A novel back-shooting inkjet printhead using trench-filling and SOI wafer

A novel thermal inkjet printhead with monolithically fabricated nickel nozzle plate on SOI wafer has been proposed for the first time. A chamber and a restrictor are implemented on the 40 μm thick top silicon layer, and a nozzle plate covering heater layers is monolithically fabricated on them. Unli...

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Bibliographic Details
Published in:Sensors and actuators. A. Physical. 2004-09, Vol.114 (2), p.392-397
Main Authors: Baek, S.S., Lim, H.-T., Song, H., Kim, Y.-S., Bae, K.-D., Cho, C.-H., Lee, C.-S., Shin, J.-W., Shin, S.-J., Kuk, K., Oh, Y.-S.
Format: Article
Language:English
Subjects:
Nickel nozzle plate
SOI wafer
Thermal inkjet printhead
Trench isolation
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Summary:A novel thermal inkjet printhead with monolithically fabricated nickel nozzle plate on SOI wafer has been proposed for the first time. A chamber and a restrictor are implemented on the 40 μm thick top silicon layer, and a nozzle plate covering heater layers is monolithically fabricated on them. Unlike the general back-shooters, the inkjet printhead reported here is a kind of back-shooter, which has a chamber and a restrictor with arbitrary shape by utilizing the silicon dioxide etch-stop layers in the bottom and sidewalls of chamber. Moreover, the electroplating process for nozzle, followed by placing the chamber underneath the heater layer, is performed on a planar surface, resulting in more uniform and reliable control of nozzle size. The new design was applied for monochrome inkjet printhead, which has 56 nozzles in two columns with real 600 NPI (nozzle per inch), and showed good performances such as a drop velocity of 12 m/s, a drop volume of 30 pl, and a maximum firing frequency of 12 kHz for single nozzle ejection. From nozzle by nozzle inspection, we observed the uniformity variation of less than 4% in drop speed as well as drop volume. The monolithic fabrication process resulted in a good uniformity and is expected to have superior manufacturing yield to the nozzle assembly process.
ISSN:0924-4247
1873-3069
DOI:10.1016/j.sna.2003.12.023