Design of a real-time adaptable decoupled disturbance observer (Addob) on dual-stage controlled HDD systems
In hard-disk drive (HDD) system, disturbance observer (DOB) is widely used to eliminate external disturbance which is introduced by audio vibration. However, this technology has not been developed in modem dual-stage controlled HDD system yet. Besides this, the performance of DOB is greatly relyi...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2016
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/68681 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | In hard-disk drive (HDD) system, disturbance observer (DOB) is widely
used to eliminate external disturbance which is introduced by audio vibration.
However, this technology has not been developed in modem dual-stage controlled
HDD system yet. Besides this, the performance of DOB is greatly relying on the
design of its internal Q-filter. For simpler implementation, a pre-defined Q-fdter is
used. It normally has fixed amplitude and bandwidth, based on the observation from
actual HDD performance under worst case scenario. But, sometimes this may not
optimize the performance of all the drives which may be operated in random
environment, such as different temperature, humidity or air pressure.
This project targets to design a real-time Adaptable Decoupled Disturbance
OBserver (ADDOB) in a dual-stage controlled HDD system. The proposed
technique may improve system’s ability in audio noise handling. The control loop
ofboth actuators will install a DOB to tackle noises within certain frequency bands.
Basically primary actuator will deal with lower frequency components while higher
frequency components will be handled by secondary micro-actuator. Their Q-filter
will be adjusted according to the output o f frequency detector. Phase lock loop
(PLL) based algorithm is the main technique used here for frequency detection.
The proposed system was developed and tested in a commercial HDD
product. Test results had proven the effectiveness o f ADDOB. Any narrow band
audio noise within 400Hz to 2.3 kHz was successfully detected and its impact on
position error signal (PES) was eventually reduced by half. |
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