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JPH03254202A - Dielectric resonator and filter using same - Google Patents

Dielectric resonator and filter using same

Info

Publication number
JPH03254202A
JPH03254202A JP5122390A JP5122390A JPH03254202A JP H03254202 A JPH03254202 A JP H03254202A JP 5122390 A JP5122390 A JP 5122390A JP 5122390 A JP5122390 A JP 5122390A JP H03254202 A JPH03254202 A JP H03254202A
Authority
JP
Japan
Prior art keywords
hole
resonator
dielectric
capacitor
conductor
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.)
Pending
Application number
JP5122390A
Other languages
Japanese (ja)
Inventor
Hiroyuki Sogo
十合 博之
Yasuyuki Kondo
泰幸 近藤
Kazuhisa Yamazaki
和久 山崎
Junji Chikada
淳二 近田
Shigemitsu Suzuki
重光 鈴木
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
FDK Corp
Fujitsu Ltd
Original Assignee
FDK Corp
Fujitsu Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by FDK Corp, Fujitsu Ltd filed Critical FDK Corp
Priority to JP5122390A priority Critical patent/JPH03254202A/en
Priority to CA002037262A priority patent/CA2037262A1/en
Priority to US07/662,199 priority patent/US5208565A/en
Priority to DE69128803T priority patent/DE69128803T2/en
Priority to EP91301703A priority patent/EP0444948B1/en
Publication of JPH03254202A publication Critical patent/JPH03254202A/en
Pending legal-status Critical Current

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Abstract

PURPOSE:To obtain a stable electric/mechanical characteristic with excellent manufactureability and design performance by adhering a conductor film to an outer face of a dielectric block and an inner wall face of a resonance hole, mounting a coupling capacitor 22 to an open end of a resonator hole placed at both ends and connecting the capacitor to an external circuit. CONSTITUTION:Each resonance hole 32 forms a coaxial resonator of 1/4 wavelength. A conductor film is formed to an inner wall face of a throughhole provided between the resonator holes 32 and a coupling block hole 34 is formed by connecting the conductor film of the inner wall face to an outer conductor at both opening ends to shield propagation of an electromagnetic wave between the resonators thereby blocking the electromagnetic coupling. Thus, almost similar state to the arrangement of single resonators in terms of electromagnetic wave regardless of the integrated structure is attained. The dielectric resonator 38 is used and a flat plate capacitor 50 is mounted to the open end of the resonator hole 32 and the capacitors 50 are connected by a coil 52. Thus, the resonator with excellent manufactureability performance and stable electric/mechanical characteristic is realized inexpensively.

Description

【発明の詳細な説明】 [産業上の利用分野] 本発明は主にマイクロ波帯域で使用する誘電体共振器及
びそれを用いるフィルタに関し、更に詳しくは、1/4
波長型の一体型多段同軸共振器及びそれを用いた帯域通
過フィルタ、帯域阻止フィルタに関するものである。
Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a dielectric resonator mainly used in the microwave band and a filter using the same.
The present invention relates to a wavelength-type integrated multistage coaxial resonator and a bandpass filter and a bandstop filter using the same.

[従来の技術] 高誘電率セラミックス材料を用いた多段フィルタには様
々な構造がある0例えば第15図Aに示すように複数(
ここでは3個)の誘電体角柱形共振器10を並設し、適
当な集中定数素子で結合した槽底がある。誘電体共振器
lOは、高誘電率材料からなる角柱12の中央に共振子
穴14となる貫通孔を設け、該貫通孔の内壁面及び角柱
12の開放面(ここでは上面)を除く外面に導体膜を付
着してそれぞれ中心導体及び外導体としたものである。
[Prior Art] Multistage filters using high dielectric constant ceramic materials have various structures. For example, as shown in FIG.
Here, there is a tank bottom in which three (3) dielectric prismatic resonators 10 are arranged in parallel and coupled by suitable lumped constant elements. The dielectric resonator 1O has a through hole that becomes the resonator hole 14 in the center of a prism 12 made of a high dielectric constant material, and an outer surface other than the inner wall surface of the through hole and the open surface (in this case, the upper surface) of the prism 12. A conductive film is attached to form a center conductor and an outer conductor, respectively.

