KR100693876B1 - Power supplying apparatus for semiconductor device equipment - Google Patents

Abstract

An emergency power supply for a semiconductor manufacturing facility is disclosed. The main DC power supply unit converts AC power supplied from the outside into a predetermined DC power source and outputs the same to the power supply of the semiconductor manufacturing equipment, and outputs a switching signal at the same time as the abnormality of the DC conversion operation occurs. The switching unit is turned on in response to the application of the switching signal, and the auxiliary DC power supply unit converts an AC power supplied from the outside into a predetermined DC power source according to the turn-on of the switching unit and outputs it to a power supply of the semiconductor manufacturing facility. Therefore, even when the operation power supply of the semiconductor manufacturing equipment is cut off, the semiconductor manufacturing equipment can be prevented from being shut down by the supply of emergency power, and the defect of the wafer due to the shutdown of the semiconductor manufacturing equipment can be prevented. In addition, parts replacement is not required after turning off the main power supply to the wet station equipment, thus minimizing losses in the wet station equipment, simplifying maintenance of the wet station, and extending the life of the power station of the wet station equipment. Can be extended.

Description

Emergency Power Supply for Semiconductor Manufacturing Equipment {POWER SUPPLYING APPARATUS FOR SEMICONDUCTOR DEVICE EQUIPMENT}

1 is a view showing the configuration of a power supply for a general semiconductor manufacturing equipment;

2 is a view showing the configuration of an emergency power supply for a semiconductor manufacturing facility according to an embodiment of the present invention; And

3 is a view showing an example in which the emergency power supply for the semiconductor manufacturing equipment according to the present invention shown in FIG. 2 is applied to the wet station equipment.

Explanation of symbols on the main parts of the drawings

100: main DC power supply 110, 310: DC supply

120, 320: battery 200: switching unit

210, 220: switch 300: auxiliary DC power supply

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an emergency power supply for semiconductor manufacturing equipment, and more particularly, to a semiconductor manufacturing equipment capable of preventing shutdown of equipment when a supply abnormality of DC power supplied to a semiconductor manufacturing equipment such as a wet station occurs. To an emergency power supply.

In general, the process of manufacturing a semiconductor device refers to a manufacturing process such as diffusion, photography, etching, thin film deposition is repeatedly performed on the surface of the silicon wafer. Each of these processes requires a cleaning process in which foreign matters on the wafer are washed using a cleaning solution such as deionized water or a chemical solution each time the process moves to the next process.

Wet stations (wet stations) used in the cleaning process are classified into high temperature wet etching apparatuses and low temperature wet etching apparatuses according to the temperature condition to be cleaned, or are circulated depending on whether or not the chemical solution is circulated. It can be divided into a wet etching apparatus and a dip (DIP) wet etching apparatus.

1 is a view for explaining a power supply of a general wet station. Referring to FIG. 1, when the DC 24V power supply supplied as the operating power of the wet station for semiconductor manufacturing equipment is shut down, the DC power supplied to each sensor of the wet station is cut off. Therefore, the equipment state of the wet station is switched from the AUTO RUN progress state to the manual state, so that automatic facility operation is not performed.

When the wet station facility is manually switched, the operation of all operating machinery and robots associated with the wet station facility is stopped and the wafer is exposed to the atmosphere, resulting in wafer failure due to impurities. In addition, as the equipment is stopped, the wafer is continuously stagnated with the etchant chemicals, thereby preventing over-etching without performing standard etching.

In addition, there is a problem of time delay caused by restarting the equipment from the initial start-up stage of the wet station equipment to the normal operation phase, and the main power supply must be shut down to perform the normal operation of the wet station equipment. The big hitch is caused.

Accordingly, the present invention for solving the above problems is to prevent the shutdown of the semiconductor manufacturing equipment even if the supply of the DC power supplied to the semiconductor manufacturing equipment is interrupted, an emergency power supply for a semiconductor manufacturing equipment for supplying a stable DC power supply The purpose is to provide.

