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JPH0946104A - Irreversible circuit element - Google Patents

Irreversible circuit element

Info

Publication number
JPH0946104A
JPH0946104A JP18940795A JP18940795A JPH0946104A JP H0946104 A JPH0946104 A JP H0946104A JP 18940795 A JP18940795 A JP 18940795A JP 18940795 A JP18940795 A JP 18940795A JP H0946104 A JPH0946104 A JP H0946104A
Authority
JP
Japan
Prior art keywords
permanent magnet
metal case
magnetic field
case
conductors
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.)
Granted
Application number
JP18940795A
Other languages
Japanese (ja)
Other versions
JP3570023B2 (en
Inventor
Hiroshi Tokuji
博 徳寺
Takashi Hasegawa
長谷川  隆
Yutaka Ishiura
豊 石浦
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.)
Murata Manufacturing Co Ltd
Original Assignee
Murata Manufacturing Co 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 Murata Manufacturing Co Ltd filed Critical Murata Manufacturing Co Ltd
Priority to JP18940795A priority Critical patent/JP3570023B2/en
Publication of JPH0946104A publication Critical patent/JPH0946104A/en
Application granted granted Critical
Publication of JP3570023B2 publication Critical patent/JP3570023B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Non-Reversible Transmitting Devices (AREA)

Abstract

PROBLEM TO BE SOLVED: To position a permanent magnet with high precision without increasing the number of components and without causing deterioration in the electric characteristics and the workability. SOLUTION: Plural conductors 9 are arranged in a metallic case 6 crossing with each other in an electric non-contact state and a permanent magnet 5 is arranged in the case 6 to apply a DC magnetic field to the crossing part of the conductors 6 to form a circulator 1, then the permanent magnet 5 is in press contact with a ceiling wall 6a of the metallic case 6 and a corner ridge 5b of the permanent magnet 5 is engaged with a corner ridge 6c of the metallic case 6 and positioned and fixed.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、マイクロ波帯の高
周波回路部品として採用される非可逆回路素子、例えば
アイソレータ,サーキュレータに関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-reciprocal circuit device, such as an isolator or a circulator, which is adopted as a microwave band high frequency circuit component.

【0002】[0002]

【従来の技術】例えば、マイクロ波集中定数型のアイソ
レータ,サーキュレータは、減衰力が信号の伝送方向に
は極めて小さく、逆方向には極めて大きい特性を有して
おり、携帯電話,自動車電話等の送信回路部に採用され
ている。このようなアイソレータの一例として、従来、
例えば特願平5−143575号に提案された構造のも
のがある。図12に示すように、上記アイソレータ50
は、一対の金属ケース51,52内に電極基板53を配
置するとともに永久磁石54を配置し、該永久磁石54
により上記電極基板53に直流磁界を印加するよう構成
されている。この電極基板53は3本の導体55・・を
電気的絶縁状態でかつ所定角度ごとに交差させて配置
し、該各導体55の交差部分にフェライト56を当接し
て構成されている。なお、57は容量基板,58はそれ
ぞれ整合回路用コンデンサチップ,59は終端抵抗チッ
プである。
2. Description of the Related Art For example, microwave lumped constant type isolators and circulators have characteristics that the damping force is extremely small in the signal transmission direction and extremely large in the opposite direction. It is used in the transmission circuit section. As an example of such an isolator,
For example, there is a structure proposed in Japanese Patent Application No. 5-143575. As shown in FIG. 12, the isolator 50 described above is used.
Arranges the electrode substrate 53 and the permanent magnet 54 in the pair of metal cases 51, 52, and
Thus, a DC magnetic field is applied to the electrode substrate 53. The electrode substrate 53 is configured by arranging three conductors 55 ... In an electrically insulated state and intersecting at a predetermined angle, and a ferrite 56 is brought into contact with the intersecting portion of each conductor 55. Reference numeral 57 is a capacitor substrate, 58 is a matching circuit capacitor chip, and 59 is a termination resistor chip.

【0003】上記アイソレータ50では、電気的特性の
向上を図る目的から樹脂ブロック60を用いて上記永久
磁石54の中心と各導体55及びフェライト56の中心
とを一致させるようにしている。この樹脂ブロック60
は、上記永久磁石54が挿入される位置決め孔60aを
形成するとともに、電極基板53及び容量基板57が装
着される位置決め凹部60bを形成して構成されてい
る。
In the isolator 50, a resin block 60 is used to match the center of the permanent magnet 54 with the centers of the conductors 55 and the ferrite 56 for the purpose of improving the electrical characteristics. This resin block 60
Comprises a positioning hole 60a into which the permanent magnet 54 is inserted and a positioning recess 60b into which the electrode substrate 53 and the capacitor substrate 57 are mounted.

【0004】また、上記永久磁石の取付け構造として
は、従来、図10に示すように、金属ケース65の天壁
に突起片65aを切り起こして形成し、該突起片65a
で永久磁石66を固定するものがある。さらに、図11
に示すように、金属ケース67の天壁内面に網目状の凹
凸67aを切り欠き形成し、これにより永久磁石と金属
ケース67との接着強度の向上を図るようにしたものが
ある(特願平1−141022号参照)。
As a conventional mounting structure for the permanent magnet, as shown in FIG. 10, a protruding piece 65a is formed by cutting and raising the ceiling wall of a metal case 65.
There is one that fixes the permanent magnet 66. Further, FIG.
As shown in FIG. 3, there is a metal case 67 in which a mesh-shaped unevenness 67a is cut out on the inner surface of the ceiling wall to improve the adhesive strength between the permanent magnet and the metal case 67 (Japanese Patent Application No. Hei 10-135242). 1-141022).

