EP1027731A2 - Method for connecting and supporting a csp housing connection with an integrated circuit - Google Patents

Abstract

The invention concerns a method for electrical connection between an integrated circuit (10) housing connection pads (9i) and a CSP housing output terminals (18), which consists in connecting the integrated circuit (10) connection pads (9i) to a connecting support (1) arranged opposite and on a different level from the connecting pads (9i) via electrical conductors (8i) arranged on the connecting support (1). The method is characterised in that, after the support (1) has been arranged opposite the integrated circuit (10), it consists in moving at least part (7i) of the support to bring it in the proximity of the integrated circuit (10) connection pads (9i), and in connecting the conductors (8i) supported by the support part (7i) of the support (1) on the integrated circuit (10) connection pads (9i). The invention is particularly applicable to CSP housing interconnection technique (18).

Description

Headline

Method of linking and connection support for a CSP box with an integrated circuit.

The present invention is in the field of CSP type connector housings, English abbreviations for Chip Scale Package.

It relates more particularly to a method of connection between an integrated circuit and the external terminals of a connection support arranged on the integrated circuit in an architecture of the type known under the English terminology "fan-in".

The invention also relates to a connection support, an integrated circuit box, and an electronic assembly comprising such a box.

The connection support, for example a printed circuit board, supports a plurality of conductors and provides the interface between the integrated circuit and the external environment of the chip using, for example a connection technology by a network of balls weld known as BGA, Anglo-Saxon abbreviations for Bail Grid Array.

This connection technology is well known to those skilled in the art, it will only be described briefly in the following description.

The balls are connected on the one hand to connection pads which are generally formed by a local enlargement of the conductors on the connection support, and on the other hand, for example, to another connection support coupled to the supply terminals supply voltages and control signals. A fan-in type connection structure can be likened to a stack typically comprising at the lower level the integrated circuit and at the higher level, the interface with the control signals and the various power supplies of the integrated circuit comprising at least one connection support.

The support rests on the integrated circuit by means of an insulating mat, for example an elastomer. The main function of the mattress is to absorb the mechanical stresses undergone by the integrated circuit. These constraints are mainly due to the differences in expansion between the silicon and the substrate which receives the CSP when it is subjected to temperature variations.

The multilayer assembly thus formed constitutes a housing intended to be integrated into an electronic assembly.

To make the connection between the connection support and the integrated circuit, respectively on different levels, several techniques are known.

Among these, a technique developed by the company under American law TESSERA, consists of arranging windows in the connection support, in areas intended to be opposite the connection pads of the integrated circuit.

The end parts of the conductors are generally arranged at the periphery of the support and are intended to be wired to the connection pads of the integrated circuit.

They extend across windows thus arranged and have a determined shape to undergo deformations at specific locations determined allowing, after individual bending and breaking of the conductors, to obtain conductive tabs facing the connection pads of the integrated circuit. The tabs are then individually connected to the connection pads, for example, by an individual weld.

A first drawback of this technique is that to cause the conductors to break in the right place, namely at the interface between the conductor and the support, typically at the copper / polyimide interface, corresponding to a first window sill , the conductors must include a throttling generally difficult to achieve, typically of the order of 40 to 50 μm wide in the case of conductors having a width typically of 80 μm.

The conductor, on the other hand, is widened at the polyimide / copper interface on the window sill, opposite the first sill, to help the bending by beam effect. This widening further reduces the pitch available between conductors.

Furthermore, the operations after breakage consisting of folding, bending and welding, are carried out by the same tool and individually on each of the conductive tabs.

The operation is delicate because the bending must not cause an axial deviation of the conductors; the latter being cantilevered after breakage.

The protection of the conductors is generally ensured by a noble coating such as gold, palladium, etc.

Also, after the conductors have broken, their free ends are therefore no longer protected against corrosion or any other external attack.

The invention particularly aims to overcome the aforementioned drawbacks. To this end, the first object of the invention is a method of electrical connection between connection pads of an integrated circuit and output terminals of a CSP box, of the type consisting in connecting the connection pads of the integrated circuit to a connection support arranged opposite and at a level different from the connection pads, by means of electrical conductors arranged on the connection support.

