JP3306331B2 - Dielectric filter - Google Patents
Dielectric filterInfo
- Publication number
- JP3306331B2 JP3306331B2 JP06008697A JP6008697A JP3306331B2 JP 3306331 B2 JP3306331 B2 JP 3306331B2 JP 06008697 A JP06008697 A JP 06008697A JP 6008697 A JP6008697 A JP 6008697A JP 3306331 B2 JP3306331 B2 JP 3306331B2
- Authority
- JP
- Japan
- Prior art keywords
- dielectric substrate
- dielectric
- substrate
- adhesive
- groove
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Control Of Motors That Do Not Use Commutators (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は、誘電体フィルタの
構造に係るもので、特に、二枚の誘電体基板を貼り合わ
せた同軸TEM共振器型の誘電体フィルタに関するもの
である。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the structure of a dielectric filter, and more particularly to a coaxial TEM resonator type dielectric filter in which two dielectric substrates are bonded.
【0002】[0002]
【従来の技術】移動体通信機器等の数百MHz 帯域で利用
できるフィルタとして、誘電体共振器(フィルタ) や積
層LCフィルタ等が用いられるようになっている。特
に、同軸TEM共振器を組み合わせた誘電体フィルタは
高いQが得られるために、フィルタ、デュプレクサとし
て多方面で使用されている。2. Description of the Related Art Dielectric resonators (filters), multilayer LC filters, and the like have come to be used as filters that can be used in the hundreds of MHz band for mobile communication devices and the like. In particular, a dielectric filter combined with a coaxial TEM resonator is used in various fields as a filter and a duplexer because a high Q is obtained.
【0003】誘電体フィルタには、誘電体共振器単体を
複数個接続するものと、誘電体ブロック内に複数の貫通
孔を形成して複数の共振器を一体に形成するものとがあ
る。また、凹溝を具えた誘電体基板と平板の誘電体基板
とを貼り合わせる構造も採用されている。There are two types of dielectric filters: one that connects a plurality of dielectric resonators alone, and one that forms a plurality of resonators integrally by forming a plurality of through holes in a dielectric block. Further, a structure in which a dielectric substrate having a concave groove and a flat dielectric substrate are bonded to each other is also adopted.
【0004】図2は、そのような貼り合わせ構造の誘電
体フィルタを示す斜視図である。凹溝20を有する誘電体
基板21の凹溝20のある表面に平板の誘電体基板22をガラ
ス等の接着材23によって接着するもので、貼り合わせて
できる貫通孔内に内導体25を形成し、貫通孔の開口しな
い面に外導体26を形成する。図示しないが、貫通孔の開
口する一端面には短絡導体が形成される。入出力用の端
子電極28が外導体26に囲まれて形成されて、複数個の誘
電体共振器が一体化された誘電体フィルタが構成され
る。FIG. 2 is a perspective view showing a dielectric filter having such a bonding structure. A flat dielectric substrate 22 is bonded to the surface of the dielectric substrate 21 having the concave groove 20 having the concave groove 20 with an adhesive 23 such as glass, and an inner conductor 25 is formed in a through hole that can be bonded. Then, the outer conductor 26 is formed on the surface where the through hole does not open. Although not shown, a short-circuit conductor is formed on one end surface of the through hole. An input / output terminal electrode 28 is formed so as to be surrounded by the outer conductor 26, thereby forming a dielectric filter in which a plurality of dielectric resonators are integrated.
【0005】[0005]
【発明が解決しようとする課題】複数個の誘電体共振器
を一体化してブロック化した誘電体フィルタにおいて
は、構造上中央部分の共振器の共振周波数が高くなり、
これを補正することが必要となる。共振周波数を下げる
ためには、共振器の寸法(長さ)を大きくするか、その
部分の誘電体材料の誘電率を高くする必要がある。寸法
を変えるためには、誘電体の研磨等の作業が必要となる
し、誘電率を上げるためには添加材料の拡散処理等が必
要となる。In a dielectric filter in which a plurality of dielectric resonators are integrated to form a block, the resonance frequency of the resonator at the center in the structure becomes higher,
It is necessary to correct this. In order to lower the resonance frequency, it is necessary to increase the size (length) of the resonator or to increase the dielectric constant of the dielectric material in that portion. In order to change the dimensions, operations such as polishing of the dielectric are required, and in order to increase the dielectric constant, diffusion treatment of the additive material is required.