【0005】[0005]

【発明が解決しようとする課題】しかしながら、上記従
来の樹脂ブロックによる位置決め構造では、精度は高い
ものの部品全体が大型化するとともに、部品点数が増え
る分だけコストが上昇するという問題がある。
However, the conventional positioning structure using the resin block has a problem in that although the accuracy is high, the size of the entire component increases and the cost increases as the number of components increases.

【0006】また、上記従来の金属ケースの突起片や凹
凸部で永久磁石を固定する構造では、上記樹脂ブロック
に比べて小型化,低コスト化に対応できるものの位置決
め精度が低く所望の電気的特性が得られない場合があ
る。さらに上記従来の突起片を形成する構造では、金属
ケースが磁性体である場合には該突起片により磁場が乱
れ易く、電気的特性が劣化するおそれがある。さらにま
た上記従来の凹凸部を形成する構造では、接着剤を塗布
するという工程が必要であり、作業性が低いとともに、
接着剤の経時劣化に対する信頼性が低いという問題があ
る。
Further, in the above-mentioned structure in which the permanent magnet is fixed by the protrusions and the concavo-convex portions of the metal case, it is possible to reduce the size and cost as compared with the resin block, but the positioning accuracy is low and desired electrical characteristics are obtained. May not be obtained. Further, in the above-mentioned conventional structure for forming the protruding piece, when the metal case is a magnetic body, the magnetic field is apt to be disturbed by the protruding piece, and the electrical characteristics may be deteriorated. Furthermore, in the above conventional structure for forming the uneven portion, a step of applying an adhesive is required, and the workability is low, and
There is a problem that the reliability of the adhesive against deterioration with time is low.

【0007】一方、上記永久磁石を金属ケースに固定す
る場合、両者の側面同士が接触するとN極とS極とが直
接つながることになるので磁気的に短絡した状態とな
る。その結果、磁場分布にばらつきが生じ易くなるとと
もに、印加磁力が弱くなるおそれがあり、この点での改
善が要請されている。
On the other hand, when the permanent magnet is fixed to the metal case, if the side surfaces of the two magnets come into contact with each other, the N pole and the S pole are directly connected to each other, so that they are magnetically short-circuited. As a result, the magnetic field distribution is likely to vary, and the applied magnetic force may be weakened, and improvement in this respect is required.

【0008】本発明は上記従来の状況に鑑みてなされた
もので、部品点数を増やすことなく、かつ電気的特性の
劣化や作業性の低下を生じさせることなく永久磁石を精
度良く位置決めでき、また磁場分布を均一化できるとと
もに印加磁力の低下を回避できる非可逆回路素子を提供
することを目的としている。
The present invention has been made in view of the above conventional situation, and the permanent magnet can be accurately positioned without increasing the number of parts and without causing deterioration of electrical characteristics and deterioration of workability, and It is an object of the present invention to provide a non-reciprocal circuit device that can make the magnetic field distribution uniform and avoid a decrease in applied magnetic force.

【0009】[0009]

【課題を解決するための手段】請求項1の発明は、金属
ケース内に、複数の導体を電気的非接触状態でかつ交差
させて配置するとともに、該導体の交差部分に直流磁界
を印加する永久磁石を配置してなる非可逆回路素子にお
いて、上記永久磁石を上記金属ケースの天壁内面に当接
させるとともに、該永久磁石の天壁側角縁を上記金属ケ
ースの天壁と側壁とで形成される角縁に係合させて該永
久磁石の軸直角方向の位置決めを行うようにしたことを
特徴としている。
According to a first aspect of the present invention, a plurality of conductors are arranged in a metal case in an electrically non-contact state so as to intersect with each other, and a DC magnetic field is applied to the intersecting portions of the conductors. In a nonreciprocal circuit device in which a permanent magnet is arranged, the permanent magnet is brought into contact with the inner surface of the top wall of the metal case, and the corner edge of the permanent magnet on the top wall side is formed by the top wall and the side wall of the metal case. It is characterized in that the permanent magnet is positioned in the direction perpendicular to the axis by engaging with the formed corner edge.

【0010】ここで、上記永久磁石には円板形のものを
用い、金属ケースには四角形のものを用いるのが一般的
であるが、本発明は、永久磁石を四角形,多角形にした
もの、あるいは金属ケースを永久磁石の形状にあわせて
円板形,多角形にしたものも含まれる。
Here, it is general to use a disc-shaped permanent magnet and a quadrilateral metal case for the above-mentioned permanent magnet, but in the present invention, the permanent magnet is quadrangular or polygonal. , Or a metal case made into a disc shape or a polygon shape in accordance with the shape of the permanent magnet.

【0011】請求項2の発明は、請求項1と同様の非可
逆回路素子において、上記金属ケースの天壁内面に位置
決め用凸部を一体形成し、上記永久磁石に該凸部に係合
する凹部を形成したことを特徴としている。
According to a second aspect of the present invention, in the same nonreciprocal circuit device as the first aspect, a positioning protrusion is integrally formed on the inner surface of the top wall of the metal case, and the permanent magnet is engaged with the protrusion. The feature is that a concave portion is formed.

【0012】請求項3の発明は、上記金属ケースの側壁
内面,及び永久磁石の側周面の何れか一方,又は両方に
両者の接触を回避する傾斜面を形成したことを特徴とし
ている。
The invention of claim 3 is characterized in that an inclined surface is formed on either or both of the inner surface of the side wall of the metal case and the side peripheral surface of the permanent magnet to avoid contact between the both.

