DE759835C - Transmitter with iron core and with a fixed transmission ratio other than 1 - Google Patents

Description

Transformer. with iron core and with a fixed gear ratio other than 1 _ The leakage inductance of a transformer It is known that it occurs as a series inductance The one attenuation factor came with it increasing 1? requency. Fig. I shows for a common transformer the I) äinl) fungsl: curve, which the Ai> liängil ,, q <eit der 1): represents vaccination b of frequency f . Of the Increase in vaccination for the low frequencies is caused by too little Eigen.in; tlulctivit <it of the transformer. This post part can go through to a certain extent a winding with correspondingly large intrinsic inductance can be canceled. A reduction in the leakage inductance, however, causes considerable difficulties, especially in this case. if the impedance of the transmitter should be as large as possible when idling. The cause of the leakage inductance is known to be the leakage flux (h, (Fig. A), which comprises only one winding or a part of a winding, i.e. must be subtracted from the coupling flux (!) Penetrating both windings 1 and II ) The leakage flux is greater, the greater the distance between the individual turns of winding I and the turns of winding 1I. 'One is half anxious. to reduce the StrvLLIli1- di # e \\ 'icklun-eii I and Il so to approach each other. thus (l: 17 jsr: Lfttltil :). @ler Hei excitation a d.17 I>: ici @ a `\ # :, 2i; lttil @ riil disfigured, ino-llchst vollko111IIh.'il I :: i (I # e Wick- lungs ttlllsslllten. The slightest scatter lets through bifilar winding of the two windings I and achieve 1I. With the bitilar type of winding «-Earth the two liters of the l: - @ id @ n \\ 'ick- lungs side by side Ce; visstrinalieil as Double wire wound so that on the entire length be- a close neighborhood between the individual turn.il of the two: n Windings is ensured. It cherishes in., He Nature of the bifilareil \ `Fcklun- that dIes # e only for a gear ratio i: I is applicable is cash. With a larger gear ratio should be called the bifilar ones used so far The type of winding of one conductor is much longer as ('.be the other, so that the algae coupling between the two windings in the maximum fall only on the by the length of the shorter Winding given route is possible. To enable a @ - # .'- elfaclisprecii- traffic has become known a L`b ° r porter, that is, a particularly high symmetry in with respect to the center taps of the two Windings is required. Th_eser L ° L ° rtrager is produced by having four together - r single cords distributed in the form of a cable to be developed on the I-Certi. two each these individual windings produced in this way are connected to and form j << veils di: Primary or secondary winding: luiig des L'I: z! R- tragers. As a result of the verseiluii, the individual wires is the scattering of this carrier door small amount. @@ docll can also do this: r Wick- only one C1> replacement ratio i: i can be achieved so that the effect in the - # v2s- ° iit- lichen is the same as with the aforementioned -_: i hi-fiIar winding type. Starting from vain t I> endure, #iessen Windings by interconnecting wound up together with each otherl: inz #: 1- ladders are formed. becomes to achieve one of the l lle @ translation offsets deviating from ratio (ii) according to the invention, the winding with the liiilieren \ i, 'indification number from un- riefahr ii single ladders formed (let. d: e in tndglicast close coupling with your or (len @ it @ el- leiterii of the other winding a . primordial II Z, g ' e wicl' Ze lt and then in a number through fixed connections in h @ ilie g2schalt: t : think that the g: wished overall W. ndungszahl - @ rgil @ t. Mail receives from this vain winding, l: ei der ied-e \\ 'in (lun- (1e17 \\' icl: lttl @ gr finite (1 -, - r ICleillereIl \\ 1n (ItlIl:; s "lahl IIl @) g1: Ch @ t C'Itg (l: 11 according to rl: r xll @ lrren Wick- Iun @, - is adjacent. Zw.rhmüi.iig t; -, # rden slic iiz @ lle: ter dC'r 1 @: I (1un \\ 'Icklungll II11tLIf1- :: n @r @; rs :: it and Planach allf 'Icll Spuliil- ;; @ irl # @ r @ # @ r lc # n hern «ufgrtc-: ch; @it. At: c: i is Lnii - "'i @; -. :: n l.üizelieit@r (,": r (' itt @ n 'ui. @: nt: erhalll (l: 17 1? ilizelliter rler other \\ ICICiuIl "1LI1zii, 3r (11ieL1, @o dali sich tiIi structure after ax tilie3Inhra (lrigell 1 \ ab: l @ f: rgilit. Sciil: el.ll: ca I @ Onnen also t1117 (IOC: W ick (un ;, finite der @erIFIgerCIl \ VI11 (ILtilgszalil s0 much I :: FSZel- : pus used - tw: rtlen. Bali iecveils a Litlzeil;: itzr der eiti: ii Winding between 7 «-2i Individual conductors lying on the other winding comes. In this case «-aren (üe l: iiizell ° .iter the winding with the lower number to be connected in parallel in such a number. dal3 @icll d :. '. ge @@ L11I = Cht. '. \\ index number for this Winding results. It started here. a C'3 carrier with zinem of i ab @ veirhenden translation translation to establish a relationship. that four single head at the same time coiled and single Winding parts of the four individual windings separated and in series with other parts or switched against each other. so that the desired gear ratio nis results. The purpose of the known order was as vain as possible get :: n S vmmetrie. The spread of these aii- order, however, is grimmer than with the object (1e17 EIfindun-. Become; -Il to reduce the Liiective \% 'lIl (11ILigszal1I of a winding zcine parts of this winding sweep each other- switched. so will the one for this winding claimed \\ 'ici; lun @@ sraum -: opposite your for (! -e L "nterbritigund actually effective all necessary space gi-c3llert. An unnecessary @ -er @ röl @ entng dis for , # itie winding not; v- @ ndig @ n \\ 'ichelraumes but always travels to einur t ': rgrulation (1: s Distance between primary = and secondary wIckluIl- and thus too vain I: rliöhuii "ül-r <tr: uutl ". \\ ° rden parts of the etli2ii winding. «-Ie it is also called a h ° kainite Aitsfua- tion is the case. al) met and with the <Lli: h: 'e: i winding in line g :: switches, ttiii see from i <Deviating C "hersetzun @@ sverh ültnis zti inherited. so thereby the Str-etiuiig @ -e @@ niiller the type of winding according to the ün (lun- also increased. since the development finite to the low. ° ren turns overall Clearing single ladder no longer on theirs ganZ211 I_üllge finite all to (ieren # \\ "icl; Ittng belonging to l: iiizelleit-erii: Ilg I ) e- are neighbors. To achieve an L`l: yield @ rs with he- It has become known: -in bundle of insulated 1) rülit ° getnein @ atn atifzttwiclcelti and (lie free laid z! Il at 111eInlen to ftillreil. so one I1e- 1 :: I> iZe amalgamation of the literary triilites to C @ IIi ((@ l: t'llelt. DiI: Illz @ ldrä fit: \\ 'aren however closely coupled with each other neither by stranding nor by any other arrangement suitable for achieving a close proximity, so (let a relatively large spread had to be present. In addition, the known arrangement is an iron-free transmitter, in which the spread is anyway Neither with this lamp carrier nor with the previously mentioned known transmitters was the object of the invention of achieving the lowest possible scatter, so that this prior art could not provide any suggestion for the solution of the problem Invention runs out.

