KR20220032209A - Low-pass filter for RF signal and manufacturing method thereof - Google Patents

Abstract

The present invention provides a low pass filter for an RF signal. The low pass filter for an RF signal which passes an RF signal comprises: a first high impedance transmission line; a first low impedance transmission line connected in series with the first high impedance transmission line; a second high impedance transmission line connected in series with the first low impedance transmission line; a second low impedance transmission line connected in series with the second high impedance transmission line; and a third high impedance transmission line connected in series with the second low impedance transmission line. A first dielectric is formed around the second high impedance transmission line in a structure surrounding the second high impedance transmission line. An embodiment of the present invention can provide a low-pass filter for an RF signal, which is resistant to impact by inserting a dielectric between central conductors, has excellent assembly ability capable of reducing the size of a product, and has excellent quality characteristics, and a manufacturing method thereof.

Description

Low-pass filter for RF signal and manufacturing method thereof

The present invention relates to a low-pass filter for an RF signal, and more particularly, to a low-pass filter for an RF signal that is strong against impact by inserting a dielectric between an outer conductor and a central conductor, has excellent assembly properties that can reduce the size of a product, and has excellent quality characteristics. It relates to a low-pass filter and a method for manufacturing the same.

The content described below merely provides background information related to the present invention and does not constitute the prior art.

In general, in base station and repeater systems of wireless communication systems, mobile communication systems, and radar systems, to reduce interference with other systems, high-frequency filters (Microwave Filters) are installed between the antenna and the transceiver to reduce the out-of-band output signal of its own transmitter. The malfunction of the low-noise amplifier at the receiving end is reduced by reducing the size of the signal to below a certain level or by reducing the out-of-band signal included in the signal received from the antenna.

In particular, high-performance filters are sometimes installed to remove interference between adjacent services. A low-pass filter (LPF) is used to reduce interference in the high frequency bands above and beyond the double band, which is difficult for high-performance filters to remove. .

1 is a diagram showing an equivalent circuit of a general low-pass filter having a general step impedance structure used in the prior art, and FIG. 2 is a cross-sectional view of a coaxial low-pass filter for RF signals.

1, the low-pass filter (LPF) for RF signal according to the prior art applied to date has a structure of step impedance, and equivalently, a first inductor 110a (Inductor, L1) through which a low-frequency signal passes and The second inductor 110b (L2) is configured in series, and the first capacitor 120 (Capacitor, C1) for blocking the high-frequency signal is connected in parallel. The first and second inductors L1 and L2 and the first capacitor C1 are equivalently alternately configured.

Referring to FIG. 2 , the first and second inductors L1 and L2 connected in series are implemented as coaxial lines having high impedance, and the first capacitor C1 connected in parallel has low impedance. ) is implemented as a coaxial line with

In such a low-pass filter for an RF signal, the inductors (L1, L2) and the capacitor (C1), which are basically used in order to increase the amount of interference cancellation, are sequentially exchanged and arranged to supplement the characteristics.

On the other hand, recently, wireless communication systems, mobile communication systems, and radar systems have been developed to increase the amount and speed of signal transmission through the complexity of the wireless front-end, such as multi-band, wide-band, and multi-transmitting and receiving antennas. Complexity, light weight, and miniaturization are essential requirements.

In particular, there is a need to implement a low-pass filter (LPF) for an RF signal that has been separated and used in the prior art in a form that combines the simple connection function of an RF adapter that connects an amplifier and an antenna with the characteristics of a low-pass filter for an RF signal.

This is not a simple transformation of the transmission line called an adapter, but two parts become one by having an after-effect characteristic, gaining a mechanical gain for space and weight, and reducing transmission loss by combining additional functions and reducing the number of parts This is because an effective system design that lowers the defect rate is achieved.

However, in the structure of the conventional low-pass filter for RF signals as in FIGS. 1 and 2, it is difficult to reduce the size and weight, so there is a limit to reducing the length of the coaxial line.

The present invention is to solve the above-mentioned problems, a low-pass filter for RF signals with excellent quality characteristics, strong in shock resistance by inserting a dielectric between an external conductor and a central conductor, excellent in assembly to reduce the size of the product, and To provide a manufacturing method thereof.

