a predetermined voltage to said electron-emitting devices;
- an accelerating electrode opposite to the electron-emitting devices, said accelerating electrode having a fluorescent member for displaying an image by electrons from said plurality of electron-emitting devices; and
- a semiconductive support member provided between part of said row-direction wiring electrodes and said accelerating electrode, wherein said semiconductive support member is provided on said row-direction wiring electrode via a conductive connection member, and
- wherein if predetermined electric potentials of the same level are applied to said row-direction wiring electrode where said semiconductive support member is provided and said row-direction wiring electrode where said semiconductive support member is not provided, a thickness of conductive connection member is controlled such that electric-potential distribution on a surface of said semiconductive support member and that in space between said row-direction wiring electrode where said semiconductive support member is not provided and said accelerating electrode become the same.
- 39. The image display apparatus according to claim 38, wherein said row-direction wiring electrodes receive a scanning signal for scanning said electron-emitting devices.
- 40. The image display apparatus according to claim 38, wherein a surface resistance of said semiconductive support members is 10.sup.4 �.OMEGA./.quadrature.! or greater.
- 41. The image display apparatus according to claim 38, wherein said electron-emitting devices has a positive electrode, an electron-emitting portion and a negative electrode, all provided parallel to each other, on a substrate.
- 42. The image display apparatus according to claim 41, wherein said semiconductive support members comprise a plate member, and a lengthwise direction of the plate member and a direction of current which flows between the positive and negative electrodes of said electron-emitting devices are parallel to each other.
- 43. The image display apparatus according to claim 38, wherein said semiconductive support members comprise insulating material covered with semiconductive material.
- 44. The image display apparatus according to claim 38, wherein said electron-emitting devices are connected with the plurality of row-direction wiring electrodes and a plurality of column-direction wiring electrodes, both of which are electrically insulated, on a substrate.
- 45. The image display apparatus according to claim 38, wherein said electron-emitting devices are surface-conduction emission type electron-emitting devices.
- 46. The image display apparatus according to claim 38, wherein said electron-emitting devices are lateral field-emission type electron-emitting devices.
- 47. A television receiver comprising an image display apparatus according to claim 25.
- 48. A television receiver comprising an image display apparatus according to claim 38.
- 49. A computer terminal monitor comprising an image display apparatus according to claim 25.
- 50. A computer terminal monitor comprising an image display apparatus according to claim 38.
- 51. The electron-beam generating apparatus according to claim 1, wherein said conductive connection member includes a frit-glass.
- 52. The electron-beam generating apparatus according to claim 51, wherein said conductive connection member further includes a conductive filler dispersed on said frit-glass.
- 53. The electron-beam generating apparatus according to claim 52, wherein said conductive filler is a metal film formed on said frit-glass.
- 54. The image display apparatus according to claim 38, wherein said conductive connection member includes a frit-glass.
- 55. The image display apparatus according to claim 54, wherein said conductive connection member further includes a conductive filler dispersed on said frit-glass.
- 56. The image display apparatus according to claim 55, wherein said conductive filler is a metal film formed on said frit-glass.
- 57. An electron-beam generating apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of wiring electrodes of conductive material;
- an accelerating electrode opposite to the electron-emitting devices; and
- a semiconductive support member provided between part of said wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said wiring electrode via a conductive member, and
- wherein a height of an upper surface of said conductive member on said wiring electrode and a height of an upper surface of conductive material of said wiring electrode where said semiconductive support member is not provided are substantially the same.
- 58. The electron-beam generating apparatus according to claim 57, wherein said conductive member includes a frit-glass.
- 59. The electron-beam generating apparatus according to claim 58, wherein said conductive member further includes a conductive filler dispersed on said frit-glass.
- 60. The electron-beam generating apparatus according to claim 59, wherein said conductive filler is a metal film formed on said frit-glass.
- 61. An image display apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of wiring electrodes of conductive material;
- an accelerating electrode opposite to the electron-emitting devices, said accelerating electrode having a fluorescent member for displaying an image by electrons from said plurality of electron-emitting devices; and
- a semiconductive support member provided between part of said wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said wiring electrode via a conductive support member, and
- wherein a height of an upper surface of said conductive member on said wiring electrode and a height of an upper surface of conductive material of said wiring electrode where said semiconductive support member is not provided are substantially the same.
- 62. The image display apparatus according to claim 61, wherein said conductive member includes a frit-glass.
- 63. The image display apparatus according to claim 62, wherein said conductive member further includes a conductive filler dispersed on said frit-glass.
- 64. The image display apparatus according to claim 63, wherein said conductive filler is a metal film formed on said frit-glass.
- 65. An electron-beam generating apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of wiring electrodes of conductive material;
- an accelerating electrode opposite to the electron-emitting devices; and
- a semiconductive support member provided between part of said wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said wiring electrode via a conductive member, and
- wherein both of a height of an upper surface of said conductive member on said wiring electrode and a height of an upper surface of conductive material of said wiring electrode where said semiconductive support member is not provided are higher than a height of an electron emitting portion of said electron-emitting device.
- 66. The electron-beam generating apparatus according to claim 65, wherein said conductive member includes a frit-glass.
- 67. The electron-beam generating apparatus according to claim 66, wherein said conductive member further includes a conductive filler dispersed on said frit-glass.
- 68. The electron-beam generating apparatus according to claim 67, wherein said conductive filler is a metal film formed on said frit-glass.
- 69. An image display apparatus comprising:
- a plurality of electron-emitting devices;
- a plurality of wiring electrodes of conductive material;
- an accelerating electrode opposite to the electron-emitting devices, said accelerating electrode having a fluorescent member for displaying an image by electrons from said plurality of electron-emitting devices; and
- a semiconductive support member provided between part of said wiring electrodes and said accelerating electrode,
- wherein said semiconductive support member is provided on said wiring electrode via a conductive member, and
- wherein both of a height of an upper surface of said conductive member on said wiring electrode and a height of an upper surface of conductive material of said wiring electrode where said semiconductive support member is not provided are higher than a height of an electron emitting portion of said electron-emitting device.
- 70. The image display apparatus according to claim 69, wherein said conductive member includes a frit-glass.
- 71. The image display apparatus according to claim 70, wherein said conductive member further includes a conductive filler dispersed on said frit-glass.
- 72. The image display apparatus according to claim 71, wherein said conductive filler is a metal film formed on said frit-glass.
Priority Claims (3)
Number |
Date |
Country |
Kind |
7-016780 |
Feb 1995 |
JPX |
|
7-054133 |
Mar 1995 |
JPX |
|
8-009555 |
Jan 1996 |
JPX |
|
Parent Case Info
This application is a continuation of application Ser. No. 08/594,690, filed Jan. 31, 1996.
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5445550 |
Xie et al. |
Aug 1995 |
|
5530314 |
Banno et al. |
Jun 1996 |
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5594296 |
Mitsutake et al. |
Jan 1997 |
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Continuations (1)
|
Number |
Date |
Country |
Parent |
594690 |
Jan 1996 |
|