A probe testing device having an elastic structure is provided. The probe testing device having the elastic structure includes a plurality of probe elements and a guide plate module. Each of the probe elements includes a body, a first contact segment, and a second segment, and is formed integrally. The guide plate module includes a first guide plate, a second guide plate, and a third guide plate that are parallel to each other, and the third guide plate is arranged between the first guide plate and the second guide plate. The plurality of probe elements correspondingly pass through the first guide plate, the second guide plate, and the third guide plate. The third guide plate is configured to perform a parallel movement relative to the first guide plate and the second guide plate in a direction perpendicular to an axis of the probe element.

A contact terminal includes a tubular body and a first conductor. The tubular body has an end-side cutout provided in a shape cut out from one axial-direction end surface toward an other axial-direction side at one axial-direction end portion of the tubular body, a hole that is open at the one axial-direction end portion, and a pair of arms interposed between the end-side cutout and the hole. The first conductor includes a first insertion including an inclined portion having an outside diameter gradually increased toward one axial-direction side, and a first straight portion connected to the one axial-direction side of the inclined portion and having an outside diameter constant along the axial direction. The outside diameter of the first straight portion is larger than an inside diameter of the tubular body. The first straight portion is configured to be in contact with the pair of arms.

A wafer testing probe card includes a printed circuit board, a flexible circuit board, an elastic piece, and a probe unit. The flexible circuit board is electrically connected to the printed circuit board. The elastic piece is disposed between the printed circuit board and the flexible circuit board. The probe unit includes a probe head and a plurality of probes. The probe head is fixed on the printed circuit board and has a plurality of through holes. The probes respectively pass through the through holes and move up and down relative to the probe head.

Proposed are an anodic aluminum oxide mold capable of manufacturing a molded article having at least a portion with a dimensional range of several tens of μm, and a mold structure including the same. Additionally, proposed are a method of manufacturing a molded article with a dimensional range of several tens of μm using the anodic aluminum oxide mold, and a molded article manufactured thereby.

An object of the present disclosure is to make it possible to improve electrical inspection of an object to be inspected by making the conduction characteristics of the electrical signal flowing through an electrical contactor better. An electrical contactor according to the present disclosure includes: a pedestal portion having, at a lower end thereof, a contact portion that comes into contact with a first contact target of an object to be inspected; a base end portion extending continuously toward an installing portion that comes into contact with a second contact target of a substrate electrically connected to an inspection device side; and at least three or more arm portions provided between the base end portion and the pedestal portion, each of the at least three or more arm portions having one end supported by the base end portion and another end coupled to the pedestal portion to elastically support the contact portion.

Proposed are a probe card for performing a circuit test of a wafer and a manufacturing method therefor. More particularly, proposed are a probe card and a manufacturing method therefor, in which the process of inserting probe pins is eliminated.

A probe has a substantially bar shape, and includes a tip end, a base end, and a body portion that is located between the tip end and the base end and has a thickness in a thickness direction orthogonal to an axial direction of the substantially bar shape thinner than the tip end. The body portion includes a slope surface that is continuous with the tip end and is inclined with respect to the axial direction in a direction in which the thickness becomes gradually thinner with increasing distance from the tip end. A first region having a surface shape that bulges outward is provided in at least a part of the slope surface.

A testing device for wafer level testing of IC circuits is disclosed. An upper and lower pin (22, 62) are configured to slide relatively to each other and are held in electrically biased contact by an elastomer (80). The elastomer is precompressed from its natural rest state between a top (22) plate and a bottom (70). Pre compression improves the resilient response of the pins. The pin crowns (40) are maintained relatively coplanar by the engagement of at least one flange (44a-b) against an up-stop surface 90 of plate 20, thereby insuring coplanarity of the crowns. The pin guide (12) is maintained in alignment with the retainer 14 by establishing a registration corner (506) and driving the guide into the corner by elastomers in at least one diagonally opposite corner.

The present disclosure discloses a probe module, comprising: a body, a floating plate located at the bottom of the body and a probe assembly located on the side of the body which is far away from the floating plate. The probe assembly includes a cover plate, a mould core comprising pin grooves and blade pins each limited and fixed in the pin groove by a limiting member. The floating plate comprises pin holes, and the floating plate is configured to be floatable relative to the body in an extension direction of the blade pin and electrical contact terminals of the blade pins may be inserted into the pin holes from the surface of the floating plate close to the body and protrude from the surface of the floating plate which is far away from the body.

A probe card device and a neck-like probe thereof are provided. The neck-like probe includes a conductive pin and a ring-shaped insulator. The conductive pin includes a stroke segment and two end segments extending from the stroke segment. The stroke segment has two broad side surfaces and two narrow side surfaces, and each of the broad side surfaces has a long slot extending from one of the narrow side surfaces to the other one. The two long slots have a minimum distance therebetween that is 75%-95% of a maximum distance between the two broad side surfaces. The ring-shaped insulator surrounds a portion of the conductive pin having the two long slots, and a portion of the neck-like probe corresponding in position to a part of the ring-shaped insulator on the two broad side surfaces has a thickness that is 85%-115% of the maximum distance.