Zero-g offset identification of an accelerometer employed in a hard disk drive
First Claim
1. A method of manufacturing a disk drive, comprising:
- obtaining the output of an accelerometer mounted on a printed circuit board of a disk drive, the output having a component corresponding to each of three mutually orthogonal axes including a vertical axis oriented vertically to experience a 1 G acceleration due to gravity;
converting each of the three component outputs into a digital format;
determining if an offset exists in the output of the accelerometer in each of the three mutually orthogonal axes, and determining the offset for the vertical axis relative to a normal 1 G acceleration value for the type of accelerometer mounted on the printed circuit board;
adjusting the accelerometer output reading from each of the three mutually orthogonal axes to add or subtract the offset for each of the three mutually orthogonal axes in subsequent outputs independent of the orientation of the accelerometer; and
placing the accelerometer in a hard disk drive.
5 Assignments
0 Petitions
Accused Products
Abstract
A method is provided for identifying offsets of accelerometers integrated into hard disk drives. More specifically, often, disk drives employ accelerometers that constantly monitor the acceleration felt by the disk drive. Once the accelerations are less than a predetermined threshold, a free fall event is identified and an actuator arm that is generally positioned above the disk is placed in a safe location prior to impact. Accelerometers must be calibrated prior to use such that their inherent errors are identified and factored into the algorithm that identifies free fall. The method provided herein allows for the 0 g offset to be monitored without having to reorient the device being tested, thus saving time and money.
28 Citations
8 Claims
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1. A method of manufacturing a disk drive, comprising:
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obtaining the output of an accelerometer mounted on a printed circuit board of a disk drive, the output having a component corresponding to each of three mutually orthogonal axes including a vertical axis oriented vertically to experience a 1 G acceleration due to gravity; converting each of the three component outputs into a digital format; determining if an offset exists in the output of the accelerometer in each of the three mutually orthogonal axes, and determining the offset for the vertical axis relative to a normal 1 G acceleration value for the type of accelerometer mounted on the printed circuit board; adjusting the accelerometer output reading from each of the three mutually orthogonal axes to add or subtract the offset for each of the three mutually orthogonal axes in subsequent outputs independent of the orientation of the accelerometer; and placing the accelerometer in a hard disk drive. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification