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JPH073195U - Exterior structure of hybrid integrated circuit parts - Google Patents

Exterior structure of hybrid integrated circuit parts

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Publication number
JPH073195U
JPH073195U JP3634993U JP3634993U JPH073195U JP H073195 U JPH073195 U JP H073195U JP 3634993 U JP3634993 U JP 3634993U JP 3634993 U JP3634993 U JP 3634993U JP H073195 U JPH073195 U JP H073195U
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JP
Japan
Prior art keywords
layer
resin
magnetic material
exterior structure
integrated circuit
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
JP3634993U
Other languages
Japanese (ja)
Inventor
聡幸 佐藤
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.)
Taiyo Yuden Co Ltd
Original Assignee
Taiyo Yuden Co Ltd
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Filing date
Publication date
Application filed by Taiyo Yuden Co Ltd filed Critical Taiyo Yuden Co Ltd
Priority to JP3634993U priority Critical patent/JPH073195U/en
Publication of JPH073195U publication Critical patent/JPH073195U/en
Pending legal-status Critical Current

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  • Structures Or Materials For Encapsulating Or Coating Semiconductor Devices Or Solid State Devices (AREA)
  • Shielding Devices Or Components To Electric Or Magnetic Fields (AREA)
  • Lead Frames For Integrated Circuits (AREA)

Abstract

(57)【要約】 【目的】 塗工に差し支えない密度で磁性体材料粒子を
樹脂塗料中に分散させながら、しかも外装の塗工樹脂膜
厚が増大して回路部品の大形化を招くことなく、内部回
路の保護とともに外部の磁界および電界に対して満足な
シールド効果が得られる混成集積回路部品の外装構造の
提供。 【構成】 回路基板1上の少なくとも一部を、電磁波を
減衰させる材料で覆った混成集積回路部品の外装構造で
あって、リード2を有する回路基板上の回路部品3を熱
的、機械的に緩衝する役目を果たすために通常施される
アンダーコート層4を介して、磁性体材料粒子が分散さ
れた樹脂からなる第1層5と、この第1層表面に定着さ
れた磁性体材料からなる第2層7と、該第2層の磁性体
材料粒子を封止する樹脂からなる第3層8とをこの順序
で形成してなることを特徴とする。
(57) [Summary] [Purpose] To disperse magnetic material particles in resin coating at a density that does not interfere with coating, and to increase the coating resin film thickness on the exterior, which leads to enlargement of circuit components. In addition, the external structure of the hybrid integrated circuit component is provided, which can protect the internal circuit and can achieve a satisfactory shield effect against the external magnetic field and electric field. An exterior structure of a hybrid integrated circuit component in which at least a part of the circuit substrate 1 is covered with a material that attenuates electromagnetic waves, and the circuit component 3 on the circuit substrate having a lead 2 is thermally and mechanically A first layer 5 made of a resin in which magnetic material particles are dispersed, and a magnetic material fixed on the surface of the first layer through an undercoat layer 4 which is usually provided to fulfill the role of buffering. The second layer 7 and the third layer 8 made of a resin for sealing the magnetic material particles of the second layer are formed in this order.

Description

【考案の詳細な説明】[Detailed description of the device]

【0001】[0001]

【産業上の利用分野】[Industrial applications]

本考案は、混成集積回路部品の外装構造に関する。 The present invention relates to an exterior structure for a hybrid integrated circuit component.

【0002】[0002]

【従来の技術】[Prior art]

近年、電磁波ノイズによる影響を防止できる回路装置が多く提案されているが 、混成集積回路においても、樹脂による外装にシールド効果を付与したものが提 案されている。 In recent years, many circuit devices that can prevent the influence of electromagnetic noise have been proposed. However, even in a hybrid integrated circuit, one in which a shielding effect is applied to a resin exterior is proposed.

【0003】 その代表的なものは、フェライト粉末が分散された樹脂塗料を、混成集積回路 部品の回路基板の周りに塗工し、しかる後硬化させたものであり、主に磁界に対 するシールドを行うものである。A typical example thereof is a resin coating in which ferrite powder is dispersed, which is applied around a circuit board of a hybrid integrated circuit component and then cured, and mainly shields against a magnetic field. Is to do.

【0004】 すなわち、図3の模式断面図に示すように、リード2を有する回路基板1上に 各種回路部品3を搭載して構成された混成集積回路部品において、通常、熱的、 機械的な緩衝の目的で施されるアンダーコート層4を介して、ベース塗料中に透 磁性をもつ磁性体材料粉末を分散させた樹脂からなる層5を形成して、回路を電 気的、物理的に保護するとともに、磁気的な外乱に対して内部回路を保護し、さ らにその上を封止する目的で樹脂塗料からなる封止層6が形成されるのが一般的 である。That is, as shown in the schematic cross-sectional view of FIG. 3, in a hybrid integrated circuit component configured by mounting various circuit components 3 on a circuit board 1 having leads 2, usually, thermal and mechanical A layer 5 made of a resin in which a magnetic material powder having magnetic permeability is dispersed in a base paint is formed through an undercoat layer 4 provided for the purpose of buffering, and the circuit is electrically and physically In general, a sealing layer 6 made of a resin coating is formed for the purpose of protecting the internal circuit against magnetic disturbance and further sealing the internal circuit.

【0005】 さらには、透磁性を有するフェライト粉末および導電性金属粉末を分散させた 樹脂塗料を交互に塗工、硬化させて磁界および電界の両方に対するシールドを行 うものも知られている。Further, it is also known that a resin coating in which a ferrite powder having magnetic permeability and a conductive metal powder are dispersed is alternately applied and cured to shield both a magnetic field and an electric field.

【0006】[0006]

【考案が解決しようとする課題】[Problems to be solved by the device]

しかしながら、上記の構造では、 (1)満足すべきシールド効果を得るためには樹脂塗料中に、塗工に支障が生じ るほどの密度でフェライト粉末を分散させなくてはならないこともあり、さらに 塗工が行えたとしても、硬化の過程で外装の表面にクラックが生じることがある 。 (2)上記(1)の問題を解決するために通常密度でフェライト粉末を分散した 樹脂塗料を用いると、多量の樹脂塗料を塗工しなくてはならず、必然的に外装の 膜厚が増大し、混成集積回路部品の大形化を招いてしまう、という課題が生じて いた。 However, in the above structure, (1) in order to obtain a satisfactory shielding effect, it may be necessary to disperse the ferrite powder in the resin coating material at such a density that the coating is hindered. Even if coating can be performed, cracks may occur on the surface of the exterior during the curing process. (2) If a resin paint in which ferrite powder is dispersed at a normal density is used to solve the above-mentioned problem (1), a large amount of resin paint must be applied, and the film thickness of the exterior is inevitably increased. However, there was a problem that the number of hybrid integrated circuit components increased and the size of hybrid integrated circuit components was increased.

【0007】 したがって本考案の目的は、樹脂中に塗工に差し支えない密度で磁性体材料粒 子を分散させながら、しかも外装の樹脂膜厚が増大することなく、内部回路の電 気的、物理的保護とともに外部の磁界および電界に対して満足なシールド効果が 得られる混成集積回路部品の外装構造を提供することにある。Therefore, the object of the present invention is to disperse the particles of the magnetic material in the resin at a density that does not interfere with the coating, and yet to increase the electrical and physical properties of the internal circuit without increasing the resin film thickness of the exterior. (EN) Provided is an exterior structure of a hybrid integrated circuit component, which can obtain a satisfactory shield effect against an external magnetic field and an electric field as well as a mechanical protection.

【0008】[0008]

【課題を解決するための手段】[Means for Solving the Problems]

