Claims
- 1. A deflection yoke having an exit region between an entrance region and a yoke exit, wherein the exit region is substantially longer than the entrance region, said deflection yoke comprising:
first and second deflection coils disposed for scanning an electron beam along first and second axes; wherein at least one of said first and second deflection coils has a non-constant distribution of turns in the exit region between the entrance region and the yoke exit of said deflection yoke; and a ferromagnetic core disposed for cooperating with said first and second deflection coils to form a deflection yoke.
- 2. The deflection yoke of claim 1:wherein the first deflection coil is a horizontal deflection coil and has the non-constant distribution of turns between the entrance region and the yoke exit of said deflection yoke, or wherein the first deflection coil is a vertical deflection coil and has the non-constant distribution of turns between the entrance region and the yoke exit of said deflection yoke, or wherein the first deflection coil is a horizontal deflection coil and the second deflection coil is a vertical deflection coil and both said first and second deflection coils have the non-constant distribution of turns between the entrance region and the yoke exit of said deflection yoke.
- 3. The deflection yoke of claim 1:wherein the non-constant turns distribution monotonically decreases in the direction from the entrance region to the yoke exit, or wherein the non-constant turns distribution linearly decreases in the direction from the entrance region to the yoke exit, or wherein the non-constant turns distribution non-linearly decreases in the direction from the entrance region to the yoke exit, or wherein the non-constant turns distribution monotonically and non-linearly decreases in the direction from the entrance region to the yoke exit.
- 4. The deflection yoke of claim 3:wherein the non-linear decrease of the turns distribution is at a greater rate proximate an end of the exit region near the entrance region than at an end of the exit region near the yoke exit, or wherein the non-linear decrease of the turns distribution is at a lesser rate proximate an end of the exit region near the entrance region than at an end of the exit region near the yoke exit, or wherein the non-linear decrease of the turns distribution includes first and second regions of decreasing cumulative turns count separated by a region of increasing cumulative turns count.
- 5. The deflection yoke of claim 1 wherein said deflection yoke is either a non-converging deflection yoke, a self-converging deflection yoke or a non-self converging deflection yoke.
- 6. The deflection yoke of claim 1 wherein said non-constant distribution of turns includes a positive turns bias, or a negative turns bias, or a positive turns bias and a negative turns bias, and/or forward and reverse turns.
- 7. A cathode ray tube comprising a tube envelope, an electron gun providing an electron beam impinging on a screen, and a deflection yoke having an exit region between an entrance region and a yoke exit, wherein the exit region is substantially longer than the entrance region, said deflection yoke being positioned proximate the tube envelope for scanning deflection of the electron beam produced by said electron gun on said screen, said deflection yoke comprising:
first and second deflection coils disposed for scanning an electron beam along first and second axes; wherein at least one of said first and second deflection coils has a non-constant distribution of turns in the exit region between the entrance region and the yoke exit of said deflection yoke; and a ferromagnetic core disposed for cooperating with said first and second deflection coils to form said deflection yoke.
- 8. The cathode ray tube of claim 7:wherein the first deflection coil is a horizontal deflection coil and has the non-constant distribution of turns between the entrance region and the yoke exit of said deflection yoke, or wherein the first deflection coil is a vertical deflection coil and has the non-constant distribution of turns between the entrance region and the yoke exit of said deflection yoke, or wherein the first deflection coil is a horizontal deflection coil and the second deflection coil is a vertical deflection coil, and both said first and second deflection coils have the non-constant distribution of turns between the entrance region and the yoke exit of said deflection yoke.
- 9. The cathode ray tube of claim 7:wherein the non-constant turns distribution of the at least one of said first and second deflection coils monotonically decreases in the direction from the entrance region to the yoke exit, or wherein the non-constant turns distribution of the at least one of said first and second deflection coils linearly decreases in the direction from the entrance region to the yoke exit, or wherein the non-constant turns distribution of the at least one of said first and second deflection coils non-linearly decreases in the direction from the entrance region to the yoke exit, or wherein the non-constant turns distribution of the at least one of said first and second deflection coils monotonically and non-linearly decreases in the direction from the entrance region to the yoke exit.
