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JP3250917B2 - Dielectric porcelain composition - Google Patents

Dielectric porcelain composition

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Publication number
JP3250917B2
JP3250917B2 JP25334594A JP25334594A JP3250917B2 JP 3250917 B2 JP3250917 B2 JP 3250917B2 JP 25334594 A JP25334594 A JP 25334594A JP 25334594 A JP25334594 A JP 25334594A JP 3250917 B2 JP3250917 B2 JP 3250917B2
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JP
Japan
Prior art keywords
weight
parts
dielectric
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amount
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
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JP25334594A
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Japanese (ja)
Other versions
JPH08119728A (en
Inventor
信儀 藤川
芳博 藤岡
泰史 山口
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Kyocera Corp
Original Assignee
Kyocera Corp
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Priority to JP25334594A priority Critical patent/JP3250917B2/en
Priority to US08/545,459 priority patent/US5650367A/en
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Application granted granted Critical
Publication of JP3250917B2 publication Critical patent/JP3250917B2/en
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Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は、誘電体磁器組成物に関
するもので、コンデンサ,共振器等に用いられる誘電体
磁器組成物に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dielectric porcelain composition, and more particularly to a dielectric porcelain composition used for capacitors, resonators and the like.

【0002】[0002]

【従来技術】従来、誘電体磁器組成物は、積層セラミッ
クコンデンサ等の材料として使用されている。このよう
な積層セラミックコンデンサは内部電極が形成された誘
電体磁器組成物の生シートを所定容量になるように複数
枚積層した後、一体的に焼成して構成されている。例え
ば、X7R(EIA規格:静電容量の温度特性が−55
℃〜125℃において±15%以内)の積層セラミック
コンデンサに使用される誘電体磁器組成物は、+25℃
における比誘電率が2500以上と高く、かつ、一枚当
たりの生シートの厚みが15μm以下であって、焼成温
度が例えば1300℃以下であることが重要となってく
る。
2. Description of the Related Art Hitherto, dielectric ceramic compositions have been used as materials for multilayer ceramic capacitors and the like. Such a multilayer ceramic capacitor is formed by laminating a plurality of raw sheets of the dielectric ceramic composition on which internal electrodes are formed so as to have a predetermined capacity, and then firing them integrally. For example, X7R (EIA standard: temperature characteristic of capacitance is -55
(± 15% at 125 ° C. to 125 ° C.), the dielectric ceramic composition used at + 25 ° C.
It is important that the relative dielectric constant is as high as 2500 or more, the thickness of a raw sheet per sheet is 15 μm or less, and the firing temperature is, for example, 1300 ° C. or less.

【0003】即ち、25℃における比誘電率が2500
以上であって、生シートの厚みを15μm以下にするこ
とにより、内部電極間の生シートの厚みや対向面積の極
小化が可能となり、積層セラミックコンデンサの小型化
が達成できる。また、焼成温度を1300℃以下にする
ことにより、内部電極の材料の選択幅が増え、例えば、
高価なPd100%の材料から安価なPd−Agの使用
が可能となる。尚、上記に加え、誘電体磁器組成物とし
ての諸特性である誘電損失tanδ、絶縁抵抗を充分に
考慮しなくてはならず、さらに、誘電損失の交流電圧依
存性が小さいことが望まれる。
That is, the relative dielectric constant at 25 ° C. is 2500
As described above, by setting the thickness of the raw sheet to 15 μm or less, the thickness and the facing area of the raw sheet between the internal electrodes can be minimized, and the miniaturization of the multilayer ceramic capacitor can be achieved. Further, by setting the firing temperature to 1300 ° C. or lower, the selection range of the material of the internal electrode increases, and for example,
Inexpensive Pd-Ag can be used from expensive Pd 100% material. In addition to the above, the dielectric loss tan δ and the insulation resistance, which are various characteristics of the dielectric ceramic composition, must be sufficiently considered, and it is desired that the AC loss has a small AC voltage dependence.

【0004】従来、比誘電率を向上させたものとして、
BaTiO3 、Nb2 5 、ZnOを含む誘電体磁器組
成物がすでに提案されている(特開昭59−18162
号公報、特開昭59−18159号公報等参照)。この
ような誘電体磁器組成物によれば、比誘電率を2000
〜3000とすることができる。しかしながら、上述の
誘電体磁器組成物は高い比誘電率を得ることができて
も、誘電損失tanδが大きいため、生シートを薄くす
ることができず、結局、積層コンデンサに使用した場
合、高い比誘電率が得られなかった。
Conventionally, as a material having an improved relative dielectric constant,
A dielectric porcelain composition containing BaTiO 3 , Nb 2 O 5 , and ZnO has already been proposed (JP-A-59-18162).
And JP-A-59-18159). According to such a dielectric porcelain composition, the relative dielectric constant is 2000
33000. However, even though the above-mentioned dielectric porcelain composition can obtain a high relative dielectric constant, the dielectric loss tan δ is large, so that the raw sheet cannot be thinned. Dielectric constant was not obtained.

【0005】このように誘電損失tanδを小さくする
ために開発された系として、BaTiO3 ,Nb
2 5 ,MgO,La2 3 を含む誘電体磁器組成物が
すでに提案されている(特公平5−10766号公報参
照)。また、BaTiO3 にNb25 /MgOのモル
比を2.3〜4の範囲になるようにNb2 5 とMgO
を加え、これに希土類を0.1〜0.5重量%添加した
組成物が開示されている(特公昭55−19007号公
報参照)。
As a system developed to reduce the dielectric loss tan δ, BaTiO 3 , Nb
A dielectric ceramic composition containing 2 O 5 , MgO, and La 2 O 3 has already been proposed (see Japanese Patent Publication No. 5-10766). Further, Nb 2 O 5 and MgO are mixed so that the molar ratio of Nb 2 O 5 / MgO to BaTiO 3 is in the range of 2.3 to 4.
And a composition in which a rare earth is added in an amount of 0.1 to 0.5% by weight is disclosed (see Japanese Patent Publication No. 55-19007).

