KR200298459Y1 - Structure for preventing infect of wafer in chamber - Google Patents

Abstract

It is an object of the present invention to provide a wafer contamination prevention structure of a chamber which reduces wafer contamination by particles remaining on a substrate support inside the chamber and prevents the wafer seated on the substrate support from slipping.

The pollution prevention structure of the present invention, the source gas is introduced into the interior of the inside and heat can be applied to the wafer to be loaded therein, in the chamber in which the substrate support for mounting the wafer is installed, the substrate support in the wafer A bottom surface forms a seating surface in contact with the edge.

Description

Structure for preventing infect of wafer in chamber

The present invention relates to a chamber that is a semiconductor manufacturing equipment, and more particularly to a structure for preventing contamination of a wafer seated inside the chamber.

In general, a chemical vapor deposition apparatus is a device in which a wafer is placed in a reaction chamber (chamber) that is blocked from the outside, and reacts the gas supplied to the reaction chamber with the wafer by heat, plasma, light, or any energy.

In general, the wafer is classified into a sheet processing type and a batch type processing a plurality of wafers simultaneously according to the type of wafer processing.

Here, the sheet processing type shows poor performance in terms of productivity, but the process is somewhat more stable and easier to process than the batch type when configuring the equipment.

As a result, sheet-type equipment may be configured as a multi-type that can process multiple wafers to improve productivity.

1 is a side view schematically showing a structure in which a wafer is seated in a conventional chamber.

The chamber 1 has a substrate support 2, a heater and a cooling device installed therein, and injects source gas for deposition into the chamber 1 with the wafer W seated on the substrate support 2. After the heat is applied to the oxide film is deposited on the surface of the wafer (W).

In this process, since the particles can penetrate into the chamber during the process such as opening the lid of the chamber or when the wafer enters the chamber, the washing process is performed in the middle of the process.

However, since the wafer proceeds in the deposition process with its back surface being in contact with the surface of the substrate support, there is a problem that some unremoved particles in the chamber remain on the surface of the substrate support and contaminate the wafer. .

The present invention has been proposed to solve these problems of the prior art, which reduces the contamination of the wafer by particles remaining on the substrate support inside the chamber and prevents the wafer from slipping on the substrate support. To provide a wafer contamination prevention structure.

1 is a side view schematically showing a structure in which a wafer is seated in a conventional chamber.

2 is a side view schematically showing a wafer contamination prevention structure of a chamber according to the present invention.

The pollution prevention structure of the present invention for achieving the above-described technical problem, the source gas is injected into the inside of itself and the heat can be applied to the wafer is inserted into the chamber, the substrate support for mounting the wafer therein is installed in the chamber In the substrate support, a seating surface is formed in contact with the bottom edge of the wafer.

And it is preferable to form a departure prevention jaw on the seating surface corresponding to a position close to the outer surface of the wafer.

Hereinafter, a preferred embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a side view schematically showing a wafer contamination prevention structure of a chamber according to the present invention.

One side of the chamber 11 is connected to the gas inlet line 12 for supplying the source gas for deposition, the gas inlet line 12 to adjust the amount of the source gas to be introduced by installing a gas control valve.

An exhaust gas line 13 is installed at the lower portion of the chamber 11, and an exhaust gas control valve is installed in the exhaust gas line 13 to adjust the amount of gas discharged.

In addition, a heater 15 for applying heat during deposition is installed in the substrate support 14.

In order to cool the inside of the chamber 11 heated by the heater 15, a cooling device (not shown) for cooling the chamber 11 is provided inside the wall of the chamber 11.

The chamber 11 is provided with a substrate support 14 on which a wafer W is placed, and the substrate support 14 has a step lower than the surface of the substrate support 14 on its upper surface. Is formed.

The space 16 is formed such that the distance from the lower surface of the wafer W is as close as possible so that the heat transfer effect is great when the wafer W is heated by using the heater 15 provided on the substrate support 14.

The surface of the substrate support 14 along the edge of the space 16 becomes a seating surface that supports the bottom edge of the wafer W. As shown in FIG.

In addition, an anti-separation jaw 17 is formed on the seating surface to prevent the wafer W from slipping or leaving the substrate support 14.

The pollution prevention structure of the chamber according to the present invention configured as described above exhibits the following actions.

When the wafer W charged into the chamber 11 is seated on the seating surface of the substrate support 14, only the bottom edge of the wafer W is in contact with the seating surface, so that most of the bottom surface of the wafer W is in contact with the seating surface. It is not in contact with the surface of the substrate support 14.

Therefore, the particle remaining on the surface of the substrate support 14 in the process of depositing the oxide film is less likely to come into contact with the wafer (W), thereby preventing the contamination of the wafer.

The outer circumferential surface of the wafer is in a state close to the separation prevention jaw to prevent the wafer from being separated from the substrate support.

As described above, according to the contamination prevention structure of the present invention, the yield of the wafer is improved by reducing the area in which the substrate support and the wafer contact each other, thereby reducing the contamination of the wafer by the remaining particles of the substrate support.

In addition, by forming a separation prevention jaw on the mounting surface of the substrate support to prevent the wafer from slipping on the substrate support.

Claims (2)

In the chamber in which the source gas is introduced into the inside and heat can be applied to the wafer loaded therein, and the substrate support for mounting the wafer therein is installed. And the substrate support has a seating surface in contact with an edge of a bottom surface of the wafer. The wafer contamination prevention structure of claim 1, wherein a separation prevention jaw is formed on the seating surface corresponding to a position proximate to an outer surface of the wafer.