中心導体の開放端にコンデンサC+ 、’Ct 、Cm
をそれぞれ接続し、各コンデンサ間をコイルL++L*
で接続する。
Capacitors C+, 'Ct, Cm at the open end of the center conductor
Connect the coils L++L* between each capacitor.
Connect with.

等価回路を同図Bに示す、各誘電体共振器lOは、その
角柱高さ、比誘電率、コンデンサ容量等で決まる共振周
波数をもち、上記槽底によって1/4波長岡帖共振型の
帯域阻止フィルタが得られる。フィルタ特性の一例を第
16図に示す。
The equivalent circuit is shown in Figure B. Each dielectric resonator lO has a resonant frequency determined by its prism height, relative permittivity, capacitor capacity, etc., and the 1/4 wavelength Okacho resonance type band is determined by the tank bottom. A rejection filter is obtained. An example of filter characteristics is shown in FIG.

帯域通過フィルタの場合には、上記のような誘電体角柱
型共振器を用いてもよいが、第17図Aに示すような一
体型が一般的である。直方体状をなす誘電体ブロック1
6に所定の間隔をおいて複数(ここでは3個〉の共振子
穴18と2個の結合用穴20とを交互に設け、開放面(
ここでは上面)を除く誘電体ブロック16の外表面と共
振子穴18の内壁面に導体膜を付着する。そして両端に
位置する共振子穴の開放端に結合コンデンサ22を搭載
し、それを介して外部回路と接続する。このフィルタは
第17図Bに示す等価回路で表され、第18図に示すよ
うな帯域通過フィルタ特性を呈する。なお第17図Bに
おいて、符号24は3個の共振子を表しており、C、、
、C、、は入出力での結合容量を、L+、L*は共振子
間が結合用穴によって結合する状態を等価回路的に表し
たものである。
In the case of a bandpass filter, a dielectric prismatic resonator as described above may be used, but an integrated type as shown in FIG. 17A is common. Dielectric block 1 in the shape of a rectangular parallelepiped
A plurality (here, three) of resonator holes 18 and two coupling holes 20 are alternately provided at a predetermined interval on 6, and the open surface (
A conductive film is attached to the outer surface of the dielectric block 16 except for the upper surface here and to the inner wall surface of the resonator hole 18. Coupling capacitors 22 are mounted on the open ends of the resonator holes located at both ends, and connected to an external circuit via them. This filter is represented by an equivalent circuit shown in FIG. 17B, and exhibits bandpass filter characteristics as shown in FIG. 18. In addition, in FIG. 17B, the reference numeral 24 represents three resonators, C, .
, C, represents the coupling capacitance at the input and output, and L+ and L* represent the state in which the resonators are coupled through the coupling hole in terms of an equivalent circuit.

[発明が解決しようとする謀M] 第15図Aに示す帯域阻止フィルタは、単体共振器を複
数個配列するため、部品点数が多くなることから組み立
て工数が増大し、共振器間の位置出しや外導体面精度も
要求が厳しくなる。
[Plot M to be solved by the invention] The band-stop filter shown in FIG. 15A has a plurality of single resonators arranged, so the number of parts increases, which increases the number of assembly steps, and it is difficult to locate the positions between the resonators. Requirements will also become stricter for the surface accuracy of the outer conductor.

また共振器同士の接合の必要から機械強度や耐環境信頼
性の劣化などの点で問題がある。
Furthermore, since the resonators need to be bonded to each other, there are problems in terms of deterioration of mechanical strength and environmental reliability.

それに対して第17図Aに示す帯域通過フィルタは、一
体型であるため前述のような問題はないが、結合用穴で
適切な結合を得ているため、その直径や位は、穴ピンチ
、比誘電率など素材のばらつきによる特性面への影響が
大きく、電気的特性の安定化並びに設計性に難がある。
On the other hand, the band-pass filter shown in FIG. 17A does not have the above-mentioned problems because it is an integrated type, but since the coupling hole provides proper coupling, its diameter and position may be affected by hole pinch, Characteristics are greatly affected by variations in materials such as relative dielectric constant, making it difficult to stabilize electrical characteristics and design.

