JPS61251047A - Method and apparatus for linking electrode of semiconductor chip to package lead and electronic package - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates generally to the packaging of semiconductor devices, and more particularly, to a method for conveniently coupling a semiconductor device or integrated circuit to leads extending from a package containing the semiconductor device or integrated circuit. It relates to the mounting of semiconductor devices such as integrated circuits.

As semiconductor devices, either discrete or integrated circuits assembled on semiconductor chips, have become more complex and achieved increased component densities, chips on which integrated circuits are assembled can be used to utilize integrated circuit components. It has become more difficult to combine into circuits that A typical mechanism for creating an interface between an integrated circuit chip and an electronic circuit is to first position the integrated circuit chip in a package and then couple thin conductive wires between selected portions of the chip to selected portions of the package. It is to be. The package has leads extending therefrom, which are suitable for coupling to electronic circuitry or equipment, for example using a printed wiring board. For example, the package (via the leads) can be inserted through a hole in a printed wiring board or into a socket in an electrical circuit. However, the electrical coupling from the integrated circuit chip to the package leads is typically
This has been achieved by using fine conductors. These fine conductive wires have been found to be brittle and relatively difficult to adhere between the conductive regions of the semiconductor chip and the leads of the package. Moreover, the top surface of the chip, which has pads for electrical contact to various devices, i.e., the semiconductor regions of the chip, has various Not flexible enough to easily contact lead frame package dimensions.

Accordingly, techniques are needed to more securely and reliably couple the conductive leads of a package directly to a semiconductor device or integrated circuit chip, thereby creating a strong electrical bond and facilitating electrical interconnection. Needed.

Accordingly, it is an object of the present invention to provide improved techniques and methods for implementing semiconductor devices or integrated circuits.

Another object of the invention is to enable improved coupling between electrodes of an integrated circuit chip and conductive leads of mounted components.

A more specific object of the present invention is to utilize the combination of a chip's extended pad area and a bent end lead portion of a leadframe package to create more reliable electrical contact between the leadframe leads and the chip's extended pad area. The objective is to provide an improved package and method for achieving this goal.

Still another object of the present invention is to reduce the cost of the package by combining the extended pad area of the chip with the bent end lead portion of the leadframe package to allow chips of various sizes to be utilized in the same package. It is to be.

Another specific object of the present invention is to provide a procedure for applying package leads directly to integrated circuit chips.

Yet another particular object of the present invention is to make direct contact between the conductive leads of the package and the electrodes of the integrated circuit chip, where the conductive leads and electrodes can be coated with a material that facilitates electrical interconnection. That's true.

The foregoing and other objects are accomplished in accordance with the present invention by providing an integrated circuit chip with a layer of insulator and depositing a set of relatively large electrodes onto the layer of insulator. The larger electrode is coupled to the integrated circuit electrode, and the larger electrode is configured such that conductive leads of the package supporting the integrated circuit chip come into mechanical contact when the package elements are assembled. The package leads and large electrodes are advantageously coated with a suitable wettable or soldering type compound to provide convenient electrical and mechanical bonding between these components and the electrodes.

According to one embodiment of the present invention, a method for coupling electrodes of a semiconductor chip to leads of a package containing the semiconductor chip includes insulating large electrodes electrically coupled to selected electrodes on a semiconductor chip precursor. Consists of the process of welding the layers,
The insulating layer is placed over and protects the electrodes of the chip, apart from the electrode portions that extend through the insulating layer into contact with larger electrodes that directly contact the package leads. At least one of the package leads and the large electrode is coated with an alloy that melts at a relatively low temperature. The package lead is electrically 11 mechanically coupled to the large electrode by heating the alloy to cause it to flow, wet and bond the large electrode to the package lead.

According to another embodiment of the invention, an electronic package is described comprising an integrated circuit having a first set of electrodes contacting a semiconductor region of a chip. A chip having a second larger set of electrodes covers the integrated circuit chip apart from electrode portions extending from the first set of electrodes through the insulating layer into contact with the second larger set of electrodes. positioned on the insulator. The package is equipped with conductive leads attached. Soldering means are provided for electrically and mechanically connecting the conductive leads to the second set of electrodes.

According to yet another embodiment of the invention, an apparatus for coupling an integrated circuit chip to an electrical circuit includes a conductive means having a portion electrically coupled to the electrical circuit, and supporting the conductive means and the integrated circuit chip. It is stated that the package includes packaging means for: The integrated circuit chip has extended electrode means providing extended electrode means that can electrically contact the integrated circuit chip.

