JP2000114818A - Concentrated constant nonreversible circuit element - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain the high attenuation of high frequency by connecting the serial LC circuit of inductors and capacitors to a center conductor on an input side and/or an output side so as to make wide in band. SOLUTION: A recess part for inserting respective parts is formed at a resin case 12 arranged on a lower case 11, and external connecting terminals 13a, 13b,... are formed by three to three on opposed edges. The other ends of the respective terminals 13 are connected conductively with a connecting electrode in the case 12. A center conductor assembly 16, impedance matching capacitors 17 to 19 and a resistive element 20 are arranged in a recess part for inserting parts of the case 12. In addition, capacitors 21 and 22 for the serial LC circuit are arranged. These capacitors 21 and 22 for the serial LC circuit are flat capacitors and one electrode is conductively connected with their connecting electrodes 14c and 14f. Then, inductors 27 and 28 for the serial LC circuit are arranged between the upper electrode of the capacitors 21 and 22 for the serial LC circuit and center conductors 25 and 26.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lumped constant type nonreciprocal circuit device such as a circulator and an isolator used for a microwave communication device such as a portable telephone, and more particularly to a device for achieving a wide band and a double wave. The present invention relates to a lumped constant type non-reciprocal circuit device capable of suppressing harmonics of harmonics.

[0002]

2. Description of the Related Art Conventionally, lumped-constant type non-reciprocal circuit devices such as circulators and isolators have a characteristic of transmitting power only in a specific direction and not transmitting power in a reverse direction, and are used in microwave communication equipment. . This lumped-constant type nonreciprocal circuit element has permanent magnets in which three central conductors superposed at 120 ° intervals are arranged on a magnetic body in an insulated state and a DC magnetic field is applied to the magnetic body. Is housed in a case serving as a magnetic yoke.

FIG. 5 is an exploded perspective view of a conventional lumped constant type non-reciprocal circuit device. This conventional example is a lumped-constant isolator, in which three center conductors 8 are superposed in an insulated state on a magnetic body made of a disk-shaped ferrite 7 (made of garnet) between an upper case 1 and a lower case 2. This center conductor assembly is disposed in the through hole of the ceramic substrate 3 and disposed on the lower case 2 together with the ceramic substrate 3. At this time, one end of each center conductor 8 is grounded to the lower case. The other end of each center conductor 8 is connected to the capacitance forming electrode 4 formed on the ceramic substrate 3. One capacitance forming electrode 4a is connected to a ground electrode 6 via a dummy resistor 5, and is terminated. Further, a permanent magnet 9 for applying a DC magnetic field to the magnetic body is disposed in the upper case 1 and the upper case 1 and the lower case 2 are joined to form a lumped constant type isolator.

The upper case 1 and the lower case 2 are magnetic materials, function as magnetic yokes, and constitute a magnetic circuit that applies the magnetic force of a permanent magnet to the ferrite 7. One end of each of the two center conductors 8 is extended and protruded, and is used as an input / output terminal. This center conductor assembly is composed of three center conductors protruding from a circular plate-like body, a ferrite is arranged on the plate-like body, folded back so as to enclose the ferrite, and stacked. ing. The center conductors are insulated.

When this lumped constant type non-reciprocal circuit device is used in a microwave communication device such as a mobile phone,
In many cases, a low-pass filter or the like that suppresses harmonic components is used by being connected to the input terminal side or the output terminal side. This low-pass filter is often configured on a substrate on which a lumped-constant type nonreciprocal circuit element is mounted.

[0006]

For example, portable telephones have become extremely popular in recent years, and their miniaturization has been rapidly progressing. In addition, the lumped constant type non-reciprocal circuit device used in the mobile phone is required to be downsized. Also,
Not only miniaturization but also low cost is required. Further, in order to cope with the expansion of the frequency band due to the increase in the number of subscribers, a performance of covering a wide band is required.

An equivalent circuit shown in FIG. 6 is known as a circuit configuration for widening the bandwidth of a conventional nonreciprocal circuit device. In this conventional example, a series resonance circuit 5 is connected to all input / output terminals.
1, 52 and 53 are connected. Thereby, a bimodal characteristic can be obtained, and the band can be widened. In this conventional example, the other end of the resonance circuit 53 is terminated by a terminating resistor R.

