摘要:
A probe holder in which the probe needle has a slight horizontal offset under the action of a vertical force, includes a probe holder for a probe needle, wherein the holder is adapted, for fastening and electrical contact-connection, on a carrier device of a test apparatus and has a holder arm having a needle holder at the free end thereof to fasten the probe needle, and a fastening arm for connecting the probe holder to the carrier device. The holder arm and the fastening arm are connected to one another by an articulated joint, whereby horizontal offset of the needle tip on account of external forces can be reduced or even prevented by increasing the radius of the yielding movement of the probe needle.
摘要:
A micromanipulator for moving a probe comprises two elements which are mechanically connected to one another in such a way that one element can be moved relative to other element. The movement of the element occurs as a result of the pressure change of a fluid which acts upon an actuator which is in mechanical contact to a mobile element or to an element moving on a surface segment.
摘要:
A method for perpendicular positioning of a probe card relative to a test substrate, includes storing a separation position approached in a first positioning step as a distance between the needle tips of the probe card and the substrate, storing a contact position approached in a second positioning step until the probe card contacts the substrate, and displaying an image of the needle tips. For avoiding erroneous operation after a probe card has been changed, when imaging the needle tips, the stored contact position is imaged and is changed until presentation of this contact position corresponds to actual height of the tips appropriate for the respective probe card and this setting is then stored as a new contact position. A display device presents the needle tips and the stored contact position and is connected to a memory, a recording device and an input device which changes the contact position.
摘要:
A method of contacting a contact area with the tip of a contact needle (contact tip) in a prober and the arrangement of such a prober, is based on the object of ensuring reliable contacting and direct observation of the establishment of the contact between the contact tip and the contact area when contacting contact pads of small dimensions. The prober substantially includes a base frame with a movement device including a clamping fixture for receiving a semiconductor wafer and also contact needles, which are arranged opposite the free surface of the semiconductor wafer. The contacting of the contact tips initially requires a horizontal positioning of the semiconductor wafer, so that the contact area and the contact tip are one above the other and at a distance from each other, and subsequently moving vertically in the direction of the contact tip, until a contact of the contact tips with the contact area is established. The object is achieved by the vertical movement of the semiconductor wafer until the end position is reached being directly observed in a horizontal direction of observation and, for this purpose, an observation device is arranged in such a way that the observation axis runs in the spacing above the free wafer surface.
摘要:
A prober is described that is suitable for testing of semiconductor substrates under atmospheric conditions that deviate from ambient conditions. The prober includes a chuck for mounting of a semiconductor substrate and a probe holder for mounting of test tips for electrical contacting of the semiconductor substrate. The semiconductor substrate and test tips are arranged within a housing sealed relative to the surrounding atmosphere. The housing comprises two housing parts joined with a seal. The seal can be inflated with two different pressures and is less deformable at higher pressure. For testing of the semiconductor substrate, coarse positioning of the semiconductor substrate relative to the test tips occurs under atmospheric conditions and then fine positioning with the sealed housing and deformable seal before the lower deformability of the seal is produced at higher pressure in the seal and the semiconductor substrate is contacted by the test tips and tested.
摘要:
A method for perpendicular positioning of a probe card relative to a test substrate, includes storing a separation position approached in a first positioning step as a distance between the needle tips of the probe card and the substrate, storing a contact position approached in a second positioning step until the probe card contacts the substrate, and displaying an image of the needle tips. For avoiding erroneous operation after a probe card has been changed, when imaging the needle tips, the stored contact position is imaged and is changed until presentation of this contact position corresponds to actual height of the tips appropriate for the respective probe card and this setting is then stored as a new contact position. A display device presents the needle tips and the stored contact position and is connected to a memory, a recording device and an input device which changes the contact position.
摘要:
A method and an apparatus are provided which make it possible, when testing chips arranged on a wafer, to be able to test optionally both additional components arranged on horizontal boundary lines and on vertical boundary lines. The additional components arranged on horizontal boundary lines are tested in a first position of the wafer. For testing the additional components arranged on vertical boundary lines, the wafer is rotated about its vertical axis through 90° relative to the first position into a second position. The apparatus comprises a housing and, in the housing, at least one test probe for making contact with an electronic component, a chuck for moving the wafer and a rotatably mounted additional plate operatively connected to the chuck.
摘要:
A method is disclosed for measurement of wafers and other semiconductor components in a probe station, which serves for examination and testing of electronic components. The device under test is held by a chuck and at least one electric probe by a probe support and the device under test and the probe are selectively positioned relative to each other by a positioning device with electric drives and the device under test is contacted. The drive of the positioning device remains in a state of readiness until establishment of contact and is switched off after establishment of contact and before measurement of the device under test.
摘要:
In a method and an apparatus for measuring temperature-controlled electronic components in a test station, a component to be measured is held and positioned using a chuck, has a temperature-controlled and directed fluid flow applied to it and is electrically contact-connected using probes and is measured. The setting of the temperature of the component to the temperature at which the measurement is intended to be carried out is effected solely using a directed fluid flow at a defined temperature.
摘要:
The invention, which relates to a test apparatus with loading device which has a chuck, which is provided with a bearing surface for a test substrate and with a chuck drive, by means of which the chuck can be displaced with a working area, and which has a receiving means for receiving test substrates, which can be displaced from a working area of the chuck to a receiving position outside the working area, is based on the object of increasing the accuracy of the movement of the chuck. Moreover, in the case of test apparatus with a controlled atmosphere, a further object is to prevent the chuck from being exposed to the open-air atmosphere. This is achieved by virtue of the fact that a carriage, which can be displaced between a position close to the chuck, in which the chuck is located in a position inside the working area, and the receiving position, is provided, which carriage is provided with a holder, in which the test substrate can be at least indirectly inserted in such a way that the test substrate, when the carriage is in the position close to the chuck, is located above the chuck. The holder and the chuck can move vertically relative to one another when the carriage is in the position close to the chuck.