US3593245A

US3593245A - Double-tuned intermediate-frequency transformer

Info

Publication number: US3593245A
Application number: US815915A
Authority: US
Inventors: Kazutomo Iwata
Original assignee: Matsushita Electric Industrial Co Ltd
Current assignee: Panasonic Holdings Corp
Priority date: 1968-04-18
Filing date: 1969-04-14
Publication date: 1971-07-13
Anticipated expiration: 1988-07-13
Also published as: DE1919808A1; GB1236687A; FR2006414A1; DE1919808B2

Abstract

A double-tuned intermediate-frequency transformer having a structure wherein two single-tuned intermediate-frequency transformers employing cap-type cores provided with center cores therein are arranged adjacent to each other being covered with one shielding case, and being adapted to a free choice of the degree of coupling between the respective coils of the two single-tuned intermediate-frequency transformers laid adjacent to each other through adoption of the cap-type cores each having a suitable sleeve length relative to the length of its center core.

Description

United States Patent 1721 lnventor Kalutolno lwata Neyagawa-shi, Japan [21] AppltNo. 815,9l5 221 Filed Apr. 14, 1969 {45] Patented July 13,1971 [73| Assignee Matsushita Electric Industrial Co., Lld.

Osaka, Japan [32] Priority Apr. 18, 1968 1 1 Jil [311 32631 [54] DOUBLE-TUNED INTERMEDIATE'FREQUENCY TRANSFORMER I China, 9 Drawing Figs.

[52] 1.1.8. Cl .1 336/83, 336/87, 336/131, 336/136 [51] lnt.Cl 1101121106 [50] Field ofSmrch 336/33.84, B7, 131, 136

[56] Relerenoes Cited UNITED STATES PATENTS 1,634,923 7/1927 Thullen 336/83 1,978,600 10/1934 Polydorofi 336/87 X 2,318,415 5/1943 Patzschke et a1. 336/136 uuu Primary ExaminerThomas J. Kozma Attorney-Stevens, Davis, Miller & Mosher ABSTRACT: A double-tuned intermediate-frequency transformer having a structure wherein two single-tuned intermediate-frequency transformers employing cap-type cores provided with center cores therein are arranged adjacent to each other being covered with one shielding case, and being adapted to a free choice of the degree of coupling between the respective coils of the two single-tuned intermediate-frequency transformers laid adjacent to each other through adoption of the cap-type cores each having a suitable sleeve length relative to the length of its center core.

PATENTED JUL13I9H 3.593245 SHEET 1 OF 2 FIG 30 /4 F/ 6 317 F/ G 30 INVENI'OR Kalli-T0170 1 9"? ATTORNEYS Pmmm JUH mm 3.593; 245

SHEET 2 OF 2 INVENIOR lrnzumwro I warn BY duh 5 4444 7 ATTORNEYS DOUBLE-TUNED INTERMEDIATE-FREQUENCY TRANSFORMER The present invention rSlates to double-tuned intermediatefrequency transformers being employed in transistor radios and television receivers.

A double-tuned intermediate-frequency transformer hitherto placed on the market carrying a description noted for use in a transistor circuit is of a miniaturized type, and most of the double-tuned intermediate-frequency transformers have a structure wherein two single tuned intermediate-frequency transformers are arranged adjacent to each other and the combination thereof is enclosed in one shielding case. However, there exists very little magnetic coupling between these coils, hence, either of the following two types of structures is generally employed, one type is an L-couplcd one wherein a portion of one coil L is wound together with the other coil L, to obtain the coupling between the two coils as is shown in FIG. 6a, while, the other is a C-coupled one wherein respective higher potential points of primary and secondary sides are connected with each other through a capacitor C as is shown in FIG. 6b.

In the above L-coupled type, there are involved those drawbacks that coils have complicated structures and much dispersion is to be seen in the degree of coupling in the intermediatefrequency transformers for use in a higher frequency range such as in the case of FM due to irregularity in wiring of lead wires, etc., because the number of turns of coil L to be wound for coupling in the above case is reduced to as few as 0.5 to 1.5 turns.

