A probe card board in the present disclosure includes a plurality of through holes designed to receive a probe brought into contact with a measurement object. The probe card board is composed of silicon nitride based ceramics. The probe card board includes a first surface opposed to the measurement object and a second surface located opposite to the first surface. The probe card board contains a plurality of crystal phases of metal silicide. Metal constituting the metal silicide is at least one kind selected from among molybdenum, chrome, iron, nickel, manganese, vanadium, niobium, tantalum, cobalt and tungsten.

Proposed is a probe card for performing a circuit test on a wafer and, more particularly, a probe card capable of realizing a reduction in size and pitch of probe insertion holes.

An electrical connection device includes: a wiring board in which lands are arranged on a main surface; and probes. Each of the probes has a distal end portion that contacts an object to be measured and a proximal end portion that contacts the land. A material of a surface film of the proximal end portion, which contacts the land, is a metal material different in composition from a material of the land that contacts the surface film.

A rectangular probe includes two broad side surfaces and two narrow side surfaces each parallel to a longitudinal direction of the rectangular probe. The rectangular probe includes a middle segment, a first connecting segment and a second connecting segment respectively extending from two opposite ends of the middle segment, a first contacting segment and a second contacting segment respectively extending from the first and second connecting segments, and a stroke structure arranged on the middle segment, the first contacting segment, or the second contacting segment. A longitudinal thru-hole of the stroke structure is formed by penetrating through the two broad side surfaces. Two transverse grooves of the stroke structure are respectively recessed in the two broad side surfaces. The two transverse grooves are configured to move in two directions away from each other so as to reduce a length of the rectangular probe.

The present invention is intended to provide a vertical probe and a jig which has sufficient flexibility for contact reaction force from the electrical contact to be inspected, easy insertion and assembly of the probe even with narrow pitch, and enables cost reduction and delivery time reduction, wherein means for driving and positioning relative positions of upper and lower hole plates is provided, the straight pins as materials of vertical probes are inserted into the upper and lower hole plates, plastic deformation is applied to the straight pin by driving and positioning the relative position of the upper and lower hole plates, a symmetrical arched shape is provided, and a bending point is formed in the vicinity of the lower side of the upper hole plate and in the vicinity of the upper side of the lower hole plate.

Provided is a semiconductor testing apparatus that a testing pin is rendered to electrically connect to another testing pin or an external substrate through a conductive layer formed in the guide hole, so that it results in enhancement in various characteristics such as poor electrical contact of the testing pin, space efficiency, noise, and high frequency characteristics, thereby improving reliability in testing results.

The test system provides an array of test probes. The probes pass through a first or upper probe guide retainer which has a plurality of slot sized to receive the probes in a way that they cannot rotate. A plurality of flex circuits at the different heights engage bottom probe ends at their respective height levels and flex circuits continue the electrical connection from the probes to a load board. The test probes are bonded to the flex circuits by ring shaped flowable conductive material. The flex circuits are biased against a load board by an elastomeric pad of spaced part conical projections.

This inspection jig is provided with: an inspection-side support member having a counter plate (51) provided with a facing surface (F) disposed to face the substrate; and an electrode-side support member (6) having supporting plates (61-63) disposed to face an electrode plate (9) located on the side opposite to the facing surface (F) of the counter plate (51) A probe supporting hole (23), into and by which the rear end portion of the probe (Pr) is inserted and supported, is provided in the supporting plates (61-63), and the probe supporting hole (23) is provided with a restricting surface which is formed along a supporting line (V) inclined at a certain angle () with respect to a reference line (Z), and which restricts the rear end portion of the probe (Pr) from moving in the direction perpendicular to the inclined direction of the supporting line (V).

A connector pin device includes a test socket body made of a flexible insulating material and including a pin mounting part in which mounting holes have been formed and a support part supporting the pin mounting part, sliding contact pins respectively formed in the mounting holes and each including a first contact pin having a first end externally exposed and a second end located within the mounting hole and a second contact pin having a first end externally located on the side opposite the first end of the first contact pin and a second end located within the mounting hole, wherein the first and second ends of the first and the second contact pins are provided to slide and come into contact with each other, and an cavity portion formed in a portion where the second ends of the sliding contact pins in the mounting hole are located.

An inspection jig includes a support member that supports a probe. The support member includes an inspection side plate-shaped body arranged on one end portion side, and an electrode side plate-shaped body arranged on the other end portion side of the support member. A probe support hole into which one end portion of the probe is inserted and supported is formed in the inspection side plate-shaped body. A probe insertion hole into which the other end portion of the probe is inserted is formed in the electrode side plate-shaped body. The probe is supported while the one end portion of the probe abuts on an inner wall of the probe support hole in a state in which a contact portion provided at the one end portion of the probe is not in contact with an inspected portion to be inspected.