Fixture for shielding a printed circuit board from electromagnetic interference and noise during testing

What is claimed is: 1. An enclosure for shielding a printed circuit board against electromagnetic interference and noise during noise figure testing, comprising: a housing having a cavity defined by and between a peripheral wall of the housing, the cavity configured to receive a printed circuit board therein, at least a portion of the peripheral wall configured to couple with one or more radiofrequency connectors so that a pin of each radiofrequency connector contacts an electrical contact on the printed circuit board; and a cover configured to removably couple to the housing over the cavity to at least partially seal the cavity, the cover has an opening through which a radiofrequency component can be inserted for coupling to the printed circuit board, the opening configured to be sealed with a tool to thereby seal the printed circuit board and radiofrequency component in the cavity. 2. The enclosure of claim 1 wherein the housing has a generally rectangular shape. 3. The enclosure of claim 1 wherein the peripheral wall is defined by a first pair of spaced a part walls that are generally perpendicular to a second pair of spaced apart walls. 4. The enclosure of claim 1 wherein the housing comprises an inner lower shoulder configured to support the printed circuit board when inserted into the cavity. 5. The enclosure of claim 4 further comprising a groove defined in the inner lower shoulder configured to at least partially receive a gasket therein. 6. The enclosure of claim 5 wherein the gasket comprises an electromagnetic isolator elastomer. 7. The enclosure of claim 1 wherein the peripheral wall comprises a groove on a rim of the peripheral wall, the groove configured to at least partially receive a gasket therein. 8. The enclosure of claim 7 wherein the gasket comprises an electromagnetic isolator elastomer. 9. The enclosure of claim 1 wherein the one or more radiofrequency connectors are flange mount SubMiniature version A connectors having a flange configured to mount on an outer surface of the peripheral wall such that the pin of the connectors extends through openings in the peripheral wall. 10. The enclosure of claim 1 wherein a perimeter of the cavity has a size substantially equal to a size of an outer perimeter of the printed circuit board. 11. An enclosure system for shielding printed circuit boards against electromagnetic interference and noise during noise figure testing, comprising: a test fixture; and one or more enclosures removably coupleable to the test fixture, each enclosure comprising: a housing having a cavity defined by and between a peripheral wall of the housing, the cavity configured to receive at least one printed circuit board therein, at least a portion of the peripheral wall configured to couple with one or more radiofrequency connectors so that a pin of each radiofrequency connector contacts an electrical contact on the printed circuit board, and a cover configured to removably couple to the housing over the cavity to at least partially seal the cavity. 12. The enclosure system of claim 11 wherein the one or more enclosures are a pair of enclosures mounted adjacent each other on the test fixture. 13. The enclosure system of claim 11 wherein the peripheral wall is defined by a first pair of spaced a part walls that are generally perpendicular to a second pair of spaced apart walls. 14. The enclosure system of claim 11 wherein the housing comprises an inner lower shoulder configured to support the printed circuit board when inserted into the cavity. 15. The enclosure system of claim 14 further comprising a groove defined in the inner lower shoulder configured to at least partially receive a gasket therein. 16. The enclosure system of claim 15 wherein the gasket comprises an electromagnetic isolator elastomer. 17. The enclosure system of claim 11 wherein the peripheral wall comprises a groove on a rim of the peripheral wall, the groove configured to at least partially receive a gasket therein. 18. The enclosure system of claim 17 wherein the gasket comprises an electromagnetic isolator elastomer. 19. The enclosure system of claim 11 wherein the one or more radiofrequency connectors are flange mount SubMiniature version A connectors having a flange configured to mount on an outer surface of the peripheral wall such that the pin of the connectors extends through openings in the peripheral wall. 20. The enclosure system of claim 11 wherein the cover has an opening through which a radiofrequency component can be inserted for coupling to the printed circuit board.