DE2446031B1 - Differential transformer for common antenna distributor - has tubular cores located in rectangular holes in PC board - Google Patents

Abstract

The differential transformer, for a common antenna system's distributor, consists of a primary, a secondary and two symmetrical sub-secondaries. The primary's tubular core is located in a rectangular hole in an insulating circuit board metallised on both sides to form conducting pathways. The cores winding is formed by a twisted metal strip rotated through 180 deg. and passing axially through the core. The three smaller secondary windings' cores are similarly mounted around the larger primary core. The cores are arranged symmetrically on the board with the shortest lengths of interconnecting pathways.

Description

The F i g. 1 shows the circuit of a four-way distributor known per se, which essentially consists of a matching saving transformer connected to the input terminal E. Ü1 and three subsequent differential transformers Ü2, Ü3, Ü4 exists. The matching saving transformer Ü 1 with a transmission ratio of 2: 1 is on the input side with the input terminal E of the quadruple distributor is connected, while the tapping point forming the output is connected to the center tap of the differential transformer Ü2. At the mass

side winding end of the economy transformer Ü is a capacitor C1 interposed, which prevents signals of the long and medium wave range short-circuited to ground due to the low inductance of the economy transformer will. The detrimental response resulting from this measure is useful chosen so that they are in the area not used for transmission between Medium and short wave falls at around 3.5 MHz. The two have a balancing resistor R 1 bridged outputs of the differential transformer Ü2 are each with a further Differential transformer Ü3 and Ü4 connected, their outputs 1, 2 and 3, 4 in turn by a balancing resistor R 2 or R 3 and one to improve the decoupling In the lower VHF range, there is a series of compensation capacitors C2 or C3 are bridged.

The structural design of this distribution circuit is from the F i G. 2, 3 and 4 can be seen. On an essentially rectangular shape, on both sides metallized board Pist on the lower narrow side exposed by recesses Tongue provided, onto which the tubular core K 1 assigned to the economy transformer Ü 1 is pushed is. For the economy transformer, whose transmission ratio is selected with 2: 1, two turns are provided, of which the first turn W11 in the form of the The upper side of the tongue running conductor path through the pipe core K1 to the beginning of the tongue (Tapping point) and from there returned to two parallel branches on the outside of the pipe core is. The second turn W12 is on the underside of the tongue and leads also from the end of the tongue to the beginning of the tongue, where they are stored in a slot S. Capacitor C1 is connected to ground.

A slightly bent one is used to connect the two turns Metal bracket M, which connects the two branches of the winding W11 with the linked lower tongue conductor of the turn W12. Runs transversely to the pipe core K 1 the tubular core K 2 of the first differential transformer Ü2, which is in one of the core dimensions adapted, largely rectangular recess A 2 is embedded. For the Realization of the two partial windings of the each consisting of one turn Differential transformer Ü2 consists of two parallel conductors Line piece provided, the ends of which are crossed against each other by 1800. in the shown example consists of this line piece in an advantageous manner from one Isolating material strips W2 metallized on both sides, its around 1800 against each other crossed Ends in slot-like slots provided on both narrow sides of the recess A 2 Notches engage, in such a way that the metallized end surfaces stand perpendicular to the plane of the board. The use of an insulating strip offers In addition to its mechanical strength, it also has the advantage that the values the return loss and the decoupling through a specific choice of the conductor track width as well as the thickness and type of the insulating material can be optimized in the desired manner. The mutual entanglement of the two strip ends is more advantageous Way achieved that the end faces facing the economy transformer each start of the winding the partial windings of the differential transformer from the center tap point form and therefore over a wide conductor track B2 with each other and with the tapping point of the savings transformer can be connected. Put the rear end faces then the two outputs of the first differential transformer Ü2, which according to F i G. 1 with the inputs of the second and third differential transformer Ü3, Ü4 to connect are. The two conductor tracks B3 and B4 are provided for this connection. The two differential transformers Ü3, Ü4, whose tube cores K3 and K 4 are also shown in appropriately designed recesses A 3 and A 4 are embedded, as from the F i g. 2 easily recognizable, constructed identically to the transformer Ü2, so that with respect to of the winding diagram refer to the corresponding description of the transformer Ü2 will. Finally, it should be mentioned that the underside of the board except the lower tongue with a continuous, uninterrupted, at ground potential lying conductor surface is provided, which is only in the area of the winding connections has small island-like recesses.

