Method of bonding a member to a support by addition of material, and device for arranging two elements, one on the other
Abstract
A method having a step of heating a mass forming a braze. Before the heating step, the method includes steps of arranging the mass and the member on the support. In particular, it includes a step of positioning the mass on the support and a step of applying a first compressive force on the mass so as to compress said mass against the support, the intensity of the first force increasing up to a predetermined first value chosen so as to flatten the mass. Next, the method includes a step of positioning the member on the flattened mass and a step of applying a second compressive force to the member so as to compress said member against the flattened mass and the support, the intensity of the second force increasing up to a second predefined value, the second predefined value being lower than the first predefined value.
Claims
exact text as granted — not AI-modified1 . A method of soldering a component to a holder by addition of a mass forming solder, of the type comprising a step in which the mass is heated, characterised in that, before the heating step, it comprises the following steps of arranging the mass and the component on the holder:
positioning the mass on the holder, applying a first compressive force on the mass so as to compress the mass against the holder, the intensity of the first force increasing up to a predefined first value chosen so as to flatten the mass forming solder, positioning the component on the flattened mass, and applying a second compressive force to the component so as to compress the component against the flattened mass and the holder, the intensity of the second force increasing up to a second predefined value, the second predefined value being less than the first predefined value.
2 . The method according to claim 1 , wherein during the step of positioning the mass on the holder, the mass is moved towards the holder until detection of a position where the mass comes into contact with the holder and, during the application step, the intensity of the first force is increased from a substantially zero initial value set during detection of the contact position up to the first predefined value.
3 . The method according to claim 1 , wherein during the step of positioning the component on the flattened mass, the component is moved towards the flattened mass until detection of a position where the component comes into contact with the flattened mass and, during the application step, the intensity of the second force is increased from a substantially zero initial value set during detection of the contact position up to the second predefined value.
4 . The method according to claim 1 , wherein the intensity of the first and/or the second compressive force is increased in incrementation steps from the value of the intensity up to the first and/or the second predefined value.
5 . The method according to claim 1 , wherein, during the heating step, the relative position of the component and the holder is maintained constant.
6 . The method according to claim 1 , wherein, during the heating step, a laser beam is directed to a first side of the holder opposite a second side of the holder bearing the mass, at the position of this mass, during a period of irradiation of the holder by the beam, and the relative position of the component and the holder is maintained constant.
7 . The method according to claim 1 , wherein the first predefined value is determined according to a lower critical limit of the mass thickness after the step when the first force is applied.
8 . The method according to any claim 1 , wherein the second predefined value is less than a critical value beyond which the component would be damaged.
9 . The method according to claim 1 , wherein the component is a semi-conductor chip.
10 . A Device for arranging a first element on a second element comprising:
means of moving the first element on the second element, means for compressing the first element against the second element, wherein it also includes: means for detecting a contact position when the first element comes into contact with the second element, means forming counterweight of the displacement means, and means for controlling the compression means and the means forming counterweight according to detection of the contact position.
11 . The device according to claim 10 , wherein the displacement means comprise suction type holding means to hold the first element.
12 . The device according to claim 11 , wherein the displacement means comprise infrared type temperature measurement means with an optical fibre passing through a suction tube of the holding means.
13 . The device according to claim 10 , wherein the detection means are chosen amongst a capacitive type contact detector and a pressure detector.
14 . The device according to claim 10 , designed to arrange a first element chosen amongst a mass forming solder and a semi-conductor chip on a second element forming holder.Cited by (0)
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