【0013】請求項4の発明は、上記金属ケースの側壁
内面,及び永久磁石の側周面の何れか一方,又は両方に
非磁性体材料,あるいは反磁性体材料からなる非接触膜
を被覆形成したことを特徴としている。
According to a fourth aspect of the present invention, one or both of the inner surface of the side wall of the metal case and the side peripheral surface of the permanent magnet is coated with a non-contact film made of a non-magnetic material or a diamagnetic material. It is characterized by having done.

【0014】[0014]

【作用】請求項1の発明では、永久磁石の角縁を金属ケ
ースの内壁の角縁に係合させたので、永久磁石の軸直交
方向の移動が規制されることから精度良く位置決め固定
でき、ひいては電気的特性を向上できる。その結果、従
来の樹脂ブロックによる位置決めを不要にでき、部品の
大型化を回避できるとともに部品コストを低減できる。
また上記永久磁石を金属ケースの内壁に係合させて位置
決めするので、従来の突起片を切り起こしたり,凹凸部
を切り欠いたりする必要はなく、これにより磁場の乱れ
による特性劣化や接着剤による作業性の悪化,及び経時
劣化の問題も解消できる。
According to the first aspect of the present invention, since the corner edge of the permanent magnet is engaged with the corner edge of the inner wall of the metal case, the movement of the permanent magnet in the direction orthogonal to the axis is restricted, so that positioning and fixing can be performed accurately. As a result, electrical characteristics can be improved. As a result, it is possible to eliminate the need for conventional positioning with a resin block, avoid an increase in the size of parts, and reduce the cost of parts.
Further, since the permanent magnet is positioned by engaging with the inner wall of the metal case, it is not necessary to cut and raise the protruding piece and cut out the uneven portion as in the prior art. It also solves the problems of workability deterioration and deterioration over time.

【0015】請求項2の発明では、金属ケースの天壁内
面に形成された凸部に永久磁石の凹部を係合させて位置
決め固定したので、位置精度を向上でき電気的特性を改
善でき、上述と同様に部品の大型化を回避できるととも
にコストを低減できる。また金属ケースに凸部を一体形
成する構造であるので、従来の切り起こしたり,切り欠
いたりする場合に比べて磁場の乱れを低減できる。
According to the second aspect of the present invention, since the concave portion of the permanent magnet is engaged with the convex portion formed on the inner surface of the top wall of the metal case to position and fix it, the positional accuracy can be improved and the electrical characteristics can be improved. Similarly, it is possible to avoid an increase in the size of parts and reduce the cost. Further, since the convex portion is integrally formed on the metal case, the disturbance of the magnetic field can be reduced as compared with the conventional case of cutting and raising or notching.

【0016】請求項3の発明では、金属ケースの側壁内
面,永久磁石の側面に両者の接触を回避する傾斜面を形
成したので、接触による磁気的短絡を防止でき、それだ
け磁力線の向きを中央に集中でき、磁場分布を均一化で
きるとともに、印加磁力を向上できる。
According to the third aspect of the present invention, since the inclined surface is formed on the inner surface of the side wall of the metal case and the side surface of the permanent magnet so as to avoid contact between them, magnetic short circuit due to contact can be prevented, and the direction of the magnetic force line is centered accordingly. The magnetic field can be concentrated, the magnetic field distribution can be made uniform, and the applied magnetic force can be improved.

【0017】請求項4の発明では、金属ケースの側壁内
面,永久磁石の側面に非磁性体材料,又は反磁性体材料
からなる非接触膜を形成したので、両者を近接させても
磁気的に短絡するのを防止でき、磁場分布を均一化でき
るとともに印加磁力を向上できる。また上記永久磁石を
金属ケース側面に非接触膜を介して接触させることがで
きるので、それだけ永久磁石のフェライト対向面積を確
保でき、磁場分布をさらに均一化できる。
According to the fourth aspect of the present invention, since the non-contact film made of the non-magnetic material or the diamagnetic material is formed on the inner surface of the side wall of the metal case and the side surface of the permanent magnet, even if they are brought close to each other, they are magnetic. A short circuit can be prevented, the magnetic field distribution can be made uniform, and the applied magnetic force can be improved. Further, since the permanent magnet can be brought into contact with the side surface of the metal case through the non-contact film, the ferrite facing area of the permanent magnet can be secured by that much, and the magnetic field distribution can be further homogenized.

【0018】[0018]

【発明の実施の形態】以下、本発明の実施形態を添付図
に基づいて説明する。図1及び図2は、請求項1,3の
発明の一実施形態によるサーキュレータを説明するため
の図であり、図1はサーキュレータの断面図、図2はサ
ーキュレータの分解斜視図である。
BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the accompanying drawings. 1 and 2 are views for explaining a circulator according to an embodiment of the invention of claims 1 and 3, FIG. 1 is a sectional view of the circulator, and FIG. 2 is an exploded perspective view of the circulator.

【0019】図において、1はマイクロ波帯域で採用さ
れる集中定数型のサーキュレータであり、これは磁性体
金属からなる下部ケース2の底壁2a上にアース板3を
配置するとともに多層基板4を配置し、該多層基板4の
上部に永久磁石5を配設し、上記下部ケース2に同じく
磁性体金属からなる上部ケース6を装着して構成されて
いる。
In the figure, reference numeral 1 denotes a lumped constant type circulator used in the microwave band, which has a ground plate 3 disposed on a bottom wall 2a of a lower case 2 made of a magnetic metal and a multi-layer substrate 4 mounted thereon. The permanent magnet 5 is arranged on the multilayer substrate 4, and the upper case 6 also made of magnetic metal is attached to the lower case 2.