According to the invention, the method consists after having placed the support facing the integrated circuit, to move at least part of the support to bring it in the vicinity of the connection pads of the integrated circuit, and to connect the conductors supported by the part of the support on the connection pads of the integrated circuit.

According to one characteristic, the support comprising at least a first part and a second part, separated by a determined space, and connected to each other by the conductors passing through this space, it consists in arching globally and simultaneously the conductors maintained from on either side of the space and crossing this space, to bring the first part of the support in the vicinity of the connection pads of the integrated circuit.

According to one characteristic, the end parts of the conductors, supported by the first part of the support, are connected globally and simultaneously on the pads of the integrated circuit.

A second object of the invention is a connection support comprising a plurality of electrical conductors forming a network of conductors on at least one of the faces of the support, and intended to provide the interface between connection pads of an integrated circuit arranged at a different level from the connection support, and from the output terminals of a box containing the integrated circuit in a CSP architecture. According to the invention, the support comprises at least a first part, supporting the conductors to be connected on the connection pads of the integrated circuit, and capable of undergoing a difference in level with respect to a second part of the support to position themselves in the vicinity of the pads of integrated circuit connection.

According to one characteristic, the connection support comprises at least one window, called the bending window, arranged in the support and defining respectively on either side of the bending window, a first part and a second part of the support; the bending window being traversed on either side by conductors held on either side of the bending window and connecting the two parts.

According to a second characteristic, the bending window defines, in itself, a determined zone corresponding to a bending space of the conductors passing through the bending window; the conductors passing through the bending window being able to deform globally and simultaneously to allow, by a global and simultaneous bending, a difference in level between the first part and the second part of the support lying respectively on either side of the bending window .

According to another characteristic, the first part of the support, intended to be positioned in the vicinity of the connection pads of the integrated circuit, comprises at least one window, called connection window, arranged in a determined area to be opposite the connection pads; the connection window being traversed by the end parts of the conductors, held on either side of the connection window and able to be simultaneously and globally connected to the connection pads through the connection window. According to another characteristic, the support and the bending and connection windows are of generally rectangular shape, and the bending window occupies substantially all of the bending space inside the support; the side edges of the bending window being respectively parallel to the side edges of the support and as close as possible to the side edges of the support.

The third object of the invention is a CSP box comprising an integrated circuit, a differential expansion absorber, electrical insulator, disposed on the integrated circuit, and a connection support supporting a plurality of conductors defining a network of conductors on at least one of its faces, arranged on the absorber and providing the interface between the connection pads of the integrated circuit and the output terminals of the housing.

According to the invention, the support comprises at least a first part resting on the connection pads of the integrated circuit, and at least a second part resting on the absorber.

According to one characteristic, the first part and the second part of the support are separated by a window, called a bending window, arranged in the support.

According to another characteristic, the bending window is traversed by conductors maintained on either side of the bending window and connecting the first part and the second part of the support.

According to another characteristic, the conductors passing through the bending window are deformed by an overall and simultaneous bending to form a difference in height between the first part and the second part of the support. According to one characteristic, the end parts of the conductors, supported by the first part of the support resting on the integrated circuit, are respectively connected on pads of the integrated circuit.

According to one characteristic, the first part of the support comprises at least one window, called connection window, arranged in a determined area of the first part of the support so as to be opposite the connection pads; the connection window being traversed by conductors maintained on either side of the connection window and respectively connected to the connection pads through the connection window.

According to one characteristic, the support and the bending and connection windows are of generally rectangular shape.

Finally, the invention has as its fourth object, an electronic assembly comprising at least one CSP box according to the invention.

The method according to the invention makes it possible to connect CSP boxes by overall and simultaneous bending of maintained conductors, and then to make an overall and simultaneous connection operation of the conductors with the integrated circuit.

In summary, the main advantages of the invention are therefore:

- overall and simultaneous bending and wiring of conductors; - holding of conductors during bending and wiring;

- simpler realization of the conductors (no throttling and no widening), which implies cheaper connection supports and being able to connect integrated circuits with fine pitch (not between conductors less than 75 μm); and - no corrosion possible on the ends of the conductors after breakage. Other advantages and characteristics of the present invention will appear on reading the following description made with reference to the appended figures which represent, respectively:

- Figure 1, a top view of a connection support according to the invention before bending;

- Figure 2, a sectional view of the connection support according to the invention after bending;

- Figure 3, a view schematically illustrating the connection method according to the invention; - Figure 4, a perspective view of a CSP housing according to the invention equipped with a network of solder balls;

- Figure 5, a schematic sectional view of the housing illustrated in Figure 4, along the cutting axis v-v; and

- Figure 6, a partial perspective view of an electronic assembly comprising at least one housing according to the invention.

