The invention relates to the field of semiconductor manufacturing, and in particular to a wafer boat for holding semiconductor wafers during processing in a batch furnace.
In the course of a semiconductor manufacturing process, a semiconductor wafer may be subjected to a variety of processing steps such as for example heat treatment, oxidation or chemical vapour deposition. In order to execute these processing steps efficiently, a plurality of wafers is commonly loaded onto a so called wafer boat, i.e. a carrier for holding the semiconductor wafers in a spaced arrangement during processing in a furnace or reactor. Wafer boats are usually used vertically, that is, the wafers lie horizontally, one above the other. The probably most common type of wafer boat comprises three or more vertically oriented, parallel rods, which extend between a top member and a bottom member. In the rods, vertically spaced recesses are formed at corresponding heights. Each recess serves as a support arranged for engaging a side portion of a wafer, and recesses at the same height define a holding position for receiving and supporting a wafer in a substantially horizontal orientation. To minimize gravitational stress on a wafer, at least two of the rods are located toward a front side of the wafer boat—where the wafers are inserted into and removed from the holding positions—, and at least one rod is located at a back side of the boat. As the arrangement of the rods relative to the wafers is subject to the requirement that it must be possible to insert and remove wafers into and from the wafer boat, the above-described configuration commonly amounts to a wafer boat in which a little less than half of each inserted wafer is unsupported and freely hanging. Due to its own weight, this unsupported part of the wafer tends to sag.
Wafer handling equipment including an end effector for insertion and removal of semiconductor wafers into and from the wafer boat requires that the space between any two consecutively stacked wafers is accessible and allows for some maneuvering of the end effector. For example, in order to pick up one or more wafers from a wafer boat after processing, the end effector must be able to reach the interstitial space(s) between one or more pairs of wafers in order to engage the wafers at suitable positions, such as their respective centers. Sagging of the wafers causes the accessibility of the space between any two wafers to diminish, and reduces the effective room available for maneuvering. Thusfar this problem has been dealt with by increasing the vertical spacing between the holding positions of a wafer boat, which results in a decreased wafer capacity per boat, and thus a reduced process efficiency. It is an object of the present invention to alleviate or overcome aforesaid problem associated with the sagging of the wafers without said shortcomings.
In accordance with one, aspect of the invention, a wafer boat for holding semiconductor wafers in a spaced vertical arrangement during processing is provided. The wafer boat includes a plurality of vertically spaced holding positions for receiving and supporting the wafers in a substantially horizontal position. The holding positions can be accessed from a front side of the wafer boat to allow for insertion and removal of a wafer. At least one holding position includes a back support for engaging a back side portion of a wafer and two lateral supports for engaging opposite lateral side portions of the wafer. The back support is arranged at a lower position than the two lateral supports such that sagging of a front side portion of an inserted wafer near the front side of the wafer boat due to gravity is at least partially compensated for.
In accordance with another aspect of the invention, the same principle may applied to so called shield elements or shield rings that a wafer boat may be fitted with. A shield ring is associated with a certain holding position in the wafer boat, and serves as an extension of the deposition surface of a wafer being treated, in order to avoid end effects and to improve the uniformity of the deposition that takes place on the actual wafer surface. —An example of such a wafer boat with shield rings is described in applicant's patent U.S. Pat. No. 6,287,112. Note however, that the shield rings mentioned below in relation to the present disclosure do not support any wafers; they merely surround them. —The wafer boat according to this aspect of the present disclosure includes at least one back rod and at least two lateral rods which extend vertically between a first end member at a first extremity of the wafer boat and a second end member at a second extremity of the wafer boat. The rods are provided with recesses to define supports of a plurality of vertically spaced holding positions for receiving and supporting the wafers in a substantially horizontal position. The holding positions are accessible from a front side of the wafer boat to allow for insertion and removal of the wafers. At least one holding position is provided with a shield element having an inner circumference arranged for enclosing an outer circumference of a wafer to be held by said holding position. Opposite lateral side portions of the shield element are connected to the lateral rods, and a back side portion of the shield element is connected to the back rod at a lower position than that at which the lateral side portions of the shield element are connected to the lateral rods, such that sagging of a front side portion of the shield element near the front side of the wafer boat due to gravity is at least partially compensated for.
The above and other features of the invention will be fully understood from the following detailed description and the accompanying drawings, in which:
In known wafer boats, the back support(s) and the lateral supports of a holding position are disposed at the same vertical coordinate. This can be seen from
As an aid in visualizing the three dimensional sagging of a wafer inserted into a known wafer boat,
To achieve an optimal front end orientation of the centerline sections 31, 31′ of any two wafers, the back supports 33, 33′ of the holding positions should be disposed a distance δ—a below the vertical positions of their associated (pairs of) lateral supports 32 and 32′ respectively. The definitions of a and δ were given before and are illustrated in
As will be understood by one skilled in the art, in case more than one back support is used in a single holding position, the individual vertical positions of these back supports are to be chosen such that they effectively position the front side portion of the wafer at a suitable level, optimally such that the front end of an inserted wafer sags approximately a distance α. Indeed, this result may be achieved without any individual back support being disposed at a distance δ—a below the lateral supports.
It is worth noting that back supports are not to be arranged at positions so low relative to the positions of the associated lateral supports, that the front end portion of an inserted wafer is lifted above its ideal (i.e. no-gravity) position such that sagging of the front end portion of the wafer would be overcompensated for. This would indeed not solve the problem addressed by the present disclosure as it decreases the accessibility of the interstitial spaces between wafers in much the same way as gravity itself does. Other issues involved in semiconductor manufacturing, which are not related to wafer sagging, might be dealt with by, an alignment of wafer supports that is offset from a horizontal alignment. U.S. Pat. No. 4,640,223, for example, discloses a chemical vapour deposition reactor for deposition on substrates. The reactor is adapted for receiving a wafer boat holding a plurality of wafer supports, each support comprising a support plate upon a top surface of which a wafer can rest in flat surface-to-surface contiguity. In processing a wafer according to the invention disclosed by U.S. Pat. No. 4,640,223, it is essential that the wafer is heated and cooled uniformly to avoid crystal slip. As disclosed in U.S. Pat. No. 4,640,223, this is partially achieved by tilting the wafer with respect to the horizontal to expose more of its surface to heater radiation.
As mentioned before, the principle of lowering the back support of an object to alleviate or overcome the negative accessibility/maneuverability effects caused by sagging of its front portion, may also be applied to shield rings. Therefore, all the clarifications given above with regard to wafer supports are, mutatis mutandis, equally applicable to shield ring supports. Nevertheless, some additional clarifying remarks will be made here.
It goes without saying that the above-described two aspects of the invention may well be combined in a single wafer boat, creating a wafer boat fitted with shield rings wherein both the supports for the wafers and the connections of the shield rings to the wafer boat structure are positioned such that sagging of the wafers and the shield rings near a front side is, at least partially, compensated for. Though implementing one aspect of the invention in a wafer boat with shield rings will, alleviate accessibility/maneuverability issues, an optimal result will in many situations be attained first after implementation of both aspects.
While the invention has been described with reference to certain embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. The wafer supports, for example, need not necessarily be formed as recesses, but may be provided as relatively small brackets that project from the vertical rods of the wafer boat structure. Further, as discussed above, the number and positions of the supports relative to the wafer may be varied in accordance with the specific application at hand. In addition, many modifications may be made to adapt to a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to any particular embodiment disclosed for carrying out this invention, but that the invention includes all embodiments falling within the scope of the appended claims.