JPH09277159A - Polishing method and device - Google Patents
Polishing method and deviceInfo
- Publication number
- JPH09277159A JPH09277159A JP11836496A JP11836496A JPH09277159A JP H09277159 A JPH09277159 A JP H09277159A JP 11836496 A JP11836496 A JP 11836496A JP 11836496 A JP11836496 A JP 11836496A JP H09277159 A JPH09277159 A JP H09277159A
- Authority
- JP
- Japan
- Prior art keywords
- polishing
- polishing cloth
- cloth
- surface plate
- soft
- 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.)
- Withdrawn
Links
Landscapes
- Grinding And Polishing Of Tertiary Curved Surfaces And Surfaces With Complex Shapes (AREA)
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Mechanical Treatment Of Semiconductor (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、半導体装置の製造
に使用する半導体基板(ウエハ)や石英基板等の材料を
研磨するための研磨方法及びその装置に関するものであ
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a polishing method and apparatus for polishing materials such as semiconductor substrates (wafers) and quartz substrates used for manufacturing semiconductor devices.
【0002】[0002]
【従来の技術】例えば図12〜図14は、従来のこの種
の基板研磨装置100の構成例を示している。この基板
研磨装置100は、図示のようにウエハローダ101、
ウエハアンローダ102、主研磨用の定盤103、仕上
げ用の定盤104及び半導体ウエハWを保持する保持具
105を備えている。2. Description of the Related Art For example, FIGS. 12 to 14 show a configuration example of a conventional substrate polishing apparatus 100 of this type. This substrate polishing apparatus 100 includes a wafer loader 101,
A wafer unloader 102, a main polishing surface plate 103, a finishing surface plate 104, and a holder 105 for holding the semiconductor wafer W are provided.
【0003】主研磨用定盤103には、研磨速度や研磨
均一性を向上するために、発泡ウレタンから成る研磨布
又は硬質の不織布の研磨布、或いは発泡ウレタン研磨布
106aの下に軟質の不織布106bが敷設されて成る
2層構造の研磨布106(図14参照)が用いられる。
また、仕上げ研磨用定盤104には、柔らかい不織布等
から成る研磨布107が用いられる。それぞれの定盤1
03,104に対して、砥粒或いは純水等の液体供給部
108a,108bが付設されており、各液体供給部1
08a,108bから液体を流しながら研磨するように
なっている。The main polishing platen 103 has a polishing cloth made of urethane foam or a hard non-woven cloth, or a soft non-woven cloth under the urethane foam polishing cloth 106a, in order to improve the polishing speed and polishing uniformity. A polishing cloth 106 (see FIG. 14) having a two-layer structure formed by laying 106b is used.
A polishing cloth 107 made of a soft non-woven fabric or the like is used for the finish polishing surface plate 104. Each surface plate 1
03, 104 are provided with liquid supply parts 108a, 108b such as abrasive grains or pure water.
The polishing is performed while flowing the liquid from 08a and 108b.
【0004】保持具105は、半導体ウエハWをその被
研磨面を下側に向けて保持する。そして、半導体ウエハ
Wは、保持具105によって各研磨布106,107に
搬送される。一般的な研磨を行う場合、図15に示した
ように保持具105により半導体ウエハWを主研磨用定
盤103まで搬送し、この主研磨用定盤103上の研磨
布106によって、半導体ウエハWの表面を主研磨する
(図13参照)。この場合、ウエハ保持具105は半導
体ウエハWを回転駆動しており、また液体供給部108
aからは砥粒を滴下ながら研磨が行われる。The holder 105 holds the semiconductor wafer W with the surface to be polished facing downward. Then, the semiconductor wafer W is transferred to the polishing cloths 106 and 107 by the holder 105. When performing general polishing, the semiconductor wafer W is conveyed to the main polishing surface plate 103 by the holder 105 as shown in FIG. 15, and the semiconductor wafer W is moved by the polishing cloth 106 on the main polishing surface plate 103. The surface of is mainly polished (see FIG. 13). In this case, the wafer holder 105 rotationally drives the semiconductor wafer W, and the liquid supply unit 108.
From a, polishing is performed while dropping abrasive grains.
【0005】主研磨終了後の半導体ウエハWの被研磨面
には、砥粒及び研磨かす等が多量に付着しており、小さ
い傷も多量に付き易い。そこで次に、図16のように保
持具105によって半導体ウエハWを仕上げ研磨用定盤
104まで搬送し、柔らかい研磨布107によって半導
体ウエハWの仕上げ研磨を行うことで砥粒や傷を除去す
る。なおこの場合、仕上げ研磨用定盤104も主研磨用
定盤103と同様回転しており、液体供給部49bから
液体を滴下しながら仕上げ研磨を行う。After the main polishing is finished, a large amount of abrasive grains and polishing dust adhere to the surface to be polished of the semiconductor wafer W, and a large number of small scratches are easily attached. Therefore, next, as shown in FIG. 16, the semiconductor wafer W is conveyed to the finish polishing surface plate 104 by the holder 105, and the semiconductor wafer W is finish-polished by the soft polishing cloth 107 to remove the abrasive grains and scratches. In this case, the finish polishing surface plate 104 is also rotating similarly to the main polishing surface plate 103, and the finish polishing is performed while dropping the liquid from the liquid supply portion 49b.
【0006】かかる研磨方法を更に改善するために、例
えば特開平6−208980号公報に記載によれば、図
17に示したように硬質の研磨布110に多数の穴11
0aを穿設すると共に、各穴110aに軟質の研磨布1
11を埋め込んで成る研磨布109を用いる。この方法
によれば、軟質の研磨布111によって引っかき傷等を
取り除くというものである。なお、図17において、半
導体ウエハWを保持具105′によって保持し、定盤1
03′上でその半導体ウエハWの表面研磨を行うものと
する。In order to further improve such a polishing method, for example, according to Japanese Patent Laid-Open No. 6-208980, a hard polishing cloth 110 is provided with a large number of holes 11 as shown in FIG.