【0020】上記多層基板4の下面の両端部には凸部
7,7が一体に突出形成されており、該凸部7は上記下
部ケース2の下方に突出している。上記各凸部7の外側
面にはそれぞれ入出力端子,アース端子としての外部接
続電極8・・が形成されており、該各外部接続電極8は
図示しない回路基板の電極ラインに表面実装される。
Protrusions 7, 7 are integrally formed on both ends of the lower surface of the multilayer substrate 4, and the protrusions 7 protrude below the lower case 2. External connection electrodes 8 serving as input / output terminals and ground terminals are formed on the outer surface of each of the projections 7, and each external connection electrode 8 is surface-mounted on an electrode line of a circuit board (not shown). .

【0021】上記多層基板4は、図示しない厚さ数〜十
数μmの矩形状セラミックグリーンシートを多数枚積層
し、これを一体焼結して形成されたものである。上記多
層基板4の内部には3本の中心導体9・・が埋設されて
おり、該各中心導体9は上記グリーンシートを挟んで電
気的絶縁状態に交互に位置し、かつ互いに120度の角
度をなすように交差させて配置されている。
The multi-layer substrate 4 is formed by laminating a large number of rectangular ceramic green sheets (not shown) having a thickness of several to several tens of μm, and integrally sintering these. Three center conductors 9 are embedded inside the multilayer substrate 4, and the respective center conductors 9 are alternately positioned in an electrically insulated state with the green sheet sandwiched therebetween, and have an angle of 120 degrees with each other. They are arranged to intersect each other.

【0022】また上記多層基板4の内部には、上記各中
心導体9の一端部が接続される図示しない容量電極,及
び他端部が接続されるアース電極が埋設されており、こ
の容量電極,アース電極は上記各外部接続電極8に接続
されている。これらの各電極の接続はスルーホール電極
を介して接続されており、また上記中心導体9,容量電
極,アース電極は上記セラミックグリーンシートに印
刷,蒸着等によりパターン形成されている。
Inside the multi-layer substrate 4, there are buried a capacitance electrode (not shown) to which one end of each of the central conductors 9 is connected and a ground electrode to which the other end is connected. The ground electrode is connected to each of the external connection electrodes 8 described above. These electrodes are connected to each other through through-hole electrodes, and the central conductor 9, the capacitance electrode, and the ground electrode are patterned on the ceramic green sheet by printing, vapor deposition, or the like.

【0023】上記多層基板4の下面の上記各中心導体9
に臨む部分には凹部4aが形成されており、該凹部4a
内にはフェライト10が挿入配置されており、これによ
りフェライト10は位置決め固定されている。このフェ
ライト10の上面は上記各中心導体9の交差部分に対向
しており、下面は上記アース板3に当接している。
Each of the central conductors 9 on the lower surface of the multilayer substrate 4
The concave portion 4a is formed in the portion facing the concave portion 4a.
The ferrite 10 is inserted and arranged therein, whereby the ferrite 10 is positioned and fixed. The upper surface of the ferrite 10 faces the intersecting portion of the central conductors 9 and the lower surface thereof contacts the ground plate 3.

【0024】上記上部ケース6は四角形の天壁6aの各
側縁に側壁6bを折り曲げ形成した略箱状のもので、該
上部ケース6内に上記永久磁石5が配置されており、該
永久磁石5により上記各中心導体9の交差部に直流磁界
を印加するように構成されている。この永久磁石5は円
板形のもので、その側周面5aは内側に傾斜しておい
り、大略円錐台形をなしている。これにより上記傾斜状
の側周面5aと上部ケース6の各側壁6bの内面との間
には磁気的短絡を回避する隙間aが設けられている。
The upper case 6 has a substantially box-like shape in which side walls 6b are formed by bending side walls of a quadrangular ceiling wall 6a, and the permanent magnets 5 are arranged in the upper case 6. 5, a DC magnetic field is applied to the intersection of the central conductors 9. The permanent magnet 5 has a disk shape, and the side peripheral surface 5a thereof is inclined inward to form a substantially truncated cone shape. As a result, a gap a for avoiding a magnetic short circuit is provided between the inclined side peripheral surface 5a and the inner surface of each side wall 6b of the upper case 6.

【0025】上記永久磁石5の上縁5bは上部ケース6
の天壁6aと側壁6bとでなす角縁6cに当接係合して
おり、また該永久磁石5の上面は天壁6aに半田付けさ
れている。これにより永久磁石5は上部ケース6に位置
決め固定されており、該永久磁石5の中心と各中心導体
9,及びフェライト10の中心とは一致している。
The upper edge 5b of the permanent magnet 5 is the upper case 6
Is in contact with a square edge 6c formed by the top wall 6a and the side wall 6b, and the upper surface of the permanent magnet 5 is soldered to the top wall 6a. As a result, the permanent magnet 5 is positioned and fixed to the upper case 6, and the center of the permanent magnet 5 coincides with the center of each central conductor 9 and the ferrite 10.

【0026】本実施例の作用効果について説明する。本
実施例のサーキュレータ1によれば、上部ケース6の角
縁6cに永久磁石5の上縁5bを係合させたので、該永
久磁石5はこれの直径方向の移動が規制されることとな
り、簡単な装着作業で精度良く位置決め固定でき、ひい
ては電気的特性を向上できる。その結果、従来の樹脂ブ
ロックを不要にでき、それだけ部品全体を小型化できる
とともに部品コストを低減できる。
The operation and effect of this embodiment will be described. According to the circulator 1 of the present embodiment, since the upper edge 5b of the permanent magnet 5 is engaged with the corner edge 6c of the upper case 6, the movement of the permanent magnet 5 in the diametrical direction is restricted, Positioning and fixing can be performed with high accuracy by simple mounting work, and electrical characteristics can be improved. As a result, the conventional resin block can be eliminated, and the entire component can be downsized and the component cost can be reduced.