【0006】[0006]

【発明が解決しようとする問題点】しかしながら、上記
したいずれの誘電体磁器でも、比誘電率が2200程度
以下と小さく小型大容量化に対応できない。また、未だ
誘電損失が大きく、生シートを薄くすることが困難であ
るという問題があった。
However, none of the above-mentioned dielectric ceramics has a relative dielectric constant as small as about 2200 or less, and cannot cope with an increase in size and capacity. There is also a problem that the dielectric loss is still large and it is difficult to make the raw sheet thin.

【0007】さらに、上記したいずれの誘電体磁器で
も、誘電損失の交流電圧依存性が大きくなり、誘電体の
薄層化に対応することができなくなることが考えられ、
この場合には、コンデンサの小型化、大容量化に対応で
きないという問題があった。
Further, in any of the above-mentioned dielectric ceramics, it is considered that the dependency of the dielectric loss on the AC voltage becomes large, and it is impossible to cope with the thinning of the dielectric.
In this case, there is a problem that it is not possible to cope with the miniaturization and large capacity of the capacitor.

【0008】[0008]

【問題点を解決するための手段】本発明者等は上記問題
点に鑑みて鋭意検討した結果、チタン酸バリウムBaT
iO3を主成分とし、Nb25、MgO、La23、M
nO、ZnO、SiO2および/またはAl23を所定
の組成比で含有するもので、ZnOとMgOの合量に対
するNb25のモル比を0.5〜2.2とすることによ
り、比誘電率が2500以上で、静電容量の温度変化率
がEIA規格のX7Rを満たし、誘電損失が2.5%以
下と小さく、交流電圧を2000V/cm印加した時で
も誘電損失が3.0%以下と交流電圧依存性が小さく、
薄層化が可能な誘電体磁器を得ることができることを見
出し、本発明に至った。
The present inventors have made intensive studies in view of the above problems and found that barium titanate BaT
iO 3 as a main component, Nb 2 O 5 , MgO, La 2 O 3 , M
It contains nO, ZnO, SiO 2 and / or Al 2 O 3 at a predetermined composition ratio, and the molar ratio of Nb 2 O 5 to the total amount of ZnO and MgO is set to 0.5 to 2.2. The dielectric constant is 2500 or more, the temperature change rate of the capacitance satisfies EIA standard X7R, the dielectric loss is as small as 2.5% or less, and the dielectric loss is 3 even when an AC voltage of 2000 V / cm is applied. 0% or less and low AC voltage dependency,
The present inventors have found that a dielectric porcelain that can be made thinner can be obtained, and have reached the present invention.

【0009】即ち、本発明の誘電体磁器は、BaTiO
3100重量部に対して、Nb25を0.8〜2.5重
量部、MgOを0.06〜0.70重量部、La23
0.005〜0.520重量部、MnOをMnCO3
換算して0.01〜0.30重量部、ZnOを0.1〜
0.5重量部、SiO2およびAl23のうち少なくと
も一種を0.05〜0.50重量部含有するとともに、
ZnOとMgOの合量に対するNb25のモル比が0.
5〜2.2の範囲内にあるものである。
That is, the dielectric porcelain of the present invention is made of BaTiO.
3 With respect to 100 parts by weight, Nb 2 O 5 is 0.8 to 2.5 parts by weight, MgO is 0.06 to 0.70 parts by weight, La 2 O 3 is 0.005 to 0.520 parts by weight, MnO is converted to MnCO 3 at 0.01 to 0.30 parts by weight, and ZnO is 0.1 to
0.5 part by weight, while containing 0.05 to 0.50 parts by weight of at least one of SiO 2 and Al 2 O 3 ,
The molar ratio of Nb 2 O 5 to the total amount of ZnO and MgO is 0.
It is in the range of 5-2.2.

【0010】本発明において、BaTiO3 100重量
部に対して、Nb2 5 を0.8〜2.5重量部含有し
たのは、0.8重量部未満では、誘電損失が悪化し、温
度特性、焼結性が悪く、また、2.5重量部を越えると
比誘電率が低下し、温度特性が大きく劣化してしまうか
らである。Nb2 5 はBaTiO3 100重量部に対
して1.3〜2.0重量部含有することが望ましい。
In the present invention, Nb 2 O 5 is contained in an amount of 0.8 to 2.5 parts by weight with respect to 100 parts by weight of BaTiO 3. This is because the properties and the sinterability are poor, and when it exceeds 2.5 parts by weight, the relative dielectric constant is lowered, and the temperature characteristics are greatly deteriorated. Nb 2 O 5 is desirably contained in an amount of 1.3 to 2.0 parts by weight based on 100 parts by weight of BaTiO 3 .

【0011】また、MgOを0.06〜0.70重量部
としたのは、0.06重量部未満では比誘電率及び絶縁
抵抗が低下し、温度特性が悪く粒成長し、誘電損失の電
圧依存性が大となってしまうからである。また、0.7
0重量部よりも多いと誘電率が低下し、絶縁抵抗も低下
するからである。MgOは0.1〜0.4重量部である
ことが望ましい。
The reason why the MgO content is set to 0.06 to 0.70 parts by weight is that when the content is less than 0.06 parts by weight, the relative dielectric constant and the insulation resistance are reduced, the temperature characteristics are deteriorated, the grains grow, and the voltage of the dielectric loss is reduced. This is because the dependency becomes large. Also, 0.7
If the amount is more than 0 parts by weight, the dielectric constant decreases and the insulation resistance also decreases. MgO is desirably 0.1 to 0.4 parts by weight.

【0012】さらに、La2 3 を0.005〜0.5
20重量部としたのは、La2 3が0.005重量部
未満では、比誘電率が低下し、焼結性が悪く、0.52
0重量部を越えると温度特性が劣化するからである。L
2 3 は0.005〜0.2重量部であることが望ま
しい。
Further, La 2 O 3 is added in an amount of 0.005 to 0.5.
The reason for setting the content to 20 parts by weight is that when La 2 O 3 is less than 0.005 parts by weight, the relative dielectric constant is lowered, the sinterability is poor, and
If the amount exceeds 0 parts by weight, the temperature characteristics deteriorate. L
a 2 O 3 is desirably 0.005 to 0.2 parts by weight.

