JPH02183981A - Coaxial connector - Google Patents

Abstract

PURPOSE:To effectively prevent the deterioration in VSWR by integrally forming large-diameter bulges satisfying the preset characteristic impedance on the end section of at least one of a pair of center conductors of a jack and a plug oppositely to the end face of the other center conductor. CONSTITUTION:A jack 2 and a plug 3 are constituted of external conductors 45 made of stainless steel, center conductors 6 and 7 made of brass, and Teflons 8 and 9 filled between them. Sizes of components are set so that the characteristic impedance of a coaxial connector is made 50OMEGA-75OMEGA. End sections of center conductors 6 and 7 are faced to each other, large-diameter bulge sections 10 and 11 are integrally formed, and the large diameter is obtained so that air exists on the periphery and the characteristic impedance is satisfied by the dielectric constant of air. Insulators 8a and 9a may be fitted around the bulge sections 10 and 11. When a gap 8 is provided between end faces 10 and 11 for connection, the change of the characteristic impedance due to the capacity increase by the area increase of the end faces 10a and 11a is suppressed, the deterioration in VSWR is prevented, and a connector with high reliability is obtained.

Description

DETAILED DESCRIPTION OF THE INVENTION <Field of Industrial Application> The present invention relates to a coaxial connector used for coupling transmission coaxial lines, and more particularly to the end structure of its dJ core conductor.

<Prior art> Conventionally, as an example of this type of coaxial connector, the 6th coaxial connector
A device having a schematic configuration as shown in the side sectional view of the figure is known. This coaxial connector 20 consists of a jack 21 and a plug 22, and the center conductor 23 of the jack 2I
and the center conductor 25 of the plug 22 relative to the outer conductor 24.
and the outer conductor 26 are fitted into each other to be integrally coupled. Insulators 27 and 28 having a predetermined dielectric constant are filled between the center conductor 2325 and the outer conductors 24 and 26 that constitute the jack 21 and the plug 22, respectively. The dimensions of each component constituting this coaxial connector 20 are set so that its characteristic impedance is a predetermined constant value, such as 50Ω or 75Ω.

<Problems to be Solved by the Invention> By the way, in the coaxial connector 20 of the conventional configuration, when the jack 21 and the plug 22 are connected, the center conductors 23 and 25 of both are butted against each other and are broken. The end surfaces 23a of the center conductors 23, 25,
Generally, it is provided between 25a and 25a. If such a gap S is provided, a part of the narrow diameter portion 25b of the center conductor 25 disposed in the plug 22 fitted into the center conductor 23 of the jack 21 will be exposed in the gap S. become.

As a result, when such a gap S is provided, air exists around the narrow diameter portion 25b of the exposed center conductor 25 and has a different conductivity from that of the insulator 28.
Jack 21
This results in a change in the characteristic impedance at the connection portion between the plug 22 and the l0G.
The voltage standing wave ratio (VSW
As a result, the insertion loss in the coaxial connector 20 increases. Moreover, at the same time, the variation in VSWR and insertion loss among individual products increases, resulting in the disadvantage that the degree of freedom in design when using coaxial connectors is reduced.

Therefore, in order to avoid these inconveniences, coaxial connector 2
It is conceivable to strictly control the machining accuracy of each component making up 0 and the assembly accuracy of these parts. However, this creates other disadvantages, such as a significant increase in processing and assembly costs.

The present invention was devised to solve these various inconveniences, and suppresses changes in characteristic impedance when a gap is provided between the end faces of a pair of center conductors disposed in each of a jack and a plug. The present invention aims to provide a coaxial connector that can prevent deterioration of VSWR.

<Means for Solving the Problems> In order to achieve such an object, the present invention provides a method in which at least one end of a pair of center conductors disposed in a jack and a plug that are coupled to each other is provided with a This configuration adopts a configuration in which a large diameter projecting portion that faces the end face of the center conductor and satisfies a set characteristic impedance is integrally formed.

<Function> According to the above configuration, the capacitance between the end of the overhang formed at the end of one center conductor and the end face of the other center conductor opposing this increases. . This capacitance reduces resistance to high frequencies and suppresses changes in characteristic impedance, thereby effectively preventing deterioration of VSWR.

<Example> Embodiments of the present invention will be described below based on the drawings.

FIG. 1 is a side sectional view showing a schematic configuration of a coaxial connector according to the present invention, and the reference numeral l in this figure indicates a coaxial connector. This coaxial connector 1 consists of a jack 2 and a plug 3 that is fitted into and coupled to the jack 2. and,
Each of the jack 2 and the plug 3 has an outer conductor 4, 5 made of stainless steel or gold-plated brass.
, center conductors 6 and 7 made of brass or heat-treated beryllium copper, and an insulator 8 having a predetermined dielectric constant such as Teflon (tetrafluoride resin) filled between them.
9. It goes without saying that the dimensions of each component constituting this coaxial connector 1 are set so that its characteristic impedance is a predetermined constant value, such as 50Ω or 75Ω.