As described above, in the conventional lumped-constant type nonreciprocal circuit element, a resonance circuit is connected to each input / output end, that is, all the center conductors in order to widen the band. The structure is disadvantageous for miniaturization and cost reduction. Further, in order to suppress harmonic components, a low-pass filter is connected to the mounting substrate of the non-reciprocal circuit device, which is disadvantageous for miniaturization and cost reduction.

According to the present invention, a lumped-constant type nonreciprocal circuit element is provided with a function of broadening a band and attenuating a harmonic component, and a low-pass filter connected outside the lumped-constant type nonreciprocal circuit element is eliminated. Lumped-constant type nonreciprocal circuit element capable of realizing high-frequency operation, and with a very simple structure, capable of broadening the band and obtaining high attenuation of harmonics at the same time. The purpose is to provide.

[0010]

SUMMARY OF THE INVENTION The present invention provides a center conductor assembly comprising a ferrite and a plurality of center conductors arranged in a crossed manner in an electrically insulated state, and a matching conductor connected to each of the center conductors. A capacitor case, a resin case having a concave portion and an external terminal for positioning the center conductor assembly and the capacitor and the like, and a permanent magnet for applying a DC magnetic field to the ferrite, and these are inside a metal case also serving as a magnetic yoke. And a series LC circuit is connected between the input and / or output center conductor of the center conductor and the input and / or output terminal. The resin case has a concave portion for positioning the capacitive element for the matching and the series LC circuit, and a bottom portion of the concave portion has a connection electrode connected to an external terminal, and the connection electrode is provided on the connection electrode. as well as Connect the one electrode of the capacitor for the column LC circuit, the capacitive elements are arrangement, one end of the center conductor is connected to the other electrode of the matching capacitor element,
Said input and / or output center conductor and said series L
This is a lumped-constant type non-reciprocal circuit element in which an L element is connected to the other electrode of the capacitor element for the C circuit.

The present invention also provides a resin mold having a concave portion for accommodating the L element, a convex portion for supporting the capacitive element, and a through-hole for positioning a magnet, which is disposed on the resin case. Lumped constant type non-reciprocal circuit device.

The present invention is also a lumped constant type non-reciprocal circuit device in which a concave portion of the resin case in which the center conductor assembly is disposed is a through hole.

Further, the present invention is a lumped-constant type nonreciprocal circuit device in which at least one of the central conductors to which the series LC circuit is not connected is connected to a resistor and the other end is terminated.

Further, in the present invention, the L element is a lumped constant type nonreciprocal circuit element which is a chip inductor.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the present invention, the miniaturization of not only a lumped-constant type non-reciprocal circuit device but also a low-pass filter connected to the input side or the output side has been studied. In addition, we examined whether the band could be widened with a simple circuit. Then, in a lumped-constant type nonreciprocal circuit element housed in a magnetic yoke and packaged, a LC circuit is serially connected to the end of the center conductor only on the input side, only on the output side, or only on the input and output sides. Is connected, it is possible to obtain a wide band and obtain high attenuation of harmonics.

In the present invention, the series LC circuit connected to the center conductor is different from the conventional structure in which the resonance circuits are connected to all the center conductors, and only the series LC circuit is selectively connected. Thus, the number of parts can be reduced. Moreover,
According to the present invention, it is possible to obtain high attenuation of harmonics, and it is not necessary to connect a low-pass filter as in the related art.

That is, according to the present invention, the series LC circuit has a function of widening the band and obtaining high attenuation of harmonics.

The inductor of the series LC circuit of the present invention can be used, for example, by forming a coil with a pattern of copper foil on a flexible board or a printed board, and is preferably a chip inductor.

The capacitor of the series LC circuit of the present invention may be a chip capacitor, but it is preferable to use, for example, a single-plate capacitor having electrodes on both surfaces of a thin dielectric plate.

This series LC circuit is desirably connected to both the input side and the output side of the isolator, but may be connected to only the input side or the output side.

According to the present invention, matching and series L
A concave portion for positioning the capacitive element for the C circuit and an external terminal are provided, a connection electrode connected to the external terminal is provided on a bottom portion of the concave portion, and one electrode of the capacitive element is connected on the connection electrode. A capacitive element is provided. One end of the center conductor is connected to the other electrode of the matching capacitive element arranged on the connection electrode, and the center conductor connected to the input terminal and / or the output terminal; An L element for a series LC circuit is connected to the other electrode of the arranged series LC circuit capacitance element. This allows
Each element can be arranged efficiently, and a lumped constant type non-reciprocal circuit element is formed in a small and thin form.