【0013】またMnOをMnCO3 換算で0.01〜
0.30重量部としたのは0.01重量部未満では、絶
縁抵抗が低下し、誘電損失及び焼結性が悪化し、0.3
0重量部を越えると比誘電率が低下してしまうからであ
る。MnOはMnCO3 換算で0.04〜0.10重量
部であることが望ましい。
MnO is converted to MnCO 3 in an amount of 0.01 to
When it is less than 0.01 part by weight, the insulation resistance is reduced, the dielectric loss and the sinterability deteriorate, and
If the amount exceeds 0 parts by weight, the relative permittivity will decrease. MnO is desirably 0.04 to 0.10 parts by weight in terms of MnCO 3 .

【0014】さらに、ZnOを0.10〜0.50重量
部としたのは、0.10重量部未満では、絶縁抵抗が低
下し、誘電損失及び焼結性が悪化し、0.50重量部を
越えると比誘電率が低下し、温度特性が悪化してしまう
からである。ZnOは0.10〜0.30重量部である
ことが望ましい。
Further, the reason why ZnO is set to 0.10 to 0.50 parts by weight is that if less than 0.10 parts by weight, the insulation resistance is low.
This is because the dielectric loss and sinterability deteriorate, and if it exceeds 0.50 parts by weight, the relative dielectric constant decreases, and the temperature characteristics deteriorate. It is desirable that ZnO be 0.10 to 0.30 parts by weight.

【0015】そして、ZnOとMgOの合量に対するN
2 5 のモル比を0.5〜2.2としたのは、モル比
が0.5より小さいと比誘電率が悪化し、温度特性が悪
く、また2.2より大きいと、温度特性が悪く、比誘電
率が低下するからである。本発明では、ZnOとMgO
の合量に対するNb2 5 のモル比を、特に、0.6〜
1.4とすることが望ましい。
[0015] Then, N with respect to the total amount of ZnO and MgO is
The reason why the molar ratio of b 2 O 5 is 0.5 to 2.2 is that when the molar ratio is smaller than 0.5, the relative dielectric constant is deteriorated and the temperature characteristics are poor. This is because the characteristics are poor and the relative dielectric constant is reduced. In the present invention, ZnO and MgO
The molar ratio of Nb 2 O 5 to the total amount of
It is desirable to be 1.4.

【0016】また、BaTiO3 100重量部に対し
て、SiO2 およびAl2 3 のうち少なくとも一種を
0.05〜0.50重量部含有すると、組成によっては
焼成温度をさらに下げるとともに、静電容量および比誘
電率を高めることができる。SiO2 、Al2 3 の上
記作用は、0.05重量部よりも少ない場合にはあまり
顕著でなく、また0.50重量部よりも大きいと逆に比
誘電率が低下する傾向にあるからである。SiO2 およ
びAl2 3 のうち少なくとも一種は、BaTiO3
00重量部に対して0.1〜0.2重量部含有すること
が望ましい。
If at least one of SiO 2 and Al 2 O 3 is contained in an amount of 0.05 to 0.50 parts by weight with respect to 100 parts by weight of BaTiO 3 , the firing temperature may be further lowered depending on the composition, and the static electricity may be reduced. Capacitance and relative permittivity can be increased. The above effects of SiO 2 and Al 2 O 3 are not so remarkable when the amount is less than 0.05 part by weight, and the relative dielectric constant tends to decrease when the amount is more than 0.50 part by weight. It is. At least one of SiO 2 and Al 2 O 3 is BaTiO 3 1
It is desirable to contain 0.1 to 0.2 parts by weight based on 00 parts by weight.

【0017】本発明の誘電体磁器は、例えば、固相法ゾ
ルゲル法,しゅう酸法,水熱合成法等の方法により生成
された平均結晶粒径1.0μm以下のBaTiO3 粉末
を主成分として、このBaTiO3 100重量部に対し
て、Nb2 5 、MgO、La2 3 、MnCO3 、S
iO2 、Al2 3 、ZnO各粉末を所定量秤量し、ボ
ールミル等にて20〜48時間湿式粉砕し、乾燥後、有
機バインダー等を所定量添加して、これを所定形状に成
形し、大気中において1200℃〜1300℃で1〜2
時間焼成することにより製造される。また、積層セラミ
ックコンデンサを作製する場合には、上記粉末をスラリ
ー化し、これをドクターブレード等の手法によりシート
状に成形し、そのシート状成形体に適宜Ag−Pdなど
の内部電極を塗布し、これらを複数枚積層し、上記焼成
条件で同時焼成すればよい。
The dielectric porcelain of the present invention comprises, as a main component, BaTiO 3 powder having an average crystal grain size of 1.0 μm or less, which is produced by a solid phase sol-gel method, an oxalic acid method, a hydrothermal synthesis method or the like. Nb 2 O 5 , MgO, La 2 O 3 , MnCO 3 , S based on 100 parts by weight of this BaTiO 3
A predetermined amount of each of iO 2 , Al 2 O 3 , and ZnO powder is weighed, wet-pulverized by a ball mill or the like for 20 to 48 hours, dried, and then added with a predetermined amount of an organic binder and the like, and molded into a predetermined shape. 1-2 at 1200 ° C-1300 ° C in air
It is manufactured by firing for a time. In the case of producing a multilayer ceramic capacitor, the above powder is slurried, formed into a sheet by a method such as a doctor blade, and an internal electrode such as Ag-Pd is applied to the sheet-shaped molded body as appropriate. A plurality of these may be laminated and fired simultaneously under the above firing conditions.