0a is drilled and a soft polishing cloth 1 is provided in each hole 110a.
A polishing cloth 109 in which 11 is embedded is used. According to this method, scratches and the like are removed by the soft polishing cloth 111. In addition, in FIG. 17, the semiconductor wafer W is held by a holder 105 ′, and
The surface of the semiconductor wafer W is polished on 03 '.
【0007】[0007]
【発明が解決しようとする課題】しかしながら、上述し
たような従来の研磨装置では、半導体ウエハWの研磨を
行うために2つの定盤、即ち主研磨用定盤103及び仕
上げ研磨用定盤104を備えている。このため研磨装置
が大きく嵩張ってしまい、半導体装置の製造現場におけ
る装置占有面積が大きくならざるを得なかった。また、
半導体ウエハWは上述のように研磨終了までに主研磨用
定盤103及び仕上げ研磨用定盤104間を搬送される
ため、スループットが大きくなる。更に、研磨布につい
ても、2種類のものを準備する必要から、研磨コストが
増大する等の問題があった。However, in the conventional polishing apparatus as described above, two polishing plates, that is, the main polishing polishing plate 103 and the finish polishing polishing plate 104, are used to polish the semiconductor wafer W. I have it. For this reason, the polishing apparatus becomes large and bulky, and the area occupied by the apparatus at the semiconductor device manufacturing site must be increased. Also,
As described above, the semiconductor wafer W is transported between the main polishing surface plate 103 and the final polishing surface plate 104 by the end of polishing, so that the throughput is increased. Further, as for the polishing cloth, it is necessary to prepare two kinds of polishing cloths, which causes a problem that the polishing cost increases.
【0008】また、前述の特開平6−208980号公
報に係る研磨方法では、半導体ウエハWはその研磨中に
必ず硬質の研磨布110と接触するため、そのままでは
半導体ウエハWの表面に引っかき傷が生じる。また、1
台の定盤103′のみでは仕上げ研磨を行うことができ
ないため仕上げ研磨用の定盤が必要となり、従ってこの
場合にも装置の大型化等が問題となる。Further, in the polishing method according to the above-mentioned Japanese Patent Laid-Open No. 6-208980, the semiconductor wafer W always comes into contact with the hard polishing cloth 110 during polishing, so that the surface of the semiconductor wafer W is not scratched. Occurs. Also, 1
Since it is not possible to perform the final polishing only with the surface plate 103 'of the table, a surface plate for the final polishing is required, and in this case, too, there is a problem in that the size of the apparatus is increased.
【0009】そこで本発明の目的は、単一の定盤にて最
終研磨まで行い得ると同時に、装置のコンパクトを有効
に実現する研磨方法及びその装置を提供することであ
る。SUMMARY OF THE INVENTION An object of the present invention is to provide a polishing method and an apparatus which can perform final polishing with a single platen and at the same time effectively realize compactness of the apparatus.
【0010】[0010]
【課題を解決するための手段】本発明の研磨方法は、保
持具に保持された被研磨物と定盤との間に研磨布を介在
させながら、前記被研磨物の表面を研磨してその平坦な
表面形状を形成するようにした研磨方法であって、前記
定盤に設けた硬質研磨布で研磨を行う第1の研磨工程
と、第1の工程終了後、前記定盤に設けた軟質研磨布で
仕上げ研磨を行う第2の研磨工程を有する。According to the polishing method of the present invention, the surface of the object to be polished is polished by interposing a polishing cloth between the object to be polished held by the holder and the surface plate. A polishing method for forming a flat surface shape, comprising a first polishing step of polishing with a hard polishing cloth provided on the surface plate, and a soft surface provided on the surface plate after the first step. It has a second polishing step of performing final polishing with a polishing cloth.
【0011】また、本発明の研磨装置は、被研磨物を保
持する保持具と、この保持具に対向するように設けた定
盤と、この定盤上に設けた前記被研磨物を研磨するため
の研磨布と、を備えた研磨装置であって、前記研磨布
は、少なくとも中心部とその外周部とに配置された性状
の異なる複数の研磨布により構成される。Further, the polishing apparatus of the present invention polishes the holder for holding the object to be polished, the surface plate provided so as to face the holder, and the object to be polished provided on the surface plate. And a polishing cloth for polishing the polishing cloth. The polishing cloth is composed of a plurality of polishing cloths having different properties arranged at least in the central portion and the outer peripheral portion thereof.
【0012】或いはまた、本発明の研磨装置は、被研磨
物を保持する保持具と、この保持具に対向するように設
けた定盤と、この定盤上に設けた前記被研磨物を研磨す
るための研磨布と、を備えた研磨装置であって、前記研
磨布は、中心部に配置された軟質研磨布と、この軟質研
磨布の外周に沿って配置された硬質研磨布と、により構
成される。Alternatively, in the polishing apparatus of the present invention, a holder for holding an object to be polished, a surface plate provided so as to face the holder, and the object to be polished provided on the surface plate are polished. A polishing cloth for, which is a polishing device, wherein the polishing cloth, a soft polishing cloth arranged in the center, and a hard polishing cloth arranged along the outer periphery of the soft polishing cloth, Composed.
【0013】また、本発明の研磨装置において、前記軟
質研磨布の外周に沿って、硬質研磨布及び軟質研磨布か
ら成る積層研磨布を具備する。Further, in the polishing apparatus of the present invention, a laminated polishing cloth composed of a hard polishing cloth and a soft polishing cloth is provided along the outer periphery of the soft polishing cloth.