【0027】また上記永久磁石5の上縁5bと上部ケー
ス6の角縁6cとを4箇所において当接係合させて位置
決めするようにしたので、従来の突起片を切り起こした
り,凹凸部を切り欠いたりする必要がなく、磁場の乱れ
による特性劣化を回避できるとともに、接着剤の塗布作
業を不要にでき、さらには接着剤の経時劣化による信頼
性の低下を解消できる。
Further, since the upper edge 5b of the permanent magnet 5 and the corner edge 6c of the upper case 6 are brought into contact and engaged with each other at four positions for positioning, the conventional protruding piece is cut and raised or the uneven portion is formed. It is not necessary to cut out, it is possible to avoid the characteristic deterioration due to the disturbance of the magnetic field, the application work of the adhesive can be eliminated, and further the deterioration of the reliability due to the deterioration of the adhesive with time can be solved.

【0028】本実施例では、上記永久磁石5の側周面5
aを傾斜状に形成したので、上記4箇所の当接係合位置
においても、側周面5aと上部ケース6の側壁6b内面
との間に磁気的短絡を防止する隙間aを形成でき、よっ
て磁力線の向きを中央に集中させることができ、磁場分
布を均一化できるとともに、印加磁力を向上できる。
In this embodiment, the side peripheral surface 5 of the permanent magnet 5 is used.
Since a is formed in an inclined shape, a gap a for preventing a magnetic short circuit can be formed between the side peripheral surface 5a and the inner surface of the side wall 6b of the upper case 6 even at the above-described four contact engagement positions. The direction of the lines of magnetic force can be concentrated in the center, the magnetic field distribution can be made uniform, and the applied magnetic force can be improved.

【0029】図3は、上記実施形態の効果を確認するた
めに行った実験結果を示す特性図である。この実験で
は、上記傾斜状の側周面5aを有する永久磁石5の下面
位置(図3のa´参照),及び該永久磁石5の下方のフ
ェライト位置(図3のb´参照)における磁力線の分布
状態を測定した。また比較するために従来構造の永久磁
石の下面位置(図3のa参照),及びフェライト位置
(図3のb参照)における磁力線の分布状態を測定し
た。
FIG. 3 is a characteristic diagram showing the results of an experiment conducted to confirm the effect of the above embodiment. In this experiment, the lines of magnetic force at the lower surface position of the permanent magnet 5 having the inclined side peripheral surface 5a (see a'in FIG. 3) and the ferrite position below the permanent magnet 5 (see b'in FIG. 3) were measured. The distribution state was measured. Further, for comparison, the distribution state of the lines of magnetic force was measured at the lower surface position (see a in FIG. 3) and the ferrite position (see b in FIG. 3) of the permanent magnet having the conventional structure.

【0030】図3からも明らかなように、永久磁石5の
側周面5aを傾斜状に形成した場合は、従来構造に比べ
て全体として磁力線の向きが中央に集中して印加磁力が
増加しており、磁場分布が改善されていることがわか
る。
As is apparent from FIG. 3, when the side peripheral surface 5a of the permanent magnet 5 is formed in an inclined shape, the direction of the lines of magnetic force is concentrated in the center as a whole and the applied magnetic force is increased as compared with the conventional structure. It can be seen that the magnetic field distribution is improved.

【0031】なお、上記実施例では、永久磁石5の上縁
5bを上部ケース6の角縁6cに係合させて位置決め固
定するとともに、上記永久磁石5の側周面5bを傾斜状
に形成して磁気的短絡を防止した場合を例にとって説明
したが、本発明はこれに限られるものではない。図4な
いし図6は、それぞれ上記実施形態の変形例による磁気
的短絡防止構造を説明するための図である。各図中、図
1と同一符号は同一又は相当部分を示す。
In the above embodiment, the upper edge 5b of the permanent magnet 5 is engaged with the corner edge 6c of the upper case 6 for positioning and fixing, and the side peripheral surface 5b of the permanent magnet 5 is formed in an inclined shape. Although the description has been given by taking the case where the magnetic short circuit is prevented as an example, the present invention is not limited to this. 4 to 6 are views for explaining a magnetic short circuit preventing structure according to a modification of the above embodiment. In each figure, the same reference numerals as those in FIG. 1 indicate the same or corresponding parts.

【0032】図4は、永久磁石5の上縁5bを上部ケー
ス6の角縁6cに係合させて位置決め固定し、さらに上
記上部ケース6の各側壁6bを外側にスカート状に傾斜
させて永久磁石5との間に隙間aを得て磁気的短絡を防
止するようにした例である。この例においても精度良く
位置決めできるとともに、磁場分布を均一化して印加磁
力を向上でき、上記実施例と同様の効果が得られる。
In FIG. 4, the upper edge 5b of the permanent magnet 5 is engaged with the corner edge 6c of the upper case 6 to position and fix it, and the side walls 6b of the upper case 6 are inclined outward in a skirt shape to make them permanent. In this example, a gap a is provided between the magnet 5 and the magnet 5 to prevent a magnetic short circuit. Also in this example, the positioning can be performed with high accuracy, the magnetic field distribution can be made uniform, and the applied magnetic force can be improved, and the same effect as that of the above-described embodiment can be obtained.

