KR102556869B1 - Electrical connector - Google Patents

Abstract

The present invention relates to an electrical connection connector for electrically connecting a terminal of a device under test and a pad of a test apparatus to each other, and an electrical connection connector according to an embodiment of the present invention includes a plurality of lengthwise portions and a plurality of lengthwise portions in the plurality of longitudinal directions. A contact portion including a plurality of transverse connection portions connecting the plurality of longitudinal length portions by connecting an end portion of one of the length portions to an end portion of an adjacent longitudinal portion portion, and the plurality of longitudinal length portions; A plurality of connected transverse lengths and a plurality of longitudinal connectors for connecting the plurality of transverse lengths by connecting an end of any one of the plurality of transverse lengths with an end of an adjacent transverse length, respectively. It includes a plurality of conductors including an elastic part including a support body for supporting the plurality of conductors.

Description

Electrical Connection Connector {ELECTRICAL CONNECTOR}

The present invention relates to an electrical connection connector, and more particularly, to an electrical connection connector disposed between a device under test and a test apparatus to electrically connect a terminal of a device under test and a pad of the test apparatus.

In general, a device that has been manufactured is subjected to an electrical test to determine whether or not a device is defective using an inspection device. Therefore, the test apparatus frequently contacts the devices under test, and the pads of the test apparatus connected to the devices under test may be worn or damaged in proportion to the number of tests. However, the inspection device is relatively expensive equipment, and maintenance costs are considerable and replacement is not easy.

Accordingly, the test is performed after the test apparatus is indirectly connected to the device to be tested using the electrical connection connector. The electrical connection connector is mounted to the testing device to be replaceable, and the device under test contacts the electrical connection connector, not the testing device, so that the testing device and the device under test are electrically connected. That is, the test signal from the test device is transmitted to the device under test through the electrical connection connector.

In this way, the electrical connection connector is disposed between the device under test and the test device to electrically connect the terminal of the device under test and the pad of the test device to each other. protect the device.

In addition, various structures such as pogo-pins and anisotropic conductive sheets are used as electrical connection connectors. As an example of such an electrical connection connector 30, as shown in FIG. 14, a spring 32 is inserted into a housing 31 in which a plurality of through holes 39 are formed, and the device under test is operated by the spring 32. A structure in which the terminal 12 of (10) is connected to the pad 22 of the inspection apparatus 20 is also known.

However, in the conventional electrical connection connector 30, when the terminal 12 of the device under test 10 is a ball-type terminal, the spring 32 contacts the side surface of the ball-type terminal so that the contact is constant. Since it is not maintained, there is a problem that the contact resistance becomes unstable.

An embodiment of the present invention provides an electrical connection connector capable of maintaining stable contact resistance with terminals of a device under test.

According to an embodiment of the present invention, an electrical connection connector for electrically connecting a terminal of a device under test and a pad of a testing apparatus to each other has a plurality of longitudinal lengths and a longitudinal length of any one of the plurality of longitudinal lengths. A contact portion including a plurality of transverse connection portions connecting an end portion of the portion to an end of an adjacent longitudinal length portion, respectively, and a plurality of transverse length portions connected to the plurality of longitudinal length portions, and the plurality of transverse length portions connected to the plurality of longitudinal length portions. A plurality of elastic parts including elastic parts including a plurality of longitudinal connection portions connecting an end of one of the plurality of transverse lengths to an end of an adjacent transverse length, respectively, to connect the plurality of transverse lengths. A conductor and a support for supporting the plurality of conductors are included.

The contact part of the plurality of conductors may include a first contact part facing the terminal of the device under test and a second contact part facing the pad of the test apparatus. The elastic parts of the plurality of conductors may be formed between the first contact part and the second contact part.

A lateral connection part of the first contact part may contact a terminal of the device under test, and a lateral connection part of the second contact part may contact a pad of the test apparatus.

Among the plurality of horizontal connection parts of the first contact part, a horizontal connection part located at the center may have a lower height in the direction of the device to be tested than a height of the horizontal connection part located at an edge in the direction of the device to be tested.

The support body may be formed in a transverse direction to support the plurality of conductors.

In addition, a plurality of elastic parts may be provided. The electrical connection connector may further include one or more extensions interposed between the elastic parts to connect the elastic parts.

The extension part may be formed in the same pattern as the contact part.

In addition, the support may include a lateral support portion formed in a lateral direction to support the plurality of conductors, and a longitudinal support portion extending in a longitudinal direction from the lateral support portion and facing side surfaces of the plurality of conductors. there is.

The plurality of conductors may further include a shortened connection portion that crosses the plurality of transverse length portions of the elastic part and contacts the entirety of the plurality of transverse length portions to shorten a conduction path.

In addition, according to another embodiment of the present invention, an electrical connection connector for electrically connecting a terminal of a device under test and a pad of a test apparatus is connected to a coil contact portion having a central axis in a lateral direction, and connected to the coil contact portion. A plurality of conductors including a coil elastic part having an axis formed in a longitudinal direction, and a support body supporting the plurality of conductors.

The coil contact part of the plurality of conductors may include a first coil contact part facing the terminal of the device under test and a second coil contact part facing the pad of the test apparatus. The coil elastic parts of the plurality of conductors may be formed between the first coil contact part and the second coil contact part.

The first coil contact portion may have a diameter of a coil located at a center smaller than a diameter of coils located at an edge.

The support body may be formed in a transverse direction to support the plurality of conductors.

In addition, a plurality of coil elastic parts may be provided. The coil extension part may further include one or more coil extension parts interposed between the coil elastic parts and connecting the coil elastic parts.

The coil extension part may be formed in the same pattern as the coil contact part.

In addition, the support may include a lateral support portion formed in a lateral direction to support the plurality of conductors, and a longitudinal support portion extending in a longitudinal direction from the lateral support portion and facing side surfaces of the plurality of conductors. there is.

