SUSS MicroTec Test Systems GmbH Patent applications |
Patent application number | Title | Published |
20110013011 | ARRANGEMENT AND METHOD FOR FOCUSING A MULTIPLANE IMAGE ACQUISITION ON A PROBER - A focused multi-planar image acquisition in real time even while a test object is moving, is achieved with a system and a method for a focused multi-planar image acquisition in a prober. When a surface of a test object is positioned laterally in relation to tips of separated probe needles, a microscope is focused on the surface of the test object at a first time and on a plane of the probe needles at a second time. The objective lens is provided with a microscope objective lens focusing system, which can focus the objective lens, independently of a vertical adjustment drive of the microscope, on the surface of the test object in a first focal plane and in a second focal plane, which is on a level with the probe needle tips. | 01-20-2011 |
20100294053 | PROBE HOLDER - A probe holder has a manipulator, a probe arm arranged on the manipulator, and a probe needle that is at least indirectly connected to the probe arm. To increase the number of contacts of a substrate to be tested and to make it possible to test a plurality of contacts in etched trenches of semiconductor elements in a group of wafers, the probe arm is connected to a needle support on which the probe needle and at least one second probe needle are arranged. | 11-25-2010 |
20100289511 | METHOD FOR TESTING A TEST SUBSTRATE UNDER DEFINED THERMAL CONDITIONS AND THERMALLY CONDITIONABLE PROBER - In a method and a device for testing a test substrate under defined thermal conditions, a substrate that is to be tested is held by a temperature-controllable chuck and is set to a defined temperature; the test substrate is positioned relative to test probes by at least one positioning device; and the test probes make contact with the test substrate for testing purposes. At least one component of the positioning device that is present in the vicinity of the temperature-controlled test substrate is set to a temperature that is independent of the temperature of the test substrate by a temperature-controlling device, and this temperature is held constant. | 11-18-2010 |
20100106439 | PROCESS FOR MEASURING THE IMPEDANCE OF ELECTRONIC CIRCUITS - In a method for measurement of impedance of electronic circuits, an input of the electronic circuit is acted upon by a high-frequency ac voltage with a measurement frequency f as a test signal and, from the reaction of the circuit to the test signal, the impedance Z of the circuit is determined. A parameter S, which represents the value | 04-29-2010 |
20100045265 | METHOD AND DEVICE FOR FORMING A TEMPORARY ELECTRICAL CONTACT TO A SOLAR CELL - In a method and devices for forming a temporary electrical contact to a solar cell for testing purposes, probes form a contact to the electrode terminals of a solar cell held by a sample holder. The probes are held by a probe holder and exhibit an elastic, electrically conductive contact element and at least one reference sensor. In order to form a contact, the solar cell and the probes are positioned in relation to each other, and then a probe is placed on an electrode terminal of the solar cell. To this end, a feed motion of the probe is carried out until a reference sensor of the probe generates a reference signal upon reaching a predefined distance. Then the feed motion is continued by a predefined path that goes beyond the contact element making contact with the electrode terminal, in order to carry out an overtravel. | 02-25-2010 |
20100045264 | PROBE FOR TEMPORARILY ELECTRICALLY CONTACTING A SOLAR CELL - A probe for temporarily electrically contacting a solar cell for testing purposes, has at least one elastic, electrically conductive contact element for producing the electrical contact, at least one reference sensor for indicating a distance of the contact element to an external reference surface using an electrical signal of the reference sensor, and a mounting plane to which the tip of the contact element is oriented. The probe ensures a secure electrical contact of the solar cell in a testing station with minimal mechanical stress, and is also suitable for use in an industrial continuous production method. | 02-25-2010 |
20100029022 | METHOD FOR IMPROVED UTILIZATION OF SEMICONDUCTOR MATERIAL - In a method for producing semiconductor components, in which chips are structured, tested, and isolated into dies on a wafer, in the event of a wafer being broken during the method, undamaged chips of a fragment of the wafer delimited by at least one edge section and at least one fracture contour are processed further as usual. The method has the result that the yield of usable chips is significantly increased in relation to the discarding and disposal of broken wafers provided in the prior art. The average production costs of electronic components and the loss of valuable semiconductor materials and the costs for the disposal of the fragments viewed as discards up to this point are thus significantly reduced. | 02-04-2010 |
20100011569 | APPARATUS AND METHOD FOR ASSEMBLING SEVERAL SEMICONDUCTOR DEVICES ONTO A TARGET SUBSTRATE - A method and apparatus are provided for assembly of several semiconductor components on a target substrate. At least two semiconductor components are removed from a dispenser by a transfer device and simultaneously mounted in predefined target positions on the target substrate. The apparatus includes positioning units for positioning of the semiconductor components relative to the target substrate. Feed of the target substrate occurs by a first positioning unit into an assembly area where the semiconductor components are mounted on the target substrate in a first X direction, and feed of the transfer device with the semiconductor components occurs by a second positioning unit into the assembly area in a second Y direction. Both directions deviate from each other and the assembly area represents vicinity of the intersection point of the X and Y directions. Removal of the process target substrate from the assembly area continues its feed movement. | 01-21-2010 |
