JPS59501650A - microwave variable attenuator - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] microwave variable attenuator Technical field The present invention relates to microwave attenuators, and more particularly to variable attenuators. .

1. field of invention Microwave systems are generally equipped with instructions to ensure proper operation of the system. requires a microwave attenuator.

A variable attenuator is used as this attenuator, which can be easily adapted to various conditions.

2. Description of conventional technology Microwave power variable attenuators are known in the art. Such attenuation Traditionally, there are coaxial types and waveguide types. Both of these attenuators are large Suitable for large and heavy objects such as treasures and spaceships, and objects with limited weight. There were no problems.

A coaxial attenuator is used to absorb microwaves between the inner and outer conductors of a coaxial line. It is configured to be used for inserting material. Of course, this attenuator has a fixed type and a variable type. There is. This is where part of the coaxial line is connected to the microphone along with the premises connector. Since it must not be connected to the wave circuit, it is large in volume and heavy in weight. There was a problem.

One way to make the attenuation adjustable is to use a portion of the waveguide as an attenuator. attenuation To do this, a resistance plate is inserted into the inside of this waveguide through a slot formed in the wall of this waveguide. This is done by inserting a part. Attenuation (adjust by inserting and removing the resistance plate above) Arrange. Such an attenuator 1.1 has a large volume and a large weight.

Summary of the invention In view of the conventional drawbacks, the main objective of the present invention is to reduce the %f, :, ;J, and dimensions. The objective is to provide a variable mark r claw 1 woove prayer instrument that can be used for various purposes.

Let's take a look at the conventional problems mentioned above! In order to A conductive transmission line placed close to the substrate and between this transmission line and the substrate. It is equipped with a variable attenuator located on the machine, and the attenuation is adjusted by operating this attenuator. I can do that.

Brief description of the drawing The figure is a plan view of one embodiment of the microwave variable attenuator of the present invention.

Detailed explanation of the invention The figure shows a variable attenuator 10, which includes a conductive frame 1'5. , coaxial microwave input port 20, coaxial microwave output port 25 (provided for).25 to each of the above capos 1-20 and outgoing capo 1. an outer conductor (not shown) bolted to the frame 15 above and an upper conductor, respectively; It penetrates the frame 15 and is electrically insulated from the frame 15. An inner conductor (not shown) is provided.

A conductive base 30 is fixed in the frame 15 by poles 1~. , 20 and 25 are electrically connected to the outer port 1 by this base 30. ing. An insulating kite 35 is arranged on two sides of the base body 30. This Kai A circular hole is formed in the center of 1 to 35, and a segment depth 40 is set inside this hole. It is left behind. The beard tip 40 has damping segments 1-45. ri, this & sad segment 1-45 is an example (J relative permittivity or 9/end l, 10 emma) - Gin Cumm N, IF116J or 117 (Emerson Cumm Microwave absorption such as ingivlF116Cumm1n] Formed with has been done. In addition, this segment chip 40 is made of alumina (A 1203.9 An alumina segment h50 made of 9.6%) is placed. This sag Menu 1-chip 4Q aluminum dog Kumento 50 has a shape with a central angle of approximately 220". Also, the attenuation segments 1 to 45 described in 1' (center angle or remaining 9'? 7140' fan The shape is /1 and it is C.

In addition, the above coaxial human power i+<-r~20 and the inner iA of the coaxial output capo-1-25 l* passes through the above-mentioned frame 5] and is electrically connected to this frame 15. These capacitors are insulated to -20 and the inner conductor of output port 25. is a microslip extending 8 across segment 1 to tip 40 above. - connected to each other by lines 55; Segment 1 to chip 401 above The microstrip line 55 and the substrate 30 are arranged in close proximity thereto. This segment chip 40 (which can rotate freely within the hole of the kite 30) It has become.

Also, on the guide 35, there are A plurality of arranged impedance matching convex parts 60 are provided, and the above-mentioned micros [ - The upper part of the segment chip 40 of the lip line 55 (the part with yellow dust) The impedance j between the minute and the parts located on both sides of this segment chip ! : Constructed for proper alignment. This impedance coupling convex portion is It has been known since ancient times.

This iJ transformation attenuation 10 is installed in the microphone power transmission line, The transmitted power is attenuated in accordance with the settings of Seda Men 1 to Chip 4. and , the segment between the micros 1 helical line 55 and the base 1 30 mentioned above. Chip 40's forgiveness segments 1 to 115 are interposed, resulting in a very positive result (well, this The variable attenuator 10 transmits power without attenuation. Please check the above segment chip. between the microstrip line 55 and the substrate 30. If the ilU attenuation segment [・45 or γ1] is covered, the N transmission will be corresponding to this amount of intervention. Attenuation of power caused by This long-term l-chip 40 is 1 imaginary for 1,000 yen. It is rotated in one command.

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Claims (1)

[Claims] 1 Used in microwave equipment to transmit microwave electromagnetic energy This is a one-wave variable attenuator (10) for a microphone. U-centric substrate (koO) and: In the vicinity of the above substrate (3C+), there is a 29-electrode transmission in the nPi market. Prepare, prepare - Substantially attenuates microwave electromagnetic energy (formed in an illumination This f-tube is connected to the transmission line and the base, with the rotatable chip (45) separated from the base. 1. Interposed between the body (30) and the body (30). Also, this Chisov is rotated so that the above The area or shape of the two intervening clearance parts between the transmission line and the 4V line is <' A microwave variable attenuator characterized by: i. 2. The above "f-razo (45) is approximately flat 1U shape, which is referred to as 1"J fine. 1) A variable microwave attenuator according to the first claim. 3. The 1iiffl line is the microstri knob line (55) A claim characterized by Roway Attenuator Destroyer. 4. Ii7+ is placed in Chi l’ (3 5) and l,) Microwave variable attenuation according to claim 3, where IIj Cal vessel. 5 Used in microwave equipment to transmit microwave electromagnetic energy a microwave variable attenuator (10), which has a A base body (30) of a short sleeve is provided, and further: a base body (30) is provided with a A 1-inch electrically insulated power heath with a circular hole is attached. The side of the piece is this side, the circular hole of the piece is facing the body of A conductive 11 microstrip line placed in {1; The cross-trip line is located away from the center of the hole in the force field heath. Re; In addition, the rotational speed formed from at least two segments 1 to (4 5.50) The current disk (40) is {; Nae, on the other hand, the above 1? The component is the microwafer mentioned above. characterized by being formed of a material (45) that substantially attenuates electromagnetic energy. Microwave variable attenuator. 6. The inner conductor electrically connected to one end of the micros 1 to the rip line. a coaxial body having a 1ζ outer conductor electrically connected to the base body (30); Microwave-containing capo l ~ (20) and: Micros 1 Lip Line an inner conductor electrically connected to the other end and the base (30); A coaxial microwave output port 11 (25) with an outer conductor The variable microwave attenuator according to claim 5, characterized in that: 7. Material of the disk that attenuates the microwave electromagnetic energy (45 ) is substantially equal to the relative permittivity of the force-id piece (35). The variable microwave attenuator according to claim 6, characterized in that: