JP3459291B2 - Electronic components with semiconductor chips - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electronic component such as a transistor using a semiconductor chip having at least two output side electrode terminals.

[0002]

2. Description of the Related Art Generally, a transistor, which is an example of an electronic component using a semiconductor chip of this type, has a semiconductor chip on which a circuit element is formed mounted on a base substrate, and a collector electrode terminal and a circuit electrode of the circuit element of this semiconductor chip are mounted on the base substrate. After the output side electrode terminals of the emitter electrode terminals and the external lead terminals for each of them are electrically connected by wire bonding with a fine metal wire made of a refractory metal such as Au, Al or Cu, the whole of them is connected. It is well known that the package is packaged by a mold part made of thermosetting synthetic resin or a cap body.

By the way, when a large amount of electric current is applied to a transistor in the electric circuit by causing a high current or a high voltage to flow in the electric circuit using the transistor as described above, the semiconductor chip in the transistor is heated to a high temperature. Then, it is greatly affected by its characteristics.

However, in a conventional transistor, a metal made of a refractory metal such as Au, Al, or Cu is provided between the collector electrode terminal and the emitter electrode terminal in the circuit element of the semiconductor chip and their respective external lead terminals. Since it is not possible to prevent the temperature rise of the semiconductor chip due to high power due to the structure that the wires are electrically connected by wire bonding with a thin wire, when the temperature of the semiconductor chip becomes high due to the application of high power, etc. In, the circuit element in the semiconductor chip acts differently from its original function, and a large current flows in the load-system electric circuit connected to the collector electrode terminal and the emitter electrode terminal in this circuit element, Secondary damage caused by damage to other electronic components provided in the electric circuit of the load system. There may occur.

Therefore, Japanese Patent Laid-Open No. 5-23 as a prior art.
Japanese Patent No. 5080 proposes that a semiconductor chip mounted on a base substrate and an external lead terminal are wire-bonded with a solder wire so that the solder wire serves as a thermal fuse for the semiconductor chip. There is.

In this prior art, the ball portion B'is formed at the lower end of the solder wire B inserted into the capillary tool A, as shown in FIG. 13, prior to wire bonding with the solder wire. As shown in FIG. 14, the ball portion B ′ is moved to the semiconductor chip D on the base substrate C by the downward movement of the capillary tool A.
The electrode pad D'in FIG. 1 is joined by being pressed, and then the capillary tool A is moved upward to a position right above the external lead terminal E, and then, as shown in FIG.
As shown in FIG. 5, a method is adopted in which the solder wire B is moved downward to press the other end portion B ″ of the solder wire B against the external lead terminal E to join them.

[0007]

However, in this wire bonding method, one end of the solder wire B is
The semiconductor chip D is formed by the ball portion B'formed at the one end.
Although it is joined to the electrode pad D'in the above, the other end B "of the solder wire B is joined to the external lead terminal E by pressing the other end B" with the cavity tool A. When the other end B ″ is joined to the external lead terminal E, the other end B ″ is
When the solder wire B is crushed into a flat shape having a thickness t smaller than the diameter d, a neck portion in which the cross-sectional area is sharply narrowed is formed at that portion.

By the way, the solder wire B is an Au wire widely used in conventional wire bonding,
As compared with the Al wire or the Cu wire, not only the electric resistance is high, but the melting point is low. Therefore, if the neck portion is present in the middle of the solder wire B, the neck portion
Since current concentration occurs at the neck portion, the temperature becomes high even with a relatively low current.

That is, the wire bonding by the solder wire in the prior art is performed by wire bonding between any one or both of the collector electrode terminal and the emitter electrode terminal of the transistor and each external lead terminal thereof. By applying this solder wire to a thermal fuse for a semiconductor chip, the solder wire is normally used in an electric circuit before the semiconductor chip rises to a predetermined temperature due to a large current or the like. Due to the current value, it will melt at the neck portion.

Moreover, since the mechanical strength of the neck portion in the middle of the solder wire is lowered due to the repetition of the above-mentioned current concentration, before the solder wire functions as a thermal fuse against the temperature of the semiconductor chip. Also, the wire will be disconnected due to vibration or the like in a normal use state.

Therefore, since the solder wire in the above-mentioned prior art has a neck portion in the middle thereof, when applied to an electronic component with a semiconductor chip such as a transistor, the solder wire has a temperature higher than that of the semiconductor chip. Not only does it function as a current fuse before it functions as a fuse, but it also breaks before it functions as a thermal fuse. There was a problem that it was not possible to have the function as.