According to an embodiment of the present invention, the electrical connection connector can maintain a stable contact resistance with the terminal of the device under test.

1 is a view showing an electrical connection connector according to a first embodiment of the present invention.
FIG. 2 is an enlarged view of a conductor of the electrical connection connector of FIG. 1;
FIG. 3 is a view showing a state in which the electrical connection connector of FIG. 1 electrically connects a device under test and a test apparatus.
4 is a view showing a state in which a device under test and a test apparatus are electrically connected by an electrical connection connector according to a second embodiment of the present invention.
5 is a diagram illustrating a state in which a device under test and a test apparatus are electrically connected by an electrical connection connector according to a third embodiment of the present invention.
6 is a view showing an electrical connection connector according to a fourth embodiment of the present invention.
FIG. 7 is a view showing a state in which the electrical connection connector of FIG. 5 electrically connects a device under test and a test apparatus.
8 is a view showing an electrical connection connector according to a fifth embodiment of the present invention.
9 is an enlarged view of a conductor of the electrical connection connector of FIG. 8;
10 is a view showing a state in which the device under test and the test apparatus are electrically connected by the electrical connection connector of FIG. 8 .
11 is a diagram illustrating a state in which a device under test and a test apparatus are electrically connected by an electrical connection connector according to a sixth embodiment of the present invention.
12 is a view showing an electrical connection connector according to a seventh embodiment of the present invention.
13 is a view showing a state in which the device under test and the test apparatus are electrically connected by the electrical connection connector of FIG. 12 .
14 is a view showing an electrical connection connector according to the prior art.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. This invention may be embodied in many different forms and is not limited to the embodiments set forth herein.

In addition, in various embodiments, components having the same configuration are typically described in the first embodiment using the same reference numerals, and in other embodiments, only configurations different from those of the first embodiment will be described. .

It is advised that the drawings are schematic and not drawn to scale. Relative dimensions and proportions of parts in the drawings are shown exaggerated or reduced in size for clarity and convenience in the drawings, and any dimensions are illustrative only and not limiting. And like structures, elements or parts appearing in two or more drawings, like reference numerals are used to indicate like features.

The embodiments of the present invention specifically represent ideal embodiments of the present invention. As a result, various variations of the diagram are expected. Therefore, the embodiment is not limited to the specific shape of the illustrated area, and includes, for example, modification of the shape by manufacturing.

In addition, all technical terms and scientific terms used in this specification have meanings commonly understood by those of ordinary skill in the art to which the present invention belongs, unless otherwise defined. All terms used herein are selected for the purpose of more clearly describing the present invention and are not selected to limit the scope of rights according to the present invention.

In addition, expressions such as 'comprising', 'including', 'having', etc. used in this specification imply the possibility of including other embodiments, unless otherwise stated in the phrase or sentence in which the expression is included. It should be understood in open-ended terms.

In addition, singular expressions described in this specification may include plural meanings unless otherwise stated, and this applies to singular expressions described in the claims as well.

In addition, expressions such as 'first' and 'second' used in this specification are used to distinguish a plurality of components from each other, and do not limit the order or importance of the components.

Hereinafter, the electrical connection connector 101 according to the first embodiment of the present invention will be described with reference to FIGS. 1 to 3 . In the electrical connection connector 101 according to the first embodiment of the present invention, the terminal 12 of the device under test 10 and the pad ( 22) can be used to electrically connect them to each other.

For example, the electrical connection connector 101 may be used for a final electrical inspection of the semiconductor device in a later process during the manufacturing process of the semiconductor device, but the electrical connection connector 101 according to the first embodiment of the present invention is applied. Examples are not limited to this.

In addition, the electrical connection connector 101 according to the first embodiment of the present invention may be removably mounted on the testing device 20 . The electrical connection connector 101 aligns the device under test 10 carried to the testing device 20 manually or by a conveying device on the testing device 20, and when testing the device under test 10, The electrical connection connector 101 contacts the test apparatus 20 and the device under test 10 in a vertical direction, and can electrically connect the test apparatus 20 and the device under test 10 to each other.

Hereinafter, in the present specification, “vertical direction” means a direction in which the device under test 10 and the test apparatus 20 face each other. In addition, the direction indicator of "up and down direction" includes an upward direction and a downward direction, but does not mean a specific one of the upward direction and the downward direction.

FIG. 1 shows an electrical connection connector 101 according to a first embodiment of the present invention, and FIG. 2 shows a conductor 300 used in the electrical connection connector 101 . And Figure 3 shows an example where the electrical connection connector 101 is applied. 3 schematically shows the electrical connection connector 101 and the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 101, and the shapes shown in FIG. It is just one example selected for

The device under test 10 may be, for example, a semiconductor device in which an integrated circuit (IC) chip and a plurality of terminals are packaged in a hexahedral shape using a resin material. In addition, the device under test 10 has a plurality of terminals 12 on its lower side, and the terminals 12 of the device under test 10 may be ball-type terminals.

The inspection apparatus 20 may inspect various operating characteristics of the device under test 10 . The testing apparatus 20 may have a board on which testing is performed, and a testing circuit for testing the device 10 to be tested may be provided on the board. In addition, the test apparatus 20 may have a plurality of terminals 22 electrically connected to the terminals 12 of the device under test 10 through the electrical connection connector 101 . The pad 22 of the test device 20 can transmit an electrical test signal and receive a response signal.

The electrical connection connector 101 may be arranged to contact the pad 22 of the test device 20 . When testing the device under test 10, the electrical connection connector 101 electrically connects the terminal 12 of the device under test 10 and the corresponding pad 22 of the test device 20 in the vertical direction. connected, and the inspection of the device under test 10 is performed by the inspection apparatus 20 through the electrical connection connector 101 .

