Claims
- 1. A method of modifying a surge resistor, said method comprising:
- providing a thick film high voltage surge resistor with an initial resistance value, said thick film trimmed with a U-cut having endpoints outside said thick film to provide a trimmed film portion on one side of said U-cut and a resistive film portion on the other side of said U-cut; and
- coupling a J-cut with said U-cut on said resistive film portion, said J-cut having a leg portion along and a distance apart from the leg portion of said U-cut, an endpoint outside said thick film, and a curved connector coupled to a curved corner having a radial dimension like the curved portion of said U-cut, said J-cut increasing the resistance value of the resistor.
- 2. The method of claim 1 wherein said J-cut leg portion has a variable length dimension.
- 3. The method of claim 1 further including an additional J-cut joined to at least one of said U-cut and coupled J-cut.
- 4. The method of claim 1 wherein a generally linear section couples said J-cut to said curved connector.
- 5. The method of claim 4 wherein said J-cut has a variable length dimension.
- 6. A method of maintaining a level of current crowding in a trimmed surge resistor while increasing the resistance value of the resistor, said method comprising:
- providing a high voltage surge resistor with an initial resistance value, said resistor rimmed with a n initial cut having endpoints outside said resistor to provide a trimmed portion on one side of said cut and a resistive portion on the other side of said cut;
- cutting a groove within said resistive portion and along said initial cut, said groove having an initial endpoint outside said resistive portion; and
- extending said groove to said initial cut with a curved cut extending into the current pathway of the resistor and having a predetermined radial dimension to maintain the level of current crowding.
- 7. The method of claim 6 wherein said groove has a variable length dimension.
- 8. The method of claim 6 further including cutting an additional groove and extending said additional groove to said initial cut to further increase the resistance value.
- 9. The method of claim 6 wherein said initial cut includes at least one plunge cut from the edge of said trimmed portion to said curved portion of said initial cut.
- 10. The method of claim 6 wherein said initial cut is a U-cut.
- 11. The method of claim 10 wherein said cut includes a comb cut therewith.
- 12. A resistor capable of withstanding high power surges, comprising:
- a resistive thick film on a substrate between a pair of electrodes;
- a U-shaped groove in said thick film dividing said thick film into a resistive portion and a trimmed portion, said U-shaped groove having endpoints outside said thick film and a radius of curvature to control current crowding; and
- at least one J-shaped groove in said resistive portion and coupled to said U-shaped groove, said J-shaped groove having an endpoint outside said resistive portion, a curved corner, and a curved connector portion, which follow the contour of the U-shaped groove wherein said J-shaped groove increases the resistance value of said resistor.
- 13. The resistor of claim 12 wherein said U-shaped groove includes at least one plunge cut from the edge of said trimmed portion to said curvature of said U-shaped groove.
- 14. The resistor of claim 12 further comprising a generally linear section coupling the curved corner to the curved connector portion.
- 15. The resistor of claim 12 having a plurality of J-shaped grooves, wherein at least one said groove is coupled to said U-shaped groove.
- 16. The resistor of claim 15 having two J-shaped grooves, wherein each said groove is coupled to said U-shaped groove.
- 17. The resistor of claim 12 wherein said curved corner and said curved connector portion each has a radius of curvature like the radius of curvature of said U-shaped groove.
- 18. An electrical resistor component having a precise resistance value and capable of withstanding high power surges, said resistor component of the type in which a thick film is deposited on a substrate and trimmed with a U-cut dividing the thick film into a resistive portion and a trimmed portion, the improvement comprising:
- at least one J-cut providing a trim to a desired value, said J-cut having an endpoint outside said resistive portion, a leg portion and a curved portion extending along and apart from the leg portion of said U-cut into the current pathway, and a curved connector portion coupling the J-cut to the U-cut.
- 19. The resistor component of claim 18 wherein said J-cut leg portion has a variable length dimension.
- 20. The resistor component of claim 18 wherein said J-cut includes a linear section with a variable length dimension.
Parent Case Info
This application is a continuation in part of Ser. No. 08/917,972, filed Aug. 27, 1997 now a U.S. Pat. No. 5,874,887.
US Referenced Citations (15)
Non-Patent Literature Citations (1)
Entry |
Hybrid Circuit Technology "Laser Technology, Dispensing Equipment " Jul. 1987, authors Alan and Cable Ann Rogers, Electro Scientific Industries, Inc., Portland Ore. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
917972 |
Aug 1997 |
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