The structure described, in particular the use of the interlocked Conductor strip has the advantage that all connections of the individual transformer windings both with each other and with the intermediate conductors exclusively on the The top of the board takes place, while on the other side an uninterrupted one There is a grounding between the connections. In addition, there is a proportionate simple assembly, which is limited to differential transformers, for example, insert an interlaced conductor strip into the core hole, then embed the pipe core including the conductor strips in the recess and finally the Solder the ends of the conductor strips to the top of the board.

Claims (5)

Claims: 1. Differential transformer, in particular for use in distribution facilities for community antenna systems, with two each from Center tapping point outgoing partial windings each consisting of a single turn, in the form of strip-shaped conductor tracks on an insulating material strip metallized on both sides arranged and in the opposite direction by a ferromagnetic tube core are guided, characterized in that a carrier plate metallized on both sides (P) with a substantially rectangular shape adapted to the dimensions of the tube core (K2) Recess (A 2) is provided in which the pipe core (K 2) is embedded in such a way that the tube core axis lies in the plane of the carrier board and that in the core bore a line section consisting of two parallel lines is inserted, the ends of which are twisted against each other around 1800. 2. Differential transformer according to claim 1, characterized in that that the two lines led through the core on each side one on both sides metallized insulating material strips (W2) are arranged, its around 1800 against each other crossed ends are attached to the carrier board (P) that their metallized Strip surfaces run perpendicular to the board plane, so that each of the four end surfaces can be contacted in each case from the top of the board. 3. Differential transformer according to claim 2, characterized in that that the two faces of the two strip ends pointing in one direction over on the top of the carrier board (P) provided conductor tracks by forming a common input terminal mechanically and electrically symmetrically connected to each other are, while the rear end faces each have their own, too Conductor track provided on the top of the board is connected to one output terminal each are. 4. Differential transformer according to claim 2 or 3, characterized in that that the ends of the insulating strip in on opposite narrow sides of the Engage recess provided slot-like notches. 5. Quadruple distribution circuit for community antenna systems with an input-side matching saving transformer and a first differential transformer, the input side with the tapping point of the economy transformer and the output side with connected to the inputs of two other differential transformers, each of which using two outputs to form the four output terminals of the distribution circuit of differential transformers designed according to claims 1 to 4, characterized in that that all differential transformers and the matching saving transformer on a common Carrier board (P) metallized on both sides are arranged on the underside one uninterrupted between the individual terminals, at ground potential Has lying conductor surface, while the connection of the individual transformer windings both with each other and with the NEN intermediate conductor tracks takes place exclusively on the top of the board. The invention relates to a differential transformer, in particular for use in distribution facilities for community antenna systems, with two each starting from the center tap point, each consisting of a single turn Partial windings in the form of strip-shaped conductor tracks on a double-sided metallized Insulation strips arranged and in the opposite direction by a ferromagnetic Tubular core are performed, cf. DT-OS 18 07 938. Differential transformers are often used in community antenna systems in distribution facilities, e.g. B. two-way and four-way distributors used. In In view of the high number of units, there is therefore a desire for a differential transformer, which can be produced easily and cheaply and yet at the same time lower Tolerance fluctuation sufficiently good electrical values in terms of adaptation and Provides decoupling up to an upper frequency limit of around 900 MHz. This is the object of the invention. Starting from a differential transformer of the type mentioned at the beginning Art this object is achieved in such a way that a carrier plate metallized on both sides with a substantially rectangular shape adapted to the dimensions of the tube core Recess is provided in which the tube core is embedded in such a way that the tube core axis lies in the carrier board level and that in the core bore one of two parallel The existing line section was introduced into the lines, the ends of which were introduced around 1800 are entangled against each other. Advantageous further developments result from the features of the subclaims. A particularly advantageous solution results, for. B. in that the two through the core led lines on each side of a double-sided metallized Strips of insulating material are arranged, which were interlaced around 1800 Ends are attached to the carrier board that their metallized strip surfaces run perpendicular to the board plane, so that each of the four end faces of the top of the board can be contacted. The invention is illustrated below using the example of a four-way distributor explained in more detail with reference to the drawing. It shows F i g. 1 the circuit diagram of a quadruple distributor, F i g. 2 shows the structural design of a four-way distributor according to FIG. 1 under Use of differential transformers designed according to the invention, FIG. 3 and 4 the top and bottom of a carrier board for the device according to FIG. 2.