Also, in the above C-coupled type because of a small capacity value of C such as L to 2.5 pF dispersion in the degree of coupling due to capacity value deviation has been inevitable.

The present invention is intended to eliminate the abovementioned existing drawbacks.

According to the present invention, the magnetic coupling is adapted to be obtained through the construction itself of a double-tuned intermediate-frequency transformer, and especially its degree of coupling can be easily varied by small changes in value.

According to the present invention, either a core supporter or a center hole of a terminal plate is provided with a thread so that both members may be threadedly engaged with each other, and manufacturing efficiency can be remarkably increased as compared with a manufacturing method by which a core itselfis to be threaded.

In adjusting the double-tuned intermediate-frequency transformer according to the present invention, a cap type core is rotated under an external force. Even if a distortion force may be applied to a center core of the cap type core in this case such a distortion force may be absorbed by the core supporter thereby preventing the center core from being damaged.

A detailed description will, hereunder, be given of an embodiment according to the present invention referring to the accompanying drawings, wherein:

FIG. I is a sectional view of an embodiment of the doubletuned intermediate-frequency transformer according to the present invention;

FIG. 2 is a perspective disassembly drawing showing the construction of a single-tuned intermediate-frequency transformer comprised in the above double-tuned transformer;

FIGS. 3a to 3c are sectional views each showing respective examples of the cap type cores provided with center cores therein to be employed in the above double-tuned transformer;

FIG. 4 is an electric circuit diagram of the above doubletuned transformer;

FIG. 5 shows performance characteristics each according to the respective combinations of the cap type cores shown in FIGS. 30 to 3c being employed in the above double-tuned transformer; and

FIGS. 6a and 6b .are electric circuit diagrams of conventional doubleduned intermediate-frequency transformers.

Referring to FIGS. 1 and 2, l designates a terminal plate provided with a tapped hole 2 at its center and a winding portion 4 for a coil 3 at its upper portion. The tapped hole 2 in the terminal plate I is perforated therethrough, and a shank por tion 6 of a core supporter 5 made of thermoplastic resin or the like is engaged therein through a self-tapping method. That is to say, a plurality of ridges 7 to be threaded thereon are provided axially on the peripheral surface of the shank portion 6, which ridges 7 are put into the tapped hole 2 of the terminal plate I being turned round and threaded by themselves, thus being self-tapped, if expressed by the word used above. Further, a flange 8 at the upper end of the shank portion 6 of the core supporter 5 is provided with two protrusions 9, from which flange 8 down to the shank portion 6 thercthrough formed is a hole portion 10.

The core supporter 5 having such a construction is united with a cap type core 12 having a pot shape and a center core ll at its center portion.

To say more precisely, two perforations 13 are provided in the top wall of the cap type core [2, each of the perforations being placed at the respective positions opposite to the protrusions 9 on the above core supporter 5, and the above protrusions 9 are inserted into the perforations 13 respectively, then, the protrusion tips are welded by fusion thereby uniting the core supporter 5 and the cap type core 12 with each other. Further, the center core II in the above cap type core [2 is fitted into the hole portion 10 in the core supporter 5, and an adjusting slot 14 is formed on the top surface of the cap type core 12. Terminal pins l5 are embedded in the above terminal plate 1, and the terminal plate 1 is also provided with outlet slots 16 for lead wires.

A double-tuned intermediate-frequency transformer such as shown in FIG. 1 can be obtained by arranging two singletuned intermediate-frequency transformers each having a structure such as described above adjacent to each other and covering them with one shielding case I7.

Further, 18 in FIG. 1 designates tuning capacitors which are disposed within hollow portions 19 provided in the bottom surface of the terminal plate 1. Numeral 20 designates adjusting window portions provided in the upper wall of the shielding case I7.

The electric circuit of the double-tuned intermediatefrequency transformer having such a structure is shown in FIG. 4.

In FIG. 3, sections of the cap type cores l2 to be employed here are shown.