【0018】なお、本発明に使用されるNb2 5 、M
gO、La2 3 、MnCO3 、SiO2 、Al
2 3 、ZnOの各粉末の代わりに、Nb,Mg,L
a,Mn,Si,Al,Znの水酸化物、炭酸塩、硝酸
塩、しゅう酸塩、アルコキシド等、焼結温度以下で分解
し、酸化物となるものも用いることができる。
The Nb 2 O 5 , M used in the present invention
gO, La 2 O 3 , MnCO 3 , SiO 2 , Al
Instead of powders of 2 O 3 and ZnO, Nb, Mg, L
a, Mn, Si, Al, Zn hydroxides, carbonates, nitrates, oxalates, alkoxides, etc., which decompose below the sintering temperature to become oxides, can also be used.

【0019】交流電圧依存性を向上するためには、焼結
体の平均結晶粒径dをd<1.0μmに制御することが
好ましい。このように、焼結体の平均結晶粒径dをd<
1.0μmに制御するには、出発原料として平均結晶粒
径1.0μm以下のチタン酸バリウム粉末を用いたり、
長時間湿式粉砕して粉砕後の粒径を0.8μm以下に管
理する他、焼成温度をなるべく低く設定し焼成時間も短
時間とする必要がある。
In order to improve the AC voltage dependency, it is preferable to control the average crystal grain size d of the sintered body to d <1.0 μm. Thus, the average crystal grain size d of the sintered body is set to d <
To control it to 1.0 μm, barium titanate powder having an average crystal grain size of 1.0 μm or less is used as a starting material,
In addition to controlling the particle size after pulverization to 0.8 μm or less by wet pulverization for a long time, it is necessary to set the baking temperature as low as possible and shorten the baking time.

【0020】[0020]

【作用】本発明の誘電体磁器組成物では、静電容量の温
度特性が−55℃〜125℃の範囲において±15%以
内で、+25℃における比誘電率が2500以上とな
り、グリーンシートの厚みが15μmであっても、誘電
損失が2.5%以下と小さく、交流電圧2000V/cm
における誘電損失が3%以下と小さい値を示すことがで
きる。このため、小型で大容量の積層コンデンサを得る
ことができる。また、焼成温度が1300℃以下となる
ため工業的にも製造しやすく、かつ、内部電極に安価な
銀−パラジウム(Ag/Pd=20/80〜40/6
0)を使用した積層コンデンサなどに使用できる誘電体
磁器が達成される。さらに、誘電体磁器として基本的な
特性である誘電損失が2.5%以下、絶縁抵抗(IR)
が104MΩ以上と充分に満足できる誘電体磁器が達成
される。
According to the dielectric ceramic composition of the present invention, the temperature characteristic of the capacitance is within ± 15% within the range of −55 ° C. to 125 ° C., the relative dielectric constant at + 25 ° C. is 2500 or more, and the thickness of the green sheet is increased. Is 15 μm, the dielectric loss is as small as 2.5% or less, and the AC voltage is 2000 V / cm.
Can be as small as 3% or less. For this reason, a small-sized and large-capacity multilayer capacitor can be obtained. Further, since the sintering temperature is 1300 ° C. or less, it is easy to produce industrially, and inexpensive silver-palladium (Ag / Pd = 20/80 to 40/6) is used for the internal electrode.
Thus, a dielectric porcelain which can be used for a multilayer capacitor using 0) is achieved. Furthermore, dielectric loss, which is a basic characteristic of dielectric porcelain, is 2.5% or less, insulation resistance (IR)
Is sufficiently higher than 10 4 MΩ.

【0021】[0021]

【実施例】以下、本発明の実施例を、参考例を基に詳細
に説明する。
EXAMPLES Examples of the present invention will be described below in detail with reference to Reference Examples.

【0022】(参考例) 水熱合成法により生成された平均粒径1.0μm以下の
BaTiO3粉末を主成分として、このBaTiO310
0重量部に対して、Nb25、MgO、La23、Mn
CO3、ZnOの各粉末を表1に示すように秤量し、ボ
ールミルにて20〜48時間湿式粉砕した後、有機系粘
結剤を添加し、しかる後攪拌し、ドクターブレード法で
厚さ15μmのテープ状に成形した。このテープを13
0mm×100mmに裁断し、20枚重ね、80℃でホ
ットプレスで積層体を作製する。
[0022] as a main component (Reference Example) Average particle size 1.0μm or less of BaTiO 3 powder produced by hydrothermal synthesis method, the BaTiO 3 10
Nb 2 O 5 , MgO, La 2 O 3 , Mn
Each powder of CO 3 and ZnO was weighed as shown in Table 1 and wet-pulverized by a ball mill for 20 to 48 hours, and then an organic binder was added. Then, the mixture was stirred and 15 μm thick by a doctor blade method. Into a tape shape. 13 this tape
The sheet is cut into 0 mm × 100 mm, 20 sheets are stacked, and a laminate is prepared by hot pressing at 80 ° C.

【0023】[0023]

【表1】 [Table 1]

【0024】尚、内部電極として、Ag系ペースト(A
g/Pd=30/70)を印刷した。この積層体を3.
2mm×1.6mmに裁断し、空気中にて1250〜1
320℃で2時間焼成した。さらに両端面に銀ペースト
による電極を800℃、10分間焼き付けて、測定用試
料とした。
Incidentally, an Ag-based paste (A
g / Pd = 30/70). This laminate was used for 3.
Cut to 2mm x 1.6mm, 1250-1 in air
It was baked at 320 ° C. for 2 hours. Further, electrodes of silver paste were baked on both end surfaces at 800 ° C. for 10 minutes to obtain measurement samples.

【0025】このように形成された試料について、静電
容量および誘電損失を基準温度25℃、周波数1.0k
Hz、測定電圧1.0Vrmsで測定した。また、容量
の温度変化率は、−55〜+125℃の範囲で測定し、
+25℃における容量を基準とした。さらに、絶縁抵抗
は、直流電圧25Vを1分間印加した時を測定した。
For the sample thus formed, the capacitance and the dielectric loss were measured at a reference temperature of 25 ° C. and a frequency of 1.0 k.
Hz and a measurement voltage of 1.0 Vrms. The temperature change rate of the capacitance is measured in the range of -55 to + 125 ° C,
Based on the capacity at + 25 ° C. Further, the insulation resistance was measured when a DC voltage of 25 V was applied for one minute.

