EP0335142A1 - Transformer for switching network - Google Patents

Abstract

A transformer for a switching network is described, for isolating transformer operation, which has a core, consisting of only one piece, which requires no special subsequent treatment. …<IMAGE>…

Description

The invention relates to a switched-mode transformer for flyback converter operation, the magnetic circuit of which has at least one air gap to avoid the saturation of the magnetic core material, the core having a base part and core parts projecting at a distance from one another, and the windings are arranged on and on at least one coil former a protruding core part is postponed.

Switching power transformers of this type operate in the frequency range up to about 500 kHz and always require an air gap in the magnetic circuit so that the saturation of the magnetic core material is avoided.

In the known switching power transformers, the cores are designed in two parts, so that it is possible to be able to push the previously separately manufactured coils with one or more windings on a coil former onto the protruding core parts. The magnetic circuit is then closed with the second core part. In this context, double U, double E, EI, EC, ETD cores are known and similar core forms. In any case, the required air gap between the dividing surfaces of the core pairs is achieved, for example by inserting suitable spacers or by shortening at least one protruding core part compared to the others.

The known switching power transformers have the disadvantage that the cores require complicated and therefore expensive processing. In addition, the two parts of the core pairs have to be connected to one another by staples or by an adhesive process in a complex operation.

The invention has for its object to provide a switching power transformer of the type mentioned, which requires neither a complicated core processing nor means for assembling and holding together core parts. The above object is achieved according to the invention in that the core parts protruding from the base part are substantially extended beyond the width of the winding in order to form an air gap located outside the windings between their free end sections.

• 1) Für den magnetischen Kreis wird nur ein einziger einteiliger Kern benötigt.
• 2) aufwendige Schleifprozesse entfallen,
• 3) der Luftspalt liegt außerhalb der Spule; damit ist der Einfluß des Streufeldes auf die Wicklung ver­ringert (geringere Wirbelstromverluste),
• 4) die magnetischen Toleranzen sind eingeengt,
• 5) der Transformator kann leicht so angeordnet werden, daß das magnetische Streufeld Z.B. nur in die Pla­tine und nicht nach oben in die Bildröhre vagabun­diert, was bei Fernsehempfängern und Monitoren sehr wichtig ist.

The fact that in the switching power transformer according to the invention the free space between two adjacent projecting core parts simultaneously serves as an air gap, eliminates the need for a second core part to close the magnetic circuit after the coil or coils have been pushed onto a projecting core part, and thus that of the known transformers required complex and expensive core processing and assembly process. Compared to the prior art, the switching network transformer according to the invention thus has the following advantages:

• 1) Only one is used for the magnetic circuit one-piece core needed.
• 2) elaborate grinding processes are eliminated,
• 3) the air gap is outside the coil; this reduces the influence of the stray field on the winding (lower eddy current losses),
• 4) the magnetic tolerances are narrowed,
• 5) the transformer can easily be arranged so that the magnetic stray field ZB strays only into the circuit board and not upwards into the picture tube, which is very important for television receivers and monitors.

The subclaims relate to preferred embodiments of the transformer according to claim 1.

In the switched-mode power transformer according to the invention, it is also possible in a particularly simple manner to implement a desired premagnetization by means of permanent magnets, in that, according to claim 2, a permanent magnet in each case in the air gap between adjacent end sections of the projecting core parts or, according to patent claim 3, with a core with an outer projecting core part located central protruding core part, a permanent magnet is arranged in front of the free end of the latter. As is known, the pre-magnetization of the core enables a higher power to be implemented in flyback converter operation. The premagnetization according to claim 3 with a permanent magnet arranged on the end face in front of the free end of a central protruding core part has the further advantage that the permanent magnet is not demagnetized in the event of a short circuit.

According to claim 4, the surfaces of the free end sections opposite one another at an air gap are the front protruding core parts preferably carried out plane-parallel.

The measure according to claim 5 is advantageous in several respects. On the one hand, it has surprisingly been found that the external magnetic stray field is reduced by the beveling of the core legs. In addition, there is a weight saving on the core and thus less expensive production, and the core with the bevelled protruding core parts, e.g. Core legs, tolerates higher accelerations due to the lower mass (reduced risk of breakage).

According to claim 6, the core is preferably designed as a U, E or bell core.

According to claim 7, the protruding core parts outside the actual coil or coils are extended and dimensioned so that the magnetic resistance of their opposite end portions is approximately the same as the magnetic resistance of the air gap between them.

Exemplary embodiments of the switched-mode transformer according to the invention are shown in the drawing.