An emergency power supply device according to one aspect for realizing the object of the present invention, converts the AC power supplied from the outside into a predetermined DC power source and outputs it to the power supply of the semiconductor manufacturing equipment, the abnormality of the DC conversion operation The main DC power supply for outputting a switching signal at the same time as the generation, the switching unit turned on in response to the application of the switching signal, and the AC power supplied from the outside in accordance with the turn-on of the switching unit converts the predetermined DC power to the And an auxiliary DC power supply for outputting as a power source for semiconductor manufacturing equipment.

At this time, the main DC power supply unit detects a malfunction of the first battery and the main DC power supply unit for outputting the predetermined predetermined DC power as the power of the semiconductor manufacturing equipment at the same time as the abnormal occurrence of the DC conversion operation, The controller may further include outputting a DC power charged in the first battery as a power supply of the semiconductor manufacturing facility when a malfunction is detected, and outputting a switching signal to the switching unit.

The auxiliary DC power supply unit may further include a second battery for outputting the charged predetermined DC power supply as the power supply of the semiconductor manufacturing equipment at the same time as the abnormality of the DC conversion operation occurs, and the switching unit is configured as the main DC power supply unit. And a magnetic switch that is turned on to supply the AC power to the auxiliary DC power supply in accordance with a switching signal provided from.

According to such an emergency power supply for semiconductor manufacturing equipment, when the DC power supplied as the operating power of the wet station is cut off during the operation of the semiconductor manufacturing equipment such as the wet station, the emergency power supply for the semiconductor manufacturing equipment operates to the wet station from the emergency power supply separately provided. Supply of power is started.

Therefore, even when the operation power supply of the semiconductor manufacturing equipment is cut off, the semiconductor manufacturing equipment can be prevented from being shut down by the supply of emergency power, and the defect of the wafer due to the shutdown of the semiconductor manufacturing equipment can be prevented. In addition, parts replacement is not required after turning off the main power supply to the wet station equipment, thus minimizing losses in the wet station equipment, simplifying maintenance of the wet station, and extending the life of the power station of the wet station equipment. Can be extended.

Hereinafter, an emergency power supply for a semiconductor manufacturing facility according to an exemplary embodiment of the present invention will be described in more detail with reference to FIGS. 2 and 3.

2 is a view showing the configuration of an emergency power supply for a semiconductor manufacturing facility according to an embodiment of the present invention. 3 is a view showing an example in which the emergency power supply for the semiconductor manufacturing equipment according to the present invention shown in FIG. 2 is applied to the wet station equipment.

First, referring to FIG. 2, an emergency power supply device for a wet station of a semiconductor manufacturing apparatus according to an embodiment of the present invention includes a main DC power supply unit 100, a switching unit 200, and an auxiliary DC power supply unit 300. It is done by

The main DC power supply unit 100 has a first DC supply unit 110 and a first battery 120. The main DC power supply unit 100 converts an AC power supplied from the outside into a predetermined DC power and outputs it as an operating power of the wet station. The switch 200 is applied.

In more detail, the first DC supply unit 110 receives AC power applied through both ends of an AC power source, for example, the outlet 400, and converts the power into DC power. In addition, the first DC supply unit 110 operates the wet station while supplying a DC converted DC power, preferably a DC 24 volt voltage level while charging the DC converted DC power to the first battery 120. Output as a power supply.

The first battery 120 receives and charges the DC-converted DC power provided from the first DC supply unit 110. The first battery 120 has a pre-charged DC power supply, preferably a voltage level of 24 volts, when an operation such as DC conversion and operation power supply from the first DC supply unit 110 is not normally performed. Power Supply Outputs the operating power of the wet station.

In this case, a malfunction of the first DC supply unit 110 is sensed, and when a malfunction is detected, the DC power charged in the first battery 120 is controlled as an operating power of the wet station, and the switching unit ( The control unit for outputting the switching signal to the 200 may be configured together with the first DC supply unit 110 or the first battery 120, or may be configured separately.