本考案者は前記目的を達成すべく研究を進め、従来の外装構造では、図5のグ ラフに見られるように、アンダーコート層4上に塗工される磁性体材料粒子例え ばフェライト粒子を分散した樹脂層(第1層)5中のフェライト含有率Cは施さ れる樹脂塗料に依存するが、塗膜厚さ方向に一定であり、粘度や塗装作業上の必 要性からその含有率に限度があるため、前述のような課題が生じていたことに鑑 み、検討を加えた結果、図4のグラフに示すように、一般に施される場合が多い アンダーコート層4上にフェライト分散樹脂層(第1層)5を塗工形成した後、 半乾きの状態で樹脂表面にフェライト粉末を付着、樹脂の硬化とともに定着させ て第2層7とし、さらにその上に該フェライト粉末を封止するための樹脂、好ま しくは第1層と同様にフェライト分散樹脂を第3層8として塗布、硬化するよう にすれば、たとえ、塗膜の膜厚が従来の外装と同じだとしても、上記第2層7に は、高密度にフェライト粉末が含有されているため、外装される塗膜中のフェラ イト含有率の最高値を飛躍的に高めることができ、従って顕著なシールド効果が 得られるので、従来の外装構造における課題が解決できることを見いだし本考案 に到達した。 The present inventor has conducted research to achieve the above-mentioned object, and in the conventional exterior structure, as shown in the graph of FIG. 5, magnetic material particles such as ferrite particles coated on the undercoat layer 4 are used. The ferrite content C in the dispersed resin layer (first layer) 5 depends on the resin coating material to be applied, but it is constant in the thickness direction of the coating film, and it depends on the viscosity and the necessity of coating work. Since there is a limit, it was found that the above-mentioned problems had occurred, and as a result of further study, as shown in the graph of Fig. 4, the ferrite-dispersed resin on the undercoat layer 4 is often applied in general. After coating and forming the layer (first layer) 5, the ferrite powder is adhered to the resin surface in a semi-dried state, and is fixed as the resin hardens to form the second layer 7, and the ferrite powder is further sealed on it. A resin, preferably the first layer In this way, if the ferrite-dispersed resin is applied and cured as the third layer 8, the second layer 7 has a high density of ferrite powder even if the film thickness of the coating film is the same as that of the conventional case. It is possible to dramatically increase the maximum value of the ferrite content in the coating film to be coated, and thus to obtain a remarkable shielding effect, so that it is possible to solve the problems in the conventional coating structure. Found and reached the present invention.

【0009】 すなわち本考案は、第1に、回路基板上の少なくとも一部を、電磁波を減衰さ せる材料で覆った混成集積回路部品の外装構造であって、磁性体材料粒子が分散 された樹脂からなる第1層と、前記第1層表面に定着された磁性体材料からなる 第2層と、前記第2層の磁性体材料粒子を覆う樹脂からなる第3層とをこの順序 で回路基板に形成してなることを特徴とする混成集積回路部品の外装構造を:第 2に、前記磁性体材料粒子は絶縁表面を有するフェライト材料を主成分とするも のである上記外装構造を:第3に、前記磁性体材料粒子はマンガン−亜鉛系フェ ライト材料を主成分とするものである上記第2の外装構造を:第4に、前記第3 層は前記磁性体材料粒子が分散された樹脂からなる上記いずれかの外装構造を: 第5に、前記外装構造が回路基板上の所定の回路要素のみを被覆した構造である 上記第4の外装構造を:第6に、前記第3層は導電性フィラーを分散した樹脂か らなる第1〜第3のいずれかの外装構造を提供するものである。That is, the present invention is, firstly, an exterior structure of a hybrid integrated circuit component in which at least a part of a circuit board is covered with a material that attenuates electromagnetic waves, and a resin in which magnetic material particles are dispersed. A circuit board in the order of a first layer composed of, a second layer composed of a magnetic material fixed on the surface of the first layer, and a third layer composed of a resin covering the magnetic material particles of the second layer in this order. The exterior structure of the hybrid integrated circuit component is characterized by being formed as follows: Second, the exterior structure in which the magnetic material particles are mainly composed of a ferrite material having an insulating surface: the third The magnetic material particles are mainly composed of a manganese-zinc-based ferrite material. The second exterior structure is as follows: Fourth, the third layer is a resin in which the magnetic material particles are dispersed. Any of the above exterior structures consisting of: 5, the exterior structure is a structure in which only predetermined circuit elements on a circuit board are covered, and the fourth exterior structure is: sixth, the third layer is made of a resin in which a conductive filler is dispersed. The exterior structure according to any one of 1 to 3 is provided.

【0010】[0010]

【作用】[Action]

本考案の混成集積回路部品の外装構造では、磁性体材料粒子が分散された樹脂 からなる第1層が形成され、さらにその表面に磁性体材料が第2層として定着さ れている。 In the exterior structure of the hybrid integrated circuit component of the present invention, the first layer made of resin in which the particles of the magnetic material are dispersed is formed, and the magnetic material is fixed as the second layer on the surface thereof.

【0011】 この第1層表面に定着された磁性体材料(第2層)により、第1層の樹脂中に 塗工に差し支えない密度で磁性体材料粒子を分散させたとしても、外部の磁界に 対して十分なシールド効果を得ることができる。Even if the magnetic material material (second layer) fixed on the surface of the first layer disperses the magnetic material particles in the resin of the first layer at a density that does not interfere with the coating, the external magnetic field It is possible to obtain a sufficient shield effect against.

