JPH08250912A - Vertical feeder part for strip line - Google Patents

Abstract

PURPOSE: To replace a strip line mode with a coaxial mode or vice versa smooth ly by providing a tapered part to a tip of the strip line so that a width of the tip of the strip line in contact with a connector center conductor matches a diameter of the connector center conductor thereby reducing mis-matching. CONSTITUTION: A tapered part 9 is provided to a tip of a strip line 3a so that the width of the tip of the strip line 3a in contact with a connector center conductor 14 matches a diameter of the connector center conductor 14. That is, the strip line 3a has a prescribed width because of the necessity of a desired characteristic impedance. The inconformity with the connector center conductor 14 (with the transmission line in the coaxial mode) is increased by connecting the strip line 3a with the prescribed width to the connector center conductor 14 and then the matching is deteriorated. However, the diameter of the strip line matches the diameter of the connector center conductor 14 by providing the tapered part 9 to the tip. Thus, the inconformity with this part is reduced and the matching performance is improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stripline vertical power supply unit used in a power distributor, an antenna power supply circuit and the like.

[0002]

2. Description of the Related Art FIG. 1A is a perspective view showing a state in which a vertical power supply connector is attached to a stripline constituent board as a power distributor. In the figure, 1 is a vertical power supply connector and 2 is a stripline constituent board. 3 is a strip line. Further, FIG. 1B shows a vertical power supply connector 1
FIG. 13 is a view of the connector viewed from the side, 13 is a connector outer conductor, and 14
Is the connector center conductor.

FIG. 4 is a view showing a connection relationship between a cross section of a conventional stripline constituting substrate 2 and a vertical power supply connector 1 attached to this substrate 2, and FIG. 5 is a second layer of the stripline constituting substrate 2. It is a figure showing a pattern, in the figure, 3b is a strip line, 4b is a strip line surface ground pattern, 5 is a ground plate, 6 is a connector insertion hole, and 7 is a through hole for a connector mounting screw. As shown in FIG. 5, the connector center conductor 14 is in contact with the tip of the strip line 3b, and the connector mounting screw through hole 7 penetrates through the strip line surface ground pattern 4b.

The conventional vertical feeder of the stripline is constructed as described above, the connector center conductor 14 is inserted into the connector insertion hole 6, and the through hole is screwed through the stripline constituent substrate 2 to fix the connector 1 Is attached to the component board 2 (not shown), the strip line 3b and the central conductor 14 are electrically connected, and the outer conductor 13 is electrically connected to the ground plates 5 provided on the front and back sides. The strip line surface ground pattern 4
b plays a role of keeping each through hole at the same potential in the second layer of the constituent substrate 2.

[0005]

The conventional vertical feeder of the stripline is constructed as described above, and due to the discontinuity between the shape of the connector and the shape of the second layer pattern,
There is a problem that inconsistency occurs in this part. That is, as shown in FIG. 5, in the conventional structure, the width of the strip line is constant, and the tip end of the strip line also has a predetermined width, which is discontinuous with the connector center conductor 14. Inconsistency occurs. In addition, the position of the strip line surface ground pattern 4b is not appropriate,
Moreover, since the through hole is also used as a screw hole, there is a restriction on the placement position, impedance mismatch occurs at the tip of the connector center conductor, and the conversion between stripline mode and coaxial mode cannot be performed smoothly. The high frequencies that can be used are limited.

The present invention has been made in order to solve the above-mentioned problems, and it is possible to reduce the mismatch and perform the conversion between the stripline mode and the coaxial mode more smoothly, and to realize the stripline which can be used at a higher frequency. It is intended to provide a vertical power supply.

[0007]

A vertical feeding portion of a stripline according to the present invention has a taper portion on the tip portion of the stripline so that the width of the tip portion of the stripline contacting the connector center conductor matches the diameter of the connector center conductor. Is provided
The width of the strip line surface ground pattern is expanded to a position directly below the inner diameter of the connector outer conductor, and a through hole penetrating the strip line surface ground pattern is separately provided inside the screw through hole.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. 2 is a diagram showing the relationship between the cross section of the stripline constituent substrate 2 of this embodiment and the vertical power supply connector 1 attached to this constituent substrate 2, and FIG. 3 is the second layer of the stripline constituent substrate 2 of this embodiment. It is a figure showing an eye pattern,
In the figure, 3a is a strip line, 4a is a strip line ground pattern, 5 is a ground plate, 6 is a connector insertion hole, 7 is a through hole for a connector mounting screw,
Reference numeral 8 is a small-diameter through hole separately provided inside the screw through hole 7, and 9 is a taper portion provided at a tip end portion of the strip line which contacts the connector center conductor.