本発明の百的は、これら従来技術における問題を解決し
、製造性並びに設計性がよく、安定な電気・機械特性が
得られる安価なフィルタ及びそれに用いる誘電体共振器
を提供することにある。
The object of the present invention is to solve these problems in the prior art and to provide an inexpensive filter that is easy to manufacture and design and provides stable electrical and mechanical characteristics, and a dielectric resonator used therein.

[l!題を解決するための手段] 本発明に係る誘電体共振器は、誘電体ブロックにそれぞ
れ共振子穴となる複数の貫通孔を並設し、咳貫通孔が開
口している面の一方を開放面として、貫通孔の内壁面、
及び開放面を除く外面に導体膜を形成して中心導体及び
外導体とした多段同軸共振器において、各共振子穴の間
に結合阻止穴となる別の貫通孔を形成し、その内壁面に
導体膜を設けると共に、その両開口端で内壁面の導体膜
と前記外導体とを導体膜により接続したものである。
[l! Means for Solving the Problem] A dielectric resonator according to the present invention includes a dielectric block in which a plurality of through holes, each serving as a resonator hole, are arranged in parallel, and one of the surfaces where the through holes are open is open. As a surface, the inner wall surface of the through hole,
In a multi-stage coaxial resonator in which a conductive film is formed on the outer surface except for the open surface to serve as a center conductor and an outer conductor, another through hole is formed between each resonator hole to serve as a coupling prevention hole, and the inner wall surface is A conductor film is provided, and the conductor film on the inner wall surface and the outer conductor are connected by the conductor film at both open ends.

また本発明に係る誘電体フィルタは、上記の誘電体共振
器を用い、それにコンデンサやコイル等の集中定数素子
を付加接続したものである。
Further, a dielectric filter according to the present invention uses the above-mentioned dielectric resonator and additionally connects a lumped constant element such as a capacitor or a coil.

[作用] 各共振子穴は174波長型の同軸共振子を槽底する。共
振子穴の間に設けた貫通孔は、その内壁面に導体膜が形
成され、且つ両開口端で内壁面の導体膜が外導体に接続
されているため結合阻止穴となり、共振子間での電磁波
の伝播を遮蔽し電磁的結合を阻止する。そのため一体型
構造でありながら電磁気的には単体共振器を配列したも
のとほぼ同等の状態になる。
[Function] Each resonator hole houses a 174-wavelength coaxial resonator. The through hole provided between the resonator holes has a conductor film formed on its inner wall surface, and the conductor film on the inner wall surface is connected to the outer conductor at both open ends, so it becomes a coupling prevention hole, and there is no interference between the resonators. shields the propagation of electromagnetic waves and prevents electromagnetic coupling. Therefore, although it is an integrated structure, it is electromagnetically almost equivalent to an array of single resonators.

従って、この誘電体共振器に適当な集中定数素子を付加
接続すると、帯域回正フィルタあるいは帯域通過フィル
タとして動作する。
Therefore, when an appropriate lumped constant element is additionally connected to this dielectric resonator, it operates as a band reversing filter or a band pass filter.

[実施例] 第1図Aは本発明に係る誘電体共振器の一実施例を示す
斜視図であり、同図Bはその縦断面図である。この実施
例は3段の場合である。
[Embodiment] FIG. 1A is a perspective view showing an embodiment of a dielectric resonator according to the present invention, and FIG. 1B is a longitudinal sectional view thereof. This example is a case of three stages.

直方体状をなす誘電体ブロック30に共振子穴32とな
る3個の貫通孔を並設し、その内壁面及び誘電体ブロッ
ク30の4個面と下面に導体膜を設け、それぞれを中心
導体33及び外導体31とする多段同軸共振器を構成す
る。HL導体膜無い誘電体ブロック上面が開放面、下面
が短絡面となる。なお誘電体ブロック30は高誘電率材
料の焼結体(例えばチタン酸バリウム等)からなる。
A dielectric block 30 having a rectangular parallelepiped shape has three through holes arranged in parallel to serve as resonator holes 32, and a conductor film is provided on the inner wall surface of the dielectric block 30 and on the four surfaces and the lower surface of the dielectric block 30. and an outer conductor 31 to constitute a multistage coaxial resonator. The top surface of the dielectric block without the HL conductor film is an open surface, and the bottom surface is a short-circuit surface. Note that the dielectric block 30 is made of a sintered body of a high dielectric constant material (for example, barium titanate, etc.).

