Strip line resonator structure and magnetic tuning wave trap composed of resonator structure

A stripline and resonator technology, applied in the field of electronic components, can solve the problems of low pass-through frequency, difficult multi-channel integration, and difficult debugging, to suppress excitation mode, increase stop-band depth, and simplify resonance. The effect of circuit structure design

Pending Publication Date: 2020-09-01
中国电子科技集团公司第九研究所
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The existing magnetic tuning trap with a global coupling resonant structure uses YIG single crystal ball 3 and coupling ring 2 to form a resonator. This structure is a three-dimensional coupling, which is complicated to assemble and difficult to debug

Method used

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  • Strip line resonator structure and magnetic tuning wave trap composed of resonator structure
  • Strip line resonator structure and magnetic tuning wave trap composed of resonator structure
  • Strip line resonator structure and magnetic tuning wave trap composed of resonator structure

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0025] A stripline resonator structure is composed of a stripline center conductor 8, a stripline outer conductor 11, a gadolinium gallium garnet crystal 10 and a YIG single crystal film 9, wherein the stripline center conductor 8, YIG The single crystal film 9 and the gadolinium gallium garnet crystal 10 are arranged in the strip line outer conductor 11 in sequence; that is, the YIG single crystal film 9 is placed on the strip line center conductor 8, and the end surface structure is as image 3 Shown

[0026] The YIG single crystal film 9 and the strip line form a resonator structure. The entire resonator structure is placed in a uniform magnetic field. The adjustable electromagnet is used to provide a uniform magnetic field. The electromagnet can be designed with a pot-shaped magnetic circuit structure, such as Figure 4 Shown

[0027] A continuously adjustable uniform magnetic field is generated at the air gap of the lower pole of the pot-shaped magnetic circuit, image 3 The st...

Embodiment 2

[0035] Embodiment 2: A stripline resonator structure consisting of a stripline center conductor 8, a stripline outer conductor 11, a gadolinium gallium garnet crystal 10 and a YIG single crystal film 9, wherein the center of the stripline The conductor 8, the YIG single crystal film 9 and the gadolinium gallium garnet crystal 10 are arranged in the strip line outer conductor 11 in sequence; that is, the YIG single crystal film 9 is placed on the strip line center conductor 8, and its end surface structure is as image 3 Shown

[0036] The YIG single crystal film 9 and the strip line form a resonator structure. The entire resonator structure is placed in a uniform magnetic field. The adjustable electromagnet is used to provide a uniform magnetic field. The electromagnet can be designed with a pot-shaped magnetic circuit structure, such as Figure 4 Shown

[0037] A continuously adjustable uniform magnetic field is generated at the air gap of the lower pole of the pot-shaped magnetic ...

Embodiment 3

[0046] A stripline resonator structure is composed of a stripline center conductor 8, a stripline outer conductor 11, a gadolinium gallium garnet crystal 10 and a YIG single crystal film 9, wherein the stripline center conductor 8, YIG The single crystal film 9 and the gadolinium gallium garnet crystal 10 are arranged in the strip line outer conductor 11 in sequence; that is, the YIG single crystal film 9 is placed on the strip line center conductor 8, and the end surface structure is as image 3 Shown

[0047] The YIG single crystal film 9 and the strip line form a resonator structure. The entire resonator structure is placed in a uniform magnetic field. The adjustable electromagnet is used to provide a uniform magnetic field. The electromagnet can be designed with a pot-shaped magnetic circuit structure, such as Figure 4 Shown

[0048] A continuously adjustable uniform magnetic field is generated at the air gap of the lower pole of the pot-shaped magnetic circuit, image 3 The st...

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Abstract

The invention discloses a strip line resonator structure and a magnetic tuning wave trap composed of the resonator structure, and belongs to the technical field of electronic components. The strip line resonator structure is composed of a strip line central conductor, a strip line outer conductor, a gadolinium gallium garnet crystal and a YIG single crystal film, and the strip line central conductor, the YIG single crystal film and the gadolinium gallium garnet crystal are sequentially arranged in the strip line outer conductor; according to the invention, the resonator planarization of the magnetic tuning wave trap is realized, and the structural design of the strip line resonance circuit is simplified; a strip line transmission mode is adopted, so that the passband working frequency of the magnetic tuning wave trap is expanded; a plurality of strip line resonance circuits can be arranged on the same plane, so that the integration of the multi-channel wave trap is facilitated; the resonance circuit adopts a plurality of single crystal thin film blocks to form resonator cascade connection, so that a plurality of excitation modes of the single crystal thin films are effectively suppressed, the stop band depth of the wave trap is increased, and the performance of the wave trap is improved.

Description

Technical field [0001] The invention relates to the technical field of electronic components, in particular to a stripline resonator structure and a magnetic tuning trap composed of the resonator structure. Background technique [0002] YIG (yttrium iron garnet) band stop filter is a broadband magnetic tuning device, mainly used in electronic warfare systems, whether it is electronic reconnaissance, electronic attack and electronic defense, YIG band stop filter is an indispensable important component. The YIG band stop filter has broadband tuning characteristics. It filters or suppresses unwanted interference signals in electronic support (ESM) and electronic countermeasures (ECM) systems to ensure the normal operation of the system. It is widely used in electronic intelligence systems and microwave reception front-ends. . Application platform has airborne broadband receivers, electronic jammers, communication systems; ground and shipborne radars; missile electronic systems. [0...

Claims

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Application Information

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IPC IPC(8): H01P7/08H01P1/208
CPCH01P1/208H01P7/088
Inventor 燕志刚王大勇陈运茂张平川何志强李俊荣建海
Owner 中国电子科技集团公司第九研究所
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