Also, at least a part of the electrical connection connector 101 may be made of an elastic body. For the inspection of the device under test 10, pressure may be applied to the electrical connection connector 101 downward in the vertical direction by a mechanical device or manually. And, by the applied pressure, the terminal 12 of the device under test 10 and the electrical connection connector 101 may come into contact in the vertical direction, and the electrical connection connector 101 and the pad 22 of the test apparatus 20 ) can be contacted in the vertical direction. And when the applied pressure is removed, the electrical connection connector 101 can be restored to its original shape.

Specifically, the electrical connection connector 101 according to the first embodiment of the present invention includes a plurality of conductors 300 and a support body 500 .

The conductor 300 may include a contact portion 310 and an elastic portion 330 .

The contact portion 310 includes a plurality of longitudinal length portions 316 and an end of the longitudinal length portion 316 adjacent to an end of any one of the plurality of longitudinal length portions 316 . It may include a plurality of transverse connection parts 317 connecting each of the plurality of longitudinal length parts 316 to each other.

Specifically, the transverse connection portion 317 connects one end of the longitudinal length portion 316 with one end of the longitudinal length portion 316 adjacent in one direction, and the other end of the longitudinal length portion 316 Can be connected to the other end of the adjacent longitudinal length portion 316 in the other direction. That is, the plurality of transverse connection parts 317 may connect the plurality of longitudinal length parts 316 in a zigzag pattern.

In addition, the contact portion 310 contacts the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the contact part 310 includes a first contact part 311 facing the terminal 12 of the device under test 10 and a second contact part 312 facing the pad 22 of the test apparatus 20. can include That is, the lateral connection part 317 of the first contact part 311 is in contact with the terminal 12 of the device under test 10, and the lateral connection part 317 of the second contact part 312 is the test apparatus 20. It may be in contact with the pad 22 of the

In addition, both the horizontal connecting portion 317 of the first contact portion 311 and the horizontal connecting portion 317 of the second contact portion 312 may be formed in a curved shape. Therefore, the lateral connecting portion 317 of the first contact portion 311 is in stable contact with the protruding end of the terminal 12 rather than the side surface of the terminal 12 of the device under test 10 formed in a ball type. In addition, contact resistance can be stably maintained by being contacted with a constant contact area.

The elastic part 330 includes a plurality of transverse lengths 318 connected to the plurality of longitudinal lengths 316 of the contact part 310 and a transverse length of any one of the plurality of transverse lengths 318. It may include a plurality of longitudinal connecting portions 319 connecting the plurality of transverse lengths 318 by respectively connecting the ends of the 318 to the ends of the adjacent transverse lengths 318 .

Specifically, the longitudinal connection portion 319 connects one end of the transverse length portion 318 to one end of the adjacent transverse length portion 318 in one direction, and the other end of the transverse length portion 318 Can be connected to the other end of the adjacent transverse length 318 in the other direction. That is, the plurality of longitudinal connection parts 319 may connect the plurality of transverse length parts 318 in a zigzag pattern.

In addition, the elastic part 330 is formed between the first contact part 311 and the second contact part 312 and electrically connects the first contact part 311 and the second contact part 312 and has elastic force on the conductor 300. can provide. That is, the elastic part 330 may provide tension to the conductor 300 by performing a role like a spring.

As described above, in the first embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but by processing the shape of one part to secure both stable contact and elasticity, the overall configuration of the electrical connection connector 101 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, the support 500 may be formed to have a length in the transverse direction to support the plurality of conductors 300 , respectively. Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 101 according to the first embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device under test 10 .

In particular, in the electrical connection connector 101 according to the first embodiment of the present invention, the conductor 300 electrically connecting the terminal 12 of the device under test 10 and the pad of the test apparatus 20 is It is divided into a contact portion 310 and an elastic portion 330 and is formed in a ball type and maintains a stable contact resistance with the terminal 12 of the device under test 10. It is possible to effectively maintain a constant tension between the pads 22 of the inspection device 20 .

Hereinafter, a second embodiment of the present invention will be described with reference to FIG. 4 . 4 shows a state in which the device under test 10 and the test apparatus 20 are electrically connected by the electrical connection connector 102 according to the second embodiment of the present invention. 4 schematically shows the electrical connection connector 102, the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 102, and the shapes shown in FIG. It is just one example selected for

An electrical connection connector 102 according to a second embodiment of the present invention includes a plurality of conductors 300 and a support body 500 .

The conductor 300 may include a contact portion 310 , an elastic portion 330 , and a short connection portion 370 .

The contact portion 310 includes a plurality of longitudinal length portions 316 and an end of the longitudinal length portion 316 adjacent to an end of any one of the plurality of longitudinal length portions 316 . It may include a plurality of transverse connection parts 317 connecting each of the plurality of longitudinal length parts 316 to each other.

Specifically, the transverse connection portion 317 connects one end of the longitudinal length portion 316 with one end of the longitudinal length portion 316 adjacent in one direction, and the other end of the longitudinal length portion 316 Can be connected to the other end of the adjacent longitudinal length portion 316 in the other direction. That is, the plurality of transverse connection parts 317 may connect the plurality of longitudinal length parts 316 in a zigzag pattern.

In addition, the contact portion 310 contacts the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the contact part 310 includes a first contact part 311 facing the terminal 12 of the device under test 10 and a second contact part 312 facing the pad 22 of the test apparatus 20. can include That is, the lateral connection part 317 of the first contact part 311 is in contact with the terminal 12 of the device under test 10, and the lateral connection part 317 of the second contact part 312 is the test apparatus 20. It may be in contact with the pad 22 of the

In addition, both the horizontal connecting portion 317 of the first contact portion 311 and the horizontal connecting portion 317 of the second contact portion 312 may be formed in a curved shape. Therefore, the lateral connecting portion 317 of the first contact portion 311 is in stable contact with the protruding end of the terminal 12 rather than the side surface of the terminal 12 of the device under test 10 formed in a ball type. In addition, contact resistance can be stably maintained by being contacted with a constant contact area.