【0012】 磁性体材料粒子として、絶縁性表面を持つフェライト材料を用いることにより 、基板上の導体パターンに対して十分な絶縁性を確保することができる。By using a ferrite material having an insulating surface as the magnetic material particles, it is possible to secure sufficient insulating properties with respect to the conductor pattern on the substrate.

【0013】 前記磁性体材料粒子として、導電性が絶縁体に近いマンガン−亜鉛(Mn−Z n)系フェライト材料を用いることにより、磁性体材料粒子に特別な絶縁処理を せずにそのまま樹脂中に分散できる。By using a manganese-zinc (Mn-Zn) -based ferrite material whose conductivity is close to that of an insulator as the magnetic material particles, the magnetic material particles can be used as they are in resin without any special insulation treatment. Can be dispersed.

【0014】 第1層表面に定着された磁性体材料からなる第2層の上に、さらに磁性体材料 粒子が分散された樹脂による第3層を形成することにより、磁性体材料の保持が 行われるとともに、シールド効果の強化が可能となる。The magnetic material is retained by forming a third layer of a resin in which particles of the magnetic material are dispersed on the second layer of the magnetic material fixed on the surface of the first layer. In addition, the shield effect can be strengthened.

【0015】 回路基板上の所定の回路要素のみを被覆したことにより、シールドを必要とし ない部分に外装を形成せずともよく、混成集積回路部品の小形化につながり、さ らに同じ回路基板の電磁波ノイズを発するような部分から前記所定の回路要素を シールドすることができる。By covering only predetermined circuit elements on the circuit board, it is not necessary to form an outer cover on a portion that does not require a shield, which leads to downsizing of the hybrid integrated circuit component, and further, the same circuit board The predetermined circuit element can be shielded from a portion that emits electromagnetic noise.

【0016】 第1層表面に定着された磁性体材料からなる第2層の上に、さらに導電性フィ ラーが分散された樹脂による第3層を形成することにより、磁性体材料の保持が 行われるとともに、さらに電界に対するシールド効果が得られる。The magnetic material is retained by forming a third layer of resin in which a conductive filler is dispersed on the second layer of magnetic material fixed on the surface of the first layer. In addition, the effect of shielding the electric field is obtained.

【0017】[0017]

【実施例1】 図1は本実施例において作成された混成集積回路部品の外装構造を示す模式断 面図、図6は本考案により得られた外装構造におけるしゃへい効果を示すグラフ であって、これらの図を参照して以下説明する。 (1)外形寸法7.0×25.0×1.2mmの96%アルミナ製セラミック回路 基板1上に所定の電極を形成した後、各種部品3を搭載し、さらに基板縁部に設 けられた一連のリード2を接続してシリアルインライン(SIL)型混成集積回 路部品を形成した。 (2)次に基板の周りにディップ法により絶縁性樹脂を塗工、硬化してアンダー コート層4を形成した。 (3)続いて、Mn−Zn系フェライト材料の粉末を(以下、“フェライト粉末 ”と称す)をそれぞれ50、65、70および75重量%分散したエポキシ系樹 脂(以下フェライト分散樹脂と称する)を用意し、これらフェライト分散樹脂を アンダーコート層4の上にディップ法により塗工して第1層5とした後、半乾き の状態で、樹脂表面に前記フェライト粉末を緻密に付着させ樹脂の硬化と共に定 着させて第2層7とした。Embodiment 1 FIG. 1 is a schematic cross-sectional view showing the exterior structure of a hybrid integrated circuit component produced in this embodiment, and FIG. 6 is a graph showing the shielding effect in the exterior structure obtained by the present invention. A description will be given below with reference to these drawings. (1) 96% alumina ceramic circuit with external dimensions of 7.0 x 25.0 x 1.2 mm After forming the predetermined electrodes on the substrate 1, mount various parts 3 and install them on the edge of the substrate. A series of leads 2 were connected to form a serial inline (SIL) type hybrid integrated circuit component. (2) Next, an insulating resin was applied around the substrate by a dipping method and cured to form an undercoat layer 4. (3) Subsequently, an epoxy resin (hereinafter referred to as a ferrite dispersion resin) in which 50, 65, 70 and 75 wt% of Mn-Zn based ferrite material powder (hereinafter referred to as "ferrite powder") is dispersed respectively. Of the ferrite dispersion resin is applied to the undercoat layer 4 by the dip method to form the first layer 5, and then in a semi-dried state, the ferrite powder is densely adhered to the resin surface to A second layer 7 was formed by being fixed together with curing.