Finally, there is also a stranded wire coil with a variable number of turns to be regarded as belonging to the state of the art in which the individual wires, the Litz wires can be connected either in series or in parallel to achieve variable inductance. Since this is a simple coil, not a transformer, the spread does not matter at all.

Further details and possible embodiments of the concept of the invention are to be explained with reference to the following exemplary embodiments. Should the transformer z. B. 90: 15 turns corresponding to a transmission ratio of ü = 6: i, then seven conductors (ü -i- i) are twisted together in the form of a rope before winding and then wound around the bobbin or iron core in fifteen turns. By connecting six conductors in series, the primary winding is formed in a simple manner with a total of n: ninety turns, while the seventh conductor represents the secondary winding. The distances between the individual turns of the two windings from one another and consequently also the scatter is very small here. In order to keep the leakage inductance even more pleasant, each of the seven conductors can also be divided into any number of individual wires connected in parallel, similar to the familiar high-frequency stranded wire. At the same time, the 1> ci bolic frequencies, which are often disruptive losses due to the current displacement, are then reduced at the same time. The twisting of the Einzeldrälit-e carried zw.eckmäßigerweise so that the distance 7wisclien the individual wires of the Primae rwicklung and the individual wires of the Se kundärwicklung as small as possible is, therefore, each a Dralit the winding I in addition to a wire of the coil to lie comes 1I .