The conductive means has other parts that make electrical and mechanical contact with the extended electrode means. Soldering means are provided for electrically and mechanically coupling other parts of the conducting means to the extended electrode.

According to yet another embodiment of the present invention, a method of electrically coupling a semiconductor chip to a lead frame portion is disclosed. The method includes the steps of forming an extended electrode on a semiconductor chip, forming a bent end on a lead frame portion, and placing the semiconductor chip in a package having a lead frame portion so that the bent end of the lead frame portion and the extended electrode are in contact with each other. It consists of a step of positioning so that the

These and other features of the invention will be understood by reading the following description in conjunction with the drawings.

1, an integrated circuit chip 10, rather than a semiconductor, according to the present invention is shown. The integrated circuit itself is formed on chip 10.

No. 1 Lebel electrode or metal coating (memoryization)
11 has a plurality of conductors utilized to electrically connect to various semiconductor regions of the integrated circuit. Some of the metallized conductors or electrodes 11 of the second level require electrical coupling to conductors of a lead frame type package or frame assembly. The conductor of the first electrode 11 is covered with an insulating coating 12, such as silicon dioxide or any suitable welded insulator.

Next, a second level metallization 13 is applied to the insulating coating 12.
and patterned. The second level metallization 13 includes a set of extended electrodes and further electrically connects selected or predetermined electrodes 11 of the integrated circuit in the second level metallization through areas or portions 14 that pass through the insulating coating 12. are combined. The extended electrode set facilitates contact with the lead frame leads and also allows the lead frame leads to contact the extended electrodes or pads even if the chip size increases or decreases (lead frame leads and expansion pads Only the contact area between them changes with varying dimensions of the chip, since the electrical contact remains achieved due to the expansion pads). Different semiconductor regions (N-type or P-type) of the semiconductor chip 10 are in contact with each other through the electrodes 11, although they are not shown.

Referring now to FIG. 2, a top view of chip 10 containing an integrated circuit is shown. The extended electrode 13 of the metallization of the second level, well formed as one sector for each of the eight pins, and the underlying insulating coating 12 can be seen. The semiconductor chip 10 has a tab or substrate portion 15.
It is shown positioned above.

Turning now to FIG. 3, the relative positioning of substrate portion 15 and chip 10 in a package assembly is illustrated by depicting the portions to clarify interconnection techniques in accordance with the present invention. The package wall 20 has conductive leads or lead frame portions 21 extending therethrough. When the chip/substrate assembly is positioned in the package, inside the package, the leads are bent or formed by bent end portions to contact extended electrodes 13 of the second level metallization. Additionally, both the second level metallization extension electrode 13 and the package associated leads 21 preferably have a lead/tin compound or alloy coating or layer 22 deposited thereon or overlying. has.

FIG. 4 shows a partially cut away perspective view of the completed device. When the chip assembly and substrate are properly placed in the package frame, the leads 21 attached to and passing through the frame 20 have bent end portions to make physical contact with the extended electrodes 13 of the second level metallization. .

Advantageously, the bent ends of the leads 21 are formed before positioning the chip 10 in the package, but if desired, the bent ends of the leads 21 are formed after the chip 10 is positioned in the package. can form a part. Moreover, if desired, the substrate 15 can be part of the package, and the chip 10 can be placed thereon and conveniently secured thereto.

An integrated circuit package must have durable leads for attachment to the conductive area of the circuit in which it is intended to be utilized, such as in a circuit board socket.In a typical assembly, the integrated circuit chip has a wire positioned in the metallization of the first rubel and electrically coupled to the electrode and electrically coupled to the conductive leads of the package. Prior art type wires attached to integrated circuit chips are typically brittle and
Difficult to install. The present invention addresses this electrical coupling problem by utilizing an extended electrode formed in the second level metallization that includes a conductor/electrode that has a larger area than the tip conductor/electrode positioned in the metallization of the second level. Solved by doing. The leads of the package are positioned in direct physical and electrical contact with the extended conductors/electrodes of the second level metallization. Because of the size of these extended electrodes, chips of different sizes can be utilized in the same package, and fragile connection problems resulting from electrical coupling of small wire leads in typical prior art assemblies are avoided. In addition, the second level metallized electrodes as well as the frame leads within the frame are coated with a lead/tin (such as 90% lead 710% tin or 95% lead 15% tin) compound or alloy on each surface. has. When the conductor/electrode and frame lead are in contact, a small amount of heat is applied (e.g., by placing the package in an oven and heating the interior of the oven to a temperature sufficient to achieve liquefaction of the solder coating). causing solder flow and solder cooling and contact area (extended electrode 13
After wetting of the curved end portion of the lead 21 with the following properties, a good electrical contact follows, as well as a strong mechanical bond.

