Claims
- 1. A two-dimensional array droplet ejector including:
a body with a plurality of cylindrical wells, an elastic membrane closing one end of each of said plurality of wells, each elastic membrane including at least one aperture, membrane displacement means responsive to applied electrical signals for selectively displacing said membranes, and bulk displacement means in contact with said fluid in all of said wells to provide bulk actuation of the fluid so that the bulk pressure wave is applied to all of membranes, whereby the bulk actuation and the selective membrane displacement combine to selectively eject fluid droplets through said apertures.
- 2. A two-dimensional array as in claim 1 in which the body is silicon micromachined by masking and etching to form said plurality of cylindrical wells.
- 3. A two-dimensional array as in claim 1 in which the body is selected from semiconductor material, metal, plastic or glass.
- 4. A two-dimensional array as in claim 2 in which said elastic membranes are semiconductor material.
- 5. A two-dimensional array as in claim 2 or 3 in which the membrane is selected from silicon nitride, silicon, semiconductor material, plastic, metal or glass.
- 6. A two-dimensional array as in claim 1 in which the bulk displacement means comprise thickness mode piezoelectric transducers operated in the shear or longitudinal mode.
- 7. A two-dimensional array as in claim 1 in which the bulk displacement means is selected from the group comprising electrostatic, piezoelectric, magnetostatic, magnetostrictive or pneumatic.
- 8. A two-dimensional array as in claim 1 in which the membrane displacement means is selected from the group comprising electrostatic, electromagnetic, magnetostrictive, piezoelectric and thermal.
- 9. A two-dimensional array as in claim 7 in which the membrane displacement means is selected from the group comprising electrostatic, electromagnetic, magnetostrictive, piezoelectric and thermal.
- 10. A two-dimensional array fluid droplet ejector including:
a semiconductor substrate having a plurality of closely spaced cylindrical wells, an elastic membrane of semiconductor material closing one end of each of said plurality of wells, each elastic membrane including at least one aperture, membrane displacement means associated with each of said membranes for displacing the membrane responsive to an electrical command, means for selectively exciting the membrane displacement means, and bulk fluid displacement means associated with the fluid to provide bulk actuation of the fluid to generate fluid pressure waves at each of said membranes.
- 11. A two-dimensional array as in claim 10 in which the substrate is a silicon body micromachined by etching to form said plurality of wells.
- 12. A two-dimensional array as in claim 10 in which the bulk displacement means comprise thickness mode piezoelectric transducers operated in the shear or longitudinal mode.
- 13. A two-dimensional array as in claim 10 in which the bulk displacement means is selected from the group comprising electrostatic, piezoelectric magnetostatic, or pneumatic.
- 14. A two-dimensional array as in claim 10 in which the membrane displacement means is selected from the group comprising electrostatic, electromagnetic, magnetostrictive, piezoelectric and thermal.
- 15. A two-dimensional array as in claim 10 in which said bulk fluid displacement means includes a plurality of displacement means, one associated with each of said cylindrical wells, and means for selectively exciting said individual bulk displacement means.
- 16. The method of operating a two-dimensional droplet ejector array of the type including a substrate with a plurality of wells, an elastic membrane closing one end of each of said plurality of wells, each elastic membrane including at least one aperture, membrane displacement means responsive to applied electrical signals for selectively displacing said membranes, and bulk displacement means associated with said fluid to provide bulk actuation of the fluid so that the bulk pressure wave is applied to all of membranes, whereby the bulk actuation and the selective membrane displacement combine to selectively eject droplets,
comprising the steps of applying bulk actuation waves having an amplitude sufficient to form a meniscus at each aperture without ejecting droplets and selectively applying electrical signals to said membrane displacement means of sufficient amplitude to eject droplets.
- 17. The method of operating a two-dimensional droplet ejector array of the type including a substrate with a plurality of wells, an elastic membrane closing one end of each of said plurality of wells, each elastic membrane including at least one aperture, membrane displacement means responsive to applied electrical signals for selectively displacing said membranes, and bulk displacement means associated with said fluid to provide bulk actuation of the fluid so that the bulk pressure wave is applied to all of membranes, whereby the bulk actuation and the selective membrane displacement combine to selectively eject droplets,
comprising the steps of applying bulk actuation waves having an amplitude sufficient to eject droplets from each of said apertures and selectively applying electrical signals to said membrane displacement means to inhibit ejection of droplets from selected apertures.
- 18. The method of claims 16 or 17 including the step of applying electrical signals to said membrane displacement means which cause the membrane to vibrate.
- 19. A two-dimensional array droplet ejector including:
a body with a plurality of cylindrical wells, an elastic membrane closing one end of each of said plurality of wells, each elastic membrane including at least one aperture, and bulk displacement means in contact with said fluid in all of said wells to provide bulk actuation of the fluid so that the bulk pressure wave is applied to all of the membranes, whereby the bulk actuation ejects fluid droplets through said apertures.
- 20. A two-dimensional array as in claim 19 in which the body is silicon micromachined by masking and etching to form said plurality of cylindrical wells.
- 21. A two-dimensional array as in claim 20 in which said elastic membranes are semiconductor material.
- 22. A two-dimensional array as in claim 19 in which the bulk displacement means comprise thickness mode piezoelectric transducers operated in the shear or longitudinal mode.
- 23. A fluid droplet ejector comprising:
a body having at least one cylindrical reservoir, an elastic membrane closing one end of the reservoir, said membrane including at least one aperture, and bulk displacement means associated with the material in said reservoir to actuate the fluid in said reservoir to deflect the membrane and eject fluid droplets through said aperture.
- 24. A fluid droplet ejector as in claim 23 in which said membrane is provided with actuation means whereby the membrane can be independently deflected.
- 25. A fluid drop ejector as in claim 23 including a plurality of cylindrical reservoirs, a plurality of membranes, one for each reservoir, and a plurality of bulk displacement means, one for each reservoir, and means for selectively actuating the displacement means to selectively eject fluid droplets.
- 26. A fluid droplet ejector as in claim 24 including a plurality of cylindrical reservoirs, and a plurality of membranes, and bulk actuation means to simultaneously actuate the fluid in all of said reservoirs.
RELATED APPLICATIONS
[0001] This application claims priority to provisional application Ser. No. 60/184,691 filed Feb. 24, 2000.
GOVERNMENT SUPPORT
[0002] This invention was made with Government support under Contract No. F49620-95-1-0525 awarded by the Department of the Air Force Office of Scientific Research. The Government has certain rights in this invention.
Provisional Applications (1)
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Number |
Date |
Country |
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60184691 |
Feb 2000 |
US |