IC WAPER CARRIER SEALED FROM AMBIENT ATMOSPHERE DURING TRANSPORTATION FROM ONE PROCESS TO THE NEXT
A wafer carrying structure is provided that allows more efficient operation of the opening and closing mechanisms. More specifically, the wafer carrier includes pressure relief structures that provide appropriate pressure equalization during the opening and closing operations of the wafer carrier. This allows doors on the wafer to be more easily opened and closed while also providing significant environmental isolation for the wafers during transport operations. Relief structures specifically designed to remain closed except for those brief periods of time where pressure relief is necessary to equalize pressure during opening and closing of the carrier.
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The present invention relates to wafer handling techniques used during the fabrication of integrated circuits. More specifically, the present invention provides a carrier, and method for using, which protects wafers from contamination during transportation while also allowing easy opening and closing.
BACKGROUND OF THE INVENTIONCareful control of the manufacturing environment for integrated circuits is critical to the success of the process. With this in mind, considerable steps are typically taken to protect wafers, including performing the manufacturing processes in clean rooms, providing controlled environments, ensuring that processing equipment does not contribute to potential contamination, and ensuring employees are careful throughout the process. Although the particular processing steps may be readily controlled, one additional area for concern is the transportation of wafers from one process to the next. Naturally, this step of transporting the wafers requires movement between environments, which creates potential exposure to uncontrolled environments, and a potential for contamination.
To address transportation concerns, wafers are typically transported in sealed carriers. Naturally, these sealed carriers can protect wafers from contamination due to undesired particles, humidity, gases, general foreign matter or material, or any other potential sources of contamination or damage. The sealed carriers are specifically designed to control their internal environments, thus are typically sealed to avoid any undesired conditions. In some versions, this includes very tight seals to effectively prevent any airflow (gas flow) into or out of the carrier. Other versions may include filtered vents which allow airflow but prevent particles from entering the carrier.
Complications exists, however, when it is necessary to access wafers within these tightly sealed carriers. For example, when a sealed environment is created inside the carrier, it can be difficult to open existing doors or covers due to pressures within. This may create additional concerns due to the fact that these carriers are typically robotically handled, and opening forces are yet an additional consideration for these systems. Thus, it is desirable to provide a mechanism to equalize pressures and allow easy door opening. One approach to this problem is to provide vents within the carrier, thus allowing pressure within the carrier to be equalized. In order to allow such pressure equalization, while also protecting the internal atmosphere, present carriers utilize filtering mechanisms to catch any particles or undesired foreign matter which may be carried by the ambient atmosphere. Unfortunately, this venting approach cannot prevent undesirable gases from entering the internal chamber. Consequently, an alternative approach is needed to provide appropriate operability of the carrier while also prohibiting undesirable gases or contamination.
BRIEF SUMMARY OF THE INVENTIONIn order to provide a controlled environment for the transportation of wafers, the present invention provides a carrier that may easily be accessed while also providing sufficient levels of wafer protection. The present invention addresses the opening and closing of the carrier by incorporating appropriate pressure equalizing valves which are specifically configured to open and close during appropriate conditions. More specifically, the valve is specifically designed to open and to provide pressure relief when door opening activities create a vacuum within the carrier. By equalizing pressures at the desired point in time, the doors may be easily opened by an individual user or a robotic system attempting to access the internal portion of the carrier. Similarly, a second relief valve is incorporated, which is specifically configured to deal with closing pressures. This second relief valve opens under those conditions where increased pressure is generated within the carrier due to the closing of the carrier doors. Using these valves, the carrier provides a controlled environment by eliminating the vents previously used, while also allowing prompt access to the interior of the carrier.
Although the concepts of the present invention may be applied to a carrier typically referred to as a front opening unified pod (FOUP), similar conditions and characteristics may be encountered by other carriers that likewise may benefit from the present invention. The concepts of the invention may further be applied to virtually any carrier that may provide protection to wafers during the processing and manufacturing of integrated circuits.
As previously describe, the relief valves of the present invention are specifically designed to open at very precise pressure conditions. To achieve this operation, the valves are primarily configured to include a valve housing, a pressure sensitive plate which will be exposed to the internal pressures of the carrier, and a spring configured to hold the pressure plate in a predetermined position. The spring and plate themselves are specifically configured to be responsive to very specific pressures, and calibrated to be relatively precise. In addition, the valve housing includes an adjustment structure for adjusting and calibrating the operating characteristics of the relief valve. Lastly, a filter structure is included downstream to provide filtering while the relief valve is open.
The relief valve of the present invention is generally designed to be closed for a majority of the time during operation, and is only opened at those times when the carrier doors are being opened or closed. As such, this approach allows for easy operation of the carrier while providing an additional level of environment protection.