The elastic part 330 includes a plurality of transverse lengths 318 connected to the plurality of longitudinal lengths 316 of the contact part 310 and a transverse length of any one of the plurality of transverse lengths 318. It may include a plurality of longitudinal connecting portions 319 connecting the plurality of transverse lengths 318 by respectively connecting the ends of the 318 to the ends of the adjacent transverse lengths 318 .

Specifically, the longitudinal connection portion 319 connects one end of the transverse length portion 318 to one end of the adjacent transverse length portion 318 in one direction, and the other end of the transverse length portion 318 Can be connected to the other end of the adjacent transverse length 318 in the other direction. That is, the plurality of longitudinal connection parts 319 may connect the plurality of transverse length parts 318 in a zigzag pattern.

In addition, the elastic part 330 is formed between the first contact part 311 and the second contact part 312 and electrically connects the first contact part 311 and the second contact part 312 and has elastic force on the conductor 300. can provide. That is, the elastic part 330 may provide tension to the conductor 300 by performing a role like a spring.

The short connecting portion 370 may cross the plurality of transverse length portions 318 of the elastic portion 330 and contact the entirety of the plurality of transverse length portions 318 to shorten the conduction path. The longitudinal connection portion 319 of the elastic portion 330 connects one end of the plurality of transverse length portions 318 to the other adjacent end, but the short-axis connection portion 370 is the transverse length of the elastic portion 330. The contact is made while traversing the entire direction length portion 318 at once. Accordingly, the electrical resistance of the conductor 300 can be reduced by shortening the conduction path between the first contact portion 311 and the second contact portion 312 .

As described above, in the second embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but by processing the shape of one part to secure both stable contact and elasticity, the overall configuration of the electrical connection connector 102 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, the support 500 may be formed to have a length in the transverse direction to support the plurality of conductors 300 , respectively. Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 102 according to the second embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device under test 10 .

In particular, the electrical connection connector 102 according to the second embodiment of the present invention shortens the conduction path between the first contact portion 311 and the second contact portion 312 through the shortened connection portion 370 so that the conductor 300 ) to reduce the electrical resistance.

Hereinafter, a third embodiment of the present invention will be described with reference to FIG. 5 . 5 shows a state in which the device under test 10 and the test apparatus 20 are electrically connected by the electrical connection connector 103 according to the third embodiment of the present invention. 5 schematically shows the electrical connection connector 103, the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 103, and the shapes shown in FIG. It is just one example selected for

An electrical connection connector (103) according to a third embodiment of the present invention includes a plurality of conductors (300) and a support body (500).

The conductor 300 may include a contact portion 310 and an elastic portion 330 .

The contact portion 310 includes a plurality of longitudinal length portions 316 and an end of the longitudinal length portion 316 adjacent to an end of any one of the plurality of longitudinal length portions 316 . It may include a plurality of transverse connection parts 317 connecting each of the plurality of longitudinal length parts 316 to each other.

Specifically, the transverse connection portion 317 connects one end of the longitudinal length portion 316 with one end of the longitudinal length portion 316 adjacent in one direction, and the other end of the longitudinal length portion 316 Can be connected to the other end of the adjacent longitudinal length portion 316 in the other direction. That is, the plurality of transverse connection parts 317 may connect the plurality of longitudinal length parts 316 in a zigzag pattern.

In addition, the contact portion 310 contacts the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the contact part 310 includes a first contact part 311 facing the terminal 12 of the device under test 10 and a second contact part 312 facing the pad 22 of the test apparatus 20. can include That is, the lateral connection part 317 of the first contact part 311 is in contact with the terminal 12 of the device under test 10, and the lateral connection part 317 of the second contact part 312 is the test apparatus 20. It may be in contact with the pad 22 of the

In addition, both the horizontal connecting portion 317 of the first contact portion 311 and the horizontal connecting portion 317 of the second contact portion 312 may be formed in a curved shape. Therefore, the lateral connecting portion 317 of the first contact portion 311 is in stable contact with the protruding end of the terminal 12 rather than the side surface of the terminal 12 of the device under test 10 formed in a ball type. In addition, contact resistance can be stably maintained by being contacted with a constant contact area.

In particular, in the third embodiment of the present invention, the height of the horizontal connection part 317a located in the center among the plurality of horizontal connection parts 317 of the first contact part 311 in the direction of the device under test 10 is the horizontal height located at the edge. It may be formed lower than the height of the direction connecting portion 317b in the direction of the device to be tested 10 by a preset height h. Here, the preset height h may be variously set according to the shape of the ball type terminal 12 .

Accordingly, as shown in FIG. 5 , the horizontal connecting portion 317 of the first contact portion 311 may more stably contact the terminal 12 of the device under test 10 formed in a ball type. In addition, the contact area is also increased, and the contact resistance can be reduced.

The elastic part 330 includes a plurality of transverse lengths 318 connected to the plurality of longitudinal lengths 316 of the contact part 310 and a transverse length of any one of the plurality of transverse lengths 318. It may include a plurality of longitudinal connecting portions 319 connecting the plurality of transverse lengths 318 by respectively connecting the ends of the 318 to the ends of the adjacent transverse lengths 318 .

Specifically, the longitudinal connection portion 319 connects one end of the transverse length portion 318 to one end of the adjacent transverse length portion 318 in one direction, and the other end of the transverse length portion 318 Can be connected to the other end of the adjacent transverse length 318 in the other direction. That is, the plurality of longitudinal connection parts 319 may connect the plurality of transverse length parts 318 in a zigzag pattern.

