KR100529631B1 - Heater block and plasma process equipment including the same - Google Patents

Abstract

The present invention relates to a heater block having an improved grounding structure and a plasma processing apparatus having the heater block, the plasma processing apparatus comprising: a process chamber having a gas exhaust port; A heater block installed in the process chamber to heat the wafer and including a grounding means for grounding a radio frequency (RF) power source; A shower head installed at an upper portion of the process chamber to supply a reaction gas; And a high frequency generator connected to the shower head, wherein the grounding means includes: a ground clamp welded to the heater block, a ground strap assembled to the ground clamp, a screw to assemble the ground strap to the ground clamp, and A nut and a feed through installed at an end of the ground strap.

Description

HEATER BLOCK AND PLASMA PROCESS EQUIPMENT INCLUDING THE SAME}

The present invention relates to a plasma processing apparatus, and more particularly, to a heater block having an improved ground structure and a plasma processing apparatus having the heater block.

In the semiconductor device manufacturing process, a chemical vapor deposition (CVD) apparatus is used to deposit a thin film on the surface of a wafer. The process using the CVD apparatus sends a gaseous chemical including a material atom to be deposited to a process chamber, where the chemical reacts with another gas to produce a desired material and deposit the material on a wafer.

Plasma Enhanced CVD (hereinafter referred to as PECVD ') is widely used among the above CVD apparatuses. Unlike the conventional CVD apparatuses, the above-described PECVD process is performed in a state in which a reaction gas is activated using plasma. There are several advantages, such as the process can be performed at a lower process temperature than the conventional CVD apparatus, and mainly, when forming a nitride film to protect and insulate a lower layer such as metal wiring in the manufacturing process of a semiconductor device and It is used for forming a titanium silicide film in order to reduce the contact resistance of a semiconductor device.

Such a PECVD apparatus generally includes a process chamber including a heater block on which a wafer is mounted and a gas exhaust port, a shower head installed at an upper portion of the process chamber and connected to a gas injection tube, and a high frequency generator connected to the shower head. .

When the plasma processing process is performed using the PECVD apparatus having the above-described configuration, the high frequency generator generally generates high frequencies in the frequency bands necessary for plasma generation and a small amount of low frequency that does not contribute to plasma generation.

Accordingly, the heater block is provided with a grounding means to ground the high and low frequencies. To explain this, a hole is formed in a side of the heater block to install a ground clamp and a ground strap in the heater block, and a threaded helicoil is inserted into the hole, and the grounding strap is installed in the helicoil. The screw is tightened with the ground clamp in between. In addition, a feed thru is installed at an end of the ground strap. Of course, the grounding means of the above-described configuration may be divided into high frequency grounding and low frequency grounding.

Accordingly, the high frequency generated by the high frequency generator is grounded out of the chamber through the shower head, the wafer, the heater block, the ground clamp and the ground strap and the feed through, and the low frequency is the shower head, the heater block, the ground clamp and the ground strap and the feed. Through through is grounded out of the chamber.

However, the grounding structure of the above-described configuration has the following problems.

That is, when the screw fastening the ground strap and the ground clamp is corroded or deformed by high temperature and high pressure, when the screw is removed for the replacement of the grounding means, the helicoil also comes out of the heater block. The heater block is damaged and the entire heater block must be replaced.

In addition, when the corrosion of the screw proceeds to the contact surface of the ground clamp and the heater block, a problem occurs in the grounding operation and serious damage to the deposition process and equipment is caused.

The present invention has been made to solve the above problems, and an object thereof is to provide a heater block having an improved ground structure.

Another object of the present invention is to provide a plasma processing apparatus having the above-described heater block.

The first object of the present invention described above,

A heater block installed inside the process chamber and heating the wafer, the heater block comprising a grounding means for grounding the radio frequency (RF) power source,

The grounding means includes a ground clamp welded to the heater block, a ground strap assembled to the ground clamp, and a fastening member for assembling the ground strap to the ground clamp.

According to a preferred embodiment of the present invention, the fastening member is composed of a screw and a nut, and the feed through is further provided at the end of the ground strap.