However, the problems to be solved by the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

A low-pass filter according to a feature of the present invention for solving these technical problems,

In the low-pass filter for RF signal that passes the RF signal,

a first high-impedance transmission line;

a first low impedance transmission line connected in series with the first high impedance transmission line;

a second high impedance transmission line connected in series with the first low impedance transmission line;

a second low impedance transmission line connected in series with the second high impedance transmission line;

a third high-impedance transmission line connected in series with the second low-impedance transmission line;

A first dielectric is formed around the second high-impedance transmission line to surround the second high-impedance transmission line.

The first dielectric is formed in a donut shape with a cylindrical hole in the center, and one side is cut out from the center to be inserted into the second high-impedance transmission line through the hole.

the first high-impedance transmission line, the first low-impedance transmission line, the second high-impedance transmission line, the second low-impedance transmission line, and the third high-impedance transmission line form a central conductor;

It is characterized in that the central conductor to which the first dielectric is coupled is sandwiched between the cylindrical outer conductor.

A low-pass filter according to another feature of the present invention for solving these technical problems,

In the low-pass filter for RF signal that passes the RF signal,

a first high-impedance transmission line;

a first low impedance transmission line connected in series with the first high impedance transmission line;

a second high impedance transmission line connected in series with the first low impedance transmission line;

a second low impedance transmission line connected in series with the second high impedance transmission line;

a third high impedance transmission line connected in series with the second low impedance transmission line;

a third low impedance transmission line connected in series with the third high impedance transmission line;

a fourth high-impedance transmission line connected in series with the third low-impedance transmission line;

A first dielectric and a second dielectric are respectively formed around the second high-impedance transmission line and the third high-impedance transmission line to surround the second high-impedance transmission line and the third high-impedance transmission line. .

The first dielectric and the second dielectric are formed in a donut shape with a hole in the center, and one side is cut out from the center to be inserted into the second high impedance transmission line and the third high impedance transmission line, respectively. do.

the first high impedance transmission line, the first low impedance transmission line, the second high impedance transmission line, the second low impedance transmission line, the third high impedance transmission line, the third low impedance transmission line, and the fourth high impedance transmission line form a central conductor,

It is characterized in that the central conductor to which the first dielectric and the second dielectric are coupled is sandwiched between the cylindrical outer conductor.

A method of manufacturing a low-pass filter according to another feature of the present invention for solving these technical problems,

In the manufacturing method of a low-pass filter for an RF signal that passes the RF signal,

preparing a central axis to which the first high impedance transmission line, the first low impedance transmission line, the second high impedance transmission line, the second low impedance transmission line, and the third high impedance transmission line are connected in series;

coupling the cut-out portion of the first dielectric formed in a donut shape having a hole in the center to the second high-impedance transmission line;

and inserting the central conductor to which the first dielectric is coupled to the cylindrical outer conductor.

In an embodiment of the present invention, a low-pass filter for RF signals having excellent quality characteristics, strong against impact by inserting a dielectric between an outer conductor and a central conductor, and excellent assembly to reduce the size of a product, and a method for manufacturing the same can do.

1 is an equivalent circuit diagram of a conventional low-pass filter.
2 is a cross-sectional view of a conventional low-pass filter.
3 is a cross-sectional view of a low-pass filter according to an embodiment of the present invention.
4 is a front view of a first dielectric applied to a low-pass filter according to an embodiment of the present invention.
5 is a perspective view of a first dielectric applied to a low-pass filter according to an embodiment of the present invention.
6 is a view showing a central conductor applied to a low-pass filter according to an embodiment of the present invention.
7 is a view showing a state in which the first dielectric and the second dielectric are sandwiched between the central conductor in the low-pass filter according to the embodiment of the present invention.
8 is a view showing a method of manufacturing a low-pass filter according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms used in this specification are terms used to properly express a preferred embodiment of the present invention, which may vary depending on the intention of a user or operator or a custom in the field to which the present invention belongs. Accordingly, definitions of these terms should be made based on the content throughout this specification. Like reference numerals in each figure indicate like elements.

