Source: https://patents.google.com/patent/KR101961102B1/en
Timestamp: 2020-08-10 09:30:07
Document Index: 19120

Matched Legal Cases: ['arts 40', 'arts 40', 'arts 86', 'art 40', 'art 40', 'art 40', 'art 104', 'art 40', 'art 40', 'art 40', 'art 40', 'art 40', 'art 40', 'art 40', 'art 40', 'arts 40', 'art 40', 'art 10', 'arts 140', 'arts 90', 'art 140', 'art 140', 'art 1415', 'art 1411', 'art 1413', 'art 1411', 'art 1415', 'art 1411', 'art 1415', 'art 1413', 'art 1413', 'art 1413', 'arts 140', 'art 1422', 'art 140', 'art 1422', 'art 1422', 'art 1422', 'art 1411', 'art 1413', 'art 140', 'art 140', 'art 141', 'art 140', 'art 140', 'art 140', 'art 1415', 'art 1415', 'art 1411', 'arts 1419', 'art 1415', 'art 1419', 'art 1413', 'art 1422', 'art 1411', 'art 1413', 'art 1417', 'art 1429']

KR101961102B1 - A Test Equipment Of Semiconductor Device - Google Patents
A Test Equipment Of Semiconductor Device Download PDF
KR101961102B1
KR101961102B1 KR1020180029858A KR20180029858A KR101961102B1 KR 101961102 B1 KR101961102 B1 KR 101961102B1 KR 1020180029858 A KR1020180029858 A KR 1020180029858A KR 20180029858 A KR20180029858 A KR 20180029858A KR 101961102 B1 KR101961102 B1 KR 101961102B1
KR1020180029858A
2018-03-14 Application filed by (주)케미텍 filed Critical (주)케미텍
2018-03-14 Priority to KR1020180029858A priority Critical patent/KR101961102B1/en
2018-04-11 Priority claimed from CN201880028418.XA external-priority patent/CN110573888A/en
2019-03-22 Publication of KR101961102B1 publication Critical patent/KR101961102B1/en
The present invention aims to provide a semiconductor component testing device capable of simply and firmly coupling a connection component to a substrate. To this end, the semiconductor component testing device comprises a plurality of connectors detachably coupled to a plurality of connection components and including: a plate-like substrate which has a plurality of substrate fixing pin holes formed therein; the plurality of connection components which have a plurality of contact pins arranged in a plurality of rows, and are coupled to the substrate by fixing pins and coupling members; and a plurality of connector pins which are arranged in a plurality of rows. The connection components have a connection component body such that the contact pins are spaced apart from one another and are arranged in a plurality of rows in the connection component body. A plurality of body fixing pin holes are formed in the connection component body in the longitudinal direction thereof. The coupling member and the connection component are located with the substrate interposed therebetween. A head of the fixing pin is hooked on the body fixing pin hole and successively passes through the body fixing pin hole and the substrate fixing pin hole such that an end portion of the fixing pin is latched by a pin latching portion of the coupling member and thus, the connection component is coupled to the substrate.
[0001] The present invention relates to a semiconductor device testing apparatus,
TECHNICAL FIELD The present invention relates to a semiconductor component testing apparatus, and more particularly, to a semiconductor element component apparatus in which the assembling of connecting components is robust and simple, and stable connection with a connector is achieved.
In the semiconductor component testing apparatus used for testing semiconductor components, very high reliability is required both electrically and locally. In order to test semiconductor components quickly and reliably, the connectors used in the test equipment must be in contact with the connecting parts.
1 is a sectional view of a semiconductor component testing apparatus for testing electrical characteristics of a semiconductor component. 1, a semiconductor component testing apparatus includes a contactor 20 contacting a semiconductor component 10, a substrate 30 supplying an electrical signal to the contactor 20, a substrate 30, A plurality of connectors 50 detachably connected to each of the plurality of connecting parts 40, a connector block 90 to which a plurality of connectors 50 are fixed, , A plurality of connectors (50), and a holder (80) for supporting the connector stand (90).