In addition, the elastic part 330 is formed between the first contact part 311 and the second contact part 312 and electrically connects the first contact part 311 and the second contact part 312 and has elastic force on the conductor 300. can provide. That is, the elastic part 330 may provide tension to the conductor 300 by performing a role like a spring.

As such, in the third embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but the shape of one part is processed to secure both stable contact and elasticity, so the overall configuration of the electrical connection connector 103 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, the support 500 may be formed to have a length in the transverse direction to support the plurality of conductors 300 , respectively. Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 103 according to the third embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device under test 10 .

In particular, in the electrical connection connector 103 according to the third embodiment of the present invention, the conductor 300 electrically connecting the terminal 12 of the device under test 10 and the pad of the test apparatus 20 is It is divided into a contact portion 310 and an elastic portion 330 and is formed in a ball type and maintains a stable contact resistance with the terminal 12 of the device under test 10. Not only can a constant tension be effectively maintained between the pads 22 of the test device 20, but also the contact portion 310 is more stable with the terminal 12 of the device under test 10 formed in a ball type. , and the contact area is increased, so that the contact resistance can be reduced.

Meanwhile, it goes without saying that the characteristics of the second embodiment can also be applied to the third embodiment of the present invention.

Hereinafter, a fourth embodiment of the present invention will be described with reference to FIGS. 6 and 7 .

6 shows an electrical connection connector 104 according to a fourth embodiment of the present invention, and FIG. 7 shows an electrical connection connector 104 according to a fourth embodiment of the present invention between a device under test 10 and a test apparatus ( 20) is electrically connected. 7 schematically shows the electrical connection connector 104 and the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 104, and the shapes shown in FIG. It is just one example selected for

An electrical connection connector (104) according to a fourth embodiment of the present invention includes a plurality of conductors (300) and a support body (500).

The conductor 300 may include a contact portion 310 , an elastic portion 330 , and an extension portion 340 .

The contact portion 310 includes a plurality of longitudinal length portions 316 and an end of the longitudinal length portion 316 adjacent to an end of any one of the plurality of longitudinal length portions 316 . It may include a plurality of transverse connection parts 317 connecting each of the plurality of longitudinal length parts 316 to each other.

Specifically, the transverse connection portion 317 connects one end of the longitudinal length portion 316 with one end of the longitudinal length portion 316 adjacent in one direction, and the other end of the longitudinal length portion 316 Can be connected to the other end of the adjacent longitudinal length portion 316 in the other direction. That is, the plurality of transverse connection parts 317 may connect the plurality of longitudinal length parts 316 in a zigzag pattern.

In addition, the contact portion 310 contacts the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the contact part 310 includes a first contact part 311 facing the terminal 12 of the device under test 10 and a second contact part 312 facing the pad 22 of the test apparatus 20. can include That is, the lateral connection part 317 of the first contact part 311 is in contact with the terminal 12 of the device under test 10, and the lateral connection part 317 of the second contact part 312 is the test apparatus 20. It may be in contact with the pad 22 of the

In addition, both the horizontal connecting portion 317 of the first contact portion 311 and the horizontal connecting portion 317 of the second contact portion 312 may be formed in a curved shape. Therefore, the lateral connecting portion 317 of the first contact portion 311 is in stable contact with the protruding end of the terminal 12 rather than the side surface of the terminal 12 of the device under test 10 formed in a ball type. In addition, contact resistance can be stably maintained by being contacted with a constant contact area.

The elastic part 330 includes a plurality of transverse lengths 318 connected to the plurality of longitudinal lengths 316 of the contact part 310 and a transverse length of any one of the plurality of transverse lengths 318. It may include a plurality of longitudinal connecting portions 319 connecting the plurality of transverse lengths 318 by respectively connecting the ends of the 318 to the ends of the adjacent transverse lengths 318 .

Specifically, the longitudinal connection portion 319 connects one end of the transverse length portion 318 with one end of the adjacent transverse length portion 318 in one direction, and the other end of the transverse length portion 318 Can be connected to the other end of the adjacent transverse length 318 in the other direction. That is, the plurality of longitudinal connection parts 319 may connect the plurality of transverse length parts 318 in a zigzag pattern.

In addition, the elastic part 330 is formed between the first contact part 311 and the second contact part 312 and electrically connects the first contact part 311 and the second contact part 312 and has elastic force on the conductor 300. can provide. That is, the elastic part 330 may provide tension to the conductor 300 by performing a role like a spring.

In particular, in the fourth embodiment of the present invention, a plurality of elastic parts 330 may be provided. In addition, one or more extension parts 340 may be interposed between the elastic parts 330 to connect the elastic parts 330 . In this case, the extension part 340 may be formed in the same pattern as the contact part 310 .

As described above, in the fourth embodiment of the present invention, a high stroke can be implemented by using two or more elastic parts 330 and one or more extension parts 340 . Here, the stroke refers to the length of the conductor 300 and the release of pressure on the electrical connection connector 104 in a state where the device under test 10 presses the electrical connection connector 104 for connection with the testing device 20. represents the difference between the lengths of the conductors 300 in the That is, the stroke is the length of the conductor 300 in a state where the device under test 10 is not pressurized and the device under test 10 pressurizes the conductor 300 so that current flows to an extent that allows testing. It may mean a difference between the lengths of the conductors 300 in the state. And this stroke can be adjusted by the number of elastic parts 330 and extension parts 340 of the conductor 300 .

Meanwhile, pressurization of the device to be tested 10 may be performed by a mechanical device or manually. As the terminal 12 of the device under test 10 presses the upper end of the conductor 300 of the electrical connection connector 104 downward by the pressure applied in this way, the conductor 300 moves the device under test ( The terminal 12 of 10 and the pad 22 of the test device 20 are connected to each other.

