KR101095902B1 - Socket for kelvin testing - Google Patents

Abstract

The present invention relates to a Kelvin test socket for electrically connecting each of a plurality of integrated circuit leads to a Kelvin test device.
The Kelvin test socket according to the present invention includes a plurality of probes vertically arranged in a pair of pin shapes at positions corresponding to each of the lead wires, a printed circuit board formed below the probe and printed with the Kelvin test circuit, and one end of which is A plurality of clips having a horizontal portion in contact with the probe and the other end is connected to the printed circuit board and bent horizontally between one end and the other end, and a probe housing portion for receiving the probe and a clip housing portion for receiving the clip and fastening the printed circuit board And a socket housing in which the probe housing portion and the clip housing portion are detached from each other.
Kelvin test socket of the present invention has an effect that can be easily replaced when a part of the socket is damaged by a large current or the like.

Description

Kelvin Test Sockets {SOCKET FOR KELVIN TESTING}

The present invention relates to a Kelvin test socket for electrically connecting each of a plurality of integrated circuit leads to a Kelvin test device.

Among the tests of integrated circuits such as semiconductors, the Kelvin test is for precisely measuring the resistance of an integrated circuit device. In general, two contact terminals are contacted with contacts of an integrated circuit lead to adjust current and voltage. Measure the resistance of the integrated circuit device.

1 is a conceptual diagram illustrating a Kelvin test.

As shown in FIG. 1, two contact terminals are respectively contacted to different points on both pads A and Pad B of a device under test (DUT), and current and voltage are measured. The resistance of the (DUT) is measured. However, as integrated circuits are increasingly integrated, the number of leads corresponding to terminals of integrated circuits increases, and the spacing and width (pitch) between the leads are limited. Conventionally, in order to improve such a problem, each of the integrated circuit leads is electrically connected to the Kelvin test apparatus by using the Kelvin test socket as shown in FIGS. 2A and 2B.

2A and 2B are views for explaining a conventional Kelvin test socket. 2A is an exploded perspective view of a conventional Kelvin test socket, and FIG. 2B is an exploded perspective view of a conventional Kelvin test socket.

As shown in FIGS. 2A and 2B, a conventional Kelvin test socket includes a tungsten wire 210, a printed circuit board 220, and a socket housing 230.

The tungsten wire 210 has one end vertically arranged in a pin shape to form a contact portion that contacts each of the integrated circuit lead wires, and the other end forms a connection portion connected to the circuit of the printed circuit board 220. In this case, the contact portion is integrated to contact the lead wire of the integrated circuit, and the connection portion is spread to connect with the printed circuit board 220, and has a horizontal portion of different lengths to spread the connection portion.

The printed circuit board 220 is connected to the tungsten wire 210, and a Kelvin test circuit for electrically connecting it to a Kelvin test apparatus (not shown) is printed. In addition, a receptacle 221 for mounting the Kelvin test socket to the Kelvin test apparatus is formed in the printed circuit board 220.

The socket housing 230 receives the tungsten wire 210 and is fastened to the printed circuit board 220 to form a body of the Kelvin test socket.

On the other hand, when testing a power IC with a large current of 25A or more using the Kelvin test socket of FIGS. 2A and 2B, the contact portion of the tungsten wire 210 is often damaged by the large current. Done. However, in the conventional Kelvin test socket, since the tungsten wire 210 is fixed to the printed circuit board 220 integrally with the contact portion to the connection portion, there is a problem in that it cannot be replaced when the contact portion is damaged. Furthermore, since the entire Kelvin test socket must be discarded, there is a problem of resource waste and environmental damage.

The present invention has been made to solve the above problems, the present invention is to provide a Kelvin test socket that can be easily replaced when a part of the socket is damaged by a large current or the like.

The problem to be solved by the present invention is not limited to the above-mentioned problem, another problem to be solved by the present invention not mentioned here is apparent to those skilled in the art from the following description. Can be understood.

The Kelvin test socket electrically connecting each of the plurality of integrated circuit leads according to the present invention with a Kelvin test apparatus includes a plurality of probes vertically arranged in a pair of pin shapes at positions corresponding to the leads, respectively, and below the probe. A printed circuit board having a plurality of clips formed on the printed circuit board, the plurality of clips having one end contacting the probe, the other end connected to the printed circuit board, and having horizontal portions bent horizontally between one end and the other end, and a probe accommodating the probe It includes a clip housing portion for receiving the housing portion and the clip and fastened to the printed circuit board, and a socket housing for detaching the probe housing portion and the clip housing portion from each other.

The probe housing part of the present invention is characterized in that it comprises a plate-shaped probe housing main body having a probe accommodating hole at one end thereof, and a probe base cover which is fastened to the lower side of the probe accommodating hole to prevent detachment of the probe.