The substrate 30 and the connector base 90 are circular and a plurality of connecting parts 40 and a plurality of fixing parts 86 such as a connector 50 and a bolt are disposed radially from the center thereof. The relative position of the connecting part 40 and the connector 50 can be maintained even when a vertical force is applied between the connecting part 40 and the connector 50 because the relative positions of the board 30 and the holder 80 are fixed. The relationship is maintained.
Fig. 2 is a perspective view of the connector unit shown in Fig. 1, and Fig. 3 is an enlarged view showing the handle 52 and the guide 2 shown in Fig. On the outside of the connector 50, two handles 52 for rotating the cam 52a provided in the connector are attached. A guide 2 for driving the handle 52 and a handle driver 4 for rotating the guide 2 are further provided on the outer side of the handle 52. [ The guide 2 and the plurality of handles 52 are moved and the connector 50 is connected to the connecting part 40 by driving the handle driving part 104 while the connecting part 40 is inserted into the connector 50 . As a result, a plurality of connectors 50 are simultaneously connected to the connecting part 40. [ The guide 2 is also attached to the inner circumferential side of the handle 52. A pulley 6 may be provided between the connector stand 90 and the guide 2 to smoothly rotate the guide 2 relative to the connector 50. [
4 is a sectional view taken along the line A-A for explaining the connector 50. Fig.
4, the connector 50 includes a connector body 51 made of a synthetic resin material and hollowed in a vertical direction, an upper support 55 provided at an upper opening of the connector body 51, A lower support member 57 provided at a lower opening of the connector body 51, a cam 52a rotatably provided in the connector body 51 and connected to the handle 52, And a plurality of connector pins (53) arranged in the longitudinal direction of the connector body (51) so as to be positioned on both sides.
When the upper support 55 is provided at the upper opening of the connector body 51, upwardly open concave grooves are formed at the upper portion of the connector 50.
The upper support 55 has a downward opening formed at a lower portion thereof, and protrudes upward, and a lateral opening communicating with a downward opening is formed at left and right sides of the protruding portion. The connector pin (53) is inserted downward into the upper support (55) and the upper part is located at the side opening. The connector pin 53 extends downward through the cam 52a and penetrates through the lower support member 57 so that the end thereof protrudes downward and is connected to a test board (not shown).
The upper support 55 may have a plurality of lower openings spaced apart from each other in the left and right direction, and protrusions may be provided on the upper portions of the lower openings. And a cam 52a is disposed at a lower portion of each lower opening of the upper support 55. [ The connector pins 53 are positioned on both sides of each cam, and the connector pins 53 on both sides are pressed by the cam.
FIG. 5 is a plan perspective view showing a connecting part provided in the semiconductor component testing apparatus according to the present invention, and FIG. 6 is a bottom perspective view of the connecting part shown in FIG.
The connecting part 40 includes a connecting part main body 41 made of a synthetic resin material and a plurality of contact pins 43 arranged in the connecting part main body 41 in the longitudinal direction and forming a plurality of rows Respectively. The lower part of the connecting part body 41 is formed with a recess into which the projection of the upper support body 55 is inserted. The contact pins 43 are provided on both sides of the recess.
When the connecting part insertion portion 41a of the connecting part 40 is inserted into the groove formed in the upper part of the connector 50, the projecting part of the upper supporting body 55 constituting the connector 50 is inserted into the concave part of the connecting part 40 And the contact pin 43 of the connecting part 40 is positioned facing the connector pin 53. [
When two protrusions of the upper support 55 are provided, two recesses are also formed in the connecting part 40. The contact pins 43 and connector pins 53 are respectively provided in four rows.