Further, the resin case of the present invention has a concave portion for positioning the center conductor assembly, improves the connection with the capacitance element and the like, and reduces the thickness by making the concave portion penetrating. Can be.

Further, in the present invention, a concave portion for accommodating the L element is provided for improving the positional accuracy of the capacitive element, the L element, etc. disposed on the resin case and for supporting the L element and the like to prevent displacement. And has a convex portion for supporting the capacitive element,
A resin mold having a through hole for positioning a magnet is disposed on a resin case.

[0024]

FIG. 1 is an exploded perspective view of a first embodiment according to the present invention.
Shown in FIG. 2 shows an equivalent circuit diagram of this embodiment.
This embodiment is a lumped constant type isolator. Also,
FIG. 3 shows a plan view of the resin case of this embodiment. Figure 1,
In FIG. 3, hatched portions indicate electrodes (connection electrodes). In this embodiment, a resin case 12 is disposed on a lower case 11.
The resin case 12 has recesses for inserting respective components, and has external connection terminals 13a, 13b, 13c, 13d, 1d.
Three pieces 3e and 13f are formed on opposite sides.
The other end of each external connection terminal 13 is electrically connected to a connection electrode inside the resin case 12. External terminals 13a and 13
d is electrically connected to the connection electrode 14a, the external terminal 13b is connected to the connection electrode 14b, the external terminal 13c is connected to the connection electrode 14c, the external terminal 13e is connected to the connection electrode 14e, and the external terminal 13f is connected to the connection electrode 14f. . The center conductor assembly 16, matching capacitors 17, 18, and 19, and the resistance element 20 are arranged in the concave portion for inserting components of the resin case 12. Further, capacitors 21 and 22 for the series LC circuit are arranged.

The center conductor assembly 16 is made of ferrite 2
3, three central conductors 24, 25, 26
Is folded. This center conductor is made of ferrite 23
Are insulated from each other with an insulating sheet interposed between the center conductors and intersect at a predetermined angle. The center conductor assembly 16 is disposed in the center hole 15 of the resin case 12, the hole 15 penetrates, the lower case 11 and the lower part of the ferrite 23 are joined, and each center conductor is connected at one end. The structure is grounded.

The resin case 12 of this embodiment will be described in more detail. Connection electrodes 14a, 14 of resin case 12
Matching capacitors 17, 18, and 19 are arranged on b and 14e. The matching capacitors 17, 18, 19
Is a flat plate capacitor, and one electrode is electrically connected to the connection electrode. Also, the connection electrode 14a of the resin case 12
The resistance element 20 is arranged on the upper side. This resistance element 20
One of the electrodes is extended to the lower part, and is electrically connected to the connection electrode. Then, the respective center conductors 24, 25, 26 are arranged on the respective matching capacitors 17, 18, 19, and the other electrodes of the respective matching capacitors 17, 18, 19 are electrically connected to the respective center conductors. The center conductor 24 is also electrically connected to the other electrode of the resistance element 20.

The connection electrodes 14c, 1
The series LC circuit capacitors 21 and 22 are arranged on 4f. The series LC circuit capacitors 21 and 22 are also plate capacitors, and one electrode is connected to the connection electrode 14c.
Conduction with 14f. The electrodes above the capacitors 21 and 22 for the series LC circuit and the center conductors 25 and 26
And inductors 27 and 28 for the series LC circuit are arranged and connected. This is shown in FIG.

Then, the permanent magnet 30 is formed by the resin mold 29.
And the upper case 31 was covered to form a lumped constant type isolator. The resin mold 29 has a concave portion 32 for accommodating the inductors 27 and 28, and also has a convex portion for supporting the center conductor and the matching capacitor. Has the function of suppressing. This embodiment has a structure in which inductors 27 and 28 and capacitors 21 and 22 are connected in series on the input side and the output side with respect to the conventional structure.
A lumped-constant isolator with the same size as the conventional one could be constructed.

In this embodiment, a 3.9 mmφ garnet and a 5.5 mmφ permanent magnet are used, and a 7 mm square and a height of 2 mm are used.
mm is a small, thin lumped constant type isolator,
9~960MHz _(f 0: 924.5MHz) constitute an isolator for band gave the characteristics shown in Table 1.

[0030]

[Table 1]

As shown in Table 1, in the embodiment of the present invention,
Although the insertion loss increases slightly, the VSWR is broadened,
In addition, the attenuation of the second harmonic and the third harmonic of the center frequency (f ₀ ) can be greatly improved. The comparative example of Table 1 is a case where the inductors 27 and 28 and the capacitors 21 and 22 of the embodiment are not connected.