【0014】また、本発明の研磨装置において、前記軟
質研磨布の外周に沿って、硬質研磨布及び軟質研磨布が
交互に配置されて成る研磨布を具備する。The polishing apparatus of the present invention further comprises a polishing cloth in which hard polishing cloths and soft polishing cloths are alternately arranged along the outer periphery of the soft polishing cloth.
【0015】[0015]
【作用】本発明の研磨装置は、1つの定盤とこの定盤に
設置された軟質研磨布及び硬質研磨布から成る1枚の研
磨布と被研磨材を保持する保持具とを具備する。この研
磨装置を使用する本発明の研磨方法おいて、先ず1つの
定盤上に配置された外側の硬質研磨布に半導体ウエハを
搬送し、この硬質研磨布によって半導体ウエハを研磨す
る。この硬質研磨布による主研磨後、半導体ウエハを中
央部の軟質研磨布に搬送し、この軟質研磨布の部分で仕
上げ研磨を行う。The polishing apparatus of the present invention comprises one surface plate, one piece of polishing cloth composed of a soft polishing cloth and a hard polishing cloth, and a holder for holding a material to be polished, which is installed on the surface plate. In the polishing method of the present invention using this polishing apparatus, first, a semiconductor wafer is transferred to an outer hard polishing cloth arranged on one surface plate, and the semiconductor wafer is polished by this hard polishing cloth. After the main polishing with this hard polishing cloth, the semiconductor wafer is transferred to the soft polishing cloth in the central portion, and the final polishing is performed with this soft polishing cloth.
【0016】[0016]
【作用】本発明によれば、このように1つの定盤上に硬
質研磨布と軟質研磨布を配置することで、1つの定盤で
ありながら、半導体ウエハの主研磨から仕上げ研磨を行
うことができる。つまり、主研磨用定盤と仕上げ研磨用
定盤を別個に備えた研磨装置と実質的に同等の効果が得
られる。従って装置の工場における占有面積を減らすこ
とになり、且つ必要な研磨布の量を2枚から1枚に減ら
すことができるため、半導体装置の製造コストを低減す
ることができる。According to the present invention, by arranging the hard polishing cloth and the soft polishing cloth on one surface plate in this way, it is possible to perform the main polishing to the final polishing of the semiconductor wafer with one surface plate. You can That is, an effect substantially equivalent to that of the polishing apparatus having the main polishing platen and the finish polishing platen separately is obtained. Therefore, the area occupied by the device in the factory is reduced, and the required amount of polishing cloth can be reduced from two to one, so that the manufacturing cost of the semiconductor device can be reduced.
【0017】[0017]
【発明の実施の形態】以下、図1〜図6に基づき、本発
明による基板研磨方法及びその装置の第1の実施形態を
説明する。図1及び図2は、この実施形態における研磨
装置1の構成例を示している。この基板研磨装置1は、
図示のようにウエハローダ2、ウエハアンローダ3、定
盤4、半導体ウエハWを保持するための保持具5及び研
磨液体供給用ノズル6を備えている。定盤4上には本実
施形態に係る研磨布10が設置されている。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of a substrate polishing method and apparatus according to the present invention will be described below with reference to FIGS. 1 and 2 show a configuration example of the polishing apparatus 1 in this embodiment. This substrate polishing apparatus 1 is
As shown in the figure, the wafer loader 2, the wafer unloader 3, the surface plate 4, the holder 5 for holding the semiconductor wafer W, and the polishing liquid supply nozzle 6 are provided. The polishing cloth 10 according to the present embodiment is installed on the surface plate 4.
【0018】保持具5は、半導体ウエハWを定盤4まで
搬送し、その半導体ウエハWの被研磨面Waが研磨布1
0側に対向するように該半導体ウエハWを保持する。保
持具5は、保持した半導体ウエハWを回転させることが
でき、定盤4も回転可能に構成されている。例えば保持
具5は、半導体ウエハWを保持して矢印A方向に回転さ
せると共に、定盤4は、矢印B方向に回転可能になって
いる(図2)。The holder 5 conveys the semiconductor wafer W to the surface plate 4, and the surface Wa to be polished of the semiconductor wafer W is the polishing cloth 1.
The semiconductor wafer W is held so as to face the 0 side. The holding tool 5 can rotate the held semiconductor wafer W, and the surface plate 4 is also rotatable. For example, the holder 5 holds the semiconductor wafer W and rotates it in the direction of arrow A, and the surface plate 4 is rotatable in the direction of arrow B (FIG. 2).
【0019】ここで、上記研磨布10は、定盤4の直径
が例えば90cm程度である場合、図3に示したように
直径30cm程度の円形の不織布又はウレタン等で形成
した軟質研磨布11とこの軟質研磨布11の同心円外側
に設けた30cm程度の幅の発泡ウレタン系の硬質研磨
布12とにより構成される。また、図4に示したように
軟質研磨布11の同心円外側に硬質研磨布14と軟質研
磨布15を張り合わて積層構造として成る研磨布13を
設けるようにしてもよい。なお、これら軟質研磨布11
と硬質研磨布12もしくは研磨布13と割合はこの限り
ではない。Here, when the surface plate 4 has a diameter of, for example, about 90 cm, the polishing cloth 10 has a soft polishing cloth 11 formed of a circular non-woven fabric or urethane having a diameter of about 30 cm as shown in FIG. This soft polishing cloth 11 is constituted by a urethane foam hard polishing cloth 12 having a width of about 30 cm, which is provided outside the concentric circles. Further, as shown in FIG. 4, a hard polishing cloth 14 and a soft polishing cloth 15 may be laminated on the outer side of the concentric circle of the soft polishing cloth 11 to provide the polishing cloth 13 having a laminated structure. In addition, these soft polishing cloths 11
The ratio to the hard polishing cloth 12 or the polishing cloth 13 is not limited to this.