In such a case that two single-tuned intermediate-frequency transformers are arranged adjacent to each other as shown in FIG. 1 and as described above, magnetic flux flows mainly through the center core ll and a sleeve portion 12' of the cylindrical body of each of the cap type core 12, however, a part of the magnetic flux interlinks with the adjacent cap type core 12. Thus, magnetic coupling is produced as a result of such mutual magnetic flux interlinkage between two singletuned intermediate-frequency transformers.

Now, in case that the cap type core 12 shown in FIG. 3a is employed in each of the primary and secondary coils, the magnetic flux induced by one of the coils is magnetically shielded to a considerable extent by the comparatively long sleeve 12', therefore, the magnetic leakage flux which goes out of the cap type core is comparatively small. On the contrary, if the cap type core 12 shown in FIG. 3c is employed as in the above case, the magnetic flux induced by one of the coils passes from the tip of the center core II to the lower end of the sleeve 11', however, the magnetic flux path is more open compared with that in the case of H0. 30, hence, the magnetic leakage flux is considerably large.

Thus, mutual coupling is obtained through the leakage magnetic flux going out of the two cap type cores 12, therefore, the degree of coupling between the primary and secondary coils varies depending on the respective quantities of both magnetic leakage flux. This phenomenon is being utilized in the intermediate-frequency transformer according to the present invention. Then, if an operating Q value is given for each coil, the pass band width as of the double-tuned intermediate-frequency transformer can be freely determined by changing the length of the sleeve portion 12' of the above cap type core [2, corresponding to the pass band width to be desired.

ln case that the cap type cores l2 shown in FIGS. 30 to 30 are employed combining each two cap type cores of the same type in pairs, in regard to the pass band width as of the doubletuned intermediate-frequency transformer, that of the FIG. 3b type is wider than that of the FIG. 30 type and that of the FIG. 3c type is still wider than that of the FIG. 3b type. The above response characteristics are shown in FIG. 5 being compared with each other.

The double-tuned intermediate-frequency transformer ac cording to the present invention being so constructed as described above, the degree of magnetic coupling between primary and secondary coils thereof can be chosen freely in practical use through adoption of any cap type cores chosen freely from those having various shapes. Moreover the structure of each coil in an embodiment according to the present invention can be made simple and easy to manufacture. Furthermore, the present invention can have other individual components such as required in a conventional C-coupled type, thus bringing about another advantage in cost reduction.

In addition, because the coupling between the primary and secondary coils therein is obtained magnetically and not capacitively, thereby bringing about a sharp skirt form in a response characteristic curve for a given pass band width, the selectivity characteristic is made better than in any conventional types.

Thus, the double-tuned intermediate-frequency transformer according to the present invention may be said to have great value in practical use as described above.

What I claim is:

l. A double-tuned intermediate-frequency transformer comprising a plurality of single-tuned intennediate-frequency transformers disposed adjacent to each other, each of said single-tuned intermediate-frequency transformers comprising, in combination: a winding portion having a center hole therein disposed at the center of the upper surface of a terminal plate, a coil wound on the outer periphery of said winding portion, a core supporter having a cap type core provided with a center core securely fixed to the upper portion thereof threadedly fitted into said center hole; a single shielding case covering said plurality of single-tuned intermediate-frequency transformers; wherein the degree of magnetic coupling via the air gap between the respective coils of said plurality of single-tuned intennediate-frequency transformers is freely adjustable by the suitable selection of the length of a sleeve portion of said cap type core relative to the length of said center core, respectively, thereof.

Claims

1. A double-tuned intermediate-frequency transformer comprising a plurality of single-tuned intermediate-frequency transformers disposed adjacent to each other, each of said single-tuned intermediate-frequency transformers comprising, in combination: a winding portion having a center hole therein disposed at the center of the upper surface of a terminal plate, a coil wound on the outer periphery of said winding portion, a core supporter having a cap type core provided with a center core securely fixed tO the upper portion thereof threadedly fitted into said center hole; a single shielding case covering said plurality of singletuned intermediate-frequency transformers; wherein the degree of magnetic coupling via the air gap between the respective coils of said plurality of single-tuned intermediate-frequency transformers is freely adjustable by the suitable selection of the length of a sleeve portion of said cap type core relative to the length of said center core, respectively, thereof.