A socket for an electric component includes a socket body in which a contact pin is provided in a housing part and a cover member provided so as to be rotatable with respect to the socket body. The cover member has a cover member body and a heat slug in contact with an electric component. The heat slug is configured so as to move downward and press the electric component by being pressed from above by a cooling head in a state in which the cover member is closed. In a state in which the electric component is housed in the housing part, a restricting mechanism allows the downward movement of the heat slug, whereas in a state in which the electric component is not housed in the housing part, the restricting mechanism prevents the downward movement of the heat slug.

To provide a socket for electrical component that allows an electrical component to be easily accommodated and to be able to be accommodated and be used even if the electrical component is large. The IC socket 10 comprises a socket body 13 accommodating an IC package 11; a cover member 15 for pressing the IC package 11; and a lever member 17 for pressing the cover member 15. The cover member 15 and the lever member 17 are rotatably connected to the same side end side of the socket body 13, and a pressing means 25, for pushing down the cover member 15 by closing the lever member 17 at the state that the cover member 15 is closed, is provided.

The present disclosure provides a test device and a test method using the test device. The test device includes a first fastener structure for fastening a to-be-tested substrate with first touch lines, a second fastener structure for fastening a test match panel with second touch lines, and the first touch lines and the second touch lines forming a touch module, a third fastener structure for supporting a change-over flexible printed circuit board, a signal input structure for electrically connecting to one of a circuit board in the test match panel and the first touch lines through the change-over flexible printed circuit board, and inputting trigger data signals, a sensing signal capture structure for capturing touch sensing signals in the first touch line or the second touch lines.

A spring probe contactor includes an angled spring probe configuration that causes the tips of the spring probes to “swipe” the contact pads/solder balls of an IC device under test as the contacts are made. The angulation of the spring probes permit penetration through foreign material layers on the pad/ball surfaces with less contact force.

The present invention relates to a test socket that is disposed between a blood test device and a test apparatus to electrically connect a terminal of the blood test device and a pad of the test apparatus with each other. Conduction units that are arranged at positions corresponding to the terminal of the blood test device and show conductivity in a thickness direction have: conduction units that are arranged in such a manner that multiple conductive particles are arranged in the thickness direction in an elastic insulating material; and an insulating support unit that supports and insulates each of the conduction units. The conductive particles are provided with through-holes bored through one surface and another surface other than the one surface, and the through-holes are filled with the elastic insulating material.

Improvement in yield of a semiconductor device is obtained. In addition, increase in service life of a socket terminal is obtained. A projecting portion PJ1 and a projecting portion PJ2 are provided in an end portion PU of a socket terminal STE1. Thus, it is possible to enable contact between a lead and the socket terminal STE in which a large current is caused to flow, at two points by a contact using the projecting portion PJ1 and by a contact using the projecting portion PJ2, for example. As a result, the current flowing from the socket terminal STE1 to the lead flows by being dispersed into a path flowing in the projecting portion PJ1 and a path flowing in the projecting portion PJ2. Accordingly, it is possible to suppress increase of temperature of a contact portion between the socket terminal STE1 and the lead even in a case where the large current is caused to flow between the socket terminal STE1 and the lead.

High frequency operation of an integrated circuit test system is greatly extended by incorporation of a dedicated high frequency signal element that provides a circuit specific compensation network as part of the intermediation circuit board that enables connectivity between test equipment and the integrated circuit under test.

The terminals of a device under test (DUT) are temporarily electrically connected to corresponding contact pads on a load board by a series of electrically conductive pin pairs. The pin pairs are protected against damage from balls on a DUT by a protective ball guide which includes recesses for receiving part of the ball but prevents the ball from driving the pins beyond a limited range. The ball guide provides fine alignment horizontally and vertically enabling stable electrical performance.

A test socket comprising a guide plate with a lower surface engaged with an upper surface of a main test structure, the guide plate further including an upper surface which is parallel to the lower surface and an opening extending through the guide plate, the main test structure includes a body with one or more apertures through the upper surface and one or more probes mounted within the main test structure, the probes including a front end which extends through the apertures for engagement by a lead or terminal pad of a device to be tested, and a tail end which is secured within the main test structure by an elastomeric material.

A semiconductor device test socket has a shielding structure formed around each contactor so as to prevent signal delay or distortion during a test process and thereby enhance the test reliability. The socket includes a vertical probe comprising a contactor which has a contact terminal to be electrically connected to an external connection terminal of a semiconductor device. The shielding structure which is formed by laminating a conductive material on the outer edge of the contactor and is electrically connected to a ground. The socket further includes an elastic layer which is filled in the space between the contactor and the shielding structure, and surrounds the contactor such that the contact terminal of the contactor is exposed; and a connection film which is formed by laminating a conductive material so as to electrically connect shielding structures of multiple vertical probes.