【0020】本実施形態において研磨に用いる砥液、薬
液及び純水等の複数の液体を供給できるように複数の研
磨液体供給用ノズル6が設けられる。この例では、図2
の図示例のように2つの研磨液体供給用ノズル6a,6
bが定盤4の中心部直上と、軟質研磨布11及び硬質研
磨布12の境界部直上との2箇所に設置される。In this embodiment, a plurality of polishing liquid supply nozzles 6 are provided so that a plurality of liquids such as a polishing liquid, a chemical liquid and pure water used for polishing can be supplied. In this example, FIG.
Two polishing liquid supply nozzles 6a, 6 as shown in FIG.
b is installed at two locations, that is, directly above the center of the surface plate 4 and immediately above the boundary between the soft polishing cloth 11 and the hard polishing cloth 12.
【0021】次に、上記のように構成された研磨装置1
において、半導体ウエハWを研磨する方法の一例を説明
する。先ず、主研磨を行う場合、図5に示したように保
持具5によりウエハローダ2から半導体ウエハWを定盤
4上の研磨布12まで搬送する。そして、研磨液体供給
用ノズル6bから所定の研磨液体を滴下しながら研磨が
行われる。このとき保持具5によって半導体ウエハWを
回転させると共に、定盤4も回転する(図5(B))。Next, the polishing apparatus 1 configured as described above
In, an example of a method for polishing the semiconductor wafer W will be described. First, when main polishing is performed, the semiconductor wafer W is transported from the wafer loader 2 to the polishing cloth 12 on the surface plate 4 by the holder 5 as shown in FIG. Then, polishing is performed while dropping a predetermined polishing liquid from the polishing liquid supply nozzle 6b. At this time, the semiconductor wafer W is rotated by the holder 5 and the surface plate 4 is also rotated (FIG. 5 (B)).
【0022】硬質研磨布12による主研磨が終了した後
の半導体ウエハWの表面には、多量の砥粒が付着してい
るため、そのままでは次工程の洗浄で異物が落ちきれな
いことがある。また、多数の引っかき傷が生じている場
合には、製造された半導体装置の欠陥の原因となる。Since a large amount of abrasive grains are attached to the surface of the semiconductor wafer W after the main polishing with the hard polishing cloth 12 is completed, foreign matter may not be completely removed by the cleaning in the next step as it is. Further, if a large number of scratches are generated, it may cause defects in the manufactured semiconductor device.
【0023】そこで、保持具5により図6に示したよう
に更に半導体ウエハWを定盤4上の研磨布11まで搬送
する。この場合、研磨液体供給用ノズル6aから所定の
研磨液体(純水、アルカリ等の薬液)を滴下しながら仕
上げ研磨が行われる。この仕上げ研磨によって半導体ウ
エハWの表面に付着している異物や引っかき傷をなくす
ことができる。仕上げ研磨された半導体ウエハWは次
に、保持具5によってアンローダ3へ搬送される。Therefore, the semiconductor wafer W is further transported by the holder 5 to the polishing cloth 11 on the surface plate 4 as shown in FIG. In this case, the final polishing is performed while dropping a predetermined polishing liquid (pure water, chemical liquid such as alkali) from the polishing liquid supply nozzle 6a. By this finish polishing, foreign matters and scratches attached to the surface of the semiconductor wafer W can be eliminated. The semiconductor wafer W that has been finish-polished is then transported to the unloader 3 by the holder 5.
【0024】以上の工程により半導体ウエハWの研磨が
終了する。研磨装置1によって上記のように研磨を行う
ことにより、引っかき傷等のない平坦で均一な研磨表面
を得ることができる。この場合、研磨装置1においては
単一の定盤4のみを備えており、このように必要な定盤
数が1台に削減できるばかりでなく、研磨装置1の工場
における占有面積を減らすことができる。また、定盤4
が1台に減るため、研磨に必要な研磨布10の数も半分
に減らすことができるため、プロセスコストを格段に易
くすることができる。The polishing of the semiconductor wafer W is completed by the above steps. By performing the polishing with the polishing apparatus 1 as described above, it is possible to obtain a flat and uniform polished surface without scratches and the like. In this case, the polishing apparatus 1 is provided with only a single surface plate 4, so that not only the required number of surface plates can be reduced to one, but also the area occupied by the polishing apparatus 1 in the factory can be reduced. it can. Also, surface plate 4
Since the number of polishing pads is reduced to one, the number of polishing cloths 10 required for polishing can be reduced to half, so that the process cost can be remarkably facilitated.
【0025】次に、本発明における第2の実施形態を説
明する。図7は、この実施形態における研磨布20の構
成例を示している。なお、研磨装置1の構成について
は、前述の第1の実施形態の場合と実質的に同様である
ため、その詳細な説明は省略するものとする。Next, a second embodiment of the present invention will be described. FIG. 7 shows a configuration example of the polishing pad 20 in this embodiment. The structure of the polishing apparatus 1 is substantially the same as that of the first embodiment described above, and thus detailed description thereof will be omitted.
【0026】第2の実施形態における研磨布20におい
て、定盤4の直径が例えば60cm程度である場合、図
7に示したように定盤4と直径程度の大きさとした軟質
研磨布21のほぼ半径1/2よりも外周部分が、半分程
度の厚さまでくり抜かれる。そして、このくり抜いた部
分に硬質研磨布23を張り合わせて成る研磨布22を構
成し、即ちこの研磨布22は軟質研磨布21の外周部と
硬質研磨布23を張り合わせた積層構造となっている。In the polishing cloth 20 of the second embodiment, when the surface plate 4 has a diameter of, for example, about 60 cm, as shown in FIG. The outer peripheral portion is cut out to a thickness of about half the radius of 1/2. A hard polishing cloth 23 is attached to the hollowed-out portion to form a polishing cloth 22, that is, the polishing cloth 22 has a laminated structure in which the outer peripheral portion of the soft polishing cloth 21 and the hard polishing cloth 23 are bonded together.