The clip of the present invention comprises a first clip group which is in contact with one of the pair of probes, respectively, and a second clip group which is in contact with the other, respectively, and the clip housing part accommodates the first clip group in the upper part and in the lower part. A plate-shaped clip housing body accommodating a second clip group, a first clip base cover fastened to an upper side of the clip housing body to prevent separation of the first clip group, and a second clip group fastened below the clip housing body. It characterized in that it comprises a second clip base cover to prevent the departure.

The first clip group or the second clip group of the present invention is characterized in that the protrusion portion protruding in the direction of the clip housing body from the horizontal portion is formed, the clip housing body is characterized in that the clip fixing hole is inserted into the protrusion.

Clip housing portion of the present invention is characterized in that it further comprises a guide bar and a guide block for fastening at intervals with the printed circuit board.

By the means for solving the above problems, the Kelvin test socket of the present invention has an effect that can be easily replaced when a part of the socket is damaged by a large current or the like.

In addition, the present invention has an effect that can be well protected the probe and the clip from the impact due to the solid structure of the socket housing.

1 is a conceptual diagram illustrating a Kelvin test.
Figure 2a is a perspective view of a combination of a conventional Kelvin test socket.
2B is an exploded perspective view of a conventional Kelvin test socket.
Figure 3a is a perspective view of the coupling of the Kelvin test socket according to an embodiment of the present invention.
3B is an exploded perspective view of a Kelvin test socket according to an embodiment of the present invention.
4 is a view for explaining a probe and a clip according to an embodiment of the present invention.
5A is a perspective view illustrating a state in which a plurality of probes and clips are in contact according to an embodiment of the present invention.
FIG. 5B is a side view seen from the arrow A direction of FIG. 5A.
Figures 6a and 6b is a view for explaining the parts replacement of the Kelvin test socket according to an embodiment of the present invention.

The Kelvin test socket of the present invention consists of a probe and a clip in contact with the probe instead of an integrally formed tungsten wire in order to facilitate the replacement of some components due to the damage of the integrated circuit contact. Possible probe housing and clip housing. Accordingly, when the probe is damaged, only the probe may be replaced by removing the probe housing part.

Specific matters including the problem to be solved, the solution to the problem, and the effects of the present invention as described above are included in the following embodiments and the drawings. Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. Like reference numerals refer to like elements throughout.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

3A and 3B are diagrams for explaining a Kelvin test socket according to an embodiment of the present invention. Specifically, Figure 3a is a combined perspective view of the Kelvin test socket according to an embodiment of the present invention, Figure 3b is an exploded perspective view of the Kelvin test socket according to an embodiment of the present invention.

As shown in FIGS. 3A and 3B, the Kelvin test socket according to an embodiment of the present invention electrically connects each of the integrated circuit leads to the Kelvin test apparatus, and particularly, a power integrated circuit having a large current flowing therethrough. It is comprised so that it may be suitable. The Kelvin test socket according to an embodiment of the present invention includes a probe 310, a printed circuit board 320, a clip 330, and a socket housing 340.

The probe 310 functions like a conventional tungsten wire contact, and is vertically arranged in a pair of pin shapes at positions corresponding to each integrated circuit lead. Accordingly, the lead wire of the highly integrated integrated circuit can be contacted. A more detailed description of the probe 310 will be described later with reference to FIGS. 4 to 5B.

The printed circuit board 320 is formed below the probe 310, and is a Kelvin test circuit for electrically connecting the pro 310 to a Kelvin test apparatus (not shown) in contact with each of the integrated circuit leads. Is printed. In addition, the printed circuit board 320 is formed with a receptacle 321 for mounting the Kelvin test socket according to an embodiment of the present invention to the Kelvin test apparatus. As such, the Kelvin test socket according to the embodiment of the present invention uses a probe 310 that is integrated and disposed in a small area to electrically connect each of the plurality of integrated circuit leads to the Kelvin test apparatus. By using a printed circuit board 320 in which a circuit is printed in a large area. The use of the following clip 330 as a connecting means for electrically connecting the probe 310 and the printed circuit board 320 is indispensable in one embodiment of the present invention.

The clip 330 functions as a connection portion and a horizontal portion of a conventional tungsten wire, one end is in contact with the probe 310, the other end is connected to the printed circuit board 320, and horizontally between one end and the other end It has a horizontal portion that is bent. Here, one end of the clip 330 is integrated to contact the integrated probe 310, and the other end is spread to connect with the printed circuit board 320 of a relatively large area, while the horizontal portion to spread the other end To different lengths.

In addition, the plurality of clips 330 may be divided into a first clip group 330a that is in contact with any one of the pair of probes 310, and a second clip group 330b that is in contact with the other, respectively. Each separated and received by the clip housing portion 342 of the socket housing 340. A more detailed description of the clip 330 will be described later with reference to FIGS. 4 to 5B.