- 10. The cathode ray tube of claim 9:wherein the non-linear decrease of the turns distribution of the at least one of said first and second deflection coils is at a greater rate proximate the entrance region than near the yoke exit, or wherein the non-linear decrease of the turns distribution of the at least one of said first and second deflection coils is at a lesser rate proximate the entrance region than near the yoke exit, or wherein the non-linear decrease of the turns distribution of the at least one of said first and second deflection coils includes first and second regions of decreasing cumulative turns count separated by a region of increasing cumulative turns count.
- 11. The cathode ray tube of claim 7 wherein said deflection yoke is either a non-converging deflection yoke, a self-converging deflection yoke or a non-self converging deflection yoke.
- 12. The cathode ray tube of claim 7 further comprising:
a neck electrode biased at a potential less than a screen potential or a funnel electrode biased at a potential less than a screen potential; or a neck electrode and a funnel electrode biased at a potential less than a screen potential; or a first funnel electrode biased at a potential greater than or equal to a screen potential and a second funnel electrode biased at a potential less than or equal to the screen potential.
- 13. A magnetic deflection yoke comprising:
first and second deflection coils disposed for scanning an electron beam along first and second axes, each of said first and second deflection coils having an entrance region of increasing cumulative turns count, having an intermediate region of substantially constant cumulative turns count, and having an exit region of decreasing cumulative turns count adjacent a yoke exit, each of the regions having a respective length; wherein the length of the exit region of at least one of said first and second deflection coils is substantially longer than the length of the entrance region and than the length of the intermediate region thereof, and wherein the cumulative turns count in the exit region of the at least one of said first and second deflection coils is equal to or less than eighty percent (80%) of the cumulative turns count in the intermediate region thereof over thirty-two percent (32%) or more of the combined length of the intermediate region and the exit region thereof; and a ferromagnetic core disposed for cooperating with said first and second deflection coils to form a deflection yoke.
- 14. The magnetic deflection yoke of claim 13 wherein the cumulative turns count in the exit region of the at least one of said first and second deflection coils is equal to or less than eighty percent (80%) of the cumulative turns count in the intermediate region thereof over forty percent (40%) or more of the combined length of the intermediate region and the exit region thereof.
- 15. The magnetic deflection yoke of claim 13 wherein the cumulative turns count in the exit region of the at least one of said first and second deflection coils is equal to or less than eighty percent (80%) of the cumulative turns count in the intermediate region thereof over fifty percent (50%) or more of the combined length of the intermediate region and the exit region thereof
- 16. The magnetic deflection yoke of claim 13 wherein the cumulative turns count in the exit region of the at least one of said first and second deflection coils is also equal to or less than fifty percent (50%) of the cumulative turns count in the intermediate region thereof over twenty percent (20%) or more of the combined length of the intermediate region and the exit region thereof.
- 17. The magnetic deflection yoke of claim 13:wherein the cumulative turns count of the at least one of said first and second deflection coils monotonically decreases in the exit region thereof in a direction from the intermediate region to the yoke exit thereof, or wherein the cumulative turns count of the at least one of said first and second deflection coils linearly decreases in the exit region thereof in a direction from the intermediate region to the yoke exit thereof, or wherein the cumulative turns count of the at least one of said first and second deflection coils non-linearly decreases in the exit region thereof in a direction from the intermediate region to the yoke exit thereof, or wherein the cumulative turns count of the at least one of said first and second deflection coils monotonically and non-linearly decreases in the exit region thereof in a direction from the intermediate region to the yoke exit thereof.
- 18. The magnetic deflection yoke of claim 13:wherein the non-linear decrease of the cumulative turns count is at a greater rate proximate an end of the exit region near the intermediate region than at an end of the exit region near the yoke exit, or wherein the non-linear decrease of the cumulative turns count is at a lesser rate proximate an end of the exit region near the intermediate region than at an end of the exit region near the yoke exit, or wherein the non-linear decrease of the cumulative turns count includes first and second regions of decreasing cumulative turns count separated by a region of increasing cumulative turns count.
- 19. The magnetic deflection yoke of claim 13 in combination with a cathode ray tube comprising a tube envelope including a screen and an electron gun providing an electron beam impinging on the screen, wherein said magnetic deflection yoke is disposed proximate the tube envelope for scanning deflection of the electron beam produced by said electron gun on said screen.
- 20. The magnetic deflection yoke of claim 13:wherein the at least one of said first and second deflection coils includes a horizontal deflection coil, or wherein the at least one of said first and second deflection coils includes a vertical deflection coil, or wherein the at least one of said first and second deflection coils includes both a horizontal deflection coil and a vertical deflection coil.