【0027】この第2の実施形態では、半導体ウエハW
の主研磨を行う場合、保持具5により半導体ウエハWを
定盤4上の研磨布22まで搬送する。そして、前述の第
1の実施形態と同様に研磨液体供給用ノズル6bから所
定の研磨液体を滴下しながら研磨が行われる。この場
合、研磨布22の上層部を硬質研磨布23により、また
下層部を軟質研磨布21によりそれぞれ形成すること
で、硬質研磨布23によってチップ内均一性を向上させ
ると共に、軟質研磨布21によって半導体ウエハW内の
均一性を向上させることができる。In the second embodiment, the semiconductor wafer W
In the case of performing the main polishing of, the semiconductor wafer W is transported to the polishing cloth 22 on the surface plate 4 by the holder 5. Then, similarly to the above-described first embodiment, polishing is performed while dropping a predetermined polishing liquid from the polishing liquid supply nozzle 6b. In this case, by forming the upper layer portion of the polishing cloth 22 by the hard polishing cloth 23 and the lower layer portion by the soft polishing cloth 21, respectively, the hard polishing cloth 23 improves the uniformity in the chip and the soft polishing cloth 21 The uniformity within the semiconductor wafer W can be improved.
【0028】硬質研磨布22による主研磨が終了した
後、更に半導体ウエハWを同一定盤4の中心に設置され
た研磨布21まで搬送する。研磨布21による仕上げ研
磨によって半導体ウエハWの表面に付着している異物や
引っかき傷をなくすことができる。第2の実施形態にお
いても、必要な定盤数が1台で済み、研磨装置1の工場
における占有面積を減らすことができる。また、定盤4
が1台に減るため、研磨に必要な研磨布20の数も半分
に減らすことができるため、プロセスコストを格段に易
くすることができる。After the main polishing with the hard polishing cloth 22 is completed, the semiconductor wafer W is further conveyed to the polishing cloth 21 installed at the center of the fixed platen 4. By the final polishing with the polishing cloth 21, it is possible to eliminate foreign matters and scratches attached to the surface of the semiconductor wafer W. Also in the second embodiment, only one plate is required, and the area occupied by the polishing apparatus 1 in the factory can be reduced. Also, surface plate 4
Since the number of polishing pads 20 is reduced to one, the number of polishing cloths 20 required for polishing can be reduced to half, so that the process cost can be remarkably facilitated.
【0029】なお、研磨布20における特に研磨布22
が、軟質研磨布21及び硬質研磨布23により2層構造
で構成される例を説明したが、必要に応じて3層以上の
積層構造としてもよい。In the polishing cloth 20, especially the polishing cloth 22
However, an example in which the soft polishing cloth 21 and the hard polishing cloth 23 have a two-layer structure has been described, but a laminated structure of three or more layers may be used if necessary.
【0030】次に、本発明における第3の実施形態を説
明する。図8及び図9は、この実施形態における要部構
成例を示している。なお、研磨装置1の構成について
は、前述の第1及び第2の実施形態の場合と実質的に同
様であるため、その詳細な説明は省略するものとする。Next, a third embodiment of the present invention will be described. FIG. 8 and FIG. 9 show an example of the main part configuration in this embodiment. The configuration of the polishing apparatus 1 is substantially the same as that of the first and second embodiments described above, and thus detailed description thereof will be omitted.
【0031】第3の実施形態における研磨布30におい
て、定盤4の中央部にほぼ対応するように軟質研磨布3
1が配置されると共に、この軟質研磨布31の外側に硬
質研磨布32が配置される。この例では、軟質研磨布3
1は、図示のように角の尖った形、即ち例えば星形に形
成されている。軟質研磨布31の尖端部は、定盤4のエ
ッジ部分まで延出している。硬質研磨布32は、軟質研
磨布31の尖った部分との間を埋めるようして外周が円
形になるように形成されている。In the polishing cloth 30 according to the third embodiment, the soft polishing cloth 3 is provided so as to substantially correspond to the central portion of the surface plate 4.
1 is arranged, and a hard polishing cloth 32 is arranged outside the soft polishing cloth 31. In this example, the soft polishing cloth 3
1 is formed in a shape with sharp corners as shown, that is, a star shape, for example. The tip of the soft polishing cloth 31 extends to the edge of the surface plate 4. The hard polishing cloth 32 is formed to have a circular outer periphery so as to fill the space between the hard polishing cloth 32 and the pointed portion of the soft polishing cloth 31.
【0032】この第3の実施形態でも2つの研磨液体供
給用ノズル6a,6bが設けられ、即ち研磨液体供給用
ノズル6aは定盤4の中心部付近に、また研磨液体供給
用ノズル6bは定盤4の中心部及びそのエッジ部の中間
位置付近にそれぞれ配置される。Also in this third embodiment, two polishing liquid supply nozzles 6a and 6b are provided, that is, the polishing liquid supply nozzle 6a is near the center of the surface plate 4, and the polishing liquid supply nozzle 6b is fixed. They are arranged in the center of the board 4 and in the vicinity of an intermediate position between the edges thereof.
【0033】上記の場合、硬質研磨布32において、第
1の実施形態と同様に(図4参照)下層に軟質研磨布を
設け、即ち硬質研磨布及び軟質研磨布の積層構造で成る
研磨布を使用してもよい。In the above case, in the hard polishing cloth 32, as in the first embodiment (see FIG. 4), a soft polishing cloth is provided as the lower layer, that is, a polishing cloth having a laminated structure of a hard polishing cloth and a soft polishing cloth. May be used.