【0026】比誘電率は静電容量から逆算した。The relative permittivity was calculated backward from the capacitance.

【0027】焼結体の平均粒径は、走査型電子顕微鏡に
て焼結体表面を15000倍で観察し、ラインインター
セプト法にて500以上の粒子を測定し算出した。さら
に、周波数1kHzで2000Vrms/cmの電圧を
印加した時に誘電損失を測定した。以上の結果を表2に
示す。
The average particle size of the sintered body was calculated by observing the surface of the sintered body at a magnification of 15,000 with a scanning electron microscope and measuring 500 or more particles by a line intercept method. Further, the dielectric loss was measured when a voltage of 2000 Vrms / cm was applied at a frequency of 1 kHz. Table 2 shows the above results.

【0028】[0028]

【表2】 [Table 2]

【0029】本発明の範囲内の誘電体磁器はいずれも比
誘電率が2500以上と大きく、しかもEIA規格のX
7R特性(−55℃〜125℃の温度範囲で容量変化率
が±15%以内)を満足する。さらに、誘電損失tan
δが2.5%以下と小さく、交流電圧2000Vrms
/cm下でも3.0%以下の損失を示す。さらに絶縁抵
抗(IR)は104 MΩ以上を有する。
Each of the dielectric ceramics within the scope of the present invention has a relative dielectric constant as large as 2500 or more, and furthermore, the EIA standard X
Satisfies 7R characteristics (capacity change within ± 15% in a temperature range of -55 ° C to 125 ° C). Further, the dielectric loss tan
δ is as small as 2.5% or less, AC voltage 2000Vrms
/ Cm shows a loss of 3.0% or less. Further, the insulation resistance (IR) has a value of 10 4 MΩ or more.

【0030】表1において、試料番号1〜5は誘電体磁
器組成物の主成分となるBaTiO3 に添加するNb2
5 の添加量を0.7〜2.6重量部まで値を夫々変化
させた。この時、MgO、La2 3 、MnCO3 及び
ZnOの添加量を0.1重量部、0.2重量部、0.1
重量部、0.1〜0.2重量部にした。
In Table 1, Sample Nos. 1 to 5 are Nb 2 added to BaTiO 3 which is a main component of the dielectric ceramic composition.
The value of O 5 was varied from 0.7 to 2.6 parts by weight. At this time, the added amounts of MgO, La 2 O 3 , MnCO 3 and ZnO were 0.1 parts by weight, 0.2 parts by weight,
Parts by weight, 0.1 to 0.2 parts by weight.

【0031】試料番号1(Nb2 5 の添加量:0.7
重量部)では、比誘電率εrが3700と良品になるも
のの、誘電損失tanδが3.4%となってしまう。更
に、温度特性が−25%となってしまう。また、試料番
号2〜4(Nb2 5 の添加量:0.8〜2.5重量
%)では、比誘電率εrが2700〜3600となり、
誘電損失tanδが2.5%以下であり、温度特性が±
13%以内になり、交流電圧2000V/cm印加時の
tanδが3.0%以下で、絶縁抵抗(IR)も4〜6
×104 MΩと良品の範囲となる。即ち、比誘電率εr
が高く、温度特性に優れ、誘電損失tanδが小さく、
さらに誘電損失の交流電圧依存性が小さい誘電体磁器が
達成される。更に、試料番号5(Nb2 5 の添加量:
2.6重量部)では、比誘電率εが2300であり、温
度特性が悪化してしまう。従って、本発明においてはチ
タン酸バリウムBaTiO3 に添加するNb2 5 の重
量は、チタン酸バリウムBaTiO3 100重量部に対
して、0.8〜2.5重量部の範囲とした。
Sample No. 1 (the amount of Nb 2 O 5 added: 0.7
(Parts by weight), the dielectric constant εr is 3700, which is a good product, but the dielectric loss tan δ is 3.4%. Further, the temperature characteristic becomes -25%. In sample numbers 2 to 4 (the amount of Nb 2 O 5 added: 0.8 to 2.5% by weight), the relative dielectric constant εr was 2700 to 3600,
The dielectric loss tan δ is 2.5% or less, and the temperature characteristic is ±
13% or less, tan δ when an AC voltage of 2000 V / cm is applied is 3.0% or less, and insulation resistance (IR) is 4-6.
× 10 4 MΩ, which is a good product range. That is, the relative permittivity εr
High, excellent temperature characteristics, small dielectric loss tanδ,
Furthermore, a dielectric ceramic having a small AC voltage dependence of dielectric loss is achieved. Sample No. 5 (the amount of Nb 2 O 5 added:
2.6 parts by weight), the relative dielectric constant ε is 2300, and the temperature characteristics deteriorate. Therefore, in the present invention, the weight of Nb 2 O 5 added to barium titanate BaTiO 3 is in the range of 0.8 to 2.5 parts by weight based on 100 parts by weight of barium titanate BaTiO 3 .

【0032】試料番号6〜10は誘電体磁器組成物の主
成分となるBaTiO3 に添加するMgOの添加量を
0.05〜0.75重量部まで値を夫々変化させた。こ
の時、Nb2 5 、La2 3 、MnCO3 及びZnO
の添加量をそれぞれ1.8〜2.5重量部、0.2重量
部、0.1重量部、0.1〜0.2重量部にした。
In Sample Nos. 6 to 10, the amount of MgO added to BaTiO 3 as the main component of the dielectric ceramic composition was varied from 0.05 to 0.75 parts by weight. At this time, Nb 2 O 5 , La 2 O 3 , MnCO 3 and ZnO
Was adjusted to 1.8 to 2.5 parts by weight, 0.2 parts by weight, 0.1 parts by weight, and 0.1 to 0.2 parts by weight, respectively.

