Abstract: The invention relates to a contact probe arrangement for electrically connecting a test system with contact pads of a device to be tested. The contact probes are located in guide grooves. The guide grooves as well as areas are provided in a plane parallel to the surface of a guide plate and are covered by a protective plate. The contact probes may bend out laterally into the respective areas. This assures a very dense contact probe array. Contact probe arrays of this type may be used, for example, for detecting opens and shorts in integrated circuits or semiconductor chips. The invention overcomes the problem of adjusting for height differences in the contact pads caused by an uneven surface of the device to be tested.

Abstract: The invention relates to a finger tester probe including a probe element for electrically contacting a contact point of a circuit board under test, an actuator including a permanently premagnetized core and a solenoid element. The solenoid element is shiftingly arranged on the permanently premagnetized core and is mechanically connected to the probe element. Upon being energized, the solenoid element is moved together with the probe element. Since in accordance with the invention a movable part of the actuator is not mechanically connected to a fixed part of the actuator, the test probe which is attached to the movable part is able to bring the probe element into contact with a contact point of a circuit board under test at high speed.

Abstract: The invention relates to a contact probe arrangement for electrically connecting a test system with contact pads of a device to be tested. The contact probes are located in guide grooves. The guide grooves as well as areas are provided in a plane parallel to the surface of a guide plate and are covered by a protective plate. The contact probes may bend out laterally into the respective areas. This assures a very dense contact probe array. Contact probe arrays of this type may be used, for example, for detecting opens and shorts in integrated circuits or semiconductor chips. The invention overcomes the problem of adjusting for height differences in the contact pads caused by an uneven surface of the device to be tested.

Abstract: A contact probe arrangement for electrical functional testing, including a first stack of perforated plates, a second stack of perforated plates and a plurality of contact probes. The probes are in contact with the second stack of perforated plates, and in communication with the first stack, the probes are arranged and dimensioned such that the probes are capable of lateral buckling and capable of being guided through the first stack. The contact probe arrangement also includes a test card, a counterholding piece attached to the test card, and a pressure plate, the pressure plate movably connected to the test card. The first perforated plate is connected to the second perforated plate such that the first perforated plate is capable of movement toward and away from the second perforated plate and the second perforated plate is connected to the first perforated plate such that the second perforated plate is capable of movement toward and away from the first perforated plate.

Abstract: The invention relates to an adhesive bond 1 for a plurality of densely packed elements 4a, 4b, 4c guided into a plate pack 3. At the plate surface 2 with the adhesive bond 1 the guidance holes 5a are made larger than the guidance holes 5b in the remainder of the plate pack (3) and the adhesive bond is effected by means of a highly viscous adhesive. Because of the larger opening 5a, an adhesive reservoir 10 is formed at the plate surface 2. This makes it possible to use high viscosity adhesives. The geometric features and the use of a highly viscous adhesive make it possible to manufacture durable and heat-resistant adhesive bonds for elements such as wires, glass fibers or micromechanical components.

Abstract: Disclosed is a high speed coaxial contact and signal transmission element which comprises an inner conductor element 1, an outer conductor element 6 and a dielectric area 4 between the inner conductor element 1 and the outer conductor element 6. The inner conductor element 1 is a continuous element and consists of a core 2 of hardened conductive material exhibiting good elastic properties surrounded by a metal shell 3. A filament 5 of low dielectric constant material is wrapped around the inner conductor element 1 and fixed on the surface of the inner conductor element 1. The outer conductor element 6 consists of a metal shield. These high speed coaxial contact and signal transmission elements are used for the transmission of high speed electrical signals in high density fashion and for contacting and testing electrical devices with minimal dimensions.

Abstract: Disclosed is a vacuum reactor for etching substrates having a low thermal conductivity to a high degree of etch rate uniformity, wherein the substrates to be etched are arranged in a holder at a predetermined spacing from the cathode to which RF energy is applied. According to a preferred embodiment of the invention, the cathode is raised in the area of the substrate to be etched to within a spacing of about 0.2 mm from the bottom side of the substrate. The cathode is made of aluminium, and is provided in the area of the substrate to be etched with a layer which acts as a black radiator. The heat formed during RIE is removed by radiation, and the radiation reflected from the cathode to the substrate is absorbed by the layer. Also disclosed is a method of etching substrates having a low thermal conductivity, in particular plastic substrates.

Abstract: Disclosed is a vacuum reactor for etching substrates having a low thermal conductivity to a high degree of etch rate uniformity, wherein the substrates to be etched are arranged in a holder at a predetermined spacing from the cathode to which RF energy is applied. According to a preferred embodiment of the invention, the cathode is raised in the area of the substrate to be etched to within a spacing of about 0.2 mm from the bottom side of the substrate. The cathode is made of aluminium, and is provided in the area of the substrate to be etched with a layer which acts as a black radiator. The heat formed during RIE is removed by radiation, and the radiation reflected from the cathode to the substrate is absorbed by the layer. Also disclosed is a method of etching substrates having a low thermal conductivity, in particular plastic substrates.