【0006】本発明は、機械的な加工や熱処理等の工程
を付加することなく、共振器間の共振周波数の調整が可
能な誘電体フィルタを提供するものである。The present invention provides a dielectric filter capable of adjusting the resonance frequency between resonators without adding a step such as mechanical processing or heat treatment.
【0007】[0007]
【課題を解決するための手段】本発明は、両端の誘電体
共振器の部分の誘電体の実効誘電率を下げて、両端の共
振器の共振周波数を上げることによって、上記の課題を
解決するものである。The present invention solves the above-mentioned problems by lowering the effective permittivity of the dielectric in the portion of the dielectric resonator at both ends and increasing the resonance frequency of the resonator at both ends. Things.
【0008】すなわち、三本以上の平行な凹溝を有する
第一の誘電体基板と、第一の誘電体基板の凹溝が形成さ
れた表面に接着材によって接着される第二の誘電体基板
とを具え、第一の誘電体基板の凹溝内と第二の誘電体基
板の凹溝に対向する表面に内導体が形成され、第一の誘
電体基板と第二の誘電体基板の接着されない表面と凹溝
の開口しない端面に外導体が形成され、凹溝の開口する
端面の一方に短絡導体が形成された誘電体フィルタにお
いて、第二の誘電体基板の表面の第一の誘電体基板の両
端の凹溝に対向する部分に、第一の誘電体基板および第
二の誘電体基板よりも誘電率の低い層が形成され、その
誘電率の低い層上に内導体の一部が形成されたことに特
徴を有するものである。That is, a first dielectric substrate having three or more parallel grooves, and a second dielectric substrate adhered to the surface of the first dielectric substrate where the grooves are formed by an adhesive. An inner conductor is formed in the concave groove of the first dielectric substrate and on the surface facing the concave groove of the second dielectric substrate, and the first dielectric substrate and the second dielectric substrate are bonded. In a dielectric filter in which an outer conductor is formed on a surface that is not formed and an end surface on which the concave groove does not open, and a short-circuit conductor is formed on one of the open end surfaces of the concave groove, the first dielectric on the surface of the second dielectric substrate is provided. A layer having a lower dielectric constant than the first dielectric substrate and the second dielectric substrate is formed in portions facing the concave grooves at both ends of the substrate, and a part of the inner conductor is formed on the layer having a low dielectric constant. It is characterized by being formed.
【0009】[0009]
【発明の実施の形態】誘電率の低い材料として、ガラス
を用いると、誘電体基板の接着材料と低誘電率層として
利用することができ、両端の誘電体共振器の内導体の周
囲の一部に低誘電率層が形成されて、その共振器部分の
実効誘電率が下がり、これによって共振周波数を上げる
ことができる。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS When glass is used as a material having a low dielectric constant, it can be used as an adhesive material for a dielectric substrate and a low dielectric constant layer. A low dielectric constant layer is formed in the portion, and the effective dielectric constant of the resonator portion is reduced, so that the resonance frequency can be increased.
【0010】[0010]
【実施例】以下、図面を参照して、本発明の実施例につ
いて説明する。Embodiments of the present invention will be described below with reference to the drawings.
【0011】図1は、本発明の実施例を示す斜視図であ
る。誘電率が90程度の誘電体基板を用いて誘電体フィル
タを構成するもので、凹溝10を具えた誘電体基板11と平
板の誘電体基板12とを貼り合わせたものである。凹溝10
が、第一の誘電体基板11の表面に平行に三本形成された
ものである。第一の誘電体基板11と第二の誘電体基板12
との接着はガラス層13によって行い、誘電体基板の接着
面にガラスペーストを塗布した後に圧接して熱処理する
ことによって接着する。FIG. 1 is a perspective view showing an embodiment of the present invention. A dielectric filter is formed using a dielectric substrate having a dielectric constant of about 90, and is obtained by bonding a dielectric substrate 11 having a concave groove 10 and a flat dielectric substrate 12 to each other. Groove 10
Are formed in parallel with the surface of the first dielectric substrate 11. First dielectric substrate 11 and second dielectric substrate 12
Bonding with the glass substrate 13 is performed by applying a glass paste to the bonding surface of the dielectric substrate, and then pressing and heat-treating the glass paste.
【0012】接着材として用いるガラス層13は、第一の
誘電体基板11と第二の誘電体基板12との接着面だけでな
く、第二の誘電体基板12の第一の誘電体基板11の両端の
凹溝10a、10cに対向する部分の表面にも形成してあ
る。中央の凹溝10bに対向する部分にはガラス層13は形
成しないでおく。The glass layer 13 used as the adhesive is formed not only on the bonding surface between the first dielectric substrate 11 and the second dielectric substrate 12, but also on the first dielectric substrate 11 of the second dielectric substrate 12. Are also formed on the surface of the portion opposite to the concave grooves 10a and 10c at both ends of the substrate. The glass layer 13 is not formed on the portion facing the central groove 10b.