【0033】試料番号6(MgOの添加量:0.05重
量部)では、交流電圧2000V/cm印加時のtan
δが3.8%になってしまう。また、試料番号7〜9
(MgOの添加量:0.06〜0.70重量部)では、
比誘電率εrが2600〜2900となり、誘電損失t
anδが2.0%以下であり、温度特性が±13%以内
になり、交流電圧2000V/cm印加時のtanδが
2.8%以下で、絶縁抵抗(IR)も3〜5×104
Ωと良品の範囲となる。即ち、比誘電率εrが高く、温
度特性に優れ、誘電損失tanδが小さく、さらに誘電
損失の交流電圧依存性が小さい誘電体磁器が達成され
る。更に、試料番号10(MgOの添加量:0.75重
量部)では、誘電損失tanδが1.8%と良品の範囲
となるものの、比誘電率εrが2100となってしま
う。従って、本発明においてはチタン酸バリウムBaT
iO3 に添加するMgO重量は、チタン酸バリウムBa
TiO3100重量部に対して、0.06〜0.70重
量部の範囲とした。試料番号11〜15は誘電体磁器組
成物の主成分となるBaTiO3 に添加するLa2 3
の添加量を0.004〜0.53重量部まで値を夫々変
化させた。
In sample No. 6 (addition amount of MgO: 0.05 parts by weight), the tan at an AC voltage of 2000 V / cm was applied.
δ becomes 3.8%. In addition, sample numbers 7 to 9
(Amount of added MgO: 0.06 to 0.70 parts by weight)
The relative dielectric constant εr becomes 2600 to 2900, and the dielectric loss t
is less than ± 13%, the tan δ is 2.8% or less when an AC voltage of 2000 V / cm is applied, and the insulation resistance (IR) is 3 to 5 × 10 4 M.
Ω and non-defective range. That is, a dielectric ceramic having a high relative permittivity εr, excellent temperature characteristics, a small dielectric loss tan δ, and a small AC voltage dependence of the dielectric loss is achieved. Furthermore, in sample No. 10 (the amount of added MgO: 0.75 parts by weight), the dielectric loss tan δ is 1.8%, which is a good range, but the relative dielectric constant εr is 2100. Therefore, in the present invention, barium titanate BaT
The weight of MgO added to iO 3 is barium titanate Ba.
The range was 0.06 to 0.70 parts by weight based on 100 parts by weight of TiO 3 . Sample Nos. 11 to 15 are La 2 O 3 added to BaTiO 3 which is a main component of the dielectric ceramic composition.
Was varied from 0.004 to 0.53 parts by weight.

【0034】この時、Nb2 5 、MgO、MnCO3
及びZnOの添加量をそれぞれ1.8重量部、0.2重
量部、0.1重量部、0.2重量部にした。
At this time, Nb 2 O 5 , MgO, MnCO 3
And the amount of ZnO added was 1.8 parts by weight, 0.2 parts by weight, 0.1 parts by weight, and 0.2 parts by weight, respectively.

【0035】試料番号11(La2 3 の添加量:0.
004重量部)では、誘電損失tanδが2.4%とな
るものの、比誘電率εrが2400と低くなってしま
う。また、試料番号12〜14(La2 3 の添加量:
0.005〜0.52重量部)では、比誘電率εrが2
800〜3500となり、誘電損失tanδが2.1%
以下であり、温度特性が±11%以内になり、交流電圧
2000V/cm印加時のtanδが2.8%以下で、
絶縁抵抗(IR)も3〜6×104 MΩと良品の範囲と
なる。即ち、比誘電率εrが高く、温度特性に優れ、誘
電損失tanδが小さく、さらに誘電損失の交流電圧依
存性が小さい誘電体磁器が達成される。更に、試料番号
15(La2 3 の添加量:0.53重量部)では、比
誘電率εrが3700、誘電損失tanδが1.8%と
良品の範囲となるものの、温度特性が悪化してしまう。
従って、本発明においてはチタン酸バリウムBaTiO
3 に添加するLa2 3 の重量は、チタン酸バリウムB
aTiO3 100重量部に対して、0.005〜0.5
2重量部の範囲とした。
Sample No. 11 (added amount of La 2 O 3 : 0.
004 parts by weight), the dielectric loss tan δ is 2.4%, but the relative dielectric constant εr is as low as 2400. Sample Nos. 12 to 14 (added amount of La 2 O 3 :
0.005 to 0.52 parts by weight), the relative dielectric constant εr is 2
800 to 3500, and the dielectric loss tan δ is 2.1%
And the temperature characteristics are within ± 11%, and tan δ when an AC voltage of 2000 V / cm is applied is 2.8% or less,
The insulation resistance (IR) is 3 to 6 × 10 4 MΩ, which is a good range. That is, a dielectric ceramic having a high relative permittivity εr, excellent temperature characteristics, a small dielectric loss tan δ, and a small AC voltage dependence of the dielectric loss is achieved. Further, in Sample No. 15 (the amount of La 2 O 3 added: 0.53 parts by weight), the relative dielectric constant εr was 3700 and the dielectric loss tan δ was 1.8%, which was a good product range, but the temperature characteristics deteriorated. Would.
Therefore, in the present invention, barium titanate BaTiO
Added to 3 weight of La 2 O 3 is barium titanate B
0.005 to 0.5 with respect to 100 parts by weight of aTiO 3
The range was 2 parts by weight.

【0036】試料番号16〜20は誘電体磁器組成物の
主成分となるBaTiO3 に添加するMnCO3 の添加
量を0.005〜0.31重量部まで値を夫々変化させ
た。
In Sample Nos. 16 to 20, the amount of MnCO 3 added to BaTiO 3 as the main component of the dielectric ceramic composition was varied from 0.005 to 0.31 part by weight.

【0037】この時、Nb2 5 、MgO、La2 3
及びZnOの添加量を1.8重量部、0.2重量部、
0.2重量部、0.2重量部にした。
At this time, Nb 2 O 5 , MgO, La 2 O 3
And the amount of ZnO added is 1.8 parts by weight, 0.2 parts by weight,
0.2 parts by weight, 0.2 parts by weight.

