Title :
HDD Micro-actuator Reliability Study
Author :
Jiang, Mingxiao ; Bordson, Todd ; Gunderson, Neal ; Lawrence, Bruce
Abstract :
Seagate designed a micro-actuator that enables fine positioning by a dual-stage servo system to increase recording density of hard disk drives (HDDs). In this paper, a degradation accelerated life test (ALT) performed at Seagate using two stressors (temperature and AC voltage) is discussed. Statistical ALT analysis techniques were used to assess the test results. Finally, the Palgrem-Miner´s damage accumulation rule was employed (applied AC voltage on micro-actuator being a narrow-band random process) to predict the micro-actuator reliability. The results show that the micro-actuator designed by Seagate demonstrates very high long-term reliability. The approach presented in this paper can be universally applied for predicting device field reliability using in-house ALT data modeling and field usage profile information
Keywords :
disc drives; hard discs; life testing; microactuators; reliability; AC voltage; HDD micro-actuator reliability; Palgrem-Miner´s damage accumulation rule; Seagate; accelerated life test; actuator reliability; dual-stage servo system; field usage profile information; hard disk drives; recording density; stressors; temperature; Degradation; Disk recording; Hard disks; Life estimation; Life testing; Microactuators; Performance evaluation; Servomechanisms; Temperature; Voltage;
Conference_Titel :
Reliability and Maintainability Symposium, 2007. RAMS '07. Annual
Conference_Location :
Orlando, FL
Print_ISBN :
0-7803-9766-5
Electronic_ISBN :
0149-144X
DOI :
10.1109/RAMS.2007.328124
