DE2705438B1 - PTC thermistor combination for the demagnetization of color television sets - Google Patents

Description

The invention is explained on the basis of the figures. It shows F i g. 1 the previously known degaussing circuit; F i g. 2 the degaussing circuit without series resistor; F i g. 3 a PTC thermistor combination; F i g. 4 the center disk in plan view; F i g. 5 is a longitudinal section through the connecting part of the central disk the line V-V.

F l g. I has already been explained above.

In flight. 2 is to be recognized. that the series resistor R is not included is. In this case it is essential that the thermal Coupling A between the two PTC thermistor elements 1 and 2 is particularly close, while the heat dissipation to the outside should be suppressed as far as possible. The thermal Coupling is achieved through the large central disk, which will be described later will. while the embodiment according to the invention to reduce heat dissipation the connector is used.

F i g. 3 shows a plan view of the PTC thermistor combination according to the invention, the enveloping insulation being cut open for the sake of clarity.

One recognizes a first ceramic PTC thermistor element 1, which under Interposition of a center electrode 4 thermally and electrically with a second PTC thermistor element 2 is closely coupled. This second PTC thermistor element is advantageous made of a material with a steep resistance temperature characteristic and with an opposite the first PTC element produced lower nominal temperature. Since on this one second PTC element 2 no high voltages are present and the heating occurs Smaller volume goes faster, its dimensions can be smaller than that of the heating thermistor I. The contacting of the PTC thermistor elements 1 and 2 takes place on the sides facing away from the central electrode 4 with the aid of external contact electrodes 3, each provided with three resilient contact tabs 3a for point-like contact are. With this construction of the external electrodes 3 it is achieved that not excessive a lot of heat is dissipated from the PTC thermistor elements 1 and 2. The additional or alternative configuration of the connection parts of the external electrodes accordingly that of the center electrode acts in the same way. The PTC thermistor combination that to avoid damage due to different thermal expansion in particular the center electrode 4 is not soldered, but clamped together, is through a heat-resistant plastic housing 6 held together and isolated. To a touch between the hot PTC thermistor flanks and the casing, for example a housing, To prevent this, the external dimensions of the contact electrodes 3 and 4 are larger than the diameter of the PTC thermistor elements.

In Fig. 4 the center electrode is shown. The connection part 5 is located between the large-area center electrode disk 4a and the tongue-like Extension 7. The connection part 5 is provided with a shoulder 5a with which the Component is supported when inserted into a printed circuit board. In the connection part 5 there is an elongated opening 8 through which the connecting part 5 in two webs 9 and 10 is shared. The opening is dimensioned so that the webs 9 and 10 are straight are so mechanically strong that the handling of the PTC thermistor combination z. B. when populating a printed circuit is possible. It goes without saying that the center electrode is made of metal, in particular of metal with good heat conduction and good electrical conductivity.

In Fig. 5, which is a section along the line V-V in FIG. 4 represents it is shown enlarged that the webs 9, 10 with embossings extending in the longitudinal direction 11 and 12 are provided in order to increase the mechanical rigidity of the connecting part. Instead of one imprint each, there can also be several imprints.

Claims (2)

Claims: 1. PTC thermistor combination for demagnetization of color televisions, in which a first PTC thermistor element with an intermediate layer a large, thermally and electrically well conductive center electrode a second PTC thermistor element is closely coupled, the PTC thermistor elements to the the center electrode opposite surfaces of outer electrodes contacted in a point-like manner are, the center electrode and the outer electrodes connecting parts with shoulders to Support and a tongue-like extension each for contacting the circuit have and the entire combination of insulating material is encased without the side surfaces of the PTC thermistor elements are touched, characterized in that at least the connection part (5) of the central electrode (4) in the area between the Disc surface (4a) and the tongue-like extension (7) an elongated opening (8) which divides the connecting part (5) into narrow webs (9, 10). 2. PTC thermistor combination according to claim 1, characterized in that that the narrow webs (9, 10) for the purpose of mechanical stiffening with impressions (11, 12) are provided. The invention relates to a PTC thermistor combination for demagnetization of color televisions, in which a first PTC thermistor element with an intermediate layer a large, thermally and electrically well conductive center electrode a second PTC thermistor element is closely coupled, the PTC thermistor elements to the the center electrode opposite surfaces of outer electrodes contacted in a point-like manner are, the center electrode and the outer electrodes connecting parts with shoulders to Support and a tongue-like extension each for contacting the circuit have and the entire combination of insulating material is encased without the side surfaces of the PTC thermistor elements are touched. Such a PTC thermistor combination is in the DT-AS 21 07 365 in all Details described. It is known that in the picture tubes of color television sets a Perforated mask made of ferromagnetic material is built in. To avoid color impurities This shadow mask has to be regularly demagnetized by a magnetic remanence induction will. Such a demagnetization process requires an initially strong, then gradually decreasing magnetic alternating field to a very small residual value. This demagnetization process should take place automatically, with everyone Switch on the television receiver. The PTC thermistor combination described in the specified DT-AS releases the problems that arise during demagnetization in a particularly simple manner. The circuit used for this is shown in FIG. 1 shown. This circuit is used for demagnetization for the shadow mask of a color television picture tube. You can see the two PTC thermistor elements 1 and 2, their thermal Coupling is symbolized by the arrow A. To the outer electrode of the PTC thermistor element 1 one pole of the AC mains voltage is connected. The center electrode will via a resistor R, the value of which is about a power of ten higher than that Resistance of the degaussing coil Sp. With the second pole of the mains alternating voltage tied together. The series circuit from the second is parallel to the resistor R PTC thermistor element 2 and the degaussing coil Sp. When applying the full When the voltage is applied, a large current first flows through the degaussing coil Sp. As the PTC thermistor combination heats up, this current decreases except for a negligibly small value. The one to maintain the nominal temperature of the PTC thermistor 1 serving as a heater is fed through the fixed resistor R. An equilibrium is then established between that fed to the PTC thermistor electrical energy and the heat energy dissipated to the environment. For newer PTC thermistor combinations for demagnetization exists the demagnetization circuit only consists of the two thermally closely coupled PTC thermistors and the degaussing coil. The resistor R is no longer required. at This double PTC combination is crucial for proper function on that the thermal coupling between the two PTC thermistor elements as possible is narrow, while the heat dissipation to the outside should be suppressed as possible. The present invention is based on the object in a Degaussing PTC combination of the type described above for heat dissipation to suppress to the outside as possible. A PTC thermistor combination is used to solve this problem specified type, which is characterized according to the invention that at least the connecting part of the center electrode in the area between the disk surface and the tongue-like extension has an elongated opening which the connecting part divides into narrow webs. Compared to an embodiment in which the connecting part of the electrodes is only made very narrow, either by a narrow strip or by tapering by means of notches from the edge sides, the proposed Embodiment has the advantage that a considerable mechanical strength is obtained remains even if the sum of the cross-sectional areas of the two webs is smaller than with a tapering of the connecting part from the edge sides. In particular, this is the case when the necessary rigidity of the connection part is achieved by one or more embossed beads. The proposed embodiment, the heat dissipation Reduced to values of about 700 / b compared to the normal width of the connection part the mere tapering of the connecting part due to the narrower configuration is the additional suppression of heat dissipation 5%, which in the present application is considerable and leads to the degaussing effect on circuits occurs properly without a series resistor.