Title :
Tribological testing technology for sub-10 nm flying height recording system
Author :
Zhimin Yuan ; Bo Liu ; Ka Wei Ng ; Rui Xian ; Lei Wan ; Wei Zhang ; Shengbin Hu
Author_Institution :
Data Storage Inst., Singapore, Singapore
Abstract :
As the technology goes to sub-10 nm head-disk clearance, the head flying stability, which is disturbed by slider disk contact or the waveness of the disk, becomes the most important concern. The optical FH tester is not suitable due to the use of special glass disk. The LDV cannot measure the gap FH with enough precision. The in-situ FH testing technology is a good solution to test the slider-tube-disk interaction and the flying stability at sub-10 nm FH. This work integrated the in-situ FH testing function and other common tribological testing functions, such as CSS, L/UL, AE, TA into one testing platform. But the main focus is on the characterization of the head flying stability and the slider-tube-disk interaction.
Keywords :
automatic testing; disc drives; dynamic testing; hard discs; stability; HDD; disk morphology; flying height; head flying stability; head-disk clearance; in-situ FH testing technology; slider disk contact; slider-tube-disk interaction; tribological testing technology; Cascading style sheets; Disk recording; Glass; Lubricants; Magnetic heads; Magnetic recording; Monitoring; Morphology; Stability; System testing;
Conference_Titel :
Magnetic Recording Conference, 2002. Digest of the Asia-Pacific
Conference_Location :
Singapore
Print_ISBN :
0-7803-7509-2
DOI :
10.1109/APMRC.2002.1037713