Throughout the specification, when a member is said to be located "on" another member, this includes not only a case in which a member is in contact with another member but also a case in which another member exists between the two members.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components.

Hereinafter, a low-pass filter for an RF signal of the present invention will be described in detail with reference to Examples and drawings. However, the present invention is not limited to these examples and drawings.

3 is a cross-sectional view of a low-pass filter according to an embodiment of the present invention.

4 is a front view of a first dielectric applied to a low-pass filter according to an embodiment of the present invention.

5 is a perspective view of a first dielectric applied to a low-pass filter according to an embodiment of the present invention.

6 is a view showing a central conductor applied to a low-pass filter according to an embodiment of the present invention.

7 is a view showing a state in which the first dielectric and the second dielectric are sandwiched between the central conductor in the low-pass filter according to the embodiment of the present invention.

3 to 7, the low-pass filter according to the embodiment of the present invention,

In the low-pass filter for RF signal that passes the RF signal,

a first high-impedance transmission line 110;

a first low impedance transmission line 120 connected in series with the first high impedance transmission line 110;

a second high-impedance transmission line 130 connected in series with the first low-impedance transmission line 120;

a second low impedance transmission line 140 connected in series with the second high impedance transmission line 130;

a third high-impedance transmission line 150 connected in series with the second low-impedance transmission line 140;

a third low impedance transmission line 160 connected in series with the third high impedance transmission line 150;

a fourth high-impedance transmission line 170 connected in series with the third low-impedance transmission line 160;

The second high-impedance transmission line 130 and the third high-impedance transmission line 150 have a structure surrounding the second high-impedance transmission line 130 and the third high-impedance transmission line 150 . It is characterized in that the dielectric 210 and the second dielectric 220 are respectively formed.

The first dielectric 210 and the second dielectric 220 are formed in a donut shape with a hole 211 in the center, and one side is cut out 212 from the center to the outside to form the second high-impedance transmission line 130 . ) and the third high-impedance transmission line 150 , respectively.

The first high-impedance transmission line 110 , the first low-impedance transmission line 120 , the second high-impedance transmission line 130 , the second low-impedance transmission line 140 , and the third high-impedance transmission line 150 ) , the third low-impedance transmission line 160 and the fourth high-impedance transmission line 170 form a central conductor,

It is characterized in that the central conductor to which the first dielectric 210 and the second dielectric 220 are coupled is sandwiched between the cylindrical outer conductor 300 .

The cylindrical outer conductor 300 and the first dielectric 210 and the second dielectric 220 are in contact without a gap, and there is a gap between the central conductor and the outer conductor 300 . In particular, there must be a gap between the low-impedance transmission line and the external conductor 300 to function as a capacitor.

If necessary, the low-pass filter can be added or removed in series by alternating the low-impedance transmission line and the high-impedance transmission line, and the length can be freely designed according to the purpose.

The first low-impedance transmission line 120 , the second low-impedance transmission line 140 , and the third low-impedance transmission line 160 serve as capacitors, but may be combined to increase the fringing capacitance.

The first high-impedance transmission line 110 , the second high-impedance transmission line 130 , the third high-impedance transmission line 150 , and the fourth high-impedance transmission line 170 serve as inductors, and combine with each other to form the entire The series inductance can be increased.

The low-pass filter of the present invention may be a low-pass filter for an RF signal that is a coaxial stepped impedance low-pass filter.

A method of manufacturing a low-pass filter having such a configuration is as follows.

8 is a view showing a method of manufacturing a low-pass filter according to an embodiment of the present invention.

Referring to FIG. 8 , first, a first high impedance transmission line 110 , a first low impedance transmission line 120 , a second high impedance transmission line 130 , a second low impedance transmission line 140 , and a third A central conductor to which the high impedance transmission line 150 , the third low impedance transmission line 160 , and the fourth high impedance transmission line 170 are connected in series is prepared ( S810 ). This is shown in FIG. 6 .

Then, the cut 212 portions of the first dielectric 210 and the second dielectric 220 formed in a donut shape having a hole 211 in the center of the second high-impedance transmission line 130 are sandwiched and coupled. (S820). This state is shown in FIG. 7 .