According to the heater block of such a structure, since it is not necessary to fasten a screw to a heater block, the damage to a heater block at the time of removal of the said ground strap can be minimized, and since there is no helical coil inside a heater block, a screw is corroded. Alternatively, even when the heater block is modified, there is an effect that can be used continuously.

And a plasma processing apparatus which has the heater block of the said structure is a process chamber; The above-described heater block installed inside the process chamber; A shower head installed at an upper portion of the process chamber to supply a reaction gas; It includes; a high frequency generator connected to the shower head.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 illustrates a schematic configuration diagram of a plasma processing apparatus according to an embodiment of the present invention, and FIG. 2 illustrates a schematic configuration diagram of a heater block according to an embodiment of the present invention.

As shown in the figure, the plasma processing apparatus of the present embodiment includes a process chamber 10 including a gas exhaust port 12, a heater block 20 provided below the process chamber 10, and the heater. A shower head 30 installed above the block 20, a gas supply unit 40 supplying a reaction gas to the shower head 30, and a high frequency generator applying high frequency power to the shower head 30 ( 50).

The heater block 20 has a grounding means 22 for grounding a high frequency and / or a small amount of low frequency applied by the high frequency generator 50, and the grounding means 22 of this embodiment is shown in FIG. As described above, the ground clamp 22a welded and fixed to the heater block 20, the ground strap 22b assembled to the ground clamp 22a, and the screw for assembling the ground strap 22b to the ground clamp 22a ( 22c) and nut 22d, and feed-through 22e provided at the end of the ground strap 22b.

At least three grounding means 22 may be installed at equal intervals, and any one of the grounding means, for example, the grounding means shown on the left side of FIG. 1 may be used for low frequency grounding. . In this case, the grounding means shown on the right side of FIG. 1 and another grounding means provided behind the grounding means and not shown in FIG. 1 can be used for high frequency grounding.

The ground clamp 22a is preferably formed of aluminum, and as described above, the ground clamp 22a is welded and fixed to be maintained in the heater block 20 even when the ground strap 22b is disassembled. Of course, although not shown, the ground clamp 22a may be fixed to the heater block by a screw.

Therefore, according to the grounding means 22 of the above-described configuration, the high frequency generated by the high frequency generator 50 is the shower head 30, the wafer W, the heater block 20, the ground clamp 22a and the ground strap. Ground 22 to the outside of the chamber 10 via a feedthrough 22e and a feedthrough 22e, the low frequency being shower head 30, heater block 20, ground clamp 22a and ground strap 22b and feedthrough 22e. Ground through the chamber (10).

As described above, the heater block of the present invention does not directly damage the heater block even if the screw is corroded or deformed when the screw is disassembled for periodic replacement of the grounding means, and thus the entire heater block needs to be replaced. There is no. In addition, since the degradation of the grounding action due to corrosion does not occur, there is an effect that can prevent serious damage to the deposition process and equipment.

1 is a schematic configuration diagram of a plasma processing apparatus according to an embodiment of the present invention,

2 is a block diagram illustrating main parts of a heater block according to an exemplary embodiment of the present invention.

Claims (8)

A heater block installed inside the process chamber and heating the wafer, the heater block comprising a grounding means for grounding the radio frequency (RF) power source, The grounding means includes a grounding clamp fixed to the heater block, a grounding strap assembled to the grounding clamp, and a fastening member for assembling the grounding strap to the grounding clamp. The heater block of claim 1, wherein the ground clamp is welded to the heater block. The heater block according to claim 1, wherein the fastening member is composed of a screw and a nut. The heater block according to claim 1, wherein a feed through is further provided at an end of the ground strap. The heater block of claim 1, wherein the ground clamp is made of aluminum. The heater block according to claim 1, wherein at least three grounding means are provided at equal intervals. The heater block according to claim 1, wherein at least one or two of the grounding means are used for high frequency grounding, and the other is used for low frequency grounding. A process chamber having a gas exhaust port; A heater block according to at least one of the foregoing claims 1 to 7 provided inside the process chamber; A shower head installed at an upper portion of the process chamber to supply a reaction gas; A high frequency generator connected to the shower head; Plasma processing apparatus comprising a.