DocumentCode :
1129972
Title :
On-Chip Vacuum Generated by a Micromachined Knudsen Pump
Author :
McNamara, Shamus ; Gianchandani, Yogesh B.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Univ. of Michigan, Ann Arbor, MI, USA
Volume :
14
Issue :
4
fYear :
2005
Firstpage :
741
Lastpage :
746
Abstract :
This paper describes the design, fabrication, and testing of a single-chip micromachined implementation of a Knudsen pump, which uses the principle of thermal transpiration, and has no moving parts. A six-mask microfabrication process was used to fabricate the pump using a glass substrate and silicon wafer. The Knudsen pump and two integrated pressure sensors occupy an area of 1.5 mm 
2 mm. Measurements show that while operating in standard laboratory conditions this device can evacuate a cavity to 0.46 atm using 80 mW input power. The pumpdown time of an on-chip chamber and pressure sensor cavity with a total volume of 80 000 cubic micrometers is only 2 s, with a peak pump speed of 
. High thermal isolation is obtained between the polysilicon heater and the rest of the device. ![\\hfill \\hbox {[1073]}](/images/tex/14978.gif)
2 mm. Measurements show that while operating in standard laboratory conditions this device can evacuate a cavity to 0.46 atm using 80 mW input power. The pumpdown time of an on-chip chamber and pressure sensor cavity with a total volume of 80 000 cubic micrometers is only 2 s, with a peak pump speed of . High thermal isolation is obtained between the polysilicon heater and the rest of the device. Keywords :
micropumps; pressure sensors; vacuum pumps; 0.46 atm; 1.5 mm; 2 mm; 2 s; 80 mW; Knudsen pump; glass substrate; integrated pressure sensors; microfabrication process; on-chip chamber; on-chip vacuum; polysilicon heater; silicon wafer; thermal isolation; thermal transpiration; thermomolecular; vacuum pump; Fabrication; Glass; Heat pumps; Laboratories; Measurement standards; Power measurement; Scattering; Silicon; Temperature; Testing; High temperature; thermal isolation; thermal transpiration; thermomolecular; vacuum pump;
fLanguage :
English
Journal_Title :
Microelectromechanical Systems, Journal of
Publisher :
ieee
ISSN :
1057-7157
Type :
jour
DOI :
10.1109/JMEMS.2005.850718
Filename :
1492425
Link To Document :