• Fig. 1 bis Fig. 4 links in Ansicht von vorn mit Blickrichtung auf die freien Enden der vorragenden Kernteile und rechts in Seitenansicht mit parallel zur Zeichenebene geschnittener Spulenanordnung vier verschiedene Ausführungsformen, wobei bei der­jenigen gemäß Fig. 3 eine Vormagnetisierung vorgesehen ist,
• Fig. 5 und Fig.6 in den Fig. 1 - 4 entsprechender Darstellung zwei weitere Ausführungen, bei denen die äußeren vorragenden Kernteile auf den vonein­ander abgewendeten Seiten zu ihren freien Enden hin einwärts abgeschrägt sind, und
• Fig. 7 in Seitenansicht die Ausführung gemäß Fig. 6 mit einer zwei Wicklungen aufweisenden Spule und mit Vormagnetisierung durch einen Permanent­magneten, der stirnseitig vor dem freien Ende des mittleren der bei dieser Ausführungsform vorhandenen drei vorragenden Kernteile ange­ordnet ist.

It shows, each in a schematic representation:

• 1 to 4 on the left in a view from the front with a view of the free ends of the protruding core parts and on the right in a side view with a coil arrangement cut parallel to the plane of the drawing, four different embodiments, in which a bias is provided in accordance with FIG. 3,
• FIGS. 5 and 6 in the representation corresponding to FIGS. 1-4 show two further designs in which the outer protruding core parts on the sides facing away from one another are chamfered towards their free ends, and
• 7 shows a side view of the embodiment according to FIG. 6 with a coil having two windings and with pre-magnetization by a permanent magnet which is arranged on the end face in front of the free end of the middle of the three projecting core parts present in this embodiment.

In the embodiment according to FIG. 1, the core 1 is a U-core, which carries a coil 4 with the required windings on each of its two core parts 3 protruding from its base part 2, which here form legs, each of which is up close of the base part 2 are pushed onto it. The protruding core parts 3 are substantially extended beyond the width of the respective coils 4 or windings, and their extended end sections 5 form between them the air gap 6, which is necessary in a switched-mode transformer to avoid saturation of the core material. The magnetic circuit outside the coils 4 is closed via the air gap 6. The magnetic field lines are shown in dashed lines and designated 7.

The embodiment according to FIG. 2 differs from that according to FIG. 1 in that the core here is an E-core, only one coil 4 with the necessary windings is provided, which is pushed onto the central protruding core part 3, and two air gaps 6 between the middle protruding core part 3 and the two outer protruding core divide 3 are present. The embodiment according to FIG. 3 corresponds to that according to FIG. 2 with the difference that a permanent magnet 8 is arranged in each of the two air gaps 6. The two permanent magnets 8 cause the magnetic material of the core 1 to be premagnetized.

In the embodiment according to FIG. 4, the core 1 is a pot core. In this case, the core parts 3 protruding from a disk-shaped base part 2 consist of a central cylindrical part and a cylindrical jacket which coaxially surrounds the latter at a distance. The air gap 6 here extends radially between the free end section 5 of the central central projecting core part 3 and the free end section 5 of the jacket-shaped outer projecting core part 3.

The embodiment according to FIG. 5 corresponds to that according to FIG. 1 and the embodiment according to FIG. 6 to that according to FIG. 2, each with the difference that here the free end sections 5 of the respective outer protruding core parts 3 on their sides remote from one another towards the free end face are chamfered inwards, the chamfer 9 beginning immediately after the coil arrangement.

The embodiment according to FIG. 7 differs from that according to FIG. 6 in that a permanent magnet 8 which pre-magnetizes the core 1 is arranged in front of the free end face of the central projecting core part 3. The coil 4 here has two windings W1 and W2.

Claims (7)

1. Switching power transformer for flyback converter operation, the magnetic circuit of which has at least one air gap to avoid saturation of the magnetic core material, the core having a base part and core parts projecting from one another at a distance therefrom, and the windings being arranged on at least one coil former and being pushed onto a projecting core part , characterized in that the projecting core parts (3) are substantially extended beyond the width of the windings (4) in order to form an air gap (6) located outside the windings (4) between their free end sections (5). 2. Switching power transformer according to claim 1, characterized in that the core (1) by each in the air gap (6) between adjacent end portions (5) of the protruding core parts (3) arranged permanent magnets (8) is biased. 3. Switching power transformer according to Claim 1 with a central projecting core part (3) located between outer projecting core parts (3), characterized in that the core (1) is arranged by a permanent magnet (8) arranged in front of the free end of the central projecting core part (3). is premagnetized. 4. Switching power transformer according to one or more of the The preceding claims, characterized in that the surfaces of the free end sections (5) of the projecting core parts (3) lying opposite one another at an air gap (6) are plane-parallel. 5. Switching power transformer according to one or more of the preceding claims, characterized in that the free end portions (5) on the base part (2) of the core (1) outermost projecting core parts (3) on the side facing away from the respective air gap (6) towards the end beveled towards the inside. 6. Switching power transformer according to one or more of the preceding claims, characterized in that the core (1) is a U, E or bell core. 7. Switching power transformer according to one or more of the preceding claims, characterized in that the projecting core parts (3) outside the actual coil or coils (4) are extended and dimensioned so that the magnetic resistance of their opposite end sections (5) the magnetic resistance of the air gap (6) between them is approximately the same.

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