【0033】図5は、上部ケース6の天壁6aと側壁6
bとの屈曲部に傾斜部6dを形成し、該傾斜部6dの内
側の角縁6cに永久磁石5の上縁5bを係合させて位置
決め固定するとともに、該永久磁石5と側壁6bとの間
に磁気的短絡を防止する隙間aを設けた例である。この
例においても位置決め精度を向上できるとともに磁場分
布を均一化でき、上記実施例と同様の効果が得られる。
また上記上部ケース6に傾斜部6dを形成したので、上
部ケース6と下部ケース2とを接合する場合の半田の塗
布が容易になり、かつ半田が接合面に流れ易くなるとい
う効果が得られる。なお、上記傾斜部6dは上部ケース
6の全周に渡って形成してもよく、一部に形成してもよ
い。また上記傾斜部6dはアール状に形成してもよい。
FIG. 5 shows the top wall 6a and the side wall 6 of the upper case 6.
An inclined portion 6d is formed at a bent portion with respect to b, and an upper edge 5b of the permanent magnet 5 is engaged with an inner corner edge 6c of the inclined portion 6d to position and fix the permanent magnet 5 and the permanent magnet 5 and the side wall 6b. This is an example in which a gap a for preventing a magnetic short circuit is provided therebetween. Also in this example, the positioning accuracy can be improved and the magnetic field distribution can be made uniform, and the same effect as that of the above-described embodiment can be obtained.
Further, since the inclined portion 6d is formed on the upper case 6, the effect of facilitating the application of solder when joining the upper case 6 and the lower case 2 and facilitating the flow of the solder to the joining surface is obtained. The inclined portion 6d may be formed over the entire circumference of the upper case 6 or may be formed partially. Further, the inclined portion 6d may be formed in a round shape.

【0034】図6は、永久磁石5の上縁5bに下部5c
より大径のフランジ部5dを段付き状に一体形成し、該
フランジ部5dの外周面及び上縁5bを上部ケース6の
側壁6b及び角縁6cに係合させて位置決め固定すると
ともに、下部5cと側壁6bとの間に磁気的短絡防止す
る隙間aを設けた例である。この例においても上記実施
例と同様の効果が得られる。
FIG. 6 shows that the upper edge 5b of the permanent magnet 5 has a lower portion 5c.
A flange portion 5d having a larger diameter is integrally formed in a stepped shape, and an outer peripheral surface and an upper edge 5b of the flange portion 5d are engaged with the side wall 6b and the corner edge 6c of the upper case 6 to position and fix the lower portion 5c. In this example, a gap a for preventing a magnetic short circuit is provided between the side wall 6b and the side wall 6b. In this example, the same effect as that of the above-described embodiment can be obtained.

【0035】図7は、請求項2の発明の一実施形態を説
明するための図であり、図中、図1と同一符号は同一又
は相当部分を示す。
FIG. 7 is a diagram for explaining one embodiment of the invention of claim 2, in which the same reference numerals as those in FIG. 1 indicate the same or corresponding parts.

【0036】本実施形態は、上部ケース6の天壁6aの
内面に位置決め用凸部6eを一体に突出形成し、永久磁
石5の上面に上記凸部6eに係合する凹部5eを凹設し
て構成されている。本実施例では、永久磁石5の凹部5
eを上部ケース6の凸部6eに嵌装するだけで永久磁石
5を精度良く位置決め固定できる。また上部ケース6に
凸部6eを突出形成する構造であるので、従来の突起片
を切り起こして形成する場合に比べて磁場の乱れを低減
でき、電気的特性の劣化を回避できる。
In this embodiment, a positioning projection 6e is integrally formed on the inner surface of the top wall 6a of the upper case 6, and a recess 5e for engaging with the projection 6e is provided on the upper surface of the permanent magnet 5. Is configured. In this embodiment, the recess 5 of the permanent magnet 5 is used.
The permanent magnet 5 can be accurately positioned and fixed only by fitting e into the convex portion 6e of the upper case 6. Further, since the convex portion 6e is formed on the upper case 6 in a protruding manner, the disturbance of the magnetic field can be reduced and the deterioration of the electrical characteristics can be avoided as compared with the case where the conventional protruding piece is cut and raised.

【0037】図8は、請求項4の発明の一実施形態を説
明するための図であり、図中、図1と同一符号は同一又
は相当部分を示す。
FIG. 8 is a diagram for explaining one embodiment of the invention of claim 4, in which the same reference numerals as those in FIG. 1 indicate the same or corresponding portions.

【0038】本実施形態は、永久磁石5の側周面5fに
非磁性材料,あるいは反磁性材料からなる非接触膜20
をメッキ,コーティング等により被覆形成して構成され
ている。また上記永久磁石5の側周面5fは上記非接触
膜20を介在させて上部ケース6の側壁6bに当接して
おり、かつ上記永久磁石5の上縁5bは上部ケース6の
角縁6cに係合している。
In this embodiment, the non-contact film 20 made of a non-magnetic material or a diamagnetic material is formed on the side peripheral surface 5f of the permanent magnet 5.
Is formed by plating, coating or the like. The side peripheral surface 5f of the permanent magnet 5 is in contact with the side wall 6b of the upper case 6 with the non-contact film 20 interposed therebetween, and the upper edge 5b of the permanent magnet 5 is aligned with the corner edge 6c of the upper case 6. Engaged.

【0039】本実施形態では、上記永久磁石5の側周面
5fに非接触膜20を形成したので、磁気的短絡を防止
でき、上記実施例と同様の効果が得られる。また上記非
接触膜20を形成したので、永久磁石5の直径寸法を上
部ケース6の内側まで大きくすることができ、永久磁石
に傾斜面を形成する場合に比べて磁場分布の均一化をさ
らに向上できる。
In this embodiment, since the non-contact film 20 is formed on the side peripheral surface 5f of the permanent magnet 5, magnetic short circuit can be prevented, and the same effect as in the above embodiment can be obtained. Further, since the non-contact film 20 is formed, the diameter dimension of the permanent magnet 5 can be increased to the inside of the upper case 6, and the homogenization of the magnetic field distribution is further improved as compared with the case where the inclined surface is formed on the permanent magnet. it can.