【0013】ガラス層13によって一体化された誘電体ブ
ロックの凹溝によって形成された貫通孔内に内導体15が
形成される。貫通孔が開口しない面には外導体16が形成
され、その一部に外導体とは絶縁された端子電極18が形
成される。端子電極は内導体と容量的に結合する場合
と、直接接続される場合がある。図示しないが、貫通孔
の開口する一端面にも導体膜が形成されて短絡導体とな
る。An inner conductor 15 is formed in a through hole formed by the concave groove of the dielectric block integrated by the glass layer 13. An outer conductor 16 is formed on the surface where the through hole does not open, and a terminal electrode 18 insulated from the outer conductor is formed on a part thereof. The terminal electrode may be capacitively coupled to the inner conductor, or may be directly connected. Although not shown, a conductor film is also formed on one end face where the through-hole is opened to form a short-circuit conductor.
【0014】上記のように、両端の内導体15aと15cの
周囲の一部にはガラス層13が存在し、中央の内導体15b
の周囲にはガラス層が存在しない。中央の内導体15bの
周囲は誘電体基板を構成する高い誘電率の材料で囲まれ
ることになる。それに対して、両端の内導体15a、15c
の周囲の一部には誘電率が10程度と低い材料が存在する
ので、この部分の実行誘電率は下がることになる。As described above, the glass layer 13 exists in a part around the inner conductors 15a and 15c at both ends, and the center inner conductor 15b
There is no glass layer around. The periphery of the central inner conductor 15b is surrounded by a material having a high dielectric constant constituting the dielectric substrate. In contrast, the inner conductors 15a, 15c at both ends
Since there is a material having a dielectric constant as low as about 10 in a part of the surrounding area, the effective dielectric constant of this part is reduced.
【0015】誘電体共振器の共振周波数は、寸法と誘電
率で決定されるが、その誘電率が下がることによって共
振周波数が上昇する。ガラス層の誘電率や厚みを変える
ことで、合わせ込む共振周波数に一致させることが可能
となる。The resonance frequency of a dielectric resonator is determined by its size and dielectric constant. The lower the dielectric constant, the higher the resonance frequency. By changing the dielectric constant and thickness of the glass layer, it becomes possible to match the resonance frequency to be matched.
【0016】なお、両端の内導体の周囲の一部に低誘電
率層を形成することによって上記の効果が得られるの
で、材料はガラスのみに限定されるものではない。た
だ、工数の関係から接着材をそのまま低誘電率材料とし
て用いることが望ましい。また、共振器が四個以上ある
場合でも、上記と同様の構造で共振周波数を合わせ込む
ことが可能である。The above effect can be obtained by forming a low dielectric constant layer around a part of the inner conductor at both ends, so that the material is not limited to glass. However, it is desirable to use the adhesive as it is as the low dielectric constant material from the viewpoint of man-hours. Further, even when there are four or more resonators, the resonance frequency can be matched with the same structure as described above.
【0017】[0017]
【発明の効果】本発明によれば、低誘電率層を介在させ
ることによって共振周波数の調整が可能となり、所望の
特性を有するブロック型の誘電体フィルタを得ることが
できる。According to the present invention, the resonance frequency can be adjusted by interposing a low dielectric constant layer, and a block type dielectric filter having desired characteristics can be obtained.
【0018】また、低誘電率層として接着材を用いるこ
ともできるので、工数を最低限に抑えることができ、格
別のコスト増加も生じない利点がある。Further, since an adhesive can be used as the low dielectric constant layer, the number of steps can be reduced to a minimum, and there is an advantage that no particular cost increase occurs.
【図1】 本発明の実施例を示す斜視図FIG. 1 is a perspective view showing an embodiment of the present invention.
【図2】 従来の誘電体フィルタを示す斜視図FIG. 2 is a perspective view showing a conventional dielectric filter.