Next, the central conductor to which the first dielectric 210 and the second dielectric 220 are coupled is inserted into the cylindrical outer conductor 300 (S830).

A plurality of the above process can be repeatedly manufactured and used.

For example, if the number of low-impedance transmission lines of the central conductor is one, it is a first-order low-pass filter, and if there are three, it is a third-order low-pass filter, and low-pass filters of various orders can be designed. That is, various degree modifications are possible in these modified examples. In the embodiment of the present invention, in the case of the third-order low-pass filter, two toroidal dielectrics are used. And in the case of the 5th-order low-pass filter, four toroidal dielectrics are required. That is, the number of toroidal dielectrics needs to be one less than the order.

A low-pass filter can be manufactured simply by this process.

In an embodiment of the present invention, as a dielectric is inserted between the central conductors and the external conductor 300 and the dielectric are coupled without a gap, it is strong against external impact.

And in the embodiment of the present invention, the central conductor and the outer conductor 300 are constantly spaced apart, so that the quality characteristics are excellent, and thus the size of the product can be reduced.

And, in the embodiment of the present invention, the low-pass filter can be manufactured by simply inserting the dielectric into the central conductor, and by inserting the combined body into the external conductor 300 .

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, even if the described techniques are performed in an order different from the described method, and/or the described components are combined or combined in a different form from the described method, or are substituted or substituted by other components or equivalents Appropriate results can be achieved. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (7)

In the low-pass filter for RF signal that passes the RF signal,
a first high-impedance transmission line;
a first low impedance transmission line connected in series with the first high impedance transmission line;
a second high impedance transmission line connected in series with the first low impedance transmission line;
a second low impedance transmission line connected in series with the second high impedance transmission line;
a third high-impedance transmission line connected in series with the second low-impedance transmission line;
and a first dielectric is formed around the second high-impedance transmission line to surround the second high-impedance transmission line. The method of claim 1,
The first dielectric is formed in a donut shape with a cylindrical hole in the center, one side is cut out from the center and inserted into the second high-impedance transmission line through the hole. 3. The method of claim 2,
the first high-impedance transmission line, the first low-impedance transmission line, the second high-impedance transmission line, the second low-impedance transmission line, and the third high-impedance transmission line form a central conductor;
A low-pass filter characterized in that the central conductor to which the first dielectric is coupled is sandwiched between the cylindrical outer conductor. In the low-pass filter for RF signal that passes the RF signal,
a first high-impedance transmission line;
a first low impedance transmission line connected in series with the first high impedance transmission line;
a second high impedance transmission line connected in series with the first low impedance transmission line;
a second low impedance transmission line connected in series with the second high impedance transmission line;
a third high impedance transmission line connected in series with the second low impedance transmission line;
a third low impedance transmission line connected in series with the third high impedance transmission line;
a fourth high-impedance transmission line connected in series with the third low-impedance transmission line;
The first dielectric and the second dielectric 220 are respectively formed around the second high impedance transmission line and the third high impedance transmission line in a structure surrounding the second high impedance transmission line and the third high impedance transmission line. Features a low-pass filter. 5. The method of claim 4,
The first dielectric and the second dielectric are formed in a donut shape with a hole in the center, and one side is cut out from the center to be inserted into the second high impedance transmission line and the third high impedance transmission line, respectively. a low-pass filter. 6. The method of claim 5,
the first high impedance transmission line, the first low impedance transmission line, the second high impedance transmission line, the second low impedance transmission line, the third high impedance transmission line, the third low impedance transmission line, and the fourth high impedance transmission line form a central conductor,
A low-pass filter characterized in that the central conductor to which the first dielectric and the second dielectric are coupled is sandwiched between the cylindrical outer conductor. In the manufacturing method of a low-pass filter for an RF signal that passes the RF signal,
preparing a central axis to which the first high impedance transmission line, the first low impedance transmission line, the second high impedance transmission line, the second low impedance transmission line, and the third high impedance transmission line are connected in series;
coupling the cut-out portion of the first dielectric formed in a donut shape having a hole in the center to the second high-impedance transmission line;
A method of manufacturing a low-pass filter comprising the step of sandwiching a central conductor to which the first dielectric is coupled to a cylindrical outer conductor.

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