Filters, methods, and an apparatus for filling housings and both encapsulated porous and non-porous spaces with contaminant control media for placement in electronic enclosures, such as disk drive enclosures, are disclosed. In one embodiment, a filter assembly includes a housing comprising an intern
Filters, methods, and an apparatus for filling housings and both encapsulated porous and non-porous spaces with contaminant control media for placement in electronic enclosures, such as disk drive enclosures, are disclosed. In one embodiment, a filter assembly includes a housing comprising an internal cavity configured to receive contaminant control media, a fill port in communication with the internal cavity, and an opening in communication with the internal cavity, and filter media at least partially covering the opening; and contaminant control media occupying the internal cavity. Contaminant control media is deposited within the internal cavity via the fill port by means of creating a negative pressure within the internal cavity. The application of a partial vacuum facilitates movement of the contaminant control media into the internal cavity and minimizes the contamination of the filter, housing, and work space common to other loose fill filling methods.
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1. A method for filling a porous filter assembly with a contaminant control media, comprising the steps of: a) providing a porous container defining an internal cavity, wherein the porous container is at least partially formed of filter media, and wherein the porous container includes at least one f
1. A method for filling a porous filter assembly with a contaminant control media, comprising the steps of: a) providing a porous container defining an internal cavity, wherein the porous container is at least partially formed of filter media, and wherein the porous container includes at least one fill port in communication with the internal cavity of the container;b) providing contaminant control media;c) drawing a partial vacuum across the porous container; andd) drawing the contaminant control media into the internal cavity of the porous container under partial vacuum, ande) sealing the fill port after drawing the contaminant control media into the internal cavity of the porous container. 2. The method of claim 1, wherein the partial vacuum within the porous container is created by drawing a partial vacuum to the outside of the filter media. 3. The method of claim 1, wherein the filter media comprises ePTFE. 4. The method of claim 1, wherein the contaminant control media comprises an adsorbent material that includes activated carbon, silica gel, and or combinations thereof. 5. The method of claim 4, wherein the adsorbent material is selected from the group including powdered adsorbent, granular adsorbent, beads, slurry, paste and combinations thereof. 6. The method of claim 1, wherein the contaminant control media includes a neutralization material that comprises an immobilized acid, base, enzyme, catalyst, and or combinations thereof. 7. The method of claim 1, wherein the porous container comprises a filter bag. 8. The method of claim 1, wherein the porous container comprises molded housing. 9. The method of claim 1, wherein the filter assembly is configured for insertion into an electronic enclosure. 10. A filter assembly for use in an electronic enclosure, the filter assembly comprising: a) a housing comprising: (i) an internal cavity defined by a first surface, a second surface and one or more sidewalls connecting the first and second surfaces, the internal cavity configured to receive a contaminant control media,(ii) at least one fill port in communication with the internal cavity, wherein the fill port is sized such that the contaminant control media is able to pass through the fill port when it is not sealed,(iii) at least one breather port in communication with the internal cavity, wherein the contaminant control media is of sufficient size, shape or composition that it is unable to pass through the breather port,(iv) filter media at least partially covering at least one opening of the housing; andb) contaminant control media within the internal cavity. 11. The filter of claim 10, wherein at least one of the first surface, the second surface or one or more sidewalls of the housing is composed partially of a non-porous surface. 12. The filter of claim 10, wherein the fill port passes completely through the non-porous surface. 13. The filter of claim 10, wherein the fill port is sealed with an adhesive label. 14. The filter of claim 10, wherein the fill port is sealed with a snug fit plug. 15. The filter of claim 10, wherein the fill port is sealed with filter media. 16. The filter of claim 10, wherein the fill port is sealed with a weld horn in conjunction with an ultrasonic welder. 17. The filter of claim 10, wherein the filter media comprises ePTFE. 18. The filter of claim 10, wherein the contaminant control media is an adsorbent material that comprises activated carbon, silica gel, or combinations thereof. 19. The filter of claim 10, wherein the contaminant control media is selected from the group including powdered adsorbent, granular adsorbent, beads, slurry, paste and combinations thereof. 20. The filter of claim 19, wherein the contaminant control media include a neutralization material that comprises an immobilized acid, base, enzyme, catalyst, or combination thereof.
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