ここで本発明の特徴は、各共振子穴32の間に結合阻止
穴34となる別の貫通孔を形成し、その内壁面に導体l
!135を設けると共に、その両開口端で内壁面の導体
膜35と前記外導体31とを接続したことにある。誘電
体ブロック30の下面は全体が導体膜で覆われているた
め、結合阻止穴34の下端開口ではその内壁面の導体膜
35と直接接続する。開放面側では、誘電体ブロック3
0の幅方向に帯状の導体膜36を形成し、それによって
結合阻止穴34の内壁面の導体膜35に誘電体ブロック
30の側面の外導体31とを接続する。このようにして
多段−体型の共振器38が得られる。
Here, the feature of the present invention is that another through hole is formed between each resonator hole 32 to serve as a coupling prevention hole 34, and a conductor l is formed on the inner wall surface of the through hole.
! 135 is provided, and the conductor film 35 on the inner wall surface and the outer conductor 31 are connected at both open ends thereof. Since the lower surface of the dielectric block 30 is entirely covered with a conductive film, the opening at the lower end of the coupling prevention hole 34 is directly connected to the conductive film 35 on the inner wall surface thereof. On the open side, dielectric block 3
A strip-shaped conductor film 36 is formed in the width direction of the dielectric block 30, thereby connecting the conductor film 35 on the inner wall surface of the coupling prevention hole 34 to the outer conductor 31 on the side surface of the dielectric block 30. In this way, a multi-stage resonator 38 is obtained.

ここで導体膜は、例えば銀ペーストの焼付は等による極
く薄い導電材料の層である。
Here, the conductive film is a very thin layer of conductive material, such as baked silver paste.

共振子穴32の間に位置する結合阻止穴34は、その内
壁面が導体膜35で覆われ且つ上下両開口端面で外導体
31と電気的に接続しているため、共振子間での電磁波
の伝播が遮蔽され、一体構造でありながら電磁的にはそ
れぞれの共振子が独立したのと同等の状態になる。
The coupling prevention hole 34 located between the resonator holes 32 has its inner wall surface covered with a conductor film 35 and is electrically connected to the outer conductor 31 at both upper and lower open end surfaces, so that electromagnetic waves between the resonators are prevented. The propagation of the resonator is shielded, and although it is an integral structure, it is electromagnetically equivalent to each resonator being independent.

この共振器38を用い、適当な集中定数素子を付加接続
することによりフィルタを構成できる。第2図に示すよ
うに、各共振子にコンデンtc+ 、Cx 、Cs を
接続しコンデンサ間にコイルL+、Lxを接続すると帯
域阻止フィルタが得られる。また第3図に示すように両
端の共振子に結合コンデンサC、、、C、、を接続する
と共に各共振子間にコンデンサC4,Csを接続すると
帯域通過フィルタが得られる。なおコンデンサCa、C
s0代わりにそれぞれコイルを用いてもよい。
A filter can be constructed by using this resonator 38 and additionally connecting a suitable lumped constant element. As shown in FIG. 2, a band rejection filter is obtained by connecting capacitors tc+, Cx, Cs to each resonator and connecting coils L+, Lx between the capacitors. Further, as shown in FIG. 3, a bandpass filter can be obtained by connecting coupling capacitors C, . Note that capacitors Ca and C
A coil may be used instead of s0.

