Title :
In-situ measurement of reader gap length
Author :
Wang, Wenyao ; Huo, Hong ; Tan, Victor M H
Author_Institution :
Seagate Technol. Int., Singapore
Abstract :
We are presenting a technique to perform the reader-gap length in-situ measurement. It utilizes the presence of the first gap minimum on the third harmonic readback signal spectrum to calculate the electrical reader-gap length, and factor the electrical result to the physical reader-gap length. Compared with existing metrology-based methods, the measurement is non-destructive, dynamic, and insensitive against the skew angle change.
Keywords :
length measurement; magnetic heads; nondestructive testing; GMR reader; electrical reader-gap length; gap loss term; in-situ reader-gap length measurement; nondestructive measurement; third harmonic readback signal spectrum; Fourier series; Frequency estimation; Geometry; Head; Image sensors; Length measurement; Performance evaluation; Permeability; Predictive models; Wavelength measurement; Reader-gap length; gap loss term; third harmonic readback signal;
Conference_Titel :
Magnetic Recording Conference, 2009. APMRC '09. Asia-Pacific
Conference_Location :
Singapore
Print_ISBN :
978-9810-82191-3
DOI :
10.1109/APMRC.2009.4925401
