DE3724349A1 - Rotary transformer for a recorder - Google Patents

Abstract

In the case of a rotary transformer for the rotating head drum of a recorder, having a plurality of heads, it is intended in particular for the recording of digital signals to achieve a high crosstalk attenuation between the pairs of windings (3, 6) of the individual heads. The windings (3, 6) are arranged on a carrier (2, 5) of ferrite and between the carriers (2, 5) there lies in each case a separating film (7) of a magnetically inactive material. In particular for a recorder having a plurality of heads for a matrix-like recording of digital signals. <IMAGE>

Description

Recorder for signals with a wide bandwidth, e.g. Videore corder according to the VHS system or DAT (digital audio Tape) recorders for digital sound recording work with egg a rotating head drum with several heads on the Write magnetic tape so-called helical tracks. Such one rotating head drum with several heads is also used at ei ner so-called matrix-like recording according to the DE-OS 35 09 584 is required, on which on the magnetic tape successive blocks essentially parallel to the band edge traces are written. At one of the contains like recorder for a matrix-like recording the head drum in particular four distributed over the circumference Heads, two of which are engaged with the tape.

In the head drum for such a recorder, the signal must be transmitted from a rotating part of the head drum to a fixed part of the head drum. For this purpose, it is known to provide so-called rotary transformers. Each transformer contains a winding arranged on the rotating part and a winding magnetically coupled to it, arranged on a fixed part. With n heads, the head drum must have n such winding pairs. For such a rotary transformer, high demands are placed on the crosstalk attenuation between the winding pairs of the individual heads, particularly when the rotary transformer is to transmit digital signals and when two or more heads simultaneously scan a signal from the tape or are fed with a signal. In known rotary transformers, the achievable speech attenuation is sufficient for the recording of analog signals, but not necessarily for the recording of digital signals.

The invention has for its object a Drehtransfor mator for a recorder with a head drum with several To create heads that have a high crosstalk attenuation between the winding pairs assigned to the individual heads having.

This task is by the He described in claim 1 finding solved. Advantageous developments of the invention are described in the subclaims.

By means of the rotary transformer according to the invention, over speech attenuation of 90 to approx. 100 dB can be achieved sufficient for the recording of digital signals are. The invention is particularly advantageously applicable to a head drum with four heads, the so-called matrix effect like recording on the tape. The ferrite existing carriers of the individual pairs of windings are preferred wise for all heads. This gives the fore partly that the head drum is the same by axial assembly parts can be assembled. This allows it to be wide bandy transmission channels over the winding pairs with white same properties of great accuracy chen.

The between the ferrite carriers of the individual winding pairs each magnetically inactive film causes one the magnetic decoupling between the ferrite carriers of the individual pairs of windings. The film preferably consists made of a magnetically inactive metal such as Copper, mes sing, aluminum and additionally shields the individual pairs of windings for electrical fields.

The invention is based on the drawing to egg NEM embodiment explained. Show in it  

Fig. 1 in a sectional view of the basic construction of the rotary transformer according to the invention,

Fig. 2, 3 a view of a circuit board carrying the windings from above and below,

Fig. 4 shows a section through the circuit board according to FIGS. 2, 3 and

Fig. 5 is an equivalent circuit diagram for the partial windings shown in Fig. 2-4.

Fig. 1 shows a section of a rotating head drum. The stator 1 , that is to say the non-rotating part, contains a rotationally symmetrical ferrite body 2 , to which a circumferential flat winding 3 is applied. The rotor 4 , that is to say the rotating part which also carries the heads, contains a ferrite body 5 , to which a likewise flat winding 6 which is also rotating is applied. The windings 3 , 6 form a rotary transformer, the winding 3 being connected to the circuit of the device and the winding 6 being connected to the magnetic head arranged on the rotor 4 . The leads to the windings 3 , 6 are passed through cutouts in the ferrite bodies 2 , 5 . In this way, four such rotary transformers are provided axially offset from one another, each with a winding 3 and a winding 6 . Each Weil between two such rotary transformers is egg ne metal foil 7 made of a magnetically inactive metal, such as copper, brass, aluminum. The metal foil 7 causes a magnetic separation of the four rotary transformers from each other and also a shield against electric fields. Due to the effect of the film 7 , the magnetic flux, indicated by the flow profile 8 , remains within a rotary transformer and cannot get into the rotary transformer as a result and cause crosstalk between the signals of the individual transformers. The stator 1 and the rotor 4 are connected to one another via the ball bearing 9 . The material for the bodies 2 , 5 is generally an iron powder composite or ferrite, for example a material from Vacuumschmelze known under the trade name Corovac.

Figs. 2-4 show the formation of the coil 3 on the ferrite. 2 The winding 3 consists of two Teilwicklun conditions, namely a partial winding 3 a with four turns and a partial winding 3 b with two turns. The partial windings 3 a and 3 b are laminated to the opposite surfaces of a printed circuit board 10 , which in turn is applied to the ferrite body 2 . Fig. 4 shows the circuit board 10 in section with the partial windings 3 a and 3 b , which are shown exaggerated thick. The thickness of the laminated turns 3 a and 3 b is about 35 microns.

The metal foil 7 is in each case glued to the ferrite body 2 , 5 and has, for example, a thickness of 100 μm.

Fig. 5 shows the equivalent circuit diagram of the windings 3 a, 3 b, 6. The windings 3 a , 3 b are connected in series. When playing W , the series connection of 3 a and 3 b is used, ie a total of six turns, because then a high transformation of the induced voltage is desired. When recording A , only the partial winding 3 b with two windings is used because sufficient voltage is then available. The winding 6 attached to the rotating ferrite body 5 is connected to the magnetic head 11 .

The assembly of the arrangement shown in FIG. 1 is such that the individual parts are put together in the axial direction. The advantage here is that the windings 3 , 6 are on easily accessible surfaces before assembly, that is, they can be attached without difficulty. Since the components for each individual rotary transformer are identical, the overall structure is simple and inexpensive. The arrangement with the four rotary transformers according to FIG. 1 can be used particularly advantageously in the case of a head drum mounted on a rotating spindle, as described in more detail in DE-OS 35 42 064.

Claims (5)

1. Rotary transformer for a recorder with a plurality of axially staggered pairs of windings each consisting of a fixed winding ( 3 ) and a rotating winding development ( 6 ), characterized in that the windings ( 3 , 6 ) on a carrier ( 2 , 5 ) made of ferrite or Eisenpul composite material are arranged and between the carriers ( 2 , 5 ) of the winding pairs ( 3 , 6 ) transverse to the axis of rotation separating films ( 7 ) made of a magnetically inactive material. 2. Transformer according to claim 1, characterized in that the windings ( 3 , 6 ) are laminated to a printed circuit board ( 10 ) or conductor foil, which is arranged on the carrier ( 2 , 5 ). 3. Transformer according to claim 2, characterized in that on the two opposing surfaces of the printed circuit board ( 10 ) different partial windings ( 3 a , 3 b ) of the fixed or rotating winding ( 3 , 6 ) are laminated. 4. Transformer according to claim 1, characterized in that the film ( 7 ) consists of a magnetically inactive metal such as copper, brass, aluminum. 5. Transformer according to claim 4, characterized in that the film ( 7 ) on the carrier ( 2 , 5 ) is evaporated or applied galvanically.