誘電体共振器の他の例を第4図〜第9図に示す、第4図
は結合阻止穴39として誘電体ブロック30の幅方向に
長い角形貫通孔を用いた例である。このようにすると隣
り合う共振子間での誘電体断面積が小さくなり電磁波の
伝播を更に阻止できるため遮蔽効果は向上する。第5図
は誘電体ブロックの開放面で各共振子穴の開放端の近傍
を除いて開放面側の大部分を導体膜で覆った例である。
Other examples of the dielectric resonator are shown in FIGS. 4 to 9. FIG. 4 shows an example in which a rectangular through hole long in the width direction of the dielectric block 30 is used as the coupling prevention hole 39. In this way, the dielectric cross-sectional area between adjacent resonators becomes smaller, and the propagation of electromagnetic waves can be further inhibited, thereby improving the shielding effect. FIG. 5 shows an example in which most of the open surface of the dielectric block is covered with a conductive film except for the vicinity of the open end of each resonator hole.

こうすると第1図に示す誘電体共振器に比べてQ[が上
昇する。また誘電体ブロックを銀ペースト中に浸漬し、
後で共振子穴開放端の近傍のマスキングを外せば所望形
状の導体膜を容易に付着させることができるから、スク
リーン印刷等を必要とセず製造容易となる。
This increases Q[ compared to the dielectric resonator shown in FIG. Also, the dielectric block is immersed in silver paste,
If the masking in the vicinity of the open end of the resonator hole is removed later, a conductor film having a desired shape can be easily attached, so that screen printing or the like is not required and manufacturing is facilitated.

誘電体ブロック30が、その結合阻止穴34の近傍に凹
部を有する構造であると、凹部によって結合阻止式近傍
での誘電体の断面積が低減し共振子間での電磁的結合を
より小さくでき好ましい、第6図に示す例は誘電体ブロ
ック4゜の短絡面側に溝41を設けている。共振子間で
の結合は磁界結合が強いから、第6図に示すように短絡
面側に凹部を設ける方が有効である。
When the dielectric block 30 has a recess near the coupling blocking hole 34, the recess reduces the cross-sectional area of the dielectric near the coupling blocking type, making it possible to further reduce electromagnetic coupling between the resonators. In the preferred example shown in FIG. 6, a groove 41 is provided on the short-circuit surface side of the dielectric block 4°. Since the magnetic field coupling between the resonators is strong, it is more effective to provide a recess on the short-circuit surface side as shown in FIG.

第7図では誘電体ブロック42の側面に溝43を形成し
ている。第8図は誘電体ブロック44の短絡面側の両側
に切欠き部45を設けた例であり、第9図は逆に誘電体
ブロック46の開放面側に切欠き部47を設けた例であ
る。
In FIG. 7, a groove 43 is formed on the side surface of the dielectric block 42. In FIG. FIG. 8 shows an example in which notches 45 are provided on both sides of the short circuit side of the dielectric block 44, and FIG. 9 shows an example in which notches 47 are provided on the open side of the dielectric block 46. be.

第1O図Aは誘電体フィルタの一例を示す斜視図であり
、同図Bはその断面図である。これは第2図に示す帯域
阻止フィルタの具体的構成例である。第1図に示す誘電
体共振器38を用い、その共振子穴32の開放端に平板
コンデンサ50を搭載し、各コンデンサ50間をコイル
52で接続する。ここではコンデンサ5oを接続し易い
ように各共振子穴32にリベット状の金属端子54を嵌
め込んで中心導体に半田付けし、その上に平板コンデン
サ50を載せ半田付は固定している。
FIG. 1A is a perspective view showing an example of a dielectric filter, and FIG. 1B is a sectional view thereof. This is a specific example of the configuration of the band rejection filter shown in FIG. A dielectric resonator 38 shown in FIG. 1 is used, a plate capacitor 50 is mounted on the open end of the resonator hole 32, and each capacitor 50 is connected by a coil 52. Here, in order to facilitate connection of the capacitor 5o, a rivet-shaped metal terminal 54 is fitted into each resonator hole 32 and soldered to the center conductor, and the plate capacitor 50 is placed on top of it and the soldering is fixed.