【0034】次に、第3の実施形態による研磨装置1に
おいて、半導体ウエハWを研磨する方法の一例を説明す
る。先ず、主研磨を行う場合、図10に示したように保
持具5によりウエハローダ2から半導体ウエハWを定盤
4上の研磨布30まで搬送する。この場合、軟質研磨布
31と硬質研磨布32が円周に沿って交互に配置される
領域に搬送するものとする。そして、研磨液体供給用ノ
ズル6bから所定の研磨液体を滴下しながら研磨が行わ
れる。このとき保持具5によって半導体ウエハWを回転
させると共に、定盤4も回転する。Next, an example of a method for polishing the semiconductor wafer W in the polishing apparatus 1 according to the third embodiment will be described. First, when performing main polishing, as shown in FIG. 10, the semiconductor wafer W is transported from the wafer loader 2 to the polishing cloth 30 on the surface plate 4 by the holder 5. In this case, it is assumed that the soft polishing cloth 31 and the hard polishing cloth 32 are conveyed to a region alternately arranged along the circumference. Then, polishing is performed while dropping a predetermined polishing liquid from the polishing liquid supply nozzle 6b. At this time, the semiconductor wafer W is rotated by the holder 5 and the surface plate 4 is also rotated.
【0035】半導体ウエハWを回転させることで、該半
導体ウエハWは軟質研磨布31及び硬質研磨布32によ
って交互に研磨されるため、硬質研磨布32によるチッ
プ内の均一性の向上効果と、軟質研磨布31によるウエ
ハ内の均一性の向上効果とを両立させることができる。When the semiconductor wafer W is rotated, the semiconductor wafer W is alternately polished by the soft polishing cloth 31 and the hard polishing cloth 32. Therefore, the effect of improving the uniformity in the chip by the hard polishing cloth 32 and the softness It is possible to achieve both the effect of improving the uniformity within the wafer by the polishing cloth 31.
【0036】主研磨が終了した後の半導体ウエハWの表
面には、多量の砥粒が付着しているため、そのままでは
次工程の洗浄で異物が落ちきれないことがある。また、
多数の引っかき傷が生じている場合には、製造された半
導体装置の欠陥の原因となる。Since a large amount of abrasive grains are attached to the surface of the semiconductor wafer W after the main polishing is completed, the foreign matter may not be completely removed by the cleaning in the next step as it is. Also,
If many scratches occur, it may cause defects in the manufactured semiconductor device.
【0037】そこで、保持具5により図11に示したよ
うに更に半導体ウエハWを定盤4上の中央部まわりに位
置する研磨布31まで搬送する。この場合、研磨液体供
給用ノズル6aから所定の研磨液体(純水、アルカリ等
の薬液)を滴下しながら仕上げ研磨が行われる。この仕
上げ研磨によって半導体ウエハWの表面に付着している
異物や引っかき傷をなくすことができる。仕上げ研磨さ
れた半導体ウエハWは次に、保持具5によってアンロー
ダ3へ搬送される。Then, the semiconductor wafer W is further transported by the holder 5 to the polishing cloth 31 located around the central portion of the surface plate 4 as shown in FIG. In this case, the final polishing is performed while dropping a predetermined polishing liquid (pure water, chemical liquid such as alkali) from the polishing liquid supply nozzle 6a. By this finish polishing, foreign matters and scratches attached to the surface of the semiconductor wafer W can be eliminated. The semiconductor wafer W that has been finish-polished is then transported to the unloader 3 by the holder 5.
【0038】以上の工程により半導体ウエハWの研磨が
終了する。研磨装置1によって上記のように研磨を行う
ことにより、引っかき傷等のない平坦で均一な研磨表面
を得ることができる。この場合、研磨装置1においては
単一の定盤4のみを備えており、このように必要な定盤
数が1台に削減できるばかりでなく、研磨装置1の工場
における占有面積を減らすことができる。また、定盤4
が1台に減るため、研磨に必要な研磨布30の数も半分
に減らすことができるため、プロセスコストを格段に易
くすることができる。The polishing of the semiconductor wafer W is completed by the above steps. By performing the polishing with the polishing apparatus 1 as described above, it is possible to obtain a flat and uniform polished surface without scratches and the like. In this case, the polishing apparatus 1 is provided with only a single surface plate 4, so that not only the required number of surface plates can be reduced to one, but also the area occupied by the polishing apparatus 1 in the factory can be reduced. it can. Also, surface plate 4
Since the number of polishing pads is reduced to one, the number of polishing cloths 30 required for polishing can be reduced to half, so that the process cost can be remarkably facilitated.
【0039】ここで、第三の実施形態では研磨布30を
構成する星型の軟質研磨布31を用いる例を説明した
が、軟質研磨布31と硬質研磨布32とが半導体ウエハ
Wに交互に接触するような形であれば、図示例の星型に
限定されず、その他の形状を適宜採用することができ
る。Here, in the third embodiment, an example in which the star-shaped soft polishing cloth 31 constituting the polishing cloth 30 is used has been described, but the soft polishing cloth 31 and the hard polishing cloth 32 are alternately arranged on the semiconductor wafer W. The shape is not limited to the star shape in the illustrated example, and other shapes can be adopted as appropriate as long as they are in contact with each other.
