MEMS device positioning apparatus, test system, and test method

What is claimed is: 1. An apparatus comprising: a support structure; a positioning structure having first and second beams spaced apart from one another, and a third beam interconnected with each of said first and second beams; a fixture for retaining at least one microelectromechanical systems (MEMS) device; a first shaft spanning between said support structure and said positioning structure, said first shaft being configured to rotate about a first axis relative to said support structure in order to rotate said positioning structure and said fixture about said first axis; and a second shaft spanning between said first and second beams of said positioning structure, said fixture being retained on said second shaft, wherein said second shaft is configured to rotate about a second axis relative to said positioning structure in order to rotate said fixture about said second axis, said second axis being orthogonal to said first axis. 2. An apparatus as claimed in claim 1 wherein each of said first and second beams has a first end and a second end, said third beam is interconnected with said each of said first and second beams proximate to said first end, and said second shaft is interconnected with said each of said first and second beams proximate to said second end. 3. An apparatus as claimed in claim 1 wherein: said support structure and said positioning structure are configured to place said fixture in a first position in which a planar surface of said fixture is perpendicular to a third axis, said third axis being perpendicular to each of said first and second axes; said first shaft is configured to rotate said support structure about said first axis to place said fixture in a second position in which said planar surface of said fixture is perpendicular to said second axis; and said second shaft is configured to rotate said fixture about said second axis to place said fixture in a third position in which said planar surface of said fixture is perpendicular to said first axis. 4. An apparatus as claimed in claim 1 further comprising a position sensor coupled to said fixture. 5. An apparatus as claimed in claim 4 wherein said position sensor is configured to detect a first position of said fixture relative to said first axis and a second position of said fixture relative to said second axis. 6. An apparatus as claimed in claim 1 further comprising a rotational drive system for enabling rotation of said positioning structure about said first axis and for enabling rotation of said fixture about said second axis via electric power. 7. An apparatus as claimed in claim 6 wherein said rotational drive system comprises: a motor; and a worm drive including a worm and a worm gear, said worm being coupled with said motor, said worm gear being coupled with said first shaft, and said worm having threads that mesh with teeth of said worm gear. 8. An apparatus as claimed in claim 6 wherein said rotational drive system comprises: a motor; a transfer shaft coupled with said motor; and a worm drive including a worm and a worm gear, said worm being coupled with said transfer shaft, said worm gear being coupled with said second shaft, and said worm having threads that mesh with teeth of said worm gear. 9. An apparatus as claimed in claim 8 wherein said transfer shaft comprises a flexible shaft. 10. An apparatus as claimed in claim 8 wherein each of said first and third beams of said positioning structure includes a hollow region, and said transfer shaft is routed through said hollow region of each of said first and third beams. 11. An apparatus as claimed in claim 6 further comprising a controller for electrically controlling said rotational drive system to position said fixture relative to said first and second axes. 12. An apparatus as claimed in claim 1 wherein said apparatus is configured to be placed in a chamber, and said support structure comprises a face section, said face section forming a sealable door for said chamber such that when said sealable door is attached to said chamber, said positioning structure resides inside said chamber. 13. An apparatus as claimed in claim 12 wherein: said face section comprises a feedthrough port; and said apparatus further comprises a rotational drive system for enabling rotation of said support structure about said first axis and for enabling rotation of said fixture about said second axis, wherein said rotational drive system comprises a motor and a transfer shaft coupled with said motor, said transfer shaft being routed through said feedthrough port, and said transfer shaft being in mechanical communication with said second shaft. 14. An apparatus as claimed in claim 1 wherein said first, second, and third beams of said positioning structure are formed from a ceramic material. 15. A test system for testing a microelectromechanical systems (MEMS) device comprising: a chamber; a support structure, said support structure including a face section, said face section forming a sealable door for said chamber; a positioning structure having first and second beams spaced apart from one another, and a third beam interconnected with each of said first and second beams; a fixture for retaining said MEMS device; a first shaft spanning between said support structure and said positioning structure, said first shaft being configured to rotate about a first axis relative to said support structure in order to rotate said positioning structure and said fixture about said first axis; a second shaft spanning between said first and second beams of said positioning structure, said fixture being retained on said second shaft, wherein said second shaft is configured to rotate about a second axis relative to said positioning structure in order to rotate said fixture about said second axis, said second axis being orthogonal to said first axis; and a rotational drive system for enabling rotation of said positioning structure about said first axis and for enabling rotation of said fixture about said second axis via electric power, wherein when said sealable door is attached to said chamber, said positioning structure resides inside said chamber, and at least a portion of said rotational drive system resides outside of said chamber. 16. A system as claimed in claim 15 wherein said rotational drive system comprises: a dual axis motor; a first worm drive including a first worm and a first worm gear, said first worm being coupled with said dual axis motor, said first worm gear being coupled with said first shaft, and said first worm having first threads that mesh with first teeth of said first worm gear; a transfer shaft coupled with said dual axis motor; and a second worm drive including a second worm and a second worm gear, said second worm being coupled with said transfer shaft, said second worm gear being coupled with said second shaft, and said second worm having second threads that mesh with second teeth of said second worm gear. 17. A system as claimed in claim 16 wherein: said second worm drive is positioned within said chamber; said face section comprises a feedthrough port; said transfer shaft comprises a flexible shaft; and each of said first and third beams of said positioning structure includes a hollow region, and said flexible shaft is routed through said feedthrough port and through said hollow region of each of said first and third beams to couple to said second worm of said second worm drive.