referencedesigns:rd104-rfjoystick
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referencedesigns:rd104-rfjoystick [2020/01/27 03:55] engineer |
referencedesigns:rd104-rfjoystick [2020/02/10 10:10] (current) faizan |
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| This information can be used to evaluate the device inclination. As examples, if the gravity vector is measured to be downwards, the device is pointing up. If gravity vector is pointing to the right, the device is tilted to the right side. If gravity is up, the device is upside down. | This information can be used to evaluate the device inclination. As examples, if the gravity vector is measured to be downwards, the device is pointing up. If gravity vector is pointing to the right, the device is tilted to the right side. If gravity is up, the device is upside down. | ||
| - | {{ :referencedesigns:rd104-rfjoystick:rd104_01.png?direct&600 |}} | + | {{ :referencedesigns:rd104_01.png?direct&600 |}} |
| A 3-axis accelerometer provides independent measurement channels on three mutually orthogonal axes, usually labelled X, Y and Z -- although the actual interpretation of those is completely arbitrary and application-dependent. | A 3-axis accelerometer provides independent measurement channels on three mutually orthogonal axes, usually labelled X, Y and Z -- although the actual interpretation of those is completely arbitrary and application-dependent. | ||
referencedesigns/rd104-rfjoystick.1580115312.txt.gz · Last modified: 2020/01/27 03:55 by engineer
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