【0040】なお、上記各実施形態において、硬質研磨
布に発泡ウレタンを、また軟質研磨布には不織布を使用
する例を説明したが、その他の材料により硬質研磨布或
いは軟質研磨布を形成することができる。また、被研磨
材としては、半導体ウエハの他にガラス及び金属等をは
じめ一般的に研磨する材料を用いてもよい。更に、本発
明では研磨布おける内側に軟質研磨布を、またその外側
に硬質研磨布を使用する例を説明したが、両者の配置関
係はかかる場合にのみ限定されるものでない。例えば、
硬質研磨布を内側に、軟質研磨布を外側に配置してもよ
く、必要に応じて適宜選択可能である。In each of the above-described embodiments, an example in which urethane foam is used as the hard polishing cloth and nonwoven fabric is used as the soft polishing cloth has been described, but the hard polishing cloth or the soft polishing cloth may be formed of other materials. You can In addition to the semiconductor wafer, materials to be generally polished such as glass and metal may be used as the material to be polished. Further, in the present invention, an example in which a soft polishing cloth is used on the inner side of the polishing cloth and a hard polishing cloth is used on the outer side thereof has been described, but the positional relationship between the two is not limited to this case. For example,
A hard polishing cloth may be placed on the inside and a soft polishing cloth may be placed on the outside, and it can be appropriately selected as necessary.
【0041】[0041]
【発明の効果】以上説明したように本発明によれば、1
台の定盤にて主研磨から仕上げ研磨までを一括的に行う
ことができるため、研磨装置の定盤を1台に削減できる
結果、研磨装置の工場における装置の占有面積を減らす
ことができ、省スペース化を有効に実現することができ
る。また、定盤が1台に減るため、研磨に必要な研磨布
の数も半分に減らすことができるため、プロセスコスト
を減らすことができる。その結果、製造コスト更には製
品コストを実質的に低減することが可能となる等の利点
がある。As described above, according to the present invention, 1
Since the main polishing to the final polishing can be performed collectively on the table of the table, the number of the table of the polishing device can be reduced to one, and the area occupied by the device in the factory of the polishing device can be reduced. Space saving can be effectively realized. Further, since the number of surface plates is reduced to one, the number of polishing cloths required for polishing can be reduced to half, so that the process cost can be reduced. As a result, there is an advantage that the manufacturing cost and the product cost can be substantially reduced.
【図1】本発明の第1の実施形態における研磨装置の平
面図である。FIG. 1 is a plan view of a polishing apparatus according to a first embodiment of the present invention.
【図2】本発明の第1の実施形態における研磨装置の側
断面図である。FIG. 2 is a side sectional view of the polishing apparatus according to the first embodiment of the present invention.
【図3】本発明の第1の実施形態に係る研磨布の平面図
及び側断面図である。FIG. 3 is a plan view and a side sectional view of the polishing cloth according to the first embodiment of the present invention.
【図4】本発明の第1の実施形態に係る研磨布の変形例
を示す平面図及び側断面図である。FIG. 4 is a plan view and a side sectional view showing a modified example of the polishing cloth according to the first embodiment of the present invention.
【図5】本発明の第1の実施形態における研磨装置の作
用を示す平面図及び側断面図である。5A and 5B are a plan view and a side sectional view showing the operation of the polishing apparatus according to the first embodiment of the present invention.
【図6】本発明の第1の実施形態における研磨装置の作
用を示す平面図及び側断面図である。6A and 6B are a plan view and a side sectional view showing the operation of the polishing apparatus according to the first embodiment of the present invention.
【図7】本発明の第2の実施形態に係る研磨布の平面図
及び側断面図である。FIG. 7 is a plan view and a side sectional view of a polishing cloth according to a second embodiment of the present invention.
【図8】本発明の第3の実施形態における研磨装置の平
面図である。FIG. 8 is a plan view of a polishing apparatus according to a third embodiment of the present invention.
【図9】本発明の第3の実施形態における研磨装置の側
面図である。FIG. 9 is a side view of a polishing apparatus according to a third embodiment of the present invention.
【図10】本発明の第3の実施形態における研磨装置の
作用を示す平面図である。FIG. 10 is a plan view showing the operation of the polishing apparatus according to the third embodiment of the present invention.
【図11】本発明の第3の実施形態における研磨装置の
作用を示す平面図である。FIG. 11 is a plan view showing the operation of the polishing apparatus according to the third embodiment of the present invention.
【図12】従来の研磨装置の構成例を示す平面図であ
る。FIG. 12 is a plan view showing a configuration example of a conventional polishing apparatus.
【図13】従来の研磨装置の構成例を示す側面図であ
る。FIG. 13 is a side view showing a configuration example of a conventional polishing apparatus.
【図14】従来の研磨装置に係る研磨布の側断面図であ
る。FIG. 14 is a side sectional view of a polishing cloth according to a conventional polishing apparatus.
【図15】従来の研磨装置における作用を示す平面図で
ある。FIG. 15 is a plan view showing the operation of the conventional polishing apparatus.
【図16】従来の研磨装置における作用を示す平面図で
ある。FIG. 16 is a plan view showing the operation of the conventional polishing apparatus.
【図17】従来の研磨装置の変形例を示す側断面図であ
る。FIG. 17 is a side sectional view showing a modified example of the conventional polishing apparatus.