Further objects and advantages of the present invention will be seen by reading the following detailed description, in conjunction with the drawings in which:
As illustrated in
Illustrated within main housing 30 are a plurality of slots 34 shown within a sidewall 38. These slots are configured to receive wafers in a convenient manner, thus maintaining separation between the various wafers within main housing 30 while also holding them in a desired position. Again, those skilled in the art will recognize that many different configurations are possible for this holding type structure. Further, a holding structure may be utilized which is separate from the sidewalls and simply inserted into or coupled with main housing 30.
In addition, main housing 30 includes handling structures 36 existing on a top portion. This handling structure is just one example of a device which will assist in the mechanical handling of wafer carrier 10. Also shown in
Referring now to
Although not specifically illustrated, output relief valve 60 is similarly configured with the spring and housing members slightly modified to allow reverse pressures to enable airflow. Those skilled in the art will recognize that a slight reconfiguration of components is easily achieved to accomplish this reverse operation.
Also illustrated in
By incorporating appropriate relief valves 40 and 60 into main housing 30, appropriate pressure relief is achieved which can easily allow the opening and closing of door 20. As mentioned above, further protection is provided by also incorporating a filter element 70. The filter is positioned in the airflow path, to cause any airflow to pass therethrough. Various suitable alternatives may be applied for the inclusion of the filter elements. In one embodiment, filter elements 70 are captured between outer shell 42 of valve 40 and the carrier housing 30.
Referring now specifically to
In the configuration described above, the valve structure can be adapted to fit existing carriers. As discussed, carriers may include filtered vent openings to provide pressure equalization. To refit these existing carriers, outer shell 42 of valve 40 can be configured to tightly fit within existing vent openings and create a seal therewith. Thus, existing carriers can be easily modified by inserting valves into appropriate vent openings to create a better functioning carrier.
While certain embodiments of the invention have been described above, these specific configurations are not considered to be limiting in any way, but rather illustrative of the concepts of the present invention. The applicants intends the invention to include all variations and modifications coming within the scope and spirit of the following claims.
Claims
1. A wafer carrier for protecting wafers during transportation from one step of a manufacturing process to another, comprising:
- a carrier structure for capturing a wafer and holding the wafer in a controlled position during transportation, said carrier structure comprising:
- a housing substantially surrounding the carrier structure, the housing capable of enclosing the carrier structure and the wafer, the housing further having an opening to allow access to the wafer and having vent openings to allow airflow into and from an interior of the housing; and
- a door mechanism cooperating with the housing to form a fluid tight seal when attached thereto, the door being removable to expose access to the housing opening, wherein the door is attached to the housing with a consistent amount of force when establishing the fluid tight seal, and wherein the door is removed from the housing with the consistent amount of force when disestablishing the fluid tight seal; and
- a plurality of relief valves, wherein each of the plurality of relief valves is a poppet valve including: an outer shell configured to tightly fit within the vent openings, a movable plate having a first surface thereof exposed to air pressure changes within the housing caused by opening and closing of the door mechanism, a spring positioned within the outer shell and in contact with the movable plate on a side opposite the first surface, and a retainer for holding the movable plate in position, wherein the retainer is coupled to the outer shell in an airtight manner and contact between the movable plate and the retainer forms an airtight seal when the valve is in a closed position, the spring of each of said plurality of relief valves being calibrated such that said relief valve is configured to generally remain in the closed position, but also allowing for movement to an open position exclusively for relieving the air pressure changes within the housing caused by the opening and closing of the door mechanism, the plurality of relief valves thereby allowing airflow into the interior of the housing responsive to air pressure changes caused by the opening of the door mechanism and allowing airflow to escape from the interior of the housing responsive to air pressure changes caused by the closing of the door mechanism.
2. The wafer carrier of claim 1, wherein the plurality of relief valves comprises a first relief valve specifically configured to relieve an air pressure vacuum generated within the carrier caused by the opening of the door mechanism, and a second relief valve specifically configured to relieve an air pressure increase generated within the carrier caused by the closing of the door mechanism.
3. The wafer carrier of claim 1, wherein each of the plurality of relief valves further includes an adjustment structure for adjusting the calibration of the relief valve.
4. The wafer carrier of claim 1, wherein each of the plurality of relief valves further includes a filter structure to provide air filtering while the relief valve is in the open position.
Type: Application
Filed: Aug 29, 2008
Publication Date: Mar 4, 2010
Applicant: International Business Machines Corporation (Armonk, NY)
Inventors: William E. Corbin, JR. (Newburgh, NY), Alison K. Easton (New Paltz, NY), James E. Fluegel (Rhinebeck, NY), Christopher W. Long (Williston, VT), James H. Peterman (Milford, CT), Laura Mauer (South Kent, CT)
Application Number: 12/201,553
International Classification: B65D 85/00 (20060101);