【0018】 なお、ここでフェライト粉末としてMn−Zn系フェライトを粉末化したもの を用いたが、これはMn−Zn系フェライトが導電性から見て絶縁体に近く回路 部品との間の絶縁性を損なうおそれがないからであって、他の材料、例えばNi −Znフェライト、ストロンチウムフェライト、γ−Fe2 3 などの粉末の表 面に絶縁処理を施したものであっても良い。Here, as the ferrite powder, a powder of Mn—Zn based ferrite was used. This is because the Mn—Zn based ferrite is close to an insulator from the viewpoint of conductivity, and has an insulating property between circuit components. This is because there is no possibility of damaging the powder, and other materials such as Ni—Zn ferrite, strontium ferrite, and γ-Fe 2 O 3 may have their surface treated with an insulation treatment.

【0019】 また、第1層5および第2層7の形成で用いたフェライト粉末は、同じMn− Zn系フェライト粉末を用いているが、これは第1層および第2層の熱膨脹率の 差を減少させ、第1層と第2層との剥離を防止する効果がある。無論、別の種類 の磁性体の材料を用いても良いが、以上のように両者の熱膨脹率の差ができるだ け小さいものを用いるのが望ましい。 (4)さらに、その上に第3層8として前記と同様のフェライト分散樹脂をディ ップ法により塗布、硬化し、混成集積回路部品の外装構造を完成させた。Further, the same Mn—Zn-based ferrite powder was used as the ferrite powder used for forming the first layer 5 and the second layer 7, but this was due to the difference in thermal expansion coefficient between the first layer and the second layer. And the effect of preventing peeling between the first layer and the second layer. Of course, another type of magnetic material may be used, but it is desirable to use a material that has a small difference in thermal expansion coefficient between the two as described above. (4) Further, the same ferrite-dispersed resin as the above was applied as the third layer 8 thereon by the dip method and cured to complete the exterior structure of the hybrid integrated circuit component.

【0020】 上記第3層8で用いられるフェライト分散樹脂は、前記(3)において用いら れているものとは別のフェライト粉末あるいは樹脂からなるものでもよい。The ferrite-dispersed resin used in the third layer 8 may be made of a ferrite powder or resin different from the one used in (3) above.

【0021】 なお、前記いずれのフェライト粉末含有率の外装でも、硬化においてクラック は認められなかった。 図7はフェライト粉末をそれぞれ50、65、70および75重量%分散した樹 脂塗料を塗布、硬化しただけの混成集積回路部品のしゃへい効果を示すグラフ、 図8は図7に示したフェライト分散樹脂塗料を2度重ねて塗布し、硬化しただけ の混成集積回路部品のしゃへい効果を示すグラフであって、前記図6および図8 からわかる通り、本考案による外装では約2倍のシールド特性(しゃへい効果) を挙げているので、外装の厚みを増大させずに十分なシールド特性を得ることが できる。It should be noted that no crack was observed during curing in any of the above-mentioned outer casings having a ferrite powder content. FIG. 7 is a graph showing the shielding effect of a hybrid integrated circuit component which is obtained by coating and curing a resin paint in which ferrite powders are dispersed in 50, 65, 70 and 75% by weight, respectively, and FIG. 8 is a ferrite dispersion resin shown in FIG. FIG. 9 is a graph showing the shielding effect of a hybrid integrated circuit component which is obtained by coating the coating material twice and then curing it. As can be seen from FIGS. 6 and 8, the exterior of the present invention has approximately twice the shielding characteristics (shield Effect), it is possible to obtain sufficient shielding characteristics without increasing the thickness of the exterior.

【0022】 なお、上記に示したしゃへい効果は、計測機器が接続されたホール素子を回路 基板に搭載した後、本実施例あるいは比較例の外装を前期回路基板に形成して製 作された混成集積回路部品を用意し、該回路部品に向かって電磁波源から放射さ れホール素子に達した電磁波がどの位減衰しているかを計測して得られたもので ある。It should be noted that the above-mentioned shielding effect is a hybrid effect produced by mounting the Hall element to which the measuring equipment is connected on the circuit board and then forming the exterior of the present embodiment or the comparative example on the circuit board in the previous period. It is obtained by preparing an integrated circuit component and measuring how much the electromagnetic wave emitted from the electromagnetic wave source toward the circuit component and reaching the Hall element is attenuated.