In these figures, the homologous elements are designated by the same reference and the scales are not respected for the sake of clarity.

FIG. 1 illustrates an example of a connection support 1 according to the invention in top view and before trimming. The support 1 supports a plurality of conductors 2i defining a network of conductors according to a determined topology on a face 3 of the support 1.

The support 1 is for example a printed circuit board produced in polyimide or in another type of substrate, flexible or rigid.

Two series of windows 4i and 5i are arranged in the support 1.

First series of windows 4i are arranged in the support 1 to correspond to the bending spaces 6i of the conductors 2i. These windows 4i, hereinafter called bending windows, are arranged in the lateral end portions 7i of the support 1 which is of generally rectangular shape in the embodiment described. The conductors 2i, forming tracks, pass above the bending windows 4i to respectively form bridges 8i bearing on either side of the bending windows 4L

Second series of windows 5i, hereinafter called connection windows, are arranged in determined zones of the support 1 so as to be opposite the connection pads 9i of an integrated circuit 10, shown in FIG. 2, on which must be removed the support 1.

The connection windows 5i extend between the lateral outer edges of the support 1 and the arching windows 4L

In the embodiment described, a single connection window 5i is provided in each end part 7i of the support 1.

In an alternative embodiment, as illustrated in FIG. 4, several connection windows are respectively arranged in the end parts 7i of the support 1.

As for the bending windows 4i, the conductors 2i respectively pass through the connection windows 5i by taking support on either side of the connection windows 5i.

In this embodiment, the bending and connection windows 4i and 5i are of generally rectangular shape and the conductors 2i are of constant width. Other forms of windows 4i and 5i and of conductors 2i can also be envisaged without departing from the scope of the present invention. Likewise, the conductors 2i can pass through the windows in different directions.

The different shapes and dimensions of the conductors 2i and of the windows 4i and 5i depend on the topology of the network of conductors, itself a function of the topology of the integrated circuit 10 and of the interface with the exterior of the box containing the integrated circuit 10 .

The bending windows 4i are retained from the rest of the support 1 by sections 11 i of the support 1 of small width, which can be precut, and allowing after their rupture, for example by trimming using a determined tool not shown, to separate the end parts 7i of the support 1 comprising the connection windows 5i from the rest of the support 1.

The width 6i of the bending windows 4i is determined as a function of the angle of inclination of the conductors 2i, typically of the order of 10 ° relative to a vertical plane perpendicular to the plane 3 of the support 1, and of the thickness of a differential expansion absorber 12, electrical insulator, typically of the order of 200 μm, illustrated in FIG. 2, disposed between the integrated circuit 10 and the support 1.

In the embodiment described in FIG. 2, the bending of the conductors is determined so as to allow the absorber 12, for example an elastomeric mat, to be inserted between the integrated circuit 10 and the support 1 intended to receive and support a network. 13i solder balls, in a CSP type structure. The mattress provides reliability on the card of the order of several hundred thermal cycles between -40 ° C and + 125 ° C for example. It is easy to understand the advantage of the structure according to the invention, because it makes it possible to maintain a constant pitch between the conductors 2i during the bending and connection operations of the conductors 2i on the connection pads 9i of the integrated circuit 10.

FIG. 2 also schematically illustrates the method of connecting the support 1 according to the invention with an integrated circuit 10.

The line 1 according to the invention is shown by a dashed line, in its initial position, bearing on the mattress 12, itself bearing on the integrated circuit 10; the mattress 12 leaving the connection pads 9i of the integrated circuit 10 free.

The support 1 being supported on the mattress 12, a tool 14 adapted to the topology of the support 1 and the integrated circuit 10 ensures the overall bending of the conductors 2i in the zones 6i corresponding to the bending windows 4i and the positioning of the end portions 7i of the support 1 on the connection pads 9i of the integrated circuit 10.

