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LSM330D Datasheet(PDF) 19 Page - STMicroelectronics |
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LSM330D Datasheet(HTML) 19 Page - STMicroelectronics |
19 / 66 page LSM330D Terminology Doc ID 022562 Rev 2 19/66 3 Terminology 3.1 Sensitivity Linear acceleration sensitivity can be determined e.g. by applying 1 g acceleration to the device. Because the sensor can measure DC accelerations, this can be done easily by pointing the selected axis towards the ground, noting the output value, rotating the sensor 180 degrees (pointing towards the sky) and noting the output value again. By doing so, ±1 g acceleration is applied to the sensor. Subtracting the larger output value from the smaller one, and dividing the result by 2, leads to the actual sensitivity of the sensor. This value changes very little over temperature and over time. The sensitivity tolerance describes the range of sensitivities of a large number of sensors. Angular Rate Sensitivity describes the angular rate gain of the sensor and can be determined by applying a defined angular velocity to it. This value changes very little over temperature and also very little over time. 3.2 Zero level Linear acceleration zero-g level offset (TyOff) describes the deviation of an actual output signal from the ideal output signal if no acceleration is present. A sensor in a steady state on a horizontal surface will measure 0 g on both the X axis and Y axes, whereas the Z axis will measure 1 g. Ideally, the output is in the middle of the dynamic range of the sensor (content of OUT registers 00h, data expressed as 2’s complement number). A deviation from the ideal value in this case is called zero-g offset. Offset is to some extent a result of stress to MEMS sensor and therefore the offset can slightly change after mounting the sensor onto a printed circuit board or exposing it to extensive mechanical stress. Offset changes little over temperature, see “Linear acceleration zero-g level change vs. temperature” in Table 3. The zero-g level tolerance (TyOff) describes the standard deviation of the range of zero-g levels of a group of sensors. Angular rate zero-rate level describes the actual output value if there is no angular rate present. zero-rate level of precise MEMS sensors is, to some extent, a result of stress to the sensor and therefore zero-rate level can slightly change after mounting the sensor onto a printed circuit board or after exposing it to extensive mechanical stress. This value changes very little over temperature and over time. |
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