【0023】 また、本考案による外装のシールド効果はフェライト粉末の含有率が低くなっ ても、従来と比べてシールド効果の低下が緩慢になるので、外装用の樹脂中に他 のフィラーを加えてもシールド特性の低下を低く抑えることができる。In addition, the shielding effect of the exterior according to the present invention is slower than the conventional one even if the content of the ferrite powder is low. Therefore, it is necessary to add another filler to the exterior resin. Also, it is possible to suppress the deterioration of the shield characteristics to a low level.

【0024】 なお、本実施例の外装構造では、第1層5の下層にアンダーコート層4が形成 されるため、アンダーコート層4の厚みによっては、表面が絶縁性であるフェラ イト粉末の含まれたフェライト分散樹脂を用いなくても、基板上の導体パターン への絶縁性に問題はないこともあるが、樹脂膜厚を肥大させないために、アンダ ーコート層4を形成しないか、あるいはアンダーコート層4の厚みを薄くする場 合は、上記のように表面が絶縁性であるフェライト粉末を分散したフェライト分 散樹脂を用いるのが望ましい。Since the undercoat layer 4 is formed as the lower layer of the first layer 5 in the exterior structure of the present embodiment, depending on the thickness of the undercoat layer 4, the inclusion of the ferrite powder having an insulating surface may be included. Even if the ferrite-dispersed resin is not used, there may be no problem with the insulating property to the conductor pattern on the substrate, but the undercoat layer 4 is not formed or the undercoat layer is not formed in order to prevent the resin film thickness from increasing. When the thickness of the layer 4 is reduced, it is desirable to use the ferrite dispersion resin in which the ferrite powder having the insulating surface as described above is dispersed.

【0025】[0025]

【実施例2】 図2は本実施例における外装構造を示す模式断面図である。実施例1では混成 集積回路部品の基板の周りに外装を形成したが図2に示すように基板の一部のみ に外装を形成しても良く、この場合、同じ基板の電磁波ノイズを発するような部 分から外装の形成個所をシールドすることができる。Second Embodiment FIG. 2 is a schematic cross-sectional view showing an exterior structure in this embodiment. In the first embodiment, the outer package is formed around the substrate of the hybrid integrated circuit component, but the outer package may be formed only on a part of the substrate as shown in FIG. 2, in which case electromagnetic noise of the same substrate is generated. It is possible to shield the part where the exterior is formed from the part.

【0026】[0026]

【実施例3】 前記実施例1の要領に従いアンダーコート層上のフェライト分散樹脂の表面に フェライト粉末を定着させた後、その上に粉末状の銅を分散したエポキシ系樹脂 を塗布、硬化して混成集積回路部品の外装構造を完成させた。Example 3 After the ferrite powder was fixed on the surface of the ferrite-dispersed resin on the undercoat layer according to the procedure of Example 1, an epoxy resin in which powdery copper was dispersed was applied and cured on the ferrite powder. The exterior structure of the hybrid integrated circuit component was completed.

【0027】 これにより、磁界に加え、電界に対するシールド効果も得られるようになった 。As a result, in addition to the magnetic field, the shield effect against the electric field can be obtained.

【0028】 以上、本考案の実施例を説明したが、本考案は、上記実施例に限定されるもの ではなく、本考案の請求の範囲の記載を逸脱しなければ、種々の設計的変更・置 換あるいは形成プロセスを行うことが可能である。Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various design changes and modifications can be made without departing from the scope of the claims of the present invention. It is possible to carry out a replacement or formation process.

【0029】 例えば、磁性体材料からなる第2層を、第1層が完全に硬化した後、静電吹き 付け法による粉末塗装でフェライト粉末を前記第1層の上に定着させて形成した り、また、同じく第2層をフェライト材料のターゲットを用いたスパッタリング 法で形成したりすることも可能である。For example, a second layer made of a magnetic material may be formed by fixing ferrite powder on the first layer by powder coating by electrostatic spraying after the first layer is completely cured. It is also possible to form the second layer by a sputtering method using a target made of a ferrite material.

【0030】[0030]

【考案の効果】[Effect of device]

以上説明したように、本考案に係る外装構造では、アンダーコート層を介して 、磁性体材料粒子が分散された樹脂からなる第1層が形成され、さらにその表面 に磁性体材料が定着されているので、第1層の樹脂中に塗工に差し支えない密度 で磁性体材料を分散させたとしても、十分なシールド効果が得られる。 As described above, in the exterior structure according to the present invention, the first layer made of the resin in which the magnetic material particles are dispersed is formed through the undercoat layer, and the magnetic material is fixed on the surface of the first layer. Therefore, even if the magnetic material is dispersed in the resin of the first layer at a density that does not interfere with the coating, a sufficient shielding effect can be obtained.