According to the present invention, in an electronic component such as a transistor, output side electrode terminals such as a collector electrode terminal and an emitter electrode terminal in a circuit element of the semiconductor chip,
It is a technical object to surely give the solder wire a function as a thermal fuse for the semiconductor chip when electrically connecting to the external lead terminal with a solder wire.

[0013]

To achieve this technical object, the present invention provides a "semiconductor chip having a circuit element having at least two output-side electrode terminals, and an output-side electrode terminal of each of the semiconductor chips". An external lead terminal for each, a metal thin wire that electrically connects between each output side electrode terminal in the circuit element of the semiconductor chip and one end of each external lead terminal , the semiconductor chip,
One end and a portion of the metal thin wires of the external lead terminals
In an electronic component consisting of a molded part made of synthetic resin to be packaged, a part of the metal thin wires or all the metal thin wires are used as solder wires, and the solder wires have ball portions at both ends thereof. While forming, in the middle
An elastic resin for covering the solder wire is provided, and both ball portions of the solder wire are pressed and joined to the output side electrode terminal and the external lead terminal of the circuit element of the semiconductor chip, and the solder is formed. The wire serves as a thermal fuse for the semiconductor chip. "."

[0014]

[Operation] As described above, according to the present invention, the ball portions are formed at both ends of the solder wire, and the both ball portions are pressed against the output side electrode terminal in the circuit element of the semiconductor chip and the external lead terminal thereof. What is to be joined, by this, in the joint portion of the semiconductor wire and the external lead terminal of the solder wire to be the temperature fuse to the semiconductor chip,
It is possible to avoid the formation of a neck portion in which the cross-sectional area is sharply narrowed, or it is possible to limit the narrowing of the cross-sectional area to a small range.

[0015]

Therefore, according to the present invention, in an electronic component such as a transistor, a solder wire for electrically connecting an output side electrode terminal and an external lead terminal in a circuit element of a semiconductor chip to a temperature fuse for the semiconductor chip. Since it is possible to prevent the occurrence of disconnection due to vibration or the like in a normal use state, it is possible to impart a reliable function as to the heat generation of the semiconductor chip in the electronic component, to the output side electrode terminal in the semiconductor chip. This has the effect of reliably preventing secondary damage to various electronic components in the electric circuit on the load side connected to each other.

Further , as described in claim 2, of the ball portions of the solder wire, the ball portion on the semiconductor chip side is pressed against the output side terminal in the axial direction of the solder wire.
On the other hand, by pressing and joining the ball portion on the external lead terminal side to the external lead terminal in a direction substantially perpendicular to the axis of the solder wire, the solder wire is pressed and joined to the semiconductor chip and Since pressing and joining with respect to the lead terminal can be performed by different bonding tools and the time required for wire bonding can be shortened, the cost can be reduced.

[0017]

Embodiments of the present invention will be described below with reference to the drawings.

1 and 2 show a first embodiment when applied to a high output type transistor.

In the figure, reference numeral 1 is a metal-made base substrate integrally provided with an external lead terminal 2 of a base electrode. On the upper surface of the base substrate 1, a circuit element of a transistor and an output side for the circuit element are provided. The semiconductor chip 3 having the emitter electrode terminal 3a and the collector electrode terminal 3b, which are the electrode terminals, is die-bonded so that the base electrode of the circuit element of the semiconductor chip 3 is electrically connected to the base substrate 1. ing.

On the other hand, on the left and right sides of the external lead terminal 2 of the base pole, the external lead terminals 4 of the emitter pole are provided.
And the external lead terminal 5 of the collector electrode. These lead terminals 4 and 5 are connected to the base substrate 1
Similarly to, it is made of a metal plate.

Wire bonding between the tip of the external lead terminal 4 of the emitter pole and the emitter electrode terminal 3a of the circuit element of the semiconductor chip 3 by a fine metal wire 6 made of a refractory metal such as Au, Al or Cu. While being electrically connected to the collector electrode, the tip of the external lead terminal 5 of the collector electrode and the collector electrode terminal 3b of the circuit element of the semiconductor chip 3 are connected by a solder wire 7'having a function as a temperature fuse. Make electrical connection by bonding.

