JPS63222501A - Circulator with detector - Google Patents

Abstract

PURPOSE:To obtain a circulator with detector of low cost with simple structure by mounting a detector comprising a diode coupled with an inner conductor and a high frequency blocking capacitor in a case forming a coaxial circulator. CONSTITUTION:The diode 21 is placed in parallel near the inner conductor 2 of the coaxial circulator 1 to couple the diode 21 with the inner conductor 2. One terminal of the diode 21 is connected to a dummy terminal device 27 mounted to the case 50 and an output terminal of the diode 21 is connected to the high frequency blocking capacitor 22 mounted in the case 50. Then a detection signal is extracted from an output terminal 22A of the capacitor 22. Thus, the number of input/output coaxial connectors connected to an external circuit is halved in comparison with a conventional number and number of components is less to offer low cost.

Description

[Detailed Description of the Invention] [Summary] By installing a detector consisting of a gui board coupled to an inner conductor and a high frequency blocking capacitor in a case constituting a coaxial circulator, a simple structure and low cost detection can be achieved. We provide equipped circulators.

[Industrial application field]

TECHNICAL FIELD The present invention relates to a circulator with a detector used in a microwave band to millimeter wave band circuit.

Coaxial circulators are widely used for inserting between oscillators, amplifiers, etc. of microwave/millimeter wave circuits and loads for matching. On the other hand, in such microwave/millimeter wave circuits, a detector is inserted before or after the circulator to detect the output of the oscillator, amplifier, etc. and control the output.

[Conventional technology]

FIG. 3 is a block diagram of a conventional circulator and a detector connected together, and the circulator 1 and the detector 20 are connected by a coaxial cord 40.

The circulator 1 is a coaxial type circulator with three openings, and a disc-shaped inner conductor 2 is installed horizontally in the cavity of a case 1O, and magnetized ferrite 3 is mounted above and below the inner conductor 2. The inner conductor 2 has a circulator function.

An input side coaxial connector 11 attached to the side wall of the case 10 is connected to the first opening of the inner conductor 2. The output side coaxial connector 12 attached to the side wall opposite to the side wall attached with the input side coaxial connector 11 is connected to the second opening of the inner conductor 2. Further, the third opening of the inner conductor 2 is connected to a coaxial non-reflection terminator 13 having a characteristic impedance of 50Ω, for example, which is attached to another side wall.

Therefore, a signal wave input from the input coaxial connector 11 passes through the first opening, the inner conductor 2, and the second opening, and is output from the output coaxial connector 12.

On the other hand, the reflected wave reflected on the load side enters the circulator 1 from the output side coaxial connector 12, passes through the second opening, the inner conductor 2, and the third opening, and enters the non-reflection terminator 13. Therefore, this reflected wave is not transmitted to the input side coaxial connector 11.

The detector 20 has a transmission conductor 23 mounted horizontally in a cavity of a case 30, one end of which is connected to an input coaxial connector 25 mounted on the side wall of the case 30, and the other end connected to the input coaxial connector 25. It is connected to an output side coaxial connector 26 mounted on a side wall adjacent to the side wall on which it is mounted.

In addition, a diode 21 is installed in the detector 20 in parallel with the transmission conductor 23 so as to be coupled thereto, and its output terminal is connected to a high frequency blocking device installed on the other side wall of the case 30. It is connected to the capacitor 22 and the detected signal is taken out from the output terminal 22A of the high frequency blocking capacitor 22. On the other hand, the other terminal of the diode 21 is connected to a coaxial type dummy terminal 2 attached to another side wall.
It is connected to 7.

Then, the output coaxial connector 12 of the circulator 1 and the input coaxial connector 25 of the detector 20 are connected using a coaxial cord 40.

As described above, since the detector 20 is connected to the circulator 1, when the output of the amplifier 1 oscillator, etc. is input to the circulator 1, the output of the amplifier 1 oscillator, etc. is connected to the output side coaxial connector 26 of the detector 20. At the same time, a voltage corresponding to the output power of the amplifier 1 oscillator, etc. is generated at the output terminal 22A of the detector 20. Therefore, the input of the circulator 1 can be detected.

[Problem that the invention seeks to solve]

However, the conventional system described above has the problem that the circulator 1 and the detector 20 are provided separately and connected to each other by a coaxial cord 40, and that the number of parts is large (and the cost is high).

The present invention was created in view of these points.
The purpose is to provide an inexpensive circulator with a detector.

[Means for solving problems]

In order to solve the above conventional problems, the present invention provides a coaxial type circulator 1 in a case 50, as shown in the circuit diagram of FIG.
The second opening is connected to the input side coaxial connector 11 attached to the side wall of the case 50, and the second opening is connected to the output side coaxial connector 12 attached to the side wall.

Further, a diode 21 is installed close to and parallel to the inner conductor 2, and the diode 21 is coupled to the inner conductor 2. One terminal of the diode 21 is connected to a dummy terminal 27 mounted on the case 50, and an output terminal of the diode 21 is connected to a high frequency blocking capacitor 22 mounted on the case 50. Then, the output terminal 22 of the high frequency blocking capacitor 22
The detection signal is extracted from A.