The socket housing 340 accommodates the probe 310 and the clip 330 and is fastened to the printed circuit board 320 to form a body of the Kelvin test socket. The socket housing 340 according to an embodiment of the present invention, unlike the conventional housing, the probe housing portion 341 for accommodating the probe 310, the clip 330 and the printed circuit board 320 and It is divided into a clip housing portion 342 is fastened. The probe housing 341 and the clip housing 342 are detachably fastened to each other.

The probe housing part 341 according to the embodiment of the present invention includes a probe housing body 341a and a probe base cover 341b. The probe housing body 341a has a plate shape, and a probe accommodation hole 341c in a vertical direction is formed at one end thereof. The probe base cover 341b is fastened to the lower side of the probe accommodating hole 341c to prevent the probe 310 from being separated. In the manufacturing process, the probe 310 is inserted below the probe accommodation hole 341c to be accommodated in the probe housing main body 341a, and the probe base cover 341b is fastened to the bottom of the probe accommodation hole 341c. Accordingly, the probe 310 can be prevented from being separated downward. A contact hole is formed in the probe base cover 341b so that the probe 310 and the clip 330 contact each other.

The clip housing part 342 is comprised from the clip housing main body 342a, the 1st clip base cover 342b, and the 2nd clip base cover 342c. The clip housing main body 342a is formed in a plate shape to accommodate the first clip group 330a in the upper portion and the second clip group 330b in the lower portion. Thus, by isolate | separating the 1st clip group 330a and the 2nd clip group 330b, the damage by an electrical accident can be prevented beforehand. The first clip base cover 342b is fastened to the upper side of the clip housing main body 342a to prevent the first clip group 330a from being separated, and protects the first clip group 330a from the outside. The second clip base cover 342c is fastened to the lower side of the clip housing main body 342a to prevent the separation of the second clip group 330b and protects the second clip group 330b from the outside. Each of the clip housing main body 342a, the first clip base cover 342b, and the second clip base cover 342c is provided with a plurality of accommodation holes at positions where the probe 310 is accommodated.

In addition, the clip housing portion 342 according to an embodiment of the present invention is fastened at intervals with the printed circuit board 320, and the probe housing portion 341 as one embodiment to fasten so as to be removable from each other, the guide bar 342d and the guide block 342e are employed.

Each component of the socket housing 340 is formed with a screw hole for fastening, and is fastened by bolts. In addition, each component of the socket housing 340 is formed of an insulator material, preferably, a ceramic polyether ketone material having high insulation and excellent thermal resistance.

As described above, in one embodiment of the present invention, instead of the tungsten wire, the probe 310 and the clip 330 contacting the probe 310 are employed, and the socket housing 340 is detachable from each other. By configuring the clip housing part 342, when testing a power integrated circuit having a large current of 25 A or more, the probe 310 may be easily replaced even when the large current is damaged. Furthermore, by replacing only a few parts, waste of resources and environmental pollution can be reduced. In addition, the solid structure of the socket housing 340 according to an embodiment of the present invention can protect the probe 310 and the clip 330 well from the impact.

4 is a view for explaining a probe and a clip according to an embodiment of the present invention. 4 shows a pair of probes and a pair of clips in contact with the plurality of probes and clips.

As shown in FIG. 4, in the probe according to the exemplary embodiment, a pair of probes 310a and 310b are disposed to face each other, and each probe 310a and 310b is in contact with the integrated circuit lead. And a cylindrical barrel 312 coupled to the bottom of the plunger 311, an elastic spring 313 housed inside the barrel 312 to provide elastic force, and one end of the clip coupled to the bottom of the barrel 312. The contact pin 314 is in contact.

In addition, the clip is a pair of the first clip and the second clip (330a, 330b) is disposed facing each other, each clip (330a, 330b) has one end is formed vertically to contact the probe (310a, 310b) ( 331, the other end of which is vertically formed to connect to the printed circuit board 320, the horizontally bent between the contacting part 331 and the connecting part 332 and the connecting part 332 according to the length thereof. It is composed of a horizontal portion 333 that determines the position connected to the printed circuit board 320.

The first clip and the second clip 330a, 330b according to an embodiment of the present invention is formed with a protrusion 334 protruding from the horizontal portion 333 in the direction of the clip housing body 342a, the clip housing body 342a ), A clip fixing hole into which the protrusion 334 is inserted is formed (see FIG. 3B). Thereby, the clip can be fixed well so as not to leave the clip housing main body 342a.

In addition, it is preferable that the clip is formed of a beryllium copper material suitable for a large current test, having excellent electrical conductivity and relatively low heat generation.

As such, a pair of probes and a pair of clips in contact with the probe form one unit to test one integrated circuit lead.