In wire bonding with the solder wire 7 ', as shown in FIG. 3, first, as shown in FIG. 3, the ball portion formed at the lower end of the material solder wire 7 inserted into the vertically movable type cavity tool 21 as a bonding tool. 7
a is caused by the downward movement of the cavity rally tool 21,
As shown in FIG. 4, by pressing against the collector electrode portion 3b of the semiconductor chip 3, the ball portion 7a is crushed and deformed in the axial direction of the solder wire 7'and joined. When pressing and joining the ball portion 7a, ultrasonic vibration is applied to the cavity tool 21 to shorten the time required for joining.

At the time when the cavity tool 21 is moved straight up, as shown in FIG. 5, the raw material solder wire 7 is heated and melted by a heating and melting means such as a hydrogen gas flame ejected from a nozzle 22 as shown in FIG. Solder wire 7 '
At the same time as the fusing, the ball portions 7a and 7b are formed on both the lower end of the material solder wire 7 and the upper end of the solder wire 7 '. In this way, when the solder wire 7'is joined to the semiconductor chip 3 as shown in FIG. 6, the solder wire 7'is connected to the hole portion 7b at the upper end thereof as shown in FIG. After bending so as to contact the lead terminal 5, the ball portion 7b is moved downward with respect to the external lead terminal 5 by the downward movement of the bonding tool 23.
The ball portion 7b is crushed and deformed in a direction substantially perpendicular to the axis of the solder wire 7'to a thickness T substantially equal to the diameter D of the solder wire 7'and then deformed and pressed to join. This ball part 7
When pressing and joining b, the bonding tool 2
By applying ultrasonic vibration to 3, the time required for the joining can be shortened.

With such a joining structure of the solder wire 7'to the external lead terminal 5, it is possible to avoid the formation of a neck portion whose cross-sectional area is sharply narrowed at the joining portion of the solder wire 7'to the external lead terminal 5. Alternatively, the narrowing of the cross-sectional area can be limited to a small range.

In addition to this, when the wire bonding with the solder wire 7'is completed in this manner, an elastic resin 8'such as a silicone resin is attached to the solder wire 7 ' .
Cover the middle part of the solder wire 7'with the elastic resin 8 '.
Apply to cover .

After applying the elastic resin 8 ',
In the above, the semiconductor chip 3, the external lead terminals 4,
5 the tip, the metal thin wire 6 and the entire solder wire 7 ',
A finished product is obtained by packaging in a mold part 9 made of a thermosetting synthetic resin such as an epoxy resin.

In this structure, by applying a signal current to the external lead terminal 2 of the base pole for the semiconductor chip 3, the circuit element in the semiconductor chip 3 electrically connects the emitter pole and the collector pole on the output side. When a high current or a high voltage flows due to a short circuit or the like in a load-type electric circuit connected to the external lead terminal 4 of the emitter pole and the external lead terminal 5 of the collector pole while functioning to conduct electricity. When a large amount of power is applied to the semiconductor chip 3, the semiconductor chip 3 generates heat, and when the temperature rises, the heat causes the solder wire 7 '.
Is melted, the melting of the solder wire 7 '
The electric circuit of the load system can be brought into an electrically open state, and secondary damage to various electronic parts provided in the electric circuit of the load system can be prevented.

In this case, as in the above embodiment,
The external lead terminal 4 of the emitter pole and the emitter electrode terminal 3a of the semiconductor chip 3 are connected to each other by a thin metal wire 6 made of a refractory metal such as Au, Al or Cu, and the external lead terminal 5 of the collector pole and the collector electrode terminal of the semiconductor chip 3. Instead of wire-bonding 3b with solder wire 7 ', the external lead terminal 5 of the collector electrode and the semiconductor chip 3 are replaced.
The collector electrode terminal 3b is wire-bonded with a fine metal wire 6 made of a refractory metal such as Au, Al, or Cu, while the external lead terminal 4 of the emitter electrode and the emitter electrode terminal 3a of the semiconductor chip 3 are soldered with a solder wire 7. Alternatively, the wire bonding may be performed at ′.

Further, in the second embodiment, as shown in FIG. 9, between the external lead terminal 5 of the collector electrode and the collector electrode terminal 3b of the semiconductor chip 3, and between the external lead terminal 4 of the emitter electrode and the semiconductor. It is also possible to wire-bond both of them to the emitter electrode terminal 3a of the chip 3 with solder wires 7 ', 7 ". Also in this case, both solder wires 7', 7", 7 ″
, The elastic resin 8 such as silicone resin ', 8 ", the elastic
In the middle of solder wire 7 ', 7 "with resin 8', 8"
After coating so as to cover the parts, the whole of them is packaged in a mold part 9 made of a thermosetting synthetic resin such as an epoxy resin.