As described above, in the fourth embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but by processing the shape of one part to secure both stable contact and elasticity, the overall configuration of the electrical connection connector 104 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, in the fourth embodiment of the present invention, the support 500 may include a lateral support 510 and a longitudinal support 520 .

The lateral supporting portion 510 is formed in a lateral direction to support a plurality of conductors 300 .

The longitudinal support portion 520 extends in the longitudinal direction from the transverse support portion 510 and is formed to face the side surfaces of the plurality of conductors. In the fourth embodiment of the present invention, since the conductor 300 includes two or more elastic parts 330 and one or more extension parts 340, the length of the conductor 300 becomes relatively long. Accordingly, the longitudinal support portion 520 of the support body 500 plays a role in holding the elongated conductor 300 so that it does not depart from its original position or bend.

Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 104 according to the fourth embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device under test 10 .

In particular, in the electrical connection connector 104 according to the fourth embodiment of the present invention, the conductor 300 electrically connecting the terminal 12 of the device under test 10 and the pad of the test apparatus 20 is It is divided into a contact portion 310 and an elastic portion 330 and is formed in a ball type and maintains a stable contact resistance with the terminal 12 of the device under test 10. A constant tension can be effectively maintained between the pads 22 of the inspection device 20, and a high stroke can be implemented.

Meanwhile, it goes without saying that the features of the second and third embodiments can be applied to the fourth embodiment of the present invention as well.

Hereinafter, a fifth embodiment of the present invention will be described with reference to FIGS. 8 to 10 .

8 shows an electrical connection connector 105 according to a fifth embodiment of the present invention, and FIG. 9 shows a conductor used in the electrical connection connector 105 of FIG. And FIG. 10 shows an example in which the electrical connection connector 105 is applied. 10 schematically shows the electrical connection connector 105 and the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 105, and the shapes shown in FIG. It is just one example selected for

An electrical connection connector (105) according to a fifth embodiment of the present invention includes a plurality of conductors (300) and a support body (500).

The conductor 300 may include a coil contact portion 360 and a coil elastic portion 380 .

A central axis of the coil contact portion 360 may be formed in a transverse direction. That is, the coil contact portion 360 may be formed in a form in which a coil is wound around a central axis in a transverse direction. Accordingly, the side surface of the coil contact portion 360 comes into contact with the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the coil contact portion 360 includes a first coil contact portion 361 facing the terminal 12 of the device under test 10 and a second coil contact portion facing the pad 22 of the test apparatus 20 ( 362) may be included.

The coil elastic part 380 is connected to the coil contact part 360 and a central axis may be formed in a longitudinal direction. That is, the coil elastic part 380 may be formed in a form in which a coil is wound around a central axis in a longitudinal direction. Further, the coil elastic part 380 is formed between the first coil contact part 361 and the second coil contact part 362 to electrically connect the first coil contact part 361 and the second coil contact part 362 to a conductor ( 300) can provide elasticity. That is, the coil elastic part 380 may function as a spring to provide tension to the conductor 300 .

As such, in the fifth embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but by processing the shape of one part to secure both stable contact and elasticity, the overall configuration of the electrical connection connector 105 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, the support 500 may be formed to have a length in the transverse direction to support the plurality of conductors 300 , respectively. Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 105 according to the fifth embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device under test 10 .

In particular, in the electrical connection connector 105 according to the fifth embodiment of the present invention, the conductor 300 electrically connecting the terminal 12 of the device under test 10 and the pad of the test apparatus 20 is The terminal 12 of the device under test 10 while maintaining stable contact resistance with the terminal 12 of the device under test 10 formed in a ball type by being divided into a coil contact portion 360 and a coil elastic portion 380. ) and the pad 22 of the inspection device 20, it is possible to effectively maintain a constant tension.

Hereinafter, a sixth embodiment of the present invention will be described with reference to FIG. 11 . 11 shows a state in which the device under test 10 and the test apparatus 20 are electrically connected by the electrical connection connector 106 according to the sixth embodiment of the present invention. 11 schematically shows the electrical connection connector 106, the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 106, and the shapes shown in FIG. It is just one example selected for

An electrical connection connector (106) according to a sixth embodiment of the present invention includes a plurality of conductors (300) and a support body (500).

The conductor 300 may include a coil contact portion 360 and a coil elastic portion 380 .

A central axis of the coil contact portion 360 may be formed in a transverse direction. That is, the coil contact portion 360 may be formed in a form in which a coil is wound around a central axis in a transverse direction. Accordingly, the side surface of the coil contact portion 360 comes into contact with the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the coil contact portion 360 includes a first coil contact portion 361 facing the terminal 12 of the device under test 10 and a second coil contact portion facing the pad 22 of the test apparatus 20 ( 362) may be included.

In particular, in the sixth embodiment of the present invention, in the first coil contact portion 361, the diameter of the coil 361a located at the center may be smaller than the diameter of the coil 361b located at the edge by a preset height h. there is. Here, the preset height h may be variously set according to the shape of the ball type terminal 12 .

Accordingly, as shown in FIG. 11 , the first coil contact portion 361 not only can more stably contact the terminal 12 of the device under test 10 formed in a ball type, but also increases the contact area. Contact resistance can be reduced.

The coil elastic part 380 is connected to the coil contact part 360 and a central axis may be formed in a longitudinal direction. That is, the coil elastic part 380 may be formed in a form in which a coil is wound around a central axis in a longitudinal direction. Further, the coil elastic part 380 is formed between the first coil contact part 361 and the second coil contact part 362 to electrically connect the first coil contact part 361 and the second coil contact part 362 to a conductor ( 300) can provide elasticity. That is, the coil elastic part 380 may function as a spring to provide tension to the conductor 300 .

As such, in the sixth embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but the shape of one part is processed to secure both stable contact and elastic force, so the overall configuration of the electrical connection connector 106 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, the support 500 may be formed to have a length in the transverse direction to support the plurality of conductors 300 , respectively. Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 106 according to the sixth embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device under test 10 .