5A and 5B illustrate a plurality of probes and clips according to an embodiment of the present invention. Specifically, FIG. 5A is a perspective view illustrating a state in which a plurality of probes and clips are in contact according to an embodiment of the present invention, and FIG. 5B is a side view of the probe A of FIG. 5A.

As shown in FIGS. 5A and 5B, a plurality of unit probes and clips described with reference to FIG. 4 are provided to substantially test a plurality of integrated circuit leads. Here, each of the probes 310 is in a one-to-one correspondence with each of the clips 330, and each of the clips 330 may be connected to various points of the printed circuit board by varying the length of the horizontal portion.

Figures 6a and 6b is a view for explaining the parts replacement of the Kelvin test socket according to an embodiment of the present invention.

When the probe 310 is damaged, the pro part 310 can be easily replaced by the detaching operation illustrated in FIGS. 6A and 6B. Specifically, as shown in FIG. 6A, first, bolts 341d for coupling the probe housing part 341 and the clip housing part 342 are removed to separate the probe housing part 341 from the clip housing part 342.

Next, as shown in FIG. 6B, the bolts 341e connecting the probe housing body 341a and the probe base cover 341b are removed to separate the probe base cover 341b from the probe housing body 341a. After replacing the probe 310 separated according to this separation operation with a new probe, a coupling operation is performed in which the above-described separation operation is reversed.

As such, the replacement of the probe can be facilitated by a simple detachment and coupling operation.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and their All changes or modifications derived from an equivalent concept should be construed as being included in the scope of the present invention.

210: Tungsten Wire
220, 320: printed circuit board
221, 321: receptacle
230, 340: Socket Housing
310, 310a, 310b: probe
311: plunger
312: Barrel
313: spring
314: contact pin
330, 330a, 330b: clip, first clip (group), second clip (group)
331: contact portion
332: connection
333 horizontal section
334 protrusions
341: probe housing portion
341a: probe housing body
341b: Probe Base Cover
341c: probe receiving hole
341d, 341e: Bolt
342: clip housing
342a: clip housing body
342b: first clip base cover
342c: second clip base cover
342d: Guide Bar
342e: guide block

Claims (5)

A Kelvin test socket electrically connecting a plurality of integrated circuit leads to a Kelvin test device,
A plurality of probes vertically arranged in a pair of pin shapes at positions corresponding to each of the lead wires;
A printed circuit board formed below the probe and printed with a Kelvin test circuit;
A plurality of clips, one end of which contacts the probe and the other end of which is connected to the printed circuit board, the plurality of clips having a horizontal portion bent horizontally between one end and the other end; And
And a probe housing part accommodating the probe, a clip housing part accommodating the clip and fastened to the printed circuit board, and a socket housing detachably attached to the probe housing part and the clip housing part.
The clip is composed of a first clip group in contact with any one of the pair of probes, respectively, and a second clip group in contact with the other,
The clip housing part may include a plate-shaped clip housing main body accommodating a first clip group at an upper portion thereof and a second clip group at a lower portion thereof, and an upper side of the clip housing main body to prevent separation of the first clip group. A first clip base cover and a second clip base cover fastened to a lower side of the clip housing main body to prevent separation of the second clip group;
The first clip group or the second clip group is a Kelvin test, characterized in that the protrusion protruding toward the clip housing main body in the horizontal portion, the clip housing body is formed with a clip fixing hole into which the protrusion is inserted Socket. The method of claim 1,
The probe housing part may include a plate-shaped probe housing main body having a probe accommodating hole at one end thereof, and a probe base cover fastened to a lower side of the probe accommodating hole to prevent detachment of the probe. delete delete A Kelvin test socket electrically connecting a plurality of integrated circuit leads to a Kelvin test device,
A plurality of probes vertically arranged in a pair of pin shapes at positions corresponding to each of the lead wires;
A printed circuit board formed below the probe and printed with a Kelvin test circuit;
A plurality of clips, one end of which contacts the probe and the other end of which is connected to the printed circuit board, the plurality of clips having a horizontal portion bent horizontally between one end and the other end; And
And a probe housing part accommodating the probe, a clip housing part accommodating the clip and fastened to the printed circuit board, and a socket housing detachably attached to the probe housing part and the clip housing part.
The clip is composed of a first clip group in contact with any one of the pair of probes, respectively, and a second clip group in contact with the other,
The clip housing part may include a plate-shaped clip housing main body accommodating a first clip group at an upper portion thereof and a second clip group at a lower portion thereof, and an upper side of the clip housing main body to prevent separation of the first clip group. A first clip base cover and a second clip base cover fastened to a lower side of the clip housing main body to prevent separation of the second clip group;
The clip housing part, the Kelvin test socket further comprises a guide bar and a guide block for fastening at intervals with the printed circuit board.

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