A test apparatus and an automatic test equipment having the same are disclosed. The test apparatus includes a test head having a test area, a socket board combined to the test area of the test, the socket board including a socket body and an active device attached on a first surface of the socket body, the active device configured to operate a semiconductor package, and a heat exchanger arranged on an upper portion of the test head, the heat exchanger being in contact with the socket board.

Methods and apparatus relating to processor and chipset continuity testing of package interconnect for functional safety applications are described. In an embodiment, voltage divider logic circuitry divides a reference voltage. Controller logic circuitry compares a divided voltage value from a node of the voltage divider logic circuitry and a threshold voltage value. A first end of the voltage divider logic circuitry is coupled to receive the reference voltage and a second end of the voltage divider logic circuitry is coupled to a Non-Critical-To-Function (NCTF) solder ball. The controller logic circuitry generates an error signal in response to a mismatch between the divided voltage value and the threshold voltage value. Other embodiments are also disclosed and claimed.

A method includes placing a semiconductor device package in a test handler, the semiconductor device package having leads of a first portion of a package substrate extending from a mold compound and leads of a second portion isolated from the first portion extending from the mold compound; contacting the first portion with a first and a second conductive slug; contacting the second portion with a third and a fourth conductive slug; contacting a first surface of the mold compound with a first plunger having a conductive plate and an insulating tip; contacting an opposite second surface of the mold compound with a second plunger having a conductive plate and an insulating tip; and placing a high voltage on the first conductive slug while placing approximately half the high voltage on the conductive plate of the first plunger, and placing a ground voltage on the third conductive slug.

The present disclosure discloses a test apparatus for testing a package-on-package (POP) type semiconductor package includes a lower socket mounted to a tester board providing a test signal, and provided with a plurality of socket pins connected to a lower terminal of a lower package to electrically connect the lower package and the tester board to each other; a pusher to which an upper package is coupled, the pusher having a pusher body which may be moved to approach the lower socket or to be moved away from the lower socket; and an upper socket coupled to the pusher body, and provided with an insulating pad formed of a nonelastic insulating material and a plurality of electrically-conductive parts supported on the insulating pad, the electrically-conductive part being formed of an elastic insulating material containing a plurality of electrically-conductive particles.

A failure pattern obtaining method and apparatus are provided. The method includes that: a chip test result picture for a wafer is obtained, the chip test result picture being marked with a plurality of failure test points; a vector for every two points among all failure test points is calculated; a plurality of failure test points having a same vector are designated as a same group; a plurality of pending failure patterns are separated from each of groups; a failure pattern is obtained based on the plurality of the pending failure patterns.

A method for detecting a memory chip includes the following steps coupling a detecting circuit to a first area and a second area of the memory chip, the second area is not overlapped with the first area; inputting a first detecting signal from the detecting circuit to the first area of the memory chip; burning out a cell of the detecting circuit; and inputting a second detecting signal from the detecting circuit to the second area of the memory chip.

Disclosed herein are structures and techniques for exposing circuitry in die testing. For example, in some embodiments, an integrated circuit (IC) die may include: first conductive contacts at a first face of the die; second conductive contacts at a second face of the die; die stack emulation circuitry; other circuitry; and a switch coupled to the second conductive contacts, the die stack emulation circuitry, and the other circuitry, wherein the switch is to couple the second conductive contacts to the other circuitry when the switch is in a first state, and the switch is to couple the die stack emulation circuitry to the other circuitry when the switch is in a second state different from the first state.

A test apparatus includes a test chamber in which a plurality of the semiconductor packages having a plurality of component dies is secured, an operation tester configured to conduct an operation test to the plurality of semiconductor packages to detect whether at least one semiconductor package is an operation fault package having a fault and identify a fault package point at which the operation fault package is located, a fault heat detector configured to detect a fault heat generated from the fault, and a test controller configured to control the operation tester to conduct the operation test to the plurality of semiconductor packages and control the fault heat detector subsequent to the operation test to detect the fault heat generated from the fault of the operation fault package to determine a vertical point of the fault and to determine a fault die having the fault.

A testing apparatus for a semiconductor package includes a circuit board, testing patterns and a socket. The circuit board has a testing region and includes a plurality of testing contacts and a plurality of signal contacts distributed in the testing region. The testing patterns are embedded in the circuit board and electrically connected to the testing contacts, where each of the testing patterns includes a first conductive line and a second conductive line including a main portion and a branch portion connected to main portion. The first conductive line is connected to the main portion. The socket is located on the circuit board and comprising connectors electrically connected to the circuit board, wherein the connectors are configured to transmit electric signals for testing the semiconductor package from the testing apparatus.

This disclosure describes die test architectures that can be implemented in a first, middle and last die of a die stack. The die test architectures are mainly the same, but for the exceptions mentioned in this disclosure.