As shown in FIGS. 2 and 3, in the present embodiment, a taper portion is provided on the tip end portion of the strip line 3a so that the width of the tip end portion of the strip line 3a in contact with the connector center conductor 14 matches the diameter of the connector center conductor 14. 9 is provided. That is, the strip line 3a has a certain width because it is necessary to obtain a desired characteristic impedance, and when the strip line 3a is connected to the connector center conductor 14 with this width maintained, the strip line 3a is connected to the connector center conductor 14 (coaxial mode as described above). The discontinuity (of the transmission line at) is increased, which results in poor matching. In this embodiment, by providing the tapered portion 9 in this portion, the diameter can be made to match the diameter of the connector center conductor 14, and the discontinuity in this portion can be reduced and the matching can be improved.

In this embodiment, the width of the strip line surface ground pattern 4a is expanded to a position directly below the inner diameter of the connector outer conductor 13 as shown by the chain line 15 in FIG. A small-diameter through hole 8 penetrating the strip line surface ground pattern 4a is separately provided so that the impedance of the connector center conductor 14 portion can be a desired characteristic impedance. The position where the small-diameter through hole 8 is arranged is determined by obtaining an optimum value from the desired characteristic impedance, the diameter of the connector center conductor 14 and the relative permittivity of the stripline constituent substrate 2.

As described above, in the stripline vertical power feeding portion of the present invention, the taper portion 9 is provided at the portion of the stripline 3a which is in contact with the connector center conductor 14 to reduce the discontinuity of the diameter with the connector center conductor 14. At the same time, the width of the strip line surface ground pattern 4a is expanded to a position directly below the inner diameter of the connector outer conductor 14, and a small diameter through hole 8 penetrating the strip line surface ground pattern 4a is provided inside the screw through hole 7. By making the impedance of the connector center conductor 14 a structure capable of obtaining a desired characteristic impedance, the matching property can be enhanced, and the conversion between the stripline mode and the coaxial mode can be performed more smoothly, and the high frequency in the microwave band can be achieved. Stripline hanging that provides practical characteristics even in the area It is possible to configure the power source. Although the above embodiment has been described as a microwave band power distributor, it is needless to say that the present invention can be applied to all microwave circuits configured by other strip lines such as feeding a microwave band antenna with a strip line. Yes.

[0012]

As described above, the stripline vertical power supply unit according to the present invention can perform the conversion between the stripline mode and the coaxial mode more smoothly by increasing the consistency.
The frequency range of the microwave circuit that performs vertical power feeding can be made higher. Further, there is an effect that the degree of freedom in assembling the microwave circuit can be increased.

[Brief description of drawings]

FIG. 1 is a diagram showing a relationship between a component board and a vertical power supply connector.

FIG. 2 is a diagram showing a connection relationship between a component board and a vertical power supply connector in the present embodiment.

FIG. 3 is a diagram showing a second layer pattern in the present embodiment.

FIG. 4 is a diagram showing a connection relationship between a conventional constituent board and a vertical power supply connector.

FIG. 5 is a diagram showing a conventional second layer pattern.

[Explanation of symbols]

 3, 3a 3b Strip line 4a Strip line surface Ground pattern 5 Ground plate 6 Connector insertion hole 7 Connector mounting screw through hole 8 Through hole 9 Tapered part

Claims (2)

[Claims] 1. A vertical power supply connector is screwed to a stripline component board through a through hole, the center conductor of the connector and the stripline are electrically connected, and a ground through which the through hole penetrates around the connection portion. In the vertical power supply portion of the stripline having the structure surrounded by the pattern, a taper portion is provided at the tip portion of the stripline so that the width of the tip portion of the stripline in contact with the connector center conductor is substantially equal to the diameter of the connector center conductor. A stripline vertical power supply characterized by the following. 2. A vertical power supply connector is screwed to a stripline component board via a through-hole, and the connector center conductor and the stripline are electrically connected,
In the vertical power feeding portion of the stripline having a structure in which the through hole penetrates the ground pattern around the connection portion, the width of the tip portion of the stripline in contact with the connector center conductor is made substantially equal to the diameter of the connector center conductor. As described above, a taper portion is provided at the tip end portion, the width of the ground pattern is expanded to a position substantially directly below the inner diameter of the connector outer conductor, and another through hole penetrating the ground pattern is provided inside the through hole. Stripline vertical power supply characterized by.