11、12、21、22:誘電体基板 13、23:接着材(ガラス層) 15、25:内導体 11, 12, 21, 22: Dielectric substrate 13, 23: Adhesive (glass layer) 15, 25: Inner conductor
───────────────────────────────────────────────────── フロントページの続き (58)調査した分野(Int.Cl.7,DB名) H01P 1/20 - 1/219 H91P 7/00 - 7/10 ──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. 7 , DB name) H01P 1/20-1/219 H91P 7/ 00-7/10
Claims (3)
電体基板と、第一の誘電体基板の凹溝が形成された表面
に接着材によって接着される第二の誘電体基板とを具
え、第一の誘電体基板の凹溝内と第二の誘電体基板の凹
溝に対向する表面に内導体が形成され、第一の誘電体基
板と第二の誘電体基板の接着されない表面と凹溝の開口
しない端面に外導体が形成され、凹溝の開口する端面の
一方に短絡導体が形成された誘電体フィルタにおいて、 第二の誘電体基板の表面の第一の誘電体基板の両端の凹
溝に対向する部分に、第一の誘電体基板および第二の誘
電体基板よりも誘電率の低い層が形成され、その誘電率
の低い層上に内導体の一部が形成されたことを特徴とす
る誘電体フィルタ。1. A first dielectric substrate having three or more parallel concave grooves, and a second dielectric substrate adhered to the surface of the first dielectric substrate on which the concave grooves are formed by an adhesive. An inner conductor is formed in the concave groove of the first dielectric substrate and on the surface facing the concave groove of the second dielectric substrate, and the first dielectric substrate and the second dielectric substrate are bonded. An outer conductor is formed on the non-opened surface and the open end of the groove, and a short-circuit conductor is formed on one of the open ends of the groove, wherein the first dielectric on the surface of the second dielectric substrate is provided. A layer having a lower dielectric constant than the first dielectric substrate and the second dielectric substrate is formed in portions facing the concave grooves at both ends of the substrate, and a part of the inner conductor is formed on the layer having a low dielectric constant. A dielectric filter characterized by being formed.
電体基板と、第一の誘電体基板の凹溝が形成された表面
に接着材によって接着される第二の誘電体基板とを具
え、第一の誘電体基板の凹溝内と第二の誘電体基板の凹
溝に対向する表面に内導体が形成され、第一の誘電体基
板と第二の誘電体基板の接着されない表面と凹溝の開口
しない端面に外導体が形成され、凹溝の開口する端面の
一方に短絡導体が形成された誘電体フィルタにおいて、 第一の誘電体基板と第二の誘電体基板の接着材は、第一
の誘電体基板および第二の誘電体基板よりも誘電率の低
い材料からなり、第二の誘電体基板の表面の第一の誘電
体基板の両端の凹溝に対向する部分にもその接着材層が
形成され、その接着材層上に内導体の一部が形成された
ことを特徴とする誘電体フィルタ。2. A first dielectric substrate having three or more parallel grooves, and a second dielectric substrate adhered to the surface of the first dielectric substrate on which the grooves are formed by an adhesive. An inner conductor is formed in the concave groove of the first dielectric substrate and on the surface facing the concave groove of the second dielectric substrate, and the first dielectric substrate and the second dielectric substrate are bonded. An outer conductor is formed on a surface not formed and an end face where the groove is not opened, and a short circuit conductor is formed on one of the end faces where the groove is opened, wherein the first dielectric substrate and the second dielectric substrate The adhesive is made of a material having a lower dielectric constant than the first dielectric substrate and the second dielectric substrate, and faces the concave grooves at both ends of the first dielectric substrate on the surface of the second dielectric substrate. The adhesive layer is also formed on the adhesive layer, and a part of the inner conductor is formed on the adhesive layer. Body filter.
電体フィルタ。3. The dielectric filter according to claim 2, wherein the adhesive is glass.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP06008697A JP3306331B2 (en) | 1997-02-28 | 1997-02-28 | Dielectric filter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP06008697A JP3306331B2 (en) | 1997-02-28 | 1997-02-28 | Dielectric filter |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH10242705A JPH10242705A (en) | 1998-09-11 |
JP3306331B2 true JP3306331B2 (en) | 2002-07-24 |
Family
ID=13131933
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP06008697A Expired - Fee Related JP3306331B2 (en) | 1997-02-28 | 1997-02-28 | Dielectric filter |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3306331B2 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2001094304A (en) | 1999-09-17 | 2001-04-06 | Tdk Corp | Dielectric filter and its manufacture |
-
1997
- 1997-02-28 JP JP06008697A patent/JP3306331B2/en not_active Expired - Fee Related
Also Published As
Publication number | Publication date |
---|---|
JPH10242705A (en) | 1998-09-11 |
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LAPS | Cancellation because of no payment of annual fees |