【0038】試料番号16(MnCO3 の添加量:0.
005重量部)では、比誘電率εrが3000となるも
のの、誘電損失tanδが2.5%となってしまう。さ
らに絶縁抵抗が8×103 MΩとなる。また、試料番号
17〜19(MnCO3 の添加量:0.01〜0.3重
量%)では、比誘電率εrが2800〜3000とな
り、誘電損失tanδが2.2%以下であり、温度特性
が±7%以内になり、交流電圧2000V/cm印加時
のtanδが3.0%以下で、絶縁抵抗(IR)も2×
104 〜9×104 MΩと良品の範囲となる。即ち、比
誘電率εrが高く、温度特性に優れ、誘電損失tanδ
が小さく、さらに誘電損失の交流電圧依存性が小さい誘
電体磁器が達成される。更に、試料番号20(MnCO
3 の添加量:0.31重量部)では、誘電損失tanδ
が1.4%と良品の範囲となるものの、比誘電率εrが
2200と低くなってしまう。従って、本発明において
はチタン酸バリウムBaTiO3 に添加するMnCO3
の重量は、チタン酸バリウムBaTiO3 100重量部
に対して、0.01〜0.3重量部の範囲とした。
Sample No. 16 (addition amount of MnCO 3 : 0.1
005 parts by weight), the relative dielectric constant εr becomes 3000, but the dielectric loss tan δ becomes 2.5%. Further, the insulation resistance becomes 8 × 10 3 MΩ. In sample numbers 17 to 19 (the amount of MnCO 3 added: 0.01 to 0.3% by weight), the relative dielectric constant εr was 2800 to 3000, the dielectric loss tan δ was 2.2% or less, and the temperature characteristics Is within ± 7%, the tan δ when an AC voltage of 2000 V / cm is applied is 3.0% or less, and the insulation resistance (IR) is 2 ×.
10 4 to 9 × 10 4 MΩ, which is a good range. That is, the dielectric constant εr is high, the temperature characteristics are excellent, and the dielectric loss tan δ
And a dielectric porcelain having a small AC loss dependence on dielectric loss. Further, sample number 20 (MnCO
3 is 0.31 part by weight), the dielectric loss tan δ
Is 1.4%, which is a good product range, but the relative dielectric constant εr is as low as 2200. Therefore, in the present invention, MnCO 3 added to barium titanate BaTiO 3 is used.
Weight, relative to barium BaTiO 3 100 parts by weight titanate, ranged from 0.01 to 0.3 parts by weight.

【0039】試料番号21〜26は、誘電体磁器組成物
の主成分となるBaTiO3 に添加するZnOの添加量
を0.1〜0.8重量部まで値を夫々変化させた場合で
ある。この時、Nb2 5 、MgO、La2 3 及びM
nCO3 の添加量をそれぞれ1.8〜2.1重量部、
0.1〜0.15重量部、0.2重量部、0.1重量部
にした。
Sample Nos. 21 to 26 are cases in which the amount of ZnO added to BaTiO 3 as the main component of the dielectric ceramic composition was changed from 0.1 to 0.8 parts by weight. At this time, Nb 2 O 5 , MgO, La 2 O 3 and M
1.8 to 2.1 parts by weight of nCO 3 each,
0.1 to 0.15 parts by weight, 0.2 parts by weight, and 0.1 parts by weight.

【0040】試料番号21〜25(ZnOの添加量:
0.1〜0.5重量部)では、比誘電率εrが2800
〜3200となり、誘電損失tanδが1.8%以下で
あり、温度特性が±14%以内になり、交流電圧200
0V/cm印加時のtanδが2.8%以下で、絶縁抵
抗(IR)も4〜5×104 MΩと良品の範囲となる。
Sample Nos. 21 to 25 (Amount of ZnO added:
0.1 to 0.5 parts by weight), the relative dielectric constant εr is 2800
To 3200, the dielectric loss tan δ is 1.8% or less, the temperature characteristics are within ± 14%, and the AC voltage 200
When 0 V / cm is applied, tan δ is 2.8% or less, and the insulation resistance (IR) is 4 to 5 × 10 4 MΩ, which is a good range.

【0041】即ち、比誘電率εrが高く、温度特性に優
れ、誘電損失tanδが小さく、さらに誘電損失の交流
電圧依存性が小さい誘電体磁器が達成される。また、試
料番号26(ZnOの添加量:0.8重量部)では、誘
電損失tanδが2.0%と良品となるものの、比誘電
率εrが2200と低くなり、温度特性、絶縁抵抗が悪
化する。従って本発明においてはチタン酸バリウムBa
TiO3 に添加するZnO量は、チタン酸バリウムBa
TiO3 100重量部に対して0.1〜0.5重量部の
範囲とした。
That is, a dielectric ceramic having a high relative permittivity εr, excellent temperature characteristics, a small dielectric loss tan δ, and a small AC voltage dependence of the dielectric loss is achieved. In sample No. 26 (addition amount of ZnO: 0.8 parts by weight), the dielectric loss tan δ was 2.0%, which was a good product, but the relative dielectric constant εr was low, 2200, and the temperature characteristics and insulation resistance were deteriorated. I do. Therefore, in the present invention, barium titanate Ba
The amount of ZnO added to TiO 3 is barium titanate Ba.
The range was 0.1 to 0.5 parts by weight based on 100 parts by weight of TiO 3 .

【0042】(実施例) 表1の試料No.13の組成に、SiO2,Al23
末を、表3に示すように添加含有させ、参考例と同様
に、テープ状に成形した後、このテープを積層し、内部
電極を形成し、積層体を作製した。そして、参考例と同
様に、各特性を測定し、表4に記した。
(Example) Sample No. 1 in Table 1 As shown in Table 3, SiO 2 and Al 2 O 3 powders were added to and contained in the composition of No. 13 and formed into a tape in the same manner as in Reference Example, and then the tape was laminated to form internal electrodes. A laminate was produced. And each characteristic was measured similarly to the reference example, and was described in Table 4.