第11図は上記誘電体フィルタの変形例であり1枚のコ
ンデンサ基板を用いている。コンデンサ基板は第12図
に示すように、誘電体基板56の上下面に各共振子穴に
対応して電極58゜59を形成したものである。コンデ
ンサ基板を誘電体共振器38上に取り付け、下面の電極
59と中心導体とを電気的に接続する。そして上面の電
極58間をコイル52で接続する。
FIG. 11 shows a modification of the dielectric filter described above, which uses one capacitor substrate. As shown in FIG. 12, the capacitor substrate has electrodes 58 and 59 formed on the upper and lower surfaces of a dielectric substrate 56 corresponding to each resonator hole. A capacitor substrate is mounted on the dielectric resonator 38, and the electrode 59 on the lower surface and the center conductor are electrically connected. Then, the electrodes 58 on the upper surface are connected by a coil 52.

第13図に示す・実施例は、誘電体共振器38とコンデ
ンサ基板62をベースプレート64上に取り付けたもの
である。ここでコンデンサ基板62はパターンギャンブ
方式の複数のコンデンサ部を有し、電極開路11[dで
コンデンサ容量を実現する。そして各中心導体と一方の
電極66aとをそれぞれ接続し、他方の電極66b間を
コイル52で結合する。符号67は入出力端子である。
In the embodiment shown in FIG. 13, a dielectric resonator 38 and a capacitor substrate 62 are mounted on a base plate 64. Here, the capacitor substrate 62 has a plurality of capacitor sections of a pattern-gamble type, and the capacitor capacitance is realized by the electrode open circuit 11[d. Then, each center conductor is connected to one electrode 66a, and the other electrode 66b is coupled by a coil 52. Reference numeral 67 is an input/output terminal.

コンデンサ基板6Bは、第14図Bに示すように、電極
間にチップコンデンサ69を搭載する構造であってもよ
い。
The capacitor substrate 6B may have a structure in which a chip capacitor 69 is mounted between electrodes, as shown in FIG. 14B.

なお上記の実施例は何れも共振子穴が誘電体ブロックに
3個設けられている3段構成の例であるが、共振子穴が
2個の場合にも、4個以上の場合にも本発明を適用でき
ることは言うまでもない、また誘電体共振器の外観を描
いている各図面において、細かな点々を付して示しであ
る部分は誘電体の素地が露出している面を示しており、
影線を施している部分は導体膜が付着している面を表し
ている。
Note that the above embodiments are all examples of a three-stage configuration in which three resonator holes are provided in the dielectric block, but the present invention also applies when there are two resonator holes or four or more resonator holes. It goes without saying that the invention can be applied. In each drawing depicting the external appearance of a dielectric resonator, the parts marked with small dots indicate the exposed surface of the dielectric material.
The shaded area represents the surface to which the conductive film is attached.

[発明の効果] 本発明は上記のように基本的には誘電体ブロック一体型
であり単純な構造のため、製造性がよく安定な電気特性
・機械特性を得やすい、また本発明によるフィルタは、
集中定数素子による結合のため設計し易く、周波数・結
合調整も容易である。これらにより、結果的に、より安
価な帯域阻止フィルタや帯域遭遇フィルタを実現できる
[Effects of the Invention] As described above, the present invention is basically integrated with a dielectric block and has a simple structure, so it is easy to manufacture and obtain stable electrical and mechanical properties. ,
It is easy to design because it is coupled using lumped constant elements, and frequency and coupling adjustment are also easy. As a result, cheaper band rejection filters and band encounter filters can be realized.

【図面の簡単な説明】[Brief explanation of drawings]