In particular, in the electrical connection connector 10 according to the sixth embodiment of the present invention, the conductor 300 electrically connecting the terminal 12 of the device under test 10 and the pad of the test apparatus 20 is The terminal 12 of the device under test 10 while maintaining stable contact resistance with the terminal 12 of the device under test 10 formed in a ball type by being divided into a coil contact portion 360 and a coil elastic portion 380. ) and the pad 22 of the test device 20, not only can effectively maintain a constant tension, but also the terminal 12 of the device under test 10 in which the coil contact portion 360 is formed in a ball type. It is more stably contacted and the contact area is increased, so that the contact resistance can be reduced.

Hereinafter, a seventh embodiment of the present invention will be described with reference to FIGS. 12 and 13 .

12 shows an electrical connection connector 107 according to a seventh embodiment of the present invention, and FIG. 13 shows an electrical connection connector 107 according to a seventh embodiment of the present invention between a device under test 10 and a testing device ( 20) is electrically connected. 13 schematically shows the electrical connection connector 107 and the device under test 10 and the inspection apparatus 20 contacting the electrical connection connector 107, and the shapes shown in FIG. It is just one example selected for

An electrical connection connector 107 according to a seventh embodiment of the present invention includes a plurality of conductors 300 and a support body 500 .

The conductor 300 may include a coil contact portion 360 , a coil elastic portion 380 , and a coil extension portion 390 .

A central axis of the coil contact portion 360 may be formed in a transverse direction. That is, the coil contact portion 360 may be formed in a form in which a coil is wound around a central axis in a transverse direction. Accordingly, the side surface of the coil contact portion 360 comes into contact with the terminal 12 of the device under test 10 or the pad 22 of the test apparatus 20 , respectively. Specifically, the coil contact portion 360 includes a first coil contact portion 361 facing the terminal 12 of the device under test 10 and a second coil contact portion facing the pad 22 of the test apparatus 20 ( 362) may be included.

The coil elastic part 380 is connected to the coil contact part 360 and a central axis may be formed in a longitudinal direction. That is, the coil elastic part 380 may be formed in a form in which a coil is wound around a central axis in a longitudinal direction. In addition, the coil elastic part 380 is formed between the first coil contact part 361 and the second coil contact part 362 to electrically connect the first coil contact part 361 and the second coil contact part 362 to a conductor ( 300) can provide elasticity. That is, the coil elastic part 380 may function as a spring to provide tension to the conductor 300 .

In particular, in the seventh embodiment of the present invention, a plurality of coil elastic parts 380 may be provided. In addition, one or more coil extension parts 390 may be interposed between the coil elastic parts 380 to connect the coil elastic parts 380 to each other. In this case, the coil extension part 390 may be formed in the same pattern as the coil contact part 360 .

As described above, in the seventh embodiment of the present invention, a high stroke can be implemented by using two or more coil elastic parts 380 and one or more coil extension parts 390 . Here, the stroke refers to the length of the conductor 300 and the release of pressure on the electrical connection connector 107 in a state where the device under test 10 presses the electrical connection connector 107 for connection with the testing device 20. represents the difference between the lengths of the conductors 300 in the That is, the stroke is the length of the conductor 300 in a state where the device under test 10 is not pressurized and the device under test 10 pressurizes the conductor 300 so that current flows to an extent that allows testing. It may mean a difference between the lengths of the conductors 300 in the state. And, this stroke can be adjusted by the number of coil elastic parts 380 and coil extension parts 390 of the conductor 300 .

Meanwhile, pressurization of the device to be tested 10 may be performed by a mechanical device or manually. As the terminal 12 of the device under test 10 presses the upper end of the conductor 300 of the electrical connection connector 107 downward by the pressure applied in this way, the conductor 300 moves the device under test ( The terminal 12 of 10 and the pad 22 of the test device 20 are connected to each other.

As described above, in the seventh embodiment of the present invention, the conductor 300 is not composed of a combination of several parts, but the shape of one part is processed to secure both stable contact and elasticity, so the overall configuration of the electrical connection connector 107 can be simplified.

In addition, the conductor 300 has excellent electrical conductivity in order to electrically connect the pad 22 of the test device 20 and the terminal 12 of the device 10 under test. In order to maintain tension between the pad 22 and the terminal 12 of the device under test 10, it may be made of a material having excellent elastic restoring force.

The support 500 supports the plurality of conductors 300 . Specifically, in the seventh embodiment of the present invention, the support 500 may include a lateral support 510 and a longitudinal support 520 .

The lateral supporting portion 510 is formed in a lateral direction to support a plurality of conductors 300 .

The longitudinal support portion 520 extends in the longitudinal direction from the transverse support portion 510 and is formed to face the side surfaces of the plurality of conductors. In the third embodiment of the present invention, since the conductor 300 includes two or more coil elastic parts 360 and one or more coil extension parts 390, the length of the conductor 300 becomes relatively long. . Accordingly, the longitudinal support portion 520 of the support body 500 plays a role in holding the elongated conductor 300 so that it does not depart from its original position or bend.

Also, the support 500 may support the plurality of conductors 300 so that the plurality of conductors 300 are electrically insulated from each other. That is, the support 500 may be made of a material having insulating properties.

With this configuration, the electrical connection connector 107 according to the seventh embodiment of the present invention can maintain stable contact resistance with the terminal 12 of the device 10 under test.

In particular, in the electrical connection connector 107 according to the seventh embodiment of the present invention, the conductor 300 electrically connecting the terminal 12 of the device under test 10 and the pad of the test apparatus 20 is It is divided into a contact portion 310 and an elastic portion 330 and is formed in a ball type and maintains a stable contact resistance with the terminal 12 of the device under test 10. A constant tension can be effectively maintained between the pads 22 of the inspection device 20, and a high stroke can be implemented.