【0040】図9は、上記図8の実施形態の効果を確認
するために行った実験結果を示す特性図である。この実
験では、非接触膜20を形成した永久磁石5の下面位置
(図9のa´参照),及び永久磁石5の下方のフェライ
ト位置(図9のb´参照)における磁力線の分布状態を
測定した。また比較するために従来構造の永久磁石の下
面位置(図9のa参照),及びフェライト位置(図9の
b参照)における磁力線の分布状態を測定した。
FIG. 9 is a characteristic diagram showing the result of an experiment conducted to confirm the effect of the embodiment of FIG. In this experiment, the distribution state of the lines of magnetic force at the lower surface position of the permanent magnet 5 on which the non-contact film 20 is formed (see a ′ in FIG. 9) and the ferrite position below the permanent magnet 5 (see b ′ in FIG. 9) is measured. did. For comparison, the distribution state of the lines of magnetic force was measured at the lower surface position (see a in FIG. 9) and the ferrite position (see b in FIG. 9) of the permanent magnet having the conventional structure.

【0041】図9において、永久磁石に非接触膜を形成
した場合(a´,b´)は、永久磁石の側面が上部ケー
スに近づく分だけ印加磁力は若干減少するものの、永久
磁石の直径を大きくできることから磁場分布はさらに均
一化しており、電気的特性が向上していることがわか
る。
In FIG. 9, when the non-contact film is formed on the permanent magnet (a ', b'), the applied magnetic force is slightly reduced as the side surface of the permanent magnet approaches the upper case, but the diameter of the permanent magnet is reduced. Since it can be increased, it can be seen that the magnetic field distribution is made more uniform and the electrical characteristics are improved.

【0042】なお、上記各実施例では、サーキュレータ
を例にとって説明したが、本発明はアイソレータにも勿
論適用でき、また他の非可逆性機能を発現する高周波回
路部品にも適用できる。
In each of the above-mentioned embodiments, the circulator has been described as an example, but the present invention can of course be applied to an isolator and also to other high frequency circuit components exhibiting an irreversible function.

【0043】[0043]

【発明の効果】以上のように請求項1に係る発明では、
永久磁石の角縁を金属ケース内壁の角縁に係合させて位
置決め固定したので、また請求項2の発明では、金属ケ
ースの天壁内面に位置決め用凸部を一体形成し、永久磁
石に該凸部に係合する凹部を形成したので、永久磁石を
精度良く位置決め固定できる効果があり、また部品の大
型化を回避できるとともに部品コストを低減でき、さら
には磁場の乱れによる特性劣化,及び経時劣化の問題を
解消できる効果がある。
As described above, in the invention according to claim 1,
Since the corner edge of the permanent magnet is engaged with the corner edge of the inner wall of the metal case for positioning and fixing, the invention according to claim 2 is further characterized in that a positioning projection is integrally formed on the inner surface of the top wall of the metal case, and Since the concave part that engages with the convex part is formed, there is an effect that the permanent magnet can be positioned and fixed with high accuracy, the size increase of the part can be avoided and the part cost can be reduced, and the characteristic deterioration due to the disturbance of the magnetic field and the aging There is an effect that the problem of deterioration can be solved.

【0044】請求項3の発明では、金属ケースの側壁内
面,又は永久磁石の側面に両者の接触を回避する傾斜面
を形成したので、請求項4の発明では、金属ケースの側
壁内面,又は永久磁石の側面に非磁性体材料,あるいは
反磁性体材料からなる非接触膜を被覆形成したので、磁
気的短絡を防止して磁場分布を均一化できるとともに、
印加磁力を向上できる効果がある。
According to the third aspect of the present invention, since the inclined surface is formed on the inner surface of the side wall of the metal case or the side surface of the permanent magnet so as to avoid contact between the both, the inner surface of the side wall of the metal case or the permanent surface is formed. Since the non-contact film made of non-magnetic material or diamagnetic material is coated on the side surface of the magnet, magnetic short circuit can be prevented and the magnetic field distribution can be made uniform.
There is an effect that the applied magnetic force can be improved.

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

【図1】請求項1,3の発明の一実施形態によるサーキ
ュレータを説明するための断面図である。
FIG. 1 is a sectional view for explaining a circulator according to an embodiment of the invention of claims 1 and 3.

【図2】上記サーキュレータの分解斜視図である。FIG. 2 is an exploded perspective view of the circulator.

【図3】上記サーキュレータの効果を示す特性図であ
る。
FIG. 3 is a characteristic diagram showing an effect of the circulator.

【図4】上記実施形態の他の例によるサーキュレータを
示す概略構成図である。
FIG. 4 is a schematic configuration diagram showing a circulator according to another example of the embodiment.

【図5】上記実施形態の他の例によるサーキュレータを
示す概略構成図である。
FIG. 5 is a schematic configuration diagram showing a circulator according to another example of the embodiment.

【図6】上記実施形態の他の例によるサーキュレータを
示す概略構成図である。
FIG. 6 is a schematic configuration diagram showing a circulator according to another example of the embodiment.

【図7】請求項2の発明の一実施形態を説明するための
概略構成図である。
FIG. 7 is a schematic configuration diagram for explaining an embodiment of the invention of claim 2;

【図8】請求項4の発明の一実施形態を説明するための
概略構成図である。
FIG. 8 is a schematic configuration diagram for explaining an embodiment of the invention of claim 4;

【図9】上記実施例の効果を示す特性図である。FIG. 9 is a characteristic diagram showing the effect of the above-described embodiment.