第1図Aは本発明に係る誘電体共振器の一実施例を示す
斜視図、Bはその縦断面図、第2図は本発明に係る誘電
体共振器を用いた帯域阻止フィルタの説明図、第3図は
帯域通過フィルタの説明図である。第4図、第5図、第
6図、第7図、第8図、第9図はそれぞれ本発明に係る
誘電体共振器の他の実施例を示す斜視図である。 第10図Aは本発明に係る誘電体フィルタの一実施例を
示す斜視図、Bはその縦断面図である。 第11図は誘電体フィルタの他の実施例を示す斜視図、
第12図はそれに用いるコンデンサ基板の斜視図、第1
3図は誘電体フィルタの他の実施例を示す斜視図、第1
4回Aはそれに用いるコンデンサ基板の平面図、Bはコ
ンデンサ基板の他の例を示す平面図である。 第15図Aは従来の帯域阻止フィルタの一例を示す説明
図、Bはその等価回路図、第16図はそのフィルタ特性
図、第17図Aは従来の帯域通過フィルタの一例を示す
説明図、Bはその等価図IN!r図、第18図はそのフ
ィルタ特性図である。 30・・・誘電体ブロック、32・・・共振子穴、34
・・・結合阻止穴、38・・・誘電体共振器、41゜4
3・・・溝、45.47・・・切欠き、50・・・コン
デンサ、52・・・コイル。
FIG. 1A is a perspective view showing one embodiment of a dielectric resonator according to the present invention, B is a longitudinal sectional view thereof, and FIG. 2 is an explanatory diagram of a band rejection filter using a dielectric resonator according to the present invention. , FIG. 3 is an explanatory diagram of a bandpass filter. FIG. 4, FIG. 5, FIG. 6, FIG. 7, FIG. 8, and FIG. 9 are perspective views showing other embodiments of the dielectric resonator according to the present invention, respectively. FIG. 10A is a perspective view showing one embodiment of a dielectric filter according to the present invention, and FIG. 10B is a longitudinal sectional view thereof. FIG. 11 is a perspective view showing another embodiment of the dielectric filter;
Figure 12 is a perspective view of the capacitor board used for it,
Figure 3 is a perspective view showing another embodiment of the dielectric filter;
4A is a plan view of a capacitor substrate used therein, and B is a plan view showing another example of the capacitor substrate. FIG. 15A is an explanatory diagram showing an example of a conventional band-pass filter, B is an equivalent circuit diagram thereof, FIG. 16 is a filter characteristic diagram thereof, and FIG. 17A is an explanatory diagram showing an example of a conventional band-pass filter. B is its equivalent diagram IN! Figure r and Figure 18 are filter characteristic diagrams. 30... Dielectric block, 32... Resonator hole, 34
...Coupling blocking hole, 38...Dielectric resonator, 41°4
3...Groove, 45.47...Notch, 50...Capacitor, 52...Coil.

Claims (6)

