Abstract: The invention relates to a contact unit and particularly a solder pin, and a method for producing a contact unit, comprising a body having a metal core and a tin layer surrounding the metal core. The tin layer is thereby designed as a duplex layer, and comprises a radially inner layer overlay of matte tin and a radially outer layer overlay of glossy tin.

Abstract: A connector includes an inner structure divided into first, second, and third components. The first component includes plug contacts disposed so as to form a circular plug face configured for connection to a mating connector. The second component includes a connection block having connection contacts configured for connection of a data line connection. The third component includes a printed circuit board configured to provide an adaptable connecting element between the connection block and the plug contacts. The printed circuit board includes a plurality of layers in a sandwich configuration, the plurality of layers including layers having conductive trace alternating with layers having a dielectric. A first layer having a dielectric is disposed between two layers having conductive trace so as to form a first parallel plate capacitor. A second layer having a dielectric is disposed between two layers having trace so as to form a second parallel plate capacitor.

Abstract: Disclosed is a method for joining two or several plastic parts of an electrical or electronic component, preferably a particularly multipole connector. According to said method, the plastic parts that are to be joined are joined together in a gluing process by means of an adhesive. The adhesive is selected so as to be compatible with the synthetic material of which the plastic parts that are to be joined are made, thus ensuring high-quality adhesion while reducing the number of materials used for making electrical and electronic parts and simplifying dismounting and recycling.

Abstract: A connector includes an inner structure divided into first, second, and third components. The first component includes plug contacts disposed so as to form a circular plug face configured for connection to a mating connector. The second component includes a connection block having connection contacts configured for connection of a data line connection. The third component includes a printed circuit board configured to provide an adaptable connecting element between the connection block and the plug contacts. The printed circuit board includes a plurality of layers in a sandwich configuration, the plurality of layers including layers having conductive trace alternating with layers having a dielectric. A first layer having a dielectric is disposed between two layers having conductive trace so as to form a first parallel plate capacitor. A second layer having a dielectric is disposed between two layers having trace so as to form a second parallel plate capacitor.

Abstract: A reflected light from a Bragg grating in an electrical transformer or other apparatus at which temperature is to be measured, is positioned by an optocoupler through a second fiber provided with a second Bragg grating whose reflection wavelength is different from that of the first grating. The nonreflected light intensity is measured by a photodetector and is used to signal the temperature measurement.

Abstract: A reflected light from a Bragg grating in an electrical transformer or other apparatus at which temperature is to be measured, is positioned by an optocoupler through a second fiber provided with a second Bragg grating whose reflection wavelength is different from that of the first grating. The nonreflected light intensity is measured by a photodetector and is used to signal the temperature measurement.

Abstract: Fiber optic temperature measurement, especially for electric power equipment is effected utilizing, as the sensor, a portion of an optical fiber from which the coating has been removed and to which a glass capillary has been bonded by an adhesive. The measurement is carried out polarimetrically and utilizes the change in birefrigence resulting from a temperature change because of the mechanical stressing of the sensor region of the optical fiber.

Abstract: A fiber Bragg grating written into a glass fiber from which a coating has been removed, serves as a temperature sensor and is surrounded by a glass capillary. An epoxy resin fills the space between the capillary and the fiber containing the Bragg grating. Broad-band light launched into the fiber optical device is reflected depending upon the measured temperature and with amplification of the effect due to the fact that the strain resulting from the difference in thermal expansion coefficient of the adhesive and the capillary is superimposed upon the temperature variation of the Bragg grating.