【図10】従来の永久磁石の位置決め構造を示す分解斜
視図である。
FIG. 10 is an exploded perspective view showing a conventional permanent magnet positioning structure.

【図11】従来の位置決め構造を示す斜視図である。FIG. 11 is a perspective view showing a conventional positioning structure.

【図12】従来の一般的なサーキュレータを示す分解斜
視図である。
FIG. 12 is an exploded perspective view showing a conventional general circulator.

【符号の説明】[Explanation of symbols]

1 サーキュレータ(非可逆回路素子) 5 永久磁石 5a 傾斜側周面 5b 上縁(角縁) 5e 凹部 6 上部ケース(金属ケース) 6c 角縁 6e 凸部 9 中心導体 20 非接触膜 DESCRIPTION OF SYMBOLS 1 Circulator (non-reciprocal circuit element) 5 Permanent magnet 5a Inclined side peripheral surface 5b Upper edge (corner edge) 5e Recess 6 Upper case (metal case) 6c Corner edge 6e Projection 9 Center conductor 20 Non-contact film

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】 金属ケース内に、複数の導体を電気的絶
縁状態でかつ交差させて配置するとともに、該導体の交
差部分に直流磁界を印加する永久磁石を配置してなる非
可逆回路素子において、上記永久磁石を上記金属ケース
の天壁内面に当接させるとともに、該永久磁石の天壁側
角縁を上記金属ケースの天壁と側壁とで形成される角縁
に係合させて該永久磁石の軸直角方向の位置決めを行う
ようにしたことを特徴とする非可逆回路素子。
1. A nonreciprocal circuit device comprising a plurality of conductors arranged in an electrically insulated state and intersecting each other in a metal case, and a permanent magnet for applying a DC magnetic field disposed at the intersections of the conductors. , The permanent magnet is brought into contact with the inner surface of the top wall of the metal case, and the corner edge of the permanent magnet on the top wall side is engaged with the corner edge formed by the top wall and the side wall of the metal case. A non-reciprocal circuit device characterized in that the magnet is positioned in a direction perpendicular to the axis.
【請求項2】 金属ケース内に、複数の導体を電気的非
接触状態でかつ交差させて配置するとともに、該導体の
交差部分に直流磁界を印加する永久磁石を配置してなる
非可逆回路素子において、上記金属ケースの天壁内面に
位置決め用凸部を一体形成し、上記永久磁石に該凸部に
係合する凹部を形成したことを特徴とする非可逆回路素
子。
2. A nonreciprocal circuit device having a plurality of conductors arranged in a non-contact state and intersecting each other in a metal case, and a permanent magnet for applying a DC magnetic field at the intersection of the conductors. 2. A nonreciprocal circuit device according to claim 1, wherein a positioning protrusion is integrally formed on the inner surface of the top wall of the metal case, and a recess that engages with the protrusion is formed in the permanent magnet.
【請求項3】 請求項1又は2において、上記金属ケー
スの側壁内面,及び永久磁石の側周面の何れか一方,又
は両方に両者の接触を回避する傾斜面を形成したことを
特徴とする非可逆回路素子。
3. The inclined surface according to claim 1 or 2, wherein an inclined surface is formed on either or both of the inner surface of the side wall of the metal case and the side peripheral surface of the permanent magnet to avoid contact between the both. Non-reciprocal circuit element.
【請求項4】 請求項1又は2において、上記金属ケー
スの側壁内面,及び永久磁石の側周面の何れか一方,又
は両方に非磁性体材料,あるいは反磁性体材料からなる
非接触膜を被覆形成したことを特徴とする非可逆回路素
子。
4. The non-contact film made of a non-magnetic material or a diamagnetic material on either or both of the inner surface of the side wall of the metal case and the side circumferential surface of the permanent magnet according to claim 1. A non-reciprocal circuit device characterized by being formed by coating.
JP18940795A 1995-07-25 1995-07-25 Non-reciprocal circuit device Expired - Fee Related JP3570023B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP18940795A JP3570023B2 (en) 1995-07-25 1995-07-25 Non-reciprocal circuit device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP18940795A JP3570023B2 (en) 1995-07-25 1995-07-25 Non-reciprocal circuit device

Publications (2)

Publication Number Publication Date
JPH0946104A true JPH0946104A (en) 1997-02-14
JP3570023B2 JP3570023B2 (en) 2004-09-29

Family

ID=16240764

Family Applications (1)

Application Number Title Priority Date Filing Date
JP18940795A Expired - Fee Related JP3570023B2 (en) 1995-07-25 1995-07-25 Non-reciprocal circuit device

Country Status (1)

Country Link
JP (1) JP3570023B2 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003078314A (en) * 2001-09-04 2003-03-14 Mitsumi Electric Co Ltd Receiving antenna for gps
US6556098B2 (en) 2000-03-03 2003-04-29 Murata Manufacturing Co., Ltd. Nonreciprocal circuit device with tapered side wall guide portions in the resin case
JP2006033866A (en) * 2004-07-20 2006-02-02 Ma Com Inc Ferrite circulator having positioning member

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6556098B2 (en) 2000-03-03 2003-04-29 Murata Manufacturing Co., Ltd. Nonreciprocal circuit device with tapered side wall guide portions in the resin case
JP2003078314A (en) * 2001-09-04 2003-03-14 Mitsumi Electric Co Ltd Receiving antenna for gps
JP4655438B2 (en) * 2001-09-04 2011-03-23 ミツミ電機株式会社 Antenna device
JP2006033866A (en) * 2004-07-20 2006-02-02 Ma Com Inc Ferrite circulator having positioning member

Also Published As

Publication number Publication date
JP3570023B2 (en) 2004-09-29

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