In this way, an effective and structurally robust method of bonding a semiconductor or integrated circuit chip to the leads of a package can be achieved. The result is a performance improvement that provides an electrically compatible interface between a semiconductor or integrated circuit chip and external electrical circuitry.

The foregoing description is intended to illustrate the operation of the preferred embodiment and is not intended to limit the scope of the invention, which is to be limited only by the following claims. . From the above description, many variations within the spirit and scope of the invention will be apparent to those skilled in the art.

[Brief explanation of drawings]

1 is a cross-sectional view of a semiconductor or integrated circuit chip assembly; FIG. 2 is a top view of the chip assembly of FIG. 1, preferably including a portion of the substrate to which the chip assembly is mounted; and FIG. 3 is a top view of the chip assembly of FIG. FIG. 4 is a cross-sectional view of a portion of the chip assembly/substrate configuration and a portion of the lead frame configuration to be attached to the chip assembly, and FIG. FIG. 2 is a perspective view of the package frame and chip assembly/substrate configuration of FIG. 10... Semiconductor chip, 11... Electrode, 12...
Insulating layer, 13... Large electrode, 20... Package, 21... Package lead, 22... Alloy coating.

Claims (1)

[Claims] 1. A method for coupling electrodes of a semiconductor chip to leads of a package containing the chip, the method comprising: a large electrode electrically coupled to a preselected electrode (11) of the chip (10); (13) to an insulating layer (12), the insulating layer (12) passing through the insulating layer (12) and directly contacting the package lead (21). A welding process is performed to position and protect the integrated circuit chip electrode (11), apart from the part of the electrode (11) that extends to make contact with the package lead (13). 21) and coating at least one of said large leads (13) with an alloy (22) that melts at a relatively low temperature; and said alloy (22)
The package lead (21) is electrically and mechanically connected to the large electrode (13) by heating to cause it to flow, lubricate and bond the large electrode (13) to the package (20). A joining method characterized by comprising the step of joining. 2. The combination according to claim 1, characterized in that said step of coating comprises the step of coating both said package lead (21) and said large electrode (13) with said alloy (22). Method. 3. an integrated circuit chip (10) having a first set of electrodes (11) in contact with a semiconductor region of the chip (10), the chip (10) having a first set of electrodes (11) to said insulating layer; (12) through a second set of larger electrodes (13
) having a second set of larger electrodes (13) positioned on an insulator (12) covering said integrated circuit chip (10), apart from an electrode portion extending into contact with said integrated circuit chip (10). integrated circuit chip (10) and conductive leads (2
1) and a soldering means (22) for electrically and mechanically connecting the conductive lead (21) to the second set of electrodes (13). Features an electronic package. 4. Electronic package according to claim 3, characterized in that said soldering means (22) is lead/tin soldering. 5. A device for coupling an integrated circuit chip to an electric circuit, comprising a conductive means (21) having a portion electrically coupled to the electric circuit, and a conductive means (21) and the integrated circuit chip (10). Packaging means (20) supporting said integrated circuit chip (10), said integrated circuit chip (10) having extended electrode means (1) enabling electrical contact to said integrated circuit chip (10).
3), said conductive means (21) being in electrical and mechanical contact with said extended electrode means (13) when said integrated circuit chip (10) is coupled to said packaging means (20). packaging means (such as having other parts carrying out
20); and soldering means (22) for electrically and mechanically coupling the other portion of the conductive means (21) to the extended electrode means (13). . 6. A device according to claim 5, characterized in that the integrated circuit chip (10) is connected to a substrate member (15) which is connected to the packaging means (20). 7. The conductive means (21) is a lead frame, and the extended electrode means (13) are attached to the lead frame.
Coupling device as described in section. 8. The coupling device according to claim 7, characterized in that the leads (21) of the lead frame extend inside the packaging means (20). 9. The other part of the conducting means (21) has a bent end part, and the end part of the bent end part is in mechanical and electrical contact with the extended electrode means (13). A coupling device according to claim 5, characterized in that: 10. A method for electrically coupling a semiconductor chip to a lead frame portion, the method comprising: forming an extended electrode (13) on the semiconductor chip (10);
21) forming a bent end on the semiconductor chip (
10) in a package (20) including the lead frame portion (21) so that the bent end of the lead frame portion (21) and the extended electrode (13) are in contact with each other. electrical coupling method.