Furthermore, the center conductors of the jack 2 and plug 3 that constitute this coaxial connector l, that is, the pair of center conductors 6 and 7 that are coupled to each other, have their ends facing each other and having a set characteristic impedance. A satisfying large diameter projecting portion 10, ml is integrally formed. In other words, since the insulator 8.9 is not filled around these overhanging portions 10.11 and air is present, the outer diameter of each overhanging portion 10.11 is as follows.
It has a large diameter that satisfies the characteristic impedance, which is set to a constant value based on the dielectric constant of air.

At this time, as shown by the imaginary lines in FIG. 1, insulators 8a,
It goes without saying that 9a may also be attached.

In this coaxial connector 1, the jack 2 and the plug 3 are connected to each other with a gap S provided between the center conductors 6 and 7, as in the conventional example. A gap S is provided between the end surface 10a of the overhang 10 formed on the center conductor 6 and the end surface 11a of the overhang 11 formed on the center conductor 7 of the plug 3. However, these overhangs
As a result, the area of each end face 10a, lla of O, l'l becomes larger than that of the conventional structure, and as a result, the capacitance (capacitance) increases between these end faces 10a, lla, and this capacitance increases the resistance to high frequencies. Resistance is reduced and changes in characteristic impedance are suppressed.

Further, FIG. 2 is an explanatory diagram showing the relationship between the gap S and VSWR at 18GH in the coaxial connector l having the above configuration. According to FIG. 2, the coaxial connector l, which is a product of the present invention, has a degree of dimensional freedom of 40% or more in order to obtain the same performance compared to the conventional product, that is, the coaxial connector 20 described in ii7. You can see that it is getting wider. In addition, in this figure, the horizontal axis is the dimension of the gap S, and the vertical axis is the dimension of V.
The SWR is shown respectively, and the solid line in the figure shows the product of the present invention, and the dashed-dotted line shows the conventional product.

By the way, in the above description, the central conductor 6.
Although the overhanging portions 10 and 111 are integrally formed at the ends of each of the central conductors 6 and 7, it is not necessarily necessary to form the overhanging portions 10 and 11 on both of the center conductors 6 and 7. That is, for example, as shown in the modified example of FIG. Even in this case, the capacitance between the end surface 11a (10a) of this overhanging portion 11 (10) and the end surface of the other center conductor 6 (7) increases. Although FIG. 3 shows an example in which the overhang 11 is formed only on the center conductor 7 of the plug 3, the same applies to the case where the overhang 10 is formed only on the center conductor 6 of the jack 2. Needless to say.

When the configuration shown in FIG. 3 is adopted, there is also the advantage that compatibility with conventional products can be obtained.

Furthermore, in the coaxial connector 1 having the configuration described above, as is clear from FIGS. 1 and 2, a hole for inserting the center conductor 7 is formed at the end of the center conductor 6 constituting the jack 2. As a result, the diameter at this portion suddenly changes and becomes smaller, which may cause disturbances in the transmitted radio waves. Therefore, for example, as in another modified example of the coaxial connector l shown in FIGS. 4 and 5, the outer periphery of the center conductor 6 of the jack 2 is formed into a stepped shape or a tapered shape, and the periphery is filled. If the insulator 8 is formed so as to correspond to the outer diameter dimension of the center conductor 6 so that the characteristic impedance is not disturbed, sudden changes in the diameter of the center conductor 6 will be reduced, and as a result, there is no possibility of radio wave disturbances occurring. It disappears. It goes without saying that the outer peripheral shape of the end portion of the center conductor 6 is not limited to the above, and can be arbitrarily changed as necessary.

<Effects of the Invention> As explained above, according to the present invention, at least one end of a pair of center conductors that are coupled to each other is provided with a Since a large-diameter overhang that satisfies the characteristic impedance is integrally formed, the capacitance between the end face of this overhang and the end face of the other center conductor increases. This capacitance reduces the resistance to high frequencies, providing the same effect as if the center conductors were directly coupled together.

Therefore, changes in characteristic impedance are suppressed and deterioration of VSWR is effectively prevented, and as a result, disadvantages such as increased insertion loss and large variations between products as in conventional examples are avoided. This will eliminate the occurrence of such problems, and furthermore, it will be possible to improve the double amount and reduce costs. Furthermore, the structure of the present invention reduces or eliminates the deterioration of VSWR in the gap caused by insufficient fitting between the jack and the plug.

[Brief explanation of the drawing]

Figures 1 to 5 relate to embodiments of the present invention, with Figure 1 being a side sectional view showing a schematic configuration of a coaxial connector, and Figure 2 showing the relationship between the gap and voltage standing wave ratio (VSWR). It is an explanatory diagram, and FIGS. 3 to 5 are side sectional views showing the schematic configuration of each modification of the coaxial connector. Further, FIG. 6 is a side sectional view showing a schematic configuration of a coaxial connector according to a conventional example. In the figure, numeral 1 is a coaxial connector, 6 and 7 are center donors,
10.11 is a projecting portion.

Claims (1)

[Claims] (1) At least one end of a pair of center conductors that are coupled to each other is integrally formed with a large-diameter overhang that faces the end surface of the other center conductor and satisfies a set characteristic impedance. Characteristic coaxial connector.