【0043】尚、試料の組成は、BaTiO3 100重
量部に対して、Nb2 5 を1.8重量部、MgOを
0.2重量部、La2 3 0.2重量部、MnOをMn
CO3換算で0.1重量部、ZnOを0.2重量部含有
し、SiO2 ,Al2 3 をBaTiO3 100重量部
に対して所定量含有するものである。
The composition of the sample was such that Nb 2 O 5 was 1.8 parts by weight, MgO was 0.2 parts by weight, La 2 O 3 was 0.2 parts by weight, and MnO was 100 parts by weight of BaTiO 3. Mn
It contains 0.1 parts by weight in terms of CO 3 , 0.2 parts by weight of ZnO, and a predetermined amount of SiO 2 and Al 2 O 3 based on 100 parts by weight of BaTiO 3 .

【0044】[0044]

【表3】 [Table 3]

【0045】[0045]

【表4】 [Table 4]

【0046】これらの表3,4から、SiO2 ,Al2
3 を含有することにより、これらの化合物を含有しな
い場合(試料No.13)よりも焼成温度が低下し、誘電
率が高くなることが判る。
From these Tables 3 and 4, it can be seen that SiO 2 , Al 2
It can be seen that by containing O 3 , the firing temperature is lower and the dielectric constant is higher than in the case where these compounds are not contained (sample No. 13).

【0047】[0047]

【発明の効果】以上のように、本発明によれば、X7R
特性を満足し、比誘電率εrが2500以上で、且つ焼
成温度が1300℃以下となる。またその他の諸特性と
して、誘電損失tanδが2.5%以下、絶縁抵抗(I
R)が104 MΩ以上、交流電圧2000V/cm印加
時のtanδが3%以下の誘電体磁器組成物を得ること
ができる。
As described above, according to the present invention, X7R
The characteristics are satisfied, the relative dielectric constant εr is 2500 or more, and the firing temperature is 1300 ° C. or less. As other characteristics, the dielectric loss tan δ is 2.5% or less and the insulation resistance (I
R) is 10 4 MΩ or more, and a dielectric ceramic composition having a tan δ of 3% or less when an AC voltage of 2000 V / cm is applied can be obtained.

【0048】これにより、例えば積層セラミックコンデ
ンサを上述の誘電体磁器組成物で構成した場合、温度特
性に優れた小型・大容量のコンデンサを得ることがで
き、しかも焼成温度が1300℃以下となり、積層され
たシート間に内部電極として、安価な銀−パラジウムを
使用することも可能で、安価な積層セラミックコンデン
サを得ることができる。
Thus, for example, when a laminated ceramic capacitor is made of the above-described dielectric ceramic composition, a small-sized and large-capacity capacitor excellent in temperature characteristics can be obtained, and the firing temperature is 1300 ° C. or less, and Inexpensive silver-palladium can be used as an internal electrode between the formed sheets, and an inexpensive multilayer ceramic capacitor can be obtained.

フロントページの続き (56)参考文献 特開 平3−112859(JP,A) 特開 昭61−99208(JP,A) 特開 平8−183658(JP,A) 特開 平8−151260(JP,A) 特開 平8−169759(JP,A) 特開 平7−187780(JP,A) (58)調査した分野(Int.Cl.7,DB名) C04B 35/42 - 35/50 CA(STN) REGISTRY(STN)Continuation of the front page (56) References JP-A-3-112859 (JP, A) JP-A-61-99208 (JP, A) JP-A-8-183658 (JP, A) JP-A-8-151260 (JP, A) JP-A-8-169759 (JP, A) JP-A-7-187780 (JP, A) (58) Fields investigated (Int. Cl. 7 , DB name) C04B 35/42-35/50 CA (STN) REGISTRY (STN)

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】BaTiO3100重量部に対して、Nb2
5を0.8〜2.5重量部、MgOを0.06〜0.
70重量部、La23を0.005〜0.520重量
部、MnOをMnCO3に換算して0.01〜0.30
重量部、ZnOを0.1〜0.5重量部、さらにSiO
2およびAl23のうち少なくとも一種を0.05〜
0.50重量部含有するとともに、ZnOとMgOの合
量に対するNb25のモル比が0.5〜2.2の範囲内
にあることを特徴とする誘電体磁器組成物。
(1) 100 parts by weight of BaTiO 3 and Nb 2
O 5 and 0.8 to 2.5 parts by weight, the MgO .06 to 0.
70 parts by weight, 0.005 to 0.520 parts by weight of La 2 O 3 and 0.01 to 0.30 of MnO converted to MnCO 3.
Parts by weight, 0.1 to 0.5 parts by weight of ZnO, and further SiO
0.05 at least one of the two and Al 2 O 3
Together containing 0.50 parts by weight, the dielectric ceramic composition the molar ratio of Nb 2 O 5 with respect to the total amount of ZnO and MgO, characterized in that the in the range of 0.5-2.2.
JP25334594A 1994-01-28 1994-10-19 Dielectric porcelain composition Expired - Fee Related JP3250917B2 (en)

Priority Applications (2)

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JP25334594A JP3250917B2 (en) 1994-10-19 1994-10-19 Dielectric porcelain composition
US08/545,459 US5650367A (en) 1994-01-28 1995-10-19 Dielectric ceramic composition

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP25334594A JP3250917B2 (en) 1994-10-19 1994-10-19 Dielectric porcelain composition

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JP3250917B2 true JP3250917B2 (en) 2002-01-28

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Publication number Priority date Publication date Assignee Title
CN104395977B (en) * 2012-07-10 2017-09-15 株式会社村田制作所 Laminated ceramic capacitor and its manufacture method
US11227717B2 (en) * 2019-06-17 2022-01-18 Samsung Electro-Mechanics Co., Ltd. Dielectric ceramic composition and multilayer ceramic capacitor comprising same
KR20190116141A (en) * 2019-07-24 2019-10-14 삼성전기주식회사 Dielectric ceramic composition and multilayer ceramic capacitor comprising the same

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