When the connector part 40 is inserted into the recessed groove of the connector 50 and the handle 52 is rotated so that the cam 52a is pressed to the outside of the connector pin 53 located on both sides of the cam 52a , The connector pin 53 is pushed to the left and right to protrude through the portion of the upper portion of the upper support which is opened to the left and right, and contact with the contact pin is performed.
Since the plurality of connecting parts 40 fixed to the substrate 30 in the above-described semiconductor component testing apparatus are fixed by riveting, it is not easy to separate them when the fixing operation is troublesome and it is necessary to separate them after fixation. There is a risk that the contact stability between the pin 53 and the contact pin can not be ensured and the connecting part 40 is not rigid and there is a risk of breakage or the like.
Korean Registration No. 10-0364065 Korean Patent Publication No. 10-2002-0042494
SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the problems of the related art as described above, and it is an object of the present invention to provide a connector that can easily and firmly connect a connecting component to a substrate, And it is an object of the present invention to provide a semiconductor component testing apparatus which is free from the risk of breakage.
A semiconductor component testing apparatus according to the present invention includes: a plate-like substrate having a plurality of substrate fixing pin holes; a plurality of connecting parts having a plurality of contact pins arranged in a plurality of rows and coupled to the substrate by a fixing pin and a coupling member; And a plurality of connectors having a plurality of connector pins arranged in rows of the connection parts and detachably coupled to the connecting parts;
Wherein the connecting parts include a connecting part main body, the contact pins are spaced apart from each other and arranged in a plurality of rows, and the connecting part main body has a plurality of main body fixing pin holes formed along the longitudinal direction thereof;
The fixing pin is hooked on the main body fixing pin hole and passes through the main body fixing pin hole and the board fixing pin hole one after another so that the end portion is caught by the pin fixing portion of the coupling member, And a connecting part is coupled to the substrate.
In the above, the engaging member is a rod-like bar shape, and the pin engaging portion is composed of two pin engaging members which are cut into a "C " shape and one end is connected and the free end faces each other, Are spaced apart and formed in plural; Wherein the fixing pin is inserted between the pin engagement members and both sides thereof are provided in contact with the pin engagement member.
In this case, when the fixing pin is inserted into the pin locking portion, the pin locking member is pushed downward by the fixing pin and deformed to be inclined downward to increase the distance between the free ends, and the fixing pin is located between the free ends .
When the fixing pin is inserted between the free end portions of the pin receiving portion, the pin receiving member is deformed while being pushed downward, so that the inclination angle of the pin receiving portion is reduced. And the distance between the free ends increases, and the fixing pin is located between the free ends.
In the above, the connecting part may further include a connecting part support body, and two connecting parts main bodies are provided;
Wherein the connecting part main body includes a main body bottom part formed with a plurality of main body fixing pin holes spaced apart from each other in the longitudinal direction and main body pin holes extending upward from both sides in the width direction of the main body bottom part, A main body locking protrusion protruded from both sides in the longitudinal direction of the main body bottom part through the main body 1 extension part and a main locking part protruding inward facing each other, And an upwardly extending main body 1 groove portion is formed on both sides of the main body bottom portion in the width direction of the main body.
The upper end of the main body fin hole is opened to the second step portion of the main body and the lower end is connected to the main body 1 groove portion. The contact pin is inserted into the main body pin hole, Extending outwardly of the extension portion;
The connecting part support body includes a support body having a plurality of support pin holes spaced longitudinally from both sides of the support body, a support supporter extending upward and downward along an edge of the support body, And a support body wall extending upwardly and having both ends of the support body connected to the support support part and forming a support concave part upwardly opened by being positioned on both sides in the width direction together with the support support part,
On the bottom portion of the support body, an extension portion insertion hole extending in the longitudinal direction is formed on both sides of the support body wall and inside the width direction of the support body support portion, and a downwardly extending support structure is formed on the extension portion insertion hole;
The main body 1 extension portion and the main body second extension portion are inserted into the extension portion insertion holes so that the outer surface of the first extension portion and the second extension portion of the second extension portion are inserted into the inner surface of the support support portion And the bottom of the support between the extension part inserting holes is inserted between the recesses formed between the extension parts of the main body of the present invention.
