KR19990012936U - Semiconductor Wafer Chucking Device - Google Patents

Abstract

The present invention relates to a semiconductor wafer chucking apparatus. In the related art, since the tape mounting process and the dicing process are performed in different equipment, the process time is long, such as a wafer transfer process, and the installation area of each equipment is large. As such, the semiconductor wafer chucking device of the present invention allows tape mounting and dicing of wafers to be performed in a single device, thereby reducing the process time and reducing the installation area of the device.

Description

Semiconductor Wafer Chucking Device

The present invention relates to a semiconductor manufacturing equipment, and more particularly, to a semiconductor wafer chucking apparatus capable of simultaneously performing tape mounting and dicing during a semiconductor manufacturing process.

Conventional semiconductor manufacturing equipment has a chuck table for mounting a tape on the wafer and a chuck table for dicing the wafer, respectively, so that the process can be performed for each device.

Referring to the conventional semiconductor manufacturing equipment as described above according to the process sequence as follows.

First, the wafer is placed on the chuck table for tape mounting in the tape mounting apparatus, and then the tape is adhered.

After the tape mounting is completed, the tape-bonded wafer is placed on the chuck table of the dicing equipment and dicing is performed.

However, in the conventional semiconductor manufacturing equipment as described above, since the tape mounting process and the dicing process are performed in different equipment, the process time is long due to the process of moving the wafer, and the installation area according to each equipment has a large problem. However, a supplement has been required.

Accordingly, an object of the present invention is to provide a semiconductor wafer chucking apparatus capable of performing tape mounting and dicing of wafers in one device in view of the above problems.

1 is a longitudinal sectional view showing a configuration of a semiconductor wafer chucking apparatus according to the present invention;

Figure 2 is a longitudinal sectional view showing the tape mounting using the chucking device of the present invention.

Figure 3 is a longitudinal sectional view showing the dicing using the chucking device of the present invention.

(Explanation of symbols for the main parts of the drawing)

One ; Mounting table 2; Dicing table

3; Axis of rotation 4; Frame fixing

5; Wafer 6; frame

7; Frame vacuum line 8; Mounting Table Vacuum Line

9; Air line 10; Dicing Table Vacuum Line

11; tape

In order to achieve the above object, the present invention is a mounting table for adhering a tape to a wafer is provided on the upper surface, the dicing table for dicing the wafer is installed on the lower surface of the chuck table; Rotating shafts rotatably installed at both sides of the chuck table to replace positions of the mounting table and the dicing table; Provided is a semiconductor wafer chucking device which is provided at one end of the rotary shaft and comprises a fixing part for fixing the tape during a dicing operation.

Hereinafter, an embodiment of a semiconductor wafer chucking device of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view illustrating a configuration of a semiconductor wafer chucking apparatus according to the present invention. A rotating shaft 3 rotatably installed on both sides of the chuck table, a frame 6 mounted on one end of the rotating shaft 3 to fix the tape 11 mounted on the wafer during dicing operation; The frame fixing part 4 is comprised.

The chuck table is provided with a mounting table 1 for attaching the tape 11 to the wafer 5 on one side thereof, and a dicing table 2 for dicing the wafer 5 on the opposite side thereof. It is.

Attached FIG. 2 illustrates the tape mounting using the chuck table according to the present invention. As shown in FIG. 2, the wafer 5 is attached to the mounting table 1 at the edge of the mounting table 1. A mounting table vacuum line 8 is provided so that the wafer 5 can be fixed to the mounting table 1 by applying a vacuum pressure after being raised, and a wafer 5 is placed at the center of the mounting table 1. An air line 9 is provided to apply air pressure to prevent the central portion of the wafer 5 from sagging when the tape 11 is adhered to it.

The frame vacuum line 7 is applied to the inside of the frame fixing part 4 to apply a vacuum pressure to fix the frame 6.

Moreover, as shown in FIG. 3, the dicing table vacuum line 10 which can fix the wafer 5 is provided also inside the said dicing table 2.

Referring to the operation of the semiconductor wafer chucking device of the above configuration is as follows.

First, as shown in FIG. 2, the wafer 5 is placed on the mounting table 1 for attaching the tape 11, and the mounting table vacuum line 8 is turned on.

The frame 6 is placed on the frame fixing part 4 and the frame vacuum line 7 is turned on.

At this time, the air line 9 installed at the center of the mounting table 1 is turned on to prevent the wafer 5 from falling down, and then the tape 11 is attached to the wafer 5 and the frame 6. Gluing completes the tape mounting operation.

Subsequently, in order to perform a dicing operation, the wafer 5 having the tape 11 and the frame 6 attached thereto is lifted and rotated 180 °, and the rotating shaft 3 is rotated 180 ° to die for dicing. The Singh table 2 is facing up.

The tape mounting is completed and the wafer 5 rotated 180 ° is placed on the dicing table 2, and the frame vacuum line 7 and the dicing table vacuum line 10 are turned on to turn the tape 11 on. The bonded wafer 5 is fixed to the dicing table 2.

After that, dicing is performed.

According to the semiconductor wafer chucking device of the present invention, tape mounting and dicing can be performed in one chuck table, so that the processing time such as wafer transfer can be shortened and the installation area of the equipment can be reduced. .

Claims (1)

A chuck table having a mounting table for adhering a tape to a wafer on an upper surface thereof, and a dicing table for dicing a wafer provided on a lower surface thereof; Rotating shafts rotatably installed at both sides of the chuck table to replace positions of the mounting table and the dicing table; A semiconductor wafer chucking device, comprising: a fixing part provided at one end of the rotary shaft to fix the tape during a dicing operation.