System for laser-welding components of an implantable device

US 5,877,472 A
Filed: 02/22/1996
Issued: 03/02/1999
Est. Priority Date: 02/22/1996
Status: Expired due to Term

First Claim

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1. A method of welding an electrically conductive elongate member to an electrically conductive termination component comprising the steps of:

(a) forming in the termination component a bore for the slidable reception lengthwise of the elongate member while constraining the elongate member against movement transverse of its longitudinal axis;

(b) forming in the termination component an aperture in communication with the bore and having an axis which extends in a direction transverse that of the axis of the bore;

(c) positioning the elongate member so it extends through the bore in the termination component;

(d) directing a laser beam transversely of the elongate member through the aperture in the termination component and onto the elongate member to simultaneously melt the elongate member and the termination component in the region of the aperture and create a homogeneous mix of the molten material of both the elongate member and the termination component within the aperture; and

(e) discontinuing operation of the laser beam to allow solidification of the homogeneous mix of the molten material of step (d) within the aperture to thereby achieve a welded connection between the elongate member and the termination component.

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Abstract

Particularly applicable to implantable stimulation devices, a system is provided for laser-welding an electrically conductive elongate member, typically a lead, or elongate member, interconnecting operating components of a stimulation device. A bore is formed in a termination component for the slidable reception of the elongate member. Also formed in the termination component is an aperture in communication with the bore and having an axis which extends in a direction transverse that of the axis of the bore. The elongate member is positioned so it extends through the bore in the termination component and is thereby coplanar with and intersects the axis of the aperture. Thereupon, a laser beam, which may be from a pulse laser, is directed transversely of the elongate member through the aperture in the termination component and onto the elongate member to simultaneously melt the elongate member and the termination component in the region of the aperture and create a homogeneous mix of the molten material of both the elongate member and the termination component within the aperture. Then, operation of the laser beam is discontinued to allow solidification of the homogeneous mix of the molten material within the aperture to thereby achieve a welded connection between the elongate member and the termination component. The aperture in the termination component must be large enough to allow the laser beam to pass therethrough yet small enough to allow the melt of the rim of the aperture and the elongate member simultaneously.

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17 Claims

1. A method of welding an electrically conductive elongate member to an electrically conductive termination component comprising the steps of:
- (a) forming in the termination component a bore for the slidable reception lengthwise of the elongate member while constraining the elongate member against movement transverse of its longitudinal axis;
  
  (b) forming in the termination component an aperture in communication with the bore and having an axis which extends in a direction transverse that of the axis of the bore;
  
  (c) positioning the elongate member so it extends through the bore in the termination component;
  
  (d) directing a laser beam transversely of the elongate member through the aperture in the termination component and onto the elongate member to simultaneously melt the elongate member and the termination component in the region of the aperture and create a homogeneous mix of the molten material of both the elongate member and the termination component within the aperture; and
  
  (e) discontinuing operation of the laser beam to allow solidification of the homogeneous mix of the molten material of step (d) within the aperture to thereby achieve a welded connection between the elongate member and the termination component.
- View Dependent Claims (2, 3, 4, 5)
- - 2. A method, as set forth in claim 1, wherein step (d) is performed by a pulse laser.
  - 3. A method, as set forth in claim 1, wherein step (b) includes the step of:
    - (f) forming the aperture large enough to allow the laser beam to pass therethrough yet small enough to allow the melt of the rim of the aperture and the elongate member simultaneously.
  - 4. A method as set forth in claim 1, wherein:
    - the termination component is a pad mounted on a substrate, the pad being constituted of an alloy of iron and nickel, cobalt and manganese; and
      
      the elongate member is a wire lead to be joined to the substrate.
  - 5. A method, as set forth in claim 1, including the step of:
    - (f) forming in a side wall of the termination component an opening which is coextensive with and communicates with the bore therein to allow lateral insertion into the bore of an elongate member.

6. An electrical connection for an implantable stimulation device comprising:
- an electrically conductive elongate member; and
  
  an electrically conductive termination component having a bore therein for the slidable lengthwise reception of the elongate member while constraining the elongate member against movement transverse of its longitudinal axis and an aperture in communication with the bore and having a rim and an axis that extends in a direction transverse an axis of the bore;
  
  wherein the elongate member is received in the bore of the termination component such that it is coplanar with and intersects the axis of the aperture;
  
  wherein a weld connection is formed by directing a laser beam transversely of the elongate member through the aperture so that the laser beam impinges on the elongate member and on the rim of the aperture to simultaneously melt the rim of the aperture of the termination component and the elongate member and create a homogeneous mix of the material of the elongate member with the material of the termination component within the aperture which, when solidified, achieves a welded connection between the elongate member and the termination component and forms a concave weld fillet overlying the former aperture.
- View Dependent Claims (7, 8, 9)
- - 7. An implantable stimulation device, as set forth in claim 6, wherein said termination component has a side wall having an opening therein which is coextensive with and communicates with the bore therein to allow lateral insertion of an elongate member.
  - 8. An implantable stimulation device as set forth in claim 6, wherein:
    - the termination component is a pad mounted on a substrate, the pad being constituted of an alloy of iron and nickel, cobalt and manganese; and
      
      wherein the elongate member is a wire lead to be joined to the substrate.
  - 9. An implantable stimulation device, as set forth in claim 6, wherein said implantable stimulation device is a pacemaker.