In this case, concave engagement grooves are formed at the lower ends of both sides in the longitudinal direction of the support supporter, and the main body engaging jaw is inserted into the engagement grooves.
In this case, a plurality of contact pin grooves extending from the upper end of the second extension part of the present system are formed in a plurality of spaced apart longitudinal directions, the lower end of which is in communication with the main body pin hole, And an upper portion of the contact pin is inserted into the contact pin groove.
In this case, a pin recess is formed on the inner surface of the contact pin and extends along the longitudinal direction of the contact pin, so that the pin contacts the pin recess when the contact pin contacts the contact pin.
According to the semiconductor component testing apparatus according to the present invention, it is possible to easily and firmly connect the connecting parts to the board, and to ensure stable contact between the connector pins and the contact pins. Even when the connecting parts are impacted, There is an effect that the occurrence of damage can be prevented.
1 is a cross-sectional view of a semiconductor component testing apparatus for testing electrical characteristics of a semiconductor component,
Fig. 2 is a perspective view of a connector unit included in the semiconductor component testing apparatus shown in Fig. 1,
Fig. 3 is a partially enlarged view of the connector unit shown in Fig. 2,
4 is a cross-sectional view taken along the line AA of Fig. 3 for explaining the connector 50,
5 is a plan perspective view showing a connecting part provided in the semiconductor component testing apparatus,
Fig. 6 is a bottom perspective view of the connecting part shown in Fig. 5,
7 is an exploded perspective view for explaining connection between a connection part provided in a semiconductor part testing apparatus according to the present invention and a substrate,
8 is a partial perspective view showing a state of engagement between the fixing pin of the connecting part and the engaging member,
Fig. 9 is a partial cross-sectional view for explaining a connection state of a connecting part and a substrate,
10 is a cross-sectional view of a connecting part provided in the semiconductor component testing apparatus according to the present invention,
11 is an enlarged partial perspective view of part A of Fig.
Hereinafter, a semiconductor component testing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.
FIG. 7 is an exploded perspective view for explaining connection between a connection part provided in a semiconductor part testing apparatus according to the present invention and a board, and FIG. 8 is a partial perspective view showing a state of engagement between a fixing pin and a coupling member of a connecting part 10 is a cross-sectional view of a connecting part provided in the semiconductor component testing apparatus according to the present invention, and Fig. 11 is a cross-sectional view showing a part A of Fig. 9 enlarged It is a partial perspective view.
1, a semiconductor component testing apparatus according to the present invention includes a contactor 20 contacting a semiconductor component 10, a substrate 30 supplying an electrical signal to the contactor 20, A plurality of connectors 50 detachably connected to each of the plurality of connecting parts 140 and a plurality of connector parts 90 to which the plurality of connectors 50 are fixed And a holder 80 for supporting the plurality of connectors 50 and the connector base 90. The description of the contents overlapping with the conventional art will be omitted, and the features that characterize the present invention will be described in detail.
In Fig. 9, the horizontal direction is referred to as "width direction ", the vertical direction is referred to as" vertical direction "
7, the connecting part 140 provided in the semiconductor part testing apparatus according to the present invention is coupled to the substrate 30 via the fixing pin 147 and the engaging member 146. As shown in FIG.
The connecting part 140 includes a connecting part body 141, a contact pin 143, a connecting part supporting body 142, a fixing pin 147, and a coupling member 146.
9 and 10, the connecting part main body 141 includes a main body bottom part 1415, a main body 1 extension part 1411, a main body 2 extension part 1413, (1412).
