摘要:
The invention relates to a method of calibration of the beam position of a corpuscular beam. A calibration body with structures is used, wherein the structures have a structure period Ps in the plain section and within each structure there is a position L intended for the measurement. For the calibration, at least one detection signal each at structures in the plain section of the calibration body is generated, wherein the corpuscular beam is deflected with deflectors on beam target positions L1 with the beam target period P1, which is larger than half of the structure period Ps, whereby a basic calibration is used for the control of the deflectors, and wherein the beam target deflections intentionally deviate either in the beam target period P1 from the structure period Ps and/or in the beam target position L1 from the position L.
摘要:
The invention relates to a method of calibration of the beam position of a corpuscular beam. A calibration body with structures is used, wherein the structures have a structure period PS in the plain section and within each structure there is a position L intended for the measurement. For the calibration, at least one detection signal each at structures in the plain section of the calibration body is generated, wherein the corpuscular beam is deflected with deflectors on beam target positions L1 with the beam target period P1, which is larger than half of the structure period PS, whereby a basic calibration is used for the control of the deflectors, and wherein the beam target deflections deviate either in the beam target period P1 from the structure period PS and/or in the beam target position L1 from the position L.
摘要:
The present invention provides a method of electron beam testing of liquid crystal displays comprising non-uniform electrodes having a conductive portion and a dielectric portion. In accordance with methods of the present invention, the diameter of the electron beam is increased so that the beam is less focused, i.e., enlarged or “blurred,” over a non-uniform electrode area. The diameter of the beam is increased so that the beam generates secondary electrons from the conductive portion of the non-uniform electrode area. The configured test beam may be circular, elliptical, or other suitable shapes.
摘要:
The present invention provides a method of electron beam testing of liquid crystal displays comprising non-uniform electrodes having a conductive portion and a dielectric portion. In accordance with methods of the present invention, the diameter of the electron beam is increased so that the beam is less focused, i.e., enlarged or “blurred,” over a non-uniform electrode area. The diameter of the beam is increased so that the beam generates secondary electrons from the conductive portion of the non-uniform electrode area. The configured test beam may be circular, elliptical, or other suitable shapes.
摘要:
A method and apparatus for testing a plurality of electronic devices formed on a large area substrate is described. In one embodiment, the apparatus performs a test on the substrate in one linear axis in at least one chamber that is slightly wider than a dimension of the substrate to be tested. Clean room space and process time is minimized due to the smaller dimensions and volume of the system.
摘要:
The present invention relates to a device for testing an optoelectronic module, comprising a first source for generating an electromagnetic beam or particle beam, a second source for illuminating the optoelectronic module; and a detector. In addition, a method for testing an optoelectronic module is provided comprising illuminating the optoelectronic module, directing an electromagnetic beam or particle beam and detecting defects in the optoelectronic module. The illumination additional to the electromagnetic beam or particle beam makes defects visible which otherwise would not be detected.
摘要:
An improved prober for an electronic devices test system is provided. The prober is “configurable,” meaning that it can be adapted for different device layouts and substrate sizes. The prober generally includes a frame, at least one prober bar having a first end and a second end, a frame connection mechanism that allows for ready relocation of the prober bar to the frame at selected points along the frame, and a plurality of electrical contact pins along the prober bar for placing selected electronic devices in electrical communication with a system controller during testing. In one embodiment, the prober is be used to test devices such as thin film transistors on a glass substrate. Typically, the glass substrate is square, and the frame is also square. In this way, “x” and “y” axes are defined by the frame.
摘要:
An apparatus and method for testing large area substrates is described. The large area substrates include patterns of displays and contact points electrically coupled to the displays on the large area substrate. The apparatus includes a prober assembly that is movable relative to the large area substrate and/or the contact points, and may be configured to test various patterns of displays and contact points on various large area substrates. The prober assembly is also configured to test fractional sections of the large area substrate positioned on a testing table, and the prober assembly may be configured for different display and contact point patterns without removing the prober assembly from the testing table.
摘要:
A method of testing electronic devices on substrates is described. The method includes placing a configurable prober over a first substrate, testing the first substrate, re-configuring the configurable prober, placing the configurable prober over a second substrate, and testing the second substrate.
摘要:
A method and an apparatus for testing the function of a plurality of microstructural elements by irradiation with particle radiation. All of the microstructural elements detected as malfunctioning are listed in a first error list in a first test sequence. The microstructural elements listed in the first error list are tested once more in at least one further test sequence and at least the result of the test sequence last carried out is evaluated to establish the overall test result. The first test sequence is designed so that, if possible, all of the microstructural elements which are actually malfunctioning are detected. The invention further relates to a method for producing microstructural elements which are constructed as a plurality on a substrate and are tested according to the above test method.