Meanwhile, it goes without saying that the characteristics of the sixth embodiment can also be applied to the seventh embodiment of the present invention.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. will be.

Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting, and the scope of the present invention is indicated by the following detailed description of the claims, the meaning and scope of the claims, and All changes or modified forms derived from the equivalent concept should be construed as being included in the scope of the present invention.

10: device under test 12: terminal
20: inspection device 22: pad
101, 102, 103, 104, 105, 106, 107: electrical connection connectors
300: elastic body 310: contact
311: first contact portion 312: second contact portion
330: elastic part 340: extension part
360: coil contact portion 361: first coil contact portion
362: second coil contact part 370: short connection part
380: coil elastic part 390: coil extension part
500: support 510: first support
520: second support

Claims (16)

An electrical connection connector for electrically connecting a terminal of a device under test and a pad of a test device to each other,
A plurality of longitudinal lengths and a plurality of transverse connecting portions connecting the plurality of longitudinal lengths by connecting an end of one of the plurality of longitudinal lengths with an end of an adjacent longitudinal length, respectively. A contact portion comprising a contact portion, a plurality of transverse lengths connected to the plurality of longitudinal lengths, and an end of any one transverse length of the plurality of transverse lengths connected to an end of the adjacent transverse length, respectively. a plurality of conductors including elastic portions including a plurality of longitudinal connecting portions connecting the plurality of transverse length portions; and
A support that supports the plurality of conductors
including,
The contact portion of the plurality of conductors,
a first contact portion facing the terminal of the device under test;
A second contact portion facing the pad of the inspection device
Including,
The elastic parts of the plurality of conductors are formed between the first contact part and the second contact part,
The lateral connection part of the first contact part is in contact with the terminal of the device under test, and the lateral connection part of the second contact part is in contact with the pad of the test device;
The electrical connection connector of claim 1 , wherein a height of a horizontal connection portion located at the center of the plurality of horizontal connection portions of the first contact portion in the device-to-be-tested direction is lower than a height of the horizontal connection portion located at an edge in the direction of the device-to-be-tested. delete delete delete According to claim 1,
The electrical connection connector of claim 1 , wherein the support body is formed in a transverse direction to support the plurality of conductors. According to claim 1,
The elastic part is provided in plurality,
The electrical connection connector further comprises one or more extensions interposed between the elastic parts and connecting the elastic parts. An electrical connection connector for electrically connecting a terminal of a device under test and a pad of a test device to each other,
A plurality of longitudinal lengths and a plurality of transverse connecting portions connecting the plurality of longitudinal lengths by connecting an end of one of the plurality of longitudinal lengths with an end of an adjacent longitudinal length, respectively. A contact portion comprising a contact portion, a plurality of transverse lengths connected to the plurality of longitudinal lengths, and an end of any one transverse length of the plurality of transverse lengths connected to an end of the adjacent transverse length, respectively. a plurality of conductors including elastic portions including a plurality of longitudinal connecting portions connecting the plurality of transverse length portions; and
A support that supports the plurality of conductors
including,
The elastic part is provided in plurality,
Further comprising one or more extensions interposed between the elastic parts and connecting the elastic parts,
The extension part is formed in the same pattern as the contact part. An electrical connection connector for electrically connecting a terminal of a device under test and a pad of a test device to each other,
A plurality of longitudinal lengths and a plurality of transverse connecting portions connecting the plurality of longitudinal lengths by connecting an end of one of the plurality of longitudinal lengths with an end of an adjacent longitudinal length, respectively. A contact portion comprising a contact portion, a plurality of transverse lengths connected to the plurality of longitudinal lengths, and an end of any one transverse length of the plurality of transverse lengths connected to an end of the adjacent transverse length, respectively. a plurality of conductors including elastic portions including a plurality of longitudinal connecting portions connecting the plurality of transverse length portions; and
A support that supports the plurality of conductors
Including,
The support is
a lateral support portion formed in a lateral direction to support the plurality of conductors;
A longitudinal support portion extending in the longitudinal direction from the lateral support portion and facing side surfaces of the plurality of conductors.
Electrical connection connector comprising a. According to claim 1,
The electrical connection connector of claim 1 , wherein the plurality of conductors further include a shortened connection portion that crosses the plurality of transverse length portions of the elastic portion and contacts the entirety of the plurality of transverse length portions to shorten a conduction path. An electrical connection connector for electrically connecting a terminal of a device under test and a pad of a test device to each other,
a plurality of conductors including a coil contact portion having a central axis in a transverse direction and a coil elastic portion connected to the coil contact portion and having a central axis in a longitudinal direction; and
A support that supports the plurality of conductors
Electrical connection connector comprising a. According to claim 10,
The coil contact portions of the plurality of conductors,
a first coil contact portion facing the terminal of the device under test;
A second coil contact portion facing the pad of the inspection device
Including,
The coil elastic portion of the plurality of conductors is formed between the first coil contact portion and the second coil contact portion. According to claim 11,
The electrical connection connector of claim 1 , wherein the diameter of the coil located at the center of the first coil contact portion is smaller than the diameter of the coil located at the edge. According to claim 10,
The electrical connection connector of claim 1 , wherein the support body is formed in a transverse direction to support the plurality of conductors. According to claim 11,
The coil elastic part is provided in plurality,
and one or more coil extension parts interposed between the coil elastic parts and connecting the coil elastic parts. According to claim 14,
The coil extension portion is formed in the same pattern as the coil contact portion. According to claim 14,
The support is
a lateral support portion formed in a lateral direction to support the plurality of conductors;
A longitudinal support portion extending in the longitudinal direction from the lateral support portion and facing side surfaces of the plurality of conductors.
Electrical connection connector comprising a.

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