10. A method of welding an elongate conductor to a termination component comprising the steps of:
- (a) forming a bore through the termination component for snugly but freely slidably receiving and peripherally enveloping the elongate conductor;
  
  (b) forming in the termination component an aperture in communication with the bore;
  
  (c) positioning the elongate conductor in the bore of the termination component so as to be coextensive with the aperture;
  
  (d) directing a laser beam through the aperture in the termination component and onto the elongate conductor;
  
  (e) dimensioning the aperture so as to be sufficiently large for the laser beam to pass unimpeded to the elongate conductor yet small enough to melt the rim of the aperture and the elongate conductor simultaneously and create a homogeneous mix of the molten material of both the elongate conductor and the termination component within the aperture; and
  
  (f) allowing the homogeneous mix of the molten material of step (e) to solidify within the termination component and to solidify within the aperture to thereby create a weld rivet for firmly affixing the elongate conductor to the termination component.
- View Dependent Claims (11)
- - 11. A method as set forth in claim 10, wherein the termination component is constituted of an alloy of iron and nickel, cobalt and manganese.

12. A method of welding an elongate conductor to a self-fixturing termination component comprising the steps of:
- (a) forming a bore through the termination component for snugly but freely slidably receiving and substantially peripherally enveloping the elongate conductor;
  
  (b) forming in the termination component an aperture in communication with the bore;
  
  (c) positioning the elongate conductor in the bore of the termination component so as to be coextensive with the aperture;
  
  (d) directing a laser beam through the aperture in the termination component and onto the elongate conductor;
  
  (e) dimensioning the aperture so as to be sufficiently large for the laser beam to pass unimpeded to the elongate conductor yet small enough to melt the rim of the aperture and the elongate conductor simultaneously and create a homogeneous mix of the molten material of both the elongate conductor and the termination component within the aperture; and
  
  (f) allowing the homogeneous mix of the molten material of step (e) to solidify within the region of the aperture to thereby create a weld rivet for firmly affixing the elongate conductor to the termination component.
- View Dependent Claims (13)
- - 13. A method, as set forth in claim 12, wherein step (a) includes the step of:
    - (g) forming in a side wall of the termination component an opening which is coextensive with and communicates with the bore therein to allow lateral insertion into the bore of an elongate conductor.

14. A self-fixturing termination component for an implantable stimulation device comprising:
- an elongated tubular member having a bore therein for snugly but freely slidably receiving and peripherally enveloping an elongate conductor and having an aperture in communication with the bore defined by a rim dimensioned smaller than a laser beam having a finite cross section so that a welded connection is formed by directing a laser beam through the aperture, so that the laser beam impinges on the elongate conductor and on the rim of the aperture to simultaneously melt the rim of the termination component and the elongate conductor and create a homogeneous mix of the material of the elongate conductor with the material of the termination component within the aperture which, when solidified, achieves a welded connection between the elongate conductor and the termination component.
- View Dependent Claims (15)
- - 15. A self-fixturing termination component for an implantable stimulation device as set forth in claim 14, wherein the termination component is constituted of an alloy of iron and nickel, cobalt and manganese.

16. A self-fixturing termination component for an implantable stimulation device comprising:
- an elongated tubular member having a bore therein for snugly but freely slidably receiving and peripherally substantially enveloping an elongate conductor and having an aperture in communication with the bore defined by a rim dimensioned smaller than a cross section of a laser beam so that a welded connection is formed by directing a laser beam through the aperture, such that the laser beam impinges on the elongate conductor and on the rim of the aperture to simultaneously melt the rim of the termination component and the elongate conductor and create a homogeneous mix of the material of the elongate conductor with the material of the termination component within the aperture which, when solidified, achieves a welded connection between the elongate conductor and the termination component.
- View Dependent Claims (17)
- - 17. A self-fixturing termination component for an implantable stimulation device as set forth in claim 16, wherein the termination component has a side wall having an opening therein which is coextensive with and communicates with the bore therein to allow lateral insertion of the elongate conductor.

Specification

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Litigation Campaign Assessment

Current Assignee
Pacesetter Incorporated (Abbott Laboratories)
Original Assignee
Pacesetter Incorporated (Abbott Laboratories)
Inventors
Jones, Stephen M., Pennala, Jeffrey L., Campbell, Arthur A.
Primary Examiner(s)
Evans, Geoffrey S.

Application Number

US08/605,439
Time in Patent Office

1,104 Days
Field of Search

219/121.63, 219/121.64, 219/121.6, 439/866, 439/874, 439/880, 174/94 R, 607/36
US Class Current

219/121.64
CPC Class Codes

A61N 1/3758   Packaging of the components...

B23K 26/242   Fillet welding, i.e. involv...

H01R 2201/12   for medicine and surgery

H01R 4/029   Welded connections H01R4/02...

H01R 43/0221   Laser welding H01R43/0228 t...

System for laser-welding components of an implantable device

First Claim

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Abstract

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System for laser-welding components of an implantable device

First Claim

1 Assignment

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Accused Products

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Abstract

Citations

17 Claims

Specification

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