Claims
- 1. A current perpendicular to the plane read head, comprising:
a read sensor having an air-bearing surface and an opposing top surface; and; a permanent magnet positioned adjacent said top surface of said read sensor for generating a magnetic bias field in said read sensor, said permanent magnet having a magnetization in a direction other than normal to said air-bearing surface of said read sensor.
- 2. The read head of claim 1, wherein said read sensor includes alternating layers of ferromagnetic and non-magnetic material.
- 3. The read head of claim 2, wherein said ferromagnetic material is selected from the group consisting of CoFe, NiFe, CoNiFe, Co and CoNi.
- 4. The read head of claim 1, wherein said permanent magnet is formed of a material selected from the group consisting of CoX where X is Pt, Ta, Cr, B or any combination thereof.
- 5. The read head of claim 1, wherein said permanent magnet is larger in size than said read sensor.
- 6. The read head of claim 1, wherein said read sensor is a giant magnetoresistance sensor.
- 7. The read head of claim 1, further comprising a first lead/shield and a second lead/shield, said read sensor and said permanent magnetic positioned between said first lead/shield and said second lead/shield.
- 8. A current perpendicular to the plane read head, comprising:
a read sensor; and means for generating and adjusting a magnetic bias field in said read sensor.
- 9. A read head for a magnetic disc storage system, comprising:
a read sensor having an air-bearing surface; and a permanent magnet positioned adjacent the read sensor for magnetically biasing the read sensor, said permanent magnet having a magnetization set in a direction other than normal to the air-bearing surface of the read sensor.
- 10. The read head of claim 9, wherein said permanent magnet is positioned adjacent a top surface of said read sensor opposite the air-bearing surface.
- 11. The read head of claim 10, wherein said permanent magnet includes a bottom surface contained in a plane that is generally parallel to a plane containing the top surface and an additional plane containing the air-bearing surface of said read sensor.
- 12. The read head of claim 9, wherein the direction of magnetization of said permanent magnet is predetermined according to the desired amount of magnetic biasing to be applied to said read sensor.
- 13. The read head of claim 9, wherein said read sensor is a giant magnetoresistance sensor.
- 14. The read head of claim 9, wherein said read sensor is a current perpendicular to the plane type sensor.
- 15. A magnetic disc drive storage system, comprising:
a housing; a rotatable magnetic storage medium positioned in said housing; and a movable recording head mounted in said housing adjacent said magnetic storage medium, said recording head including a current perpendicular to the plane read head comprising:
a read sensor having an air-bearing surface and an opposing top surface; and a permanent magnet positioned adjacent said top surface of said read sensor for generating a magnetic bias field in said read sensor, said permanent magnet having a magnetization in a direction other than normal to said air-bearing surface of said read sensor.
- 16. A method of using a permanent magnet to generate a magnetic bias field in a read sensor having an air-bearing surface and an opposing top surface, comprising:
establishing a magnetization in the permanent magnet; and positioning said permanent magnet adjacent to the top surface of the read sensor such that the magnetization of the permanent magnet is in a direction other than normal to the air-bearing surface of the read sensor.
- 17. The method of claim 16, further comprising adjusting the magnetization direction of the permanent magnet to adjust the strength of the magnetic bias field generated in the read sensor.
- 18. The method claim 16, further comprising predetermining the direction of magnetization of the permanent magnet according to the desired amount of magnetic bias field to be generated in the read sensor.
- 19. The method of claim 16, wherein the read sensor is a giant magnetoresistance sensor.
- 20. The method of claim 16, further comprising constructing the read sensor as a current perpendicular to the plane type sensor.
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application claims the benefit of U.S. Provisional Application No. 60/256,738 filed Dec. 19, 2000.
Provisional Applications (1)
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Number |
Date |
Country |
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60256738 |
Dec 2000 |
US |