This tool 14 comprises a first movable member or counterplate 15 which is intended to be applied in abutment on free areas 1 Si of the upper face 3 of the support 1 before and during the bending operation.

It comprises a second movable member 16 which, once the first member 15 bears on the upper face 3 of the support 1, progressively displaces the end parts 7i of the support 1 at the connection pads 9i of the integrated circuit 1.

The conductors 8i deprived of support inside the arching windows 4i behave like flexible ribbons and are deformed under the effect of the pressure exerted by the second mobile member16 on the end portions 7i of the support 1. The deformation is uniform on all the conductors 8i, the end parts 17i of which are held on the end parts 7i of the support 1.

The bending is carried out on a first level A, at the copper / polyimide interface and on a second level B at the interface second bending member 16 / copper.

The elasticity of the conductors 8i, typically made of copper alloy, makes it possible to preserve the bending and the positioning of the end parts 7i of the support 1 on the integrated circuit 10, after the withdrawal of the tool 14.

In an alternative embodiment, the bending can be carried out beforehand, before positioning the support 1 on the integrated circuit 10.

The end portions 17i of the conductors 8i passing through the connection windows 5i disposed opposite the connection pads 9i of the integrated circuit 10, are then punctually connected to the connection pads 9i by spot welding, for example, or connected globally to the pads 9i by a tool, not shown, taking into account all of the conductors to be connected on pads 9i, at their end portions 17L

The punctual or global connection operation can be carried out by an independent tool, not shown, or by the same tool 14 having carried out the overall bending.

As illustrated in FIG. 3, the profile of the card resulting from the bending presents a card profile with two levels, a first level or higher level A, corresponding to the connection plane of the balls 13i on the face 3 of the support 1, and a second level or lower level B, corresponding to the plane of the connection pads 9i of the integrated circuit 1. FIG. 4 illustrates in a perspective view, a CSP box 18 according to the invention, comprising a support 1 according to the invention connected to the integrated circuit 10 according to the method according to the invention.

Figure 5 illustrates a sectional view of the housing 18 of Figure 4 along the cutting axis v-v.

The housing 18 includes an integrated circuit 10, an electrical insulating mattress 12, supported on the integrated circuit 10, a support 1 of electrical conductors 2i, supported on the mattress 12 and on the integrated circuit 10, ensuring the electrical connection between a network of balls 13i welded on the conductors 2i and the connection pads 9i of the integrated circuit 10 via the end portions 17i of the conductors 2L

The support 1 is divided into three parts: first lateral parts 7i distributed on either side of a second part 7, or central part of the support 1.

In this embodiment, the first lateral parts 7i are distributed substantially symmetrically with respect to a median axis of the central part 7 of the support 1, and corresponds substantially to the median axis of the housing 18.

Finally, Figure 6 illustrates in a partial perspective view, an electronic assembly 19 materialized by a card 20 on a face 21 of which are mounted CSP 18i boxes according to the invention; the connection of the CSP 18i boxes on the card 20 being carried out by the balls 13L

The invention can be applied to the connection of any passive or active electronic function such as memory, processor, etc., compatible with CSP architectures.

Claims

14 CLAIMS

1. Method of electrical connection between pads (9i) of connection of an integrated circuit (10) and output terminals of a CSP box (18), of the type consisting in connecting the pads (9i) of connection of the circuit integrated (10) with a connection support (1) arranged opposite and at a different level from the connection pads (9i), by means of electrical conductors (2i) disposed on the connection support (1), characterized in what it consists of after having placed the support (1) facing the integrated circuit (10), to move at least one part (7i) of the support (1) to bring it in the vicinity of the pads (9i) for connecting the integrated circuit (10), and to connect the conductors (2i) supported by the part (7i) of the support (1) on the pads (9i) for connection of the integrated circuit (10).

2. Method according to claim 1, characterized in that, the support (1) comprising at least a first part (7i) and a second part (7), separated by a space (6i) determined, and connected one to the other by the conductors (8i) crossing this space (6i), it consists in arching globally and simultaneously the conductors (8i) held on either side of the space (6i) and crossing this space (6i), to bring the first part (7i) of the support (1) in the vicinity of the pads (9i) for connection of the integrated circuit (10).

3. Method according to claim 2, characterized in that the end parts (17i) of the conductors (8i), supported by the first part (7i) of the support (1), are connected globally and simultaneously on the pads (9i) of the integrated circuit (10).

