Reactor for the processing of wafers, with a protection device

Details Reactor for the processing of wafers, with a protection device Reactor for the processing of wafers, with a protection device

1998-06-16

2002-05-07

Sheikh, Ayaz (Department: 2155)

Data processing: generic control systems or specific application

Specific application, apparatus or process

Article handling

C700S056000, C700S213000, C318S640000, C414S217000, C414S935000, C414S937000, C414S939000, C414S940000

Reexamination Certificate

active

06385503

ABSTRACT:

BACKGROUND OF THE INVENTION
The invention relates to a reactor for processing wafers comprising at least one process chamber, at least one transport chamber with a transport robot for the wafers, and at least one magazine for wafers with a lifting mechanism.
Known devices for processing semiconductors usually consist of a reactor with several process chambers and one transport chamber. A loading and unloading unit is coupled thereto. The semiconductor slices (or wafers) are taken from a storage unit comprising a magazine for a plurality of wafers and a lifting mechanism by means of a transport robot which is arranged in the transport chamber, and are loaded via the transport chamber into one of the process chambers. The robot loads the wafers consecutively into several process chambers in which the wafer is exposed to different processes. The process chambers are accordingly simultaneously occupied by different wafers which are stored again in the magazine of the storage unit between two processes (for example, if a process chamber is occupied) or after the final process. Since a vacuum atmosphere obtains in the entire reactor, and the individual chambers can be closed by means of valves, these processes can run automatically without a wafer entering the atmosphere.
U.S. Pat. No. 4,819,167 describes a system and a method for the recognition of the center of a circular semiconductor wafer for the manufacture of integrated circuits (wafer
15
). The exact position of a moving object (wafer) can be determined by a robot during transport so as to support the accuracy of this movement. Several sensors (see, for example,
61
-
66
in FIG.
3
and the accompanying description) are provided for determining the relative position of the wafer, which is present on a movable support which follows a given path, with respect to a chosen point to which the support with the wafer is being moved. The sensors are triggered by starting and end points of the wafer and supply corresponding signals. The position is calculated from these signals. In particular, the position of a moving wafer with respect to an internal storage unit with a magazine with lifting mechanism (internal storage elevator
19
) is determined by means of an arrangement of several optical sensors which are positioned transversely to the direction of movement. The sensors are fastened to an entry slot inside a transport chamber so as to form a row perpendicular to the direction of movement of the support (vacuum loadlock chamber
11
, cf. e.g. ref. no.
47
in
FIGS. 1
,
2
,
3
and
5
), in which chamber the internal storage unit is present. To find the center of the wafer, several sensors are necessary, on whose signals a complicated calculation is then carried out. In addition, the position of the wafer is determined up to the internal storage unit only during the transport by means of the support. The system described is only capable of ensuring that the wafer will be in a given position relative to the support when it is on the support (column 1, lines 35-55).
Furthermore, U.S. Pat. No. 5,563,798 describes a wafer positioning system for an automated wafer processing installation (reactor) with several process chambers (processing chambers
6
). The position of the wafer (
10
) is determined here in that the position of a wafer transport robot (
18
) is identified while the wafer is being moved thereby. Sensors are provided for this purpose on a transparent cover of a centrally arranged transport chamber (transfer chamber
16
). The light beams of the optical sensors then passes through the cover and the transport chamber to reflectors provided on the bottom thereof, which reflect the beam back. A detector in the sensor recognizes the interruption of the light beam by a wafer which is being moved through the transport chamber. The position of the wafer transport robot is then measured on the basis of at least two measured values and is corrected if a deviation from the correct position of the wafer transport robot is detected. To achieve this, the position of the wafer is calculated from the measured values in an intricate calculation, and the deviation from the correct position is compensated by a linear and rotational adjustment of the wafer transport robot. The object of this is to achieve that the wafer transport robot transports the wafer correctly into its next position inside the reactor.
Methods and devices according to the present art have the disadvantage that only the position of the wafer being transported at a given moment can be observed, checked, and corrected, as applicable. In addition, at most a check for the moment of the measurement can be made in that way. Corrective adjustment quantities for the transport robot must be calculated from the measurement results, which quantities again are valid for the moment only, if no further, inadvertent movements of the wafer take place. However, it is quite possible for a disturbance of wafers to take place, in particular of those which are deposited in an internal or external storage unit in a magazine. For example, translatory movements of the external storage unit can shift the deposited wafers in the case of a magazine exchange, whereupon these wafers may be destroyed by the lifting mechanism in a subsequent vertical or horizontal adjustment of the magazine.
SUMMARY OF THE INVENTION
It is accordingly an object of the invention to provide a device which ensures a better protection against damage also of wafers which are stored in a magazine.
This object of the invention is achieved in that an optical detection device is provided in the reactor for monitoring the positions of the wafers stored in a magazine. The optical detection device, which may comprise in particular a photoelectric barrier formed by a transmitter (LED) and a receiver (photodiode), is provided inside the reactor according to the invention. Given a suitable arrangement, all wafers stored therein in a magazine with several superimposed compartments can thus be monitored. It is possible in this manner to monitor not only the wafers which were just taken out or put in by the transport robot but also all other wafers present in the magazine. If a wafer in the magazine has a shifted position, the operation of the lifting mechanism would lead to damage of the wafer if the distance to the wall is too small. This is true in particular if the wafer is moved from a wider into a narrower region. Since especially the previously deposited wafers may become shifted through shocks caused by frequent loading, unloading, and displacing of the magazine, a check of these wafers is of major importance. This is true in particular when several magazines are present which may be utilized consecutively. Damage may additionally arise then when the magazine is displaced. A limitation of the position monitoring to that wafer which is being moved by the transport robot at any given moment leads to frequent wafer damage and is accordingly insufficient. It is only a detection device according to the invention which provides a reliable monitoring also of those wafers whose processing in the reactor has been completed. These wafers are usually stored in a magazine which is not coupled to the transport chamber at that moment, but which is held ready for being taken from the reactor. Damage is particularly disadvantageous economically because an expensive process has been completed here. It should be noted in this connection that the damage to a wafer usually causes subsequent damage to other wafers in the relevant magazine caused by chipped fragments.
Preferred embodiments of the invention are indicated in claims
2
and
3
. A particularly suitable protection against damage is formed by a check of whether a minimum distance is maintained between the wafer and a housing wall surrounding the magazine. The detection device switches to an alarm state the moment one of the deposited wafers passes below the minimum distance. The alarm state may be achieved, for example, by the interruption of the light beam of a photoelectric barr

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