【0031】 さらにまた、第1層表面に定着された磁性体材料(第2層)の上に磁性体材料 粒子が分散された樹脂からなる第3層を形成することにより磁性体材料の保持と ともにシールド効果の強化を、導電性フィラーが分散された樹脂からなる第3層 を形成することにより磁性体材料の保持とともに電界に対するシールド効果も得 ることができる。Furthermore, by holding a third layer made of a resin in which magnetic material particles are dispersed on the magnetic material (second layer) fixed on the surface of the first layer, the magnetic material is retained. In both cases, the shield effect can be enhanced, and by forming the third layer made of the resin in which the conductive filler is dispersed, the magnetic material can be retained and the shield effect against the electric field can be obtained.

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

【図1】本考案の1実施例において作成された混成集積
回路部品の外装構造を示す模式断面図である。
FIG. 1 is a schematic cross-sectional view showing an exterior structure of a hybrid integrated circuit component created in one embodiment of the present invention.

【図2】本考案の別の実施態様における外装構造を示す
模式断面図である。
FIG. 2 is a schematic cross-sectional view showing an exterior structure according to another embodiment of the present invention.

【図3】従来の混成集積回路部品の外装構造を示す模式
断面図である。
FIG. 3 is a schematic sectional view showing an exterior structure of a conventional hybrid integrated circuit component.

【図4】本考案に基づく外装構造の特徴を塗膜厚さ方向
におけるフェライト含有率で示したグラフである。
FIG. 4 is a graph showing the characteristics of the exterior structure based on the present invention by the ferrite content in the thickness direction of the coating film.

【図5】従来の外装構造における塗膜厚さ方向のフェラ
イト含有率を示したグラフである。
FIG. 5 is a graph showing a ferrite content in a coating film thickness direction in a conventional exterior structure.

【図6】本考案により得られた外装構造によるしゃへい
効果を示すグラフである。
FIG. 6 is a graph showing the shielding effect of the exterior structure obtained according to the present invention.

【図7】フェライト粉末をそれぞれ50、65、70お
よび75重量%分散した樹脂塗料を塗布、硬化しただけ
の混成集積回路部品のしゃへい効果を示すグラフであ
る。
FIG. 7 is a graph showing the shielding effect of a hybrid integrated circuit component which is obtained by coating and curing a resin coating material in which ferrite powders are dispersed in 50, 65, 70 and 75% by weight, respectively.

【図8】図7に示したフェライト分散樹脂塗料を2度重
ねて塗布し、硬化しただけの混成集積回路部品のしゃへ
い効果を示すグラフである。
FIG. 8 is a graph showing the shielding effect of a hybrid integrated circuit component which is obtained by coating the ferrite-dispersed resin coating material shown in FIG. 7 twice and curing it.

【符号の説明】[Explanation of symbols]

1 回路基板 2 リード 3 回路部品 4 アンダーコート層 5 第1層 6 封止層 7 第2層 8 第3層 C フェライト分散樹脂中のフェライト含有率 Cm フェライト含有率の最高値 1 circuit board 2 lead 3 circuit component 4 undercoat layer 5 first layer 6 encapsulating layer 7 second layer 8 third layer C ferrite content in ferrite dispersion resin Cm maximum ferrite content

───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 H05K 9/00 H ─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. 6 Identification code Internal reference number FI Technical indication H05K 9/00 H

Claims (6)