The switching unit 200 includes a first switch 210 and a second switch 220, and the first and second switches 210 and 220 are connected to a switching signal from the first DC supply unit 110. Correspondingly, turn on and turn off operations are performed.

In detail, each first end of the first switch 210 and the second switch 220 is connected to both ends of an AC power source, for example, both ends of the outlet 400, and the first and second The second ends of the two switches 210 and 220 are contactlessly connected, and the third ends of the first and second switches 210 and 220 are connected to the auxiliary DC power supply 300. The first and second switches 210 and 220 are switched from the second stage to the first stage in response to the switching signal applied from the main DC power supply 100, so that AC power is supplied to the auxiliary DC. It is provided to the power supply 300.

Here, the first switch 210 and the second switch 220 may be made of a magnetic switch.                     

The auxiliary DC power supply unit 300 has a second DC supply unit 310 and a second battery 320. The auxiliary DC power supply unit 300 converts an AC power supplied from the outside into a predetermined DC power in response to the turn-on operation of the switching unit 200, and outputs the converted DC power as the operating power of the wet station. do.

In more detail, the second DC supply unit 310 receives an AC power source, for example, AC power applied through both ends of the outlet 400, and converts the power into DC power. In addition, the second DC supply unit 310 outputs a DC-converted direct current power source, preferably a power source having a voltage level of DC 24 volts as an operating power source of the wet station.

In addition, the second battery 320 receives and charges the DC-converted DC power provided from the second DC supply unit 310. When the DC power supply operation from the second DC supply unit 310 is not normally performed, the second battery 320 supplies a pre-charged DC power supply, preferably a power source having a voltage level of 24 volts to the wet station. Output to the operating power of.

According to the emergency power supply for semiconductor manufacturing equipment as described above, if the DC power supplied as the operating power of the wet station is cut off during the operation of the semiconductor manufacturing equipment such as the wet station, the wet station from the emergency power supply provided separately. Supply of operating power is started.

Therefore, even if the operation power supply of the semiconductor manufacturing equipment is cut off, the semiconductor manufacturing equipment can be prevented from being shut down by the supply of emergency power, and the defect of the wafer due to the shutdown of the semiconductor manufacturing equipment can be prevented.

In addition, parts replacement is not required after turning off the main power supply to the wet station equipment, thus minimizing losses in the wet station equipment, simplifying maintenance of the wet station, and extending the life of the power station of the wet station equipment. Can be extended.

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

Claims (6)

Converts the AC power supplied from the outside into a predetermined DC power and outputs the power to the semiconductor manufacturing equipment, and receives the first DC supply unit and the converted DC power to output a switching signal simultaneously with the occurrence of the abnormal DC conversion operation. A main DC power supply unit which is charged and includes a first battery which outputs a predetermined DC power supply to the power supply of the semiconductor manufacturing equipment at the same time as the occurrence of abnormality of the DC conversion operation; A switching unit turned on according to the application of the switching signal; And Upon receiving the DC power converted from the second DC supply unit and the second DC supply unit for converting the AC power provided from the outside into a predetermined DC power output to the power supply of the semiconductor manufacturing equipment in accordance with the turn-on of the switching unit is charged And an auxiliary DC power supply unit including a second battery for outputting a predetermined DC power supply to the power supply of the semiconductor manufacturing equipment at the same time as an abnormal occurrence of the DC conversion operation. delete The method of claim 1, wherein the main DC power supply unit, And a control unit for detecting a malfunction of the main DC power supply unit, controlling to output a DC power charged in the first battery to the power of the semiconductor manufacturing facility when a malfunction is detected, and outputting a switching signal to the switching unit. Emergency power supply for a semiconductor manufacturing equipment comprising a. delete The method of claim 1, wherein the switching unit, And a magnetic switch turned on to supply the AC power to the auxiliary DC power supply according to a switching signal provided from the main DC power supply. The emergency power supply for a semiconductor manufacturing facility according to claim 1, wherein the direct current power source is 24 volts.

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