JPS6144405B2 - - Google Patents

Description

[Detailed description of the invention]

The present invention relates to an improvement in a small, low-cost, and high-performance stripline circulator used in the microwave band. The circulator, which is the most important component of microwave equipment, is used in a wide range of microwave fields for purposes such as protecting transistors during high-power operation, matching between stages, and removing unnecessary radiation. Recently, with the rapid miniaturization of other microwave elements, the space occupied by the circulator in the entire microwave apparatus has become quite noticeable. For example, in some types of equipment, it is not uncommon for these space factors to exceed 50%. Furthermore, from the perspective of the overall cost of the microwave device, the price of the circulator has become a significant factor. Therefore, miniaturization of the circulator,
The demand for lower prices is only getting stronger day by day. The present invention relates to an improvement in the structure of a circulator in order to meet the industrial demands for smaller diameters and lower prices. In general, the structure of a conventional miniaturized stripline circulator is, as shown in FIG. It is tightly fixed with adhesive etc. 5a, 5b, and 5c are grooves for mounting circulators. FIG. 2 shows the stripline circulator of the conventional structure shown in FIG. 1 taken apart so that the shape of each component can be seen. However, this structure uses ferrite core 2 as a permanent magnet.
Ferrite magnets 1a, 1b with smaller outer diameter dimensions
This has a negative impact on insertion loss, which is an important characteristic of circulators. This consists of two ferrite magnets 1a and 1 shown in FIG.
The magnetic field distribution caused by b is particularly bad at the periphery,
This is because the ferrite core 2 has the effect of increasing magnetic loss. SUMMARY OF THE INVENTION An object of the present invention is to overcome the drawbacks of the prior art described above and to provide a stripline circulator that is small in size, low in cost, and high in performance. In order to achieve the above object, the circulator of the present invention has a center conductor 3 and a ground conductor 4 attached to the top and bottom of a single ferrite core 2 in close contact with each other, and permanent magnets are further attached to the top and bottom from outside of these. In a stripline circulator configured by attaching and magnetizing the permanent magnets in the vertical direction, the outer diameter dimension D ₁ of the permanent magnet 6 attached in close contact with the ground conductor 4 is in close contact with the center conductor 3. External dimensions of permanent magnet 1a attached to
D ₂ , and the relationship between them is D ₁ ≧D ₂ . Hereinafter, the present invention will be explained in detail with reference to Examples.
FIG. 4 shows the magnetic field distribution when the structure of the present invention is used. That is, in this embodiment, the ferrite magnet 1a is D ₂ =6φ and 3t in size, the ferrite core 2 is 14φ, and the permanent magnet 6 is D ₁ =10φ and 4t in size. A ferrite magnet was used. It is a feature of the present invention that D ₁ >D ₂ . By using this new structure, we were able to create a low-loss stripline circulator that operates stably in the 8-10 GHz band.

[Table] Table 1 shows the changes in the insertion loss of the stripline circulator when the outer diameter dimension _D1 of the permanent magnet closely fixed to the ground conductor is varied. The dimensions of the other parts are exactly the same as in the previous embodiment. As is clear from these results,
It can be seen that as D ₁ gradually increases, the insertion loss decreases and is improved. In this example, when the ratio D ₁ /D ₂ was 1.1 or less, the insertion loss hardly changed, but when it exceeded 1.1, it had a positive effect on the insertion loss. Figure 5 shows
1 is a schematic assembly diagram of a stripline circulator having the structure of the present invention; FIG. In this embodiment, ferrite magnets are used for both the upper and lower permanent magnets, but it is possible to use a metal magnet as the permanent magnet 6 closely fixed to the ground conductor side. However, it is not preferable to use a metal magnet as the permanent magnet closely fixed to the upper center conductor because the impedance changes widely. Furthermore, although this embodiment shows the case where the ground conductor and the center conductor are attached with adhesive or the like, the same effect can be expected even if other printing techniques, vapor deposition, sputtering, etc. are used. As described above in detail using the embodiments of the present invention, it is clear that the present invention has remarkable effects in terms of miniaturization and low loss.

[Brief explanation of the drawing]

Figures 1 and 2 are schematic assembly diagrams of the conventional product, Figure 3 is a configuration diagram of the permanent magnet of the conventional product, Figure 4 is a configuration diagram of the permanent magnet of the product of the present invention, and Figure 5 is a diagram of the permanent magnet of the product of the present invention. Schematic assembly diagram. 1a, 1b: ferrite magnet, 2: ferrite core, 3: center conductor, 4: ground conductor, 6: permanent magnet.

Claims (1)

[Claims] 1 Center conductor 3 above and below one ferrite core 2
In a stripline circulator constructed by attaching a ground conductor 4 in close contact with the ground conductor 4, and attaching permanent magnets in close contact with each other upward and downward from the outside of these, and magnetizing the magnets in the vertical direction, the ground conductor 4 is Outer diameter dimension of the closely attached permanent magnet 6
D ₁ is larger than the outer diameter dimension D ₂ of the permanent magnet 1a closely attached to the center conductor 3, and the relationship between them is D ₁ ≦
A stripline circulator characterized by a 1.1D ₂ .