【実用新案登録請求の範囲】[Scope of utility model registration request] 【請求項1】 回路基板上の少なくとも一部を、電磁波
を減衰させる材料で覆った混成集積回路部品の外装構造
であって、磁性体材料粒子が分散された樹脂からなる第
1層と、前記第1層表面に定着された磁性体材料からな
る第2層と、前記第2層の磁性体材料粒子を覆う樹脂か
らなる第3層とをこの順序で回路基板に形成してなるこ
とを特徴とする混成集積回路部品の外装構造。
1. An exterior structure of a hybrid integrated circuit component in which at least a part of a circuit board is covered with a material for attenuating electromagnetic waves, the first layer comprising a resin in which magnetic material particles are dispersed, A second layer made of a magnetic material fixed on the surface of the first layer, and a third layer made of a resin covering the magnetic material particles of the second layer are formed in this order on the circuit board. Exterior structure for hybrid integrated circuit parts.
【請求項2】 前記磁性体材料粒子は絶縁性表面を有す
るフェライト材料を主成分とするものである請求項1記
載の外装構造。
2. The exterior structure according to claim 1, wherein the magnetic material particles are mainly composed of a ferrite material having an insulating surface.
【請求項3】 前記磁性体材料粒子がマンガン−亜鉛系
フェライト材料を主成分とするものである請求項2記載
の外装構造。
3. The exterior structure according to claim 2, wherein the magnetic material particles have a manganese-zinc based ferrite material as a main component.
【請求項4】 前記第3層は前記磁性体材料粒子を分散
した樹脂からなる請求項1ないし3のいずれかに記載の
外装構造。
4. The exterior structure according to claim 1, wherein the third layer is made of a resin in which the magnetic material particles are dispersed.
【請求項5】 前記外装構造が回路基板上の所定の回路
要素のみを被覆した構造である請求項1〜4のいずれか
に記載の外装構造。
5. The exterior structure according to claim 1, wherein the exterior structure is a structure in which only predetermined circuit elements on a circuit board are covered.
【請求項6】 前記第3層は導電性フィラーを分散した
樹脂からなる請求項1ないし3のいずれかに記載の外装
構造。
6. The exterior structure according to claim 1, wherein the third layer is made of a resin in which a conductive filler is dispersed.
JP3634993U 1993-06-08 1993-06-08 Exterior structure of hybrid integrated circuit parts Pending JPH073195U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3634993U JPH073195U (en) 1993-06-08 1993-06-08 Exterior structure of hybrid integrated circuit parts

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3634993U JPH073195U (en) 1993-06-08 1993-06-08 Exterior structure of hybrid integrated circuit parts

Publications (1)

Publication Number Publication Date
JPH073195U true JPH073195U (en) 1995-01-17

Family

ID=12467369

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3634993U Pending JPH073195U (en) 1993-06-08 1993-06-08 Exterior structure of hybrid integrated circuit parts

Country Status (1)

Country Link
JP (1) JPH073195U (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS54107215U (en) * 1978-01-17 1979-07-28
JPS54163426A (en) * 1978-06-14 1979-12-26 Furanshisu Maatein Chiyaarusu Apparatus for and method of connecting tubular member and joint
JPH0856092A (en) * 1994-08-16 1996-02-27 Tokin Corp Hybrid integrated circuit element and manufacture thereof
JP2004335770A (en) * 2003-05-08 2004-11-25 Inoac Corp Electromagnetic wave absorber
WO2006033323A1 (en) * 2004-09-21 2006-03-30 Olympus Corporation Electronic apparatus and introduction system into sample under test
JP2006284829A (en) * 2005-03-31 2006-10-19 Sanyo Epson Imaging Devices Corp Electro-optical apparatus and electronic apparatus
JP2020150036A (en) * 2019-03-11 2020-09-17 藤倉化成株式会社 Magnetic paint composition
US11121095B2 (en) 2016-12-21 2021-09-14 Mitsubishi Electric Corporation Semiconductor device having electromagnetic wave absorbing layer with heat dissipating vias

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS54107215U (en) * 1978-01-17 1979-07-28
JPS54163426A (en) * 1978-06-14 1979-12-26 Furanshisu Maatein Chiyaarusu Apparatus for and method of connecting tubular member and joint
JPH0856092A (en) * 1994-08-16 1996-02-27 Tokin Corp Hybrid integrated circuit element and manufacture thereof
JP2004335770A (en) * 2003-05-08 2004-11-25 Inoac Corp Electromagnetic wave absorber
WO2006033323A1 (en) * 2004-09-21 2006-03-30 Olympus Corporation Electronic apparatus and introduction system into sample under test
JP2006087523A (en) * 2004-09-21 2006-04-06 Olympus Corp Electronic device and system for introducing inside subject
US8715163B2 (en) 2004-09-21 2014-05-06 Olympus Corporation Electronic apparatus with noise shielding
JP2006284829A (en) * 2005-03-31 2006-10-19 Sanyo Epson Imaging Devices Corp Electro-optical apparatus and electronic apparatus
JP4660791B2 (en) * 2005-03-31 2011-03-30 エプソンイメージングデバイス株式会社 Electro-optical device and electronic apparatus
US11121095B2 (en) 2016-12-21 2021-09-14 Mitsubishi Electric Corporation Semiconductor device having electromagnetic wave absorbing layer with heat dissipating vias
JP2020150036A (en) * 2019-03-11 2020-09-17 藤倉化成株式会社 Magnetic paint composition

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