- 21. The magnetic deflection yoke of claim 13 wherein said magnetic deflection yoke is either a non-converging magnetic deflection yoke, a self-converging magnetic deflection yoke or a non-self converging magnetic deflection yoke.
- 22. The magnetic deflection yoke of claim 13 wherein said cumulative turns count includes a positive turns bias, a negative turns bias, or a positive turns bias and a negative turns bias, and/or forward and reverse turns.
- 23. The magnetic deflection yoke of claim 13:wherein said ferromagnetic core is stepped to define a recess having a transverse shoulder between a thicker portion towards the yoke exit and a thinner portion proximate the entrance region, wherein the at least one of said first and second deflection coils extends substantially the length of said ferromagnetic core between the entrance region and the yoke exit, and wherein the other of said first and second deflection coils is disposed in the recess of said ferromagnetic core between the entrance region and the shoulder thereof.
- 24. A magnetic deflection yoke comprising:
first and second deflection coils disposed for scanning an electron beam along first and second axes, each of said first and second deflection coils having an entrance region of increasing cumulative turns count, having an intermediate region of substantially constant cumulative turns count, and having an exit region of decreasing cumulative turns count adjacent a yoke exit, each of the regions having a respective length; wherein the length of the exit region of at least one of said first and second deflection coils is substantially longer than the length of the entrance region and than the length of the intermediate region thereof, and wherein the cumulative turns count in the exit region of the at least one of said first and second deflection coils is equal to or less than fifty percent (50%) of the cumulative turns count in the intermediate region thereof over twenty percent (20%) or more of the combined length of the intermediate region and the exit region thereof; and a magnetic core disposed for cooperating with said first and second deflection coils to form a deflection yoke.
- 25. A magnetic deflection yoke for a cathode ray tube having a funnel-shaped tube envelope, said magnetic deflection yoke having an entrance region, an intermediate region shorter than the entrance region and the exit region, and an exit region at least twice as long as the entrance region, said magnetic deflection yoke comprising:
a horizontal deflection coil formed to conform substantially to the funnel shaped tube envelope and having N turns disposed in the entrance and exit regions, wherein the N turns in the exit region are disposed in at least four transverse spaced apart annular bundles; a vertical deflection coil formed to conform substantially to the funnel shaped tube envelope; and a magnetic core disposed for cooperating with said horizontal and vertical deflection coils to form a deflection yoke.
- 26. A magnetic deflection yoke for a cathode ray tube having a funnel-shaped tube envelope, said magnetic deflection yoke having an entrance region, an intermediate region shorter than either or both of the entrance region and an exit region, wherein the exit region is at least twice as long as the entrance region, said magnetic deflection yoke comprising:
a horizontal deflection coil formed to conform substantially to the funnel shaped tube envelope and having N turns disposed in the entrance and exit regions, each of said N turns having opposing transverse entrance and exit end turn portions and having opposing side turn portions, wherein the entrance end turn portions of the N turns are disposed transversely in the entrance region, and wherein the exit end turn portions of the N turns in the exit region are disposed in a number M of transverse spaced-apart annular bundles, wherein the number M is between four and the number N of turns; a vertical deflection coil formed to conform substantially to the funnel shaped tube envelope; and a magnetic core disposed for cooperating with said horizontal deflection coil and said vertical deflection coil to form a deflection yoke.
- 27. The magnetic deflection yoke of claim 26 wherein the opposing side turn portions of said N turns are disposed symmetrically with respect to a direction from the entrance region to the exit region between the entrance region and the at least four transverse spaced-apart annular bundles.
- 28. The magnetic deflection yoke of claim 26 wherein the number M of transverse spaced-apart annular bundles in the exit region is four, five, or six.
- 29. The magnetic deflection yoke of claim 26 in combination with a cathode ray tube including a faceplate and a tube neck having an electron source therein, and further including a funnel-shaped tube envelope joining said faceplate and said tube neck, wherein said deflection yoke is disposed proximate said tube envelope for deflecting electrons produced by said electron source.
Parent Case Info
[0001] This Application claims the benefit of U.S. Provisional Application Serial No. 60/279,006 filed Mar. 27, 2001, and U.S. Provisional Application Serial No. 60/279,573 filed Mar. 29, 2001.
Provisional Applications (2)
|
Number |
Date |
Country |
|
60279006 |
Mar 2001 |
US |
|
60279573 |
Mar 2001 |
US |