The main body bottom 1415 is provided in the shape of a bar extending in the longitudinal direction. A plurality of body fixing pin holes 1418 are formed in the bottom 1415 of the main body. The main body fixing pin hole 1418 is formed along the longitudinal direction of the main body bottom 1415.
The main body 1 extension part 1411 is provided on both sides in the width direction of the main body bottom part 1415. The first extension part 1411 extends upward from the bottom part 1415 of the main body and is provided to face each other. A concave portion opened to both sides in the upward direction and the longitudinal direction is formed between the main body 1 extended portion 1411 and the main body bottom portion 1415, A jaw portion 1417 is formed.
The main unit 2 extension unit 1413 extends upward from the main unit 1 extension unit 1411 to form a main unit 2 step unit 1416 which faces upward. The main assembly second step 1416 is formed at a position spaced upward from the main assembly first step 1417.
The main body latching jaw 1412 is provided on both sides of the main body bottom 1415 in the longitudinal direction. The main body latching jaw 1412 protrudes beyond the main body 1 extended portion 1411.
The main body 1 groove portion 1419 and the main body fin 1414 are formed in the contact component main body 141.
The main groove 1 1419 is formed downward on both sides in the width direction of the main body bottom 1415.
The main body fin 1414 is formed in the main body 1 extension 1411 in a vertical direction. The main body fin 1414 is formed in a plurality of spaced apart along the longitudinal direction of the first extension 1411 of the present system. The upper end of the main body fin 1414 is open to the main body second step 1416 and the lower end of the main body fin 1414 is formed to communicate with the main body first groove 1419.
Concave contact pin grooves 1413a are formed on the mutually facing surfaces of the main body second extension part 1413 at the position where the main body fin 1414 is formed. The contact pin grooves 1413a are formed in a plurality of spaced apart from each other along the longitudinal direction of the present system second extension part 1413. The lower end of the contact pin groove 1413a is connected to the main body fin 1414 and extends to the upper end of the main body 2 extension part 1413.
A contact pin 143 extends through the body pin hole 1414 and an upper portion of the contact pin 143 is inserted into the contact pin groove 1413a.
The plurality of connect pins 143 are arranged in the plurality of rows in the longitudinal direction of the connecting part body 141, and are arranged in a plurality of rows. The contact pin 143 is provided through the main body fin 1414. The lower portion of the contact pin 143 extends to the first groove portion 1419 and is exposed to the lower portion and the upper portion of the contact pin 143 extends to the contact pin groove 1413a of the second extension portion 1413, Respectively.
As shown in FIG. 11, a pin recess 143a is formed in the inner surface of the contact pin 143 and extends along the longitudinal direction of the contact pin 143. The end surface of the pin recess 143a is formed in a "V" shape. The pin recess 143a is formed in the contact pin 143 so that the contact pin 143 makes a two-point contact when the contact pin 143 contacts the contact pin 143, thereby achieving stable contact.
The connecting parts 140 are provided with two connecting parts main bodies 141 on one connecting part supporting body 142. [ The connecting part support body 142 is provided so as to surround the outside of two connecting parts main bodies 141 provided side by side.
The connecting part support member 142 is made of a metal material. The connecting part support body 142 is made of metal, and the connecting part supporting body 142 supports the connecting part body 141 from the outside, so that even if there is an external impact, breakage or deformation is prevented.
The connecting part supporting body 142 is composed of a supporting body bottom part 1422, a supporting body supporting part, and a supporting body wall 1426.
The support bottom 1422 is provided in the form of a rod extending in the longitudinal direction of the connection part 140. The support bottom 1422 is spaced apart on both sides of the support wall 1426.
A plurality of support fixing pin holes 1422a spaced in the longitudinal direction are formed in the support bottom part 1422. [ The support fixing pin hole 1422a is formed at a position where the main body fixing pin hole 1418 is formed.
The support supports extend up and down along the edges of the support bottom 1422. The support supporting portion includes a first supporting portion 1421 and a second supporting portion 1425.