20090315581 | CHUCK FOR SUPPORTING AND RETAINING A TEST SUBSTRATE AND A CALIBRATION SUBSTRATE - A chuck for supporting and retaining a test substrate includes a device for supporting and retaining a calibration substrate. The chuck comprises a first support surface for supporting a test substrate and a second support surface, which is laterally offset to the first support surface, for supporting a calibration substrate The calibration substrate has planar calibration standards for calibration of a measuring unit of a prober, and dielectric material or air situated below the calibration substrate at least in the area of the calibration standard. In order to be able to take the actual thermal conditions on the test substrate and in particular also on known and unknown calibration standards and thus the thermal influence on the electrical behavior of the calibration standard used into consideration, the second support surface is equipped for temperature control of the calibration substrate. | 12-24-2009 |
20090314051 | METHOD FOR DETERMINATION OF ELECTRICAL PROPERTIES OF ELECTRONIC COMPONETS AND METHOD FOR CALIBRATION OF A MEASURING UNIT - In a method for calibration of a measurement unit for determination of electrical properties of electronic components using at least one planar calibration standard, an electrical measurement quantity is measured at two different temperatures. The electrical property of the calibration standard is known at at least one temperature or is to be determined by calculation. A temperature coefficient is determined from both measured quantities, which describes the relative change of the electrical property of the calibration standard accompanying the temperature change and with which the electrical property of the calibration standard is determined at a measurement temperature. From the change in electrical property, an error coefficient of the measurement unit is determined. A method is also provided for determination of an electrical property of an electronic component, using the calibration method. | 12-24-2009 |
20090179658 | PROBER FOR TESTING DEVICES IN A REPEAT STRUCTURE ON A SUBSTRATE - A prober for testing devices in a repeat structure on a substrate is provided with a probe holder plate, probe holders mounted on the plate, and a test probe associated with each holder. Each test probe is displaceable via a manipulator connected to a probe holder, and a substrate carrier fixedly supports the substrate. Testing of devices, which are situated in a repeat structure on a substrate, in sequence without a substrate movement and avoiding individual manipulation of the test probes in relation to the contact islands on the devices, is achieved in that the probe holders are fastened on a shared probe holder plate and the probe holder plate is moved in relation to the test substrate. | 07-16-2009 |
20090085595 | METHOD AND ARRANGEMENT FOR POSITIONING A PROBE CARD - 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. | 04-02-2009 |
20090058442 | PROBER FOR TESTING COMPONENTS - A prober for testing components comprises a lower frame, over which a probe holder plate is disposed at a distance therefrom for receiving test probes that make contact with the components to be tested and to which a displacement device is connected. A substrate carrier is disposed in the space between the frame and the probe holder plate, and the probe holder plate is provided with an opening, below which the substrate carrier can be displaced. To expand the scope of application of probers used for testing components, all those components of the prober that surround the substrate are made from a non-magnetic material. | 03-05-2009 |
20090049944 | MICROMANIPULATOR FOR MOVING A PROBE - 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. | 02-26-2009 |
20090021275 | METHOD AND ARRANGEMENT FOR POSITIONING A PROBE CARD - 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. | 01-22-2009 |
20080315903 | METHOD FOR MEASUREMENT OF A DEVICE UNDER TEST - 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. | 12-25-2008 |
20080284457 | METHOD AND APPARATUS FOR CONTROL OF A POSITIONING DEVICE - In a device and a method for positioning an object, a drive of a movement device is controlled. To this end, a visual joystick is actuated, as a result of which a moveable actuator is moved, at least linearly by means of a display of a control unit of the movement device, into a position, in which a direction of movement, which can be implemented with the drive, is displayed symbolically. The drive for the movement of the object in the displayed direction of movement is initiated by means of a switching function of the actuator. | 11-20-2008 |
20080281537 | Process for Measuring the Impedance of Electronic Circuits - The task underlying the invention, which concerns a method for measurement of impedance of electronic circuits, in which the input of the electronic circuit is acted upon by a high-frequency ac voltage with a measurement frequency f as test signal and from the reaction of the circuit to the test signal the impedance Z of the circuit is determined, in which a parameter S, which represents the value | 11-13-2008 |
20080224426 | CHUCK WITH TRIAXIAL CONSTRUCTION - A chuck with triaxial construction comprises a receiving surface for a test substrate and arranged below the receiving surface: an electrically conductive first surface element, an electrically conductive second surface element electrically insulated therefrom, and an electrically conductive third surface element electrically insulated therefrom, and, between the first and the second surface element, a first insulation element and, between the second and the third surface element, a second insulation element. A chuck for very low current measurements which can be used to prevent the occurrence of leakage currents and a triboelectric charge and which is configured favourably in terms of production, is achieved because at least one of the electrically conductive surface elements is mechanically connected to at least one insulation element and has an elasticity that compensates for an expansion difference resulting from differences in different coefficients of expansion between a respective surface element and an adjoining insulation element. | 09-18-2008 |