Sintering tool and method for sintering an electronic subassembly

Abstract

Sintering tool (10) with a cradle for receiving an electronic subassembly (BG) to be sintered, characterized by at least one support bracket (20), arranged at two locations opposite the cradle, for fixing a protective film (30) covering the electronic subassembly (BG).

Claims

1. A sintering tool with a cradle for receiving an electronic subassembly to be sintered, comprising at least one support bracket, configured to be fastened to two locations on opposing sides of the cradle, such that a protective film covering the electronic subassembly is clamped between the cradle and the support bracket, wherein the support bracket has a socket configured to receive a connector associated with an upper die.

2. The sintering tool according to claim 1, further comprising two sets of fixing points for the support bracket, co-planarly arranged on either side of the cradle, and in orthogonal directions.

3. The sintering tool according to claim 1, wherein the support bracket is of an annular form.

4. The sintering tool according to claim 1, wherein the sintering tool is provided with a release device by means of which the separation of the sintering tool from the protective film is carried out by the upper die after a sintering process.

5. The sintering tool according to claim 2, wherein the support bracket is of an annular form.

6. The sintering tool according to claim 2, wherein the sintering tool is provided with a release device by means of which the separation of the sintering tool from the protective film is carried out by the upper die after a sintering process.

7. The sintering tool according to claim 3, wherein the sintering tool is provided with a release device by means of which the separation of the sintering tool from the protective film is carried out by the upper die after a sintering process.

8. A sintering tool with a cradle configured to receive an electronic subassembly to be sintered, comprising at least one support bracket configured to be fastened to the sintering tool at two locations on opposing sides of the cradle, the support bracket configured to fix a protective film between the electronic subassembly and a sintering pressure pad, and further configured to clamp the protective film between the at least one support bracket and the cradle, wherein the support bracket is provided with receiving sockets configured to engage a release device, wherein the release device is configured to separate the protective film from the sintering pressure pad after a sintering process.

9. The sintering tool according to claim 8, wherein the receiving sockets are configured to engage a movable actuator of the release device.

10. A sintering press comprising: an upper die; a lower die; and a sintering tool; wherein the sintering tool has a cradle configured to receive an electronic subassembly to be sintered, the sintering tool comprising at least one support bracket, configured to be fastened to two locations opposite the cradle, and configured to clamp a protective film covering the electronic subassembly between the at least one support bracket and the cradle; and wherein the support bracket has a socket configured to receive a connector associated with the upper die.

11. The sintering press according to claim 10, further comprising a pressure pad arranged on the upper die, wherein the sintering tool is arranged on the lower die, wherein the lower die is configured to be moved towards the upper die, and wherein the pressure pad is configured to provide a hydrostatic pressure distribution onto the protective film and the electronic subassembly when the lower die is moved towards the upper die.

12. The sintering press according to claim 10, further including a release device configured to engage the support bracket and to separate the protective film from the sintering pressure pad after a sintering process.

13. The sintering tool according to claim 1, wherein the socket and the connector form a bayonet-type fastener.

14. The sintering tool according to claim 1, wherein the support bracket has at least two sockets configured to receive connectors associated with the upper die.

15. The sintering tool according to claim 1, wherein the cradle has a socket for receiving the connector associated with the upper die.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The invention is explained in more detail on the basis of an exemplary embodiment that is represented in the following figures.

(2) FIG. 1 shows a sectional view through an exemplary embodiment according to the invention that is of a particularly preferred design.

(3) FIG. 2 shows a sectional view through a second exemplary embodiment according to the invention with a release device for the separation of the sintering tool.

(4) FIG. 3 shows a flow diagram illustrating an exemplary embodiment of the method according to the invention.

DETAILED DESCRIPTION

(5) FIG. 1 shows a sintering tool 10, which has a cradle, formed as a depression in the sintering tool 10, for receiving an electronic subassembly BG to be sintered. The electronic subassembly BG is covered by a protective film 30, for example a Teflon film, which is fastened to the sintering tool 10 by means of the support bracket 20 arranged on both sides of the cradle.

(6) In FIG. 2 is shown a sintering press 100 which comprises an upper die 42 and a lower die 44. A sintering tool 10 is mounted on the lower die 44. For pressure sintering, the lower die 44 can be moved vertically in the direction of the upper die 42 to produce a sintering pressure in the range of 10 to 40 MPa. An electronic subassembly BG, comprising a circuit substrate and electronic components which are to be electrically connected to it by pressure sintering, is inserted into a cradle in the tool holder 52. The sintering tool 10 includes a protective film 30 and a support bracket 20, which is formed as an annular clamping ring around the tool holder 52, and the protective film 30 is fixed on the tool holder 52 of the sintering tool 10. The lower die 44 and the upper die 42 are electrically heated. The upper die 42 carries a pressure pad 56, that creates a quasi-hydrostatic pressure distribution on the protective film 30 and the electronic assembly BG when the lower die 44 is pressed into the upper die 42. After the pressure sintering process, the lower die 44 moves downwards away from the upper punch 42. In order to prevent adhesion of the protective film 30, and thus also the sintering tool 10 to the pressure pad 56, receiving sockets 46 are provided in the support bracket 20 of the sintering tool 10. A release device 40 is shown, comprising a lifting bar 50 which is vertically movable by a hydraulic or pneumatic actuator cylinder 54. The lifting bar 50 includes two or more actuator bolts 48 which can engage in the receiving sockets 46 of the support bracket 20. If the lifting bar 50 is lowered in the direction of the closed lower die 44, preferably synchronously with the speed of lowering of the lower die 44, a reliable separation of the protective film 30, and thus the sintering tool 10, from the pressure pad 56 is obtained. Thus the sintering tool 10 can be removed from the sintering press 100 to allow further processing steps.

(7) FIG. 3 shows a flow diagram illustrating an exemplary embodiment of the method according to the invention. The method 200 concerning the invention for sintering an electronic subassembly provides that the electronic subassembly is arranged 201 on the cradle of a sintering tool, is covered 202 with a protective film, and is sintered 203, the protective film optionally being fixed 204 at least in a direction in front of and behind the electronic subassembly after the covering and before the sintering of the electronic subassembly. Optionally, the protective film may be mechanically detached 205 after sintering 203.

(8) While the present disclosure has been illustrated and described with respect to a particular embodiment thereof, it should be appreciated by those of ordinary skill in the art that various modifications to this disclosure may be made without departing from the spirit and scope of the present disclosure.