【特許請求の範囲】[Claims] 1.誘電体ブロックにそれぞれ共振子穴となる複数の貫
通孔を並設し、該貫通孔が開口している面の一方を開放
面として、貫通孔の内壁面、及び開放面を除く外面に導
体膜を形成して中心導体及び外導体とした多段同軸共振
器において、各共振子穴の間に結合阻止穴となる別の貫
通孔を形成し、その内壁面に導体膜を設けると共に、そ
の両開口端で内壁面の導体膜と前記外導体とを導体膜に
より接続したことを特徴とする誘電体共振器。
1. A plurality of through holes each serving as a resonator hole are arranged in parallel in a dielectric block, and one of the surfaces where the through holes are open is an open surface, and a conductive film is formed on the inner wall surface of the through hole and the outer surface excluding the open surface. In a multi-stage coaxial resonator that forms a center conductor and an outer conductor, another through hole is formed between each resonator hole to serve as a coupling prevention hole, and a conductive film is provided on the inner wall surface of the through hole, and a conductive film is provided on the inner wall surface of the through hole. A dielectric resonator characterized in that a conductor film on an inner wall surface and the outer conductor are connected at an end by a conductor film.
2.結合阻止穴が、誘電体ブロックの幅方向に長い角形
貫通孔である請求項1記載の誘電体共振器。
2. The dielectric resonator according to claim 1, wherein the coupling blocking hole is a rectangular through hole long in the width direction of the dielectric block.
3.誘電体ブロックは、各結合阻止穴近傍に凹部を設け
た形状をなしている請求項1記載の誘電体共振器。
3. 2. The dielectric resonator according to claim 1, wherein the dielectric block has a shape in which a recess is provided near each coupling blocking hole.
4.請求項1記載の誘電体共振器を用い、その共振子穴
の開放端に平板コンデンサを搭載し、コンデンサ間をコ
イルで接続した誘電体フィルタ。
4. A dielectric filter using the dielectric resonator according to claim 1, having a flat plate capacitor mounted on the open end of the resonator hole, and connecting the capacitors with a coil.
5.複数のコンデンサが、単一の誘電体基板の両面にそ
れぞれ複数の電極を設けたものからなる請求項4記載の
誘電体フィルタ。
5. 5. The dielectric filter according to claim 4, wherein the plurality of capacitors each include a plurality of electrodes provided on both sides of a single dielectric substrate.
6.請求項1記載の誘電体共振器と、パターンギャップ
方式の複数のコンデンサ部を有するコンデンサ基板とを
ベースプレート上に設置し、中心導体とコンデンサ部の
一方の電極とをそれぞれ接続し、他方の電極間をコイル
で接続した誘電体フィルタ。
6. The dielectric resonator according to claim 1 and a capacitor substrate having a plurality of pattern gap type capacitor sections are installed on a base plate, the center conductor and one electrode of the capacitor section are respectively connected, and the center conductor is connected between the other electrodes. A dielectric filter that is connected with a coil.
JP5122390A 1990-03-02 1990-03-02 Dielectric resonator and filter using same Pending JPH03254202A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
JP5122390A JPH03254202A (en) 1990-03-02 1990-03-02 Dielectric resonator and filter using same
CA002037262A CA2037262A1 (en) 1990-03-02 1991-02-27 Dielectric resonator and a filter using same
US07/662,199 US5208565A (en) 1990-03-02 1991-02-28 Dielectric filer having a decoupling aperture between coaxial resonators
DE69128803T DE69128803T2 (en) 1990-03-02 1991-03-01 Dielectric resonator and filter with such a resonator
EP91301703A EP0444948B1 (en) 1990-03-02 1991-03-01 Dielectric resonator and a filter using same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP5122390A JPH03254202A (en) 1990-03-02 1990-03-02 Dielectric resonator and filter using same

Publications (1)

Publication Number Publication Date
JPH03254202A true JPH03254202A (en) 1991-11-13

Family

ID=12880942

Family Applications (1)

Application Number Title Priority Date Filing Date
JP5122390A Pending JPH03254202A (en) 1990-03-02 1990-03-02 Dielectric resonator and filter using same

Country Status (1)

Country Link
JP (1) JPH03254202A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5278527A (en) * 1992-07-17 1994-01-11 Motorola, Inc. Dielectric filter and shield therefor
JPH07162205A (en) * 1993-10-08 1995-06-23 Electron & Telecommun Res Inst Dielectric filter
US5764118A (en) * 1993-07-23 1998-06-09 Sony Chemicals Corporation Dielectric coaxial filter with irregular polygon shaped recesses

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0216802A (en) * 1988-07-04 1990-01-19 Murata Mfg Co Ltd Band elimination filter
JPH0255408A (en) * 1988-08-20 1990-02-23 Toko Inc Manufacture of dielectric filter
JPH0255402A (en) * 1988-08-20 1990-02-23 Toko Inc Dielectric filter

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0216802A (en) * 1988-07-04 1990-01-19 Murata Mfg Co Ltd Band elimination filter
JPH0255408A (en) * 1988-08-20 1990-02-23 Toko Inc Manufacture of dielectric filter
JPH0255402A (en) * 1988-08-20 1990-02-23 Toko Inc Dielectric filter

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5278527A (en) * 1992-07-17 1994-01-11 Motorola, Inc. Dielectric filter and shield therefor
WO1994002971A1 (en) * 1992-07-17 1994-02-03 Motorola Inc. Dielectric filter and shield therefor
GB2274550A (en) * 1992-07-17 1994-07-27 Motorola Inc Dielectric filter and shield therefor
GB2274550B (en) * 1992-07-17 1995-11-29 Motorola Inc Dielectric filter and shield therefor
US5764118A (en) * 1993-07-23 1998-06-09 Sony Chemicals Corporation Dielectric coaxial filter with irregular polygon shaped recesses
JPH07162205A (en) * 1993-10-08 1995-06-23 Electron & Telecommun Res Inst Dielectric filter

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