1 研磨装置 2 ウエハローダ 3 ウエハアンローダ 4 定盤 5 保持具 6 研磨液体供給用ノズル 10,20,30 研磨布 W 半導体ウエハ 1 Polishing Device 2 Wafer Loader 3 Wafer Unloader 4 Surface Plate 5 Holder 6 Polishing Liquid Supply Nozzle 10, 20, 30 Polishing Cloth W Semiconductor Wafer
Claims (5)
間に研磨布を介在させながら、前記被研磨物の表面を研
磨してその平坦な表面形状を形成するようにした研磨方
法であって、 前記定盤に設けた硬質研磨布で研磨を行う第1の研磨工
程と、第1の工程終了後、前記定盤に設けた軟質研磨布
で仕上げ研磨を行う第2の研磨工程を有することを特徴
とする研磨方法。1. A polishing method in which a polishing cloth is interposed between an object to be polished held by a holder and a surface plate to polish the surface of the object to be polished to form a flat surface shape. A first polishing step for polishing with a hard polishing cloth provided on the surface plate, and a second polishing for performing final polishing with a soft polishing cloth provided on the surface plate after the first step is completed. A polishing method comprising the steps of:
具に対向するように設けた定盤と、この定盤上に設けた
前記被研磨物を研磨するための研磨布と、を備えた研磨
装置であって、 前記研磨布は、少なくとも中心部とその外周部とに配置
された性状の異なる複数の研磨布により構成されること
を特徴とする研磨装置。2. A holder for holding an object to be polished, a surface plate provided so as to face the holder, and a polishing cloth provided on the surface plate for polishing the object to be polished. A polishing apparatus provided with the polishing cloth, wherein the polishing cloth is composed of a plurality of polishing cloths having different properties arranged at least in a central portion and an outer peripheral portion thereof.
具に対向するように設けた定盤と、この定盤上に設けた
前記被研磨物を研磨するための研磨布と、を備えた研磨
装置であって、 前記研磨布は、中心部に配置された軟質研磨布と、この
軟質研磨布の外周に沿って配置された硬質研磨布と、に
より構成されることを特徴とする研磨装置。3. A holder for holding an object to be polished, a surface plate provided so as to face the holder, and a polishing cloth for polishing the object to be polished provided on the surface plate. A polishing apparatus provided with the polishing cloth, wherein the polishing cloth is composed of a soft polishing cloth arranged in a central portion and a hard polishing cloth arranged along an outer periphery of the soft polishing cloth. Polishing equipment.
磨布及び軟質研磨布から成る積層研磨布を具備すること
を特徴とする請求項3に記載の研磨装置。4. The polishing apparatus according to claim 3, further comprising a laminated polishing cloth made of a hard polishing cloth and a soft polishing cloth, which is provided along the outer periphery of the soft polishing cloth.
磨布及び軟質研磨布が交互に配置されて成る研磨布を具
備することを特徴とする請求項3に記載の研磨装置。5. The polishing apparatus according to claim 3, further comprising a polishing cloth in which hard polishing cloth and soft polishing cloth are alternately arranged along an outer circumference of the soft polishing cloth.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP11836496A JPH09277159A (en) | 1996-04-16 | 1996-04-16 | Polishing method and device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP11836496A JPH09277159A (en) | 1996-04-16 | 1996-04-16 | Polishing method and device |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH09277159A true JPH09277159A (en) | 1997-10-28 |
Family
ID=14734883
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP11836496A Withdrawn JPH09277159A (en) | 1996-04-16 | 1996-04-16 | Polishing method and device |
Country Status (1)
Country | Link |
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JP (1) | JPH09277159A (en) |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2001162534A (en) * | 1999-12-10 | 2001-06-19 | Lsi Logic Corp | Cmp slurry circulating device and cmp slurry circulating method |
JP2002217144A (en) * | 2000-12-28 | 2002-08-02 | Samsung Electronics Co Ltd | Structure of cmp pad and manufacturing method thereof |
KR100408537B1 (en) * | 1999-11-05 | 2003-12-06 | 엔이씨 일렉트로닉스 코포레이션 | Polishing process for use in method of fabricating semiconductor device |
JP2006324416A (en) * | 2005-05-18 | 2006-11-30 | Sumco Corp | Wafer-polishing apparatus and wafer-polishing method |
US9017146B2 (en) | 2012-12-04 | 2015-04-28 | Fujikoshi Machinery Corp. | Wafer polishing apparatus |
WO2016031142A1 (en) * | 2014-08-27 | 2016-03-03 | 株式会社フジミインコーポレーテッド | Tool and method for polishing member having curved surface shape |
JP2017013183A (en) * | 2015-07-01 | 2017-01-19 | 不二越機械工業株式会社 | Polishing device |
-
1996
- 1996-04-16 JP JP11836496A patent/JPH09277159A/en not_active Withdrawn
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100408537B1 (en) * | 1999-11-05 | 2003-12-06 | 엔이씨 일렉트로닉스 코포레이션 | Polishing process for use in method of fabricating semiconductor device |
JP2001162534A (en) * | 1999-12-10 | 2001-06-19 | Lsi Logic Corp | Cmp slurry circulating device and cmp slurry circulating method |
JP4657412B2 (en) * | 1999-12-10 | 2011-03-23 | エルエスアイ コーポレーション | Apparatus and method for polishing a semiconductor wafer |
JP2002217144A (en) * | 2000-12-28 | 2002-08-02 | Samsung Electronics Co Ltd | Structure of cmp pad and manufacturing method thereof |
JP2006324416A (en) * | 2005-05-18 | 2006-11-30 | Sumco Corp | Wafer-polishing apparatus and wafer-polishing method |
US9017146B2 (en) | 2012-12-04 | 2015-04-28 | Fujikoshi Machinery Corp. | Wafer polishing apparatus |
WO2016031142A1 (en) * | 2014-08-27 | 2016-03-03 | 株式会社フジミインコーポレーテッド | Tool and method for polishing member having curved surface shape |
JP2016047565A (en) * | 2014-08-27 | 2016-04-07 | 株式会社フジミインコーポレーテッド | Polishing tool and polishing method of member having curved surface |
US10434622B2 (en) | 2014-08-27 | 2019-10-08 | Fujimi Incorporated | Polishing tool and polishing method for member having curved surface shape |
JP2017013183A (en) * | 2015-07-01 | 2017-01-19 | 不二越機械工業株式会社 | Polishing device |
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Legal Events
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A300 | Withdrawal of application because of no request for examination |
Free format text: JAPANESE INTERMEDIATE CODE: A300 Effective date: 20030701 |