In the example above-mentioned seven conductors can also be similar to a multi-core z e Z line, or a multi-core cable.

being constructed; for example, so that the individual conductors to be connected in series of one winding uin <part Gc: iter of the second winding are laid around. 111 1 # ig. 3 such a standard is shown. The six individual conductors of winding II and concentrically serve a single conductor of winding I. Such a winding strand, that is to say consisting of seven individual conductors, is wound onto the bobbin or onto the carrier core.

The invention is applicable not only to integer gear ratios, but to any gear ratio. Depending on the number of turns required, it can always be before the last or the penultimate one. One or more of the coiled conductors. For example, if the transmission ratio is not 9o: 1 5 , as assumed above, but 39: 1 5 , then one liter would have to be fed out before the last of the fifteen turns of the six-wire strand of one winding. Fourteen turns are then obtained. with six strands each, which, when connected in series, give eighty-four turns, and one turn with only five strands that make five turns, so that a total of eighty-nine turns is obtained. Other non-integer gear ratios can be achieved in a corresponding manner.

The individual conductors can also be arranged next to each other, which may be advantageous for smaller numbers of turns. Fig. .. shows such a winding for one. Transformer with a transmission ratio zi = 2: i. The conductors i and 3, connected in series, form one winding and the conductors -y and 4. connected in parallel the other winding. Fig. 4. shows simultaneously a further embodiment in which each individual conductor consists of three parallel-connected Wires. The individual wires are arranged one above the other within each layer.

The advantage offered by the new type of winding becomes most evident when looking at the frequency response of the voltage damping b. Fig. 5 shows the frequency response of the attenuation of a transformer with (lein turns ratio 25: 13- The two-dtn windings of the transformer full each one layer are arranged directly on top of each other according to Fig. 5. The attenuation increases due to the scattering in the 13th triel) sfrecltiel @ zlicreicli full 150 Klíž to 25o already considerably and is in all Maxim-uni approximately o, 13 X. l) ei application of the winding type according to the invention is the increase in attenuation shall same '\' erliältnissen teedeutend lower (Figure 6). Due to the small scatter at the same frequency 25o 1: 11z, the attenuation is only 0.04 \.

The type of winding according to the invention 1 - 1.tt is advantageous everywhere apply where the Leakage inductance can be kept particularly small got to. The invention is of particular importance for transmitters for high-frequency wire radio distribution systems and for the delegates of the office switches used in these. Also for negative feedback Amplifiers, in which, in particular, to avoid undesired phase shifts, low-scatter Transformers are necessary. the invention can be applied.

Claims (1)

PATENT CLAIMS: i. Transmitter with iron core and with a fixed gear ratio (ii) deviating from i, the windings of which are formed by interconnecting individual conductors that are wound together, especially for exchange points in high-frequency wire radio systems. characterized in that the winding with the higher number of turns consists of about ü individual conductors, which are in the closest possible coupling with the individual conductor or conductors of the other winding, ie saponified with these or concentrically surrounding them, wound together and then in such a number by fixed connections are connected in series that results in the desired total number of turns. a. Transmitter according to claim c. characterized in that the winding with the lower number of turns consists of approximately the same number of individual conductors as the other winding and that a single conductor of each winding is placed between individual conductors of the other winding and the 1? in7 conductors of the first-mentioned winding are connected in parallel and, if necessary, in series that the desired number of turns results. 3. Transformer according to one of the preceding claims, characterized. that in order to achieve a non-integer gear ratio before the last or before a previous turn, one or more individual conductors are brought out and so in a row with the others. switched «- earth that the desired number of turns results. .t. Transformer according to one of the preceding claims, characterized in that stranded wire is used as the individual conductor for both or one winding. To distinguish the subject matter of the invention from the state of the art, the following publications were considered in the granting procedure: German Patent Specifications \ r. Sod. 326, 537 3 7 9, 2 93 65 1 , 20 8 -195.