The present disclosure describes a semiconductor wafer testing environment for routing signals used for testing integrated circuits formed onto a semiconductor wafer. The semiconductor wafer testing environment includes a semiconductor wafer tester to control overall operation and/or configuration of the semiconductor wafer testing environment and a semiconductor wafer prober to test the integrated circuits formed onto the semiconductor wafer. The semiconductor wafer prober includes a probe card having a transmission line coupler formed onto a flexible substrate. The transmission line coupler includes multiple transmission line coupling blocks that extend radially from a central point of the flexible substrate in a circular manner.

A testing device is disclosed. The testing device includes: a testing platform; an electromagnetic relay platform arranged opposite to the testing platform; and a plurality of probe assemblies disposed between the electromagnetic relay platform and the testing platform. Each of the probe assemblies includes an electromagnetic base and a probe mounted in a side of the electromagnetic base away from the electromagnetic relay platform. Each of the electromagnetic bases is attracted together with the electromagnetic relay platform under an electromagnetic attraction force when the electromagnetic relay platform is energized. The above testing device may be used for testing a variety of circuit boards, and has a relatively wide application.

The present invention relates to a test socket which allows for ease of alignment, and more particularly, to a test socket that is interposed between a device to be inspected and an inspection apparatus so as to electrically connect terminals of the device to be inspected and pads of the inspection apparatus, the test socket including: an alignment member that has a plurality of through-holes formed at points corresponding to the terminals of the device to be inspected or the pads of the inspection apparatus and is attached to the inspection apparatus such that the through-holes are located at the pads of the inspection apparatus; and an elastic conductive sheet including conductive parts that are disposed at the points corresponding to the terminals of the device to be inspected and include a plurality of conductive particles that are distributed in an insulating elastic material, insulating support parts that support the conductive parts and disconnect an electrical connection between adjacent conductive parts, and protruding conductive parts that protrude downward from the conductive parts and are inserted into the plurality of through-holes of the alignment member, wherein when the protruding conductive parts are inserted into the through-holes of the alignment member, the elastic conductive sheet is aligned in the the alignment member.

A separating device includes a base, a feed mechanism operable to convey first and second electronic component to a discharge end thereof, and a separating mechanism disposed on the base and including a first carrier connected slidably to the base and configured to carry the first electronic component, a second carrier connected slidably to the base and configured to carry the second electronic component, and a drive unit for driving reciprocation of the first and second carriers between a pick-up position, where the first carrier abuts against the second carrier, and a separating position, where the first and second carriers are separated from each other.

An electrical system may include a first electrical connector configured to be coupled to an electrical panel, a second electrical connector configured to be coupled to a testing device that is configured to test components coupled to the electrical panel, and a retaining harness assembly that removably connects to the first and second electrical connectors to maintain a secure mating relationship between the first and second electrical connectors.

A method of testing an integrated circuit of a device is described. Air is allowed through a fluid line to modify a size of a volume defined between the first and second components of an actuator to move a contactor support structure relative to the apparatus and urge terminals on the contactor support structure against contacts on the device. Air is automatically released from the fluid line through a pressure relief valve when a pressure of the air in the fluid line reaches a predetermined value. The holder is moved relative to the apparatus frame to disengage the terminals from the contacts while maintaining the first and second components of the actuator in a substantially stationary relationship with one another. A connecting arrangement is provided including first and second connecting pieces with complementary interengaging formations that restricts movement of the contactor substrate relative to the distribution board substrate in a tangential direction.

A test board for a semiconductor device and a test board including the same are provided. A test board includes a substrate, a mounting pad which is formed on the substrate and on which a semiconductor chip is mounted and a test terminal group arranged on the substrate to be spaced apart from the mounting pad and electrically connected to the semiconductor chip by a pattern arranged on the substrate, wherein the semiconductor chip includes a first terminal and a second terminal for inputting/outputting signals, the test terminal group includes a first test terminal electrically connected to the first terminal and a second test terminal electrically connected to the second terminal, a first voltage is applied to the first terminal and the second terminal, and a stress signal that is caused by a second voltage is applied to the first test terminal.

An apparatus for exchanging a probe includes a stacker configured to receive a probe and to align the probe, a probe connector connected to the probe, and a laser alignment unit including a light emitter and a light receiver. The light emitter is configured to emit a laser beam to the probe, and the light receiver is configured to detect the laser beam reflected by the probe. The laser alignment unit is configured to detect when the probe is properly aligned on the probe connector using the light receiver, and the laser alignment unit is configured to stop moving the stacker when it is detected that the probe is properly aligned.

Apparatus for testing a device by delivering an electrostatic discharge signal to one or more device terminals, comprising a first part configured for mechanically mounting the device and comprising one or more first part connectors for electrically coupling to the one or more device terminals and thus providing electrical access to the one or more device terminals, a second part comprising one or more second part connectors configured for electrically coupling the one or more first part connectors to the one or more second part connectors for testing the device via the second part connectors, and a guide arranged for mechanically moving the first part relative to the second part. The guide is configured to physically disconnect the one or more first part connectors from the one or more second part connectors while the electrostatic discharge signal is delivered to the one or more device terminals.

The disclosure describes a novel method and apparatus for improving silicon interposers to include test circuitry for testing stacked die mounted on the interposer. The improvement allows for the stacked die to be selectively tested by an external tester or by the test circuitry included in the interposer.