4. Connection support (1) comprising a plurality of electrical conductors (2i) forming a network of conductors on at least one (3) of the faces of the support (1), and intended to provide the interface between pads (9i) for connection of an integrated circuit (10) arranged at a different level from the support (1) connection, and output terminals of a housing (18) containing the integrated circuit (10) in a CSP architecture, characterized in that the support (1) comprises at least a first part (7i), supporting the conductors ( 8i) to be connected to the pads (9i) for connection of the integrated circuit (10), and capable of undergoing a drop, relative to a second part (7) of the support (1), to position themselves in the vicinity of the pads (9i ) connecting the integrated circuit (10).

5. Support (1) connection according to claim 4, characterized in that it comprises at least one window (4i), called bending window, arranged in the support (1) defining respectively on either side of the bending window (4i), a first part (7i) and a second part (7) of the support (1); the bending window (4i) being traversed on either side by conductors (8i) held on either side of the bending window (4i) and connecting the two parts (7 and 7i), and in this that the bending window (4i) defines, in itself, a determined zone corresponding to a space (6i) for bending the conductors (8i) passing through the bending window (4i); the conductors (8i) passing through the bending window (4i) being able to deform globally and simultaneously to allow, by a global and simultaneous bending, a difference in level between the first part (7i) and the second part (7) of the support (1 ) located respectively on either side of the bending window (4i).

6. Support (1) for connection according to claim 5, characterized in that the first part (7i) of the support (1), intended to be positioned in the vicinity of the pads (9i) for connection of the integrated circuit (10), comprises at least one window (5i), called connection window, arranged in a determined area to be opposite the connection pads (9i); the connection window (5i) being traversed by the end portions (17i) of the conductors (8i), held on either side of the connection window (5i) and able to be simultaneously and globally connected to the pads (9i) connection through the connection window (5i). 16

7. Support (1) connection according to claim 6, characterized in that the support (1) and the bending and connection windows (4i and 5i) are of generally rectangular shape, and in that the bending window (4i ) occupies substantially all of the bending space (6i) inside the support (1); the lateral edges of the bending window (4i) being respectively parallel to the lateral edges of the support (1) and as close as possible to the lateral edges of the support (1).

8. CSP box (18), comprising an integrated circuit (10), a differential expansion absorber (12), electrically insulating, disposed on the integrated circuit (10), and a connection support (1) supporting a plurality of conductors (2i) defining a network of conductors on at least one (3) of its faces, arranged on the absorber (12) and ensuring the interface between the pads (9i) of connection of the integrated circuit (10) and the terminals of outlet from the housing (18), characterized in that the support (1) comprises at least a first part (7i) resting on the pads (9i) for connection of the integrated circuit (10), and at least a second part (7) resting on the absorber (12).

9. CSP box (18) according to claim 8, characterized in that the first part (7i) and the second part (7) of the support (1) are separated by a window, called cambering window (4i), arranged in the support (1).

10. CSP housing (18) according to claim 9, characterized in that the bending window (4i) is crossed by conductors (8i) held on either side of the bending window (4i) and connecting the first part (7i) and the second part (7) of the support (1).

11. CSP box (18) according to claim 10, characterized in that the conductors (8i) passing through the bending window (4i) are deformed by a global and simultaneous bending to form a difference in height between the first part (7i) and the second part of the support (1). 17

12. CSP box (18) according to claim 11, characterized in that the end parts (17i) of the conductors (8i), supported by the first part (7i) of the support (1) resting on the integrated circuit (10), are respectively connected on pads (9i) of the integrated circuit (10).

13. CSP box (18) according to claim 12, characterized in that the first part (7i) of the support (1) comprises at least one window (5i), called connection window, arranged in a determined area of the first part (7i) of the support (1) to be opposite the connection pads (9i); the connection window (5i) being traversed by conductors (8i) held on either side of the connection window (5i) and respectively connected to the connection pads (9i) through the connection window (5i) .

14. CSP housing (18) according to claim 13, characterized in that the support (1) and the bending and connection windows (4i and 5i) are of generally rectangular shape.

15. Electronic assembly (19), characterized in that it comprises at least one CSP box (18) according to any one of claims 8 to 14.