The first support portion 1421 is provided along the edge of the support bottom portion 1422. The first support portion 1421 extends downward from the support bottom portion 1422. The first support portion 1421 is formed with a support structure first step portion 1429a which is downwardly facing in the width direction. The support structure first step 1429a is located between the upper surface and the lower surface of the support bottom part 1422. [ The first support portions 1421 located on both sides of the support bottom portion 1422 in the width direction are formed to be spaced apart from the support bottom portion 1422 in the width direction by forming a support structure first step portion 1429a.
A concave engagement groove 1424 is formed at the lower ends of both sides in the longitudinal direction of the first support portion 1421.
The second support portion 1425 extends upward from the first support portion 1421 by forming a support structure 2 step portion 1423 upward in the width direction.
The support wall 1426 extends upward from the center in the width direction of the support bottom part 1422 and has both ends in the longitudinal direction connected to the support support part. The lower end of the support wall 1426 is spaced upward from the lower end of the support bottom 1422. The support wall 1426 together with the support supports forms a support recess 1427 which is located on both sides in the width direction of the support wall 1426 and opens upward.
An extension portion insertion hole 1429 is formed in the connecting part support body 142. [
The extension portion insertion hole 1429 extends vertically through the support bottom portion 1422 and extends in the longitudinal direction. The extension portion insert hole 1429 Are formed on both sides of the support wall 1426 and in the width direction of the support supporter. Extension insertion holes 1429 formed on both sides of the support wall 1426 are formed to communicate with each other at a lower portion of the support wall 1426.
When the connecting part support body 142 and the connecting part body 141 are coupled to each other, the connecting part body 141 is upwardly moved from the lower side to both sides of the supporting wall body 1426, 2 extension portion 1413 is inserted into the extension portion insertion hole 1429. [ The outer surfaces of the first extension part 1411 and the second extension part 1413 are held in contact with the inner surface of the support support part and the support wall 1426. The main assembly 1 step portion 1417 of the connecting part main body 141 provided on the outside of the width direction is hooked on the supporting structure first step portion 1429a and the connecting member main portion 141 The first jaw portion 1417 of the main body 141 is hooked and tangent. The main body locking tab 1412 of the connecting component main body 141 is inserted into the locking groove portion 1423.
The support bottom 1422 is inserted between the recesses formed by the main body 1 extension 1411 and the bottom 1415 of the main body and the support fixture pin hole 1422a and the main body fin 1418 are communicated with each other and fixed A fixing pin hole through which the pin 147 passes is formed.
The connection part 140 and the coupling member 146 are positioned on both sides of the substrate 30 and are coupled with the fixing pin 147.
The fixing pin 147 is provided through the fixing pin hole. The fixing pin 147 is hung on the supporting pin fixing hole 1422a and passes through the fixing pin hole 1422a, the main fixing pin hole 1418 and the fixing pin hole 30a. The end of the fixing pin 147 is hooked to the pin engaging portion of the engaging member 146 provided at the lower portion of the substrate 30.
As shown in FIG. 8, the coupling member 146 is provided at a lower portion of the substrate 30. The coupling member 146 is in a plate-like rod shape and extends along the longitudinal direction of the connecting part 140. In FIG. 9, reference numeral 33 denotes an insulating film provided between the coupling member 146 and the substrate 30.
The engaging member 146 is formed with a plurality of pin engaging portions that are spaced along the longitudinal direction of the engaging member 146. The pin engaging portion is composed of two pin engaging members 1461 which are cut in a " C "shape and connected to one end portion and whose free ends face each other.
The fixing pin 147 is inserted between the pin engaging members 1461 so that both sides thereof are in contact with the pin engaging member 1461. Reference numeral 1463 denotes a coupling member mounting hole, and the coupling member 146 may be coupled to the substrate 30 by bolts or the like.