FIG. 10 shows a wire bonding method in the case of the second embodiment.

That is, the lead frame 24 integrally including the external lead terminal 2 with the base substrate and the external lead terminals 4 and 5 is first transferred in the first stage in the course of the transfer path in the longitudinal direction. The solder wires 7'and 7 "are attached to both the collector electrode terminal 3b and the emitter electrode terminal 3a of the semiconductor chip 3 in the same manner as in FIGS.
Then, in the second stage, the two solder wires 7'and 7 "are bent toward the external lead terminals 4 and 5, and then in the third stage, The ball portions 7b at the tips of the solder wires 7'and 7 "are joined to the external lead terminals 4 and 5 by the same method as in FIG.

According to this method, the operation of pressing and joining the solder wires 7 ', 7 "to the collector electrode terminal 3b and the emitter electrode terminal 3a of the semiconductor chip 3 and the tips of both solder wires 7', 7" are performed. Since the operation of pressing and joining the ball portion 7b to the external lead terminals 4 and 5 can be temporally overlapped, there is an advantage that the wire bonding speed by the solder wires 7'and 7 "can be improved. .

In addition to the above, according to the present invention, as shown in FIG. 11, a transistor array 30 formed by forming a plurality of transistor circuit elements on one semiconductor chip, or, as shown in FIG. It goes without saying that the same can be applied to the diode array 40 formed by forming a plurality of diode circuit elements on one semiconductor chip.

[Brief description of drawings]

FIG. 1 is a perspective view of a first embodiment of the present invention with a mold part removed.

FIG. 2 is a sectional view taken along line II-II of FIG.

FIG. 3 is a diagram showing a first state of wire bonding with a solder wire.

FIG. 4 is a diagram showing a second state of wire bonding with a solder wire.

FIG. 5 is a diagram showing a third state of wire bonding with a solder wire.

FIG. 6 is a diagram showing a fourth state of wire bonding with a solder wire.

FIG. 7 is a diagram showing a fifth state of wire bonding with a solder wire.

FIG. 8 is a diagram showing a sixth state of wire bonding with a solder wire.

FIG. 9 is a perspective view of the second embodiment of the present invention with the mold part removed.

FIG. 10 is a perspective view showing wire bonding with solder in the second embodiment.

FIG. 11 is an equivalent circuit diagram of a transistor array .

[Fig. 12] It is an equivalent circuit diagram of a diode array.

[Fig. 13] Wire bonding with conventional solder wire
It is a figure which shows the 1st state of.

FIG. 14 Wire bonding with conventional solder wire
It is a figure which shows the 2nd state of.

FIG. 15 Wire bonding with conventional solder wire
It is a figure which shows the 3rd state of.

[Explanation of symbols]

1 Base Substrate 2 Base Lead External Lead Terminal 3 Semiconductor Chip 3a Emitter Electrode Terminal 3b Collector Electrode Terminal 4, 5 External Lead Terminal 6 Thin Metal Wire 7 ', 7 "Solder Wire 8', 8" Elastic Resin 9 Molded Section

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Claims (2)

(57) [Claims] 1. A semiconductor chip on which a circuit element having at least two output-side electrode terminals is formed, an external lead terminal for each output-side electrode terminal of the semiconductor chip, and each output side of the circuit element of the semiconductor chip. A thin metal wire that electrically connects the electrode terminal and one end of each external lead terminal , the semiconductor chip, and the outer
Part of the lead terminal and the metal wire part
An electronic component comprising a chromatography di synthesized resin mold portion, a portion of the metal thin wires of the metal thin wire, or the whole of the thin metal wire, and the solder wire, the solder wire, at both
A bullet that forms a ball section at the end and covers the middle section
Resin is provided, and both ball portions of the solder wire are
A semiconductor device, wherein the solder wire is used as a thermal fuse for the semiconductor chip by pressing and joining the output side electrode terminal and the external lead terminal of the circuit element of the semiconductor chip. 2. A device according to claim 1, the ball portion of the semiconductor chip side, of the two ball portions, while pressing and joining in the axial direction of the solder wire to the output terminal, the ball portion of the external lead terminal side Is pressed and joined to the external lead terminal in a direction substantially perpendicular to the axis of the solder wire.