JPH0718162Y2 - Stripline filter - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a stripline filter having a suitable structure as a transmitting antenna filter.

<Prior Art> As a transmitting antenna filter in a conventional general transmitter, a distributed constant type active filter including a stripline resonator as a passive element capable of suppressing unnecessary radiation from an antenna is used. ing. But,
Since the active filter having such a configuration has an insertion loss, the efficiency of the transmitter using the active filter is deteriorated when viewed as a whole.

Therefore, in order to avoid such inconvenience, as shown in the equivalent circuit diagram of FIG. 3, the electric field coupling portions C1 ₀ and magnetic field coupling part L1 ₀ together with stripline resonator 1 ₀ and amplifier feedback circuit 2 ₀ through the connected resonator 1 in the amplifier feedback circuit 2 ₀
An active filter configured to increase the filter sharpness Q by canceling the insertion loss at ₀ ,
That is, a stripline filter in which an active filter is formed by striplines formed on a dielectric substrate is used. In this Fig. 3 shows the structure of a band-pass, numeral 3 ₀ in this figure is an amplification transistor as an active element provided in the amplifier feedback circuit 2 _0.

<Problems invention is to solve> Incidentally, in the stripline filters with the configuration, it is fed back to the resonator 1 ₀ output from the stripline resonator 1 ₀ after having amplified by amplifier feedback circuit 2 ₀ However, in order to obtain a predetermined filter output, it is necessary to set the amplification feedback amount to a specified value. In this case, when amplified feedback amount setting, the amount of coupling is important in magnetic field coupling part L1 ₀ for connecting the amplifier feedback circuit 2 ₀ and the resonator 1 _0. That is, unless it is assumed that the amount of binding in the magnetic field coupling part L1 ₀ corresponds to the specified value, the output from the resonator 1 ₀ for amplifying the feedback circuit 2 ₀ fluctuates greatly result, predetermined filter output It is because you will not be able to obtain. However, it is very difficult to carry out the binding amount of adjustment in the magnetic field coupling part L1 ₀ by trimming, resulting in that it takes enormous cost and time.

The present invention has been devised in view of such a current situation, and an object thereof is to provide a stripline filter that can reduce the cost and time spent for satisfying a specified condition.

<Means for Solving the Problems> In order to achieve such an object, the present invention provides a stripline filter in which a resonator and an amplification feedback circuit are connected to each other through an electric field coupling portion and a magnetic field coupling portion. Another electric field coupling portion different from the electric field coupling portion is added to the magnetic field coupling portion.

<< Operation >> According to the above configuration, another electric field coupling portion is newly added to the magnetic field coupling portion that connects the resonator of the stripline filter and the amplification feedback circuit. However, this newly added electric field coupling portion is added. Adjustment of the coupling amount in the portion is easier than adjustment of the coupling amount in the magnetic field coupling portion. Therefore, after roughly adjusting the coupling amount in the magnetic field coupling part that has already been set,
By adjusting the coupling amount of the added electric field coupling portion by trimming, the coupling amount adjustment of the entire magnetic field coupling portion can be accurately and easily performed.

<Embodiment> An embodiment according to the present invention will be described below with reference to the drawings.

FIG. 1 is an equivalent circuit diagram showing a bandpass type stripline filter according to the present embodiment, and FIG. 2 is a plan view showing a specific configuration thereof.

This stripline filter is a field coupling part to each other.
A pair of stripline resonators 1 connected via C1
Is equipped with. One end of each resonator 1 is connected to the input / output line 2 via the electric field coupling portion C2, and the other end is connected to the ground line 3. Further, an amplification feedback circuit 5 including an amplification transistor 4 as an active element is connected to each of these resonators 1 via an electric field coupling portion C3 and a magnetic field coupling portion L1. Further, another electric field coupling portion C4 different from the electric field coupling portion C3 is added to the magnetic field coupling portion L1 provided on the ground end side of the amplification transistor 4. The reference numeral 6 in FIG. 2 is a dielectric substrate.

Therefore, in the stripline filter having the configuration of this embodiment, the resonance of the stripline resonator 1
Energy is supplied from the amplifying transistor 4 to the resonator 1 in accordance with the non-resonant state, and the insertion loss in the resonator 1 is canceled, so that the filter sharpness Q is increased. Then, at this time, since another electric field coupling portion C4 different from the electric field coupling portion C3 is newly added to the magnetic field coupling portion L1 of the stripline filter, the coupling amount of the electric field coupling portion C4 is changed to the electrode pattern. By adjusting by trimming or the like, the coupling amount in the entire magnetic field coupling portion L1 can be easily adjusted.

That is, the magnetic field coupling portion L1 of the present embodiment is composed of strip lines formed on the dielectric substrate 6, and the line spacing determines the coupling amount of the magnetic field coupling portion L1. Therefore, when the electric field coupling portion C4 is not added, it is necessary to adjust the coupling amount of the magnetic field coupling portion L1 by changing not only the line spacing but also the shape of the line pattern. However, in adjusting the electric field coupling part C4 after adding the electric field coupling part C4 while adjusting the electric field coupling part C4, it is necessary to perform complicated work that requires a great deal of labor when adjusting the electric field coupling part. The parameters of L1 need not be changed, and the coupling amount of the entire magnetic field coupling portion L1 can be easily adjusted.

In the above description, the present invention is applied to a two-stage band pass filter, but it may be one stage or a multi stage having three or more stages, or may be a band stop type filter. Of course, it is applicable. Furthermore, the stripline filter according to the present invention can be used not only as a transmitting antenna filter but also as a receiving antenna filter.

<Effect of Device> As described above, in the stripline filter according to the present invention, a new electric field coupling part is added to the magnetic field coupling part that connects the resonator and the amplification feedback circuit. After adjusting the coupling amount of the magnetic field coupling part,
By adjusting the coupling amount of the newly added electric field coupling portion, the coupling amount of the entire magnetic field coupling portion can be adjusted accurately and easily. Therefore, the cost and time spent for satisfying the specified conditions required for the stripline filter can be significantly reduced, and the mass productivity can be greatly improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 relate to an embodiment of the present invention. FIG. 1 is an equivalent circuit diagram showing a bandpass type stripline filter, and FIG. FIG. 6 is a plan view showing another configuration. FIG. 3 is an equivalent circuit diagram showing a bandpass type stripline filter according to a conventional example. In the figure, reference numeral 1 is a stripline resonator, 5 is an amplification feedback circuit, C3 is an electric field coupling portion, L1 is a magnetic field coupling portion, and C4 is another newly added electric field coupling portion.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Takehisa Kajikawa 2-26-10 Tenjin, Tenjin, Nagaokakyo-shi, Kyoto Prefecture Murata Manufacturing Co., Ltd. (72) Yoshiharu Kono 2-26-10 Tenjin, Nagaokakyo, Kyoto Stock company Murata Manufacturing Co., Ltd. (56) Reference JP 63-2403 (JP, A) JP 62-86904 (JP, A)

Claims (1)

[Scope of utility model registration request] 1. A stripline filter in which a resonator and an amplification feedback circuit are connected to each other via an electric field coupling section and a magnetic field coupling section, wherein another electric field different from the electric field coupling section with respect to the magnetic field coupling section. A stripline filter characterized in that a coupling portion is added.