The engaging contact portion 1461a, which is the free end of the pin engaging member 1461, is formed in a concave circular arc shape. The pin engagement member 1461 is formed in an arc shape so that the contact area between the engagement contact portion 1461a and the fixing pin 147 is widened when the fixing pin 147 is inserted, Lt; / RTI &gt;
When the fixing pin 147 is inserted into the pin latching portion, the pin latching member 1461 is pushed downward by the pin 147 and deformed to be inclined downward to increase the distance between the free ends, Is positioned between the free ends.
The pin engaging member 1461 may be formed such that the free end portions of the pin engaging members 1461 facing downward are inclined and spaced apart from each other.
When the fixing pin 147 is inserted between the free end portions of the pin engaging portion, the pin engaging member 1461 is deformed while being pushed downward to increase the inclination angle and increase the distance between the free end portions, Respectively.
Since the pin engaging member 1461 is inclined such that the free end thereof is downwardly inserted when the classical pin 147 is inserted, the pin 147 inserted between the free ends and being in contact with the free end at both sides is firmly fixed to the pin engaging member 1461 When the fixing pin 147 is pulled upward, the distance between the free end portions of the pinching member 1461 becomes closer, and the pressing force of both sides increases. Therefore, the fixing pin 147, which is once coupled to the pin engaging portion, is in a firmly engaged state that is difficult to separate.
Although the semiconductor component testing apparatus according to the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that various modifications and equivalent embodiments may be made by those skilled in the art without departing from the scope of the present invention. Accordingly, the scope of the true technical protection should be determined by the technical idea of the appended claims.
140: connecting part 141: connecting part body
142: connecting part support body 143: contact pin
146: coupling member 147: fixing pin
The substrate 30 is provided with a plurality of substrate fixing pin holes 30a and a plurality of contact pins 143 arranged in a plurality of rows and fixed to the substrate 30 by the fixing pins 147 and the coupling member 146 And a plurality of connectors (50) having a plurality of connector pins (53) arranged in a plurality of rows and detachably coupled to the connecting parts (140);
The connecting part 140 includes the connecting part main body 141 so that the contact pins 143 are spaced apart from each other and arranged in a plurality of rows in the connecting part main body 141, A plurality of main body fixing pin holes 1418 are formed along the direction of the main body;
The engaging member 146 and the connecting part 140 are located on both sides of the substrate 30 and the fixing pin 147 is hooked on the main body fixing pin hole 1418 and the main body fixing pin hole 1418, And the connecting part (140) is coupled to the substrate (30) by passing through the fixing pin hole (30a) in order and engaging the end part with the pin engaging part of the engaging member (146).
The connector according to claim 1, wherein the engaging member (146) is in the form of a rod-like bar, the pin engaging portion has two pin engaging members (1461), one end of which is cut in a " And is formed in a plurality of spaced apart along the longitudinal direction of the connecting part 140; Wherein the fixing pin (147) is inserted between the pinching members (1461) so that both sides thereof are in contact with the pinching member (1461).
The method of claim 2, wherein when the fixing pin (147) is inserted into the pin receiving portion, the pin receiving member (1461) is pushed downward by the fixing pin (147) And the fixing pin (147) is located between the free ends.
[3] The apparatus according to claim 2, wherein the pin engaging member (1461) is downwardly bent and sloped, and the free end portions of the facing pin engaging members (1461) are spaced apart from each other. When the fixing pin (147) is inserted between the free end portions Wherein the pinching member (1461) is deformed while being pushed downward to increase the inclination angle and increase the distance between the free ends, and the fixing pin (147) is positioned between the free ends.