[Effect]

According to the above means of the present invention, the coaxial circulator 1
originally has the function of a circulator, so
When the output of the amplifier 9 oscillator etc. is input to the input side coaxial connector 11, the output of the amplifier 1 oscillator etc. is transmitted to the output side coaxial connector 12.

On the other hand, reflected waves entering from the output side coaxial connector 12 are not transmitted to the input side coaxial connector 11.

In addition, a part of the output of the amplifier 9 oscillator, etc. is coupled to the diode 21 within the case 50, detected by the diode 21, and high frequency components are blocked by the high frequency blocking capacitor 22, so that the DC voltage corresponding to the input of the circulator is is generated at the output terminal 22A.

That is, the present invention is a circulator that also has the function of a wave detector.

Such a circulator with a detector can be used in one case 5.
Since the detector and circulator are housed in the 0, the number of input/output coaxial connectors connected to external circuits is halved compared to conventional ones, and the number of components is small, resulting in low cost. be.

〔Example〕

The present invention will be specifically described below with reference to the drawings. Note that the same reference numerals indicate the same objects throughout the figures.

FIG. 2 is a diagram of one embodiment of the present invention, where (a) is a plan view, (a) is a plan view, and (
b) is a sectional view taken along the chain line YY shown in (al).

The circulator 1 shown in FIG. 2 is a coaxial circulator with three openings, and has a cavity in a square case 50.
An inner conductor 2 on a disk is supported horizontally, and a cylindrical ferrite 3 is attached symmetrically with the inner conductor 2 in between.

Each ferrite 3 is embedded in the respective axial center of a disk-shaped support 3A whose outer peripheral portion is supported and fixed to the inner wall of the cavity.

The upper end surface of the upper ferrite 3 and the lower ferrite 3
Magnets 4 are closely attached to the lower end surfaces of the ferrites 3 to magnetize the ferrites 3.

The yoke 5 is attached to the outer surface of the case 50 to form a magnetic path outside the magnet 4.

The input side coaxial connector 11 is attached to one side wall of the case 50, and its center conductor is connected to the first opening of the inner conductor 2. In addition, the side wall on which the input side coaxial connector 11 is attached is the opposite side wall on which the output side coaxial connector 12 is attached,
The center conductor is connected to the second opening of the inner conductor 2.

Further, the third opening of the inner conductor 2 is connected to a non-reflection terminator 13 of the same ring type having a characteristic impedance of 50Ω, for example, which is attached to the other side wall.

The diode 21 is supported in the cavity in a position parallel to the straight line connecting the first opening and the opening in FIG. It is.

The output side terminal of the diode 21 is connected to a high frequency blocking capacitor 22 attached to the other side wall of the case 50, and the detected signal is taken out from the output terminal 22A of the high frequency blocking capacitor 22. On the other hand, the other terminal of the diode 21 is connected to a dummy terminal 27, which is, for example, a non-reflection terminator mounted on another side wall.

The above-described circulator with a detector is used by connecting the input side coaxial connector 11 to the output side of an amplifier 1 oscillator or the like of a microwave/millimeter wave circuit, and connecting the output side coaxial connector 12 to a load.

When connected to a microwave/millimeter wave circuit in this way, the signal wave input from the input side coaxial connector 11 passes through the first opening - inner conductor 2 - second opening, and is output from the output side coaxial connector 12. Ru. On the other hand, the reflected wave reflected on the load side enters the circulator 1 from the output side coaxial connector 12, passes through the second opening, the inner conductor 2, and the third opening, and enters the non-reflection terminator 13.

Therefore, this reflected wave is not transmitted to the input side coaxial connector 11.

A part of the output of the amplifier 9 oscillator etc. is coupled to the diode 21 within the case 50 and detected by the diode 21.
The high frequency blocking capacitor 22 blocks high frequency components. Therefore, a DC voltage proportional to the circulator input is generated at output terminal 228.

〔Effect of the invention〕

As explained above, the present invention is a strip line type circulator in which a diode coupled to an inner conductor and a high frequency blocking capacitor are installed in a case constituting a strip line circulator.
This circulator has the function of a wave detector, and has excellent practical effects such as a simple structure, a small number of parts, and low cost.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of the present invention, FIG. 2 is a diagram of an embodiment of the present invention, (a) is a plan view, Mountain) is a cross-sectional view, FIG. 3 is a configuration diagram of a conventional example. In the figure, 1 is a circulator, 2 is the inner conductor, 3 is ferrite, 10.30.50 is a case, 11.25 is the input side coaxial connector, 12.26 is the output side coaxial connector, 13 is a non-reflection terminator, 21 is a diode, 22 is a high frequency blocking capacitor; 22A is the output terminal, 27 indicates a dummy terminal, respectively.

Claims (1)

[Claims] A coaxial circulator (1) and an inner conductor (2) of the circulator (1),
A diode (21) installed in parallel to the inner conductor (2), and a high frequency blocking capacitor (22) having an output terminal (22A) and connected to the output terminal of the diode (21).
A circulator with a detector, characterized in that it is housed in a case (50).