In the above embodiment, a chip inductor is used as an inductor for a series LC circuit, but an inductor having another configuration may be used. Further, a laminated LC chip component that is integrally laminated may be used as the inductor and the capacitor for the series LC circuit.

In the above embodiment, the series LC circuit of the inductor and the capacitor is connected to the input terminal and the output terminal. However, it may be connected to only one of the input terminal and the output terminal. Further, in the above embodiment, the description has been made of the isolator, but the same applies to the circulator.

According to the embodiment of the present invention, by connecting an inductor and a capacitor in series only to the input side or only the output side, or only to the input side and the output side,
Along with widening the band, harmonics such as second harmonic and third harmonic can be suppressed, and components such as low-pass filters, which were conventionally added as separate components, can be eliminated. Thus, miniaturization of the microwave device can be achieved.

[0035]

According to the present invention, in a lumped-constant type nonreciprocal circuit device, a series LC circuit of an inductor and a capacitor is connected to the center conductor on the input side and / or the output side, thereby widening the band and increasing harmonics. A lumped-constant type non-reciprocal circuit device capable of obtaining high attenuation of waves can be obtained. Further, the lumped element type nonreciprocal circuit element is a compact, lumped-constant type, using a resin case, and is capable of obtaining high attenuation of harmonics. What has conventionally required a plurality of components can be achieved with one component. Also, the lumped constant type nonreciprocal circuit element can be achieved with the same size as the conventional one and with a simple structure, which is extremely useful for reducing the size and cost of the device.

[Brief description of the drawings]

FIG. 1 is an exploded perspective view of a first embodiment according to the present invention.

FIG. 2 is an equivalent circuit diagram of the first embodiment according to the present invention.

FIG. 3 is a plan view of the resin case of the first embodiment according to the present invention.

FIG. 4 shows a center conductor and a series LC according to the first embodiment of the present invention.
It is explanatory drawing of the connection part of a circuit.

FIG. 5 is an exploded perspective view of a conventional example.

FIG. 6 is an equivalent circuit diagram of a conventional example.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 11 Lower case 12 Resin case 13a, 13b, 13c, 13d, 13e, 13f External terminal 14a, 14b, 14c, 14e, 14f Connection electrode 15 Through-hole 16 Center conductor assembly 17, 18, 19 Matching capacitor 20 Resistance element 21 , 22 Series LC circuit capacitor 23 Ferrite 24, 25, 26 Center conductor 27, 28 Series LC circuit inductor 29 Resin mold 30 Magnet 31 Upper case

Claims (5)

[Claims] 1. A center conductor assembly comprising a ferrite and a plurality of center conductors arranged in a crossed manner in an electrically insulated state, a matching capacitive element connected to each of the center conductors, and the center conductor assembly A lumped constant type having a resin case having a concave portion and an external terminal for positioning a product and the capacitor element and the like, and a permanent magnet for applying a DC magnetic field to the ferrite, and disposing these in a metal case also serving as a magnetic yoke. A non-reciprocal circuit element, wherein a serial LC circuit is connected between the input and / or output center conductor of the center conductor and the input and / or output terminal, and the resin case is And a concave portion for positioning the capacitive element for the series LC circuit, and a bottom portion of the concave portion has a connection electrode connected to an external terminal, and the matching and series L are provided on the connection electrode.
One electrode of the capacitive element for the C circuit is connected, and each capacitive element is arranged. One end of the center conductor is connected to the other electrode of the matching capacitive element, and the input and / or output A lumped-constant type nonreciprocal circuit element, characterized in that an L element is connected between the center conductor of (1) and the other electrode of the capacitive element for the series LC circuit. 2. A resin mold having a concave portion for accommodating the L element, a convex portion for supporting the matching capacitive element, and a through hole for positioning a magnet is disposed on the resin case. The lumped constant type non-reciprocal circuit device according to claim 1, wherein: 3. The lumped constant type non-reciprocal circuit device according to claim 1, wherein a concave portion of the resin case in which the center conductor assembly is disposed is a through hole. 4. The lumped constant type irreversible according to claim 1, wherein the other end of at least one of the center conductors to which the series LC circuit is not connected is connected to a resistor and terminated. Circuit element. 5. The lumped-constant type nonreciprocal circuit device according to claim 1, wherein the L element is a chip inductor.