The connector according to claim 1, wherein the connecting part (140) further includes a connecting part support body (142), and two connecting part bodies (141) are provided;
The connecting part main body 141 includes a main body bottom part 1415 formed with a plurality of main body fixing pin holes 1418 spaced apart from each other in the longitudinal direction and extending upward from both sides in the width direction of the main body bottom part 1415, A main body 1 extended portion 1411 formed with a plurality of main body fin holes 1414 that are vertically spaced apart from each other in the longitudinal direction and an extended portion 1411 extending from both sides in the longitudinal direction of the main body bottom portion 1415 And a main body 2 extending portion 1413 extending upward from the main body first extending portion 1411 and forming the main body second main body portion 1416 upward inward facing each other A main body 1 step 1417 is formed on the outer side of the main body 1 extension part 1411 and main body 1 groove parts 1419 downwardly opened on both widthwise sides of the main body bottom part 1415 / RTI &gt;
The upper end of the main body fin 1414 is opened to the main body second step 1416 and the lower end is connected to the main body first groove 1419. The contact pin 143 is inserted into the main body fin 1414, 1 groove part 1419 and exposed to the lower part, and the upper part is extended to the inside of the main body 2 extension part 1413;
The connecting part support member 142 includes a support bottom part 1422 which is longitudinally spaced to both sides of the support wall 1426 and in which a plurality of support fixing pin holes 1422a are formed, A support recess extending upwardly from the center in the width direction of the support bottom portion 1422 and having both ends in the longitudinal direction connected to the support supporter and positioned on both sides in the width direction together with the supporter supporter, 1427 formed on the support wall 1426,
The support bottom portion 1422 is formed with an extension portion insertion hole 1429 extending in the longitudinal direction and extending in the width direction on both sides of the support body wall 1426 and in the width direction of the support support portion, 1429 are formed with a downwardly supporting support first step 1429a;
The main body 1 extension portion 1411 and the main body 2 extension portion 1413 are inserted into the extension portion insertion holes 1429 and the main body extension portion 1413 is inserted into the extension portion insertion holes 1429, The outer surface of the first extension part 1411 and the second extension part 1413 are held in contact with the inner surface of the support support part and the first step part 1417 is in contact with the support step part 1429a, And a portion of the bottom 1422 of the support between the insertion holes 1429 is inserted between the recesses formed between the main extension portions 1411 of the present system.
6. The semiconductor device according to claim 5, wherein a concave engagement groove (1424) is formed at the lower ends of both sides in the longitudinal direction of the support supporting part, and the main body locking step (1412) is inserted into the engagement groove (1424) tester.
And a plurality of contact pin grooves (1413a, 1413b) extending to the upper end of the main body second extension part (1413) and communicating with the main body pin hole (1414) ) Are formed in plural in the longitudinal direction; And an upper portion of the contact pin (143) is inserted into the contact pin groove (1413a).
The connector according to claim 7, wherein a pin recess (143a) is formed in the inner surface of the contact pin (143) and extends along the longitudinal direction of the contact pin (143) , The pin member is in contact with the pin recessed portion (143a).
KR1020180029858A 2018-03-14 2018-03-14 A Test Equipment Of Semiconductor Device KR101961102B1 (en)
US16/604,572 US20200096553A1 (en) 2017-04-12 2018-04-11 Low insertion force connector assembly and semiconductor component test apparatus
KR101961102B1 true KR101961102B1 (en) 2019-03-22
ID=65949426
KR (1) KR101961102B1 (en)
KR20020042494A (en) 2000-11-30 2002-06-05 추후제출 low insertion force type connector
JP2002257856A (en) * 2001-02-28 2002-09-11 Ibiden Co Ltd Probe card
KR100364065B1 (en) 1998-07-09 2002-12-11 가부시키가이샤 아드반테스트 Semiconductor component mounting apparatus
JP2006214732A (en) * 2005-02-01 2006-08-17 Japan Electronic Materials Corp Reinforcing plate for probe card
KR20090133102A (en) * 2009-11-23 2009-12-31 (주)케미텍 Connector assembly for testing semi-conductor
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2018-03-14 KR KR1020180029858A patent/KR101961102B1/en active IP Right Grant
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